thooge/esp32-nmea2000-obp60
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base: thooge:1d2ba2f71deaa8001cd530b1ed46cd12d50bdc65
Branches Tags
thooge:master thooge:extended thooge:anchor thooge:keypad thooge:tracker thooge:sdcard thooge:system thooge:barograph
thooge:r20250120a-obp40 thooge:r20250116a-demo
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compare: thooge:extended
Branches Tags
thooge:extended thooge:anchor thooge:master thooge:keypad thooge:tracker thooge:sdcard thooge:system thooge:barograph
thooge:r20250120a-obp40 thooge:r20250116a-demo

63 Commits
1d2ba2f71d ... extended

Author SHA1 Message Date
Thomas Hooge
ce5d4e231f Some code cleanup 2026-03-19 15:34:51 +01:00
Thomas Hooge
caf833e6ac Integrate many changes from master 2026-03-18 13:29:57 +01:00
Thomas Hooge
b2e67880d3 First step for N2K devicelist 2026-01-08 18:42:48 +01:00
Thomas Hooge
a8cf34343f Config data for tracker page 2025-09-09 15:32:56 +02:00
Thomas Hooge
c00a0ecbed Prepared page tracker 2025-09-07 08:50:33 +02:00
Thomas Hooge
a16ee74b32 Integrate master branch changes 2025-08-31 14:17:39 +02:00
Thomas Hooge
601d56ee49 Calibration feature switchable as compiler option, 
new page code example by page windrose
 2025-08-29 19:21:29 +02:00
Thomas Hooge
9a04029cb4 Add webserver options to platformio.ini 2025-08-26 17:45:29 +02:00
Thomas Hooge
22e3ca3875 Switch to current webserver version and some small fixes 2025-08-26 17:17:48 +02:00
Thomas Hooge
8e72537286 Improve task start code for sensors and spiled 2025-08-26 12:23:39 +02:00
Thomas Hooge
494acbf0d0 Work on system page 2025-08-25 20:56:14 +02:00
Thomas Hooge
d7251eeb8a Code cleanup for keyboard task 2025-08-25 20:47:42 +02:00
Thomas Hooge
c4406fd009 Preapared AIS target list in boatdata 2025-08-24 08:32:43 +02:00
Thomas Hooge
0097a1eb1e Active data display in page skyview 2025-08-23 08:45:35 +02:00
Thomas Hooge
c932724473 More work on formatter 2025-08-22 15:17:54 +02:00
Thomas Hooge
672a3843d1 Some code cleanup 2025-08-22 14:31:48 +02:00
Thomas Hooge
1e0acf2a8f Improve and speedup undervoltage detection code 2025-08-22 14:20:55 +02:00
Thomas Hooge
63ae42588f Use placeholder from formatter for missing data text 2025-08-22 14:13:35 +02:00
Thomas Hooge
cba21574cb Move formatValue to formatter class 2025-08-21 12:34:17 +02:00
Thomas Hooge
fbe6c1a9a5 Prepared formatter class for boat values. E.g. for better config handling 2025-08-21 10:34:58 +02:00
Thomas Hooge
ae9334236b Implemented string boatdata value WPName for next waypoint 2025-08-20 21:33:08 +02:00
Thomas Hooge
318a218470 Integrate changes from master 2025-08-19 09:11:51 +02:00
Thomas Hooge
c6df6eac56 Adapt barograph page to current code 2025-08-15 10:46:59 +02:00
Thomas Hooge
4513f9d7b0 Merge branch 'barograph' into extended 2025-08-15 09:46:12 +02:00
Thomas Hooge
2749f25d15 Added page method leavePage() for e.g. cleanup and storage code 2025-08-14 15:11:13 +02:00
Thomas Hooge
992348ce92 Code cleanup 2025-08-14 12:50:18 +02:00
Thomas Hooge
8695d3eeb5 Move config code into page constructors and some code cleanup 2025-08-14 09:12:56 +02:00
Thomas Hooge
54b4954797 Fixed SD card initialization and added some code to system page 2025-08-13 17:41:06 +02:00
Thomas Hooge
1ada6e5a82 Code improvements: commonData, config and logger in page class 2025-08-12 21:35:52 +02:00
Thomas Hooge
15ca3614ba Include uptime in system page 2025-08-12 13:29:36 +02:00
Thomas Hooge
e5ca2a3a3d More work on system page 2025-08-12 09:57:52 +02:00
Thomas Hooge
cf305e9f5a NMEA2000 access for system page 2025-08-06 15:21:29 +02:00
Thomas Hooge
f823dadc6b Moved to c++17 and espressif32 @ 6.9.0, fixed waypoint boatdata code 2025-08-06 14:05:58 +02:00
Thomas Hooge
2d47702627 Added waypoint name to boatdata 2025-08-06 12:03:00 +02:00
Thomas Hooge
15674543b6 Some modifications to avoid AP connection problems 2025-08-06 11:36:05 +02:00
Thomas Hooge
0dd6b7c9cf Preparation for upcoming new pages 2025-08-05 15:31:41 +02:00
Thomas Hooge
cbc0c09d65 Tool for creating JSON from configuration file 2025-08-05 12:07:07 +02:00
Thomas Hooge
1d05c2b5d4 Added INI style device configuration files 2025-08-05 11:21:57 +02:00
Thomas Hooge
38bdc4f577 Switch to xbm image logo 2025-08-05 09:18:54 +02:00
Thomas Hooge
b8a31f2280 Finalize switch to epd pointer instead if getdisplay() 2025-08-05 08:52:45 +02:00
Thomas Hooge
7cff3e62e6 Integrate some SD card code 2025-08-05 08:13:04 +02:00
Thomas Hooge
39966098cc Switched obp60task.cpp to epd pointer 2025-08-04 21:25:01 +02:00
Thomas Hooge
11a061d5a2 Consolidating development hints in README file 2025-08-04 21:13:40 +02:00
Thomas Hooge
4600cb7228 Start switching from getdisplay to epd pointer 2025-08-04 20:57:50 +02:00
Thomas Hooge
e89d1ac62e Merge branch 'clock' into extended 2025-08-04 15:35:13 +02:00
Thomas Hooge
6fb5e01969 Preparation for new anchor page 2025-08-04 15:28:49 +02:00
Thomas Hooge
5c731bc662 Fixed config.json 2025-08-04 14:36:41 +02:00
Thomas Hooge
25c2742f5b Merge branch 'symbols' into extended 2025-08-04 14:14:27 +02:00
Thomas Hooge
6479c7d711 Fixed SkyView: return value needed, enabled for OBP40 2025-08-04 13:47:50 +02:00
Thomas Hooge
e287bfa72e Merge branch 'skyview' into extended 2025-08-04 13:16:57 +02:00
Thomas Hooge
5a652e2c19 Merge branch 'precision' into extended 2025-08-04 12:58:42 +02:00
Thomas Hooge
5081f3a684 Merge branch 'scripts' into extended 2025-08-04 12:57:57 +02:00
Thomas Hooge
7de226b447 Merge branch 'system' into extended 2025-08-04 12:39:54 +02:00
Thomas Hooge
f6e2fa7806 Mark extended firmware and prepare for getdisplay() replacement 2025-08-04 12:37:50 +02:00
Thomas Hooge
d5b0af3b19 Integrated config menu into system page 2025-08-03 21:18:08 +02:00
Thomas Hooge
aed389f3b2 Added code for configuration menu handling 2025-08-01 17:08:01 +02:00
Thomas Hooge
32ba4a64ed Add friendly color names to color class for system page display 2025-07-31 14:23:11 +02:00
thooge
7edd201daa Merge branch 'norbert-walter:master' into system 2025-07-31 13:20:39 +02:00
Thomas Hooge
f4d88f1b8b Code rework at page system. Preparation for config menu. 2025-07-31 11:39:23 +02:00
Thomas Hooge
08cd2ad4b1 Some work on page clock concerning default time source 2025-07-09 15:07:52 +02:00
Thomas Hooge
b50d82eff0 Header switcheable between text and symbol view, symbols added 2025-02-06 17:51:26 +01:00
Thomas Hooge
6ae4e195d6 First template for sky view page 2025-01-21 20:48:43 +01:00
Thomas Hooge
c5e346f4eb First design experiments for barograph 2024-12-21 10:25:53 +01:00
112 changed files with 10942 additions and 8110 deletions
Expand all files Collapse all files

1
.gitignore vendored
View File

@@ -6,3 +6,4 @@
generated/*
lib/generated
webinstall/token.php
*~

5
lib/api/GwApi.h
View File

@@ -2,6 +2,8 @@
#define _GWAPI_H
#include "GwMessage.h"
#include "N2kMsg.h"
#include "Nmea2kTwai.h"
#include "N2kDeviceList.h"
#include "NMEA0183Msg.h"
#include "GWConfig.h"
#include "GwBoatData.h"
@@ -23,6 +25,7 @@ class GwApi{
bool formatSet=false;
public:
double value=0;
String svalue="";
bool valid=false;
int source=-1;
bool changed=false; //will be set by getBoatDataValues
@@ -222,6 +225,8 @@ class GwApi{
* accessing boat data must only be executed from within the main thread
* you need to use the request pattern as shown in GwExampleTask.cpp
*/
virtual Nmea2kTwai *getNMEA2000()=0;
virtual tN2kDeviceList *getN2kDeviceList()=0;
virtual GwBoatData *getBoatData()=0;
virtual ~GwApi(){}
};

2
lib/appinfo/GwAppInfo.h
View File

@@ -19,4 +19,4 @@
#else
#define FIRMWARE_TYPE GWSTRINGIFY(PIO_ENV_BUILD)
#endif
#define IDF_VERSION GWSTRINGIFY(ESP_IDF_VERSION_MAJOR) "." GWSTRINGIFY(ESP_IDF_VERSION_MINOR) "." GWSTRINGIFY(ESP_IDF_VERSION_PATCH)
#define IDF_VERSION GWSTRINGIFY(ESP_IDF_VERSION_MAJOR) "." GWSTRINGIFY(ESP_IDF_VERSION_MINOR) "." GWSTRINGIFY(ESP_IDF_VERSION_PATCH)

76
lib/boatData/GwBoatData.cpp
View File

@@ -2,11 +2,6 @@
#include <GwJsonDocument.h>
#include <ArduinoJson/Json/TextFormatter.hpp>
#include "GWConfig.h"
#define GWTYPE_DOUBLE 1
#define GWTYPE_UINT32 2
#define GWTYPE_UINT16 3
#define GWTYPE_INT16 4
#define GWTYPE_USER 100
class GwBoatItemTypes
{
@@ -15,7 +10,9 @@ public:
static int getType(const uint16_t &x) { return GWTYPE_UINT16; }
static int getType(const int16_t &x) { return GWTYPE_INT16; }
static int getType(const double &x) { return GWTYPE_DOUBLE; }
static int getType(const String &x) { return GWTYPE_STRING; }
static int getType(const GwSatInfoList &x) { return GWTYPE_USER + 1; }
static int getType(const GwAisTargetList &x) { return GWTYPE_USER + 1; }
};
bool GwBoatItemBase::isValid(unsigned long now) const
@@ -252,6 +249,10 @@ static void writeToString(GwTextWriter *writer, const int16_t &value)
{
writer->writeInteger(value);
}
static void writeToString(GwTextWriter *writer, String value)
{
writer->writeString(value.c_str());
}
static void writeToString(GwTextWriter *writer, GwSatInfoList &value)
{
writer->writeInteger(value.getNumSats());
@@ -288,6 +289,8 @@ template class GwBoatItem<double>;
template class GwBoatItem<uint32_t>;
template class GwBoatItem<uint16_t>;
template class GwBoatItem<int16_t>;
template class GwBoatItem<String>;
void GwSatInfoList::houseKeeping(unsigned long ts)
{
if (ts == 0)
@@ -301,6 +304,7 @@ void GwSatInfoList::houseKeeping(unsigned long ts)
}),
sats.end());
}
void GwSatInfoList::update(GwSatInfo entry, unsigned long validTill)
{
entry.validTill = validTill;
@@ -343,6 +347,63 @@ void GwBoatDataSatList::toJsonDoc(GwJsonDocument *doc, unsigned long minTime)
GwBoatItem<GwSatInfoList>::toJsonDoc(doc, minTime);
}
void GwAisTargetList::houseKeeping(unsigned long ts)
{
if (ts == 0) {
ts = millis();
}
targets.erase(
std::remove_if(
targets.begin(),
targets.end(),
[ts, this](const GwAisTarget &target) {
return target.validTill < ts;
}
),
targets.end()
);
}
void GwAisTargetList::update(GwAisTarget target, unsigned long validTill)
{
target.validTill = validTill;
for (auto it = targets.begin(); it != targets.end(); it++) {
if (it->mmsi == target.mmsi) {
*it = target;
houseKeeping();
return;
}
}
houseKeeping();
targets.push_back(target);
}
GwBoatDataAisList::GwBoatDataAisList(String name, String formatInfo, GwBoatItemBase::TOType toType, GwBoatItemMap *map) : GwBoatItem<GwAisTargetList>(name, formatInfo, toType, map) {}
bool GwBoatDataAisList::update(GwAisTarget target, int source)
{
unsigned long now = millis();
if (isValid(now))
{
//priority handling
//sources with lower ids will win
//and we will not overwrite their value
if (lastUpdateSource < source)
{
return false;
}
}
lastUpdateSource = source;
uls(now);
data.update(target, now+invalidTime);
return true;
}
void GwBoatDataAisList::toJsonDoc(GwJsonDocument *doc, unsigned long minTime)
{
data.houseKeeping();
GwBoatItem<GwAisTargetList>::toJsonDoc(doc, minTime);
}
GwBoatData::GwBoatData(GwLog *logger, GwConfigHandler *cfg)
{
this->logger = logger;
@@ -512,6 +573,11 @@ bool convertToJson(const GwSatInfoList &si, JsonVariant &variant)
return variant.set(si.getNumSats());
}
bool convertToJson(const GwAisTargetList &si, JsonVariant &variant)
{
return variant.set(si.getNumTargets());
}
#ifdef _UNDEF
#include <ArduinoJson/Json/TextFormatter.hpp>

72
lib/boatData/GwBoatData.h
View File

@@ -9,6 +9,13 @@
#define GW_BOAT_VALUE_LEN 32
#define GWSC(name) static constexpr const char* name=#name
#define GWTYPE_DOUBLE 1
#define GWTYPE_UINT32 2
#define GWTYPE_UINT16 3
#define GWTYPE_INT16 4
#define GWTYPE_STRING 5
#define GWTYPE_USER 100
//see https://github.com/wellenvogel/esp32-nmea2000/issues/44
//factor to convert from N2k/SI rad/s to current NMEA rad/min
#define ROT_WA_FACTOR 60
@@ -58,6 +65,7 @@ class GwBoatItemBase{
GWSC(formatRot);
GWSC(formatDate);
GWSC(formatTime);
GWSC(formatName);
protected:
int type;
unsigned long lastSet=0;
@@ -92,6 +100,7 @@ class GwBoatItemBase{
virtual int getLastSource(){return lastUpdateSource;}
virtual void refresh(unsigned long ts=0){uls(ts);}
virtual double getDoubleValue()=0;
virtual String getStringValue()=0;
String getName(){return name;}
const String & getFormat() const{return format;}
virtual void setInvalidTime(GwConfigHandler *cfg);
@@ -120,7 +129,17 @@ template<class T> class GwBoatItem : public GwBoatItemBase{
if (! isValid(millis())) return defaultv;
return data;
}
virtual double getDoubleValue(){return (double)data;}
virtual double getDoubleValue(){
if constexpr (std::is_same<T, String>::value) {
return 0.0; // TODO any better ideas?
} else {
return (double)data;
}
}
virtual String getStringValue(){
return (String)data;
}
virtual void fillString();
virtual void toJsonDoc(GwJsonDocument *doc, unsigned long minTime);
virtual int getLastSource(){return lastUpdateSource;}
@@ -177,6 +196,55 @@ public:
};
class GwAisTarget {
public:
uint32_t mmsi;
char callsign[8];
char name[21];
uint8_t vesseltype;
double lat;
double lon;
float length;
float beam;
float sog;
float cog;
unsigned long validTill;
};
class GwAisTargetList {
public:
static const GwBoatItemBase::TOType toType=GwBoatItemBase::TOType::ais;
std::vector<GwAisTarget> targets;
void houseKeeping(unsigned long ts=0);
void update(GwAisTarget target, unsigned long validTill);
int getNumTargets() const {
return targets.size();
}
GwAisTarget *getAt(int idx){
if (idx >= 0 && idx < targets.size()) return &targets.at(idx);
return NULL;
}
operator double(){ return getNumTargets();}
};
class GwBoatDataAisList : public GwBoatItem<GwAisTargetList> {
public:
GwBoatDataAisList(String name, String formatInfo, GwBoatItemBase::TOType toType, GwBoatItemMap *map = NULL);
bool update(GwAisTarget target, int source);
virtual void toJsonDoc(GwJsonDocument *doc, unsigned long minTime);
GwAisTarget *getAt(int idx) {
if (! isValid()) return NULL;
return data.getAt(idx);
}
int getNumTargets(){
if (! isValid()) return 0;
return data.getNumTargets();
}
virtual double getDoubleValue(){
return (double)(data.getNumTargets());
}
};
class GwBoatItemNameProvider
{
public:
@@ -235,7 +303,9 @@ class GwBoatData{
GWBOATDATA(double,XTE,formatXte) // cross track error
GWBOATDATA(double,WPLat,formatLatitude) // waypoint latitude
GWBOATDATA(double,WPLon,formatLongitude) // waypoint longitude
GWBOATDATA(String,WPName,formatName) // waypoint name
GWSPECBOATDATA(GwBoatDataSatList,SatInfo,GwSatInfoList::toType,formatFixed0);
GWSPECBOATDATA(GwBoatDataAisList,AisTarget,GwAisTargetList::toType,formatFixed0);
public:
GwBoatData(GwLog *logger, GwConfigHandler *cfg);
~GwBoatData();

2
lib/config/GwConverterConfig.h
View File

@@ -113,4 +113,4 @@ class GwConverterConfig{
};
#endif
#endif

4
lib/gwupdate/GwUpdate.cpp
View File

@@ -79,7 +79,7 @@ GwUpdate::GwUpdate(GwLog *log, GwWebServer *webserver, PasswordChecker ckr)
}
if (!param->hasError())
{
AsyncWebParameter *hash=request->getParam("_hash");
const AsyncWebParameter *hash=request->getParam("_hash");
if (! hash){
hash=request->getParam("_hash",true);
}
@@ -141,4 +141,4 @@ GwUpdate::GwUpdate(GwLog *log, GwWebServer *webserver, PasswordChecker ckr)
}
}
});
}
}

2
lib/gwwebserver/GwWebServer.cpp
View File

@@ -27,7 +27,7 @@ void sendEmbeddedFile(String name,String contentType,AsyncWebServerRequest *requ
std::map<String,EmbeddedFile*>::iterator it=embeddedFiles.find(name);
if (it != embeddedFiles.end()){
EmbeddedFile* found=it->second;
AsyncWebServerResponse *response=request->beginResponse_P(200,contentType,found->start,found->len);
AsyncWebServerResponse *response=request->beginResponse(200, contentType, found->start, found->len);
response->addHeader(F("Content-Encoding"), F("gzip"));
request->send(response);
}

13
lib/gwwifi/GWWifi.h
View File

@@ -2,6 +2,9 @@
#define _GWWIFI_H
#include <WiFi.h>
#include <GWConfig.h>
#include <freertos/FreeRTOS.h>
#include <freertos/semphr.h>
class GwWifi{
private:
const GwConfigHandler *config;
@@ -16,15 +19,21 @@ class GwWifi{
bool apActive=false;
bool fixedApPass=true;
bool clientIsConnected=false;
SemaphoreHandle_t wifiMutex=nullptr;
static const TickType_t WIFI_MUTEX_TIMEOUT=pdMS_TO_TICKS(1000);
bool acquireMutex();
void releaseMutex();
public:
const char *AP_password = "esp32nmea2k";
GwWifi(const GwConfigHandler *config,GwLog *log, bool fixedApPass=true);
~GwWifi();
void setup();
void loop();
bool clientConnected();
bool connectClient();
bool connectClient(); // Blocking version
bool connectClientAsync(); // Non-blocking version for other tasks
String apIP();
bool isApActive(){return apActive;}
bool isClientActive(){return wifiClient->asBoolean();}
};
#endif
#endif

102
lib/gwwifi/GwWifi.cpp
View File

@@ -1,7 +1,6 @@
#include <esp_wifi.h>
#include "GWWifi.h"
GwWifi::GwWifi(const GwConfigHandler *config,GwLog *log, bool fixedApPass){
this->config=config;
this->logger=log;
@@ -9,6 +8,28 @@ GwWifi::GwWifi(const GwConfigHandler *config,GwLog *log, bool fixedApPass){
wifiSSID=config->getConfigItem(config->wifiSSID,true);
wifiPass=config->getConfigItem(config->wifiPass,true);
this->fixedApPass=fixedApPass;
wifiMutex=xSemaphoreCreateMutex();
if (wifiMutex==nullptr){
LOG_DEBUG(GwLog::ERROR,"GwWifi: unable to create mutex");
}
}
GwWifi::~GwWifi(){
if (wifiMutex!=nullptr){
vSemaphoreDelete(wifiMutex);
wifiMutex=nullptr;
}
}
bool GwWifi::acquireMutex(){
if (wifiMutex==nullptr) return false;
return xSemaphoreTake(wifiMutex,WIFI_MUTEX_TIMEOUT)==pdTRUE;
}
void GwWifi::releaseMutex(){
if (wifiMutex!=nullptr){
xSemaphoreGive(wifiMutex);
}
}
void GwWifi::setup(){
LOG_DEBUG(GwLog::LOG,"Wifi setup");
@@ -85,8 +106,14 @@ bool GwWifi::connectInternal(){
if (wifiClient->asBoolean()){
clientIsConnected=false;
LOG_DEBUG(GwLog::LOG,"creating wifiClient ssid=%s",wifiSSID->asString().c_str());
// CRITICAL SECTION: WiFi operations has to be serialized
if (!acquireMutex()){
LOG_DEBUG(GwLog::ERROR,"GwWifi: mutex timeout in connectInternal");
return false;
}
WiFi.setAutoReconnect(false); //#102
wl_status_t rt=WiFi.begin(wifiSSID->asCString(),wifiPass->asCString());
releaseMutex();
LOG_DEBUG(GwLog::LOG,"wifiClient connect returns %d",(int)rt);
lastConnectStart=millis();
return true;
@@ -104,8 +131,42 @@ void GwWifi::loop(){
if (lastConnectStart > now || (lastConnectStart + RETRY_MILLIS) < now)
{
LOG_DEBUG(GwLog::LOG,"wifiClient: retry connect to %s", wifiSSID->asCString());
WiFi.disconnect();
connectInternal();
// Keep locked sections short to avoid cross-core stalls/WDT.
if (acquireMutex()){
WiFi.disconnect(true);
releaseMutex();
}
else{
LOG_DEBUG(GwLog::ERROR,"GwWifi: mutex timeout in loop (disconnect)");
}
delay(300);
if (acquireMutex()){
esp_err_t stopErr=esp_wifi_stop();
releaseMutex();
if (stopErr != ESP_OK){
LOG_DEBUG(GwLog::ERROR,"GwWifi: esp_wifi_stop failed: %d",(int)stopErr);
}
}
else{
LOG_DEBUG(GwLog::ERROR,"GwWifi: mutex timeout in loop (stop)");
}
delay(100);
if (acquireMutex()){
esp_err_t startErr=esp_wifi_start();
releaseMutex();
if (startErr != ESP_OK){
LOG_DEBUG(GwLog::ERROR,"GwWifi: esp_wifi_start failed: %d",(int)startErr);
}
connectInternal();
}
else{
LOG_DEBUG(GwLog::ERROR,"GwWifi: mutex timeout in loop (start)");
}
}
}
else{
@@ -126,15 +187,46 @@ void GwWifi::loop(){
}
}
}
bool GwWifi::clientConnected(){
return WiFi.status() == WL_CONNECTED;
// CRITICAL SECTION: WiFi.status() has to be protected
if (!acquireMutex()){
LOG_DEBUG(GwLog::ERROR,"GwWifi: mutex timeout in clientConnected");
return false; // conservative: assume not connected
}
bool result = WiFi.status() == WL_CONNECTED;
releaseMutex();
return result;
};
bool GwWifi::connectClient(){
// CRITICAL SECTION: disconnect and connect has to be atomar
if (!acquireMutex()){
LOG_DEBUG(GwLog::ERROR,"GwWifi: mutex timeout in connectClient");
return false;
}
WiFi.disconnect();
releaseMutex();
return connectInternal();
}
bool GwWifi::connectClientAsync(){
// Non-blocking version: Try to get Mutex but give up immediately
// Ideal for tasks which should not block
if (wifiMutex==nullptr){
LOG_DEBUG(GwLog::ERROR,"GwWifi: mutex not initialized in connectClientAsync");
return false;
}
if (xSemaphoreTake(wifiMutex, 0)!=pdTRUE){
LOG_DEBUG(GwLog::LOG,"GwWifi: connectClientAsync skipped - WiFi busy");
return false; // WiFiis busy, try again later
}
WiFi.disconnect();
xSemaphoreGive(wifiMutex);
return connectInternal();
}
String GwWifi::apIP(){
if (! apActive) return String();
return WiFi.softAPIP().toString();
}
}

2
lib/iictask/GwQMP6988.cpp
View File

@@ -113,4 +113,4 @@ SC6988(QMP698822,2,112);
SensorBase::Creator registerQMP6988(GwApi *api){
return SensorBase::Creator();
}
#endif
#endif

2
lib/iictask/SHT3X.cpp
View File

@@ -44,4 +44,4 @@ byte SHT3X::get()
return 0;
}
#endif
#endif

1
lib/nmea0183ton2k/NMEA0183DataToN2K.cpp
View File

@@ -355,6 +355,7 @@ private:
AppendN2kRouteWPInfo(n2kMsg,destinationId,rmb.destID,rmb.latitude,rmb.longitude);
send(n2kMsg,msg.sourceId);
}
boatData->WPName->update(String(rmb.destID), msg.sourceId);
}
void convertRMC(const SNMEA0183Msg &msg)
{

3
lib/nmea2ktwai/Nmea2kTwai.cpp
View File

@@ -9,6 +9,7 @@ static const int TIMEOUT_OFFLINE=256; //# of timeouts to consider offline
Nmea2kTwai::Nmea2kTwai(gpio_num_t _TxPin, gpio_num_t _RxPin, unsigned long recP, unsigned long logP):
tNMEA2000(),RxPin(_RxPin),TxPin(_TxPin)
{
pN2kDeviceList = new tN2kDeviceList(this);
if (RxPin < 0 || TxPin < 0){
disabled=true;
}
@@ -201,4 +202,4 @@ const char * Nmea2kTwai::stateStr(const Nmea2kTwai::STATE &st){
case ST_DISABLED: return "DISABLED";
}
return "ERROR";
}
}

5
lib/nmea2ktwai/Nmea2kTwai.h
View File

@@ -1,6 +1,7 @@
#ifndef _NMEA2KTWAI_H
#define _NMEA2KTWAI_H
#include "NMEA2000.h"
#include "N2kDeviceList.h"
#include "GwTimer.h"
class Nmea2kTwai : public tNMEA2000{
@@ -26,6 +27,7 @@ class Nmea2kTwai : public tNMEA2000{
STATE state=ST_ERROR;
} Status;
Status getStatus();
tN2kDeviceList *getDeviceList(){return pN2kDeviceList;}
unsigned long getLastRecoveryStart(){return lastRecoveryStart;}
void loop();
static const char * stateStr(const STATE &st);
@@ -58,6 +60,7 @@ class Nmea2kTwai : public tNMEA2000{
GwIntervalRunner timers;
bool disabled=false;
unsigned long lastRecoveryStart=0;
tN2kDeviceList *pN2kDeviceList;
};
#endif
#endif

204
lib/obp60task/ConfigMenu.cpp Normal file
View File

@@ -0,0 +1,204 @@
/*
Menu system for online configuration
*/
#include "ConfigMenu.h"
ConfigMenuItem::ConfigMenuItem(String itemtype, String itemlabel, uint16_t itemval, String itemunit) {
if (! (itemtype == "int" or itemtype == "bool")) {
valtype = "int";
} else {
valtype = itemtype;
}
label = itemlabel;
min = 0;
max = std::numeric_limits<uint16_t>::max();
value = itemval;
unit = itemunit;
}
void ConfigMenuItem::setRange(uint16_t valmin, uint16_t valmax, std::vector<uint16_t> valsteps) {
min = valmin;
max = valmax;
steps = valsteps;
};
bool ConfigMenuItem::checkRange(uint16_t checkval) {
return (checkval >= min) and (checkval <= max);
}
String ConfigMenuItem::getLabel() {
return label;
};
uint16_t ConfigMenuItem::getValue() {
return value;
}
bool ConfigMenuItem::setValue(uint16_t newval) {
if (valtype == "int") {
if (newval >= min and newval <= max) {
value = newval;
return true;
}
return false; // out of range
} else if (valtype == "bool") {
value = (newval != 0) ? 1 : 0;
return true;
}
return false; // invalid type
};
void ConfigMenuItem::incValue() {
// increase value by step
if (valtype == "int") {
if (value + step < max) {
value += step;
} else {
value = max;
}
} else if (valtype == "bool") {
value = !value;
}
};
void ConfigMenuItem::decValue() {
// decrease value by step
if (valtype == "int") {
if (value - step > min) {
value -= step;
} else {
value = min;
}
} else if (valtype == "bool") {
value = !value;
}
};
String ConfigMenuItem::getUnit() {
return unit;
}
uint16_t ConfigMenuItem::getStep() {
return step;
}
void ConfigMenuItem::setStep(uint16_t newstep) {
if (std::find(steps.begin(), steps.end(), newstep) == steps.end()) {
return; // invalid step: not in list of possible steps
}
step = newstep;
}
int8_t ConfigMenuItem::getPos() {
return position;
};
void ConfigMenuItem::setPos(int8_t newpos) {
position = newpos;
};
String ConfigMenuItem::getType() {
return valtype;
}
ConfigMenu::ConfigMenu(String menutitle, uint16_t menu_x, uint16_t menu_y) {
title = menutitle;
x = menu_x;
y = menu_y;
};
ConfigMenuItem* ConfigMenu::addItem(String key, String label, String valtype, uint16_t val, String valunit) {
if (items.find(key) != items.end()) {
// duplicate keys not allowed
return nullptr;
}
ConfigMenuItem *itm = new ConfigMenuItem(valtype, label, val, valunit);
items.insert(std::pair<String, ConfigMenuItem*>(key, itm));
// Append key to index, index starting with 0
int8_t ix = items.size() - 1;
index[ix] = key;
itm->setPos(ix);
return itm;
};
void ConfigMenu::setItemDimension(uint16_t itemwidth, uint16_t itemheight) {
w = itemwidth;
h = itemheight;
};
void ConfigMenu::setItemActive(String key) {
if (items.find(key) != items.end()) {
activeitem = items[key]->getPos();
} else {
activeitem = -1;
}
};
int8_t ConfigMenu::getActiveIndex() {
return activeitem;
}
ConfigMenuItem* ConfigMenu::getActiveItem() {
if (activeitem < 0) {
return nullptr;
}
return items[index[activeitem]];
};
ConfigMenuItem* ConfigMenu::getItemByIndex(uint8_t ix) {
if (ix > index.size() - 1) {
return nullptr;
}
return items[index[ix]];
};
ConfigMenuItem* ConfigMenu::getItemByKey(String key) {
if (items.find(key) == items.end()) {
return nullptr;
}
return items[key];
};
uint8_t ConfigMenu::getItemCount() {
return items.size();
};
void ConfigMenu::goPrev() {
if (activeitem == 0) {
activeitem = items.size() - 1;
} else {
activeitem--;
}
}
void ConfigMenu::goNext() {
if (activeitem == items.size() - 1) {
activeitem = 0;
} else {
activeitem++;
}
}
Point ConfigMenu::getXY() {
return {static_cast<double>(x), static_cast<double>(y)};
}
Rect ConfigMenu::getRect() {
return {static_cast<double>(x), static_cast<double>(y),
static_cast<double>(w), static_cast<double>(h)};
}
Rect ConfigMenu::getItemRect(int8_t index) {
return {static_cast<double>(x), static_cast<double>(y + index * h),
static_cast<double>(w), static_cast<double>(h)};
}
void ConfigMenu::setCallback(void (*callback)()) {
fptrCallback = callback;
}
void ConfigMenu::storeValues() {
if (fptrCallback) {
fptrCallback();
}
}

66
lib/obp60task/ConfigMenu.h Normal file
View File

@@ -0,0 +1,66 @@
#pragma once
#include <Arduino.h>
#include <vector>
#include <map>
#include "Graphics.h" // for Point and Rect
class ConfigMenuItem {
private:
String label;
uint16_t value;
String unit;
String valtype; // "int" | "bool"
uint16_t min;
uint16_t max;
std::vector<uint16_t> steps;
uint16_t step;
int8_t position; // counted fom 0
public:
ConfigMenuItem(String itemtype, String itemlabel, uint16_t itemval, String itemunit);
void setRange(uint16_t valmin, uint16_t valmax, std::vector<uint16_t> steps);
bool checkRange(uint16_t checkval);
String getLabel();
uint16_t getValue();
bool setValue(uint16_t newval);
void incValue();
void decValue();
String getUnit();
uint16_t getStep();
void setStep(uint16_t newstep);
int8_t getPos();
void setPos(int8_t newpos);
String getType();
};
class ConfigMenu {
private:
String title;
std::map <String,ConfigMenuItem*> items;
std::map <uint8_t,String> index;
int8_t activeitem = -1; // refers to position of item
uint16_t x;
uint16_t y;
uint16_t w;
uint16_t h;
void (*fptrCallback)();
public:
ConfigMenu(String title, uint16_t menu_x, uint16_t menu_y);
ConfigMenuItem* addItem(String key, String label, String valtype, uint16_t val, String valunit);
void setItemDimension(uint16_t itemwidth, uint16_t itemheight);
int8_t getActiveIndex();
void setItemActive(String key);
ConfigMenuItem* getActiveItem();
ConfigMenuItem* getItemByIndex(uint8_t index);
ConfigMenuItem* getItemByKey(String key);
uint8_t getItemCount();
void goPrev();
void goNext();
Point getXY();
Rect getRect();
Rect getItemRect(int8_t index);
void setCallback(void (*callback)());
void storeValues();
};

6
lib/obp60task/Create_new_pages.txt
View File

@@ -1,6 +0,0 @@
Craete new page for OBP60
1. Create page under /lib/obp60task/PageXXXX.cpp
2. Set page name in PageXXXX.cpp on file name
3. Register new page in /lib/obp60task/obp60task.cpp line 242 (registerAllPages)
4. Add new page in /lib/obp60task/config.json for each page type or add new page to gen_set.py and run it to auto-generate the relevant section of config.json

15
lib/obp60task/ImageDecoder.cpp
View File

@@ -2,13 +2,22 @@
#include <mbedtls/base64.h>
// Decoder for Base64 content
bool ImageDecoder::decodeBase64(const String& base64, uint8_t* outBuffer, size_t outSize, size_t& decodedSize) {
bool ImageDecoder::decodeBase64(const char* base64, size_t base64Len, uint8_t* outBuffer, size_t outSize, size_t& decodedSize) {
if (base64 == nullptr) {
decodedSize = 0;
return false;
}
int ret = mbedtls_base64_decode(
outBuffer,
outSize,
&decodedSize,
(const unsigned char*)base64.c_str(),
base64.length()
(const unsigned char*)base64,
base64Len
);
return (ret == 0);
}
// Decoder for Base64 content
bool ImageDecoder::decodeBase64(const String& base64, uint8_t* outBuffer, size_t outSize, size_t& decodedSize) {
return decodeBase64(base64.c_str(), base64.length(), outBuffer, outSize, decodedSize);
}

1
lib/obp60task/ImageDecoder.h
View File

@@ -5,5 +5,6 @@
class ImageDecoder {
public:
bool decodeBase64(const char* base64, size_t base64Len, uint8_t* outBuffer, size_t outSize, size_t& decodedSize);
bool decodeBase64(const String& base64, uint8_t* outBuffer, size_t outSize, size_t& decodedSize);
};

74
lib/obp60task/LedSpiTask.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#include <FreeRTOS.h>
#include "LedSpiTask.h"
#include "GwHardware.h"
@@ -14,6 +15,30 @@ https://controllerstech.com/ws2812-leds-using-spi/
*/
String Color::toHex() {
char hexColor[8];
sprintf(hexColor, "#%02X%02X%02X", r, g, b);
return String(hexColor);
}
String Color::toName() {
static std::map<int, String> const names = {
{0xff0000, "Red"},
{0x00ff00, "Green"},
{0x0000ff, "Blue",},
{0xff9900, "Orange"},
{0xffff00, "Yellow"},
{0x3366ff, "Aqua"},
{0xff0066, "Violet"},
{0xffffff, "White"}
};
int color = (r << 16) + (g << 8) + b;
auto it = names.find(color);
if (it == names.end()) {
return toHex();
}
return it->second;
}
static uint8_t mulcolor(uint8_t f1, uint8_t f2){
uint16_t rt=f1;
@@ -26,7 +51,7 @@ Color setBrightness(const Color &color,uint8_t brightness){
uint16_t br255=brightness*255;
br255=br255/100;
//Very simple for now
//very simple for now
Color rt=color;
rt.g=mulcolor(rt.g,br255);
rt.b=mulcolor(rt.b,br255);
@@ -61,12 +86,12 @@ static size_t ledsToBuffer(int numLeds,const Color *leds,uint8_t *buffer){
bool prepareGpio(GwLog *logger, uint8_t pin){
esp_err_t err=gpio_set_direction((gpio_num_t)pin,GPIO_MODE_OUTPUT);
if (err != ESP_OK){
LOG_DEBUG(GwLog::ERROR,"unable to set gpio mode for %d: %d",pin,(int)err);
logger->logDebug(GwLog::ERROR, "unable to set gpio mode for %d: %d", pin, (int)err);
return false;
}
err=gpio_set_level((gpio_num_t)pin,0);
if (err != ESP_OK){
LOG_DEBUG(GwLog::ERROR,"unable to set gpio level for %d: %d",pin,(int)err);
logger->logDebug(GwLog::ERROR, "unable to set gpio level for %d: %d", pin, (int)err);
return false;
}
return true;
@@ -92,8 +117,8 @@ bool prepareSpi(GwLog *logger,spi_host_device_t bus,spi_device_handle_t *device)
};
esp_err_t err=spi_bus_initialize(bus,&buscfg,SPI_DMA_CH_AUTO);
if (err != ESP_OK){
LOG_DEBUG(GwLog::ERROR,"unable to initialize SPI bus %d,mosi=%d, error=%d",
(int)bus,-1,(int)err);
logger->logDebug(GwLog::ERROR, "unable to initialize SPI bus %d,mosi=%d, error=%d",
(int)bus, -1, (int)err);
return false;
}
spi_device_interface_config_t devcfg = {
@@ -111,16 +136,16 @@ bool prepareSpi(GwLog *logger,spi_host_device_t bus,spi_device_handle_t *device)
};
err=spi_bus_add_device(bus,&devcfg,device);
if (err != ESP_OK){
LOG_DEBUG(GwLog::ERROR,"unable to add device to SPI bus %d,mosi=%d, error=%d",
(int)bus,-1,(int)err);
logger->logDebug(GwLog::ERROR, "unable to add device to SPI bus %d,mosi=%d, error=%d",
(int)bus, -1, (int)err);
return false;
}
//slightly speed up the transactions
//as we are the only ones using the bus we can safely acquire it forever
err=spi_device_acquire_bus(*device,portMAX_DELAY);
if (err != ESP_OK){
LOG_DEBUG(GwLog::ERROR,"unable to acquire SPI bus %d,mosi=%d, error=%d",
(int)bus,-1,(int)err);
logger->logDebug(GwLog::ERROR,"unable to acquire SPI bus %d,mosi=%d, error=%d",
(int)bus, -1, (int)err);
return false;
}
return true;
@@ -150,7 +175,7 @@ bool sendToLeds(GwLog *logger, uint8_t pin, int numLeds, Color *leds, spi_host_d
buffer = (uint8_t *)heap_caps_malloc(bufferSize, MALLOC_CAP_DMA|MALLOC_CAP_32BIT);
if (!buffer)
{
LOG_DEBUG(GwLog::ERROR, "unable to allocate %d bytes of DMA buffer", (int)bufferSize);
logger->logDebug(GwLog::ERROR, "unable to allocate %d bytes of DMA buffer", (int)bufferSize);
return false;
}
}
@@ -171,12 +196,12 @@ bool sendToLeds(GwLog *logger, uint8_t pin, int numLeds, Color *leds, spi_host_d
int64_t end = esp_timer_get_time();
if (ret != ESP_OK)
{
LOG_DEBUG(GwLog::ERROR, "unable to send led data: %d", (int)ret);
logger->logDebug(GwLog::ERROR, "unable to send led data: %d", (int)ret);
rv = false;
}
else
{
LOG_DEBUG(GwLog::DEBUG, "successfully send led data for %d leds, %lld us", numLeds, end - now);
logger->logDebug(GwLog::DEBUG, "successfully send led data for %d leds, %lld us", numLeds, end - now);
}
if (ownsBuffer)
{
@@ -189,10 +214,10 @@ bool sendToLeds(GwLog *logger, uint8_t pin, int numLeds, Color *leds, spi_host_d
void handleSpiLeds(void *param){
LedTaskData *taskData=(LedTaskData*)param;
GwLog *logger=taskData->api->getLogger();
LOG_DEBUG(GwLog::ERROR,"spi led task initialized");
logger->logDebug(GwLog::ERROR, "spi led task initialized");
spi_host_device_t bus=SPI3_HOST;
bool spiValid=false;
LOG_DEBUG(GwLog::ERROR,"SpiLed task started");
LOG_DEBUG(GwLog::ERROR, "SpiLed task started");
if (! prepareGpio(logger,OBP_FLASH_LED)){
EXIT_TASK;
@@ -211,15 +236,15 @@ void handleSpiLeds(void *param){
LedInterface newLeds=taskData->getLedData();
if (first || current.backlightChanged(newLeds) || current.flasChanged(newLeds)){
first=false;
LOG_DEBUG(GwLog::ERROR,"handle SPI leds");
logger->logDebug(GwLog::ERROR, "handle SPI leds");
if (current.backlightChanged(newLeds) || first){
LOG_DEBUG(GwLog::ERROR,"setting backlight r=%02d,g=%02d,b=%02d",
newLeds.backlight[0].r,newLeds.backlight[0].g,newLeds.backlight[0].b);
logger->logDebug(GwLog::ERROR, "setting backlight r=%02d,g=%02d,b=%02d",
newLeds.backlight[0].r,newLeds.backlight[0].g,newLeds.backlight[0].b);
sendToLeds(logger,OBP_BACKLIGHT_LED,newLeds.backlightLen(),newLeds.backlight,bus,device);
}
if (current.flasChanged(newLeds) || first){
LOG_DEBUG(GwLog::ERROR,"setting flashr=%02d,g=%02d,b=%02d",
newLeds.flash[0].r,newLeds.flash[0].g,newLeds.flash[0].b);
logger->logDebug(GwLog::ERROR, "setting flashr=%02d,g=%02d,b=%02d",
newLeds.flash[0].r,newLeds.flash[0].g,newLeds.flash[0].b);
sendToLeds(logger,OBP_FLASH_LED,newLeds.flashLen(),newLeds.flash,bus,device);
}
current=newLeds;
@@ -229,6 +254,11 @@ void handleSpiLeds(void *param){
vTaskDelete(NULL);
}
void createSpiLedTask(LedTaskData *param){
xTaskCreate(handleSpiLeds,"handleLeds",4000,param,3,NULL);
}
void createSpiLedTask(LedTaskData *param) {
TaskHandle_t xHandle = NULL;
GwLog *logger = param->api->getLogger();
esp_err_t err = xTaskCreate(handleSpiLeds, "handleLeds", configMINIMAL_STACK_SIZE + 2048, param, 3, &xHandle);
if (err != pdPASS) {
logger->logDebug(GwLog::ERROR, "Failed to create spiled task! (err=%d)", err);
};
}

4
lib/obp60task/LedSpiTask.h
View File

@@ -10,7 +10,7 @@ class Color{
uint8_t g;
uint8_t b;
Color():r(0),g(0),b(0){}
Color(uint8_t cr, uint8_t cg,uint8_t cb):
Color(uint8_t cr, uint8_t cg, uint8_t cb):
b(cb),g(cg),r(cr){}
Color(const Color &o):b(o.b),g(o.g),r(o.r){}
bool equal(const Color &o) const{
@@ -22,6 +22,8 @@ class Color{
bool operator != (const Color &other) const{
return ! equal(other);
}
String toHex();
String toName();
};
static Color COLOR_GREEN=Color(0,255,0);

939
lib/obp60task/Logo_OBP_400x300_sw.h
View File

@@ -1,939 +0,0 @@
const unsigned char gImage_Logo_OBP_400x300_sw[15000] = { /* 0X00,0X01,0X90,0X01,0X2C,0X01, */
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,
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939
lib/obp60task/MFD_OBP60_400x300_sw.h
View File

@@ -1,939 +0,0 @@
const unsigned char gImage_MFD_OBP60_400x300_sw[15000] = { /* 0X00,0X01,0X90,0X01,0X2C,0X01, */
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520
lib/obp60task/NetworkClient.cpp
View File

@@ -1,16 +1,140 @@
#include "NetworkClient.h"
#include "GWWifi.h" // WiFi management (thread-safe)
extern GwWifi gwWifi; // Extern declaration of global WiFi instance
extern "C" {
#include "puff.h"
}
static uint32_t crc32_update(uint32_t crc, const uint8_t* data, size_t len) {
crc = ~crc;
for (size_t i = 0; i < len; ++i) {
crc ^= data[i];
for (int bit = 0; bit < 8; ++bit) {
uint32_t mask = -(int32_t)(crc & 1U);
crc = (crc >> 1) ^ (0xEDB88320U & mask);
}
}
return ~crc;
}
// Constructor
NetworkClient::NetworkClient(size_t reserveSize)
: _doc(reserveSize),
_valid(false)
_valid(false),
_jsonRaw(nullptr),
_jsonRawLen(0),
_imageWidth(0),
_imageHeight(0),
_numberPixels(0),
_pictureBase64(nullptr),
_pictureBase64Len(0)
{
}
NetworkClient::~NetworkClient() {
if (_jsonRaw != nullptr) {
free(_jsonRaw);
_jsonRaw = nullptr;
_jsonRawLen = 0;
}
}
bool NetworkClient::findJsonIntField(const char* json, size_t len, const char* key, int& outValue) {
if (json == nullptr || key == nullptr || len == 0) {
return false;
}
char pattern[64];
int plen = snprintf(pattern, sizeof(pattern), "\"%s\"", key);
if (plen <= 0 || (size_t)plen >= sizeof(pattern)) {
return false;
}
const char* keyPos = strstr(json, pattern);
if (keyPos == nullptr) {
return false;
}
const char* end = json + len;
const char* colon = strchr(keyPos + plen, ':');
if (colon == nullptr || colon >= end) {
return false;
}
const char* p = colon + 1;
while (p < end && (*p == ' ' || *p == '\t' || *p == '\r' || *p == '\n')) {
++p;
}
if (p >= end) {
return false;
}
char* parseEnd = nullptr;
long value = strtol(p, &parseEnd, 10);
if (parseEnd == p) {
return false;
}
outValue = (int)value;
return true;
}
bool NetworkClient::extractJsonStringInPlace(char* json, size_t len, const char* key, char*& outValue, size_t& outLen) {
outValue = nullptr;
outLen = 0;
if (json == nullptr || key == nullptr || len == 0) {
return false;
}
char pattern[64];
int plen = snprintf(pattern, sizeof(pattern), "\"%s\"", key);
if (plen <= 0 || (size_t)plen >= sizeof(pattern)) {
return false;
}
char* keyPos = strstr(json, pattern);
if (keyPos == nullptr) {
return false;
}
char* end = json + len;
char* colon = strchr(keyPos + plen, ':');
if (colon == nullptr || colon >= end) {
return false;
}
char* p = colon + 1;
while (p < end && (*p == ' ' || *p == '\t' || *p == '\r' || *p == '\n')) {
++p;
}
if (p >= end || *p != '"') {
return false;
}
char* valueStart = p + 1;
char* cur = valueStart;
while (cur < end) {
if (*cur == '\\') {
++cur;
if (cur < end) {
++cur;
}
continue;
}
if (*cur == '"') {
*cur = '\0';
outValue = valueStart;
outLen = (size_t)(cur - valueStart);
return true;
}
++cur;
}
return false;
}
// Skip GZIP Header an goto DEFLATE content
int NetworkClient::skipGzipHeader(const uint8_t* data, size_t len) {
if (len < 10) return -1;
@@ -48,11 +172,18 @@ int NetworkClient::skipGzipHeader(const uint8_t* data, size_t len) {
// HTTP GET + GZIP Decompression (reading in chunks)
bool NetworkClient::httpGetGzip(const String& url, uint8_t*& outData, size_t& outLen) {
const size_t capacity = READLIMIT; // Read limit for data (can be adjusted in NetworkClient.h)
const size_t capacity = READLIMIT; // Read limit for data (can be adjusted in NetworkClient.h)
uint8_t* buffer = (uint8_t*)malloc(capacity);
// If not with WiFi connectetd then return without any activities
if (!gwWifi.clientConnected()) {
if (DEBUGING) {Serial.println("No WiFi connection");}
return false;
}
// If frame buffer not correct allocated then return without any activities
if (!buffer) {
if (DEBUG) {Serial.println("Malloc failed (buffer");}
if (DEBUGING) {Serial.println("Malloc failed buffer");}
return false;
}
@@ -63,20 +194,50 @@ bool NetworkClient::httpGetGzip(const String& url, uint8_t*& outData, size_t& ou
http.setTimeout(TCPREADTIMEOUT); // Read timeout in ms (can be adjusted in NetworkClient.h)
http.begin(url);
// NEW: force server to close the connection after the response (prevents "stuck" keep-alive reads)
http.addHeader("Connection", "close");
// NEW: request gzip, but we will only decompress if the server actually answers with gzip
http.addHeader("Accept-Encoding", "gzip");
// NEW: register headers BEFORE GET() (more reliable with Arduino HTTPClient)
if (DEBUGING) {
// We need follow key words
const char* keys[] = {
"Content-Encoding",
"Transfer-Encoding",
"Content-Length"
};
// Read header
http.collectHeaders(keys, 3);
}
int code = http.GET();
if (code != HTTP_CODE_OK) {
Serial.printf("HTTP ERROR: %d\n", code);
Serial.printf("HTTP Client ERROR: %d (%s)\n", code, http.errorToString(code).c_str());
// Hard reset HTTP + socket
WiFiClient* tmp = http.getStreamPtr();
if (tmp) tmp->stop(); // Force close TCP socket
http.end();
free(buffer);
return false;
}
else{
if (DEBUGING) {
String ce = http.header("Content-Encoding");
String te = http.header("Transfer-Encoding");
String cl = http.header("Content-Length");
// Print header informations
Serial.printf("Content-Encoding=%s Transfer-Encoding=%s Content-Length=%s\n",
ce.c_str(),
te.c_str(),
cl.c_str());
}
}
WiFiClient* stream = http.getStreamPtr();
@@ -85,55 +246,251 @@ bool NetworkClient::httpGetGzip(const String& url, uint8_t*& outData, size_t& ou
const uint32_t READ_TIMEOUT = READDATATIMEOUT; // Timeout for reading data (can be adjusted in NetworkClient.h)
bool complete = false;
bool aborting = false; // NEW: remember if we must force-close socket
while (http.connected() && !complete) {
// NEW: detect if server really sent gzip
String ce = http.header("Content-Encoding");
bool isGzip = ce.equalsIgnoreCase("gzip");
size_t avail = stream->available();
// NEW: read expected body size if provided by server (prevents waiting forever for missing bytes)
int total = http.getSize(); // returns Content-Length, or -1 if unknown/chunked
if (avail == 0) {
if (millis() - lastData > READ_TIMEOUT) {
Serial.println("TIMEOUT waiting for data!");
break;
}
delay(1);
continue;
}
if (len + avail > capacity)
avail = capacity - len;
int read = stream->readBytes(buffer + len, avail);
len += read;
lastData = millis();
if (DEBUG) {Serial.printf("Read chunk: %d (total: %d)\n", read, (int)len);}
if (len < 20) continue; // Not enough data for header
int headerOffset = skipGzipHeader(buffer, len);
if (headerOffset < 0) continue;
unsigned long testLen = len * 8; // Dynamic expansion
uint8_t* test = (uint8_t*)malloc(testLen);
if (!test) continue;
unsigned long srcLen = len - headerOffset;
int res = puff(test, &testLen, buffer + headerOffset, &srcLen);
if (res == 0) {
if (DEBUG) {Serial.printf("Decompress OK! Size: %lu bytes\n", testLen);}
outData = test;
outLen = testLen;
complete = true;
break;
}
free(test);
// NEW: fail fast if server claims something larger than our buffer
if (total > 0 && (size_t)total > capacity) {
Serial.println("Response exceeds READLIMIT.");
aborting = true;
}
// --- Added: Force-close connection in all cases to avoid stuck TCP sockets ---
if (stream) stream->stop();
// NEW: if not gzip, we will not try to decompress (prevents false "Decompress OK" / random success)
// You can either handle plain JSON here or just fail-fast.
if (!isGzip && !aborting) {
if (DEBUGING) {
Serial.println("Server response is NOT gzip (Content-Encoding != gzip).");
Serial.println("Either disable Accept-Encoding: gzip or add plain-body handling here.");
}
// --- Plain-body handling (recommended): read full body into outData as-is ---
// NEW: try to read Content-Length bytes if available (more robust)
if (total > 0 && (size_t)total > capacity) {
Serial.println("Plain response exceeds READLIMIT.");
aborting = true;
} else {
// Read until we have all bytes (Content-Length) or until connection closes + buffer drains
while ((http.connected() || (stream && stream->available())) && !aborting) {
size_t avail = stream ? stream->available() : 0;
if (avail == 0) {
if (millis() - lastData > READ_TIMEOUT) {
Serial.println("TIMEOUT waiting for data (plain)!");
aborting = true;
break;
}
delay(1);
continue;
}
if (len >= capacity) {
Serial.println("READLIMIT reached, aborting (plain).");
aborting = true;
break;
}
if (len + avail > capacity)
avail = capacity - len;
int read = stream->readBytes(buffer + len, avail);
if (read > 0) {
len += (size_t)read;
lastData = millis();
}
// NEW: stop reading as soon as we have the full response
if (total > 0 && (int)len >= total) {
break; // we got full body
}
}
}
if (aborting) {
// --- Added: Force-close connection only if aborted to avoid TCP RST storms ---
if (stream) stream->stop(); // Force close TCP socket
http.end();
free(buffer);
return false;
}
if (total > 0 && (int)len != total) {
Serial.printf("Plain response incomplete: got=%d expected=%d\n", (int)len, total);
if (stream) stream->stop();
http.end();
free(buffer);
return false;
}
// Return plain body to caller
outData = (uint8_t*)malloc(len + 1);
if (!outData) {
Serial.println("Malloc failed outData (plain).");
// --- Added: Force-close connection only if aborted to avoid TCP RST storms ---
if (stream) stream->stop(); // Force close TCP socket
http.end();
free(buffer);
return false;
}
memcpy(outData, buffer, len);
outData[len] = 0;
outLen = len;
http.end();
free(buffer);
return true;
}
// --- GZIP path (only if Content-Encoding is gzip) ---
if (!aborting) {
// NEW: read exactly Content-Length bytes when available (prevents partial-body timeout loops)
while ((http.connected() || (stream && stream->available())) && !complete && !aborting) {
size_t avail = stream ? stream->available() : 0;
if (avail == 0) {
// NEW: if Content-Length is known and we already read it all, stop immediately
if (total > 0 && (int)len >= total) {
break;
}
if (millis() - lastData > READ_TIMEOUT) {
Serial.println("TIMEOUT waiting for data!");
aborting = true; // NEW: mark abnormal exit
break;
}
delay(1);
continue;
}
// NEW: safety check if buffer limit is reached
if (len >= capacity) {
Serial.println("READLIMIT reached, aborting.");
aborting = true;
break;
}
// NEW: if Content-Length is known, do not read beyond it
if (total > 0) {
size_t remaining = (size_t)total - len;
if (avail > remaining) avail = remaining;
}
if (len + avail > capacity)
avail = capacity - len;
int read = stream->readBytes(buffer + len, avail);
if (read <= 0) {
// NEW: avoid tight loop if read returns zero
delay(1);
continue;
}
len += (size_t)read;
lastData = millis();
if (DEBUGING) {Serial.printf("Read chunk: %d (total: %d)\n", read, (int)len);}
// NEW: if Content-Length is known and fully received, we can stop reading
if (total > 0 && (int)len >= total) {
break;
}
}
// NEW: only attempt gzip parse/decompress after we have a complete body (when Content-Length is known)
// This avoids wasting heap with repeated malloc/free and reduces fragmentation over long runtimes.
if (!aborting) {
if (total > 0 && (int)len != total) {
Serial.printf("GZIP response incomplete: got=%d expected=%d\n", (int)len, total);
aborting = true;
}
}
if (!aborting) {
if (len < 20) {
aborting = true;
} else {
int headerOffset = skipGzipHeader(buffer, len);
if (headerOffset < 0) {
aborting = true;
} else {
size_t deflateLen = len - (size_t)headerOffset;
// GZIP trailer (CRC32 + ISIZE) is 8 bytes and not part of deflate stream.
if (deflateLen >= 8) {
deflateLen -= 8;
}
unsigned long srcLenForSize = (unsigned long)deflateLen;
unsigned long outNeeded = 0;
int sizeRes = puff(NIL, &outNeeded, buffer + headerOffset, &srcLenForSize);
if (sizeRes != 0) {
if (DEBUGING) {
Serial.printf("Decompress size probe failed: res=%d src=%lu\n", sizeRes, srcLenForSize);
}
aborting = true;
} else {
uint8_t* test = (uint8_t*)malloc((size_t)outNeeded + 1);
if (!test) {
Serial.println("Malloc failed test buffer, aborting.");
aborting = true;
} else {
unsigned long srcLen = (unsigned long)deflateLen;
unsigned long testLen = outNeeded;
int res = puff(test, &testLen, buffer + headerOffset, &srcLen);
if (res == 0) {
uint32_t trailerCrc =
(uint32_t)buffer[len - 8] |
((uint32_t)buffer[len - 7] << 8) |
((uint32_t)buffer[len - 6] << 16) |
((uint32_t)buffer[len - 5] << 24);
uint32_t trailerIsize =
(uint32_t)buffer[len - 4] |
((uint32_t)buffer[len - 3] << 8) |
((uint32_t)buffer[len - 2] << 16) |
((uint32_t)buffer[len - 1] << 24);
uint32_t calcCrc = crc32_update(0, test, (size_t)testLen);
uint32_t calcIsize = (uint32_t)testLen;
if (calcCrc != trailerCrc || calcIsize != trailerIsize) {
Serial.printf(
"GZIP CRC/ISIZE mismatch crc=%08lx/%08lx isize=%lu/%lu\n",
(unsigned long)calcCrc,
(unsigned long)trailerCrc,
(unsigned long)calcIsize,
(unsigned long)trailerIsize
);
free(test);
aborting = true;
} else {
test[testLen] = 0;
if (DEBUGING) {Serial.printf("Decompress OK! Size: %lu bytes\n", testLen);}
outData = test;
outLen = (size_t)testLen;
complete = true;
}
} else {
if (DEBUGING) {
Serial.printf("Decompress failed: res=%d out=%lu src=%lu\n", res, testLen, srcLen);
}
free(test);
aborting = true;
}
}
}
}
}
}
}
// --- Added: Force-close connection only if aborted to avoid TCP RST storms ---
if (aborting && stream) stream->stop(); // NEW: stop() only on abnormal termination
http.end();
free(buffer);
@@ -150,6 +507,18 @@ bool NetworkClient::httpGetGzip(const String& url, uint8_t*& outData, size_t& ou
bool NetworkClient::fetchAndDecompressJson(const String& url) {
_valid = false;
_doc.clear();
_imageWidth = 0;
_imageHeight = 0;
_numberPixels = 0;
_pictureBase64 = nullptr;
_pictureBase64Len = 0;
if (_jsonRaw != nullptr) {
free(_jsonRaw);
_jsonRaw = nullptr;
_jsonRawLen = 0;
}
uint8_t* raw = nullptr;
size_t rawLen = 0;
@@ -159,15 +528,38 @@ bool NetworkClient::fetchAndDecompressJson(const String& url) {
return false;
}
DeserializationError err = deserializeJson(_doc, raw, rawLen);
free(raw);
char* json = reinterpret_cast<char*>(raw);
bool ok = true;
ok = findJsonIntField(json, rawLen, "number_pixels", _numberPixels) && ok;
ok = findJsonIntField(json, rawLen, "width", _imageWidth) && ok;
ok = findJsonIntField(json, rawLen, "height", _imageHeight) && ok;
ok = extractJsonStringInPlace(json, rawLen, "picture_base64", _pictureBase64, _pictureBase64Len) && ok;
if (err) {
Serial.printf("JSON ERROR: %s\n", err.c_str());
if (!ok) {
Serial.println("JSON field extraction failed.");
free(raw);
return false;
}
if (DEBUG) {Serial.println("JSON OK!");}
if (_imageWidth <= 0 || _imageHeight <= 0 || _pictureBase64Len == 0) {
Serial.printf("JSON invalid geometry/data w=%d h=%d b64=%u\n",
_imageWidth,
_imageHeight,
(unsigned int)_pictureBase64Len);
free(raw);
return false;
}
_jsonRaw = raw;
_jsonRawLen = rawLen;
if (DEBUGING) {
Serial.printf("JSON fields OK: num=%d w=%d h=%d b64=%u\n",
_numberPixels,
_imageWidth,
_imageHeight,
(unsigned int)_pictureBase64Len);
}
_valid = true;
return true;
}
@@ -176,6 +568,26 @@ JsonDocument& NetworkClient::json() {
return _doc;
}
int NetworkClient::imageWidth() const {
return _imageWidth;
}
int NetworkClient::imageHeight() const {
return _imageHeight;
}
int NetworkClient::numberPixels() const {
return _numberPixels;
}
const char* NetworkClient::pictureBase64() const {
return _pictureBase64;
}
size_t NetworkClient::pictureBase64Len() const {
return _pictureBase64Len;
}
bool NetworkClient::isValid() const {
return _valid;
}

17
lib/obp60task/NetworkClient.h
View File

@@ -3,7 +3,7 @@
#include <WiFi.h>
#include <HTTPClient.h>
#define DEBUG false // Debug flag for NetworkClient for more live information
#define DEBUGING true // Debug flag for NetworkClient for more live information
#define READLIMIT 200000 // HTTP read limit in byte for gzip content (can be adjusted)
#define CONNECTIONTIMEOUT 3000 // Timeout in ms for HTTP connection
#define TCPREADTIMEOUT 2000 // Timeout in ms for read HTTP client stack
@@ -12,16 +12,31 @@
class NetworkClient {
public:
NetworkClient(size_t reserveSize = 0);
~NetworkClient();
bool fetchAndDecompressJson(const String& url);
JsonDocument& json();
int imageWidth() const;
int imageHeight() const;
int numberPixels() const;
const char* pictureBase64() const;
size_t pictureBase64Len() const;
bool isValid() const;
private:
DynamicJsonDocument _doc;
bool _valid;
uint8_t* _jsonRaw;
size_t _jsonRawLen;
int _imageWidth;
int _imageHeight;
int _numberPixels;
char* _pictureBase64;
size_t _pictureBase64Len;
int skipGzipHeader(const uint8_t* data, size_t len);
bool httpGetGzip(const String& url, uint8_t*& outData, size_t& outLen);
static bool findJsonIntField(const char* json, size_t len, const char* key, int& outValue);
static bool extractJsonStringInPlace(char* json, size_t len, const char* key, char*& outValue, size_t& outLen);
};

524
lib/obp60task/OBP60Extensions.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include <Arduino.h>
@@ -24,37 +25,30 @@
#include "fonts/Ubuntu_Bold20pt8b.h"
#include "fonts/Ubuntu_Bold32pt8b.h"
#include "fonts/Atari16px8b.h" // Key label font
#include "fonts/Atari6px8b.h" // Very small (6x6) font
#include "fonts/IBM8x8px.h"
// E-Ink Display
// Definition for e-paper width an height refer OBP60Hardware.h
#define GxEPD_WIDTH 400 // Display width
#define GxEPD_HEIGHT 300 // Display height
#ifdef DISPLAY_GDEW042T2
// Set display type and SPI pins for display
GxEPD2_BW<GxEPD2_420, GxEPD2_420::HEIGHT> display(GxEPD2_420(OBP_SPI_CS, OBP_SPI_DC, OBP_SPI_RST, OBP_SPI_BUSY)); // GDEW042T2 400x300, UC8176 (IL0398)
// Export display in new funktion
GxEPD2_BW<GxEPD2_420, GxEPD2_420::HEIGHT> & getdisplay(){return display;}
#endif
#ifdef DISPLAY_GDEY042T81
// Set display type and SPI pins for display
GxEPD2_BW<GxEPD2_420_GDEY042T81, GxEPD2_420_GDEY042T81::HEIGHT> display(GxEPD2_420_GDEY042T81(OBP_SPI_CS, OBP_SPI_DC, OBP_SPI_RST, OBP_SPI_BUSY)); // GDEW042T2 400x300, UC8176 (IL0398)
// Export display in new funktion
GxEPD2_BW<GxEPD2_420_GDEY042T81, GxEPD2_420_GDEY042T81::HEIGHT> & getdisplay(){return display;}
#endif
#ifdef DISPLAY_GYE042A87
// Set display type and SPI pins for display
GxEPD2_BW<GxEPD2_420_GYE042A87, GxEPD2_420_GYE042A87::HEIGHT> display(GxEPD2_420_GYE042A87(OBP_SPI_CS, OBP_SPI_DC, OBP_SPI_RST, OBP_SPI_BUSY)); // GDEW042T2 400x300, UC8176 (IL0398)
// Export display in new funktion
GxEPD2_BW<GxEPD2_420_GYE042A87, GxEPD2_420_GYE042A87::HEIGHT> & getdisplay(){return display;}
#endif
#ifdef DISPLAY_SE0420NQ04
// Set display type and SPI pins for display
GxEPD2_BW<GxEPD2_420_SE0420NQ04, GxEPD2_420_SE0420NQ04::HEIGHT> display(GxEPD2_420_SE0420NQ04(OBP_SPI_CS, OBP_SPI_DC, OBP_SPI_RST, OBP_SPI_BUSY)); // GDEW042T2 400x300, UC8176 (IL0398)
// Export display in new funktion
GxEPD2_BW<GxEPD2_420_SE0420NQ04, GxEPD2_420_SE0420NQ04::HEIGHT> & getdisplay(){return display;}
#endif
gxepd2display *epd = &display;
// Horter I2C moduls
PCF8574 pcf8574_Modul1(PCF8574_I2C_ADDR1); // First digital IO modul PCF8574 from Horter
@@ -70,6 +64,7 @@ sdmmc_card_t *sdcard;
bool hasSDCard = false;
// Global vars
bool heartbeat = false; // Heartbeat indicator with two different states
bool blinkingLED = false; // Enable / disable blinking flash LED
bool statusLED = false; // Actual status of flash LED on/off
bool statusBacklightLED = false;// Actual status of flash LED on/off
@@ -88,11 +83,11 @@ void hardwareInit(GwApi *api)
Wire.begin();
// Init PCF8574 digital outputs
Wire.setClock(I2C_SPEED_LOW); // Set I2C clock on 10 kHz
if(pcf8574_Modul1.begin()){ // Initialize PCF8574
Wire.setClock(I2C_SPEED_LOW); // Set I2C clock to low for external devices
if (pcf8574_Modul1.begin()) { // Initialize PCF8574
pcf8574_Modul1.write8(255); // Clear all outputs (low activ)
}
Wire.setClock(I2C_SPEED); // Set I2C clock on 100 kHz
Wire.setClock(I2C_SPEED); // Set I2C clock to normal
fram = Adafruit_FRAM_I2C();
if (esp_reset_reason() == ESP_RST_POWERON) {
// help initialize FRAM
@@ -242,17 +237,17 @@ void deepSleep(CommonData &common){
setFlashLED(false); // Flash LED Off
buzzer(TONE4, 20); // Buzzer tone 4kHz 20ms
// Shutdown EInk display
getdisplay().setFullWindow(); // Set full Refresh
getdisplay().fillScreen(common.bgcolor); // Clear screen
getdisplay().setTextColor(common.fgcolor);
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(85, 150);
getdisplay().print("Sleep Mode");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(65, 175);
getdisplay().print("To wake up press key and wait 5s");
getdisplay().nextPage(); // Update display contents
getdisplay().powerOff(); // Display power off
epd->setFullWindow(); // Set full Refresh
epd->fillScreen(common.bgcolor); // Clear screen
epd->setTextColor(common.fgcolor);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(85, 150);
epd->print("Sleep Mode");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(65, 175);
epd->print("To wake up press key and wait 5s");
epd->nextPage(); // Update display contents
epd->powerOff(); // Display power off
setPortPin(OBP_POWER_50, false); // Power off ePaper display
// Stop system
esp_deep_sleep_start(); // Deep Sleep with weakup via touch pin
@@ -266,18 +261,18 @@ void deepSleep(CommonData &common){
setPortPin(OBP_BACKLIGHT_LED, false); // Backlight Off
setFlashLED(false); // Flash LED Off
// Shutdown EInk display
getdisplay().setFullWindow(); // Set full Refresh
//getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().fillScreen(common.bgcolor); // Clear screen
getdisplay().setTextColor(common.fgcolor);
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(85, 150);
getdisplay().print("Sleep Mode");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(65, 175);
getdisplay().print("To wake up press wheel and wait 5s");
getdisplay().nextPage(); // Partial update
getdisplay().powerOff(); // Display power off
epd->setFullWindow(); // Set full Refresh
//epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
epd->fillScreen(common.bgcolor); // Clear screen
epd->setTextColor(common.fgcolor);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(85, 150);
epd->print("Sleep Mode");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(65, 175);
epd->print("To wake up press wheel and wait 5s");
epd->nextPage(); // Partial update
epd->powerOff(); // Display power off
setPortPin(OBP_POWER_EPD, false); // Power off ePaper display
setPortPin(OBP_POWER_SD, false); // Power off SD card
// Stop system
@@ -322,65 +317,69 @@ void setBacklightLED(uint brightness, const Color &color){
ledTaskData->setLedData(current);
}
void toggleBacklightLED(uint brightness, const Color &color){
void toggleBacklightLED(uint brightness, const Color &color) {
if (ledTaskData == nullptr) return;
statusBacklightLED = !statusBacklightLED;
Color nv=setBrightness(statusBacklightLED?color:COLOR_BLACK,brightness);
LedInterface current=ledTaskData->getLedData();
Color nv = setBrightness(statusBacklightLED ? color : COLOR_BLACK, brightness);
LedInterface current = ledTaskData->getLedData();
current.setBacklight(nv);
ledTaskData->setLedData(current);
}
void stepsBacklightLED(uint brightness, const Color &color){
void stepsBacklightLED(uint brightness, const Color &color) {
static uint step = 0;
uint actBrightness = 0;
// Different brightness steps
if(step == 0){
actBrightness = brightness; // 100% from brightess
if (step == 0){
actBrightness = brightness; // 100% from brightness
statusBacklightLED = true;
}
if(step == 1){
actBrightness = brightness * 0.5; // 50% from brightess
else if (step == 1) {
actBrightness = brightness * 0.5; // 50% from brighntess
statusBacklightLED = true;
}
if(step == 2){
actBrightness = brightness * 0.2; // 20% from brightess
else if (step == 2) {
actBrightness = brightness * 0.2; // 20% from brightness
statusBacklightLED = true;
}
if(step == 3){
else if (step == 3) {
actBrightness = 0; // 0%
statusBacklightLED = false;
}
if(actBrightness < 5){ // Limiter if values too low
if (actBrightness < 5) { // Limiter if values too low
actBrightness = 5;
}
step = step + 1; // Increment step counter
if(step == 4){ // Reset counter
step = step + 1; // Increment step counter
if (step == 4) { // Reset counter
step = 0;
}
if (ledTaskData == nullptr) return;
Color nv=setBrightness(statusBacklightLED?color:COLOR_BLACK,actBrightness);
LedInterface current=ledTaskData->getLedData();
if (ledTaskData == nullptr) {
return;
}
Color nv = setBrightness(statusBacklightLED ? color:COLOR_BLACK, actBrightness);
LedInterface current = ledTaskData->getLedData();
current.setBacklight(nv);
ledTaskData->setLedData(current);
}
void setFlashLED(bool status){
if (ledTaskData == nullptr) return;
Color c=status?COLOR_RED:COLOR_BLACK;
LedInterface current=ledTaskData->getLedData();
void setFlashLED(bool status) {
if (ledTaskData == nullptr) {
return;
}
Color c = status ? COLOR_RED : COLOR_BLACK;
LedInterface current = ledTaskData->getLedData();
current.setFlash(c);
ledTaskData->setLedData(current);
}
void blinkingFlashLED(){
if(blinkingLED == true){
void blinkingFlashLED() {
if (blinkingLED == true) {
statusLED = !statusLED; // Toggle LED for each run
setFlashLED(statusLED);
}
}
}
void setBlinkingLED(bool status){
void setBlinkingLED(bool status) {
blinkingLED = status;
}
@@ -410,26 +409,29 @@ void setBuzzerPower(uint power){
buzzerpower = power;
}
// Delete xdr prefix from string
String xdrDelete(String input){
if(input.substring(0,3) == "xdr"){
// Delete xdr prefix from string and optional limit length
String xdrDelete(String input, uint8_t maxlen) {
if (input.substring(0, 3) == "xdr") {
input = input.substring(3, input.length());
}
if (maxlen > 0) {
return input.substring(0, maxlen);
}
return input;
}
void fillPoly4(const std::vector<Point>& p4, uint16_t color) {
getdisplay().fillTriangle(p4[0].x, p4[0].y, p4[1].x, p4[1].y, p4[2].x, p4[2].y, color);
getdisplay().fillTriangle(p4[0].x, p4[0].y, p4[2].x, p4[2].y, p4[3].x, p4[3].y, color);
epd->fillTriangle(p4[0].x, p4[0].y, p4[1].x, p4[1].y, p4[2].x, p4[2].y, color);
epd->fillTriangle(p4[0].x, p4[0].y, p4[2].x, p4[2].y, p4[3].x, p4[3].y, color);
}
void drawPoly(const std::vector<Point>& points, uint16_t color) {
size_t polysize = points.size();
for (size_t i = 0; i < polysize - 1; i++) {
getdisplay().drawLine(points[i].x, points[i].y, points[i+1].x, points[i+1].y, color);
epd->drawLine(points[i].x, points[i].y, points[i+1].x, points[i+1].y, color);
}
// close path
getdisplay().drawLine(points[polysize-1].x, points[polysize-1].y, points[0].x, points[0].y, color);
epd->drawLine(points[polysize-1].x, points[polysize-1].y, points[0].x, points[0].y, color);
}
// Split string into words, whitespace separated
@@ -479,29 +481,29 @@ std::vector<String> wordwrap(String &line, uint16_t maxwidth) {
void drawTextCenter(int16_t cx, int16_t cy, String text) {
int16_t x1, y1;
uint16_t w, h;
getdisplay().getTextBounds(text, 0, 150, &x1, &y1, &w, &h);
getdisplay().setCursor(cx - w / 2, cy + h / 2);
getdisplay().print(text);
epd->getTextBounds(text, 0, 150, &x1, &y1, &w, &h);
epd->setCursor(cx - w / 2, cy + h / 2);
epd->print(text);
}
// Draw centered botton with centered text
void drawButtonCenter(int16_t cx, int16_t cy, int8_t sx, int8_t sy, String text, uint16_t fg, uint16_t bg, bool inverted) {
int16_t x1, y1;
uint16_t w, h;
uint16_t color;
getdisplay().getTextBounds(text, cx, cy, &x1, &y1, &w, &h); // Find text center
getdisplay().setCursor(cx - w/2, cy + h/2); // Set cursor to center
//getdisplay().drawPixel(cx, cy, fg); // Debug pixel for center position
epd->getTextBounds(text, 0, 150, &x1, &y1, &w, &h);
int16_t cursorX = cx - (x1 + static_cast<int16_t>(w / 2));
int16_t cursorY = cy - (y1 + static_cast<int16_t>(h / 2));
//epd->drawPixel(cx, cy, fg); // Debug pixel for center position
if (inverted) {
getdisplay().fillRoundRect(cx - sx / 2, cy - sy / 2, sx, sy, 5, fg); // Draw button
getdisplay().setTextColor(bg);
getdisplay().print(text); // Draw text
}
else{
getdisplay().drawRoundRect(cx - sx / 2, cy - sy / 2, sx, sy, 5, fg); // Draw button
getdisplay().setTextColor(fg);
getdisplay().print(text); // Draw text
epd->fillRoundRect(cx - sx / 2, cy - sy / 2, sx, sy, 5, fg);
epd->setTextColor(bg);
epd->setCursor(cursorX, cursorY);
epd->print(text);
} else {
epd->drawRoundRect(cx - sx / 2, cy - sy / 2, sx, sy, 5, fg); // Draw button
epd->setTextColor(fg);
epd->setCursor(cursorX, cursorY);
epd->print(text);
}
}
@@ -509,43 +511,42 @@ void drawButtonCenter(int16_t cx, int16_t cy, int8_t sx, int8_t sy, String text,
void drawTextRalign(int16_t x, int16_t y, String text) {
int16_t x1, y1;
uint16_t w, h;
getdisplay().getTextBounds(text, 0, 150, &x1, &y1, &w, &h);
getdisplay().setCursor(x - w - 1, y); // '-1' required since some strings wrap around w/o it
getdisplay().print(text);
epd->getTextBounds(text, 0, 150, &x1, &y1, &w, &h);
epd->setCursor(x - w, y);
epd->print(text);
}
// Draw text inside box, normal or inverted
void drawTextBoxed(Rect box, String text, uint16_t fg, uint16_t bg, bool inverted, bool border) {
if (inverted) {
getdisplay().fillRect(box.x, box.y, box.w, box.h, fg);
getdisplay().setTextColor(bg);
epd->fillRect(box.x, box.y, box.w, box.h, fg);
epd->setTextColor(bg);
} else {
if (border) {
getdisplay().fillRect(box.x + 1, box.y + 1, box.w - 2, box.h - 2, bg);
getdisplay().drawRect(box.x, box.y, box.w, box.h, fg);
epd->fillRect(box.x + 1, box.y + 1, box.w - 2, box.h - 2, bg);
epd->drawRect(box.x, box.y, box.w, box.h, fg);
}
getdisplay().setTextColor(fg);
epd->setTextColor(fg);
}
uint16_t border_offset = box.h / 4; // 25% of box height
getdisplay().setCursor(box.x + border_offset, box.y + box.h - border_offset);
getdisplay().print(text);
getdisplay().setTextColor(fg);
epd->setCursor(box.x + border_offset, box.y + box.h - border_offset);
epd->print(text);
epd->setTextColor(fg);
}
// Show a triangle for trend direction high (x, y is the left edge)
void displayTrendHigh(int16_t x, int16_t y, uint16_t size, uint16_t color){
getdisplay().fillTriangle(x, y, x+size*2, y, x+size, y-size*2, color);
epd->fillTriangle(x, y, x+size*2, y, x+size, y-size*2, color);
}
// Show a triangle for trend direction low (x, y is the left edge)
void displayTrendLow(int16_t x, int16_t y, uint16_t size, uint16_t color){
getdisplay().fillTriangle(x, y, x+size*2, y, x+size, y+size*2, color);
epd->fillTriangle(x, y, x+size*2, y, x+size, y+size*2, color);
}
// Show header informations
void displayHeader(CommonData &commonData, GwApi::BoatValue *date, GwApi::BoatValue *time, GwApi::BoatValue *hdop){
void displayHeader(CommonData &commonData, bool symbolmode, GwApi::BoatValue *date, GwApi::BoatValue *time, GwApi::BoatValue *hdop){
static bool heartbeat = false;
static unsigned long usbRxOld = 0;
static unsigned long usbTxOld = 0;
static unsigned long serRxOld = 0;
@@ -557,31 +558,65 @@ void displayHeader(CommonData &commonData, GwApi::BoatValue *date, GwApi::BoatVa
static unsigned long n2kRxOld = 0;
static unsigned long n2kTxOld = 0;
uint16_t symbol_x = 2;
static const uint16_t symbol_offset = 20;
// TODO invert and get rid of the if
if(commonData.config->getBool(commonData.config->statusLine) == true){
// Show status info
getdisplay().setTextColor(commonData.fgcolor);
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(0, 15);
if(commonData.status.wifiApOn){
getdisplay().print(" AP ");
epd->setTextColor(commonData.fgcolor);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(0, 15);
if (commonData.status.wifiApOn) {
if (symbolmode) {
epd->drawXBitmap(symbol_x, 1, iconmap["AP"], icon_width, icon_height, commonData.fgcolor);
symbol_x += symbol_offset;
} else {
epd->print(" AP ");
}
}
// If receive new telegram data then display bus name
if(commonData.status.tcpClRx != tcpClRxOld || commonData.status.tcpClTx != tcpClTxOld || commonData.status.tcpSerRx != tcpSerRxOld || commonData.status.tcpSerTx != tcpSerTxOld){
getdisplay().print("TCP ");
if (symbolmode) {
epd->drawXBitmap(symbol_x, 1, iconmap["TCP"], icon_width, icon_height, commonData.fgcolor);
symbol_x += symbol_offset;
} else {
epd->print("TCP ");
}
}
if(commonData.status.n2kRx != n2kRxOld || commonData.status.n2kTx != n2kTxOld){
getdisplay().print("N2K ");
if (symbolmode) {
epd->drawXBitmap(symbol_x, 1, iconmap["N2K"], icon_width, icon_height, commonData.fgcolor);
symbol_x += symbol_offset;
} else {
epd->print("N2K ");
}
}
if(commonData.status.serRx != serRxOld || commonData.status.serTx != serTxOld){
getdisplay().print("183 ");
if (symbolmode) {
epd->drawXBitmap(symbol_x, 1, iconmap["0183"], icon_width, icon_height, commonData.fgcolor);
symbol_x += symbol_offset;
} else {
epd->print("183 ");
}
}
if(commonData.status.usbRx != usbRxOld || commonData.status.usbTx != usbTxOld){
getdisplay().print("USB ");
if (symbolmode) {
epd->drawXBitmap(symbol_x, 1, iconmap["USB"], icon_width, icon_height, commonData.fgcolor);
symbol_x += symbol_offset;
} else {
epd->print("USB ");
}
}
double gpshdop = formatValue(hdop, commonData).value;
double gpshdop = commonData.fmt->formatValue(hdop, commonData).value;
if(commonData.config->getString(commonData.config->useGPS) != "off" && gpshdop <= commonData.config->getInt(commonData.config->hdopAccuracy) && hdop->valid == true){
getdisplay().print("GPS");
if (symbolmode) {
epd->drawXBitmap(symbol_x, 1, iconmap["GPS"], icon_width, icon_height, commonData.fgcolor);
symbol_x += symbol_offset;
} else {
epd->print("GPS");
}
}
// Save old telegram counter
tcpClRxOld = commonData.status.tcpClRx;
@@ -598,26 +633,26 @@ void displayHeader(CommonData &commonData, GwApi::BoatValue *date, GwApi::BoatVa
#ifdef HARDWARE_V21
// Display key lock status
if (commonData.keylock) {
getdisplay().drawXBitmap(170, 1, lock_bits, icon_width, icon_height, commonData.fgcolor);
epd->drawXBitmap(170, 1, lock_bits, icon_width, icon_height, commonData.fgcolor);
} else {
getdisplay().drawXBitmap(166, 1, swipe_bits, swipe_width, swipe_height, commonData.fgcolor);
epd->drawXBitmap(166, 1, swipe_bits, swipe_width, swipe_height, commonData.fgcolor);
}
#endif
#ifdef LIPO_ACCU_1200
if (commonData.data.BatteryChargeStatus == 1) {
getdisplay().drawXBitmap(170, 1, battery_loading_bits, battery_width, battery_height, commonData.fgcolor);
epd->drawXBitmap(170, 1, battery_loading_bits, battery_width, battery_height, commonData.fgcolor);
} else {
#ifdef VOLTAGE_SENSOR
if (commonData.data.batteryLevelLiPo < 10) {
getdisplay().drawXBitmap(170, 1, battery_0_bits, battery_width, battery_height, commonData.fgcolor);
epd->drawXBitmap(170, 1, battery_0_bits, battery_width, battery_height, commonData.fgcolor);
} else if (commonData.data.batteryLevelLiPo < 25) {
getdisplay().drawXBitmap(170, 1, battery_25_bits, battery_width, battery_height, commonData.fgcolor);
epd->drawXBitmap(170, 1, battery_25_bits, battery_width, battery_height, commonData.fgcolor);
} else if (commonData.data.batteryLevelLiPo < 50) {
getdisplay().drawXBitmap(170, 1, battery_50_bits, battery_width, battery_height, commonData.fgcolor);
epd->drawXBitmap(170, 1, battery_50_bits, battery_width, battery_height, commonData.fgcolor);
} else if (commonData.data.batteryLevelLiPo < 75) {
getdisplay().drawXBitmap(170, 1, battery_75_bits, battery_width, battery_height, commonData.fgcolor);
epd->drawXBitmap(170, 1, battery_75_bits, battery_width, battery_height, commonData.fgcolor);
} else {
getdisplay().drawXBitmap(170, 1, battery_100_bits, battery_width, battery_height, commonData.fgcolor);
epd->drawXBitmap(170, 1, battery_100_bits, battery_width, battery_height, commonData.fgcolor);
}
#endif // VOLTAGE_SENSOR
}
@@ -625,33 +660,33 @@ void displayHeader(CommonData &commonData, GwApi::BoatValue *date, GwApi::BoatVa
// Heartbeat as page number
if (heartbeat) {
getdisplay().setTextColor(commonData.bgcolor);
getdisplay().fillRect(201, 0, 23, 19, commonData.fgcolor);
epd->setTextColor(commonData.bgcolor);
epd->fillRect(201, 0, 23, 19, commonData.fgcolor);
} else {
getdisplay().setTextColor(commonData.fgcolor);
getdisplay().drawRect(201, 0, 23, 19, commonData.fgcolor);
epd->setTextColor(commonData.fgcolor);
epd->drawRect(201, 0, 23, 19, commonData.fgcolor);
}
getdisplay().setFont(&Ubuntu_Bold8pt8b);
epd->setFont(&Ubuntu_Bold8pt8b);
drawTextCenter(211, 9, String(commonData.data.actpage));
heartbeat = !heartbeat;
// Date and time
String fmttype = commonData.config->getString(commonData.config->dateFormat);
fmtDate fmttype = commonData.fmt->getDateFormat(commonData.config->getString(commonData.config->dateFormat));
String timesource = commonData.config->getString(commonData.config->timeSource);
double tz = commonData.config->getString(commonData.config->timeZone).toDouble();
getdisplay().setTextColor(commonData.fgcolor);
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(230, 15);
epd->setTextColor(commonData.fgcolor);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(230, 15);
if (timesource == "RTC" or timesource == "iRTC") {
// TODO take DST into account
if (commonData.data.rtcValid) {
time_t tv = mktime(&commonData.data.rtcTime) + (int)(tz * 3600);
struct tm *local_tm = localtime(&tv);
getdisplay().print(formatTime('m', local_tm->tm_hour, local_tm->tm_min, 0));
getdisplay().print(" ");
getdisplay().print(formatDate(fmttype, local_tm->tm_year + 1900, local_tm->tm_mon + 1, local_tm->tm_mday));
getdisplay().print(" ");
getdisplay().print(tz == 0 ? "UTC" : "LOT");
epd->print(formatTime(fmtTime::MMHH, local_tm->tm_hour, local_tm->tm_min, 0));
epd->print(" ");
epd->print(formatDate(fmttype, local_tm->tm_year + 1900, local_tm->tm_mon + 1, local_tm->tm_mday));
epd->print(" ");
epd->print(tz == 0 ? "UTC" : "LOT");
} else {
drawTextRalign(396, 15, "RTC invalid");
}
@@ -659,18 +694,18 @@ void displayHeader(CommonData &commonData, GwApi::BoatValue *date, GwApi::BoatVa
else if (timesource == "GPS") {
// Show date and time if date present
if(date->valid == true){
String acttime = formatValue(time, commonData).svalue;
String acttime = commonData.fmt->formatValue(time, commonData).svalue;
acttime = acttime.substring(0, 5);
String actdate = formatValue(date, commonData).svalue;
getdisplay().print(acttime);
getdisplay().print(" ");
getdisplay().print(actdate);
getdisplay().print(" ");
getdisplay().print(tz == 0 ? "UTC" : "LOT");
String actdate = commonData.fmt->formatValue(date, commonData).svalue;
epd->print(acttime);
epd->print(" ");
epd->print(actdate);
epd->print(" ");
epd->print(tz == 0 ? "UTC" : "LOT");
}
else{
if(commonData.config->getBool(commonData.config->useSimuData) == true){
getdisplay().print("12:00 01.01.2024 LOT");
epd->print("12:00 01.01.2024 LOT");
}
else{
drawTextRalign(396, 15, "No GPS data");
@@ -678,15 +713,15 @@ void displayHeader(CommonData &commonData, GwApi::BoatValue *date, GwApi::BoatVa
}
} // timesource == "GPS"
else {
getdisplay().print("No time source");
epd->print("No time source");
}
}
}
void displayFooter(CommonData &commonData) {
getdisplay().setFont(&Atari16px);
getdisplay().setTextColor(commonData.fgcolor);
epd->setFont(&Atari16px);
epd->setTextColor(commonData.fgcolor);
#ifdef HARDWARE_V21
// Frame around key icon area
@@ -695,14 +730,14 @@ void displayFooter(CommonData &commonData) {
const uint16_t top = 280;
const uint16_t bottom = 299;
// horizontal stub lines
getdisplay().drawLine(commonData.keydata[0].x, top, commonData.keydata[0].x+10, top, commonData.fgcolor);
epd->drawLine(commonData.keydata[0].x, top, commonData.keydata[0].x+10, top, commonData.fgcolor);
for (int i = 1; i <= 5; i++) {
getdisplay().drawLine(commonData.keydata[i].x-10, top, commonData.keydata[i].x+10, top, commonData.fgcolor);
epd->drawLine(commonData.keydata[i].x-10, top, commonData.keydata[i].x+10, top, commonData.fgcolor);
}
getdisplay().drawLine(commonData.keydata[5].x + commonData.keydata[5].w - 10, top, commonData.keydata[5].x + commonData.keydata[5].w + 1, top, commonData.fgcolor);
epd->drawLine(commonData.keydata[5].x + commonData.keydata[5].w - 10, top, commonData.keydata[5].x + commonData.keydata[5].w + 1, top, commonData.fgcolor);
// vertical key separators
for (int i = 0; i <= 4; i++) {
getdisplay().drawLine(commonData.keydata[i].x + commonData.keydata[i].w, top, commonData.keydata[i].x + commonData.keydata[i].w, bottom, commonData.fgcolor);
epd->drawLine(commonData.keydata[i].x + commonData.keydata[i].w, top, commonData.keydata[i].x + commonData.keydata[i].w, bottom, commonData.fgcolor);
}
for (int i = 0; i < 6; i++) {
uint16_t x, y;
@@ -713,7 +748,7 @@ void displayFooter(CommonData &commonData) {
if (iconmap.find(icon_name) != iconmap.end()) {
x = commonData.keydata[i].x + (commonData.keydata[i].w - icon_width) / 2;
y = commonData.keydata[i].y + (commonData.keydata[i].h - icon_height) / 2;
getdisplay().drawXBitmap(x, y, iconmap[icon_name], icon_width, icon_height, commonData.fgcolor);
epd->drawXBitmap(x, y, iconmap[icon_name], icon_width, icon_height, commonData.fgcolor);
} else {
// icon is missing, use name instead
x = commonData.keydata[i].x + commonData.keydata[i].w / 2;
@@ -728,8 +763,8 @@ void displayFooter(CommonData &commonData) {
}
}
} else {
getdisplay().setCursor(65, 295);
getdisplay().print("Press 1 and 6 fast to unlock keys");
epd->setCursor(65, 295);
epd->print("Press 1 and 6 fast to unlock keys");
}
#endif
#ifdef BOARD_OBP40S3
@@ -740,21 +775,21 @@ void displayFooter(CommonData &commonData) {
uint16_t x0 = (GxEPD_WIDTH - w) / 2 + r * 2;
for (int i = 0; i < commonData.data.maxpage; i++) {
if (i == (commonData.data.actpage - 1)) {
getdisplay().fillCircle(x0 + i * (r * 2 + space), 290, r, commonData.fgcolor);
epd->fillCircle(x0 + i * (r * 2 + space), 290, r, commonData.fgcolor);
} else {
getdisplay().drawCircle(x0 + i * (r * 2 + space), 290, r, commonData.fgcolor);
epd->drawCircle(x0 + i * (r * 2 + space), 290, r, commonData.fgcolor);
}
}
// key indicators
// left side = top key "menu"
getdisplay().drawLine(0, 280, 10, 280, commonData.fgcolor);
getdisplay().drawLine(55, 280, 65, 280, commonData.fgcolor);
getdisplay().drawLine(65, 280, 65, 299, commonData.fgcolor);
epd->drawLine(0, 280, 10, 280, commonData.fgcolor);
epd->drawLine(55, 280, 65, 280, commonData.fgcolor);
epd->drawLine(65, 280, 65, 299, commonData.fgcolor);
drawTextCenter(33, 291, commonData.keydata[0].label);
// right side = bottom key "exit"
getdisplay().drawLine(390, 280, 399, 280, commonData.fgcolor);
getdisplay().drawLine(335, 280, 345, 280, commonData.fgcolor);
getdisplay().drawLine(335, 280, 335, 399, commonData.fgcolor);
epd->drawLine(390, 280, 399, 280, commonData.fgcolor);
epd->drawLine(335, 280, 345, 280, commonData.fgcolor);
epd->drawLine(335, 280, 335, 399, commonData.fgcolor);
drawTextCenter(366, 291, commonData.keydata[1].label);
#endif
}
@@ -767,31 +802,31 @@ void displayAlarm(CommonData &commonData) {
const uint16_t w = 300;
const uint16_t h = 150;
getdisplay().setFont(&Atari16px);
getdisplay().setTextColor(commonData.fgcolor);
epd->setFont(&Atari16px);
epd->setTextColor(commonData.fgcolor);
// overlay
getdisplay().drawRect(x, y, w, h, commonData.fgcolor);
getdisplay().fillRect(x + 1, y + 1, w - 1, h - 1, commonData.bgcolor);
getdisplay().drawRect(x + 3, y + 3, w - 5, h - 5, commonData.fgcolor);
epd->drawRect(x, y, w, h, commonData.fgcolor);
epd->fillRect(x + 1, y + 1, w - 1, h - 1, commonData.bgcolor);
epd->drawRect(x + 3, y + 3, w - 5, h - 5, commonData.fgcolor);
// exclamation icon in left top corner
getdisplay().drawXBitmap(x + 16, y + 16, exclamation_bits, exclamation_width, exclamation_height, commonData.fgcolor);
epd->drawXBitmap(x + 16, y + 16, exclamation_bits, exclamation_width, exclamation_height, commonData.fgcolor);
// title
getdisplay().setCursor(x + 64, y + 30);
getdisplay().print("A L A R M");
getdisplay().setCursor(x + 64, y + 48);
getdisplay().print("#" + commonData.alarm.id);
getdisplay().print(" from ");
getdisplay().print(commonData.alarm.source);
epd->setCursor(x + 64, y + 30);
epd->print("A L A R M");
epd->setCursor(x + 64, y + 48);
epd->print("#" + commonData.alarm.id);
epd->print(" from ");
epd->print(commonData.alarm.source);
// message, but maximum 4 lines
std::vector<String> lines = wordwrap (commonData.alarm.message, w - 16 - 8 / 8);
int n = 0;
for (const auto& l : lines) {
getdisplay().setCursor(x + 16, y + 80 + n);
getdisplay().print(l);
epd->setCursor(x + 16, y + 80 + n);
epd->print(l);
n += 16;
if (n > 64) {
break;
@@ -884,20 +919,20 @@ void batteryGraphic(uint x, uint y, float percent, int pcolor, int bcolor){
}
// Battery corpus 100x80 with fill level
int level = int((100.0 - percent) * (80-(2*t)) / 100.0);
getdisplay().fillRect(xb, yb, 100, 80, pcolor);
epd->fillRect(xb, yb, 100, 80, pcolor);
if(percent < 99){
getdisplay().fillRect(xb+t, yb+t, 100-(2*t), level, bcolor);
epd->fillRect(xb+t, yb+t, 100-(2*t), level, bcolor);
}
// Plus pol 20x15
int xp = xb + 20;
int yp = yb - 15 + t;
getdisplay().fillRect(xp, yp, 20, 15, pcolor);
getdisplay().fillRect(xp+t, yp+t, 20-(2*t), 15-(2*t), bcolor);
epd->fillRect(xp, yp, 20, 15, pcolor);
epd->fillRect(xp+t, yp+t, 20-(2*t), 15-(2*t), bcolor);
// Minus pol 20x15
int xm = xb + 60;
int ym = yb -15 + t;
getdisplay().fillRect(xm, ym, 20, 15, pcolor);
getdisplay().fillRect(xm+t, ym+t, 20-(2*t), 15-(2*t), bcolor);
epd->fillRect(xm, ym, 20, 15, pcolor);
epd->fillRect(xm+t, ym+t, 20-(2*t), 15-(2*t), bcolor);
}
// Solar graphic with fill level
@@ -909,17 +944,17 @@ void solarGraphic(uint x, uint y, int pcolor, int bcolor){
int percent = 0;
// Solar corpus 100x80
int level = int((100.0 - percent) * (80-(2*t)) / 100.0);
getdisplay().fillRect(xb, yb, 100, 80, pcolor);
epd->fillRect(xb, yb, 100, 80, pcolor);
if(percent < 99){
getdisplay().fillRect(xb+t, yb+t, 100-(2*t), level, bcolor);
epd->fillRect(xb+t, yb+t, 100-(2*t), level, bcolor);
}
// Draw horizontel lines
getdisplay().fillRect(xb, yb+28-t, 100, t, pcolor);
getdisplay().fillRect(xb, yb+54-t, 100, t, pcolor);
epd->fillRect(xb, yb+28-t, 100, t, pcolor);
epd->fillRect(xb, yb+54-t, 100, t, pcolor);
// Draw vertical lines
getdisplay().fillRect(xb+19+t, yb, t, 80, pcolor);
getdisplay().fillRect(xb+39+2*t, yb, t, 80, pcolor);
getdisplay().fillRect(xb+59+3*t, yb, t, 80, pcolor);
epd->fillRect(xb+19+t, yb, t, 80, pcolor);
epd->fillRect(xb+39+2*t, yb, t, 80, pcolor);
epd->fillRect(xb+59+3*t, yb, t, 80, pcolor);
}
@@ -931,13 +966,86 @@ void generatorGraphic(uint x, uint y, int pcolor, int bcolor){
int t = 4; // Line thickness
// Generator corpus with radius 45
getdisplay().fillCircle(xb, yb, 45, pcolor);
getdisplay().fillCircle(xb, yb, 41, bcolor);
epd->fillCircle(xb, yb, 45, pcolor);
epd->fillCircle(xb, yb, 41, bcolor);
// Insert G
getdisplay().setTextColor(pcolor);
getdisplay().setFont(&Ubuntu_Bold32pt8b);
getdisplay().setCursor(xb-22, yb+20);
getdisplay().print("G");
epd->setTextColor(pcolor);
epd->setFont(&Ubuntu_Bold32pt8b);
epd->setCursor(xb-22, yb+20);
epd->print("G");
}
// Display rudder position as horizontal bargraph with configurable +/- range (degrees)
void displayRudderPosition(int rudderPosition, uint8_t rangeDeg, uint16_t cx, uint16_t cy, uint16_t fg, uint16_t bg) {
const int w = 360;
const int h = 20;
const int t = 3; // Line thickness
const int halfw = w/2;
const int halfh = h/2;
// Calculate top-left of bar (cx,cy are center of 0°)
int left = int(cx) - halfw;
int top = int(cy) - halfh;
// clamp provided range to allowed bounds [10,45]
if (rangeDeg < 10) {
rangeDeg = 10;
} else if (rangeDeg > 45) {
rangeDeg = 45;
}
// Pixels per degree for +/-rangeDeg -> total span = 2*rangeDeg
const float pxPerDeg = float(w) / (2.0f * float(rangeDeg));
// Draw outer border (thickness t)
for (int i = 0; i < t; i++) {
epd->drawRect(left + i, top + i, w - 2 * i, h - 2 * i, fg);
}
// Fill inner area with background
epd->fillRect(left + t, top + t, w - 2 * t, h - 2 * t, bg);
// Draw center line
epd->drawRect(cx - 1, top + 1, 3 , h - 2, fg);
// Clamp rudder position to -rangeDeg..rangeDeg
if (rudderPosition > (int)rangeDeg) {
rudderPosition = (int)rangeDeg;
} else if (rudderPosition < -((int)rangeDeg)) {
rudderPosition = -((int)rangeDeg);
}
// Compute fill width in pixels
int fillPx = int(round(rudderPosition * pxPerDeg)); // positive -> right
// Fill area from center to position (if non-zero)
int centerx = cx;
int innerTop = top + t;
int innerH = h - 2 * t;
if (fillPx > 0) {
// Right side
epd->fillRect(centerx, innerTop, fillPx, innerH, fg);
} else if (fillPx < 0) {
// Left side
epd->fillRect(centerx + fillPx, innerTop, -fillPx, innerH, fg);
}
// Draw tick marks every 5° and labels outside the bar
epd->setTextColor(fg);
epd->setFont(&Ubuntu_Bold8pt8b);
for (int angle = -((int)rangeDeg); angle <= (int)rangeDeg; angle += 5) {
int xpos = int(round(centerx + angle * pxPerDeg));
// Vertical tick inside bar
epd->drawLine(xpos, top, xpos, top + h + 2, fg);
// Label outside: below the bar
String lbl = String(angle);
int16_t bx, by;
uint16_t bw, bh;
epd->getTextBounds(lbl, 0, 0, &bx, &by, &bw, &bh);
int16_t tx = xpos - bw/2;
int16_t ty = top + h + bh + 5; // A little spacing
epd->setCursor(tx, ty);
epd->print(lbl);
}
}
// Function to handle HTTP image request
@@ -951,7 +1059,7 @@ void doImageRequest(GwApi *api, int *pageno, const PageStruct pages[MAX_PAGE_NUM
logger->logDebug(GwLog::LOG,"handle image request [%s]: %s", imgformat, filename);
uint8_t *fb = getdisplay().getBuffer(); // EPD framebuffer
uint8_t *fb = epd->getBuffer(); // EPD framebuffer
std::vector<uint8_t> imageBuffer; // image in webserver transferbuffer
String mimetype;
@@ -974,37 +1082,11 @@ void doImageRequest(GwApi *api, int *pageno, const PageStruct pages[MAX_PAGE_NUM
createPBM(fb, &imageBuffer, GxEPD_WIDTH, GxEPD_HEIGHT);
}
AsyncWebServerResponse *response = request->beginResponse_P(200, mimetype, (const uint8_t*)imageBuffer.data(), imageBuffer.size());
AsyncWebServerResponse *response = request->beginResponse(200, mimetype, (const uint8_t*)imageBuffer.data(), imageBuffer.size());
response->addHeader("Content-Disposition", "inline; filename=" + filename);
request->send(response);
imageBuffer.clear();
}
// Calculate the distance between two Geo coordinates
double distanceBetweenCoordinates(double lat1, double lon1, double lat2, double lon2) {
// Grad → Radiant
double lat1Rad = lat1 * DEG_TO_RAD;
double lon1Rad = lon1 * DEG_TO_RAD;
double lat2Rad = lat2 * DEG_TO_RAD;
double lon2Rad = lon2 * DEG_TO_RAD;
// Differenzen
double dLat = lat2Rad - lat1Rad;
double dLon = lon2Rad - lon1Rad;
// Haversine-Formel
double a = sin(dLat / 2.0) * sin(dLat / 2.0) +
cos(lat1Rad) * cos(lat2Rad) *
sin(dLon / 2.0) * sin(dLon / 2.0);
double c = 2.0 * atan2(sqrt(a), sqrt(1.0 - a));
// Abstand in Metern
return double(EARTH_RADIUS) * c;
}
#endif

76
lib/obp60task/OBP60Extensions.h
View File

@@ -1,13 +1,14 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#ifndef _OBP60EXTENSIONPORT_H
#define _OBP60EXTENSIONPORT_H
#include <Arduino.h>
#include "OBP60Hardware.h"
#include "OBP60Formatter.h"
#include "LedSpiTask.h"
#include "Graphics.h"
#include <GxEPD2_BW.h> // E-paper lib V2
#include <Adafruit_FRAM_I2C.h> // I2C FRAM
#include <math.h>
#ifdef BOARD_OBP40S3
#include "esp_vfs_fat.h"
@@ -31,9 +32,6 @@
#define FRAM_BAROGRAPH_START 0x0400
#define FRAM_BAROGRAPH_END 0x13FF
#define PI 3.1415926535897932384626433832795
#define EARTH_RADIUS 6371000.0
extern Adafruit_FRAM_I2C fram;
extern bool hasFRAM;
extern bool hasSDCard;
@@ -41,6 +39,8 @@ extern bool hasSDCard;
extern sdmmc_card_t *sdcard;
#endif
extern bool heartbeat;
// Fonts declarations for display (#includes see OBP60Extensions.cpp)
extern const GFXfont DSEG7Classic_BoldItalic16pt7b;
extern const GFXfont DSEG7Classic_BoldItalic20pt7b;
@@ -55,24 +55,22 @@ extern const GFXfont Ubuntu_Bold16pt8b;
extern const GFXfont Ubuntu_Bold20pt8b;
extern const GFXfont Ubuntu_Bold32pt8b;
extern const GFXfont Atari16px;
extern const GFXfont IBM8x8px;
extern const GFXfont Atari6px;
// Global functions
#ifdef DISPLAY_GDEW042T2
GxEPD2_BW<GxEPD2_420, GxEPD2_420::HEIGHT> & getdisplay();
typedef GxEPD2_BW<GxEPD2_420, GxEPD2_420::HEIGHT> gxepd2display;
#endif
#ifdef DISPLAY_GDEY042T81
GxEPD2_BW<GxEPD2_420_GDEY042T81, GxEPD2_420_GDEY042T81::HEIGHT> & getdisplay();
typedef GxEPD2_BW<GxEPD2_420_GDEY042T81, GxEPD2_420_GDEY042T81::HEIGHT> gxepd2display;
#endif
#ifdef DISPLAY_GYE042A87
GxEPD2_BW<GxEPD2_420_GYE042A87, GxEPD2_420_GYE042A87::HEIGHT> & getdisplay();
typedef GxEPD2_BW<GxEPD2_420_GYE042A87, GxEPD2_420_GYE042A87::HEIGHT> gxepd2display;
#endif
#ifdef DISPLAY_SE0420NQ04
GxEPD2_BW<GxEPD2_420_SE0420NQ04, GxEPD2_420_SE0420NQ04::HEIGHT> & getdisplay();
typedef GxEPD2_BW<GxEPD2_420_SE0420NQ04, GxEPD2_420_SE0420NQ04::HEIGHT> gxepd2display;
#endif
extern gxepd2display *epd;
// Page display return values
#define PAGE_OK 0 // all ok, do nothing
@@ -106,7 +104,7 @@ void setBlinkingLED(bool on); // Set blinking flash LED active
void buzzer(uint frequency, uint duration); // Buzzer function
void setBuzzerPower(uint power); // Set buzzer power
String xdrDelete(String input); // Delete xdr prefix from string
String xdrDelete(String input, uint8_t maxlen = 0); // Delete xdr prefix from string and optional limit length
void drawTextCenter(int16_t cx, int16_t cy, String text);
void drawButtonCenter(int16_t cx, int16_t cy, int8_t sx, int8_t sy, String text, uint16_t fg, uint16_t bg, bool inverted);
@@ -116,7 +114,7 @@ void drawTextBoxed(Rect box, String text, uint16_t fg, uint16_t bg, bool inverte
void displayTrendHigh(int16_t x, int16_t y, uint16_t size, uint16_t color);
void displayTrendLow(int16_t x, int16_t y, uint16_t size, uint16_t color);
void displayHeader(CommonData &commonData, GwApi::BoatValue *date, GwApi::BoatValue *time, GwApi::BoatValue *hdop); // Draw display header
void displayHeader(CommonData &commonData, bool symbolmode, GwApi::BoatValue *date, GwApi::BoatValue *time, GwApi::BoatValue *hdop); // Draw display header
void displayFooter(CommonData &commonData);
void displayAlarm(CommonData &commonData);
@@ -128,6 +126,10 @@ void solarGraphic(uint x, uint y, int pcolor, int bcolor); // S
void generatorGraphic(uint x, uint y, int pcolor, int bcolor); // Generator graphic
void startLedTask(GwApi *api);
// Display rudder position as horizontal bargraph with configurable +/- range (degrees)
// 'rangeDeg' is unsigned and will be clamped to [10,45]
void displayRudderPosition(int rudderPosition, uint8_t rangeDeg, uint16_t cx, uint16_t cy, uint16_t fg, uint16_t bg);
void doImageRequest(GwApi *api, int *pageno, const PageStruct pages[MAX_PAGE_NUMBER], AsyncWebServerRequest *request);
// Icons
@@ -164,24 +166,62 @@ static unsigned char fram_bits[] PROGMEM = {
0xff, 0xff, 0xf8, 0x1f, 0xf8, 0x1f, 0xff, 0xff, 0xff, 0xff, 0xf8, 0x1f,
0xf8, 0x1f, 0xff, 0xff, 0xff, 0xff, 0xf8, 0x1f };
static unsigned char ap_bits[] PROGMEM = {
// Header symbols
static unsigned char ap_bits[] PROGMEM= {
0xe0, 0x03, 0x18, 0x0c, 0x04, 0x10, 0xc2, 0x21, 0x30, 0x06, 0x08, 0x08,
0xc0, 0x01, 0x20, 0x02, 0x00, 0x00, 0x80, 0x00, 0xc0, 0x01, 0xc0, 0x01,
0x80, 0x00, 0x80, 0x00, 0x80, 0x00, 0x80, 0x00 };
static unsigned char dish_bits[] PROGMEM = {
static unsigned char gps_bits[] PROGMEM = {
0x3c, 0x00, 0x42, 0x18, 0xfa, 0x1b, 0x02, 0x04, 0x02, 0x0a, 0x02, 0x09,
0x82, 0x08, 0x06, 0x0a, 0x0e, 0x1b, 0x9c, 0x2b, 0x38, 0x2b, 0x74, 0x20,
0xec, 0x1f, 0x1c, 0x00, 0xf4, 0x00, 0xfe, 0x03 };
static unsigned char nmea_bits[] PROGMEM = {
0x00, 0x00, 0x22, 0x21, 0x26, 0x33, 0x26, 0x33, 0x2a, 0x2d, 0x32, 0x2d,
0x32, 0x21, 0x22, 0x21, 0x00, 0x00, 0x3c, 0x0c, 0x04, 0x0c, 0x04, 0x12,
0x3c, 0x12, 0x04, 0x1e, 0x04, 0x21, 0x3c, 0x21 };
static unsigned char n2k_bits[] PROGMEM = {
0xe0, 0x07, 0x18, 0x18, 0x04, 0x20, 0x02, 0x40, 0x32, 0x4c, 0x31, 0x8c,
0x01, 0x80, 0x81, 0x81, 0x81, 0x81, 0x01, 0x80, 0x31, 0x8c, 0x32, 0x4c,
0x02, 0x40, 0x04, 0x20, 0x98, 0x19, 0xe0, 0x07 };
static unsigned char tcp_bits[] PROGMEM = {
0x00, 0x00, 0xe0, 0x03, 0x20, 0x02, 0x20, 0x02, 0x20, 0x02, 0xe0, 0x03,
0x80, 0x00, 0x80, 0x00, 0xff, 0xff, 0x08, 0x10, 0x08, 0x10, 0x3e, 0x7c,
0x22, 0x44, 0x22, 0x44, 0x22, 0x44, 0x3e, 0x7c };
static unsigned char usb_bits[] PROGMEM = {
0x00, 0x00, 0x92, 0x39, 0x52, 0x4a, 0x52, 0x48, 0x92, 0x39, 0x12, 0x4a,
0x52, 0x4a, 0x8c, 0x39, 0x00, 0x00, 0x00, 0x00, 0xf8, 0x1f, 0x04, 0x20,
0xf4, 0x2f, 0x04, 0x20, 0xf8, 0x1f, 0x00, 0x00 };
static unsigned char sdcard_bits[] PROGMEM = {
0xf8, 0x07, 0x0c, 0x08, 0x04, 0x08, 0xc4, 0x09, 0x24, 0x1a, 0xe4, 0x13,
0x04, 0x20, 0x24, 0x21, 0xa4, 0x12, 0x44, 0x12, 0x04, 0x20, 0x04, 0x20,
0xc4, 0x23, 0x34, 0x2c, 0xd8, 0x1b, 0x00, 0x00 };
static unsigned char bluetooth_bits[] PROGMEM = {
0x00, 0x00, 0x22, 0x21, 0x26, 0x33, 0x26, 0x33, 0x2a, 0x2d, 0x32, 0x2d,
0x32, 0x21, 0x22, 0x21, 0x00, 0x00, 0x3c, 0x0c, 0x04, 0x0c, 0x04, 0x12,
0x3c, 0x12, 0x04, 0x1e, 0x04, 0x21, 0x3c, 0x21 };
static std::map<String, unsigned char *> iconmap = {
{"LEFT", left_bits},
{"RIGHT", right_bits},
{"LOCK", lock_bits},
{"PLUS", plus_bits},
{"MINUS", minus_bits},
{"DISH", dish_bits},
{"AP", ap_bits}
{"GPS", gps_bits},
{"AP", ap_bits},
{"0183", nmea_bits},
{"N2K", n2k_bits},
{"TCP", tcp_bits},
{"USB", usb_bits},
{"SDCARD", sdcard_bits},
{"BLUE", bluetooth_bits}
};
// Battery

390
lib/obp60task/OBP60Formatter.cpp
View File

@@ -3,115 +3,91 @@
#include <Arduino.h>
#include "GwApi.h"
#include "Pagedata.h"
#include "OBP60Formatter.h"
// ToDo
// simulation data
// hold values by missing data
String formatDate(String fmttype, uint16_t year, uint8_t month, uint8_t day) {
char buffer[12];
if (fmttype == "GB") {
snprintf(buffer, 12, "%02d/%02d/%04d", day , month, year);
Formatter::Formatter(GwConfigHandler *config) {
// Load configuration values
// TODO do not use strings but enums, see header file
stimeZone = config->getString(config->timeZone);
timeZone = stimeZone.toDouble();
lengthFormat = config->getString(config->lengthFormat);
distanceFormat = config->getString(config->distanceFormat);
speedFormat = config->getString(config->speedFormat);
windspeedFormat = config->getString(config->windspeedFormat);
tempFormat = config->getString(config->tempFormat);
dateFormat = config->getString(config->dateFormat);
dateFmt = getDateFormat(dateFormat);
usesimudata = config->getBool(config->useSimuData);
precision = config->getString(config->valueprecision);
if (precision == "1") {
fmt_dec_1 = "%3.1f";
fmt_dec_10 = "%3.0f";
fmt_dec_100 = "%3.0f";
} else {
fmt_dec_1 = "%3.2f";
fmt_dec_10 = "%3.1f";
fmt_dec_100 = "%3.0f";
}
else if (fmttype == "US") {
snprintf(buffer, 12, "%02d/%02d/%04d", month, day, year);
}
else if (fmttype == "ISO") {
snprintf(buffer, 12, "%04d-%02d-%02d", year, month, day);
}
else {
snprintf(buffer, 12, "%02d.%02d.%04d", day, month, year);
}
return String(buffer);
}
String formatTime(char fmttype, uint8_t hour, uint8_t minute, uint8_t second) {
// fmttype: s: with seconds, m: only minutes
char buffer[10];
if (fmttype == 'm') {
snprintf(buffer, 10, "%02d:%02d", hour , minute);
fmtType Formatter::stringToFormat(const char* formatStr) {
auto it = formatMap.find(formatStr);
if (it != formatMap.end()) {
return it->second;
}
else {
snprintf(buffer, 10, "%02d:%02d:%02d", hour, minute, second);
return fmtType::XDR_G; // generic as default
}
fmtDate Formatter::getDateFormat(String sformat) {
if (sformat == "DE") {
return fmtDate::DE;
}
return String(buffer);
if (sformat == "GB") {
return fmtDate::GB;
}
if (sformat == "US") {
return fmtDate::US;
}
return fmtDate::ISO; // default
}
String formatLatitude(double lat) {
float degree = abs(int(lat));
float minute = abs((lat - int(lat)) * 60);
return String(degree, 0) + "\x90 " + String(minute, 4) + "' " + ((lat > 0) ? "N" : "S");
fmtTime Formatter::getTimeFormat(String sformat) {
if (sformat == "MMHH") {
return fmtTime::MMHH;
}
if (sformat == "MMHHSS") {
return fmtTime::MMHHSS;
}
return fmtTime::MMHH; // default
}
String formatLongitude(double lon) {
float degree = abs(int(lon));
float minute = abs((lon - int(lon)) * 60);
return String(degree, 0) + "\x90 " + String(minute, 4) + "' " + ((lon > 0) ? "E" : "W");
}
// Convert and format boat value from SI to user defined format (definition for compatibility purposes)
FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata) {
return formatValue(value, commondata, false); // call <formatValue> with standard handling of user setting for simulation data
}
// Convert and format boat value from SI to user defined format
// generate random simulation data; can be deselected to use conversion+formatting function even in simulation mode
FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool ignoreSimuDataSetting){
FormattedData Formatter::formatValue(GwApi::BoatValue *value, CommonData &commondata, bool ignoreSimuDataSetting) {
GwLog *logger = commondata.logger;
FormattedData result;
static int dayoffset = 0;
double rawvalue = 0;
bool simulation;
if (ignoreSimuDataSetting) {
simulation = false; // ignore user setting for simulation data; we want to format the boat value passed to this function
} else {
simulation = usesimudata; // use setting from configuration
}
result.cvalue = value->value;
// Load configuration values
String stimeZone = commondata.config->getString(commondata.config->timeZone); // [UTC -14.00...+12.00]
double timeZone = stimeZone.toDouble();
String lengthFormat = commondata.config->getString(commondata.config->lengthFormat); // [m|ft]
String distanceFormat = commondata.config->getString(commondata.config->distanceFormat); // [m|km|nm]
String speedFormat = commondata.config->getString(commondata.config->speedFormat); // [m/s|km/h|kn]
String windspeedFormat = commondata.config->getString(commondata.config->windspeedFormat); // [m/s|km/h|kn|bft]
String tempFormat = commondata.config->getString(commondata.config->tempFormat); // [K|°C|°F]
String dateFormat = commondata.config->getString(commondata.config->dateFormat); // [DE|GB|US]
String precision = commondata.config->getString(commondata.config->valueprecision); // [1|2]
bool usesimudata;
if (ignoreSimuDataSetting){
usesimudata = false; // ignore user setting for simulation data; we want to format the boat value passed to this function
} else {
usesimudata = commondata.config->getBool(commondata.config->useSimuData); // [on|off]
}
// If boat value not valid
if (! value->valid && !usesimudata){
result.svalue = "---";
if (! value->valid && !simulation){
result.svalue = placeholder;
return result;
}
const char* fmt_dec_1;
const char* fmt_dec_10;
const char* fmt_dec_100;
double limit_dec_10;
double limit_dec_100;
if (precision == "1") {
//
//All values are displayed using a DSEG7* font. In this font, ' ' is a very short space, and '.' takes up no space at all.
//For a space that is as long as a number, '!' is used. For details see https://www.keshikan.net/fonts-e.html
//
fmt_dec_1 = "!%1.1f"; //insert a blank digit and then display a two-digit number
fmt_dec_10 = "!%2.0f"; //insert a blank digit and then display a two-digit number
fmt_dec_100 = "%3.0f"; //dispay a three digit number
limit_dec_10=9.95; // use fmt_dec_1 below this number to avoid formatting 9.96 as 10.0 instead of 10
limit_dec_100=99.5;
} else {
fmt_dec_1 = "%3.2f";
fmt_dec_10 = "%3.1f";
fmt_dec_100 = "%3.0f";
limit_dec_10=9.995;
limit_dec_100=99.95;
}
// LOG_DEBUG(GwLog::DEBUG,"formatValue init: getFormat: %s date->value: %f time->value: %f", value->getFormat(), commondata.date->value, commondata.time->value);
static const int bsize = 30;
char buffer[bsize+1];
@@ -131,7 +107,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
tmElements_t parts;
time_t tv=tNMEA0183Msg::daysToTime_t(value->value + dayoffset);
tNMEA0183Msg::breakTime(tv,parts);
if (usesimudata == false) {
if (simulation == false) {
if (String(dateFormat) == "DE") {
snprintf(buffer,bsize, "%02d.%02d.%04d", parts.tm_mday, parts.tm_mon+1, parts.tm_year+1900);
}
@@ -151,12 +127,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
else{
snprintf(buffer, bsize, "01.01.2022");
}
if(timeZone == 0){
result.unit = "UTC";
}
else{
result.unit = "LOT";
}
result.unit = ((timeZone == 0) ? "UTC" : "LOT");
}
//########################################################
else if(value->getFormat() == "formatTime"){
@@ -170,7 +141,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
if (timeInSeconds > 86400) {timeInSeconds = timeInSeconds - 86400;}
if (timeInSeconds < 0) {timeInSeconds = timeInSeconds + 86400;}
// LOG_DEBUG(GwLog::DEBUG,"... formatTime value: %f tz: %f corrected timeInSeconds: %f ", value->value, timeZone, timeInSeconds);
if (usesimudata == false) {
if (simulation == false) {
val = modf(timeInSeconds/3600.0, &inthr);
val = modf(val*3600.0/60.0, &intmin);
modf(val*60.0,&intsec);
@@ -188,16 +159,11 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
result.cvalue = sec;
lasttime = millis();
}
if(timeZone == 0){
result.unit = "UTC";
}
else{
result.unit = "LOT";
}
result.unit = ((timeZone == 0) ? "UTC" : "LOT");
}
//########################################################
else if (value->getFormat() == "formatFixed0"){
if(usesimudata == false) {
if(simulation == false) {
snprintf(buffer, bsize, "%3.0f", value->value);
rawvalue = value->value;
}
@@ -211,7 +177,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatCourse" || value->getFormat() == "formatWind"){
double course = 0;
if (usesimudata == false) {
if (simulation == false) {
course = value->value;
rawvalue = value->value;
}
@@ -219,7 +185,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
course = M_PI_2 + float(random(-17, 17) / 100.0); // create random course/wind values with 90° +/- 10°
rawvalue = course;
}
course = course * RAD_TO_DEG; // Unit conversion form rad to deg
course = course * 57.2958; // Unit conversion form rad to deg
// Format 3 numbers with prefix zero
snprintf(buffer,bsize,"%03.0f",course);
@@ -229,7 +195,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatKnots" && (value->getName() == "SOG" || value->getName() == "STW")){
double speed = 0;
if (usesimudata == false) {
if (simulation == false) {
speed = value->value;
rawvalue = value->value;
}
@@ -249,10 +215,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
speed = speed; // Unit conversion form m/s to m/s
result.unit = "m/s";
}
if(speed < limit_dec_10) {
if(speed < 10) {
snprintf(buffer, bsize, fmt_dec_1, speed);
}
else if (speed < limit_dec_100) {
else if (speed < 100) {
snprintf(buffer, bsize, fmt_dec_10, speed);
}
else {
@@ -263,7 +229,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatKnots" && (value->getName() == "AWS" || value->getName() == "TWS" || value->getName() == "MaxAws" || value->getName() == "MaxTws")){
double speed = 0;
if (usesimudata == false) {
if (simulation == false) {
speed = value->value;
rawvalue = value->value;
}
@@ -329,10 +295,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
snprintf(buffer, bsize, "%2.0f", speed);
}
else{
if (speed < limit_dec_10){
if (speed < 10){
snprintf(buffer, bsize, fmt_dec_1, speed);
}
else if (speed < limit_dec_100){
else if (speed < 100){
snprintf(buffer, bsize, fmt_dec_10, speed);
}
else {
@@ -344,7 +310,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatRot"){
double rotation = 0;
if (usesimudata == false) {
if (simulation == false) {
rotation = value->value;
rawvalue = value->value;
}
@@ -357,13 +323,13 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
if (rotation < -100){
rotation = -99;
}
if (rotation > 100){
else if (rotation > 100){
rotation = 99;
}
if (rotation > -10 && rotation < 10){
snprintf(buffer, bsize, "%3.2f", rotation);
}
if (rotation <= -10 || rotation >= 10){
else {
snprintf(buffer, bsize, "%3.0f", rotation);
}
result.cvalue = rotation;
@@ -371,7 +337,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatDop"){
double dop = 0;
if (usesimudata == false) {
if (simulation == false) {
dop = value->value;
rawvalue = value->value;
}
@@ -383,10 +349,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
if (dop > 99.9){
dop = 99.9;
}
if (dop < limit_dec_10){
if (dop < 10){
snprintf(buffer, bsize, fmt_dec_1, dop);
}
else if(dop < limit_dec_100){
else if(dop < 100){
snprintf(buffer, bsize, fmt_dec_10, dop);
}
else {
@@ -396,19 +362,14 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
}
//########################################################
else if (value->getFormat() == "formatLatitude"){
if (usesimudata == false) {
if (simulation == false) {
double lat = value->value;
rawvalue = value->value;
String latitude = "";
String latdir = "";
float degree = abs(int(lat));
float minute = abs((lat - int(lat)) * 60);
if (lat > 0){
latdir = "N";
}
else {
latdir = "S";
}
latdir = (lat > 0) ? "N" : "S";
latitude = String(degree,0) + "\x90 " + String(minute,4) + "' " + latdir;
result.unit = "";
strcpy(buffer, latitude.c_str());
@@ -421,19 +382,14 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
}
//########################################################
else if (value->getFormat() == "formatLongitude"){
if (usesimudata == false) {
if (simulation == false) {
double lon = value->value;
rawvalue = value->value;
String longitude = "";
String londir = "";
float degree = abs(int(lon));
float minute = abs((lon - int(lon)) * 60);
if (lon > 0){
londir = "E";
}
else {
londir = "W";
}
londir = (lon > 0) ? "E" : "W";
longitude = String(degree,0) + "\x90 " + String(minute,4) + "' " + londir;
result.unit = "";
strcpy(buffer, longitude.c_str());
@@ -447,7 +403,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatDepth"){
double depth = 0;
if (usesimudata == false) {
if (simulation == false) {
depth = value->value;
rawvalue = value->value;
}
@@ -456,16 +412,16 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
depth = rawvalue;
}
if(String(lengthFormat) == "ft"){
depth = depth * 3.28084;
depth = depth * 3.28084; // TODO use global defined factor
result.unit = "ft";
}
else{
result.unit = "m";
}
if (depth < limit_dec_10) {
if (depth < 10) {
snprintf(buffer, bsize, fmt_dec_1, depth);
}
else if (depth < limit_dec_100){
else if (depth < 100){
snprintf(buffer, bsize, fmt_dec_10, depth);
}
else {
@@ -476,40 +432,36 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXte"){
double xte = 0;
if(usesimudata == false) {
if (simulation == false) {
xte = value->value;
rawvalue = value->value;
}
else{
} else {
rawvalue = 6.0 + float(random(0, 4));
xte = rawvalue;
}
if(String(distanceFormat) == "km"){
if (distanceFormat == "km") {
xte = xte * 0.001;
result.unit = "km";
}
else if(String(distanceFormat) == "nm"){
xte = xte * 0.000539957;
} else if (distanceFormat == "nm") {
xte = xte * 0.000539957; // TODO use global defined factor
result.unit = "nm";
}
else{;
} else {
result.unit = "m";
}
if(xte < 10){
snprintf(buffer,bsize,"%3.2f",xte);
}
if(xte >= 10 && xte < 100){
if (xte < 10) {
snprintf(buffer, bsize, "%3.2f", xte);
} else if (xte < 100) {
snprintf(buffer,bsize,"%3.1f",xte);
}
if(xte >= 100){
snprintf(buffer,bsize,"%3.0f",xte);
else {
snprintf(buffer, bsize, "%3.0f", xte);
}
result.cvalue = xte;
}
//########################################################
else if (value->getFormat() == "kelvinToC"){
double temp = 0;
if (usesimudata == false) {
if (simulation == false) {
temp = value->value;
rawvalue = value->value;
}
@@ -528,10 +480,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
else{
result.unit = "K";
}
if(temp < limit_dec_10) {
if (temp < 10) {
snprintf(buffer, bsize, fmt_dec_1, temp);
}
else if (temp < limit_dec_100) {
else if (temp < 100) {
snprintf(buffer, bsize, fmt_dec_10, temp);
}
else {
@@ -542,7 +494,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "mtr2nm"){
double distance = 0;
if (usesimudata == false) {
if (simulation == false) {
distance = value->value;
rawvalue = value->value;
}
@@ -555,16 +507,16 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
result.unit = "km";
}
else if (String(distanceFormat) == "nm") {
distance = distance * 0.000539957;
distance = distance * 0.000539957; // TODO use global defined factor
result.unit = "nm";
}
else {
result.unit = "m";
}
if (distance < limit_dec_10){
if (distance < 10){
snprintf(buffer, bsize, fmt_dec_1, distance);
}
else if (distance < limit_dec_100){
else if (distance < 100){
snprintf(buffer, bsize, fmt_dec_10, distance);
}
else {
@@ -578,7 +530,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:P:P"){
double pressure = 0;
if (usesimudata == false) {
if (simulation == false) {
pressure = value->value;
rawvalue = value->value;
pressure = pressure / 100.0; // Unit conversion form Pa to hPa
@@ -594,7 +546,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:P:B"){
double pressure = 0;
if (usesimudata == false) {
if (simulation == false) {
pressure = value->value;
rawvalue = value->value;
pressure = pressure / 100.0; // Unit conversion form Pa to mBar
@@ -610,7 +562,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:U:V"){
double voltage = 0;
if (usesimudata == false) {
if (simulation == false) {
voltage = value->value;
rawvalue = value->value;
}
@@ -618,7 +570,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 12 + float(random(0, 30)) / 10.0;
voltage = rawvalue;
}
if (voltage < limit_dec_10) {
if (voltage < 10) {
snprintf(buffer, bsize, fmt_dec_1, voltage);
}
else {
@@ -630,7 +582,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:I:A"){
double current = 0;
if (usesimudata == false) {
if (simulation == false) {
current = value->value;
rawvalue = value->value;
}
@@ -638,10 +590,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 8.2 + float(random(0, 50)) / 10.0;
current = rawvalue;
}
if (current < limit_dec_10) {
if (current < 10) {
snprintf(buffer, bsize, fmt_dec_1, current);
}
else if(current < limit_dec_100) {
else if(current < 100) {
snprintf(buffer, bsize, fmt_dec_10, current);
}
else {
@@ -653,7 +605,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:C:K"){
double temperature = 0;
if (usesimudata == false) {
if (simulation == false) {
temperature = value->value - 273.15; // Convert K to C
rawvalue = value->value - 273.15;
}
@@ -661,10 +613,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 21.8 + float(random(0, 50)) / 10.0;
temperature = rawvalue;
}
if (temperature < limit_dec_10) {
if (temperature < 10) {
snprintf(buffer, bsize, fmt_dec_1, temperature);
}
else if (temperature < limit_dec_100) {
else if (temperature < 100) {
snprintf(buffer, bsize, fmt_dec_10, temperature);
}
else {
@@ -676,7 +628,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:C:C"){
double temperature = 0;
if (usesimudata == false) {
if (simulation == false) {
temperature = value->value; // Value in C
rawvalue = value->value;
}
@@ -684,10 +636,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 21.8 + float(random(0, 50)) / 10.0;
temperature = rawvalue;
}
if (temperature < limit_dec_10) {
if (temperature < 10) {
snprintf(buffer, bsize, fmt_dec_1, temperature);
}
else if(temperature < limit_dec_100) {
else if(temperature < 100) {
snprintf(buffer, bsize, fmt_dec_10, temperature);
}
else {
@@ -699,7 +651,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:H:P"){
double humidity = 0;
if (usesimudata == false) {
if (simulation == false) {
humidity = value->value; // Value in %
rawvalue = value->value;
}
@@ -707,10 +659,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 41.3 + float(random(0, 50)) / 10.0;
humidity = rawvalue;
}
if (humidity < limit_dec_10) {
if (humidity < 10) {
snprintf(buffer, bsize, fmt_dec_1, humidity);
}
else if(humidity < limit_dec_100) {
else if(humidity < 100) {
snprintf(buffer, bsize, fmt_dec_10, humidity);
}
else {
@@ -722,7 +674,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:V:P"){
double volume = 0;
if (usesimudata == false) {
if (simulation == false) {
volume = value->value; // Value in %
rawvalue = value->value;
}
@@ -730,13 +682,13 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 85.8 + float(random(0, 50)) / 10.0;
volume = rawvalue;
}
if (volume < limit_dec_10) {
if (volume < 10) {
snprintf(buffer, bsize, fmt_dec_1, volume);
}
else if (volume < limit_dec_100) {
else if (volume < 100) {
snprintf(buffer, bsize, fmt_dec_10, volume);
}
else if (volume >= limit_dec_100) {
else if (volume >= 100) {
snprintf(buffer, bsize, fmt_dec_100, volume);
}
result.unit = "%";
@@ -745,7 +697,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:V:M"){
double volume = 0;
if (usesimudata == false) {
if (simulation == false) {
volume = value->value; // Value in l
rawvalue = value->value;
}
@@ -753,10 +705,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 75.2 + float(random(0, 50)) / 10.0;
volume = rawvalue;
}
if (volume < limit_dec_10) {
if (volume < 10) {
snprintf(buffer, bsize, fmt_dec_1, volume);
}
else if (volume < limit_dec_100) {
else if (volume < 100) {
snprintf(buffer, bsize, fmt_dec_10, volume);
}
else {
@@ -768,7 +720,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:R:I"){
double flow = 0;
if (usesimudata == false) {
if (simulation == false) {
flow = value->value; // Value in l/min
rawvalue = value->value;
}
@@ -776,10 +728,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 7.5 + float(random(0, 20)) / 10.0;
flow = rawvalue;
}
if (flow < limit_dec_10) {
if (flow < 10) {
snprintf(buffer, bsize, fmt_dec_1, flow);
}
else if (flow < limit_dec_100) {
else if (flow < 100) {
snprintf(buffer, bsize, fmt_dec_10, flow);
}
else {
@@ -791,7 +743,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:G:"){
double generic = 0;
if (usesimudata == false) {
if (simulation == false) {
generic = value->value;
rawvalue = value->value;
}
@@ -799,10 +751,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 18.5 + float(random(0, 20)) / 10.0;
generic = rawvalue;
}
if (generic < limit_dec_10) {
if (generic < 10) {
snprintf(buffer, bsize, fmt_dec_1, generic);
}
else if (generic < limit_dec_100) {
else if (generic < 100) {
snprintf(buffer, bsize, fmt_dec_10, generic);
}
else {
@@ -814,7 +766,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:A:P"){
double dplace = 0;
if (usesimudata == false) {
if (simulation == false) {
dplace = value->value; // Value in %
rawvalue = value->value;
}
@@ -822,10 +774,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 55.3 + float(random(0, 20)) / 10.0;
dplace = rawvalue;
}
if (dplace < limit_dec_10) {
if (dplace < 10) {
snprintf(buffer, bsize, fmt_dec_1, dplace);
}
else if (dplace < limit_dec_100) {
else if (dplace < 100) {
snprintf(buffer, bsize, fmt_dec_10, dplace);
}
else {
@@ -835,9 +787,9 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
result.cvalue = dplace;
}
//########################################################
else if (value->getFormat() == "formatXdr:A:D"){
else if ((value->getFormat() == "formatXdr:A:D") || ((value->getFormat() == "formatXdr:A:rd"))){
double angle = 0;
if (usesimudata == false) {
if (simulation == false) {
angle = value->value;
angle = angle * 57.2958; // Unit conversion form rad to deg
rawvalue = value->value;
@@ -858,7 +810,7 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
//########################################################
else if (value->getFormat() == "formatXdr:T:R"){
double rpm = 0;
if (usesimudata == false) {
if (simulation == false) {
rpm = value->value; // Value in rpm
rawvalue = value->value;
}
@@ -866,10 +818,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
rawvalue = 2505 + random(0, 20);
rpm = rawvalue;
}
if (rpm < limit_dec_10) {
if (rpm < 10) {
snprintf(buffer, bsize, fmt_dec_1, rpm);
}
else if (rpm < limit_dec_100) {
else if (rpm < 100) {
snprintf(buffer, bsize, fmt_dec_10, rpm);
}
else {
@@ -882,10 +834,10 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
// Default format
//########################################################
else {
if (value->value < limit_dec_10) {
if (value->value < 10) {
snprintf(buffer, bsize, fmt_dec_1, value->value);
}
else if (value->value < limit_dec_100) {
else if (value->value < 100) {
snprintf(buffer, bsize, fmt_dec_10, value->value);
}
else {
@@ -900,8 +852,13 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool
return result;
}
// Convert and format boat value from SI to user defined format (definition for compatibility purposes)
FormattedData Formatter::formatValue(GwApi::BoatValue *value, CommonData &commondata) {
return formatValue(value, commondata, false); // call <formatValue> with standard handling of user setting for simulation data
}
// Helper method for conversion of any data value from SI to user defined format
double convertValue(const double &value, const String &name, const String &format, CommonData &commondata)
double Formatter::convertValue(const double &value, const String &name, const String &format, CommonData &commondata)
{
std::unique_ptr<GwApi::BoatValue> tmpBValue; // Temp variable to get converted data value from <OBP60Formatter::formatValue>
double result; // data value converted to user defined target data format
@@ -918,7 +875,7 @@ double convertValue(const double &value, const String &name, const String &forma
}
// Helper method for conversion of any data value from SI to user defined format
double convertValue(const double &value, const String &format, CommonData &commondata)
double Formatter::convertValue(const double &value, const String &format, CommonData &commondata)
{
double result; // data value converted to user defined target data format
@@ -926,4 +883,49 @@ double convertValue(const double &value, const String &format, CommonData &commo
return result;
}
String formatDate(fmtDate fmttype, uint16_t year, uint8_t month, uint8_t day) {
char buffer[12];
if (fmttype == fmtDate::GB) {
snprintf(buffer, 12, "%02d/%02d/%04d", day , month, year);
}
else if (fmttype == fmtDate::US) {
snprintf(buffer, 12, "%02d/%02d/%04d", month, day, year);
}
else if (fmttype == fmtDate::ISO) {
snprintf(buffer, 12, "%04d-%02d-%02d", year, month, day);
}
else if (fmttype == fmtDate::DE) {
snprintf(buffer, 12, "%02d.%02d.%04d", day, month, year);
} else {
snprintf(buffer, 12, "%04d-%02d-%02d", year, month, day);
}
return String(buffer);
}
String formatTime(fmtTime fmttype, uint8_t hour, uint8_t minute, uint8_t second) {
char buffer[10];
if (fmttype == fmtTime::MMHH) {
snprintf(buffer, 10, "%02d:%02d", hour , minute);
}
else if (fmttype == fmtTime::MMHHSS) {
snprintf(buffer, 10, "%02d:%02d:%02d", hour, minute, second);
}
else {
snprintf(buffer, 10, "%02d%02d%02d", hour, minute, second);
}
return String(buffer);
}
String formatLatitude(double lat) {
float degree = abs(int(lat));
float minute = abs((lat - int(lat)) * 60);
return String(degree, 0) + "\x90 " + String(minute, 4) + "' " + ((lat > 0) ? "N" : "S");
}
String formatLongitude(double lon) {
float degree = abs(int(lon));
float minute = abs((lon - int(lon)) * 60);
return String(degree, 0) + "\x90 " + String(minute, 4) + "' " + ((lon > 0) ? "E" : "W");
}
#endif

176
lib/obp60task/OBP60Formatter.h Normal file
View File

@@ -0,0 +1,176 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#ifndef _OBP60FORMATTER_H
#define _OBP60FORMATTER_H
#include "GwApi.h"
#include "Pagedata.h"
#include <unordered_map>
/*
XDR types
A Angular displacement
C Temperature
D Linear displacement
F Frequency
G Generic
H Humidity
I Current
L Salinity
N Force
P Pressure
R Flow
S Switch or valve
T Tachometer
U Voltage
V Volume
XDR units
A Ampere
B Bar
C Celsius
D Degrees
H Hertz
I Liter per second?
M Meter / Cubic meter
N Newton
P Percent
R RPM
V Volt
*/
enum class fmtType {
// Formatter names as defined in BoatItemBase
COURSE,
KNOTS,
WIND,
LATITUDE,
LONGITUDE,
XTE,
FIXED0,
DEPTH,
DOP, // dilution of precision
ROT,
DATE,
TIME,
NAME,
kelvinToC, // TODO not a format but conversion
mtr2nm, // TODO not a format but conversion
// XDR Formatter names
XDR_PP, // pressure percent
XDR_PB, // pressure bar
XDR_UV, // voltage volt
XDR_IA, // current ampere
XDR_CK, // temperature kelvin
XDR_CC, // temperature celsius
XDR_HP, // humidity percent
XDR_VP, // volume percent
XDR_VM, // volume cubic meters
XDR_RI, // flow liter per second?
XDR_G, // generic
XDR_AP, // angle percent
XDR_AD, // angle degrees
XDR_TR // tachometer rpm
};
// Hint: String is not supported
static std::unordered_map<const char*, fmtType> formatMap PROGMEM = {
{"formatCourse", fmtType::COURSE},
{"formatKnots", fmtType::KNOTS},
{"formatWind", fmtType::WIND},
{"formatLatitude", fmtType::LATITUDE},
{"formatLongitude", fmtType::LONGITUDE},
{"formatXte", fmtType::XTE},
{"formatFixed0", fmtType::FIXED0},
{"formatDepth", fmtType::DEPTH},
{"formatDop", fmtType::DOP},
{"formatRot", fmtType::ROT},
{"formatDate", fmtType::DATE},
{"formatTime", fmtType::TIME},
{"formatName", fmtType::NAME},
{"kelvinToC", fmtType::kelvinToC},
{"mtr2nm", fmtType::mtr2nm},
{"formatXdr:P:P", fmtType::XDR_PP},
{"formatXdr:P:B", fmtType::XDR_PB},
{"formatXdr:U:V", fmtType::XDR_UV},
{"formatXdr:I:A", fmtType::XDR_IA},
{"formatXdr:C:K", fmtType::XDR_CK},
{"formatXdr:C:C", fmtType::XDR_CC},
{"formatXdr:H:P", fmtType::XDR_HP},
{"formatXdr:V:P", fmtType::XDR_VP},
{"formatXdr:V:M", fmtType::XDR_VM},
{"formatXdr:R:I", fmtType::XDR_RI},
{"formatXdr:G:", fmtType::XDR_G},
{"formatXdr:A:P", fmtType::XDR_AP},
{"formatXdr:A:D", fmtType::XDR_AD},
{"formatXdr:T:R", fmtType::XDR_TR}
};
// Possible formats as scoped enums
enum class fmtDate {DE, GB, US, ISO};
enum class fmtTime {MMHH, MMHHSS};
enum class fmtLength {METER, FEET, FATHOM, CABLE};
enum class fmtDepth {METER, FEET, FATHOM};
enum class fmtWind {KMH, MS, KN, BFT};
enum class fmtCourse {DEG, RAD};
enum class fmtRot {DEGS, RADS};
enum class fmtXte {M, KM, NM, CABLE};
enum class fmtPress {PA, BAR};
enum class fmtTemp {KELVIN, CELSUIS, FAHRENHEIT};
// Conversion factors
#define CONV_M_FT 3.2808399 // meter too feet
#define CONV_M_FM 0.5468 // meter to fathom
#define CONV_M_CBL 0.0053961182483768 // meter to cable
#define CONV_CBL_FT 608 // cable to feet
#define CONV_FM_FT 6 // fathom to feet
// Structure for formatted boat values
typedef struct {
double value; // SI value of boat data value
double cvalue; // value converted to target unit
String svalue; // value converted to target unit and formatted
String unit; // target value unit
} FormattedData;
// Formatter for boat values
class Formatter {
private:
String stimeZone = "0";
double timeZone = 0.0; // [UTC -14.00...+12.00]
String lengthFormat = "m"; // [m|ft]
String distanceFormat = "nm"; // [m|km|nm]
String speedFormat = "kn"; // [m/s|km/h|kn]
String windspeedFormat = "kn"; // [m/s|km/h|kn|bft]
String tempFormat = "C"; // [K|°C|°F]
String dateFormat = "ISO"; // [DE|GB|US|ISO]
fmtDate dateFmt;
bool usesimudata = false; // [on|off]
String precision = "2"; // [1|2]
const char* fmt_dec_1;
const char* fmt_dec_10;
const char* fmt_dec_100;
public:
Formatter(GwConfigHandler *config);
fmtType stringToFormat(const char* formatStr);
fmtDate getDateFormat(String sformat);
fmtTime getTimeFormat(String sformat);
FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool ignoreSimuDataSetting);
FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata);
double convertValue(const double &value, const String &name, const String &format, CommonData &commondata);
double convertValue(const double &value, const String &format, CommonData &commondata);
String placeholder = "---";
};
// Standard format functions without class and overhead
String formatDate(fmtDate fmttype, uint16_t year, uint8_t month, uint8_t day);
String formatTime(fmtTime fmttype, uint8_t hour, uint8_t minute, uint8_t second);
String formatLatitude(double lat);
String formatLongitude(double lon);
#endif

6
lib/obp60task/OBP60Hardware.h
View File

@@ -5,7 +5,7 @@
// Direction pin for RS485 NMEA0183
#define OBP_DIRECTION_PIN 18
// I2C
#define I2C_SPEED 10000UL // 100kHz clock speed on I2C bus
#define I2C_SPEED 10000UL // 10kHz clock speed on I2C bus
#define I2C_SPEED_LOW 1000UL // 10kHz clock speed on I2C bus for external bus
#define OBP_I2C_SDA 47
#define OBP_I2C_SCL 21
@@ -43,8 +43,6 @@
#define OBP_SPI_DIN 48
#define SHOW_TIME 6000 // Show time in [ms] for logo and WiFi QR code
#define FULL_REFRESH_TIME 600 // Refresh cycle time in [s][600...3600] for full display update (very important healcy function)
#define GxEPD_WIDTH 400 // Display width
#define GxEPD_HEIGHT 300 // Display height
// GPS (NEO-6M, NEO-M8N, ATGM336H)
#define OBP_GPS_RX 2
@@ -123,8 +121,6 @@
#define OBP_SPI_DIN 11
#define SHOW_TIME 6000 // Show time in [ms] for logo and WiFi QR code
#define FULL_REFRESH_TIME 600 // Refresh cycle time in [s][600...3600] for full display update (very important healcy function)
#define GxEPD_WIDTH 400 // Display width
#define GxEPD_HEIGHT 300 // Display height
// SPI SD-Card
#define SD_SPI_CS GPIO_NUM_10
#define SD_SPI_MOSI GPIO_NUM_40

14
lib/obp60task/OBP60QRWiFi.h
View File

@@ -26,20 +26,20 @@ void qrWiFi(String ssid, String passwd, uint16_t fgcolor, uint16_t bgcolor){
// Each horizontal module
for (uint8_t x = 0; x < qrcode.size; x++) {
if(qrcode_getModule(&qrcode, x, y)){
getdisplay().fillRect(box_x, box_y, box_s, box_s, fgcolor);
epd->fillRect(box_x, box_y, box_s, box_s, fgcolor);
} else {
getdisplay().fillRect(box_x, box_y, box_s, box_s, bgcolor);
epd->fillRect(box_x, box_y, box_s, box_s, bgcolor);
}
box_x = box_x + box_s;
}
box_y = box_y + box_s;
box_x = init_x;
}
getdisplay().setFont(&Ubuntu_Bold32pt8b);
getdisplay().setTextColor(fgcolor);
getdisplay().setCursor(140, 285);
getdisplay().print("WiFi");
getdisplay().nextPage(); // Full Refresh
epd->setFont(&Ubuntu_Bold32pt8b);
epd->setTextColor(fgcolor);
epd->setCursor(140, 285);
epd->print("WiFi");
epd->nextPage(); // Full Refresh
}
#endif

27
lib/obp60task/OBPDataOperations.cpp
View File

@@ -1,3 +1,4 @@
#include "OBP60Formatter.h"
#include "OBPDataOperations.h"
//#include "BoatDataCalibration.h" // Functions lib for data instance calibration
@@ -135,7 +136,7 @@ bool CalibrationData::calibrateInstance(GwApi::BoatValue* boatDataValue)
double dataValue = 0;
std::string format = "";
// we test this earlier, but for safety reason ...
// we test this earlier, but for safety reasons ...
if (calibrationMap.find(instance) == calibrationMap.end()) {
LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s not in calibration list", instance.c_str());
return false;
@@ -151,7 +152,7 @@ bool CalibrationData::calibrateInstance(GwApi::BoatValue* boatDataValue)
slope = calibrationMap[instance].slope;
dataValue = boatDataValue->value;
format = boatDataValue->getFormat().c_str();
LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s: value: %f, format: %s", instance.c_str(), dataValue, format.c_str());
// LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s: value: %f, format: %s", instance.c_str(), dataValue, format.c_str());
if (format == "formatWind") { // instance is of type angle
dataValue = (dataValue * slope) + offset;
@@ -174,7 +175,7 @@ bool CalibrationData::calibrateInstance(GwApi::BoatValue* boatDataValue)
calibrationMap[instance].value = dataValue; // store the calibrated value in the list
calibrationMap[instance].isCalibrated = true;
LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s: Offset: %f, Slope: %f, Result: %f", instance.c_str(), offset, slope, calibrationMap[instance].value);
// LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s: Offset: %f, Slope: %f, Result: %f", instance.c_str(), offset, slope, calibrationMap[instance].value);
return true;
}
@@ -189,7 +190,7 @@ bool CalibrationData::smoothInstance(GwApi::BoatValue* boatDataValue)
// we test this earlier, but for safety reason ...
if (calibrationMap.find(instance) == calibrationMap.end()) {
LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s not in calibration list", instance.c_str());
// LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s not in calibration list", instance.c_str());
return false;
}
@@ -211,7 +212,7 @@ bool CalibrationData::smoothInstance(GwApi::BoatValue* boatDataValue)
calibrationMap[instance].value = dataValue; // store the smoothed value in the list
calibrationMap[instance].isCalibrated = true;
LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s: smooth: %f, oldValue: %f, result: %f", instance.c_str(), smoothFactor, oldValue, calibrationMap[instance].value);
// LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s: smooth: %f, oldValue: %f, result: %f", instance.c_str(), smoothFactor, oldValue, calibrationMap[instance].value);
return true;
}
@@ -241,7 +242,7 @@ void HstryBuf::add(double value)
{
if (value >= hstryMin && value <= hstryMax) {
hstryBuf.add(value);
LOG_DEBUG(GwLog::DEBUG, "HstryBuf::add: name: %s, value: %.3f", hstryBuf.getName(), value);
// LOG_DEBUG(GwLog::DEBUG, "HstryBuf::add: name: %s, value: %.3f", hstryBuf.getName(), value);
}
}
@@ -264,7 +265,7 @@ void HstryBuf::handle(bool useSimuData, CommonData& common)
add(boatValue->value);
} else if (useSimuData) { // add simulated value to history buffer
double simSIValue = formatValue(tmpBVal.get(), common).value; // simulated value is generated at <formatValue>; here: retreive SI value
double simSIValue = common.fmt->formatValue(tmpBVal.get(), common).value; // simulated value is generated at <formatValue>; here: retreive SI value
add(simSIValue);
} else {
// here we will add invalid (DBL_MAX) value; this will mark periods of missing data in buffer together with a timestamp
@@ -405,7 +406,7 @@ void WindUtils::calcTwdSA(const double* AWA, const double* AWS,
double stw = -*STW;
addPolar(AWD, AWS, CTW, &stw, TWD, TWS);
// Normalize TWD and TWA to 0-360°/2PI
// Normalize TWD to [0..360°] (2PI) and TWA to [-180..180] (PI)
*TWD = to2PI(*TWD);
*TWA = toPI(*TWD - *HDT);
}
@@ -487,8 +488,8 @@ bool WindUtils::addWinds()
double hdtVal = hdtBVal->valid ? hdtBVal->value : DBL_MAX;
double hdmVal = hdmBVal->valid ? hdmBVal->value : DBL_MAX;
double varVal = varBVal->valid ? varBVal->value : DBL_MAX;
LOG_DEBUG(GwLog::DEBUG, "WindUtils:addWinds: AWA %.1f, AWS %.1f, COG %.1f, STW %.1f, SOG %.2f, HDT %.1f, HDM %.1f, VAR %.1f", awaBVal->value * RAD_TO_DEG, awsBVal->value * 3.6 / 1.852,
cogBVal->value * RAD_TO_DEG, stwBVal->value * 3.6 / 1.852, sogBVal->value * 3.6 / 1.852, hdtBVal->value * RAD_TO_DEG, hdmBVal->value * RAD_TO_DEG, varBVal->value * RAD_TO_DEG);
//LOG_DEBUG(GwLog::DEBUG, "WindUtils:addWinds: AWA %.1f, AWS %.1f, COG %.1f, STW %.1f, SOG %.2f, HDT %.1f, HDM %.1f, VAR %.1f", awaBVal->value * RAD_TO_DEG, awsBVal->value * 3.6 / 1.852,
// cogBVal->value * RAD_TO_DEG, stwBVal->value * 3.6 / 1.852, sogBVal->value * 3.6 / 1.852, hdtBVal->value * RAD_TO_DEG, hdmBVal->value * RAD_TO_DEG, varBVal->value * RAD_TO_DEG);
// Check if TWD can be calculated from TWA and HDT/HDM
if (twaBVal->valid) {
@@ -528,9 +529,9 @@ bool WindUtils::addWinds()
}
}
}
LOG_DEBUG(GwLog::DEBUG, "WindUtils:addWinds: twCalculated %d, TWD %.1f, TWA %.1f, TWS %.2f kn, AWD: %.1f", twCalculated, twdBVal->value * RAD_TO_DEG,
twaBVal->value * RAD_TO_DEG, twsBVal->value * 3.6 / 1.852, awdBVal->value * RAD_TO_DEG);
// LOG_DEBUG(GwLog::DEBUG, "WindUtils:addWinds: twCalculated %d, TWD %.1f, TWA %.1f, TWS %.2f kn, AWD: %.1f", twCalculated, twdBVal->value * RAD_TO_DEG,
// twaBVal->value * RAD_TO_DEG, twsBVal->value * 3.6 / 1.852, awdBVal->value * RAD_TO_DEG);
return twCalculated;
}
// --- End Class WindUtils --------------
// --- End Class WindUtils --------------

146
lib/obp60task/OBP60Keypad.h → lib/obp60task/OBPKeyboardTask.cpp
View File

@@ -1,9 +1,10 @@
#ifndef _OBP60FUNCTIONS_H
#define _OBP60FUNCTIONS_H
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include <Arduino.h>
#include "OBP60Hardware.h"
#include "OBP60Extensions.h" // for buzzer
#include "OBPKeyboardTask.h"
// Global vars
// Touch keypad over ESP32 touch sensor inputs
@@ -58,10 +59,10 @@ void initKeys(CommonData &commonData) {
commonData.keydata[5].h = height;
}
#if defined HARDWARE_V20 || HARDWARE_V21
// Keypad functions for original OBP60 hardware
int readKeypad(GwLog* logger, uint thSensitivity, bool use_syspage) {
#ifdef HARDWARE_V21
// Keypad functions for original OBP60 hardware
int readKeypad(GwLog* logger, uint thSensitivity) {
// Touch sensor values
// 35000 - Not touched
// 50000 - Light toched with fingertip
@@ -233,35 +234,35 @@ void initKeys(CommonData &commonData) {
keycodeold2 = keycode2;
return keystatus;
}
#endif
}
#endif
#ifdef BOARD_OBP40S3
int readSensorpads(){
// Read key code
if(digitalRead(UP) == LOW){
#ifdef BOARD_OBP40S3
int readSensorpads(){
// Read key code
if (digitalRead(UP) == LOW) {
keycode = 10; // Left swipe
}
else if(digitalRead(DOWN) == LOW){
keycode = 9; // Right swipe
}
else if(digitalRead(CONF) == LOW){
keycode = 3; // Key 3
}
else if(digitalRead(MENUE) == LOW){
keycode = 1; // Key 1
}
else if(digitalRead(EXIT) == LOW){
keycode = 2; // Key 2
}
else{
keycode = 0; // No key activ
}
return keycode;
}
else if (digitalRead(DOWN) == LOW) {
keycode = 9; // Right swipe
}
else if (digitalRead(CONF) == LOW) {
keycode = 3; // Key 3
}
else if (digitalRead(MENUE) == LOW) {
keycode = 1; // Key 1
}
else if (digitalRead(EXIT) == LOW) {
keycode = 2; // Key 2
}
else {
keycode = 0; // No key activ
}
return keycode;
}
// Keypad functions for OBP60 clone (thSensitivity is inactiv)
int readKeypad(GwLog* logger, uint thSensitivity, bool use_syspage) {
// Keypad functions for OBP60 clone (thSensitivity is inactiv)
int readKeypad(GwLog* logger, uint thSensitivity, bool use_syspage) {
pinMode(UP, INPUT);
pinMode(DOWN, INPUT);
pinMode(CONF, INPUT);
@@ -273,31 +274,68 @@ void initKeys(CommonData &commonData) {
// Detect key
if (keycode > 0 ){
if(keycode != keycodeold){
starttime = millis(); // Start key pressed
keycodeold = keycode;
}
// If key pressed longer than 100ms
if(millis() > starttime + 100 && keycode == keycodeold) {
if (use_syspage and keycode == 3) {
keystatus = 12;
} else {
keystatus = keycode;
if(keycode != keycodeold){
starttime = millis(); // Start key pressed
keycodeold = keycode;
}
// If key pressed longer than 100ms
if(millis() > starttime + 100 && keycode == keycodeold) {
if (use_syspage and keycode == 3) {
keystatus = 12;
} else {
keystatus = keycode;
}
// Copy keycode
keycodeold = keycode;
// 100% Task-CPU RLY?
while(readSensorpads() > 0){} // Wait for pad release
delay(keydelay);
}
// Copy keycode
keycodeold = keycode;
while(readSensorpads() > 0){} // Wait for pad release
delay(keydelay);
}
}
else{
keycode = 0;
keycodeold = 0;
keystatus = 0;
else {
keycode = 0;
keycodeold = 0;
keystatus = 0;
}
return keystatus;
}
#endif
}
#endif
void keyboardTask(void *param) {
// params needed:
// queue
// logger
// sensitivity
// use_syspage for deep sleep activation
KbTaskData *data = (KbTaskData *)param;
int keycode = 0;
data->logger->logDebug(GwLog::LOG, "Start keyboard task");
while (true) {
#ifdef BOARD_OBP40S3
keycode = readKeypad(data->logger, data->sensitivity, data->use_syspage);
#else
keycode = readKeypad(data->logger, data->sensitivity);
#endif
//send a key event
if (keycode != 0) {
xQueueSend(data->queue, &keycode, 0);
data->logger->logDebug(GwLog::LOG,"kbtask: send keycode: %d", keycode);
}
delay(20); // 50Hz update rate (20ms)
}
vTaskDelete(NULL);
}
void createKeyboardTask(KbTaskData *param) {
TaskHandle_t xHandle = NULL;
if (xTaskCreate(keyboardTask, "keyboard", configMINIMAL_STACK_SIZE + 1024, param, configMAX_PRIORITIES-1, &xHandle) != pdPASS) {
param->logger->logDebug(GwLog::ERROR, "Failed to create keyboard task!");
};
}
#endif

16
lib/obp60task/OBPKeyboardTask.h Normal file
View File

@@ -0,0 +1,16 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#pragma once
#include "GwLog.h"
#include "Pagedata.h"
typedef struct {
QueueHandle_t queue;
GwLog* logger = nullptr;
uint sensitivity = 100;
#ifdef BOARD_OBP40S3
bool use_syspage = true;
#endif
} KbTaskData;
void initKeys(CommonData &commonData);
void createKeyboardTask(KbTaskData *param);

172
lib/obp60task/OBPSensorTask.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include <Adafruit_Sensor.h> // Adafruit Lib for sensors
#include <Adafruit_BME280.h> // Adafruit Lib for BME280
@@ -49,10 +50,8 @@ void sensorTask(void *param){
// Init sensor stuff
bool oneWire_ready = false; // 1Wire initialized and ready to use
bool iRTC_ready = false; // Software RTC initialized and ready to use
bool RTC_ready = false; // DS1388 initialized and ready to use
bool GPS_ready = false; // GPS initialized and ready to use
bool N2K_GPS_ready = false; // GPS time on N2K bus
bool BME280_ready = false; // BME280 initialized and ready to use
bool BMP280_ready = false; // BMP280 initialized and ready to use
bool BMP180_ready = false; // BMP180 initialized and ready to use
@@ -92,16 +91,16 @@ void sensorTask(void *param){
double voffset = (api->getConfig()->getConfigItem(api->getConfig()->vOffset,true)->asString()).toFloat();
double vslope = (api->getConfig()->getConfigItem(api->getConfig()->vSlope,true)->asString()).toFloat();
if(String(powsensor1) == "off"){
#ifdef VOLTAGE_SENSOR
#ifdef VOLTAGE_SENSOR
float rawVoltage = (float(analogRead(OBP_ANALOG0)) * 3.3 / 4096 + 0.53) * 2; // Vin = 1/2 for OBP40
#else
#else
float rawVoltage = (float(analogRead(OBP_ANALOG0)) * 3.3 / 4096 + 0.17) * 20; // Vin = 1/20 for OBP60
#endif
#endif
sensors.batteryVoltage = rawVoltage * vslope + voffset; // Calibration
#ifdef LIPO_ACCU_1200
#ifdef LIPO_ACCU_1200
sensors.BatteryChargeStatus = 0; // Set to discharging
sensors.batteryLevelLiPo = 0; // Level 0...100%
#endif
#endif
sensors.batteryCurrent = 0;
sensors.batteryPower = 0;
// Fill average arrays with start values
@@ -384,7 +383,6 @@ void sensorTask(void *param){
if (getLocalTime(&timeinfo)) {
api->getLogger()->logDebug(GwLog::LOG,"NTP time: %04d-%02d-%02d %02d:%02d:%02d UTC", timeinfo.tm_year+1900, timeinfo.tm_mon+1, timeinfo.tm_mday, timeinfo.tm_hour, timeinfo.tm_min, timeinfo.tm_sec);
rtc.setTimeStruct(timeinfo);
iRTC_ready = true;
sensors.rtcValid = true;
} else {
api->getLogger()->logDebug(GwLog::LOG,"NTP time fetch failed!");
@@ -403,7 +401,7 @@ void sensorTask(void *param){
if (millis() > starttime0 + 100)
{
starttime0 = millis();
// Send NMEA0183 GPS data on several bus systems (N2K an 0183) all 100ms
// Send NMEA0183 GPS data on several bus systems all 100ms
if (GPS_ready == true && hdop->value <= hdopAccuracy)
{
SNMEA0183Msg NMEA0183Msg;
@@ -415,55 +413,9 @@ void sensorTask(void *param){
}
/*
Time set logic for RTC and N2K
###############################
iRTC = Software RTC updatetd with NTP via internet
RTC = RTC chip on PCB
GPS = GPS Receiver on PCB
N2K = GPS time on N2K od 183 bus
0 = device not ready
1 = device ready
X = independend
() = source for set time N2K
-> = set RTC via iRTC
<- = set RTC via GPS
iRTC RTC GPS N2K
0 0 0 (1)
0 0 (1) (X)
0 (1) 0 (X)
0 1 <-(1) (X)
(1) 0 0 (X)
1 0 (1) (X)
1 ->(1) 0 (X)
1 1 <-(1) (X)
*/
// If RTC DS1388 ready, then copy iRTC and GPS data to RTC all 1min
if(millis() > starttime11 + 1*60*1000){
// If RTC DS1388 ready, then copy GPS data to RTC all 5min
if(millis() > starttime11 + 5*60*1000){
starttime11 = millis();
// Set RTC chip via iRTC (NTP)
if(iRTC_ready == true && RTC_ready == true && GPS_ready == false){
GwApi::Status status;
api->getStatus(status);
// Check WiFi connection
if (status.wifiClientConnected) {
sensors.rtcTime = rtc.getTimeStruct(); // Get time from software RTC (iRTC)
DateTime now = DateTime(
sensors.rtcTime.tm_year + 1900,
sensors.rtcTime.tm_mon + 1,
sensors.rtcTime.tm_mday,
sensors.rtcTime.tm_hour,
sensors.rtcTime.tm_min,
sensors.rtcTime.tm_sec
);
ds1388.adjust(now);
}
}
// Set RTC chip via internal GPS
if(rtcOn == "DS1388" && RTC_ready == true && GPS_ready == true){
api->getBoatDataValues(3,valueList);
if(gpsdays->valid && gpsseconds->valid && hdop->valid){
@@ -471,30 +423,38 @@ void sensorTask(void *param){
// sample input: date = "Dec 26 2009", time = "12:34:56"
// ds1388.adjust(DateTime("Dec 26 2009", "12:34:56"));
DateTime adjusttime(ts);
api->getLogger()->logDebug(GwLog::LOG,"Adjust RTC time via internal GPS: %04d/%02d/%02d %02d:%02d:%02d",adjusttime.year(), adjusttime.month(), adjusttime.day(), adjusttime.hour(), adjusttime.minute(), adjusttime.second());
api->getLogger()->logDebug(GwLog::LOG,"Adjust RTC time: %04d/%02d/%02d %02d:%02d:%02d",adjusttime.year(), adjusttime.month(), adjusttime.day(), adjusttime.hour(), adjusttime.minute(), adjusttime.second());
// Adjust RTC time as unix time value
ds1388.adjust(adjusttime);
}
}
}
}
// Set RTC chip via N2K or 183 in case the internal GPS is off (only one time)
if(N2K_GPS_ready == false && RTC_ready == true && GPS_ready == false){
api->getBoatDataValues(3,valueList);
if(gpsdays->valid && gpsseconds->valid && hdop->valid){
long ts = tNMEA0183Msg::daysToTime_t(gpsdays->value - (30*365+7))+floor(gpsseconds->value); // Adjusted to reference year 2000 (-30 years and 7 days for switch years)
// sample input: date = "Dec 26 2009", time = "12:34:56"
// ds1388.adjust(DateTime("Dec 26 2009", "12:34:56"));
DateTime adjusttime(ts);
api->getLogger()->logDebug(GwLog::LOG,"Adjust RTC time via N2K/183: %04d/%02d/%02d %02d:%02d:%02d",adjusttime.year(), adjusttime.month(), adjusttime.day(), adjusttime.hour(), adjusttime.minute(), adjusttime.second());
// Adjust RTC time as unix time value
ds1388.adjust(adjusttime);
// N2K GPS time ready
N2K_GPS_ready = true;
}
// Send 1Wire data for all temperature sensors all 2s
if(millis() > starttime13 + 2000 && String(oneWireOn) == "DS18B20" && oneWire_ready == true){
starttime13 = millis();
float tempC;
ds18b20.requestTemperatures(); // Collect all temperature values (max.8)
for(int i=0;i<numberOfDevices; i++){
// Send only one 1Wire data per loop step (time reduction)
if(i == loopCounter % numberOfDevices){
if(ds18b20.getAddress(tempDeviceAddress, i)){
// Read temperature value in Celsius
tempC = ds18b20.getTempC(tempDeviceAddress);
}
// Send to NMEA200 bus for each sensor with instance number
if(!isnan(tempC)){
sensors.onewireTemp[i] = tempC; // Save values in SensorData
api->getLogger()->logDebug(GwLog::DEBUG,"DS18B20-%1d Temp: %.1f",i,tempC);
SetN2kPGN130316(N2kMsg, 0, i, N2kts_OutsideTemperature, CToKelvin(tempC), N2kDoubleNA);
api->sendN2kMessage(N2kMsg);
}
}
}
loopCounter++;
}
// Send RTC date and time to N2K all 500ms
// Get current RTC date and time all 500ms
if (millis() > starttime12 + 500) {
starttime12 = millis();
// Send date and time from RTC chip if GPS not ready
@@ -523,34 +483,17 @@ void sensorTask(void *param){
}
// N2K sysTime is double in n2klib
double sysTime = (dt.hour() * 3600) + (dt.minute() * 60) + dt.second();
if(!isnan(daysAt1970) && !isnan(sysTime)){
// WHY? isnan should always fail here
//if(!isnan(daysAt1970) && !isnan(sysTime)){
//api->getLogger()->logDebug(GwLog::LOG,"RTC time: %04d/%02d/%02d %02d:%02d:%02d",sensors.rtcTime.tm_year+1900,sensors.rtcTime.tm_mon, sensors.rtcTime.tm_mday, sensors.rtcTime.tm_hour, sensors.rtcTime.tm_min, sensors.rtcTime.tm_sec);
//api->getLogger()->logDebug(GwLog::LOG,"Send PGN126992: %10d %10d",daysAt1970, (uint16_t)sysTime);
SetN2kPGN126992(N2kMsg,0,daysAt1970,sysTime,N2ktimes_LocalCrystalClock);
api->sendN2kMessage(N2kMsg);
}
}
}
// Send date and time from software RTC (iRTC)
if (iRTC_ready == true && RTC_ready == false && GPS_ready == false) {
// Use internal RTC feature
sensors.rtcTime = rtc.getTimeStruct(); // Save software RTC values in SensorData
// TODO implement daysAt1970 and sysTime as methods of DateTime
const short daysOfYear[12] = {0,31,59,90,120,151,181,212,243,273,304,334};
uint16_t switchYear = ((sensors.rtcTime.tm_year-1)-1968)/4 - ((sensors.rtcTime.tm_year-1)-1900)/100 + ((sensors.rtcTime.tm_year-1)-1600)/400;
long daysAt1970 = (sensors.rtcTime.tm_year-1970)*365 + switchYear + daysOfYear[sensors.rtcTime.tm_mon-1] + sensors.rtcTime.tm_mday-1;
// If switch year then add one day
if ((sensors.rtcTime.tm_mon > 2) && (sensors.rtcTime.tm_year % 4 == 0 && (sensors.rtcTime.tm_year % 100 != 0 || sensors.rtcTime.tm_year % 400 == 0))) {
daysAt1970 += 1;
}
// N2K sysTime is double in n2klib
double sysTime = (sensors.rtcTime.tm_hour * 3600) + (sensors.rtcTime.tm_min * 60) + sensors.rtcTime.tm_sec;
if(!isnan(daysAt1970) && !isnan(sysTime)){
//api->getLogger()->logDebug(GwLog::LOG,"RTC time: %04d/%02d/%02d %02d:%02d:%02d",sensors.rtcTime.tm_year+1900,sensors.rtcTime.tm_mon, sensors.rtcTime.tm_mday, sensors.rtcTime.tm_hour, sensors.rtcTime.tm_min, sensors.rtcTime.tm_sec);
//api->getLogger()->logDebug(GwLog::LOG,"Send PGN126992: %10d %10d",daysAt1970, (uint16_t)sysTime);
SetN2kPGN126992(N2kMsg,0,daysAt1970,sysTime,N2ktimes_LocalCrystalClock);
api->sendN2kMessage(N2kMsg);
// }
}
} else if (sensors.rtcValid) {
// use internal rtc feature
sensors.rtcTime = rtc.getTimeStruct();
}
}
@@ -582,24 +525,24 @@ void sensorTask(void *param){
if(millis() > starttime5 + 1000 && String(powsensor1) == "off"){
starttime5 = millis();
float rawVoltage = 0; // Default value
#ifdef BOARD_OBP40S3
#ifdef BOARD_OBP40S3
sensors.batteryVoltage = 0; // If no sensor then zero voltage
#endif
#if defined(BOARD_OBP40S3) && defined(VOLTAGE_SENSOR)
#endif
#if defined(BOARD_OBP40S3) && defined(VOLTAGE_SENSOR)
rawVoltage = (float(analogRead(OBP_ANALOG0)) * 3.3 / 4096 + 0.53) * 2; // Vin = 1/2 for OBP40
sensors.batteryVoltage = rawVoltage * vslope + voffset; // Calibration
#endif
#ifdef BOARD_OBP60S3
#endif
#ifdef BOARD_OBP60S3
rawVoltage = (float(analogRead(OBP_ANALOG0)) * 3.3 / 4096 + 0.17) * 20; // Vin = 1/20 for OBP60
sensors.batteryVoltage = rawVoltage * vslope + voffset; // Calibration
#endif
#endif
// Save new data in average array
batV.reading(int(sensors.batteryVoltage * 100));
// Calculate the average values for different time lines from integer values
sensors.batteryVoltage10 = batV.getAvg(10) / 100.0;
sensors.batteryVoltage60 = batV.getAvg(60) / 100.0;
sensors.batteryVoltage300 = batV.getAvg(300) / 100.0;
#if BOARD_OBP40S3 && defined LIPO_ACCU_1200 && defined VOLTAGE_SENSOR
#if BOARD_OBP40S3 && defined LIPO_ACCU_1200 && defined VOLTAGE_SENSOR
// Polynomfit for LiPo capacity calculation for 3,7V LiPo accus, 0...100%
sensors.batteryLevelLiPo = sensors.batteryVoltage60 * 203.8312 -738.1635;
// Limiter
@@ -638,19 +581,24 @@ void sensorTask(void *param){
SetN2kDCBatStatus(N2kMsg, 10, sensors.batteryVoltage, N2kDoubleNA, N2kDoubleNA, 0);
api->sendN2kMessage(N2kMsg);
}
#endif
#ifdef BOARD_OBP60S3
#endif
#ifdef BOARD_OBP60S3
// Send to NMEA200 bus
if(!isnan(sensors.batteryVoltage)){
SetN2kDCBatStatus(N2kMsg, 0, sensors.batteryVoltage, N2kDoubleNA, N2kDoubleNA, 1);
api->sendN2kMessage(N2kMsg);
}
#endif
#endif
}
// Send data from environment sensor to N2K all 2s
if(millis() > starttime6 + 2000){
starttime6 = millis();
// DEBUG
UBaseType_t stackfree = uxTaskGetStackHighWaterMark(NULL);
api->getLogger()->logDebug(GwLog::LOG, "obpSensortask Stack=%d", stackfree);
unsigned char TempSource = 2; // Inside temperature
unsigned char PressureSource = 0; // Atmospheric pressure
unsigned char HumiditySource = 0; // Inside humidity
@@ -868,8 +816,12 @@ void sensorTask(void *param){
vTaskDelete(NULL);
}
void createSensorTask(SharedData *shared){
xTaskCreate(sensorTask,"readSensors",10000,shared,3,NULL);
void createSensorTask(SharedData *shared) {
TaskHandle_t xHandle = NULL;
GwLog *logger = shared->api->getLogger();
esp_err_t err = xTaskCreate(sensorTask, "readSensors", configMINIMAL_STACK_SIZE + 8192, shared, 3, &xHandle);
if ( err != pdPASS) {
logger->logDebug(GwLog::ERROR, "Failed to create sensor task! (err=%d)", err);
};
}
#endif

1
lib/obp60task/OBPSensorTask.h
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#pragma once
#include "GwSynchronized.h"
#include "GwApi.h"

133
lib/obp60task/OBPcharts.cpp
View File

@@ -28,8 +28,9 @@ Chart::Chart(RingBuffer<uint16_t>& dataBuf, double dfltRng, CommonData& common,
fgColor = commonData->fgcolor;
bgColor = commonData->bgcolor;
dWidth = getdisplay().width();
dHeight = getdisplay().height();
// display dimensions (avoid calling width()/height() on incomplete LGFX type)
dWidth = epd->width();
dHeight = epd->height();
dataBuf.getMetaData(dbName, dbFormat);
dbMIN_VAL = dataBuf.getMinVal();
@@ -161,8 +162,8 @@ bool Chart::setChartDimensions(const char direction, const int8_t size)
break;
}
}
LOG_DEBUG(GwLog::ERROR, "obp60:setChartDimensions %s: direction: %c, size: %d, dWidth: %d, dHeight: %d, timAxis: %d, valAxis: %d, cRoot{%d, %d}, top: %d, bottom: %d, hGap: %d, vGap: %d",
dataBuf.getName(), direction, size, dWidth, dHeight, timAxis, valAxis, cRoot.x, cRoot.y, top, bottom, hGap, vGap);
//LOG_DEBUG(GwLog::DEBUG, "obp60:setChartDimensions %s: direction: %c, size: %d, dWidth: %d, dHeight: %d, timAxis: %d, valAxis: %d, cRoot{%d, %d}, top: %d, bottom: %d, hGap: %d, vGap: %d",
// dataBuf.getName(), direction, size, dWidth, dHeight, timAxis, valAxis, cRoot.x, cRoot.y, top, bottom, hGap, vGap);
return true;
}
@@ -176,7 +177,7 @@ void Chart::drawChrt(const char chrtDir, const int8_t chrtIntv, GwApi::BoatValue
// LOG_DEBUG(GwLog::DEBUG, "Chart:drawChart: min: %.1f, mid: %.1f, max: %.1f, rng: %.1f", chrtMin, chrtMid, chrtMax, chrtRng);
calcChrtBorders(chrtMin, chrtMid, chrtMax, chrtRng);
chrtScale = double(valAxis) / chrtRng; // Chart scale: pixels per value step
LOG_DEBUG(GwLog::DEBUG, "Chart:drawChart: min: %.1f, mid: %.1f, max: %.1f, rng: %.1f", chrtMin, chrtMid, chrtMax, chrtRng);
// LOG_DEBUG(GwLog::DEBUG, "Chart:drawChart: min: %.1f, mid: %.1f, max: %.1f, rng: %.1f", chrtMin, chrtMid, chrtMax, chrtRng);
// Do we have valid buffer data?
if (dataBuf.getMax() == dbMAX_VAL) { // only <MAX_VAL> values in buffer -> no valid wind data available
@@ -261,8 +262,8 @@ void Chart::calcChrtBorders(double& rngMin, double& rngMid, double& rngMax, doub
}
recalcRngMid = false; // Reset flag for <rngMid> determination
LOG_DEBUG(GwLog::DEBUG, "calcChrtRange: rngMin: %.1f°, rngMid: %.1f°, rngMax: %.1f°, rng: %.1f°, rngStep: %.1f°", rngMin * RAD_TO_DEG, rngMid * RAD_TO_DEG, rngMax * RAD_TO_DEG,
rng * RAD_TO_DEG, rngStep * RAD_TO_DEG);
// LOG_DEBUG(GwLog::DEBUG, "calcChrtRange: rngMin: %.1f°, rngMid: %.1f°, rngMax: %.1f°, rng: %.1f°, rngStep: %.1f°", rngMin * RAD_TO_DEG, rngMid * RAD_TO_DEG, rngMax * RAD_TO_DEG,
// rng * RAD_TO_DEG, rngStep * RAD_TO_DEG);
}
}
@@ -287,8 +288,8 @@ void Chart::calcChrtBorders(double& rngMin, double& rngMid, double& rngMax, doub
rng = halfRng * 2.0;
LOG_DEBUG(GwLog::DEBUG, "calcChrtBorders: rngMin: %.1f°, rngMid: %.1f°, rngMax: %.1f°, tmpRng: %.1f°, rng: %.1f°, rngStep: %.1f°", rngMin * RAD_TO_DEG, rngMid * RAD_TO_DEG, rngMax * RAD_TO_DEG,
tmpRng * RAD_TO_DEG, rng * RAD_TO_DEG, rngStep * RAD_TO_DEG);
// LOG_DEBUG(GwLog::DEBUG, "calcChrtBorders: rngMin: %.1f°, rngMid: %.1f°, rngMax: %.1f°, tmpRng: %.1f°, rng: %.1f°, rngStep: %.1f°", rngMin * RAD_TO_DEG, rngMid * RAD_TO_DEG, rngMax * RAD_TO_DEG,
// tmpRng * RAD_TO_DEG, rng * RAD_TO_DEG, rngStep * RAD_TO_DEG);
} else { // chart data is of any other type
@@ -320,8 +321,8 @@ void Chart::calcChrtBorders(double& rngMin, double& rngMid, double& rngMax, doub
rngMid = (rngMin + rngMax) / 2.0;
rng = rngMax - rngMin;
LOG_DEBUG(GwLog::DEBUG, "calcChrtRange-end: currMinVal: %.1f, currMaxVal: %.1f, rngMin: %.1f, rngMid: %.1f, rngMax: %.1f, rng: %.1f, rngStep: %.1f, zeroValue: %.1f, dbMIN_VAL: %.1f",
currMinVal, currMaxVal, rngMin, rngMid, rngMax, rng, rngStep, zeroValue, dbMIN_VAL);
// LOG_DEBUG(GwLog::DEBUG, "calcChrtRange-end: currMinVal: %.1f, currMaxVal: %.1f, rngMin: %.1f, rngMid: %.1f, rngMax: %.1f, rng: %.1f, rngStep: %.1f, zeroValue: %.1f, dbMIN_VAL: %.1f",
// currMinVal, currMaxVal, rngMin, rngMid, rngMax, rng, rngStep, zeroValue, dbMIN_VAL);
}
}
@@ -397,6 +398,8 @@ void Chart::drawChartLines(const char direction, const int8_t chrtIntv, const do
}
break;
}
taskYIELD(); // we run for 50-150ms; be polite to other tasks with same priority
}
}
@@ -436,15 +439,15 @@ void Chart::drawChrtTimeAxis(const char chrtDir, const int8_t chrtSz, const int8
char sTime[6];
int timeRng = chrtIntv * 4; // chart time interval: [1] 4 min., [2] 8 min., [3] 12 min., [4] 16 min., [8] 32 min.
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setTextColor(fgColor);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setTextColor(fgColor);
axSlots = 5; // number of axis labels
intv = timAxis / (axSlots - 1); // minutes per chart axis interval (interval is 1 less than axSlots)
i = timeRng; // Chart axis label start at -32, -16, -12, ... minutes
if (chrtDir == HORIZONTAL) {
getdisplay().fillRect(0, cRoot.y, dWidth, 2, fgColor);
epd->fillRect(0, cRoot.y, dWidth, 2, fgColor);
for (float j = 0; j < timAxis - 1; j += intv) { // fill time axis with values but keep area free on right hand side for value label
@@ -452,7 +455,7 @@ void Chart::drawChrtTimeAxis(const char chrtDir, const int8_t chrtSz, const int8
int tOffset = j == 0 ? 13 : -4;
snprintf(sTime, sizeof(sTime), "-%.0f", i);
drawTextCenter(cRoot.x + j + tOffset, cRoot.y - 8, sTime);
getdisplay().drawLine(cRoot.x + j, cRoot.y, cRoot.x + j, cRoot.y + 5, fgColor); // draw short vertical time mark
epd->drawLine(cRoot.x + j, cRoot.y, cRoot.x + j, cRoot.y + 5, fgColor); // draw short vertical time mark
i -= chrtIntv;
}
@@ -463,12 +466,12 @@ void Chart::drawChrtTimeAxis(const char chrtDir, const int8_t chrtSz, const int8
i -= chrtIntv; // we start not at top chart position
snprintf(sTime, sizeof(sTime), "-%.0f", i);
getdisplay().drawLine(cRoot.x, cRoot.y + j, cRoot.x + valAxis, cRoot.y + j, fgColor); // Grid line
epd->drawLine(cRoot.x, cRoot.y + j, cRoot.x + valAxis, cRoot.y + j, fgColor); // Grid line
if (chrtSz == FULL_SIZE) { // full size chart
getdisplay().fillRect(0, cRoot.y + j - 9, 32, 15, bgColor); // clear small area to remove potential chart lines
getdisplay().setCursor((4 - strlen(sTime)) * 7, cRoot.y + j + 3); // time value; print left screen; value right-formated
getdisplay().printf("%s", sTime); // Range value
epd->fillRect(0, cRoot.y + j - 9, 32, 15, bgColor); // clear small area to remove potential chart lines
epd->setCursor((4 - strlen(sTime)) * 7, cRoot.y + j + 3); // time value; print left screen; value right-formated
epd->printf("%s", sTime); // Range value
} else if (chrtSz == HALF_SIZE_RIGHT) { // half size chart; right side
drawTextCenter(dWidth / 2, cRoot.y + j, sTime); // time value; print mid screen
}
@@ -483,7 +486,7 @@ void Chart::drawChrtValAxis(const char chrtDir, const int8_t chrtSz, bool prntNa
constexpr bool NO_LABEL = false;
constexpr bool LABEL = true;
getdisplay().setTextColor(fgColor);
epd->setTextColor(fgColor);
if (chrtDir == HORIZONTAL) {
@@ -492,7 +495,7 @@ void Chart::drawChrtValAxis(const char chrtDir, const int8_t chrtSz, bool prntNa
font = &Ubuntu_Bold12pt8b;
// print buffer data name on right hand side of time axis (max. size 5 characters)
getdisplay().setFont(font);
epd->setFont(font);
drawTextRalign(cRoot.x + timAxis, cRoot.y - 3, dbName.substring(0, 5));
if (chrtDataFmt == WIND) {
@@ -510,7 +513,7 @@ void Chart::drawChrtValAxis(const char chrtDir, const int8_t chrtSz, bool prntNa
if (prntName) {
// print buffer data name on right hand side of time axis (max. size 5 characters)
getdisplay().setFont(font);
epd->setFont(font);
drawTextRalign(cRoot.x + timAxis, cRoot.y - 3, dbName.substring(0, 5));
}
@@ -522,7 +525,7 @@ void Chart::drawChrtValAxis(const char chrtDir, const int8_t chrtSz, bool prntNa
if (chrtSz == FULL_SIZE) {
font = &Ubuntu_Bold12pt8b;
getdisplay().setFont(font); // use larger font
epd->setFont(font); // use larger font
drawTextRalign(cRoot.x + (valAxis * 0.42), cRoot.y - 2, dbName.substring(0, 6)); // print buffer data name (max. size 5 characters)
} else {
@@ -540,23 +543,23 @@ void Chart::prntCurrValue(const char direction, GwApi::BoatValue& currValue)
const int xPosVal = (direction == HORIZONTAL) ? cRoot.x + (timAxis / 2) - 56 : cRoot.x + 32;
const int yPosVal = (direction == HORIZONTAL) ? cRoot.y + valAxis - 7 : cRoot.y + timAxis - 7;
FormattedData frmtDbData = formatValue(&currValue, *commonData, NO_SIMUDATA);
FormattedData frmtDbData = commonData->fmt->formatValue(&currValue, *commonData, NO_SIMUDATA);
String sdbValue = frmtDbData.svalue; // value as formatted string
String dbUnit = frmtDbData.unit; // Unit of value; limit length to 3 characters
getdisplay().fillRect(xPosVal - 1, yPosVal - 35, 128, 41, bgColor); // Clear area for TWS value
getdisplay().drawRect(xPosVal, yPosVal - 34, 126, 40, fgColor); // Draw box for TWS value
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
getdisplay().setCursor(xPosVal + 1, yPosVal);
getdisplay().print(sdbValue); // value
epd->fillRect(xPosVal - 1, yPosVal - 35, 128, 41, bgColor); // Clear area for TWS value
epd->drawRect(xPosVal, yPosVal - 34, 126, 40, fgColor); // Draw box for TWS value
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setCursor(xPosVal + 1, yPosVal);
epd->print(sdbValue); // value
getdisplay().setFont(&Ubuntu_Bold10pt8b);
getdisplay().setCursor(xPosVal + 76, yPosVal - 17);
getdisplay().print(dbName.substring(0, 3)); // Name, limited to 3 characters
epd->setFont(&Ubuntu_Bold10pt8b);
epd->setCursor(xPosVal + 76, yPosVal - 17);
epd->print(dbName.substring(0, 3)); // Name, limited to 3 characters
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(xPosVal + 76, yPosVal + 0);
getdisplay().print(dbUnit); // Unit
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(xPosVal + 76, yPosVal + 0);
epd->print(dbUnit); // Unit
}
// print message for no valid data availabletemplate <typename T>
@@ -564,7 +567,7 @@ void Chart::prntNoValidData(const char direction)
{
Pos p;
getdisplay().setFont(&Ubuntu_Bold10pt8b);
epd->setFont(&Ubuntu_Bold10pt8b);
if (direction == HORIZONTAL) {
p.x = cRoot.x + (timAxis / 2);
@@ -574,7 +577,7 @@ void Chart::prntNoValidData(const char direction)
p.y = cRoot.y + (timAxis / 2) - 10;
}
getdisplay().fillRect(p.x - 37, p.y - 10, 78, 24, bgColor); // Clear area for message
epd->fillRect(p.x - 37, p.y - 10, 78, 24, bgColor); // Clear area for message
drawTextCenter(p.x, p.y, "No data");
LOG_DEBUG(GwLog::LOG, "Page chart <%s>: No valid data available", dbName);
@@ -621,28 +624,28 @@ double Chart::getAngleRng(const double center, size_t amount)
double cVal;
char sVal[7];
getdisplay().fillRect(cRoot.x, cRoot.y, valAxis, 2, fgColor); // top chart line
getdisplay().setFont(font);
epd->fillRect(cRoot.x, cRoot.y, valAxis, 2, fgColor); // top chart line
epd->setFont(font);
cVal = chrtMin;
cVal = convertValue(cVal, dbName, dbFormat, *commonData); // value (converted)
cVal = commonData->fmt->convertValue(cVal, dbName, dbFormat, *commonData); // value (converted)
snprintf(sVal, sizeof(sVal), "%.0f", round(cVal));
getdisplay().setCursor(cRoot.x, cRoot.y - 2);
getdisplay().printf("%s", sVal); // Range low end
epd->setCursor(cRoot.x, cRoot.y - 2);
epd->printf("%s", sVal); // Range low end
cVal = chrtMid;
cVal = convertValue(cVal, dbName, dbFormat, *commonData); // value (converted)
cVal = commonData->fmt->convertValue(cVal, dbName, dbFormat, *commonData); // value (converted)
snprintf(sVal, sizeof(sVal), "%.0f", round(cVal));
drawTextCenter(cRoot.x + (valAxis / 2), cRoot.y - 9, sVal); // Range mid end
cVal = chrtMax;
cVal = convertValue(cVal, dbName, dbFormat, *commonData); // value (converted)
cVal = commonData->fmt->convertValue(cVal, dbName, dbFormat, *commonData); // value (converted)
snprintf(sVal, sizeof(sVal), "%.0f", round(cVal));
drawTextRalign(cRoot.x + valAxis - 2, cRoot.y - 2, sVal); // Range high end
// draw vertical grid lines for each axis label
for (int j = 0; j <= valAxis; j += (valAxis / 2)) {
getdisplay().drawLine(cRoot.x + j, cRoot.y, cRoot.x + j, cRoot.y + timAxis, fgColor);
epd->drawLine(cRoot.x + j, cRoot.y, cRoot.x + j, cRoot.y + timAxis, fgColor);
}
}
@@ -656,17 +659,17 @@ void Chart::prntHorizChartThreeValueAxisLabel(const GFXfont* font)
if (font == &Ubuntu_Bold10pt8b) {
xOffset = 39;
yOffset = 15;
yOffset = 16;
} else if (font == &Ubuntu_Bold12pt8b) {
xOffset = 51;
yOffset = 18;
}
getdisplay().setFont(font);
epd->setFont(font);
// convert & round chart bottom+top label to next range step
chrtMin = convertValue(this->chrtMin, dbName, dbFormat, *commonData);
chrtMid = convertValue(this->chrtMid, dbName, dbFormat, *commonData);
chrtMax = convertValue(this->chrtMax, dbName, dbFormat, *commonData);
chrtMin = commonData->fmt->convertValue(this->chrtMin, dbName, dbFormat, *commonData);
chrtMid = commonData->fmt->convertValue(this->chrtMid, dbName, dbFormat, *commonData);
chrtMax = commonData->fmt->convertValue(this->chrtMax, dbName, dbFormat, *commonData);
chrtMin = std::round(chrtMin * 100.0) / 100.0;
chrtMid = std::round(chrtMid * 100.0) / 100.0;
chrtMax = std::round(chrtMax * 100.0) / 100.0;
@@ -674,22 +677,22 @@ void Chart::prntHorizChartThreeValueAxisLabel(const GFXfont* font)
// print top axis label
axLabel = (chrtDataFmt == SPEED || chrtDataFmt == TEMPERATURE) ? chrtMax : chrtMin;
sVal = formatLabel(axLabel);
getdisplay().fillRect(cRoot.x, cRoot.y + 2, xOffset + 3, yOffset, bgColor); // Clear small area to remove potential chart lines
epd->fillRect(cRoot.x, cRoot.y + 2, xOffset + 3, yOffset, bgColor); // Clear small area to remove potential chart lines
drawTextRalign(cRoot.x + xOffset, cRoot.y + yOffset, sVal); // range value
// print mid axis label
axLabel = chrtMid;
sVal = formatLabel(axLabel);
getdisplay().fillRect(cRoot.x, cRoot.y + (valAxis / 2) - 8, xOffset + 3, 16, bgColor); // Clear small area to remove potential chart lines
epd->fillRect(cRoot.x, cRoot.y + (valAxis / 2) - 8, xOffset + 3, 16, bgColor); // Clear small area to remove potential chart lines
drawTextRalign(cRoot.x + xOffset, cRoot.y + (valAxis / 2) + 6, sVal); // range value
getdisplay().drawLine(cRoot.x + xOffset + 3, cRoot.y + (valAxis / 2), cRoot.x + timAxis, cRoot.y + (valAxis / 2), fgColor);
epd->drawLine(cRoot.x + xOffset + 3, cRoot.y + (valAxis / 2), cRoot.x + timAxis, cRoot.y + (valAxis / 2), fgColor);
// print bottom axis label
axLabel = (chrtDataFmt == SPEED || chrtDataFmt == TEMPERATURE) ? chrtMin : chrtMax;
sVal = formatLabel(axLabel);
getdisplay().fillRect(cRoot.x, cRoot.y + valAxis - 14, xOffset + 3, 15, bgColor); // Clear small area to remove potential chart lines
epd->fillRect(cRoot.x, cRoot.y + valAxis - 14, xOffset + 3, 15, bgColor); // Clear small area to remove potential chart lines
drawTextRalign(cRoot.x + xOffset, cRoot.y + valAxis, sVal); // range value
getdisplay().drawLine(cRoot.x + xOffset + 3, cRoot.y + valAxis, cRoot.x + timAxis, cRoot.y + valAxis, fgColor);
epd->drawLine(cRoot.x + xOffset + 3, cRoot.y + valAxis, cRoot.x + timAxis, cRoot.y + valAxis, fgColor);
}
// print value axis label with multiple axis lines for horizontal chart
@@ -705,12 +708,12 @@ void Chart::prntHorizChartMultiValueAxisLabel(const GFXfont* font)
} else if (font == &Ubuntu_Bold12pt8b) {
xOffset = 50;
}
getdisplay().setFont(font);
epd->setFont(font);
chrtMin = convertValue(this->chrtMin, dbName, dbFormat, *commonData);
chrtMin = commonData->fmt->convertValue(this->chrtMin, dbName, dbFormat, *commonData);
// chrtMin = std::floor(chrtMin / rngStep) * rngStep;
chrtMin = std::round(chrtMin * 100.0) / 100.0;
chrtMax = convertValue(this->chrtMax, dbName, dbFormat, *commonData);
chrtMax = commonData->fmt->convertValue(this->chrtMax, dbName, dbFormat, *commonData);
// chrtMax = std::ceil(chrtMax / rngStep) * rngStep;
chrtMax = std::round(chrtMax * 100.0) / 100.0;
chrtRng = std::round((chrtMax - chrtMin) * 100) / 100;
@@ -718,7 +721,7 @@ void Chart::prntHorizChartMultiValueAxisLabel(const GFXfont* font)
axSlots = valAxis / static_cast<double>(VALAXIS_STEP); // number of axis labels (and we want to have a double calculation, no integer)
axIntv = chrtRng / axSlots;
axLabel = chrtMin + axIntv;
LOG_DEBUG(GwLog::DEBUG, "Chart::printHorizMultiValueAxisLabel: chrtRng: %.2f, th-chrtRng: %.2f, axSlots: %.2f, axIntv: %.2f, axLabel: %.2f, chrtMin: %.2f, chrtMid: %.2f, chrtMax: %.2f", chrtRng, this->chrtRng, axSlots, axIntv, axLabel, this->chrtMin, chrtMid, chrtMax);
// LOG_DEBUG(GwLog::DEBUG, "Chart::printHorizMultiValueAxisLabel: chrtRng: %.2f, th-chrtRng: %.2f, axSlots: %.2f, axIntv: %.2f, axLabel: %.2f, chrtMin: %.2f, chrtMid: %.2f, chrtMax: %.2f", chrtRng, this->chrtRng, axSlots, axIntv, axLabel, this->chrtMin, chrtMid, chrtMax);
int loopStrt, loopEnd, loopStp;
if (chrtDataFmt == SPEED || chrtDataFmt == TEMPERATURE || chrtDataFmt == OTHER) {
@@ -735,9 +738,9 @@ void Chart::prntHorizChartMultiValueAxisLabel(const GFXfont* font)
for (int j = loopStrt; (loopStp > 0) ? (j < loopEnd) : (j > loopEnd); j += loopStp) {
sVal = formatLabel(axLabel);
getdisplay().fillRect(cRoot.x, cRoot.y + j - 11, xOffset + 3, 21, bgColor); // Clear small area to remove potential chart lines
epd->fillRect(cRoot.x, cRoot.y + j - 11, xOffset + 3, 21, bgColor); // Clear small area to remove potential chart lines
drawTextRalign(cRoot.x + xOffset, cRoot.y + j + 7, sVal); // range value
getdisplay().drawLine(cRoot.x + xOffset + 3, cRoot.y + j, cRoot.x + timAxis, cRoot.y + j, fgColor);
epd->drawLine(cRoot.x + xOffset + 3, cRoot.y + j, cRoot.x + timAxis, cRoot.y + j, fgColor);
axLabel += axIntv;
}
@@ -749,12 +752,12 @@ void Chart::drawBoldLine(const int16_t x1, const int16_t y1, const int16_t x2, c
int16_t dx = std::abs(x2 - x1);
int16_t dy = std::abs(y2 - y1);
getdisplay().drawLine(x1, y1, x2, y2, fgColor);
epd->drawLine(x1, y1, x2, y2, fgColor);
if (dx >= dy) { // line has horizontal tendency
getdisplay().drawLine(x1, y1 - 1, x2, y2 - 1, fgColor);
epd->drawLine(x1, y1 - 1, x2, y2 - 1, fgColor);
} else { // line has vertical tendency
getdisplay().drawLine(x1 - 1, y1, x2 - 1, y2, fgColor);
epd->drawLine(x1 - 1, y1, x2 - 1, y2, fgColor);
}
}
@@ -767,7 +770,7 @@ String Chart::convNformatLabel(const double& label)
tmpBVal.setFormat(dbFormat);
tmpBVal.valid = true;
tmpBVal.value = label;
sVal = formatValue(&tmpBVal, *commonData, NO_SIMUDATA).svalue; // Formatted value as string including unit conversion and switching decimal places
sVal = commonData->fmt->formatValue(&tmpBVal, *commonData, NO_SIMUDATA).svalue; // Formatted value as string including unit conversion and switching decimal places
if (sVal.length() > 0 && sVal[0] == '!') {
sVal = sVal.substring(1); // cut leading "!" created at OBPFormatter; doesn't work for other fonts than 7SEG
}

178
lib/obp60task/PageAIS.cpp Normal file
View File

@@ -0,0 +1,178 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
/*
AIS Overview
- circle with certain range, e.g. 5nm
- AIS-Targets in range with speed and heading
- perhaps collision alarm
Data: LAT LON SOG HDT
Feature possibilities
- switch between North up / Heading up
- filter
- zoom
- special vessel symbols
*/
class PageAIS : public Page
{
private:
int scale = 5; // Radius of display circle in nautical miles
bool alarm = false;
bool alarm_enabled = false;
int alarm_range = 3;
char mode = 'N'; // (N)ormal, (C)onfig
void displayModeNormal(PageData &pageData) {
// TBD Boatvalues: ...
logger->logDebug(GwLog::DEBUG,"Drawing at PageAIS");
Point c = {200, 150}; // center = current boat position
uint16_t r = 125;
const std::vector<Point> pts_boat = { // polygon lines
{c.x - 5, c.y},
{c.x - 5, c.y - 10},
{c.x, c.y - 16},
{c.x + 5, c.y - 10},
{c.x + 5, c.y}
};
drawPoly(pts_boat, commonData->fgcolor);
// Title and corner value headings
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("AIS");
// zoom scale
epd->drawLine(c.x + 10, c.y, c.x + r - 4, c.y, commonData->fgcolor);
// arrow left
epd->drawLine(c.x + 10, c.y, c.x + 16, c.y - 4, commonData->fgcolor);
epd->drawLine(c.x + 10, c.y, c.x + 16, c.y + 4, commonData->fgcolor);
// arrow right
epd->drawLine(c.x + r - 4, c.y, c.x + r - 10, c.y - 4, commonData->fgcolor);
epd->drawLine(c.x + r - 4, c.y, c.x + r - 10, c.y + 4, commonData->fgcolor);
epd->setFont(&Ubuntu_Bold8pt8b);
drawTextCenter(c.x + r / 2, c.y + 8, String(scale) + "nm");
}
void displayModeConfig() {
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("AIS configuration");
epd->setFont(&Ubuntu_Bold8pt8b);
// TODO menu
}
public:
PageAIS(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageAIS");
alarm_range = 3;
}
void setupKeys(){
Page::setupKeys();
commonData->keydata[0].label = "MODE";
commonData->keydata[1].label = "ALARM";
}
#ifdef BOARD_OBP60S3
int handleKey(int key){
if (key == 1) { // Switch between normal and config mode
if (mode == 'N') {
mode = 'C';
} else {
mode = 'N';
}
return 0;
}
if (key == 11) { // Code for keylock
commonData->keylock = !commonData->keylock;
return 0;
}
return key;
}
#endif
#ifdef BOARD_OBP40S3
int handleKey(int key) {
if (key == 1) { // Switch between normal and config mode
if (mode == 'N') {
mode = 'C';
} else {
mode = 'N';
}
return 0;
}
if (key == 11) { // Code for keylock
commonData->keylock = !commonData->keylock;
return 0;
}
return key;
}
#endif
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData){
// Logging boat values
logger->logDebug(GwLog::LOG, "Drawing at PageAIS; Mode=%c", mode);
// Set display in partial refresh mode
epd->setPartialWindow(0, 0, epd->width(), epd->height());
if (mode == 'N') {
displayModeNormal(pageData);
} else if (mode == 'C') {
displayModeConfig();
}
return PAGE_UPDATE;
};
};
static Page *createPage(CommonData &common){
return new PageAIS(common);
}
/**
* with the code below we make this page known to the PageTask
* we give it a type (name) that can be selected in the config
* we define which function is to be called
* and we provide the number of user parameters we expect
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageAIS(
"AIS", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"LAT", "LON", "SOG", "HDT"}, // Names of bus values undepends on selection in Web configuration (refer GwBoatData.h)
true // Show display header on/off
);
#endif

432
lib/obp60task/PageAnchor.cpp Normal file
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@@ -0,0 +1,432 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include "ConfigMenu.h"
/*
Anchor overview with additional associated data
This page is in experimental stage so be warned!
North is up.
Boatdata used
DBS - Water depth
HDT - Boat heading
AWS - Wind strength; Boat not moving so we assume AWS=TWS and AWD=TWD
AWD - Wind direction
LAT/LON - Boat position, current
HDOP - Position error
This is the fist page to contain a configuration page with
data entry option.
Also it will make use of the new alarm function.
Data
Anchor position lat/lon
Depth at anchor position
Chain length used
Boat position current
Depth at boat position
Boat heading
Wind direction
Wind strength
Alarm j/n
Alarm radius
GPS position error
Timestamp while dropping anchor
Drop / raise function in device OBP40 has to be done inside
config mode because of limited number of buttons.
Save position in FRAM
Alarm: gps fix lost
switch unit feet/meter
*/
#define anchor_width 16
#define anchor_height 16
static unsigned char anchor_bits[] = {
0x80, 0x01, 0x40, 0x02, 0x40, 0x02, 0x80, 0x01, 0xf0, 0x0f, 0x80, 0x01,
0x80, 0x01, 0x88, 0x11, 0x8c, 0x31, 0x8e, 0x71, 0x84, 0x21, 0x86, 0x61,
0x86, 0x61, 0xfc, 0x3f, 0xf8, 0x1f, 0x80, 0x01 };
class PageAnchor : public Page
{
private:
String lengthformat;
int scale = 50; // Radius of display circle in meter
bool alarm = false;
bool alarm_enabled = false;
uint8_t alarm_range;
uint8_t chain_length;
uint8_t chain;
bool anchor_set = false;
double anchor_lat;
double anchor_lon;
double anchor_depth;
int anchor_ts; // time stamp anchor dropped
char mode = 'N'; // (N)ormal, (C)onfig
int8_t editmode = -1; // marker for menu/edit/set function
ConfigMenu *menu;
void displayModeNormal(PageData &pageData) {
// Boatvalues: DBS, HDT, AWS, AWD, LAT, LON, HDOP
GwApi::BoatValue *bv_dbs = pageData.values[0]; // DBS
String sval_dbs = commonData->fmt->formatValue(bv_dbs, *commonData).svalue;
String sunit_dbs = commonData->fmt->formatValue(bv_dbs, *commonData).unit;
GwApi::BoatValue *bv_hdt = pageData.values[1]; // HDT
String sval_hdt = commonData->fmt->formatValue(bv_hdt, *commonData).svalue;
GwApi::BoatValue *bv_aws = pageData.values[2]; // AWS
String sval_aws = commonData->fmt->formatValue(bv_aws, *commonData).svalue;
String sunit_aws = commonData->fmt->formatValue(bv_aws, *commonData).unit;
GwApi::BoatValue *bv_awd = pageData.values[3]; // AWD
String sval_awd = commonData->fmt->formatValue(bv_awd, *commonData).svalue;
GwApi::BoatValue *bv_lat = pageData.values[4]; // LAT
String sval_lat = commonData->fmt->formatValue(bv_lat, *commonData).svalue;
GwApi::BoatValue *bv_lon = pageData.values[5]; // LON
String sval_lon = commonData->fmt->formatValue(bv_lon, *commonData).svalue;
GwApi::BoatValue *bv_hdop = pageData.values[6]; // HDOP
String sval_hdop = commonData->fmt->formatValue(bv_hdop, *commonData).svalue;
String sunit_hdop = commonData->fmt->formatValue(bv_hdop, *commonData).unit;
logger->logDebug(GwLog::DEBUG, "Drawing at PageAnchor; DBS=%f, HDT=%f, AWS=%f", bv_dbs->value, bv_hdt->value, bv_aws->value);
Point c = {200, 150}; // center = anchor position
uint16_t r = 125;
Point b = {200, 180}; // boat position while dropping anchor
const std::vector<Point> pts_boat = { // polygon lines
{b.x - 5, b.y},
{b.x - 5, b.y - 10},
{b.x, b.y - 16},
{b.x + 5, b.y - 10},
{b.x + 5, b.y}
};
//rotatePoints und dann Linien zeichnen
// TODO rotate boat according to current heading
//drawPoly(rotatePoints(c, pts, RadToDeg(value2)), commonData->fgcolor);
drawPoly(pts_boat, commonData->fgcolor);
// Draw wind arrow
const std::vector<Point> pts_wind = {
{c.x, c.y - r + 25},
{c.x - 12, c.y - r - 4},
{c.x, c.y - r + 6},
{c.x + 12, c.y - r - 4}
};
if (bv_awd->valid) {
fillPoly4(rotatePoints(c, pts_wind, bv_awd->value), commonData->fgcolor);
}
// Title and corner value headings
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("Anchor");
epd->setFont(&Ubuntu_Bold10pt8b);
epd->setCursor(8, 200);
epd->print("Depth");
drawTextRalign(392, 38, "Chain");
drawTextRalign(392, 200, "Wind");
// Units
epd->setCursor(8, 272);
epd->print(sunit_dbs);
drawTextRalign(392, 272, sunit_aws);
drawTextRalign(392, 100, lengthformat); // chain unit not implemented
// Corner values
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(8, 70);
epd->print("Alarm: ");
epd->print(alarm_enabled ? "On" : "Off");
epd->setCursor(8, 90);
epd->print("HDOP");
epd->setCursor(8, 106);
if (bv_hdop->valid) {
epd->print(round(bv_hdop->value), 0);
epd->print(sunit_hdop);
} else {
epd->print("n/a");
}
// Values
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
// Current chain used
epd->setCursor(328, 85);
epd->print("27");
// Depth
epd->setCursor(8, 250);
epd->print(sval_dbs);
// Wind
epd->setCursor(328, 250);
epd->print(sval_aws);
epd->drawCircle(c.x, c.y, r, commonData->fgcolor);
epd->drawCircle(c.x, c.y, r + 1, commonData->fgcolor);
// zoom scale
epd->drawLine(c.x + 10, c.y, c.x + r - 4, c.y, commonData->fgcolor);
// arrow left
epd->drawLine(c.x + 10, c.y, c.x + 16, c.y - 4, commonData->fgcolor);
epd->drawLine(c.x + 10, c.y, c.x + 16, c.y + 4, commonData->fgcolor);
// arrow right
epd->drawLine(c.x + r - 4, c.y, c.x + r - 10, c.y - 4, commonData->fgcolor);
epd->drawLine(c.x + r - 4, c.y, c.x + r - 10, c.y + 4, commonData->fgcolor);
epd->setFont(&Ubuntu_Bold8pt8b);
drawTextCenter(c.x + r / 2, c.y + 8, String(scale) + "m");
// alarm range circle
if (alarm_enabled) {
// alarm range in meter has to be smaller than the scale in meter
// r and r_range are pixel values
uint16_t r_range = int(alarm_range * r / scale);
logger->logDebug(GwLog::LOG, "Drawing at PageAnchor; Alarm range = %d", r_range);
epd->drawCircle(c.x, c.y, r_range, commonData->fgcolor);
}
// draw anchor symbol (as bitmap)
epd->drawXBitmap(c.x - anchor_width / 2, c.y - anchor_height / 2,
anchor_bits, anchor_width, anchor_height, commonData->fgcolor);
}
void displayModeConfig() {
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("Anchor configuration");
// TODO
// show lat/lon for anchor pos
// show lat/lon for boat pos
// show distance anchor <-> boat
epd->setFont(&Ubuntu_Bold8pt8b);
for (int i = 0 ; i < menu->getItemCount(); i++) {
ConfigMenuItem *itm = menu->getItemByIndex(i);
if (!itm) {
logger->logDebug(GwLog::ERROR, "Menu item not found: %d", i);
} else {
Rect r = menu->getItemRect(i);
bool inverted = (i == menu->getActiveIndex());
drawTextBoxed(r, itm->getLabel(), commonData->fgcolor, commonData->bgcolor, inverted, false);
if (inverted and editmode > 0) {
// triangle as edit marker
epd->fillTriangle(r.x + r.w + 20, r.y, r.x + r.w + 30, r.y + r.h / 2, r.x + r.w + 20, r.y + r.h, commonData->fgcolor);
}
epd->setCursor(r.x + r.w + 40, r.y + r.h - 4);
if (itm->getType() == "int") {
epd->print(itm->getValue());
epd->print(itm->getUnit());
} else {
epd->print(itm->getValue() == 0 ? "No" : "Yes");
}
}
}
}
public:
PageAnchor(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageAnchor");
// preload configuration data
lengthformat = config->getString(config->lengthFormat);
chain_length = config->getInt(config->chainLength);
chain = 0;
anchor_set = false;
alarm_range = 30;
// Initialize config menu
menu = new ConfigMenu("Options", 40, 80);
menu->setItemDimension(150, 20);
ConfigMenuItem *newitem;
newitem = menu->addItem("chain", "Chain out", "int", 0, "m");
if (! newitem) {
// Demo: in case of failure exit here, should never be happen
logger->logDebug(GwLog::ERROR, "Menu item creation failed");
return;
}
newitem->setRange(0, 200, {1, 5, 10});
newitem = menu->addItem("chainmax", "Chain max", "int", chain_length, "m");
newitem->setRange(0, 200, {1, 5, 10});
newitem = menu->addItem("zoom", "Zoom", "int", 50, "m");
newitem->setRange(0, 200, {1, });
newitem = menu->addItem("range", "Alarm range", "int", 40, "m");
newitem->setRange(0, 200, {1, 5, 10});
newitem = menu->addItem("alat", "Adjust anchor lat.", "int", 0, "m");
newitem->setRange(0, 200, {1, 5, 10});
newitem = menu->addItem("alon", "Adjust anchor lon.", "int", 0, "m");
newitem->setRange(0, 200, {1, 5, 10});
#ifdef BOARD_OBP40S3
// Intodruced here because of missing keys for OBP40
newitem = menu->addItem("anchor", "Anchor down", "bool", 0, "");
#endif
menu->setItemActive("zoom");
}
void setupKeys(){
Page::setupKeys();
commonData->keydata[0].label = "MODE";
commonData->keydata[1].label = "ALARM";
}
#ifdef BOARD_OBP60S3
int handleKey(int key){
if (key == 1) { // Switch between normal and config mode
if (mode == 'N') {
mode = 'C';
} else {
mode = 'N';
}
return 0;
}
if (mode == 'N') {
if (key == 2) { // Toggle alarm
alarm_enabled = !alarm_enabled;
return 0;
}
} else { // Config mode
if (key == 3) {
// menu down
menu->goNext();
return 0;
}
if (key == 4) {
// menu up
menu->goPrev();
return 0;
}
}
if (key == 11) { // Code for keylock
commonData->keylock = !commonData->keylock;
return 0;
}
return key;
}
#endif
#ifdef BOARD_OBP40S3
int handleKey(int key){
if (key == 1) { // Switch between normal and config mode
if (mode == 'N') {
mode = 'C';
commonData->keydata[1].label = "EDIT";
} else {
mode = 'N';
commonData->keydata[1].label = "ALARM";
}
return 0;
}
if (mode == 'N') {
if (key == 2) { // Toggle alarm
alarm_enabled = !alarm_enabled;
return 0;
}
} else { // Config mode
// TODO different code for OBP40 / OBP60
if (key == 9) {
// menu down
if (editmode > 0) {
// decrease item value
menu->getActiveItem()->decValue();
} else {
menu->goNext();
}
return 0;
}
if (key == 10) {
// menu up or value up
if (editmode > 0) {
// increase item value
menu->getActiveItem()->incValue();
} else {
menu->goPrev();
}
return 0;
}
if (key == 2) {
// enter / leave edit mode for current menu item
if (editmode > 0) {
commonData->keydata[1].label = "EDIT";
editmode = 0;
} else {
commonData->keydata[1].label = "SET";
editmode = 1;
}
return 0;
}
}
if (key == 11) { // Code for keylock
commonData->keylock = !commonData->keylock;
return 0;
}
return key;
}
#endif
void displayNew(PageData &pageData){
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData){
// Logging boat values
logger->logDebug(GwLog::LOG, "Drawing at PageAnchor; Mode=%c", mode);
// Set display in partial refresh mode
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
if (mode == 'N') {
displayModeNormal(pageData);
} else if (mode == 'C') {
displayModeConfig();
}
return PAGE_UPDATE;
};
};
static Page *createPage(CommonData &common){
return new PageAnchor(common);
}
/**
* with the code below we make this page known to the PageTask
* we give it a type (name) that can be selected in the config
* we define which function is to be called
* and we provide the number of user parameters we expect
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageAnchor(
"Anchor", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"DBS", "HDT", "AWS", "AWD", "LAT", "LON", "HDOP"}, // Names of bus values undepends on selection in Web configuration (refer GwBoatData.h)
true // Show display header on/off
);
#endif

315
lib/obp60task/PageAutopilot.cpp
View File

@@ -1,251 +1,126 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
// These constants have to match the declaration below in :
// PageDescription registerPageAutopilot(
// {"HDM","HDT", "COG", "STW", "SOG", "DBT","XTE", "DTW", "BTW"}, // Bus values we need in the page
const int HowManyValues = 9;
/*
Autopilot
const int AverageValues = 4;
const int ShowHDM = 0;
const int ShowHDT = 1;
const int ShowCOG = 2;
const int ShowSTW = 3;
const int ShowSOG = 4;
const int ShowDBT = 5;
const int ShowXTE = 6;
const int ShowDTW = 7;
const int ShowBTW = 8;
const int Compass_X0 = 200; // X center point of compass band
const int Compass_Y0 = 220; // Y position of compass lines
const int Compass_LineLength = 22; // Length of compass lines
const float Compass_LineDelta = 8.0;// Compass band: 1deg = 5 Pixels, 10deg = 50 Pixels
*/
class PageAutopilot : public Page
{
int WhichDataCompass = ShowHDM; // Start value
int WhichDataDisplay = ShowHDM; // Start value
private:
char mode = 'N'; // (N)ormal, (C)onfig
void displayModeNormal(PageData &pageData) {
// TBD Boatvalues: ...
logger->logDebug(GwLog::DEBUG, "Drawing at PageAutopilot");
// Title and corner value headings
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("Autopilot");
public:
PageAutopilot(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageAutopilot");
}
virtual void setupKeys(){
Page::setupKeys();
commonData->keydata[0].label = "CMP";
commonData->keydata[1].label = "SRC";
}
virtual int handleKey(int key){
// Code for keylock
if ( key == 1 ) {
WhichDataCompass += 1;
if ( WhichDataCompass > ShowCOG)
WhichDataCompass = ShowHDM;
return 0;
}
if ( key == 2 ) {
WhichDataDisplay += 1;
if ( WhichDataDisplay > ShowDBT)
WhichDataDisplay = ShowHDM;
}
void displayModeConfig() {
if(key == 11){
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("Autopilot configuration");
epd->setFont(&Ubuntu_Bold8pt8b);
// TODO menu
}
public:
PageAutopilot(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageAutopilot");
}
void setupKeys() {
Page::setupKeys();
commonData->keydata[0].label = "MODE";
}
#ifdef BOARD_OBP60S3
int handleKey(int key) {
if (key == 1) { // Switch between normal and config mode
if (mode == 'N') {
mode = 'C';
} else {
mode = 'N';
}
return 0;
}
if (key == 11) { // Code for keylock
commonData->keylock = !commonData->keylock;
return 0; // Commit the key
return 0;
}
return key;
}
#endif
#ifdef BOARD_OBP40S3
int handleKey(int key){
if (key == 1) { // Switch between normal and config mode
if (mode == 'N') {
mode = 'C';
commonData->keydata[1].label = "EDIT";
} else {
mode = 'N';
commonData->keydata[1].label = "ALARM";
}
return 0;
}
if (key == 11) { // Code for keylock
commonData->keylock = !commonData->keylock;
return 0;
}
return key;
}
#endif
void displayNew(PageData &pageData){
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
static String OldDataText[HowManyValues] = {"", "", "","", "", "","", "", ""};
static String OldDataUnits[HowManyValues] = {"", "", "","", "", "","", "", ""};
// Get config data
String lengthformat = config->getString(config->lengthFormat);
// bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
GwApi::BoatValue *bvalue;
String DataName[HowManyValues];
double DataValue[HowManyValues];
bool DataValid[HowManyValues];
String DataText[HowManyValues];
String DataUnits[HowManyValues];
String DataFormat[HowManyValues];
FormattedData TheFormattedData;
for (int i = 0; i < HowManyValues; i++){
bvalue = pageData.values[i];
TheFormattedData = formatValue(bvalue, *commonData);
DataName[i] = xdrDelete(bvalue->getName());
DataName[i] = DataName[i].substring(0, 6); // String length limit for value name
DataUnits[i] = formatValue(bvalue, *commonData).unit;
DataText[i] = TheFormattedData.svalue; // Formatted value as string including unit conversion and switching decimal places
DataValue[i] = TheFormattedData.value; // Value as double in SI unit
DataValid[i] = bvalue->valid;
DataFormat[i] = bvalue->getFormat(); // Unit of value
LOG_DEBUG(GwLog::LOG,"Drawing at PageAutopilot: %d %s %f %s %s", i, DataName[i], DataValue[i], DataFormat[i], DataText[i] );
}
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
if (bvalue == NULL) return PAGE_OK; // WTF why this statement?
//***********************************************************
// Logging boat values
logger->logDebug(GwLog::LOG, "Drawing at PageAutopilot; Mode=%c", mode);
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setPartialWindow(0, 0, epd->width(), epd->height());
// Horizontal line 2 pix top & bottom
// Print data on top half
getdisplay().fillRect(0, 130, 400, 2, commonData->fgcolor);
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(10, 70);
getdisplay().print(DataName[WhichDataDisplay]); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(10, 120);
getdisplay().print(DataUnits[WhichDataDisplay]);
getdisplay().setCursor(190, 120);
getdisplay().setFont(&DSEG7Classic_BoldItalic42pt7b);
if(holdvalues == false){
getdisplay().print(DataText[WhichDataDisplay]); // Real value as formated string
}
else{
getdisplay().print(OldDataText[WhichDataDisplay]); // Old value as formated string
}
if(DataValid[WhichDataDisplay] == true){
OldDataText[WhichDataDisplay] = DataText[WhichDataDisplay]; // Save the old value
OldDataUnits[WhichDataDisplay] = DataUnits[WhichDataDisplay]; // Save the old unit
}
// Now draw compass band
// Get the data
double TheAngle = DataValue[WhichDataCompass];
static double AvgAngle = 0;
AvgAngle = ( AvgAngle * AverageValues + TheAngle ) / (AverageValues + 1 );
int TheTrend = round( ( TheAngle - AvgAngle) * 180.0 / M_PI );
static const int bsize = 30;
char buffer[bsize+1];
buffer[0]=0;
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(10, Compass_Y0-60);
getdisplay().print(DataName[WhichDataCompass]); // Page name
// Draw compass base line and pointer
getdisplay().fillRect(0, Compass_Y0, 400, 3, commonData->fgcolor);
getdisplay().fillTriangle(Compass_X0,Compass_Y0-40,Compass_X0-10,Compass_Y0-80,Compass_X0+10,Compass_Y0-80,commonData->fgcolor);
// Draw trendlines
for ( int i = 1; i < abs(TheTrend) / 2; i++){
int x1;
if ( TheTrend < 0 )
x1 = Compass_X0 + 20 * i;
else
x1 = Compass_X0 - 20 * ( i + 1 );
getdisplay().fillRect(x1, Compass_Y0 -55, 10, 6, commonData->fgcolor);
}
// Central line + satellite lines
double NextSector = round(TheAngle / ( M_PI / 9 )) * ( M_PI / 9 ); // Get the next 20degree value
double Offset = - ( NextSector - TheAngle); // Offest of the center line compared to TheAngle in Radian
int Delta_X = int ( Offset * 180.0 / M_PI * Compass_LineDelta );
for ( int i = 0; i <=4; i++ ){
int x0;
x0 = Compass_X0 + Delta_X + 2 * i * 5 * Compass_LineDelta;
getdisplay().fillRect(x0-2, Compass_Y0 - 2 * Compass_LineLength, 5, 2 * Compass_LineLength, commonData->fgcolor);
x0 = Compass_X0 + Delta_X + ( 2 * i + 1 ) * 5 * Compass_LineDelta;
getdisplay().fillRect(x0-1, Compass_Y0 - Compass_LineLength, 3, Compass_LineLength, commonData->fgcolor);
x0 = Compass_X0 + Delta_X - 2 * i * 5 * Compass_LineDelta;
getdisplay().fillRect(x0-2, Compass_Y0 - 2 * Compass_LineLength, 5, 2 * Compass_LineLength, commonData->fgcolor);
x0 = Compass_X0 + Delta_X - ( 2 * i + 1 ) * 5 * Compass_LineDelta;
getdisplay().fillRect(x0-1, Compass_Y0 - Compass_LineLength, 3, Compass_LineLength, commonData->fgcolor);
}
getdisplay().fillRect(0, Compass_Y0, 400, 3, commonData->fgcolor);
// Add the numbers to the compass band
int x0;
float AngleToDisplay = NextSector * 180.0 / M_PI;
x0 = Compass_X0 + Delta_X;
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
do {
getdisplay().setCursor(x0 - 40, Compass_Y0 + 40);
snprintf(buffer,bsize,"%03.0f", AngleToDisplay);
getdisplay().print(buffer);
AngleToDisplay += 20;
if ( AngleToDisplay >= 360.0 )
AngleToDisplay -= 360.0;
x0 -= 4 * 5 * Compass_LineDelta;
} while ( x0 >= 0 - 60 );
AngleToDisplay = NextSector * 180.0 / M_PI - 20;
if ( AngleToDisplay < 0 )
AngleToDisplay += 360.0;
x0 = Compass_X0 + Delta_X + 4 * 5 * Compass_LineDelta;
do {
getdisplay().setCursor(x0 - 40, Compass_Y0 + 40);
snprintf(buffer,bsize,"%03.0f", AngleToDisplay);
// Quick and dirty way to prevent wrapping text in next line
if ( ( x0 - 40 ) > 380 )
buffer[0] = 0;
else if ( ( x0 - 40 ) > 355 )
buffer[1] = 0;
else if ( ( x0 - 40 ) > 325 )
buffer[2] = 0;
getdisplay().print(buffer);
AngleToDisplay -= 20;
if ( AngleToDisplay < 0 )
AngleToDisplay += 360.0;
x0 += 4 * 5 * Compass_LineDelta;
} while (x0 < ( 400 - 20 -40 ) );
// static int x_test = 320;
// x_test += 2;
// snprintf(buffer,bsize,"%03d", x_test);
// getdisplay().setCursor(x_test, Compass_Y0 - 60);
// getdisplay().print(buffer);
// if ( x_test > 390)
// x_test = 320;
if (mode == 'N') {
displayModeNormal(pageData);
} else if (mode == 'C') {
displayModeConfig();
}
return PAGE_UPDATE;
};
};
static Page *createPage(CommonData &common){
return new PageAutopilot(common);
}/**
}
/**
* with the code below we make this page known to the PageTask
* we give it a type (name) that can be selected in the config
* we define which function is to be called
@@ -256,8 +131,8 @@ PageDescription registerPageAutopilot(
"Autopilot", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"HDM","HDT", "COG", "STW", "SOG", "DBT","XTE", "DTW", "BTW"}, // Bus values we need in the page
true // Show display header on/off
{}, // Names of bus values undepends on selection in Web configuration (refer GwBoatData.h)
false // Show display header on/off
);
#endif

161
lib/obp60task/PageBME280.cpp
View File

@@ -1,17 +1,36 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
/***************************************************************************
* Page to display internal environment data
* - Internal device temperature
* - Athmospheric pressure
* - Humidity
*
* Supportet Sensors: BME280, BMP280, BMP180
*
*/
#include "Pagedata.h"
#include "OBP60Extensions.h"
class PageBME280 : public Page
{
public:
PageBME280(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageBME280");
private:
String tempformat;
String useenvsensor;
public:
PageBME280(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageBME280");
// Get config data
tempformat = config->getString(config->tempFormat);
useenvsensor = config->getString(config->useEnvSensor);
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -20,9 +39,17 @@ class PageBME280 : public Page
return key;
}
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
double value1 = 0;
double value2 = 0;
@@ -30,151 +57,133 @@ class PageBME280 : public Page
String svalue1 = "";
String svalue2 = "";
String svalue3 = "";
// Get config data
String tempformat = config->getString(config->tempFormat);
bool simulation = config->getBool(config->useSimuData);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
String useenvsensor = config->getString(config->useEnvSensor);
// Get sensor values #1
String name1 = "Temp"; // Value name
name1 = name1.substring(0, 6); // String length limit for value name
if(simulation == false){
if (simulation == false) {
value1 = commonData->data.airTemperature; // Value as double in SI unit
}
else{
} else {
value1 = 23.0 + float(random(0, 10)) / 10.0;
}
// Display data when sensor activated
if((useenvsensor == "BME280") or (useenvsensor == "BMP280") or (useenvsensor == "BMP180")){
if ((useenvsensor == "BME280") or (useenvsensor == "BMP280")
or (useenvsensor == "BMP180"))
{
svalue1 = String(value1, 1); // Formatted value as string including unit conversion and switching decimal places
}
else{
svalue1 = "---";
} else {
svalue1 = commonData->fmt->placeholder;
}
String unit1 = "Deg C"; // Unit of value
// Get sensor values #2
String name2 = "Humid"; // Value name
name2 = name2.substring(0, 6); // String length limit for value name
if(simulation == false){
if (simulation == false) {
value2 = commonData->data.airHumidity; // Value as double in SI unit
}
else{
} else {
value2 = 43 + float(random(0, 4));
}
// Display data when sensor activated
if(useenvsensor == "BME280"){
if (useenvsensor == "BME280") {
svalue2 = String(value2, 0); // Formatted value as string including unit conversion and switching decimal places
}
else{
svalue2 = "---";
} else {
svalue2 = commonData->fmt->placeholder;
}
String unit2 = "%"; // Unit of value
// Get sensor values #3
String name3 = "Press"; // Value name
name3 = name3.substring(0, 6); // String length limit for value name
if(simulation == false){
if (simulation == false) {
value3 = commonData->data.airPressure; // Value as double in SI unit
}
else{
} else {
value3 = 1006 + float(random(0, 5));
}
// Display data when sensor activated
if((useenvsensor == "BME280") or (useenvsensor == "BMP280") or (useenvsensor == "BMP180")){
if ((useenvsensor == "BME280") or (useenvsensor == "BMP280")
or (useenvsensor == "BMP180"))
{
svalue3 = String(value3 / 100, 1); // Formatted value as string including unit conversion and switching decimal places
}
else{
svalue3 = "---";
} else {
svalue3 = commonData->fmt->placeholder;
}
String unit3 = "hPa"; // Unit of value
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageBME280, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3);
logger->logDebug(GwLog::LOG, "Drawing at PageBME280, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// ############### Value 1 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 55);
getdisplay().print(name1); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 55);
epd->print(name1); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 90);
getdisplay().print(unit1); // Unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 90);
epd->print(unit1); // Unit
// Switch font if format for any values
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 90);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 90);
// Show bus data
getdisplay().print(svalue1); // Real value as formated string
epd->print(svalue1); // Real value as formated string
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 105, 400, 3, commonData->fgcolor);
epd->fillRect(0, 105, 400, 3, commonData->fgcolor);
// ############### Value 2 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 145);
getdisplay().print(name2); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 145);
epd->print(name2); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 180);
getdisplay().print(unit2); // Unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 180);
epd->print(unit2); // Unit
// Switch font if format for any values
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 180);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 180);
// Show bus data
getdisplay().print(svalue2); // Real value as formated string
epd->print(svalue2); // Real value as formated string
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 195, 400, 3, commonData->fgcolor);
epd->fillRect(0, 195, 400, 3, commonData->fgcolor);
// ############### Value 3 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 235);
getdisplay().print(name3); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 235);
epd->print(name3); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 270);
getdisplay().print(unit3); // Unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 270);
epd->print(unit3); // Unit
// Switch font if format for any values
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(140, 270);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(140, 270);
// Show bus data
getdisplay().print(svalue3); // Real value as formated string
epd->print(svalue3); // Real value as formated string
return PAGE_UPDATE;
};

238
lib/obp60task/PageBarograph.cpp Normal file
View File

@@ -0,0 +1,238 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
/*
* Barograph WIP
* - Zoom feature
* - Saves data in FRAM if available
*/
#include "Pagedata.h"
#include "OBP60Extensions.h"
class PageBarograph : public Page
{
private:
bool keylock = false;
bool has_fram = false;
String flashLED;
String useenvsensor;
char source = 'I'; // (I)nternal, e(X)ternal
const int series[5] = {75, 150, 300, 600, 900};
const int zoom[5] = {1, 2, 3, 6, 12};
int zoomindex = 4;
uint16_t data[336] = {0}; // current data to display
// y-axis
uint16_t vmin;
uint16_t vmax;
uint16_t scalemin = 1000;
uint16_t scalemax = 1020;
uint16_t scalestep = 5;
int hist1 = 0; // one hour trend
int hist3 = 0; // three hours trend
long refresh = 0; // millis
void loadData() {
// Transfer data from history to page buffer,
// set y-axis according to data
int i = zoom[zoomindex];
// get min and max values of measured data
vmin = data[0];
vmax = data[0];
for (int x = 0; x < 336; x++) {
if (data[x] != 0) {
if (data[x] < vmin) {
vmin = data[x];
} else if (data[x] > vmax) {
vmax = data[x];
}
}
}
// calculate y-axis scale
uint16_t diff = vmax - vmin;
if (diff < 20) {
scalestep = 5;
} else if (diff < 40) {
scalestep = 10;
} else {
scalestep = 15;
}
scalemin = vmin - (vmin % scalestep);
scalemax = vmax + scalestep - (vmax % scalestep);
// TODO implement history buffer
};
public:
PageBarograph(CommonData &common): Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageBarograph");
// Get config data
useenvsensor = config->getString(common.config->useEnvSensor);
// possible values for internal sensor
static std::vector<String> sensorList = {
"BME280", "BMP280", "BMP180", "BMP085", "HTU21", "SHT21"
};
if (std::find(sensorList.begin(), sensorList.end(), useenvsensor) != sensorList.end()) {
source = 'I';
} else {
// "off" means user external data if available
source = 'X';
}
//common.logger->logDebug(GwLog::LOG,"Source=%s (%s)", source, useenvsensor);
loadData(); // initial load
}
int handleKey(int key) {
if (key == 1) {
// zoom in
if (zoomindex > 0) {
zoomindex -= 1;
}
return 0;
}
if (key == 2) {
// zoom out
if (zoomindex < sizeof(zoom)) {
zoomindex += 1;
}
return 0;
}
if (key == 11) {
keylock = !keylock;
return 0;
}
return key;
}
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
// Logging boat values
logger->logDebug(GwLog::LOG, "Drawing at PageBarograph");
// Draw page
//***********************************************************
// Set display in partial refresh mode
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
// Frames
epd->fillRect(0, 75, 400, 2, commonData->fgcolor); // fillRect: x, y, w, h
epd->fillRect(130, 20, 2, 55, commonData->fgcolor);
epd->fillRect(270, 20, 2, 55, commonData->fgcolor);
epd->fillRect(325, 20, 2, 55, commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold8pt8b);
if (source == 'I') {
drawTextCenter(360, 40, useenvsensor);
} else {
drawTextCenter(360, 40, "ext.");
}
// Trend
drawTextCenter(295, 62, "0.0");
// Alarm placeholder
drawTextCenter(70, 62, "Alarm Off");
// Zoom
int datastep = series[zoomindex];
String fmt;
if (datastep > 120) {
if (datastep % 60 == 0) {
fmt = String(datastep / 60.0, 0) + " min";
} else {
fmt = String(datastep / 60.0, 1) + " min";
}
} else {
fmt = String(datastep) + " s";
}
drawTextCenter(360, 62, fmt);
// Current measurement
epd->setFont(&Ubuntu_Bold16pt8b);
drawTextCenter(200, 40, String(commonData->data.airPressure / 100, 1));
epd->setFont(&Ubuntu_Bold8pt8b);
drawTextCenter(200, 62, "hPa"); // Unit
// Diagram
const int xstep = 48; // x-axis-grid
const int x0 = 350; // origin
const int y0 = 270;
const int w = 7 * 48;
const int h = 180;
// epd->drawRect(x0 - w, y0 - h, w, h, commonData->fgcolor);
// x-axis are hours
for (int i = 1; i <= 6; i++) {
String label = String(-1 * zoom[zoomindex] * i);
epd->drawLine(x0 - i * xstep, y0, x0 - i * xstep, y0 - h, commonData->fgcolor);
drawTextCenter(x0 - i * xstep, y0 - 10, label);
}
// y-axis
epd->drawLine(x0 + 5, y0, x0 + 5, y0 - h, commonData->fgcolor); // drawLine: x1, y1, x2, y2
epd->drawLine(x0 - w, y0, x0 - w, y0 - h, commonData->fgcolor);
epd->drawLine(x0 - w - 5, y0, x0 - w - 5, y0 - h, commonData->fgcolor);
epd->drawLine(x0, y0, x0, y0 - h, commonData->fgcolor);
int16_t dy = 9; // px for one hPa
int16_t y = y0;
int16_t ys = scalemin;
while (y >= y0 - h) {
if (y % scalestep == 0) {
// big step, show label and long line
epd->setCursor(x0 + 10, y + 5);
epd->print(String(ys));
epd->drawLine(x0 + 5, y, x0 - w - 5, y, commonData->fgcolor);
} else {
// small step, only short lines left and right
epd->drawLine(x0 + 5, y, x0, y, commonData->fgcolor);
epd->drawLine(x0 - w - 5, y, x0 - w, y, commonData->fgcolor);
}
y -= dy;
ys += 1;
}
return PAGE_UPDATE;
};
};
static Page* createPage(CommonData &common){
return new PageBarograph(common);
}
/**
* with the code below we make this page known to the PageTask
* we give it a type (name) that can be selected in the config
* we define which function is to be called
* and we provide the number of user parameters we expect
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageBarograph(
"Barograph", // Page name
createPage, // Action
0, // No bus values needed
true // Show display header on/off
);
#endif

180
lib/obp60task/PageBattery.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -5,20 +6,25 @@
class PageBattery : public Page
{
private:
String powsensor1;
int average = 0; // Average type [0...3], 0=off, 1=10s, 2=60s, 3=300s
public:
PageBattery(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageBattery");
public:
PageBattery(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageBattery");
// Get config data
String powsensor1 = config->getString(config->usePowSensor1);
}
virtual void setupKeys(){
void setupKeys(){
Page::setupKeys();
commonData->keydata[0].label = "AVG";
}
virtual int handleKey(int key){
int handleKey(int key){
// Change average
if(key == 1){
average ++;
@@ -34,10 +40,18 @@ class PageBattery : public Page
return key;
}
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
double value1 = 0;
static String svalue1old = "";
@@ -48,15 +62,7 @@ class PageBattery : public Page
double value3 = 0;
static String svalue3old = "";
static String unit3old = "";
// Get config data
String lengthformat = config->getString(config->lengthFormat);
// bool simulation = config->getBool(config->useSimuData);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
String powsensor1 = config->getString(config->usePowSensor1);
bool simulation = config->getBool(config->useSimuData);
// Get voltage value
String name1 = "VBat"; // Value name
if(String(powsensor1) == "INA219" || String(powsensor1) == "INA226"){
@@ -145,147 +151,141 @@ class PageBattery : public Page
String svalue3 = String(value3); // Formatted value as string including unit conversion and switching decimal places
String unit3 = "W"; // Unit of value
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageBattery, %s: %f, %s: %f, %s: %f, Avg: %d", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, average);
logger->logDebug(GwLog::LOG, "Drawing at PageBattery, %s: %f, %s: %f, %s: %f, Avg: %d", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, average);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
// Show average settings
getdisplay().setTextColor(commonData->fgcolor);
getdisplay().setFont(&Ubuntu_Bold8pt8b);
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold8pt8b);
switch (average) {
case 0:
getdisplay().setCursor(60, 90);
getdisplay().print("Avg: 1s");
getdisplay().setCursor(60, 180);
getdisplay().print("Avg: 1s");
getdisplay().setCursor(60, 270);
getdisplay().print("Avg: 1s");
epd->setCursor(60, 90);
epd->print("Avg: 1s");
epd->setCursor(60, 180);
epd->print("Avg: 1s");
epd->setCursor(60, 270);
epd->print("Avg: 1s");
break;
case 1:
getdisplay().setCursor(60, 90);
getdisplay().print("Avg: 10s");
getdisplay().setCursor(60, 180);
getdisplay().print("Avg: 10s");
getdisplay().setCursor(60, 270);
getdisplay().print("Avg: 10s");
epd->setCursor(60, 90);
epd->print("Avg: 10s");
epd->setCursor(60, 180);
epd->print("Avg: 10s");
epd->setCursor(60, 270);
epd->print("Avg: 10s");
break;
case 2:
getdisplay().setCursor(60, 90);
getdisplay().print("Avg: 60s");
getdisplay().setCursor(60, 180);
getdisplay().print("Avg: 60s");
getdisplay().setCursor(60, 270);
getdisplay().print("Avg: 60s");
epd->setCursor(60, 90);
epd->print("Avg: 60s");
epd->setCursor(60, 180);
epd->print("Avg: 60s");
epd->setCursor(60, 270);
epd->print("Avg: 60s");
break;
case 3:
getdisplay().setCursor(60, 90);
getdisplay().print("Avg: 300s");
getdisplay().setCursor(60, 180);
getdisplay().print("Avg: 300s");
getdisplay().setCursor(60, 270);
getdisplay().print("Avg: 300s");
epd->setCursor(60, 90);
epd->print("Avg: 300s");
epd->setCursor(60, 180);
epd->print("Avg: 300s");
epd->setCursor(60, 270);
epd->print("Avg: 300s");
break;
default:
getdisplay().setCursor(60, 90);
getdisplay().print("Avg: 1s");
getdisplay().setCursor(60, 180);
getdisplay().print("Avg: 1s");
getdisplay().setCursor(60, 270);
getdisplay().print("Avg: 1s");
epd->setCursor(60, 90);
epd->print("Avg: 1s");
epd->setCursor(60, 180);
epd->print("Avg: 1s");
epd->setCursor(60, 270);
epd->print("Avg: 1s");
break;
}
// ############### Value 1 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 55);
getdisplay().print(name1); // Value name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 55);
epd->print(name1); // Value name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 90);
getdisplay().print(unit1); // Unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 90);
epd->print(unit1); // Unit
// Show value
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 90);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 90);
// Show bus data
if(String(powsensor1) != "off"){
getdisplay().print(value1,2); // Real value as formated string
epd->print(value1,2); // Real value as formated string
}
else{
getdisplay().print("---"); // No sensor data (sensor is off)
epd->print(commonData->fmt->placeholder); // No sensor data (sensor is off)
}
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 105, 400, 3, commonData->fgcolor);
epd->fillRect(0, 105, 400, 3, commonData->fgcolor);
// ############### Value 2 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 145);
getdisplay().print(name2); // Value name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 145);
epd->print(name2); // Value name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 180);
getdisplay().print(unit2); // Unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 180);
epd->print(unit2); // Unit
// Show value
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 180);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 180);
// Show bus data
if(String(powsensor1) != "off"){
getdisplay().print(value2,1); // Real value as formated string
epd->print(value2,1); // Real value as formated string
}
else{
getdisplay().print("---"); // No sensor data (sensor is off)
epd->print(commonData->fmt->placeholder); // No sensor data (sensor is off)
}
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 195, 400, 3, commonData->fgcolor);
epd->fillRect(0, 195, 400, 3, commonData->fgcolor);
// ############### Value 3 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 235);
getdisplay().print(name3); // Value name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 235);
epd->print(name3); // Value name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 270);
getdisplay().print(unit3); // Unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 270);
epd->print(unit3); // Unit
// Show value
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 270);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 270);
// Show bus data
if(String(powsensor1) != "off"){
getdisplay().print(value3,1); // Real value as formated string
epd->print(value3,1); // Real value as formated string
}
else{
getdisplay().print("---"); // No sensor data (sensor is off)
epd->print(commonData->fmt->placeholder); // No sensor data (sensor is off)
}
return PAGE_UPDATE;

347
lib/obp60task/PageBattery2.cpp
View File

@@ -1,28 +1,44 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
/***************************************************************************
* External battery sensors
*/
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include "movingAvg.h" // Lib for moving average building
class PageBattery2 : public Page
{
bool init = false; // Marker for init done
int average = 0; // Average type [0...3], 0=off, 1=10s, 2=60s, 3=300s
bool trend = true; // Trend indicator [0|1], 0=off, 1=on
double raw = 0;
private:
String batVoltage;
int batCapacity;
String batType;
String powerSensor;
bool init = false; // Marker for init done
int average = 0; // Average type [0...3], 0=off, 1=10s, 2=60s, 3=300s
bool trend = true; // Trend indicator [0|1], 0=off, 1=on
double raw = 0;
public:
PageBattery2(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageBattery2");
PageBattery2(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageBattery2");
// Get config data
batVoltage = config->getString(config->batteryVoltage);
batCapacity = config->getInt(config->batteryCapacity);
batType = config->getString(config->batteryType);
powerSensor = config->getString(config->usePowSensor1);
}
virtual void setupKeys(){
void setupKeys(){
Page::setupKeys();
commonData->keydata[0].label = "AVG";
}
virtual int handleKey(int key){
int handleKey(int key) {
// Change average
if(key == 1){
average ++;
@@ -44,11 +60,17 @@ public:
return key;
}
int displayPage(PageData &pageData)
{
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
// Polynominal coefficients second order for battery energy level calculation
// index 0 = Pb, 1 = Gel, 2 = AGM, 3 = LiFePo4
float x0[4] = {+3082.5178, +1656.1571, +1316.8766, +14986.9336}; // Offset
@@ -57,16 +79,6 @@ public:
int batPercentage = 0; // Battery level
float batRange = 0; // Range in hours
// Get config data
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String batVoltage = config->getString(config->batteryVoltage);
int batCapacity = config->getInt(config->batteryCapacity);
String batType = config->getString(config->batteryType);
String backlightMode = config->getString(config->backlight);
String powerSensor = config->getString(config->usePowSensor1);
double value1 = 0; // Battery voltage
double value2 = 0; // Battery current
double value3 = 0; // Battery power consumption
@@ -76,11 +88,11 @@ public:
String name1 = "VBat";
// Create trend value
if(init == false){ // Load start values for first page run
if (init == false) { // Load start values for first page run
valueTrend = commonData->data.batteryVoltage10;
init = true;
}
else{ // Reading trend value
else { // Reading trend value
valueTrend = commonData->data.batteryVoltage10;
}
@@ -118,221 +130,224 @@ public:
bool valid1 = true;
// Battery energy level calculation
if(String(batType) == "Pb"){
if (String(batType) == "Pb") {
batPercentage = (value1 * value1 * x2[0]) + (value1 * x1[0]) + x0[0];
}
if(String(batType) == "Gel"){
} else if (String(batType) == "Gel") {
batPercentage = (value1 * value1 * x2[1]) + (value1 * x1[1]) + x0[1];
}
if(String(batType) == "AGM"){
} else if (String(batType) == "AGM") {
batPercentage = (value1 * value1 * x2[2]) + (value1 * x1[2]) + x0[2];
}
if(String(batType) == "LiFePo4"){
} else if (String(batType) == "LiFePo4") {
batPercentage = (value1 * value1 * x2[3]) + (value1 * x1[3]) + x0[3];
}
// Limits for battery level
if(batPercentage < 0) batPercentage = 0;
if(batPercentage > 99) batPercentage = 99;
if (batPercentage < 0) {
batPercentage = 0;
} else if (batPercentage > 99) {
batPercentage = 99;
}
// Battery range calculation
if(value2 <= 0) value2 = 0.0000001; // Limiting current
if (value2 <= 0) {
value2 = 0.0000001; // Limiting current
}
batRange = batCapacity * batPercentage / 100 / value2;
// Limits for battery range
if(batRange < 0) batRange = 0;
if(batRange > 99) batRange = 99;
if (batRange < 0) {
batRange = 0;
} else if (batRange > 99) {
batRange = 99;
}
// Optical warning by limit violation
if(String(flashLED) == "Limit Violation"){
// Limits for Pb battery
if(String(batType) == "Pb" && (raw < 11.8 || raw > 14.8)){
if (flashLED == "Limit Violation") {
bool violation = false;
if (batType == "Pb") {
violation = (raw < 11.8 || raw > 14.8);
} else if (batType == "Gel") {
violation = (raw < 11.8 || raw > 14.4);
} else if (batType == "AGM") {
violation = (raw < 11.8 || raw > 14.7);
} else if (batType == "LiFePo4") {
violation = (raw < 12.0 || raw > 14.6);
}
if (violation) {
setBlinkingLED(true);
}
if(String(batType) == "Pb" && (raw >= 11.8 && raw <= 14.8)){
setBlinkingLED(false);
setFlashLED(false);
}
// Limits for Gel battery
if(String(batType) == "Gel" && (raw < 11.8 || raw > 14.4)){
setBlinkingLED(true);
}
if(String(batType) == "Gel" && (raw >= 11.8 && raw <= 14.4)){
setBlinkingLED(false);
setFlashLED(false);
}
// Limits for AGM battery
if(String(batType) == "AGM" && (raw < 11.8 || raw > 14.7)){
setBlinkingLED(true);
}
if(String(batType) == "AGM" && (raw >= 11.8 && raw <= 14.7)){
setBlinkingLED(false);
setFlashLED(false);
}
// Limits for LiFePo4 battery
if(String(batType) == "LiFePo4" && (raw < 12.0 || raw > 14.6)){
setBlinkingLED(true);
}
if(String(batType) == "LiFePo4" && (raw >= 12.0 && raw <= 14.6)){
} else {
setBlinkingLED(false);
setFlashLED(false);
}
}
// Logging voltage value
LOG_DEBUG(GwLog::LOG,"Drawing at PageBattery2, Type:%s %s:=%f", batType.c_str(), name1.c_str(), raw);
logger->logDebug(GwLog::LOG, "Drawing at PageBattery2, Type:%s %s:=%f", batType.c_str(), name1.c_str(), raw);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(10, 65);
getdisplay().print("Bat.");
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(10, 65);
epd->print("Bat.");
// Show battery type
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(90, 65);
getdisplay().print(batType);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(90, 65);
epd->print(batType);
// Show voltage type
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 140);
int bvoltage = 0;
if(String(batVoltage) == "12V") bvoltage = 12;
else bvoltage = 24;
getdisplay().print(bvoltage);
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("V");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 140);
epd->print(batVoltage == "12V" ? "12" : "24");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("V");
// Show battery capacity
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 200);
if(batCapacity <= 999) getdisplay().print(batCapacity, 0);
if(batCapacity > 999) getdisplay().print(float(batCapacity/1000.0), 1);
getdisplay().setFont(&Ubuntu_Bold16pt8b);
if(batCapacity <= 999) getdisplay().print("Ah");
if(batCapacity > 999) getdisplay().print("kAh");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 200);
String unit = "Ah";
if (batCapacity <= 999) {
epd->print(batCapacity, 0);
} else if (batCapacity > 999) {
epd->print(float(batCapacity/1000.0), 1);
unit = "kAh";
}
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print(unit);
// Show info
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 235);
getdisplay().print("Installed");
getdisplay().setCursor(10, 255);
getdisplay().print("Battery Type");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 235);
epd->print("Installed");
epd->setCursor(10, 255);
epd->print("Battery Type");
// Show battery with fill level
batteryGraphic(150, 45, batPercentage, commonData->fgcolor, commonData->bgcolor);
// Show average settings
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(150, 145);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(150, 145);
switch (average) {
case 0:
getdisplay().print("Avg: 1s");
epd->print("Avg: 1s");
break;
case 1:
getdisplay().print("Avg: 10s");
epd->print("Avg: 10s");
break;
case 2:
getdisplay().print("Avg: 60s");
epd->print("Avg: 60s");
break;
case 3:
getdisplay().print("Avg: 300s");
epd->print("Avg: 300s");
break;
default:
getdisplay().print("Avg: 1s");
epd->print("Avg: 1s");
break;
}
// Show fill level in percent
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(150, 200);
getdisplay().print(batPercentage);
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("%");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(150, 200);
epd->print(batPercentage);
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("%");
// Show time to full discharge
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(150, 260);
if((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false){
if(batRange < 9.9) getdisplay().print(batRange, 1);
else getdisplay().print(batRange, 0);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(150, 260);
if ((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false) {
if (batRange < 9.9) {
epd->print(batRange, 1);
} else {
epd->print(batRange, 0);
}
} else {
epd->print("--");
}
else getdisplay().print("--");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("h");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("h");
// Show sensor type info
String i2cAddr = "";
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(270, 60);
if(powerSensor == "off") getdisplay().print("Internal");
if(powerSensor == "INA219"){
getdisplay().print("INA219");
}
if(powerSensor == "INA226"){
getdisplay().print("INA226");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(270, 60);
if (powerSensor == "off") {
epd->print("Internal");
} else if (powerSensor == "INA219") {
epd->print("INA219");
} else if(powerSensor == "INA226") {
epd->print("INA226");
i2cAddr = " (0x" + String(INA226_I2C_ADDR1, HEX) + ")";
}
getdisplay().print(i2cAddr);
getdisplay().setCursor(270, 80);
getdisplay().print("Sensor Modul");
epd->print(i2cAddr);
epd->setCursor(270, 80);
epd->print("Sensor Modul");
// Reading bus data or using simulation data
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 140);
if(simulation == true){
if(batVoltage == "12V"){
value1 = 12.0;
}
if(batVoltage == "24V"){
value1 = 24.0;
}
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 140);
if (simulation == true) {
value1 = batVoltage == "12V" ? 12.0 : 24.0;
value1 += float(random(0, 5)) / 10; // Simulation data
getdisplay().print(value1,1);
}
else{
epd->print(value1,1);
} else {
// Check for valid real data, display also if hold values activated
if(valid1 == true || holdvalues == true){
if (valid1 == true || holdvalues == true) {
// Resolution switching
if(value1 <= 9.9) getdisplay().print(value1, 2);
if(value1 > 9.9 && value1 <= 99.9)getdisplay().print(value1, 1);
if(value1 > 99.9) getdisplay().print(value1, 0);
}
else{
getdisplay().print("---"); // Missing bus data
if (value1 <= 9.9) {
epd->print(value1, 2);
} else if (value1 > 9.9 && value1 <= 99.9) {
epd->print(value1, 1);
} else if (value1 > 99.9) {
epd->print(value1, 0);
}
} else {
epd->print(commonData->fmt->placeholder); // Missing bus data
}
}
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("V");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("V");
// Show actual current in A
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 200);
if((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false){
if(value2 <= 9.9) getdisplay().print(value2, 2);
if(value2 > 9.9 && value2 <= 99.9)getdisplay().print(value2, 1);
if(value2 > 99.9) getdisplay().print(value2, 0);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 200);
if ((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false) {
if (value2 <= 9.9) {
epd->print(value2, 2);
} else if (value2 > 9.9 && value2 <= 99.9) {
epd->print(value2, 1);
} else if (value2 > 99.9) {
epd->print(value2, 0);
}
} else {
epd->print(commonData->fmt->placeholder);
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("A");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("A");
// Show actual consumption in W
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 260);
if((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false){
if(value3 <= 9.9) getdisplay().print(value3, 2);
if(value3 > 9.9 && value3 <= 99.9)getdisplay().print(value3, 1);
if(value3 > 99.9) getdisplay().print(value3, 0);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 260);
if ((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false) {
if(value3 <= 9.9) {
epd->print(value3, 2);
} else if (value3 > 9.9 && value3 <= 99.9) {
epd->print(value3, 1);
} else if (value3 > 99.9) {
epd->print(value3, 0);
}
} else {
epd->print(commonData->fmt->placeholder);
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("W");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("W");
return PAGE_UPDATE;
};

1105
lib/obp60task/PageClock.cpp
View File

File diff suppressed because it is too large Load Diff

135
lib/obp60task/PageCompass.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -17,65 +18,65 @@ const int ShowSTW = 3;
const int ShowSOG = 4;
const int ShowDBS = 5;
const int Compass_X0 = 200; // X center point of compass band
const int Compass_Y0 = 220; // Y position of compass lines
const int Compass_LineLength = 22; // Length of compass lines
const float Compass_LineDelta = 8.0;// Compass band: 1deg = 5 Pixels, 10deg = 50 Pixels
const int Compass_X0 = 200; // center point of compass band
const int Compass_Y0 = 220; // position of compass lines
const int Compass_LineLength = 22; // length of compass lines
const float Compass_LineDelta = 8.0;// compass band: 1deg = 5 Pixels, 10deg = 50 Pixels
class PageCompass : public Page
{
private:
int WhichDataCompass = ShowHDM;
int WhichDataDisplay = ShowHDM;
public:
PageCompass(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageCompass");
public:
PageCompass(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageCompass");
}
virtual void setupKeys(){
void setupKeys(){
Page::setupKeys();
commonData->keydata[0].label = "CMP";
commonData->keydata[1].label = "SRC";
}
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if ( key == 1 ) {
if (key == 1) {
WhichDataCompass += 1;
if ( WhichDataCompass > ShowCOG)
WhichDataCompass = ShowHDM;
return 0;
}
if ( key == 2 ) {
}
if (key == 2) {
WhichDataDisplay += 1;
if ( WhichDataDisplay > ShowDBS)
if (WhichDataDisplay > ShowDBS)
WhichDataDisplay = ShowHDM;
}
if(key == 11){
}
if (key == 11) {
commonData->keylock = !commonData->keylock;
return 0; // Commit the key
}
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
// Old values for hold function
static String OldDataText[HowManyValues] = {"", "", "","", "", ""};
static String OldDataUnits[HowManyValues] = {"", "", "","", "", ""};
// Get config data
String lengthformat = config->getString(config->lengthFormat);
// bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
GwApi::BoatValue *bvalue;
String DataName[HowManyValues];
double DataValue[HowManyValues];
@@ -87,21 +88,15 @@ class PageCompass : public Page
for (int i = 0; i < HowManyValues; i++){
bvalue = pageData.values[i];
TheFormattedData = formatValue(bvalue, *commonData);
TheFormattedData = commonData->fmt->formatValue(bvalue, *commonData);
DataName[i] = xdrDelete(bvalue->getName());
DataName[i] = DataName[i].substring(0, 6); // String length limit for value name
DataUnits[i] = formatValue(bvalue, *commonData).unit;
DataUnits[i] = commonData->fmt->formatValue(bvalue, *commonData).unit;
DataText[i] = TheFormattedData.svalue; // Formatted value as string including unit conversion and switching decimal places
DataValue[i] = TheFormattedData.value; // Value as double in SI unit
DataValid[i] = bvalue->valid;
DataFormat[i] = bvalue->getFormat(); // Unit of value
LOG_DEBUG(GwLog::LOG,"Drawing at PageCompass: %d %s %f %s %s", i, DataName[i], DataValue[i], DataFormat[i], DataText[i] );
}
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
logger->logDebug(GwLog::LOG, "Drawing at PageCompass: %d %s %f %s %s", i, DataName[i], DataValue[i], DataFormat[i], DataText[i] );
}
if (bvalue == NULL) return PAGE_OK; // WTF why this statement?
@@ -109,27 +104,27 @@ class PageCompass : public Page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
epd->setTextColor(commonData->fgcolor);
// Horizontal line 2 pix top & bottom
// Print data on top half
getdisplay().fillRect(0, 130, 400, 2, commonData->fgcolor);
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(10, 70);
getdisplay().print(DataName[WhichDataDisplay]); // Page name
epd->fillRect(0, 130, 400, 2, commonData->fgcolor);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(10, 70);
epd->print(DataName[WhichDataDisplay]); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(10, 120);
getdisplay().print(DataUnits[WhichDataDisplay]);
getdisplay().setCursor(190, 120);
getdisplay().setFont(&DSEG7Classic_BoldItalic42pt7b);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 120);
epd->print(DataUnits[WhichDataDisplay]);
epd->setCursor(190, 120);
epd->setFont(&DSEG7Classic_BoldItalic42pt7b);
if(holdvalues == false){
getdisplay().print(DataText[WhichDataDisplay]); // Real value as formated string
epd->print(DataText[WhichDataDisplay]); // Real value as formated string
}
else{
getdisplay().print(OldDataText[WhichDataDisplay]); // Old value as formated string
epd->print(OldDataText[WhichDataDisplay]); // Old value as formated string
}
if(DataValid[WhichDataDisplay] == true){
OldDataText[WhichDataDisplay] = DataText[WhichDataDisplay]; // Save the old value
@@ -148,14 +143,14 @@ class PageCompass : public Page
char buffer[bsize+1];
buffer[0]=0;
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(10, Compass_Y0-60);
getdisplay().print(DataName[WhichDataCompass]); // Page name
epd->setFont(&Ubuntu_Bold16pt8b);
epd->setCursor(10, Compass_Y0-60);
epd->print(DataName[WhichDataCompass]); // Page name
// Draw compass base line and pointer
getdisplay().fillRect(0, Compass_Y0, 400, 3, commonData->fgcolor);
getdisplay().fillTriangle(Compass_X0,Compass_Y0-40,Compass_X0-10,Compass_Y0-80,Compass_X0+10,Compass_Y0-80,commonData->fgcolor);
epd->fillRect(0, Compass_Y0, 400, 3, commonData->fgcolor);
epd->fillTriangle(Compass_X0,Compass_Y0-40,Compass_X0-10,Compass_Y0-80,Compass_X0+10,Compass_Y0-80,commonData->fgcolor);
// Draw trendlines
for ( int i = 1; i < abs(TheTrend) / 2; i++){
int x1;
@@ -164,7 +159,7 @@ class PageCompass : public Page
else
x1 = Compass_X0 - 20 * ( i + 1 );
getdisplay().fillRect(x1, Compass_Y0 -55, 10, 6, commonData->fgcolor);
epd->fillRect(x1, Compass_Y0 -55, 10, 6, commonData->fgcolor);
}
// Central line + satellite lines
double NextSector = round(TheAngle / ( M_PI / 9 )) * ( M_PI / 9 ); // Get the next 20degree value
@@ -174,28 +169,28 @@ class PageCompass : public Page
for ( int i = 0; i <=4; i++ ){
int x0;
x0 = Compass_X0 + Delta_X + 2 * i * 5 * Compass_LineDelta;
getdisplay().fillRect(x0-2, Compass_Y0 - 2 * Compass_LineLength, 5, 2 * Compass_LineLength, commonData->fgcolor);
epd->fillRect(x0-2, Compass_Y0 - 2 * Compass_LineLength, 5, 2 * Compass_LineLength, commonData->fgcolor);
x0 = Compass_X0 + Delta_X + ( 2 * i + 1 ) * 5 * Compass_LineDelta;
getdisplay().fillRect(x0-1, Compass_Y0 - Compass_LineLength, 3, Compass_LineLength, commonData->fgcolor);
epd->fillRect(x0-1, Compass_Y0 - Compass_LineLength, 3, Compass_LineLength, commonData->fgcolor);
x0 = Compass_X0 + Delta_X - 2 * i * 5 * Compass_LineDelta;
getdisplay().fillRect(x0-2, Compass_Y0 - 2 * Compass_LineLength, 5, 2 * Compass_LineLength, commonData->fgcolor);
epd->fillRect(x0-2, Compass_Y0 - 2 * Compass_LineLength, 5, 2 * Compass_LineLength, commonData->fgcolor);
x0 = Compass_X0 + Delta_X - ( 2 * i + 1 ) * 5 * Compass_LineDelta;
getdisplay().fillRect(x0-1, Compass_Y0 - Compass_LineLength, 3, Compass_LineLength, commonData->fgcolor);
epd->fillRect(x0-1, Compass_Y0 - Compass_LineLength, 3, Compass_LineLength, commonData->fgcolor);
}
getdisplay().fillRect(0, Compass_Y0, 400, 3, commonData->fgcolor);
epd->fillRect(0, Compass_Y0, 400, 3, commonData->fgcolor);
// Add the numbers to the compass band
int x0;
float AngleToDisplay = NextSector * 180.0 / M_PI;
x0 = Compass_X0 + Delta_X;
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
do {
getdisplay().setCursor(x0 - 40, Compass_Y0 + 40);
epd->setCursor(x0 - 40, Compass_Y0 + 40);
snprintf(buffer,bsize,"%03.0f", AngleToDisplay);
getdisplay().print(buffer);
epd->print(buffer);
AngleToDisplay += 20;
if ( AngleToDisplay >= 360.0 )
AngleToDisplay -= 360.0;
@@ -208,7 +203,7 @@ class PageCompass : public Page
x0 = Compass_X0 + Delta_X + 4 * 5 * Compass_LineDelta;
do {
getdisplay().setCursor(x0 - 40, Compass_Y0 + 40);
epd->setCursor(x0 - 40, Compass_Y0 + 40);
snprintf(buffer,bsize,"%03.0f", AngleToDisplay);
// Quick and dirty way to prevent wrapping text in next line
if ( ( x0 - 40 ) > 380 )
@@ -218,7 +213,7 @@ class PageCompass : public Page
else if ( ( x0 - 40 ) > 325 )
buffer[2] = 0;
getdisplay().print(buffer);
epd->print(buffer);
AngleToDisplay -= 20;
if ( AngleToDisplay < 0 )
@@ -230,8 +225,8 @@ class PageCompass : public Page
// x_test += 2;
// snprintf(buffer,bsize,"%03d", x_test);
// getdisplay().setCursor(x_test, Compass_Y0 - 60);
// getdisplay().print(buffer);
// epd->setCursor(x_test, Compass_Y0 - 60);
// epd->print(buffer);
// if ( x_test > 390)
// x_test = 320;

229
lib/obp60task/PageDST810.cpp
View File

@@ -1,17 +1,31 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
/***************************************************************************
* Page similar to Raymarine DST810 smart transducer
* - Depth
* - Speed
* - Temperature
*/
#include "Pagedata.h"
#include "OBP60Extensions.h"
class PageDST810 : public Page
{
private:
String lengthformat;
public:
PageDST810(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageDST810");
PageDST810(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageDST810");
// Get config data
lengthformat = config->getString(config->lengthFormat);
}
virtual int handleKey(int key){
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -20,9 +34,17 @@ public:
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
// Old values for hold function
static String svalue1old = "";
@@ -34,96 +56,81 @@ public:
static String svalue4old = "";
static String unit4old = "";
// Get config data
String lengthformat = config->getString(config->lengthFormat);
// bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
// Get boat values #1
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (only one value by PageOneValue)
// Get boat values #1 DBT
GwApi::BoatValue *bvalue1 = pageData.values[0];
String name1 = xdrDelete(bvalue1->getName()); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
double value1 = bvalue1->value; // Value as double in SI unit
bool valid1 = bvalue1->valid; // Valid information
String svalue1 = formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
// Get boat values #2
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list (only one value by PageOneValue)
// Get boat values #2 STW
GwApi::BoatValue *bvalue2 = pageData.values[1];
String name2 = xdrDelete(bvalue2->getName()); // Value name
name2 = name2.substring(0, 6); // String length limit for value name
double value2 = bvalue2->value; // Value as double in SI unit
bool valid2 = bvalue2->valid; // Valid information
String svalue2 = formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
String svalue2 = commonData->fmt->formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = commonData->fmt->formatValue(bvalue2, *commonData).unit; // Unit of value
// Get boat values #3
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Second element in list (only one value by PageOneValue)
// Get boat values #3 Log
GwApi::BoatValue *bvalue3 = pageData.values[2];
String name3 = xdrDelete(bvalue3->getName()); // Value name
name3 = name3.substring(0, 6); // String length limit for value name
double value3 = bvalue3->value; // Value as double in SI unit
bool valid3 = bvalue3->valid; // Valid information
String svalue3 = formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = formatValue(bvalue3, *commonData).unit; // Unit of value
String svalue3 = commonData->fmt->formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = commonData->fmt->formatValue(bvalue3, *commonData).unit; // Unit of value
// Get boat values #4
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Second element in list (only one value by PageOneValue)
// Get boat values #4 WTemp
GwApi::BoatValue *bvalue4 = pageData.values[3];
String name4 = xdrDelete(bvalue4->getName()); // Value name
name4 = name4.substring(0, 6); // String length limit for value name
double value4 = bvalue4->value; // Value as double in SI unit
bool valid4 = bvalue4->valid; // Valid information
String svalue4 = formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = formatValue(bvalue4, *commonData).unit; // Unit of value
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
String svalue4 = commonData->fmt->formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = commonData->fmt->formatValue(bvalue4, *commonData).unit; // Unit of value
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageDST810, %s: %f, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4);
logger->logDebug(GwLog::LOG, "Drawing at PageDST810, %s: %f, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// ############### Value 1 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 55);
getdisplay().print("Depth"); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 55);
epd->print("Depth");
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 90);
if(holdvalues == false){
getdisplay().print(unit1); // Unit
}
else{
getdisplay().print(unit1old);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 90);
if (holdvalues == false){
epd->print(unit1);
} else {
epd->print(unit1old);
}
// Set font
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 90);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 90);
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue1); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue1); // Real value as formated string
} else {
epd->print(svalue1old); // Old value as formated string
}
else{
getdisplay().print(svalue1old); // Old value as formated string
}
if(valid1 == true){
if (valid1 == true) {
svalue1old = svalue1; // Save the old value
unit1old = unit1; // Save the old unit
}
@@ -131,37 +138,35 @@ public:
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 105, 400, 3, commonData->fgcolor);
epd->fillRect(0, 105, 400, 3, commonData->fgcolor);
// ############### Value 2 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 145);
getdisplay().print("Speed"); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 145);
epd->print("Speed");
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 180);
if(holdvalues == false){
getdisplay().print(unit2); // Unit
}
else{
getdisplay().print(unit2old);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 180);
if (holdvalues == false) {
epd->print(unit2);
} else {
epd->print(unit2old);
}
// Setfont
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 180);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 180);
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue2); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue2); // Real value as formated string
} else {
epd->print(svalue2old); // Old value as formated string
}
else{
getdisplay().print(svalue2old); // Old value as formated string
}
if(valid2 == true){
if (valid2 == true) {
svalue2old = svalue2; // Save the old value
unit2old = unit2; // Save the old unit
}
@@ -169,37 +174,35 @@ public:
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 195, 400, 3, commonData->fgcolor);
epd->fillRect(0, 195, 400, 3, commonData->fgcolor);
// ############### Value 3 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 220);
getdisplay().print("Log"); // Page name
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 220);
epd->print("Log");
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 240);
if(holdvalues == false){
getdisplay().print(unit3); // Unit
}
else{
getdisplay().print(unit3old);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 240);
if (holdvalues == false) {
epd->print(unit3);
} else {
epd->print(unit3old);
}
// Set font
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(80, 270);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(80, 270);
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue3); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue3); // Real value as formated string
} else {
epd->print(svalue3old); // Old value as formated string
}
else{
getdisplay().print(svalue3old); // Old value as formated string
}
if(valid3 == true){
if (valid3 == true) {
svalue3old = svalue3; // Save the old value
unit3old = unit3; // Save the old unit
}
@@ -207,37 +210,35 @@ public:
// ############### Vertical Line ################
// Vertical line 3 pix
getdisplay().fillRect(200, 195, 3, 75, commonData->fgcolor);
epd->fillRect(200, 195, 3, 75, commonData->fgcolor);
// ############### Value 4 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(220, 220);
getdisplay().print("Temp"); // Page name
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(220, 220);
epd->print("Temp");
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(220, 240);
if(holdvalues == false){
getdisplay().print(unit4); // Unit
}
else{
getdisplay().print(unit4old);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(220, 240);
if (holdvalues == false) {
epd->print(unit4);
} else {
epd->print(unit4old);
}
// Set font
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(280, 270);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(280, 270);
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue4); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue4); // Real value as formated string
} else {
epd->print(svalue4old); // Old value as formated string
}
else{
getdisplay().print(svalue4old); // Old value as formated string
}
if(valid4 == true){
if (valid4 == true) {
svalue4old = svalue4; // Save the old value
unit4old = unit4; // Save the old unit
}

127
lib/obp60task/PageDigitalOut.cpp
View File

@@ -1,31 +1,39 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include <PCF8574.h> // PCF8574 modules from Horter
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include "images/OBP_400x300.xbm" // OBP Logo
#ifdef BOARD_OBP60S3
#include "images/OBP60_400x300.xbm" // MFD with logo
#endif
#ifdef BOARD_OBP40S3
#include "images/OBP40_400x300.xbm" // MFD with logo
#endif
class PageDigitalOut : public Page
{
private:
// Status values
bool button1 = false;
bool button2 = false;
bool button3 = false;
bool button4 = false;
bool button5 = false;
// Status values
bool button1 = false;
bool button2 = false;
bool button3 = false;
bool button4 = false;
bool button5 = false;
// Button labels
String name1;
String name2;
String name3;
String name4;
String name5;
public:
PageDigitalOut(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageDigitalOut");
public:
PageDigitalOut(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageDigitalOut");
// Get config data
String lengthformat = config->getString(config->lengthFormat);
name1 = config->getString(config->mod1Out1);
name2 = config->getString(config->mod1Out2);
name3 = config->getString(config->mod1Out3);
name4 = config->getString(config->mod1Out4);
name5 = config->getString(config->mod1Out5);
}
// Set botton labels
@@ -40,64 +48,54 @@ bool button5 = false;
virtual int handleKey(int key){
// Code for keylock
if(key == 11){
if (key == 11) {
commonData->keylock = !commonData->keylock;
return 0; // Commit the key
return 0;
}
// Code for button 1
if(key == 1){
if (key == 1) {
button1 = !button1;
setPCF8574PortPinModul1(0, button1 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
return 0;
}
// Code for button 2
if(key == 2){
if (key == 2) {
button2 = !button2;
setPCF8574PortPinModul1(1, button2 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
return 0;
}
// Code for button 3
if(key == 3){
if (key == 3) {
button3 = !button3;
setPCF8574PortPinModul1(2, button3 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
return 0;
}
// Code for button 4
if(key == 4){
if (key == 4) {
button4 = !button4;
setPCF8574PortPinModul1(3, button4 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
return 0;
}
// Code for button 5
if(key == 5){
if (key == 5) {
button5 = !button5;
setPCF8574PortPinModul1(4, button5 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
return 0;
}
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Get config data
String lengthformat = config->getString(config->lengthFormat);
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
String name1 = config->getString(config->mod1Out1);
String name2 = config->getString(config->mod1Out2);
String name3 = config->getString(config->mod1Out3);
String name4 = config->getString(config->mod1Out4);
String name5 = config->getString(config->mod1Out5);
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData){
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageDigitalOut");
@@ -106,20 +104,23 @@ bool button5 = false;
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
getdisplay().setFont(&Ubuntu_Bold12pt8b);
// Write text
getdisplay().setCursor(100, 50 + 8);
getdisplay().print(name1);
getdisplay().setCursor(100, 100 + 8);
getdisplay().print(name2);
getdisplay().setCursor(100, 150 + 8);
getdisplay().print(name3);
getdisplay().setCursor(100,200 + 8);
getdisplay().print(name4);
getdisplay().setCursor(100, 250 + 8);
getdisplay().print(name5);
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
// Draw labels
epd->setCursor(100, 50 + 8);
epd->print(name1);
epd->setCursor(100, 100 + 8);
epd->print(name2);
epd->setCursor(100, 150 + 8);
epd->print(name3);
epd->setCursor(100,200 + 8);
epd->print(name4);
epd->setCursor(100, 250 + 8);
epd->print(name5);
// Draw bottons
drawButtonCenter(50, 50, 40, 27, "1", commonData->fgcolor, commonData->bgcolor, button1);
drawButtonCenter(50, 100, 40, 27, "2", commonData->fgcolor, commonData->bgcolor, button2);

144
lib/obp60task/PageEPropulsion.cpp Normal file
View File

@@ -0,0 +1,144 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
/***************************************************************************
* Electric propulsion (WIP)
*
* - Current, voltage, power
* - 12, 24, 48 etc. Voltage
* - rpm
* - throttle position
* - controller state
* - error codes
* - temperature engine, controller, batteries
*/
#include "Pagedata.h"
#include "OBP60Extensions.h"
class PageEPropulsion : public Page
{
private:
char mode = 'N'; // (N)ormal, (C)onfig
void displayModeNormal(PageData &pageData) {
// TBD Boatvalues: ...
logger->logDebug(GwLog::DEBUG, "Drawing at PageEPropulsion");
// Title and corner value headings
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("Electric propulsion");
}
void displayModeConfig() {
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("EPropulsion configuration");
epd->setFont(&Ubuntu_Bold8pt8b);
// TODO menu
}
public:
PageEPropulsion(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG,"Instantiate PageEPropulsion");
}
void setupKeys(){
Page::setupKeys();
}
#ifdef BOARD_OBP60S3
int handleKey(int key){
if (key == 1) { // Switch between normal and config mode
if (mode == 'N') {
mode = 'C';
} else {
mode = 'N';
}
return 0;
}
if (key == 11) { // Code for keylock
commonData->keylock = !commonData->keylock;
return 0;
}
return key;
}
#endif
#ifdef BOARD_OBP40S3
int handleKey(int key){
if (key == 1) { // Switch between normal and config mode
if (mode == 'N') {
mode = 'C';
commonData->keydata[1].label = "EDIT";
} else {
mode = 'N';
commonData->keydata[1].label = "ALARM";
}
return 0;
}
if (key == 11) { // Code for keylock
commonData->keylock = !commonData->keylock;
return 0;
}
return key;
}
#endif
void displayNew(PageData &pageData){
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData){
// Logging boat values
logger->logDebug(GwLog::LOG,"Drawing at PageEPropulsion; Mode=%c", mode);
// Set display in partial refresh mode
epd->setPartialWindow(0, 0, epd->width(), epd->height());
if (mode == 'N') {
displayModeNormal(pageData);
} else if (mode == 'C') {
displayModeConfig();
}
return PAGE_UPDATE;
};
};
static Page *createPage(CommonData &common){
return new PageEPropulsion(common);
}
/**
* with the code below we make this page known to the PageTask
* we give it a type (name) that can be selected in the config
* we define which function is to be called
* and we provide the number of user parameters we expect
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageEPropulsion(
"EPropulsion", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{}, // Names of bus values undepends on selection in Web configuration (refer GwBoatData.h)
true // Show display header on/off
);
#endif

127
lib/obp60task/PageFluid.cpp
View File

@@ -1,27 +1,26 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
/***************************************************************************
* Analog fluid display for different types
* 0: Fuel
* 1: Water
* 2: Gray Water
* 3: Live Well
* 4: Oil
* 5: Black Water
* 6: Fuel Gasoline
* 14: Error
* 15: Unavailable
*
* TODO
* - Check fluid type against connected XDR-value
*/
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include "GwXDRMappings.h"
/*
Fluid level view
0: "Fuel",
1: "Water",
2: "Gray Water",
3: "Live Well",
4: "Oil",
5: "Black Water",
6: "Fuel Gasoline",
14: "Error",
15: "Unavailable"
TODO
- Check fluid type against connected XDR-value
*/
#define fuel_width 16
#define fuel_height 16
static unsigned char fuel_bits[] = {
@@ -66,25 +65,22 @@ static unsigned char fish_bits[] = {
class PageFluid : public Page
{
bool simulation = false;
private:
double simgoto;
double simval;
double simstep;
bool holdvalues = false;
int fluidtype;
public:
PageFluid(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageFluid");
simulation = common.config->getBool(common.config->useSimuData);
holdvalues = common.config->getBool(common.config->holdvalues);
public:
PageFluid(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageFluid");
simval = double(random(0, 100));
simgoto = double(random(0, 100));
simstep = (simgoto - simval) / 20.0;
}
virtual int handleKey(int key){
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -93,27 +89,22 @@ class PageFluid : public Page
return key;
}
virtual void displayNew(PageData &pageData){
fluidtype = commonData->config->getInt("page" + String(pageData.pageNumber) + "fluid", 0);
commonData->logger->logDebug(GwLog::LOG,"New PageFluid: fluidtype=%d", fluidtype);
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
static double value1old;
// Get config data
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
void displayNew(PageData &pageData) {
fluidtype = config->getInt("page" + String(pageData.pageNumber) + "fluid", 0);
logger->logDebug(GwLog::LOG, "New PageFluid: fluidtype=%d", fluidtype);
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
}
int displayPage(PageData &pageData) {
// Old values for hold function
static double value1old;
GwApi::BoatValue *bvalue1 = pageData.values[0];
String name1 = bvalue1->getName();
@@ -132,23 +123,23 @@ class PageFluid : public Page
}
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageFluid: value=%f", bvalue1->value);
logger->logDebug(GwLog::LOG, "Drawing at PageFluid: value=%f", bvalue1->value);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height());
epd->setPartialWindow(0, 0, epd->width(), epd->height());
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// descriptions
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 60);
getdisplay().print("Fluid");
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 60);
epd->print("Fluid");
getdisplay().setCursor(300, 60);
getdisplay().print(xdrDelete(name1).substring(0, 6));
epd->setCursor(300, 60);
epd->print(xdrDelete(name1).substring(0, 6));
// analog instrument
// scale from -120 to 120
@@ -158,11 +149,11 @@ class PageFluid : public Page
uint8_t r = 110;
// circular frame
getdisplay().drawCircle(c.x, c.y, r+5, commonData->fgcolor);
getdisplay().fillCircle(c.x, c.y, r+2, commonData->fgcolor);
getdisplay().fillCircle(c.x, c.y, r-1, commonData->bgcolor);
epd->drawCircle(c.x, c.y, r+5, commonData->fgcolor);
epd->fillCircle(c.x, c.y, r+2, commonData->fgcolor);
epd->fillCircle(c.x, c.y, r-1, commonData->bgcolor);
// center of pointer as dot
getdisplay().fillCircle(c.x, c.y, 8, commonData->fgcolor);
epd->fillCircle(c.x, c.y, 8, commonData->fgcolor);
// value down centered
char buffer[6];
@@ -176,32 +167,32 @@ class PageFluid : public Page
// draw symbol (as bitmap)
switch (fluidtype) {
case 0:
getdisplay().drawXBitmap(c.x-8, c.y-50, fuel_bits, fuel_width, fuel_height, commonData->fgcolor);
epd->drawXBitmap(c.x-8, c.y-50, fuel_bits, fuel_width, fuel_height, commonData->fgcolor);
break;
case 1:
getdisplay().drawXBitmap(c.x-8, c.y-50, water_bits, water_width, water_height, commonData->fgcolor);
epd->drawXBitmap(c.x-8, c.y-50, water_bits, water_width, water_height, commonData->fgcolor);
break;
case 2: // gray water no symbol yet
// getdisplay().drawXBitmap(c.x-8, c.y-50, gray_bits, gray_width, gray_height, commonData->fgcolor);
// epd->drawXBitmap(c.x-8, c.y-50, gray_bits, gray_width, gray_height, commonData->fgcolor);
break;
case 3:
getdisplay().drawXBitmap(c.x-8, c.y-50, fish_bits, fish_width, fish_height, commonData->fgcolor);
epd->drawXBitmap(c.x-8, c.y-50, fish_bits, fish_width, fish_height, commonData->fgcolor);
break;
case 4:
getdisplay().drawXBitmap(c.x-8, c.y-50, oil_bits, oil_width, oil_height, commonData->fgcolor);
epd->drawXBitmap(c.x-8, c.y-50, oil_bits, oil_width, oil_height, commonData->fgcolor);
break;
case 5:
getdisplay().drawXBitmap(c.x-8, c.y-50, waste_bits, waste_width, waste_height, commonData->fgcolor);
epd->drawXBitmap(c.x-8, c.y-50, waste_bits, waste_width, waste_height, commonData->fgcolor);
break;
case 6:
getdisplay().drawXBitmap(c.x-8, c.y-50, gasoline_bits, gasoline_width, gasoline_height, commonData->fgcolor);
epd->drawXBitmap(c.x-8, c.y-50, gasoline_bits, gasoline_width, gasoline_height, commonData->fgcolor);
break;
}
Point p, pr;
// scale texts
getdisplay().setFont(&Ubuntu_Bold8pt8b);
epd->setFont(&Ubuntu_Bold8pt8b);
p = {c.x, c.y - r + 30};
drawTextCenter(p.x, p.y, "1/2");
pr = rotatePoint(c, p, -60);
@@ -210,7 +201,7 @@ class PageFluid : public Page
drawTextCenter(pr.x, pr.y, "3/4");
// empty and full
getdisplay().setFont(&Ubuntu_Bold12pt8b);
epd->setFont(&Ubuntu_Bold12pt8b);
p = rotatePoint(c, {c.x, c.y - r + 30}, -130);
drawTextCenter(p.x, p.y, "E");
p = rotatePoint(c, {c.x, c.y - r + 30}, 130);
@@ -236,7 +227,7 @@ class PageFluid : public Page
continue;
}
p = rotatePoint(c, {c.x, c.y - r + 10}, angle);
getdisplay().fillCircle(p.x, p.y, 3, commonData->fgcolor);
epd->fillCircle(p.x, p.y, 3, commonData->fgcolor);
}
// pointer
@@ -249,7 +240,7 @@ class PageFluid : public Page
};
fillPoly4(rotatePoints(c, pts, -120 + fluidlevel * 2.4), commonData->fgcolor);
// Pointer axis is white
getdisplay().fillCircle(c.x, c.y, 6, commonData->bgcolor);
epd->fillCircle(c.x, c.y, 6, commonData->bgcolor);
}
return PAGE_UPDATE;

265
lib/obp60task/PageFourValues.cpp
View File

@@ -1,28 +1,51 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
/***************************************************************************
* Display four values vertical stacked
*/
#include "Pagedata.h"
#include "OBP60Extensions.h"
#ifdef ENABLE_CALIBRATION
#include "BoatDataCalibration.h"
#endif
class PageFourValues : public Page
{
public:
PageFourValues(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageFourValues");
private:
String lengthformat;
public:
PageFourValues(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageFourValues");
// Get config data
lengthformat = config->getString(config->lengthFormat);
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
if(key == 11) {
commonData->keylock = !commonData->keylock;
return 0; // Commit the key
return 0;
}
return key;
}
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
static String svalue1old = "";
@@ -33,22 +56,15 @@ class PageFourValues : public Page
static String unit3old = "";
static String svalue4old = "";
static String unit4old = "";
// Get config data
String lengthformat = config->getString(config->lengthFormat);
// bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
// Get boat values #1
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (only one value by PageOneValue)
String name1 = xdrDelete(bvalue1->getName()); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
double value1 = bvalue1->value; // Value as double in SI unit
bool valid1 = bvalue1->valid; // Valid information
String svalue1 = formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
// Get boat values #2
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list
@@ -56,8 +72,8 @@ class PageFourValues : public Page
name2 = name2.substring(0, 6); // String length limit for value name
double value2 = bvalue2->value; // Value as double in SI unit
bool valid2 = bvalue2->valid; // Valid information
String svalue2 = formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
String svalue2 = commonData->fmt->formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = commonData->fmt->formatValue(bvalue2, *commonData).unit; // Unit of value
// Get boat values #3
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Third element in list
@@ -65,8 +81,8 @@ class PageFourValues : public Page
name3 = name3.substring(0, 6); // String length limit for value name
double value3 = bvalue3->value; // Value as double in SI unit
bool valid3 = bvalue3->valid; // Valid information
String svalue3 = formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = formatValue(bvalue3, *commonData).unit; // Unit of value
String svalue3 = commonData->fmt->formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = commonData->fmt->formatValue(bvalue3, *commonData).unit; // Unit of value
// Get boat values #4
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Fourth element in list
@@ -74,66 +90,58 @@ class PageFourValues : public Page
name4 = name4.substring(0, 6); // String length limit for value name
double value4 = bvalue4->value; // Value as double in SI unit
bool valid4 = bvalue4->valid; // Valid information
String svalue4 = formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = formatValue(bvalue4, *commonData).unit; // Unit of value
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
String svalue4 = commonData->fmt->formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = commonData->fmt->formatValue(bvalue4, *commonData).unit; // Unit of value
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageFourValues, %s: %f, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4);
logger->logDebug(GwLog::LOG, "Drawing at PageFourValues, %s: %f, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// ############### Value 1 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(20, 45);
getdisplay().print(name1); // Page name
epd->setFont(&Ubuntu_Bold16pt8b);
epd->setCursor(20, 45);
epd->print(name1);
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 65);
if(holdvalues == false){
getdisplay().print(unit1); // Unit
}
else{
getdisplay().print(unit1old);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 65);
if (holdvalues == false) {
epd->print(unit1);
} else {
epd->print(unit1old);
}
// Switch font if format for any values
if(bvalue1->getFormat() == "formatLatitude" || bvalue1->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(120, 55);
if (bvalue1->getFormat() == "formatLatitude" || bvalue1->getFormat() == "formatLongitude") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(120, 55);
}
else if(bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(150, 58);
else if (bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(150, 58);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(180, 65);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(180, 65);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue1); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue1); // Real value as formated string
} else {
epd->print(svalue1old); // Old value as formated string
}
else{
getdisplay().print(svalue1old); // Old value as formated string
}
if(valid1 == true){
if (valid1 == true) {
svalue1old = svalue1; // Save the old value
unit1old = unit1; // Save the old unit
}
@@ -141,47 +149,45 @@ class PageFourValues : public Page
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 80, 400, 3, commonData->fgcolor);
epd->fillRect(0, 80, 400, 3, commonData->fgcolor);
// ############### Value 2 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(20, 113);
getdisplay().print(name2); // Page name
epd->setFont(&Ubuntu_Bold16pt8b);
epd->setCursor(20, 113);
epd->print(name2);
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 133);
if(holdvalues == false){
getdisplay().print(unit2); // Unit
}
else{
getdisplay().print(unit2old);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 133);
if (holdvalues == false){
epd->print(unit2);
} else {
epd->print(unit2old);
}
// Switch font if format for any values
if(bvalue2->getFormat() == "formatLatitude" || bvalue2->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(120, 123);
if (bvalue2->getFormat() == "formatLatitude" || bvalue2->getFormat() == "formatLongitude") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(120, 123);
}
else if(bvalue2->getFormat() == "formatTime" || bvalue2->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(150, 123);
else if (bvalue2->getFormat() == "formatTime" || bvalue2->getFormat() == "formatDate") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(150, 123);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(180, 133);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(180, 133);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue2); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue2); // Real value as formated string
} else {
epd->print(svalue2old); // Old value as formated string
}
else{
getdisplay().print(svalue2old); // Old value as formated string
}
if(valid2 == true){
if (valid2 == true) {
svalue2old = svalue2; // Save the old value
unit2old = unit2; // Save the old unit
}
@@ -189,47 +195,46 @@ class PageFourValues : public Page
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 146, 400, 3, commonData->fgcolor);
epd->fillRect(0, 146, 400, 3, commonData->fgcolor);
// ############### Value 3 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(20, 181);
getdisplay().print(name3); // Page name
epd->setFont(&Ubuntu_Bold16pt8b);
epd->setCursor(20, 181);
epd->print(name3);
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 201);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 201);
if(holdvalues == false){
getdisplay().print(unit3); // Unit
epd->print(unit3);
}
else{
getdisplay().print(unit3old);
epd->print(unit3old);
}
// Switch font if format for any values
if(bvalue3->getFormat() == "formatLatitude" || bvalue3->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(120, 191);
if (bvalue3->getFormat() == "formatLatitude" || bvalue3->getFormat() == "formatLongitude") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(120, 191);
}
else if(bvalue3->getFormat() == "formatTime" || bvalue3->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(150, 191);
else if (bvalue3->getFormat() == "formatTime" || bvalue3->getFormat() == "formatDate") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(150, 191);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(180, 201);
else {
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(180, 201);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue3); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue3); // Real value as formated string
} else {
epd->print(svalue3old); // Old value as formated string
}
else{
getdisplay().print(svalue3old); // Old value as formated string
}
if(valid3 == true){
if (valid3 == true) {
svalue3old = svalue3; // Save the old value
unit3old = unit3; // Save the old unit
}
@@ -237,53 +242,57 @@ class PageFourValues : public Page
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 214, 400, 3, commonData->fgcolor);
epd->fillRect(0, 214, 400, 3, commonData->fgcolor);
// ############### Value 4 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(20, 249);
getdisplay().print(name4); // Page name
epd->setFont(&Ubuntu_Bold16pt8b);
epd->setCursor(20, 249);
epd->print(name4); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 269);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 269);
if(holdvalues == false){
getdisplay().print(unit4); // Unit
epd->print(unit4); // Unit
}
else{
getdisplay().print(unit4old);
epd->print(unit4old);
}
// Switch font if format for any values
if(bvalue4->getFormat() == "formatLatitude" || bvalue4->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(120, 259);
if (bvalue4->getFormat() == "formatLatitude" || bvalue4->getFormat() == "formatLongitude") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(120, 259);
}
else if(bvalue4->getFormat() == "formatTime" || bvalue4->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(150, 259);
else if (bvalue4->getFormat() == "formatTime" || bvalue4->getFormat() == "formatDate") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(150, 259);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(180, 269);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(180, 269);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue4); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue4); // Real value as formated string
} else {
epd->print(svalue4old); // Old value as formated string
}
else{
getdisplay().print(svalue4old); // Old value as formated string
}
if(valid4 == true){
if (valid4 == true) {
svalue4old = svalue4; // Save the old value
unit4old = unit4; // Save the old unit
}
return PAGE_UPDATE;
};
void leavePage(PageData &pageData) {
logger->logDebug(GwLog::LOG, "Leaving PageFourvalues");
}
};
static Page *createPage(CommonData &common){

264
lib/obp60task/PageFourValues2.cpp
View File

@@ -1,28 +1,47 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
/***************************************************************************
* Display four values in alternative format
*/
#include "Pagedata.h"
#include "OBP60Extensions.h"
class PageFourValues2 : public Page
{
public:
PageFourValues2(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageFourValues2");
private:
String lengthformat;
public:
PageFourValues2(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageFourValues2");
// Get config data
lengthformat = config->getString(config->lengthFormat);
}
virtual int handleKey(int key){
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock; // Toggle keylock
return 0; // Commit the key
if (key == 11) {
commonData->keylock = !commonData->keylock; // Toggle keylock
return 0;
}
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
// Old values for hold function
static String svalue1old = "";
@@ -33,22 +52,15 @@ class PageFourValues2 : public Page
static String unit3old = "";
static String svalue4old = "";
static String unit4old = "";
// Get config data
String lengthformat = config->getString(config->lengthFormat);
// bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
// Get boat values #1
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (only one value by PageOneValue)
String name1 = xdrDelete(bvalue1->getName()); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
double value1 = bvalue1->value; // Value as double in SI unit
bool valid1 = bvalue1->valid; // Valid information
String svalue1 = formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
// Get boat values #2
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list (only one value by PageOneValue)
@@ -56,8 +68,8 @@ class PageFourValues2 : public Page
name2 = name2.substring(0, 6); // String length limit for value name
double value2 = bvalue2->value; // Value as double in SI unit
bool valid2 = bvalue2->valid; // Valid information
String svalue2 = formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
String svalue2 = commonData->fmt->formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = commonData->fmt->formatValue(bvalue2, *commonData).unit; // Unit of value
// Get boat values #3
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Second element in list (only one value by PageOneValue)
@@ -65,8 +77,8 @@ class PageFourValues2 : public Page
name3 = name3.substring(0, 6); // String length limit for value name
double value3 = bvalue3->value; // Value as double in SI unit
bool valid3 = bvalue3->valid; // Valid information
String svalue3 = formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = formatValue(bvalue3, *commonData).unit; // Unit of value
String svalue3 = commonData->fmt->formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = commonData->fmt->formatValue(bvalue3, *commonData).unit; // Unit of value
// Get boat values #4
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Second element in list (only one value by PageOneValue)
@@ -74,66 +86,58 @@ class PageFourValues2 : public Page
name4 = name4.substring(0, 6); // String length limit for value name
double value4 = bvalue4->value; // Value as double in SI unit
bool valid4 = bvalue4->valid; // Valid information
String svalue4 = formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = formatValue(bvalue4, *commonData).unit; // Unit of value
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
String svalue4 = commonData->fmt->formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = commonData->fmt->formatValue(bvalue4, *commonData).unit; // Unit of value
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageFourValues2, %s: %f, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4);
logger->logDebug(GwLog::LOG, "Drawing at PageFourValues2, %s: %f, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// ############### Value 1 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 55);
getdisplay().print(name1); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 55);
epd->print(name1);
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 90);
if(holdvalues == false){
getdisplay().print(unit1); // Unit
}
else{
getdisplay().print(unit1old);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 90);
if (holdvalues == false) {
epd->print(unit1);
} else {
epd->print(unit1old);
}
// Switch font if format for any values
if(bvalue1->getFormat() == "formatLatitude" || bvalue1->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(100, 90);
if (bvalue1->getFormat() == "formatLatitude" || bvalue1->getFormat() == "formatLongitude") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(100, 90);
}
else if(bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(180, 77);
else if (bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(180, 77);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 90);
else {
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 90);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue1); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue1); // Real value as formated string
} else {
epd->print(svalue1old); // Old value as formated string
}
else{
getdisplay().print(svalue1old); // Old value as formated string
}
if(valid1 == true){
if (valid1 == true) {
svalue1old = svalue1; // Save the old value
unit1old = unit1; // Save the old unit
}
@@ -141,47 +145,45 @@ class PageFourValues2 : public Page
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 105, 400, 3, commonData->fgcolor);
epd->fillRect(0, 105, 400, 3, commonData->fgcolor);
// ############### Value 2 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 145);
getdisplay().print(name2); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 145);
epd->print(name2);
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 180);
if(holdvalues == false){
getdisplay().print(unit2); // Unit
}
else{
getdisplay().print(unit2old);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 180);
if (holdvalues == false) {
epd->print(unit2);
} else{
epd->print(unit2old);
}
// Switch font if format for any values
if(bvalue2->getFormat() == "formatLatitude" || bvalue2->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(100, 180);
if (bvalue2->getFormat() == "formatLatitude" || bvalue2->getFormat() == "formatLongitude") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(100, 180);
}
else if(bvalue2->getFormat() == "formatTime" || bvalue2->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(180, 158);
else if (bvalue2->getFormat() == "formatTime" || bvalue2->getFormat() == "formatDate") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(180, 158);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 180);
else {
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 180);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue2); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue2); // Real value as formated string
} else {
epd->print(svalue2old); // Old value as formated string
}
else{
getdisplay().print(svalue2old); // Old value as formated string
}
if(valid2 == true){
if (valid2 == true) {
svalue2old = svalue2; // Save the old value
unit2old = unit2; // Save the old unit
}
@@ -189,45 +191,45 @@ class PageFourValues2 : public Page
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 195, 400, 3, commonData->fgcolor);
epd->fillRect(0, 195, 400, 3, commonData->fgcolor);
// ############### Value 3 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 220);
getdisplay().print(name3); // Page name
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 220);
epd->print(name3);
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 240);
if(holdvalues == false){
getdisplay().print(unit3); // Unit
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 240);
if (holdvalues == false) {
epd->print(unit3);
}
else{
getdisplay().print(unit3old);
epd->print(unit3old);
}
// Switch font if format for any values
if(bvalue3->getFormat() == "formatLatitude" || bvalue3->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(50, 240);
if (bvalue3->getFormat() == "formatLatitude" || bvalue3->getFormat() == "formatLongitude") {
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(50, 240);
}
else if(bvalue3->getFormat() == "formatTime" || bvalue3->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(100, 240);
else if (bvalue3->getFormat() == "formatTime" || bvalue3->getFormat() == "formatDate") {
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(100, 240);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(80, 270);
else {
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(80, 270);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue3); // Real value as formated string
epd->print(svalue3); // Real value as formated string
}
else{
getdisplay().print(svalue3old); // Old value as formated string
epd->print(svalue3old); // Old value as formated string
}
if(valid3 == true){
svalue3old = svalue3; // Save the old value
@@ -237,47 +239,45 @@ class PageFourValues2 : public Page
// ############### Vertical Line ################
// Vertical line 3 pix
getdisplay().fillRect(200, 195, 3, 75, commonData->fgcolor);
epd->fillRect(200, 195, 3, 75, commonData->fgcolor);
// ############### Value 4 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(220, 220);
getdisplay().print(name4); // Page name
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(220, 220);
epd->print(name4);
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(220, 240);
if(holdvalues == false){
getdisplay().print(unit4); // Unit
}
else{
getdisplay().print(unit4old);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(220, 240);
if (holdvalues == false) {
epd->print(unit4);
} else {
epd->print(unit4old);
}
// Switch font if format for any values
if(bvalue4->getFormat() == "formatLatitude" || bvalue4->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(250, 240);
if (bvalue4->getFormat() == "formatLatitude" || bvalue4->getFormat() == "formatLongitude") {
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(250, 240);
}
else if(bvalue4->getFormat() == "formatTime" || bvalue4->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(300, 240);
else if (bvalue4->getFormat() == "formatTime" || bvalue4->getFormat() == "formatDate") {
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(300, 240);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(280, 270);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(280, 270);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue4); // Real value as formated string
if (holdvalues == false) {
epd->print(svalue4); // Real value as formated string
} else {
epd->print(svalue4old); // Old value as formated string
}
else{
getdisplay().print(svalue4old); // Old value as formated string
}
if(valid4 == true){
if (valid4 == true) {
svalue4old = svalue4; // Save the old value
unit4old = unit4; // Save the old unit
}

206
lib/obp60task/PageGenerator.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -6,12 +7,23 @@
class PageGenerator : public Page
{
private:
String batVoltage;
int genPower;
String powerSensor;
public:
PageGenerator(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageGenerator");
PageGenerator(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageGenerator");
// Get config data
batVoltage = config->getString(config->batteryVoltage);
genPower = config->getInt(config->genPower);
powerSensor = config->getString(config->usePowSensor3);
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -20,20 +32,8 @@ public:
return key;
}
int displayPage(PageData &pageData)
{
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
// Get config data
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String batVoltage = config->getString(config->batteryVoltage);
int genPower = config->getInt(config->genPower);
String backlightMode = config->getString(config->backlight);
String powerSensor = config->getString(config->usePowSensor3);
double value1 = 0; // Solar voltage
double value2 = 0; // Solar current
double value3 = 0; // Solar output power
@@ -60,100 +60,95 @@ public:
bool valid1 = true;
// Optical warning by limit violation
if(String(flashLED) == "Limit Violation"){
// Over voltage
if(value1 > 14.8 && batVoltage == "12V"){
setBlinkingLED(true);
}
if(value1 <= 14.8 && batVoltage == "12V"){
if (flashLED == "Limit Violation") {
// Over voltage?
if (batVoltage == "12V") {
setBlinkingLED(value1 > 14.8);
} else if (batVoltage == "24V") {
setBlinkingLED(value1 > 29.6);
} else {
setBlinkingLED(false);
}
if(value1 > 29.6 && batVoltage == "24V"){
setBlinkingLED(true);
}
if(value1 <= 29.6 && batVoltage == "24V"){
setBlinkingLED(false);
}
}
// Logging voltage value
LOG_DEBUG(GwLog::LOG,"Drawing at PageGenerator, Type:%iW %s:=%f", genPower, name1.c_str(), value1);
logger->logDebug(GwLog::LOG, "Drawing at PageGenerator, Type:%iW %s:=%f", genPower, name1.c_str(), value1);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(10, 65);
getdisplay().print("Power");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(12, 82);
getdisplay().print("Generator");
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(10, 65);
epd->print("Power");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(12, 82);
epd->print("Generator");
// Show voltage type
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 140);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 140);
int bvoltage = 0;
if(String(batVoltage) == "12V") bvoltage = 12;
else bvoltage = 24;
getdisplay().print(bvoltage);
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("V");
epd->print(bvoltage);
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("V");
// Show solar power
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 200);
if(genPower <= 999) getdisplay().print(genPower, 0);
if(genPower > 999) getdisplay().print(float(genPower/1000.0), 1);
getdisplay().setFont(&Ubuntu_Bold16pt8b);
if(genPower <= 999) getdisplay().print("W");
if(genPower > 999) getdisplay().print("kW");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 200);
if(genPower <= 999) epd->print(genPower, 0);
if(genPower > 999) epd->print(float(genPower/1000.0), 1);
epd->setFont(&Ubuntu_Bold16pt8b);
if(genPower <= 999) epd->print("W");
if(genPower > 999) epd->print("kW");
// Show info
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 235);
getdisplay().print("Installed");
getdisplay().setCursor(10, 255);
getdisplay().print("Power Modul");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 235);
epd->print("Installed");
epd->setCursor(10, 255);
epd->print("Power Modul");
// Show generator
generatorGraphic(200, 95, commonData->fgcolor, commonData->bgcolor);
// Show load level in percent
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(150, 200);
getdisplay().print(genPercentage);
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("%");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(150, 235);
getdisplay().print("Load");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(150, 200);
epd->print(genPercentage);
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("%");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(150, 235);
epd->print("Load");
// Show sensor type info
String i2cAddr = "";
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(270, 60);
if(powerSensor == "off") getdisplay().print("Internal");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(270, 60);
if(powerSensor == "off") epd->print("Internal");
if(powerSensor == "INA219"){
getdisplay().print("INA219");
epd->print("INA219");
i2cAddr = " (0x" + String(INA219_I2C_ADDR3, HEX) + ")";
}
if(powerSensor == "INA226"){
getdisplay().print("INA226");
epd->print("INA226");
i2cAddr = " (0x" + String(INA226_I2C_ADDR3, HEX) + ")";
}
getdisplay().print(i2cAddr);
getdisplay().setCursor(270, 80);
getdisplay().print("Sensor Modul");
epd->print(i2cAddr);
epd->setCursor(270, 80);
epd->print("Sensor Modul");
// Reading bus data or using simulation data
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 140);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 140);
if(simulation == true){
if(batVoltage == "12V"){
value1 = 12.0;
@@ -162,46 +157,59 @@ public:
value1 = 24.0;
}
value1 += float(random(0, 5)) / 10; // Simulation data
getdisplay().print(value1,1);
epd->print(value1,1);
}
else{
// Check for valid real data, display also if hold values activated
if(valid1 == true || holdvalues == true){
// Resolution switching
if(value1 <= 9.9) getdisplay().print(value1, 2);
if(value1 > 9.9 && value1 <= 99.9)getdisplay().print(value1, 1);
if(value1 > 99.9) getdisplay().print(value1, 0);
if(value1 <= 9.9) epd->print(value1, 2);
if(value1 > 9.9 && value1 <= 99.9)epd->print(value1, 1);
if(value1 > 99.9) epd->print(value1, 0);
}
else{
getdisplay().print("---"); // Missing bus data
epd->print(commonData->fmt->placeholder); // Missing bus data
}
}
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("V");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("V");
// Show actual current in A
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 200);
if((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false){
if(value2 <= 9.9) getdisplay().print(value2, 2);
if(value2 > 9.9 && value2 <= 99.9)getdisplay().print(value2, 1);
if(value2 > 99.9) getdisplay().print(value2, 0);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 200);
if ((powerSensor == "INA219" || powerSensor == "INA226") && (simulation == false)) {
// TODO use formatter for this?
if (value2 <= 9.9) {
epd->print(value2, 2);
} else if (value2 <= 99.9) {
epd->print(value2, 1);
} else {
epd->print(value2, 0);
}
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("A");
else {
epd->print(commonData->fmt->placeholder);
}
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("A");
// Show actual consumption in W
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 260);
if((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false){
if(value3 <= 9.9) getdisplay().print(value3, 2);
if(value3 > 9.9 && value3 <= 99.9)getdisplay().print(value3, 1);
if(value3 > 99.9) getdisplay().print(value3, 0);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 260);
if ((powerSensor == "INA219" || powerSensor == "INA226") && (simulation == false)) {
if(value3 <= 9.9) {
epd->print(value3, 2);
} else if (value3 <= 99.9) {
epd->print(value3, 1);
} else {
epd->print(value3, 0);
}
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("W");
else {
epd->print(commonData->fmt->placeholder);
}
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("W");
return PAGE_UPDATE;
};

105
lib/obp60task/PageKeelPosition.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -5,14 +6,24 @@
class PageKeelPosition : public Page
{
private:
String lengthformat;
String rotsensor;
String rotfunction;
public:
PageKeelPosition(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageKeelPosition");
PageKeelPosition(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageKeelPosition");
// Get config data
lengthformat = config->getString(config->lengthFormat);
rotsensor = config->getString(config->useRotSensor);
rotfunction = config->getString(config->rotFunction);
}
// Key functions
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -21,23 +32,21 @@ public:
return key;
}
int displayPage(PageData &pageData)
{
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
double value1 = 0;
double value1old = 0;
// Get config data
String lengthformat = config->getString(config->lengthFormat);
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
String rotsensor = config->getString(config->useRotSensor);
String rotfunction = config->getString(config->rotFunction);
// Get boat values for Keel position
bool valid1 = commonData->data.validRotAngle; // Valid information
if(simulation == false && rotsensor == "AS5600" && rotfunction == "Keel"){
@@ -55,20 +64,14 @@ public:
value1old = value1; // Save old value
}
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageKeelPosition, Keel:%f", value1);
logger->logDebug(GwLog::LOG, "Drawing at PageKeelPosition, Keel:%f", value1);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
//*******************************************************************************************
@@ -76,9 +79,9 @@ public:
int rInstrument = 110; // Radius of KeelPosition
float pi = 3.141592;
getdisplay().fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
getdisplay().fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
getdisplay().fillRect(0, 30, 400, 122, commonData->bgcolor); // Delete half top circle
epd->fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
epd->fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
epd->fillRect(0, 30, 400, 122, commonData->bgcolor); // Delete half top circle
for(int i=90; i<=270; i=i+10)
{
@@ -105,17 +108,17 @@ public:
// Print text centered on position x, y
int16_t x1, y1; // Return values of getTextBounds
uint16_t w, h; // Return values of getTextBounds
getdisplay().getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
getdisplay().setCursor(x-w/2, y+h/2);
epd->getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
epd->setCursor(x-w/2, y+h/2);
if(i % 30 == 0){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().print(ii);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->print(ii);
}
// Draw sub scale with dots
float x1c = 200 + rInstrument*sin(i/180.0*pi);
float y1c = 150 - rInstrument*cos(i/180.0*pi);
getdisplay().fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
epd->fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
float sinx=sin(i/180.0*pi);
float cosx=cos(i/180.0*pi);
@@ -126,10 +129,10 @@ public:
float xx2 = +dx;
float yy1 = -(rInstrument-10);
float yy2 = -(rInstrument+10);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),commonData->fgcolor);
getdisplay().fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),
200+(int)(cosx*xx2-sinx*yy2),150+(int)(sinx*xx2+cosx*yy2),commonData->fgcolor);
}
@@ -163,7 +166,7 @@ public:
float xx2 = startwidth;
float yy1 = -startwidth;
float yy2 = -(rInstrument * 0.6);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2),commonData->fgcolor);
// Inverted pointer
@@ -173,36 +176,36 @@ public:
float ix2 = -endwidth;
float iy1 = -(rInstrument * 0.6);
float iy2 = -endwidth;
getdisplay().fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
epd->fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
200+(int)(cosx*ix2-sinx*iy1),150+(int)(sinx*ix2+cosx*iy1),
200+(int)(cosx*0-sinx*iy2),150+(int)(sinx*0+cosx*iy2),commonData->fgcolor);
// Draw counterweight
getdisplay().fillCircle(200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2), 5, commonData->fgcolor);
epd->fillCircle(200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2), 5, commonData->fgcolor);
}
// Center circle
getdisplay().fillCircle(200, 140, startwidth + 22, commonData->bgcolor);
getdisplay().fillCircle(200, 140, startwidth + 20, commonData->fgcolor); // Boat circle
getdisplay().fillRect(200 - 30, 140 - 30, 2 * 30, 30, commonData->bgcolor); // Delete half top of boat circle
getdisplay().fillRect(150, 150, 100, 4, commonData->fgcolor); // Water line
epd->fillCircle(200, 140, startwidth + 22, commonData->bgcolor);
epd->fillCircle(200, 140, startwidth + 20, commonData->fgcolor); // Boat circle
epd->fillRect(200 - 30, 140 - 30, 2 * 30, 30, commonData->bgcolor); // Delete half top of boat circle
epd->fillRect(150, 150, 100, 4, commonData->fgcolor); // Water line
// Print label
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(100, 70);
getdisplay().print("Keel Position"); // Label
epd->setFont(&Ubuntu_Bold16pt8b);
epd->setCursor(100, 70);
epd->print("Keel Position"); // Label
if((rotsensor == "AS5600" && rotfunction == "Keel" && (valid1 == true || holdvalues == true)) || simulation == true){
// Print Unit of keel position
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(175, 110);
getdisplay().print(unit1); // Unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(175, 110);
epd->print(unit1); // Unit
}
else{
// Print Unit of keel position
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(145, 110);
getdisplay().print("No sensor data"); // Info missing sensor
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(145, 110);
epd->print("No sensor data"); // Info missing sensor
}
return PAGE_UPDATE;

353
lib/obp60task/PageNavigation.cpp
View File

@@ -4,8 +4,7 @@
#include "OBP60Extensions.h"
#include "NetworkClient.h" // Network connection
#include "ImageDecoder.h" // Image decoder for navigation map
#include "Logo_OBP_400x300_sw.h"
#include <mbedtls/base64.h>
// Defines for reading of navigation map
#define JSON_BUFFER 30000 // Max buffer size for JSON content (30 kB picture + values)
@@ -14,34 +13,65 @@ ImageDecoder decoder; // Define image decoder
class PageNavigation : public Page
{
// Values for buttons
bool firstRun = true; // Detect the first page run
int zoom = 15; // Default zoom level
bool showValues = false; // Show values HDT, SOG, DBT in navigation map
private:
// Values for buttons
bool firstRun = true; // Detect the first page run
int zoom = 15; // Default zoom level
bool showValues = false; // Show values HDT, SOG, DBT in navigation map
private:
uint8_t* imageBackupData = nullptr;
int imageBackupWidth = 0;
int imageBackupHeight = 0;
size_t imageBackupSize = 0;
size_t imageBackupCapacity = 0;
bool hasImageBackup = false;
bool imageBackupIsRgb565 = false;
String lengthformat;
String mapsource;
String ipAddress;
int localPort;
String mapType;
int zoomLevel;
bool grid;
String orientation;
int refreshDistance;
bool showValuesMap;
bool ownHeading;
public:
PageNavigation(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG,"Instantiate PageNavigation");
imageBackupCapacity = (size_t) epd->width() * (size_t) epd->height();
imageBackupData = (uint8_t*)heap_caps_malloc(imageBackupCapacity, MALLOC_CAP_SPIRAM);
// Get config data
lengthformat = config->getString(config->lengthFormat);
mapsource = config->getString(config->mapsource);
ipAddress = config->getString(config->ipAddress);
localPort = config->getInt(config->localPort);
mapType = config->getString(config->maptype);
zoomLevel = config->getInt(config->zoomlevel);
grid = config->getBool(config->grid);
orientation = config->getString(config->orientation);
refreshDistance = config->getInt(config->refreshDistance);
showValuesMap = config->getBool(config->showvalues);
ownHeading = config->getBool(config->ownheading);
public:
PageNavigation(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageNavigation");
imageBackupData = (uint8_t*)heap_caps_malloc((GxEPD_WIDTH * GxEPD_HEIGHT), MALLOC_CAP_SPIRAM);
}
// Set botton labels
virtual void setupKeys(){
void setupKeys(){
Page::setupKeys();
commonData->keydata[0].label = "ZOOM -";
commonData->keydata[1].label = "ZOOM +";
commonData->keydata[4].label = "VALUES";
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -70,31 +100,22 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
// Get config data
String lengthformat = config->getString(config->lengthFormat);
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
String mapsource = config->getString(config->mapsource);
String ipAddress = config->getString(config->ipAddress);
int localPort = config->getInt(config->localPort);
String mapType = config->getString(config->maptype);
int zoomLevel = config->getInt(config->zoomlevel);
bool grid = config->getBool(config->grid);
String orientation = config->getString(config->orientation);
int refreshDistance = config->getInt(config->refreshDistance);
bool showValuesMap = config->getBool(config->showvalues);
bool ownHeading = config->getBool(config->ownheading);
int displayPage(PageData &pageData) {
if(firstRun == true){
zoom = zoomLevel; // Over write zoom level with setup value
showValues = showValuesMap; // Over write showValues with setup value
firstRun = false; // Restet variable
if (firstRun == true) {
zoom = zoomLevel; // Overwrite zoom level with setup value
showValues = showValuesMap; // Overwrite showValues with setup value
firstRun = false;
}
// Local variables
@@ -105,7 +126,6 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
int mapRot = 0;
int symbolRot = 0;
int mapGrid = 0;
// Old values for hold function
static double value1old = 0;
@@ -145,8 +165,8 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
name1 = name1.substring(0, 6); // String length limit for value name
double value1 = bvalue1->value; // Value as double in SI unit
bool valid1 = bvalue1->valid; // Valid information
String svalue1 = formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
// Get boat values #2 Longitude
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list (only one value by PageOneValue)
@@ -154,8 +174,8 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
name2 = name2.substring(0, 6); // String length limit for value name
double value2 = bvalue2->value; // Value as double in SI unit
bool valid2 = bvalue2->valid; // Valid information
String svalue2 = formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
String svalue2 = commonData->fmt->formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = commonData->fmt->formatValue(bvalue2, *commonData).unit; // Unit of value
// Get boat values #3 HDT
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Second element in list (only one value by PageOneValue)
@@ -163,8 +183,8 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
name3 = name3.substring(0, 6); // String length limit for value name
double value3 = bvalue3->value; // Value as double in SI unit
bool valid3 = bvalue3->valid; // Valid information
String svalue3 = formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = formatValue(bvalue3, *commonData).unit; // Unit of value
String svalue3 = commonData->fmt->formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = commonData->fmt->formatValue(bvalue3, *commonData).unit; // Unit of value
// Get boat values #4 HDM
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Second element in list (only one value by PageOneValue)
@@ -172,8 +192,8 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
name4 = name4.substring(0, 6); // String length limit for value name
double value4 = bvalue4->value; // Value as double in SI unit
bool valid4 = bvalue4->valid; // Valid information
String svalue4 = formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = formatValue(bvalue4, *commonData).unit; // Unit of value
String svalue4 = commonData->fmt->formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = commonData->fmt->formatValue(bvalue4, *commonData).unit; // Unit of value
// Get boat values #5 SOG
GwApi::BoatValue *bvalue5 = pageData.values[4]; // Second element in list (only one value by PageOneValue)
@@ -181,8 +201,8 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
name5 = name5.substring(0, 6); // String length limit for value name
double value5 = bvalue5->value; // Value as double in SI unit
bool valid5 = bvalue5->valid; // Valid information
String svalue5 = formatValue(bvalue5, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit5 = formatValue(bvalue5, *commonData).unit; // Unit of value
String svalue5 = commonData->fmt->formatValue(bvalue5, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit5 = commonData->fmt->formatValue(bvalue5, *commonData).unit; // Unit of value
// Get boat values #6 DBT
GwApi::BoatValue *bvalue6 = pageData.values[5]; // Second element in list (only one value by PageOneValue)
@@ -190,18 +210,14 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
name6 = name6.substring(0, 6); // String length limit for value name
double value6 = bvalue6->value; // Value as double in SI unit
bool valid6 = bvalue6->valid; // Valid information
String svalue6 = formatValue(bvalue6, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit6 = formatValue(bvalue6, *commonData).unit; // Unit of value
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
String svalue6 = commonData->fmt->formatValue(bvalue6, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit6 = commonData->fmt->formatValue(bvalue6, *commonData).unit; // Unit of value
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageNavigation, %s: %f, %s: %f, %s: %f, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4, name5.c_str(), value5, name6.c_str(), value6);
logger->logDebug(GwLog::LOG, "Drawing at PageNavigation, %s: %f, %s: %f, %s: %f, %s: %f, %s: %f, %s: %f",
name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3,
name4.c_str(), value4, name5.c_str(), value5, name6.c_str(), value6);
// Set variables
//***********************************************************
@@ -295,6 +311,18 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
mType = 9;
dType = 1;
}
else if(mapType == "C-Map"){
mType = 103486987;
dType = 1;
}
else if(mapType == "Garmin Fish"){
mType = 113486987;
dType = 1;
}
else if(mapType == "Garmin Nav"){
mType = 123486987;
dType = 1;
}
else{
mType = 1;
dType = 1;
@@ -347,22 +375,33 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
// URL to OBP Maps Converter
// For more details see: https://github.com/norbert-walter/maps-converter
String url = String("http://") + server + ":" + port + // OBP Server
String("/get_image_json?") + // Service: Output B&W picture as JSON (Base64 + gzip)
"zoom=" + zoom + // Default zoom level: 15
String("/get_image_json?") + // Service: Output B&W picture as JSON (Base64 + gzip)
#ifdef DISPLAY_ST7796
"oformat=3" + // Image output format in JSON: 3=RGB565 format
#else
"oformat=4" + // Image output format in JSON: 4=b/w 1-Bit format
#endif
"&zoom=" + zoom + // Default zoom level: 15
"&lat=" + String(latitude, 6) + // Latitude
"&lon=" + String(longitude, 6) + // Longitude
"&mrot=" + mapRot + // Rotation angle navigation map in degree
"&mtype=" + mType + // Default Map: Open Street Map
"&dtype=" + dType + // Dithering type: Atkinson dithering
"&width=400" + // With navigation map
"&height=250" + // Height navigation map
"&cutout=0" + // No picture cutouts
"&tab=0" + // No tab size
"&border=2" + // Border line size: 2 pixel
"&symbol=2" + // Symbol: Triangle
#ifdef DISPLAY_ST7796
"&itype=1" + // Image type: 1=Color
#else
"&itype=4" + // Image type: 4=b/w with dithering
#endif
"&dtype=" + dType + // Dithering type: Atkinson dithering (only activ when itype=4 otherwise inactive)
"&width=400" + // With navigation map
"&height=250" + // Height navigation map
"&cutout=0" + // No picture cutouts (tab, border and alpha are unused when cutout=0)
"&tab=0" + // No tab size (only available when sqare cutouts selected coutout=3...7)
"&border=2" + // Border line size: 2 pixel (only available when sqare cutouts selected)
"&alpha=80" + // Alpha for tabs: 80% visible (only available when sqare cutouts selected)
"&symbol=2" + // Symbol: Triangle
"&srot=" + symbolRot + // Symbol rotation angle
"&ssize=15" + // Symbole size: 15 pixel
"&grid=" + mapGrid // Show grid: On
"&ssize=15" + // Symbole size: 15 pixel (center pointer)
"&grid=" + mapGrid // Show grid: On
;
// Draw page
@@ -371,117 +410,177 @@ bool showValues = false; // Show values HDT, SOG, DBT in navigation map
// ############### Draw Navigation Map ################
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
epd->setTextColor(commonData->fgcolor);
// NEW: simple exponential backoff for 1 Hz polling (prevents connection-refused storms)
static uint32_t nextAllowedMs = 0;
static uint8_t failCount = 0;
uint32_t now = millis();
// NEW: if we are in backoff window, skip network call and use backup immediately
bool allowFetch = ((int32_t)(now - nextAllowedMs) >= 0);
// If a network connection to URL then load the navigation map
if (net.fetchAndDecompressJson(url)) {
if (allowFetch && net.fetchAndDecompressJson(url)) {
auto& json = net.json(); // Extract JSON content
int numPix = json["number_pixels"] | 0; // Read number of pixels
imgWidth = json["width"] | 0; // Read width of image
imgHeight = json["height"] | 0; // Read height og image
// NEW: reset backoff on success
failCount = 0;
nextAllowedMs = now + 1000; // keep 1 Hz on success
const char* b64src = json["picture_base64"].as<const char*>(); // Read picture as Base64 content
size_t b64len = strlen(b64src); // Calculate length of Base64 content
int numPix = net.numberPixels(); // Read number of pixels
imgWidth = net.imageWidth(); // Read width of image
imgHeight = net.imageHeight(); // Read height of image
size_t requiredBytesMono = 0;
size_t requiredBytesRgb565 = 0;
if (imgWidth > 0 && imgHeight > 0){
requiredBytesMono = (size_t)((imgWidth + 7) / 8) * (size_t)imgHeight;
requiredBytesRgb565 = (size_t)imgWidth * (size_t)imgHeight * 2U;
}
if (requiredBytesMono == 0){
logger->logDebug(GwLog::ERROR,"Error PageNavigation: invalid image geometry w=%d h=%d",imgWidth,imgHeight);
return PAGE_UPDATE;
}
const char* b64src = net.pictureBase64(); // Read picture as Base64 content
if (b64src == nullptr){
logger->logDebug(GwLog::ERROR,"Error PageNavigation: picture_base64 missing");
return PAGE_UPDATE;
}
size_t b64len = net.pictureBase64Len(); // Calculate length of Base64 content
// Copy Base64 content in PSRAM
char* b64 = (char*) heap_caps_malloc(b64len + 1, MALLOC_CAP_SPIRAM); // Allcate PSRAM for Base64 content
if (!b64) {
LOG_DEBUG(GwLog::ERROR,"Error PageNavigation: PSRAM alloc base64 failed");
logger->logDebug(GwLog::ERROR,"Error PageNavigation: PSRAM alloc base64 failed");
return PAGE_UPDATE;
}
memcpy(b64, b64src, b64len + 1); // Copy Base64 content in PSRAM
// Set image buffer in PSRAM
//size_t imgSize = getdisplay().width() * getdisplay().height();
size_t imgSize = numPix; // Calculate image size
size_t imgSize = (numPix > 0) ? (size_t)numPix : requiredBytesMono; // Calculate image size
if (imgSize < requiredBytesMono){
imgSize = requiredBytesMono;
}
uint8_t* imageData = (uint8_t*) heap_caps_malloc(imgSize, MALLOC_CAP_SPIRAM); // Allocate PSRAM for image
if (!imageData) {
LOG_DEBUG(GwLog::ERROR,"Error PageNavigation: PPSRAM alloc image buffer failed");
logger->logDebug(GwLog::ERROR,"Error PageNavigation: PSRAM alloc image buffer failed");
free(b64);
return PAGE_UPDATE;
}
// Decode Base64 content to image
size_t decodedSize = 0;
decoder.decodeBase64(b64, imageData, imgSize, decodedSize);
bool decodeOk = decoder.decodeBase64(b64, b64len, imageData, imgSize, decodedSize);
if (!decodeOk || decodedSize < requiredBytesMono){
int base64Ret = mbedtls_base64_decode(
nullptr,
0,
&decodedSize,
(const unsigned char*)b64,
b64len
);
logger->logDebug(GwLog::ERROR,
"Error PageNavigation: decode failed (ok=%d, decoded=%u, required=%u, b64ret=%d)",
decodeOk ? 1 : 0,
(unsigned int)decodedSize,
(unsigned int)requiredBytesMono,
base64Ret
);
free(b64);
free(imageData);
return PAGE_UPDATE;
}
// Copy actual navigation man to ackup map
// Copy actual navigation map to backup map
imageBackupWidth = imgWidth;
imageBackupHeight = imgHeight;
imageBackupSize = imgSize;
if (decodedSize > 0) {
memcpy(imageBackupData, imageData, decodedSize);
imageBackupSize = decodedSize;
if (decodedSize > 0 && imageBackupData != nullptr) {
size_t copySize = (decodedSize > imageBackupCapacity) ? imageBackupCapacity : decodedSize;
memcpy(imageBackupData, imageData, copySize);
imageBackupSize = copySize;
}
hasImageBackup = true;
hasImageBackup = (imageBackupData != nullptr);
lostCounter = 0;
// Show image (navigation map)
getdisplay().drawBitmap(0, 25, imageData, imgWidth, imgHeight, commonData->fgcolor);
epd->drawBitmap(0, 25, imageData, imgWidth, imgHeight, commonData->fgcolor);
// Clean PSRAM
free(b64);
free(imageData);
}
// If no network connection then use backup navigation map
else{
// Show backup image (backup navigation map)
if (hasImageBackup) {
getdisplay().drawBitmap(0, 25, imageBackupData, imageBackupWidth, imageBackupHeight, commonData->fgcolor);
}
else {
// Show info: Connection lost when 5 page refreshes has a connection lost to the map server
// Short connection losts are uncritical
if(lostCounter >= 5){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().fillRect(200, 250 , 200, 25, commonData->fgcolor); // Black rect
getdisplay().fillRect(202, 252 , 196, 21, commonData->bgcolor); // White rect
getdisplay().setCursor(210, 270);
getdisplay().print("Map server lost");
// NEW: update backoff only if we actually attempted a fetch (not when skipping due to backoff)
if (allowFetch) {
// NEW: exponential backoff: 1s,2s,4s,8s,16s,30s (capped)
if (failCount < 6) failCount++;
uint32_t backoffMs = 1000u << failCount;
if (backoffMs > 30000u) backoffMs = 30000u;
nextAllowedMs = now + backoffMs;
} else {
// NEW: we are currently backing off; do not increase failCount further
// nextAllowedMs stays unchanged
}
lostCounter++; // Increment lost counter
// Show backup image (backup navigation map)
if (hasImageBackup) {
epd->drawBitmap(0, 25, imageBackupData, imageBackupWidth, imageBackupHeight, commonData->fgcolor);
}
// Show connection lost info when 5 page refreshes has a connection lost to the map server
// Short connection losts are uncritical
if(lostCounter >= 5){
epd->setFont(&Ubuntu_Bold12pt8b);
epd->fillRect(200, 250 , 200, 25, commonData->fgcolor);
epd->fillRect(202, 252 , 196, 21, commonData->bgcolor);
epd->setCursor(210, 270);
epd->print("Map server lost");
}
lostCounter++;
}
// ############### Draw Values ################
getdisplay().setFont(&Ubuntu_Bold12pt8b);
epd->setFont(&Ubuntu_Bold12pt8b);
// Show zoom level
getdisplay().fillRect(355, 25 , 45, 25, commonData->fgcolor); // Black rect
getdisplay().fillRect(357, 27 , 41, 21, commonData->bgcolor); // White rect
getdisplay().setCursor(364, 45);
getdisplay().print(zoom);
epd->fillRect(355, 25 , 45, 25, commonData->fgcolor);
epd->fillRect(357, 27 , 41, 21, commonData->bgcolor);
epd->setCursor(364, 45);
epd->print(zoom);
// If true heading available then use HDT oterwise HDM
if(showValues == true){
if (showValues == true) {
// Frame
getdisplay().fillRect(0, 25 , 130, 65, commonData->fgcolor); // Black rect
getdisplay().fillRect(2, 27 , 126, 61, commonData->bgcolor); // White rect
epd->fillRect(0, 25 , 130, 65, commonData->fgcolor);
epd->fillRect(2, 27 , 126, 61, commonData->bgcolor);
if(valid3 == true){
// HDT
getdisplay().setCursor(10, 45);
getdisplay().print(name3);
getdisplay().setCursor(70, 45);
getdisplay().print(svalue3);
epd->setCursor(10, 45);
epd->print(name3);
epd->setCursor(70, 45);
epd->print(svalue3);
}
else{
// HDM
getdisplay().setCursor(10, 45);
getdisplay().print(name4);
getdisplay().setCursor(70, 45);
getdisplay().print(svalue4);
epd->setCursor(10, 45);
epd->print(name4);
epd->setCursor(70, 45);
epd->print(svalue4);
}
// SOG
getdisplay().setCursor(10, 65);
getdisplay().print(name5);
getdisplay().setCursor(70, 65);
getdisplay().print(svalue5);
epd->setCursor(10, 65);
epd->print(name5);
epd->setCursor(70, 65);
epd->print(svalue5);
// DBT
getdisplay().setCursor(10, 85);
getdisplay().print(name6);
getdisplay().setCursor(70, 85);
getdisplay().print(svalue6);
epd->setCursor(10, 85);
epd->print(name6);
epd->setCursor(70, 85);
epd->print(svalue6);
}
return PAGE_UPDATE;

340
lib/obp60task/PageOneValue.cpp
View File

@@ -1,228 +1,37 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include "OBPDataOperations.h"
#include "OBPcharts.h"
class PageOneValue : public Page {
#ifdef ENABLE_CALIBRATION
#include "BoatDataCalibration.h"
#endif
class PageOneValue : public Page
{
private:
GwLog* logger;
enum PageMode {
VALUE,
BOTH,
CHART
};
enum DisplayMode {
FULL,
HALF
};
static constexpr char HORIZONTAL = 'H';
static constexpr char VERTICAL = 'V';
static constexpr int8_t FULL_SIZE = 0;
static constexpr int8_t HALF_SIZE_TOP = 1;
static constexpr int8_t HALF_SIZE_BOTTOM = 2;
static constexpr bool PRNT_NAME = true;
static constexpr bool NO_PRNT_NAME = false;
static constexpr bool PRNT_VALUE = true;
static constexpr bool NO_PRNT_VALUE = false;
int width; // Screen width
int height; // Screen height
bool keylock = false; // Keylock
PageMode pageMode = VALUE; // Page display mode
int8_t dataIntv = 1; // Update interval for wind history chart:
// (1)|(2)|(3)|(4)|(8) x 240 seconds for 4, 8, 12, 16, 32 min. history chart
// String lengthformat;
bool useSimuData;
bool holdValues;
String flashLED;
String backlightMode;
String tempFormat;
// Old values for hold function
String sValue1Old = "";
String unit1Old = "";
// Data buffer pointer (owned by HstryBuffers)
RingBuffer<uint16_t>* dataHstryBuf = nullptr;
std::unique_ptr<Chart> dataChart; // Chart object
// display data value in display <mode> [FULL|HALF]
void showData(GwApi::BoatValue* bValue1, DisplayMode mode)
{
int nameXoff, nameYoff, unitXoff, unitYoff, value1Xoff, value1Yoff;
const GFXfont *nameFnt, *unitFnt, *valueFnt1, *valueFnt2, *valueFnt3;
if (mode == FULL) { // full size data display
nameXoff = 0;
nameYoff = 0;
nameFnt = &Ubuntu_Bold32pt8b;
unitXoff = 0;
unitYoff = 0;
unitFnt = &Ubuntu_Bold20pt8b;
value1Xoff = 0;
value1Yoff = 0;
valueFnt1 = &Ubuntu_Bold20pt8b;
valueFnt2 = &Ubuntu_Bold32pt8b;
valueFnt3 = &DSEG7Classic_BoldItalic60pt7b;
} else { // half size data and chart display
nameXoff = -10;
nameYoff = -34;
nameFnt = &Ubuntu_Bold20pt8b;
unitXoff = -295;
unitYoff = -119;
unitFnt = &Ubuntu_Bold12pt8b;
valueFnt1 = &Ubuntu_Bold12pt8b;
value1Xoff = 153;
value1Yoff = -119;
valueFnt2 = &Ubuntu_Bold20pt8b;
valueFnt3 = &DSEG7Classic_BoldItalic42pt7b;
}
String name1 = xdrDelete(bValue1->getName()); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
double value1 = bValue1->value; // Value as double in SI unit
bool valid1 = bValue1->valid; // Valid information
String sValue1 = formatValue(bValue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bValue1, *commonData).unit; // Unit of value
// Show name
getdisplay().setTextColor(commonData->fgcolor);
getdisplay().setFont(nameFnt);
getdisplay().setCursor(20 + nameXoff, 100 + nameYoff);
getdisplay().print(name1); // name
// Show unit
getdisplay().setFont(unitFnt);
getdisplay().setCursor(305 + unitXoff, 240 + unitYoff);
if (holdValues) {
getdisplay().print(unit1Old); // name
} else {
getdisplay().print(unit1); // name
}
// Switch font depending on value format and adjust position
if (bValue1->getFormat() == "formatLatitude" || bValue1->getFormat() == "formatLongitude") {
getdisplay().setFont(valueFnt1);
getdisplay().setCursor(20 + value1Xoff, 180 + value1Yoff);
} else if (bValue1->getFormat() == "formatTime" || bValue1->getFormat() == "formatDate") {
getdisplay().setFont(valueFnt2);
getdisplay().setCursor(20 + value1Xoff, 200 + value1Yoff);
} else {
getdisplay().setFont(valueFnt3);
getdisplay().setCursor(20 + value1Xoff, 240 + value1Yoff);
}
// Show bus data
if (!holdValues || useSimuData) {
getdisplay().print(sValue1); // Real value as formated string
} else {
getdisplay().print(sValue1Old); // Old value as formated string
}
if (valid1 == true) {
sValue1Old = sValue1; // Save the old value
unit1Old = unit1; // Save the old unit
}
}
String lengthformat;
public:
PageOneValue(CommonData& common)
PageOneValue(CommonData &common) : Page(common)
{
commonData = &common;
logger = commonData->logger;
LOG_DEBUG(GwLog::LOG, "Instantiate PageOneValue");
width = getdisplay().width(); // Screen width
height = getdisplay().height(); // Screen height
logger->logDebug(GwLog::LOG, "Instantiate PageOneValue");
// Get config data
// lengthformat = commonData->config->getString(commonData->config->lengthFormat);
useSimuData = commonData->config->getBool(commonData->config->useSimuData);
holdValues = commonData->config->getBool(commonData->config->holdvalues);
flashLED = commonData->config->getString(commonData->config->flashLED);
backlightMode = commonData->config->getString(commonData->config->backlight);
tempFormat = commonData->config->getString(commonData->config->tempFormat); // [K|°C|°F]
lengthformat = config->getString(config->lengthFormat);
}
virtual void setupKeys()
{
Page::setupKeys();
#if defined BOARD_OBP60S3
constexpr int ZOOM_KEY = 4;
#elif defined BOARD_OBP40S3
constexpr int ZOOM_KEY = 1;
#endif
if (dataHstryBuf) { // show "Mode" key only if chart supported boat data type is available
commonData->keydata[0].label = "MODE";
commonData->keydata[ZOOM_KEY].label = "ZOOM";
} else {
commonData->keydata[0].label = "";
commonData->keydata[ZOOM_KEY].label = "";
}
}
// Key functions
virtual int handleKey(int key)
{
if (dataHstryBuf) { // if boat data type supports charts
// Set page mode: value | value/half chart | full chart
if (key == 1) {
switch (pageMode) {
case VALUE:
pageMode = BOTH;
break;
case BOTH:
pageMode = CHART;
break;
case CHART:
pageMode = VALUE;
break;
}
return 0; // Commit the key
}
// Set time frame to show for history chart
#if defined BOARD_OBP60S3
if (key == 5) {
#elif defined BOARD_OBP40S3
if (key == 2) {
#endif
if (dataIntv == 1) {
dataIntv = 2;
} else if (dataIntv == 2) {
dataIntv = 3;
} else if (dataIntv == 3) {
dataIntv = 4;
} else if (dataIntv == 4) {
dataIntv = 8;
} else {
dataIntv = 1;
}
return 0; // Commit the key
}
}
// Keylock function
if (key == 11) { // Code for keylock
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
return 0; // Commit the key
return 0; // Commit the key
}
return key;
}
virtual void displayNew(PageData& pageData)
{
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
@@ -230,71 +39,84 @@ public:
setFlashLED(false);
}
#endif
// buffer initialization will fail, if page is default page, because <displayNew> is not executed at system start for default page
if (!dataChart) { // Create chart objects if they don't exist
};
GwApi::BoatValue* bValue1 = pageData.values[0]; // Page boat data element
String bValName1 = bValue1->getName(); // Value name
String bValFormat = bValue1->getFormat(); // Value format
int displayPage(PageData &pageData) {
dataHstryBuf = pageData.hstryBuffers->getBuffer(bValName1);
// Old values for hold function
static String svalue1old = "";
static String unit1old = "";
if (dataHstryBuf) {
dataChart.reset(new Chart(*dataHstryBuf, Chart::dfltChrtDta[bValFormat].range, *commonData, useSimuData));
LOG_DEBUG(GwLog::DEBUG, "PageOneValue: Created chart objects for %s", bValName1);
} else {
LOG_DEBUG(GwLog::DEBUG, "PageOneValue: No chart objects available for %s", bValName1);
}
}
// Get boat values
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (only one value by PageOneValue)
String name1 = xdrDelete(bvalue1->getName()); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue1, logger); // Check if boat data value is to be calibrated
#endif
double value1 = bvalue1->value; // Value as double in SI unit
bool valid1 = bvalue1->valid; // Valid information
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
setupKeys(); // adjust <mode> key depending on chart supported boat data type
}
int displayPage(PageData& pageData)
{
LOG_DEBUG(GwLog::LOG, "Display PageOneValue");
// Get boat value for page
GwApi::BoatValue* bValue1 = pageData.values[0]; // Page boat data element
// Optical warning by limit violation (unused)
if (String(flashLED) == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
if (bValue1 == NULL)
return PAGE_OK; // no data, no page to display
LOG_DEBUG(GwLog::DEBUG, "PageOneValue: printing %s, %.3f", bValue1->getName().c_str(), bValue1->value);
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
logger->logDebug(GwLog::LOG, "Drawing at PageOneValue, %s: %f", name1.c_str(), value1);
// Draw page
//***********************************************************
getdisplay().setPartialWindow(0, 0, width, height); // Set partial update
/// Set display in partial refresh mode
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
if (pageMode == VALUE || dataHstryBuf == nullptr) {
// show only data value; ignore other pageMode options if no chart supported boat data history buffer is available
showData(bValue1, FULL);
// Show name
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold32pt8b);
epd->setCursor(20, 100);
epd->print(name1); // Page name
} else if (pageMode == CHART) { // show only data chart
if (dataChart) {
dataChart->showChrt(HORIZONTAL, FULL_SIZE, dataIntv, PRNT_NAME, PRNT_VALUE, *bValue1);
}
// Show unit
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(270, 100);
if(holdvalues == false){
epd->print(unit1); // Unit
}
else{
epd->print(unit1old);
}
} else if (pageMode == BOTH) { // show data value and chart
showData(bValue1, HALF);
if (dataChart) {
dataChart->showChrt(HORIZONTAL, HALF_SIZE_BOTTOM, dataIntv, NO_PRNT_NAME, NO_PRNT_VALUE, *bValue1);
}
// Switch font if format for any values
if(bvalue1->getFormat() == "formatLatitude" || bvalue1->getFormat() == "formatLongitude"){
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 180);
}
else if(bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate"){
epd->setFont(&Ubuntu_Bold32pt8b);
epd->setCursor(20, 200);
}
else{
epd->setFont(&DSEG7Classic_BoldItalic60pt7b);
epd->setCursor(20, 240);
}
// Show bus data
if(holdvalues == false){
epd->print(svalue1); // Real value as formated string
}
else{
epd->print(svalue1old); // Old value as formated string
}
if(valid1 == true){
svalue1old = svalue1; // Save the old value
unit1old = unit1; // Save the old unit
}
return PAGE_UPDATE;
};
};
static Page* createPage(CommonData& common)
{
static Page* createPage(CommonData &common){
return new PageOneValue(common);
}
@@ -306,10 +128,10 @@ static Page* createPage(CommonData& common)
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageOneValue(
"OneValue", // Page name
createPage, // Action
1, // Number of bus values depends on selection in Web configuration
true // Show display header on/off
"OneValue", // Page name
createPage, // Action
1, // Number of bus values depends on selection in Web configuration
true // Show display header on/off
);
#endif

163
lib/obp60task/PageRollPitch.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -5,14 +6,30 @@
class PageRollPitch : public Page
{
private:
String lengthformat;
int rolllimit;
String roffset;
double rolloffset;
String poffset;
double pitchoffset;
public:
PageRollPitch(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageRollPitch");
PageRollPitch(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageRollPitch");
// Get config data
String lengthformat = config->getString(config->lengthFormat);
rolllimit = config->getInt(config->rollLimit);
roffset = config->getString(config->rollOffset);
rolloffset = roffset.toFloat() / 360 * (2 * M_PI);
poffset = config->getString(config->pitchOffset);
pitchoffset = poffset.toFloat() / 360 * (2 * M_PI);
}
// Key functions
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -21,9 +38,7 @@ public:
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
double value1 = 0;
double value2 = 0;
@@ -32,19 +47,6 @@ public:
String svalue2 = "";
String svalue2old = "";
// Get config data
String lengthformat = config->getString(config->lengthFormat);
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
int rolllimit = config->getInt(config->rollLimit);
String roffset = config->getString(config->rollOffset);
double rolloffset = roffset.toFloat()/360*(2*M_PI);
String poffset = config->getString(config->pitchOffset);
double pitchoffset = poffset.toFloat()/360*(2*M_PI);
// Get boat values for roll
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (xdrRoll)
String name1 = xdrDelete(bvalue1->getName()); // Value name
@@ -97,71 +99,70 @@ public:
}
// Optical warning by limit violation
if(String(flashLED) == "Limit Violation"){
if (flashLED == "Limit Violation") {
// Limits for roll
if(value1*360/(2*M_PI) >= -1*rolllimit && value1*360/(2*M_PI) <= rolllimit){
if (value1*360/(2*M_PI) >= -1*rolllimit && value1*360/(2*M_PI) <= rolllimit) {
setBlinkingLED(false);
setFlashLED(false);
}
else{
} else {
setBlinkingLED(true);
}
}
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageRollPitch, %s:%f, %s:%f", name1.c_str(), value1, name2.c_str(), value2);
logger->logDebug(GwLog::LOG, "Drawing at PageRollPitch, %s:%f, %s:%f", name1.c_str(), value1, name2.c_str(), value2);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// Show roll limit
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 65);
getdisplay().print(rolllimit); // Value
//getdisplay().print(svalue1); // Value
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 65);
epd->print(rolllimit); // Value
//epd->print(svalue1); // Value
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(10, 95);
getdisplay().print("Limit"); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 115);
getdisplay().print("DEG");
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 95);
epd->print("Limit"); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 115);
epd->print("DEG");
// Horizintal separator left
getdisplay().fillRect(0, 149, 60, 3, commonData->fgcolor);
epd->fillRect(0, 149, 60, 3, commonData->fgcolor);
// Show roll value
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 270);
if(holdvalues == false) getdisplay().print(svalue1); // Value
else getdisplay().print(svalue1old);
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(10, 220);
getdisplay().print(name1); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 190);
getdisplay().print("Deg");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 270);
if(holdvalues == false) epd->print(svalue1); // Value
else epd->print(svalue1old);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 220);
epd->print(name1); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 190);
epd->print("Deg");
// Horizintal separator right
getdisplay().fillRect(340, 149, 80, 3, commonData->fgcolor);
epd->fillRect(340, 149, 80, 3, commonData->fgcolor);
// Show pitch value
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(295, 270);
if(holdvalues == false) getdisplay().print(svalue2); // Value
else getdisplay().print(svalue2old);
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(335, 220);
getdisplay().print(name2); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(335, 190);
getdisplay().print("Deg");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(295, 270);
if(holdvalues == false) epd->print(svalue2); // Value
else epd->print(svalue2old);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 220);
epd->print(name2); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 190);
epd->print("Deg");
//*******************************************************************************************
@@ -169,8 +170,8 @@ public:
int rInstrument = 100; // Radius of instrument
float pi = 3.141592;
getdisplay().fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
getdisplay().fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
epd->fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
epd->fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
for(int i=0; i<360; i=i+10)
{
@@ -194,17 +195,17 @@ public:
// Print text centered on position x, y
int16_t x1, y1; // Return values of getTextBounds
uint16_t w, h; // Return values of getTextBounds
getdisplay().getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
getdisplay().setCursor(x-w/2, y+h/2);
epd->getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
epd->setCursor(x-w/2, y+h/2);
if(i % 20 == 0){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().print(ii);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->print(ii);
}
// Draw sub scale with dots
float x1c = 200 + rInstrument*sin(i/180.0*M_PI);
float y1c = 150 - rInstrument*cos(i/180.0*M_PI);
getdisplay().fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
epd->fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
float sinx=sin(i/180.0*M_PI);
float cosx=cos(i/180.0*M_PI);
@@ -215,10 +216,10 @@ public:
float xx2 = +dx;
float yy1 = -(rInstrument-10);
float yy2 = -(rInstrument+10);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),commonData->fgcolor);
getdisplay().fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),
200+(int)(cosx*xx2-sinx*yy2),150+(int)(sinx*xx2+cosx*yy2),commonData->fgcolor);
}
@@ -239,7 +240,7 @@ public:
float xx2 = startwidth;
float yy1 = -startwidth;
float yy2 = -(rInstrument * 0.7);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2),commonData->fgcolor);
// Inverted pointer
@@ -249,28 +250,28 @@ public:
float ix2 = -endwidth;
float iy1 = -(rInstrument * 0.7);
float iy2 = -endwidth;
getdisplay().fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
epd->fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
200+(int)(cosx*ix2-sinx*iy1),150+(int)(sinx*ix2+cosx*iy1),
200+(int)(cosx*0-sinx*iy2),150+(int)(sinx*0+cosx*iy2),commonData->fgcolor);
// Draw counterweight
getdisplay().fillCircle(200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2), 5, commonData->fgcolor);
epd->fillCircle(200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2), 5, commonData->fgcolor);
}
// Center circle
getdisplay().fillCircle(200, 150, startwidth + 22, commonData->bgcolor);
getdisplay().fillCircle(200, 150, startwidth + 20, commonData->fgcolor); // Boat circle
epd->fillCircle(200, 150, startwidth + 22, commonData->bgcolor);
epd->fillCircle(200, 150, startwidth + 20, commonData->fgcolor); // Boat circle
int x0 = 200;
int y0 = 150;
int x1 = x0 + 50*cos(value1);
int y1 = y0 + 50*sin(value1);
int x2 = x0 + 50*cos(value1 - pi/2);
int y2 = y0 + 50*sin(value1 - pi/2);
getdisplay().fillTriangle(x0, y0, x1, y1, x2, y2, commonData->bgcolor); // Clear half top side of boat circle (right triangle)
epd->fillTriangle(x0, y0, x1, y1, x2, y2, commonData->bgcolor); // Clear half top side of boat circle (right triangle)
x1 = x0 + 50*cos(value1 + pi);
y1 = y0 + 50*sin(value1 + pi);
getdisplay().fillTriangle(x0, y0, x1, y1, x2, y2, commonData->bgcolor); // Clear half top side of boat circle (left triangle)
getdisplay().fillRect(150, 160, 100, 4, commonData->fgcolor); // Water line
epd->fillTriangle(x0, y0, x1, y1, x2, y2, commonData->bgcolor); // Clear half top side of boat circle (left triangle)
epd->fillRect(150, 160, 100, 4, commonData->fgcolor); // Water line
// Draw roll pointer
startwidth = 4; // Start width of pointer
@@ -283,7 +284,7 @@ public:
float xx2 = startwidth;
float yy1 = -startwidth;
float yy2 = -(rInstrument - 15);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2),commonData->fgcolor);
// Inverted pointer
@@ -293,15 +294,15 @@ public:
float ix2 = -endwidth;
float iy1 = -(rInstrument - 15);
float iy2 = -endwidth;
getdisplay().fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
epd->fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
200+(int)(cosx*ix2-sinx*iy1),150+(int)(sinx*ix2+cosx*iy1),
200+(int)(cosx*0-sinx*iy2),150+(int)(sinx*0+cosx*iy2),commonData->fgcolor);
}
else{
// Print sensor info
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(145, 200);
getdisplay().print("No sensor data"); // Info missing sensor
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(145, 200);
epd->print("No sensor data"); // Info missing sensor
}
return PAGE_UPDATE;

154
lib/obp60task/PageRudderPosition.cpp
View File

@@ -1,18 +1,29 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
#ifdef ENABLE_CALIBRATION
#include "BoatDataCalibration.h"
#endif
class PageRudderPosition : public Page
{
private:
String lengthformat;
public:
PageRudderPosition(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Show PageRudderPosition");
PageRudderPosition(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageRudderPosition");
// Get config data
String lengthformat = config->getString(config->lengthFormat);
}
// Key functions
virtual int handleKey(int key){
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -21,68 +32,64 @@ public:
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
static String unit1old = "";
double value1 = 0.1;
double value1old = 0.1;
// Get config data
String lengthformat = config->getString(config->lengthFormat);
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
// Get boat values for rudder position
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list
String name1 = bvalue1->getName().c_str(); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue1, logger); // Check if boat data value is to be calibrated
#endif
value1 = bvalue1->value; // Raw value without unit convertion
bool valid1 = bvalue1->valid; // Valid information
String svalue1 = formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
if(valid1 == true){
if (valid1 == true) {
value1old = value1; // Save old value
unit1old = unit1; // Save old unit
} else {
if(simulation == true){
value1 = (3 + float(random(0, 50)) / 10.0)/360*2*PI;
if (simulation == true) {
value1 = (3 + float(random(0, 50)) / 10.0) / 360 * 2 * M_PI;
unit1 = "Deg";
}
else{
} else {
value1 = 0;
}
}
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageRudderPosition, %s:%f", name1.c_str(), value1);
// Log boat values
logger->logDebug(GwLog::LOG, "Drawing at PageRudderPosition, %s:%f", name1.c_str(), value1);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
//*******************************************************************************************
// Draw RudderPosition
int rInstrument = 110; // Radius of RudderPosition
float pi = 3.141592;
const float pi = 3.141592;
getdisplay().fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
getdisplay().fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
getdisplay().fillRect(0, 30, 400, 122, commonData->bgcolor); // Delete half top circle
epd->fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
epd->fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
epd->fillRect(0, 30, 400, 122, commonData->bgcolor); // Delete half top circle
for(int i=90; i<=270; i=i+10)
{
@@ -90,51 +97,50 @@ public:
float x = 200 + (rInstrument-30)*sin(i/180.0*pi); // x-coordinate dots
float y = 150 - (rInstrument-30)*cos(i/180.0*pi); // y-coordinate cots
const char *ii = " ";
switch (i)
{
case 0: ii=" "; break; // Use a blank for a empty scale value
case 30 : ii=" "; break;
case 60 : ii=" "; break;
case 90 : ii="45"; break;
case 120 : ii="30"; break;
case 150 : ii="15"; break;
case 180 : ii="0"; break;
case 210 : ii="15"; break;
case 240 : ii="30"; break;
case 270 : ii="45"; break;
case 300 : ii=" "; break;
case 330 : ii=" "; break;
default: break;
switch (i) {
case 0: ii=" "; break; // Use a blank for a empty scale value
case 30 : ii=" "; break;
case 60 : ii=" "; break;
case 90 : ii="45"; break;
case 120 : ii="30"; break;
case 150 : ii="15"; break;
case 180 : ii="0"; break;
case 210 : ii="15"; break;
case 240 : ii="30"; break;
case 270 : ii="45"; break;
case 300 : ii=" "; break;
case 330 : ii=" "; break;
default: break;
}
// Print text centered on position x, y
int16_t x1, y1; // Return values of getTextBounds
uint16_t w, h; // Return values of getTextBounds
getdisplay().getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
getdisplay().setCursor(x-w/2, y+h/2);
epd->getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
epd->setCursor(x-w/2, y+h/2);
if(i % 30 == 0){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().print(ii);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->print(ii);
}
// Draw sub scale with dots
float x1c = 200 + rInstrument*sin(i/180.0*pi);
float y1c = 150 - rInstrument*cos(i/180.0*pi);
getdisplay().fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
epd->fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
float sinx=sin(i/180.0*pi);
float cosx=cos(i/180.0*pi);
// Draw sub scale with lines (two triangles)
if(i % 30 == 0){
float dx=2; // Line thickness = 2*dx+1
float dx = 2; // Line thickness = 2*dx+1
float xx1 = -dx;
float xx2 = +dx;
float yy1 = -(rInstrument-10);
float yy2 = -(rInstrument+10);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),commonData->fgcolor);
getdisplay().fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),
200+(int)(cosx*xx2-sinx*yy2),150+(int)(sinx*xx2+cosx*yy2),commonData->fgcolor);
}
@@ -142,28 +148,28 @@ public:
}
// Print label
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(80, 70);
getdisplay().print("Rudder Position"); // Label
epd->setFont(&Ubuntu_Bold16pt8b);
epd->setCursor(80, 70);
epd->print("Rudder Position"); // Label
// Print Unit in RudderPosition
if(valid1 == true || simulation == true){
if(holdvalues == false){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(175, 110);
getdisplay().print(unit1); // Unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(175, 110);
epd->print(unit1); // Unit
}
else{
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(175, 110);
getdisplay().print(unit1old); // Unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(175, 110);
epd->print(unit1old); // Unit
}
}
else{
// Print Unit of keel position
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(145, 110);
getdisplay().print("No sensor data"); // Info missing sensor
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(145, 110);
epd->print("No sensor data"); // Info missing sensor
}
// Calculate rudder position
@@ -186,7 +192,7 @@ public:
float xx2 = startwidth;
float yy1 = -startwidth;
float yy2 = -(rInstrument * 0.5);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2),commonData->fgcolor);
// Inverted pointer
@@ -196,14 +202,14 @@ public:
float ix2 = -endwidth;
float iy1 = -(rInstrument * 0.5);
float iy2 = -endwidth;
getdisplay().fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
epd->fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
200+(int)(cosx*ix2-sinx*iy1),150+(int)(sinx*ix2+cosx*iy1),
200+(int)(cosx*0-sinx*iy2),150+(int)(sinx*0+cosx*iy2),commonData->fgcolor);
}
// Center circle
getdisplay().fillCircle(200, 150, startwidth + 6, commonData->bgcolor);
getdisplay().fillCircle(200, 150, startwidth + 4, commonData->fgcolor);
epd->fillCircle(200, 150, startwidth + 6, commonData->bgcolor);
epd->fillCircle(200, 150, startwidth + 4, commonData->fgcolor);
return PAGE_UPDATE;
};

263
lib/obp60task/PageSixValues.cpp
View File

@@ -1,8 +1,13 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
#ifdef ENABLE_CALIBRATION
#include "BoatDataCalibration.h"
#endif
const int SixValues_x1 = 5;
const int SixValues_DeltaX = 200;
@@ -13,13 +18,13 @@ const int HowManyValues = 6;
class PageSixValues : public Page
{
public:
PageSixValues(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageSixValues");
public:
PageSixValues(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageSixValues");
}
virtual int handleKey(int key){
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -28,129 +33,133 @@ class PageSixValues : public Page
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
static String OldDataText[HowManyValues] = {"", "", "", "", "", ""};
static String OldDataUnits[HowManyValues] = {"", "", "", "", "", ""};
// Get config data
String lengthformat = config->getString(config->lengthFormat);
// bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
GwApi::BoatValue *bvalue;
String DataName[HowManyValues];
double DataValue[HowManyValues];
bool DataValid[HowManyValues];
String DataText[HowManyValues];
String DataUnits[HowManyValues];
String DataFormat[HowManyValues];
for (int i = 0; i < HowManyValues; i++){
bvalue = pageData.values[i];
DataName[i] = xdrDelete(bvalue->getName());
DataName[i] = DataName[i].substring(0, 6); // String length limit for value name
DataValue[i] = bvalue->value; // Value as double in SI unit
DataValid[i] = bvalue->valid;
DataText[i] = formatValue(bvalue, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
DataUnits[i] = formatValue(bvalue, *commonData).unit;
DataFormat[i] = bvalue->getFormat(); // Unit of value
}
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
if (bvalue == NULL) return PAGE_OK; // WTF why this statement?
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
for (int i = 0; i < ( HowManyValues / 2 ); i++){
if (i < (HowManyValues / 2) - 1) { // Don't draw horizontal line after last line of values -> standard design
// Horizontal line 3 pix
getdisplay().fillRect(0, SixValues_y1+(i+1)*SixValues_DeltaY, 400, 3, commonData->fgcolor);
}
for (int j = 0; j < 2; j++){
int ValueIndex = i * 2 + j;
int x0 = SixValues_x1 + j * SixValues_DeltaX;
int y0 = SixValues_y1 + i * SixValues_DeltaY;
LOG_DEBUG(GwLog::LOG,"Drawing at PageSixValue: %d %s %f %s", ValueIndex, DataName[ValueIndex], DataValue[ValueIndex], DataFormat[ValueIndex] );
// Show name
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(x0, y0+25);
getdisplay().print(DataName[ValueIndex]); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(x0, y0+72);
if(holdvalues == false){
getdisplay().print(DataUnits[ValueIndex]); // Unit
}
else{
getdisplay().print(OldDataUnits[ValueIndex]);
}
// Switch font if format for any values
if(DataFormat[ValueIndex] == "formatLatitude" || DataFormat[ValueIndex] == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(x0+10, y0+60);
}
else if(DataFormat[ValueIndex] == "formatTime" || DataFormat[ValueIndex] == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(x0+20,y0+55);
}
// pressure in hPa
else if(DataFormat[ValueIndex] == "formatXdr:P:P"){
getdisplay().setFont(&DSEG7Classic_BoldItalic26pt7b);
getdisplay().setCursor(x0+5, y0+70);
}
// RPM
else if(DataFormat[ValueIndex] == "formatXdr:T:R"){
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
getdisplay().setCursor(x0+25, y0+70);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic26pt7b);
if ( DataText[ValueIndex][0] == '-' )
getdisplay().setCursor(x0+25, y0+70);
else
getdisplay().setCursor(x0+65, y0+70);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(DataText[ValueIndex]); // Real value as formated string
}
else{
getdisplay().print(OldDataText[ValueIndex]); // Old value as formated string
}
if(DataValid[ValueIndex] == true){
OldDataText[ValueIndex] = DataText[ValueIndex]; // Save the old value
OldDataUnits[ValueIndex] = DataUnits[ValueIndex]; // Save the old unit
}
}
// Vertical line 3 pix
getdisplay().fillRect(SixValues_x1+SixValues_DeltaX-8, SixValues_y1+i*SixValues_DeltaY, 3, SixValues_DeltaY, commonData->fgcolor);
}
return PAGE_UPDATE;
};
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
// Old values for hold function
static String OldDataText[HowManyValues] = {"", "", "", "", "", ""};
static String OldDataUnits[HowManyValues] = {"", "", "", "", "", ""};
// Get config data
String lengthformat = config->getString(config->lengthFormat);
// bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
GwApi::BoatValue *bvalue;
String DataName[HowManyValues];
double DataValue[HowManyValues];
bool DataValid[HowManyValues];
String DataText[HowManyValues];
String DataUnits[HowManyValues];
String DataFormat[HowManyValues];
for (int i = 0; i < HowManyValues; i++){
bvalue = pageData.values[i];
DataName[i] = xdrDelete(bvalue->getName());
DataName[i] = DataName[i].substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue, logger); // Check if boat data value is to be calibrated
#endif
DataValue[i] = bvalue->value; // Value as double in SI unit
DataValid[i] = bvalue->valid;
DataText[i] = commonData->fmt->formatValue(bvalue, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
DataUnits[i] = commonData->fmt->formatValue(bvalue, *commonData).unit;
DataFormat[i] = bvalue->getFormat(); // Unit of value
}
if (bvalue == NULL) return PAGE_OK; // WTF why this statement?
// Draw page
//***********************************************************
// Set display in partial refresh mode
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
epd->setTextColor(commonData->fgcolor);
for (int i = 0; i < ( HowManyValues / 2 ); i++) {
if (i < (HowManyValues / 2) - 1) { // Don't draw horizontal line after last line of values -> standard design
// Horizontal line 3 pix
epd->fillRect(0, SixValues_y1+(i+1)*SixValues_DeltaY, 400, 3, commonData->fgcolor);
}
for (int j = 0; j < 2; j++) {
int ValueIndex = i * 2 + j;
int x0 = SixValues_x1 + j * SixValues_DeltaX;
int y0 = SixValues_y1 + i * SixValues_DeltaY;
LOG_DEBUG(GwLog::LOG, "Drawing at PageSixValue: %d %s %f %s", ValueIndex, DataName[ValueIndex], DataValue[ValueIndex], DataFormat[ValueIndex]);
// Show name
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(x0, y0+25);
epd->print(DataName[ValueIndex]); // Page name
// Show unit
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(x0, y0+72);
if (holdvalues == false) {
epd->print(DataUnits[ValueIndex]); // Unit
} else {
epd->print(OldDataUnits[ValueIndex]);
}
// Switch font if format for any values
if (DataFormat[ValueIndex] == "formatLatitude" || DataFormat[ValueIndex] == "formatLongitude") {
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(x0+10, y0+60);
}
else if (DataFormat[ValueIndex] == "formatTime" || DataFormat[ValueIndex] == "formatDate") {
epd->setFont(&Ubuntu_Bold16pt8b);
epd->setCursor(x0+20,y0+55);
}
// pressure in hPa
else if (DataFormat[ValueIndex] == "formatXdr:P:P") {
epd->setFont(&DSEG7Classic_BoldItalic26pt7b);
epd->setCursor(x0+5, y0+70);
}
// RPM
else if (DataFormat[ValueIndex] == "formatXdr:T:R") {
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setCursor(x0+25, y0+70);
}
else {
epd->setFont(&DSEG7Classic_BoldItalic26pt7b);
if (DataText[ValueIndex][0] == '-' ) {
epd->setCursor(x0+25, y0+70);
} else {
epd->setCursor(x0+65, y0+70);
}
}
// Show bus data
if (holdvalues == false) {
epd->print(DataText[ValueIndex]); // Real value as formated string
} else{
epd->print(OldDataText[ValueIndex]); // Old value as formated string
}
if (DataValid[ValueIndex] == true) {
OldDataText[ValueIndex] = DataText[ValueIndex]; // Save the old value
OldDataUnits[ValueIndex] = DataUnits[ValueIndex]; // Save the old unit
}
} // for j
// Vertical line 3 pix
epd->fillRect(SixValues_x1+SixValues_DeltaX-8, SixValues_y1+i*SixValues_DeltaY, 3, SixValues_DeltaY, commonData->fgcolor);
} // for i
return PAGE_UPDATE;
};
};
static Page *createPage(CommonData &common){
return new PageSixValues(common);
}/**

136
lib/obp60task/PageSkyView.cpp
View File

@@ -14,20 +14,15 @@
class PageSkyView : public Page
{
private:
String flashLED;
GwBoatData *bd;
public:
PageSkyView(CommonData &common)
PageSkyView(CommonData &common) : Page(common)
{
commonData = &common;
// task name access is for example purpose only
TaskHandle_t currentTaskHandle = xTaskGetCurrentTaskHandle();
const char* taskName = pcTaskGetName(currentTaskHandle);
common.logger->logDebug(GwLog::LOG, "Instantiate PageSkyView in task '%s'", taskName);
flashLED = common.config->getString(common.config->flashLED);
logger->logDebug(GwLog::LOG, "Instantiate PageSkyView in task '%s'", taskName);
}
int handleKey(int key) {
@@ -57,7 +52,6 @@ public:
}
int displayPage(PageData &pageData) {
GwLog *logger = commonData->logger;
std::vector<GwSatInfo> sats;
int nSat = bd->SatInfo->getNumSats();
@@ -73,111 +67,109 @@ public:
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
// current position
getdisplay().setFont(&Ubuntu_Bold8pt8b);
epd->setFont(&Ubuntu_Bold8pt8b);
GwApi::BoatValue *bv_lat = pageData.values[0];
String sv_lat = commonData->fmt->formatValue(bv_lat, *commonData).svalue;
//epd->setCursor(300, 40);
//epd->print(sv_lat);
GwApi::BoatValue *bv_lon = pageData.values[1];
String sv_lon = commonData->fmt->formatValue(bv_lon, *commonData).svalue;
//epd->setCursor(300, 60);
//epd->print(sv_lon);
GwApi::BoatValue *bv_hdop = pageData.values[2];
String sv_hdop = commonData->fmt->formatValue(bv_hdop, *commonData).svalue;
//epd->setCursor(300, 80);
//epd->print(sv_hdop);
// sky view
Point c = {130, 148};
uint16_t r = 120;
uint16_t r = 125;
uint16_t r1 = r / 2;
getdisplay().fillCircle(c.x, c.y, r + 2, commonData->fgcolor);
getdisplay().fillCircle(c.x, c.y, r - 1, commonData->bgcolor);
getdisplay().drawCircle(c.x, c.y, r1, commonData->fgcolor);
epd->fillCircle(c.x, c.y, r, commonData->bgcolor);
epd->drawCircle(c.x, c.y, r + 1, commonData->fgcolor);
epd->drawCircle(c.x, c.y, r + 2, commonData->fgcolor);
epd->drawCircle(c.x, c.y, r1, commonData->fgcolor);
// separation lines
getdisplay().drawLine(c.x - r, c.y, c.x + r, c.y, commonData->fgcolor);
getdisplay().drawLine(c.x, c.y - r, c.x, c.y + r, commonData->fgcolor);
epd->drawLine(c.x - r, c.y, c.x + r, c.y, commonData->fgcolor);
epd->drawLine(c.x, c.y - r, c.x, c.y + r, commonData->fgcolor);
Point p = {c.x, c.y - r};
Point p1, p2;
p1 = rotatePoint(c, p, 45);
p2 = rotatePoint(c, p, 45 + 180);
getdisplay().drawLine(p1.x, p1.y, p2.x, p2.y, commonData->fgcolor);
epd->drawLine(p1.x, p1.y, p2.x, p2.y, commonData->fgcolor);
p1 = rotatePoint(c, p, -45);
p2 = rotatePoint(c, p, -45 + 180);
getdisplay().drawLine(p1.x, p1.y, p2.x, p2.y, commonData->fgcolor);
epd->drawLine(p1.x, p1.y, p2.x, p2.y, commonData->fgcolor);
// directions
int16_t x1, y1;
uint16_t w, h;
getdisplay().setFont(&Ubuntu_Bold12pt8b);
epd->setFont(&Ubuntu_Bold12pt8b);
getdisplay().getTextBounds("N", 0, 150, &x1, &y1, &w, &h);
getdisplay().setCursor(c.x - w / 2, c.y - r + h + 3);
getdisplay().print("N");
epd->getTextBounds("N", 0, 150, &x1, &y1, &w, &h);
epd->setCursor(c.x - w / 2, c.y - r + h + 2);
epd->print("N");
getdisplay().getTextBounds("S", 0, 150, &x1, &y1, &w, &h);
getdisplay().setCursor(c.x - w / 2, c.y + r - 3);
getdisplay().print("S");
epd->getTextBounds("S", 0, 150, &x1, &y1, &w, &h);
epd->setCursor(c.x - w / 2, c.y + r - 2);
epd->print("S");
getdisplay().getTextBounds("E", 0, 150, &x1, &y1, &w, &h);
getdisplay().setCursor(c.x + r - w - 3, c.y + h / 2);
getdisplay().print("E");
epd->getTextBounds("E", 0, 150, &x1, &y1, &w, &h);
epd->setCursor(c.x + r - w - 2, c.y + h / 2);
epd->print("E");
getdisplay().getTextBounds("W", 0, 150, &x1, &y1, &w, &h);
getdisplay().setCursor(c.x - r + 3 , c.y + h / 2);
getdisplay().print("W");
epd->getTextBounds("W", 0, 150, &x1, &y1, &w, &h);
epd->setCursor(c.x - r + 2 , c.y + h / 2);
epd->print("W");
// show satellites in "map"
getdisplay().setFont(&IBM8x8px);
epd->setFont(&Atari6px);
for (int i = 0; i < nSat; i++) {
float arad = (sats[i].Azimut * M_PI / 180.0) + M_PI;
float arad = sats[i].Azimut * M_PI / 180.0;
float erad = sats[i].Elevation * M_PI / 180.0;
uint16_t x = c.x + sin(arad) * erad * r1;
uint16_t y = c.y + cos(arad) * erad * r1;
getdisplay().fillRect(x-4, y-4, 8, 8, commonData->fgcolor);
getdisplay().setCursor(x-7, y+12);
getdisplay().printf("%02d", static_cast<int>(sats[i].PRN));
uint16_t x = c.x + sin(arad) * erad * r;
uint16_t y = c.y + cos(arad) * erad * r;
epd->drawRect(x-4, y-4, 8, 8, commonData->fgcolor);
// Add Sat number
epd->setCursor(x+5, y);
char buffer[3];
snprintf(buffer, 3, "%02d", static_cast<int>(sats[i].PRN));
epd->print(String(buffer));
}
// Signal / Noise bars
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(325, 34);
getdisplay().print("SNR");
// getdisplay().drawRect(270, 20, 125, 257, commonData->fgcolor);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(325, 34);
epd->print("SNR");
epd->drawRect(270, 20, 125, 257, commonData->fgcolor);
int maxsat = std::min(nSat, 12);
for (int i = 0; i < maxsat; i++) {
uint16_t y = 29 + (i + 1) * 20;
getdisplay().setCursor(276, y);
epd->setCursor(276, y);
char buffer[3];
snprintf(buffer, 3, "%02d", static_cast<int>(sats[i].PRN));
getdisplay().print(String(buffer));
getdisplay().drawRect(305, y-12, 85, 14, commonData->fgcolor);
getdisplay().setCursor(315, y);
epd->print(String(buffer));
epd->drawRect(305, y-12, 85, 14, commonData->fgcolor);
epd->setCursor(315, y);
// TODO SNR as number or as bar via mode key?
if (sats[i].SNR <= 100) {
// getdisplay().print(sats[i].SNR);
getdisplay().fillRect(307, y-10, int(81 * sats[i].SNR / 100.0), 10, commonData->fgcolor);
// epd->print(sats[i].SNR);
epd->fillRect(307, y-10, int(81 * sats[i].SNR / 100.0), 10, commonData->fgcolor);
} else {
getdisplay().print("n/a");
epd->print("n/a");
}
}
// Show SatInfo and HDOP
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(220, 34);
getdisplay().print("Sat:");
GwApi::BoatValue *bv_satinfo = pageData.values[0]; // SatInfo
String sval_satinfo = formatValue(bv_satinfo, *commonData).svalue;
getdisplay().setCursor(220, 49);
getdisplay().print(sval_satinfo);
getdisplay().setCursor(220, 254);
getdisplay().print("HDOP:");
GwApi::BoatValue *bv_hdop = pageData.values[1]; // HDOP
double hdop = formatValue(bv_hdop, *commonData).value * 4; // 4 is factor for UERE (translation in meter)
char sval_hdop[20];
dtostrf(hdop, 0, 1, sval_hdop); // Only one prefix
strcat(sval_hdop, "m");
getdisplay().setCursor(220, 269);
getdisplay().print(sval_hdop);
return PAGE_UPDATE;
};
};
@@ -197,7 +189,7 @@ PageDescription registerPageSkyView(
"SkyView", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"SatInfo", "HDOP"}, // Bus values we need in the page
{"LAT", "LON", "HDOP"}, // Bus values we need in the page
true // Show display header on/off
);

204
lib/obp60task/PageSolar.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -6,12 +7,23 @@
class PageSolar : public Page
{
private:
String batVoltage;
int solPower;
String powerSensor;
public:
PageSolar(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageSolar");
PageSolar(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageSolar");
// Get config data
String batVoltage = config->getString(config->batteryVoltage);
int solPower = config->getInt(config->solarPower);
String powerSensor = config->getString(config->usePowSensor2);
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -20,19 +32,8 @@ public:
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
// Get config data
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String batVoltage = config->getString(config->batteryVoltage);
int solPower = config->getInt(config->solarPower);
String backlightMode = config->getString(config->backlight);
String powerSensor = config->getString(config->usePowSensor2);
double value1 = 0; // Solar voltage
double value2 = 0; // Solar current
double value3 = 0; // Solar output power
@@ -58,98 +59,93 @@ public:
bool valid1 = true;
// Optical warning by limit violation
if(String(flashLED) == "Limit Violation"){
// Over voltage
if(value1 > 14.8 && batVoltage == "12V"){
setBlinkingLED(true);
}
if(value1 <= 14.8 && batVoltage == "12V"){
// Optical warning by limit violation
if (flashLED == "Limit Violation") {
// Over voltage?
if (batVoltage == "12V") {
setBlinkingLED(value1 > 14.8);
} else if (batVoltage == "24V") {
setBlinkingLED(value1 > 29.6);
} else {
setBlinkingLED(false);
}
if(value1 > 29.6 && batVoltage == "24V"){
setBlinkingLED(true);
}
if(value1 <= 29.6 && batVoltage == "24V"){
setBlinkingLED(false);
}
}
// Logging voltage value
LOG_DEBUG(GwLog::LOG,"Drawing at PageSolar, Type:%iW %s:=%f", solPower, name1.c_str(), value1);
logger->logDebug(GwLog::LOG, "Drawing at PageSolar, Type:%iW %s:=%f", solPower, name1.c_str(), value1);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(10, 65);
getdisplay().print("Solar");
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(10, 65);
epd->print("Solar");
// Show voltage type
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 140);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 140);
int bvoltage = 0;
if(String(batVoltage) == "12V") bvoltage = 12;
else bvoltage = 24;
getdisplay().print(bvoltage);
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("V");
epd->print(bvoltage);
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("V");
// Show solar power
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 200);
if(solPower <= 999) getdisplay().print(solPower, 0);
if(solPower > 999) getdisplay().print(float(solPower/1000.0), 1);
getdisplay().setFont(&Ubuntu_Bold16pt8b);
if(solPower <= 999) getdisplay().print("W");
if(solPower > 999) getdisplay().print("kW");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 200);
if(solPower <= 999) epd->print(solPower, 0);
if(solPower > 999) epd->print(float(solPower/1000.0), 1);
epd->setFont(&Ubuntu_Bold16pt8b);
if(solPower <= 999) epd->print("W");
if(solPower > 999) epd->print("kW");
// Show info
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 235);
getdisplay().print("Installed");
getdisplay().setCursor(10, 255);
getdisplay().print("Solar Modul");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 235);
epd->print("Installed");
epd->setCursor(10, 255);
epd->print("Solar Modul");
// Show solar panel
solarGraphic(150, 45, commonData->fgcolor, commonData->bgcolor);
// Show load level in percent
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(150, 200);
getdisplay().print(solPercentage);
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("%");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(150, 235);
getdisplay().print("Load");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(150, 200);
epd->print(solPercentage);
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("%");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(150, 235);
epd->print("Load");
// Show sensor type info
String i2cAddr = "";
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(270, 60);
if(powerSensor == "off") getdisplay().print("Internal");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(270, 60);
if(powerSensor == "off") epd->print("Internal");
if(powerSensor == "INA219"){
getdisplay().print("INA219");
epd->print("INA219");
i2cAddr = " (0x" + String(INA219_I2C_ADDR2, HEX) + ")";
}
if(powerSensor == "INA226"){
getdisplay().print("INA226");
epd->print("INA226");
i2cAddr = " (0x" + String(INA226_I2C_ADDR2, HEX) + ")";
}
getdisplay().print(i2cAddr);
getdisplay().setCursor(270, 80);
getdisplay().print("Sensor Modul");
epd->print(i2cAddr);
epd->setCursor(270, 80);
epd->print("Sensor Modul");
// Reading bus data or using simulation data
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 140);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 140);
if(simulation == true){
if(batVoltage == "12V"){
value1 = 12.0;
@@ -158,46 +154,62 @@ public:
value1 = 24.0;
}
value1 += float(random(0, 5)) / 10; // Simulation data
getdisplay().print(value1,1);
epd->print(value1,1);
}
else{
// Check for valid real data, display also if hold values activated
if(valid1 == true || holdvalues == true){
// Resolution switching
if(value1 <= 9.9) getdisplay().print(value1, 2);
if(value1 > 9.9 && value1 <= 99.9)getdisplay().print(value1, 1);
if(value1 > 99.9) getdisplay().print(value1, 0);
if (value1 <= 9.9) {
epd->print(value1, 2);
} else if (value1 <= 99.9) {
epd->print(value1, 1);
} else {
epd->print(value1, 0);
}
}
else{
getdisplay().print("---"); // Missing bus data
else {
epd->print(commonData->fmt->placeholder); // Missing bus data
}
}
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("V");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("V");
// Show actual current in A
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 200);
if((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false){
if(value2 <= 9.9) getdisplay().print(value2, 2);
if(value2 > 9.9 && value2 <= 99.9)getdisplay().print(value2, 1);
if(value2 > 99.9) getdisplay().print(value2, 0);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 200);
if ((powerSensor == "INA219" || powerSensor == "INA226") && (simulation == false)) {
if (value2 <= 9.9) {
epd->print(value2, 2);
} else if (value2 <= 99.9) {
epd->print(value2, 1);
} else {
epd->print(value2, 0);
}
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("A");
else {
epd->print(commonData->fmt->placeholder);
}
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("A");
// Show actual consumption in W
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 260);
if((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false){
if(value3 <= 9.9) getdisplay().print(value3, 2);
if(value3 > 9.9 && value3 <= 99.9)getdisplay().print(value3, 1);
if(value3 > 99.9) getdisplay().print(value3, 0);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 260);
if ((powerSensor == "INA219" || powerSensor == "INA226") && (simulation == false)) {
if (value3 <= 9.9) {
epd->print(value3, 2);
} else if (value3 <= 99.9) {
epd->print(value3, 1);
} else {
epd->print(value3, 0);
}
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("W");
else {
epd->print(commonData->fmt->placeholder);
}
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("W");
return PAGE_UPDATE;
};

999
lib/obp60task/PageSystem.cpp
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File diff suppressed because it is too large Load Diff

175
lib/obp60task/PageThreeValues.cpp
View File

@@ -1,17 +1,28 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
#ifdef ENABLE_CALIBRATION
#include "BoatDataCalibration.h"
#endif
class PageThreeValues : public Page
{
public:
PageThreeValues(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageThreeValue");
private:
String lengthformat;
public:
PageThreeValues(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageThreeValue");
// Get config data
lengthformat = config->getString(config->lengthFormat);
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -20,9 +31,17 @@ class PageThreeValues : public Page
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
// Old values for hold function
static String svalue1old = "";
@@ -32,94 +51,92 @@ class PageThreeValues : public Page
static String svalue3old = "";
static String unit3old = "";
// Get config data
String lengthformat = config->getString(config->lengthFormat);
// bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
// Get boat values #1
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (only one value by PageOneValue)
String name1 = xdrDelete(bvalue1->getName()); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue1, logger); // Check if boat data value is to be calibrated
#endif
double value1 = bvalue1->value; // Value as double in SI unit
bool valid1 = bvalue1->valid; // Valid information
String svalue1 = formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
// Get boat values #2
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list
String name2 = xdrDelete(bvalue2->getName()); // Value name
name2 = name2.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue2, logger); // Check if boat data value is to be calibrated
#endif
double value2 = bvalue2->value; // Value as double in SI unit
bool valid2 = bvalue2->valid; // Valid information
String svalue2 = formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
String svalue2 = commonData->fmt->formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = commonData->fmt->formatValue(bvalue2, *commonData).unit; // Unit of value
// Get boat values #3
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Third element in list
String name3 = xdrDelete(bvalue3->getName()); // Value name
name3 = name3.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue3, logger); // Check if boat data value is to be calibrated
#endif
double value3 = bvalue3->value; // Value as double in SI unit
bool valid3 = bvalue3->valid; // Valid information
String svalue3 = formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = formatValue(bvalue3, *commonData).unit; // Unit of value
String svalue3 = commonData->fmt->formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = commonData->fmt->formatValue(bvalue3, *commonData).unit; // Unit of value
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageThreeValues, %s: %f, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3);
// Log boat values
logger->logDebug(GwLog::LOG, "Drawing at PageThreeValues, %s: %f, %s: %f, %s: %f",
name1.c_str(), value1,
name2.c_str(), value2,
name3.c_str(), value3);
// Draw page
//***********************************************************
/// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
// ############### Value 1 ################
// Show name
getdisplay().setTextColor(commonData->fgcolor);
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 55);
getdisplay().print(name1); // Page name
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 55);
epd->print(name1); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 90);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 90);
if(holdvalues == false){
getdisplay().print(unit1); // Unit
epd->print(unit1); // Unit
}
else{
getdisplay().print(unit1old);
epd->print(unit1old);
}
// Switch font if format for any values
if(bvalue1->getFormat() == "formatLatitude" || bvalue1->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(50, 90);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(50, 90);
}
else if(bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(170, 68);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(170, 68);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 90);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 90);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue1); // Real value as formated string
epd->print(svalue1); // Real value as formated string
}
else{
getdisplay().print(svalue1old); // Old value as formated string
epd->print(svalue1old); // Old value as formated string
}
if(valid1 == true){
svalue1old = svalue1; // Save the old value
@@ -129,45 +146,45 @@ class PageThreeValues : public Page
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 105, 400, 3, commonData->fgcolor);
epd->fillRect(0, 105, 400, 3, commonData->fgcolor);
// ############### Value 2 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 145);
getdisplay().print(name2); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 145);
epd->print(name2); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 180);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 180);
if(holdvalues == false){
getdisplay().print(unit2); // Unit
epd->print(unit2); // Unit
}
else{
getdisplay().print(unit2old);
epd->print(unit2old);
}
// Switch font if format for any values
if(bvalue2->getFormat() == "formatLatitude" || bvalue2->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(50, 180);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(50, 180);
}
else if(bvalue2->getFormat() == "formatTime" || bvalue2->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(170, 158);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(170, 158);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 180);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 180);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue2); // Real value as formated string
epd->print(svalue2); // Real value as formated string
}
else{
getdisplay().print(svalue2old); // Old value as formated string
epd->print(svalue2old); // Old value as formated string
}
if(valid2 == true){
svalue2old = svalue2; // Save the old value
@@ -177,45 +194,45 @@ class PageThreeValues : public Page
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 195, 400, 3, commonData->fgcolor);
epd->fillRect(0, 195, 400, 3, commonData->fgcolor);
// ############### Value 3 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 235);
getdisplay().print(name3); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 235);
epd->print(name3); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 270);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 270);
if(holdvalues == false){
getdisplay().print(unit3); // Unit
epd->print(unit3); // Unit
}
else{
getdisplay().print(unit3old);
epd->print(unit3old);
}
// Switch font if format for any values
if(bvalue3->getFormat() == "formatLatitude" || bvalue3->getFormat() == "formatLongitude"){
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(50, 270);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(50, 270);
}
else if(bvalue3->getFormat() == "formatTime" || bvalue3->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(170, 248);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(170, 248);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
getdisplay().setCursor(180, 270);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setCursor(180, 270);
}
// Show bus data
if(holdvalues == false){
getdisplay().print(svalue3); // Real value as formated string
epd->print(svalue3); // Real value as formated string
}
else{
getdisplay().print(svalue3old); // Old value as formated string
epd->print(svalue3old); // Old value as formated string
}
if(valid3 == true){
svalue3old = svalue3; // Save the old value

121
lib/obp60task/PageTracker.cpp Normal file
View File

@@ -0,0 +1,121 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
/*
Tracker
- standalone with SD card backend
- standalone with server backend
- Regatta Hero integration
*/
class PageTracker : public Page
{
private:
char mode = 'N'; // (N)ormal, (C)onfig
void displayModeNormal(PageData &pageData) {
// TBD Boatvalues: ...
logger->logDebug(GwLog::DEBUG,"Drawing at PageTracker");
// Title
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("Tracker");
}
void displayModeConfig() {
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("Tracker configuration");
epd->setFont(&Ubuntu_Bold8pt8b);
// TODO
}
public:
PageTracker(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageTracker");
}
void setupKeys(){
Page::setupKeys();
commonData->keydata[0].label = "START";
commonData->keydata[1].label = "STOP";
}
int handleKey(int key){
if (key == 1) { // Switch between normal and config mode
if (mode == 'N') {
mode = 'C';
} else {
mode = 'N';
}
return 0;
}
if (key == 11) {
commonData->keylock = !commonData->keylock;
return 0;
}
return key;
}
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData){
// Logging boat values
logger->logDebug(GwLog::LOG, "Drawing at PageTracker; Mode=%c", mode);
// Set display in partial refresh mode
epd->setPartialWindow(0, 0, epd->width(), epd->height());
if (mode == 'N') {
displayModeNormal(pageData);
} else if (mode == 'C') {
displayModeConfig();
}
return PAGE_UPDATE;
};
};
static Page *createPage(CommonData &common){
return new PageTracker(common);
}
/**
* with the code below we make this page known to the PageTask
* we give it a type (name) that can be selected in the config
* we define which function is to be called
* and we provide the number of user parameters we expect
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageTracker(
"Tracker", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"LAT", "LON"}, // Names of bus values undepends on selection in Web configuration (refer GwBoatData.h)
true // Show display header on/off
);
#endif

425
lib/obp60task/PageTwoValues.cpp
View File

@@ -1,230 +1,37 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include "OBPDataOperations.h"
#include "OBPcharts.h"
class PageTwoValues : public Page {
#ifdef ENABLE_CALIBRATION
#include "BoatDataCalibration.h"
#endif
class PageTwoValues : public Page
{
private:
GwLog* logger;
enum PageMode {
VALUES,
VAL1_CHART,
VAL2_CHART,
CHARTS
};
enum DisplayMode {
FULL,
HALF
};
static constexpr char HORIZONTAL = 'H';
static constexpr char VERTICAL = 'V';
static constexpr int8_t FULL_SIZE = 0;
static constexpr int8_t HALF_SIZE_TOP = 1;
static constexpr int8_t HALF_SIZE_BOTTOM = 2;
static constexpr bool PRNT_NAME = true;
static constexpr bool NO_PRNT_NAME = false;
static constexpr bool PRNT_VALUE = true;
static constexpr bool NO_PRNT_VALUE = false;
static constexpr int YOFFSET = 130; // y offset for display of 2nd boat value
int width; // Screen width
int height; // Screen height
bool keylock = false; // Keylock
PageMode pageMode = VALUES; // Page display mode
int8_t dataIntv = 1; // Update interval for wind history chart:
// (1)|(2)|(3)|(4)|(8) x 240 seconds for 4, 8, 12, 16, 32 min. history chart
// String lengthformat;
bool useSimuData;
bool holdValues;
String flashLED;
String backlightMode;
String tempFormat;
// Data buffer pointer (owned by HstryBuffers)
static constexpr int NUMVALUES = 2; // two data values in this page
RingBuffer<uint16_t>* dataHstryBuf[NUMVALUES] = { nullptr };
std::unique_ptr<Chart> dataChart[NUMVALUES]; // Chart object
// Old values for hold function
String sValueOld[NUMVALUES] = { "", "" };
String unitOld[NUMVALUES] = { "", "" };
// display data values in display <mode> [FULL|HALF]
void showData(const std::vector<GwApi::BoatValue*>& bValue, DisplayMode mode)
{
getdisplay().setTextColor(commonData->fgcolor);
int numValues = bValue.size(); // do we have to handle 1 or 2 values?
for (int i = 0; i < numValues; i++) {
int yOffset = YOFFSET * i;
String name = xdrDelete(bValue[i]->getName()); // Value name
name = name.substring(0, 6); // String length limit for value name
double value = bValue[i]->value; // Value as double in SI unit
bool valid = bValue[i]->valid; // Valid information
String sValue = formatValue(bValue[i], *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit = formatValue(bValue[i], *commonData).unit; // Unit of value
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 75 + yOffset);
getdisplay().print(name); // name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 125 + yOffset);
if (holdValues) {
getdisplay().print(unitOld[i]); // name
} else {
getdisplay().print(unit); // name
}
// Switch font depending on value format and adjust position
if (bValue[i]->getFormat() == "formatLatitude" || bValue[i]->getFormat() == "formatLongitude") {
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(50, 125 + yOffset);
} else if (bValue[i]->getFormat() == "formatTime" || bValue[i]->getFormat() == "formatDate") {
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(170, 105 + yOffset);
} else { // Default font for other formats
getdisplay().setFont(&DSEG7Classic_BoldItalic42pt7b);
getdisplay().setCursor(180, 125 + yOffset);
}
// Show bus data
if (!holdValues || useSimuData) {
getdisplay().print(sValue); // Real value as formated string
} else {
getdisplay().print(sValueOld[i]); // Old value as formated string
}
if (valid == true) {
sValueOld[i] = sValue; // Save the old value
unitOld[i] = unit; // Save the old unit
}
}
if (numValues == 2 && mode == FULL) { // print line only, if we want to show 2 data values
getdisplay().fillRect(0, 145, width, 3, commonData->fgcolor); // Horizontal line 3 pix
}
}
String lengthformat;
public:
PageTwoValues(CommonData& common)
PageTwoValues(CommonData &common) : Page(common)
{
commonData = &common;
logger = commonData->logger;
LOG_DEBUG(GwLog::LOG, "Instantiate PageTwoValues");
width = getdisplay().width(); // Screen width
height = getdisplay().height(); // Screen height
logger->logDebug(GwLog::LOG, "Instantiate PageTwoValue");
// Get config data
// lengthformat = commonData->config->getString(commonData->config->lengthFormat);
useSimuData = commonData->config->getBool(commonData->config->useSimuData);
holdValues = commonData->config->getBool(commonData->config->holdvalues);
flashLED = commonData->config->getString(commonData->config->flashLED);
backlightMode = commonData->config->getString(commonData->config->backlight);
tempFormat = commonData->config->getString(commonData->config->tempFormat); // [K|°C|°F]
lengthformat = config->getString(config->lengthFormat);
}
virtual void setupKeys()
{
Page::setupKeys();
#if defined BOARD_OBP60S3
constexpr int ZOOM_KEY = 4;
#elif defined BOARD_OBP40S3
constexpr int ZOOM_KEY = 1;
#endif
if (dataHstryBuf[0] || dataHstryBuf[1]) { // show "Mode" key only if at least 1 chart supported boat data type is available
commonData->keydata[0].label = "MODE";
commonData->keydata[ZOOM_KEY].label = "ZOOM";
} else {
commonData->keydata[0].label = "";
commonData->keydata[ZOOM_KEY].label = "";
}
}
// Key functions
virtual int handleKey(int key)
{
if (dataHstryBuf[0] || dataHstryBuf[1]) { // if at least 1 boat data type supports charts
// Set page mode: value | value/half chart | full charts
if (key == 1) {
switch (pageMode) {
case VALUES:
if (dataHstryBuf[0]) {
pageMode = VAL1_CHART;
} else if (dataHstryBuf[1]) {
pageMode = VAL2_CHART;
}
break;
case VAL1_CHART:
if (dataHstryBuf[1]) {
pageMode = VAL2_CHART;
} else {
pageMode = CHARTS;
}
break;
case VAL2_CHART:
pageMode = CHARTS;
break;
case CHARTS:
pageMode = VALUES;
break;
}
return 0; // Commit the key
}
// Set time frame to show for history chart
#if defined BOARD_OBP60S3
if (key == 5) {
#elif defined BOARD_OBP40S3
if (key == 2) {
#endif
if (dataIntv == 1) {
dataIntv = 2;
} else if (dataIntv == 2) {
dataIntv = 3;
} else if (dataIntv == 3) {
dataIntv = 4;
} else if (dataIntv == 4) {
dataIntv = 8;
} else {
dataIntv = 1;
}
return 0; // Commit the key
}
}
// Keylock function
if (key == 11) { // Code for keylock
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
return 0; // Commit the key
return 0; // Commit the key
}
return key;
}
virtual void displayNew(PageData& pageData)
{
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
@@ -232,96 +39,150 @@ public:
setFlashLED(false);
}
#endif
// buffer initialization will fail, if page is default page, because <displayNew> is not executed at system start for default page
for (int i = 0; i < NUMVALUES; i++) {
if (!dataChart[i]) { // Create chart objects if they don't exist
};
GwApi::BoatValue* bValue = pageData.values[i]; // Page boat data element
String bValName = bValue->getName(); // Value name
String bValFormat = bValue->getFormat(); // Value format
int displayPage(PageData &pageData) {
dataHstryBuf[i] = pageData.hstryBuffers->getBuffer(bValName);
// Old values for hold function
static String svalue1old = "";
static String unit1old = "";
static String svalue2old = "";
static String unit2old = "";
if (dataHstryBuf[i]) {
dataChart[i].reset(new Chart(*dataHstryBuf[i], Chart::dfltChrtDta[bValFormat].range, *commonData, useSimuData));
LOG_DEBUG(GwLog::DEBUG, "PageTwoValues: Created chart object%d for %s", i, bValName.c_str());
} else {
LOG_DEBUG(GwLog::DEBUG, "PageTwoValues: No chart object available for %s", bValName.c_str());
}
}
}
// Get boat values #1
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (only one value by PageOneValue)
String name1 = xdrDelete(bvalue1->getName()); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue1, logger); // Check if boat data value is to be calibrated
#endif
double value1 = bvalue1->value; // Value as double in SI unit
bool valid1 = bvalue1->valid; // Valid information
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
setupKeys(); // adjust <mode> key depending on chart supported boat data type
}
// Get boat values #2
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list
String name2 = xdrDelete(bvalue2->getName()); // Value name
name2 = name2.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue2, logger); // Check if boat data value is to be calibrated
#endif
double value2 = bvalue2->value; // Value as double in SI unit
bool valid2 = bvalue2->valid; // Valid information
String svalue2 = commonData->fmt->formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = commonData->fmt->formatValue(bvalue2, *commonData).unit; // Unit of value
int displayPage(PageData& pageData)
{
LOG_DEBUG(GwLog::LOG, "Display PageTwoValues");
// Get boat values for page
std::vector<GwApi::BoatValue*> bValue;
bValue.push_back(pageData.values[0]); // Page boat data element 1
bValue.push_back(pageData.values[1]); // Page boat data element 2
// Optical warning by limit violation (unused)
if (String(flashLED) == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
if (bValue[0] == NULL && bValue[1] == NULL)
return PAGE_OK; // no data, no page to display
LOG_DEBUG(GwLog::DEBUG, "PageTwoValues: printing #1: %s, %.3f, #2: %s, %.3f",
bValue[0]->getName().c_str(), bValue[0]->value, bValue[1]->getName().c_str(), bValue[1]->value);
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
logger->logDebug(GwLog::LOG, "Drawing at PageTwoValues, %s: %f, %s: %f", name1.c_str(), value1, name2.c_str(), value2);
// Draw page
//***********************************************************
getdisplay().setPartialWindow(0, 0, width, height); // Set partial update
// Set display in partial refresh mode
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
if (pageMode == VALUES || (dataHstryBuf[0] == nullptr && dataHstryBuf[1] == nullptr)) {
// show only data value; ignore other pageMode options if no chart supported boat data history buffer is available
showData(bValue, FULL);
// ############### Value 1 ################
} else if (pageMode == VAL1_CHART) { // show data value 1 and chart
showData({bValue[0]}, HALF);
if (dataChart[0]) {
dataChart[0]->showChrt(HORIZONTAL, HALF_SIZE_BOTTOM, dataIntv, NO_PRNT_NAME, NO_PRNT_VALUE, *bValue[0]);
}
// Show name
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 80);
epd->print(name1); // Page name
} else if (pageMode == VAL2_CHART) { // show data value 2 and chart
showData({bValue[1]}, HALF);
if (dataChart[1]) {
dataChart[1]->showChrt(HORIZONTAL, HALF_SIZE_BOTTOM, dataIntv, NO_PRNT_NAME, NO_PRNT_VALUE, *bValue[1]);
}
// Show unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 130);
if(holdvalues == false){
epd->print(unit1); // Unit
}
else{
epd->print(unit1old);
}
} else if (pageMode == CHARTS) { // show both data charts
if (dataChart[0]) {
if (dataChart[1]) {
dataChart[0]->showChrt(HORIZONTAL, HALF_SIZE_TOP, dataIntv, PRNT_NAME, PRNT_VALUE, *bValue[0]);
} else {
dataChart[0]->showChrt(HORIZONTAL, FULL_SIZE, dataIntv, PRNT_NAME, PRNT_VALUE, *bValue[0]);
}
}
if (dataChart[1]) {
if (dataChart[0]) {
dataChart[1]->showChrt(HORIZONTAL, HALF_SIZE_BOTTOM, dataIntv, PRNT_NAME, PRNT_VALUE, *bValue[1]);
} else {
dataChart[1]->showChrt(HORIZONTAL, FULL_SIZE, dataIntv, PRNT_NAME, PRNT_VALUE, *bValue[1]);
}
}
// Switch font if format for any values
if(bvalue1->getFormat() == "formatLatitude" || bvalue1->getFormat() == "formatLongitude"){
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(50, 130);
}
else if(bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate"){
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(170, 105);
}
else{
epd->setFont(&DSEG7Classic_BoldItalic42pt7b);
epd->setCursor(180, 130);
}
// Show bus data
if(holdvalues == false){
epd->print(svalue1); // Real value as formated string
}
else{
epd->print(svalue1old); // Old value as formated string
}
if(valid1 == true){
svalue1old = svalue1; // Save the old value
unit1old = unit1; // Save the old unit
}
// ############### Horizontal Line ################
// Horizontal line 3 pix
epd->fillRect(0, 145, 400, 3, commonData->fgcolor);
// ############### Value 2 ################
// Show name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 190);
epd->print(name2); // Page name
// Show unit
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 240);
if(holdvalues == false){
epd->print(unit2); // Unit
}
else{
epd->print(unit2old);
}
// Switch font if format for any values
if(bvalue2->getFormat() == "formatLatitude" || bvalue2->getFormat() == "formatLongitude"){
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(50, 240);
}
else if(bvalue2->getFormat() == "formatTime" || bvalue2->getFormat() == "formatDate"){
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(170, 215);
}
else{
epd->setFont(&DSEG7Classic_BoldItalic42pt7b);
epd->setCursor(180, 240);
}
// Show bus data
if(holdvalues == false){
epd->print(svalue2); // Real value as formated string
}
else{
epd->print(svalue2old); // Old value as formated string
}
if(valid2 == true){
svalue2old = svalue2; // Save the old value
unit2old = unit2; // Save the old unit
}
return PAGE_UPDATE;
};
};
static Page* createPage(CommonData& common)
{
static Page *createPage(CommonData &common){
return new PageTwoValues(common);
}
/**
* with the code below we make this page known to the PageTask
* we give it a type (name) that can be selected in the config
@@ -330,10 +191,10 @@ static Page* createPage(CommonData& common)
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageTwoValues(
"TwoValues", // Page name
createPage, // Action
2, // Number of bus values depends on selection in Web configuration
true // Show display header on/off
"TwoValues", // Page name
createPage, // Action
2, // Number of bus values depends on selection in Web configuration
true // Show display header on/off
);
#endif

219
lib/obp60task/PageVoltage.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -6,16 +7,24 @@
class PageVoltage : public Page
{
bool init = false; // Marker for init done
uint8_t average = 0; // Average type [0...3], 0=off, 1=10s, 2=60s, 3=300s
bool trend = true; // Trend indicator [0|1], 0=off, 1=on
double raw = 0;
char mode = 'D'; // display mode (A)nalog | (D)igital
private:
String batVoltage;
String batType;
bool init = false; // Marker for init done
uint8_t average = 0; // Average type [0...3], 0=off, 1=10s, 2=60s, 3=300s
bool trend = true; // Trend indicator [0|1], 0=off, 1=on
double raw = 0;
char mode = 'D'; // display mode (A)nalog | (D)igital
public:
PageVoltage(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageVoltage");
PageVoltage(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageVoltage");
// Get config data
batVoltage = config->getString(config->batteryVoltage);
batType = config->getString(config->batteryType);
if (hasFRAM) {
average = fram.read(FRAM_VOLTAGE_AVG);
trend = fram.read(FRAM_VOLTAGE_TREND);
@@ -23,14 +32,18 @@ public:
}
}
virtual void setupKeys(){
~PageVoltage(){
logger->logDebug(GwLog::LOG, "Destroy PageVoltage");
}
void setupKeys() {
Page::setupKeys();
commonData->keydata[0].label = "AVG";
commonData->keydata[1].label = "MODE";
commonData->keydata[4].label = "TRD";
}
virtual int handleKey(int key){
int handleKey(int key) {
// Change average
if(key == 1){
average ++;
@@ -66,51 +79,41 @@ public:
}
void printAvg(int avg, uint16_t x, uint16_t y, bool prefix) {
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(x, y);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(x, y);
if (prefix) {
getdisplay().print("Avg: ");
epd->print("Avg: ");
}
switch (average) {
case 0:
getdisplay().print("1s");
epd->print("1s");
break;
case 1:
getdisplay().print("10s");
epd->print("10s");
break;
case 2:
getdisplay().print("60s");
epd->print("60s");
break;
case 3:
getdisplay().print("300s");
epd->print("300s");
break;
default:
getdisplay().print("1s");
epd->print("1s");
break;
}
}
void printVoltageSymbol(uint16_t x, uint16_t y, uint16_t color) {
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().setCursor(x, y);
getdisplay().print("V");
getdisplay().fillRect(x, y + 6, 22, 3, color);
getdisplay().fillRect(x, y + 11, 6, 3, color);
getdisplay().fillRect(x + 8, y + 11, 6, 3, color);
getdisplay().fillRect(x + 16, y + 11, 6, 3, color);
epd->setFont(&Ubuntu_Bold16pt8b);
epd->setCursor(x, y);
epd->print("V");
epd->fillRect(x, y + 6, 22, 3, color);
epd->fillRect(x, y + 11, 6, 3, color);
epd->fillRect(x + 8, y + 11, 6, 3, color);
epd->fillRect(x + 16, y + 11, 6, 3, color);
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Get config data
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String batVoltage = config->getString(config->batteryVoltage);
String batType = config->getString(config->batteryType);
String backlightMode = config->getString(config->backlight);
int displayPage(PageData &pageData) {
double value1 = 0;
double valueTrend = 0; // Average over 10 values
@@ -151,92 +154,76 @@ public:
bool valid1 = true;
// Optical warning by limit violation
if(String(flashLED) == "Limit Violation"){
// Limits for Pb battery
if(String(batType) == "Pb" && (raw < 11.8 || raw > 14.8)){
if (flashLED == "Limit Violation") {
bool violation = false;
if (batType == "Pb") {
violation = (raw < 11.8 || raw > 14.8);
} else if (batType == "Gel") {
violation = (raw < 11.8 || raw > 14.4);
} else if (batType == "AGM") {
violation = (raw < 11.8 || raw > 14.7);
} else if (batType == "LiFePo4") {
violation = (raw < 12.0 || raw > 14.6);
}
if (violation) {
setBlinkingLED(true);
}
if(String(batType) == "Pb" && (raw >= 11.8 && raw <= 14.8)){
setBlinkingLED(false);
setFlashLED(false);
}
// Limits for Gel battery
if(String(batType) == "Gel" && (raw < 11.8 || raw > 14.4)){
setBlinkingLED(true);
}
if(String(batType) == "Gel" && (raw >= 11.8 && raw <= 14.4)){
setBlinkingLED(false);
setFlashLED(false);
}
// Limits for AGM battery
if(String(batType) == "AGM" && (raw < 11.8 || raw > 14.7)){
setBlinkingLED(true);
}
if(String(batType) == "AGM" && (raw >= 11.8 && raw <= 14.7)){
setBlinkingLED(false);
setFlashLED(false);
}
// Limits for LiFePo4 battery
if(String(batType) == "LiFePo4" && (raw < 12.0 || raw > 14.6)){
setBlinkingLED(true);
}
if(String(batType) == "LiFePo4" && (raw >= 12.0 && raw <= 14.6)){
} else {
setBlinkingLED(false);
setFlashLED(false);
}
}
// Logging voltage value
LOG_DEBUG(GwLog::LOG,"Drawing at PageVoltage, Type:%s %s:=%f", batType, name1.c_str(), raw);
logger->logDebug(GwLog::LOG, "Drawing at PageVoltage, Type:%s %s:=%f", batType, name1.c_str(), raw);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
if (mode == 'D') {
// Display mode digital
// Show name
getdisplay().setTextColor(commonData->fgcolor);
getdisplay().setFont(&Ubuntu_Bold32pt8b);
getdisplay().setCursor(20, 100);
getdisplay().print(name1); // Value name
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold32pt8b);
epd->setCursor(20, 100);
epd->print(name1); // Value name
#if defined BOARD_OBP40S3 && defined LIPO_ACCU_1200 && defined VOLTAGE_SENSOR
#if defined BOARD_OBP40S3 && defined LIPO_ACCU_1200 && defined VOLTAGE_SENSOR
// Show charge status
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(185, 100);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(185, 100);
if(commonData->data.BatteryChargeStatus == true){
getdisplay().print("Charge");
epd->print("Charge");
}
else{
getdisplay().print("Discharge");
epd->print("Discharge");
}
#endif
#endif
// Show unit
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(270, 100);
getdisplay().print("V");
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(270, 100);
epd->print("V");
// Show battery type
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(295, 100);
#ifdef BOARD_OBP60S3
getdisplay().print(batType);
#endif
#if defined BOARD_OBP40S3 && defined LIPO_ACCU_1200 && defined VOLTAGE_SENSOR
getdisplay().print("LiPo");
#endif
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(295, 100);
#ifdef BOARD_OBP60S3
epd->print(batType);
#endif
#if defined BOARD_OBP40S3 && defined LIPO_ACCU_1200 && defined VOLTAGE_SENSOR
epd->print("LiPo");
#endif
// Show average settings
printAvg(average, 320, 84, true);
// Reading bus data or using simulation data
getdisplay().setFont(&DSEG7Classic_BoldItalic60pt7b);
getdisplay().setCursor(20, 240);
epd->setFont(&DSEG7Classic_BoldItalic60pt7b);
epd->setCursor(20, 240);
if(simulation == true){
if(batVoltage == "12V"){
value1 = 12.0;
@@ -245,30 +232,30 @@ public:
value1 = 24.0;
}
value1 += float(random(0, 5)) / 10; // Simulation data
getdisplay().print(value1,1);
epd->print(value1,1);
}
else{
// Check for valid real data, display also if hold values activated
if(valid1 == true || holdvalues == true){
// Resolution switching
if(value1 < 10){
getdisplay().print(value1,2);
epd->print(value1,2);
}
if(value1 >= 10 && value1 < 100){
getdisplay().print(value1,1);
epd->print(value1,1);
}
if(value1 >= 100){
getdisplay().print(value1,0);
epd->print(value1,0);
}
}
else{
getdisplay().print("---"); // Missing bus data
epd->print(commonData->fmt->placeholder); // Missing bus data
}
}
// Show trend indicator
if(trend == true){
getdisplay().fillRect(315, 183, 35, 4, commonData->fgcolor); // Draw separator
epd->fillRect(315, 183, 35, 4, commonData->fgcolor); // Draw separator
if(int(raw * 10) > int(valueTrend * 10)){
displayTrendHigh(320, 174, 11, commonData->fgcolor); // Show high indicator
}
@@ -289,9 +276,9 @@ public:
std::vector<Point> pts;
// Instrument
getdisplay().drawCircleHelper(c.x, c.y, r + 2, 0x01, commonData->fgcolor);
getdisplay().drawCircleHelper(c.x, c.y, r + 1, 0x01, commonData->fgcolor);
getdisplay().drawCircleHelper(c.x, c.y, r , 0x01, commonData->fgcolor);
epd->drawCircleHelper(c.x, c.y, r + 2, 0x01, commonData->fgcolor);
epd->drawCircleHelper(c.x, c.y, r + 1, 0x01, commonData->fgcolor);
epd->drawCircleHelper(c.x, c.y, r , 0x01, commonData->fgcolor);
// Scale
// angle to voltage scale mapping
@@ -304,7 +291,7 @@ public:
{c.x - r + 12, c.y + 1},
{c.x - r, c.y + 1}
};
getdisplay().setFont(&Ubuntu_Bold10pt8b);
epd->setFont(&Ubuntu_Bold10pt8b);
for (int angle = 3; angle < 90; angle += 3) {
if (angle % 15 == 0) {
fillPoly4(rotatePoints(c, pts, angle), commonData->fgcolor);
@@ -314,7 +301,7 @@ public:
else {
p1 = rotatePoint(c, {c.x - r, c.y}, angle);
p2 = rotatePoint(c, {c.x - r + 6, c.y}, angle);
getdisplay().drawLine(p1.x, p1.y, p2.x, p2.y, commonData->fgcolor);
epd->drawLine(p1.x, p1.y, p2.x, p2.y, commonData->fgcolor);
}
}
@@ -354,31 +341,31 @@ public:
fillPoly4(rotatePoints(c, pts, angle), commonData->fgcolor);
// base
getdisplay().fillCircle(c.x, c.y, 7, commonData->fgcolor);
getdisplay().fillCircle(c.x, c.y, 4, commonData->bgcolor);
epd->fillCircle(c.x, c.y, 7, commonData->fgcolor);
epd->fillCircle(c.x, c.y, 4, commonData->bgcolor);
// Symbol
printVoltageSymbol(40, 60, commonData->fgcolor);
// Additional information at right side
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(300, 60);
getdisplay().print("Source:");
getdisplay().setCursor(300, 80);
getdisplay().print(name1);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(300, 60);
epd->print("Source:");
epd->setCursor(300, 80);
epd->print(name1);
getdisplay().setCursor(300, 110);
getdisplay().print("Type:");
getdisplay().setCursor(300, 130);
getdisplay().print(batType);
epd->setCursor(300, 110);
epd->print("Type:");
epd->setCursor(300, 130);
epd->print(batType);
getdisplay().setCursor(300, 160);
getdisplay().print("Avg:");
epd->setCursor(300, 160);
epd->print("Avg:");
printAvg(average, 300, 180, false);
// FRAM indicator
if (hasFRAM) {
getdisplay().drawXBitmap(300, 240, fram_bits, icon_width, icon_height, commonData->fgcolor);
epd->drawXBitmap(300, 240, fram_bits, icon_width, icon_height, commonData->fgcolor);
}
}

43
lib/obp60task/PageWhite.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -13,16 +14,17 @@
class PageWhite : public Page
{
char mode = 'W'; // display mode (W)hite | (L)ogo | (M)FD logo
private:
char mode = 'W'; // display mode (W)hite | (L)ogo | (M)FD logo
public:
PageWhite(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageWhite");
PageWhite(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageWhite");
refreshtime = 15000;
}
virtual int handleKey(int key) {
int handleKey(int key) {
// Change display mode
if (key == 1) {
if (mode == 'W') {
@@ -37,21 +39,20 @@ public:
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Get config data
String flashLED = config->getString(config->flashLED);
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageWhite");
logger->logDebug(GwLog::LOG, "Drawing at PageWhite");
// Draw page
//***********************************************************
@@ -61,19 +62,19 @@ public:
// Set display in partial refresh mode
if (mode == 'W') {
getdisplay().setFullWindow();
epd->setFullWindow();
} else {
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
}
if (mode == 'L') {
getdisplay().drawXBitmap(0, 0, OBP_400x300_bits, OBP_400x300_width, OBP_400x300_height, commonData->fgcolor);
epd->drawXBitmap(0, 0, OBP_400x300_bits, OBP_400x300_width, OBP_400x300_height, commonData->fgcolor);
} else if (mode == 'M') {
#ifdef BOARD_OBP60S3
getdisplay().drawXBitmap(0, 0, OBP60_400x300_bits, OBP60_400x300_width, OBP60_400x300_height, commonData->fgcolor);
epd->drawXBitmap(0, 0, OBP60_400x300_bits, OBP60_400x300_width, OBP60_400x300_height, commonData->fgcolor);
#endif
#ifdef BOARD_OBP40S3
getdisplay().drawXBitmap(0, 0, OBP40_400x300_bits, OBP40_400x300_width, OBP40_400x300_height, commonData->fgcolor);
epd->drawXBitmap(0, 0, OBP40_400x300_bits, OBP40_400x300_width, OBP40_400x300_height, commonData->fgcolor);
#endif
}

195
lib/obp60task/PageWind.cpp
View File

@@ -1,9 +1,14 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include "N2kMessages.h"
#ifdef ENABLE_CALIBRATION
#include "BoatDataCalibration.h"
#endif
#define front_width 120
#define front_height 162
static unsigned char front_bits[] PROGMEM = {
@@ -213,15 +218,21 @@ static unsigned char front_bits[] PROGMEM = {
class PageWind : public Page
{
bool keylock = false; // Keylock
int8_t lp = 80; // Pointer length
char mode = 'N'; // page mode (N)ormal | (L)ens | e(X)ample
char source = 'A'; // data source (A)pparent | (T)rue
private:
String lengthformat;
bool keylock = false; // Keylock
int8_t lp = 80; // Pointer length
char mode = 'N'; // page mode (N)ormal | (L)ens | e(X)ample
char source = 'A'; // data source (A)pparent | (T)rue
public:
PageWind(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageWind");
PageWind(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageWind");
// Get config data
lengthformat = config->getString(config->lengthFormat);
if (hasFRAM) {
lp = fram.read(FRAM_WIND_SIZE);
source = fram.read(FRAM_WIND_SRC);
@@ -229,7 +240,7 @@ public:
}
}
virtual void setupKeys(){
void setupKeys() {
Page::setupKeys();
commonData->keydata[0].label = "MODE";
if (mode == 'X') {
@@ -241,13 +252,13 @@ public:
}
// Key functions
virtual int handleKey(int key){
int handleKey(int key) {
if(key == 1){ // Mode switch
if(mode == 'N'){
mode = 'L';
// } else if (mode == 'L') {
// mode = 'X';
} else if (mode == 'L') {
mode = 'X';
} else {
mode = 'N';
}
@@ -295,23 +306,23 @@ public:
return key;
}
int displayPage(PageData &pageData)
{
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
static String svalue1old = "";
static String unit1old = "";
static String svalue2old = "";
static String unit2old = "";
// Get config data
String lengthformat = config->getString(config->lengthFormat);
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
GwApi::BoatValue *bvalue1; // Value 1 for speed on top
GwApi::BoatValue *bvalue2; // Value 2 for angle on bottom
@@ -323,10 +334,13 @@ public:
}
String name1 = bvalue1->getName().c_str(); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue1, logger); // Check if boat data value is to be calibrated
#endif
double value1 = bvalue1->value; // Value as double in SI unit
// bool valid1 = bvalue1->valid; // Valid information
String svalue1 = formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
// Get boat values for angle (AWD/TWD)
if (source == 'A') {
@@ -336,73 +350,70 @@ public:
}
String name2 = bvalue2->getName().c_str(); // Value name
name2 = name2.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue2, logger); // Check if boat data value is to be calibrated
#endif
double value2 = bvalue2->value; // Value as double in SI unit
// bool valid2 = bvalue2->valid; // Valid information
if (simulation) {
value2 = 0.62731; // some random value
}
String svalue2 = formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
String svalue2 = commonData->fmt->formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = commonData->fmt->formatValue(bvalue2, *commonData).unit; // Unit of value
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageWind, %s:%f, %s:%f", name1.c_str(), value1, name2.c_str(), value2);
logger->logDebug(GwLog::LOG, "Drawing at PageWind, %s:%f, %s:%f", name1.c_str(), value1, name2.c_str(), value2);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
if (mode == 'X') {
// Original example code with scaling circle
// Show values AWS/TWS
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 50);
getdisplay().print(name1); // Value name
getdisplay().print(": ");
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 50);
epd->print(name1); // Value name
epd->print(": ");
if(holdvalues == false){
getdisplay().print(svalue1); // Value
getdisplay().print(" ");
getdisplay().print(unit1); // Unit
epd->print(svalue1); // Value
epd->print(" ");
epd->print(unit1); // Unit
}
else{
getdisplay().print(svalue1old); // Value old
getdisplay().print(" ");
getdisplay().print(unit1old); // Unit old
epd->print(svalue1old); // Value old
epd->print(" ");
epd->print(unit1old); // Unit old
}
// Show values AWD/TWD
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 260);
getdisplay().print(name2); // Value name
getdisplay().print(": ");
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 260);
epd->print(name2); // Value name
epd->print(": ");
if(holdvalues == false){
getdisplay().print(svalue2); // Value
getdisplay().print(" ");
getdisplay().print(unit2); // Unit
epd->print(svalue2); // Value
epd->print(" ");
epd->print(unit2); // Unit
}
else{
getdisplay().print(svalue2old); // Value old
getdisplay().print(" ");
getdisplay().print(unit2old); // Unit old
epd->print(svalue2old); // Value old
epd->print(" ");
epd->print(unit2old); // Unit old
}
Point c = {200, 145};
// Draw instrument
getdisplay().fillCircle(c.x, c.y, lp + 5, commonData->fgcolor);
getdisplay().fillCircle(c.x, c.y, lp + 1, commonData->bgcolor);
epd->fillCircle(c.x, c.y, lp + 5, commonData->fgcolor);
epd->fillCircle(c.x, c.y, lp + 1, commonData->bgcolor);
// Wind pointer
if (bvalue2->valid or simulation) {
@@ -417,7 +428,7 @@ public:
};
fillPoly4(rotatePoints(c, pts, RadToDeg(value2)), commonData->fgcolor);
} else {
getdisplay().setFont(&Ubuntu_Bold12pt8b);
epd->setFont(&Ubuntu_Bold12pt8b);
drawTextCenter(c.x, c.y, "no data");
}
@@ -435,7 +446,7 @@ public:
};
int angle;
getdisplay().setFont(&Ubuntu_Bold12pt8b);
epd->setFont(&Ubuntu_Bold12pt8b);
// starbord
// text with line
@@ -450,7 +461,7 @@ public:
for (int i = 30; i < 138; i += 6) {
if (i % 15 != 0) {
p = rotatePoint(c, {c.x, c.y - r + 5}, i);
getdisplay().fillCircle(p.x, p.y, 2, commonData->fgcolor);
epd->fillCircle(p.x, p.y, 2, commonData->fgcolor);
}
}
@@ -467,17 +478,17 @@ public:
for (int i = 228; i < 330; i += 6) {
if (i % 15 != 0) {
p = rotatePoint(c, {c.x, c.y - r + 5}, i);
getdisplay().fillCircle(p.x, p.y, 2, commonData->fgcolor);
epd->fillCircle(p.x, p.y, 2, commonData->fgcolor);
}
}
// data source
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(8, 50);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 50);
if (source == 'A') {
getdisplay().print("APP");
epd->print("APP");
} else {
getdisplay().print("TRUE");
epd->print("TRUE");
}
// Wind pointer (angle)
@@ -497,7 +508,7 @@ public:
alpha *= -1;
}
getdisplay().fillCircle(c.x, c.y, 8, commonData->fgcolor);
epd->fillCircle(c.x, c.y, 8, commonData->fgcolor);
pts = {
{c.x - 1, c.y - (r - 20)},
{c.x + 1, c.y - (r - 20)},
@@ -505,39 +516,39 @@ public:
{c.x - 6, c.y + 15}
};
fillPoly4(rotatePoints(c, pts, alpha), commonData->fgcolor);
getdisplay().fillCircle(c.x, c.y, 6, commonData->bgcolor);
epd->fillCircle(c.x, c.y, 6, commonData->bgcolor);
} else {
getdisplay().setFont(&Ubuntu_Bold12pt8b);
epd->setFont(&Ubuntu_Bold12pt8b);
drawTextCenter(c.x, c.y, "no data");
}
// Wind speed as decimal number
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(150, 250);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(150, 250);
if (holdvalues == false) {
getdisplay().print(svalue1);
epd->print(svalue1);
} else {
getdisplay().print(svalue1old);
epd->print(svalue1old);
}
// unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(220, 265);
getdisplay().print("kts");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(220, 265);
epd->print("kts");
}
else {
// Normal mode
// data source
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(8, 50);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 50);
if (source == 'A') {
getdisplay().print("APP");
epd->print("APP");
} else {
getdisplay().print("TRUE");
epd->print("TRUE");
}
// draw ship front symbol (as bitmap)
getdisplay().drawXBitmap(140, 30, front_bits, front_width, front_height, commonData->fgcolor);
epd->drawXBitmap(140, 30, front_bits, front_width, front_height, commonData->fgcolor);
Point c = {200, 155};
uint16_t r = 150;
@@ -562,7 +573,7 @@ public:
for (int i = 30; i < 150; i += 10) {
if (i % 30 != 0) {
p = rotatePoint(c, {c.x, c.y - r + 5}, i);
getdisplay().fillCircle(p.x, p.y, 3, commonData->fgcolor);
epd->fillCircle(p.x, p.y, 3, commonData->fgcolor);
}
}
@@ -579,27 +590,27 @@ public:
for (int i = 210; i < 340; i += 10) {
if (i % 30 != 0) {
p = rotatePoint(c, {c.x, c.y - r + 5}, i);
getdisplay().fillCircle(p.x, p.y, 3, commonData->fgcolor);
epd->fillCircle(p.x, p.y, 3, commonData->fgcolor);
}
}
// Wind speed as decimal number
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(150, 250);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(150, 250);
if (holdvalues == false) {
getdisplay().print(svalue1);
epd->print(svalue1);
} else {
getdisplay().print(svalue1old);
epd->print(svalue1old);
}
// unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(220, 265);
getdisplay().print("kts");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(220, 265);
epd->print("kts");
// Wind pointer (angle)
if (bvalue2->valid or simulation) {
float alpha = RadToDeg(value2);
getdisplay().fillCircle(c.x, c.y, 8, commonData->fgcolor);
epd->fillCircle(c.x, c.y, 8, commonData->fgcolor);
pts = {
{c.x - 1, c.y - (r - 20)},
{c.x + 1, c.y - (r - 20)},
@@ -607,9 +618,9 @@ public:
{c.x - 6, c.y + 15}
};
fillPoly4(rotatePoints(c, pts, alpha), commonData->fgcolor);
getdisplay().fillCircle(c.x, c.y, 6, commonData->bgcolor);
epd->fillCircle(c.x, c.y, 6, commonData->bgcolor);
} else {
getdisplay().setFont(&Ubuntu_Bold12pt8b);
epd->setFont(&Ubuntu_Bold12pt8b);
drawTextCenter(c.x, c.y, "no data");
}

46
lib/obp60task/PageWindPlot.cpp
View File

@@ -6,7 +6,8 @@
#include "OBPcharts.h"
// ****************************************************************
class PageWindPlot : public Page {
class PageWindPlot : public Page
{
private:
GwLog* logger;
@@ -28,8 +29,8 @@ private:
static constexpr bool PRNT_VALUE = true;
static constexpr bool NO_PRNT_VALUE = false;
int width; // Screen width
int height; // Screen height
// int width; // Screen width
// int height; // Screen height
bool keylock = false; // Keylock
ChartMode chrtMode = DIRECTION;
@@ -64,25 +65,18 @@ private:
GwApi::BoatValue* wsBVal = nullptr;
public:
PageWindPlot(CommonData& common)
PageWindPlot(CommonData& common) : Page(common)
{
commonData = &common;
logger = commonData->logger;
LOG_DEBUG(GwLog::LOG, "Instantiate PageWindPlot");
logger->logDebug(GwLog::LOG, "Instantiate PageWindPlot");
width = getdisplay().width(); // Screen width
height = getdisplay().height(); // Screen height
//width = epd->width(); // Screen width
//height = epd->height(); // Screen height
// Get config data
useSimuData = common.config->getBool(common.config->useSimuData);
// holdValues = common.config->getBool(common.config->holdvalues);
flashLED = common.config->getString(common.config->flashLED);
backlightMode = common.config->getString(common.config->backlight);
oldShowTruW = !showTruW; // makes wind source being initialized at initial page call
}
virtual void setupKeys()
void setupKeys()
{
Page::setupKeys();
commonData->keydata[0].label = "MODE";
@@ -95,7 +89,7 @@ public:
}
// Key functions
virtual int handleKey(int key)
int handleKey(int key)
{
// Set chart mode
if (key == 1) {
@@ -106,14 +100,14 @@ public:
} else {
chrtMode = DIRECTION;
}
return 0; // Commit the key
return 0;
}
#if defined BOARD_OBP60S3
// Set data source TRUE | APP
if (key == 2) {
showTruW = !showTruW;
return 0; // Commit the key
return 0;
}
// Set interval for wind history chart update time (interval)
@@ -132,7 +126,7 @@ public:
} else {
dataIntv = 1;
}
return 0; // Commit the key
return 0;
}
// Keylock function
@@ -195,8 +189,8 @@ public:
int displayPage(PageData& pageData)
{
LOG_DEBUG(GwLog::LOG, "Display PageWindPlot");
ulong pageTime = millis();
logger->logDebug(GwLog::LOG, "Display PageWindPlot");
// ulong pageTime = millis();
if (showTruW != oldShowTruW) {
@@ -215,14 +209,14 @@ public:
oldShowTruW = showTruW;
}
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot: draw with data %s: %.2f, %s: %.2f", wdBVal->getName().c_str(), wdBVal->value, wsBVal->getName().c_str(), wsBVal->value);
logger->logDebug(GwLog::DEBUG, "PageWindPlot: draw with data %s: %.2f, %s: %.2f", wdBVal->getName().c_str(), wdBVal->value, wsBVal->getName().c_str(), wsBVal->value);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, width, height); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setPartialWindow(0, 0, epd->width(), epd->height());
epd->setTextColor(commonData->fgcolor);
if (chrtMode == DIRECTION) {
if (wdChart) {
@@ -243,7 +237,7 @@ public:
}
}
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot: page time %ldms", millis() - pageTime);
// logger->logDebug(GwLog::DEBUG, "PageWindPlot: page time %ldms", millis() - pageTime);
return PAGE_UPDATE;
}
};
@@ -266,4 +260,4 @@ PageDescription registerPageWindPlot(
true // Show display header on/off
);
#endif
#endif

412
lib/obp60task/PageWindRose.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -5,16 +6,21 @@
class PageWindRose : public Page
{
int16_t lp = 80; // Pointer length
private:
String lengthformat;
int16_t lp = 80; // Pointer length
public:
PageWindRose(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageWindRose");
PageWindRose(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageWindRose");
// Get config data
String lengthformat = config->getString(config->lengthFormat);
}
// Key functions
virtual int handleKey(int key){
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -23,216 +29,174 @@ public:
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
static String svalue1old = "";
static String unit1old = "";
static String svalue2old = "";
static String unit2old = "";
static String svalue3old = "";
static String unit3old = "";
static String svalue4old = "";
static String unit4old = "";
static String svalue5old = "";
static String unit5old = "";
static String svalue6old = "";
static String unit6old = "";
int displayPage(PageData &pageData) {
// Get config data
String lengthformat = config->getString(config->lengthFormat);
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
// storage for hold values
static FormattedData bvf_awa_old;
static FormattedData bvf_aws_old;
static FormattedData bvf_twd_old;
static FormattedData bvf_tws_old;
static FormattedData bvf_dbt_old;
static FormattedData bvf_stw_old;
// units? why?
// Get boat value for AWA
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (only one value by PageOneValue)
String name1 = xdrDelete(bvalue1->getName()); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
double value1 = bvalue1->value; // Value as double in SI unit
bool valid1 = bvalue1->valid; // Valid information
value1 = formatValue(bvalue1, *commonData).value;// Format only nesaccery for simulation data for pointer
String svalue1 = formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
if(valid1 == true){
svalue1old = svalue1; // Save old value
unit1old = unit1; // Save old unit
GwApi::BoatValue *bv_awa = pageData.values[0]; // First element in list
String name_awa = xdrDelete(bv_awa->getName(), 6); // get name without prefix and limit length
FormattedData bvf_awa = commonData->fmt->formatValue(bv_awa, *commonData);
if (bv_awa->valid) { // Save formatted data for hold feature
bvf_awa_old = bvf_awa;
}
// Get boat value for AWS
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list
String name2 = xdrDelete(bvalue2->getName()); // Value name
name2 = name2.substring(0, 6); // String length limit for value name
double value2 = bvalue2->value; // Value as double in SI unit
bool valid2 = bvalue2->valid; // Valid information
String svalue2 = formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
if(valid2 == true){
svalue2old = svalue2; // Save old value
unit2old = unit2; // Save old unit
GwApi::BoatValue *bv_aws = pageData.values[1]; // Second element in list
String name_aws = xdrDelete(bv_aws->getName(), 6); // get name without prefix and limit length
FormattedData bvf_aws = commonData->fmt->formatValue(bv_aws, *commonData);
if (bv_aws->valid) { // Save formatted data for hold feature
bvf_aws_old = bvf_aws;
}
// Get boat value for TWD
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Third element in list
String name3 = xdrDelete(bvalue3->getName()); // Value name
name3 = name3.substring(0, 6); // String length limit for value name
double value3 = bvalue3->value; // Value as double in SI unit
bool valid3 = bvalue3->valid; // Valid information
String svalue3 = formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = formatValue(bvalue3, *commonData).unit; // Unit of value
if(valid3 == true){
svalue3old = svalue3; // Save old value
unit3old = unit3; // Save old unit
GwApi::BoatValue *bv_twd = pageData.values[2]; // Third element in list
String name_twd = xdrDelete(bv_twd->getName(), 6); // get name without prefix and limit length
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bv_twd, logger); // Check if boat data value is to be calibrated
#endif
FormattedData bvf_twd = commonData->fmt->formatValue(bv_twd, *commonData);
if (bv_twd->valid) { // Save formatted data for hold feature
bvf_twd_old = bvf_twd;
}
// Get boat value for TWS
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Fourth element in list
String name4 = xdrDelete(bvalue4->getName()); // Value name
name4 = name4.substring(0, 6); // String length limit for value name
double value4 = bvalue4->value; // Value as double in SI unit
bool valid4 = bvalue4->valid; // Valid information
String svalue4 = formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = formatValue(bvalue4, *commonData).unit; // Unit of value
if(valid4 == true){
svalue4old = svalue4; // Save old value
unit4old = unit4; // Save old unit
GwApi::BoatValue *bv_tws = pageData.values[3]; // Fourth element in list
String name_tws = xdrDelete(bv_tws->getName(), 6); // get name without prefix and limit length
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bv_tws, logger); // Check if boat data value is to be calibrated
#endif
FormattedData bvf_tws = commonData->fmt->formatValue(bv_tws, *commonData);
if (bv_tws->valid) { // Save formatted data for hold feature
bvf_tws_old = bvf_tws;
}
// Get boat value for DBT
GwApi::BoatValue *bvalue5 = pageData.values[4]; // Fifth element in list
String name5 = xdrDelete(bvalue5->getName()); // Value name
name5 = name5.substring(0, 6); // String length limit for value name
double value5 = bvalue5->value; // Value as double in SI unit
bool valid5 = bvalue5->valid; // Valid information
String svalue5 = formatValue(bvalue5, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit5 = formatValue(bvalue5, *commonData).unit; // Unit of value
if(valid5 == true){
svalue5old = svalue5; // Save old value
unit5old = unit5; // Save old unit
GwApi::BoatValue *bv_dbt = pageData.values[4]; // Fifth element in list
String name_dbt = xdrDelete(bv_dbt->getName(), 6); // get name without prefix and limit length
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bv_dbt, logger); // Check if boat data value is to be calibrated
#endif
FormattedData bvf_dbt = commonData->fmt->formatValue(bv_dbt, *commonData);
if (bv_dbt->valid) { // Save formatted data for hold feature
bvf_dbt_old = bvf_dbt;
}
// Get boat value for STW
GwApi::BoatValue *bvalue6 = pageData.values[5]; // Sixth element in list
String name6 = xdrDelete(bvalue6->getName()); // Value name
name6 = name6.substring(0, 6); // String length limit for value name
double value6 = bvalue6->value; // Value as double in SI unit
bool valid6 = bvalue6->valid; // Valid information
String svalue6 = formatValue(bvalue6, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit6 = formatValue(bvalue6, *commonData).unit; // Unit of value
if(valid6 == true){
svalue6old = svalue6; // Save old value
unit6old = unit6; // Save old unit
GwApi::BoatValue *bv_stw = pageData.values[5]; // Sixth element in list
String name_stw = xdrDelete(bv_stw->getName(), 6); // get name without prefix and limit length
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bv_stw, logger); // Check if boat data value is to be calibrated
#endif
FormattedData bvf_stw = commonData->fmt->formatValue(bv_stw, *commonData);
if (bv_stw->valid) { // Save formatted data for hold feature
bvf_stw_old = bvf_stw;
}
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageWindRose, %s:%f, %s:%f, %s:%f, %s:%f, %s:%f, %s:%f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4, name5.c_str(), value5, name6.c_str(), value6);
// Log boat values
logger->logDebug(GwLog::LOG, "Drawing at PageWindRose, %s:%f, %s:%f, %s:%f, %s:%f, %s:%f, %s:%f",
name_awa.c_str(), bv_awa->value,
name_aws.c_str(), bv_aws->value,
name_twd.c_str(), bv_twd->value,
name_tws.c_str(), bv_tws->value,
name_dbt.c_str(), bv_dbt->value,
name_stw.c_str(), bv_stw->value);
// Draw page
//***********************************************************
// *********************************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height());
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// Show values AWA
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 65);
getdisplay().print(svalue1); // Value
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(10, 95);
getdisplay().print(name1); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 115);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit1); // Unit
}
else{
getdisplay().print(unit1old); // Unit
}
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 65);
epd->print(holdvalues ? bvf_awa_old.value : bvf_awa.value);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 95);
epd->print(name_awa);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 115);
epd->print(" ");
epd->print(holdvalues ? bvf_awa_old.unit : bvf_awa.unit);
// Horizintal separator left
getdisplay().fillRect(0, 149, 60, 3, commonData->fgcolor);
epd->fillRect(0, 149, 60, 3, commonData->fgcolor);
// Show values AWS
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 270);
getdisplay().print(svalue2); // Value
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(10, 220);
getdisplay().print(name2); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 190);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit2); // Unit
}
else{
getdisplay().print(unit2old); // Unit
}
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 270);
epd->print(holdvalues ? bvf_aws_old.value : bvf_aws.value);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 220);
epd->print(name_aws);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 190);
epd->print(" ");
epd->print(holdvalues ? bvf_aws_old.unit : bvf_aws.unit);
// Show values TWD
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(295, 65);
if(valid3 == true){
getdisplay().print(abs(value3 * 180 / PI), 0); // Value
// Show value TWD
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(295, 65);
// TODO WTF? Der Formatter sollte das korrekt machen
if (bv_twd->valid) {
epd->print(abs(bv_twd->value * 180 / PI), 0); // Value
}
else{
getdisplay().print("---"); // Value
}
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(335, 95);
getdisplay().print(name3); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(335, 115);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit3); // Unit
}
else{
getdisplay().print(unit3old); // Unit
else {
epd->print(commonData->fmt->placeholder);
}
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 95);
epd->print(name_twd); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 115);
epd->print(" ");
epd->print(holdvalues ? bvf_twd_old.unit : bvf_twd.unit);
// Horizintal separator right
getdisplay().fillRect(340, 149, 80, 3, commonData->fgcolor);
epd->fillRect(340, 149, 80, 3, commonData->fgcolor);
// Show values TWS
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(295, 270);
getdisplay().print(svalue4); // Value
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(335, 220);
getdisplay().print(name4); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(335, 190);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit4); // Unit
}
else{
getdisplay().print(unit4old); // Unit
}
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(295, 270);
epd->print(name_tws);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 220);
epd->print(holdvalues ? bvf_tws_old.value : bvf_tws.value);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 190);
epd->print(" ");
epd->print(holdvalues ? bvf_tws_old.unit : bvf_tws.unit);
//*******************************************************************************************
// *********************************************************************
// Draw wind rose
int rInstrument = 110; // Radius of grafic instrument
float pi = 3.141592;
getdisplay().fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
getdisplay().fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
getdisplay().fillCircle(200, 150, rInstrument - 10, commonData->fgcolor); // Inner circle
getdisplay().fillCircle(200, 150, rInstrument - 13, commonData->bgcolor); // Inner circle
epd->fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
epd->fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
epd->fillCircle(200, 150, rInstrument - 10, commonData->fgcolor); // Inner circle
epd->fillCircle(200, 150, rInstrument - 13, commonData->bgcolor); // Inner circle
for(int i=0; i<360; i=i+10)
{
@@ -240,37 +204,36 @@ public:
float x = 200 + (rInstrument-30)*sin(i/180.0*pi); // x-coordinate dots
float y = 150 - (rInstrument-30)*cos(i/180.0*pi); // y-coordinate cots
const char *ii = "";
switch (i)
{
case 0: ii="0"; break;
case 30 : ii="30"; break;
case 60 : ii="60"; break;
case 90 : ii="90"; break;
case 120 : ii="120"; break;
case 150 : ii="150"; break;
case 180 : ii="180"; break;
case 210 : ii="210"; break;
case 240 : ii="240"; break;
case 270 : ii="270"; break;
case 300 : ii="300"; break;
case 330 : ii="330"; break;
default: break;
switch (i) {
case 0: ii="0"; break;
case 30 : ii="30"; break;
case 60 : ii="60"; break;
case 90 : ii="90"; break;
case 120 : ii="120"; break;
case 150 : ii="150"; break;
case 180 : ii="180"; break;
case 210 : ii="210"; break;
case 240 : ii="240"; break;
case 270 : ii="270"; break;
case 300 : ii="300"; break;
case 330 : ii="330"; break;
default: break;
}
// Print text centered on position x, y
int16_t x1, y1; // Return values of getTextBounds
uint16_t w, h; // Return values of getTextBounds
getdisplay().getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
getdisplay().setCursor(x-w/2, y+h/2);
if(i % 30 == 0){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().print(ii);
epd->getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
epd->setCursor(x-w/2, y+h/2);
if (i % 30 == 0) {
epd->setFont(&Ubuntu_Bold8pt8b); // TODO move out of loop
epd->print(ii);
}
// Draw sub scale with dots
float x1c = 200 + rInstrument*sin(i/180.0*pi);
float y1c = 150 - rInstrument*cos(i/180.0*pi);
getdisplay().fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
epd->fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
float sinx=sin(i/180.0*pi);
float cosx=cos(i/180.0*pi);
@@ -281,10 +244,10 @@ public:
float xx2 = +dx;
float yy1 = -(rInstrument-10);
float yy2 = -(rInstrument+10);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),commonData->fgcolor);
getdisplay().fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),
200+(int)(cosx*xx2-sinx*yy2),150+(int)(sinx*xx2+cosx*yy2),commonData->fgcolor);
}
@@ -292,16 +255,16 @@ public:
// Draw wind pointer
float startwidth = 8; // Start width of pointer
if(valid2 == true || holdvalues == true || simulation == true){
float sinx=sin(value1); // Wind direction
float cosx=cos(value1);
if (bv_aws->valid || holdvalues || simulation) {
float sinx = sin(bv_awa->value); // Wind direction
float cosx = cos(bv_awa->value);
// Normal pointer
// Pointer as triangle with center base 2*width
float xx1 = -startwidth;
float xx2 = startwidth;
float yy1 = -startwidth;
float yy2 = -(rInstrument-15);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2),commonData->fgcolor);
// Inverted pointer
@@ -311,47 +274,42 @@ public:
float ix2 = -endwidth;
float iy1 = -(rInstrument-15);
float iy2 = -endwidth;
getdisplay().fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
epd->fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
200+(int)(cosx*ix2-sinx*iy1),150+(int)(sinx*ix2+cosx*iy1),
200+(int)(cosx*0-sinx*iy2),150+(int)(sinx*0+cosx*iy2),commonData->fgcolor);
}
// Center circle
getdisplay().fillCircle(200, 150, startwidth + 6, commonData->bgcolor);
getdisplay().fillCircle(200, 150, startwidth + 4, commonData->fgcolor);
epd->fillCircle(200, 150, startwidth + 6, commonData->bgcolor);
epd->fillCircle(200, 150, startwidth + 4, commonData->fgcolor);
//*******************************************************************************************
// *********************************************************************
// Show values DBT
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
getdisplay().setCursor(160, 200);
getdisplay().print(svalue5); // Value
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(190, 215);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit5); // Unit
}
else{
getdisplay().print(unit5old); // Unit
}
// Show value DBT
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setCursor(160, 200);
epd->print(holdvalues ? bvf_dbt_old.value : bvf_dbt.value);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(190, 215);
epd->print(" ");
epd->print(holdvalues ? bvf_dbt_old.unit : bvf_dbt.unit);
// Show values STW
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
getdisplay().setCursor(160, 130);
getdisplay().print(svalue6); // Value
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(190, 90);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit6); // Unit
}
else{
getdisplay().print(unit6old); // Unit
}
// Show value STW
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setCursor(160, 130);
epd->print(holdvalues ? bvf_stw_old.value : bvf_stw.value);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(190, 90);
epd->print(" ");
epd->print(holdvalues ? bvf_stw_old.unit : bvf_stw.unit);
return PAGE_UPDATE;
};
void leavePage(PageData &pageData) {
logger->logDebug(GwLog::LOG, "Leaving PageWindRose");
}
};
static Page *createPage(CommonData &common){

383
lib/obp60task/PageWindRoseFlex.cpp
View File

@@ -1,35 +1,37 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
#ifdef ENABLE_CALIBRATION
#include "BoatDataCalibration.h"
#endif
class PageWindRoseFlex : public Page
{
int16_t lp = 80; // Pointer length
char source = 'A'; // data source (A)pparent | (T)rue
private:
String lengthformat;
int16_t lp = 80; // Pointer length
char source = 'A'; // data source (A)pparent | (T)rue
String ssource="App."; // String for Data Source
public:
PageWindRoseFlex(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageWindRoseFlex");
PageWindRoseFlex(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageWindRoseFlex");
// Get config data
lengthformat = config->getString(config->lengthFormat);
}
virtual void setupKeys(){
void setupKeys() {
Page::setupKeys();
commonData->keydata[1].label = "SRC";
}
// Key functions
virtual int handleKey(int key){
if(key == 2){
// Code for set source
if(source == 'A'){
source = 'T';
} else {
source = 'A';
}
}
return key; // Commit the key
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -38,9 +40,17 @@ public:
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
static String svalue1old = "";
static String unit1old = "";
@@ -54,18 +64,6 @@ public:
static String unit5old = "";
static String svalue6old = "";
static String unit6old = "";
static GFXfont name3font;
static GFXfont name4font;
static GFXfont name5font;
static GFXfont name6font;
// Get config data
String lengthformat = config->getString(config->lengthFormat);
bool simulation = config->getBool(config->useSimuData);
bool holdvalues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
GwApi::BoatValue *bvalue1; // Value 1 for angle
GwApi::BoatValue *bvalue2; // Value 2 for speed
@@ -78,11 +76,14 @@ public:
}
String name1 = bvalue1->getName().c_str(); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue1, logger); // Check if boat data value is to be calibrated
#endif
double value1 = bvalue1->value; // Value as double in SI unit
bool valid1 = bvalue1->valid; // Valid information
String svalue1 = formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
if(valid1 == true){
String svalue1 = commonData->fmt->formatValue(bvalue1, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit1 = commonData->fmt->formatValue(bvalue1, *commonData).unit; // Unit of value
if (valid1 == true) {
svalue1old = svalue1; // Save old value
unit1old = unit1; // Save old unit
}
@@ -95,199 +96,167 @@ public:
}
String name2 = bvalue2->getName().c_str(); // Value name
name2 = name2.substring(0, 6); // String length limit for value name
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue2, logger); // Check if boat data value is to be calibrated
#endif
double value2 = bvalue2->value; // Value as double in SI unit
bool valid2 = bvalue2->valid; // Valid information
if (simulation) {
value2 = 0.62731; // some random value
}
String svalue2 = formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
if(valid2 == true){
String svalue2 = commonData->fmt->formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit2 = commonData->fmt->formatValue(bvalue2, *commonData).unit; // Unit of value
if (valid2 == true) {
svalue2old = svalue2; // Save old value
unit2old = unit2; // Save old unit
}
// Get boat value for bottom left corner
GwApi::BoatValue *bvalue3 = pageData.values[0];
// Get boat value for bottom left corner
GwApi::BoatValue *bvalue3 = pageData.values[0];
String name3 = xdrDelete(bvalue3->getName()); // Value name
name3 = name3.substring(0, 6); // String length limit for value name
if (name3.length()>3){
name3font=Ubuntu_Bold8pt8b;
}
else{
name3font=Ubuntu_Bold12pt8b;
}
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue3, logger); // Check if boat data value is to be calibrated
#endif
double value3 = bvalue3->value; // Value as double in SI unit
bool valid3 = bvalue3->valid; // Valid information
String svalue3 = formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = formatValue(bvalue3, *commonData).unit; // Unit of value
bool valid3 = bvalue3->valid; // Valid information
String svalue3 = commonData->fmt->formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit3 = commonData->fmt->formatValue(bvalue3, *commonData).unit; // Unit of value
if(valid3 == true){
svalue3old = svalue3; // Save old value
unit3old = unit3; // Save old unit
}
// Get boat value for top right corner
GwApi::BoatValue *bvalue4 = pageData.values[1];
String name4 = xdrDelete(bvalue4->getName()); // Value name
// Get boat value for top right corner
GwApi::BoatValue *bvalue4 = pageData.values[1];
String name4 = xdrDelete(bvalue4->getName()); // Value name
name4 = name4.substring(0, 6); // String length limit for value name
if (name4.length()>3){
name4font=Ubuntu_Bold8pt8b;
}
else{
name4font=Ubuntu_Bold12pt8b;
}
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue4, logger); // Check if boat data value is to be calibrated
#endif
double value4 = bvalue4->value; // Value as double in SI unit
bool valid4 = bvalue4->valid; // Valid information
String svalue4 = formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = formatValue(bvalue4, *commonData).unit; // Unit of value
bool valid4 = bvalue4->valid; // Valid information
String svalue4 = commonData->fmt->formatValue(bvalue4, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit4 = commonData->fmt->formatValue(bvalue4, *commonData).unit; // Unit of value
if(valid4 == true){
svalue4old = svalue4; // Save old value
unit4old = unit4; // Save old unit
}
// Get boat value bottom right corner
GwApi::BoatValue *bvalue5 = pageData.values[2];
String name5 = xdrDelete(bvalue5->getName()); // Value name
// Get boat value for bottom right corner
GwApi::BoatValue *bvalue5 = pageData.values[2];
String name5 = xdrDelete(bvalue5->getName()); // Value name
name5 = name5.substring(0, 6); // String length limit for value name
if (name5.length()>3){
name5font=Ubuntu_Bold8pt8b;
}
else{
name5font=Ubuntu_Bold12pt8b;
}
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue5, logger); // Check if boat data value is to be calibrated
#endif
double value5 = bvalue5->value; // Value as double in SI unit
bool valid5 = bvalue5->valid; // Valid information
String svalue5 = formatValue(bvalue5, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit5 = formatValue(bvalue5, *commonData).unit; // Unit of value
bool valid5 = bvalue5->valid; // Valid information
String svalue5 = commonData->fmt->formatValue(bvalue5, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit5 = commonData->fmt->formatValue(bvalue5, *commonData).unit; // Unit of value
if(valid5 == true){
svalue5old = svalue5; // Save old value
unit5old = unit5; // Save old unit
}
// Get boat value for center (name is not displayed)
GwApi::BoatValue *bvalue6 = pageData.values[3];
String name6 = xdrDelete(bvalue6->getName()); // Value name
// Get boat value for center
GwApi::BoatValue *bvalue6 = pageData.values[3];
String name6 = xdrDelete(bvalue6->getName()); // Value name
name6 = name6.substring(0, 6); // String length limit for value name
if (name6.length()>3){
name6font=Ubuntu_Bold8pt8b;
}
else{
name6font=Ubuntu_Bold8pt8b;
}
#ifdef ENABLE_CALIBRATION
calibrationData.calibrateInstance(bvalue6, logger); // Check if boat data value is to be calibrated
#endif
double value6 = bvalue6->value; // Value as double in SI unit
bool valid6 = bvalue6->valid; // Valid information
String svalue6 = formatValue(bvalue6, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit6 = formatValue(bvalue6, *commonData).unit; // Unit of value
bool valid6 = bvalue6->valid; // Valid information
String svalue6 = commonData->fmt->formatValue(bvalue6, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
String unit6 = commonData->fmt->formatValue(bvalue6, *commonData).unit; // Unit of value
if(valid6 == true){
svalue6old = svalue6; // Save old value
unit6old = unit6; // Save old unit
}
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageWindRoseFlex, %s:%f, %s:%f, %s:%f, %s:%f, %s:%f, %s:%f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4, name5.c_str(), value5, name6.c_str(), value6);
logger->logDebug(GwLog::LOG, "Drawing at PageWindRoseFlex, %s:%f, %s:%f, %s:%f, %s:%f, %s:%f, %s:%f", name1.c_str(), value1, name2.c_str(), value2, name3.c_str(), value3, name4.c_str(), value4, name5.c_str(), value5, name6.c_str(), value6);
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// Show AWS or TWS top left
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 65);
getdisplay().print(svalue2); // Value
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(10, 95);
getdisplay().print(name2); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 115);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit2); // Unit
}
else{
getdisplay().print(unit2old); // Unit
}
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 65);
epd->print(svalue2); // Value
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 95);
epd->print(name2); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 115);
epd->print(" ");
epd->print(holdvalues ? unit2old : unit2);
// Horizintal separator left
getdisplay().fillRect(0, 149, 60, 3, commonData->fgcolor);
epd->fillRect(0, 149, 60, 3, commonData->fgcolor);
// Show value 3 (=first user-configured parameter) at bottom left
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(10, 270);
getdisplay().print(svalue3); // Value
getdisplay().setFont(&name3font);
getdisplay().setCursor(10, 220);
getdisplay().print(name3); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 190);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit3); // Unit
}
else{
getdisplay().print(unit3old); // Unit
}
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 270);
epd->print(svalue3); // Value
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 220);
epd->print(name3); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 190);
epd->print(" ");
epd->print(holdvalues ? unit3old : unit3);
// Show value 4 (=second user-configured parameter) at top right
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(295, 65);
getdisplay().print(svalue4); // Value
getdisplay().setFont(&name4font);
getdisplay().setCursor(325, 95);
getdisplay().print(name4); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(325, 115);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit4); // Unit
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(295, 65);
if(valid3 == true){
epd->print(svalue4); // Value
}
else{
getdisplay().print(unit4old); // Unit
epd->print(commonData->fmt->placeholder);
}
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 95);
epd->print(name4); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 115);
epd->print(" ");
epd->print(holdvalues ? unit4old : unit4);
// Horizintal separator right
getdisplay().fillRect(340, 149, 80, 3, commonData->fgcolor);
epd->fillRect(340, 149, 80, 3, commonData->fgcolor);
// Show value 5 (=third user-configured parameter) at bottom right
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(295, 270);
getdisplay().print(svalue5); // Value
getdisplay().setFont(&name5font);
getdisplay().setCursor(325, 220);
getdisplay().print(name5); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(325, 190);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit5); // Unit
}
else{
getdisplay().print(unit5old); // Unit
}
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(295, 270);
epd->print(svalue5); // Value
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 220);
epd->print(name5); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 190);
epd->print(" ");
epd->print(holdvalues ? unit5old : unit5);
//*******************************************************************************************
// Draw wind rose
int rInstrument = 110; // Radius of grafic instrument
getdisplay().fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
getdisplay().fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
getdisplay().fillCircle(200, 150, rInstrument - 10, commonData->fgcolor); // Inner circle
getdisplay().fillCircle(200, 150, rInstrument - 13, commonData->bgcolor); // Inner circle
epd->fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
epd->fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
epd->fillCircle(200, 150, rInstrument - 10, commonData->fgcolor); // Inner circle
epd->fillCircle(200, 150, rInstrument - 13, commonData->bgcolor); // Inner circle
for(int i=0; i<360; i=i+10)
{
@@ -314,17 +283,17 @@ public:
// Print text centered on position x, y
int16_t x1, y1; // Return values of getTextBounds
uint16_t w, h; // Return values of getTextBounds
getdisplay().getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
getdisplay().setCursor(x-w/2, y+h/2);
epd->getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string
epd->setCursor(x-w/2, y+h/2);
if(i % 30 == 0){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().print(ii);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->print(ii);
}
// Draw sub scale with dots
float x1c = 200 + rInstrument*sin(i/180.0*M_PI);
float y1c = 150 - rInstrument*cos(i/180.0*M_PI);
getdisplay().fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
epd->fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor);
float sinx=sin(i/180.0*M_PI);
float cosx=cos(i/180.0*M_PI);
@@ -335,10 +304,10 @@ public:
float xx2 = +dx;
float yy1 = -(rInstrument-10);
float yy2 = -(rInstrument+10);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),commonData->fgcolor);
getdisplay().fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),
200+(int)(cosx*xx2-sinx*yy2),150+(int)(sinx*xx2+cosx*yy2),commonData->fgcolor);
}
@@ -355,7 +324,7 @@ public:
float xx2 = startwidth;
float yy1 = -startwidth;
float yy2 = -(rInstrument-15);
getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
epd->fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1),
200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1),
200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2),commonData->fgcolor);
// Inverted pointer
@@ -365,58 +334,50 @@ public:
float ix2 = -endwidth;
float iy1 = -(rInstrument-15);
float iy2 = -endwidth;
getdisplay().fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
epd->fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1),
200+(int)(cosx*ix2-sinx*iy1),150+(int)(sinx*ix2+cosx*iy1),
200+(int)(cosx*0-sinx*iy2),150+(int)(sinx*0+cosx*iy2),commonData->fgcolor);
}
// Center circle
getdisplay().fillCircle(200, 150, startwidth + 8, commonData->bgcolor);
getdisplay().fillCircle(200, 150, startwidth + 6, commonData->fgcolor);
getdisplay().fillCircle(200, 150, startwidth + 4, commonData->bgcolor);
getdisplay().setFont(&Ubuntu_Bold10pt8b);
if (source=='A'){
getdisplay().setCursor(193, 155);
}
else {
getdisplay().setCursor(195, 156);
}
getdisplay().print({source});
epd->fillCircle(200, 150, startwidth + 6, commonData->bgcolor);
epd->fillCircle(200, 150, startwidth + 4, commonData->fgcolor);
//*******************************************************************************************
// Show value6 (=fourth user-configured parameter)
if ( cos(value1) > 0){
//pointer points upwards
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
getdisplay().setCursor(160, 200);
getdisplay().print(svalue6); // Value
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(190, 215);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit6); // Unit
// Show value6 (=fourth user-configured parameter) and ssource, so that they do not collide with the wind pointer
if (cos(value1) > 0) {
// pointer points upwards
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setCursor(160, 200);
epd->print(svalue6); // Value
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(190, 215);
epd->print(" ");
epd->print(holdvalues ? unit6old : unit6);
if (sin(value1) > 0) {
epd->setCursor(160, 130);
} else {
epd->setCursor(220, 130);
}
epd->print(ssource); // true or app.
}
else{
getdisplay().print(unit6old); // Unit
else {
// pointer points downwards
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setCursor(160, 130);
epd->print(svalue6);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(190, 90);
epd->print(" ");
epd->print(holdvalues ? unit6old : unit6);
if (sin(value1) > 0) {
epd->setCursor(160, 200);
} else {
epd->setCursor(220, 200);
}
epd->print(ssource); //true or app.
}
}
else{
// pointer points downwards
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
getdisplay().setCursor(160, 130);
getdisplay().print(svalue6); // Value
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(190, 90);
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit6); // Unit
}
else{
getdisplay().print(unit6old); // Unit
}
}
return PAGE_UPDATE;
};

129
lib/obp60task/PageXTETrack.cpp
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
@@ -28,15 +29,18 @@ static unsigned char ship_bits[] PROGMEM = {
class PageXTETrack : public Page
{
bool simulation = false;
bool holdvalues = false;
private:
String trackStep;
double seg_step;
public:
PageXTETrack(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageXTETrack");
simulation = common.config->getBool(common.config->useSimuData);
holdvalues = common.config->getBool(common.config->holdvalues);
public:
PageXTETrack(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageXTETrack");
// Get config data
String trackStep = config->getString(config->trackStep);
seg_step = trackStep.toDouble() * M_PI / 180;
}
void drawSegment(uint16_t x0, uint16_t y0, uint16_t x1, uint16_t y1,
@@ -45,18 +49,18 @@ class PageXTETrack : public Page
if (fill == true) {
// no primitive for quadrangular object
// we create it from 2 triangles
getdisplay().fillTriangle(x0, y0, x1, y1, x3, y3, color);
getdisplay().fillTriangle(x1, y1, x2, y2, x3, y3, color);
epd->fillTriangle(x0, y0, x1, y1, x3, y3, color);
epd->fillTriangle(x1, y1, x2, y2, x3, y3, color);
} else {
// draw outline
getdisplay().drawLine(x0, y0, x1, y1, color);
getdisplay().drawLine(x1, y1, x2, y2, color);
getdisplay().drawLine(x2, y2, x3, y3, color);
getdisplay().drawLine(x3, y3, x0, y0, color);
epd->drawLine(x0, y0, x1, y1, color);
epd->drawLine(x1, y1, x2, y2, color);
epd->drawLine(x2, y2, x3, y3, color);
epd->drawLine(x3, y3, x0, y0, color);
}
}
virtual int handleKey(int key){
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -65,96 +69,93 @@ class PageXTETrack : public Page
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Get config data
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
String trackStep = config->getString(config->trackStep);
double seg_step = trackStep.toFloat() * PI / 180;
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
#endif
};
int displayPage(PageData &pageData) {
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageXTETrack");
logger->logDebug(GwLog::LOG, "Drawing at PageXTETrack");
// Draw page
//***********************************************************
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
epd->setTextColor(commonData->fgcolor);
// descriptions
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(50, 188);
getdisplay().print("Cross-track error");
getdisplay().setCursor(270, 188);
getdisplay().print("Track");
getdisplay().setCursor(45, 275);
getdisplay().print("Distance to waypoint");
getdisplay().setCursor(260, 275);
getdisplay().print("Bearing");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(50, 188);
epd->print("Cross-track error");
epd->setCursor(270, 188);
epd->print("Track");
epd->setCursor(45, 275);
epd->print("Distance to waypoint");
epd->setCursor(260, 275);
epd->print("Bearing");
// values
getdisplay().setFont(&DSEG7Classic_BoldItalic30pt7b);
epd->setFont(&DSEG7Classic_BoldItalic30pt7b);
int16_t x, y;
uint16_t w, h;
GwApi::BoatValue *bv_xte = pageData.values[0]; // XTE
String sval_xte = formatValue(bv_xte, *commonData).svalue;
getdisplay().getTextBounds(sval_xte, 0, 0, &x, &y, &w, &h);
getdisplay().setCursor(160-w, 170);
getdisplay().print(sval_xte);
String sval_xte = commonData->fmt->formatValue(bv_xte, *commonData).svalue;
epd->getTextBounds(sval_xte, 0, 0, &x, &y, &w, &h);
epd->setCursor(160-w, 170);
epd->print(sval_xte);
GwApi::BoatValue *bv_cog = pageData.values[1]; // COG
String sval_cog = formatValue(bv_cog, *commonData).svalue;
getdisplay().getTextBounds(sval_cog, 0, 0, &x, &y, &w, &h);
getdisplay().setCursor(360-w, 170);
getdisplay().print(sval_cog);
String sval_cog = commonData->fmt->formatValue(bv_cog, *commonData).svalue;
epd->getTextBounds(sval_cog, 0, 0, &x, &y, &w, &h);
epd->setCursor(360-w, 170);
epd->print(sval_cog);
GwApi::BoatValue *bv_dtw = pageData.values[2]; // DTW
String sval_dtw = formatValue(bv_dtw, *commonData).svalue;
getdisplay().getTextBounds(sval_dtw, 0, 0, &x, &y, &w, &h);
getdisplay().setCursor(160-w, 257);
getdisplay().print(sval_dtw);
String sval_dtw = commonData->fmt->formatValue(bv_dtw, *commonData).svalue;
epd->getTextBounds(sval_dtw, 0, 0, &x, &y, &w, &h);
epd->setCursor(160-w, 257);
epd->print(sval_dtw);
GwApi::BoatValue *bv_btw = pageData.values[3]; // BTW
String sval_btw = formatValue(bv_btw, *commonData).svalue;
getdisplay().getTextBounds(sval_btw, 0, 0, &x, &y, &w, &h);
getdisplay().setCursor(360-w, 257);
getdisplay().print(sval_btw);
String sval_btw = commonData->fmt->formatValue(bv_btw, *commonData).svalue;
epd->getTextBounds(sval_btw, 0, 0, &x, &y, &w, &h);
epd->setCursor(360-w, 257);
epd->print(sval_btw);
GwApi::BoatValue *bv_wpname = pageData.values[4]; // WPName
bool valid = bv_cog->valid && bv_btw->valid;
// XTETrack view
// draw ship symbol (as bitmap)
getdisplay().drawXBitmap(184, 68, ship_bits, ship_width, ship_height, commonData->fgcolor);
epd->drawXBitmap(184, 68, ship_bits, ship_width, ship_height, commonData->fgcolor);
// draw next waypoint name
String sval_wpname = "no data";
if (valid) {
sval_wpname = "Tonne 122";
sval_wpname = bv_wpname->svalue;
}
getdisplay().setFont(&Ubuntu_Bold10pt8b);
getdisplay().getTextBounds(sval_wpname, 0, 150, &x, &y, &w, &h);
epd->setFont(&Ubuntu_Bold10pt8b);
epd->getTextBounds(sval_wpname, 0, 150, &x, &y, &w, &h);
// TODO if text don't fix use smaller font size.
// if smallest size does not fit use 2 lines
// last resort: clip with ellipsis
getdisplay().setCursor(200 - w / 2, 60);
getdisplay().print(sval_wpname);
epd->setCursor(200 - w / 2, 60);
epd->print(sval_wpname);
// draw course segments
@@ -226,7 +227,7 @@ PageDescription registerPageXTETrack(
"XTETrack", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"XTE", "COG", "DTW", "BTW"}, // Bus values we need in the page
{"XTE", "COG", "DTW", "BTW", "WPName"}, // Bus values we need in the page
true // Show display header on/off
);

55
lib/obp60task/Pagedata.h
View File

@@ -1,9 +1,12 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#pragma once
#include <Arduino.h>
#include "GwApi.h"
#include <functional>
#include <vector>
#include "LedSpiTask.h"
// #include "OBPDataOperations.h"
#define MAX_PAGE_NUMBER 10 // Max number of pages for show data
@@ -51,7 +54,7 @@ typedef struct{
double rotationAngle = 0; // Rotation angle in radiant
bool validRotAngle = false; // Valid flag magnet present for rotation sensor
struct tm rtcTime; // UTC time from internal RTC
bool rtcValid = false; // Internal RTC chip
bool rtcValid = false;
int sunsetHour = 0;
int sunsetMinute = 0;
int sunriseHour = 0;
@@ -99,15 +102,22 @@ typedef struct{
uint8_t length_sec; // seconds until alarm disappeares without user interaction
} AlarmData;
typedef struct{
int voltage = 0;
} AvgData;
class Formatter; // forward declaration
typedef struct{
GwApi::Status status;
GwLog *logger = nullptr;
GwConfigHandler *config = nullptr;
Formatter *fmt = nullptr;
SensorData data;
SunData sundata;
TouchKeyData keydata[6];
BacklightData backlight;
AlarmData alarm;
AvgData avgdata;
GwApi::BoatValue *time = nullptr;
GwApi::BoatValue *date = nullptr;
uint16_t fgcolor;
@@ -118,9 +128,26 @@ typedef struct{
//a base class that all pages must inherit from
class Page{
protected:
protected:
// TODO Future: GwApi *api;
CommonData *commonData;
public:
GwConfigHandler *config;
GwLog *logger;
bool simulation = false;
bool holdvalues = false;
String flashLED;
String backlightMode;
public:
Page(CommonData &common) {
commonData = &common;
config = commonData->config;
logger = commonData->logger;
// preload generic configuration data
simulation = config->getBool(config->useSimuData);
holdvalues = config->getBool(config->holdvalues);
flashLED = config->getString(config->flashLED);
backlightMode = config->getString(config->backlight);
}
int refreshtime = 1000;
virtual int displayPage(PageData &pageData)=0;
virtual void displayNew(PageData &pageData){}
@@ -187,25 +214,3 @@ class PageStruct{
PageData parameters;
PageDescription *description = nullptr;
};
// Standard format functions without overhead
String formatDate(String fmttype, uint16_t year, uint8_t month, uint8_t day);
String formatTime(char fmttype, uint8_t hour, uint8_t minute, uint8_t second);
String formatLatitude(double lat);
String formatLongitude(double lon);
// Structure for formatted boat values
typedef struct{
double value; // SI value of boat data value
double cvalue; // value converted to target unit
String svalue; // value converted to target unit and formatted
String unit; // target value unit
} FormattedData;
// Formatter for boat values
FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata);
FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata, bool ignoreSimuDataSetting);
// Helper method for conversion of any data value from SI to user defined format (defined in OBP60Formatter)
double convertValue(const double &value, const String &format, CommonData &commondata);
double convertValue(const double &value, const String &name, const String &format, CommonData &commondata);

97
lib/obp60task/README Normal file
View File

@@ -0,0 +1,97 @@
Development information
=======================
This file contains some hints concerning building the firmware as well as
developing and debugging it.
Coding style
------------
WIP
Please format your new code the same as already existing code.
Some rules:
- Preprocessor directives go to column zero
- Identation is 4 spaces
Git commands
------------
Some useful commands are
git status
git fetch upstream
git diff --name-status upstream/master
git checkout upstream/master platformio.ini
# how to reset my Repo to match norbert's status
git remote add upstream https://github.com/norbert-walter/esp32-nmea2000-obp60
git fetch upstream
git checkout master
git reset --hard upstream/master
git push origin master --force
New pages
---------
To create a new page for OBP60 the following steps are necessary:
1. Create a page under /lib/obp60task/PageXXXX.cpp. You can use a simple
page e.g. PageOneValue.cpp as template
2. Set page name in PageXXXX.cpp on file name
3. Register new page in /lib/obp60task/obp60task.cpp in function
'registerAllPages'
4. Add new page in /lib/obp60task/config.json for each page type
or use gen_set.py to auto-generate the relevant section of
config.json. For further information on that read the comments
in gen_set.py.
5. Copy the changes in config.json to config_obp40.json and rename
strings accordingly. E.g. obp60 to obp40.
Using Gitpod
------------
Warning: You have to register with gitpod!
Open web page:
https://gitpod.io/#https://github.com/norbert-walter/esp32-nmea2000-obp60/tree/master/lib/obp60task
Input in terminal:
cd /workspace/esp32-nmea2000-obp60
bash /workspace/esp32-nmea2000-obp60/lib/obp60task/run_installing_tools
bash /workspace/esp32-nmea2000-obp60/lib/obp60task/run_obp60_s3
bash /workspace/esp32-nmea2000-obp60/lib/obp60task/run_obp40_s3
Compile result for OBP60:
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/bootloader.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/firmware.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/partitions.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/obp60_s3-all.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/obp60_s3-dev<yyyymmdd>-all.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/obp60_s3-dev<yyyymmdd>-update.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/obp60_s3-all.bin, ready to flash to offset 0x0000
Compile result for OBP40 (CrowPanel 4.2):
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/bootloader.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/firmware.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/partitions.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/obp40_s3-all.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/obp40_s3-dev<yyyymmdd>-all.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/obp40_s3-dev<yyyymmdd>-update.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/obp40_s3-all.bin, ready to flash to offset 0x0000
Compilation issues
------------------
? Error while linking: "undefined reference to `registerPageXXX'"
: Check if the required page is enabled for current board/environment: #if defined ...
Debugging tool
--------------
log.txt = text file with error messages from terminal console
tools/decoder.py -p ESP32S3 -t ~/.platformio/packages/toolchain-xtensa-esp32s3/ -e .pio/build/obp60_s3/firmware.elf log.txt

19
lib/obp60task/TODO Normal file
View File

@@ -0,0 +1,19 @@
- fix unstable accesspoint availability
- page refresh after page change and not connected to key codes
- config: getFloat, getDouble
- dseg7 font to new version
- new pages: ais, autopilot, epropulsion
- automate config.json generation with extra_task.py
- extend boatdata: ais, waypoints, alarms
- page clock: sunrise / sunset in local time or UTC
- implement alerts
- implement formatter as class

38
lib/obp60task/Using_Gitpod.txt
View File

@@ -1,38 +0,0 @@
Using Gitpod
############
Open web page:
https://gitpod.io/#https://github.com/norbert-walter/esp32-nmea2000-obp60/tree/master/lib/obp60task
Input in terminal:
cd /workspace/esp32-nmea2000-obp60
bash /workspace/esp32-nmea2000-obp60/lib/obp60task/run_installing_tools
bash /workspace/esp32-nmea2000-obp60/lib/obp60task/run_obp60_s3
bash /workspace/esp32-nmea2000-obp60/lib/obp60task/run_obp40_s3
Compile result for OBP60
########################
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/bootloader.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/firmware.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/partitions.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/obp60_s3-all.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/obp60_s3-dev20231220-all.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/obp60_s3-dev20231220-update.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp60_s3/obp60_s3-all.bin, ready to flash to offset 0x0000
Compile result for OBP40 (CrowPanel 4.2)
########################################
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/bootloader.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/firmware.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/partitions.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/obp40_s3-all.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/obp40_s3-dev20231220-all.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/obp40_s3-dev20231220-update.bin
/workspace/esp32-nmea2000-obp60/.pio/build/obp40_s3/obp40_s3-all.bin, ready to flash to offset 0x0000

906
lib/obp60task/config_obp40.json
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File diff suppressed because it is too large Load Diff

858
lib/obp60task/config_obp60.json
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File diff suppressed because it is too large Load Diff

6
lib/obp60task/debugging.txt
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@@ -1,6 +0,0 @@
Debugging tool
##############
log.txt = text file with error messages from terminal console
tools/decoder.py -p ESP32S3 -t ~/.platformio/packages/toolchain-xtensa-esp32s3/ -e .pio/build/obp60_s3/firmware.elf log.txt

41
lib/obp60task/extra_task.py
View File

@@ -1,12 +1,29 @@
# PlatformIO extra script for obp60task
import subprocess
def cleanup_patches(source, target, env):
for p in patchfiles:
patch = os.path.join(patchdir, p)
print(f"removing {patch}")
res = subprocess.run(["git", "apply", "-R", patch], capture_output=True, text=True)
if res.returncode != 0:
print(res.stderr)
patching = False
epdtype = "unknown"
pcbvers = "unknown"
for x in env["BUILD_FLAGS"]:
if x.startswith("-D HARDWARE_"):
if not x.startswith('-D'):
continue
opt = x[2:].strip()
if opt.startswith("HARDWARE_"):
pcbvers = x.split('_')[1]
if x.startswith("-D DISPLAY_"):
elif opt.startswith("DISPLAY_"):
epdtype = x.split('_')[1]
elif opt == 'ENABLE_PATCHES':
patching = True
propfilename = os.path.join(env["PROJECT_LIBDEPS_DIR"], env["PIOENV"], "GxEPD2/library.properties")
properties = {}
@@ -28,3 +45,23 @@ except:
env["CPPDEFINES"].extend([("BOARD", env["BOARD"]), ("EPDTYPE", epdtype), ("PCBVERS", pcbvers), ("GXEPD2VERS", gxepd2vers)])
print("added hardware info to CPPDEFINES")
print("friendly board name is '{}'".format(env.GetProjectOption("board_name")))
if patching:
# apply patches to gateway code
print("applying gateway patches")
patchdir = os.path.join(os.path.dirname(script), "patches")
if not os.path.isdir(patchdir):
print("patchdir not found, no patches applied")
else:
patchfiles = [f for f in os.listdir(patchdir)]
if len(patchfiles) > 0:
for p in patchfiles:
patch = os.path.join(patchdir, p)
print(f"applying {patch}")
res = subprocess.run(["git", "apply", patch], capture_output=True, text=True)
if res.returncode != 0:
print(res.stderr)
env.AddPostAction("$PROGPATH", cleanup_patches)
else:
print("no patches found")

273
lib/obp60task/fonts/Atari6px8b.h Normal file
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@@ -0,0 +1,273 @@
const uint8_t Atari6pxBitmaps[] PROGMEM = {
0x00, 0xF0, 0x30, 0xCF, 0x38, 0x80, 0x53, 0xF5, 0x14, 0xFD, 0x40, 0x7E,
0x47, 0x85, 0x13, 0xE1, 0x00, 0xC7, 0x21, 0x00, 0x4E, 0x30, 0x63, 0x26,
0x39, 0xC3, 0x26, 0x40, 0x6F, 0x00, 0x7B, 0x24, 0xC0, 0xCD, 0xA5, 0x80,
0x8B, 0x3E, 0x00, 0x44, 0x10, 0x4F, 0xC4, 0x10, 0x40, 0x6F, 0x00, 0xF8,
0xF0, 0x0C, 0x66, 0x18, 0x82, 0x00, 0x7A, 0x39, 0x58, 0x61, 0xE0, 0x75,
0x50, 0xF8, 0x17, 0xA0, 0x83, 0xF0, 0xF8, 0x17, 0x80, 0x07, 0xE0, 0x39,
0x28, 0xA2, 0xFC, 0x20, 0xFE, 0x0F, 0x80, 0x07, 0xE0, 0x7A, 0x0F, 0xC0,
0x01, 0xE0, 0xF8, 0x44, 0x02, 0x10, 0x7A, 0x17, 0x80, 0x85, 0xE0, 0x7A,
0x17, 0xC0, 0x01, 0xE0, 0xF0, 0xF0, 0xF3, 0x58, 0x1B, 0x30, 0x42, 0x0C,
0xF8, 0x3E, 0xC3, 0x06, 0xC4, 0x60, 0x7A, 0x31, 0x86, 0x00, 0x01, 0x80,
0x7A, 0x19, 0xE6, 0x82, 0x07, 0xC0, 0x7A, 0x1F, 0xE1, 0x86, 0x10, 0xFA,
0x1F, 0xA0, 0x87, 0xE0, 0x7E, 0x08, 0x00, 0x01, 0xF0, 0xFA, 0x18, 0x60,
0x83, 0xE0, 0xFE, 0x0F, 0xA0, 0x83, 0xF0, 0xFE, 0x0F, 0xA0, 0x82, 0x00,
0x7E, 0x08, 0xC1, 0x05, 0xF0, 0x86, 0x1F, 0xE1, 0x86, 0x10, 0xF4, 0x44,
0x4F, 0x04, 0x10, 0x41, 0x85, 0xE0, 0x8C, 0xB9, 0x09, 0x44, 0x84, 0x21,
0x08, 0x7C, 0x83, 0xDE, 0x4C, 0x18, 0x30, 0x40, 0x83, 0xC6, 0x4C, 0x18,
0xF0, 0x40, 0x7A, 0x18, 0x40, 0x01, 0xE0, 0xFA, 0x1F, 0xA0, 0x82, 0x00,
0x7A, 0x18, 0x40, 0x01, 0xE0, 0xC0, 0xFA, 0x1F, 0xA4, 0x92, 0x30, 0x7E,
0x07, 0x80, 0x07, 0xE0, 0xFC, 0x41, 0x04, 0x10, 0x40, 0x86, 0x18, 0x61,
0x85, 0xE0, 0x86, 0x10, 0x00, 0x48, 0x40, 0x83, 0x06, 0x4C, 0x1E, 0xF0,
0x40, 0x85, 0x21, 0x00, 0x4A, 0x10, 0x86, 0x14, 0x80, 0x10, 0x40, 0xFC,
0x21, 0x10, 0x43, 0xF0, 0xFC, 0xCC, 0xCF, 0xC1, 0x81, 0x86, 0x04, 0x10,
0xF3, 0x33, 0x3F, 0x11, 0xEC, 0xC0, 0xFC, 0xD9, 0x80, 0x78, 0x10, 0x7F,
0x7C, 0x83, 0xE8, 0x61, 0x83, 0xE0, 0x7E, 0x08, 0x00, 0x7C, 0x05, 0xF8,
0x61, 0x05, 0xF0, 0x7B, 0xF8, 0x00, 0x78, 0x1A, 0x3E, 0x84, 0x20, 0x7E,
0x17, 0xC1, 0x07, 0xE0, 0x81, 0x33, 0x8C, 0x18, 0x30, 0x40, 0xC4, 0x44,
0xF0, 0x08, 0x42, 0x10, 0x87, 0xC0, 0x82, 0x2F, 0x20, 0x8A, 0x10, 0xC4,
0x44, 0x4F, 0x4B, 0xF9, 0x61, 0x84, 0xFA, 0x18, 0x61, 0x84, 0x7A, 0x18,
0x40, 0x78, 0xFA, 0x18, 0x60, 0xFA, 0x00, 0x7E, 0x18, 0x41, 0x7C, 0x10,
0xF4, 0x61, 0x08, 0x00, 0x7E, 0x00, 0x3F, 0x00, 0x4F, 0x44, 0x41, 0x86,
0x10, 0x41, 0x7C, 0x86, 0x10, 0x12, 0x10, 0x83, 0x26, 0x4C, 0x1E, 0xE0,
0x8B, 0x18, 0x08, 0x80, 0x86, 0x17, 0xC1, 0x07, 0xE0, 0xF8, 0x94, 0x8F,
0x80, 0x76, 0xC6, 0x67, 0xFF, 0xFC, 0xE6, 0x36, 0x6E, 0x41, 0x0B, 0x6F,
0x08, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD,
0xFC, 0x11, 0xEC, 0x71, 0xFC, 0x11, 0xEC, 0xC4, 0x10, 0x41, 0x00, 0x10,
0x40, 0x33, 0x49, 0xE1, 0x00, 0x08, 0x1B, 0xD8, 0x40, 0x81, 0x00, 0x10,
0xE3, 0x39, 0x01, 0x02, 0x00, 0x7A, 0x5E, 0xC4, 0x11, 0xE0, 0xFF, 0xEF,
0x3C, 0xC6, 0x30, 0xEE, 0x57, 0xA1, 0x87, 0xB0, 0x06, 0x1A, 0x64, 0x86,
0x08, 0x00, 0x7D, 0x06, 0x4C, 0xD8, 0x30, 0x5F, 0x00, 0x18, 0xF9, 0xF7,
0xF0, 0x00, 0x06, 0x00, 0x08, 0x30, 0x9E, 0x7B, 0xE6, 0x00, 0xF1, 0x03,
0xBC, 0x48, 0x81, 0x82, 0x00, 0xF1, 0x02, 0x77, 0xA1, 0x43, 0x85, 0x80,
0x12, 0x24, 0x48, 0x97, 0x3E, 0x70, 0x80, 0x92, 0x4D, 0xD8, 0xFF, 0x1C,
0x73, 0xCF, 0x3F, 0xC0, 0xC4, 0x4F, 0xFF, 0xF0, 0x7C, 0x1F, 0xF0, 0xC3,
0x0F, 0xC0, 0xF8, 0x2F, 0xC3, 0x0C, 0x3F, 0xC0, 0xC3, 0x0C, 0xFF, 0x0C,
0x30, 0xC0, 0xFB, 0x0F, 0xC3, 0x0C, 0x3F, 0xC0, 0xC3, 0x0F, 0xE3, 0xCF,
0x3F, 0xC0, 0xFC, 0x13, 0xCC, 0x30, 0xC3, 0x00, 0x71, 0x47, 0x37, 0xDF,
0x7F, 0xC0, 0xFF, 0x3C, 0x7F, 0x0C, 0x30, 0xC0, 0x78, 0x00, 0x7F, 0x78,
0xF0, 0x80, 0xEF, 0x88, 0x88, 0xF8, 0x0F, 0x1E, 0xFF, 0x84, 0x08, 0x1E,
0x26, 0x00, 0xF3, 0x20, 0xC1, 0x05, 0xF1, 0x40, 0x42, 0x2C, 0x50, 0x40,
0x1E, 0xF0, 0x00, 0x07, 0x24, 0x80, 0x93, 0x80, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC, 0xFC, 0x7F, 0xDD, 0xFC,
0xFC, 0x7F, 0xDD, 0xFC };
const GFXglyph Atari6pxGlyphs[] PROGMEM = {
{ 0, 1, 1, 7, 0, 0 }, // 0x20 ' ' U+0020
{ 1, 2, 6, 6, 2, -5 }, // 0x21 '!' U+0021
{ 3, 6, 3, 7, 0, -5 }, // 0x22 '"' U+0022
{ 6, 6, 6, 7, 0, -5 }, // 0x23 '#' U+0023
{ 11, 6, 7, 7, 0, -5 }, // 0x24 '$' U+0024
{ 17, 6, 6, 7, 0, -5 }, // 0x25 '%' U+0025
{ 22, 6, 7, 7, 0, -6 }, // 0x26 '&' U+0026
{ 28, 3, 3, 6, 1, -5 }, // 0x27 ''' U+0027
{ 30, 3, 6, 6, 1, -5 }, // 0x28 '(' U+0028
{ 33, 3, 6, 6, 1, -5 }, // 0x29 ')' U+0029
{ 36, 5, 6, 7, 1, -5 }, // 0x2a '*' U+002A
{ 40, 6, 6, 7, 0, -5 }, // 0x2b '+' U+002B
{ 45, 3, 3, 6, 1, -1 }, // 0x2c ',' U+002C
{ 47, 5, 1, 7, 1, -3 }, // 0x2d '-' U+002D
{ 48, 2, 2, 6, 2, -1 }, // 0x2e '.' U+002E
{ 49, 6, 6, 7, 0, -5 }, // 0x2f '/' U+002F
{ 54, 6, 6, 7, 0, -5 }, // 0x30 '0' U+0030
{ 59, 2, 6, 7, 3, -5 }, // 0x31 '1' U+0031
{ 61, 6, 6, 7, 0, -5 }, // 0x32 '2' U+0032
{ 66, 6, 6, 7, 0, -5 }, // 0x33 '3' U+0033
{ 71, 6, 6, 7, 0, -5 }, // 0x34 '4' U+0034
{ 76, 6, 6, 7, 0, -5 }, // 0x35 '5' U+0035
{ 81, 6, 6, 7, 0, -5 }, // 0x36 '6' U+0036
{ 86, 5, 6, 7, 0, -5 }, // 0x37 '7' U+0037
{ 90, 6, 6, 7, 0, -5 }, // 0x38 '8' U+0038
{ 95, 6, 6, 7, 0, -5 }, // 0x39 '9' U+0039
{ 100, 2, 6, 6, 2, -5 }, // 0x3a ':' U+003A
{ 102, 2, 7, 6, 2, -5 }, // 0x3b ';' U+003B
{ 104, 5, 6, 7, 1, -5 }, // 0x3c '<' U+003C
{ 108, 5, 3, 7, 1, -4 }, // 0x3d '=' U+003D
{ 110, 5, 6, 7, 1, -5 }, // 0x3e '>' U+003E
{ 114, 6, 7, 7, 0, -5 }, // 0x3f '?' U+003F
{ 120, 6, 7, 7, 0, -5 }, // 0x40 '@' U+0040
{ 126, 6, 6, 7, 0, -5 }, // 0x41 'A' U+0041
{ 131, 6, 6, 7, 0, -5 }, // 0x42 'B' U+0042
{ 136, 6, 6, 7, 0, -5 }, // 0x43 'C' U+0043
{ 141, 6, 6, 7, 0, -5 }, // 0x44 'D' U+0044
{ 146, 6, 6, 7, 0, -5 }, // 0x45 'E' U+0045
{ 151, 6, 6, 7, 0, -5 }, // 0x46 'F' U+0046
{ 156, 6, 6, 7, 0, -5 }, // 0x47 'G' U+0047
{ 161, 6, 6, 7, 0, -5 }, // 0x48 'H' U+0048
{ 166, 4, 6, 7, 1, -5 }, // 0x49 'I' U+0049
{ 169, 6, 6, 7, 0, -5 }, // 0x4a 'J' U+004A
{ 174, 5, 6, 7, 1, -5 }, // 0x4b 'K' U+004B
{ 178, 5, 6, 7, 1, -5 }, // 0x4c 'L' U+004C
{ 182, 7, 6, 8, 0, -5 }, // 0x4d 'M' U+004D
{ 188, 7, 6, 8, 0, -5 }, // 0x4e 'N' U+004E
{ 194, 6, 6, 7, 0, -5 }, // 0x4f 'O' U+004F
{ 199, 6, 6, 7, 0, -5 }, // 0x50 'P' U+0050
{ 204, 6, 7, 7, 0, -5 }, // 0x51 'Q' U+0051
{ 210, 6, 6, 7, 0, -5 }, // 0x52 'R' U+0052
{ 215, 6, 6, 7, 0, -5 }, // 0x53 'S' U+0053
{ 220, 6, 6, 7, 0, -5 }, // 0x54 'T' U+0054
{ 225, 6, 6, 7, 0, -5 }, // 0x55 'U' U+0055
{ 230, 6, 6, 7, 0, -5 }, // 0x56 'V' U+0056
{ 235, 7, 6, 8, 0, -5 }, // 0x57 'W' U+0057
{ 241, 6, 6, 7, 0, -5 }, // 0x58 'X' U+0058
{ 246, 6, 6, 7, 0, -5 }, // 0x59 'Y' U+0059
{ 251, 6, 6, 7, 0, -5 }, // 0x5a 'Z' U+005A
{ 256, 4, 6, 7, 1, -5 }, // 0x5b '[' U+005B
{ 259, 6, 6, 7, 0, -5 }, // 0x5c '\' U+005C
{ 264, 4, 6, 7, 2, -5 }, // 0x5d ']' U+005D
{ 267, 6, 3, 7, 0, -5 }, // 0x5e '^' U+005E
{ 270, 6, 1, 7, 0, 0 }, // 0x5f '_' U+005F
{ 271, 3, 3, 6, 1, -5 }, // 0x60 '`' U+0060
{ 273, 6, 5, 7, 0, -4 }, // 0x61 'a' U+0061
{ 277, 6, 6, 7, 0, -5 }, // 0x62 'b' U+0062
{ 282, 6, 5, 7, 0, -4 }, // 0x63 'c' U+0063
{ 286, 6, 6, 7, 0, -5 }, // 0x64 'd' U+0064
{ 291, 6, 5, 7, 0, -4 }, // 0x65 'e' U+0065
{ 295, 5, 6, 7, 1, -5 }, // 0x66 'f' U+0066
{ 299, 6, 6, 7, 0, -4 }, // 0x67 'g' U+0067
{ 304, 7, 6, 8, 0, -5 }, // 0x68 'h' U+0068
{ 310, 4, 5, 7, 1, -4 }, // 0x69 'i' U+0069
{ 313, 5, 7, 7, 0, -5 }, // 0x6a 'j' U+006A
{ 318, 6, 6, 7, 0, -5 }, // 0x6b 'k' U+006B
{ 323, 4, 6, 7, 1, -5 }, // 0x6c 'l' U+006C
{ 326, 6, 5, 7, 0, -4 }, // 0x6d 'm' U+006D
{ 330, 6, 5, 7, 0, -4 }, // 0x6e 'n' U+006E
{ 334, 6, 5, 7, 0, -4 }, // 0x6f 'o' U+006F
{ 338, 6, 6, 7, 0, -4 }, // 0x70 'p' U+0070
{ 343, 6, 6, 7, 0, -4 }, // 0x71 'q' U+0071
{ 348, 5, 5, 7, 1, -4 }, // 0x72 'r' U+0072
{ 352, 5, 5, 7, 1, -4 }, // 0x73 's' U+0073
{ 356, 4, 6, 7, 1, -5 }, // 0x74 't' U+0074
{ 359, 6, 5, 7, 0, -4 }, // 0x75 'u' U+0075
{ 363, 6, 5, 7, 0, -4 }, // 0x76 'v' U+0076
{ 367, 7, 5, 8, 0, -4 }, // 0x77 'w' U+0077
{ 372, 5, 5, 7, 0, -4 }, // 0x78 'x' U+0078
{ 376, 6, 6, 7, 0, -4 }, // 0x79 'y' U+0079
{ 381, 5, 5, 7, 1, -4 }, // 0x7a 'z' U+007A
{ 385, 4, 6, 6, 1, -5 }, // 0x7b '{' U+007B
{ 388, 2, 7, 7, 4, -5 }, // 0x7c '|' U+007C
{ 390, 4, 6, 6, 1, -5 }, // 0x7d '}' U+007D
{ 393, 6, 5, 7, 0, -5 }, // 0x7e '~' U+007E
{ 397, 5, 6, 6, 0, -5 }, // 0x7f 'REPLACEMENT CHARACTER *' U+2370
{ 401, 5, 6, 6, 0, -5 }, // 0x80 'NO-BREAK SPACE' U+00A0
{ 405, 5, 6, 6, 0, -5 }, // 0x81 'INVERTED EXCLAMATION MARK' U+00A1
{ 409, 5, 6, 6, 0, -5 }, // 0x82 'CENT SIGN' U+00A2
{ 413, 5, 6, 6, 0, -5 }, // 0x83 'POUND SIGN' U+00A3
{ 417, 5, 6, 6, 0, -5 }, // 0x84 'CURRENCY SIGN' U+00A4
{ 421, 5, 6, 6, 0, -5 }, // 0x85 'YEN SIGN' U+00A5
{ 425, 5, 6, 6, 0, -5 }, // 0x86 'BROKEN BAR' U+00A6
{ 429, 5, 6, 6, 0, -5 }, // 0x87 'SECTION SIGN' U+00A7
{ 433, 5, 6, 6, 0, -5 }, // 0x88 'DIAERESIS' U+00A8
{ 437, 5, 6, 6, 0, -5 }, // 0x89 'COPYRIGHT SIGN' U+00A9
{ 441, 5, 6, 6, 0, -5 }, // 0x8a 'FEMININE ORDINAL INDICATOR' U+00AA
{ 445, 5, 6, 6, 0, -5 }, // 0x8b 'LEFT-POINTING DOUBLE ANGLE QUOTATION MARK' U+00AB
{ 449, 5, 6, 6, 0, -5 }, // 0x8c 'NOT SIGN' U+00AC
{ 453, 5, 6, 6, 0, -5 }, // 0x8d 'SOFT HYPHEN' U+00AD
{ 457, 5, 6, 6, 0, -5 }, // 0x8e 'REGISTERED SIGN' U+00AE
{ 461, 5, 6, 6, 0, -5 }, // 0x8f 'MACRON' U+00AF
{ 465, 5, 6, 6, 0, -5 }, // 0x90 'DEGREE SIGN' U+00B0
{ 469, 5, 6, 6, 0, -5 }, // 0x91 'PLUS-MINUS SIGN' U+00B1
{ 473, 5, 6, 6, 0, -5 }, // 0x92 'SUPERSCRIPT TWO' U+00B2
{ 477, 5, 6, 6, 0, -5 }, // 0x93 'SUPERSCRIPT THREE' U+00B3
{ 481, 5, 6, 6, 0, -5 }, // 0x94 'ACUTE ACCENT' U+00B4
{ 485, 5, 6, 6, 0, -5 }, // 0x95 'MICRO SIGN' U+00B5
{ 489, 5, 6, 6, 0, -5 }, // 0x96 'PILCROW SIGN' U+00B6
{ 493, 5, 6, 6, 0, -5 }, // 0x97 'MIDDLE DOT' U+00B7
{ 497, 5, 6, 6, 0, -5 }, // 0x98 'CEDILLA' U+00B8
{ 501, 5, 6, 6, 0, -5 }, // 0x99 'SUPERSCRIPT ONE' U+00B9
{ 505, 5, 6, 6, 0, -5 }, // 0x9a 'MASCULINE ORDINAL INDICATOR' U+00BA
{ 509, 5, 6, 6, 0, -5 }, // 0x9b 'RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK' U+00BB
{ 513, 5, 6, 6, 0, -5 }, // 0x9c 'VULGAR FRACTION ONE QUARTER' U+00BC
{ 517, 5, 6, 6, 0, -5 }, // 0x9d 'VULGAR FRACTION ONE HALF' U+00BD
{ 521, 5, 6, 6, 0, -5 }, // 0x9e 'VULGAR FRACTION THREE QUARTERS' U+00BE
{ 525, 5, 6, 6, 0, -5 }, // 0x9f 'INVERTED QUESTION MARK' U+00BF
{ 529, 6, 5, 7, 0, -4 }, // 0xa0 'LATIN CAPITAL LETTER A WITH GRAVE' U+00C0
{ 533, 6, 7, 7, 0, -5 }, // 0xa1 'LATIN CAPITAL LETTER A WITH ACUTE' U+00C1
{ 539, 6, 7, 7, 0, -5 }, // 0xa2 'LATIN CAPITAL LETTER A WITH CIRCUMFLEX' U+00C2
{ 545, 7, 6, 7, 0, -5 }, // 0xa3 'LATIN CAPITAL LETTER A WITH TILDE' U+00C3
{ 551, 7, 6, 7, 0, -5 }, // 0xa4 'LATIN CAPITAL LETTER A WITH DIAERESIS' U+00C4
{ 557, 6, 6, 7, 0, -5 }, // 0xa5 'LATIN CAPITAL LETTER A WITH RING ABOVE' U+00C5
{ 562, 6, 6, 7, 0, -5 }, // 0xa6 'LATIN CAPITAL LETTER AE' U+00C6
{ 567, 6, 6, 7, 0, -5 }, // 0xa7 'LATIN CAPITAL LETTER C WITH CEDILLA' U+00C7
{ 572, 7, 6, 7, 0, -5 }, // 0xa8 'LATIN CAPITAL LETTER E WITH GRAVE' U+00C8
{ 578, 7, 7, 7, 0, -5 }, // 0xa9 'LATIN CAPITAL LETTER E WITH ACUTE' U+00C9
{ 585, 7, 7, 7, 0, -5 }, // 0xaa 'LATIN CAPITAL LETTER E WITH CIRCUMFLEX' U+00CA
{ 592, 6, 7, 7, 0, -5 }, // 0xab 'LATIN CAPITAL LETTER E WITH DIAERESIS' U+00CB
{ 598, 7, 7, 7, 0, -5 }, // 0xac 'LATIN CAPITAL LETTER I WITH GRAVE' U+00CC
{ 605, 7, 7, 7, 0, -5 }, // 0xad 'LATIN CAPITAL LETTER I WITH ACUTE' U+00CD
{ 612, 7, 7, 8, 1, -5 }, // 0xae 'LATIN CAPITAL LETTER I WITH CIRCUMFLEX' U+00CE
{ 619, 3, 7, 6, 1, -5 }, // 0xaf 'LATIN CAPITAL LETTER I WITH DIAERESIS' U+00CF
{ 622, 6, 7, 7, 0, -5 }, // 0xb0 'LATIN CAPITAL LETTER ETH' U+00D0
{ 628, 4, 7, 7, 1, -5 }, // 0xb1 'LATIN CAPITAL LETTER N WITH TILDE' U+00D1
{ 632, 6, 7, 7, 0, -5 }, // 0xb2 'LATIN CAPITAL LETTER O WITH GRAVE' U+00D2
{ 638, 6, 7, 7, 0, -5 }, // 0xb3 'LATIN CAPITAL LETTER O WITH ACUTE' U+00D3
{ 644, 6, 7, 7, 0, -5 }, // 0xb4 'LATIN CAPITAL LETTER O WITH CIRCUMFLEX' U+00D4
{ 650, 6, 7, 7, 0, -5 }, // 0xb5 'LATIN CAPITAL LETTER O WITH TILDE' U+00D5
{ 656, 6, 7, 7, 0, -5 }, // 0xb6 'LATIN CAPITAL LETTER O WITH DIAERESIS' U+00D6
{ 662, 6, 7, 7, 0, -5 }, // 0xb7 'MULTIPLICATION SIGN' U+00D7
{ 668, 6, 7, 7, 0, -5 }, // 0xb8 'LATIN CAPITAL LETTER O WITH STROKE' U+00D8
{ 674, 6, 7, 7, 0, -5 }, // 0xb9 'LATIN CAPITAL LETTER U WITH GRAVE' U+00D9
{ 680, 6, 5, 7, 0, -4 }, // 0xba 'LATIN CAPITAL LETTER U WITH ACUTE' U+00DA
{ 684, 8, 7, 8, 0, -5 }, // 0xbb 'LATIN CAPITAL LETTER U WITH CIRCUMFLEX' U+00DB
{ 691, 7, 7, 8, 1, -5 }, // 0xbc 'LATIN CAPITAL LETTER U WITH DIAERESIS' U+00DC
{ 698, 6, 7, 7, 0, -5 }, // 0xbd 'LATIN CAPITAL LETTER Y WITH ACUTE' U+00DD
{ 704, 7, 7, 7, 0, -5 }, // 0xbe 'LATIN CAPITAL LETTER THORN' U+00DE
{ 711, 6, 6, 7, 0, -5 }, // 0xbf 'LATIN SMALL LETTER SHARP S' U+00DF
{ 716, 5, 6, 6, 0, -5 }, // 0xc0 'LATIN SMALL LETTER A WITH GRAVE' U+00E0
{ 720, 5, 6, 6, 0, -5 }, // 0xc1 'LATIN SMALL LETTER A WITH ACUTE' U+00E1
{ 724, 5, 6, 6, 0, -5 }, // 0xc2 'LATIN SMALL LETTER A WITH CIRCUMFLEX' U+00E2
{ 728, 5, 6, 6, 0, -5 }, // 0xc3 'LATIN SMALL LETTER A WITH TILDE' U+00E3
{ 732, 5, 6, 6, 0, -5 }, // 0xc4 'LATIN SMALL LETTER A WITH DIAERESIS' U+00E4
{ 736, 5, 6, 6, 0, -5 }, // 0xc5 'LATIN SMALL LETTER A WITH RING ABOVE' U+00E5
{ 740, 5, 6, 6, 0, -5 }, // 0xc6 'LATIN SMALL LETTER AE' U+00E6
{ 744, 5, 6, 6, 0, -5 }, // 0xc7 'LATIN SMALL LETTER C WITH CEDILLA' U+00E7
{ 748, 5, 6, 6, 0, -5 }, // 0xc8 'LATIN SMALL LETTER E WITH GRAVE' U+00E8
{ 752, 5, 6, 6, 0, -5 }, // 0xc9 'LATIN SMALL LETTER E WITH ACUTE' U+00E9
{ 756, 5, 6, 6, 0, -5 }, // 0xca 'LATIN SMALL LETTER E WITH CIRCUMFLEX' U+00EA
{ 760, 5, 6, 6, 0, -5 }, // 0xcb 'LATIN SMALL LETTER E WITH DIAERESIS' U+00EB
{ 764, 5, 6, 6, 0, -5 }, // 0xcc 'LATIN SMALL LETTER I WITH GRAVE' U+00EC
{ 768, 5, 6, 6, 0, -5 }, // 0xcd 'LATIN SMALL LETTER I WITH ACUTE' U+00ED
{ 772, 5, 6, 6, 0, -5 }, // 0xce 'LATIN SMALL LETTER I WITH CIRCUMFLEX' U+00EE
{ 776, 5, 6, 6, 0, -5 }, // 0xcf 'LATIN SMALL LETTER I WITH DIAERESIS' U+00EF
{ 780, 5, 6, 6, 0, -5 }, // 0xd0 'LATIN SMALL LETTER ETH' U+00F0
{ 784, 5, 6, 6, 0, -5 }, // 0xd1 'LATIN SMALL LETTER N WITH TILDE' U+00F1
{ 788, 5, 6, 6, 0, -5 }, // 0xd2 'LATIN SMALL LETTER O WITH GRAVE' U+00F2
{ 792, 5, 6, 6, 0, -5 }, // 0xd3 'LATIN SMALL LETTER O WITH ACUTE' U+00F3
{ 796, 5, 6, 6, 0, -5 }, // 0xd4 'LATIN SMALL LETTER O WITH CIRCUMFLEX' U+00F4
{ 800, 5, 6, 6, 0, -5 }, // 0xd5 'LATIN SMALL LETTER O WITH TILDE' U+00F5
{ 804, 5, 6, 6, 0, -5 }, // 0xd6 'LATIN SMALL LETTER O WITH DIAERESIS' U+00F6
{ 808, 5, 6, 6, 0, -5 }, // 0xd7 'DIVISION SIGN' U+00F7
{ 812, 5, 6, 6, 0, -5 }, // 0xd8 'LATIN SMALL LETTER O WITH STROKE' U+00F8
{ 816, 5, 6, 6, 0, -5 }, // 0xd9 'LATIN SMALL LETTER U WITH GRAVE' U+00F9
{ 820, 5, 6, 6, 0, -5 }, // 0xda 'LATIN SMALL LETTER U WITH ACUTE' U+00FA
{ 824, 5, 6, 6, 0, -5 }, // 0xdb 'LATIN SMALL LETTER U WITH CIRCUMFLEX' U+00FB
{ 828, 5, 6, 6, 0, -5 }, // 0xdc 'LATIN SMALL LETTER U WITH DIAERESIS' U+00FC
{ 832, 5, 6, 6, 0, -5 }, // 0xdd 'LATIN SMALL LETTER Y WITH ACUTE' U+00FD
{ 836, 5, 6, 6, 0, -5 }, // 0xde 'LATIN SMALL LETTER THORN' U+00FE
{ 840, 5, 6, 6, 0, -5 } }; // 0xdf 'LATIN SMALL LETTER Y WITH DIAERESIS' U+000FF
const GFXfont Atari6px PROGMEM = {
(uint8_t *)Atari6pxBitmaps,
(GFXglyph *)Atari6pxGlyphs,
0x20, 0xDF, 9 };
// Approx. 2195 bytes

32
lib/obp60task/gen_set.py
View File

@@ -20,7 +20,7 @@ import getopt
import re
import json
__version__ = "0.3"
__version__ = "1.3"
def detect_pages(filename):
# returns a dictionary with page name and the number of gui fields
@@ -90,7 +90,7 @@ def create_json(device, no_of_pages, pagedata):
category = f"{device.upper()} Page {page_no}"
capabilities = {device.lower(): "true"}
visiblepages = [str(vp) for vp in range(page_no, no_of_pages + 1)]
visiblepages = [vp for vp in range(page_no, no_of_pages + 1)]
page_data = {
"name": f"page{page_no}type",
@@ -117,9 +117,9 @@ def create_json(device, no_of_pages, pagedata):
"description": "The display for field {}".format(number_to_text(field_no)),
"category": category,
"capabilities": capabilities,
"condition": {
f"page{page_no}type": [ p for p in pages if pagedata[p] >= field_no ]
,"visiblePages": visiblepages
"condition": {
f"page{page_no}type": [page for page in pages if pagedata[page] >= field_no],
"visiblePages": visiblepages
}
}
output.append(field_data)
@@ -141,10 +141,7 @@ def create_json(device, no_of_pages, pagedata):
"description": "Fluid type in tank",
"category": category,
"capabilities": capabilities,
"condition": {
f"page{page_no}type": "Fluid",
"visiblePages": visiblepages
}
"condition":[{f"page{page_no}type":"Fluid"}]
}
output.append(fluid_data)
@@ -176,12 +173,13 @@ def usage():
print("Command line options")
print(" -d --device device name to use e.g. obp60")
print(" -p --pages number of pages to create")
print(" -m --merge json with device config to merge to")
print(" -h show this help")
print()
if __name__ == '__main__':
try:
options, remainder = getopt.getopt(sys.argv[1:], 'd:p:', ['device=','--pages='])
options, remainder = getopt.getopt(sys.argv[1:], 'd:p:m:', ['device=','--pages=','--merge'])
except getopt.GetoptError as err:
print(err)
usage()
@@ -189,11 +187,14 @@ if __name__ == '__main__':
device = "obp60"
no_of_pages = 10
merge_json = None
for opt, arg in options:
if opt in ('-d', '--device'):
device = arg
elif opt in ('-p', '--pages'):
no_of_pages = int(arg)
elif opt in ('-m', '--merge'):
merge_json = arg
elif opt == '-h':
usage()
sys.exit(0)
@@ -202,5 +203,12 @@ if __name__ == '__main__':
pagedata = detect_pages("obp60task.cpp")
json_output = create_json(device, no_of_pages, pagedata)
# print omitting first line containing [ of JSON array
print(json_output[1:])
if merge_json and os.path.isfile(merge_json):
with open(merge_json, 'r') as fh:
device_json = json.load(fh)
page_json = json.loads(json_output)
device_json.extend(page_json)
print(json.dumps(device_json, indent=4))
else:
# print omitting first line containing [ of JSON array
print(json_output[1:])

12
lib/obp60task/git_commands.txt
View File

@@ -1,12 +0,0 @@
git status
git fetch upstream
git diff --name-status upstream/master
git checkout upstream/master platformio.ini
# how to reset my Repo to match norbert'status
git remote add upstream https://github.com/norbert-walter/esp32-nmea2000-obp60
git fetch upstream
git checkout master
git reset --hard upstream/master
git push origin master --force

88
lib/obp60task/hbuffer.cpp Normal file
View File

@@ -0,0 +1,88 @@
/* History Buffer
*
* Storage backed buffer for sensordata
* Permanent storage only supported type: FRAM on I2C-Bus
*
* Values can be 1 to 4 bytes in length
*
* Header: 32 bytes of size
* 0 0x00 HB00 4 magic number
* 4 0x04 xxxxxxxxxxxxxxxx 16 name, space padded
* 20 0x14 n 1 byte size of values in buffer
* 21 0x15 mm 2 buffer size in count of values
* 23 0x17 dd 2 time step in seconds between values
* 25 0x19 tttt 4 unix timestamp of head
* 29 0x1d hh 2 head pointer
* 31 0x1f 0xff 1 header end sign
*
* 32 0x20 ... start of buffer data
*
* Usage example: 7 hours of data collected every 75 seconds
* TODO
*
*/
#include <stdint.h>
#include <time.h>
class HistoryBuffer {
private:
// Header prototype for permanent storage
uint8_t header[32] = {
0x41, 0x48, 0x30, 0x30, // magic: HB00
0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20,
0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, // empty name
0x01, // byte size
0x50, 0x01, // value count
0x4b, 0x00, // time step
0x00, 0x00, 0x00, 0x00, // unix time stamp
0x00, 0x00, // head pointer
0xff // end sign
};
uint16_t head = 0; // head pointer to next new value position
time_t timestamp; // last modification time of head
uint16_t delta_t; // time step in seconds
public:
HistoryBuffer(uint16_t size) {
}
~HistoryBuffer() {
// free memory
}
void begin() {
//
}
void finish() {
}
uint16_t add() {
// returns new head value pointer
return 0;
}
uint8_t* get() {
// returns complete buffer in order new to old
return 0;
}
uint8_t getvalue(uint16_t dt) {
// Return a single value delta seconds ago
uint16_t index = head - abs(dt) / delta_t;
return 0;
}
uint8_t getvalue3() {
return 0;
}
bool clear() {
// clears buffer and permanent storage
return true;
}
};
class History {
public:
History() {
}
~History() {
}
void *addSeries() {
return nullptr;
}
};

21
lib/obp60task/hbuffer.h Normal file
View File

@@ -0,0 +1,21 @@
#ifndef __HBUFFER_H__
#define __HBUFFER_H__
class HistoryBuffer {
public:
HistoryBuffer(uint16_t size);
void begin();
void finish();
uint16_t add();
uint8_t* get() ;
uint8_t getvalue(uint16_t dt);
uint8_t getvalue3();
void clear();
};
class History {
public:
History();
void *addSeries();
};
#endif

67
lib/obp60task/images/foxtrot.xbm Normal file
View File

@@ -0,0 +1,67 @@
#define foxtrot_width 96
#define foxtrot_height 64
static unsigned char foxtrot_bits[] = {
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x80, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x40, 0x05, 0x00, 0x00, 0x00, 0x00, 0x00,
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807
lib/obp60task/obp40.conf Normal file
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[DEFAULT]
calibration_fields = AWA, AWS, COG, DBT, HDM, PRPOS, RPOS, SOG, STW, TWA, TWS, TWD, WTemp
[deviceName]
label = system name
type = string
default = OBP40
description = system name, used for the access point and for services
check = checkSystemName
category = system
[timeServer]
label = time server
type = string
default = pool.ntp.org
description = NTP time server. Use only one hostname or IP address
category = wifi client
capabilities = obp40:true
[timeZone]
label = Time Zone
type = number
default = 0.00
description = Time zone [UTC -12...+14]
check = checkMinMax
min = -12.0
max = 14.0
category = OBP40 Settings
capabilities = obp40:true
[homeLAT]
label = Home latitude
type = number
default = 0.00000
description = Latitude of boat home location [-90.0...+90.0]
check = checkMinMax
min = -90.0
max = 90.0
category = OBP40 Settings
capabilities = obp40:true
[homeLON]
label = Home longitude
type = number
default = 0.00000
description = Longitude of boat home location [-180.0...+180.0]
check = checkMinMax
min = -180.0
max = 180.0
category = OBP40 Settings
capabilities = obp40:true
[draft]
label = Boat Draft [m]
type = number
default = 0.00
description = The draft of the boat [0...50m]
check = checkMinMax
min = 0.0
max = 50.0
category = OBP40 Settings
capabilities = obp40:true
[chainLength]
label = Anchor Chain Length [m]
type = number
default = 0
description = The length of the anchor chain [0...255m]
check = checkMinMax
min = 0
max = 255
category = OBP40 Settings
capabilities = obp40:true
[fuelTank]
label = Fuel Tank [l]
type = number
default = 0
description = Fuel tank capacity [0...5000l]
check = checkMinMax
min = 0
max = 5000
category = OBP40 Settings
capabilities = obp40:true
[fuelConsumption]
label = Fuel Consuption [l/h]
type = number
default = 0.00
description = Medium fuel consumption [0...1000l/h]
check = checkMinMax
min = 0.0
max = 1000.0
category = OBP40 Settings
capabilities = obp40:true
[waterTank]
label = Water Tank [l]
type = number
default = 0
description = Water tank capacity [0...5000l]
check = checkMinMax
min = 0
max = 5000
category = OBP40 Settings
capabilities = obp40:true
[wasteTank]
label = Waste Tank [l]
type = number
default = 0
description = Waste tank capacity [0...5000l]
check = checkMinMax
min = 0
max = 5000
category = OBP40 Settings
capabilities = obp40:true
[batteryVoltage]
label = Battery Voltage [V]
type = list
default = 12V
description = Battery Voltage [12V|24V]
list = 12V, 24V
category = OBP40 Settings
capabilities = obp40:true
[batteryType]
label = Battery Type
type = list
default = Pb
description = Type of battery [Pb|Gel|AGM|LiFePo4]
list = Pb, Gel, AGM, LiFePo4
category = OBP40 Settings
capabilities = obp40:true
[batteryCapacity]
label = Battery Capacity [Ah]
type = number
default = 0.0
description = Battery capacity [0...10000Ah]
check = checkMinMax
min = 0.0
max = 10000.0
category = OBP40 Settings
capabilities = obp40:true
[solarPower]
label = Solar Power [W]
type = number
default = 0.0
description = Solar power [0...10000W]
check = checkMinMax
min = 0.0
max = 10000.0
category = OBP40 Settings
capabilities = obp40:true
[genPower]
label = Genarator Power [W]
type = number
default = 0.0
description = Generator power [0...10000W]
check = checkMinMax
min = 0.0
max = 10000.0
category = OBP40 Settings
capabilities = obp40:true
[trackStep]
label = angle [deg]
type = number
default = 3.0
description = track step offset [1...12deg]
check = checkMinMax
min = 1.0
max = 12.0
category = OBP40 Settings
capabilities = obp40:true
[calcTrueWnds]
label = Calculate True Wind
type = boolean
default = false
description = If not available, calculate true wind data from appearant wind and other boat data
category = OBP40 Settings
capabilities = obp40:true
[lengthFormat]
label = Length Format
type = list
default = m
description = Length format [m|ft]
list = m, ft
category = OBP40 Units
capabilities = obp40:true
[distanceFormat]
label = Distance Format
type = list
default = nm
description = Distance format [m|km|nm]
list = m, km, nm
category = OBP40 Units
capabilities = obp40:true
[speedFormat]
label = Speed Format
type = list
default = kn
description = Distance format [m/s|km/h|kn]
list = m/s, km/h, kn
category = OBP40 Units
capabilities = obp40:true
[windspeedFormat]
label = Wind Speed Format
type = list
default = kn
description = Wind speed format [m/s|km/h|kn|bft]
list = m/s, km/h, kn, bft
category = OBP40 Units
capabilities = obp40:true
[tempFormat]
label = Temperature Format
type = list
default = C
description = Temperature format [K|C|F]
list = K, C, F
category = OBP40 Units
capabilities = obp40:true
[dateFormat]
label = Date Format
type = list
default = DE
description = Date format [DE|GB|US|ISO] DE: 31.12.2022, GB: 31/12/2022, US: 12/31/2022, ISO: 2022-12-31
list = DE, GB, US, ISO
category = OBP40 Units
capabilities = obp40:true
[cpuSpeed]
label = CPU Speed [MHz]
type = list
default = 160
description = CPU speed in MHz [80|160|240]
list = 80, 160, 240
category = OBP40 Hardware
capabilities = obp40:true
[useRTC]
label = RTC Modul
type = list
default = off
description = Use RTC module type [off|DS1388]
list = off, DS1388
category = OBP40 Hardware
capabilities = obp40:true
[useGPS]
label = GPS Sensor
type = list
default = off
description = Use internal GPS module type [off|NEO-6M|NEO-M8N|ATGM336H]
list = off, NEO-6M, NEO-M8N, ATGM336H
category = OBP40 Hardware
capabilities = obp40:true
[hdopAccuracy]
label = HDOP Accuracy [m]
type = number
default = 20
description = HDOP ccuracy in m for a valid GPS signal [1...50]
check = checkMinMax
min = 1
max = 50
category = OBP40 Hardware
capabilities = obp40:true
[useEnvSensor]
label = Env. Sensor
type = list
default = off
description = Use internal or external environment sensor via I2C bus [off|BME280|BMP280|BMP180|BMP085|HTU21|SHT21]
list = off, BME280, BMP280, BMP180, BMP085, HTU21, SHT21
category = OBP40 Hardware
capabilities = obp40:true
[usePowSensor1]
label = Battery Sensor
type = list
default = off
description = Use external power management sensor via I2C bus for battery [off|INA219|INA226|]
list = off, INA219, INA226
category = OBP40 Hardware
capabilities = obp40:true
[shunt1]
label = Battery Shunt
type = list
default = 10
description = Shunt current value [10A|50A|100A|200A|300A|400A|500A]
list = 10, 50, 100, 200, 300, 400, 500
category = OBP40 Hardware
capabilities = obp40:true
[usePowSensor2]
label = Solar Sensor
type = list
default = off
description = Use external power management sensor via I2C bus for solar panels [off|INA219|INA226|]
list = off, INA219, INA226
category = OBP40 Hardware
capabilities = obp40:true
[shunt2]
label = Solar Shunt
type = list
default = 10
description = Shunt current value [10A|50A|100A|200A|300A|400A|500A]
list = 10, 50, 100, 200, 300, 400, 500
category = OBP40 Hardware
capabilities = obp40:true
[usePowSensor3]
label = Gen. Sensor
type = list
default = off
description = Use external power management sensor via I2C bus for generator [off|INA219|INA226|]
list = off, INA219, INA226
category = OBP40 Hardware
capabilities = obp40:true
[shunt3]
label = Gen. Shunt
type = list
default = 10
description = Shunt current value [10A|50A|100A|200A|300A|400A|500A] @ 75mV
list = 10, 50, 100, 200, 300, 400, 500
category = OBP40 Hardware
capabilities = obp40:true
[useRotSensor]
label = Rot. Sensor
type = list
default = off
description = Use external rotation sensor via I2C bus [off|AS5600]
list = off, AS5600
category = OBP40 Hardware
capabilities = obp40:true
[rotFunction]
label = Rot. Function
type = list
default = off
description = Function for rotation sensor [off|Rudder|Wind|Mast|Keel|Trim|Boom]
list = off, Rudder, Wind, Mast, Keel, Trim, Boom
category = OBP40 Hardware
capabilities = obp40:true
[rotOffset]
label = Rot. Offset
type = number
default = 0
description = Offset for rotation sensor [-180°...+180°]
check = checkMinMax
min = -180
max = 180
category = OBP40 Hardware
capabilities = obp40:true
[rollLimit]
label = Roll Limit
type = number
default = 25
description = Limit violation for roll angle [-90°...+90°]
check = checkMinMax
min = -90
max = 90
category = OBP40 Hardware
capabilities = obp40:true
[rollOffset]
label = Roll Offset
type = number
default = 0
description = Roll offset angle [-45°...+45°]
check = checkMinMax
min = -45
max = 45
category = OBP40 Hardware
capabilities = obp40:true
[pitchOffset]
label = Pitch Offset
type = number
default = 0
description = Pitch offset angle [-45°...+45°]
check = checkMinMax
min = -45
max = 45
category = OBP40 Hardware
capabilities = obp40:true
[useTempSensor]
label = Temp. Sensor
type = boolean
default = off
description = Use max. 8 external 1Wire devices [off|DS18B20]
list = off, DS18B20
category = OBP40 Hardware
capabilities = obp40:true
[useSDCard]
label = SD Card
type = boolean
default = false
description = Use internal SD card interface [off|on]
category = OBP40 Hardware
capabilities = obp40:true
[powerMode]
label = Power Mode
type = list
default = Max Power
description = Settings for power mode
list = Max Power, Only 5.0V, Min Power
category = OBP40 Hardware
capabilities = obp40:true
[underVoltage]
label = Undervoltage
type = boolean
default = false
description = Switch off device if LiPo voltage drops below 3.65V [on|off]
category = OBP40 Hardware
capabilities = obp40:true
[useSimuData]
label = Simulation Data
type = boolean
default = false
description = Use simulation data when bus data are missing [on|off]
category = OBP40 Hardware
capabilities = obp40:true
[tSensitivity]
label = Touch Sensitivity [%%]
type = number
default = 100
description = Touch sensitivity [0...100%%] for sensor buttons
check = checkMinMax
min = 0
max = 100
category = OBP40 Calibrations
capabilities = obp40:false
[vOffset]
label = VSensor Offset
type = number
default = -1.00
description = Offset for internal voltage sensor (ESP32)
category = OBP40 Calibrations
capabilities = obp40:true
[vSlope]
label = VSensor Slope
type = number
default = 1.00
description = Slope for internal voltage sensor (ESP32)
category = OBP40 Calibrations
capabilities = obp40:true
[calInstance1]
label = Calibration Data Instance 1
type = list
default = ---
description = Data instance for calibration
list = ---, %(calibration_fields)s
category = OBP40 Calibrations
capabilities = obp40:true
[calOffset1]
label = Data Instance 1 Calibration Offset
type = number
default = 0.00
description = Offset for data instance 1
category = OBP40 Calibrations
capabilities = obp40:true
condition = calInstance1 IN %(calibration_fields)s
[calSlope1]
label = Data Instance 1 Calibration Slope
type = number
default = 1.00
description = Slope for data instance 1
category = OBP40 Calibrations
capabilities = obp40:true
condition = calInstance1 IN %(calibration_fields)s
[calSmooth1]
label = Data Instance 1 Smoothing
type = number
default = 0
description = Smoothing factor [0..10]; 0 = no smoothing
check = checkMinMax
min = 0
max = 10
category = OBP40 Calibrations
capabilities = obp40:true
condition = calInstance1 IN %(calibration_fields)s
[calInstance2]
label = Calibration Data Instance 2
type = list
default = ---
description = Data instance for calibration
list = ---, %(calibration_fields)s
category = OBP40 Calibrations
capabilities = obp40:true
[calOffset2]
label = Data Instance 2 Calibration Offset
type = number
default = 0.00
description = Offset for data instance 2
category = OBP40 Calibrations
capabilities = obp40:true
condition = calInstance2 IN %(calibration_fields)s
[calSlope2]
label = Data Instance 2 Calibration Slope
type = number
default = 1.00
description = Slope for data instance 2
category = OBP40 Calibrations
capabilities = obp40:true
condition = calInstance2 IN %(calibration_fields)s
[calSmooth2]
label = Data Instance 2 Smoothing
type = number
default = 0
description = Smoothing factor [0..10]; 0 = no smoothing
check = checkMinMax
min = 0
max = 10
category = OBP40 Calibrations
capabilities = obp40:true
condition = calInstance2 IN %(calibration_fields)s
[calInstance3]
label = Calibration Data Instance 3
type = list
default = ---
description = Data instance for calibration
list = ---, %(calibration_fields)s
category = OBP40 Calibrations
capabilities = obp40:true
[calOffset3]
label = Data Instance 3 Calibration Offset
type = number
default = 0.00
description = Offset for data instance 3
category = OBP40 Calibrations
capabilities = obp40:true
condition = calinstance3 IN %(calibration_fields)s
[calSlope3]
label = Data Instance 3 Calibration Slope
type = number
default = 1.00
description = Slope for data instance 3
category = OBP40 Calibrations
capabilities = obp40:true
condition = calinstance3 IN %(calibration_fields)s
[calSmooth3]
label = Data Instance 3 Smoothing
type = number
default = 0
description = Smoothing factor [0..10]; 0 = no smoothing
check = checkMinMax
min = 0
max = 10
category = OBP40 Calibrations
capabilities = obp40:true
condition = calinstance3 IN %(calibration_fields)s
[display]
label = Display Mode
type = list
default = Logo + QR Code
description = Settings for startup display
list = White Screen, Logo, Logo + QR Code, Off
category = OBP40 Display
capabilities = obp40:true
[displaycolor]
label = Inverted Display Mode
type = list
default = Normal
description = Invert display to white letters on black background [Normal|Inverse]
list = Normal, Inverse
category = OBP40 Display
capabilities = obp40:true
[statusLine]
label = Status Line
type = boolean
default = true
description = Show status line [on|off]
category = OBP40 Display
capabilities = obp40:true
[timeSource]
label = Status Time Source
type = list
default = GPS
description = Data source for date and time display in status line [RTC|iRTC|GPS]
dict =
iRTC:Internal real time clock (iRTC)
RTC:External real time clock (RTC)
GPS:External time via bus (GPS)
category = OBP40 Display
capabilities = obp40:true
[refresh]
label = Refresh
type = boolean
default = true
description = Refresh e-paper display after each new page request to reduce ghost effects [on|off]
category = OBP40 Display
capabilities = obp40:true
[fastRefresh]
label = Fast Refresh
type = boolean
default = false
description = Fast refresh for e-paper display [on|off]
category = OBP40 Display
capabilities = obp40:true
[fullRefreshTime]
label = Full Refresh Time [min]
type = number
default = 1
description = E-Paper full refresh time all [1...10 min]
check = checkMinMax
min = 1
max = 10
category = OBP40 Display
capabilities = obp40:true
[holdvalues]
label = Hold Values
type = boolean
default = false
description = Retain old values when data stream stops [on|off]
category = OBP40 Display
capabilities = obp40:true
[valueprecision]
label = Display value precision
type = list
default = 2
description = Maximum number of decimal places to display [1|2]
list = 1, 2
category = OBP40 Display
capabilities = obp40:true
[headerFormat]
label = Header Format
type = list
default = TEXT
description = Header format: Text or Symbols
dict =
TEXT:Text
ICON:Symbols
category = OBP40 Display
capabilities = obp40:true
[backlight]
label = Backlight Mode
type = list
default = off
description = Settings for automatic backlight mode
list = Off, Control by Sun, Control by Bus, Control by Time, Control by Key, On
category = OBP40 Display
capabilities = obp40:false
[blColor]
label = Backlight Color
type = list
default = Red
description = Backlight color
list = Red, Orange, Yellow, Green, Blue, Aqua, Violet, White
category = OBP40 Display
capabilities = obp40:false
[blBrightness]
label = Brightness [%%]
type = number
default = 50
description = Backlight brightness [20...100%%]
check = checkMinMax
min = 20
max = 100
category = OBP40 Display
capabilities = obp40:false
[flashLED]
label = Flash LED Mode
type = list
default = Off
description = Settings for flash LED
list = Off, Bus Data, GPS Fix Lost, Limit Violation
category = OBP40 Display
capabilities = obp40:false
[buzzerError]
label = Buzzer Error
type = boolean
default = false
description = Sound on error [on|off]
category = OBP40 Buzzer
capabilities = obp40:false
[buzzerGps]
label = Buzzer GPS Fix
type = boolean
default = false
description = Sound on missing or lost GPS fix
category = OBP40 Buzzer
capabilities = obp40:false
[buzzerLim]
label = Buzzer by Limits
type = boolean
default = false
description = Sound on limit violation
category = OBP40 Buzzer
capabilities = obp40:false
[buzzerMode]
label = Buzzer Mode
type = list
default = Off
description = Settings for buzzer behaviour
list = Off, Short Single Beep, Longer Single Beep, Beep until Confirmation
category = OBP40 Buzzer
capabilities = obp40:false
[buzzerPower]
label = Buzzer Power [%%]
type = number
default = 50
description = Buzzer loudness [0...100%%]
check = checkMinMax
min = 0
max = 100
category = OBP40 Buzzer
capabilities = obp40:false
[visiblePages]
label = Number of Pages
type = number
default = 10
description = Number of visible data pages [1...10]
check = checkMinMax
min = 1
max = 10
category = OBP40 Pages
capabilities = obp40:true
[startPage]
label = Start Page
type = number
default = 1
description = First page number to display after device startup
check = checkMinMax
min = 1
max = 10
category = OBP40 Pages
capabilities = obp40:true
[systemPage]
label = System Page
type = boolean
default = false
description = Use wheel button for system page or direct deep sleep mode
category = OBP40 Pages
capabilities = obp40:true
[imageFormat]
label = Screenshot Format
type = list
default = PBM
description = Graphics file format for screenshots [GIF|PBM|BMP]
dict =
GIF:Compressed image (GIF)
PBM:Portable bitmap (PBM)
BMP:Windows bitmap (BMP)
category = OBP40 Pages
capabilities = obp40:true

857
lib/obp60task/obp60.conf Normal file
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@@ -0,0 +1,857 @@
[DEFAULT]
calibration_fields = AWA, AWS, COG, DBT, HDM, PRPOS, RPOS, SOG, STW, TWA, TWS, TWD, WTemp
[deviceName]
label = system name
type = string
default = OBP60V2
description = system name, used for the access point and for services
check = checkSystemName
category = system
[timeServer]
label = time server
type = string
default = pool.ntp.org
description = NTP time server. Use only one hostname or IP address
category = wifi client
capabilities = obp60:true
[timeZone]
label = Time Zone
type = number
default = 0.00
description = Time zone [UTC -12...+14]
check = checkMinMax
min = -12.0
max = 14.0
category = OBP60 Settings
capabilities = obp60:true
[homeLAT]
label = Home latitude
type = number
default =
description = Latitude of boat home location [-90.0...+90.0]
check = checkMinMax
min = -90.0
max = 90.0
category = OBP60 Settings
capabilities = obp60:true
[homeLON]
label = Home longitude
type = number
default =
description = Longitude of boat home location [-180.0...+180.0]
check = checkMinMax
min = -180.0
max = 180.0
category = OBP60 Settings
capabilities = obp60:true
[draft]
label = Boat Draft [m]
type = number
default = 0.00
description = The draft of the boat [0...50m]
check = checkMinMax
min = 0.0
max = 50.0
category = OBP60 Settings
capabilities = obp60:true
[chainLength]
label = Anchor Chain Length [m]
type = number
default = 0
description = The length of the anchor chain [0...255m]
check = checkMinMax
min = 0
max = 255
category = OBP60 Settings
capabilities = obp60:true
[fuelTank]
label = Fuel Tank [l]
type = number
default = 0
description = Fuel tank capacity [0...5000l]
check = checkMinMax
min = 0
max = 5000
category = OBP60 Settings
capabilities = obp60:true
[fuelConsumption]
label = Fuel Consuption [l/h]
type = number
default = 0.00
description = Medium fuel consumption [0...1000l/h]
check = checkMinMax
min = 0.0
max = 1000.0
category = OBP60 Settings
capabilities = obp60:true
[waterTank]
label = Water Tank [l]
type = number
default = 0
description = Water tank capacity [0...5000l]
check = checkMinMax
min = 0
max = 5000
category = OBP60 Settings
capabilities = obp60:true
[wasteTank]
label = Waste Tank [l]
type = number
default = 0
description = Waste tank capacity [0...5000l]
check = checkMinMax
min = 0
max = 5000
category = OBP60 Settings
capabilities = obp60:true
[batteryVoltage]
label = Battery Voltage [V]
type = list
default = 12V
description = Battery Voltage [12V|24V]
list = 12V, 24V
category = OBP60 Settings
capabilities = obp60:true
[batteryType]
label = Battery Type
type = list
default = Pb
description = Type of battery [Pb|Gel|AGM|LiFePo4]
list = Pb, Gel, AGM, LiFePo4
category = OBP60 Settings
capabilities = obp60:true
[batteryCapacity]
label = Battery Capacity [Ah]
type = number
default = 0.0
description = Battery capacity [0...10000Ah]
check = checkMinMax
min = 0.0
max = 10000.0
category = OBP60 Settings
capabilities = obp60:true
[solarPower]
label = Solar Power [W]
type = number
default = 0.0
description = Solar power [0...10000W]
check = checkMinMax
min = 0.0
max = 10000.0
category = OBP60 Settings
capabilities = obp60:true
[genPower]
label = Genarator Power [W]
type = number
default = 0.0
description = Generator power [0...10000W]
check = checkMinMax
min = 0.0
max = 10000.0
category = OBP60 Settings
capabilities = obp60:true
[trackStep]
label = angle [deg]
type = number
default = 3.0
description = track step offset [1...12deg]
check = checkMinMax
min = 1.0
max = 12.0
category = OBP60 Settings
capabilities = obp60:true
[calcTrueWnds]
label = Calculate True Wind
type = boolean
default = false
description = If not available, calculate true wind data from appearant wind and other boat data
category = OBP60 Settings
capabilities = obp60:true
[lengthFormat]
label = Length Format
type = list
default = m
description = Length format [m|ft]
list = m, ft
category = OBP60 Units
capabilities = obp60:true
[distanceFormat]
label = Distance Format
type = list
default = nm
description = Distance format [m|km|nm]
list = m, km, nm
category = OBP60 Units
capabilities = obp60:true
[speedFormat]
label = Speed Format
type = list
default = kn
description = Distance format [m/s|km/h|kn]
list = m/s, km/h, kn
category = OBP60 Units
capabilities = obp60:true
[windspeedFormat]
label = Wind Speed Format
type = list
default = kn
description = Wind speed format [m/s|km/h|kn|bft]
list = m/s, km/h, kn, bft
category = OBP60 Units
capabilities = obp60:true
[tempFormat]
label = Temperature Format
type = list
default = C
description = Temperature format [K|C|F]
list = K, C, F
category = OBP60 Units
capabilities = obp60:true
[dateFormat]
label = Date Format
type = list
default = DE
description = Date format [DE|GB|US|ISO] DE: 31.12.2022, GB: 31/12/2022, US: 12/31/2022, ISO: 2022-12-31
list = DE, GB, US, ISO
category = OBP60 Units
capabilities = obp60:true
[cpuSpeed]
label = CPU Speed [MHz]
type = list
default = 160
description = CPU speed in MHz [80|160|240]
list = 80, 160, 240
category = OBP60 Hardware
capabilities = obp60:true
[useRTC]
label = RTC Modul
type = list
default = DS1388
description = Use internal RTC module type [off|DS1388]
list = off, DS1388
category = OBP60 Hardware
capabilities = obp60:true
[useGPS]
label = GPS Sensor
type = list
default = ATGM336H
description = Use internal GPS module type [off|NEO-6M|NEO-M8N|ATGM336H]
list = off, NEO-6M, NEO-M8N, ATGM336H
category = OBP60 Hardware
capabilities = obp60:true
[hdopAccuracy]
label = HDOP Accuracy [m]
type = number
default = 20
description = HDOP ccuracy in m for a valid GPS signal [1...50]
check = checkMinMax
min = 1
max = 50
category = OBP60 Hardware
capabilities = obp60:true
[useEnvSensor]
label = Env. Sensor
type = list
default = BMP280
description = Use internal or external environment sensor via I2C bus [off|BME280|BMP280|BMP180|BMP085|HTU21|SHT21]
list = off, BME280, BMP280, BMP180, BMP085, HTU21, SHT21
category = OBP60 Hardware
capabilities = obp60:true
[usePowSensor1]
label = Battery Sensor
type = list
default = off
description = Use external power management sensor via I2C bus for battery [off|INA219|INA226|]
list = off, INA219, INA226
category = OBP60 Hardware
capabilities = obp60:true
[shunt1]
label = Battery Shunt
type = list
default = 10
description = Shunt current value [10A|50A|100A|200A|300A|400A|500A]
list = 10, 50, 100, 200, 300, 400, 500
category = OBP60 Hardware
capabilities = obp60:true
[usePowSensor2]
label = Solar Sensor
type = list
default = off
description = Use external power management sensor via I2C bus for solar panels [off|INA219|INA226|]
list = off, INA219, INA226
category = OBP60 Hardware
capabilities = obp60:true
[shunt2]
label = Solar Shunt
type = list
default = 10
description = Shunt current value [10A|50A|100A|200A|300A|400A|500A]
list = 10, 50, 100, 200, 300, 400, 500
category = OBP60 Hardware
capabilities = obp60:true
[usePowSensor3]
label = Gen. Sensor
type = list
default = off
description = Use external power management sensor via I2C bus for generator [off|INA219|INA226|]
list = off, INA219, INA226
category = OBP60 Hardware
capabilities = obp60:true
[shunt3]
label = Gen. Shunt
type = list
default = 10
description = Shunt current value [10A|50A|100A|200A|300A|400A|500A] @ 75mV
list = 10, 50, 100, 200, 300, 400, 500
category = OBP60 Hardware
capabilities = obp60:true
[useRotSensor]
label = Rot. Sensor
type = list
default = off
description = Use external rotation sensor via I2C bus [off|AS5600]
list = off, AS5600
category = OBP60 Hardware
capabilities = obp60:true
[rotFunction]
label = Rot. Function
type = list
default = off
description = Function for rotation sensor [off|Rudder|Wind|Mast|Keel|Trim|Boom]
list = off, Rudder, Wind, Mast, Keel, Trim, Boom
category = OBP60 Hardware
capabilities = obp60:true
[rotOffset]
label = Rot. Offset
type = number
default = 0
description = Offset for rotation sensor [-180°...+180°]
check = checkMinMax
min = -180
max = 180
category = OBP60 Hardware
capabilities = obp60:true
[rollLimit]
label = Roll Limit
type = number
default = 25
description = Limit violation for roll angle [-90°...+90°]
check = checkMinMax
min = -90
max = 90
category = OBP60 Hardware
capabilities = obp60:true
[rollOffset]
label = Roll Offset
type = number
default = 0
description = Roll offset angle [-45°...+45°]
check = checkMinMax
min = -45
max = 45
category = OBP60 Hardware
capabilities = obp60:true
[pitchOffset]
label = Pitch Offset
type = number
default = 0
description = Pitch offset angle [-45°...+45°]
check = checkMinMax
min = -45
max = 45
category = OBP60 Hardware
capabilities = obp60:true
[useTempSensor]
label = Temp. Sensor
type = boolean
default = off
description = Use max. 8 external 1Wire devices [off|DS18B20]
list = off, DS18B20
category = OBP60 Hardware
capabilities = obp60:true
[powerMode]
label = Power Mode
type = list
default = Max Power
description = Settings for power mode
list = Max Power, Only 5.0V, Min Power
category = OBP60 Hardware
capabilities = obp60:true
[underVoltage]
label = Undervoltage
type = boolean
default = false
description = Switch off device if voltage drops below 9V [on|off]
category = OBP60 Hardware
capabilities = obp60:true
[useSimuData]
label = Simulation Data
type = boolean
default = false
description = Use simulation data when bus data are missing [on|off]
category = OBP60 Hardware
capabilities = obp60:true
[tSensitivity]
label = Touch Sensitivity [%%]
type = number
default = 100
description = Touch sensitivity [0...100%%] for sensor buttons
check = checkMinMax
min = 0
max = 100
category = OBP60 Calibrations
capabilities = obp60:true
[vOffset]
label = VSensor Offset
type = number
default = -1.00
description = Offset for internal voltage sensor (ESP32)
category = OBP60 Calibrations
capabilities = obp60:true
[vSlope]
label = VSensor Slope
type = number
default = 1.00
description = Slope for internal voltage sensor (ESP32)
category = OBP60 Calibrations
capabilities = obp60:true
[calInstance1]
label = Calibration Data Instance 1
type = list
default = ---
description = Data instance for calibration
list = ---, %(calibration_fields)s
category = OBP60 Calibrations
capabilities = obp60:true
[calOffset1]
label = Data Instance 1 Calibration Offset
type = number
default = 0.00
description = Offset for data instance 1
category = OBP60 Calibrations
capabilities = obp60:true
condition = calInstance1 IN %(calibration_fields)s
[calSlope1]
label = Data Instance 1 Calibration Slope
type = number
default = 1.00
description = Slope for data instance 1
category = OBP60 Calibrations
capabilities = obp60:true
condition = calInstance1 IN %(calibration_fields)s
[calSmooth1]
label = Data Instance 1 Smoothing
type = number
default = 0
description = Smoothing factor [0..10]; 0 = no smoothing
check = checkMinMax
min = 0
max = 10
category = OBP60 Calibrations
capabilities = obp60:true
condition = calInstance1 IN %(calibration_fields)s
[calInstance2]
label = Calibration Data Instance 2
type = list
default = ---
description = Data instance for calibration
list = ---, %(calibration_fields)s
category = OBP60 Calibrations
capabilities = obp60:true
[calOffset2]
label = Data Instance 2 Calibration Offset
type = number
default = 0.00
description = Offset for data instance 2
category = OBP60 Calibrations
capabilities = obp60:true
condition = calInstance2 IN %(calibration_fields)s
[calSlope2]
label = Data Instance 2 Calibration Slope
type = number
default = 1.00
description = Slope for data instance 2
category = OBP60 Calibrations
capabilities = obp60:true
condition = calInstance2 IN %(calibration_fields)s
[calSmooth2]
label = Data Instance 2 Smoothing
type = number
default = 0
description = Smoothing factor [0..10]; 0 = no smoothing
check = checkMinMax
min = 0
max = 10
category = OBP60 Calibrations
capabilities = obp60:true
condition = calInstance2 IN %(calibration_fields)s
[calInstance3]
label = Calibration Data Instance 3
type = list
default = ---
description = Data instance for calibration
list = ---, %(calibration_fields)s
category = OBP60 Calibrations
capabilities = obp60:true
[calOffset3]
label = Data Instance 3 Calibration Offset
type = number
default = 0.00
description = Offset for data instance 3
category = OBP60 Calibrations
capabilities = obp60:true
condition = calinstance3 IN %(calibration_fields)s
[calSlope3]
label = Data Instance 3 Calibration Slope
type = number
default = 1.00
description = Slope for data instance 3
category = OBP60 Calibrations
capabilities = obp60:true
condition = calinstance3 IN %(calibration_fields)s
[calSmooth3]
label = Data Instance 3 Smoothing
type = number
default = 0
description = Smoothing factor [0..10]; 0 = no smoothing
check = checkMinMax
min = 0
max = 10
category = OBP60 Calibrations
capabilities = obp60:true
condition = calinstance3 IN %(calibration_fields)s
[display]
label = Display Mode
type = list
default = Logo + QR Code
description = Settings for startup display
list = White Screen, Logo, Logo + QR Code, Off
category = OBP60 Display
capabilities = obp60:true
[displaycolor]
label = Inverted Display Mode
type = list
default = Normal
description = Invert display to white letters on black background [Normal|Inverse]
list = Normal, Inverse
category = OBP60 Display
capabilities = obp60:true
[statusLine]
label = Status Line
type = boolean
default = true
description = Show status line [on|off]
category = OBP60 Display
capabilities = obp60:true
[timeSource]
label = Status Time Source
type = list
default = GPS
description = Data source for date and time display in status line [RTC|GPS]
dict =
RTC:Real time clock (RTC)
GPS:Time via bus (GPS)
category = OBP60 Display
capabilities = obp60:true
[refresh]
label = Refresh
type = boolean
default = true
description = Refresh e-paper display after each new page request to reduce ghost effects [on|off]
category = OBP60 Display
capabilities = obp60:true
[fastRefresh]
label = Fast Refresh
type = boolean
default = false
description = Fast refresh for e-paper display [on|off]
category = OBP60 Display
capabilities = obp60:true
[fullRefreshTime]
label = Full Refresh Time [min]
type = number
default = 1
description = E-Paper full refresh time all [1...10 min]
check = checkMinMax
min = 1
max = 10
category = OBP60 Display
capabilities = obp60:true
[holdvalues]
label = Hold Values
type = boolean
default = false
description = Retain old values when data stream stops [on|off]
category = OBP60 Display
capabilities = obp60:true
[valueprecision]
label = Display value precision
type = list
default = 2
description = Maximum number of decimal places to display [1|2]
list = 1, 2
category = OBP60 Display
capabilities = obp60:true
[headerFormat]
label = Header Format
type = list
default = TEXT
description = Header format: Text or Symbols
dict =
TEXT:Text
ICON:Symbols
category = OBP60 Pages
capabilities = obp60:true
[backlight]
label = Backlight Mode
type = list
default = Control by Key
description = Settings for automatic backlight mode
list = Off, Control by Sun, Control by Bus, Control by Time, Control by Key, On
category = OBP60 Display
capabilities = obp60:true
[blColor]
label = Backlight Color
type = list
default = Red
description = Backlight color
list = Red, Orange, Yellow, Green, Blue, Aqua, Violet, White
category = OBP60 Display
capabilities = obp60:true
[blBrightness]
label = Brightness [%%]
type = number
default = 50
description = Backlight brightness [20...100%%]
check = checkMinMax
min = 20
max = 100
category = OBP60 Display
capabilities = obp60:true
[flashLED]
label = Flash LED Mode
type = list
default = Limit Violation
description = Settings for flash LED
list = Off, Bus Data, GPS Fix Lost, Limit Violation
category = OBP60 Display
capabilities = obp60:true
[buzzerError]
label = Buzzer Error
type = boolean
default = false
description = Sound on error [on|off]
category = OBP60 Buzzer
capabilities = obp60:true
[buzzerGps]
label = Buzzer GPS Fix
type = boolean
default = false
description = Sound on missing or lost GPS fix
category = OBP60 Buzzer
capabilities = obp60:true
[buzzerLim]
label = Buzzer by Limits
type = boolean
default = false
description = Sound on limit violation
category = OBP60 Buzzer
capabilities = obp60:true
[buzzerMode]
label = Buzzer Mode
type = list
default = Off
description = Settings for buzzer behaviour
list = Off, Short Single Beep, Longer Single Beep, Beep until Confirmation
category = OBP60 Buzzer
capabilities = obp60:true
[buzzerPower]
label = Buzzer Power [%%]
type = number
default = 50
description = Buzzer loudness [0...100%%]
check = checkMinMax
min = 0
max = 100
category = OBP60 Buzzer
capabilities = obp60:true
[visiblePages]
label = Number of Pages
type = number
default = 10
description = Number of visible data pages [1...10]
check = checkMinMax
min = 1
max = 10
category = OBP60 Pages
capabilities = obp60:true
[startPage]
label = Start Page
type = number
default = 1
description = First page number to display after device startup
check = checkMinMax
min = 1
max = 10
category = OBP60 Pages
capabilities = obp60:true
[imageFormat]
label = Screenshot Format
type = list
default = PBM
description = Graphics file format for screenshots [GIF|PBM|BMP]
dict =
GIF:Compressed image (GIF)
PBM:Portable bitmap (PBM)
BMP:Windows bitmap (BMP)
category = OBP60 Pages
capabilities = obp60:true
# WIP
[trackerType]
label = Tracker Type
type = list
default = off
description = Type of tracker to use [OFF|SDCARD|SERVER|HERO]
dict = OFF:No tracker
SDCARD:Log to SD-Card
SERVER:Log to Server
HERO:Connect with Regatta Hero
category = OBP60 Pages
capabilities = obp60:true
[trackerOrganization]
label = Tracker team
type = string
default = demo
description = Tracker organization for login
category = OBP60 Pages
[trackerPasscode]
label = Tracker team
type = password
default = 291758
description = Your tracker team you belong to. E.g. short name of association
category = OBP60 Pages
[trackerTeam]
label = Tracker team
type = string
default = none
description = Your tracker team you belong to. E.g. short name of association
category = OBP60 Pages
[trackerHandicap]
label = Boat handicap
type = number
default = 100
check = checkMinMax
min = 50
max = 1000
description = The handicap value of your boat. E.g. yardstick value
category = OBP60 Pages
[boatName]
label = Boat Name
type = string
default = Unsinkbar II
description = name of your boat
category = OBP60 Pages
[boatClass]
label = Boat Class
type = string
default = One off
description = Class name of your boat if available or "One off"
category = OBP60 Pages
[sailNumber]
label = Sail number
type = string
default = GER 11
description = Identification number on sail
category = OBP60 Pages

426
lib/obp60task/obp60task.cpp
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@@ -1,6 +1,8 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "obp60task.h"
#include "Pagedata.h" // Data exchange for pages
#include "OBP60Formatter.h" // Data formatting for boat values
#include "OBP60Hardware.h" // PIN definitions
#include <Wire.h> // I2C connections
#include <MCP23017.h> // MCP23017 extension Port
@@ -11,8 +13,12 @@
#include <NMEA0183Messages.h>
#include <GxEPD2_BW.h> // GxEPD2 lib for b/w E-Ink displays
#include "OBP60Extensions.h" // Functions lib for extension board
#include "OBP60Keypad.h" // Functions for keypad
#include "OBPKeyboardTask.h" // Functions lib for keyboard handling
#include "OBPDataOperations.h" // Functions lib for data operations such as true wind calculation
#include "OBP60QRWiFi.h" // Functions lib for WiFi QR code
#include "OBPSensorTask.h" // Functions lib for sensor data
#include "freertos/task.h" // WIP possible unused
#ifdef BOARD_OBP40S3
#include "driver/rtc_io.h" // Needs for weakup from deep sleep
@@ -20,12 +26,8 @@
#endif
// Pictures
//#include GxEPD_BitmapExamples // Example picture
#include "MFD_OBP60_400x300_sw.h" // MFD with logo
#include "Logo_OBP_400x300_sw.h" // OBP Logo
#include "images/OBP_400x300.xbm" // OBP Logo
#include "images/unknown.xbm" // unknown page indicator
#include "OBP60QRWiFi.h" // Functions lib for WiFi QR code
#include "OBPSensorTask.h" // Functions lib for sensor data
// Global vars
bool initComplete = false; // Initialization complete
@@ -63,15 +65,15 @@ void OBP60Init(GwApi *api){
#endif
// Settings for e-paper display
String fastrefresh = api->getConfig()->getConfigItem(api->getConfig()->fastRefresh,true)->asString();
String fastrefresh = config->getConfigItem(config->fastRefresh,true)->asString();
logger->logDebug(GwLog::DEBUG, "Fast Refresh Mode is: %s", fastrefresh.c_str());
#ifdef DISPLAY_GDEY042T81
#ifdef DISPLAY_GDEY042T81
if(fastrefresh == "true"){
static const bool useFastFullUpdate = true; // Enable fast full display update only for GDEY042T81
}
#endif
#endif
#ifdef BOARD_OBP60S3
#ifdef BOARD_OBP60S3
touchSleepWakeUpEnable(TP1, 45); // TODO sensitivity should be configurable via web interface
touchSleepWakeUpEnable(TP2, 45);
touchSleepWakeUpEnable(TP3, 45);
@@ -79,31 +81,31 @@ void OBP60Init(GwApi *api){
touchSleepWakeUpEnable(TP5, 45);
touchSleepWakeUpEnable(TP6, 45);
esp_sleep_enable_touchpad_wakeup();
#endif
#endif
// Get CPU speed
int freq = getCpuFrequencyMhz();
logger->logDebug(GwLog::LOG,"CPU speed at boot: %i MHz", freq);
// Settings for backlight
String backlightMode = api->getConfig()->getConfigItem(api->getConfig()->backlight,true)->asString();
logger->logDebug(GwLog::DEBUG,"Backlight Mode is: %s", backlightMode.c_str());
uint brightness = uint(api->getConfig()->getConfigItem(api->getConfig()->blBrightness,true)->asInt());
String backlightColor = api->getConfig()->getConfigItem(api->getConfig()->blColor,true)->asString();
if(String(backlightMode) == "On"){
setBacklightLED(brightness, colorMapping(backlightColor));
String backlightMode = config->getConfigItem(config->backlight,true)->asString();
logger->logDebug(GwLog::DEBUG, "Backlight Mode is: %s", backlightMode.c_str());
uint brightness = uint(config->getConfigItem(config->blBrightness,true)->asInt());
String backlightColor = config->getConfigItem(config->blColor,true)->asString();
if (backlightMode == "On") {
setBacklightLED(brightness, colorMapping(backlightColor));
}
else if(String(backlightMode) == "Off"){
setBacklightLED(0, COLOR_BLACK); // Backlight LEDs off (blue without britghness)
else if (backlightMode == "Off") {
setBacklightLED(0, COLOR_BLACK); // Backlight LEDs off (blue without britghness)
}
else if(String(backlightMode) == "Control by Key"){
setBacklightLED(0, COLOR_BLUE); // Backlight LEDs off (blue without britghness)
else if (backlightMode == "Control by Key") {
setBacklightLED(0, COLOR_BLUE); // Backlight LEDs off (blue without britghness)
}
// Settings flash LED mode
String ledMode = api->getConfig()->getConfigItem(api->getConfig()->flashLED,true)->asString();
String ledMode = config->getConfigItem(config->flashLED,true)->asString();
logger->logDebug(GwLog::DEBUG,"LED Mode is: %s", ledMode.c_str());
if(String(ledMode) == "Off"){
if (ledMode == "Off") {
setBlinkingLED(false);
}
@@ -112,41 +114,32 @@ void OBP60Init(GwApi *api){
initComplete = true;
// Buzzer tone for initialization finish
setBuzzerPower(uint(api->getConfig()->getConfigItem(api->getConfig()->buzzerPower,true)->asInt()));
setBuzzerPower(uint(config->getConfigItem(config->buzzerPower,true)->asInt()));
buzzer(TONE4, 500);
}
typedef struct {
int page0=0;
QueueHandle_t queue;
GwLog* logger = nullptr;
// GwApi* api = nullptr;
uint sensitivity = 100;
bool use_syspage = true;
} MyData;
/* ux-functions not working WTF?
bool listTasks(GwLog *logger) {
UBaseType_t taskCount = uxTaskGetNumberOfTasks();
TaskStatus_t *taskStatusArray;
// Keyboard Task
void keyboardTask(void *param){
MyData *data=(MyData *)param;
int keycode = 0;
data->logger->logDebug(GwLog::LOG,"Start keyboard task");
// Loop for keyboard task
while (true){
keycode = readKeypad(data->logger, data->sensitivity, data->use_syspage);
//send a key event
if(keycode != 0){
xQueueSend(data->queue, &keycode, 0);
data->logger->logDebug(GwLog::LOG,"Send keycode: %d", keycode);
taskStatusArray = (TaskStatus_t *)pvPortMalloc(taskCount * sizeof(TaskStatus_t));
if (taskStatusArray != NULL) {
taskCount = uxTaskGetSystemState(taskStatusArray, taskCount, NULL);
for (UBaseType_t i = 0; i < taskCount; i++) {
logger->logDebug(GwLog::LOG, "Task Name: %s (Stack=%d)", taskStatusArray[i].pcTaskName,
taskStatusArray[i].usStackHighWaterMark);
// more fields in task status
// xHandle, uxCurrentPriority, uxBasePriority, usStackHighWaterMark
}
delay(20); // 50Hz update rate (20ms)
vPortFree(taskStatusArray);
return true;
}
vTaskDelete(NULL);
}
logger->logDebug(GwLog::ERROR, "Failed to allocate memory for task list");
return false;
} */
// --- Class BoatValueList --------------
bool BoatValueList::addValueToList(GwApi::BoatValue *v){
for (int i=0;i<numValues;i++){
if (allBoatValues[i] == v){
@@ -159,6 +152,7 @@ bool BoatValueList::addValueToList(GwApi::BoatValue *v){
numValues++;
return true;
}
//helper to ensure that each BoatValue is only queried once
GwApi::BoatValue *BoatValueList::findValueOrCreate(String name){
for (int i=0;i<numValues;i++){
@@ -170,7 +164,6 @@ GwApi::BoatValue *BoatValueList::findValueOrCreate(String name){
addValueToList(rt);
return rt;
}
// --- End Class BoatValueList --------------
//we want to have a list that has all our page definitions
//this way each page can easily be added here
@@ -197,12 +190,13 @@ class PageList{
* each page should have defined a registerXXXPage variable of type
* PageData that describes what it needs
*/
void registerAllPages(PageList &list){
void registerAllPages(GwLog *logger, PageList &list){
//the next line says that this variable is defined somewhere else
//in our case in a separate C++ source file
//this way this separate source file can be compiled by it's own
//and has no access to any of our data except the one that we
//give as a parameter to the page function
logger->logDebug(GwLog::LOG, "Memory before registering pages: stack=%d, heap=%d", uxTaskGetStackHighWaterMark(NULL), ESP.getFreeHeap());
extern PageDescription registerPageSystem;
//we add the variable to our list
list.add(&registerPageSystem);
@@ -262,8 +256,15 @@ void registerAllPages(PageList &list){
list.add(&registerPageNavigation);
extern PageDescription registerPageDigitalOut;
list.add(&registerPageDigitalOut);
extern PageDescription registerPageAutopilot;
list.add(&registerPageAutopilot);
extern PageDescription registerPageAnchor;
list.add(&registerPageAnchor);
extern PageDescription registerPageAIS;
list.add(&registerPageAIS);
extern PageDescription registerPageBarograph;
list.add(&registerPageBarograph);
extern PageDescription registerPageTracker;
list.add(&registerPageTracker);
logger->logDebug(GwLog::LOG,"Memory after registering pages: stack=%d, heap=%d", uxTaskGetStackHighWaterMark(NULL), ESP.getFreeHeap());
}
// Undervoltage detection for shutdown display
@@ -274,18 +275,18 @@ void underVoltageError(CommonData &common) {
setFlashLED(false); // Flash LED Off
buzzer(TONE4, 20); // Buzzer tone 4kHz 20ms
// Shutdown EInk display
getdisplay().setFullWindow(); // Set full Refresh
//getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().fillScreen(common.bgcolor);// Clear screen
getdisplay().setTextColor(common.fgcolor);
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(65, 150);
getdisplay().print("Undervoltage");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(65, 175);
getdisplay().print("Charge battery and restart system");
getdisplay().nextPage(); // Partial update
getdisplay().powerOff(); // Display power off
epd->setFullWindow(); // Set full Refresh
//epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
epd->fillScreen(common.bgcolor);// Clear screen
epd->setTextColor(common.fgcolor);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(65, 150);
epd->print("Undervoltage");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(65, 175);
epd->print("Charge battery and restart system");
epd->nextPage(); // Partial update
epd->powerOff(); // Display power off
setPortPin(OBP_POWER_EPD, false); // Power off ePaper display
setPortPin(OBP_POWER_SD, false); // Power off SD card
#else
@@ -295,17 +296,17 @@ void underVoltageError(CommonData &common) {
buzzer(TONE4, 20); // Buzzer tone 4kHz 20ms
setPortPin(OBP_POWER_50, false); // Power rail 5.0V Off
// Shutdown EInk display
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().fillScreen(common.bgcolor);// Clear screen
getdisplay().setTextColor(common.fgcolor);
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(65, 150);
getdisplay().print("Undervoltage");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(65, 175);
getdisplay().print("To wake up repower system");
getdisplay().nextPage(); // Partial update
getdisplay().powerOff(); // Display power off
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
epd->fillScreen(common.bgcolor);// Clear screen
epd->setTextColor(common.fgcolor);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(65, 150);
epd->print("Undervoltage");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(65, 175);
epd->print("To wake up repower system");
epd->nextPage(); // Partial update
epd->powerOff(); // Display power off
#endif
while (true) {
esp_deep_sleep_start(); // Deep Sleep without wakeup. Wakeup only after power cycle (restart).
@@ -315,10 +316,10 @@ void underVoltageError(CommonData &common) {
inline bool underVoltageDetection(float voffset, float vslope) {
// Read supply voltage
#if defined VOLTAGE_SENSOR && defined LIPO_ACCU_1200
float actVoltage = (float(analogRead(OBP_ANALOG0)) * 3.3 / 4096 + 0.53) * 2; // Vin = 1/2 for OBP40
float actVoltage = (float(analogRead(OBP_ANALOG0)) * 3.3 / 4096 + 0.53) * 2; // Vin = 1/2 for OBP40
float minVoltage = 3.65; // Absolut minimum volatge for 3,7V LiPo accu
#else
float actVoltage = (float(analogRead(OBP_ANALOG0)) * 3.3 / 4096 + 0.17) * 20; // Vin = 1/20 for OBP60
float actVoltage = (float(analogRead(OBP_ANALOG0)) * 3.3 / 4096 + 0.17) * 20; // Vin = 1/20 for OBP60
float minVoltage = MIN_VOLTAGE;
#endif
float calVoltage = actVoltage * vslope + voffset; // Calibration
@@ -330,18 +331,19 @@ inline bool underVoltageDetection(float voffset, float vslope) {
void OBP60Task(GwApi *api){
// vTaskDelete(NULL);
// return;
GwLog *logger=api->getLogger();
GwConfigHandler *config=api->getConfig();
#if defined HARDWARE_V20 || HARDWARE_V21
GwLog *logger = api->getLogger();
GwConfigHandler *config = api->getConfig();
#ifdef HARDWARE_V21
startLedTask(api);
#endif
PageList allPages;
registerAllPages(allPages);
registerAllPages(logger, allPages);
CommonData commonData;
commonData.logger=logger;
commonData.config=config;
commonData.logger = logger;
commonData.config = config;
commonData.fmt = new Formatter(config);
#if defined HARDWARE_V20 || HARDWARE_V21
#ifdef HARDWARE_V21
// Keyboard coordinates for page footer
initKeys(commonData);
#endif
@@ -354,8 +356,8 @@ void OBP60Task(GwApi *api){
}
// Init E-Ink display
String displaymode = api->getConfig()->getConfigItem(api->getConfig()->display,true)->asString();
String displaycolor = api->getConfig()->getConfigItem(api->getConfig()->displaycolor,true)->asString();
String displaymode = config->getConfigItem(config->display,true)->asString();
String displaycolor = config->getConfigItem(config->displaycolor,true)->asString();
if (displaycolor == "Normal") {
commonData.fgcolor = GxEPD_BLACK;
commonData.bgcolor = GxEPD_WHITE;
@@ -364,47 +366,48 @@ void OBP60Task(GwApi *api){
commonData.fgcolor = GxEPD_WHITE;
commonData.bgcolor = GxEPD_BLACK;
}
String systemname = api->getConfig()->getConfigItem(api->getConfig()->systemName,true)->asString();
String wifipass = api->getConfig()->getConfigItem(api->getConfig()->apPassword,true)->asString();
bool refreshmode = api->getConfig()->getConfigItem(api->getConfig()->refresh,true)->asBoolean();
String fastrefresh = api->getConfig()->getConfigItem(api->getConfig()->fastRefresh,true)->asString();
uint fullrefreshtime = uint(api->getConfig()->getConfigItem(api->getConfig()->fullRefreshTime,true)->asInt());
#ifdef BOARD_OBP40S3
String systemname = config->getConfigItem(config->systemName, true)->asString();
String wifipass = config->getConfigItem(config->apPassword, true)->asString();
bool refreshmode = config->getConfigItem(config->refresh, true)->asBoolean();
bool symbolmode = (config->getString(config->headerFormat) == "ICON");
String fastrefresh = config->getConfigItem(config->fastRefresh, true)->asString();
uint fullrefreshtime = uint(config->getConfigItem(config->fullRefreshTime, true)->asInt());
#ifdef BOARD_OBP40S3
bool syspage_enabled = config->getBool(config->systemPage);
#endif
#endif
#ifdef DISPLAY_GDEY042T81
getdisplay().init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
#endif
#ifdef DISPLAY_GDEY042T81
epd->init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
epd->init(115200); // Init for normal displays
#endif
getdisplay().setRotation(0); // Set display orientation (horizontal)
getdisplay().setFullWindow(); // Set full Refresh
getdisplay().firstPage(); // set first page
getdisplay().fillScreen(commonData.bgcolor);
getdisplay().setTextColor(commonData.fgcolor);
getdisplay().nextPage(); // Full Refresh
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().fillScreen(commonData.bgcolor);
getdisplay().nextPage(); // Fast Refresh
getdisplay().nextPage(); // Fast Refresh
epd->setRotation(0); // Set display orientation (horizontal)
epd->setFullWindow(); // Set full Refresh
epd->firstPage(); // set first page
epd->fillScreen(commonData.bgcolor);
epd->setTextColor(commonData.fgcolor);
epd->nextPage(); // Full Refresh
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
epd->fillScreen(commonData.bgcolor);
epd->nextPage(); // Fast Refresh
epd->nextPage(); // Fast Refresh
if(String(displaymode) == "Logo + QR Code" || String(displaymode) == "Logo"){
getdisplay().fillScreen(commonData.bgcolor);
getdisplay().drawBitmap(0, 0, gImage_Logo_OBP_400x300_sw, getdisplay().width(), getdisplay().height(), commonData.fgcolor); // Draw start logo
getdisplay().nextPage(); // Fast Refresh
getdisplay().nextPage(); // Fast Refresh
epd->fillScreen(commonData.bgcolor);
epd->drawXBitmap(0, 0, OBP_400x300_bits, OBP_400x300_width, OBP_400x300_height, commonData.fgcolor);
epd->nextPage(); // Fast Refresh
epd->nextPage(); // Fast Refresh
delay(SHOW_TIME); // Logo show time
if(String(displaymode) == "Logo + QR Code"){
getdisplay().fillScreen(commonData.bgcolor);
epd->fillScreen(commonData.bgcolor);
qrWiFi(systemname, wifipass, commonData.fgcolor, commonData.bgcolor); // Show QR code for WiFi connection
getdisplay().nextPage(); // Fast Refresh
getdisplay().nextPage(); // Fast Refresh
epd->nextPage(); // Fast Refresh
epd->nextPage(); // Fast Refresh
delay(SHOW_TIME); // QR code show time
}
getdisplay().fillScreen(commonData.bgcolor);
getdisplay().nextPage(); // Fast Refresh
getdisplay().nextPage(); // Fast Refresh
epd->fillScreen(commonData.bgcolor);
epd->nextPage(); // Fast Refresh
epd->nextPage(); // Fast Refresh
}
// Init pages
@@ -432,7 +435,7 @@ void OBP60Task(GwApi *api){
#endif
LOG_DEBUG(GwLog::LOG,"...done");
int lastPage=-1; // initialize with an impiossible value, so we can detect wether we are during startup and no page has been displayed yet
int lastPage=-1; // initialize with an impossible value, so we can detect wether we are during startup and no page has been displayed yet
BoatValueList boatValues; //all the boat values for the api query
HstryBuffers hstryBufferList(1920, &boatValues, logger); // Create empty list of boat data history buffers (1.920 values = seconds = 32 min.)
@@ -505,46 +508,46 @@ void OBP60Task(GwApi *api){
doImageRequest(api, &pageNumber, pages, request);
});
//now we have prepared the page data
//we start a separate task that will fetch our keys...
MyData allParameters;
allParameters.logger=api->getLogger();
allParameters.page0=3;
allParameters.queue=xQueueCreate(10,sizeof(int));
allParameters.sensitivity= api->getConfig()->getInt(GwConfigDefinitions::tSensitivity);
#ifdef BOARD_OBP40S3
allParameters.use_syspage = syspage_enabled;
#endif
xTaskCreate(keyboardTask,"keyboard",2000,&allParameters,configMAX_PRIORITIES-1,NULL);
SharedData *shared=new SharedData(api);
// now we have prepared the page data
// we start a separate task that will fetch our keys...
KbTaskData kbparams;
kbparams.logger = api->getLogger();
kbparams.queue = xQueueCreate(10, sizeof(int));
kbparams.sensitivity = api->getConfig()->getInt(GwConfigDefinitions::tSensitivity);
#ifdef BOARD_OBP40S3
kbparams.use_syspage = syspage_enabled;
#endif
createKeyboardTask(&kbparams);
// we start a separate task to collect sensor data
SharedData *shared = new SharedData(api);
createSensorTask(shared);
// Task Loop
//####################################################################################
// Configuration values for main loop
String gpsFix = api->getConfig()->getConfigItem(api->getConfig()->flashLED,true)->asString();
String gpsOn=api->getConfig()->getConfigItem(api->getConfig()->useGPS,true)->asString();
float tz = api->getConfig()->getConfigItem(api->getConfig()->timeZone,true)->asFloat();
String gpsFix = config->getConfigItem(config->flashLED,true)->asString();
String gpsOn = config->getConfigItem(config->useGPS,true)->asString();
float tz = config->getConfigItem(config->timeZone,true)->asFloat();
commonData.backlight.mode = backlightMapping(config->getConfigItem(config->backlight,true)->asString());
commonData.backlight.color = colorMapping(config->getConfigItem(config->blColor,true)->asString());
commonData.backlight.brightness = uint(config->getConfigItem(config->blBrightness,true)->asInt());
commonData.powermode = api->getConfig()->getConfigItem(api->getConfig()->powerMode,true)->asString();
commonData.backlight.mode = backlightMapping(config->getConfigItem(config->backlight, true)->asString());
commonData.backlight.color = colorMapping(config->getConfigItem(config->blColor, true)->asString());
commonData.backlight.brightness = 2.55 * uint(config->getConfigItem(config->blBrightness, true)->asInt());
commonData.powermode = api->getConfig()->getConfigItem(api->getConfig()->powerMode, true)->asString();
bool uvoltage = config->getConfigItem(config->underVoltage, true)->asBoolean();
float voffset = (config->getConfigItem(config->vOffset,true)->asString()).toFloat();
float vslope = (config->getConfigItem(config->vSlope,true)->asString()).toFloat();
String cpuspeed = api->getConfig()->getConfigItem(api->getConfig()->cpuSpeed,true)->asString();
uint hdopAccuracy = uint(api->getConfig()->getConfigItem(api->getConfig()->hdopAccuracy,true)->asInt());
String cpuspeed = config->getConfigItem(config->cpuSpeed, true)->asString();
uint hdopAccuracy = uint(config->getConfigItem(config->hdopAccuracy, true)->asInt());
double homelat = commonData.config->getString(commonData.config->homeLAT).toDouble();
double homelon = commonData.config->getString(commonData.config->homeLON).toDouble();
double homelat = config->getString(config->homeLAT).toDouble();
double homelon = config->getString(config->homeLON).toDouble();
bool homevalid = homelat >= -180.0 and homelat <= 180 and homelon >= -90.0 and homelon <= 90.0;
if (homevalid) {
LOG_DEBUG(GwLog::LOG, "Home location set to lat=%f, lon=%f", homelat, homelon);
logger->logDebug(GwLog::LOG, "Home location set to lat=%f, lon=%f", homelat, homelon);
} else {
LOG_DEBUG(GwLog::LOG, "No valid home location found");
logger->logDebug(GwLog::LOG, "No valid home location found");
}
// refreshmode defined in init section
@@ -572,6 +575,8 @@ void OBP60Task(GwApi *api){
pages[pageNumber].page->setupKeys(); // Initialize keys for first page
// listTasks(logger);
// Main loop runs with 100ms
//####################################################################################
@@ -623,7 +628,7 @@ void OBP60Task(GwApi *api){
// Check the keyboard message
int keyboardMessage=0;
while (xQueueReceive(allParameters.queue,&keyboardMessage,0)){
while (xQueueReceive(kbparams.queue,&keyboardMessage, 0)) {
LOG_DEBUG(GwLog::LOG,"new key from keyboard %d",keyboardMessage);
keypressed = true;
@@ -656,15 +661,17 @@ void OBP60Task(GwApi *api){
// if(String(backlight) == "Control by Key"){
if(keyboardMessage == 6){
LOG_DEBUG(GwLog::LOG,"Toggle Backlight LED");
// TODO config: toogle vs steps
// toggleBacklightLED(commonData.backlight.brightness, commonData.backlight.color);
stepsBacklightLED(commonData.backlight.brightness, commonData.backlight.color);
}
}
#ifdef BOARD_OBP40S3
#ifdef BOARD_OBP40S3
// #3 Deep sleep mode for OBP40
if ((keyboardMessage == 3) and !syspage_enabled){
deepSleep(commonData);
}
#endif
#endif
// #9 Swipe right or #4 key right
if ((keyboardMessage == 9) or (keyboardMessage == 4))
{
@@ -719,27 +726,26 @@ void OBP60Task(GwApi *api){
}
// Full display update afer a new selected page and 8s wait time
if(millis() > starttime4 + 8000 && delayedDisplayUpdate == true){
if (millis() > starttime4 + 8000 && delayedDisplayUpdate == true) {
starttime1 = millis();
starttime2 = millis();
getdisplay().setFullWindow(); // Set full update
epd->setFullWindow(); // Set full update
if(fastrefresh == "true"){
getdisplay().nextPage(); // Full update
epd->nextPage(); // Full update
}
else{
getdisplay().fillScreen(commonData.fgcolor); // Clear display
#ifdef DISPLAY_GDEY042T81
getdisplay().hibernate(); // Set display in hybenate mode
getdisplay().init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
#endif
getdisplay().firstPage(); // Full update
getdisplay().nextPage(); // Full update
// getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
// getdisplay().fillScreen(commonData.bgcolor); // Clear display
// getdisplay().nextPage(); // Partial update
// getdisplay().nextPage(); // Partial update
epd->fillScreen(commonData.fgcolor); // Clear display
#ifdef DISPLAY_GDEY042T81
epd->init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
epd->init(115200); // Init for normal displays
#endif
epd->firstPage(); // Full update
epd->nextPage(); // Full update
// epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
// epd->fillScreen(commonData.bgcolor); // Clear display
// epd->nextPage(); // Partial update
// epd->nextPage(); // Partial update
}
delayedDisplayUpdate = false;
}
@@ -750,24 +756,23 @@ void OBP60Task(GwApi *api){
starttime1 = millis();
starttime2 = millis();
LOG_DEBUG(GwLog::DEBUG,"E-Ink full refresh first 5 min");
getdisplay().setFullWindow(); // Set full update
epd->setFullWindow(); // Set full update
if(fastrefresh == "true"){
getdisplay().nextPage(); // Full update
epd->nextPage(); // Full update
}
else{
getdisplay().fillScreen(commonData.fgcolor); // Clear display
#ifdef DISPLAY_GDEY042T81
getdisplay().hibernate(); // Set display in hybenate mode
getdisplay().init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
#endif
getdisplay().firstPage(); // Full update
getdisplay().nextPage(); // Full update
// getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
// getdisplay().fillScreen(commonData.bgcolor); // Clear display
// getdisplay().nextPage(); // Partial update
// getdisplay().nextPage(); // Partial update
epd->fillScreen(commonData.fgcolor); // Clear display
#ifdef DISPLAY_GDEY042T81
epd->init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
epd->init(115200); // Init for normal displays
#endif
epd->firstPage(); // Full update
epd->nextPage(); // Full update
// epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
// epd->fillScreen(commonData.bgcolor); // Clear display
// epd->nextPage(); // Partial update
// epd->nextPage(); // Partial update
}
}
@@ -775,24 +780,23 @@ void OBP60Task(GwApi *api){
if(millis() > starttime2 + fullrefreshtime * 60 * 1000){
starttime2 = millis();
LOG_DEBUG(GwLog::DEBUG,"E-Ink full refresh");
getdisplay().setFullWindow(); // Set full update
epd->setFullWindow(); // Set full update
if(fastrefresh == "true"){
getdisplay().nextPage(); // Full update
epd->nextPage(); // Full update
}
else{
getdisplay().fillScreen(commonData.fgcolor); // Clear display
#ifdef DISPLAY_GDEY042T81
getdisplay().hibernate(); // Set display in hybenate mode
getdisplay().init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
#endif
getdisplay().firstPage(); // Full update
getdisplay().nextPage(); // Full update
// getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
// getdisplay().fillScreen(commonData.bgcolor); // Clear display
// getdisplay().nextPage(); // Partial update
// getdisplay().nextPage(); // Partial update
epd->fillScreen(commonData.fgcolor); // Clear display
#ifdef DISPLAY_GDEY042T81
epd->init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
epd->init(115200); // Init for normal displays
#endif
epd->firstPage(); // Full update
epd->nextPage(); // Full update
// epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
// epd->fillScreen(commonData.bgcolor); // Clear display
// epd->nextPage(); // Partial update
// epd->nextPage(); // Partial update
}
}
@@ -818,13 +822,13 @@ void OBP60Task(GwApi *api){
hstryBufferList.handleHstryBufs(useSimuData, commonData); // Handle history buffers for certain boat data for windplot page and other usage
// Clear display
// getdisplay().fillRect(0, 0, getdisplay().width(), getdisplay().height(), commonData.bgcolor);
getdisplay().fillScreen(commonData.bgcolor); // Clear display
// epd->fillRect(0, 0, epd->width(), epd->height(), commonData.bgcolor);
epd->fillScreen(commonData.bgcolor); // Clear display
// Show header if enabled
if (pages[pageNumber].description && pages[pageNumber].description->header or systemPage){
// build header using commonData
displayHeader(commonData, date, time, hdop); // Show page header
displayHeader(commonData, symbolmode, date, time, hdop); // Show page header
}
// Call the particular page
@@ -842,20 +846,20 @@ void OBP60Task(GwApi *api){
if (currentPage == NULL){
LOG_DEBUG(GwLog::ERROR,"page number %d not found", pageNumber);
// Error handling for missing page
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().fillScreen(commonData.bgcolor); // Clear display
getdisplay().drawXBitmap(200 - unknown_width / 2, 150 - unknown_height / 2, unknown_bits, unknown_width, unknown_height, commonData.fgcolor);
getdisplay().setCursor(140, 250);
getdisplay().setFont(&Atari16px);
getdisplay().print("Here be dragons!");
getdisplay().nextPage(); // Partial update (fast)
epd->setPartialWindow(0, 0, epd->width(), epd->height()); // Set partial update
epd->fillScreen(commonData.bgcolor); // Clear display
epd->drawXBitmap(200 - unknown_width / 2, 150 - unknown_height / 2, unknown_bits, unknown_width, unknown_height, commonData.fgcolor);
epd->setCursor(140, 250);
epd->setFont(&Atari16px);
epd->print("Here be dragons!");
epd->nextPage(); // Partial update (fast)
}
else{
if (lastPage != pageNumber){
if (lastPage != -1){ // skip cleanup if we are during startup, and no page has been displayed yet.
else {
if (lastPage != pageNumber) {
if (lastPage != -1) { // skip cleanup if we are during startup, and no page has been displayed yet
pages[lastPage].page->leavePage(pages[lastPage].parameters); // call page cleanup code
if (hasFRAM) fram.write(FRAM_PAGE_NO, pageNumber); // remember new page for device restart
}
}
currentPage->setupKeys();
currentPage->displayNew(pages[pageNumber].parameters);
lastPage = pageNumber;
@@ -871,10 +875,10 @@ void OBP60Task(GwApi *api){
displayAlarm(commonData);
}
if (ret & PAGE_UPDATE) {
getdisplay().nextPage(); // Partial update (fast)
epd->nextPage(); // Partial update (fast)
}
if (ret & PAGE_HIBERNATE) {
getdisplay().hibernate();
epd->hibernate();
}
}

1
lib/obp60task/obp60task.h
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#pragma once
#include "GwApi.h"
//we only compile for some boards

15
lib/obp60task/platformio.ini
View File

@@ -8,7 +8,6 @@ default_envs =
obp40_s3
[env:obp60_s3]
platform = espressif32@6.8.1
board_build.variants_dir = variants
#board = obp60_s3_n8 #ESP32-S3 N8, 8MB flash, no PSRAM
#board = obp60_s3_n16 #ESP32-S3 N16,16MB flash, no PSRAM, zero series
@@ -18,6 +17,7 @@ board = obp60_s3_n16r8 #ESP32-S3 N16R8, 16MB flash, 8MB PSRAM, production serie
board_build.partitions = default_16MB.csv #ESP32-S3 N16, 16MB flash
custom_config = lib/obp60task/config_obp60.json
custom_script = lib/obp60task/extra_task.py
board_name = OBP60
framework = arduino
lib_deps =
${basedeps.lib_deps}
@@ -26,14 +26,11 @@ lib_deps =
ESP32time
HTTPClient
WiFiClientSecure
esphome/AsyncTCP-esphome@2.0.1
robtillaart/PCF8574@0.3.9
adafruit/Adafruit Unified Sensor @ 1.1.13
blemasle/MCP23017@2.0.0
adafruit/Adafruit BusIO@1.5.0
adafruit/Adafruit GFX Library@1.11.9
#zinggjm/GxEPD2@1.5.8
#https://github.com/ZinggJM/GxEPD2
https://github.com/thooge/GxEPD2
sstaub/Ticker@4.4.0
adafruit/Adafruit BMP280 Library@2.6.2
@@ -66,29 +63,25 @@ upload_speed = 230400
monitor_speed = 115200
[env:obp40_s3]
platform = espressif32@6.8.1
board_build.variants_dir = variants
board = obp40_s3_n8r8 #ESP32-S3 N8R8, 8MB flash, 8MB PSRAM, OBP60 clone (CrowPanel 4.2)
board_build.partitions = default_8MB.csv #ESP32-S3 N8, 8MB flash
custom_config = lib/obp60task/config_obp40.json
custom_script = lib/obp60task/extra_task.py
board_name = OBP40
framework = arduino
lib_deps =
${basedeps.lib_deps}
Wire
SPI
SD
ESP32time
HTTPClient
WiFiClientSecure
esphome/AsyncTCP-esphome@2.0.1
robtillaart/PCF8574@0.3.9
adafruit/Adafruit Unified Sensor @ 1.1.13
blemasle/MCP23017@2.0.0
adafruit/Adafruit BusIO@1.5.0
adafruit/Adafruit GFX Library@1.11.9
#zinggjm/GxEPD2@1.5.8
#https://github.com/ZinggJM/GxEPD2
https://github.com/thooge/GxEPD2
sstaub/Ticker@4.4.0
adafruit/Adafruit BMP280 Library@2.6.2
@@ -106,8 +99,8 @@ build_flags=
-D HARDWARE_V10 #OBP40 hardware revision V1.0 SKU:DIE07300S V1.1 (CrowPanel 4.2)
-D DISPLAY_GDEY042T81 #new E-Ink display from Good Display (Waveshare), R10 2.2 ohm - good (contast lost by shunshine)
#-D DISPLAY_ZJY400300-042CAAMFGN #alternativ E-Ink display from ZZE Technology, R10 2.2 ohm - very good
-D LIPO_ACCU_1200 #Hardware extension, LiPo accu 3,7V 1200mAh
-D VOLTAGE_SENSOR #Hardware extension, LiPo voltage sensor with two resistors
# -D LIPO_ACCU_1200 #Hardware extension, LiPo accu 3,7V 1200mAh
# -D VOLTAGE_SENSOR #Hardware extension, LiPo voltage sensor with two resistors
${env.build_flags}
upload_port = /dev/ttyUSB0 #OBP40 download via external USB/Serail converter
upload_protocol = esptool #firmware upload via USB OTG seriell, by first upload need to set the ESP32-S3 in the upload mode with shortcut GND to Pin27

2
lib/obp60task/run_install_tools
View File

@@ -8,6 +8,6 @@
# Install tools
echo "Installing tools"
cd /workspace/esp32-nmea2000
cd /workspaces/esp32-nmea2000
pip3 install -U esptool
pip3 install platformio

17
lib/obp60task/utils/auto_version.py Normal file
View File

@@ -0,0 +1,17 @@
import subprocess
# Import("env")
def get_firmware_specifier_build_flag():
#ret = subprocess.run(["git", "describe"], stdout=subprocess.PIPE, text=True) #Uses only annotated tags
ret = subprocess.run(["git", "describe", "--tags"], stdout=subprocess.PIPE, text=True) #Uses any tags
build_version = ret.stdout.strip()
build_flag = "-D AUTO_VERSION=\\\"" + build_version + "\\\""
print ("Firmware Revision: " + build_version)
return (build_flag)
#env.Append(
# BUILD_FLAGS=[get_firmware_specifier_build_flag()]
#)
get_firmware_specifier_build_flag()

172
lib/obp60task/utils/make_json.py Executable file
View File

@@ -0,0 +1,172 @@
#!/usr/bin/python
"""
Convert config file to JSON
The JSON contains array of single fields. There is no hierarchy.
Fields are being grouped in GUI with "category".
A group is shown if a minimum of one field is visible.
Hints
capabilities is a dictionary
field:[true | false]
optional comma separated multiple values
"""
import os
import sys
import getopt
import configparser
from io import StringIO
from pyparsing import alphas, alphanums, Word, Literal, Combine, Group, Forward, ZeroOrMore, delimitedList
__author__ = "Thomas Hooge"
__copyright__ = "Copyleft 2025, all rights reversed"
__version__ = "0.1"
__email__ = "thomas@hoogi.de"
__status__ = "Development"
infile = None
outfile = ""
force = False # overwrite outfile
# Variables for condition parsing
fieldname = Combine(Word(alphas, exact=1) + Word(alphanums, max=15))
fieldvalue = Word(alphanums, max=16)
equals = Literal("=")
in_op = Literal("IN")
and_op = Literal("AND")
or_op = Literal("OR")
comparison = Group(fieldname + equals + fieldvalue) \
| Group(fieldname + in_op + delimitedList(fieldvalue))
expr = Forward()
expr <<= comparison + ZeroOrMore((and_op | or_op) + comparison)
def parse_condition(condition):
try:
result = expr.parseString(condition, parseAll=True)
except Exception as e:
return ""
out = StringIO()
andlist = []
for token in result:
# list: field = value or field IN value [, value ...]
# str: AND, OR
# combine ANDs and output reaching OR
if type(token) == str:
if token == "OR":
andstr = ",\n".join(andlist)
out.write(f'\t\t{{ {andstr} }},\n')
andlist = []
else:
if token[1] == '=':
andlist.append(f'"{token[0]}": "{token[2]}"')
elif token[1] == 'IN':
n = len(token) - 2
if n == 1:
# no list, write single value
andlist.append(f'"{token[0]}": "{token[2]}"')
else:
# write list
inlist = '", "'.join(token[2:])
andlist.append(f'"{token[0]}": [ "{inlist}" ]\n')
if len(andlist) > 0:
out.write("\t\t{{ {} }}".format(", ".join(andlist)))
return out.getvalue()
def create_flist():
flist = []
for field in config.sections():
properties = [f'\t"name": "{field}"']
for prop, val in config.items(field):
if prop in ["label", "type", "default", "description", "category", "check"]:
properties.append(f'\t"{prop}": "{val}"')
elif prop == "capabilities":
# multiple values possible
capas = []
for capa in val.split(','):
k, v = capa.split(':')
capas.append(f'"{k.strip()}":"{v.strip()}"')
capalist = ','.join(capas)
properties.append(f'\t"{prop}": {{{capalist}}}')
elif prop in ("min", "max"):
properties.append(f'\t"{prop}": {val}')
elif prop == "list":
entries = '", "'.join([x.strip() for x in val.split(',')])
properties.append(f'\t"list": ["{entries}"]')
elif prop == "dict":
d = {}
for l in val.splitlines():
if len(l) < 3:
continue
k, v = l.split(':')
d[k.strip()] = v.strip()
lines = []
for k,v in d.items():
lines.append(f'\t\t{{"l":"{v}","v":"{k}"}}')
entries = ",\n".join(lines)
properties.append(f'\t"list": [\n{entries}\n\t]')
elif prop == "condition":
jsoncond = parse_condition(val)
properties.append(f'\t"{prop}": [\n{jsoncond}\n\t]\n')
else:
pass # ignore unknown stuff
fieldprops = ",\n".join(properties)
flist.append(f'{{\n{fieldprops}\n}}')
return flist
def usage():
print("{} v{}".format(os.path.basename(__file__), __version__))
print(__copyright__)
print()
print("Command line options")
print(" -c --config config file name to use")
print(" -j --json json file name to generate")
print(" -f force overwrite of existing json file")
print(" -h show this help")
print()
if __name__ == '__main__':
try:
options, remainder = getopt.getopt(sys.argv[1:], 'c:j:fh', ['config=', 'json='])
except getopt.GetoptError as e:
print(e)
sys.exit(1)
filename = None
for opt, arg in options:
if opt in ('-c', '--config'):
infile = arg
elif opt in ('-j', '--json'):
outfile = arg
elif opt == '-h':
usage()
sys.exit(0)
elif opt == '-f':
force = True
if not infile:
print("Error: config filename missing")
sys.exit(1)
if not os.path.isfile(infile):
print(f"Error: configuration file '{filename} not found'")
sys.exit(1)
if os.path.isfile(outfile) and not force:
print(f"Error: json file '{outfile}' already exists")
sys.exit(1)
config = configparser.ConfigParser()
ret = config.read(infile)
if len(ret) == 0:
print(f"ERROR: Config file '{infile}' not found")
sys.exit(1)
flist = create_flist()
out = "[\n{}\n]\n".format(",\n".join(flist))
if not outfile:
# print to console
print(out)
else:
# write to file
with open(outfile, "w") as fh:
fh.write(out)

61
lib/obp60task/utils/xbmconvert.py Executable file
View File

@@ -0,0 +1,61 @@
#!/usr/bin/python
#
# Convert a Gimp-created XBM file to bitmap useable by drawBitmap()
#
import os
import sys
import re
from PIL import Image
if len(sys.argv) < 2:
print("Usage: xbmconvert.py <filename>")
sys.exit(1)
xbmfilename = sys.argv[1]
if not os.path.isfile(xbmfilename):
print(f"The file '{xbmfilename}' does not exists.")
sys.exit(1)
im = Image.open(xbmfilename)
imname = "image"
with open(xbmfilename, 'r') as fh:
pattern = r'static\s+unsigned\s+char\s+(\w+)_bits$$$$'
for line in fh:
match = re.search(pattern, line)
if match:
imname = match.group(1)
break
bytecount = int(im.width * im.height / 8)
print(f"#ifndef _{imname.upper()}_H_")
print(f"#define _{imname.upper()}_H_ 1\n")
print(f"#define {imname}_width {im.width}")
print(f"#define {imname}_height {im.height}")
print(f"const unsigned char {imname}_bits[{bytecount}] PROGMEM = {{")
n = 0
print(" ", end='')
f = im.tobytes()
switched_bytes = bytearray()
for i in range(0, len(f), 2):
# Switch LSB and MSB
switched_bytes.append(f[i + 1]) # Append MSB
switched_bytes.append(f[i]) # Append LSB
#for b in im.tobytes():
for b in switched_bytes:
#b2 = 0
#for i in range(8):
# # b2 |= ((b >> i) & 1) << (7 - i)
# b2 <<= 1
# b2 |= b & 1
# b >>= 1
n += 1
print(f"0x{b:02x}", end='')
if n < bytecount:
print(', ', end='')
if n % 12 == 0:
print("\n ", end='')
print("};\n\n#endif")

2
lib/sensors/GwSensor.cpp
View File

@@ -17,4 +17,4 @@
void SensorList::add(SensorBase::Ptr sensor){
this->push_back(sensor);
}
}

2
lib/sensors/GwSensor.h
View File

@@ -135,4 +135,4 @@ class GwSensorConfigInitializerList : public GwInitializer<GwSensorConfig<T>>::L
cfg->getValue(name, GwConfigDefinitions::prefix ## name)
#endif
#endif

2
lib/serial/GwSerial.h
View File

@@ -126,4 +126,4 @@ template<typename T>
};
#endif
#endif

2
lib/socketserver/GwSocketServer.cpp
View File

@@ -185,4 +185,4 @@ int GwSocketServer::numClients()
}
GwSocketServer::~GwSocketServer()
{
}
}

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