thooge/esp32-nmea2000-obp60
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base: thooge:master
Branches Tags
thooge:master thooge:keypad thooge:anchor thooge:tracker thooge:extended thooge:sdcard thooge:system thooge:barograph
thooge:r20250120a-obp40 thooge:r20250116a-demo
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compare: thooge:54b495479752a4ee7939d116bb33deda70444cc7
Branches Tags
thooge:keypad thooge:master thooge:anchor thooge:tracker thooge:extended thooge:sdcard thooge:system thooge:barograph
thooge:r20250120a-obp40 thooge:r20250116a-demo

35 Commits
master ... 54b4954797

Author SHA1 Message Date
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
84 changed files with 7934 additions and 9597 deletions
Expand all files Collapse all files

2
extra_script.py
View File

@@ -501,7 +501,7 @@ def prebuild(env):
genereateUserTasks(os.path.join(outPath(), TASK_INCLUDE))
generateFile(os.path.join(basePath(),XDR_FILE),os.path.join(outPath(),XDR_INCLUDE),generateXdrMappings)
generateFile(os.path.join(basePath(),GROVE_CONFIG_IN),os.path.join(outPath(),GROVE_CONFIG),generateGroveDefs,inMode='r')
version="dev"+datetime.now().strftime("%Y%m%d")
version = "dev{}{}".format(datetime.now().strftime("%Y%m%d"), "-ext")
env.Append(CPPDEFINES=[('GWDEVVERSION',version)])
def cleangenerated(source, target, env):

2
lib/api/GwApi.h
View File

@@ -2,6 +2,7 @@
#define _GWAPI_H
#include "GwMessage.h"
#include "N2kMsg.h"
#include "Nmea2kTwai.h"
#include "NMEA0183Msg.h"
#include "GWConfig.h"
#include "GwBoatData.h"
@@ -222,6 +223,7 @@ 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 GwBoatData *getBoatData()=0;
virtual ~GwApi(){}
};

6
lib/boatData/GwBoatData.cpp
View File

@@ -6,6 +6,7 @@
#define GWTYPE_UINT32 2
#define GWTYPE_UINT16 3
#define GWTYPE_INT16 4
#define GWTYPE_STRING 5
#define GWTYPE_USER 100
class GwBoatItemTypes
@@ -15,6 +16,7 @@ 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; }
};
@@ -252,6 +254,10 @@ 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());

10
lib/boatData/GwBoatData.h
View File

@@ -58,6 +58,7 @@ class GwBoatItemBase{
GWSC(formatRot);
GWSC(formatDate);
GWSC(formatTime);
GWSC(formatName);
protected:
int type;
unsigned long lastSet=0;
@@ -120,7 +121,13 @@ 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 void fillString();
virtual void toJsonDoc(GwJsonDocument *doc, unsigned long minTime);
virtual int getLastSource(){return lastUpdateSource;}
@@ -235,6 +242,7 @@ 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);
public:
GwBoatData(GwLog *logger, GwConfigHandler *cfg);

16
lib/obp60task/BoatDataCalibration.cpp
View File

@@ -38,7 +38,7 @@ void CalibrationDataList::readConfig(GwConfigHandler* config, GwLog* logger)
instance = std::string(config->getString(calInstance, "---").c_str());
if (instance == "---") {
LOG_DEBUG(GwLog::LOG, "no calibration data for instance no. %d", i + 1);
logger->logDebug(GwLog::LOG, "no calibration data for instance no. %d", i + 1);
continue;
}
calibMap[instance] = { 0.0f, 1.0f, 1.0f, 0.0f, false };
@@ -101,10 +101,10 @@ void CalibrationDataList::readConfig(GwConfigHandler* config, GwLog* logger)
calibMap[instance].slope = slope;
calibMap[instance].smooth = smooth;
calibMap[instance].isCalibrated = false;
LOG_DEBUG(GwLog::LOG, "calibration data: %s, offset: %f, slope: %f, smoothing: %f", instance.c_str(),
logger->logDebug(GwLog::LOG, "stored calibration data: %s, offset: %f, slope: %f, smoothing: %f", instance.c_str(),
calibMap[instance].offset, calibMap[instance].slope, calibMap[instance].smooth);
}
LOG_DEBUG(GwLog::LOG, "all calibration data read");
logger->logDebug(GwLog::LOG, "all calibration data read");
}
void CalibrationDataList::calibrateInstance(GwApi::BoatValue* boatDataValue, GwLog* logger)
@@ -117,7 +117,7 @@ void CalibrationDataList::calibrateInstance(GwApi::BoatValue* boatDataValue, GwL
std::string format = "";
if (calibMap.find(instance) == calibMap.end()) {
LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s not in calibration list", instance.c_str());
logger->logDebug(GwLog::DEBUG, "BoatDataCalibration: %s not found in calibration data list", instance.c_str());
return;
} else if (!boatDataValue->valid) { // no valid boat data value, so we don't want to apply calibration data
calibMap[instance].isCalibrated = false;
@@ -127,7 +127,7 @@ void CalibrationDataList::calibrateInstance(GwApi::BoatValue* boatDataValue, GwL
slope = calibMap[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());
logger->logDebug(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;
@@ -156,7 +156,7 @@ void CalibrationDataList::calibrateInstance(GwApi::BoatValue* boatDataValue, GwL
calibrationData.smoothInstance(boatDataValue, logger); // smooth the boat data value
calibMap[instance].value = boatDataValue->value; // store the calibrated + smoothed value in the list
LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: %s: Offset: %f, Slope: %f, Result: %f", instance.c_str(), offset, slope, calibMap[instance].value);
logger->logDebug(GwLog::DEBUG, "BoatDataCalibration: %s: Offset: %f, Slope: %f, Result: %f", instance.c_str(), offset, slope, calibMap[instance].value);
}
}
@@ -173,7 +173,7 @@ void CalibrationDataList::smoothInstance(GwApi::BoatValue* boatDataValue, GwLog*
if (!boatDataValue->valid) { // no valid boat data value, so we don't want to smoothen value
return;
} else if (calibMap.find(instance) == calibMap.end()) {
LOG_DEBUG(GwLog::DEBUG, "BoatDataCalibration: smooth factor for %s not found in calibration list", instance.c_str());
logger->logDebug(GwLog::DEBUG, "BoatDataCalibration: smooth factor for %s not found in calibration data list", instance.c_str());
return;
} else {
smoothFactor = calibMap[instance].smooth;
@@ -184,6 +184,8 @@ void CalibrationDataList::smoothInstance(GwApi::BoatValue* boatDataValue, GwLog*
}
lastValue[instance] = dataValue; // store the new value for next cycle; first time, store only the current value and return
boatDataValue->value = dataValue; // set the smoothed value to the boat data value
logger->logDebug(GwLog::DEBUG, "BoatDataCalibration: %s: Smoothing factor: %f, Smoothed value: %f", instance.c_str(), smoothFactor, dataValue);
}
}

3
lib/obp60task/BoatDataCalibration.h
View File

@@ -3,8 +3,7 @@
#ifndef _BOATDATACALIBRATION_H
#define _BOATDATACALIBRATION_H
// #include "Pagedata.h"
#include "GwApi.h"
#include "Pagedata.h"
#include <string>
#include <unordered_map>

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

14
lib/obp60task/ImageDecoder.cpp
View File

@@ -1,14 +0,0 @@
#include "ImageDecoder.h"
#include <mbedtls/base64.h>
// Decoder for Base64 content
bool ImageDecoder::decodeBase64(const String& base64, uint8_t* outBuffer, size_t outSize, size_t& decodedSize) {
int ret = mbedtls_base64_decode(
outBuffer,
outSize,
&decodedSize,
(const unsigned char*)base64.c_str(),
base64.length()
);
return (ret == 0);
}

9
lib/obp60task/ImageDecoder.h
View File

@@ -1,9 +0,0 @@
#pragma once
#include <Arduino.h>
#include <vector>
class ImageDecoder {
public:
bool decodeBase64(const String& base64, uint8_t* outBuffer, size_t outSize, size_t& decodedSize);
};

60
lib/obp60task/LedSpiTask.cpp
View File

@@ -14,6 +14,30 @@ 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;
@@ -59,12 +83,12 @@ 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;
@@ -90,8 +114,8 @@ 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 = {
@@ -109,16 +133,16 @@ 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;
@@ -148,7 +172,7 @@ 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;
}
}
@@ -169,12 +193,12 @@ 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)
{
@@ -187,10 +211,10 @@ 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;
@@ -209,15 +233,15 @@ 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;

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, */
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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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181
lib/obp60task/NetworkClient.cpp
View File

@@ -1,181 +0,0 @@
#include "NetworkClient.h"
extern "C" {
#include "puff.h"
}
// Constructor
NetworkClient::NetworkClient(size_t reserveSize)
: _doc(reserveSize),
_valid(false)
{
}
// Skip GZIP Header an goto DEFLATE content
int NetworkClient::skipGzipHeader(const uint8_t* data, size_t len) {
if (len < 10) return -1;
if (data[0] != 0x1F || data[1] != 0x8B || data[2] != 8) {
return -1;
}
size_t pos = 10;
uint8_t flags = data[3];
if (flags & 4) {
if (pos + 2 > len) return -1;
uint16_t xlen = data[pos] | (data[pos+1] << 8);
pos += 2 + xlen;
}
if (flags & 8) {
while (pos < len && data[pos] != 0) pos++;
pos++;
}
if (flags & 16) {
while (pos < len && data[pos] != 0) pos++;
pos++;
}
if (flags & 2) pos += 2;
if (pos >= len) return -1;
return pos;
}
// 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)
uint8_t* buffer = (uint8_t*)malloc(capacity);
if (!buffer) {
if (DEBUG) {Serial.println("Malloc failed (buffer");}
return false;
}
HTTPClient http;
// Timeouts to prevent hanging connections
http.setConnectTimeout(CONNECTIONTIMEOUT); // Connect timeout in ms (can be adjusted in NetworkClient.h)
http.setTimeout(TCPREADTIMEOUT); // Read timeout in ms (can be adjusted in NetworkClient.h)
http.begin(url);
http.addHeader("Accept-Encoding", "gzip");
int code = http.GET();
if (code != HTTP_CODE_OK) {
Serial.printf("HTTP ERROR: %d\n", code);
// Hard reset HTTP + socket
WiFiClient* tmp = http.getStreamPtr();
if (tmp) tmp->stop(); // Force close TCP socket
http.end();
free(buffer);
return false;
}
WiFiClient* stream = http.getStreamPtr();
size_t len = 0;
uint32_t lastData = millis();
const uint32_t READ_TIMEOUT = READDATATIMEOUT; // Timeout for reading data (can be adjusted in NetworkClient.h)
bool complete = false;
while (http.connected() && !complete) {
size_t avail = stream->available();
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);
}
// --- Added: Force-close connection in all cases to avoid stuck TCP sockets ---
if (stream) stream->stop();
http.end();
free(buffer);
if (!complete) {
Serial.println("Failed to complete decompress.");
return false;
}
return true;
}
// Decompress JSON
bool NetworkClient::fetchAndDecompressJson(const String& url) {
_valid = false;
uint8_t* raw = nullptr;
size_t rawLen = 0;
if (!httpGetGzip(url, raw, rawLen)) {
Serial.println("GZIP download/decompress failed.");
return false;
}
DeserializationError err = deserializeJson(_doc, raw, rawLen);
free(raw);
if (err) {
Serial.printf("JSON ERROR: %s\n", err.c_str());
return false;
}
if (DEBUG) {Serial.println("JSON OK!");}
_valid = true;
return true;
}
JsonDocument& NetworkClient::json() {
return _doc;
}
bool NetworkClient::isValid() const {
return _valid;
}

27
lib/obp60task/NetworkClient.h
View File

@@ -1,27 +0,0 @@
#pragma once
#include <ArduinoJson.h>
#include <WiFi.h>
#include <HTTPClient.h>
#define DEBUG false // 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
#define READDATATIMEOUT 2000 // Timeout in ms for read data
class NetworkClient {
public:
NetworkClient(size_t reserveSize = 0);
bool fetchAndDecompressJson(const String& url);
JsonDocument& json();
bool isValid() const;
private:
DynamicJsonDocument _doc;
bool _valid;
int skipGzipHeader(const uint8_t* data, size_t len);
bool httpGetGzip(const String& url, uint8_t*& outData, size_t& outLen);
};

373
lib/obp60task/OBP60Extensions.cpp
View File

@@ -1,9 +1,10 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include <Arduino.h>
#include <PCF8574.h> // Driver for PCF8574 output modul from Horter
#include <Wire.h> // I2C
#include <RTClib.h> // Driver for DS1388 RTC
#include <PCF8574.h> // PCF8574 modules from Horter
#include "SunRise.h" // Lib for sunrise and sunset calculation
#include "Pagedata.h"
#include "OBP60Hardware.h"
@@ -24,37 +25,28 @@
#include "fonts/Ubuntu_Bold20pt8b.h"
#include "fonts/Ubuntu_Bold32pt8b.h"
#include "fonts/Atari16px8b.h" // Key label 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_Out(PCF8574_I2C_ADDR1); // First digital output modul PCF8574 from Horter
@@ -88,11 +80,10 @@ void hardwareInit(GwApi *api)
Wire.begin();
// Init PCF8574 digital outputs
Wire.setClock(I2C_SPEED_LOW); // Set I2C clock on 10 kHz
Wire.setClock(I2C_SPEED); // Set I2C clock on 10 kHz
if(pcf8574_Out.begin()){ // Initialize PCF8574
pcf8574_Out.write8(255); // Clear all outputs
}
Wire.setClock(I2C_SPEED); // Set I2C clock on 100 kHz
fram = Adafruit_FRAM_I2C();
if (esp_reset_reason() == ESP_RST_POWERON) {
// help initialize FRAM
@@ -193,15 +184,6 @@ void powerInit(String powermode) {
}
}
void setPCF8574PortPin(uint pin, uint8_t value){
Wire.setClock(I2C_SPEED_LOW); // Set I2C clock on 10 kHz
if(pcf8574_Out.begin()){ // Check available and initialize PCF8574
pcf8574_Out.write(pin, value); // Toggle pin
}
Wire.setClock(I2C_SPEED); // Set I2C clock on 100 kHz
}
void setPortPin(uint pin, bool value){
pinMode(pin, OUTPUT);
digitalWrite(pin, value);
@@ -229,17 +211,17 @@ 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
@@ -253,18 +235,18 @@ 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
@@ -309,31 +291,31 @@ 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 setFlashLED(bool status){
void setFlashLED(bool status) {
if (ledTaskData == nullptr) return;
Color c=status?COLOR_RED:COLOR_BLACK;
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;
}
@@ -372,17 +354,17 @@ String xdrDelete(String 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
@@ -432,50 +414,50 @@ 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 right aligned 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, y);
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;
@@ -489,31 +471,64 @@ 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;
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;
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;
@@ -530,26 +545,26 @@ 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
}
@@ -557,13 +572,13 @@ 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;
@@ -571,19 +586,19 @@ void displayHeader(CommonData &commonData, GwApi::BoatValue *date, GwApi::BoatVa
String fmttype = 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('m', 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");
}
@@ -594,15 +609,15 @@ void displayHeader(CommonData &commonData, GwApi::BoatValue *date, GwApi::BoatVa
String acttime = 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");
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");
@@ -610,15 +625,15 @@ 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
@@ -627,14 +642,14 @@ 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;
@@ -645,7 +660,7 @@ 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;
@@ -660,8 +675,8 @@ 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
@@ -672,21 +687,21 @@ 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
}
@@ -699,31 +714,31 @@ 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;
@@ -816,20 +831,20 @@ 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
@@ -841,17 +856,17 @@ 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);
}
@@ -863,13 +878,13 @@ 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");
}
// Function to handle HTTP image request
@@ -883,7 +898,7 @@ 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;
@@ -913,30 +928,4 @@ void doImageRequest(GwApi *api, int *pageno, const PageStruct pages[MAX_PAGE_NUM
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

68
lib/obp60task/OBP60Extensions.h
View File

@@ -1,3 +1,4 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#ifndef _OBP60EXTENSIONPORT_H
#define _OBP60EXTENSIONPORT_H
@@ -7,7 +8,6 @@
#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 +31,6 @@
#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;
@@ -55,24 +52,21 @@ extern const GFXfont Ubuntu_Bold16pt8b;
extern const GFXfont Ubuntu_Bold20pt8b;
extern const GFXfont Ubuntu_Bold32pt8b;
extern const GFXfont Atari16px;
extern const GFXfont IBM8x8px;
// 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
@@ -89,8 +83,8 @@ uint8_t getLastPage();
void hardwareInit(GwApi *api);
void powerInit(String powermode);
void setPCF8574PortPin(uint pin, uint8_t value);// Set PCF8574 port pin
void setPortPin(uint pin, bool value); // Set port pin for extension port
void togglePortPin(uint pin); // Toggle extension port pin
Color colorMapping(const String &colorString); // Color mapping string to CHSV colors
@@ -114,7 +108,7 @@ 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);
@@ -162,24 +156,62 @@ 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

79
lib/obp60task/OBP60Formatter.cpp
View File

@@ -55,8 +55,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
static int dayoffset = 0;
double rawvalue = 0;
result.cvalue = value->value;
// Load configuration values
String stimeZone = commondata.config->getString(commondata.config->timeZone); // [UTC -14.00...+12.00]
double timeZone = stimeZone.toDouble();
@@ -79,13 +77,9 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
const char* fmt_dec_10;
const char* fmt_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
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";
@@ -155,7 +149,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
val = modf(val*3600.0/60.0, &intmin);
modf(val*60.0,&intsec);
snprintf(buffer, bsize, "%02.0f:%02.0f:%02.0f", inthr, intmin, intsec);
result.cvalue = timeInSeconds;
}
else{
static long sec;
@@ -165,7 +158,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
}
sec = sec % 60;
snprintf(buffer, bsize, "11:36:%02i", int(sec));
result.cvalue = sec;
lasttime = millis();
}
if(timeZone == 0){
@@ -186,7 +178,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, "%3.0f", rawvalue);
}
result.unit = "";
result.cvalue = rawvalue;
}
//########################################################
else if (value->getFormat() == "formatCourse" || value->getFormat() == "formatWind"){
@@ -204,7 +195,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
// Format 3 numbers with prefix zero
snprintf(buffer,bsize,"%03.0f",course);
result.unit = "Deg";
result.cvalue = course;
}
//########################################################
else if (value->getFormat() == "formatKnots" && (value->getName() == "SOG" || value->getName() == "STW")){
@@ -238,7 +228,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
else {
snprintf(buffer, bsize, fmt_dec_100, speed);
}
result.cvalue = speed;
}
//########################################################
else if (value->getFormat() == "formatKnots" && (value->getName() == "AWS" || value->getName() == "TWS" || value->getName() == "MaxAws" || value->getName() == "MaxTws")){
@@ -309,18 +298,16 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, "%2.0f", speed);
}
else{
speed = std::round(speed * 100) / 100; // in rare cases, speed could be 9.9999 kn instead of 10.0 kn
if (speed < 10.0){
if (speed < 10){
snprintf(buffer, bsize, fmt_dec_1, speed);
}
else if (speed < 100.0){
else if (speed < 100){
snprintf(buffer, bsize, fmt_dec_10, speed);
}
else {
snprintf(buffer, bsize, fmt_dec_100, speed);
}
}
result.cvalue = speed;
}
//########################################################
else if (value->getFormat() == "formatRot"){
@@ -347,7 +334,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
if (rotation <= -10 || rotation >= 10){
snprintf(buffer, bsize, "%3.0f", rotation);
}
result.cvalue = rotation;
}
//########################################################
else if (value->getFormat() == "formatDop"){
@@ -373,7 +359,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
else {
snprintf(buffer, bsize, fmt_dec_100, dop);
}
result.cvalue = dop;
}
//########################################################
else if (value->getFormat() == "formatLatitude"){
@@ -398,7 +383,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
rawvalue = 35.0 + float(random(0, 10)) / 10000.0;
snprintf(buffer, bsize, " 51\" %2.4f' N", rawvalue);
}
result.cvalue = rawvalue;
}
//########################################################
else if (value->getFormat() == "formatLongitude"){
@@ -423,7 +407,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
rawvalue = 6.0 + float(random(0, 10)) / 100000.0;
snprintf(buffer, bsize, " 15\" %2.4f'", rawvalue);
}
result.cvalue = rawvalue;
}
//########################################################
else if (value->getFormat() == "formatDepth"){
@@ -452,40 +435,25 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
else {
snprintf(buffer, bsize, fmt_dec_100, depth);
}
result.cvalue = depth;
}
//########################################################
else if (value->getFormat() == "formatXte"){
double xte = 0;
if(usesimudata == false) {
xte = value->value;
if (!usesimudata) {
xte = abs(value->value);
rawvalue = value->value;
}
else{
} else {
rawvalue = 6.0 + float(random(0, 4));
xte = rawvalue;
}
if(String(distanceFormat) == "km"){
xte = xte * 0.001;
result.unit = "km";
if (xte >= 100) {
snprintf(buffer, bsize, fmt_dec_100, value->value);
} else if (xte >= 10) {
snprintf(buffer, bsize, fmt_dec_10, value->value);
} else {
snprintf(buffer, bsize, fmt_dec_1, value->value);
}
else if(String(distanceFormat) == "nm"){
xte = xte * 0.000539957;
result.unit = "nm";
}
else{;
result.unit = "m";
}
if(xte < 10){
snprintf(buffer,bsize,"%3.2f",xte);
}
if(xte >= 10 && xte < 100){
snprintf(buffer,bsize,"%3.1f",xte);
}
if(xte >= 100){
snprintf(buffer,bsize,"%3.0f",xte);
}
result.cvalue = xte;
result.unit = "nm";
}
//########################################################
else if (value->getFormat() == "kelvinToC"){
@@ -518,7 +486,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
else {
snprintf(buffer, bsize, fmt_dec_100, temp);
}
result.cvalue = temp;
}
//########################################################
else if (value->getFormat() == "mtr2nm"){
@@ -551,7 +518,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
else {
snprintf(buffer, bsize, fmt_dec_100, distance);
}
result.cvalue = distance;
}
//########################################################
// Special XDR formats
@@ -570,7 +536,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
}
snprintf(buffer, bsize, "%4.0f", pressure);
result.unit = "hPa";
result.cvalue = pressure;
}
//########################################################
else if (value->getFormat() == "formatXdr:P:B"){
@@ -586,7 +551,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
}
snprintf(buffer, bsize, "%4.0f", pressure);
result.unit = "mBar";
result.cvalue = pressure;
}
//########################################################
else if (value->getFormat() == "formatXdr:U:V"){
@@ -606,7 +570,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_10, voltage);
}
result.unit = "V";
result.cvalue = voltage;
}
//########################################################
else if (value->getFormat() == "formatXdr:I:A"){
@@ -629,7 +592,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, current);
}
result.unit = "A";
result.cvalue = current;
}
//########################################################
else if (value->getFormat() == "formatXdr:C:K"){
@@ -652,7 +614,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, temperature);
}
result.unit = "Deg C";
result.cvalue = temperature;
}
//########################################################
else if (value->getFormat() == "formatXdr:C:C"){
@@ -675,7 +636,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, temperature);
}
result.unit = "Deg C";
result.cvalue = temperature;
}
//########################################################
else if (value->getFormat() == "formatXdr:H:P"){
@@ -698,7 +658,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, humidity);
}
result.unit = "%";
result.cvalue = humidity;
}
//########################################################
else if (value->getFormat() == "formatXdr:V:P"){
@@ -721,7 +680,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, volume);
}
result.unit = "%";
result.cvalue = volume;
}
//########################################################
else if (value->getFormat() == "formatXdr:V:M"){
@@ -744,7 +702,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, volume);
}
result.unit = "l";
result.cvalue = volume;
}
//########################################################
else if (value->getFormat() == "formatXdr:R:I"){
@@ -767,7 +724,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, flow);
}
result.unit = "l/min";
result.cvalue = flow;
}
//########################################################
else if (value->getFormat() == "formatXdr:G:"){
@@ -790,7 +746,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, generic);
}
result.unit = "";
result.cvalue = generic;
}
//########################################################
else if (value->getFormat() == "formatXdr:A:P"){
@@ -813,7 +768,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, dplace);
}
result.unit = "%";
result.cvalue = dplace;
}
//########################################################
else if (value->getFormat() == "formatXdr:A:D"){
@@ -834,7 +788,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer,bsize,"%3.0f",angle);
}
result.unit = "Deg";
result.cvalue = angle;
}
//########################################################
else if (value->getFormat() == "formatXdr:T:R"){
@@ -857,7 +810,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, rpm);
}
result.unit = "rpm";
result.cvalue = rpm;
}
//########################################################
// Default format
@@ -873,7 +825,6 @@ FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
snprintf(buffer, bsize, fmt_dec_100, value->value);
}
result.unit = "";
result.cvalue = value->value;
}
buffer[bsize] = 0;
result.value = rawvalue; // Return value is only necessary in case of simulation of graphic pointer

10
lib/obp60task/OBP60Hardware.h
View File

@@ -5,8 +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_LOW 1000UL // 10kHz clock speed on I2C bus for external bus
#define I2C_SPEED 10000UL // 10kHz clock speed on I2C bus
#define OBP_I2C_SDA 47
#define OBP_I2C_SCL 21
// DS1388 RTC
@@ -43,8 +42,6 @@
#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
@@ -85,8 +82,7 @@
// Direction pin for RS485 NMEA0183
#define OBP_DIRECTION_PIN 8
// I2C
#define I2C_SPEED 100000UL // 100kHz clock speed on I2C bus
#define I2C_SPEED_LOW 1000UL // 10kHz clock speed on I2C bus for external bus
#define I2C_SPEED 100000UL // 100kHz clock speed on I2C bus
#define OBP_I2C_SDA 21
#define OBP_I2C_SCL 38
// DS1388 RTC
@@ -123,8 +119,6 @@
#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

276
lib/obp60task/OBPDataOperations.cpp
View File

@@ -1,163 +1,10 @@
#include "OBPDataOperations.h"
#include "BoatDataCalibration.h" // Functions lib for data instance calibration
#include <math.h>
// --- Class HstryBuf ---------------
// Init history buffers for selected boat data
void HstryBuf::init(BoatValueList* boatValues, GwLog *log) {
logger = log;
int hstryUpdFreq = 1000; // Update frequency for history buffers in ms
int mltplr = 1000; // Multiplier which transforms original <double> value into buffer type format
double hstryMinVal = 0; // Minimum value for these history buffers
twdHstryMax = 2 * M_PI; // Max value for wind direction (TWD, AWD) in rad [0...2*PI]
twsHstryMax = 65; // Max value for wind speed (TWS, AWS) in m/s [0..65] (limit due to type capacity of buffer - shifted by <mltplr>)
awdHstryMax = twdHstryMax;
awsHstryMax = twsHstryMax;
twdHstryMin = hstryMinVal;
twsHstryMin = hstryMinVal;
awdHstryMin = hstryMinVal;
awsHstryMin = hstryMinVal;
const double DBL_MAX = std::numeric_limits<double>::max();
// Initialize history buffers with meta data
mltplr = 10000; // Store 4 decimals for course data
hstryBufList.twdHstry->setMetaData("TWD", "formatCourse", hstryUpdFreq, mltplr, hstryMinVal, twdHstryMax);
hstryBufList.awdHstry->setMetaData("AWD", "formatCourse", hstryUpdFreq, mltplr, hstryMinVal, twdHstryMax);
mltplr = 1000; // Store 3 decimals for windspeed data
hstryBufList.twsHstry->setMetaData("TWS", "formatKnots", hstryUpdFreq, mltplr, hstryMinVal, twsHstryMax);
hstryBufList.awsHstry->setMetaData("AWS", "formatKnots", hstryUpdFreq, mltplr, hstryMinVal, twsHstryMax);
// create boat values for history data types, if they don't exist yet
twdBVal = boatValues->findValueOrCreate(hstryBufList.twdHstry->getName());
twsBVal = boatValues->findValueOrCreate(hstryBufList.twsHstry->getName());
twaBVal = boatValues->findValueOrCreate("TWA");
awdBVal = boatValues->findValueOrCreate(hstryBufList.awdHstry->getName());
awsBVal = boatValues->findValueOrCreate(hstryBufList.awsHstry->getName());
if (!awdBVal->valid) { // AWD usually does not exist
awdBVal->setFormat(hstryBufList.awdHstry->getFormat());
awdBVal->value = DBL_MAX;
}
// collect boat values for true wind calculation
awaBVal = boatValues->findValueOrCreate("AWA");
hdtBVal = boatValues->findValueOrCreate("HDT");
hdmBVal = boatValues->findValueOrCreate("HDM");
varBVal = boatValues->findValueOrCreate("VAR");
cogBVal = boatValues->findValueOrCreate("COG");
sogBVal = boatValues->findValueOrCreate("SOG");
}
// Handle history buffers for TWD, TWS, AWD, AWS
//void HstryBuf::handleHstryBuf(GwApi* api, BoatValueList* boatValues, bool useSimuData) {
void HstryBuf::handleHstryBuf(bool useSimuData) {
static double twd, tws, awd, aws, hdt = 20; //initial value only relevant if we use simulation data
GwApi::BoatValue *calBVal; // temp variable just for data calibration -> we don't want to calibrate the original data here
LOG_DEBUG(GwLog::DEBUG,"obp60task handleHstryBuf: TWD_isValid? %d, twdBVal: %.1f, twaBVal: %.1f, twsBVal: %.1f", twdBVal->valid, twdBVal->value * RAD_TO_DEG,
twaBVal->value * RAD_TO_DEG, twsBVal->value * 3.6 / 1.852);
if (twdBVal->valid) {
// if (!useSimuData) {
calBVal = new GwApi::BoatValue("TWD"); // temporary solution for calibration of history buffer values
calBVal->setFormat(twdBVal->getFormat());
calBVal->value = twdBVal->value;
calBVal->valid = twdBVal->valid;
calibrationData.calibrateInstance(calBVal, logger); // Check if boat data value is to be calibrated
twd = calBVal->value;
if (twd >= twdHstryMin && twd <= twdHstryMax) {
hstryBufList.twdHstry->add(twd);
LOG_DEBUG(GwLog::DEBUG,"obp60task handleHstryBuf: calBVal.value %.2f, twd: %.2f, twdHstryMin: %.1f, twdHstryMax: %.2f", calBVal->value, twd, twdHstryMin, twdHstryMax);
}
delete calBVal;
calBVal = nullptr;
} else if (useSimuData) {
// } else {
twd += random(-20, 20);
twd += static_cast<double>(random(-349, 349) / 1000.0); // add up to +/- 20 degree in RAD
twd = WindUtils::to2PI(twd);
hstryBufList.twdHstry->add(twd);
}
if (twsBVal->valid) {
calBVal = new GwApi::BoatValue("TWS"); // temporary solution for calibration of history buffer values
calBVal->setFormat(twsBVal->getFormat());
calBVal->value = twsBVal->value;
calBVal->valid = twsBVal->valid;
calibrationData.calibrateInstance(calBVal, logger); // Check if boat data value is to be calibrated
tws = calBVal->value;
if (tws >= twsHstryMin && tws <= twsHstryMax) {
hstryBufList.twsHstry->add(tws);
}
delete calBVal;
calBVal = nullptr;
} else if (useSimuData) {
// tws += random(-5000, 5000); // TWS value in m/s; expands to 3 decimals
tws += static_cast<double>(random(-5000, 5000) / 1000.0); // add up to +/- 5 m/s TWS speed
tws = constrain(tws, 0, 40); // Limit TWS to [0..40] m/s
hstryBufList.twsHstry->add(tws);
}
if (awaBVal->valid) {
if (hdtBVal->valid) {
hdt = hdtBVal->value; // Use HDT if available
} else {
hdt = WindUtils::calcHDT(&hdmBVal->value, &varBVal->value, &cogBVal->value, &sogBVal->value);
}
awd = awaBVal->value + hdt;
awd = WindUtils::to2PI(awd);
calBVal = new GwApi::BoatValue("AWD"); // temporary solution for calibration of history buffer values
calBVal->value = awd;
calBVal->setFormat(awdBVal->getFormat());
calBVal->valid = true;
calibrationData.calibrateInstance(calBVal, logger); // Check if boat data value is to be calibrated
awdBVal->value = calBVal->value;
awdBVal->valid = true;
awd = calBVal->value;
if (awd >= awdHstryMin && awd <= awdHstryMax) {
hstryBufList.awdHstry->add(awd);
}
delete calBVal;
calBVal = nullptr;
} else if (useSimuData) {
awd += static_cast<double>(random(-349, 349) / 1000.0); // add up to +/- 20 degree in RAD
awd = WindUtils::to2PI(awd);
hstryBufList.awdHstry->add(awd);
}
if (awsBVal->valid) {
calBVal = new GwApi::BoatValue("AWS"); // temporary solution for calibration of history buffer values
calBVal->setFormat(awsBVal->getFormat());
calBVal->value = awsBVal->value;
calBVal->valid = awsBVal->valid;
calibrationData.calibrateInstance(calBVal, logger); // Check if boat data value is to be calibrated
aws = calBVal->value;
if (aws >= awsHstryMin && aws <= awsHstryMax) {
hstryBufList.awsHstry->add(aws);
}
delete calBVal;
calBVal = nullptr;
} else if (useSimuData) {
aws += static_cast<double>(random(-5000, 5000) / 1000.0); // add up to +/- 5 m/s TWS speed
aws = constrain(aws, 0, 40); // Limit TWS to [0..40] m/s
hstryBufList.awsHstry->add(aws);
}
LOG_DEBUG(GwLog::DEBUG,"obp60task handleHstryBuf-End: Buffer twdHstry: %.3f, twsHstry: %.3f, awdHstry: %.3f, awsHstry: %.3f", hstryBufList.twdHstry->getLast(), hstryBufList.twsHstry->getLast(),
hstryBufList.awdHstry->getLast(),hstryBufList.awsHstry->getLast());
}
// --- Class HstryBuf ---------------
// --- Class WindUtils --------------
double WindUtils::to2PI(double a)
{
a = fmod(a, M_TWOPI);
a = fmod(a, 2 * M_PI);
if (a < 0.0) {
a += M_TWOPI;
a += 2 * M_PI;
}
return a;
}
@@ -173,18 +20,18 @@ double WindUtils::toPI(double a)
double WindUtils::to360(double a)
{
a = fmod(a, 360.0);
a = fmod(a, 360);
if (a < 0.0) {
a += 360.0;
a += 360;
}
return a;
}
double WindUtils::to180(double a)
{
a += 180.0;
a += 180;
a = to360(a);
a -= 180.0;
a -= 180;
return a;
}
@@ -221,28 +68,13 @@ void WindUtils::calcTwdSA(const double* AWA, const double* AWS,
double awd = *AWA + *HDT;
awd = to2PI(awd);
double stw = -*STW;
// Serial.println("\ncalcTwdSA: AWA: " + String(*AWA) + ", AWS: " + String(*AWS) + ", CTW: " + String(*CTW) + ", STW: " + String(*STW) + ", HDT: " + String(*HDT));
addPolar(&awd, AWS, CTW, &stw, TWD, TWS);
// Normalize TWD and TWA to 0-360°
*TWD = to2PI(*TWD);
*TWA = toPI(*TWD - *HDT);
}
double WindUtils::calcHDT(const double* hdmVal, const double* varVal, const double* cogVal, const double* sogVal)
{
double hdt;
double minSogVal = 0.1; // SOG below this value (m/s) is assumed to be data noise from GPS sensor
if (*hdmVal != DBL_MAX) {
hdt = *hdmVal + (*varVal != DBL_MAX ? *varVal : 0.0); // Use corrected HDM if HDT is not available (or just HDM if VAR is not available)
hdt = to2PI(hdt);
} else if (*cogVal != DBL_MAX && *sogVal >= minSogVal) {
hdt = *cogVal; // Use COG as fallback if HDT and HDM are not available, and SOG is not data noise
} else {
hdt = DBL_MAX; // Cannot calculate HDT without valid HDM or HDM+VAR or COG
}
return hdt;
// Serial.println("calcTwdSA: TWD: " + String(*TWD) + ", TWS: " + String(*TWS));
}
bool WindUtils::calcTrueWind(const double* awaVal, const double* awsVal,
@@ -251,32 +83,38 @@ bool WindUtils::calcTrueWind(const double* awaVal, const double* awsVal,
{
double stw, hdt, ctw;
double twd, tws, twa;
double minSogVal = 0.1; // SOG below this value (m/s) is assumed to be data noise from GPS sensor
static const double DBL_MIN = std::numeric_limits<double>::lowest();
if (*hdtVal != DBL_MAX) {
if (*hdtVal != DBL_MIN) {
hdt = *hdtVal; // Use HDT if available
} else {
hdt = calcHDT(hdmVal, varVal, cogVal, sogVal);
if (*hdmVal != DBL_MIN && *varVal != DBL_MIN) {
hdt = *hdmVal + *varVal; // Use corrected HDM if HDT is not available
hdt = to2PI(hdt);
} else if (*cogVal != DBL_MIN) {
hdt = *cogVal; // Use COG as fallback if HDT and HDM are not available
} else {
return false; // Cannot calculate without valid HDT or HDM+VAR or COG
}
}
if (*cogVal != DBL_MAX && *sogVal >= minSogVal) { // if SOG is data noise, we don't trust COG
ctw = *cogVal; // Use COG for CTW if available
if (*cogVal != DBL_MIN) {
ctw = *cogVal; // Use COG as CTW if available
// ctw = *cogVal + ((*cogVal - hdt) / 2); // Estimate CTW from COG
} else {
ctw = hdt; // 2nd approximation for CTW; hdt must exist if we reach this part of the code
}
if (*stwVal != DBL_MAX) {
if (*stwVal != DBL_MIN) {
stw = *stwVal; // Use STW if available
} else if (*sogVal != DBL_MAX) {
} else if (*sogVal != DBL_MIN) {
stw = *sogVal;
} else {
// If STW and SOG are not available, we cannot calculate true wind
return false;
}
// Serial.println("\ncalcTrueWind: HDT: " + String(hdt) + ", CTW: " + String(ctw) + ", STW: " + String(stw));
if ((*awaVal == DBL_MAX) || (*awsVal == DBL_MAX)) {
if ((*awaVal == DBL_MIN) || (*awsVal == DBL_MIN)) {
// Cannot calculate true wind without valid AWA, AWS; other checks are done earlier
return false;
} else {
@@ -289,45 +127,31 @@ bool WindUtils::calcTrueWind(const double* awaVal, const double* awsVal,
}
}
// Calculate true wind data and add to obp60task boat data list
bool WindUtils::addTrueWind(GwApi* api, BoatValueList* boatValues, GwLog* log) {
GwLog* logger = log;
double awaVal, awsVal, cogVal, stwVal, sogVal, hdtVal, hdmVal, varVal;
double twd, tws, twa;
bool isCalculated = false;
awaVal = awaBVal->valid ? awaBVal->value : DBL_MAX;
awsVal = awsBVal->valid ? awsBVal->value : DBL_MAX;
cogVal = cogBVal->valid ? cogBVal->value : DBL_MAX;
stwVal = stwBVal->valid ? stwBVal->value : DBL_MAX;
sogVal = sogBVal->valid ? sogBVal->value : DBL_MAX;
hdtVal = hdtBVal->valid ? hdtBVal->value : DBL_MAX;
hdmVal = hdmBVal->valid ? hdmBVal->value : DBL_MAX;
varVal = varBVal->valid ? varBVal->value : DBL_MAX;
LOG_DEBUG(GwLog::DEBUG,"obp60task addTrueWind: 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);
isCalculated = calcTrueWind(&awaVal, &awsVal, &cogVal, &stwVal, &sogVal, &hdtVal, &hdmVal, &varVal, &twd, &tws, &twa);
if (isCalculated) { // Replace values only, if successfully calculated and not already available
if (!twdBVal->valid) {
twdBVal->value = twd;
twdBVal->valid = true;
}
if (!twsBVal->valid) {
twsBVal->value = tws;
twsBVal->valid = true;
}
if (!twaBVal->valid) {
twaBVal->value = twa;
twaBVal->valid = true;
}
void HstryBuf::fillWndBufSimData(tBoatHstryData& hstryBufs)
// Fill most part of TWD and TWS history buffer with simulated data
{
double value = 20.0;
int16_t value2 = 0;
for (int i = 0; i < 900; i++) {
value += random(-20, 20);
value = WindUtils::to360(value);
value2 = static_cast<int16_t>(value * DEG_TO_RAD * 1000);
hstryBufs.twdHstry->add(value2);
}
LOG_DEBUG(GwLog::DEBUG,"obp60task addTrueWind: isCalculated %d, TWD %.1f, TWA %.1f, TWS %.1f", isCalculated, twdBVal->value * RAD_TO_DEG,
twaBVal->value * RAD_TO_DEG, twsBVal->value * 3.6 / 1.852);
return isCalculated;
}
// --- Class WindUtils --------------
/* double genTwdSimDat()
{
simTwd += random(-20, 20);
if (simTwd < 0.0)
simTwd += 360.0;
if (simTwd >= 360.0)
simTwd -= 360.0;
int16_t z = static_cast<int16_t>(DegToRad(simTwd) * 1000.0);
pageData.boatHstry.twdHstry->add(z); // Fill the buffer with some test data
simTws += random(-200, 150) / 10.0; // TWS value in knots
simTws = constrain(simTws, 0.0f, 50.0f); // Ensure TWS is between 0 and 50 knots
twsValue = simTws;
}*/

76
lib/obp60task/OBPDataOperations.h
View File

@@ -1,90 +1,36 @@
// Function lib for history buffer handling, true wind calculation, and other operations on boat data
#pragma once
#include "GwApi.h"
#include "OBPRingBuffer.h"
#include "obp60task.h"
#include <Arduino.h>
#include <math.h>
typedef struct {
RingBuffer<uint16_t>* twdHstry;
RingBuffer<uint16_t>* twsHstry;
RingBuffer<uint16_t>* awdHstry;
RingBuffer<uint16_t>* awsHstry;
RingBuffer<int16_t>* twdHstry;
RingBuffer<int16_t>* twsHstry;
} tBoatHstryData; // Holds pointers to all history buffers for boat data
class HstryBuf {
private:
GwLog *logger;
RingBuffer<uint16_t> twdHstry; // Circular buffer to store true wind direction values
RingBuffer<uint16_t> twsHstry; // Circular buffer to store true wind speed values (TWS)
RingBuffer<uint16_t> awdHstry; // Circular buffer to store apparent wind direction values
RingBuffer<uint16_t> awsHstry; // Circular buffer to store apparent xwind speed values (AWS)
double twdHstryMin; // Min value for wind direction (TWD) in history buffer
double twdHstryMax; // Max value for wind direction (TWD) in history buffer
double twsHstryMin;
double twsHstryMax;
double awdHstryMin;
double awdHstryMax;
double awsHstryMin;
double awsHstryMax;
// boat values for buffers and for true wind calculation
GwApi::BoatValue *twdBVal, *twsBVal, *twaBVal, *awdBVal, *awsBVal;
GwApi::BoatValue *awaBVal, *hdtBVal, *hdmBVal, *varBVal, *cogBVal, *sogBVal;
public:
tBoatHstryData hstryBufList;
HstryBuf(){
hstryBufList = {&twdHstry, &twsHstry, &awdHstry, &awsHstry}; // Generate history buffers of zero size
};
HstryBuf(int size) {
hstryBufList = {&twdHstry, &twsHstry, &awdHstry, &awsHstry};
hstryBufList.twdHstry->resize(size); // store <size> xWD values for <size>/60 minutes history
hstryBufList.twsHstry->resize(size);
hstryBufList.awdHstry->resize(size);
hstryBufList.awsHstry->resize(size);
};
void init(BoatValueList* boatValues, GwLog *log);
void handleHstryBuf(bool useSimuData);
void fillWndBufSimData(tBoatHstryData& hstryBufs); // Fill most part of the TWD and TWS history buffer with simulated data
};
class WindUtils {
private:
GwApi::BoatValue *twdBVal, *twsBVal, *twaBVal;
GwApi::BoatValue *awaBVal, *awsBVal, *cogBVal, *stwBVal, *sogBVal, *hdtBVal, *hdmBVal, *varBVal;
static constexpr double DBL_MAX = std::numeric_limits<double>::max();
public:
WindUtils(BoatValueList* boatValues){
twdBVal = boatValues->findValueOrCreate("TWD");
twsBVal = boatValues->findValueOrCreate("TWS");
twaBVal = boatValues->findValueOrCreate("TWA");
awaBVal = boatValues->findValueOrCreate("AWA");
awsBVal = boatValues->findValueOrCreate("AWS");
cogBVal = boatValues->findValueOrCreate("COG");
stwBVal = boatValues->findValueOrCreate("STW");
sogBVal = boatValues->findValueOrCreate("SOG");
hdtBVal = boatValues->findValueOrCreate("HDT");
hdmBVal = boatValues->findValueOrCreate("HDM");
varBVal = boatValues->findValueOrCreate("VAR");
};
static double to2PI(double a);
static double toPI(double a);
static double to360(double a);
static double to180(double a);
void toCart(const double* phi, const double* r, double* x, double* y);
void toPol(const double* x, const double* y, double* phi, double* r);
void addPolar(const double* phi1, const double* r1,
static void toCart(const double* phi, const double* r, double* x, double* y);
static void toPol(const double* x, const double* y, double* phi, double* r);
static void addPolar(const double* phi1, const double* r1,
const double* phi2, const double* r2,
double* phi, double* r);
void calcTwdSA(const double* AWA, const double* AWS,
static void calcTwdSA(const double* AWA, const double* AWS,
const double* CTW, const double* STW, const double* HDT,
double* TWD, double* TWS, double* TWA);
static double calcHDT(const double* hdmVal, const double* varVal, const double* cogVal, const double* sogVal);
bool calcTrueWind(const double* awaVal, const double* awsVal,
static bool calcTrueWind(const double* awaVal, const double* awsVal,
const double* cogVal, const double* stwVal, const double* sogVal, const double* hdtVal,
const double* hdmVal, const double* varVal, double* twdVal, double* twsVal, double* twaVal);
bool addTrueWind(GwApi* api, BoatValueList* boatValues, GwLog *log);
};

94
lib/obp60task/OBPRingBuffer.h
View File

@@ -1,98 +1,60 @@
#pragma once
#include "FreeRTOS.h"
#include "GwSynchronized.h"
#include <algorithm>
#include <limits>
#include <stdexcept>
#include <vector>
#include <WString.h>
template <typename T>
struct PSRAMAllocator {
using value_type = T;
PSRAMAllocator() = default;
template <class U>
constexpr PSRAMAllocator(const PSRAMAllocator<U>&) noexcept { }
T* allocate(std::size_t n)
{
void* ptr = heap_caps_malloc(n * sizeof(T), MALLOC_CAP_SPIRAM);
if (!ptr) {
return nullptr;
} else {
return static_cast<T*>(ptr);
}
}
void deallocate(T* p, std::size_t) noexcept
{
heap_caps_free(p);
}
};
template <class T, class U>
bool operator==(const PSRAMAllocator<T>&, const PSRAMAllocator<U>&) { return true; }
template <class T, class U>
bool operator!=(const PSRAMAllocator<T>&, const PSRAMAllocator<U>&) { return false; }
#include "WString.h"
template <typename T>
class RingBuffer {
private:
std::vector<T, PSRAMAllocator<T>> buffer; // THE buffer vector, allocated in PSRAM
mutable SemaphoreHandle_t bufLocker;
std::vector<T> buffer;
size_t capacity;
size_t head; // Points to the next insertion position
size_t first; // Points to the first (oldest) valid element
size_t last; // Points to the last (newest) valid element
size_t count; // Number of valid elements currently in buffer
bool is_Full; // Indicates that all buffer elements are used and ringing is in use
T MIN_VAL; // lowest possible value of buffer of type <T>
T MAX_VAL; // highest possible value of buffer of type <T> -> indicates invalid value in buffer
double dblMIN_VAL, dblMAX_VAL; // MIN_VAL, MAX_VAL in double format
mutable SemaphoreHandle_t bufLocker;
T MIN_VAL; // lowest possible value of buffer
T MAX_VAL; // highest possible value of buffer of type <T>
// metadata for buffer
String dataName; // Name of boat data in buffer
String dataFmt; // Format of boat data in buffer
int updFreq; // Update frequency in milliseconds
double mltplr; // Multiplier which transforms original <double> value into buffer type format
double smallest; // Value range of buffer: smallest value; needs to be => MIN_VAL
double largest; // Value range of buffer: biggest value; needs to be < MAX_VAL, since MAX_VAL indicates invalid entries
void initCommon();
T smallest; // Value range of buffer: smallest value
T largest; // Value range of buffer: biggest value
public:
RingBuffer();
RingBuffer(size_t size);
void setMetaData(String name, String format, int updateFrequency, double multiplier, double minValue, double maxValue); // Set meta data for buffer
bool getMetaData(String& name, String& format, int& updateFrequency, double& multiplier, double& minValue, double& maxValue); // Get meta data of buffer
bool getMetaData(String& name, String& format);
void setMetaData(String name, String format, int updateFrequency, T minValue, T maxValue); // Set meta data for buffer
bool getMetaData(String& name, String& format, int& updateFrequency, T& minValue, T& maxValue); // Get meta data of buffer
String getName() const; // Get buffer name
String getFormat() const; // Get buffer data format
void add(const double& value); // Add a new value to buffer
double get(size_t index) const; // Get value at specific position (0-based index from oldest to newest)
double getFirst() const; // Get the first (oldest) value in buffer
double getLast() const; // Get the last (newest) value in buffer
double getMin() const; // Get the lowest value in buffer
double getMin(size_t amount) const; // Get minimum value of the last <amount> values of buffer
double getMax() const; // Get the highest value in buffer
double getMax(size_t amount) const; // Get maximum value of the last <amount> values of buffer
double getMid() const; // Get mid value between <min> and <max> value in buffer
double getMid(size_t amount) const; // Get mid value between <min> and <max> value of the last <amount> values of buffer
double getMedian() const; // Get the median value in buffer
double getMedian(size_t amount) const; // Get the median value of the last <amount> values of buffer
void add(const T& value); // Add a new value to buffer
T get(size_t index) const; // Get value at specific position (0-based index from oldest to newest)
T getFirst() const; // Get the first (oldest) value in buffer
T getLast() const; // Get the last (newest) value in buffer
T getMin() const; // Get the lowest value in buffer
T getMin(size_t amount) const; // Get minimum value of the last <amount> values of buffer
T getMax() const; // Get the highest value in buffer
T getMax(size_t amount) const; // Get maximum value of the last <amount> values of buffer
T getMid() const; // Get mid value between <min> and <max> value in buffer
T getMid(size_t amount) const; // Get mid value between <min> and <max> value of the last <amount> values of buffer
T getMedian() const; // Get the median value in buffer
T getMedian(size_t amount) const; // Get the median value of the last <amount> values of buffer
size_t getCapacity() const; // Get the buffer capacity (maximum size)
size_t getCurrentSize() const; // Get the current number of elements in buffer
size_t getFirstIdx() const; // Get the index of oldest value in buffer
size_t getLastIdx() const; // Get the index of newest value in buffer
bool isEmpty() const; // Check if buffer is empty
bool isFull() const; // Check if buffer is full
double getMinVal() const; // Get lowest possible value for buffer
double getMaxVal() const; // Get highest possible value for buffer; used for unset/invalid buffer data
T getMinVal() const; // Get lowest possible value for buffer; used for initialized buffer data
T getMaxVal() const; // Get highest possible value for buffer
void clear(); // Clear buffer
void resize(size_t size); // Delete buffer and set new size
double operator[](size_t index) const; // Operator[] for convenient access (same as get())
std::vector<double> getAllValues() const; // Get all current values in native buffer format as a vector
std::vector<double> getAllValues(size_t amount) const; // Get last <amount> values in native buffer format as a vector
T operator[](size_t index) const; // Operator[] for convenient access (same as get())
std::vector<T> getAllValues() const; // Get all current values as a vector
};
#include "OBPRingBuffer.tpp"

238
lib/obp60task/OBPRingBuffer.tpp
View File

@@ -1,36 +1,4 @@
#include "OBPRingBuffer.h"
#include <algorithm>
#include <limits>
#include <cmath>
template <typename T>
void RingBuffer<T>::initCommon()
{
MIN_VAL = std::numeric_limits<T>::lowest();
MAX_VAL = std::numeric_limits<T>::max();
dblMIN_VAL = static_cast<double>(MIN_VAL);
dblMAX_VAL = static_cast<double>(MAX_VAL);
dataName = "";
dataFmt = "";
updFreq = -1;
mltplr = 1;
smallest = dblMIN_VAL;
largest = dblMAX_VAL;
bufLocker = xSemaphoreCreateMutex();
}
template <typename T>
RingBuffer<T>::RingBuffer()
: capacity(0)
, head(0)
, first(0)
, last(0)
, count(0)
, is_Full(false)
{
initCommon();
// <buffer> stays empty
}
template <typename T>
RingBuffer<T>::RingBuffer(size_t size)
@@ -41,28 +9,40 @@ RingBuffer<T>::RingBuffer(size_t size)
, count(0)
, is_Full(false)
{
initCommon();
bufLocker = xSemaphoreCreateMutex();
buffer.reserve(size);
buffer.resize(size, MAX_VAL); // MAX_VAL indicate invalid values
if (size == 0) {
// return false;
}
MIN_VAL = std::numeric_limits<T>::lowest();
MAX_VAL = std::numeric_limits<T>::max();
dataName = "";
dataFmt = "";
updFreq = -1;
smallest = MIN_VAL;
largest = MAX_VAL;
buffer.resize(size, MIN_VAL);
// return true;
}
// Specify meta data of buffer content
template <typename T>
void RingBuffer<T>::setMetaData(String name, String format, int updateFrequency, double multiplier, double minValue, double maxValue)
void RingBuffer<T>::setMetaData(String name, String format, int updateFrequency, T minValue, T maxValue)
{
GWSYNCHRONIZED(&bufLocker);
dataName = name;
dataFmt = format;
updFreq = updateFrequency;
mltplr = multiplier;
smallest = std::max(dblMIN_VAL, minValue);
largest = std::min(dblMAX_VAL, maxValue);
smallest = std::max(MIN_VAL, minValue);
largest = std::min(MAX_VAL, maxValue);
}
// Get meta data of buffer content
template <typename T>
bool RingBuffer<T>::getMetaData(String& name, String& format, int& updateFrequency, double& multiplier, double& minValue, double& maxValue)
bool RingBuffer<T>::getMetaData(String& name, String& format, int& updateFrequency, T& minValue, T& maxValue)
{
if (dataName == "" || dataFmt == "" || updFreq == -1) {
return false; // Meta data not set
@@ -72,26 +52,11 @@ bool RingBuffer<T>::getMetaData(String& name, String& format, int& updateFrequen
name = dataName;
format = dataFmt;
updateFrequency = updFreq;
multiplier = mltplr;
minValue = smallest;
maxValue = largest;
return true;
}
// Get meta data of buffer content
template <typename T>
bool RingBuffer<T>::getMetaData(String& name, String& format)
{
if (dataName == "" || dataFmt == "") {
return false; // Meta data not set
}
GWSYNCHRONIZED(&bufLocker);
name = dataName;
format = dataFmt;
return true;
}
// Get buffer name
template <typename T>
String RingBuffer<T>::getName() const
@@ -99,22 +64,15 @@ String RingBuffer<T>::getName() const
return dataName;
}
// Get buffer data format
template <typename T>
String RingBuffer<T>::getFormat() const
{
return dataFmt;
}
// Add a new value to buffer
template <typename T>
void RingBuffer<T>::add(const double& value)
void RingBuffer<T>::add(const T& value)
{
GWSYNCHRONIZED(&bufLocker);
if (value < smallest || value > largest) {
buffer[head] = MAX_VAL; // Store MAX_VAL if value is out of range
buffer[head] = MIN_VAL; // Store MIN_VAL if value is out of range
} else {
buffer[head] = static_cast<T>(std::round(value * mltplr));
buffer[head] = value;
}
last = head;
@@ -126,63 +84,63 @@ void RingBuffer<T>::add(const double& value)
is_Full = true;
}
}
// Serial.printf("Ringbuffer: value %.3f, multiplier: %.1f, buffer: %d\n", value, mltplr, buffer[head]);
head = (head + 1) % capacity;
}
// Get value at specific position (0-based index from oldest to newest)
template <typename T>
double RingBuffer<T>::get(size_t index) const
T RingBuffer<T>::get(size_t index) const
{
GWSYNCHRONIZED(&bufLocker);
if (isEmpty() || index < 0 || index >= count) {
return dblMAX_VAL;
return MIN_VAL;
}
size_t realIndex = (first + index) % capacity;
return static_cast<double>(buffer[realIndex] / mltplr);
return buffer[realIndex];
}
// Operator[] for convenient access (same as get())
template <typename T>
double RingBuffer<T>::operator[](size_t index) const
T RingBuffer<T>::operator[](size_t index) const
{
return get(index);
}
// Get the first (oldest) value in the buffer
template <typename T>
double RingBuffer<T>::getFirst() const
T RingBuffer<T>::getFirst() const
{
if (isEmpty()) {
return dblMAX_VAL;
return MIN_VAL;
}
return get(0);
}
// Get the last (newest) value in the buffer
template <typename T>
double RingBuffer<T>::getLast() const
T RingBuffer<T>::getLast() const
{
if (isEmpty()) {
return dblMAX_VAL;
return MIN_VAL;
}
return get(count - 1);
}
// Get the lowest value in the buffer
template <typename T>
double RingBuffer<T>::getMin() const
T RingBuffer<T>::getMin() const
{
if (isEmpty()) {
return dblMAX_VAL;
return MIN_VAL;
}
double minVal = dblMAX_VAL;
double value;
T minVal = MAX_VAL;
T value;
for (size_t i = 0; i < count; i++) {
value = get(i);
if (value < minVal && value != dblMAX_VAL) {
if (value < minVal && value != MIN_VAL) {
minVal = value;
}
}
@@ -191,19 +149,19 @@ double RingBuffer<T>::getMin() const
// Get minimum value of the last <amount> values of buffer
template <typename T>
double RingBuffer<T>::getMin(size_t amount) const
T RingBuffer<T>::getMin(size_t amount) const
{
if (isEmpty() || amount <= 0) {
return dblMAX_VAL;
return MIN_VAL;
}
if (amount > count)
amount = count;
double minVal = dblMAX_VAL;
double value;
T minVal = MAX_VAL;
T value;
for (size_t i = 0; i < amount; i++) {
value = get(count - 1 - i);
if (value < minVal && value != dblMAX_VAL) {
if (value < minVal && value != MIN_VAL) {
minVal = value;
}
}
@@ -212,81 +170,75 @@ double RingBuffer<T>::getMin(size_t amount) const
// Get the highest value in the buffer
template <typename T>
double RingBuffer<T>::getMax() const
T RingBuffer<T>::getMax() const
{
if (isEmpty()) {
return dblMAX_VAL;
return MIN_VAL;
}
double maxVal = dblMIN_VAL;
double value;
T maxVal = MIN_VAL;
T value;
for (size_t i = 0; i < count; i++) {
value = get(i);
if (value > maxVal && value != dblMAX_VAL) {
if (value > maxVal && value != MIN_VAL) {
maxVal = value;
}
}
if (maxVal == dblMIN_VAL) { // no change of initial value -> buffer has only invalid values (MAX_VAL)
maxVal = dblMAX_VAL;
}
return maxVal;
}
// Get maximum value of the last <amount> values of buffer
template <typename T>
double RingBuffer<T>::getMax(size_t amount) const
T RingBuffer<T>::getMax(size_t amount) const
{
if (isEmpty() || amount <= 0) {
return dblMAX_VAL;
return MIN_VAL;
}
if (amount > count)
amount = count;
double maxVal = dblMIN_VAL;
double value;
T maxVal = MIN_VAL;
T value;
for (size_t i = 0; i < amount; i++) {
value = get(count - 1 - i);
if (value > maxVal && value != dblMAX_VAL) {
if (value > maxVal && value != MIN_VAL) {
maxVal = value;
}
}
if (maxVal == dblMIN_VAL) { // no change of initial value -> buffer has only invalid values (MAX_VAL)
maxVal = dblMAX_VAL;
}
return maxVal;
}
// Get mid value between <min> and <max> value in the buffer
template <typename T>
double RingBuffer<T>::getMid() const
T RingBuffer<T>::getMid() const
{
if (isEmpty()) {
return dblMAX_VAL;
return MIN_VAL;
}
return (getMin() + getMax()) / 2;
return (getMin() + getMax()) / static_cast<T>(2);
}
// Get mid value between <min> and <max> value of the last <amount> values of buffer
template <typename T>
double RingBuffer<T>::getMid(size_t amount) const
T RingBuffer<T>::getMid(size_t amount) const
{
if (isEmpty() || amount <= 0) {
return dblMAX_VAL;
return MIN_VAL;
}
if (amount > count)
amount = count;
return (getMin(amount) + getMax(amount)) / 2;
return (getMin(amount) + getMax(amount)) / static_cast<T>(2);
}
// Get the median value in the buffer
template <typename T>
double RingBuffer<T>::getMedian() const
T RingBuffer<T>::getMedian() const
{
if (isEmpty()) {
return dblMAX_VAL;
return MIN_VAL;
}
// Create a temporary vector with current valid elements
@@ -302,20 +254,20 @@ double RingBuffer<T>::getMedian() const
if (count % 2 == 1) {
// Odd number of elements
return static_cast<double>(temp[count / 2]);
return temp[count / 2];
} else {
// Even number of elements - return average of middle two
// Note: For integer types, this truncates. For floating point, it's exact.
return static_cast<double>((temp[count / 2 - 1] + temp[count / 2]) / 2);
return (temp[count / 2 - 1] + temp[count / 2]) / 2;
}
}
// Get the median value of the last <amount> values of buffer
template <typename T>
double RingBuffer<T>::getMedian(size_t amount) const
T RingBuffer<T>::getMedian(size_t amount) const
{
if (isEmpty() || amount <= 0) {
return dblMAX_VAL;
return MIN_VAL;
}
if (amount > count)
amount = count;
@@ -325,7 +277,7 @@ double RingBuffer<T>::getMedian(size_t amount) const
temp.reserve(amount);
for (size_t i = 0; i < amount; i++) {
temp.push_back(get(count - 1 - i));
temp.push_back(get(i));
}
// Sort to find median
@@ -333,11 +285,11 @@ double RingBuffer<T>::getMedian(size_t amount) const
if (amount % 2 == 1) {
// Odd number of elements
return static_cast<double>(temp[amount / 2]);
return temp[amount / 2];
} else {
// Even number of elements - return average of middle two
// Note: For integer types, this truncates. For floating point, it's exact.
return static_cast<double>((temp[amount / 2 - 1] + temp[amount / 2]) / 2);
return (temp[amount / 2 - 1] + temp[amount / 2]) / 2;
}
}
@@ -383,18 +335,18 @@ bool RingBuffer<T>::isFull() const
return is_Full;
}
// Get lowest possible value for buffer
// Get lowest possible value for buffer; used for non-set buffer data
template <typename T>
double RingBuffer<T>::getMinVal() const
T RingBuffer<T>::getMinVal() const
{
return dblMIN_VAL;
return MIN_VAL;
}
// Get highest possible value for buffer; used for unset/invalid buffer data
// Get highest possible value for buffer
template <typename T>
double RingBuffer<T>::getMaxVal() const
T RingBuffer<T>::getMaxVal() const
{
return dblMAX_VAL;
return MAX_VAL;
}
// Clear buffer
@@ -409,28 +361,11 @@ void RingBuffer<T>::clear()
is_Full = false;
}
// Delete buffer and set new size
// Get all current values as a vector
template <typename T>
void RingBuffer<T>::resize(size_t newSize)
std::vector<T> RingBuffer<T>::getAllValues() const
{
GWSYNCHRONIZED(&bufLocker);
capacity = newSize;
head = 0;
first = 0;
last = 0;
count = 0;
is_Full = false;
buffer.clear();
buffer.reserve(newSize);
buffer.resize(newSize, MAX_VAL);
}
// Get all current values in native buffer format as a vector
template <typename T>
std::vector<double> RingBuffer<T>::getAllValues() const
{
std::vector<double> result;
std::vector<T> result;
result.reserve(count);
for (size_t i = 0; i < count; i++) {
@@ -439,24 +374,3 @@ std::vector<double> RingBuffer<T>::getAllValues() const
return result;
}
// Get last <amount> values in native buffer format as a vector
template <typename T>
std::vector<double> RingBuffer<T>::getAllValues(size_t amount) const
{
std::vector<double> result;
if (isEmpty() || amount <= 0) {
return result;
}
if (amount > count)
amount = count;
result.reserve(amount);
for (size_t i = 0; i < amount; i++) {
result.push_back(get(count - 1 - i));
}
return result;
}

609
lib/obp60task/OBPcharts.cpp
View File

@@ -1,609 +0,0 @@
// Function lib for display of boat data in various chart formats
#include "OBPcharts.h"
#include "OBP60Extensions.h"
#include "OBPRingBuffer.h"
// --- Class Chart ---------------
template <typename T>
Chart<T>::Chart(RingBuffer<T>& dataBuf, int8_t chrtDir, int8_t chrtSz, double dfltRng, CommonData& common, bool useSimuData)
: dataBuf(dataBuf)
, chrtDir(chrtDir)
, chrtSz(chrtSz)
, dfltRng(dfltRng)
, commonData(&common)
, useSimuData(useSimuData)
{
logger = commonData->logger;
fgColor = commonData->fgcolor;
bgColor = commonData->bgcolor;
// LOG_DEBUG(GwLog::DEBUG, "Chart Init: Chart::dataBuf: %p, passed dataBuf: %p", (void*)&this->dataBuf, (void*)&dataBuf);
dWidth = getdisplay().width();
dHeight = getdisplay().height();
if (chrtDir == 0) {
// horizontal chart timeline direction
timAxis = dWidth;
switch (chrtSz) {
case 0:
valAxis = dHeight - top - bottom;
cStart = { 0, top };
break;
case 1:
valAxis = (dHeight - top - bottom) / 2 - hGap;
cStart = { 0, top };
break;
case 2:
valAxis = (dHeight - top - bottom) / 2 - hGap;
cStart = { 0, top + (valAxis + hGap) + hGap };
break;
default:
LOG_DEBUG(GwLog::ERROR, "displayChart: wrong init parameter");
return;
}
} else if (chrtDir == 1) {
// vertical chart timeline direction
timAxis = dHeight - top - bottom;
switch (chrtSz) {
case 0:
valAxis = dWidth;
cStart = { 0, top };
break;
case 1:
valAxis = dWidth / 2 - vGap - 1;
cStart = { 0, top };
break;
case 2:
valAxis = dWidth / 2 - vGap - 1;
cStart = { dWidth / 2 + vGap, top };
break;
default:
LOG_DEBUG(GwLog::ERROR, "displayChart: wrong init parameter");
return;
}
} else {
LOG_DEBUG(GwLog::ERROR, "displayChart: wrong init parameter");
return;
}
dataBuf.getMetaData(dbName, dbFormat);
dbMIN_VAL = dataBuf.getMinVal();
dbMAX_VAL = dataBuf.getMaxVal();
bufSize = dataBuf.getCapacity();
if (dbFormat == "formatCourse" || dbFormat == "FormatWind" || dbFormat == "FormatRot") {
if (dbFormat == "FormatRot") {
chrtDataFmt = 2; // Chart is showing data of rotational <degree> format
} else {
chrtDataFmt = 1; // Chart is showing data of course / wind <degree> format
}
rngStep = M_TWOPI / 360.0 * 10.0; // +/-10 degrees on each end of chrtMid; we are calculating with SI values
} else {
chrtDataFmt = 0; // Chart is showing any other data format than <degree>
rngStep = 5.0; // +/- 10 for all other values (eg. m/s, m, K, mBar)
}
chrtMin = 0;
chrtMax = 0;
chrtMid = dbMAX_VAL;
chrtRng = dfltRng;
recalcRngCntr = true; // initialize <chrtMid> on first screen call
LOG_DEBUG(GwLog::DEBUG, "Chart Init: dWidth: %d, dHeight: %d, timAxis: %d, valAxis: %d, cStart {x,y}: %d, %d, dbname: %s, rngStep: %.4f", dWidth, dHeight, timAxis, valAxis, cStart.x, cStart.y, dbName, rngStep);
};
template <typename T>
Chart<T>::~Chart()
{
}
// Perform all actions to draw chart
// Parameters are chart time interval, and the current boat data value to be printed
template <typename T>
void Chart<T>::showChrt(int8_t chrtIntv, GwApi::BoatValue currValue)
{
drawChrt(chrtIntv, currValue);
drawChrtTimeAxis(chrtIntv);
drawChrtValAxis();
if (bufDataValid) {
// uses BoatValue temp variable <currValue> to format latest buffer value
// doesn't work unfortunately when 'simulation data' is active, because OBP60Formatter generates own simulation value in that case
currValue.value = dataBuf.getLast();
currValue.valid = currValue.value != dbMAX_VAL;
Chart<T>::prntCurrValue(currValue);
LOG_DEBUG(GwLog::DEBUG, "Chart drawChrt: currValue-value: %.1f, Valid: %d, Name: %s, Address: %p", currValue.value, currValue.valid, currValue.getName(), (void*)&currValue);
}
}
// draw chart
template <typename T>
void Chart<T>::drawChrt(int8_t chrtIntv, GwApi::BoatValue& currValue)
{
double chrtVal; // Current data value
double chrtScl; // Scale for data values in pixels per value
static double chrtPrevVal; // Last data value in chart area
// bool bufDataValid = false; // Flag to indicate if buffer data is valid
static int numNoData; // Counter for multiple invalid data values in a row
int x, y; // x and y coordinates for drawing
static int prevX, prevY; // Last x and y coordinates for drawing
// Identify buffer size and buffer start position for chart
count = dataBuf.getCurrentSize();
currIdx = dataBuf.getLastIdx();
numAddedBufVals = (currIdx - lastAddedIdx + bufSize) % bufSize; // Number of values added to buffer since last display
if (chrtIntv != oldChrtIntv || count == 1) {
// new data interval selected by user; this is only x * 230 values instead of 240 seconds (4 minutes) per interval step
// intvBufSize = timAxis * chrtIntv; // obsolete
numBufVals = min(count, (timAxis - 60) * chrtIntv); // keep free or release 60 values on chart for plotting of new values
bufStart = max(0, count - numBufVals);
lastAddedIdx = currIdx;
oldChrtIntv = chrtIntv;
} else {
numBufVals = numBufVals + numAddedBufVals;
lastAddedIdx = currIdx;
if (count == bufSize) {
bufStart = max(0, bufStart - numAddedBufVals);
}
}
calcChrtBorders(chrtMid, chrtMin, chrtMax, chrtRng);
chrtScl = double(valAxis) / chrtRng; // Chart scale: pixels per value step
// Do we have valid buffer data?
if (dataBuf.getMax() == dbMAX_VAL) { // only <MAX_VAL> values in buffer -> no valid wind data available
bufDataValid = false;
} else if (!currValue.valid && !useSimuData) { // currently no valid boat data available and no simulation mode
numNoData++;
bufDataValid = true;
if (numNoData > 3) { // If more than 4 invalid values in a row, send message
bufDataValid = false;
}
} else {
numNoData = 0; // reset data error counter
bufDataValid = true; // At least some wind data available
}
// Draw wind values in chart
//***********************************************************************
if (bufDataValid) {
for (int i = 0; i < (numBufVals / chrtIntv); i++) {
chrtVal = dataBuf.get(bufStart + (i * chrtIntv)); // show the latest wind values in buffer; keep 1st value constant in a rolling buffer
if (chrtVal == dbMAX_VAL) {
chrtPrevVal = dbMAX_VAL;
} else {
if (chrtDir == 0) { // horizontal chart
x = cStart.x + i; // Position in chart area
if (chrtDataFmt == 0) {
y = cStart.y + static_cast<int>(((chrtVal - chrtMin) * chrtScl) + 0.5); // calculate chart point and round
} else { // degree type value
y = cStart.y + static_cast<int>((WindUtils::to2PI(chrtVal - chrtMin) * chrtScl) + 0.5); // calculate chart point and round
}
} else { // vertical chart
y = cStart.y + timAxis - i; // Position in chart area
if (chrtDataFmt == 0) {
x = cStart.x + static_cast<int>(((chrtVal - chrtMin) * chrtScl) + 0.5); // calculate chart point and round
} else { // degree type value
x = cStart.x + static_cast<int>((WindUtils::to2PI(chrtVal - chrtMin) * chrtScl) + 0.5); // calculate chart point and round
}
}
// if (i >= (numBufVals / chrtIntv) - 5) // log chart data of 1 line (adjust for test purposes)
// LOG_DEBUG(GwLog::DEBUG, "PageWindPlot Chart: i: %d, chrtVal: %.4f, {x,y} {%d,%d}", i, chrtVal, x, y);
if ((i == 0) || (chrtPrevVal == dbMAX_VAL)) {
// just a dot for 1st chart point or after some invalid values
prevX = x;
prevY = y;
} else if (chrtDataFmt != 0) {
// cross borders check for degree values; shift values to [-PI..0..PI]; when crossing borders, range is 2x PI degrees
double normCurr = WindUtils::to2PI(chrtVal - chrtMin);
double normPrev = WindUtils::to2PI(chrtPrevVal - chrtMin);
// Check if pixel positions are far apart (crossing chart boundary); happens when one value is near chrtMax and the other near chrtMin
bool crossedBorders = std::abs(normCurr - normPrev) > (chrtRng / 2.0);
if (crossedBorders) { // If current value crosses chart borders compared to previous value, split line
// LOG_DEBUG(GwLog::DEBUG, "PageWindPlot Chart: crossedBorders: %d, chrtVal: %.2f, chrtPrevVal: %.2f", crossedBorders, chrtVal, chrtPrevVal);
bool wrappingFromHighToLow = normCurr < normPrev; // Determine which edge we're crossing
if (chrtDir == 0) {
int ySplit = wrappingFromHighToLow ? (cStart.y + valAxis) : cStart.y;
getdisplay().drawLine(prevX, prevY, x, ySplit, fgColor);
if (x != prevX) { // line with some horizontal trend
getdisplay().drawLine(prevX, prevY - 1, x, ySplit - 1, fgColor);
} else {
getdisplay().drawLine(prevX, prevY - 1, x - 1, ySplit, fgColor);
}
prevY = wrappingFromHighToLow ? cStart.y : (cStart.y + valAxis);
} else { // vertical chart
int xSplit = wrappingFromHighToLow ? (cStart.x + valAxis) : cStart.x;
getdisplay().drawLine(prevX, prevY, xSplit, y, fgColor);
getdisplay().drawLine(prevX, prevY - 1, ((xSplit != prevX) ? xSplit : xSplit - 1), ((xSplit != prevX) ? y - 1 : y), fgColor);
prevX = wrappingFromHighToLow ? cStart.x : (cStart.x + valAxis);
}
}
}
// Draw line with 2 pixels width + make sure vertical lines are drawn correctly
if (chrtDir == 0 || x == prevX) { // horizontal chart & vertical line
// if (x == prevX) { // vertical line
getdisplay().drawLine(prevX, prevY, x, y, fgColor);
getdisplay().drawLine(prevX - 1, prevY, x - 1, y, fgColor);
} else if (chrtDir == 1 || x != prevX) { // vertical chart & line with some horizontal trend -> normal state
// } else { // line with some horizontal trend -> normal state
getdisplay().drawLine(prevX, prevY, x, y, fgColor);
getdisplay().drawLine(prevX, prevY - 1, x, y - 1, fgColor);
}
chrtPrevVal = chrtVal;
prevX = x;
prevY = y;
}
// Reaching chart area bottom end
if (i >= timAxis - 1) {
oldChrtIntv = 0; // force reset of buffer start and number of values to show in next display loop
if (chrtDataFmt == 1) { // degree of course or wind
recalcRngCntr = true;
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot FreeTop: timAxis: %d, i: %d, bufStart: %d, numBufVals: %d, recalcRngCntr: %d", timAxis, i, bufStart, numBufVals, recalcRngCntr);
}
break;
}
}
} else {
// No valid data available
getdisplay().setFont(&Ubuntu_Bold10pt8b);
int pX, pY;
if (chrtDir == 0) { // horizontal chart
pX = cStart.x + (timAxis / 2);
pY = cStart.y + (valAxis / 2) - 10;
} else { // vertical chart
pX = cStart.x + (valAxis / 2);
pY = cStart.y + (timAxis / 2) - 10;
}
getdisplay().fillRect(pX - 33, pY - 10, 66, 24, bgColor); // Clear area for message
drawTextCenter(pX, pY, "No data");
LOG_DEBUG(GwLog::LOG, "PageWindPlot: No valid data available");
}
}
// Get maximum difference of last <amount> of dataBuf ringbuffer values to center chart
template <typename T>
double Chart<T>::getRng(double center, size_t amount)
{
size_t count = dataBuf.getCurrentSize();
if (dataBuf.isEmpty() || amount <= 0) {
return dbMAX_VAL;
}
if (amount > count)
amount = count;
double value = 0;
double range = 0;
double maxRng = dbMIN_VAL;
// Start from the newest value (last) and go backwards x times
for (size_t i = 0; i < amount; i++) {
value = dataBuf.get(count - 1 - i);
if (value == dbMAX_VAL) {
continue; // ignore invalid values
}
range = abs(fmod((value - center + (M_TWOPI + M_PI)), M_TWOPI) - M_PI);
if (range > maxRng)
maxRng = range;
}
if (maxRng > M_PI) {
maxRng = M_PI;
}
return (maxRng != dbMIN_VAL ? maxRng : dbMAX_VAL); // Return range from <mid> to <max>
}
// check and adjust chart range and set range borders and range middle
template <typename T>
void Chart<T>::calcChrtBorders(double& rngMid, double& rngMin, double& rngMax, double& rng)
{
if (chrtDataFmt == 0) {
// Chart data is of any type but 'degree'
double oldRngMin = rngMin;
double oldRngMax = rngMax;
// Chart starts at lowest range value, but at least '0' or includes even negative values
double currMinVal = dataBuf.getMin(numBufVals);
LOG_DEBUG(GwLog::DEBUG, "calcChrtRange0a: currMinVal: %.1f, currMaxVal: %.1f, rngMin: %.1f, rngMid: %.1f, rngMax: %.1f, rng: %.1f, rngStep: %.1f, oldRngMin: %.1f, oldRngMax: %.1f, dfltRng: %.1f, numBufVals: %d",
currMinVal, dataBuf.getMax(numBufVals), rngMin, rngMid, rngMax, rng, rngStep, oldRngMin, oldRngMax, dfltRng, numBufVals);
if (currMinVal != dbMAX_VAL) { // current min value is valid
if (currMinVal > 0 && dbMIN_VAL == 0) { // Chart range starts at least at '0' or includes negative values
rngMin = 0;
} else if (currMinVal < oldRngMin || (oldRngMin < 0 && (currMinVal > (oldRngMin + rngStep)))) { // decrease rngMin if required or increase if lowest value is higher than old rngMin
rngMin = std::floor(currMinVal / rngStep) * rngStep;
}
} // otherwise keep rngMin unchanged
double currMaxVal = dataBuf.getMax(numBufVals);
if (currMaxVal != dbMAX_VAL) { // current max value is valid
if ((currMaxVal > oldRngMax) || (currMaxVal < (oldRngMax - rngStep))) { // increase rngMax if required or decrease if lowest value is lower than old rngMax
rngMax = std::ceil(currMaxVal / rngStep) * rngStep;
rngMax = std::max(rngMax, rngMin + dfltRng); // keep at least default chart range
}
} // otherwise keep rngMax unchanged
rngMid = (rngMin + rngMax) / 2.0;
rng = rngMax - rngMin;
LOG_DEBUG(GwLog::DEBUG, "calcChrtRange1a: currMinVal: %.1f, currMaxVal: %.1f, rngMin: %.1f, rngMid: %.1f, rngMax: %.1f, rng: %.1f, rngStep: %.1f, oldRngMin: %.1f, oldRngMax: %.1f, dfltRng: %.1f, numBufVals: %d",
currMinVal, currMaxVal, rngMin, rngMid, rngMax, rng, rngStep, oldRngMin, oldRngMax, dfltRng, numBufVals);
} else {
if (chrtDataFmt == 1) {
// Chart data is of type 'course' or 'wind'
if ((count == 1 && rngMid == 0) || rngMid == dbMAX_VAL) {
recalcRngCntr = true; // initialize <rngMid>
}
// Set rngMid
if (recalcRngCntr) {
rngMid = dataBuf.getMid(numBufVals);
if (rngMid == dbMAX_VAL) {
rngMid = 0;
} else {
rngMid = std::round(rngMid / rngStep) * rngStep; // Set new center value; round to next <rngStep> value
// Check if range between 'min' and 'max' is > 180° or crosses '0'
rngMin = dataBuf.getMin(numBufVals);
rngMax = dataBuf.getMax(numBufVals);
rng = (rngMax >= rngMin ? rngMax - rngMin : M_TWOPI - rngMin + rngMax);
rng = max(rng, dfltRng); // keep at least default chart range
if (rng > M_PI) { // If wind range > 180°, adjust wndCenter to smaller wind range end
rngMid = WindUtils::to2PI(rngMid + M_PI);
}
}
recalcRngCntr = false; // Reset flag for <rngMid> determination
LOG_DEBUG(GwLog::DEBUG, "calcChrtRange1b: rngMid: %.1f°, rngMin: %.1f°, rngMax: %.1f°, rng: %.1f°, rngStep: %.1f°", rngMid * RAD_TO_DEG, rngMin * RAD_TO_DEG, rngMax * RAD_TO_DEG,
rng * RAD_TO_DEG, rngStep * RAD_TO_DEG);
}
} else if (chrtDataFmt == 2) {
// Chart data is of type 'rotation'; then we want to have <rndMid> always to be '0'
rngMid = 0;
}
// check and adjust range between left, center, and right chart limit
double halfRng = rng / 2.0; // we calculate with range between <rngMid> and edges
double diffRng = getRng(rngMid, numBufVals);
// LOG_DEBUG(GwLog::DEBUG, "calcChrtRange2: diffRng: %.1f°, halfRng: %.1f°", diffRng * RAD_TO_DEG, halfRng * RAD_TO_DEG);
diffRng = (diffRng == dbMAX_VAL ? 0 : std::ceil(diffRng / rngStep) * rngStep);
// LOG_DEBUG(GwLog::DEBUG, "calcChrtRange2: diffRng: %.1f°, halfRng: %.1f°", diffRng * RAD_TO_DEG, halfRng * RAD_TO_DEG);
if (diffRng > halfRng) {
halfRng = diffRng; // round to next <rngStep> value
} else if (diffRng + rngStep < halfRng) { // Reduce chart range for higher resolution if possible
halfRng = max(dfltRng / 2.0, diffRng);
}
rngMin = WindUtils::to2PI(rngMid - halfRng);
rngMax = (halfRng < M_PI ? rngMid + halfRng : rngMid + halfRng - (M_TWOPI / 360)); // if chart range is 360°, then make <rngMax> 1° smaller than <rngMin>
rngMax = WindUtils::to2PI(rngMax);
// LOG_DEBUG(GwLog::DEBUG, "calcChrtRange2: diffRng: %.1f°, halfRng: %.1f°", diffRng * RAD_TO_DEG, halfRng * RAD_TO_DEG);
rng = halfRng * 2.0;
LOG_DEBUG(GwLog::DEBUG, "calcChrtRange2b: rngMid: %.1f°, rngMin: %.1f°, rngMax: %.1f°, diffRng: %.1f°, rng: %.1f°, rngStep: %.1f°", rngMid * RAD_TO_DEG, rngMin * RAD_TO_DEG, rngMax * RAD_TO_DEG,
diffRng * RAD_TO_DEG, rng * RAD_TO_DEG, rngStep * RAD_TO_DEG);
}
}
// chart time axis label + lines
template <typename T>
void Chart<T>::drawChrtTimeAxis(int8_t chrtIntv)
{
int timeRng;
float slots, intv, i;
char sTime[6];
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setTextColor(fgColor);
if (chrtDir == 0) { // horizontal chart
getdisplay().fillRect(0, cStart.y, dWidth, 2, fgColor);
timeRng = chrtIntv * 4; // Chart time interval: [1] 4 min., [2] 8 min., [3] 12 min., [4] 16 min., [8] 32 min.
slots = timAxis / 80.0; // number of axis labels
intv = timeRng / slots; // minutes per chart axis interval
i = timeRng; // Chart axis label start at -32, -16, -12, ... minutes
for (int j = 0; j < timAxis - 30; j += 80) { // fill time axis with values but keep area free on right hand side for value label
// LOG_DEBUG(GwLog::DEBUG, "ChartTimeAxis: timAxis: %d, {x,y}: {%d,%d}, i: %.1f, j: %d, chrtIntv: %d, intv: %.1f, slots: %.1f", timAxis, cStart.x, cStart.y, i, j, chrtIntv, intv, slots);
// Format time label based on interval
if (chrtIntv < 3) {
snprintf(sTime, sizeof(sTime), "-%.1f", i);
} else {
snprintf(sTime, sizeof(sTime), "-%.0f", std::round(i));
}
// draw text with appropriate offset
// int tOffset = (j == 0) ? 13 : (chrtIntv < 3 ? -4 : -4);
int tOffset = j == 0 ? 13 : -4;
drawTextCenter(cStart.x + j + tOffset, cStart.y - 8, sTime);
getdisplay().drawLine(cStart.x + j, cStart.y, cStart.x + j, cStart.y + 5, fgColor); // draw short vertical time mark
i -= intv;
}
} else { // vertical chart
timeRng = chrtIntv * 4; // chart time interval: [1] 4 min., [2] 8 min., [3] 12 min., [4] 16 min., [8] 32 min.
slots = timAxis / 75.0; // number of axis labels
intv = timeRng / slots; // minutes per chart axis interval
i = -intv; // chart axis label start at -32, -16, -12, ... minutes
for (int j = 75; j < (timAxis - 75); j += 75) { // don't print time label at upper and lower end of time axis
if (chrtIntv < 3) { // print 1 decimal if time range is single digit (4 or 8 minutes)
snprintf(sTime, sizeof(sTime), "%.1f", i);
} else {
snprintf(sTime, sizeof(sTime), "%.0f", std::floor(i));
}
getdisplay().drawLine(cStart.x, cStart.y + j, cStart.x + valAxis, cStart.y + j, fgColor); // Grid line
if (chrtSz == 0) { // full size chart
getdisplay().fillRect(0, cStart.y + j - 9, 32, 15, bgColor); // clear small area to remove potential chart lines
getdisplay().setCursor((4 - strlen(sTime)) * 7, cStart.y + j + 3); // time value; print left screen; value right-formated
getdisplay().printf("%s", sTime); // Range value
} else if (chrtSz == 2) { // half size chart; right side
drawTextCenter(dWidth / 2, cStart.y + j, sTime); // time value; print mid screen
}
i -= intv;
}
}
}
// chart value axis labels + lines
template <typename T>
void Chart<T>::drawChrtValAxis()
{
double slots;
int i, intv;
double cVal, cchrtRng, crngMin;
char sVal[6];
int sLen;
std::unique_ptr<GwApi::BoatValue> tmpBVal; // Temp variable to get formatted and converted data value from OBP60Formatter
tmpBVal = std::unique_ptr<GwApi::BoatValue>(new GwApi::BoatValue(dataBuf.getName()));
tmpBVal->setFormat(dataBuf.getFormat());
tmpBVal->valid = true;
if (chrtDir == 0) { // horizontal chart
slots = valAxis / 60.0; // number of axis labels
tmpBVal->value = chrtRng;
cchrtRng = formatValue(tmpBVal.get(), *commonData).cvalue; // value (converted)
intv = static_cast<int>(round(cchrtRng / slots));
i = intv;
if (chrtSz == 0) { // full size chart -> print multiple value lines
getdisplay().setFont(&Ubuntu_Bold12pt8b);
for (int j = 60; j < valAxis - 30; j += 60) {
getdisplay().drawLine(cStart.x, cStart.y + j, cStart.x + timAxis, cStart.y + j, fgColor);
getdisplay().fillRect(cStart.x, cStart.y + j - 11, 42, 21, bgColor); // Clear small area to remove potential chart lines
String sVal = String(i);
getdisplay().setCursor((3 - sVal.length()) * 10, cStart.y + j + 7); // value right-formated
getdisplay().printf("%s", sVal); // Range value
i += intv;
}
} else { // half size chart -> print just edge values + middle chart line
getdisplay().setFont(&Ubuntu_Bold10pt8b);
tmpBVal->value = chrtMin;
cVal = formatValue(tmpBVal.get(), *commonData).cvalue; // value (converted)
sLen = snprintf(sVal, sizeof(sVal), "%.0f", round(cVal));
getdisplay().fillRect(cStart.x, cStart.y + 2, 42, 16, bgColor); // Clear small area to remove potential chart lines
getdisplay().setCursor(cStart.x + ((3 - sLen) * 10), cStart.y + 16);
getdisplay().printf("%s", sVal); // Range low end
tmpBVal->value = chrtMid;
cVal = formatValue(tmpBVal.get(), *commonData).cvalue; // value (converted)
sLen = snprintf(sVal, sizeof(sVal), "%.0f", round(cVal));
getdisplay().fillRect(cStart.x, cStart.y + (valAxis / 2) - 9, 42, 16, bgColor); // Clear small area to remove potential chart lines
getdisplay().setCursor(cStart.x + ((3 - sLen) * 10), cStart.y + (valAxis / 2) + 5);
getdisplay().printf("%s", sVal); // Range mid value
getdisplay().drawLine(cStart.x + 43, cStart.y + (valAxis / 2), cStart.x + timAxis, cStart.y + (valAxis / 2), fgColor);
tmpBVal->value = chrtMax;
cVal = formatValue(tmpBVal.get(), *commonData).cvalue; // value (converted)
sLen = snprintf(sVal, sizeof(sVal), "%.0f", round(cVal));
getdisplay().fillRect(cStart.x, cStart.y + valAxis - 16, 42, 16, bgColor); // Clear small area to remove potential chart lines
getdisplay().setCursor(cStart.x + ((3 - sLen) * 10), cStart.y + valAxis - 1);
getdisplay().printf("%s", sVal); // Range high end
getdisplay().drawLine(cStart.x + 43, cStart.y + valAxis, cStart.x + timAxis, cStart.y + valAxis, fgColor);
}
getdisplay().setFont(&Ubuntu_Bold12pt8b);
drawTextRalign(cStart.x + timAxis, cStart.y - 3, dbName); // buffer data name
} else { // vertical chart
if (chrtSz == 0) { // full size chart -> use larger font
getdisplay().setFont(&Ubuntu_Bold12pt8b);
drawTextCenter(cStart.x + (valAxis / 4) + 25, cStart.y - 10, dbName); // buffer data name
} else {
getdisplay().setFont(&Ubuntu_Bold10pt8b);
}
getdisplay().fillRect(cStart.x, top, valAxis, 2, fgColor); // top chart line
tmpBVal->value = chrtMin;
cVal = formatValue(tmpBVal.get(), *commonData).cvalue; // value (converted)
snprintf(sVal, sizeof(sVal), "%.0f", round(cVal));
getdisplay().setCursor(cStart.x, cStart.y - 2);
getdisplay().printf("%s", sVal); // Range low end
tmpBVal->value = chrtMid;
cVal = formatValue(tmpBVal.get(), *commonData).cvalue; // value (converted)
snprintf(sVal, sizeof(sVal), "%.0f", round(cVal));
drawTextCenter(cStart.x + (valAxis / 2), cStart.y - 10, sVal); // Range mid end
tmpBVal->value = chrtMax;
cVal = formatValue(tmpBVal.get(), *commonData).cvalue; // value (converted)
snprintf(sVal, sizeof(sVal), "%.0f", round(cVal));
drawTextRalign(cStart.x + valAxis - 2, cStart.y - 2, sVal); // Range high end
for (int j = 0; j <= valAxis + 2; j += ((valAxis + 2) / 2)) {
getdisplay().drawLine(cStart.x + j, cStart.y, cStart.x + j, cStart.y + timAxis, fgColor);
}
// if (chrtSz == 0) {
// getdisplay().setFont(&Ubuntu_Bold12pt8b);
// drawTextCenter(cStart.x + (valAxis / 4) + 15, cStart.y - 11, dbName); // buffer data name
// }
}
}
// Print current data value
template <typename T>
void Chart<T>::prntCurrValue(GwApi::BoatValue& currValue)
{
const int xPosVal = (chrtDir == 0) ? cStart.x + (timAxis / 2) - 56 : cStart.x + 32;
const int yPosVal = (chrtDir == 0) ? cStart.y + valAxis - 7 : cStart.y + timAxis - 7;
FormattedData frmtDbData = formatValue(&currValue, *commonData);
double testdbValue = frmtDbData.value;
String sdbValue = frmtDbData.svalue; // value (string)
String dbUnit = frmtDbData.unit; // Unit of value
// LOG_DEBUG(GwLog::DEBUG, "Chart CurrValue: dbValue: %.2f, sdbValue: %s, fmrtDbValue: %.2f, dbFormat: %s, dbUnit: %s, Valid: %d, Name: %s, Address: %p", currValue.value, sdbValue,
// testdbValue, currValue.getFormat(), dbUnit, currValue.valid, currValue.getName(), currValue);
getdisplay().fillRect(xPosVal - 1, yPosVal - 34, 125, 41, bgColor); // Clear area for TWS value
getdisplay().drawRect(xPosVal, yPosVal - 33, 123, 39, fgColor); // Draw box for TWS value
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
getdisplay().setCursor(xPosVal + 1, yPosVal);
if (useSimuData) {
getdisplay().printf("%2.1f", currValue.value); // Value
} else {
getdisplay().print(sdbValue); // Value
}
getdisplay().setFont(&Ubuntu_Bold10pt8b);
getdisplay().setCursor(xPosVal + 76, yPosVal - 17);
getdisplay().print(dbName); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(xPosVal + 76, yPosVal + 0);
getdisplay().print(dbUnit); // Unit
}
// Explicitly instantiate class with required data types to avoid linker errors
template class Chart<uint16_t>;
// --- Class Chart ---------------

70
lib/obp60task/OBPcharts.h
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// Function lib for display of boat data in various graphical chart formats
#pragma once
#include "Pagedata.h"
struct Pos {
int x;
int y;
};
template <typename T> class RingBuffer;
class GwLog;
template <typename T>
class Chart {
protected:
CommonData *commonData;
GwLog *logger;
RingBuffer<T> &dataBuf; // Buffer to display
int8_t chrtDir; // Chart timeline direction: [0] = horizontal, [1] = vertical
int8_t chrtSz; // Chart size: [0] = full size, [1] = half size left/top, [2] half size right/bottom
double dfltRng; // Default range of chart, e.g. 30 = [0..30]
uint16_t fgColor; // color code for any screen writing
uint16_t bgColor; // color code for screen background
bool useSimuData; // flag to indicate if simulation data is active
int top = 48; // display top header lines
int bottom = 22; // display bottom lines
int hGap = 11; // gap between 2 horizontal charts; actual gap is 2x <gap>
int vGap = 20; // gap between 2 vertical charts; actual gap is 2x <gap>
int xOffset = 33; // offset for horizontal axis (time/value), because of space for left vertical axis labeling
int yOffset = 10; // offset for vertical axis (time/value), because of space for top horizontal axis labeling
int dWidth; // Display width
int dHeight; // Display height
int timAxis, valAxis; // size of time and value chart axis
Pos cStart; // start point of chart area
double chrtRng; // Range of buffer values from min to max value
double chrtMin; // Range low end value
double chrtMax; // Range high end value
double chrtMid; // Range mid value
double rngStep; // Defines the step of adjustment (e.g. 10 m/s) for value axis range
bool recalcRngCntr = false; // Flag for re-calculation of mid value of chart for wind data types
String dbName, dbFormat; // Name and format of data buffer
int chrtDataFmt; // Data format of chart: [0] size values; [1] degree of course or wind; [2] rotational degrees
double dbMIN_VAL; // Lowest possible value of buffer of type <T>
double dbMAX_VAL; // Highest possible value of buffer of type <T>; indicates invalid value in buffer
size_t bufSize; // History buffer size: 1.920 values for 32 min. history chart
int count; // current size of buffer
int numBufVals; // number of wind values available for current interval selection
int bufStart; // 1st data value in buffer to show
int numAddedBufVals; // Number of values added to buffer since last display
size_t currIdx; // Current index in TWD history buffer
size_t lastIdx; // Last index of TWD history buffer
size_t lastAddedIdx = 0; // Last index of TWD history buffer when new data was added
bool bufDataValid = false; // Flag to indicate if buffer data is valid
int oldChrtIntv = 0; // remember recent user selection of data interval
void drawChrt(int8_t chrtIntv, GwApi::BoatValue& currValue); // Draw chart line
double getRng(double center, size_t amount); // Calculate range between chart center and edges
void calcChrtBorders(double& rngMid, double& rngMin, double& rngMax, double& rng); // Calculate chart points for value axis and return range between <min> and <max>
void drawChrtTimeAxis(int8_t chrtIntv); // Draw time axis of chart, value and lines
void drawChrtValAxis(); // Draw value axis of chart, value and lines
void prntCurrValue(GwApi::BoatValue& currValue); // Add current boat data value to chart
public:
Chart(RingBuffer<T>& dataBuf, int8_t chrtDir, int8_t chrtSz, double dfltRng, CommonData& common, bool useSimuData); // Chart object of data chart
~Chart();
void showChrt(int8_t chrtIntv, GwApi::BoatValue currValue); // Perform all actions to draw chart
};

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// 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
*/
class PageAIS : public Page
{
private:
bool simulation = false;
bool holdvalues = false;
String flashLED;
String backlightMode;
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: ...
LOG_DEBUG(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");
// preload configuration data
simulation = config->getBool(config->useSimuData);
holdvalues = config->getBool(config->holdvalues);
flashLED = config->getString(config->flashLED);
backlightMode = config->getString(config->backlight);
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){
};
int displayPage(PageData &pageData){
// Logging boat values
LOG_DEBUG(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

429
lib/obp60task/PageAnchor.cpp Normal file
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// 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.
*/
#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:
bool simulation = false;
bool holdvalues = false;
String flashLED;
String backlightMode;
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 = formatValue(bv_dbs, *commonData).svalue;
String sunit_dbs = formatValue(bv_dbs, *commonData).unit;
GwApi::BoatValue *bv_hdt = pageData.values[1]; // HDT
String sval_hdt = formatValue(bv_hdt, *commonData).svalue;
GwApi::BoatValue *bv_aws = pageData.values[2]; // AWS
String sval_aws = formatValue(bv_aws, *commonData).svalue;
String sunit_aws = formatValue(bv_aws, *commonData).unit;
GwApi::BoatValue *bv_awd = pageData.values[3]; // AWD
String sval_awd = formatValue(bv_awd, *commonData).svalue;
GwApi::BoatValue *bv_lat = pageData.values[4]; // LAT
String sval_lat = formatValue(bv_lat, *commonData).svalue;
GwApi::BoatValue *bv_lon = pageData.values[5]; // LON
String sval_lon = formatValue(bv_lon, *commonData).svalue;
GwApi::BoatValue *bv_hdop = pageData.values[6]; // HDOP
String sval_hdop = formatValue(bv_hdop, *commonData).svalue;
String sunit_hdop = formatValue(bv_hdop, *commonData).unit;
LOG_DEBUG(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);
LOG_DEBUG(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) {
LOG_DEBUG(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
simulation = config->getBool(config->useSimuData);
holdvalues = config->getBool(config->holdvalues);
flashLED = config->getString(config->flashLED);
backlightMode = config->getString(config->backlight);
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){
};
int displayPage(PageData &pageData){
// Logging boat values
LOG_DEBUG(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

143
lib/obp60task/PageAutopilot.cpp Normal file
View File

@@ -0,0 +1,143 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
/*
Autopilot
*/
class PageAutopilot : public Page
{
private:
bool simulation = false;
bool holdvalues = false;
String flashLED;
String backlightMode;
char mode = 'N'; // (N)ormal, (C)onfig
void displayModeNormal(PageData &pageData) {
// TBD Boatvalues: ...
LOG_DEBUG(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");
}
void displayModeConfig() {
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");
// preload configuration data
simulation = config->getBool(config->useSimuData);
holdvalues = config->getBool(config->holdvalues);
flashLED = config->getString(config->flashLED);
backlightMode = config->getString(config->backlight);
}
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;
}
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){
};
int displayPage(PageData &pageData){
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageAutopilot; 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 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
* and we provide the number of user parameters we expect
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageAutopilot(
"Autopilot", // 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)
false // Show display header on/off
);
#endif

73
lib/obp60task/PageBME280.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"
@@ -5,10 +6,10 @@
class PageBME280 : public Page
{
public:
PageBME280(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageBME280");
public:
PageBME280(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG,"Instantiate PageBME280");
}
virtual int handleKey(int key){
@@ -21,8 +22,6 @@ class PageBME280 : public Page
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
double value1 = 0;
double value2 = 0;
@@ -105,76 +104,76 @@ class PageBME280 : public 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;
};

139
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"
@@ -8,9 +9,9 @@ class PageBattery : public Page
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");
PageBattery(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageBattery");
}
virtual void setupKeys(){
@@ -35,8 +36,6 @@ class PageBattery : public Page
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
double value1 = 0;
@@ -158,134 +157,134 @@ class PageBattery : public 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("---"); // 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("---"); // 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("---"); // No sensor data (sensor is off)
}
return PAGE_UPDATE;

171
lib/obp60task/PageBattery2.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"
@@ -12,17 +13,17 @@ 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");
}
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 +45,7 @@ public:
return key;
}
int displayPage(PageData &pageData)
{
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
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
@@ -184,107 +181,107 @@ 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
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);
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 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);
if(batCapacity <= 999) epd->print(batCapacity, 0);
if(batCapacity > 999) epd->print(float(batCapacity/1000.0), 1);
epd->setFont(&Ubuntu_Bold16pt8b);
if(batCapacity <= 999) epd->print("Ah");
if(batCapacity > 999) epd->print("kAh");
// 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);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(150, 260);
if((powerSensor == "INA219" || powerSensor == "INA226") && simulation == false){
if(batRange < 9.9) getdisplay().print(batRange, 1);
else getdisplay().print(batRange, 0);
if(batRange < 9.9) epd->print(batRange, 1);
else epd->print(batRange, 0);
}
else getdisplay().print("--");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("h");
else epd->print("--");
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");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(270, 60);
if(powerSensor == "off") epd->print("Internal");
if(powerSensor == "INA219"){
getdisplay().print("INA219");
epd->print("INA219");
}
if(powerSensor == "INA226"){
getdisplay().print("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);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(260, 140);
if(simulation == true){
if(batVoltage == "12V"){
value1 = 12.0;
@@ -293,46 +290,46 @@ 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("---"); // 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);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->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);
if(value2 <= 9.9) epd->print(value2, 2);
if(value2 > 9.9 && value2 <= 99.9)epd->print(value2, 1);
if(value2 > 99.9) epd->print(value2, 0);
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("A");
else epd->print("---");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("A");
// Show actual consumption in W
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 260);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->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);
if(value3 <= 9.9) epd->print(value3, 2);
if(value3 > 9.9 && value3 <= 99.9)epd->print(value3, 1);
if(value3 > 99.9) epd->print(value3, 0);
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("W");
else epd->print("---");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("W");
return PAGE_UPDATE;
};

188
lib/obp60task/PageClock.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"
@@ -16,25 +17,35 @@
class PageClock : public Page
{
bool simulation = false;
int simtime;
bool keylock = false;
char source = 'R'; // time source (R)TC | (G)PS | (N)TP
char mode = 'A'; // display mode (A)nalog | (D)igital | race (T)imer
char tz = 'L'; // time zone (L)ocal | (U)TC
double timezone = 0; // there are timezones with non int offsets, e.g. 5.5 or 5.75
double homelat;
double homelon;
bool homevalid = false; // homelat and homelon are valid
private:
bool simulation = false;
int simtime;
bool keylock = false;
char source = 'R'; // time source (R)TC | (G)PS | (N)TP
char mode = 'A'; // display mode (A)nalog | (D)igital | race (T)imer
char tz = 'L'; // time zone (L)ocal | (U)TC
double timezone = 0; // there are timezones with non int offsets, e.g. 5.5 or 5.75
double homelat;
double homelon;
bool homevalid = false; // homelat and homelon are valid
public:
PageClock(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageClock");
simulation = common.config->getBool(common.config->useSimuData);
timezone = common.config->getString(common.config->timeZone).toDouble();
homelat = common.config->getString(common.config->homeLAT).toDouble();
homelon = common.config->getString(common.config->homeLON).toDouble();
public:
PageClock(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageClock");
// WIP time source
#ifdef BOARD_OBP60S3
String use_rtc = config->getString(config->useRTC);
if (use_rtc == "off") {
source = 'G';
}
#endif
simulation = config->getBool(config->useSimuData);
timezone = config->getString(config->timeZone).toDouble();
homelat = config->getString(config->homeLAT).toDouble();
homelon = config->getString(config->homeLON).toDouble();
homevalid = homelat >= -180.0 and homelat <= 180 and homelon >= -90.0 and homelon <= 90.0;
simtime = 38160; // time value 11:36
}
@@ -87,9 +98,6 @@ bool homevalid = false; // homelat and homelon are valid
int displayPage(PageData &pageData)
{
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
static String svalue1old = "";
static String unit1old = "";
static String svalue2old = "";
@@ -100,9 +108,10 @@ bool homevalid = false; // homelat and homelon are valid
static String svalue5old = "";
static String svalue6old = "";
double value1 = 0;
double value2 = 0;
double value3 = 0;
double value1 = 0; // GPS time
double value2 = 0; // GPS date FIXME date defined as uint32_t!
double value3 = 0; // HDOP
bool gpsvalid = false;
// Get config data
String lengthformat = config->getString(config->lengthFormat);
@@ -155,6 +164,9 @@ bool homevalid = false; // homelat and homelon are valid
unit3old = unit3; // Save old unit
}
// GPS date and time are valid and can be used
gpsvalid = (valid1 && valid2 && valid3);
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
@@ -163,108 +175,108 @@ bool homevalid = false; // homelat and homelon are valid
// Logging boat values
if (bvalue1 == NULL) return PAGE_OK; // WTF why this statement?
LOG_DEBUG(GwLog::LOG,"Drawing at PageClock, %s:%f, %s:%f", name1.c_str(), value1, name2.c_str(), value2);
LOG_DEBUG(GwLog::LOG,"Drawing at PageClock, %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);
time_t tv = mktime(&commonData->data.rtcTime) + timezone * 3600;
struct tm *local_tm = localtime(&tv);
// Show values GPS date
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 65);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 65);
if (holdvalues == false) {
if (source == 'G') {
// GPS value
getdisplay().print(svalue2);
epd->print(svalue2);
} else if (commonData->data.rtcValid) {
// RTC value
if (tz == 'L') {
getdisplay().print(formatDate(dateformat, local_tm->tm_year + 1900, local_tm->tm_mon + 1, local_tm->tm_mday));
epd->print(formatDate(dateformat, local_tm->tm_year + 1900, local_tm->tm_mon + 1, local_tm->tm_mday));
}
else {
getdisplay().print(formatDate(dateformat, commonData->data.rtcTime.tm_year + 1900, commonData->data.rtcTime.tm_mon + 1, commonData->data.rtcTime.tm_mday));
epd->print(formatDate(dateformat, commonData->data.rtcTime.tm_year + 1900, commonData->data.rtcTime.tm_mon + 1, commonData->data.rtcTime.tm_mday));
}
} else {
getdisplay().print("---");
epd->print("---");
}
} else {
getdisplay().print(svalue2old);
epd->print(svalue2old);
}
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(10, 95);
getdisplay().print("Date"); // Name
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 95);
epd->print("Date"); // Name
// Horizintal separator left
getdisplay().fillRect(0, 149, 60, 3, commonData->fgcolor);
epd->fillRect(0, 149, 60, 3, commonData->fgcolor);
// Show values GPS time
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(10, 250);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 250);
if (holdvalues == false) {
if (source == 'G') {
getdisplay().print(svalue1); // Value
epd->print(svalue1); // Value
}
else if (commonData->data.rtcValid) {
if (tz == 'L') {
getdisplay().print(formatTime('s', local_tm->tm_hour, local_tm->tm_min, local_tm->tm_sec));
epd->print(formatTime('s', local_tm->tm_hour, local_tm->tm_min, local_tm->tm_sec));
}
else {
getdisplay().print(formatTime('s', commonData->data.rtcTime.tm_hour, commonData->data.rtcTime.tm_min, commonData->data.rtcTime.tm_sec));
epd->print(formatTime('s', commonData->data.rtcTime.tm_hour, commonData->data.rtcTime.tm_min, commonData->data.rtcTime.tm_sec));
}
} else {
getdisplay().print("---");
epd->print("---");
}
}
else {
getdisplay().print(svalue1old);
epd->print(svalue1old);
}
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(10, 220);
getdisplay().print("Time"); // Name
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 220);
epd->print("Time"); // Name
// Show values sunrise
String sunrise = "---";
if ((valid1 and valid2 and valid3 == true) or (homevalid and commonData->data.rtcValid)) {
if (((source == 'G') and gpsvalid) or (homevalid and commonData->data.rtcValid)) {
sunrise = String(commonData->sundata.sunriseHour) + ":" + String(commonData->sundata.sunriseMinute + 100).substring(1);
svalue5old = sunrise;
} else if (simulation) {
sunrise = String("06:42");
}
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(335, 65);
if(holdvalues == false) getdisplay().print(sunrise); // Value
else getdisplay().print(svalue5old);
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(335, 95);
getdisplay().print("SunR"); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 65);
if(holdvalues == false) epd->print(sunrise); // Value
else epd->print(svalue5old);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 95);
epd->print("SunR"); // Name
// Horizintal separator right
getdisplay().fillRect(340, 149, 80, 3, commonData->fgcolor);
epd->fillRect(340, 149, 80, 3, commonData->fgcolor);
// Show values sunset
String sunset = "---";
if ((valid1 and valid2 and valid3 == true) or (homevalid and commonData->data.rtcValid)) {
if (((source == 'G') and gpsvalid) or (homevalid and commonData->data.rtcValid)) {
sunset = String(commonData->sundata.sunsetHour) + ":" + String(commonData->sundata.sunsetMinute + 100).substring(1);
svalue6old = sunset;
} else if (simulation) {
sunset = String("21:03");
}
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(335, 250);
if(holdvalues == false) getdisplay().print(sunset); // Value
else getdisplay().print(svalue6old);
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(335, 220);
getdisplay().print("SunS"); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 250);
if(holdvalues == false) epd->print(sunset); // Value
else epd->print(svalue6old);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 220);
epd->print("SunS"); // Name
//*******************************************************************************************
@@ -272,8 +284,8 @@ bool homevalid = false; // homelat and homelon are valid
int rInstrument = 110; // Radius of clock
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+1)
{
@@ -301,11 +313,11 @@ bool homevalid = false; // homelat and homelon are valid
// 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_Bold12pt8b);
getdisplay().print(ii);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->print(ii);
}
// Draw sub scale with dots
@@ -314,7 +326,7 @@ bool homevalid = false; // homelat and homelon are valid
if(i % 6 == 0){
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);
sinx=sin(i/180.0*pi);
cosx=cos(i/180.0*pi);
}
@@ -326,31 +338,31 @@ bool homevalid = false; // homelat and homelon are valid
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);
}
}
// Print Unit in clock
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(175, 110);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(175, 110);
if(holdvalues == false){
getdisplay().print(tz == 'L' ? "LOT" : "UTC");
epd->print(tz == 'L' ? "LOT" : "UTC");
}
else{
getdisplay().print(unit2old); // date unit
epd->print(unit2old); // date unit
}
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(185, 190);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(185, 190);
if (source == 'G') {
getdisplay().print("GPS");
epd->print("GPS");
} else {
getdisplay().print("RTC");
epd->print("RTC");
}
// Clock values
@@ -393,7 +405,7 @@ bool homevalid = false; // homelat and homelon are valid
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
@@ -403,7 +415,7 @@ bool homevalid = false; // homelat and homelon are valid
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);
}
@@ -419,7 +431,7 @@ bool homevalid = false; // homelat and homelon are valid
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
@@ -429,14 +441,14 @@ bool homevalid = false; // homelat and homelon are valid
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);
return PAGE_UPDATE;
};

71
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"
@@ -28,9 +29,9 @@ class PageCompass : public Page
int WhichDataDisplay = ShowHDM;
public:
PageCompass(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageCompass");
PageCompass(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageCompass");
}
virtual void setupKeys(){
@@ -62,8 +63,6 @@ class PageCompass : public Page
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
static String OldDataText[HowManyValues] = {"", "", "","", "", ""};
@@ -109,27 +108,27 @@ 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 +147,14 @@ 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 +163,7 @@ 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 +173,28 @@ 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 +207,7 @@ 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 +217,7 @@ 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 +229,8 @@ 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;

107
lib/obp60task/PageDST810.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"
@@ -6,9 +7,9 @@
class PageDST810 : public Page
{
public:
PageDST810(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageDST810");
PageDST810(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageDST810");
}
virtual int handleKey(int key){
@@ -21,8 +22,6 @@ public:
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
static String svalue1old = "";
@@ -91,37 +90,37 @@ 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
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"); // 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);
}
// 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
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
@@ -131,35 +130,35 @@ 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"); // 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);
}
// 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
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
@@ -169,35 +168,35 @@ 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"); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 240);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 240);
if(holdvalues == false){
getdisplay().print(unit3); // Unit
epd->print(unit3); // Unit
}
else{
getdisplay().print(unit3old);
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
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
@@ -207,35 +206,35 @@ 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"); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(220, 240);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(220, 240);
if(holdvalues == false){
getdisplay().print(unit4); // Unit
epd->print(unit4); // Unit
}
else{
getdisplay().print(unit4old);
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
epd->print(svalue4); // Real value as formated string
}
else{
getdisplay().print(svalue4old); // Old value as formated string
epd->print(svalue4old); // Old value as formated string
}
if(valid4 == true){
svalue4old = svalue4; // Save the old value

131
lib/obp60task/PageDigitalOut.cpp
View File

@@ -1,131 +0,0 @@
#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
{
// Status values
bool button1 = false;
bool button2 = false;
bool button3 = false;
bool button4 = false;
bool button5 = false;
public:
PageDigitalOut(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageDigitalOut");
}
virtual int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
return 0; // Commit the key
}
// Code for button 1
if(key == 1){
button1 = !button1;
setPCF8574PortPin(0, button1 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
}
// Code for button 2
if(key == 2){
button2 = !button2;
setPCF8574PortPin(1, button2 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
}
// Code for button 3
if(key == 3){
button3 = !button3;
setPCF8574PortPin(2, button3 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
}
// Code for button 4
if(key == 4){
button4 = !button4;
setPCF8574PortPin(3, button4 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
}
// Code for button 5
if(key == 5){
button5 = !button5;
setPCF8574PortPin(4, button5 ? 0 : 1); // Attention! Inverse logic for PCF8574
return 0; // Commit the key
}
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);
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageDigitalOut");
// Draw page
//***********************************************************
// 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);
getdisplay().fillRoundRect(200, 250 , 200, 25, 5, commonData->fgcolor); // Black rect
getdisplay().fillRoundRect(202, 252 , 196, 21, 5, commonData->bgcolor); // White rect
getdisplay().setCursor(210, 270);
getdisplay().print("Map server lost");
// Set botton labels
commonData->keydata[0].label = "BTN 1";
commonData->keydata[1].label = "BTN 2";
commonData->keydata[2].label = "BTN 3";
commonData->keydata[3].label = "BTN 4";
commonData->keydata[4].label = "BTN 5";
return PAGE_UPDATE;
};
};
static Page* createPage(CommonData &common){
return new PageDigitalOut(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 registerPageDigitalOut(
"DigitalOut", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
true // Show display header on/off
);
#endif

142
lib/obp60task/PageEPropulsion.cpp Normal file
View File

@@ -0,0 +1,142 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
/*
Electric propulsion
*/
class PageEPropulsion : public Page
{
private:
bool simulation = false;
bool holdvalues = false;
String flashLED;
String backlightMode;
char mode = 'N'; // (N)ormal, (C)onfig
void displayModeNormal(PageData &pageData) {
// TBD Boatvalues: ...
LOG_DEBUG(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");
// preload configuration data
simulation = config->getBool(config->useSimuData);
holdvalues = config->getBool(config->holdvalues);
flashLED = config->getString(config->flashLED);
backlightMode = config->getString(config->backlight);
}
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){
};
int displayPage(PageData &pageData){
// Logging boat values
LOG_DEBUG(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

61
lib/obp60task/PageFluid.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"
@@ -74,11 +75,11 @@ class PageFluid : public Page
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);
PageFluid(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG,"Instantiate PageFluid");
simulation = config->getBool(config->useSimuData);
holdvalues = config->getBool(config->holdvalues);
simval = double(random(0, 100));
simgoto = double(random(0, 100));
simstep = (simgoto - simval) / 20.0;
@@ -94,13 +95,11 @@ class PageFluid : public Page
}
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);
fluidtype = config->getInt("page" + String(pageData.pageNumber) + "fluid", 0);
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;
@@ -138,17 +137,17 @@ class PageFluid : public 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 +157,11 @@ 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 +175,32 @@ 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 +209,7 @@ 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 +235,7 @@ 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 +248,7 @@ 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;

143
lib/obp60task/PageFourValues.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"
@@ -6,13 +7,13 @@
class PageFourValues : public Page
{
public:
PageFourValues(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageFourValues");
public:
PageFourValues(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageFourValues");
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -22,8 +23,6 @@ class PageFourValues : public Page
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
static String svalue1old = "";
@@ -96,47 +95,47 @@ class PageFourValues : public 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); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 65);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 65);
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_Bold12pt8b);
getdisplay().setCursor(120, 55);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(120, 55);
}
else if(bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(150, 58);
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
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
@@ -146,45 +145,45 @@ 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); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 133);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 133);
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_Bold12pt8b);
getdisplay().setCursor(120, 123);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(120, 123);
}
else if(bvalue2->getFormat() == "formatTime" || bvalue2->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(150, 123);
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
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
@@ -194,45 +193,45 @@ 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); // Page name
// 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); // 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_Bold12pt8b);
getdisplay().setCursor(120, 191);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(120, 191);
}
else if(bvalue3->getFormat() == "formatTime" || bvalue3->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(150, 191);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(150, 191);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(180, 201);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(180, 201);
}
// 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
@@ -242,45 +241,45 @@ 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);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(120, 259);
}
else if(bvalue4->getFormat() == "formatTime" || bvalue4->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(150, 259);
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
epd->print(svalue4); // Real value as formated string
}
else{
getdisplay().print(svalue4old); // Old value as formated string
epd->print(svalue4old); // Old value as formated string
}
if(valid4 == true){
svalue4old = svalue4; // Save the old value

141
lib/obp60task/PageFourValues2.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"
@@ -6,10 +7,10 @@
class PageFourValues2 : public Page
{
public:
PageFourValues2(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageFourValues2");
public:
PageFourValues2(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG,"Instantiate PageFourValues2");
}
virtual int handleKey(int key){
@@ -22,8 +23,6 @@ class PageFourValues2 : public Page
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Old values for hold function
static String svalue1old = "";
@@ -96,47 +95,47 @@ class PageFourValues2 : public 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);
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_Bold12pt8b);
getdisplay().setCursor(100, 90);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(100, 90);
}
else if(bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(180, 77);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(180, 77);
}
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
@@ -146,45 +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); // 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_Bold12pt8b);
getdisplay().setCursor(100, 180);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(100, 180);
}
else if(bvalue2->getFormat() == "formatTime" || bvalue2->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(180, 158);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(180, 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
@@ -194,45 +193,45 @@ 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); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 240);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 240);
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_Bold8pt8b);
getdisplay().setCursor(50, 240);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(50, 240);
}
else if(bvalue3->getFormat() == "formatTime" || bvalue3->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(100, 240);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(100, 240);
}
else{
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
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
@@ -242,45 +241,45 @@ 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); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(220, 240);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(220, 240);
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_Bold8pt8b);
getdisplay().setCursor(250, 240);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(250, 240);
}
else if(bvalue4->getFormat() == "formatTime" || bvalue4->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(300, 240);
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
epd->print(svalue4); // Real value as formated string
}
else{
getdisplay().print(svalue4old); // Old value as formated string
epd->print(svalue4old); // Old value as formated string
}
if(valid4 == true){
svalue4old = svalue4; // Save the old value

147
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"
@@ -7,11 +8,12 @@
class PageGenerator : public Page
{
public:
PageGenerator(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageGenerator");
PageGenerator(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageGenerator");
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -20,10 +22,7 @@ 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);
@@ -83,77 +82,77 @@ 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
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 +161,46 @@ 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("---"); // 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);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->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);
if(value2 <= 9.9) epd->print(value2, 2);
if(value2 > 9.9 && value2 <= 99.9)epd->print(value2, 1);
if(value2 > 99.9) epd->print(value2, 0);
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("A");
else epd->print("---");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("A");
// Show actual consumption in W
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 260);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->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);
if(value3 <= 9.9) epd->print(value3, 2);
if(value3 > 9.9 && value3 <= 99.9)epd->print(value3, 1);
if(value3 > 99.9) epd->print(value3, 0);
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("W");
else epd->print("---");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("W");
return PAGE_UPDATE;
};

68
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"
@@ -6,13 +7,13 @@
class PageKeelPosition : public Page
{
public:
PageKeelPosition(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageKeelPosition");
PageKeelPosition(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageKeelPosition");
}
// Key functions
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -21,10 +22,7 @@ public:
return key;
}
int displayPage(PageData &pageData)
{
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
double value1 = 0;
double value1old = 0;
@@ -68,7 +66,7 @@ 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
//*******************************************************************************************
@@ -76,9 +74,9 @@ 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 +103,17 @@ 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 +124,10 @@ 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 +161,7 @@ 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 +171,36 @@ 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;

505
lib/obp60task/PageNavigation.cpp
View File

@@ -1,505 +0,0 @@
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include "NetworkClient.h" // Network connection
#include "ImageDecoder.h" // Image decoder for navigation map
#include "Logo_OBP_400x300_sw.h"
// Defines for reading of navigation map
#define JSON_BUFFER 30000 // Max buffer size for JSON content (30 kB picture + values)
NetworkClient net(JSON_BUFFER); // Define network client
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:
uint8_t* imageBackupData = nullptr;
int imageBackupWidth = 0;
int imageBackupHeight = 0;
size_t imageBackupSize = 0;
bool hasImageBackup = false;
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);
}
virtual int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
return 0; // Commit the key
}
// Code for zoom -
if(key == 1){
zoom --; // Zoom -
if(zoom <7){
zoom = 7;
}
return 0; // Commit the key
}
// Code for zoom -
if(key == 2){
zoom ++; // Zoom +
if(zoom >17){
zoom = 17;
}
return 0; // Commit the key
}
if(key == 5){
showValues = !showValues; // Toggle show values
return 0; // Commit the key
}
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 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);
if(firstRun == true){
zoom = zoomLevel; // Over write zoom level with setup value
showValues = showValuesMap; // Over write showValues with setup value
firstRun = false; // Restet variable
}
// Local variables
String server = "norbert-walter.dnshome.de";
int port = 80;
int mType = 1;
int dType = 1;
int mapRot = 0;
int symbolRot = 0;
int mapGrid = 0;
// Old values for hold function
static double value1old = 0;
static String svalue1old = "";
static String unit1old = "";
static double value2old = 0;
static String svalue2old = "";
static String unit2old = "";
static double value3old = 0; // Deg
static String svalue3old = "";
static String unit3old = "";
static double value4old = 0;
static String svalue4old = "";
static String unit4old = "";
static double value5old = 0;
static String svalue5old = "";
static String unit5old = "";
static double value6old = 0;
static String svalue6old = "";
static String unit6old = "";
static double latitude = 0;
static double latitudeold = 0;
static double longitude = 0;
static double longitudeold = 0;
static double trueHeading = 0;
static double magneticHeading = 0;
static double speedOverGround = 0;
static double depthBelowTransducer = 0;
static int lostCounter = 0; // Counter for connection lost to the map server (increment by each page refresh)
int imgWidth = 0;
int imgHeight = 0;
// Get boat values #1 Latitude
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
// Get boat values #2 Longitude
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list (only one value by PageOneValue)
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
// Get boat values #3 HDT
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Second element in list (only one value by PageOneValue)
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
// Get boat values #4 HDM
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Second element in list (only one value by PageOneValue)
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
// Get boat values #5 SOG
GwApi::BoatValue *bvalue5 = pageData.values[4]; // Second element in list (only one value by PageOneValue)
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
// Get boat values #6 DBT
GwApi::BoatValue *bvalue6 = pageData.values[5]; // Second element in list (only one value by PageOneValue)
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
// 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 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
//***********************************************************
// Latitude
if(valid1){
latitude = value1;
latitudeold = value1;
value3old = value1;
}
else{
latitude = value1old;
}
// Longitude
if(valid2){
longitude = value2;
longitudeold = value2;
value2old = value2;
}
else{
longitude = value2old;
}
// HDT value (True Heading, GPS)
if(valid3){
trueHeading = (value3 * 360) / (2 * PI);
value3old = trueHeading;
}
else{
trueHeading = value3old;
}
// HDM value (Magnetic Heading)
if(valid4){
magneticHeading = (value4 * 360) / (2 * PI);
value4old = magneticHeading;
}
else{
speedOverGround = value4old;
}
// SOG value (Speed Over Ground)
if(valid5){
speedOverGround = value5;
value5old = value5;
}
else{
speedOverGround = value5old;
}
// DBT value (Depth Below Transducer)
if(valid6){
depthBelowTransducer = value6;
value6old = value6;
}
else{
depthBelowTransducer = value6old;
}
// Prepare config values for URL
//***********************************************************
// Server settings
if(mapsource == "OBP Service"){
server = "norbert-walter.dnshome.de";
port = 80;
}
else if(mapsource == "Local Service"){
server = String(ipAddress);
port = localPort;
}
else{
server = "norbert-walter.dnshome.de";
port = 80;
}
// Type of navigation map
if(mapType == "Open Street Map"){
mType = 1; // Map type
dType = 1; // Dithering type
}
else if(mapType == "Google Street"){
mType = 3;
dType = 2;
}
else if(mapType == "Open Topo Map"){
mType = 5;
dType = 2;
}
else if(mapType == "Stadimaps Toner"){
mType = 7;
dType = 1;
}
else if(mapType == "Free Nautical Chart"){
mType = 9;
dType = 1;
}
else{
mType = 1;
dType = 1;
}
// Map grid on/off
if(grid == true){
mapGrid = 1;
}
else{
mapGrid = 0;
}
// Map orientation
if(orientation == "North Direction"){
mapRot = 0;
// If true heading available then use HDT oterwise HDM
if(valid3 == true){
symbolRot = trueHeading;
}
else{
symbolRot = magneticHeading;
}
}
else if(orientation == "Travel Direction"){
// If true heading available then use HDT oterwise HDM
if(valid3 == true){
mapRot = trueHeading;
symbolRot = trueHeading;
}
else{
mapRot = magneticHeading;
symbolRot = magneticHeading;
}
}
else{
mapRot = 0;
// If true heading available then use HDT oterwise HDM
if(valid3 == true){
symbolRot = trueHeading;
}
else{
symbolRot = magneticHeading;
}
}
// Load 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
"&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
"&srot=" + symbolRot + // Symbol rotation angle
"&ssize=15" + // Symbole size: 15 pixel
"&grid=" + mapGrid // Show grid: On
;
// Draw page
//***********************************************************
// ############### Draw Navigation Map ################
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
getdisplay().setTextColor(commonData->fgcolor);
// If a network connection to URL then load the navigation map
if (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
const char* b64src = json["picture_base64"].as<const char*>(); // Read picture as Base64 content
size_t b64len = strlen(b64src); // 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");
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
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");
free(b64);
return PAGE_UPDATE;
}
// Decode Base64 content to image
size_t decodedSize = 0;
decoder.decodeBase64(b64, imageData, imgSize, decodedSize);
// Copy actual navigation man to ackup map
imageBackupWidth = imgWidth;
imageBackupHeight = imgHeight;
imageBackupSize = imgSize;
if (decodedSize > 0) {
memcpy(imageBackupData, imageData, decodedSize);
imageBackupSize = decodedSize;
}
hasImageBackup = true;
lostCounter = 0;
// Show image (navigation map)
getdisplay().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);
}
// 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");
}
lostCounter++; // Increment lost counter
}
// ############### Draw Values ################
getdisplay().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);
// If true heading available then use HDT oterwise HDM
if(showValues == true){
// Frame
getdisplay().fillRect(0, 25 , 130, 65, commonData->fgcolor); // Black rect
getdisplay().fillRect(2, 27 , 126, 61, commonData->bgcolor); // White rect
if(valid3 == true){
// HDT
getdisplay().setCursor(10, 45);
getdisplay().print(name3);
getdisplay().setCursor(70, 45);
getdisplay().print(svalue3);
}
else{
// HDM
getdisplay().setCursor(10, 45);
getdisplay().print(name4);
getdisplay().setCursor(70, 45);
getdisplay().print(svalue4);
}
// SOG
getdisplay().setCursor(10, 65);
getdisplay().print(name5);
getdisplay().setCursor(70, 65);
getdisplay().print(svalue5);
// DBT
getdisplay().setCursor(10, 85);
getdisplay().print(name6);
getdisplay().setCursor(70, 85);
getdisplay().print(svalue6);
}
// Set botton labels
commonData->keydata[0].label = "ZOOM -";
commonData->keydata[1].label = "ZOOM +";
commonData->keydata[4].label = "VALUES";
return PAGE_UPDATE;
};
};
static Page *createPage(CommonData &common){
return new PageNavigation(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 registerPageNavigation(
"Navigation", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"LAT","LON","HDT","HDM","SOG","DBT"}, // Bus values we need in the page
true // Show display header on/off
);
#endif

47
lib/obp60task/PageOneValue.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"
@@ -7,12 +8,12 @@
class PageOneValue : public Page
{
public:
PageOneValue(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageOneValue");
PageOneValue(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageOneValue");
}
virtual int handleKey(int key){
int handleKey(int key) {
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -21,9 +22,7 @@ class PageOneValue : public Page
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
// Old values for hold function
static String svalue1old = "";
@@ -60,44 +59,44 @@ class PageOneValue : public 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 name
getdisplay().setTextColor(commonData->fgcolor);
getdisplay().setFont(&Ubuntu_Bold32pt8b);
getdisplay().setCursor(20, 100);
getdisplay().print(name1); // Page name
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold32pt8b);
epd->setCursor(20, 100);
epd->print(name1); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(270, 100);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(270, 100);
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(20, 180);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 180);
}
else if(bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold32pt8b);
getdisplay().setCursor(20, 200);
epd->setFont(&Ubuntu_Bold32pt8b);
epd->setCursor(20, 200);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic60pt7b);
getdisplay().setCursor(20, 240);
epd->setFont(&DSEG7Classic_BoldItalic60pt7b);
epd->setCursor(20, 240);
}
// 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

126
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"
@@ -6,13 +7,13 @@
class PageRollPitch : public Page
{
public:
PageRollPitch(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageRollPitch");
PageRollPitch(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageRollPitch");
}
// Key functions
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -21,9 +22,7 @@ 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;
@@ -32,7 +31,6 @@ public:
String svalue2 = "";
String svalue2old = "";
// Get config data
String lengthformat = config->getString(config->lengthFormat);
bool simulation = config->getBool(config->useSimuData);
@@ -116,52 +114,52 @@ 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
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 +167,8 @@ 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 +192,17 @@ 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 +213,10 @@ 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 +237,7 @@ 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 +247,28 @@ 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 +281,7 @@ 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 +291,15 @@ 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;

67
lib/obp60task/PageRudderPosition.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"
@@ -7,13 +8,13 @@
class PageRudderPosition : public Page
{
public:
PageRudderPosition(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Show PageRudderPosition");
PageRudderPosition(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Show PageRudderPosition");
}
// Key functions
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -22,9 +23,7 @@ public:
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
static String unit1old = "";
double value1 = 0.1;
@@ -74,7 +73,7 @@ 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
//*******************************************************************************************
@@ -82,9 +81,9 @@ public:
int rInstrument = 110; // Radius of RudderPosition
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)
{
@@ -112,17 +111,17 @@ 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);
@@ -133,10 +132,10 @@ 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);
}
@@ -144,28 +143,28 @@ 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
@@ -188,7 +187,7 @@ 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
@@ -198,14 +197,14 @@ 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;
};

226
lib/obp60task/PageSixValues.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"
@@ -14,10 +15,10 @@ 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){
@@ -29,130 +30,127 @@ class PageSixValues : public Page
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
// Old values for hold function
static String OldDataText[HowManyValues] = {"", "", "", "", "", ""};
static String OldDataUnits[HowManyValues] = {"", "", "", "", "", ""};
// 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);
// 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];
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
calibrationData.calibrateInstance(bvalue, logger); // Check if boat data value is to be calibrated
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
}
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
calibrationData.calibrateInstance(bvalue, logger); // Check if boat data value is to be calibrated
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
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]);
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Show name
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(x0, y0+25);
epd->print(DataName[ValueIndex]); // Page name
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);
// Show unit
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(x0, y0+72);
if (holdvalues == false) {
epd->print(DataUnits[ValueIndex]); // Unit
} else {
epd->print(OldDataUnits[ValueIndex]);
}
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
}
// 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);
}
}
// Vertical line 3 pix
getdisplay().fillRect(SixValues_x1+SixValues_DeltaX-8, SixValues_y1+i*SixValues_DeltaY, 3, SixValues_DeltaY, commonData->fgcolor);
}
return PAGE_UPDATE;
};
// 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);
}/**

190
lib/obp60task/PageSkyView.cpp
View File

@@ -4,180 +4,128 @@
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include <vector>
#include <algorithm> // for vector sorting
/*
* SkyView / Satellites
*/
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");
}
int handleKey(int key) {
// return 0 to mark the key handled completely
// return the key to allow further action
if (key == 11) {
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
return 0;
return 0; // Commit the key
}
return key;
}
void displayNew(PageData &pageData) {
#ifdef BOARD_OBP60S3
// Clear optical warning
if (flashLED == "Limit Violation") {
int displayPage(PageData &pageData) {
// Get config data
String flashLED = config->getString(config->flashLED);
String displaycolor = config->getString(config->displaycolor);
String backlightMode = config->getString(config->backlight);
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
#endif
bd = pageData.api->getBoatData();
};
// Comparator function to sort by SNR
static bool compareBySNR(const GwSatInfo& a, const GwSatInfo& b) {
return a.SNR > b.SNR; // Sort in descending order
}
int displayPage(PageData &pageData) {
GwLog *logger = commonData->logger;
std::vector<GwSatInfo> sats;
int nSat = bd->SatInfo->getNumSats();
logger->logDebug(GwLog::LOG, "Drawing at PageSkyView, %d satellites", nSat);
for (int i = 0; i < nSat; i++) {
sats.push_back(*bd->SatInfo->getAt(i));
}
std::sort(sats.begin(), sats.end(), compareBySNR);
// Logging boat values
logger->logDebug(GwLog::LOG, "Drawing at PageSkyView");
// 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
// current position
getdisplay().setFont(&Ubuntu_Bold8pt8b);
epd->setFont(&Ubuntu_Bold8pt8b);
GwApi::BoatValue *bv_lat = pageData.values[0];
String sv_lat = formatValue(bv_lat, *commonData).svalue;
//epd->setCursor(300, 40);
//epd->print(sv_lat);
GwApi::BoatValue *bv_lon = pageData.values[1];
String sv_lon = formatValue(bv_lon, *commonData).svalue;
//epd->setCursor(300, 60);
//epd->print(sv_lon);
GwApi::BoatValue *bv_hdop = pageData.values[2];
String sv_hdop = 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;
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");
// satellites
// show satellites in "map"
getdisplay().setFont(&IBM8x8px);
for (int i = 0; i < nSat; i++) {
float arad = (sats[i].Azimut * M_PI / 180.0) + M_PI;
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));
}
// Signal / Noise bars
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(325, 34);
getdisplay().print("SNR");
// getdisplay().drawRect(270, 20, 125, 257, commonData->fgcolor);
int maxsat = std::min(nSat, 12);
for (int i = 0; i < maxsat; i++) {
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(325, 34);
epd->print("SNR");
epd->drawRect(270, 20, 125, 257, commonData->fgcolor);
for (int i = 0; i < 12; 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);
// 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);
} else {
getdisplay().print("n/a");
}
snprintf(buffer, 3, "%02d", i+1);
epd->print(String(buffer));
epd->drawRect(305, y-12, 85, 14, commonData->fgcolor);
}
// 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 +145,7 @@ 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
);

140
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"
@@ -7,11 +8,12 @@
class PageSolar : public Page
{
public:
PageSolar(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageSolar");
PageSolar(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG,"Instantiate PageSolar");
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -20,9 +22,7 @@ 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);
@@ -82,74 +82,74 @@ 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
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 +158,46 @@ 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("---"); // 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);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->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);
if(value2 <= 9.9) epd->print(value2, 2);
if(value2 > 9.9 && value2 <= 99.9)epd->print(value2, 1);
if(value2 > 99.9) epd->print(value2, 0);
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("A");
else epd->print("---");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("A");
// Show actual consumption in W
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(260, 260);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->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);
if(value3 <= 9.9) epd->print(value3, 2);
if(value3 > 9.9 && value3 <= 99.9)epd->print(value3, 1);
if(value3 > 99.9) epd->print(value3, 0);
}
else getdisplay().print("---");
getdisplay().setFont(&Ubuntu_Bold16pt8b);
getdisplay().print("W");
else epd->print("---");
epd->setFont(&Ubuntu_Bold16pt8b);
epd->print("W");
return PAGE_UPDATE;
};

884
lib/obp60task/PageSystem.cpp
View File

@@ -1,22 +1,18 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
/*
* Special system page, called directly with fast key sequence 5,4
* Out of normal page order.
* Consists of some sub-pages with following content:
* 1. Hard and software information
* 2. System settings
* 3. NMEA2000 device list
* 4. SD Card information if available
*/
#include "Pagedata.h"
#include "OBP60Extensions.h"
#include "ConfigMenu.h"
#include "images/logo64.xbm"
#include <esp32/clk.h>
#include "qrcode.h"
#include "Nmea2kTwai.h"
#ifdef BOARD_OBP40S3
// #include <SD.h>
// #include <FS.h>
#include "dirent.h"
#endif
@@ -28,9 +24,36 @@
#define DISPLAYINFO STRINGIZE(EPDTYPE)
#define GXEPD2INFO STRINGIZE(GXEPD2VERS)
/*
* Special system page, called directly with fast key sequence 5,4
* Out of normal page order.
* Consists of some sub-pages with following content:
* 1. Hard and software information
* 2. System settings
* 3. System configuration: running and NVRAM
* 4. NMEA2000 device list
* 5. SD Card information if available
*
* TODO
* - setCpuFrequencyMhz(80|160|240);
* - Accesspoint / ! Änderung im Gatewaycode erforderlich?
* if (! isApActive()) {
* wifiSSID = config->getString(config->wifiSSID);
* wifiPass = config->getString(config->wifiPass);
* wifiSoftAP(wifiSSID, wifiPass);
* }
* - Power mode
* powerInit(powermode);
*/
class PageSystem : public Page
{
private:
// NVRAM config options
String flashLED;
// Generic data access
uint64_t chipid;
bool simulation;
bool use_sdcard;
@@ -48,34 +71,489 @@ private:
double homelat;
double homelon;
char mode = 'N'; // (N)ormal, (S)ettings, (D)evice list, (C)ard
Nmea2kTwai *NMEA2000;
char mode = 'N'; // (N)ormal, (S)ettings, (C)onfiguration, (D)evice list, c(A)rd
int8_t editmode = -1; // marker for menu/edit/set function
ConfigMenu *menu;
void incMode() {
if (mode == 'N') { // Normal
mode = 'S';
} else if (mode == 'S') { // Settings
mode = 'C';
} else if (mode == 'C') { // Config
mode = 'D';
} else if (mode == 'D') { // Device list
if (use_sdcard) {
mode = 'A'; // SD-Card
} else {
mode = 'N';
}
} else {
mode = 'N';
}
if (hasFRAM) fram.write(FRAM_SYSTEM_MODE, mode);
}
void decMode() {
if (mode == 'N') {
if (use_sdcard) {
mode = 'A';
} else {
mode = 'D';
}
} else if (mode == 'S') { // Settings
mode = 'N';
} else if (mode == 'C') { // Config
mode = 'S';
} else if (mode == 'D') { // Device list
mode = 'C';
} else {
mode = 'D';
}
if (hasFRAM) fram.write(FRAM_SYSTEM_MODE, mode);
}
void displayModeNormal() {
// Default system page view
uint16_t y0 = 155;
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("System information");
epd->drawXBitmap(320, 25, logo64_bits, logo64_width, logo64_height, commonData->fgcolor);
epd->setFont(&Ubuntu_Bold8pt8b);
char ssid[13];
snprintf(ssid, 13, "%04X%08X", (uint16_t)(chipid >> 32), (uint32_t)chipid);
displayBarcode(String(ssid), 320, 200, 2);
epd->setCursor(8, 70);
epd->print(String("MCUDEVICE-") + String(ssid));
epd->setCursor(8, 95);
epd->print("Firmware version: ");
epd->setCursor(150, 95);
epd->print(VERSINFO);
epd->setCursor(8, 113);
epd->print("Board version: ");
epd->setCursor(150, 113);
epd->print(BOARDINFO);
epd->print(String(" HW ") + String(PCBINFO));
epd->setCursor(8, 131);
epd->print("Display version: ");
epd->setCursor(150, 131);
epd->print(DISPLAYINFO);
epd->print("; GxEPD2 v");
epd->print(GXEPD2INFO);
epd->setCursor(8, 265);
#ifdef BOARD_OBP60S3
epd->print("Press STBY to enter deep sleep mode");
#endif
#ifdef BOARD_OBP40S3
epd->print("Press wheel to enter deep sleep mode");
#endif
// Flash memory size
uint32_t flash_size = ESP.getFlashChipSize();
epd->setCursor(8, y0);
epd->print("FLASH:");
epd->setCursor(90, y0);
epd->print(String(flash_size / 1024) + String(" kB"));
// PSRAM memory size
uint32_t psram_size = ESP.getPsramSize();
epd->setCursor(8, y0 + 16);
epd->print("PSRAM:");
epd->setCursor(90, y0 + 16);
epd->print(String(psram_size / 1024) + String(" kB"));
// FRAM available / status
epd->setCursor(8, y0 + 32);
epd->print("FRAM:");
epd->setCursor(90, y0 + 32);
epd->print(hasFRAM ? "available" : "not found");
#ifdef BOARD_OBP40S3
// SD-Card
epd->setCursor(8, y0 + 48);
epd->print("SD-Card:");
epd->setCursor(90, y0 + 48);
if (hasSDCard) {
uint64_t cardsize = ((uint64_t) sdcard->csd.capacity) * sdcard->csd.sector_size / (1024 * 1024);
// epd->print(String(cardsize) + String(" MB"));
epd->printf("%llu MB", cardsize);
} else {
epd->print("off");
}
#endif
// Uptime
int64_t uptime = esp_timer_get_time() / 1000000;
String uptime_unit;
if (uptime < 120) {
uptime_unit = " seconds";
} else {
if (uptime < 2 * 3600) {
uptime /= 60;
uptime_unit = " minutes";
} else if (uptime < 2 * 3600 * 24) {
uptime /= 3600;
uptime_unit = " hours";
} else {
uptime /= 86400;
uptime_unit = " days";
}
}
epd->setCursor(8, y0 + 80);
epd->print("Uptime:");
epd->setCursor(90, y0 + 80);
epd->print(uptime);
epd->print(uptime_unit);
// CPU speed config / active
epd->setCursor(202, y0);
epd->print("CPU speed:");
epd->setCursor(300, y0);
epd->print(cpuspeed);
epd->print(" / ");
int cpu_freq = esp_clk_cpu_freq() / 1000000;
epd->print(String(cpu_freq));
// total RAM free
int Heap_free = esp_get_free_heap_size();
epd->setCursor(202, y0 + 16);
epd->print("Total free:");
epd->setCursor(300, y0 + 16);
epd->print(String(Heap_free));
// RAM free for task
int RAM_free = uxTaskGetStackHighWaterMark(NULL);
epd->setCursor(202, y0 + 32);
epd->print("Task free:");
epd->setCursor(300, y0 + 32);
epd->print(String(RAM_free));
}
void displayModeConfig() {
// Configuration interface
uint16_t x0 = 16;
uint16_t y0 = 80;
uint16_t dy = 20;
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("System configuration");
epd->setFont(&Ubuntu_Bold8pt8b);
/*epd->setCursor(x0, y0);
epd->print("CPU speed: 80 | 160 | 240");
epd->setCursor(x0, y0 + 1 * dy);
epd->print("Power mode: Max | 5V | Min");
epd->setCursor(x0, y0 + 2 * dy);
epd->print("Accesspoint: On | Off");
// TODO Change NVRAM-preferences settings here
epd->setCursor(x0, y0 + 4 * dy);
epd->print("Simulation: On | Off"); */
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");
}
}
}
}
void displayModeSettings() {
// View some of the current settings
const uint16_t x0 = 8;
const uint16_t y0 = 72;
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(x0, 48);
epd->print("System settings");
epd->setFont(&Ubuntu_Bold8pt8b);
// left column
epd->setCursor(x0, y0);
epd->print("Simulation:");
epd->setCursor(120, y0);
epd->print(simulation ? "on" : "off");
epd->setCursor(x0, y0 + 16);
epd->print("Environment:");
epd->setCursor(120, y0 + 16);
epd->print(env_module);
epd->setCursor(x0, y0 + 32);
epd->print("Buzzer:");
epd->setCursor(120, y0 + 32);
epd->print(buzzer_mode);
epd->setCursor(x0, y0 + 64);
epd->print("GPS:");
epd->setCursor(120, y0 + 64);
epd->print(gps_module);
epd->setCursor(x0, y0 + 80);
epd->print("RTC:");
epd->setCursor(120, y0 + 80);
epd->print(rtc_module);
epd->setCursor(x0, y0 + 96);
epd->print("Wifi:");
epd->setCursor(120, y0 + 96);
epd->print(commonData->status.wifiApOn ? "on" : "off");
// Home location
epd->setCursor(x0, y0 + 128);
epd->print("Home Lat.:");
drawTextRalign(230, y0 + 128, formatLatitude(homelat));
epd->setCursor(x0, y0 + 144);
epd->print("Home Lon.:");
drawTextRalign(230, y0 + 144, formatLongitude(homelon));
// right column
epd->setCursor(202, y0);
epd->print("Batt. sensor:");
epd->setCursor(320, y0);
epd->print(batt_sensor);
// Solar sensor
epd->setCursor(202, y0 + 16);
epd->print("Solar sensor:");
epd->setCursor(320, y0 + 16);
epd->print(solar_sensor);
// Generator sensor
epd->setCursor(202, y0 + 32);
epd->print("Gen. sensor:");
epd->setCursor(320, y0 + 32);
epd->print(gen_sensor);
#ifdef BOARD_OBP60S3
// Backlight infos
epd->setCursor(202, y0 + 64);
epd->print("Backlight:");
epd->setCursor(320, y0 + 64);
epd->printf("%d%%", commonData->backlight.brightness);
// TODO test function with OBP60 device
epd->setCursor(202, y0 + 80);
epd->print("Bl color:");
epd->setCursor(320, y0 + 80);
epd->print(commonData->backlight.color.toName());
epd->setCursor(202, y0 + 96);
epd->print("Bl mode:");
epd->setCursor(320, y0 + 96);
epd->print(commonData->backlight.mode);
// TODO Buzzer mode and power
#endif
// Gyro sensor
// WIP / FEATURE
}
void displayModeSDCard() {
// SD card info
uint16_t x0 = 20;
uint16_t y0 = 72;
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("SD card info");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(x0, y0);
epd->print("Work in progress...");
// TODO directories IMG, MAP, HIST should exist.
// Show state: Files and used size
// Simple test for one file in root
epd->setCursor(x0, y0 + 32);
String file_test = MOUNT_POINT "/IMG/icon-settings2.pbm";
logger->logDebug(GwLog::LOG, "Testfile: %s", file_test.c_str());
struct stat st;
if (stat(file_test.c_str(), &st) == 0) {
epd->printf("File %s exists", file_test.c_str());
} else {
epd->printf("File %s not found", file_test.c_str());
}
// Root directory check
DIR* dir = opendir(MOUNT_POINT);
if (dir != NULL) {
logger->logDebug(GwLog::LOG, "Root directory: %s", MOUNT_POINT);
struct dirent* entry;
while ((entry = readdir(dir)) != NULL) {
logger->logDebug(GwLog::LOG, " %s type %d", entry->d_name, entry->d_type);
// type 1 is file
// type 2 is dir
}
closedir(dir);
} else {
logger->logDebug(GwLog::LOG, "Failed to open root directory");
}
// try to load example pbm file
// TODO create PBM load function in imglib
String filepath = MOUNT_POINT "/IMG/icon-settings2.pbm";
const char* file_img = filepath.c_str();
FILE* fh = fopen(file_img, "r");
if (fh != NULL) {
logger->logDebug(GwLog::LOG, "Open file for reading: %s", file_img);
char magic[3];
char buffer[80];
// 2 Byte Magic: P1=ASCII, P4=Binary
fgets(magic, sizeof(magic), fh);
if (strcmp(magic, "P1") != 0) {
logger->logDebug(GwLog::LOG, "Not a valid PBM file of type P1 (%s)", magic);
} else {
uint16_t width = 0;
uint16_t height = 0;
while (fgets(buffer, sizeof(buffer), fh)) {
// logger->logDebug(GwLog::LOG, "%s", buffer);
if (buffer[0] == '#') {
continue; // skip comment
}
if (sscanf(buffer, "%d %d", &width, &height) == 2) {
break;
}
}
logger->logDebug(GwLog::LOG, "Image: %dx%d", width, height);
}
/*size_t bytesRead = fread(buffer, sizeof(char), sizeof(buffer) - 1, fh);
buffer[bytesRead] = '\0'; // Null-terminate the string
if (bytesRead > 0) {
logger->logDebug(GwLog::LOG, "Read %d bytes", bytesRead);
logger->logDebug(GwLog::LOG, ">%s<", buffer);
} */
/* WIP
// Read pixel data and pack into the buffer
for (int i = 0; i < width * height; i++) {
int pixel;
fscanf(file, "%d", &pixel);
// Calculate the byte index and bit position
int byteIndex = i / 8;
int bitPosition = 7 - (i % 8); // Store MSB first
// Set the corresponding bit in the byte
if (pixel == 1) {
buffer[byteIndex] |= (1 << bitPosition);
}
}
*/
fclose(fh);
// epd->drawXBitmap(20, 200, buffer, width, height, commonData.fgcolor);
}
}
void displayModeDevicelist() {
// NMEA2000 device list
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(8, 48);
epd->print("NMEA2000 device list");
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(20, 80);
epd->print("RxD: ");
epd->print(String(commonData->status.n2kRx));
epd->setCursor(20, 100);
epd->print("TxD: ");
epd->print(String(commonData->status.n2kTx));
epd->setCursor(20, 140);
epd->printf("N2k source address: %d", NMEA2000->GetN2kSource());
}
void storeConfig() {
menu->storeValues();
}
public:
PageSystem(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageSystem");
PageSystem(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageSystem");
if (hasFRAM) {
mode = fram.read(FRAM_SYSTEM_MODE);
common.logger->logDebug(GwLog::DEBUG, "Loaded mode '%c' from FRAM", mode);
logger->logDebug(GwLog::LOG, "Loaded mode '%c' from FRAM", mode);
}
flashLED = config->getString(config->flashLED);
chipid = ESP.getEfuseMac();
simulation = common.config->getBool(common.config->useSimuData);
simulation = config->getBool(config->useSimuData);
#ifdef BOARD_OBP40S3
use_sdcard = common.config->getBool(common.config->useSDCard);
use_sdcard = config->getBool(config->useSDCard);
#endif
buzzer_mode = common.config->getString(common.config->buzzerMode);
buzzer_mode = config->getString(config->buzzerMode);
buzzer_mode.toLowerCase();
buzzer_power = common.config->getInt(common.config->buzzerPower);
cpuspeed = common.config->getString(common.config->cpuSpeed);
env_module = common.config->getString(common.config->useEnvSensor);
rtc_module = common.config->getString(common.config->useRTC);
gps_module = common.config->getString(common.config->useGPS);
batt_sensor = common.config->getString(common.config->usePowSensor1);
solar_sensor = common.config->getString(common.config->usePowSensor2);
gen_sensor = common.config->getString(common.config->usePowSensor3);
rot_sensor = common.config->getString(common.config->useRotSensor);
homelat = common.config->getString(common.config->homeLAT).toDouble();
homelon = common.config->getString(common.config->homeLON).toDouble();
buzzer_power = config->getInt(config->buzzerPower);
cpuspeed = config->getString(config->cpuSpeed);
env_module = config->getString(config->useEnvSensor);
rtc_module = config->getString(config->useRTC);
gps_module = config->getString(config->useGPS);
batt_sensor = config->getString(config->usePowSensor1);
solar_sensor = config->getString(config->usePowSensor2);
gen_sensor = config->getString(config->usePowSensor3);
rot_sensor = config->getString(config->useRotSensor);
homelat = config->getString(config->homeLAT).toDouble();
homelon = config->getString(config->homeLON).toDouble();
// CPU speed: 80 | 160 | 240
// Power mode: Max | 5V | Min
// Accesspoint: On | Off
// TODO Change NVRAM-preferences settings here
// epd->setCursor(x0, y0 + 4 * dy);
// epd->print("Simulation: On | Off");
// Initialize config menu
menu = new ConfigMenu("Options", 40, 80);
menu->setItemDimension(150, 20);
ConfigMenuItem *newitem;
newitem = menu->addItem("accesspoint", "Accesspoint", "bool", 0, "");
newitem = menu->addItem("simulation", "Simulation", "on/off", 0, "");
menu->setItemActive("accesspoint");
// Create info-file if not exists
// TODO
}
void setupKeys() {
@@ -90,22 +568,9 @@ public:
int handleKey(int key) {
// do *NOT* handle key #1 this handled by obp60task as exit
// Switch display mode
commonData->logger->logDebug(GwLog::LOG, "System keyboard handler");
logger->logDebug(GwLog::LOG, "System keyboard handler");
if (key == 2) {
if (mode == 'N') {
mode = 'S';
} else if (mode == 'S') {
mode = 'D';
} else if (mode == 'D') {
if (hasSDCard) {
mode = 'C';
} else {
mode = 'N';
}
} else {
mode = 'N';
}
if (hasFRAM) fram.write(FRAM_SYSTEM_MODE, mode);
incMode();
return 0;
}
#ifdef BOARD_OBP60S3
@@ -119,7 +584,7 @@ public:
}
// standby / deep sleep
if (key == 5) {
commonData->logger->logDebug(GwLog::LOG, "System going into deep sleep mode...");
logger->logDebug(GwLog::LOG, "System going into deep sleep mode...");
deepSleep(*commonData);
}
// Code for keylock
@@ -129,13 +594,18 @@ public:
}
#endif
#ifdef BOARD_OBP40S3
// grab cursor keys to disable page navigation
if (key == 9 or key == 10) {
// use cursor keys for local mode navigation
if (key == 9) {
incMode();
return 0;
}
if (key == 10) {
decMode();
return 0;
}
// standby / deep sleep
if (key == 12) {
commonData->logger->logDebug(GwLog::LOG, "System going into deep sleep mode...");
logger->logDebug(GwLog::LOG, "System going into deep sleep mode...");
deepSleep(*commonData);
}
#endif
@@ -159,7 +629,7 @@ public:
for (uint8_t j = 0; j < qrcode.size; j++) {
for (uint8_t i = 0; i < qrcode.size; i++) {
if (qrcode_getModule(&qrcode, i, j)) {
getdisplay().fillRect(x, y, s, s, commonData->fgcolor);
epd->fillRect(x, y, s, s, commonData->fgcolor);
}
x += s;
}
@@ -168,309 +638,47 @@ public:
}
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
void displayNew(PageData &pageData) {
// Get references from API
logger->logDebug(GwLog::LOG, "New page display: PageSystem");
NMEA2000 = pageData.api->getNMEA2000();
};
// Get config data
String flashLED = config->getString(config->flashLED);
int displayPage(PageData &pageData) {
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
if(flashLED == "Limit Violation"){
setBlinkingLED(false);
setFlashLED(false);
}
// Logging boat values
// Logging page information
logger->logDebug(GwLog::LOG, "Drawing at PageSystem, Mode=%c", mode);
// Draw page
//***********************************************************
uint16_t x0 = 8; // left column
uint16_t y0 = 48; // data table starts here
// 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());
if (mode == 'N') {
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(8, 48);
getdisplay().print("System Information");
getdisplay().drawXBitmap(320, 25, logo64_bits, logo64_width, logo64_height, commonData->fgcolor);
getdisplay().setFont(&Ubuntu_Bold8pt8b);
y0 = 155;
char ssid[13];
snprintf(ssid, 13, "%04X%08X", (uint16_t)(chipid >> 32), (uint32_t)chipid);
displayBarcode(String(ssid), 320, 200, 2);
getdisplay().setCursor(8, 70);
getdisplay().print(String("MCUDEVICE-") + String(ssid));
getdisplay().setCursor(8, 95);
getdisplay().print("Firmware version: ");
getdisplay().setCursor(150, 95);
getdisplay().print(VERSINFO);
getdisplay().setCursor(8, 113);
getdisplay().print("Board version: ");
getdisplay().setCursor(150, 113);
getdisplay().print(BOARDINFO);
getdisplay().print(String(" HW ") + String(PCBINFO));
getdisplay().setCursor(8, 131);
getdisplay().print("Display version: ");
getdisplay().setCursor(150, 131);
getdisplay().print(DISPLAYINFO);
getdisplay().print("; GxEPD2 v");
getdisplay().print(GXEPD2INFO);
getdisplay().setCursor(8, 265);
#ifdef BOARD_OBP60S3
getdisplay().print("Press STBY to enter deep sleep mode");
#endif
#ifdef BOARD_OBP40S3
getdisplay().print("Press wheel to enter deep sleep mode");
#endif
// Flash memory size
uint32_t flash_size = ESP.getFlashChipSize();
getdisplay().setCursor(8, y0);
getdisplay().print("FLASH:");
getdisplay().setCursor(90, y0);
getdisplay().print(String(flash_size / 1024) + String(" kB"));
// PSRAM memory size
uint32_t psram_size = ESP.getPsramSize();
getdisplay().setCursor(8, y0 + 16);
getdisplay().print("PSRAM:");
getdisplay().setCursor(90, y0 + 16);
getdisplay().print(String(psram_size / 1024) + String(" kB"));
// FRAM available / status
getdisplay().setCursor(8, y0 + 32);
getdisplay().print("FRAM:");
getdisplay().setCursor(90, y0 + 32);
getdisplay().print(hasFRAM ? "available" : "not found");
#ifdef BOARD_OBP40S3
// SD-Card
getdisplay().setCursor(8, y0 + 48);
getdisplay().print("SD-Card:");
getdisplay().setCursor(90, y0 + 48);
if (hasSDCard) {
uint64_t cardsize = ((uint64_t) sdcard->csd.capacity) * sdcard->csd.sector_size / (1024 * 1024);
getdisplay().printf("%llu MB", cardsize);
} else {
getdisplay().print("off");
}
#endif
// Uptime
int64_t uptime = esp_timer_get_time() / 1000000;
String uptime_unit;
if (uptime < 120) {
uptime_unit = " seconds";
} else {
if (uptime < 2 * 3600) {
uptime /= 60;
uptime_unit = " minutes";
} else if (uptime < 2 * 3600 * 24) {
uptime /= 3600;
uptime_unit = " hours";
} else {
uptime /= 86400;
uptime_unit = " days";
}
}
getdisplay().setCursor(8, y0 + 80);
getdisplay().print("Uptime:");
getdisplay().setCursor(90, y0 + 80);
getdisplay().print(uptime);
getdisplay().print(uptime_unit);
// CPU speed config / active
getdisplay().setCursor(202, y0);
getdisplay().print("CPU speed:");
getdisplay().setCursor(300, y0);
getdisplay().print(cpuspeed);
getdisplay().print(" / ");
int cpu_freq = esp_clk_cpu_freq() / 1000000;
getdisplay().print(String(cpu_freq));
// total RAM free
int Heap_free = esp_get_free_heap_size();
getdisplay().setCursor(202, y0 + 16);
getdisplay().print("Total free:");
getdisplay().setCursor(300, y0 + 16);
getdisplay().print(String(Heap_free));
// RAM free for task
int RAM_free = uxTaskGetStackHighWaterMark(NULL);
getdisplay().setCursor(202, y0 + 32);
getdisplay().print("Task free:");
getdisplay().setCursor(300, y0 + 32);
getdisplay().print(String(RAM_free));
} else if (mode == 'S') {
// Settings
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(x0, 48);
getdisplay().print("System settings");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
x0 = 8;
y0 = 72;
// left column
getdisplay().setCursor(x0, y0);
getdisplay().print("Simulation:");
getdisplay().setCursor(120, y0);
getdisplay().print(simulation ? "on" : "off");
getdisplay().setCursor(x0, y0 + 16);
getdisplay().print("Environment:");
getdisplay().setCursor(120, y0 + 16);
getdisplay().print(env_module);
getdisplay().setCursor(x0, y0 + 32);
getdisplay().print("Buzzer:");
getdisplay().setCursor(120, y0 + 32);
getdisplay().print(buzzer_mode);
getdisplay().setCursor(x0, y0 + 64);
getdisplay().print("GPS:");
getdisplay().setCursor(120, y0 + 64);
getdisplay().print(gps_module);
getdisplay().setCursor(x0, y0 + 80);
getdisplay().print("RTC:");
getdisplay().setCursor(120, y0 + 80);
getdisplay().print(rtc_module);
getdisplay().setCursor(x0, y0 + 96);
getdisplay().print("Wifi:");
getdisplay().setCursor(120, y0 + 96);
getdisplay().print(commonData->status.wifiApOn ? "on" : "off");
// Home location
getdisplay().setCursor(x0, y0 + 128);
getdisplay().print("Home Lat.:");
getdisplay().setCursor(120, y0 + 128);
getdisplay().print(formatLatitude(homelat));
getdisplay().setCursor(x0, y0 + 144);
getdisplay().print("Home Lon.:");
getdisplay().setCursor(120, y0 + 144);
getdisplay().print(formatLongitude(homelon));
// right column
getdisplay().setCursor(202, y0);
getdisplay().print("Batt. sensor:");
getdisplay().setCursor(320, y0);
getdisplay().print(batt_sensor);
// Solar sensor
getdisplay().setCursor(202, y0 + 16);
getdisplay().print("Solar sensor:");
getdisplay().setCursor(320, y0 + 16);
getdisplay().print(solar_sensor);
// Generator sensor
getdisplay().setCursor(202, y0 + 32);
getdisplay().print("Gen. sensor:");
getdisplay().setCursor(320, y0 + 32);
getdisplay().print(gen_sensor);
// Gyro sensor
} else if (mode == 'C') {
// Card info
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(8, 48);
getdisplay().print("SD Card info");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
x0 = 20;
y0 = 72;
getdisplay().setCursor(x0, y0);
#ifdef BOARD_OBP60S3
// This mode should not be callable by devices without card hardware
// In case of accidential reaching this, display a friendly message
getdisplay().print("This mode is not indended to be reached!\n");
getdisplay().print("There's nothing to see here. Move on.");
#endif
#ifdef BOARD_OBP40S3
getdisplay().print("Work in progress...");
/* TODO
this code should go somewhere else. only for testing purposes here
identify card as OBP-Card:
magic.dat
version.dat
readme.txt
IMAGES/
CHARTS/
LOGS/
DATA/
hint: file access with fopen, fgets, fread, fclose
*/
// Simple test for magic file in root
getdisplay().setCursor(x0, y0 + 32);
String file_magic = MOUNT_POINT "/magic.dat";
logger->logDebug(GwLog::LOG, "Test magicfile: %s", file_magic.c_str());
struct stat st;
if (stat(file_magic.c_str(), &st) == 0) {
getdisplay().printf("File %s exists", file_magic.c_str());
} else {
getdisplay().printf("File %s not found", file_magic.c_str());
}
// Root directory check
DIR* dir = opendir(MOUNT_POINT);
int dy = 0;
if (dir != NULL) {
logger->logDebug(GwLog::LOG, "Root directory: %s", MOUNT_POINT);
struct dirent* entry;
while (((entry = readdir(dir)) != NULL) and (dy < 140)) {
getdisplay().setCursor(x0, y0 + 64 + dy);
getdisplay().print(entry->d_name);
// type 1 is file, type 2 is dir
if (entry->d_type == 2) {
getdisplay().print("/");
}
dy += 20;
logger->logDebug(GwLog::DEBUG, " %s type %d", entry->d_name, entry->d_type);
}
closedir(dir);
} else {
logger->logDebug(GwLog::LOG, "Failed to open root directory");
}
#endif
} else {
// NMEA2000 device list
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(8, 48);
getdisplay().print("NMEA2000 device list");
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(20, 80);
getdisplay().print("RxD: ");
getdisplay().print(String(commonData->status.n2kRx));
getdisplay().setCursor(20, 100);
getdisplay().print("TxD: ");
getdisplay().print(String(commonData->status.n2kTx));
// call current system page
switch (mode) {
case 'N':
displayModeNormal();
break;
case 'S':
displayModeSettings();
break;
case 'C':
displayModeConfig();
break;
case 'A':
displayModeSDCard();
break;
case 'D':
displayModeDevicelist();
break;
}
// Update display
getdisplay().nextPage(); // Partial update (fast)
epd->nextPage(); // Partial update (fast)
return PAGE_OK;
};
};

111
lib/obp60task/PageThreeValues.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"
@@ -7,12 +8,12 @@
class PageThreeValues : public Page
{
public:
PageThreeValues(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageThreeValue");
PageThreeValues(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageThreeValue");
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -21,9 +22,7 @@ class PageThreeValues : public Page
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
// Old values for hold function
static String svalue1old = "";
@@ -84,46 +83,46 @@ class PageThreeValues : public 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
@@ -133,45 +132,45 @@ 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
@@ -181,45 +180,45 @@ 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

79
lib/obp60task/PageTwoValues.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"
@@ -7,12 +8,12 @@
class PageTwoValues : public Page
{
public:
PageTwoValues(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageTwoValue");
PageTwoValues(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageTwoValue");
}
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -21,9 +22,7 @@ class PageTwoValues : public Page
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
// Old values for hold function
static String svalue1old = "";
@@ -72,46 +71,46 @@ class PageTwoValues : public 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, 80);
getdisplay().print(name1); // Page name
epd->setTextColor(commonData->fgcolor);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 80);
epd->print(name1); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 130);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 130);
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, 130);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(50, 130);
}
else if(bvalue1->getFormat() == "formatTime" || bvalue1->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(170, 105);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(170, 105);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic42pt7b);
getdisplay().setCursor(180, 130);
epd->setFont(&DSEG7Classic_BoldItalic42pt7b);
epd->setCursor(180, 130);
}
// 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
@@ -121,45 +120,45 @@ class PageTwoValues : public Page
// ############### Horizontal Line ################
// Horizontal line 3 pix
getdisplay().fillRect(0, 145, 400, 3, commonData->fgcolor);
epd->fillRect(0, 145, 400, 3, commonData->fgcolor);
// ############### Value 2 ################
// Show name
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(20, 190);
getdisplay().print(name2); // Page name
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(20, 190);
epd->print(name2); // Page name
// Show unit
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(20, 240);
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(20, 240);
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, 240);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(50, 240);
}
else if(bvalue2->getFormat() == "formatTime" || bvalue2->getFormat() == "formatDate"){
getdisplay().setFont(&Ubuntu_Bold20pt8b);
getdisplay().setCursor(170, 215);
epd->setFont(&Ubuntu_Bold20pt8b);
epd->setCursor(170, 215);
}
else{
getdisplay().setFont(&DSEG7Classic_BoldItalic42pt7b);
getdisplay().setCursor(180, 240);
epd->setFont(&DSEG7Classic_BoldItalic42pt7b);
epd->setCursor(180, 240);
}
// 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

146
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 +7,17 @@
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:
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");
if (hasFRAM) {
average = fram.read(FRAM_VOLTAGE_AVG);
trend = fram.read(FRAM_VOLTAGE_TREND);
@@ -23,14 +25,18 @@ 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 ++;
@@ -66,43 +72,41 @@ 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;
int displayPage(PageData &pageData) {
// Get config data
bool simulation = config->getBool(config->useSimuData);
@@ -193,50 +197,50 @@ 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
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
// 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
// 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);
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(295, 100);
#ifdef BOARD_OBP60S3
getdisplay().print(batType);
epd->print(batType);
#endif
#if defined BOARD_OBP40S3 && defined LIPO_ACCU_1200 && defined VOLTAGE_SENSOR
getdisplay().print("LiPo");
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 +249,30 @@ 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("---"); // 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 +293,9 @@ 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 +308,7 @@ 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 +318,7 @@ 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 +358,31 @@ 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);
}
}

19
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"
@@ -16,9 +17,9 @@ class PageWhite : public Page
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;
}
@@ -38,8 +39,6 @@ public:
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Get config data
String flashLED = config->getString(config->flashLED);
@@ -61,19 +60,19 @@ 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
}

138
lib/obp60task/PageWind.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"
@@ -220,9 +221,9 @@ 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");
if (hasFRAM) {
lp = fram.read(FRAM_WIND_SIZE);
source = fram.read(FRAM_WIND_SRC);
@@ -230,7 +231,7 @@ public:
}
}
virtual void setupKeys(){
void setupKeys(){
Page::setupKeys();
commonData->keydata[0].label = "MODE";
if (mode == 'X') {
@@ -242,13 +243,13 @@ 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';
}
@@ -296,10 +297,7 @@ public:
return key;
}
int displayPage(PageData &pageData)
{
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
static String svalue1old = "";
static String unit1old = "";
@@ -361,51 +359,51 @@ 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
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) {
@@ -420,7 +418,7 @@ 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");
}
@@ -438,7 +436,7 @@ public:
};
int angle;
getdisplay().setFont(&Ubuntu_Bold12pt8b);
epd->setFont(&Ubuntu_Bold12pt8b);
// starbord
// text with line
@@ -453,7 +451,7 @@ 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);
}
}
@@ -470,17 +468,17 @@ 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)
@@ -500,7 +498,7 @@ 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)},
@@ -508,39 +506,39 @@ 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;
@@ -565,7 +563,7 @@ 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);
}
}
@@ -582,27 +580,27 @@ 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)},
@@ -610,9 +608,9 @@ 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");
}

552
lib/obp60task/PageWindPlot.cpp
View File

@@ -1,59 +1,79 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "BoatDataCalibration.h"
#include "OBP60Extensions.h"
#include "OBPcharts.h"
#include "OBPRingBuffer.h"
#include "Pagedata.h"
#include <vector>
static const double radToDeg = 180.0 / M_PI; // Conversion factor from radians to degrees
// Get maximum difference of last <amount> of TWD ringbuffer values to center chart
int getRng(const RingBuffer<int16_t>& windDirHstry, int center, size_t amount)
{
int minVal = windDirHstry.getMinVal();
size_t count = windDirHstry.getCurrentSize();
// size_t capacity = windDirHstry.getCapacity();
// size_t last = windDirHstry.getLastIdx();
if (windDirHstry.isEmpty() || amount <= 0) {
return minVal;
}
if (amount > count)
amount = count;
int value = 0;
int rng = 0;
int maxRng = minVal;
// Start from the newest value (last) and go backwards x times
for (size_t i = 0; i < amount; i++) {
// value = windDirHstry.get(((last - i) % capacity + capacity) % capacity);
value = windDirHstry.get(count - 1 - i);
if (value == minVal) {
continue;
}
value = value / 1000.0 * radToDeg;
rng = abs(((value - center + 540) % 360) - 180);
if (rng > maxRng)
maxRng = rng;
}
if (maxRng > 180) {
maxRng = 180;
}
return maxRng;
}
// ****************************************************************
class PageWindPlot : public Page {
private:
GwLog* logger;
int width; // Screen width
int height; // Screen height
bool keylock = false; // Keylock
char chrtMode = 'D'; // Chart mode: 'D' for TWD, 'S' for TWS, 'B' for both
bool showTruW = true; // Show true wind or apparent wind in chart area
bool oldShowTruW = false; // remember recent user selection of wind data type
int 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
bool useSimuData;
String flashLED;
String backlightMode;
// (1)|(2)|(3)|(4) seconds for approx. 4, 8, 12, 16 min. history chart
bool showTWS = true; // Show TWS value in chart area
public:
PageWindPlot(CommonData& common)
PageWindPlot(CommonData& common) : Page(common)
{
commonData = &common;
logger = commonData->logger;
LOG_DEBUG(GwLog::LOG, "Instantiate PageWindPlot");
// 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);
logger->logDebug(GwLog::LOG, "Instantiate PageWindPlot");
}
virtual void setupKeys()
void setupKeys()
{
Page::setupKeys();
commonData->keydata[0].label = "MODE";
#if defined BOARD_OBP60S3
commonData->keydata[1].label = "SRC";
commonData->keydata[4].label = "INTV";
#elif defined BOARD_OBP40S3
// commonData->keydata[0].label = "MODE";
commonData->keydata[1].label = "INTV";
#endif
commonData->keydata[4].label = "TWS";
}
// Key functions
virtual int handleKey(int key)
int handleKey(int key)
{
// Set chart mode TWD | TWS
// Set chart mode TWD | TWS -> to be implemented
if (key == 1) {
if (chrtMode == 'D') {
chrtMode = 'S';
@@ -65,32 +85,26 @@ public:
return 0; // Commit the key
}
#if defined BOARD_OBP60S3
// Set data source TRUE | APP
// Set interval for wind history chart update time
if (key == 2) {
showTruW = !showTruW;
return 0; // Commit the key
}
// Set interval for wind history chart update time (interval)
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
}
// Switch TWS on/off
if (key == 5) {
showTWS = !showTWS;
return 0; // Commit the key
}
// Keylock function
if (key == 11) { // Code for keylock
commonData->keylock = !commonData->keylock;
@@ -99,59 +113,104 @@ public:
return key;
}
virtual void displayNew(PageData& pageData)
{
#ifdef BOARD_OBP40S3
String wndSrc; // Wind source true/apparent wind - preselection for OBP40
int displayPage(PageData& pageData) {
wndSrc = commonData->config->getString("page" + String(pageData.pageNumber) + "wndsrc");
if (wndSrc == "True wind") {
showTruW = true;
} else {
showTruW = false; // Wind source is apparent wind
float twsValue; // TWS value in chart area
static String twdName, twdUnit; // TWD name and unit
static int updFreq; // Update frequency for TWD
static int16_t twdLowest, twdHighest; // TWD range
// static int16_t twdBufMinVal; // lowest possible twd buffer value; used for non-set data
// current boat data values; TWD only for validation test, TWS for display of current value
const int numBoatData = 2;
GwApi::BoatValue* bvalue;
String BDataName[numBoatData];
double BDataValue[numBoatData];
bool BDataValid[numBoatData];
String BDataText[numBoatData];
String BDataUnit[numBoatData];
String BDataFormat[numBoatData];
static bool isInitialized = false; // Flag to indicate that page is initialized
static bool wndDataValid = false; // Flag to indicate if wind data is valid
static int numNoData; // Counter for multiple invalid data values in a row
static bool simulation = false;
static bool holdValues = false;
static int width; // Screen width
static int height; // Screen height
static int xCenter; // Center of screen in x direction
static const int yOffset = 48; // Offset for y coordinates of chart area
static int cHeight; // height of chart area
static int bufSize; // History buffer size: 960 values for appox. 16 min. history chart
static int intvBufSize; // Buffer size used for currently selected time interval
int count; // current size of buffer
static int numWndVals; // number of wind values available for current interval selection
static int bufStart; // 1st data value in buffer to show
int numAddedBufVals; // Number of values added to buffer since last display
size_t currIdx; // Current index in TWD history buffer
static size_t lastIdx; // Last index of TWD history buffer
static size_t lastAddedIdx = 0; // Last index of TWD history buffer when new data was added
static int oldDataIntv; // remember recent user selection of data interval
static int wndCenter; // chart wind center value position
static int wndLeft; // chart wind left value position
static int wndRight; // chart wind right value position
static int chrtRng; // Range of wind values from mid wind value to min/max wind value in degrees
int diffRng; // Difference between mid and current wind value
static const int dfltRng = 40; // Default range for chart
int midWndDir; // New value for wndCenter after chart start / shift
static int simTwd; // Simulation value for TWD
static float simTws; // Simulation value for TWS
int x, y; // x and y coordinates for drawing
static int prevX, prevY; // Last x and y coordinates for drawing
static float chrtScl; // Scale for wind values in pixels per degree
int chrtVal; // Current wind value
static int chrtPrevVal; // Last wind value in chart area for check if value crosses 180 degree line
LOG_DEBUG(GwLog::LOG, "Display page WindPlot");
// Get config data
simulation = config->getBool(config->useSimuData);
holdValues = config->getBool(config->holdvalues);
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
if (!isInitialized) {
width = epd->width();
height = epd->height();
xCenter = width / 2;
cHeight = height - yOffset - 22;
bufSize = pageData.boatHstry.twdHstry->getCapacity();
numNoData = 0;
simTwd = pageData.boatHstry.twdHstry->getLast() / 1000.0 * radToDeg;
simTws = 0;
twsValue = 0;
bufStart = 0;
oldDataIntv = 0;
numAddedBufVals, currIdx, lastIdx = 0;
lastAddedIdx = pageData.boatHstry.twdHstry->getLastIdx();
pageData.boatHstry.twdHstry->getMetaData(twdName, twdUnit, updFreq, twdLowest, twdHighest);
wndCenter = INT_MIN;
midWndDir = 0;
diffRng = dfltRng;
chrtRng = dfltRng;
isInitialized = true; // Set flag to indicate that page is now initialized
}
LOG_DEBUG(GwLog::LOG, "New PageWindPlot; wind source=%s", wndSrc);
#endif
oldShowTruW = !showTruW; // makes wind source being initialized at initial page call
width = getdisplay().width(); // Screen width
height = getdisplay().height(); // Screen height
}
int displayPage(PageData& pageData)
{
GwConfigHandler* config = commonData->config;
static RingBuffer<uint16_t>* wdHstry; // Wind direction data buffer
static RingBuffer<uint16_t>* wsHstry; // Wind speed data buffer
static String wdName, wdFormat; // Wind direction name and format
static String wsName, wsFormat; // Wind speed name and format
// Separate chart objects for true wind and apparent wind
static std::unique_ptr<Chart<uint16_t>> twdFlChart, awdFlChart; // chart object for wind direction chart, full size
static std::unique_ptr<Chart<uint16_t>> twsFlChart, awsFlChart; // chart object for wind speed chart, full size
static std::unique_ptr<Chart<uint16_t>> twdHfChart, awdHfChart; // chart object for wind direction chart, half size
static std::unique_ptr<Chart<uint16_t>> twsHfChart, awsHfChart; // chart object for wind speed chart, half size
// Pointers to the currently active charts
static Chart<uint16_t>* wdFlChart;
static Chart<uint16_t>* wsFlChart;
static Chart<uint16_t>* wdHfChart;
static Chart<uint16_t>* wsHfChart;
static GwApi::BoatValue* wdBVal = new GwApi::BoatValue("TWD"); // temp BoatValue for wind direction unit identification; required by OBP60Formater
static GwApi::BoatValue* wsBVal = new GwApi::BoatValue("TWS"); // temp BoatValue for wind speed unit identification; required by OBP60Formater */
double dfltRngWd = 60.0 * DEG_TO_RAD; // default range for course chart from min to max value in RAD
double dfltRngWs = 7.5; // default range for wind speed chart from min to max value in m/s
const int numBoatData = 4;
GwApi::BoatValue* bvalue[numBoatData]; // current boat data values
LOG_DEBUG(GwLog::LOG, "Display PageWindPlot");
ulong pageTime = millis();
// read boat data values
// read boat data values; TWD only for validation test, TWS for display of current value
for (int i = 0; i < numBoatData; i++) {
bvalue[i] = pageData.values[i];
bvalue = pageData.values[i];
BDataName[i] = xdrDelete(bvalue->getName());
BDataName[i] = BDataName[i].substring(0, 6); // String length limit for value name
calibrationData.calibrateInstance(bvalue, logger); // Check if boat data value is to be calibrated
BDataValue[i] = bvalue->value; // Value as double in SI unit
BDataValid[i] = bvalue->valid;
BDataText[i] = formatValue(bvalue, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places
BDataUnit[i] = formatValue(bvalue, *commonData).unit;
BDataFormat[i] = bvalue->getFormat(); // Unit of value
}
// Optical warning by limit violation (unused)
@@ -160,106 +219,257 @@ public:
setFlashLED(false);
}
if (showTruW != oldShowTruW) {
if (!twdFlChart) { // Create true wind charts if they don't exist
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot: Creating true wind charts");
auto* twdHstry = pageData.boatHstry->hstryBufList.twdHstry;
auto* twsHstry = pageData.boatHstry->hstryBufList.twsHstry;
// LOG_DEBUG(GwLog::DEBUG,"History Buffer addresses PageWindPlot: twdBuf: %p, twsBuf: %p", (void*)pageData.boatHstry->hstryBufList.twdHstry,
// (void*)pageData.boatHstry->hstryBufList.twsHstry);
twdFlChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*twdHstry, 1, 0, dfltRngWd, *commonData, useSimuData));
twsFlChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*twsHstry, 0, 0, dfltRngWs, *commonData, useSimuData));
twdHfChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*twdHstry, 1, 1, dfltRngWd, *commonData, useSimuData));
twsHfChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*twsHstry, 1, 2, dfltRngWs, *commonData, useSimuData));
// twdHfChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*twdHstry, 0, 1, dfltRngWd, *commonData, useSimuData));
// twsHfChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*twsHstry, 0, 2, dfltRngWs, *commonData, useSimuData));
// LOG_DEBUG(GwLog::DEBUG, "PageWindPlot: twdHstry: %p, twsHstry: %p", (void*)twdHstry, (void*)twsHstry);
// Identify buffer size and buffer start position for chart
count = pageData.boatHstry.twdHstry->getCurrentSize();
currIdx = pageData.boatHstry.twdHstry->getLastIdx();
numAddedBufVals = (currIdx - lastAddedIdx + bufSize) % bufSize; // Number of values added to buffer since last display
if (dataIntv != oldDataIntv || count == 1) {
// new data interval selected by user
intvBufSize = cHeight * dataIntv;
numWndVals = min(count, (cHeight - 60) * dataIntv);
bufStart = max(0, count - numWndVals);
lastAddedIdx = currIdx;
oldDataIntv = dataIntv;
} else {
numWndVals = numWndVals + numAddedBufVals;
lastAddedIdx = currIdx;
if (count == bufSize) {
bufStart = max(0, bufStart - numAddedBufVals);
}
if (!awdFlChart) { // Create apparent wind charts if they don't exist
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot: Creating apparent wind charts");
auto* awdHstry = pageData.boatHstry->hstryBufList.awdHstry;
auto* awsHstry = pageData.boatHstry->hstryBufList.awsHstry;
awdFlChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*awdHstry, 1, 0, dfltRngWd, *commonData, useSimuData));
awsFlChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*awsHstry, 0, 0, dfltRngWs, *commonData, useSimuData));
awdHfChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*awdHstry, 1, 1, dfltRngWd, *commonData, useSimuData));
awsHfChart = std::unique_ptr<Chart<uint16_t>>(new Chart<uint16_t>(*awsHstry, 1, 2, dfltRngWs, *commonData, useSimuData));
}
// Switch active charts based on showTruW
if (showTruW) {
wdHstry = pageData.boatHstry->hstryBufList.twdHstry;
wsHstry = pageData.boatHstry->hstryBufList.twsHstry;
wdFlChart = twdFlChart.get();
wsFlChart = twsFlChart.get();
wdHfChart = twdHfChart.get();
wsHfChart = twsHfChart.get();
} else {
wdHstry = pageData.boatHstry->hstryBufList.awdHstry;
wsHstry = pageData.boatHstry->hstryBufList.awsHstry;
wdFlChart = awdFlChart.get();
wsFlChart = awsFlChart.get();
wdHfChart = awdHfChart.get();
wsHfChart = awsHfChart.get();
}
wdHstry->getMetaData(wdName, wdFormat);
wsHstry->getMetaData(wsName, wsFormat);
oldShowTruW = showTruW;
}
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot Dataset: count: %d, TWD: %.0f, TWS: %.1f, TWD_valid? %d, intvBufSize: %d, numWndVals: %d, bufStart: %d, numAddedBufVals: %d, lastIdx: %d, old: %d, act: %d",
count, pageData.boatHstry.twdHstry->getLast() / 1000.0 * radToDeg, pageData.boatHstry.twsHstry->getLast() / 10.0 * 1.94384, BDataValid[0],
intvBufSize, numWndVals, bufStart, numAddedBufVals, pageData.boatHstry.twdHstry->getLastIdx(), oldDataIntv, dataIntv);
// Set wndCenter from 1st real buffer value
if (wndCenter == INT_MIN || (wndCenter == 0 && count == 1)) {
midWndDir = pageData.boatHstry.twdHstry->getMid(numWndVals);
if (midWndDir != INT16_MIN) {
midWndDir = midWndDir / 1000.0 * radToDeg;
wndCenter = int((midWndDir + (midWndDir >= 0 ? 5 : -5)) / 10) * 10; // Set new center value; round to nearest 10 degree value
} else {
wndCenter = 0;
}
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot Range Init: count: %d, TWD: %.0f, wndCenter: %d, diffRng: %d, chrtRng: %d", count, pageData.boatHstry.twdHstry->getLast() / 1000.0 * radToDeg,
wndCenter, diffRng, chrtRng);
} else {
// check and adjust range between left, center, and right chart limit
diffRng = getRng(*pageData.boatHstry.twdHstry, wndCenter, numWndVals);
diffRng = (diffRng == INT16_MIN ? 0 : diffRng);
if (diffRng > chrtRng) {
chrtRng = int((diffRng + (diffRng >= 0 ? 9 : -1)) / 10) * 10; // Round up to next 10 degree value
} else if (diffRng + 10 < chrtRng) { // Reduce chart range for higher resolution if possible
chrtRng = max(dfltRng, int((diffRng + (diffRng >= 0 ? 9 : -1)) / 10) * 10);
}
}
chrtScl = float(width) / float(chrtRng) / 2.0; // Chart scale: pixels per degree
wndLeft = wndCenter - chrtRng;
if (wndLeft < 0)
wndLeft += 360;
wndRight = (chrtRng < 180 ? wndCenter + chrtRng : wndCenter + chrtRng - 1);
if (wndRight >= 360)
wndRight -= 360;
// 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, width, height); // Set partial update
epd->setTextColor(commonData->fgcolor);
if (chrtMode == 'D') {
wdBVal->value = wdHstry->getLast();
wdBVal->valid = wdBVal->value != wdHstry->getMaxVal();
wdFlChart->showChrt(dataIntv, *bvalue[0]);
// chart lines
epd->fillRect(0, yOffset, width, 2, commonData->fgcolor);
epd->fillRect(xCenter, yOffset, 1, cHeight, commonData->fgcolor);
} else if (chrtMode == 'S') {
wsBVal->value = wsHstry->getLast();
wsBVal->valid = wsBVal->value != wsHstry->getMaxVal();
wsFlChart->showChrt(dataIntv, *bvalue[1]);
// chart labels
char sWndLbl[4]; // char buffer for Wind angle label
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(xCenter - 88, yOffset - 3);
epd->print("TWD"); // Wind data name
snprintf(sWndLbl, 4, "%03d", (wndCenter < 0) ? (wndCenter + 360) : wndCenter);
drawTextCenter(xCenter, yOffset - 11, sWndLbl);
epd->drawCircle(xCenter + 25, yOffset - 17, 2, commonData->fgcolor); // <degree> symbol
epd->drawCircle(xCenter + 25, yOffset - 17, 3, commonData->fgcolor); // <degree> symbol
epd->setCursor(1, yOffset - 3);
snprintf(sWndLbl, 4, "%03d", (wndLeft < 0) ? (wndLeft + 360) : wndLeft);
epd->print(sWndLbl); // Wind left value
epd->drawCircle(46, yOffset - 17, 2, commonData->fgcolor); // <degree> symbol
epd->drawCircle(46, yOffset - 17, 3, commonData->fgcolor); // <degree> symbol
epd->setCursor(width - 50, yOffset - 3);
snprintf(sWndLbl, 4, "%03d", (wndRight < 0) ? (wndRight + 360) : wndRight);
epd->print(sWndLbl); // Wind right value
epd->drawCircle(width - 5, yOffset - 17, 2, commonData->fgcolor); // <degree> symbol
epd->drawCircle(width - 5, yOffset - 17, 3, commonData->fgcolor); // <degree> symbol
} else if (chrtMode == 'B') {
wdBVal->value = wdHstry->getLast();
wdBVal->valid = wdBVal->value != wdHstry->getMaxVal();
wsBVal->value = wsHstry->getLast();
wsBVal->valid = wsBVal->value != wsHstry->getMaxVal();
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot showChrt: wsBVal.name: %s, format: %s, wsBVal.value: %.1f, valid: %d, address: %p", wsBVal->getName(), wsBVal->getFormat(), wsBVal->value,
wsBVal->valid, wsBVal);
wdHfChart->showChrt(dataIntv, *bvalue[0]);
wsHfChart->showChrt(dataIntv, *bvalue[1]);
if (pageData.boatHstry.twdHstry->getMax() == pageData.boatHstry.twdHstry->getMinVal()) {
// only <INT16_MIN> values in buffer -> no valid wind data available
wndDataValid = false;
} else if (!BDataValid[0]) {
// currently no valid TWD data available
numNoData++;
wndDataValid = true;
if (numNoData > 3) {
// If more than 4 invalid values in a row, send message
wndDataValid = false;
}
} else {
numNoData = 0; // reset data error counter
wndDataValid = true; // At least some wind data available
}
// Draw wind values in chart
//***********************************************************************
if (wndDataValid) {
for (int i = 0; i < (numWndVals / dataIntv); i++) {
chrtVal = static_cast<int>(pageData.boatHstry.twdHstry->get(bufStart + (i * dataIntv))); // show the latest wind values in buffer; keep 1st value constant in a rolling buffer
if (chrtVal == INT16_MIN) {
chrtPrevVal = INT16_MIN;
} else {
chrtVal = static_cast<int>((chrtVal / 1000.0 * radToDeg) + 0.5); // Convert to degrees and round
x = ((chrtVal - wndLeft + 360) % 360) * chrtScl;
y = yOffset + cHeight - i; // Position in chart area
// if (i >= (numWndVals / dataIntv) - 10)
if (i >= (numWndVals / dataIntv) - 1)
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot Chart: i: %d, chrtVal: %d, bufStart: %d, count: %d, linesToShow: %d", i, chrtVal, bufStart, count, (numWndVals / dataIntv));
if ((i == 0) || (chrtPrevVal == INT16_MIN)) {
// just a dot for 1st chart point or after some invalid values
prevX = x;
prevY = y;
} else {
// cross borders check; shift values to [-180..0..180]; when crossing borders, range is 2x 180 degrees
int wndLeftDlt = -180 - ((wndLeft >= 180) ? (wndLeft - 360) : wndLeft);
int chrtVal180 = ((chrtVal + wndLeftDlt + 180) % 360 + 360) % 360 - 180;
int chrtPrevVal180 = ((chrtPrevVal + wndLeftDlt + 180) % 360 + 360) % 360 - 180;
if (((chrtPrevVal180 >= -180) && (chrtPrevVal180 < -90) && (chrtVal180 > 90)) || ((chrtPrevVal180 <= 179) && (chrtPrevVal180 > 90) && chrtVal180 <= -90)) {
// If current value crosses chart borders compared to previous value, split line
int xSplit = (((chrtPrevVal180 > 0 ? wndRight : wndLeft) - wndLeft + 360) % 360) * chrtScl;
epd->drawLine(prevX, prevY, xSplit, y, commonData->fgcolor);
epd->drawLine(prevX, prevY - 1, ((xSplit != prevX) ? xSplit : xSplit - 1), ((xSplit != prevX) ? y - 1 : y), commonData->fgcolor);
prevX = (((chrtVal180 > 0 ? wndRight : wndLeft) - wndLeft + 360) % 360) * chrtScl;
}
}
// Draw line with 2 pixels width + make sure vertical line are drawn correctly
epd->drawLine(prevX, prevY, x, y, commonData->fgcolor);
epd->drawLine(prevX, prevY - 1, ((x != prevX) ? x : x - 1), ((x != prevX) ? y - 1 : y), commonData->fgcolor);
chrtPrevVal = chrtVal;
prevX = x;
prevY = y;
}
// Reaching chart area top end
if (i >= (cHeight - 1)) {
oldDataIntv = 0; // force reset of buffer start and number of values to show in next display loop
int minWndDir = pageData.boatHstry.twdHstry->getMin(numWndVals) / 1000.0 * radToDeg;
int maxWndDir = pageData.boatHstry.twdHstry->getMax(numWndVals) / 1000.0 * radToDeg;
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot FreeTop: Minimum: %d, Maximum: %d, OldwndCenter: %d", minWndDir, maxWndDir, wndCenter);
// if ((minWndDir + 540 >= wndCenter + 540) || (maxWndDir + 540 <= wndCenter + 540)) {
if (((minWndDir - wndCenter >= 0) && (minWndDir - wndCenter < 180)) || ((maxWndDir - wndCenter <= 0) && (maxWndDir - wndCenter >=180))) {
// Check if all wind value are left or right of center value -> optimize chart range
midWndDir = pageData.boatHstry.twdHstry->getMid(numWndVals) / 1000.0 * radToDeg;
if (midWndDir != INT16_MIN) {
wndCenter = int((midWndDir + (midWndDir >= 0 ? 5 : -5)) / 10) * 10; // Set new center value; round to nearest 10 degree value
}
}
LOG_DEBUG(GwLog::DEBUG, "PageWindPlot FreeTop: cHeight: %d, bufStart: %d, numWndVals: %d, wndCenter: %d", cHeight, bufStart, numWndVals, wndCenter);
break;
}
}
} else {
// No valid data available
LOG_DEBUG(GwLog::LOG, "PageWindPlot: No valid data available");
epd->setFont(&Ubuntu_Bold10pt8b);
epd->fillRect(xCenter - 33, height / 2 - 20, 66, 24, commonData->bgcolor); // Clear area for message
drawTextCenter(xCenter, height / 2 - 10, "No data");
}
// Print TWS value
if (showTWS) {
int currentZone;
static int lastZone = 0;
static bool flipTws = false;
int xPosTws;
static const int yPosTws = yOffset + 40;
twsValue = pageData.boatHstry.twsHstry->getLast() / 10.0 * 1.94384; // TWS value in knots
xPosTws = flipTws ? 20 : width - 138;
currentZone = (y >= yPosTws - 38) && (y <= yPosTws + 6) && (x >= xPosTws - 4) && (x <= xPosTws + 146) ? 1 : 0; // Define current zone for TWS value
if (currentZone != lastZone) {
// Only flip when x moves to a different zone
if ((y >= yPosTws - 38) && (y <= yPosTws + 6) && (x >= xPosTws - 4) && (x <= xPosTws + 146)) {
flipTws = !flipTws;
xPosTws = flipTws ? 20 : width - 145;
}
}
lastZone = currentZone;
epd->fillRect(xPosTws - 4, yPosTws - 38, 142, 44, commonData->bgcolor); // Clear area for TWS value
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setCursor(xPosTws, yPosTws);
if (!BDataValid[1]) {
epd->print("--.-");
} else {
double dbl = BDataValue[1] * 3.6 / 1.852;
if (dbl < 10.0) {
epd->printf("!%3.1f", dbl); // Value, round to 1 decimal
} else {
epd->printf("%4.1f", dbl); // Value, round to 1 decimal
}
}
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(xPosTws + 82, yPosTws - 14);
// epd->print("TWS"); // Name
epd->print(BDataName[1]); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
// epd->setCursor(xPosTws + 78, yPosTws + 1);
epd->setCursor(xPosTws + 82, yPosTws + 1);
// epd->printf(" kn"); // Unit
epd->print(BDataUnit[1]); // Unit
}
// chart Y axis labels; print at last to overwrite potential chart lines in label area
int yPos;
int chrtLbl;
epd->setFont(&Ubuntu_Bold8pt8b);
for (int i = 1; i <= 3; i++) {
yPos = yOffset + (i * 60);
epd->fillRect(0, yPos, width, 1, commonData->fgcolor);
epd->fillRect(0, yPos - 8, 24, 16, commonData->bgcolor); // Clear small area to remove potential chart lines
epd->setCursor(1, yPos + 4);
if (count >= intvBufSize) {
// Calculate minute value for label
chrtLbl = ((i - 1 + (prevY < yOffset + 30)) * dataIntv) * -1; // change label if last data point is more than 30 lines (= seconds) from chart line
} else {
int j = 3 - i;
chrtLbl = (int((((numWndVals / dataIntv) - 50) * dataIntv / 60) + 1) - (j * dataIntv)) * -1; // 50 lines left below last chart line
}
epd->printf("%3d", chrtLbl); // Wind value label
}
LOG_DEBUG(GwLog::LOG, "PageWindPlot: page time %ldms", millis() - pageTime);
return PAGE_UPDATE;
}
};
};
static Page* createPage(CommonData& common)
{
return new PageWindPlot(common);
}
/* with the code below we make this page known to the PageTask
/**
* 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 (0 here)
* and will will provide the names of the fixed values we need */
* and will will provide the names of the fixed values we need
*/
PageDescription registerPageWindPlot(
"WindPlot", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{ "TWD", "TWS", "AWD", "AWS" }, // Bus values we need in the page
{ "TWD", "TWS" }, // Bus values we need in the page
// {}, // Bus values we need in the page
true // Show display header on/off
);

173
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"
@@ -9,13 +10,13 @@ class PageWindRose : public Page
int16_t lp = 80; // Pointer length
public:
PageWindRose(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageWindRose");
PageWindRose(CommonData &common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageWindRose");
}
// Key functions
virtual int handleKey(int key){
int handleKey(int key){
// Code for keylock
if(key == 11){
commonData->keylock = !commonData->keylock;
@@ -24,9 +25,7 @@ public:
return key;
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
int displayPage(PageData &pageData) {
static String svalue1old = "";
static String unit1old = "";
@@ -147,87 +146,87 @@ 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
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(" ");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 65);
epd->print(svalue1); // Value
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 95);
epd->print(name1); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 115);
epd->print(" ");
if(holdvalues == false){
getdisplay().print(unit1); // Unit
epd->print(unit1); // Unit
}
else{
getdisplay().print(unit1old); // Unit
epd->print(unit1old); // 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(" ");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(10, 270);
epd->print(svalue2); // Value
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(10, 220);
epd->print(name2); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(10, 190);
epd->print(" ");
if(holdvalues == false){
getdisplay().print(unit2); // Unit
epd->print(unit2); // Unit
}
else{
getdisplay().print(unit2old); // Unit
epd->print(unit2old); // Unit
}
// Show values TWD
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(295, 65);
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(295, 65);
if(valid3 == true){
getdisplay().print(abs(value3 * 180 / PI), 0); // Value
epd->print(abs(value3 * 180 / PI), 0); // Value
}
else{
getdisplay().print("---"); // Value
epd->print("---"); // Value
}
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(335, 95);
getdisplay().print(name3); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(335, 115);
getdisplay().print(" ");
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 95);
epd->print(name3); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 115);
epd->print(" ");
if(holdvalues == false){
getdisplay().print(unit3); // Unit
epd->print(unit3); // Unit
}
else{
getdisplay().print(unit3old); // Unit
epd->print(unit3old); // 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(" ");
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(295, 270);
epd->print(svalue4); // Value
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 220);
epd->print(name4); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 190);
epd->print(" ");
if(holdvalues == false){
getdisplay().print(unit4); // Unit
epd->print(unit4); // Unit
}
else{
getdisplay().print(unit4old); // Unit
epd->print(unit4old); // Unit
}
//*******************************************************************************************
@@ -236,10 +235,10 @@ public:
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)
{
@@ -267,17 +266,17 @@ 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);
@@ -288,10 +287,10 @@ 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);
}
@@ -308,7 +307,7 @@ 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
@@ -318,43 +317,43 @@ 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(" ");
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setCursor(160, 200);
epd->print(svalue5); // Value
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(190, 215);
epd->print(" ");
if(holdvalues == false){
getdisplay().print(unit5); // Unit
epd->print(unit5); // Unit
}
else{
getdisplay().print(unit5old); // Unit
epd->print(unit5old); // 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(" ");
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
epd->setCursor(160, 130);
epd->print(svalue6); // Value
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(190, 90);
epd->print(" ");
if(holdvalues == false){
getdisplay().print(unit6); // Unit
epd->print(unit6); // Unit
}
else{
getdisplay().print(unit6old); // Unit
epd->print(unit6old); // Unit
}
return PAGE_UPDATE;

321
lib/obp60task/PageWindRoseFlex.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"
@@ -7,30 +8,15 @@
class PageWindRoseFlex : public Page
{
int16_t lp = 80; // Pointer length
char source = 'A'; // data source (A)pparent | (T)rue
public:
PageWindRoseFlex(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageWindRoseFlex");
}
virtual void setupKeys(){
Page::setupKeys();
commonData->keydata[1].label = "SRC";
PageWindRoseFlex(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageWindRoseFlex");
}
// 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;
@@ -40,8 +26,6 @@ public:
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
static String svalue1old = "";
static String unit1old = "";
@@ -55,11 +39,6 @@ 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);
@@ -68,60 +47,39 @@ public:
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
// Get boat value for wind angle (AWA/TWA), shown by pointer
if (source == 'A') {
bvalue1 = pageData.values[4];
} else {
bvalue1 = pageData.values[6];
}
String name1 = bvalue1->getName().c_str(); // Value name
// 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
calibrationData.calibrateInstance(bvalue1, logger); // Check if boat data value is to be calibrated
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){
if(valid1 == true){
svalue1old = svalue1; // Save old value
unit1old = unit1; // Save old unit
}
// Get boat value for wind speed (AWS/TWS), shown in top left corner
if (source == 'A') {
bvalue2 =pageData.values[5];
} else {
bvalue2 = pageData.values[7];
}
String name2 = bvalue2->getName().c_str(); // Value name
// 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
calibrationData.calibrateInstance(bvalue2, logger); // Check if boat data value is to be calibrated
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){
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 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
if (name3.length()>3){
name3font=Ubuntu_Bold8pt8b;
}
else{
name3font=Ubuntu_Bold12pt8b;
}
calibrationData.calibrateInstance(bvalue3, logger); // Check if boat data value is to be calibrated
double value3 = bvalue3->value; // Value as double in SI unit
bool valid3 = bvalue3->valid; // Valid information
@@ -132,16 +90,10 @@ public:
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 values #4
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
if (name4.length()>3){
name4font=Ubuntu_Bold8pt8b;
}
else{
name4font=Ubuntu_Bold12pt8b;
}
calibrationData.calibrateInstance(bvalue4, logger); // Check if boat data value is to be calibrated
double value4 = bvalue4->value; // Value as double in SI unit
bool valid4 = bvalue4->valid; // Valid information
@@ -152,16 +104,10 @@ public:
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 values #5
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
if (name5.length()>3){
name5font=Ubuntu_Bold8pt8b;
}
else{
name5font=Ubuntu_Bold12pt8b;
}
calibrationData.calibrateInstance(bvalue5, logger); // Check if boat data value is to be calibrated
double value5 = bvalue5->value; // Value as double in SI unit
bool valid5 = bvalue5->valid; // Valid information
@@ -172,16 +118,10 @@ public:
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 values #5
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
if (name6.length()>3){
name6font=Ubuntu_Bold8pt8b;
}
else{
name6font=Ubuntu_Bold8pt8b;
}
calibrationData.calibrateInstance(bvalue6, logger); // Check if boat data value is to be calibrated
double value6 = bvalue6->value; // Value as double in SI unit
bool valid6 = bvalue6->valid; // Valid information
@@ -192,7 +132,6 @@ public:
unit6old = unit6; // Save old unit
}
// Optical warning by limit violation (unused)
if(String(flashLED) == "Limit Violation"){
setBlinkingLED(false);
@@ -201,88 +140,94 @@ public:
// 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);
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);
// 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(" ");
// Show value 2 at position of value 1 (top left)
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(" ");
if(holdvalues == false){
getdisplay().print(unit2); // Unit
epd->print(unit2); // Unit
}
else{
getdisplay().print(unit2old); // Unit
epd->print(unit2old); // Unit
}
// 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(" ");
// Show value 3 at bottom left
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(" ");
if(holdvalues == false){
getdisplay().print(unit3); // Unit
epd->print(unit3); // Unit
}
else{
getdisplay().print(unit3old); // Unit
epd->print(unit3old); // Unit
}
// 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
// Show value 4 at top right
epd->setFont(&DSEG7Classic_BoldItalic20pt7b);
epd->setCursor(295, 65);
if(valid3 == true){
// epd->print(abs(value3 * 180 / M_PI), 0); // Value
epd->print(svalue4); // Value
}
else{
getdisplay().print(unit4old); // Unit
epd->print("---"); // Value
}
epd->setFont(&Ubuntu_Bold12pt8b);
epd->setCursor(335, 95);
epd->print(name4); // Name
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(335, 115);
epd->print(" ");
if(holdvalues == false){
epd->print(unit4); // Unit
}
else{
epd->print(unit4old); // Unit
}
// 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(" ");
// Show value 5 at bottom right
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(" ");
if(holdvalues == false){
getdisplay().print(unit5); // Unit
epd->print(unit5); // Unit
}
else{
getdisplay().print(unit5old); // Unit
epd->print(unit5old); // Unit
}
@@ -291,10 +236,10 @@ public:
// 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)
{
@@ -321,17 +266,17 @@ 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);
@@ -342,10 +287,10 @@ 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);
}
@@ -362,7 +307,7 @@ 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
@@ -372,58 +317,37 @@ 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
}
else{
getdisplay().print(unit6old); // Unit
}
}
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
}
}
// Show value6, so that it does not collide with the wind pointer
epd->setFont(&DSEG7Classic_BoldItalic16pt7b);
if (cos(value1) > 0){
epd->setCursor(160, 200);
epd->print(svalue6); // Value
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(190, 215);
} else{
epd->setCursor(160, 130);
epd->print(svalue6); // Value
epd->setFont(&Ubuntu_Bold8pt8b);
epd->setCursor(190, 90);
}
epd->print(" ");
if(holdvalues == false){
epd->print(unit6); // Unit
}
else{
epd->print(unit6old); // Unit
}
return PAGE_UPDATE;
};
@@ -436,14 +360,13 @@ static Page *createPage(CommonData &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 (4 here)
* and we provide the number of user parameters we expect (0 here)
* and will will provide the names of the fixed values we need
*/
PageDescription registerPageWindRoseFlex(
"WindRoseFlex", // Page name
createPage, // Action
4, // Number of bus values depends on selection in Web configuration
{"AWA", "AWS", "TWA", "TWS"}, // fixed values we need in the page. They are inserted AFTER the web-configured values.
6, // Number of bus values depends on selection in Web configuration; was zero
true // Show display header on/off
);

81
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"
@@ -32,11 +33,11 @@ class PageXTETrack : public Page
bool holdvalues = false;
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);
PageXTETrack(CommonData &common) : Page(common)
{
logger->logDebug(GwLog::LOG, "Instantiate PageXTETrack");
simulation = config->getBool(config->useSimuData);
holdvalues = config->getBool(config->holdvalues);
}
void drawSegment(uint16_t x0, uint16_t y0, uint16_t x1, uint16_t y1,
@@ -45,14 +46,14 @@ 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);
}
}
@@ -89,57 +90,57 @@ class PageXTETrack : public 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);
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);
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);
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);
epd->getTextBounds(sval_btw, 0, 0, &x, &y, &w, &h);
epd->setCursor(360-w, 257);
epd->print(sval_btw);
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";
@@ -148,13 +149,13 @@ class PageXTETrack : public Page
sval_wpname = "Tonne 122";
}
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

62
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 "OBPRingBuffer.h"
#include "OBPDataOperations.h"
#define MAX_PAGE_NUMBER 10 // Max number of pages for show data
@@ -16,7 +19,7 @@ typedef struct{
uint8_t pageNumber; // page number in sequence of visible pages
//the values will always contain the user defined values first
ValueList values;
HstryBuf* boatHstry;
tBoatHstryData boatHstry;
} PageData;
// Sensor data structure (only for extended sensors, not for NMEA bus sensors)
@@ -99,31 +102,43 @@ typedef struct{
} AlarmData;
typedef struct{
GwApi::Status status;
GwLog *logger = nullptr;
GwConfigHandler *config = nullptr;
SensorData data;
SunData sundata;
TouchKeyData keydata[6];
BacklightData backlight;
AlarmData alarm;
GwApi::BoatValue *time = nullptr;
GwApi::BoatValue *date = nullptr;
uint16_t fgcolor;
uint16_t bgcolor;
bool keylock = false;
String powermode;
int voltage = 0;
} AvgData;
typedef struct{
GwApi::Status status;
GwLog *logger=NULL;
GwConfigHandler *config=NULL;
SensorData data;
SunData sundata;
TouchKeyData keydata[6];
BacklightData backlight;
AlarmData alarm;
AvgData avgdata;
GwApi::BoatValue *time=NULL;
GwApi::BoatValue *date=NULL;
uint16_t fgcolor;
uint16_t bgcolor;
bool keylock = false;
String powermode;
} CommonData;
//a base class that all pages must inherit from
class Page{
protected:
protected:
CommonData *commonData;
public:
GwConfigHandler *config;
GwLog *logger;
public:
Page(){}
Page(CommonData &common) {
commonData = &common;
config = commonData->config;
logger = commonData->logger;
}
int refreshtime = 1000;
virtual int displayPage(PageData &pageData)=0;
virtual void displayNew(PageData &pageData){}
virtual void leavePage(PageData &pageData){}
virtual void setupKeys() {
#ifdef HARDWARE_V21
commonData->keydata[0].label = "";
@@ -182,9 +197,9 @@ class PageDescription{
class PageStruct{
public:
Page *page = nullptr;
Page *page=NULL;
PageData parameters;
PageDescription *description = nullptr;
PageDescription *description=NULL;
};
// Standard format functions without overhead
@@ -195,10 +210,9 @@ 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
double value;
String svalue;
String unit;
} FormattedData;
// Formatter for boat values

85
lib/obp60task/README Normal file
View File

@@ -0,0 +1,85 @@
Development information
=======================
This file contains some hints concerning building the firmware as well as
developing and debugging it.
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
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
- fix sd card code
- 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

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

1501
lib/obp60task/config.json
View File

File diff suppressed because it is too large Load Diff

1758
lib/obp60task/config_obp40.json
View File

File diff suppressed because it is too large Load Diff

6
lib/obp60task/debugging.txt
View File

@@ -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

1
lib/obp60task/extra_task.py
View File

@@ -28,3 +28,4 @@ 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")))

202
lib/obp60task/fonts/IBM8x8px.h
View File

@@ -1,202 +0,0 @@
const uint8_t IBM8x8pxBitmaps[] PROGMEM = {
0x00, /* 0x20 space */
0x6F, 0xF6, 0x60, 0x60, /* 0x21 exclam */
0xDE, 0xF6, /* 0x22 quotedbl */
0x6C, 0xDB, 0xFB, 0x6F, 0xED, 0x9B, 0x00, /* 0x23 numbersign */
0x31, 0xFC, 0x1E, 0x0F, 0xE3, 0x00, /* 0x24 dollar */
0xC7, 0x98, 0x61, 0x86, 0x78, 0xC0, /* 0x25 percent */
0x38, 0xD8, 0xE3, 0xBD, 0xD9, 0x9D, 0x80, /* 0x26 ampersand */
0x6F, 0x00, /* 0x27 quotesingle */
0x36, 0xCC, 0xC6, 0x30, /* 0x28 parenleft */
0xC6, 0x33, 0x36, 0xC0, /* 0x29 parenright */
0x66, 0x3C, 0xFF, 0x3C, 0x66, /* 0x2A asterisk */
0x30, 0xCF, 0xCC, 0x30, /* 0x2B plus */
0x6F, 0x00, /* 0x2C comma */
0xFC, /* 0x2D hyphen */
0xF0, /* 0x2E period */
0x06, 0x18, 0x61, 0x86, 0x18, 0x20, 0x00, /* 0x2F slash */
0x7D, 0x8F, 0x3E, 0xFF, 0x7C, 0xDF, 0x00, /* 0x30 zero */
0x31, 0xC3, 0x0C, 0x30, 0xCF, 0xC0, /* 0x31 one */
0x7B, 0x30, 0xCE, 0x63, 0x1F, 0xC0, /* 0x32 two */
0x7B, 0x30, 0xCE, 0x0F, 0x37, 0x80, /* 0x33 three */
0x1C, 0x79, 0xB6, 0x6F, 0xE1, 0x87, 0x80, /* 0x34 four */
0xFF, 0x0F, 0x83, 0x0F, 0x37, 0x80, /* 0x35 five */
0x39, 0x8C, 0x3E, 0xCF, 0x37, 0x80, /* 0x36 six */
0xFF, 0x30, 0xC6, 0x30, 0xC3, 0x00, /* 0x37 seven */
0x7B, 0x3C, 0xDE, 0xCF, 0x37, 0x80, /* 0x38 eight */
0x7B, 0x3C, 0xDF, 0x0C, 0x67, 0x00, /* 0x39 nine */
0xF0, 0xF0, /* 0x3A colon */
0x6C, 0x37, 0x80, /* 0x3B semicolon */
0x19, 0x99, 0x86, 0x18, 0x60, /* 0x3C less */
0xFC, 0x00, 0x3F, /* 0x3D equal */
0xC3, 0x0C, 0x33, 0x33, 0x00, /* 0x3E greater */
0x7B, 0x30, 0xC6, 0x30, 0x03, 0x00, /* 0x3F question */
0x7D, 0x8F, 0x7E, 0xFD, 0xF8, 0x1E, 0x00, /* 0x40 at */
0x31, 0xEC, 0xF3, 0xFF, 0x3C, 0xC0, /* 0x41 A */
0xFC, 0xCD, 0x9B, 0xE6, 0x6C, 0xFF, 0x00, /* 0x42 B */
0x3C, 0xCF, 0x06, 0x0C, 0x0C, 0xCF, 0x00, /* 0x43 C */
0xF8, 0xD9, 0x9B, 0x36, 0x6D, 0xBE, 0x00, /* 0x44 D */
0xFE, 0xC5, 0xA3, 0xC6, 0x8C, 0x7F, 0x80, /* 0x45 E */
0xFE, 0xC5, 0xA3, 0xC6, 0x8C, 0x3C, 0x00, /* 0x46 F */
0x3C, 0xCF, 0x06, 0x0C, 0xEC, 0xCF, 0x80, /* 0x47 G */
0xCF, 0x3C, 0xFF, 0xCF, 0x3C, 0xC0, /* 0x48 H */
0xF6, 0x66, 0x66, 0xF0, /* 0x49 I */
0x1E, 0x18, 0x30, 0x6C, 0xD9, 0x9E, 0x00, /* 0x4A J */
0xE6, 0xCD, 0xB3, 0xC6, 0xCC, 0xF9, 0x80, /* 0x4B K */
0xF0, 0xC1, 0x83, 0x06, 0x2C, 0xFF, 0x80, /* 0x4C L */
0xC7, 0xDF, 0xFF, 0xFD, 0x78, 0xF1, 0x80, /* 0x4D M */
0xC7, 0xCF, 0xDE, 0xFC, 0xF8, 0xF1, 0x80, /* 0x4E N */
0x38, 0xDB, 0x1E, 0x3C, 0x6D, 0x8E, 0x00, /* 0x4F O */
0xFC, 0xCD, 0x9B, 0xE6, 0x0C, 0x3C, 0x00, /* 0x50 P */
0x7B, 0x3C, 0xF3, 0xDD, 0xE1, 0xC0, /* 0x51 Q */
0xFC, 0xCD, 0x9B, 0xE6, 0xCC, 0xF9, 0x80, /* 0x52 R */
0x7B, 0x3E, 0x1C, 0x1F, 0x37, 0x80, /* 0x53 S */
0xFE, 0xD3, 0x0C, 0x30, 0xC7, 0x80, /* 0x54 T */
0xCF, 0x3C, 0xF3, 0xCF, 0x3F, 0xC0, /* 0x55 U */
0xCF, 0x3C, 0xF3, 0xCD, 0xE3, 0x00, /* 0x56 V */
0xC7, 0x8F, 0x1E, 0xBF, 0xFD, 0xF1, 0x80, /* 0x57 W */
0xC7, 0x8D, 0xB1, 0xC3, 0x8D, 0xB1, 0x80, /* 0x58 X */
0xCF, 0x3C, 0xDE, 0x30, 0xC7, 0x80, /* 0x59 Y */
0xFF, 0x8E, 0x30, 0xC3, 0x2C, 0xFF, 0x80, /* 0x5A Z */
0xFC, 0xCC, 0xCC, 0xF0, /* 0x5B bracketleft */
0xC0, 0xC0, 0xC0, 0xC0, 0xC0, 0xC0, 0x80, /* 0x5C backslash */
0xF3, 0x33, 0x33, 0xF0, /* 0x5D bracketright */
0x10, 0x71, 0xB6, 0x30, /* 0x5E asciicircum */
0xFF, /* 0x5F underscore */
0xD9, 0x80, /* 0x60 grave */
0x78, 0x19, 0xF6, 0x67, 0x60, /* 0x61 a */
0xE0, 0xC1, 0x83, 0xE6, 0x6C, 0xF7, 0x00, /* 0x62 b */
0x7B, 0x3C, 0x33, 0x78, /* 0x63 c */
0x1C, 0x18, 0x33, 0xEC, 0xD9, 0x9D, 0x80, /* 0x64 d */
0x7B, 0x3F, 0xF0, 0x78, /* 0x65 e */
0x39, 0xB6, 0x3C, 0x61, 0x8F, 0x00, /* 0x66 f */
0x77, 0x9B, 0x33, 0xE0, 0xDF, 0x00, /* 0x67 g */
0xE0, 0xC1, 0xB3, 0xB6, 0x6C, 0xF9, 0x80, /* 0x68 h */
0x60, 0xE6, 0x66, 0xF0, /* 0x69 i */
0x0C, 0x00, 0xC3, 0x0F, 0x3C, 0xDE, /* 0x6A j */
0xE0, 0xC1, 0x9B, 0x67, 0x8D, 0xB9, 0x80, /* 0x6B k */
0xE6, 0x66, 0x66, 0xF0, /* 0x6C l */
0xCD, 0xFF, 0xFE, 0xBC, 0x60, /* 0x6D m */
0xFB, 0x3C, 0xF3, 0xCC, /* 0x6E n */
0x7B, 0x3C, 0xF3, 0x78, /* 0x6F o */
0xDC, 0xCD, 0x9B, 0xE6, 0x1E, 0x00, /* 0x70 p */
0x77, 0x9B, 0x33, 0xE0, 0xC3, 0xC0, /* 0x71 q */
0xDC, 0xED, 0x9B, 0x0F, 0x00, /* 0x72 r */
0x7F, 0x07, 0x83, 0xF8, /* 0x73 s */
0x23, 0x3E, 0xC6, 0x34, 0xC0, /* 0x74 t */
0xCD, 0x9B, 0x36, 0x67, 0x60, /* 0x75 u */
0xCF, 0x3C, 0xDE, 0x30, /* 0x76 v */
0xC7, 0xAF, 0xFF, 0xF6, 0xC0, /* 0x77 w */
0xC6, 0xD8, 0xE3, 0x6C, 0x60, /* 0x78 x */
0xCF, 0x3C, 0xDF, 0x0F, 0xE0, /* 0x79 y */
0xFE, 0x63, 0x19, 0xFC, /* 0x7A z */
0x1C, 0xC3, 0x38, 0x30, 0xC1, 0xC0, /* 0x7B braceleft */
0xFC, 0xFC, /* 0x7C bar */
0xE0, 0xC3, 0x07, 0x30, 0xCE, 0x00, /* 0x7D braceright */
0x77, 0xB8, /* 0x7E asciitilde */
0x10, 0x71, 0xB6, 0x3C, 0x7F, 0xC0 /* 0x7F uni007F */
};
const GFXglyph IBM8x8pxGlyphs[] PROGMEM = {
{ 0, 1, 1, 2, 0, -1 }, /* 0x20 space */
{ 1, 4, 7, 5, 0, -7 }, /* 0x21 exclam */
{ 5, 5, 3, 6, 0, -7 }, /* 0x22 quotedbl */
{ 7, 7, 7, 8, 0, -7 }, /* 0x23 numbersign */
{ 14, 6, 7, 7, 0, -7 }, /* 0x24 dollar */
{ 20, 7, 6, 8, 0, -6 }, /* 0x25 percent */
{ 26, 7, 7, 8, 0, -7 }, /* 0x26 ampersand */
{ 33, 3, 3, 4, 0, -7 }, /* 0x27 quotesingle */
{ 35, 4, 7, 5, 0, -7 }, /* 0x28 parenleft */
{ 39, 4, 7, 5, 0, -7 }, /* 0x29 parenright */
{ 43, 8, 5, 9, 0, -6 }, /* 0x2A asterisk */
{ 48, 6, 5, 7, 0, -6 }, /* 0x2B plus */
{ 52, 3, 3, 4, 0, -2 }, /* 0x2C comma */
{ 54, 6, 1, 7, 0, -4 }, /* 0x2D hyphen */
{ 55, 2, 2, 3, 0, -2 }, /* 0x2E period */
{ 56, 7, 7, 8, 0, -7 }, /* 0x2F slash */
{ 63, 7, 7, 8, 0, -7 }, /* 0x30 zero */
{ 70, 6, 7, 7, 0, -7 }, /* 0x31 one */
{ 76, 6, 7, 7, 0, -7 }, /* 0x32 two */
{ 82, 6, 7, 7, 0, -7 }, /* 0x33 three */
{ 88, 7, 7, 8, 0, -7 }, /* 0x34 four */
{ 95, 6, 7, 7, 0, -7 }, /* 0x35 five */
{ 101, 6, 7, 7, 0, -7 }, /* 0x36 six */
{ 107, 6, 7, 7, 0, -7 }, /* 0x37 seven */
{ 113, 6, 7, 7, 0, -7 }, /* 0x38 eight */
{ 119, 6, 7, 7, 0, -7 }, /* 0x39 nine */
{ 125, 2, 6, 3, 0, -6 }, /* 0x3A colon */
{ 127, 3, 6, 4, 0, -6 }, /* 0x3B semicolon */
{ 130, 5, 7, 6, 0, -7 }, /* 0x3C less */
{ 135, 6, 4, 7, 0, -5 }, /* 0x3D equal */
{ 138, 5, 7, 6, 0, -7 }, /* 0x3E greater */
{ 143, 6, 7, 7, 0, -7 }, /* 0x3F question */
{ 149, 7, 7, 8, 0, -7 }, /* 0x40 at */
{ 156, 6, 7, 7, 0, -7 }, /* 0x41 A */
{ 162, 7, 7, 8, 0, -7 }, /* 0x42 B */
{ 169, 7, 7, 8, 0, -7 }, /* 0x43 C */
{ 176, 7, 7, 8, 0, -7 }, /* 0x44 D */
{ 183, 7, 7, 8, 0, -7 }, /* 0x45 E */
{ 190, 7, 7, 8, 0, -7 }, /* 0x46 F */
{ 197, 7, 7, 8, 0, -7 }, /* 0x47 G */
{ 204, 6, 7, 7, 0, -7 }, /* 0x48 H */
{ 210, 4, 7, 5, 0, -7 }, /* 0x49 I */
{ 214, 7, 7, 8, 0, -7 }, /* 0x4A J */
{ 221, 7, 7, 8, 0, -7 }, /* 0x4B K */
{ 228, 7, 7, 8, 0, -7 }, /* 0x4C L */
{ 235, 7, 7, 8, 0, -7 }, /* 0x4D M */
{ 242, 7, 7, 8, 0, -7 }, /* 0x4E N */
{ 249, 7, 7, 8, 0, -7 }, /* 0x4F O */
{ 256, 7, 7, 8, 0, -7 }, /* 0x50 P */
{ 263, 6, 7, 7, 0, -7 }, /* 0x51 Q */
{ 269, 7, 7, 8, 0, -7 }, /* 0x52 R */
{ 276, 6, 7, 7, 0, -7 }, /* 0x53 S */
{ 282, 6, 7, 7, 0, -7 }, /* 0x54 T */
{ 288, 6, 7, 7, 0, -7 }, /* 0x55 U */
{ 294, 6, 7, 7, 0, -7 }, /* 0x56 V */
{ 300, 7, 7, 8, 0, -7 }, /* 0x57 W */
{ 307, 7, 7, 8, 0, -7 }, /* 0x58 X */
{ 314, 6, 7, 7, 0, -7 }, /* 0x59 Y */
{ 320, 7, 7, 8, 0, -7 }, /* 0x5A Z */
{ 327, 4, 7, 5, 0, -7 }, /* 0x5B bracketleft */
{ 331, 7, 7, 8, 0, -7 }, /* 0x5C backslash */
{ 338, 4, 7, 5, 0, -7 }, /* 0x5D bracketright */
{ 342, 7, 4, 8, 0, -7 }, /* 0x5E asciicircum */
{ 346, 8, 1, 9, 0, 0 }, /* 0x5F underscore */
{ 347, 3, 3, 4, 0, -7 }, /* 0x60 grave */
{ 349, 7, 5, 8, 0, -5 }, /* 0x61 a */
{ 354, 7, 7, 8, 0, -7 }, /* 0x62 b */
{ 361, 6, 5, 7, 0, -5 }, /* 0x63 c */
{ 365, 7, 7, 8, 0, -7 }, /* 0x64 d */
{ 372, 6, 5, 7, 0, -5 }, /* 0x65 e */
{ 376, 6, 7, 7, 0, -7 }, /* 0x66 f */
{ 382, 7, 6, 8, 0, -5 }, /* 0x67 g */
{ 388, 7, 7, 8, 0, -7 }, /* 0x68 h */
{ 395, 4, 7, 5, 0, -7 }, /* 0x69 i */
{ 399, 6, 8, 7, 0, -7 }, /* 0x6A j */
{ 405, 7, 7, 8, 0, -7 }, /* 0x6B k */
{ 412, 4, 7, 5, 0, -7 }, /* 0x6C l */
{ 416, 7, 5, 8, 0, -5 }, /* 0x6D m */
{ 421, 6, 5, 7, 0, -5 }, /* 0x6E n */
{ 425, 6, 5, 7, 0, -5 }, /* 0x6F o */
{ 429, 7, 6, 8, 0, -5 }, /* 0x70 p */
{ 435, 7, 6, 8, 0, -5 }, /* 0x71 q */
{ 441, 7, 5, 8, 0, -5 }, /* 0x72 r */
{ 446, 6, 5, 7, 0, -5 }, /* 0x73 s */
{ 450, 5, 7, 6, 0, -7 }, /* 0x74 t */
{ 455, 7, 5, 8, 0, -5 }, /* 0x75 u */
{ 460, 6, 5, 7, 0, -5 }, /* 0x76 v */
{ 464, 7, 5, 8, 0, -5 }, /* 0x77 w */
{ 469, 7, 5, 8, 0, -5 }, /* 0x78 x */
{ 474, 6, 6, 7, 0, -5 }, /* 0x79 y */
{ 479, 6, 5, 7, 0, -5 }, /* 0x7A z */
{ 483, 6, 7, 7, 0, -7 }, /* 0x7B braceleft */
{ 489, 2, 7, 3, 0, -7 }, /* 0x7C bar */
{ 491, 6, 7, 7, 0, -7 }, /* 0x7D braceright */
{ 497, 7, 2, 8, 0, -7 }, /* 0x7E asciitilde */
{ 499, 7, 6, 8, 0, -6 } /* 0x7F uni007F */
};
const GFXfont IBM8x8px PROGMEM = {
(uint8_t *)IBM8x8pxBitmaps,
(GFXglyph *)IBM8x8pxGlyphs,
0x20, 0x7F, 8 };

87
lib/obp60task/gen_set.py
View File

@@ -20,7 +20,7 @@ import getopt
import re
import json
__version__ = "0.3"
__version__ = "1.2"
def detect_pages(filename):
# returns a dictionary with page name and the number of gui fields
@@ -87,11 +87,6 @@ def create_json(device, no_of_pages, pagedata):
output = []
for page_no in range(1, no_of_pages + 1):
category = f"{device.upper()} Page {page_no}"
capabilities = {device.lower(): "true"}
visiblepages = [str(vp) for vp in range(page_no, no_of_pages + 1)]
page_data = {
"name": f"page{page_no}type",
"label": "Type",
@@ -99,11 +94,9 @@ def create_json(device, no_of_pages, pagedata):
"default": get_default_page(page_no),
"description": f"Type of page for page {page_no}",
"list": pages,
"category": category,
"category": f"{device.upper()} Page {page_no}",
"capabilities": {device.lower(): "true"},
"condition": {
"visiblePages": visiblepages
},
"condition": [{"visiblePages": vp} for vp in range(page_no, no_of_pages + 1)],
#"fields": [],
}
output.append(page_data)
@@ -115,59 +108,38 @@ def create_json(device, no_of_pages, pagedata):
"type": "boatData",
"default": "",
"description": "The display for field {}".format(number_to_text(field_no)),
"category": category,
"capabilities": capabilities,
"category": f"{device.upper()} Page {page_no}",
"capabilities": {device.lower(): "true"},
"condition": {
f"page{page_no}type": [ p for p in pages if pagedata[p] >= field_no ]
,"visiblePages": visiblepages
}
f"page{page_no}type": [page for page in pages if pagedata[page] >= field_no],
"visiblePages": [vp for vp in range(page_no, no_of_pages + 1)]
},
}
output.append(field_data)
fluid_data = {
fluid_data ={
"name": f"page{page_no}fluid",
"label": "Fluid type",
"type": "list",
"default": "0",
"list": [
{"l":"Fuel (0)","v":"0"},
{"l":"Water (1)","v":"1"},
{"l":"Gray Water (2)","v":"2"},
{"l":"Live Well (3)","v":"3"},
{"l":"Oil (4)","v":"4"},
{"l":"Black Water (5)","v":"5"},
{"l":"Fuel Gasoline (6)","v":"6"}
{"l":"Fuel (0)","v":"0"},
{"l":"Water (1)","v":"1"},
{"l":"Gray Water (2)","v":"2"},
{"l":"Live Well (3)","v":"3"},
{"l":"Oil (4)","v":"4"},
{"l":"Black Water (5)","v":"5"},
{"l":"Fuel Gasoline (6)","v":"6"}
],
"description": "Fluid type in tank",
"category": category,
"capabilities": capabilities,
"condition": {
f"page{page_no}type": "Fluid",
"visiblePages": visiblepages
"category": f"{device.upper()} Page {page_no}",
"capabilities": {
device.lower(): "true"
},
"condition":[{f"page{page_no}type":"Fluid"}]
}
}
output.append(fluid_data)
if device.upper() == 'OBP40':
windsource = {
"name": f"page{page_no}wndsrc",
"label": "Wind source",
"type": "list",
"default": "True wind",
"description": f"Wind source for page {page_no}: [true|apparent]",
"list": [
"True wind",
"Apparent wind"
],
"category": category,
"capabilities": capabilities,
"condition": {
f"page{page_no}type": "WindPlot",
"visiblePages": visiblepages
}
}
output.append(windsource)
return json.dumps(output, indent=4)
def usage():
@@ -176,12 +148,13 @@ 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 +162,14 @@ 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 +178,12 @@ 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

14
lib/obp60task/index.js
View File

@@ -1,14 +0,0 @@
// Add a new register card in web configuration interface
// This is a Java Script!
(function(){
const api=window.esp32nmea2k;
if (! api) return;
const tabName="Screen";
api.registerListener((id, data) => {
// if (!data.testboard) return; //do nothing if we are not active
let page = api.addTabPage(tabName, "Screen");
api.addEl('button', '', page, 'Screenshot').addEventListener('click', function (ev) {
window.open('/api/user/OBP60Task/screenshot', 'screenshot');
})
}, api.EVENTS.init);
})();

807
lib/obp60task/obp40.conf Normal file
View File

@@ -0,0 +1,807 @@
[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

790
lib/obp60task/obp60.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 = 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

492
lib/obp60task/obp60task.cpp
View File

@@ -1,3 +1,4 @@
// 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
@@ -13,6 +14,7 @@
#include "OBP60Extensions.h" // Functions lib for extension board
#include "OBP60Keypad.h" // Functions for keypad
#include "BoatDataCalibration.h" // Functions lib for data instance calibration
#include "OBPRingBuffer.h" // Functions lib with ring buffer for history storage of some boat data
#include "OBPDataOperations.h" // Functions lib for data operations such as true wind calculation
#ifdef BOARD_OBP40S3
@@ -21,9 +23,7 @@
#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
@@ -65,7 +65,7 @@ void OBP60Init(GwApi *api){
// Settings for e-paper display
String fastrefresh = api->getConfig()->getConfigItem(api->getConfig()->fastRefresh,true)->asString();
logger->logDebug(GwLog::DEBUG, "Fast Refresh Mode is: %s", fastrefresh.c_str());
logger->logDebug(GwLog::DEBUG,"Fast Refresh Mode is: %s", fastrefresh.c_str());
#ifdef DISPLAY_GDEY042T81
if(fastrefresh == "true"){
static const bool useFastFullUpdate = true; // Enable fast full display update only for GDEY042T81
@@ -121,8 +121,8 @@ void OBP60Init(GwApi *api){
typedef struct {
int page0=0;
QueueHandle_t queue;
GwLog* logger = nullptr;
// GwApi* api = nullptr;
GwLog* logger = NULL;
// GwApi* api = NULL;
uint sensitivity = 100;
bool use_syspage = true;
} MyData;
@@ -147,37 +147,45 @@ void keyboardTask(void *param){
vTaskDelete(NULL);
}
// Scorgan: moved class declaration to header file <obp60task.h> to make class available to other functions
// --- Class BoatValueList --------------
bool BoatValueList::addValueToList(GwApi::BoatValue *v){
for (int i=0;i<numValues;i++){
if (allBoatValues[i] == v){
//already in list...
return true;
class BoatValueList{
public:
static const int MAXVALUES=100;
//we create a list containing all our BoatValues
//this is the list we later use to let the api fill all the values
//additionally we put the necessary values into the paga data - see below
GwApi::BoatValue *allBoatValues[MAXVALUES];
int numValues=0;
bool addValueToList(GwApi::BoatValue *v){
for (int i=0;i<numValues;i++){
if (allBoatValues[i] == v){
//already in list...
return true;
}
}
if (numValues >= MAXVALUES) return false;
allBoatValues[numValues]=v;
numValues++;
return true;
}
if (numValues >= MAXVALUES) return false;
allBoatValues[numValues]=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++){
if (allBoatValues[i]->getName() == name) {
return allBoatValues[i];
//helper to ensure that each BoatValue is only queried once
GwApi::BoatValue *findValueOrCreate(String name){
for (int i=0;i<numValues;i++){
if (allBoatValues[i]->getName() == name) {
return allBoatValues[i];
}
}
GwApi::BoatValue *rt=new GwApi::BoatValue(name);
addValueToList(rt);
return rt;
}
GwApi::BoatValue *rt=new GwApi::BoatValue(name);
addValueToList(rt);
return rt;
}
// --- Class BoatValueList --------------
};
//we want to have a list that has all our page definitions
//this way each page can easily be added here
//needs some minor tricks for the safe static initialization
typedef std::vector<PageDescription*> Pages;
//the page list class
class PageList{
public:
Pages pages;
@@ -199,12 +207,13 @@ 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);
@@ -260,69 +269,190 @@ void registerAllPages(PageList &list){
list.add(&registerPageFluid);
extern PageDescription registerPageSkyView;
list.add(&registerPageSkyView);
extern PageDescription registerPageNavigation;
list.add(&registerPageNavigation);
extern PageDescription registerPageDigitalOut;
list.add(&registerPageDigitalOut);
extern PageDescription registerPageAnchor;
list.add(&registerPageAnchor);
extern PageDescription registerPageAIS;
list.add(&registerPageAIS);
logger->logDebug(GwLog::LOG,"Memory after registering pages: stack=%d, heap=%d", uxTaskGetStackHighWaterMark(NULL), ESP.getFreeHeap());
}
// Undervoltage detection for shutdown display
void underVoltageError(CommonData &common) {
#if defined VOLTAGE_SENSOR && defined LIPO_ACCU_1200
// Switch off all power lines
setPortPin(OBP_BACKLIGHT_LED, false); // Backlight Off
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
setPortPin(OBP_POWER_EPD, false); // Power off ePaper display
setPortPin(OBP_POWER_SD, false); // Power off SD card
#else
// Switch off all power lines
setPortPin(OBP_BACKLIGHT_LED, false); // Backlight Off
setFlashLED(false); // Flash LED Off
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
#endif
while (true) {
esp_deep_sleep_start(); // Deep Sleep without wakeup. Wakeup only after power cycle (restart).
void underVoltageDetection(GwApi *api, CommonData &common){
// Read settings
double voffset = (api->getConfig()->getConfigItem(api->getConfig()->vOffset,true)->asString()).toFloat();
double vslope = (api->getConfig()->getConfigItem(api->getConfig()->vSlope,true)->asString()).toFloat();
// 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 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 minVoltage = MIN_VOLTAGE;
#endif
double calVoltage = actVoltage * vslope + voffset; // Calibration
if(calVoltage < minVoltage){
#if defined VOLTAGE_SENSOR && defined LIPO_ACCU_1200
// Switch off all power lines
setPortPin(OBP_BACKLIGHT_LED, false); // Backlight Off
setFlashLED(false); // Flash LED Off
buzzer(TONE4, 20); // Buzzer tone 4kHz 20ms
// Shutdown EInk display
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
// Switch off all power lines
setPortPin(OBP_BACKLIGHT_LED, false); // Backlight Off
setFlashLED(false); // Flash LED Off
buzzer(TONE4, 20); // Buzzer tone 4kHz 20ms
setPortPin(OBP_POWER_50, false); // Power rail 5.0V Off
// Shutdown EInk display
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
// Stop system
while(true){
esp_deep_sleep_start(); // Deep Sleep without weakup. Weakup only after power cycle (restart).
}
}
}
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 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 minVoltage = MIN_VOLTAGE;
#endif
float calVoltage = actVoltage * vslope + voffset; // Calibration
return (calVoltage < minVoltage);
//bool addTrueWind(GwApi* api, BoatValueList* boatValues, double *twd, double *tws, double *twa) {
bool addTrueWind(GwApi* api, BoatValueList* boatValues) {
// Calculate true wind data and add to obp60task boat data list
double awaVal, awsVal, cogVal, stwVal, sogVal, hdtVal, hdmVal, varVal;
double twd, tws, twa;
bool isCalculated = false;
const double DBL_MIN = std::numeric_limits<double>::lowest();
GwApi::BoatValue *twdBVal = boatValues->findValueOrCreate("TWD");
GwApi::BoatValue *twsBVal = boatValues->findValueOrCreate("TWS");
GwApi::BoatValue *twaBVal = boatValues->findValueOrCreate("TWA");
GwApi::BoatValue *awaBVal = boatValues->findValueOrCreate("AWA");
GwApi::BoatValue *awsBVal = boatValues->findValueOrCreate("AWS");
GwApi::BoatValue *cogBVal = boatValues->findValueOrCreate("COG");
GwApi::BoatValue *stwBVal = boatValues->findValueOrCreate("STW");
GwApi::BoatValue *sogBVal = boatValues->findValueOrCreate("SOG");
GwApi::BoatValue *hdtBVal = boatValues->findValueOrCreate("HDT");
GwApi::BoatValue *hdmBVal = boatValues->findValueOrCreate("HDM");
GwApi::BoatValue *varBVal = boatValues->findValueOrCreate("VAR");
awaVal = awaBVal->valid ? awaBVal->value : DBL_MIN;
awsVal = awsBVal->valid ? awsBVal->value : DBL_MIN;
cogVal = cogBVal->valid ? cogBVal->value : DBL_MIN;
stwVal = stwBVal->valid ? stwBVal->value : DBL_MIN;
sogVal = sogBVal->valid ? sogBVal->value : DBL_MIN;
hdtVal = hdtBVal->valid ? hdtBVal->value : DBL_MIN;
hdmVal = hdmBVal->valid ? hdmBVal->value : DBL_MIN;
varVal = varBVal->valid ? varBVal->value : DBL_MIN;
api->getLogger()->logDebug(GwLog::DEBUG,"obp60task addTrueWind: AWA %.1f, AWS %.1f, COG %.1f, STW %.1f, SOG %.1f, 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);
isCalculated = WindUtils::calcTrueWind(&awaVal, &awsVal, &cogVal, &stwVal, &sogVal, &hdtVal, &hdmVal, &varVal, &twd, &tws, &twa);
if (isCalculated) { // Replace values only, if successfully calculated and not already available
if (!twdBVal->valid) {
twdBVal->value = twd;
twdBVal->valid = true;
}
if (!twsBVal->valid) {
twsBVal->value = tws;
twsBVal->valid = true;
}
if (!twaBVal->valid) {
twaBVal->value = twa;
twaBVal->valid = true;
}
}
api->getLogger()->logDebug(GwLog::DEBUG,"obp60task addTrueWind: TWD_Valid %d, isCalculated %d, TWD %.1f, TWA %.1f, TWS %.1f", twdBVal->valid, isCalculated, twdBVal->value * RAD_TO_DEG,
twaBVal->value * RAD_TO_DEG, twsBVal->value * 3.6 / 1.852);
return isCalculated;
}
void initHstryBuf(GwApi* api, BoatValueList* boatValues, tBoatHstryData hstryBufList) {
// Init history buffers for TWD, TWS
GwApi::BoatValue *calBVal; // temp variable just for data calibration -> we don't want to calibrate the original data here
int hstryUpdFreq = 1000; // Update frequency for history buffers in ms
int hstryMinVal = 0; // Minimum value for these history buffers
int twdHstryMax = 6283; // Max value for wind direction (TWD) in rad (0...2*PI), shifted by 1000 for 3 decimals
int twsHstryMax = 1000; // Max value for wind speed (TWS) in m/s, shifted by 10 for 1 decimal
// Initialize history buffers with meta data
hstryBufList.twdHstry->setMetaData("TWD", "formatCourse", hstryUpdFreq, hstryMinVal, twdHstryMax);
hstryBufList.twsHstry->setMetaData("TWS", "formatKnots", hstryUpdFreq, hstryMinVal, twsHstryMax);
GwApi::BoatValue *twdBVal = boatValues->findValueOrCreate(hstryBufList.twdHstry->getName());
GwApi::BoatValue *twsBVal = boatValues->findValueOrCreate(hstryBufList.twsHstry->getName());
GwApi::BoatValue *twaBVal = boatValues->findValueOrCreate("TWA");
}
void handleHstryBuf(GwApi* api, BoatValueList* boatValues, tBoatHstryData hstryBufList) {
// Handle history buffers for TWD, TWS
GwLog *logger = api->getLogger();
int16_t twdHstryMin = hstryBufList.twdHstry->getMinVal();
int16_t twdHstryMax = hstryBufList.twdHstry->getMaxVal();
int16_t twsHstryMin = hstryBufList.twsHstry->getMinVal();
int16_t twsHstryMax = hstryBufList.twsHstry->getMaxVal();
int16_t twdBuf, twsBuf;
GwApi::BoatValue *calBVal; // temp variable just for data calibration -> we don't want to calibrate the original data here
GwApi::BoatValue *twdBVal = boatValues->findValueOrCreate(hstryBufList.twdHstry->getName());
GwApi::BoatValue *twsBVal = boatValues->findValueOrCreate(hstryBufList.twsHstry->getName());
GwApi::BoatValue *twaBVal = boatValues->findValueOrCreate("TWA");
api->getLogger()->logDebug(GwLog::DEBUG,"obp60task handleHstryBuf: twdBVal: %.1f, twaBVal: %.1f, twsBVal: %.1f, TWD_isValid? %d", twdBVal->value * RAD_TO_DEG,
twaBVal->value * RAD_TO_DEG, twsBVal->value * 3.6 / 1.852, twdBVal->valid);
calBVal = new GwApi::BoatValue("TWD"); // temporary solution for calibration of history buffer values
calBVal->setFormat(twdBVal->getFormat());
if (twdBVal->valid) {
calBVal->value = twdBVal->value;
calBVal->valid = twdBVal->valid;
calibrationData.calibrateInstance(calBVal, logger); // Check if boat data value is to be calibrated
twdBuf = static_cast<int16_t>(std::round(calBVal->value * 1000));
if (twdBuf >= twdHstryMin && twdBuf <= twdHstryMax) {
hstryBufList.twdHstry->add(twdBuf);
}
}
delete calBVal;
calBVal = nullptr;
calBVal = new GwApi::BoatValue("TWS"); // temporary solution for calibration of history buffer values
calBVal->setFormat(twsBVal->getFormat());
if (twsBVal->valid) {
calBVal->value = twsBVal->value;
calBVal->valid = twsBVal->valid;
calibrationData.calibrateInstance(calBVal, logger); // Check if boat data value is to be calibrated
twsBuf = static_cast<int16_t>(std::round(calBVal->value * 10));
if (twsBuf >= twsHstryMin && twsBuf <= twsHstryMax) {
hstryBufList.twsHstry->add(twsBuf);
}
}
delete calBVal;
calBVal = nullptr;
}
// OBP60 Task
@@ -336,7 +466,7 @@ void OBP60Task(GwApi *api){
startLedTask(api);
#endif
PageList allPages;
registerAllPages(allPages);
registerAllPages(logger, allPages);
CommonData commonData;
commonData.logger=logger;
commonData.config=config;
@@ -367,6 +497,7 @@ void OBP60Task(GwApi *api){
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();
bool symbolmode = (config->getString(config->headerFormat) == "ICON");
String fastrefresh = api->getConfig()->getConfigItem(api->getConfig()->fastRefresh,true)->asString();
uint fullrefreshtime = uint(api->getConfig()->getConfigItem(api->getConfig()->fullRefreshTime,true)->asInt());
#ifdef BOARD_OBP40S3
@@ -374,37 +505,37 @@ void OBP60Task(GwApi *api){
#endif
#ifdef DISPLAY_GDEY042T81
getdisplay().init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
epd->init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
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
@@ -435,11 +566,14 @@ void OBP60Task(GwApi *api){
int lastPage=pageNumber;
BoatValueList boatValues; //all the boat values for the api query
HstryBuf hstryBufList(1920); // Create ring buffers for history storage of some boat data (1920 seconds = 32 minutes)
WindUtils trueWind(&boatValues); // Create helper object for true wind calculation
//commonData.distanceformat=config->getString(xxx);
//add all necessary data to common data
// Create ring buffers for history storage of some boat data
RingBuffer<int16_t> twdHstry(960); // Circular buffer to store wind direction values; store 960 TWD values for 16 minutes history
RingBuffer<int16_t> twsHstry(960); // Circular buffer to store wind speed values (TWS)
tBoatHstryData hstryBufList = {&twdHstry, &twsHstry};
//fill the page data from config
numPages=config->getInt(config->visiblePages,1);
if (numPages < 1) numPages=1;
@@ -460,7 +594,6 @@ void OBP60Task(GwApi *api){
pages[i].page=description->creator(commonData);
pages[i].parameters.pageName=pageType;
pages[i].parameters.pageNumber = i + 1;
pages[i].parameters.api = api;
LOG_DEBUG(GwLog::DEBUG,"found page %s for number %d",pageType.c_str(),i);
//fill in all the user defined parameters
for (int uid=0;uid<description->userParam;uid++){
@@ -479,8 +612,10 @@ void OBP60Task(GwApi *api){
LOG_DEBUG(GwLog::DEBUG,"added fixed value %s to page %d",value->getName().c_str(),i);
pages[i].parameters.values.push_back(value);
}
// Add boat history data to page parameters
pages[i].parameters.boatHstry = &hstryBufList;
if (pages[i].description->pageName == "WindPlot") {
// Add boat history data to page parameters
pages[i].parameters.boatHstry = hstryBufList;
}
}
// add out of band system page (always available)
Page *syspage = allPages.pages[0]->creator(commonData);
@@ -488,12 +623,12 @@ void OBP60Task(GwApi *api){
// Read all calibration data settings from config
calibrationData.readConfig(config, logger);
// Check user settings for true wind calculation
// Check user setting for true wind calculation
bool calcTrueWnds = api->getConfig()->getBool(api->getConfig()->calcTrueWnds, false);
bool useSimuData = api->getConfig()->getBool(api->getConfig()->useSimuData, false);
// bool simulation = api->getConfig()->getBool(api->getConfig()->useSimuData, false);
// Initialize history buffer for certain boat data
hstryBufList.init(&boatValues, logger);
initHstryBuf(api, &boatValues, hstryBufList);
// Display screenshot handler for HTTP request
// http://192.168.15.1/api/user/OBP60Task/screenshot
@@ -528,9 +663,7 @@ void OBP60Task(GwApi *api){
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();
bool uvoltage = api->getConfig()->getConfigItem(api->getConfig()->underVoltage,true)->asBoolean();
String cpuspeed = api->getConfig()->getConfigItem(api->getConfig()->cpuSpeed,true)->asString();
uint hdopAccuracy = uint(api->getConfig()->getConfigItem(api->getConfig()->hdopAccuracy,true)->asInt());
@@ -538,9 +671,9 @@ void OBP60Task(GwApi *api){
double homelon = commonData.config->getString(commonData.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
@@ -579,11 +712,8 @@ void OBP60Task(GwApi *api){
bool keypressed = false;
// Undervoltage detection
if (uvoltage == true) {
if (underVoltageDetection(voffset, vslope)) {
LOG_DEBUG(GwLog::ERROR, "Undervoltage detected, shutting down!");
underVoltageError(commonData);
}
if(uvoltage == true){
underVoltageDetection(api, commonData);
}
// Set CPU speed after boot after 1min
@@ -714,28 +844,27 @@ void OBP60Task(GwApi *api){
}
}
// Full display update afer a new selected page and 8s wait time
if(millis() > starttime4 + 8000 && delayedDisplayUpdate == true){
// Full display update afer a new selected page and 4s wait time
if(millis() > starttime4 + 4000 && 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
epd->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
epd->init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
epd->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->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;
}
@@ -746,24 +875,23 @@ 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
epd->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
epd->init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
epd->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->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
}
}
@@ -771,24 +899,23 @@ 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
epd->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
epd->init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
epd->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->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
}
}
@@ -808,19 +935,19 @@ void OBP60Task(GwApi *api){
api->getStatus(commonData.status);
if (calcTrueWnds) {
trueWind.addTrueWind(api, &boatValues, logger);
addTrueWind(api, &boatValues);
}
// Handle history buffers for certain boat data for windplot page and other usage
hstryBufList.handleHstryBuf(useSimuData);
// Handle history buffers for TWD, TWS for wind plot page and other usage
handleHstryBuf(api, &boatValues, hstryBufList);
// 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
@@ -838,21 +965,20 @@ 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){
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
if (hasFRAM) fram.write(FRAM_PAGE_NO, pageNumber); // remember page for device restart
currentPage->setupKeys();
currentPage->displayNew(pages[pageNumber].parameters);
lastPage = pageNumber;
lastPage=pageNumber;
}
//call the page code
LOG_DEBUG(GwLog::DEBUG,"calling page %d",pageNumber);
@@ -865,10 +991,10 @@ 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();
}
}

21
lib/obp60task/obp60task.h
View File

@@ -41,24 +41,5 @@
#ifdef BOARD_OBP40S3
DECLARE_CAPABILITY(obp40,true)
#endif
#ifdef BOARD_OBP60S3
DECLARE_STRING_CAPABILITY(HELP_URL, "https://obp60-v2-docu.readthedocs.io/en/latest/"); // Link to help pages
#endif
#ifdef BOARD_OBP40S3
DECLARE_STRING_CAPABILITY(HELP_URL, "https://obp40-v1-docu.readthedocs.io/en/latest/"); // Link to help pages
#endif
class BoatValueList{
public:
static const int MAXVALUES=100;
//we create a list containing all our BoatValues
//this is the list we later use to let the api fill all the values
//additionally we put the necessary values into the paga data - see below
GwApi::BoatValue *allBoatValues[MAXVALUES];
int numValues=0;
bool addValueToList(GwApi::BoatValue *v);
//helper to ensure that each BoatValue is only queried once
GwApi::BoatValue *findValueOrCreate(String name);
};
DECLARE_STRING_CAPABILITY(HELP_URL, "https://obp60-v2-docu.readthedocs.io/de/latest/"); // Link to help pages
#endif

13
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
@@ -16,14 +15,13 @@ board_build.variants_dir = variants
board = obp60_s3_n16r8 #ESP32-S3 N16R8, 16MB flash, 8MB PSRAM, production series
#board_build.partitions = default_8MB.csv #ESP32-S3 N8, 8MB flash
board_build.partitions = default_16MB.csv #ESP32-S3 N16, 16MB flash
board_name = OBP60
framework = arduino
lib_deps =
${basedeps.lib_deps}
Wire
SPI
ESP32time
HTTPClient
WiFiClientSecure
esphome/AsyncTCP-esphome@2.0.1
robtillaart/PCF8574@0.3.9
adafruit/Adafruit Unified Sensor @ 1.1.13
@@ -64,20 +62,17 @@ 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
board_name = OBP40
custom_config = config_obp40.json
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
@@ -103,8 +98,8 @@ 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

840
lib/obp60task/puff.c
View File

@@ -1,840 +0,0 @@
/*
* puff.c
* Copyright (C) 2002-2013 Mark Adler
* For conditions of distribution and use, see copyright notice in puff.h
* version 2.3, 21 Jan 2013
*
* puff.c is a simple inflate written to be an unambiguous way to specify the
* deflate format. It is not written for speed but rather simplicity. As a
* side benefit, this code might actually be useful when small code is more
* important than speed, such as bootstrap applications. For typical deflate
* data, zlib's inflate() is about four times as fast as puff(). zlib's
* inflate compiles to around 20K on my machine, whereas puff.c compiles to
* around 4K on my machine (a PowerPC using GNU cc). If the faster decode()
* function here is used, then puff() is only twice as slow as zlib's
* inflate().
*
* All dynamically allocated memory comes from the stack. The stack required
* is less than 2K bytes. This code is compatible with 16-bit int's and
* assumes that long's are at least 32 bits. puff.c uses the short data type,
* assumed to be 16 bits, for arrays in order to conserve memory. The code
* works whether integers are stored big endian or little endian.
*
* In the comments below are "Format notes" that describe the inflate process
* and document some of the less obvious aspects of the format. This source
* code is meant to supplement RFC 1951, which formally describes the deflate
* format:
*
* http://www.zlib.org/rfc-deflate.html
*/
/*
* Change history:
*
* 1.0 10 Feb 2002 - First version
* 1.1 17 Feb 2002 - Clarifications of some comments and notes
* - Update puff() dest and source pointers on negative
* errors to facilitate debugging deflators
* - Remove longest from struct huffman -- not needed
* - Simplify offs[] index in construct()
* - Add input size and checking, using longjmp() to
* maintain easy readability
* - Use short data type for large arrays
* - Use pointers instead of long to specify source and
* destination sizes to avoid arbitrary 4 GB limits
* 1.2 17 Mar 2002 - Add faster version of decode(), doubles speed (!),
* but leave simple version for readability
* - Make sure invalid distances detected if pointers
* are 16 bits
* - Fix fixed codes table error
* - Provide a scanning mode for determining size of
* uncompressed data
* 1.3 20 Mar 2002 - Go back to lengths for puff() parameters [Gailly]
* - Add a puff.h file for the interface
* - Add braces in puff() for else do [Gailly]
* - Use indexes instead of pointers for readability
* 1.4 31 Mar 2002 - Simplify construct() code set check
* - Fix some comments
* - Add FIXLCODES #define
* 1.5 6 Apr 2002 - Minor comment fixes
* 1.6 7 Aug 2002 - Minor format changes
* 1.7 3 Mar 2003 - Added test code for distribution
* - Added zlib-like license
* 1.8 9 Jan 2004 - Added some comments on no distance codes case
* 1.9 21 Feb 2008 - Fix bug on 16-bit integer architectures [Pohland]
* - Catch missing end-of-block symbol error
* 2.0 25 Jul 2008 - Add #define to permit distance too far back
* - Add option in TEST code for puff to write the data
* - Add option in TEST code to skip input bytes
* - Allow TEST code to read from piped stdin
* 2.1 4 Apr 2010 - Avoid variable initialization for happier compilers
* - Avoid unsigned comparisons for even happier compilers
* 2.2 25 Apr 2010 - Fix bug in variable initializations [Oberhumer]
* - Add const where appropriate [Oberhumer]
* - Split if's and ?'s for coverage testing
* - Break out test code to separate file
* - Move NIL to puff.h
* - Allow incomplete code only if single code length is 1
* - Add full code coverage test to Makefile
* 2.3 21 Jan 2013 - Check for invalid code length codes in dynamic blocks
*/
#include <setjmp.h> /* for setjmp(), longjmp(), and jmp_buf */
#include "puff.h" /* prototype for puff() */
#define local static /* for local function definitions */
/*
* Maximums for allocations and loops. It is not useful to change these --
* they are fixed by the deflate format.
*/
#define MAXBITS 15 /* maximum bits in a code */
#define MAXLCODES 286 /* maximum number of literal/length codes */
#define MAXDCODES 30 /* maximum number of distance codes */
#define MAXCODES (MAXLCODES+MAXDCODES) /* maximum codes lengths to read */
#define FIXLCODES 288 /* number of fixed literal/length codes */
/* input and output state */
struct state {
/* output state */
unsigned char *out; /* output buffer */
unsigned long outlen; /* available space at out */
unsigned long outcnt; /* bytes written to out so far */
/* input state */
const unsigned char *in; /* input buffer */
unsigned long inlen; /* available input at in */
unsigned long incnt; /* bytes read so far */
int bitbuf; /* bit buffer */
int bitcnt; /* number of bits in bit buffer */
/* input limit error return state for bits() and decode() */
jmp_buf env;
};
/*
* Return need bits from the input stream. This always leaves less than
* eight bits in the buffer. bits() works properly for need == 0.
*
* Format notes:
*
* - Bits are stored in bytes from the least significant bit to the most
* significant bit. Therefore bits are dropped from the bottom of the bit
* buffer, using shift right, and new bytes are appended to the top of the
* bit buffer, using shift left.
*/
local int bits(struct state *s, int need)
{
long val; /* bit accumulator (can use up to 20 bits) */
/* load at least need bits into val */
val = s->bitbuf;
while (s->bitcnt < need) {
if (s->incnt == s->inlen)
longjmp(s->env, 1); /* out of input */
val |= (long)(s->in[s->incnt++]) << s->bitcnt; /* load eight bits */
s->bitcnt += 8;
}
/* drop need bits and update buffer, always zero to seven bits left */
s->bitbuf = (int)(val >> need);
s->bitcnt -= need;
/* return need bits, zeroing the bits above that */
return (int)(val & ((1L << need) - 1));
}
/*
* Process a stored block.
*
* Format notes:
*
* - After the two-bit stored block type (00), the stored block length and
* stored bytes are byte-aligned for fast copying. Therefore any leftover
* bits in the byte that has the last bit of the type, as many as seven, are
* discarded. The value of the discarded bits are not defined and should not
* be checked against any expectation.
*
* - The second inverted copy of the stored block length does not have to be
* checked, but it's probably a good idea to do so anyway.
*
* - A stored block can have zero length. This is sometimes used to byte-align
* subsets of the compressed data for random access or partial recovery.
*/
local int stored(struct state *s)
{
unsigned len; /* length of stored block */
/* discard leftover bits from current byte (assumes s->bitcnt < 8) */
s->bitbuf = 0;
s->bitcnt = 0;
/* get length and check against its one's complement */
if (s->incnt + 4 > s->inlen)
return 2; /* not enough input */
len = s->in[s->incnt++];
len |= s->in[s->incnt++] << 8;
if (s->in[s->incnt++] != (~len & 0xff) ||
s->in[s->incnt++] != ((~len >> 8) & 0xff))
return -2; /* didn't match complement! */
/* copy len bytes from in to out */
if (s->incnt + len > s->inlen)
return 2; /* not enough input */
if (s->out != NIL) {
if (s->outcnt + len > s->outlen)
return 1; /* not enough output space */
while (len--)
s->out[s->outcnt++] = s->in[s->incnt++];
}
else { /* just scanning */
s->outcnt += len;
s->incnt += len;
}
/* done with a valid stored block */
return 0;
}
/*
* Huffman code decoding tables. count[1..MAXBITS] is the number of symbols of
* each length, which for a canonical code are stepped through in order.
* symbol[] are the symbol values in canonical order, where the number of
* entries is the sum of the counts in count[]. The decoding process can be
* seen in the function decode() below.
*/
struct huffman {
short *count; /* number of symbols of each length */
short *symbol; /* canonically ordered symbols */
};
/*
* Decode a code from the stream s using huffman table h. Return the symbol or
* a negative value if there is an error. If all of the lengths are zero, i.e.
* an empty code, or if the code is incomplete and an invalid code is received,
* then -10 is returned after reading MAXBITS bits.
*
* Format notes:
*
* - The codes as stored in the compressed data are bit-reversed relative to
* a simple integer ordering of codes of the same lengths. Hence below the
* bits are pulled from the compressed data one at a time and used to
* build the code value reversed from what is in the stream in order to
* permit simple integer comparisons for decoding. A table-based decoding
* scheme (as used in zlib) does not need to do this reversal.
*
* - The first code for the shortest length is all zeros. Subsequent codes of
* the same length are simply integer increments of the previous code. When
* moving up a length, a zero bit is appended to the code. For a complete
* code, the last code of the longest length will be all ones.
*
* - Incomplete codes are handled by this decoder, since they are permitted
* in the deflate format. See the format notes for fixed() and dynamic().
*/
#ifdef SLOW
local int decode(struct state *s, const struct huffman *h)
{
int len; /* current number of bits in code */
int code; /* len bits being decoded */
int first; /* first code of length len */
int count; /* number of codes of length len */
int index; /* index of first code of length len in symbol table */
code = first = index = 0;
for (len = 1; len <= MAXBITS; len++) {
code |= bits(s, 1); /* get next bit */
count = h->count[len];
if (code - count < first) /* if length len, return symbol */
return h->symbol[index + (code - first)];
index += count; /* else update for next length */
first += count;
first <<= 1;
code <<= 1;
}
return -10; /* ran out of codes */
}
/*
* A faster version of decode() for real applications of this code. It's not
* as readable, but it makes puff() twice as fast. And it only makes the code
* a few percent larger.
*/
#else /* !SLOW */
local int decode(struct state *s, const struct huffman *h)
{
int len; /* current number of bits in code */
int code; /* len bits being decoded */
int first; /* first code of length len */
int count; /* number of codes of length len */
int index; /* index of first code of length len in symbol table */
int bitbuf; /* bits from stream */
int left; /* bits left in next or left to process */
short *next; /* next number of codes */
bitbuf = s->bitbuf;
left = s->bitcnt;
code = first = index = 0;
len = 1;
next = h->count + 1;
while (1) {
while (left--) {
code |= bitbuf & 1;
bitbuf >>= 1;
count = *next++;
if (code - count < first) { /* if length len, return symbol */
s->bitbuf = bitbuf;
s->bitcnt = (s->bitcnt - len) & 7;
return h->symbol[index + (code - first)];
}
index += count; /* else update for next length */
first += count;
first <<= 1;
code <<= 1;
len++;
}
left = (MAXBITS+1) - len;
if (left == 0)
break;
if (s->incnt == s->inlen)
longjmp(s->env, 1); /* out of input */
bitbuf = s->in[s->incnt++];
if (left > 8)
left = 8;
}
return -10; /* ran out of codes */
}
#endif /* SLOW */
/*
* Given the list of code lengths length[0..n-1] representing a canonical
* Huffman code for n symbols, construct the tables required to decode those
* codes. Those tables are the number of codes of each length, and the symbols
* sorted by length, retaining their original order within each length. The
* return value is zero for a complete code set, negative for an over-
* subscribed code set, and positive for an incomplete code set. The tables
* can be used if the return value is zero or positive, but they cannot be used
* if the return value is negative. If the return value is zero, it is not
* possible for decode() using that table to return an error--any stream of
* enough bits will resolve to a symbol. If the return value is positive, then
* it is possible for decode() using that table to return an error for received
* codes past the end of the incomplete lengths.
*
* Not used by decode(), but used for error checking, h->count[0] is the number
* of the n symbols not in the code. So n - h->count[0] is the number of
* codes. This is useful for checking for incomplete codes that have more than
* one symbol, which is an error in a dynamic block.
*
* Assumption: for all i in 0..n-1, 0 <= length[i] <= MAXBITS
* This is assured by the construction of the length arrays in dynamic() and
* fixed() and is not verified by construct().
*
* Format notes:
*
* - Permitted and expected examples of incomplete codes are one of the fixed
* codes and any code with a single symbol which in deflate is coded as one
* bit instead of zero bits. See the format notes for fixed() and dynamic().
*
* - Within a given code length, the symbols are kept in ascending order for
* the code bits definition.
*/
local int construct(struct huffman *h, const short *length, int n)
{
int symbol; /* current symbol when stepping through length[] */
int len; /* current length when stepping through h->count[] */
int left; /* number of possible codes left of current length */
short offs[MAXBITS+1]; /* offsets in symbol table for each length */
/* count number of codes of each length */
for (len = 0; len <= MAXBITS; len++)
h->count[len] = 0;
for (symbol = 0; symbol < n; symbol++)
(h->count[length[symbol]])++; /* assumes lengths are within bounds */
if (h->count[0] == n) /* no codes! */
return 0; /* complete, but decode() will fail */
/* check for an over-subscribed or incomplete set of lengths */
left = 1; /* one possible code of zero length */
for (len = 1; len <= MAXBITS; len++) {
left <<= 1; /* one more bit, double codes left */
left -= h->count[len]; /* deduct count from possible codes */
if (left < 0)
return left; /* over-subscribed--return negative */
} /* left > 0 means incomplete */
/* generate offsets into symbol table for each length for sorting */
offs[1] = 0;
for (len = 1; len < MAXBITS; len++)
offs[len + 1] = offs[len] + h->count[len];
/*
* put symbols in table sorted by length, by symbol order within each
* length
*/
for (symbol = 0; symbol < n; symbol++)
if (length[symbol] != 0)
h->symbol[offs[length[symbol]]++] = symbol;
/* return zero for complete set, positive for incomplete set */
return left;
}
/*
* Decode literal/length and distance codes until an end-of-block code.
*
* Format notes:
*
* - Compressed data that is after the block type if fixed or after the code
* description if dynamic is a combination of literals and length/distance
* pairs terminated by and end-of-block code. Literals are simply Huffman
* coded bytes. A length/distance pair is a coded length followed by a
* coded distance to represent a string that occurs earlier in the
* uncompressed data that occurs again at the current location.
*
* - Literals, lengths, and the end-of-block code are combined into a single
* code of up to 286 symbols. They are 256 literals (0..255), 29 length
* symbols (257..285), and the end-of-block symbol (256).
*
* - There are 256 possible lengths (3..258), and so 29 symbols are not enough
* to represent all of those. Lengths 3..10 and 258 are in fact represented
* by just a length symbol. Lengths 11..257 are represented as a symbol and
* some number of extra bits that are added as an integer to the base length
* of the length symbol. The number of extra bits is determined by the base
* length symbol. These are in the static arrays below, lens[] for the base
* lengths and lext[] for the corresponding number of extra bits.
*
* - The reason that 258 gets its own symbol is that the longest length is used
* often in highly redundant files. Note that 258 can also be coded as the
* base value 227 plus the maximum extra value of 31. While a good deflate
* should never do this, it is not an error, and should be decoded properly.
*
* - If a length is decoded, including its extra bits if any, then it is
* followed a distance code. There are up to 30 distance symbols. Again
* there are many more possible distances (1..32768), so extra bits are added
* to a base value represented by the symbol. The distances 1..4 get their
* own symbol, but the rest require extra bits. The base distances and
* corresponding number of extra bits are below in the static arrays dist[]
* and dext[].
*
* - Literal bytes are simply written to the output. A length/distance pair is
* an instruction to copy previously uncompressed bytes to the output. The
* copy is from distance bytes back in the output stream, copying for length
* bytes.
*
* - Distances pointing before the beginning of the output data are not
* permitted.
*
* - Overlapped copies, where the length is greater than the distance, are
* allowed and common. For example, a distance of one and a length of 258
* simply copies the last byte 258 times. A distance of four and a length of
* twelve copies the last four bytes three times. A simple forward copy
* ignoring whether the length is greater than the distance or not implements
* this correctly. You should not use memcpy() since its behavior is not
* defined for overlapped arrays. You should not use memmove() or bcopy()
* since though their behavior -is- defined for overlapping arrays, it is
* defined to do the wrong thing in this case.
*/
local int codes(struct state *s,
const struct huffman *lencode,
const struct huffman *distcode)
{
int symbol; /* decoded symbol */
int len; /* length for copy */
unsigned dist; /* distance for copy */
static const short lens[29] = { /* Size base for length codes 257..285 */
3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31,
35, 43, 51, 59, 67, 83, 99, 115, 131, 163, 195, 227, 258};
static const short lext[29] = { /* Extra bits for length codes 257..285 */
0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2,
3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0};
static const short dists[30] = { /* Offset base for distance codes 0..29 */
1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193,
257, 385, 513, 769, 1025, 1537, 2049, 3073, 4097, 6145,
8193, 12289, 16385, 24577};
static const short dext[30] = { /* Extra bits for distance codes 0..29 */
0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6,
7, 7, 8, 8, 9, 9, 10, 10, 11, 11,
12, 12, 13, 13};
/* decode literals and length/distance pairs */
do {
symbol = decode(s, lencode);
if (symbol < 0)
return symbol; /* invalid symbol */
if (symbol < 256) { /* literal: symbol is the byte */
/* write out the literal */
if (s->out != NIL) {
if (s->outcnt == s->outlen)
return 1;
s->out[s->outcnt] = symbol;
}
s->outcnt++;
}
else if (symbol > 256) { /* length */
/* get and compute length */
symbol -= 257;
if (symbol >= 29)
return -10; /* invalid fixed code */
len = lens[symbol] + bits(s, lext[symbol]);
/* get and check distance */
symbol = decode(s, distcode);
if (symbol < 0)
return symbol; /* invalid symbol */
dist = dists[symbol] + bits(s, dext[symbol]);
#ifndef INFLATE_ALLOW_INVALID_DISTANCE_TOOFAR_ARRR
if (dist > s->outcnt)
return -11; /* distance too far back */
#endif
/* copy length bytes from distance bytes back */
if (s->out != NIL) {
if (s->outcnt + len > s->outlen)
return 1;
while (len--) {
s->out[s->outcnt] =
#ifdef INFLATE_ALLOW_INVALID_DISTANCE_TOOFAR_ARRR
dist > s->outcnt ?
0 :
#endif
s->out[s->outcnt - dist];
s->outcnt++;
}
}
else
s->outcnt += len;
}
} while (symbol != 256); /* end of block symbol */
/* done with a valid fixed or dynamic block */
return 0;
}
/*
* Process a fixed codes block.
*
* Format notes:
*
* - This block type can be useful for compressing small amounts of data for
* which the size of the code descriptions in a dynamic block exceeds the
* benefit of custom codes for that block. For fixed codes, no bits are
* spent on code descriptions. Instead the code lengths for literal/length
* codes and distance codes are fixed. The specific lengths for each symbol
* can be seen in the "for" loops below.
*
* - The literal/length code is complete, but has two symbols that are invalid
* and should result in an error if received. This cannot be implemented
* simply as an incomplete code since those two symbols are in the "middle"
* of the code. They are eight bits long and the longest literal/length\
* code is nine bits. Therefore the code must be constructed with those
* symbols, and the invalid symbols must be detected after decoding.
*
* - The fixed distance codes also have two invalid symbols that should result
* in an error if received. Since all of the distance codes are the same
* length, this can be implemented as an incomplete code. Then the invalid
* codes are detected while decoding.
*/
local int fixed(struct state *s)
{
static int virgin = 1;
static short lencnt[MAXBITS+1], lensym[FIXLCODES];
static short distcnt[MAXBITS+1], distsym[MAXDCODES];
static struct huffman lencode, distcode;
/* build fixed huffman tables if first call (may not be thread safe) */
if (virgin) {
int symbol;
short lengths[FIXLCODES];
/* construct lencode and distcode */
lencode.count = lencnt;
lencode.symbol = lensym;
distcode.count = distcnt;
distcode.symbol = distsym;
/* literal/length table */
for (symbol = 0; symbol < 144; symbol++)
lengths[symbol] = 8;
for (; symbol < 256; symbol++)
lengths[symbol] = 9;
for (; symbol < 280; symbol++)
lengths[symbol] = 7;
for (; symbol < FIXLCODES; symbol++)
lengths[symbol] = 8;
construct(&lencode, lengths, FIXLCODES);
/* distance table */
for (symbol = 0; symbol < MAXDCODES; symbol++)
lengths[symbol] = 5;
construct(&distcode, lengths, MAXDCODES);
/* do this just once */
virgin = 0;
}
/* decode data until end-of-block code */
return codes(s, &lencode, &distcode);
}
/*
* Process a dynamic codes block.
*
* Format notes:
*
* - A dynamic block starts with a description of the literal/length and
* distance codes for that block. New dynamic blocks allow the compressor to
* rapidly adapt to changing data with new codes optimized for that data.
*
* - The codes used by the deflate format are "canonical", which means that
* the actual bits of the codes are generated in an unambiguous way simply
* from the number of bits in each code. Therefore the code descriptions
* are simply a list of code lengths for each symbol.
*
* - The code lengths are stored in order for the symbols, so lengths are
* provided for each of the literal/length symbols, and for each of the
* distance symbols.
*
* - If a symbol is not used in the block, this is represented by a zero as the
* code length. This does not mean a zero-length code, but rather that no
* code should be created for this symbol. There is no way in the deflate
* format to represent a zero-length code.
*
* - The maximum number of bits in a code is 15, so the possible lengths for
* any code are 1..15.
*
* - The fact that a length of zero is not permitted for a code has an
* interesting consequence. Normally if only one symbol is used for a given
* code, then in fact that code could be represented with zero bits. However
* in deflate, that code has to be at least one bit. So for example, if
* only a single distance base symbol appears in a block, then it will be
* represented by a single code of length one, in particular one 0 bit. This
* is an incomplete code, since if a 1 bit is received, it has no meaning,
* and should result in an error. So incomplete distance codes of one symbol
* should be permitted, and the receipt of invalid codes should be handled.
*
* - It is also possible to have a single literal/length code, but that code
* must be the end-of-block code, since every dynamic block has one. This
* is not the most efficient way to create an empty block (an empty fixed
* block is fewer bits), but it is allowed by the format. So incomplete
* literal/length codes of one symbol should also be permitted.
*
* - If there are only literal codes and no lengths, then there are no distance
* codes. This is represented by one distance code with zero bits.
*
* - The list of up to 286 length/literal lengths and up to 30 distance lengths
* are themselves compressed using Huffman codes and run-length encoding. In
* the list of code lengths, a 0 symbol means no code, a 1..15 symbol means
* that length, and the symbols 16, 17, and 18 are run-length instructions.
* Each of 16, 17, and 18 are followed by extra bits to define the length of
* the run. 16 copies the last length 3 to 6 times. 17 represents 3 to 10
* zero lengths, and 18 represents 11 to 138 zero lengths. Unused symbols
* are common, hence the special coding for zero lengths.
*
* - The symbols for 0..18 are Huffman coded, and so that code must be
* described first. This is simply a sequence of up to 19 three-bit values
* representing no code (0) or the code length for that symbol (1..7).
*
* - A dynamic block starts with three fixed-size counts from which is computed
* the number of literal/length code lengths, the number of distance code
* lengths, and the number of code length code lengths (ok, you come up with
* a better name!) in the code descriptions. For the literal/length and
* distance codes, lengths after those provided are considered zero, i.e. no
* code. The code length code lengths are received in a permuted order (see
* the order[] array below) to make a short code length code length list more
* likely. As it turns out, very short and very long codes are less likely
* to be seen in a dynamic code description, hence what may appear initially
* to be a peculiar ordering.
*
* - Given the number of literal/length code lengths (nlen) and distance code
* lengths (ndist), then they are treated as one long list of nlen + ndist
* code lengths. Therefore run-length coding can and often does cross the
* boundary between the two sets of lengths.
*
* - So to summarize, the code description at the start of a dynamic block is
* three counts for the number of code lengths for the literal/length codes,
* the distance codes, and the code length codes. This is followed by the
* code length code lengths, three bits each. This is used to construct the
* code length code which is used to read the remainder of the lengths. Then
* the literal/length code lengths and distance lengths are read as a single
* set of lengths using the code length codes. Codes are constructed from
* the resulting two sets of lengths, and then finally you can start
* decoding actual compressed data in the block.
*
* - For reference, a "typical" size for the code description in a dynamic
* block is around 80 bytes.
*/
local int dynamic(struct state *s)
{
int nlen, ndist, ncode; /* number of lengths in descriptor */
int index; /* index of lengths[] */
int err; /* construct() return value */
short lengths[MAXCODES]; /* descriptor code lengths */
short lencnt[MAXBITS+1], lensym[MAXLCODES]; /* lencode memory */
short distcnt[MAXBITS+1], distsym[MAXDCODES]; /* distcode memory */
struct huffman lencode, distcode; /* length and distance codes */
static const short order[19] = /* permutation of code length codes */
{16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15};
/* construct lencode and distcode */
lencode.count = lencnt;
lencode.symbol = lensym;
distcode.count = distcnt;
distcode.symbol = distsym;
/* get number of lengths in each table, check lengths */
nlen = bits(s, 5) + 257;
ndist = bits(s, 5) + 1;
ncode = bits(s, 4) + 4;
if (nlen > MAXLCODES || ndist > MAXDCODES)
return -3; /* bad counts */
/* read code length code lengths (really), missing lengths are zero */
for (index = 0; index < ncode; index++)
lengths[order[index]] = bits(s, 3);
for (; index < 19; index++)
lengths[order[index]] = 0;
/* build huffman table for code lengths codes (use lencode temporarily) */
err = construct(&lencode, lengths, 19);
if (err != 0) /* require complete code set here */
return -4;
/* read length/literal and distance code length tables */
index = 0;
while (index < nlen + ndist) {
int symbol; /* decoded value */
int len; /* last length to repeat */
symbol = decode(s, &lencode);
if (symbol < 0)
return symbol; /* invalid symbol */
if (symbol < 16) /* length in 0..15 */
lengths[index++] = symbol;
else { /* repeat instruction */
len = 0; /* assume repeating zeros */
if (symbol == 16) { /* repeat last length 3..6 times */
if (index == 0)
return -5; /* no last length! */
len = lengths[index - 1]; /* last length */
symbol = 3 + bits(s, 2);
}
else if (symbol == 17) /* repeat zero 3..10 times */
symbol = 3 + bits(s, 3);
else /* == 18, repeat zero 11..138 times */
symbol = 11 + bits(s, 7);
if (index + symbol > nlen + ndist)
return -6; /* too many lengths! */
while (symbol--) /* repeat last or zero symbol times */
lengths[index++] = len;
}
}
/* check for end-of-block code -- there better be one! */
if (lengths[256] == 0)
return -9;
/* build huffman table for literal/length codes */
err = construct(&lencode, lengths, nlen);
if (err && (err < 0 || nlen != lencode.count[0] + lencode.count[1]))
return -7; /* incomplete code ok only for single length 1 code */
/* build huffman table for distance codes */
err = construct(&distcode, lengths + nlen, ndist);
if (err && (err < 0 || ndist != distcode.count[0] + distcode.count[1]))
return -8; /* incomplete code ok only for single length 1 code */
/* decode data until end-of-block code */
return codes(s, &lencode, &distcode);
}
/*
* Inflate source to dest. On return, destlen and sourcelen are updated to the
* size of the uncompressed data and the size of the deflate data respectively.
* On success, the return value of puff() is zero. If there is an error in the
* source data, i.e. it is not in the deflate format, then a negative value is
* returned. If there is not enough input available or there is not enough
* output space, then a positive error is returned. In that case, destlen and
* sourcelen are not updated to facilitate retrying from the beginning with the
* provision of more input data or more output space. In the case of invalid
* inflate data (a negative error), the dest and source pointers are updated to
* facilitate the debugging of deflators.
*
* puff() also has a mode to determine the size of the uncompressed output with
* no output written. For this dest must be (unsigned char *)0. In this case,
* the input value of *destlen is ignored, and on return *destlen is set to the
* size of the uncompressed output.
*
* The return codes are:
*
* 2: available inflate data did not terminate
* 1: output space exhausted before completing inflate
* 0: successful inflate
* -1: invalid block type (type == 3)
* -2: stored block length did not match one's complement
* -3: dynamic block code description: too many length or distance codes
* -4: dynamic block code description: code lengths codes incomplete
* -5: dynamic block code description: repeat lengths with no first length
* -6: dynamic block code description: repeat more than specified lengths
* -7: dynamic block code description: invalid literal/length code lengths
* -8: dynamic block code description: invalid distance code lengths
* -9: dynamic block code description: missing end-of-block code
* -10: invalid literal/length or distance code in fixed or dynamic block
* -11: distance is too far back in fixed or dynamic block
*
* Format notes:
*
* - Three bits are read for each block to determine the kind of block and
* whether or not it is the last block. Then the block is decoded and the
* process repeated if it was not the last block.
*
* - The leftover bits in the last byte of the deflate data after the last
* block (if it was a fixed or dynamic block) are undefined and have no
* expected values to check.
*/
int puff(unsigned char *dest, /* pointer to destination pointer */
unsigned long *destlen, /* amount of output space */
const unsigned char *source, /* pointer to source data pointer */
unsigned long *sourcelen) /* amount of input available */
{
struct state s; /* input/output state */
int last, type; /* block information */
int err; /* return value */
/* initialize output state */
s.out = dest;
s.outlen = *destlen; /* ignored if dest is NIL */
s.outcnt = 0;
/* initialize input state */
s.in = source;
s.inlen = *sourcelen;
s.incnt = 0;
s.bitbuf = 0;
s.bitcnt = 0;
/* return if bits() or decode() tries to read past available input */
if (setjmp(s.env) != 0) /* if came back here via longjmp() */
err = 2; /* then skip do-loop, return error */
else {
/* process blocks until last block or error */
do {
last = bits(&s, 1); /* one if last block */
type = bits(&s, 2); /* block type 0..3 */
err = type == 0 ?
stored(&s) :
(type == 1 ?
fixed(&s) :
(type == 2 ?
dynamic(&s) :
-1)); /* type == 3, invalid */
if (err != 0)
break; /* return with error */
} while (!last);
}
/* update the lengths and return */
if (err <= 0) {
*destlen = s.outcnt;
*sourcelen = s.incnt;
}
return err;
}

35
lib/obp60task/puff.h
View File

@@ -1,35 +0,0 @@
/* puff.h
Copyright (C) 2002-2013 Mark Adler, all rights reserved
version 2.3, 21 Jan 2013
This software is provided 'as-is', without any express or implied
warranty. In no event will the author be held liable for any damages
arising from the use of this software.
Permission is granted to anyone to use this software for any purpose,
including commercial applications, and to alter it and redistribute it
freely, subject to the following restrictions:
1. The origin of this software must not be misrepresented; you must not
claim that you wrote the original software. If you use this software
in a product, an acknowledgment in the product documentation would be
appreciated but is not required.
2. Altered source versions must be plainly marked as such, and must not be
misrepresented as being the original software.
3. This notice may not be removed or altered from any source distribution.
Mark Adler madler@alumni.caltech.edu
*/
/*
* See puff.c for purpose and usage.
*/
#ifndef NIL
# define NIL ((unsigned char *)0) /* for no output option */
#endif
int puff(unsigned char *dest, /* pointer to destination pointer */
unsigned long *destlen, /* amount of output space */
const unsigned char *source, /* pointer to source data pointer */
unsigned long *sourcelen); /* amount of input available */

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)

4
lib/usercode/GwUserCode.cpp
View File

@@ -216,6 +216,10 @@ public:
{
return api->getLogger();
}
virtual Nmea2kTwai *getNMEA2000()
{
return api->getNMEA2000();
}
virtual GwBoatData *getBoatData()
{
return api->getBoatData();

5
platformio.ini
View File

@@ -30,7 +30,7 @@ lib_deps =
Update
[env]
platform = espressif32 @ 6.8.1
platform = espressif32 @ 6.11.0
framework = arduino
;platform_packages=
; framework-arduinoespressif32 @ 3.20017.0
@@ -56,6 +56,9 @@ lib_ldf_mode = off
monitor_speed = 115200
build_flags =
-D PIO_ENV_BUILD=$PIOENV
-std=gnu++17
build_unflags =
-std=gnu++11
[sensors]
; collect the libraries for sensors here

3
src/main.cpp
View File

@@ -333,6 +333,9 @@ public:
status.n2kTx=countNMEA2KOut.getGlobal();
channels.fillStatus(status);
}
virtual Nmea2kTwai *getNMEA2000(){
return &NMEA2000;
}
virtual GwBoatData *getBoatData(){
return &boatData;
}