thooge/esp32-nmea2000-obp60
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base: thooge:6793bcb8e1c8ed4359ed8f2fc0cce854d039af19
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:sdcard
Branches Tags
thooge:keypad thooge:master thooge:anchor thooge:tracker thooge:extended thooge:sdcard thooge:system thooge:barograph
thooge:r20250120a-obp40 thooge:r20250116a-demo

51 Commits
6793bcb8e1 ... sdcard

Author SHA1 Message Date
Thomas Hooge
779f557d47 Fixed and finished SD card code. Added uptime feature to system page. 2025-08-14 10:19:15 +02:00
norbert-walter
4a273d2c93 Add hibernate in full page refresh 2025-08-12 15:37:22 +02:00
Norbert Walter
9be1b864f4 Merge pull request #192 from thooge/scripts 
Automate gen_set.py with page detection and command line parameters
 2025-08-12 15:32:51 +02:00
Norbert Walter
bfc4337417 Merge pull request #191 from thooge/precision 
Added config option for display precision and formatter code improvement
 2025-08-12 15:31:28 +02:00
Thomas Hooge
28a7e58e27 Automate gen_set.py with page detection and command line parameters 2025-08-01 11:01:23 +02:00
Thomas Hooge
eb51092b23 Added config option for display precision and formatter code improvements 2025-07-31 12:31:57 +02:00
norbert-walter
fb3af0bf83 Fix for page RollPitch 2025-07-31 11:58:04 +02:00
Norbert Walter
539500e088 Merge pull request #190 from thooge/master 
Fix typo: Formated -> Formatted
 2025-07-31 11:52:13 +02:00
Norbert Walter
229106b04c Merge pull request #189 from thooge/cleanup 
Minor code cleanup: fixing comments and formatting
 2025-07-31 11:51:54 +02:00
Norbert Walter
eefa59a7c2 Merge pull request #188 from Scorgan01/PageWindPlot 
Page WindPlot: small fixes for TWS name display and data availabity checks for true wind calculation
 2025-07-31 11:51:36 +02:00
Thomas Hooge
588008e370 Fix typo: Formated -> Formatted 2025-07-29 19:33:31 +02:00
Thomas Hooge
caf5572459 Minor code cleanup: fixing comments and formatting 2025-07-28 09:54:20 +02:00
Ulrich Meine
05f8b3ec65 fix TWS name not displayed; improve check for chart center adjustment; debug code changes 2025-07-27 20:54:35 +02:00
Ulrich Meine
351ef5d9fe fix true wind input check; fix TWS not calculated with SOG only or w/o COG 2025-07-27 20:51:11 +02:00
Norbert Walter
e93193c3e0 Merge pull request #187 from thooge/master 
Change xbm file header to fix strange accesspoint behaviour
 2025-07-26 21:21:46 +02:00
Thomas Hooge
e367d15568 Change xbm file header to fix strange accesspoint behaviour 2025-07-26 20:22:07 +02:00
Norbert Walter
2773685db3 Merge pull request #186 from Scorgan01/PageWindPlot 
Page WindPlot v1, history buffer and true wind calculation
 2025-07-26 18:36:58 +02:00
Norbert Walter
9953165dfe Merge pull request #185 from thooge/master 
Fix OBP40-Logo for WhitePage, use xbm image format
 2025-07-26 18:35:25 +02:00
Ulrich Meine
da451bee70 removed test comment from wind function call 2025-07-26 09:27:35 +02:00
Ulrich Meine
f79124eed3 Revert speed change in platformio.ini 2025-07-25 19:54:01 +02:00
Ulrich Meine
33b5776421 Merge branch 'PageWindPlot' of https://github.com/Scorgan01/esp32-nmea2000-obp60 into PageWindPlot 2025-07-25 19:50:47 +02:00
Ulrich Meine
2954a9a58b adjust page call to new standard; clean debug code; fix TWS print alignment 2025-07-25 19:50:42 +02:00
Scorgan01
e6add8e6fc Merge branch 'norbert-walter:master' into PageWindPlot 2025-07-25 19:44:02 +02:00
norbert-walter
15bcd53350 Add display infos in platformio.ini 2025-07-25 14:29:54 +02:00
Ulrich Meine
938b566bfc Merge branch 'PageWindPlot' of https://github.com/Scorgan01/esp32-nmea2000-obp60 into PageWindPlot 2025-07-25 08:43:01 +02:00
Ulrich Meine
fe2223839f added calibration to buffer; separated buffer and wind code in opb60task; prepared simulation; getMin/Max fix for ringbuffer for invalid data; fix for chart center; cleanup code 2025-07-25 08:42:43 +02:00
Scorgan01
c888804aef Merge branch 'norbert-walter:master' into PageWindPlot 2025-07-25 08:19:24 +02:00
Ulrich Meine
c48c6a2e48 Move buffer handling to obp60task; reset OBPSensorTask; add true wind calculation 2025-07-19 00:26:37 +02:00
Ulrich Meine
bb99978177 no buffer writes for invalid data; fix ringbuffer index 2025-07-14 21:17:17 +02:00
Ulrich Meine
91a3ac081f Merge branch 'PageWindPlot' of https://github.com/Scorgan01/esp32-nmea2000-obp60 into PageWindPlot 2025-07-13 00:26:24 +02:00
Ulrich Meine
59cf52b5d2 Semaphore + chart fixes; added simulation data 2025-07-13 00:26:16 +02:00
Scorgan01
60193fa3be Merge branch 'norbert-walter:master' into PageWindPlot 2025-07-12 01:49:20 +02:00
Ulrich Meine
72ddeb3cfb Pointer correction -> no data copy; conc. access issues 2025-07-01 01:27:41 +02:00
Ulrich Meine
2729ef9cb6 Implement v1 history data storage at OBPSensorTask 2025-06-25 23:14:09 +02:00
Ulrich Meine
1f90cefbd6 Implement OBPRingBuffer class and adjust PageWindPlot accordingly 2025-06-24 00:05:15 +02:00
Ulrich Meine
9ada5be7cb Handling of missing data 2025-06-22 14:29:03 +02:00
Ulrich Meine
03d8339170 fix interval, border cross, TWS flip, range; add config_obp40; adjust axis legend 2025-06-22 00:11:54 +02:00
Ulrich Meine
73656e7d14 Buffer and interval stuff 2025-06-18 23:40:57 +02:00
Ulrich Meine
bd9741d851 buffer extension; still some errors 2025-06-14 02:19:52 +02:00
Ulrich Meine
13c85adad2 completed config.json; modified TWS flipping; almost fully fixed chart rng overflow 2025-06-13 17:43:23 +02:00
Ulrich Meine
9b504469bc Fixes for TWS flip, scale calculation, chart range overflow; add axis lines 2025-06-12 23:41:15 +02:00
Ulrich Meine
f0aba89301 Simulation data; ext. chart area; flexible TWS position 2025-06-09 22:32:34 +02:00
Ulrich Meine
fe095a9716 Y Axis label; some interval bug fixing 2025-06-09 17:58:57 +02:00
Ulrich Meine
235188dfb2 Added update interval + no sens data msg; corrected rounding 2025-06-09 13:35:54 +02:00
Ulrich Meine
aa70c34a96 Fix getMin/Max + wndCenter rounding; 2025-06-08 13:45:20 +02:00
Ulrich Meine
62aef176d3 Chart + plotshift working 2025-06-06 23:06:04 +02:00
Scorgan01
9f79a7d4bc Switch to TWD 2025-06-06 10:17:11 +02:00
Ulrich Meine
bf4dff45b4 Compact config reading code 2025-06-05 23:42:36 +02:00
Ulrich Meine
f153d82825 PlotShift 2025-06-05 22:51:25 +02:00
Ulrich Meine
da06f3e791 Automatic scale adjustment + plot shift 2025-06-05 01:04:07 +02:00
Ulrich Meine
7d66ec91da Principle working; several bugs incl. 2025-06-03 22:52:06 +02:00
33 changed files with 2147 additions and 752 deletions
Expand all files Collapse all files

92
lib/obp60task/OBP60Extensions.cpp
View File

@@ -64,6 +64,12 @@ PCF8574 pcf8574_Out(PCF8574_I2C_ADDR1); // First digital output modul PCF8574 fr
Adafruit_FRAM_I2C fram;
bool hasFRAM = false;
// SD Card
#ifdef BOARD_OBP40S3
sdmmc_card_t *sdcard;
#endif
bool hasSDCard = false;
// Global vars
bool blinkingLED = false; // Enable / disable blinking flash LED
bool statusLED = false; // Actual status of flash LED on/off
@@ -78,6 +84,9 @@ LedTaskData *ledTaskData=nullptr;
void hardwareInit(GwApi *api)
{
GwLog *logger = api->getLogger();
GwConfigHandler *config = api->getConfig();
Wire.begin();
// Init PCF8574 digital outputs
Wire.setClock(I2C_SPEED); // Set I2C clock on 10 kHz
@@ -87,7 +96,7 @@ void hardwareInit(GwApi *api)
fram = Adafruit_FRAM_I2C();
if (esp_reset_reason() == ESP_RST_POWERON) {
// help initialize FRAM
api->getLogger()->logDebug(GwLog::LOG,"Delaying I2C init for 250ms due to cold boot");
logger->logDebug(GwLog::LOG, "Delaying I2C init for 250ms due to cold boot");
delay(250);
}
// FRAM (e.g. MB85RC256V)
@@ -99,11 +108,88 @@ void hardwareInit(GwApi *api)
// Boot counter
uint8_t framcounter = fram.read(0x0000);
fram.write(0x0000, framcounter+1);
api->getLogger()->logDebug(GwLog::LOG,"FRAM detected: 0x%04x/0x%04x (counter=%d)", manufacturerID, productID, framcounter);
logger->logDebug(GwLog::LOG, "FRAM detected: 0x%04x/0x%04x (counter=%d)", manufacturerID, productID, framcounter);
}
else {
hasFRAM = false;
api->getLogger()->logDebug(GwLog::LOG,"NO FRAM detected");
logger->logDebug(GwLog::LOG, "NO FRAM detected");
}
// SD Card
hasSDCard = false;
#ifdef BOARD_OBP40S3
if (config->getBool(config->useSDCard)) {
esp_err_t ret;
sdmmc_host_t host = SDSPI_HOST_DEFAULT();
host.slot = SPI3_HOST;
logger->logDebug(GwLog::DEBUG, "SDSPI_HOST: max_freq_khz=%d" , host.max_freq_khz);
spi_bus_config_t bus_cfg = {
.mosi_io_num = SD_SPI_MOSI,
.miso_io_num = SD_SPI_MISO,
.sclk_io_num = SD_SPI_CLK,
.quadwp_io_num = -1,
.quadhd_io_num = -1,
.max_transfer_sz = 4000,
};
ret = spi_bus_initialize((spi_host_device_t) host.slot, &bus_cfg, SDSPI_DEFAULT_DMA);
if (ret != ESP_OK) {
logger->logDebug(GwLog::ERROR, "Failed to initialize SPI bus for SD card");
} else {
sdspi_device_config_t slot_config = SDSPI_DEVICE_CONFIG_DEFAULT();
slot_config.gpio_cs = SD_SPI_CS;
slot_config.host_id = (spi_host_device_t) host.slot;
esp_vfs_fat_sdmmc_mount_config_t mount_config = {
.format_if_mount_failed = false,
.max_files = 5,
.allocation_unit_size = 16 * 1024
};
ret = esp_vfs_fat_sdspi_mount(MOUNT_POINT, &host, &slot_config, &mount_config, &sdcard);
if (ret != ESP_OK) {
if (ret == ESP_FAIL) {
logger->logDebug(GwLog::ERROR, "Failed to mount SD card filesystem");
} else {
// ret == 263 could be not powered up yet
logger->logDebug(GwLog::ERROR, "Failed to initialize SD card (error #%d)", ret);
}
} else {
logger->logDebug(GwLog::LOG, "SD card filesystem mounted at '%s'", MOUNT_POINT);
hasSDCard = true;
}
}
if (hasSDCard) {
// read some stats
String features = "";
if (sdcard->is_mem) features += "MEM "; // Memory card
if (sdcard->is_sdio) features += "IO "; // IO Card
if (sdcard->is_mmc) features += "MMC "; // MMC Card
if (sdcard->is_ddr) features += "DDR ";
// if (sdcard->is_uhs1) features += "UHS-1 ";
// ext_csd. Extended information
// uint8_t rev, uint8_t power_class
logger->logDebug(GwLog::LOG, "SD card features: %s", features);
logger->logDebug(GwLog::LOG, "SD card size: %lluMB", ((uint64_t) sdcard->csd.capacity) * sdcard->csd.sector_size / (1024 * 1024));
}
}
#endif
}
void powerInit(String powermode) {
// Max Power | Only 5.0V | Min Power
if (powermode == "Max Power" || powermode == "Only 5.0V") {
#ifdef HARDWARE_V21
setPortPin(OBP_POWER_50, true); // Power on 5.0V rail
#endif
#ifdef BOARD_OBP40S3
setPortPin(OBP_POWER_EPD, true);// Power on ePaper display
setPortPin(OBP_POWER_SD, true); // Power on SD card
#endif
} else { // Min Power
#ifdef HARDWARE_V21
setPortPin(OBP_POWER_50, false); // Power off 5.0V rail
#endif
#ifdef BOARD_OBP40S3
setPortPin(OBP_POWER_EPD, false);// Power off ePaper display
setPortPin(OBP_POWER_SD, false); // Power off SD card
#endif
}
}

12
lib/obp60task/OBP60Extensions.h
View File

@@ -7,6 +7,12 @@
#include <GxEPD2_BW.h> // E-paper lib V2
#include <Adafruit_FRAM_I2C.h> // I2C FRAM
#ifdef BOARD_OBP40S3
#include "esp_vfs_fat.h"
#include "sdmmc_cmd.h"
#define MOUNT_POINT "/sdcard"
#endif
// FRAM address reservations 32kB: 0x0000 - 0x7FFF
// 0x0000 - 0x03ff: single variables
#define FRAM_PAGE_NO 0x0002
@@ -15,6 +21,7 @@
#define FRAM_VOLTAGE_AVG 0x000A
#define FRAM_VOLTAGE_TREND 0x000B
#define FRAM_VOLTAGE_MODE 0x000C
// Wind page
#define FRAM_WIND_SIZE 0x000D
#define FRAM_WIND_SRC 0x000E
#define FRAM_WIND_MODE 0x000F
@@ -24,6 +31,10 @@
extern Adafruit_FRAM_I2C fram;
extern bool hasFRAM;
extern bool hasSDCard;
#ifdef BOARD_OBP40S3
extern sdmmc_card_t *sdcard;
#endif
// Fonts declarations for display (#includes see OBP60Extensions.cpp)
extern const GFXfont DSEG7Classic_BoldItalic16pt7b;
@@ -75,6 +86,7 @@ void deepSleep(CommonData &common);
uint8_t getLastPage();
void hardwareInit(GwApi *api);
void powerInit(String powermode);
void setPortPin(uint pin, bool value); // Set port pin for extension port

453
lib/obp60task/OBP60Formater.cpp → lib/obp60task/OBP60Formatter.cpp
View File

@@ -49,9 +49,9 @@ String formatLongitude(double lon) {
return String(degree, 0) + "\x90 " + String(minute, 4) + "' " + ((lon > 0) ? "E" : "W");
}
FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
GwLog *logger = commondata.logger;
FormatedData result;
FormattedData result;
static int dayoffset = 0;
double rawvalue = 0;
@@ -65,6 +65,7 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
String tempFormat = commondata.config->getString(commondata.config->tempFormat); // [K|°C|°F]
String dateFormat = commondata.config->getString(commondata.config->dateFormat); // [DE|GB|US]
bool usesimudata = commondata.config->getBool(commondata.config->useSimuData); // [on|off]
String precision = commondata.config->getString(commondata.config->valueprecision); // [1|2]
// If boat value not valid
if (! value->valid && !usesimudata){
@@ -72,6 +73,19 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
return result;
}
const char* fmt_dec_1;
const char* fmt_dec_10;
const char* fmt_dec_100;
if (precision == "1") {
fmt_dec_1 = "%3.1f";
fmt_dec_10 = "%3.0f";
fmt_dec_100 = "%3.0f";
} else {
fmt_dec_1 = "%3.2f";
fmt_dec_10 = "%3.1f";
fmt_dec_100 = "%3.0f";
}
// LOG_DEBUG(GwLog::DEBUG,"formatValue init: getFormat: %s date->value: %f time->value: %f", value->getFormat(), commondata.date->value, commondata.time->value);
static const int bsize = 30;
char buffer[bsize+1];
@@ -91,25 +105,25 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
tmElements_t parts;
time_t tv=tNMEA0183Msg::daysToTime_t(value->value + dayoffset);
tNMEA0183Msg::breakTime(tv,parts);
if(usesimudata == false) {
if(String(dateFormat) == "DE"){
snprintf(buffer,bsize,"%02d.%02d.%04d",parts.tm_mday,parts.tm_mon+1,parts.tm_year+1900);
if (usesimudata == false) {
if (String(dateFormat) == "DE") {
snprintf(buffer,bsize, "%02d.%02d.%04d", parts.tm_mday, parts.tm_mon+1, parts.tm_year+1900);
}
else if(String(dateFormat) == "GB"){
snprintf(buffer,bsize,"%02d/%02d/%04d",parts.tm_mday,parts.tm_mon+1,parts.tm_year+1900);
else if(String(dateFormat) == "GB") {
snprintf(buffer, bsize, "%02d/%02d/%04d", parts.tm_mday, parts.tm_mon+1, parts.tm_year+1900);
}
else if(String(dateFormat) == "US"){
snprintf(buffer,bsize,"%02d/%02d/%04d",parts.tm_mon+1,parts.tm_mday,parts.tm_year+1900);
else if(String(dateFormat) == "US") {
snprintf(buffer, bsize, "%02d/%02d/%04d", parts.tm_mon+1, parts.tm_mday, parts.tm_year+1900);
}
else if(String(dateFormat) == "ISO"){
snprintf(buffer,bsize,"%04d-%02d-%02d",parts.tm_year+1900,parts.tm_mon+1,parts.tm_mday);
else if(String(dateFormat) == "ISO") {
snprintf(buffer, bsize, "%04d-%02d-%02d", parts.tm_year+1900, parts.tm_mon+1, parts.tm_mday);
}
else{
snprintf(buffer,bsize,"%02d.%02d.%04d",parts.tm_mday,parts.tm_mon+1,parts.tm_year+1900);
else {
snprintf(buffer, bsize, "%02d.%02d.%04d", parts.tm_mday, parts.tm_mon+1, parts.tm_year+1900);
}
}
else{
snprintf(buffer,bsize,"01.01.2022");
snprintf(buffer, bsize, "01.01.2022");
}
if(timeZone == 0){
result.unit = "UTC";
@@ -130,11 +144,11 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
if (timeInSeconds > 86400) {timeInSeconds = timeInSeconds - 86400;}
if (timeInSeconds < 0) {timeInSeconds = timeInSeconds + 86400;}
// LOG_DEBUG(GwLog::DEBUG,"... formatTime value: %f tz: %f corrected timeInSeconds: %f ", value->value, timeZone, timeInSeconds);
if(usesimudata == false) {
val=modf(timeInSeconds/3600.0,&inthr);
val=modf(val*3600.0/60.0,&intmin);
if (usesimudata == false) {
val = modf(timeInSeconds/3600.0, &inthr);
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);
snprintf(buffer, bsize, "%02.0f:%02.0f:%02.0f", inthr, intmin, intsec);
}
else{
static long sec;
@@ -143,7 +157,7 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
sec ++;
}
sec = sec % 60;
snprintf(buffer,bsize,"11:36:%02i", int(sec));
snprintf(buffer, bsize, "11:36:%02i", int(sec));
lasttime = millis();
}
if(timeZone == 0){
@@ -156,23 +170,23 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
//########################################################
else if (value->getFormat() == "formatFixed0"){
if(usesimudata == false) {
snprintf(buffer,bsize,"%3.0f",value->value);
snprintf(buffer, bsize, "%3.0f", value->value);
rawvalue = value->value;
}
else{
rawvalue = 8.0 + float(random(0, 10)) / 10.0;
snprintf(buffer,bsize,"%3.0f", rawvalue);
snprintf(buffer, bsize, "%3.0f", rawvalue);
}
result.unit = "";
}
//########################################################
else if (value->getFormat() == "formatCourse" || value->getFormat() == "formatWind"){
double course = 0;
if(usesimudata == false) {
if (usesimudata == false) {
course = value->value;
rawvalue = value->value;
}
else{
else {
course = 2.53 + float(random(0, 10) / 100.0);
rawvalue = course;
}
@@ -185,7 +199,7 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
//########################################################
else if (value->getFormat() == "formatKnots" && (value->getName() == "SOG" || value->getName() == "STW")){
double speed = 0;
if(usesimudata == false) {
if (usesimudata == false) {
speed = value->value;
rawvalue = value->value;
}
@@ -193,85 +207,85 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
rawvalue = 4.0 + float(random(0, 40));
speed = rawvalue;
}
if(String(speedFormat) == "km/h"){
if (String(speedFormat) == "km/h"){
speed = speed * 3.6; // Unit conversion form m/s to km/h
result.unit = "km/h";
}
else if(String(speedFormat) == "kn"){
else if (String(speedFormat) == "kn"){
speed = speed * 1.94384; // Unit conversion form m/s to kn
result.unit = "kn";
}
else{
else {
speed = speed; // Unit conversion form m/s to m/s
result.unit = "m/s";
}
if(speed < 10){
snprintf(buffer,bsize,"%3.2f",speed);
if(speed < 10) {
snprintf(buffer, bsize, fmt_dec_1, speed);
}
if(speed >= 10 && speed < 100){
snprintf(buffer,bsize,"%3.1f",speed);
else if (speed < 100) {
snprintf(buffer, bsize, fmt_dec_10, speed);
}
if(speed >= 100){
snprintf(buffer,bsize,"%3.0f",speed);
else {
snprintf(buffer, bsize, fmt_dec_100, speed);
}
}
//########################################################
else if (value->getFormat() == "formatKnots" && (value->getName() == "AWS" || value->getName() == "TWS" || value->getName() == "MaxAws" || value->getName() == "MaxTws")){
double speed = 0;
if(usesimudata == false) {
if (usesimudata == false) {
speed = value->value;
rawvalue = value->value;
}
else{
else {
rawvalue = 4.0 + float(random(0, 40));
speed = rawvalue;
}
if(String(windspeedFormat) == "km/h"){
speed = speed * 3.6; // Unit conversion form m/s to km/h
if (String(windspeedFormat) == "km/h"){
speed = speed * 3.6; // Unit conversion form m/s to km/h
result.unit = "km/h";
}
else if(String(windspeedFormat) == "kn"){
else if (String(windspeedFormat) == "kn"){
speed = speed * 1.94384; // Unit conversion form m/s to kn
result.unit = "kn";
}
else if(String(windspeedFormat) == "bft"){
if(speed < 0.3){
if (speed < 0.3) {
speed = 0;
}
if(speed >=0.3 && speed < 1.5){
else if (speed < 1.5) {
speed = 1;
}
if(speed >=1.5 && speed < 3.3){
else if (speed < 3.3) {
speed = 2;
}
if(speed >=3.3 && speed < 5.4){
else if (speed < 5.4) {
speed = 3;
}
if(speed >=5.4 && speed < 7.9){
else if (speed < 7.9) {
speed = 4;
}
if(speed >=7.9 && speed < 10.7){
else if (speed < 10.7) {
speed = 5;
}
if(speed >=10.7 && speed < 13.8){
else if (speed < 13.8) {
speed = 6;
}
if(speed >=13.8 && speed < 17.1){
else if (speed < 17.1) {
speed = 7;
}
if(speed >=17.1 && speed < 20.7){
else if (speed < 20.7) {
speed = 8;
}
if(speed >=20.7 && speed < 24.4){
else if (speed < 24.4) {
speed = 9;
}
if(speed >=24.4 && speed < 28.4){
else if (speed < 28.4) {
speed = 10;
}
if(speed >=28.4 && speed < 32.6){
else if (speed < 32.6) {
speed = 11;
}
if(speed >=32.6){
else {
speed = 12;
}
result.unit = "bft";
@@ -280,82 +294,85 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
speed = speed; // Unit conversion form m/s to m/s
result.unit = "m/s";
}
if(String(windspeedFormat) == "bft"){
snprintf(buffer,bsize,"%2.0f",speed);
if (String(windspeedFormat) == "bft"){
snprintf(buffer, bsize, "%2.0f", speed);
}
else{
if(speed < 10){
snprintf(buffer,bsize,"%3.2f",speed);
if (speed < 10){
snprintf(buffer, bsize, fmt_dec_1, speed);
}
if(speed >= 10 && speed < 100){
snprintf(buffer,bsize,"%3.1f",speed);
else if (speed < 100){
snprintf(buffer, bsize, fmt_dec_10, speed);
}
if(speed >= 100){
snprintf(buffer,bsize,"%3.0f",speed);
else {
snprintf(buffer, bsize, fmt_dec_100, speed);
}
}
}
//########################################################
else if (value->getFormat() == "formatRot"){
double rotation = 0;
if(usesimudata == false) {
if (usesimudata == false) {
rotation = value->value;
rawvalue = value->value;
}
else{
else {
rawvalue = 0.04 + float(random(0, 10)) / 100.0;
rotation = rawvalue;
}
rotation = rotation * 57.2958; // Unit conversion form rad/s to deg/s
result.unit = "Deg/s";
if(rotation < -100){
if (rotation < -100){
rotation = -99;
}
if(rotation > 100){
if (rotation > 100){
rotation = 99;
}
if(rotation > -10 && rotation < 10){
snprintf(buffer,bsize,"%3.2f",rotation);
if (rotation > -10 && rotation < 10){
snprintf(buffer, bsize, "%3.2f", rotation);
}
if(rotation <= -10 || rotation >= 10){
snprintf(buffer,bsize,"%3.0f",rotation);
if (rotation <= -10 || rotation >= 10){
snprintf(buffer, bsize, "%3.0f", rotation);
}
}
//########################################################
else if (value->getFormat() == "formatDop"){
double dop = 0;
if(usesimudata == false) {
if (usesimudata == false) {
dop = value->value;
rawvalue = value->value;
}
else{
else {
rawvalue = 2.0 + float(random(0, 40)) / 10.0;
dop = rawvalue;
}
result.unit = "m";
if(dop > 99.9){
if (dop > 99.9){
dop = 99.9;
}
if(dop < 10){
snprintf(buffer,bsize,"%3.2f",dop);
if (dop < 10){
snprintf(buffer, bsize, fmt_dec_1, dop);
}
if(dop >= 10 && dop < 100){
snprintf(buffer,bsize,"%3.1f",dop);
else if(dop < 100){
snprintf(buffer, bsize, fmt_dec_10, dop);
}
else {
snprintf(buffer, bsize, fmt_dec_100, dop);
}
}
//########################################################
else if (value->getFormat() == "formatLatitude"){
if(usesimudata == false) {
if (usesimudata == false) {
double lat = value->value;
rawvalue = value->value;
String latitude = "";
String latdir = "";
float degree = abs(int(lat));
float minute = abs((lat - int(lat)) * 60);
if(lat > 0){
if (lat > 0){
latdir = "N";
}
else{
else {
latdir = "S";
}
latitude = String(degree,0) + "\x90 " + String(minute,4) + "' " + latdir;
@@ -364,41 +381,41 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
}
else{
rawvalue = 35.0 + float(random(0, 10)) / 10000.0;
snprintf(buffer,bsize," 51\" %2.4f' N", rawvalue);
snprintf(buffer, bsize, " 51\" %2.4f' N", rawvalue);
}
}
//########################################################
else if (value->getFormat() == "formatLongitude"){
if(usesimudata == false) {
if (usesimudata == false) {
double lon = value->value;
rawvalue = value->value;
String longitude = "";
String londir = "";
float degree = abs(int(lon));
float minute = abs((lon - int(lon)) * 60);
if(lon > 0){
if (lon > 0){
londir = "E";
}
else{
else {
londir = "W";
}
longitude = String(degree,0) + "\x90 " + String(minute,4) + "' " + londir;
result.unit = "";
strcpy(buffer, longitude.c_str());
}
else{
else {
rawvalue = 6.0 + float(random(0, 10)) / 100000.0;
snprintf(buffer,bsize," 15\" %2.4f'", rawvalue);
snprintf(buffer, bsize, " 15\" %2.4f'", rawvalue);
}
}
//########################################################
else if (value->getFormat() == "formatDepth"){
double depth = 0;
if(usesimudata == false) {
if (usesimudata == false) {
depth = value->value;
rawvalue = value->value;
}
else{
else {
rawvalue = 18.0 + float(random(0, 100)) / 10.0;
depth = rawvalue;
}
@@ -409,14 +426,14 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
else{
result.unit = "m";
}
if(depth < 10){
snprintf(buffer,bsize,"%3.2f",depth);
if (depth < 10) {
snprintf(buffer, bsize, fmt_dec_1, depth);
}
if(depth >= 10 && depth < 100){
snprintf(buffer,bsize,"%3.1f",depth);
else if (depth < 100){
snprintf(buffer, bsize, fmt_dec_10, depth);
}
if(depth >= 100){
snprintf(buffer,bsize,"%3.0f",depth);
else {
snprintf(buffer, bsize, fmt_dec_100, depth);
}
}
//########################################################
@@ -430,50 +447,50 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
xte = rawvalue;
}
if (xte >= 100) {
snprintf(buffer,bsize,"%3.0f",value->value);
snprintf(buffer, bsize, fmt_dec_100, value->value);
} else if (xte >= 10) {
snprintf(buffer,bsize,"%3.1f",value->value);
snprintf(buffer, bsize, fmt_dec_10, value->value);
} else {
snprintf(buffer,bsize,"%3.2f",value->value);
snprintf(buffer, bsize, fmt_dec_1, value->value);
}
result.unit = "nm";
}
//########################################################
else if (value->getFormat() == "kelvinToC"){
double temp = 0;
if(usesimudata == false) {
if (usesimudata == false) {
temp = value->value;
rawvalue = value->value;
}
else{
else {
rawvalue = 296.0 + float(random(0, 10)) / 10.0;
temp = rawvalue;
}
if(String(tempFormat) == "C"){
if (String(tempFormat) == "C") {
temp = temp - 273.15;
result.unit = "C";
}
else if(String(tempFormat) == "F"){
else if (String(tempFormat) == "F") {
temp = (temp - 273.15) * 9 / 5 + 32;
result.unit = "F";
}
else{
result.unit = "K";
}
if(temp < 10){
snprintf(buffer,bsize,"%3.2f",temp);
if(temp < 10) {
snprintf(buffer, bsize, fmt_dec_1, temp);
}
if(temp >= 10 && temp < 100){
snprintf(buffer,bsize,"%3.1f",temp);
else if (temp < 100) {
snprintf(buffer, bsize, fmt_dec_10, temp);
}
if(temp >= 100){
snprintf(buffer,bsize,"%3.0f",temp);
else {
snprintf(buffer, bsize, fmt_dec_100, temp);
}
}
//########################################################
else if (value->getFormat() == "mtr2nm"){
double distance = 0;
if(usesimudata == false) {
if (usesimudata == false) {
distance = value->value;
rawvalue = value->value;
}
@@ -481,25 +498,25 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
rawvalue = 2960.0 + float(random(0, 10));
distance = rawvalue;
}
if(String(distanceFormat) == "km"){
if (String(distanceFormat) == "km") {
distance = distance * 0.001;
result.unit = "km";
}
else if(String(distanceFormat) == "nm"){
else if (String(distanceFormat) == "nm") {
distance = distance * 0.000539957;
result.unit = "nm";
}
else{;
else {
result.unit = "m";
}
if(distance < 10){
snprintf(buffer,bsize,"%3.2f",distance);
if (distance < 10){
snprintf(buffer, bsize, fmt_dec_1, distance);
}
if(distance >= 10 && distance < 100){
snprintf(buffer,bsize,"%3.1f",distance);
else if (distance < 100){
snprintf(buffer, bsize, fmt_dec_10, distance);
}
if(distance >= 100){
snprintf(buffer,bsize,"%3.0f",distance);
else {
snprintf(buffer, bsize, fmt_dec_100, distance);
}
}
//########################################################
@@ -508,122 +525,122 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
//########################################################
else if (value->getFormat() == "formatXdr:P:P"){
double pressure = 0;
if(usesimudata == false) {
if (usesimudata == false) {
pressure = value->value;
rawvalue = value->value;
pressure = pressure / 100.0; // Unit conversion form Pa to hPa
}
else{
else {
rawvalue = 968 + float(random(0, 10));
pressure = rawvalue;
}
snprintf(buffer,bsize,"%4.0f",pressure);
snprintf(buffer, bsize, "%4.0f", pressure);
result.unit = "hPa";
}
//########################################################
else if (value->getFormat() == "formatXdr:P:B"){
double pressure = 0;
if(usesimudata == false) {
if (usesimudata == false) {
pressure = value->value;
rawvalue = value->value;
pressure = pressure / 100.0; // Unit conversion form Pa to mBar
}
else{
else {
rawvalue = value->value;
pressure = 968 + float(random(0, 10));
}
snprintf(buffer,bsize,"%4.0f",pressure);
snprintf(buffer, bsize, "%4.0f", pressure);
result.unit = "mBar";
}
//########################################################
else if (value->getFormat() == "formatXdr:U:V"){
double voltage = 0;
if(usesimudata == false) {
if (usesimudata == false) {
voltage = value->value;
rawvalue = value->value;
}
else{
else {
rawvalue = 12 + float(random(0, 30)) / 10.0;
voltage = rawvalue;
}
if(voltage < 10){
snprintf(buffer,bsize,"%3.2f",voltage);
if (voltage < 10) {
snprintf(buffer, bsize, fmt_dec_1, voltage);
}
else{
snprintf(buffer,bsize,"%3.1f",voltage);
else {
snprintf(buffer, bsize, fmt_dec_10, voltage);
}
result.unit = "V";
}
//########################################################
else if (value->getFormat() == "formatXdr:I:A"){
double current = 0;
if(usesimudata == false) {
if (usesimudata == false) {
current = value->value;
rawvalue = value->value;
}
else{
else {
rawvalue = 8.2 + float(random(0, 50)) / 10.0;
current = rawvalue;
}
if(current < 10){
snprintf(buffer,bsize,"%3.2f",current);
if (current < 10) {
snprintf(buffer, bsize, fmt_dec_1, current);
}
if(current >= 10 && current < 100){
snprintf(buffer,bsize,"%3.1f",current);
else if(current < 100) {
snprintf(buffer, bsize, fmt_dec_10, current);
}
if(current >= 100){
snprintf(buffer,bsize,"%3.0f",current);
else {
snprintf(buffer, bsize, fmt_dec_100, current);
}
result.unit = "A";
}
//########################################################
else if (value->getFormat() == "formatXdr:C:K"){
double temperature = 0;
if(usesimudata == false) {
if (usesimudata == false) {
temperature = value->value - 273.15; // Convert K to C
rawvalue = value->value - 273.15;
}
else{
else {
rawvalue = 21.8 + float(random(0, 50)) / 10.0;
temperature = rawvalue;
}
if(temperature < 10){
snprintf(buffer,bsize,"%3.2f",temperature);
if (temperature < 10) {
snprintf(buffer, bsize, fmt_dec_1, temperature);
}
if(temperature >= 10 && temperature < 100){
snprintf(buffer,bsize,"%3.1f",temperature);
else if (temperature < 100) {
snprintf(buffer, bsize, fmt_dec_10, temperature);
}
if(temperature >= 100){
snprintf(buffer,bsize,"%3.0f",temperature);
else {
snprintf(buffer, bsize, fmt_dec_100, temperature);
}
result.unit = "Deg C";
}
//########################################################
else if (value->getFormat() == "formatXdr:C:C"){
double temperature = 0;
if(usesimudata == false) {
if (usesimudata == false) {
temperature = value->value; // Value in C
rawvalue = value->value;
}
else{
else {
rawvalue = 21.8 + float(random(0, 50)) / 10.0;
temperature = rawvalue;
}
if(temperature < 10){
snprintf(buffer,bsize,"%3.2f",temperature);
if (temperature < 10) {
snprintf(buffer, bsize, fmt_dec_1, temperature);
}
if(temperature >= 10 && temperature < 100){
snprintf(buffer,bsize,"%3.1f",temperature);
else if(temperature < 100) {
snprintf(buffer, bsize, fmt_dec_10, temperature);
}
if(temperature >= 100){
snprintf(buffer,bsize,"%3.0f",temperature);
else {
snprintf(buffer, bsize, fmt_dec_100, temperature);
}
result.unit = "Deg C";
}
//########################################################
else if (value->getFormat() == "formatXdr:H:P"){
double humidity = 0;
if(usesimudata == false) {
if (usesimudata == false) {
humidity = value->value; // Value in %
rawvalue = value->value;
}
@@ -631,143 +648,143 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
rawvalue = 41.3 + float(random(0, 50)) / 10.0;
humidity = rawvalue;
}
if(humidity < 10){
snprintf(buffer,bsize,"%3.2f",humidity);
if (humidity < 10) {
snprintf(buffer, bsize, fmt_dec_1, humidity);
}
if(humidity >= 10 && humidity < 100){
snprintf(buffer,bsize,"%3.1f",humidity);
else if(humidity < 100) {
snprintf(buffer, bsize, fmt_dec_10, humidity);
}
if(humidity >= 100){
snprintf(buffer,bsize,"%3.0f",humidity);
else {
snprintf(buffer, bsize, fmt_dec_100, humidity);
}
result.unit = "%";
}
//########################################################
else if (value->getFormat() == "formatXdr:V:P"){
double volume = 0;
if(usesimudata == false) {
if (usesimudata == false) {
volume = value->value; // Value in %
rawvalue = value->value;
}
else{
else {
rawvalue = 85.8 + float(random(0, 50)) / 10.0;
volume = rawvalue;
}
if(volume < 10){
snprintf(buffer,bsize,"%3.2f",volume);
if (volume < 10) {
snprintf(buffer, bsize, fmt_dec_1, volume);
}
if(volume >= 10 && volume < 100){
snprintf(buffer,bsize,"%3.1f",volume);
else if (volume < 100) {
snprintf(buffer, bsize, fmt_dec_10, volume);
}
if(volume >= 100){
snprintf(buffer,bsize,"%3.0f",volume);
else if (volume >= 100) {
snprintf(buffer, bsize, fmt_dec_100, volume);
}
result.unit = "%";
}
//########################################################
else if (value->getFormat() == "formatXdr:V:M"){
double volume = 0;
if(usesimudata == false) {
if (usesimudata == false) {
volume = value->value; // Value in l
rawvalue = value->value;
}
else{
else {
rawvalue = 75.2 + float(random(0, 50)) / 10.0;
volume = rawvalue;
}
if(volume < 10){
snprintf(buffer,bsize,"%3.2f",volume);
if (volume < 10) {
snprintf(buffer, bsize, fmt_dec_1, volume);
}
if(volume >= 10 && volume < 100){
snprintf(buffer,bsize,"%3.1f",volume);
else if (volume < 100) {
snprintf(buffer, bsize, fmt_dec_10, volume);
}
if(volume >= 100){
snprintf(buffer,bsize,"%3.0f",volume);
else {
snprintf(buffer, bsize, fmt_dec_100, volume);
}
result.unit = "l";
}
//########################################################
else if (value->getFormat() == "formatXdr:R:I"){
double flow = 0;
if(usesimudata == false) {
if (usesimudata == false) {
flow = value->value; // Value in l/min
rawvalue = value->value;
}
else{
else {
rawvalue = 7.5 + float(random(0, 20)) / 10.0;
flow = rawvalue;
}
if(flow < 10){
snprintf(buffer,bsize,"%3.2f",flow);
if (flow < 10) {
snprintf(buffer, bsize, fmt_dec_1, flow);
}
if(flow >= 10 && flow < 100){
snprintf(buffer,bsize,"%3.1f",flow);
else if (flow < 100) {
snprintf(buffer, bsize, fmt_dec_10, flow);
}
if(flow >= 100){
snprintf(buffer,bsize,"%3.0f",flow);
else {
snprintf(buffer, bsize, fmt_dec_100, flow);
}
result.unit = "l/min";
}
//########################################################
else if (value->getFormat() == "formatXdr:G:"){
double generic = 0;
if(usesimudata == false) {
generic = value->value; // Value in l/min
if (usesimudata == false) {
generic = value->value;
rawvalue = value->value;
}
else{
else {
rawvalue = 18.5 + float(random(0, 20)) / 10.0;
generic = rawvalue;
}
if(generic < 10){
snprintf(buffer,bsize,"%3.2f",generic);
if (generic < 10) {
snprintf(buffer, bsize, fmt_dec_1, generic);
}
if(generic >= 10 && generic < 100){
snprintf(buffer,bsize,"%3.1f",generic);
else if (generic < 100) {
snprintf(buffer, bsize, fmt_dec_10, generic);
}
if(generic >= 100){
snprintf(buffer,bsize,"%3.0f",generic);
else {
snprintf(buffer, bsize, fmt_dec_100, generic);
}
result.unit = "";
}
//########################################################
else if (value->getFormat() == "formatXdr:A:P"){
double dplace = 0;
if(usesimudata == false) {
if (usesimudata == false) {
dplace = value->value; // Value in %
rawvalue = value->value;
}
else{
else {
rawvalue = 55.3 + float(random(0, 20)) / 10.0;
dplace = rawvalue;
}
if(dplace < 10){
snprintf(buffer,bsize,"%3.2f",dplace);
if (dplace < 10) {
snprintf(buffer, bsize, fmt_dec_1, dplace);
}
if(dplace >= 10 && dplace < 100){
snprintf(buffer,bsize,"%3.1f",dplace);
else if (dplace < 100) {
snprintf(buffer, bsize, fmt_dec_10, dplace);
}
if(dplace >= 100){
snprintf(buffer,bsize,"%3.0f",dplace);
else {
snprintf(buffer, bsize, fmt_dec_100, dplace);
}
result.unit = "%";
}
//########################################################
else if (value->getFormat() == "formatXdr:A:D"){
double angle = 0;
if(usesimudata == false) {
if (usesimudata == false) {
angle = value->value;
angle = angle * 57.2958; // Unit conversion form rad to deg
rawvalue = value->value;
}
else{
else {
rawvalue = PI / 100 + (random(-5, 5) / 360 * 2* PI);
angle = rawvalue * 57.2958;
}
if(angle > -10 && angle < 10){
if (angle > -10 && angle < 10) {
snprintf(buffer,bsize,"%3.1f",angle);
}
else{
else {
snprintf(buffer,bsize,"%3.0f",angle);
}
result.unit = "Deg";
@@ -775,41 +792,41 @@ FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata){
//########################################################
else if (value->getFormat() == "formatXdr:T:R"){
double rpm = 0;
if(usesimudata == false) {
if (usesimudata == false) {
rpm = value->value; // Value in rpm
rawvalue = value->value;
}
else{
else {
rawvalue = 2505 + random(0, 20);
rpm = rawvalue;
}
if(rpm < 10){
snprintf(buffer,bsize,"%3.2f",rpm);
if (rpm < 10) {
snprintf(buffer, bsize, fmt_dec_1, rpm);
}
if(rpm >= 10 && rpm < 100){
snprintf(buffer,bsize,"%3.1f",rpm);
else if (rpm < 100) {
snprintf(buffer, bsize, fmt_dec_10, rpm);
}
if(rpm >= 100){
snprintf(buffer,bsize,"%3.0f",rpm);
else {
snprintf(buffer, bsize, fmt_dec_100, rpm);
}
result.unit = "rpm";
}
//########################################################
// Default format
//########################################################
else{
if(value->value < 10){
snprintf(buffer,bsize,"%3.2f",value->value);
else {
if (value->value < 10) {
snprintf(buffer, bsize, fmt_dec_1, value->value);
}
if(value->value >= 10 && value->value < 100){
snprintf(buffer,bsize,"%3.1f",value->value);
else if (value->value < 100) {
snprintf(buffer, bsize, fmt_dec_10, value->value);
}
if(value->value >= 100){
snprintf(buffer,bsize,"%3.0f",value->value);
else {
snprintf(buffer, bsize, fmt_dec_100, value->value);
}
result.unit = "";
}
buffer[bsize]=0;
buffer[bsize] = 0;
result.value = rawvalue; // Return value is only necessary in case of simulation of graphic pointer
result.svalue = String(buffer);
return result;

10
lib/obp60task/OBP60Hardware.h
View File

@@ -82,7 +82,7 @@
// Direction pin for RS485 NMEA0183
#define OBP_DIRECTION_PIN 8
// I2C
#define I2C_SPEED 10000UL // 10kHz clock speed on I2C bus
#define I2C_SPEED 100000UL // 100kHz clock speed on I2C bus
#define OBP_I2C_SDA 21
#define OBP_I2C_SCL 38
// DS1388 RTC
@@ -120,10 +120,10 @@
#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)
// SPI SD-Card
#define SD_SPI_CS 10
#define SD_SPI_MOSI 40
#define SD_SPI_CLK 39
#define SD_SPI_MISO 13
#define SD_SPI_CS GPIO_NUM_10
#define SD_SPI_MOSI GPIO_NUM_40
#define SD_SPI_CLK GPIO_NUM_39
#define SD_SPI_MISO GPIO_NUM_13
// GPS (NEO-6M, NEO-M8N, ATGM336H)
#define OBP_GPS_RX 19

157
lib/obp60task/OBPDataOperations.cpp Normal file
View File

@@ -0,0 +1,157 @@
#include "OBPDataOperations.h"
double WindUtils::to2PI(double a)
{
a = fmod(a, 2 * M_PI);
if (a < 0.0) {
a += 2 * M_PI;
}
return a;
}
double WindUtils::toPI(double a)
{
a += M_PI;
a = to2PI(a);
a -= M_PI;
return a;
}
double WindUtils::to360(double a)
{
a = fmod(a, 360);
if (a < 0.0) {
a += 360;
}
return a;
}
double WindUtils::to180(double a)
{
a += 180;
a = to360(a);
a -= 180;
return a;
}
void WindUtils::toCart(const double* phi, const double* r, double* x, double* y)
{
*x = *r * sin(*phi);
*y = *r * cos(*phi);
}
void WindUtils::toPol(const double* x, const double* y, double* phi, double* r)
{
*phi = (M_PI / 2) - atan2(*y, *x);
*phi = to2PI(*phi);
*r = sqrt(*x * *x + *y * *y);
}
void WindUtils::addPolar(const double* phi1, const double* r1,
const double* phi2, const double* r2,
double* phi, double* r)
{
double x1, y1, x2, y2;
toCart(phi1, r1, &x1, &y1);
toCart(phi2, r2, &x2, &y2);
x1 += x2;
y1 += y2;
toPol(&x1, &y1, phi, r);
}
void WindUtils::calcTwdSA(const double* AWA, const double* AWS,
const double* CTW, const double* STW, const double* HDT,
double* TWD, double* TWS, double* TWA)
{
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);
// Serial.println("calcTwdSA: TWD: " + String(*TWD) + ", TWS: " + String(*TWS));
}
bool WindUtils::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)
{
double stw, hdt, ctw;
double twd, tws, twa;
static const double DBL_MIN = std::numeric_limits<double>::lowest();
if (*hdtVal != DBL_MIN) {
hdt = *hdtVal; // Use HDT if available
} else {
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_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_MIN) {
stw = *stwVal; // Use STW if available
} else if (*sogVal != DBL_MIN) {
stw = *sogVal;
} else {
// If STW and SOG are not available, we cannot calculate true wind
return false;
}
if ((*awaVal == DBL_MIN) || (*awsVal == DBL_MIN)) {
// Cannot calculate true wind without valid AWA, AWS; other checks are done earlier
return false;
} else {
calcTwdSA(awaVal, awsVal, &ctw, &stw, &hdt, &twd, &tws, &twa);
*twdVal = twd;
*twsVal = tws;
*twaVal = twa;
return 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);
}
}
/* 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;
}*/

36
lib/obp60task/OBPDataOperations.h Normal file
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@@ -0,0 +1,36 @@
#pragma once
#include "GwApi.h"
#include "OBPRingBuffer.h"
#include <Arduino.h>
#include <math.h>
typedef struct {
RingBuffer<int16_t>* twdHstry;
RingBuffer<int16_t>* twsHstry;
} tBoatHstryData; // Holds pointers to all history buffers for boat data
class HstryBuf {
public:
void fillWndBufSimData(tBoatHstryData& hstryBufs); // Fill most part of the TWD and TWS history buffer with simulated data
};
class WindUtils {
public:
static double to2PI(double a);
static double toPI(double a);
static double to360(double a);
static double to180(double a);
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);
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 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);
};

60
lib/obp60task/OBPRingBuffer.h Normal file
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@@ -0,0 +1,60 @@
#pragma once
#include "GwSynchronized.h"
#include <algorithm>
#include <limits>
#include <stdexcept>
#include <vector>
#include "WString.h"
template <typename T>
class RingBuffer {
private:
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
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
T smallest; // Value range of buffer: smallest value
T largest; // Value range of buffer: biggest value
public:
RingBuffer(size_t size);
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
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
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
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"

376
lib/obp60task/OBPRingBuffer.tpp Normal file
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@@ -0,0 +1,376 @@
#include "OBPRingBuffer.h"
template <typename T>
RingBuffer<T>::RingBuffer(size_t size)
: capacity(size)
, head(0)
, first(0)
, last(0)
, count(0)
, is_Full(false)
{
bufLocker = xSemaphoreCreateMutex();
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, T minValue, T maxValue)
{
GWSYNCHRONIZED(&bufLocker);
dataName = name;
dataFmt = format;
updFreq = updateFrequency;
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, T& minValue, T& maxValue)
{
if (dataName == "" || dataFmt == "" || updFreq == -1) {
return false; // Meta data not set
}
GWSYNCHRONIZED(&bufLocker);
name = dataName;
format = dataFmt;
updateFrequency = updFreq;
minValue = smallest;
maxValue = largest;
return true;
}
// Get buffer name
template <typename T>
String RingBuffer<T>::getName() const
{
return dataName;
}
// Add a new value to buffer
template <typename T>
void RingBuffer<T>::add(const T& value)
{
GWSYNCHRONIZED(&bufLocker);
if (value < smallest || value > largest) {
buffer[head] = MIN_VAL; // Store MIN_VAL if value is out of range
} else {
buffer[head] = value;
}
last = head;
if (is_Full) {
first = (first + 1) % capacity; // Move pointer to oldest element when overwriting
} else {
count++;
if (count == capacity) {
is_Full = true;
}
}
head = (head + 1) % capacity;
}
// Get value at specific position (0-based index from oldest to newest)
template <typename T>
T RingBuffer<T>::get(size_t index) const
{
GWSYNCHRONIZED(&bufLocker);
if (isEmpty() || index < 0 || index >= count) {
return MIN_VAL;
}
size_t realIndex = (first + index) % capacity;
return buffer[realIndex];
}
// Operator[] for convenient access (same as get())
template <typename T>
T RingBuffer<T>::operator[](size_t index) const
{
return get(index);
}
// Get the first (oldest) value in the buffer
template <typename T>
T RingBuffer<T>::getFirst() const
{
if (isEmpty()) {
return MIN_VAL;
}
return get(0);
}
// Get the last (newest) value in the buffer
template <typename T>
T RingBuffer<T>::getLast() const
{
if (isEmpty()) {
return MIN_VAL;
}
return get(count - 1);
}
// Get the lowest value in the buffer
template <typename T>
T RingBuffer<T>::getMin() const
{
if (isEmpty()) {
return MIN_VAL;
}
T minVal = MAX_VAL;
T value;
for (size_t i = 0; i < count; i++) {
value = get(i);
if (value < minVal && value != MIN_VAL) {
minVal = value;
}
}
return minVal;
}
// Get minimum value of the last <amount> values of buffer
template <typename T>
T RingBuffer<T>::getMin(size_t amount) const
{
if (isEmpty() || amount <= 0) {
return MIN_VAL;
}
if (amount > count)
amount = count;
T minVal = MAX_VAL;
T value;
for (size_t i = 0; i < amount; i++) {
value = get(count - 1 - i);
if (value < minVal && value != MIN_VAL) {
minVal = value;
}
}
return minVal;
}
// Get the highest value in the buffer
template <typename T>
T RingBuffer<T>::getMax() const
{
if (isEmpty()) {
return MIN_VAL;
}
T maxVal = MIN_VAL;
T value;
for (size_t i = 0; i < count; i++) {
value = get(i);
if (value > maxVal && value != MIN_VAL) {
maxVal = value;
}
}
return maxVal;
}
// Get maximum value of the last <amount> values of buffer
template <typename T>
T RingBuffer<T>::getMax(size_t amount) const
{
if (isEmpty() || amount <= 0) {
return MIN_VAL;
}
if (amount > count)
amount = count;
T maxVal = MIN_VAL;
T value;
for (size_t i = 0; i < amount; i++) {
value = get(count - 1 - i);
if (value > maxVal && value != MIN_VAL) {
maxVal = value;
}
}
return maxVal;
}
// Get mid value between <min> and <max> value in the buffer
template <typename T>
T RingBuffer<T>::getMid() const
{
if (isEmpty()) {
return MIN_VAL;
}
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>
T RingBuffer<T>::getMid(size_t amount) const
{
if (isEmpty() || amount <= 0) {
return MIN_VAL;
}
if (amount > count)
amount = count;
return (getMin(amount) + getMax(amount)) / static_cast<T>(2);
}
// Get the median value in the buffer
template <typename T>
T RingBuffer<T>::getMedian() const
{
if (isEmpty()) {
return MIN_VAL;
}
// Create a temporary vector with current valid elements
std::vector<T> temp;
temp.reserve(count);
for (size_t i = 0; i < count; i++) {
temp.push_back(get(i));
}
// Sort to find median
std::sort(temp.begin(), temp.end());
if (count % 2 == 1) {
// Odd number of elements
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 (temp[count / 2 - 1] + temp[count / 2]) / 2;
}
}
// Get the median value of the last <amount> values of buffer
template <typename T>
T RingBuffer<T>::getMedian(size_t amount) const
{
if (isEmpty() || amount <= 0) {
return MIN_VAL;
}
if (amount > count)
amount = count;
// Create a temporary vector with current valid elements
std::vector<T> temp;
temp.reserve(amount);
for (size_t i = 0; i < amount; i++) {
temp.push_back(get(i));
}
// Sort to find median
std::sort(temp.begin(), temp.end());
if (amount % 2 == 1) {
// Odd number of elements
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 (temp[amount / 2 - 1] + temp[amount / 2]) / 2;
}
}
// Get the buffer capacity (maximum size)
template <typename T>
size_t RingBuffer<T>::getCapacity() const
{
return capacity;
}
// Get the current number of elements in the buffer
template <typename T>
size_t RingBuffer<T>::getCurrentSize() const
{
return count;
}
// Get the first index of buffer
template <typename T>
size_t RingBuffer<T>::getFirstIdx() const
{
return first;
}
// Get the last index of buffer
template <typename T>
size_t RingBuffer<T>::getLastIdx() const
{
return last;
}
// Check if buffer is empty
template <typename T>
bool RingBuffer<T>::isEmpty() const
{
return count == 0;
}
// Check if buffer is full
template <typename T>
bool RingBuffer<T>::isFull() const
{
return is_Full;
}
// Get lowest possible value for buffer; used for non-set buffer data
template <typename T>
T RingBuffer<T>::getMinVal() const
{
return MIN_VAL;
}
// Get highest possible value for buffer
template <typename T>
T RingBuffer<T>::getMaxVal() const
{
return MAX_VAL;
}
// Clear buffer
template <typename T>
void RingBuffer<T>::clear()
{
GWSYNCHRONIZED(&bufLocker);
head = 0;
first = 0;
last = 0;
count = 0;
is_Full = false;
}
// Get all current values as a vector
template <typename T>
std::vector<T> RingBuffer<T>::getAllValues() const
{
std::vector<T> result;
result.reserve(count);
for (size_t i = 0; i < count; i++) {
result.push_back(get(i));
}
return result;
}

100
lib/obp60task/PageAnchor.cpp
View File

@@ -1,100 +0,0 @@
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "Pagedata.h"
#include "OBP60Extensions.h"
/*
Anchor overview with additional associated data
This page is in experimental stage so be warned!
DBS - Water depth
HDT - Boat heading
TWS - Wind strength
TWD - Wind direction
This is the fist page to contain a configuration page with
data entry option.
Also it will make use of the new alarm function.
*/
#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
{
bool simulation = false;
bool holdvalues = false;
String flashLED;
String backlightMode;
public:
PageAnchor(CommonData &common){
commonData = &common;
common.logger->logDebug(GwLog::LOG,"Instantiate PageAnchor");
// preload configuration data
simulation = 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);
}
virtual int handleKey(int key){
// Code for keylock
if (key == 11) {
commonData->keylock = !commonData->keylock;
return 0; // Commit the key
}
return key;
}
void displayNew(PageData &pageData){
}
int displayPage(PageData &pageData){
GwConfigHandler *config = commonData->config;
GwLog *logger = commonData->logger;
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageAnchor");
// Set display in partial refresh mode
getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update
uint16_t cx = 200; // center = anchor position
uint16_t cy = 150;
// draw anchor symbol (as bitmap)
getdisplay().drawXBitmap(cx - anchor_width / 2, cy - anchor_height / 2,
anchor_bits, anchor_width, anchor_height, commonData->fgcolor);
getdisplay().setTextColor(commonData->fgcolor);
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", "TWS", "TWD"}, // Names of bus values undepends on selection in Web configuration (refer GwBoatData.h)
true // Show display header on/off
);
#endif

2
lib/obp60task/PageBattery.cpp
View File

@@ -5,7 +5,7 @@
class PageBattery : public Page
{
int average = 0; // Average type [0...3], 0=off, 1=10s, 2=60s, 3=300s
int average = 0; // Average type [0...3], 0=off, 1=10s, 2=60s, 3=300s
public:
PageBattery(CommonData &common){

2
lib/obp60task/PageClock.cpp
View File

@@ -120,7 +120,7 @@ bool homevalid = false; // homelat and homelon are valid
}
else{
value1 = simtime++; // Simulation data for time value 11:36 in seconds
} // Other simulation data see OBP60Formater.cpp
} // Other simulation data see OBP60Formatter.cpp
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

2
lib/obp60task/PageCompass.cpp
View File

@@ -83,7 +83,7 @@ class PageCompass : public Page
String DataText[HowManyValues];
String DataUnits[HowManyValues];
String DataFormat[HowManyValues];
FormatedData TheFormattedData;
FormattedData TheFormattedData;
for (int i = 0; i < HowManyValues; i++){
bvalue = pageData.values[i];

8
lib/obp60task/PageFourValues.cpp
View File

@@ -53,7 +53,7 @@ class PageFourValues : public Page
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
// Get boat values #2
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list (only one value by PageOneValue)
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
@@ -63,7 +63,7 @@ class PageFourValues : public Page
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
// Get boat values #3
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Second element in list (only one value by PageOneValue)
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
calibrationData.calibrateInstance(bvalue3, logger); // Check if boat data value is to be calibrated
@@ -73,7 +73,7 @@ class PageFourValues : public Page
String unit3 = formatValue(bvalue3, *commonData).unit; // Unit of value
// Get boat values #4
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Second element in list (only one value by PageOneValue)
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
calibrationData.calibrateInstance(bvalue4, logger); // Check if boat data value is to be calibrated
@@ -301,7 +301,7 @@ static Page *createPage(CommonData &common){
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageFourValues(
"FourValues", // Page name
"FourValues", // Page name
createPage, // Action
4, // Number of bus values depends on selection in Web configuration
true // Show display header on/off

29
lib/obp60task/PageKeelPosition.cpp
View File

@@ -86,21 +86,20 @@ public:
float x = 200 + (rInstrument-30)*sin(i/180.0*pi); // x-coordinate dots
float y = 150 - (rInstrument-30)*cos(i/180.0*pi); // y-coordinate cots
const char *ii = " ";
switch (i)
{
case 0: ii=" "; break; // Use a blank for a empty scale value
case 30 : ii=" "; break;
case 60 : ii=" "; break;
case 90 : ii="45"; break;
case 120 : ii="30"; break;
case 150 : ii="15"; break;
case 180 : ii="0"; break;
case 210 : ii="15"; break;
case 240 : ii="30"; break;
case 270 : ii="45"; break;
case 300 : ii=" "; break;
case 330 : ii=" "; break;
default: break;
switch (i) {
case 0: ii=" "; break; // Use a blank for a empty scale value
case 30 : ii=" "; break;
case 60 : ii=" "; break;
case 90 : ii="45"; break;
case 120 : ii="30"; break;
case 150 : ii="15"; break;
case 180 : ii="0"; break;
case 210 : ii="15"; break;
case 240 : ii="30"; break;
case 270 : ii="45"; break;
case 300 : ii=" "; break;
case 330 : ii=" "; break;
default: break;
}
// Print text centered on position x, y

59
lib/obp60task/PageRollPitch.cpp
View File

@@ -41,9 +41,9 @@ public:
String backlightMode = config->getString(config->backlight);
int rolllimit = config->getInt(config->rollLimit);
String roffset = config->getString(config->rollOffset);
double rolloffset = roffset.toFloat()/360*(2*PI);
double rolloffset = roffset.toFloat()/360*(2*M_PI);
String poffset = config->getString(config->pitchOffset);
double pitchoffset = poffset.toFloat()/360*(2*PI);
double pitchoffset = poffset.toFloat()/360*(2*M_PI);
// Get boat values for roll
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (xdrRoll)
@@ -55,17 +55,17 @@ public:
}
else{
if(simulation == true){
value1 = (20 + float(random(0, 50)) / 10.0)/360*2*PI;
value1 = (20 + float(random(0, 50)) / 10.0)/360*2*M_PI;
}
else{
value1 = 0;
}
}
if(value1/(2*PI)*360 > -10 && value1/(2*PI)*360 < 10){
svalue1 = String(value1/(2*PI)*360,1); // Convert raw value to string
if(value1/(2*M_PI)*360 > -10 && value1/(2*M_PI)*360 < 10){
svalue1 = String(value1/(2*M_PI)*360,1); // Convert raw value to string
}
else{
svalue1 = String(value1/(2*PI)*360,0);
svalue1 = String(value1/(2*M_PI)*360,0);
}
if(valid1 == true){
svalue1old = svalue1; // Save the old value
@@ -80,17 +80,17 @@ public:
}
else{
if(simulation == true){
value2 = (float(random(-5, 5)))/360*2*PI;
value2 = (float(random(-5, 5)))/360*2*M_PI;
}
else{
value2 = 0;
}
}
if(value2/(2*PI)*360 > -10 && value2/(2*PI)*360 < 10){
svalue2 = String(value2/(2*PI)*360,1); // Convert raw value to string
if(value2/(2*PI)*360 > -10 && value2/(2*M_PI)*360 < 10){
svalue2 = String(value2/(2*M_PI)*360,1); // Convert raw value to string
}
else{
svalue2 = String(value2/(2*PI)*360,0);
svalue2 = String(value2/(2*M_PI)*360,0);
}
if(valid2 == true){
svalue2old = svalue2; // Save the old value
@@ -99,7 +99,7 @@ public:
// Optical warning by limit violation
if(String(flashLED) == "Limit Violation"){
// Limits for roll
if(value1*360/(2*PI) >= -1*rolllimit && value1*360/(2*PI) <= rolllimit){
if(value1*360/(2*M_PI) >= -1*rolllimit && value1*360/(2*M_PI) <= rolllimit){
setBlinkingLED(false);
setFlashLED(false);
}
@@ -177,19 +177,18 @@ public:
// Only scaling +/- 60 degrees
if((i >= 0 && i <= 60) || (i >= 300 && i <= 360)){
// Scaling values
float x = 200 + (rInstrument+25)*sin(i/180.0*pi); // x-coordinate dots
float y = 150 - (rInstrument+25)*cos(i/180.0*pi); // y-coordinate cots
float x = 200 + (rInstrument+25)*sin(i/180.0*M_PI); // x-coordinate dots
float y = 150 - (rInstrument+25)*cos(i/180.0*M_PI); // y-coordinate cots
const char *ii = "";
switch (i)
{
case 0: ii="0"; break;
case 20 : ii="20"; break;
case 40 : ii="40"; break;
case 60 : ii="60"; break;
case 300 : ii="60"; break;
case 320 : ii="40"; break;
case 340 : ii="20"; break;
default: break;
switch (i) {
case 0: ii="0"; break;
case 20 : ii="20"; break;
case 40 : ii="40"; break;
case 60 : ii="60"; break;
case 300 : ii="60"; break;
case 320 : ii="40"; break;
case 340 : ii="20"; break;
default: break;
}
// Print text centered on position x, y
@@ -203,11 +202,11 @@ public:
}
// Draw sub scale with dots
float x1c = 200 + rInstrument*sin(i/180.0*pi);
float y1c = 150 - rInstrument*cos(i/180.0*pi);
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);
float sinx=sin(i/180.0*pi);
float cosx=cos(i/180.0*pi);
float sinx=sin(i/180.0*M_PI);
float cosx=cos(i/180.0*M_PI);
// Draw sub scale with lines (two triangles)
if(i % 20 == 0){
@@ -229,11 +228,11 @@ public:
// Draw mast position pointer
float startwidth = 8; // Start width of pointer
// value1 = (2 * pi ) - value1; // Mirror coordiante system for pointer, keel and boat
// value1 = (2 * M_PI ) - value1; // Mirror coordiante system for pointer, keel and boat
if(valid1 == true || holdvalues == true || simulation == true){
float sinx=sin(value1 + pi);
float cosx=cos(value1 + pi);
float sinx=sin(value1 + M_PI);
float cosx=cos(value1 + M_PI);
// Normal pointer
// Pointer as triangle with center base 2*width
float xx1 = -startwidth;

152
lib/obp60task/PageSystem.cpp
View File

@@ -1,5 +1,15 @@
#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 "images/logo64.xbm"
@@ -7,8 +17,7 @@
#include "qrcode.h"
#ifdef BOARD_OBP40S3
#include <SD.h>
#include <FS.h>
#include "dirent.h"
#endif
#define STRINGIZE_IMPL(x) #x
@@ -19,35 +28,27 @@
#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. NMEA2000 device list
*/
class PageSystem : public Page
{
uint64_t chipid;
bool simulation;
bool sdcard;
String buzzer_mode;
uint8_t buzzer_power;
String cpuspeed;
String rtc_module;
String gps_module;
String env_module;
private:
uint64_t chipid;
bool simulation;
bool use_sdcard;
String buzzer_mode;
uint8_t buzzer_power;
String cpuspeed;
String rtc_module;
String gps_module;
String env_module;
String batt_sensor;
String solar_sensor;
String gen_sensor;
String rot_sensor;
double homelat;
double homelon;
String batt_sensor;
String solar_sensor;
String gen_sensor;
String rot_sensor;
double homelat;
double homelon;
char mode = 'N'; // (N)ormal, (S)ettings, (D)evice list, (C)ard
char mode = 'N'; // (N)ormal, (S)ettings, (D)evice list, (C)ard
public:
PageSystem(CommonData &common){
@@ -55,11 +56,12 @@ public:
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);
}
chipid = ESP.getEfuseMac();
simulation = common.config->getBool(common.config->useSimuData);
#ifdef BOARD_OBP40S3
sdcard = common.config->getBool(common.config->useSDCard);
use_sdcard = common.config->getBool(common.config->useSDCard);
#endif
buzzer_mode = common.config->getString(common.config->buzzerMode);
buzzer_mode.toLowerCase();
@@ -76,7 +78,7 @@ public:
homelon = common.config->getString(common.config->homeLON).toDouble();
}
virtual void setupKeys(){
void setupKeys() {
commonData->keydata[0].label = "EXIT";
commonData->keydata[1].label = "MODE";
commonData->keydata[2].label = "";
@@ -85,7 +87,7 @@ public:
commonData->keydata[5].label = "ILUM";
}
virtual int handleKey(int key){
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");
@@ -95,7 +97,7 @@ public:
} else if (mode == 'S') {
mode = 'D';
} else if (mode == 'D') {
if (sdcard) {
if (hasSDCard) {
mode = 'C';
} else {
mode = 'N';
@@ -117,7 +119,8 @@ public:
}
// standby / deep sleep
if (key == 5) {
deepSleep(*commonData);
commonData->logger->logDebug(GwLog::LOG, "System going into deep sleep mode...");
deepSleep(*commonData);
}
// Code for keylock
if (key == 11) {
@@ -132,6 +135,7 @@ public:
}
// standby / deep sleep
if (key == 12) {
commonData->logger->logDebug(GwLog::LOG, "System going into deep sleep mode...");
deepSleep(*commonData);
}
#endif
@@ -178,7 +182,7 @@ public:
}
// Logging boat values
LOG_DEBUG(GwLog::LOG,"Drawing at PageSystem");
logger->logDebug(GwLog::LOG, "Drawing at PageSystem, Mode=%c", mode);
// Draw page
//***********************************************************
@@ -257,14 +261,37 @@ public:
getdisplay().setCursor(8, y0 + 48);
getdisplay().print("SD-Card:");
getdisplay().setCursor(90, y0 + 48);
if (sdcard) {
uint64_t cardsize = SD.cardSize() / (1024 * 1024);
getdisplay().print(String(cardsize) + String(" MB"));
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:");
@@ -371,8 +398,61 @@ public:
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

4
lib/obp60task/PageThreeValues.cpp
View File

@@ -51,7 +51,7 @@ class PageThreeValues : public Page
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
// Get boat values #2
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list (only one value by PageOneValue)
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
@@ -61,7 +61,7 @@ class PageThreeValues : public Page
String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value
// Get boat values #3
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Second element in list (only one value by PageOneValue)
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
calibrationData.calibrateInstance(bvalue3, logger); // Check if boat data value is to be calibrated

2
lib/obp60task/PageTwoValues.cpp
View File

@@ -49,7 +49,7 @@ class PageTwoValues : public Page
String unit1 = formatValue(bvalue1, *commonData).unit; // Unit of value
// Get boat values #2
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list (only one value by PageOneValue)
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

10
lib/obp60task/PageVoltage.cpp
View File

@@ -398,11 +398,11 @@ static Page *createPage(CommonData &common){
* and will will provide the names of the fixed values we need
*/
PageDescription registerPageVoltage(
"Voltage", // Name of page
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
"Voltage", // Name of page
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

8
lib/obp60task/PageWind.cpp
View File

@@ -633,11 +633,11 @@ static Page *createPage(CommonData &common){
* and will will provide the names of the fixed values we need
*/
PageDescription registerPageWind(
"Wind", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
"Wind", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"AWS","AWA", "TWS", "TWA"}, // Bus values we need in the page
true // Show display header on/off
true // Show display header on/off
);
#endif

479
lib/obp60task/PageWindPlot.cpp Normal file
View File

@@ -0,0 +1,479 @@
#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3
#include "BoatDataCalibration.h"
#include "OBP60Extensions.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 {
bool keylock = false; // Keylock
char chrtMode = 'D'; // Chart mode: 'D' for TWD, 'S' for TWS, 'B' for both
int dataIntv = 1; // Update interval for wind history chart:
// (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)
{
commonData = &common;
common.logger->logDebug(GwLog::LOG, "Instantiate PageWindPlot");
}
virtual void setupKeys()
{
Page::setupKeys();
// commonData->keydata[0].label = "MODE";
commonData->keydata[1].label = "INTV";
commonData->keydata[4].label = "TWS";
}
// Key functions
virtual int handleKey(int key)
{
// Set chart mode TWD | TWS -> to be implemented
if (key == 1) {
if (chrtMode == 'D') {
chrtMode = 'S';
} else if (chrtMode == 'S') {
chrtMode = 'B';
} else {
chrtMode = 'D';
}
return 0; // Commit the key
}
// Set interval for wind history chart update time
if (key == 2) {
if (dataIntv == 1) {
dataIntv = 2;
} else if (dataIntv == 2) {
dataIntv = 3;
} else if (dataIntv == 3) {
dataIntv = 4;
} 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;
return 0; // Commit the key
}
return key;
}
int displayPage(PageData& pageData)
{
GwConfigHandler* config = commonData->config;
GwLog* logger = commonData->logger;
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 = getdisplay().width();
height = getdisplay().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
}
// read boat data values; TWD only for validation test, TWS for display of current value
for (int i = 0; i < numBoatData; 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)
if (String(flashLED) == "Limit Violation") {
setBlinkingLED(false);
setFlashLED(false);
}
// 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);
}
}
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);
// chart lines
getdisplay().fillRect(0, yOffset, width, 2, commonData->fgcolor);
getdisplay().fillRect(xCenter, yOffset, 1, cHeight, commonData->fgcolor);
// chart labels
char sWndLbl[4]; // char buffer for Wind angle label
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(xCenter - 88, yOffset - 3);
getdisplay().print("TWD"); // Wind data name
snprintf(sWndLbl, 4, "%03d", (wndCenter < 0) ? (wndCenter + 360) : wndCenter);
drawTextCenter(xCenter, yOffset - 11, sWndLbl);
getdisplay().drawCircle(xCenter + 25, yOffset - 17, 2, commonData->fgcolor); // <degree> symbol
getdisplay().drawCircle(xCenter + 25, yOffset - 17, 3, commonData->fgcolor); // <degree> symbol
getdisplay().setCursor(1, yOffset - 3);
snprintf(sWndLbl, 4, "%03d", (wndLeft < 0) ? (wndLeft + 360) : wndLeft);
getdisplay().print(sWndLbl); // Wind left value
getdisplay().drawCircle(46, yOffset - 17, 2, commonData->fgcolor); // <degree> symbol
getdisplay().drawCircle(46, yOffset - 17, 3, commonData->fgcolor); // <degree> symbol
getdisplay().setCursor(width - 50, yOffset - 3);
snprintf(sWndLbl, 4, "%03d", (wndRight < 0) ? (wndRight + 360) : wndRight);
getdisplay().print(sWndLbl); // Wind right value
getdisplay().drawCircle(width - 5, yOffset - 17, 2, commonData->fgcolor); // <degree> symbol
getdisplay().drawCircle(width - 5, yOffset - 17, 3, commonData->fgcolor); // <degree> symbol
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;
getdisplay().drawLine(prevX, prevY, xSplit, y, commonData->fgcolor);
getdisplay().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
getdisplay().drawLine(prevX, prevY, x, y, commonData->fgcolor);
getdisplay().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");
getdisplay().setFont(&Ubuntu_Bold10pt8b);
getdisplay().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;
getdisplay().fillRect(xPosTws - 4, yPosTws - 38, 142, 44, commonData->bgcolor); // Clear area for TWS value
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
getdisplay().setCursor(xPosTws, yPosTws);
if (!BDataValid[1]) {
getdisplay().print("--.-");
} else {
double dbl = BDataValue[1] * 3.6 / 1.852;
if (dbl < 10.0) {
getdisplay().printf("!%3.1f", dbl); // Value, round to 1 decimal
} else {
getdisplay().printf("%4.1f", dbl); // Value, round to 1 decimal
}
}
getdisplay().setFont(&Ubuntu_Bold12pt8b);
getdisplay().setCursor(xPosTws + 82, yPosTws - 14);
// getdisplay().print("TWS"); // Name
getdisplay().print(BDataName[1]); // Name
getdisplay().setFont(&Ubuntu_Bold8pt8b);
// getdisplay().setCursor(xPosTws + 78, yPosTws + 1);
getdisplay().setCursor(xPosTws + 82, yPosTws + 1);
// getdisplay().printf(" kn"); // Unit
getdisplay().print(BDataUnit[1]); // Unit
}
// chart Y axis labels; print at last to overwrite potential chart lines in label area
int yPos;
int chrtLbl;
getdisplay().setFont(&Ubuntu_Bold8pt8b);
for (int i = 1; i <= 3; i++) {
yPos = yOffset + (i * 60);
getdisplay().fillRect(0, yPos, width, 1, commonData->fgcolor);
getdisplay().fillRect(0, yPos - 8, 24, 16, commonData->bgcolor); // Clear small area to remove potential chart lines
getdisplay().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
}
getdisplay().printf("%3d", chrtLbl); // Wind value label
}
return PAGE_UPDATE;
};
};
static Page* createPage(CommonData& common)
{
return new PageWindPlot(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 (0 here)
* 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" }, // Bus values we need in the page
// {}, // Bus values we need in the page
true // Show display header on/off
);
#endif

38
lib/obp60task/PageWindRose.cpp
View File

@@ -48,7 +48,7 @@ public:
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
// Get boat values for AWA
// Get boat value for AWA
GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (only one value by PageOneValue)
String name1 = xdrDelete(bvalue1->getName()); // Value name
name1 = name1.substring(0, 6); // String length limit for value name
@@ -63,8 +63,8 @@ public:
unit1old = unit1; // Save old unit
}
// Get boat values for AWS
GwApi::BoatValue *bvalue2 = pageData.values[1]; // First element in list (only one value by PageOneValue)
// Get boat value for AWS
GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list
String name2 = xdrDelete(bvalue2->getName()); // Value name
name2 = name2.substring(0, 6); // String length limit for value name
calibrationData.calibrateInstance(bvalue2, logger); // Check if boat data value is to be calibrated
@@ -77,8 +77,8 @@ public:
unit2old = unit2; // Save old unit
}
// Get boat values TWD
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Second element in list (only one value by PageOneValue)
// Get boat value for TWD
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Third element in list
String name3 = xdrDelete(bvalue3->getName()); // Value name
name3 = name3.substring(0, 6); // String length limit for value name
calibrationData.calibrateInstance(bvalue3, logger); // Check if boat data value is to be calibrated
@@ -91,9 +91,9 @@ public:
unit3old = unit3; // Save old unit
}
// Get boat values TWS
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Second element in list (only one value by PageOneValue)
String name4 = xdrDelete(bvalue4->getName()); // Value name
// Get boat value for TWS
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Fourth element in list
String name4 = xdrDelete(bvalue4->getName()); // Value name
name4 = name4.substring(0, 6); // String length limit for value name
calibrationData.calibrateInstance(bvalue4, logger); // Check if boat data value is to be calibrated
double value4 = bvalue4->value; // Value as double in SI unit
@@ -105,9 +105,9 @@ public:
unit4old = unit4; // Save old unit
}
// Get boat values DBT
GwApi::BoatValue *bvalue5 = pageData.values[4]; // Second element in list (only one value by PageOneValue)
String name5 = xdrDelete(bvalue5->getName()); // Value name
// Get boat value for DBT
GwApi::BoatValue *bvalue5 = pageData.values[4]; // Fifth element in list
String name5 = xdrDelete(bvalue5->getName()); // Value name
name5 = name5.substring(0, 6); // String length limit for value name
calibrationData.calibrateInstance(bvalue5, logger); // Check if boat data value is to be calibrated
double value5 = bvalue5->value; // Value as double in SI unit
@@ -119,9 +119,9 @@ public:
unit5old = unit5; // Save old unit
}
// Get boat values STW
GwApi::BoatValue *bvalue6 = pageData.values[5]; // Second element in list (only one value by PageOneValue)
String name6 = xdrDelete(bvalue6->getName()); // Value name
// Get boat value for STW
GwApi::BoatValue *bvalue6 = pageData.values[5]; // Sixth element in list
String name6 = xdrDelete(bvalue6->getName()); // Value name
name6 = name6.substring(0, 6); // String length limit for value name
calibrationData.calibrateInstance(bvalue6, logger); // Check if boat data value is to be calibrated
double value6 = bvalue6->value; // Value as double in SI unit
@@ -248,7 +248,7 @@ public:
float y = 150 - (rInstrument-30)*cos(i/180.0*pi); // y-coordinate cots
const char *ii = "";
switch (i)
{
{
case 0: ii="0"; break;
case 30 : ii="30"; break;
case 60 : ii="60"; break;
@@ -372,11 +372,11 @@ static Page *createPage(CommonData &common){
* and will will provide the names of the fixed values we need
*/
PageDescription registerPageWindRose(
"WindRose", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
"WindRose", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"AWA", "AWS", "TWD", "TWS", "DBT", "STW"}, // Bus values we need in the page
true // Show display header on/off
true // Show display header on/off
);
#endif

131
lib/obp60task/PageWindRoseFlex.cpp
View File

@@ -48,7 +48,7 @@ public:
String flashLED = config->getString(config->flashLED);
String backlightMode = config->getString(config->backlight);
// Get boat values for AWA
// 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
@@ -63,8 +63,8 @@ public:
unit1old = unit1; // Save old unit
}
// Get boat values for AWS
GwApi::BoatValue *bvalue2 = pageData.values[1]; // First element in list (only one value by PageOneValue)
// 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
@@ -77,8 +77,8 @@ public:
unit2old = unit2; // Save old unit
}
// Get boat values TWD
GwApi::BoatValue *bvalue3 = pageData.values[2]; // Second element in list (only one value by PageOneValue)
// 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
calibrationData.calibrateInstance(bvalue3, logger); // Check if boat data value is to be calibrated
@@ -91,9 +91,9 @@ public:
unit3old = unit3; // Save old unit
}
// Get boat values TWS
GwApi::BoatValue *bvalue4 = pageData.values[3]; // Second element in list (only one value by PageOneValue)
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
calibrationData.calibrateInstance(bvalue4, logger); // Check if boat data value is to be calibrated
double value4 = bvalue4->value; // Value as double in SI unit
@@ -105,9 +105,9 @@ public:
unit4old = unit4; // Save old unit
}
// Get boat values DBT
GwApi::BoatValue *bvalue5 = pageData.values[4]; // Second element in list (only one value by PageOneValue)
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
calibrationData.calibrateInstance(bvalue5, logger); // Check if boat data value is to be calibrated
double value5 = bvalue5->value; // Value as double in SI unit
@@ -119,9 +119,9 @@ public:
unit5old = unit5; // Save old unit
}
// Get boat values STW
GwApi::BoatValue *bvalue6 = pageData.values[5]; // Second element in list (only one value by PageOneValue)
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
calibrationData.calibrateInstance(bvalue6, logger); // Check if boat data value is to be calibrated
double value6 = bvalue6->value; // Value as double in SI unit
@@ -192,7 +192,7 @@ public:
getdisplay().setFont(&DSEG7Classic_BoldItalic20pt7b);
getdisplay().setCursor(295, 65);
if(valid3 == true){
// getdisplay().print(abs(value3 * 180 / PI), 0); // Value
// getdisplay().print(abs(value3 * 180 / M_PI), 0); // Value
getdisplay().print(svalue4); // Value
}
else{
@@ -236,7 +236,6 @@ public:
// Draw wind rose
int rInstrument = 110; // Radius of grafic instrument
float pi = 3.141592;
getdisplay().fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle
getdisplay().fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle
@@ -246,24 +245,23 @@ public:
for(int i=0; i<360; i=i+10)
{
// Scaling values
float x = 200 + (rInstrument-30)*sin(i/180.0*pi); // x-coordinate dots
float y = 150 - (rInstrument-30)*cos(i/180.0*pi); // y-coordinate dots
float x = 200 + (rInstrument-30)*sin(i/180.0*M_PI); // x-coordinate dots
float y = 150 - (rInstrument-30)*cos(i/180.0*M_PI); // y-coordinate dots
const char *ii = "";
switch (i)
{
case 0: ii="0"; break;
case 30 : ii="30"; break;
case 60 : ii="60"; break;
case 90 : ii="90"; break;
case 120 : ii="120"; break;
case 150 : ii="150"; break;
case 180 : ii="180"; break;
case 210 : ii="210"; break;
case 240 : ii="240"; break;
case 270 : ii="270"; break;
case 300 : ii="300"; break;
case 330 : ii="330"; break;
default: break;
switch (i) {
case 0: ii="0"; break;
case 30 : ii="30"; break;
case 60 : ii="60"; break;
case 90 : ii="90"; break;
case 120 : ii="120"; break;
case 150 : ii="150"; break;
case 180 : ii="180"; break;
case 210 : ii="210"; break;
case 240 : ii="240"; break;
case 270 : ii="270"; break;
case 300 : ii="300"; break;
case 330 : ii="330"; break;
default: break;
}
// Print text centered on position x, y
@@ -277,11 +275,11 @@ public:
}
// Draw sub scale with dots
float x1c = 200 + rInstrument*sin(i/180.0*pi);
float y1c = 150 - rInstrument*cos(i/180.0*pi);
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);
float sinx=sin(i/180.0*pi);
float cosx=cos(i/180.0*pi);
float sinx=sin(i/180.0*M_PI);
float cosx=cos(i/180.0*M_PI);
// Draw sub scale with lines (two triangles)
if(i % 30 == 0){
@@ -331,36 +329,26 @@ public:
//*******************************************************************************************
// Show value6, so that it does not collide with the wind pointer
if ( cos(value1) > 0){
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{
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
getdisplay().setFont(&DSEG7Classic_BoldItalic16pt7b);
if (cos(value1) > 0){
getdisplay().setCursor(160, 200);
getdisplay().print(svalue6); // Value
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(190, 215);
} else{
getdisplay().setCursor(160, 130);
getdisplay().print(svalue6); // Value
getdisplay().setFont(&Ubuntu_Bold8pt8b);
getdisplay().setCursor(190, 90);
}
getdisplay().print(" ");
if(holdvalues == false){
getdisplay().print(unit6); // Unit
}
else{
getdisplay().print(unit6old); // Unit
}
return PAGE_UPDATE;
};
@@ -377,11 +365,10 @@ static Page *createPage(CommonData &common){
* and will will provide the names of the fixed values we need
*/
PageDescription registerPageWindRoseFlex(
"WindRoseFlex", // Page name
createPage, // Action
6, // Number of bus values depends on selection in Web configuration; was zero
//{"AWA", "AWS", "COG", "SOG", "TWD", "TWS"}, // Bus values we need in the page, modified for WindRose2
true // Show display header on/off
"WindRoseFlex", // Page name
createPage, // Action
6, // Number of bus values depends on selection in Web configuration; was zero
true // Show display header on/off
);
#endif

8
lib/obp60task/PageXTETrack.cpp
View File

@@ -223,11 +223,11 @@ static Page* createPage(CommonData &common){
* this will be number of BoatValue pointers in pageData.values
*/
PageDescription registerPageXTETrack(
"XTETrack", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
"XTETrack", // Page name
createPage, // Action
0, // Number of bus values depends on selection in Web configuration
{"XTE", "COG", "DTW", "BTW"}, // Bus values we need in the page
true // Show display header on/off
true // Show display header on/off
);
#endif

8
lib/obp60task/Pagedata.h
View File

@@ -4,15 +4,19 @@
#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
typedef std::vector<GwApi::BoatValue *> ValueList;
typedef struct{
String pageName;
uint8_t pageNumber; // page number in sequence of visible pages
//the values will always contain the user defined values first
ValueList values;
tBoatHstryData boatHstry;
} PageData;
// Sensor data structure (only for extended sensors, not for NMEA bus sensors)
@@ -193,7 +197,7 @@ typedef struct{
double value;
String svalue;
String unit;
} FormatedData;
} FormattedData;
// Formatter for boat values
FormatedData formatValue(GwApi::BoatValue *value, CommonData &commondata);
FormattedData formatValue(GwApi::BoatValue *value, CommonData &commondata);

46
lib/obp60task/config.json
View File

@@ -219,6 +219,17 @@
"obp60":"true"
}
},
{
"name": "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"
}
},
{
"name": "lengthFormat",
"label": "Length Format",
@@ -1106,6 +1117,21 @@
"obp60":"true"
}
},
{
"name": "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"
}
},
{
"name": "backlight",
"label": "Backlight Mode",
@@ -1292,7 +1318,6 @@
"default": "Voltage",
"description": "Type of page for page 1",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -1314,6 +1339,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -1573,7 +1599,6 @@
"default": "WindRose",
"description": "Type of page for page 2",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -1595,6 +1620,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -1851,7 +1877,6 @@
"default": "OneValue",
"description": "Type of page for page 3",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -1873,6 +1898,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -2126,7 +2152,6 @@
"default": "TwoValues",
"description": "Type of page for page 4",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -2148,6 +2173,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -2398,7 +2424,6 @@
"default": "ThreeValues",
"description": "Type of page for page 5",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -2420,6 +2445,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -2667,7 +2693,6 @@
"default": "FourValues",
"description": "Type of page for page 6",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -2689,6 +2714,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -2933,7 +2959,6 @@
"default": "FourValues2",
"description": "Type of page for page 7",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -2955,6 +2980,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -3196,7 +3222,6 @@
"default": "Clock",
"description": "Type of page for page 8",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -3218,6 +3243,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -3456,7 +3482,6 @@
"default": "RollPitch",
"description": "Type of page for page 9",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -3478,6 +3503,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -3713,7 +3739,6 @@
"default": "Battery2",
"description": "Type of page for page 10",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -3735,6 +3760,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"

46
lib/obp60task/config_obp40.json
View File

@@ -219,6 +219,17 @@
"obp40": "true"
}
},
{
"name": "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"
}
},
{
"name": "lengthFormat",
"label": "Length Format",
@@ -1118,6 +1129,21 @@
"obp40": "true"
}
},
{
"name": "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"
}
},
{
"name": "backlight",
"label": "Backlight Mode",
@@ -1315,7 +1341,6 @@
"default": "Clock",
"description": "Type of page for page 1",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -1337,6 +1362,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -1596,7 +1622,6 @@
"default": "Wind",
"description": "Type of page for page 2",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -1618,6 +1643,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -1874,7 +1900,6 @@
"default": "OneValue",
"description": "Type of page for page 3",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -1896,6 +1921,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -2149,7 +2175,6 @@
"default": "TwoValues",
"description": "Type of page for page 4",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -2171,6 +2196,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -2421,7 +2447,6 @@
"default": "ThreeValues",
"description": "Type of page for page 5",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -2443,6 +2468,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -2690,7 +2716,6 @@
"default": "FourValues",
"description": "Type of page for page 6",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -2712,6 +2737,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -2956,7 +2982,6 @@
"default": "FourValues2",
"description": "Type of page for page 7",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -2978,6 +3003,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -3219,7 +3245,6 @@
"default": "Fluid",
"description": "Type of page for page 8",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -3241,6 +3266,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -3479,7 +3505,6 @@
"default": "RollPitch",
"description": "Type of page for page 9",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -3501,6 +3526,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"
@@ -3736,7 +3762,6 @@
"default": "Battery2",
"description": "Type of page for page 10",
"list": [
"Anchor",
"BME280",
"Battery",
"Battery2",
@@ -3758,6 +3783,7 @@
"Voltage",
"WhitePage",
"Wind",
"WindPlot",
"WindRose",
"WindRoseFlex",
"XTETrack"

289
lib/obp60task/gen_set.py
View File

@@ -1,132 +1,179 @@
#!/usr/bin/env python3
# A tool to generate that part of config.json that deals with pages and fields.
#
#Usage: 1. modify this script (e.g.add a page, change number of fields, etc.)
# 2. Delete all lines from config.json from the curly backet before "name": "page1type" to o the end of the file (as of today, delete from line 917 to the end of the File)
# 3. run ./gen_set.py >> config.json
"""
A tool to generate that part of config.json that deals with pages and fields.
Usage example:
1. Delete all lines from config.json from the curly backet before
"name": "page1type" to the end of the file
2. run ./gen_set.py -d obp60 -p 10 >> config.json
TODO Better handling of default pages
"""
import os
import sys
import getopt
import re
import json
# List of all pages and the number of parameters they expect.
no_of_fields_per_page = {
"Wind": 0,
"XTETrack": 0,
"Battery2": 0,
"Battery": 0,
"BME280": 0,
"Clock": 0,
"Compass" : 0,
"DST810": 0,
"Fluid": 1,
"FourValues2": 4,
"FourValues": 4,
"Generator": 0,
"KeelPosition": 0,
"OneValue": 1,
"RollPitch": 2,
"RudderPosition": 0,
"SixValues" : 6,
"Solar": 0,
"ThreeValues": 3,
"TwoValues": 2,
"Voltage": 0,
"WhitePage": 0,
"WindRose": 0,
"WindRoseFlex": 6,
"Anchor", 0
}
__version__ = "0.2"
# No changes needed beyond this point
# max number of pages supported by OBP60
no_of_pages = 10
# Default selection for each page
default_pages = [
"Voltage",
"WindRose",
"OneValue",
"TwoValues",
"ThreeValues",
"FourValues",
"FourValues2",
"Clock",
"RollPitch",
"Battery2",
]
numbers = [
"one",
"two",
"three",
"four",
"five",
"six",
"seven",
"eight",
"nine",
"ten",
]
pages = sorted(no_of_fields_per_page.keys())
max_no_of_fields_per_page = max(no_of_fields_per_page.values())
def detect_pages(filename):
# returns a dictionary with page name and the number of gui fields
pagefiles = []
with open(filename, 'r') as fh:
pattern = r'extern PageDescription\s*register(Page[^;\s]*)'
for line in fh:
if "extern PageDescription" in line:
match = re.search(pattern, line)
if match:
pagefiles.append(match.group(1))
try:
pagefiles.remove('PageSystem')
except ValueError:
pass
pagedata = {}
for pf in pagefiles:
filename = pf + ".cpp"
with open(filename, 'r') as fh:
content = fh.read()
pattern = r'PageDescription\s*?register' + pf + r'\s*\(\s*"([^"]+)".*?\n\s*(\d+)'
match = re.search(pattern, content, re.DOTALL)
if match:
pagedata[match.group(1)] = int(match.group(2))
return pagedata
output = []
def get_default_page(pageno):
# Default selection for each page
default_pages = (
"Voltage",
"WindRose",
"OneValue",
"TwoValues",
"ThreeValues",
"FourValues",
"FourValues2",
"Clock",
"RollPitch",
"Battery2"
)
if pageno > len(default_pages):
return "OneValue"
return default_pages[pageno - 1]
for page_no in range(1, no_of_pages + 1):
page_data = {
"name": f"page{page_no}type",
"label": "Type",
"type": "list",
"default": default_pages[page_no - 1],
"description": f"Type of page for page {page_no}",
"list": pages,
"category": f"OBP60 Page {page_no}",
"capabilities": {"obp60": "true"},
"condition": [{"visiblePages": vp} for vp in range(page_no, no_of_pages + 1)],
#"fields": [],
}
output.append(page_data)
def number_to_text(number):
if number < 0 or number > 99:
raise ValueError("Only numbers from 0 to 99 are allowed.")
numbers = ("zero", "one", "two", "three", "four", "five", "six", "seven",
"eight", "nine", "ten", "eleven", "twelve", "thirteen", "fourteen",
"fifteen", "sixteen", "seventeen", "eighteen", "nineteen")
tens = ("", "", "twenty", "thirty", "forty", "fifty", "sixty", "seventy",
"eighty", "ninety")
if number < 20:
return numbers[number]
else:
q, r = divmod(number, 10)
return tens[q] + numbers[r]
for field_no in range(1, max_no_of_fields_per_page + 1):
field_data = {
"name": f"page{page_no}value{field_no}",
"label": f"Field {field_no}",
"type": "boatData",
"default": "",
"description": f"The display for field {numbers[field_no - 1]}",
"category": f"OBP60 Page {page_no}",
"capabilities": {"obp60": "true"},
"condition": [
{f"page{page_no}type": page}
for page in pages
if no_of_fields_per_page[page] >= field_no
def create_json(device, no_of_pages, pagedata):
pages = sorted(pagedata.keys())
max_no_of_fields_per_page = max(pagedata.values())
output = []
for page_no in range(1, no_of_pages + 1):
page_data = {
"name": f"page{page_no}type",
"label": "Type",
"type": "list",
"default": get_default_page(page_no),
"description": f"Type of page for page {page_no}",
"list": pages,
"category": f"{device.upper()} Page {page_no}",
"capabilities": {device.lower(): "true"},
"condition": [{"visiblePages": vp} for vp in range(page_no, no_of_pages + 1)],
#"fields": [],
}
output.append(page_data)
for field_no in range(1, max_no_of_fields_per_page + 1):
field_data = {
"name": f"page{page_no}value{field_no}",
"label": f"Field {field_no}",
"type": "boatData",
"default": "",
"description": "The display for field {}".format(number_to_text(field_no)),
"category": f"{device.upper()} Page {page_no}",
"capabilities": {device.lower(): "true"},
"condition": [
{f"page{page_no}type": page}
for page in pages
if pagedata[page] >= field_no
],
}
output.append(field_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"}
],
}
output.append(field_data)
"description": "Fluid type in tank",
"category": f"{device.upper()} Page {page_no}",
"capabilities": {
device.lower(): "true"
},
"condition":[{f"page{page_no}type":"Fluid"}]
}
output.append(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"}
],
"description": "Fluid type in tank",
"category": f"OBP60 Page {page_no}",
"capabilities": {
"obp60":"true"
},
"condition":[{f"page{page_no}type":"Fluid"}]
}
output.append(fluid_data)
return json.dumps(output, indent=4)
json_output = json.dumps(output, indent=4)
# print omitting first and last line containing [ ] of JSON array
#print(json_output[1:-1])
# print omitting first line containing [ of JSON array
print(json_output[1:])
# print(",")
def usage():
print("{} v{}".format(os.path.basename(__file__), __version__))
print()
print("Command line options")
print(" -d --device device name to use e.g. obp60")
print(" -p --pages number of pages to create")
print(" -h show this help")
print()
if __name__ == '__main__':
try:
options, remainder = getopt.getopt(sys.argv[1:], 'd:p:', ['device=','--pages='])
except getopt.GetoptError as err:
print(err)
usage()
sys.exit(2)
device = "obp60"
no_of_pages = 10
for opt, arg in options:
if opt in ('-d', '--device'):
device = arg
elif opt in ('-p', '--pages'):
no_of_pages = int(arg)
elif opt == '-h':
usage()
sys.exit(0)
# automatic detect pages and number of fields from sourcecode
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:])

2
lib/obp60task/images/OBP40_400x300.xbm
View File

@@ -1,6 +1,6 @@
#define OBP40_400x300_width 400
#define OBP40_400x300_height 300
static unsigned char OBP40_400x300_bits[] PROGMEM = {
const unsigned char OBP40_400x300_bits[15000] PROGMEM = {
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,

2
lib/obp60task/images/OBP60_400x300.xbm
View File

@@ -1,6 +1,6 @@
#define OBP60_400x300_width 400
#define OBP60_400x300_height 300
static unsigned char OBP60_400x300_bits[] = {
const unsigned char OBP60_400x300_bits[15000] PROGMEM = {
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,

2
lib/obp60task/images/OBP_400x300.xbm
View File

@@ -1,6 +1,6 @@
#define OBP_400x300_width 400
#define OBP_400x300_height 300
static unsigned char OBP_400x300_bits[] = {
const unsigned char OBP_400x300_bits[15000] PROGMEM = {
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,

220
lib/obp60task/obp60task.cpp
View File

@@ -13,11 +13,11 @@
#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
#include "driver/rtc_io.h" // Needs for weakup from deep sleep
#include <FS.h> // SD-Card access
#include <SD.h>
#include <SPI.h>
#endif
@@ -32,7 +32,6 @@
#include "OBP60QRWiFi.h" // Functions lib for WiFi QR code
#include "OBPSensorTask.h" // Functions lib for sensor data
// Global vars
bool initComplete = false; // Initialization complete
int taskRunCounter = 0; // Task couter for loop section
@@ -45,63 +44,23 @@ void OBP60Init(GwApi *api){
GwConfigHandler *config = api->getConfig();
// Set a new device name and hidden the original name in the main config
String devicename = api->getConfig()->getConfigItem(api->getConfig()->deviceName,true)->asString();
api->getConfig()->setValue(GwConfigDefinitions::systemName, devicename, GwConfigInterface::ConfigType::HIDDEN);
String devicename = config->getConfigItem(config->deviceName, true)->asString();
config->setValue(GwConfigDefinitions::systemName, devicename, GwConfigInterface::ConfigType::HIDDEN);
api->getLogger()->logDebug(GwLog::LOG,"obp60init running");
logger->prefix = devicename + ":";
logger->logDebug(GwLog::LOG,"obp60init running");
// Check I2C devices
// Init power
String powermode = config->getConfigItem(config->powerMode,true)->asString();
logger->logDebug(GwLog::DEBUG, "Power Mode is: %s", powermode.c_str());
powerInit(powermode);
// Init hardware
hardwareInit(api);
// Init power rail 5.0V
String powermode = api->getConfig()->getConfigItem(api->getConfig()->powerMode,true)->asString();
api->getLogger()->logDebug(GwLog::DEBUG,"Power Mode is: %s", powermode.c_str());
if(powermode == "Max Power" || powermode == "Only 5.0V"){
#ifdef HARDWARE_V21
setPortPin(OBP_POWER_50, true); // Power on 5.0V rail
#endif
#ifdef BOARD_OBP40S3
setPortPin(OBP_POWER_EPD, true);// Power on ePaper display
setPortPin(OBP_POWER_SD, true); // Power on SD card
#endif
}
else{
#ifdef HARDWARE_V21
setPortPin(OBP_POWER_50, false); // Power off 5.0V rail
#endif
#ifdef BOARD_OBP40S3
setPortPin(OBP_POWER_EPD, false);// Power off ePaper display
setPortPin(OBP_POWER_SD, false); // Power off SD card
#endif
}
#ifdef BOARD_OBP40S3
bool sdcard = config->getBool(config->useSDCard);
if (sdcard) {
SPIClass SD_SPI = SPIClass(HSPI);
SD_SPI.begin(SD_SPI_CLK, SD_SPI_MISO, SD_SPI_MOSI);
if (SD.begin(SD_SPI_CS, SD_SPI, 80000000)) {
String sdtype = "unknown";
uint8_t cardType = SD.cardType();
switch (cardType) {
case CARD_MMC:
sdtype = "MMC";
break;
case CARD_SD:
sdtype = "SDSC";
break;
case CARD_SDHC:
sdtype = "SDHC";
break;
}
uint64_t cardSize = SD.cardSize() / (1024 * 1024);
LOG_DEBUG(GwLog::LOG,"SD card type %s of size %d MB detected", sdtype, cardSize);
}
}
#ifdef BOARD_OBP40S3
// Deep sleep wakeup configuration
esp_sleep_enable_ext0_wakeup(OBP_WAKEWUP_PIN, 0); // 1 = High, 0 = Low
rtc_gpio_pullup_en(OBP_WAKEWUP_PIN); // Activate pullup resistor
@@ -110,7 +69,7 @@ void OBP60Init(GwApi *api){
// Settings for e-paper display
String fastrefresh = api->getConfig()->getConfigItem(api->getConfig()->fastRefresh,true)->asString();
api->getLogger()->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
@@ -129,11 +88,11 @@ void OBP60Init(GwApi *api){
// Get CPU speed
int freq = getCpuFrequencyMhz();
api->getLogger()->logDebug(GwLog::LOG,"CPU speed at boot: %i MHz", freq);
logger->logDebug(GwLog::LOG,"CPU speed at boot: %i MHz", freq);
// Settings for backlight
String backlightMode = api->getConfig()->getConfigItem(api->getConfig()->backlight,true)->asString();
api->getLogger()->logDebug(GwLog::DEBUG,"Backlight Mode is: %s", backlightMode.c_str());
logger->logDebug(GwLog::DEBUG,"Backlight Mode is: %s", backlightMode.c_str());
uint brightness = uint(api->getConfig()->getConfigItem(api->getConfig()->blBrightness,true)->asInt());
String backlightColor = api->getConfig()->getConfigItem(api->getConfig()->blColor,true)->asString();
if(String(backlightMode) == "On"){
@@ -148,7 +107,7 @@ void OBP60Init(GwApi *api){
// Settings flash LED mode
String ledMode = api->getConfig()->getConfigItem(api->getConfig()->flashLED,true)->asString();
api->getLogger()->logDebug(GwLog::DEBUG,"LED Mode is: %s", ledMode.c_str());
logger->logDebug(GwLog::DEBUG,"LED Mode is: %s", ledMode.c_str());
if(String(ledMode) == "Off"){
setBlinkingLED(false);
}
@@ -275,10 +234,12 @@ void registerAllPages(PageList &list){
list.add(&registerPageFourValues2);
extern PageDescription registerPageWind;
list.add(&registerPageWind);
extern PageDescription registerPageWindPlot;
list.add(&registerPageWindPlot);
extern PageDescription registerPageWindRose;
list.add(&registerPageWindRose);
extern PageDescription registerPageWindRoseFlex;
list.add(&registerPageWindRoseFlex); //
list.add(&registerPageWindRoseFlex);
extern PageDescription registerPageVoltage;
list.add(&registerPageVoltage);
extern PageDescription registerPageDST810;
@@ -309,8 +270,6 @@ void registerAllPages(PageList &list){
list.add(&registerPageXTETrack);
extern PageDescription registerPageFluid;
list.add(&registerPageFluid);
extern PageDescription registerPageAnchor;
list.add(&registerPageAnchor);
}
// Undervoltage detection for shutdown display
@@ -374,6 +333,124 @@ void underVoltageDetection(GwApi *api, CommonData &common){
}
}
//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
//####################################################################################
void OBP60Task(GwApi *api){
@@ -487,6 +564,11 @@ void OBP60Task(GwApi *api){
//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;
@@ -525,6 +607,10 @@ 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);
}
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);
@@ -532,6 +618,13 @@ void OBP60Task(GwApi *api){
// Read all calibration data settings from config
calibrationData.readConfig(config, logger);
// Check user setting for true wind calculation
bool calcTrueWnds = api->getConfig()->getBool(api->getConfig()->calcTrueWnds, false);
// bool simulation = api->getConfig()->getBool(api->getConfig()->useSimuData, false);
// Initialize history buffer for certain boat data
initHstryBuf(api, &boatValues, hstryBufList);
// Display screenshot handler for HTTP request
// http://192.168.15.1/api/user/OBP60Task/screenshot
api->registerRequestHandler("screenshot", [api, &pageNumber, pages](AsyncWebServerRequest *request) {
@@ -755,6 +848,7 @@ void OBP60Task(GwApi *api){
else{
getdisplay().fillScreen(commonData.fgcolor); // Clear display
#ifdef DISPLAY_GDEY042T81
getdisplay().hibernate(); // Set display in hybenate mode
getdisplay().init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
@@ -782,6 +876,7 @@ void OBP60Task(GwApi *api){
else{
getdisplay().fillScreen(commonData.fgcolor); // Clear display
#ifdef DISPLAY_GDEY042T81
getdisplay().hibernate(); // Set display in hybenate mode
getdisplay().init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
@@ -806,6 +901,7 @@ void OBP60Task(GwApi *api){
else{
getdisplay().fillScreen(commonData.fgcolor); // Clear display
#ifdef DISPLAY_GDEY042T81
getdisplay().hibernate(); // Set display in hybenate mode
getdisplay().init(115200, true, 2, false); // Init for Waveshare boards with "clever" reset circuit, 2ms reset pulse
#else
getdisplay().init(115200); // Init for normal displays
@@ -834,6 +930,12 @@ void OBP60Task(GwApi *api){
api->getBoatDataValues(boatValues.numValues,boatValues.allBoatValues);
api->getStatus(commonData.status);
if (calcTrueWnds) {
addTrueWind(api, &boatValues);
}
// 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

14
lib/obp60task/platformio.ini
View File

@@ -43,16 +43,17 @@ lib_deps =
adafruit/Adafruit FRAM I2C@2.0.3
build_flags=
#https://thingpulse.com/usb-settings-for-logging-with-the-esp32-s3-in-platformio/?srsltid=AfmBOopGskbkr4GoeVkNlFaZXe_zXkLceKF6Rn-tmoXABCeAR2vWsdHL
# -D CORE_DEBUG_LEVEL=1 #Debug level for CPU core via CDC (seral device)
# -D CORE_DEBUG_LEVEL=1 #Debug level for CPU core via CDC (serial device)
# -D TIME=$UNIX_TIME #Set PC time for RTC (only settable via VSC)
-D DISABLE_DIAGNOSTIC_OUTPUT #Disable diagnostic output for GxEPD2 lib
-D BOARD_OBP60S3 #Board OBP60 V2.1 with ESP32S3
# -D HARDWARE_V20 #OBP60 hardware revision V2.0
-D HARDWARE_V21 #OBP60 hardware revision V2.1
# -D DISPLAY_GDEW042T2 #old E-Ink display from Waveshare, R10 0.47 ohm
-D DISPLAY_GDEY042T81 #new E-Ink display from Waveshare, R10 2.2 ohm
# -D DISPLAY_GYE042A87 #alternativ E-Ink display from Genyo Optical, R10 2.2 ohm
# -D DISPLAY_SE0420NQ04 #alternativ E-Ink display from SID Technology, R10 2.2 ohm
# -D DISPLAY_GDEW042T2 #old E-Ink display from GoodDisplay (Waveshare), R10 0.47 ohm - very good
-D DISPLAY_GDEY042T81 #new E-Ink display from GoodDisplay (Waveshare), R10 2.2 ohm - good (contast lost by shunshine)
# -D DISPLAY_GYE042A87 #alternativ E-Ink display from Genyo Optical, R10 2.2 ohm - medium
# -D DISPLAY_SE0420NQ04 #alternativ E-Ink display from SID Technology, R10 2.2 ohm - bad (burn in effects)
# -D DISPLAY_ZJY400300-042CAAMFGN #alternativ E-Ink display from ZZE Technology, R10 2.2 ohm - very good
${env.build_flags}
#CONFIG_ESP_TASK_WDT_TIMEOUT_S = 10 #Task Watchdog timeout period (seconds) [1...60] 5 default
upload_port = /dev/ttyACM0 #OBP60 download via USB-C direct
@@ -96,7 +97,8 @@ build_flags=
-D DISABLE_DIAGNOSTIC_OUTPUT #Disable diagnostic output for GxEPD2 lib
-D BOARD_OBP40S3 #Board OBP40 with ESP32S3
-D HARDWARE_V10 #OBP40 hardware revision V1.0 SKU:DIE07300S V1.1 (CrowPanel 4.2)
-D DISPLAY_GDEY042T81 #new E-Ink display from Waveshare, R10 2.2 ohm
-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
${env.build_flags}