#if defined BOARD_OBP60S3 || defined BOARD_OBP40S3 #include "Pagedata.h" #include "OBP60Extensions.h" class PageClock : public Page { public: PageClock(CommonData &common){ commonData = &common; common.logger->logDebug(GwLog::LOG,"Instantiate PageClock"); } // Key functions virtual int handleKey(int key){ // Code for keylock if(key == 11){ commonData->keylock = !commonData->keylock; return 0; // Commit the key } return key; } virtual void displayPage(PageData &pageData) { GwConfigHandler *config = commonData->config; GwLog *logger = commonData->logger; static String svalue1old = ""; static String unit1old = ""; static String svalue2old = ""; static String unit2old = ""; static String svalue3old = ""; static String unit3old = ""; static String svalue5old = ""; static String svalue6old = ""; double value1 = 0; double value2 = 0; double value3 = 0; // Get config data String lengthformat = config->getString(config->lengthFormat); bool simulation = config->getBool(config->useSimuData); bool holdvalues = config->getBool(config->holdvalues); String flashLED = config->getString(config->flashLED); String backlightMode = config->getString(config->backlight); String stimezone = config->getString(config->timeZone); double timezone = stimezone.toDouble(); // Get boat values for GPS time GwApi::BoatValue *bvalue1 = pageData.values[0]; // First element in list (only one value by PageOneValue) String name1 = bvalue1->getName().c_str(); // Value name name1 = name1.substring(0, 6); // String length limit for value name if(simulation == false){ value1 = bvalue1->value; // Value as double in SI unit } else{ value1 = 38160; // Simulation data for time value 11:36 in seconds } // Other simulation data see OBP60Formater.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 if(valid1 == true){ svalue1old = svalue1; // Save old value unit1old = unit1; // Save old unit } // Get boat values for GPS date GwApi::BoatValue *bvalue2 = pageData.values[1]; // Second element in list (only one value by PageOneValue) String name2 = bvalue2->getName().c_str(); // Value name name2 = name2.substring(0, 6); // String length limit for value name value2 = bvalue2->value; // Value as double in SI unit bool valid2 = bvalue2->valid; // Valid information String svalue2 = formatValue(bvalue2, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places String unit2 = formatValue(bvalue2, *commonData).unit; // Unit of value if(valid2 == true){ svalue2old = svalue2; // Save old value unit2old = unit2; // Save old unit } // Get boat values for HDOP date GwApi::BoatValue *bvalue3 = pageData.values[2]; // Third element in list (only one value by PageOneValue) String name3 = bvalue3->getName().c_str(); // Value name name3 = name3.substring(0, 6); // String length limit for value name value3 = bvalue3->value; // Value as double in SI unit bool valid3 = bvalue3->valid; // Valid information String svalue3 = formatValue(bvalue3, *commonData).svalue; // Formatted value as string including unit conversion and switching decimal places String unit3 = formatValue(bvalue3, *commonData).unit; // Unit of value if(valid3 == true){ svalue3old = svalue3; // Save old value unit3old = unit3; // Save old unit } // Optical warning by limit violation (unused) if(String(flashLED) == "Limit Violation"){ setBlinkingLED(false); setFlashLED(false); } // Logging boat values if (bvalue1 == NULL) return; LOG_DEBUG(GwLog::LOG,"Drawing at PageClock, %s:%f, %s:%f", name1.c_str(), value1, name2.c_str(), value2); // Draw page //*********************************************************** // Set display in partial refresh mode getdisplay().setPartialWindow(0, 0, getdisplay().width(), getdisplay().height()); // Set partial update getdisplay().setTextColor(commonData->fgcolor); // Show values GPS date getdisplay().setFont(&Ubuntu_Bold8pt7b); getdisplay().setCursor(10, 65); if(holdvalues == false) getdisplay().print(svalue2); // Value else getdisplay().print(svalue2old); getdisplay().setFont(&Ubuntu_Bold12pt7b); getdisplay().setCursor(10, 95); getdisplay().print("Date"); // Name // Horizintal separator left getdisplay().fillRect(0, 149, 60, 3, commonData->fgcolor); // Show values GPS time getdisplay().setFont(&Ubuntu_Bold8pt7b); getdisplay().setCursor(10, 250); if(holdvalues == false) getdisplay().print(svalue1); // Value else getdisplay().print(svalue1old); getdisplay().setFont(&Ubuntu_Bold12pt7b); getdisplay().setCursor(10, 220); getdisplay().print("Time"); // Name // Show values sunrise String sunrise = "---"; if(valid1 == true && valid2 == true && valid3 == true){ sunrise = String(commonData->sundata.sunriseHour) + ":" + String(commonData->sundata.sunriseMinute + 100).substring(1); svalue5old = sunrise; } getdisplay().setFont(&Ubuntu_Bold8pt7b); getdisplay().setCursor(335, 65); if(holdvalues == false) getdisplay().print(sunrise); // Value else getdisplay().print(svalue5old); getdisplay().setFont(&Ubuntu_Bold12pt7b); getdisplay().setCursor(335, 95); getdisplay().print("SunR"); // Name // Horizintal separator right getdisplay().fillRect(340, 149, 80, 3, commonData->fgcolor); // Show values sunset String sunset = "---"; if(valid1 == true && valid2 == true && valid3 == true){ sunset = String(commonData->sundata.sunsetHour) + ":" + String(commonData->sundata.sunsetMinute + 100).substring(1); svalue6old = sunset; } getdisplay().setFont(&Ubuntu_Bold8pt7b); getdisplay().setCursor(335, 250); if(holdvalues == false) getdisplay().print(sunset); // Value else getdisplay().print(svalue6old); getdisplay().setFont(&Ubuntu_Bold12pt7b); getdisplay().setCursor(335, 220); getdisplay().print("SunS"); // Name //******************************************************************************************* // Draw clock int rInstrument = 110; // Radius of clock float pi = 3.141592; getdisplay().fillCircle(200, 150, rInstrument + 10, commonData->fgcolor); // Outer circle getdisplay().fillCircle(200, 150, rInstrument + 7, commonData->bgcolor); // Outer circle for(int i=0; i<360; i=i+1) { // 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 cots const char *ii = ""; switch (i) { case 0: ii="12"; break; case 30 : ii=""; break; case 60 : ii=""; break; case 90 : ii="3"; break; case 120 : ii=""; break; case 150 : ii=""; break; case 180 : ii="6"; break; case 210 : ii=""; break; case 240 : ii=""; break; case 270 : ii="9"; break; case 300 : ii=""; break; case 330 : ii=""; break; default: break; } // Print text centered on position x, y int16_t x1, y1; // Return values of getTextBounds uint16_t w, h; // Return values of getTextBounds getdisplay().getTextBounds(ii, int(x), int(y), &x1, &y1, &w, &h); // Calc width of new string getdisplay().setCursor(x-w/2, y+h/2); if(i % 30 == 0){ getdisplay().setFont(&Ubuntu_Bold12pt7b); getdisplay().print(ii); } // Draw sub scale with dots float sinx = 0; float cosx = 0; if(i % 6 == 0){ float x1c = 200 + rInstrument*sin(i/180.0*pi); float y1c = 150 - rInstrument*cos(i/180.0*pi); getdisplay().fillCircle((int)x1c, (int)y1c, 2, commonData->fgcolor); sinx=sin(i/180.0*pi); cosx=cos(i/180.0*pi); } // Draw sub scale with lines (two triangles) if(i % 30 == 0){ float dx=2; // Line thickness = 2*dx+1 float xx1 = -dx; float xx2 = +dx; float yy1 = -(rInstrument-10); float yy2 = -(rInstrument+10); getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1), 200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1), 200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2),commonData->fgcolor); getdisplay().fillTriangle(200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1), 200+(int)(cosx*xx1-sinx*yy2),150+(int)(sinx*xx1+cosx*yy2), 200+(int)(cosx*xx2-sinx*yy2),150+(int)(sinx*xx2+cosx*yy2),commonData->fgcolor); } } // Print Unit in clock getdisplay().setFont(&Ubuntu_Bold12pt7b); getdisplay().setCursor(175, 110); if(holdvalues == false){ getdisplay().print(unit2); // Unit } else{ getdisplay().print(unit2old); // Unit } // Clock values double hour = 0; double minute = 0; value1 = value1 + int(timezone*3600); if (value1 > 86400) {value1 = value1 - 86400;} if (value1 < 0) {value1 = value1 + 86400;} hour = (value1 / 3600.0); if(hour > 12) hour = hour - 12.0; // minute = (hour - int(hour)) * 3600.0 / 60.0; // Analog minute pointer smooth moving minute = int((hour - int(hour)) * 3600.0 / 60.0); // Jumping minute pointer from minute to minute LOG_DEBUG(GwLog::DEBUG,"... PageClock, value1: %f hour: %f minute:%f", value1, hour, minute); // Draw hour pointer float startwidth = 8; // Start width of pointer if(valid1 == true || holdvalues == true || simulation == true){ float sinx=sin(hour * 30.0 * pi / 180); // Hour float cosx=cos(hour * 30.0 * pi / 180); // Normal pointer // Pointer as triangle with center base 2*width float xx1 = -startwidth; float xx2 = startwidth; float yy1 = -startwidth; float yy2 = -(rInstrument * 0.5); getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1), 200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1), 200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2),commonData->fgcolor); // Inverted pointer // Pointer as triangle with center base 2*width float endwidth = 2; // End width of pointer float ix1 = endwidth; float ix2 = -endwidth; float iy1 = -(rInstrument * 0.5); float iy2 = -endwidth; getdisplay().fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1), 200+(int)(cosx*ix2-sinx*iy1),150+(int)(sinx*ix2+cosx*iy1), 200+(int)(cosx*0-sinx*iy2),150+(int)(sinx*0+cosx*iy2),commonData->fgcolor); } // Draw minute pointer startwidth = 8; // Start width of pointer if(valid1 == true || holdvalues == true || simulation == true){ float sinx=sin(minute * 6.0 * pi / 180); // Minute float cosx=cos(minute * 6.0 * pi / 180); // Normal pointer // Pointer as triangle with center base 2*width float xx1 = -startwidth; float xx2 = startwidth; float yy1 = -startwidth; float yy2 = -(rInstrument - 15); getdisplay().fillTriangle(200+(int)(cosx*xx1-sinx*yy1),150+(int)(sinx*xx1+cosx*yy1), 200+(int)(cosx*xx2-sinx*yy1),150+(int)(sinx*xx2+cosx*yy1), 200+(int)(cosx*0-sinx*yy2),150+(int)(sinx*0+cosx*yy2),commonData->fgcolor); // Inverted pointer // Pointer as triangle with center base 2*width float endwidth = 2; // End width of pointer float ix1 = endwidth; float ix2 = -endwidth; float iy1 = -(rInstrument - 15); float iy2 = -endwidth; getdisplay().fillTriangle(200+(int)(cosx*ix1-sinx*iy1),150+(int)(sinx*ix1+cosx*iy1), 200+(int)(cosx*ix2-sinx*iy1),150+(int)(sinx*ix2+cosx*iy1), 200+(int)(cosx*0-sinx*iy2),150+(int)(sinx*0+cosx*iy2),commonData->fgcolor); } // Center circle getdisplay().fillCircle(200, 150, startwidth + 6, commonData->bgcolor); getdisplay().fillCircle(200, 150, startwidth + 4, commonData->fgcolor); // Update display getdisplay().nextPage(); // Partial update (fast) }; }; static Page *createPage(CommonData &common){ return new PageClock(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 registerPageClock( "Clock", // Page name createPage, // Action 0, // Number of bus values depends on selection in Web configuration {"GPST", "GPSD", "HDOP"}, // Bus values we need in the page true // Show display header on/off ); #endif