/* Serial Adapter Project: Dynamic serial TTY passthroughs by: Mike Crosson Nusku Networks date: 2013/03/09 license: CC-BY SA 3.0 - Creative commons share-alike 3.0 use this code however you'd like, just keep this license and attribute. */ #include "Arduino.h" #include #include #include #include #include "Project.h" #include "UILCD.h" #include "UIJoystickPSP.h" UILCD::UILCD() { if (DEBUG) { Serial.println("UILCD::UILCD()"); } pinMode(LCD_LITE, OUTPUT); tft = new Adafruit_ST7735(LCD_CS, LCD_DC, LCD_RST); tft->initR(INITR_BLACKTAB); tft->setRotation(3); if (!SD.begin(SD_CS) && DEBUG) { Serial.println("SD.begin(SD_CS) -- failed!"); } } void UILCD::start() { if (DEBUG) { Serial.println("UILCD::start()"); } drawSplashScreen(); drawMainScreen(); } void UILCD::turnOn() { if (DEBUG) { Serial.println("UILCD::turnOn()"); } digitalWrite(LCD_LITE, HIGH); } void UILCD::turnOff() { if (DEBUG) { Serial.println("UILCD::turnOff()"); } digitalWrite(LCD_LITE, LOW); } void UILCD::handleJoystickEvent(joyDirection direction) { if (DEBUG) { Serial.println("UILCD::handleJoystickEvent()"); Serial.println("begin UILCD::handleJoystickEvent"); Serial.print("Current Screen: "); Serial.println(currentScreen); } switch (currentScreen) { case 1: // enum screen -> mainScreen mainScreenHilight(direction); break; default: // config screens configScreenHighlight(direction); break; } } void UILCD::handleOkButtonEvent() { if (DEBUG) { Serial.println("UILCD::handleOkButtonEvent()"); Serial.println("begin UILCD::handleOkButtonEvent"); Serial.print("Current Screen: "); Serial.println(currentScreen); } switch (currentScreen) { case 1: // enum screen -> mainScreen mainScreenOkButton(); break; case 2: // connectionScreen config->setMode((serialmode)(currentLine - 3)); drawConnectionScreen(true); break; case 3: // lineSpeedScreen config->setLineSpeed((linespeed)(currentLine - 3)); drawLineSpeedScreen(true); break; case 4: // voltageScreen config->setVoltage((ttlvoltage)(currentLine - 3)); drawVoltageScreen(true); break; case 5: // timeoutScreen config->setLCDTimeout((timeout)(currentLine - 3)); drawTimeoutScreen(true); break; } } void UILCD::handleCancelButtonEvent() { if (DEBUG) { Serial.println("UILCD::handleCancelButtonEvent"); Serial.println("begin UILCD::handleCancelButtonEvent"); Serial.print("Current Screen: "); Serial.println(currentScreen); } switch (currentScreen) { case 1: // enum screen -> mainScreen mainScreenCancelButton(); break; default: drawMainScreen(); break; } } void UILCD::mainScreenOkButton() { if (DEBUG) { Serial.println("UILCD::mainScreenOkButton"); } switch(currentLine) { case 0: // Connection Type drawConnectionScreen(false); break; case 1: // Line speed drawLineSpeedScreen(false); break; case 2: // Voltage drawVoltageScreen(false); break; // case 4: // start data log // break; // case 5: // view serial data // break; // case 7: // configure rtc // break; case 8: drawTimeoutScreen(false); break; } } void UILCD::mainScreenCancelButton() { if (DEBUG) { Serial.println("UILCD::mainScreenCancelButton()"); } // Do nothing for now } void UILCD::unHilightLine(int line) { if (DEBUG) { Serial.println("UILCD::unHilightLine()"); } tft->setCursor(0, line * FONT_HEIGHT); tft->fillRect(0, line * FONT_HEIGHT, FONT_WIDTH, FONT_HEIGHT, BACKGROUND); } void UILCD::hilightLine(int line) { if (DEBUG) { Serial.println("UILCD::hilightLine()"); } tft->setCursor(0, line * FONT_HEIGHT); tft->setTextColor(HILIGHT); tft->print("*"); } void UILCD::mainScreenHilight(joyDirection direction) { if (DEBUG) { Serial.println("UILCD::mainScreenHilight()"); } if (direction == joyUp) { // Don't go up past the 1st line if (currentLine == 0) { return; } unHilightLine(currentLine); currentLine -= 1; // Skip blank lines if (config->getSerialMode() == ttl) { if (DEBUG) { Serial.println("Serial ttl blank line skip"); } if (currentLine == 3 || currentLine == 6) { currentLine -= 1; } } else { if (DEBUG) { Serial.println("Non-serial ttl blank line skip"); } if (currentLine == 2 || currentLine == 5) { currentLine -= 1; } } hilightLine(currentLine); } if (direction == joyDown) { // Don't go past the last line if (config->getSerialMode() == ttl) { if (currentLine == 8) { return; } } else { if (currentLine == 7) { return; } } unHilightLine(currentLine); currentLine += 1; // Skip blank lines if (config->getSerialMode() == ttl) { if (DEBUG) { Serial.println("Serial ttl blank line skip"); } if (currentLine == 3 || currentLine == 6) { currentLine += 1; } } else { if (DEBUG) { Serial.println("Non-serial ttl blank line skip"); } if (currentLine == 2 || currentLine == 5) { currentLine += 1; } } hilightLine(currentLine); } } void UILCD::configScreenHighlight(joyDirection direction) { if (DEBUG) { Serial.println("UILCD::configScreenhilight()"); } if (direction == joyUp) { // Don't go up past the 1st line if (currentLine == 3) { return; } unHilightLine(currentLine); currentLine -= 1; hilightLine(currentLine); } if (direction == joyDown) { // Don't go past the last line switch (currentScreen) { case 2: // connectionScreen if (currentLine == maxserialmode + 2) { return; } break; case 3: // lineSpeedScreen if (currentLine == maxlinespeed + 2) { return; } break; case 4: // voltageScreen if (currentLine == maxvoltage + 2) { return; } break; case 5: // timeoutScreen if (currentLine == maxtimeout + 2) { return; } break; } unHilightLine(currentLine); currentLine += 1; hilightLine(currentLine); } } void UILCD::drawTimeoutScreen(bool keepCurrentLine) { if (DEBUG) { Serial.println("UILCD::drawTimeoutScreen()"); } currentScreen = timeoutscreen; if (!keepCurrentLine) { currentLine = 3; } tft->setCursor(0,0); tft->fillScreen(BACKGROUND); tft->setTextColor(TEXT); tft->setTextWrap(true); tft->println("Timout selection"); tft->println(" Current value is yellow"); tft->println(); for (int i=0; igetTimeout() == i) { tft->setTextColor(HILIGHT); } tft->print(" "); tft->println(timeoutToText[i]); tft->setTextColor(TEXT); } if (keepCurrentLine) { hilightLine(currentLine); } else { hilightLine(3); } } void UILCD::drawConnectionScreen(bool keepCurrentLine) { if (DEBUG) { Serial.println("UILCD::drawConnectionScreen()"); } currentScreen = connectionScreen; if (!keepCurrentLine) { currentLine = 3; } tft->setCursor(0,0); tft->fillScreen(BACKGROUND); tft->setTextColor(TEXT); tft->setTextWrap(true); tft->println("Type Selection"); tft->println(" Current value is yellow"); tft->println(); for (int i=0; igetSerialMode() == i) { tft->setTextColor(HILIGHT); } tft->print(" "); tft->println(modeToText[i]); tft->setTextColor(TEXT); } if (keepCurrentLine) { hilightLine(currentLine); } else { hilightLine(3); } } void UILCD::drawLineSpeedScreen(bool keepCurrentLine) { if (DEBUG) { Serial.println("UILCD::drawLineSpeedScreen()"); } currentScreen = lineSpeedScreen; if (!keepCurrentLine) { currentLine = 3; } tft->setCursor(0,0); tft->fillScreen(BACKGROUND); tft->setTextColor(TEXT); tft->setTextWrap(true); tft->println("Speed Selection"); tft->println(" Current value is yellow"); tft->println(); for (int i=0; igetLineSpeed() == i) { tft->setTextColor(HILIGHT); } tft->print(" "); tft->println(linespeeds[i].description); tft->setTextColor(TEXT); } if (keepCurrentLine) { hilightLine(currentLine); } else { hilightLine(3); } } void UILCD::drawVoltageScreen(bool keepCurrentLine) { if (DEBUG) { Serial.println("UILCD::drawVoltageScreen()"); } currentScreen = voltageScreen; if (!keepCurrentLine) { currentLine = 3; } tft->setCursor(0,0); tft->fillScreen(BACKGROUND); tft->setTextColor(TEXT); tft->setTextWrap(true); tft->println("Voltage Selection"); tft->println(" Current value is yellow"); tft->println(); for (int i=0; igetVoltage() == i) { tft->setTextColor(HILIGHT); } tft->print(" "); tft->println(voltageToText[i]); tft->setTextColor(TEXT); } if (keepCurrentLine) { hilightLine(currentLine); } else { hilightLine(3); } } void UILCD::drawMainScreen() { if (DEBUG) { Serial.println("UILCD::drawMainScreen()"); } currentScreen = mainScreen; currentLine = 0; tft->setCursor(0,0); tft->fillScreen(BACKGROUND); tft->setTextColor(TEXT); tft->setTextWrap(true); tft->print(" Con Typ: "); tft->println(modeToText[config->getSerialMode()]); // TODO: This should be pulled from the config tft->print(" Line Speed: "); tft->println(linespeeds[config->getLineSpeed()].description); if (config->getSerialMode() == ttl) { tft->print(" Voltage (TTL Only): "); tft->println(voltageToText[config->getVoltage()]); } tft->println(); tft->println(" Start data logging"); tft->println(" View serial data"); tft->println(); tft->println(" Configure RTC / Clock"); tft->println(" Configure timeout"); hilightLine(0); } void UILCD::drawSplashScreen() { if (DEBUG) { Serial.println("UILCD::drawSplashScreen()"); } tft->setCursor(0,0); tft->fillScreen(SPLASH_BACKGROUND); bmpDraw("splash.bmp", 13, 0); delay(1250); for (int16_t y=0; y < tft->height(); y+=1) { tft->drawFastHLine(0, y, tft->width(), BACKGROUND); delay(10); } } void UILCD::bmpDraw(char *filename, uint8_t x, uint8_t y) { if (DEBUG) { Serial.println("UILCD::bmpDraw()"); } File bmpFile; int bmpWidth, bmpHeight; // W+H in pixels uint8_t bmpDepth; // Bit depth (currently must be 24) uint32_t bmpImageoffset; // Start of image data in file uint32_t rowSize; // Not always = bmpWidth; may have padding uint8_t sdbuffer[3*BUFFPIXEL]; // pixel buffer (R+G+B per pixel) uint8_t buffidx = sizeof(sdbuffer); // Current position in sdbuffer boolean goodBmp = false; // Set to true on valid header parse boolean flip = true; // BMP is stored bottom-to-top int w, h, row, col; uint8_t r, g, b; uint32_t pos = 0, startTime = millis(); if((x >= tft->width()) || (y >= tft->height())) return; if (DEBUG) { Serial.println(); Serial.print("Loading image '"); Serial.print(filename); Serial.println('\''); } // Open requested file on SD card if ((bmpFile = SD.open(filename)) == NULL) { if (DEBUG) { Serial.print("File not found"); } return; } // Parse BMP header if(read16(bmpFile) == 0x4D42) { // BMP signature if (DEBUG) { Serial.print("File size: "); Serial.println(read32(bmpFile)); } (void)read32(bmpFile); // Read & ignore creator bytes bmpImageoffset = read32(bmpFile); // Start of image data if (DEBUG) { Serial.print("Image Offset: "); Serial.println(bmpImageoffset, DEC); } // Read DIB header if (DEBUG) { Serial.print("Header size: "); Serial.println(read32(bmpFile)); } bmpWidth = read32(bmpFile); bmpHeight = read32(bmpFile); if(read16(bmpFile) == 1) { // # planes -- must be '1' bmpDepth = read16(bmpFile); // bits per pixel if (DEBUG) { Serial.print("Bit Depth: "); Serial.println(bmpDepth); } if((bmpDepth == 24) && (read32(bmpFile) == 0)) { // 0 = uncompressed goodBmp = true; // Supported BMP format -- proceed! if (DEBUG) { Serial.print("Image size: "); Serial.print(bmpWidth); Serial.print('x'); Serial.println(bmpHeight); } // BMP rows are padded (if needed) to 4-byte boundary rowSize = (bmpWidth * 3 + 3) & ~3; // If bmpHeight is negative, image is in top-down order. // This is not canon but has been observed in the wild. if(bmpHeight < 0) { bmpHeight = -bmpHeight; flip = false; } // Crop area to be loaded w = bmpWidth; h = bmpHeight; if((x+w-1) >= tft->width()) w = tft->width() - x; if((y+h-1) >= tft->height()) h = tft->height() - y; // Set TFT address window to clipped image bounds tft->setAddrWindow(x, y, x+w-1, y+h-1); for (row=0; row= sizeof(sdbuffer)) { // Indeed bmpFile.read(sdbuffer, sizeof(sdbuffer)); buffidx = 0; // Set index to beginning } // Convert pixel from BMP to TFT format, push to display b = sdbuffer[buffidx++]; g = sdbuffer[buffidx++]; r = sdbuffer[buffidx++]; tft->pushColor(tft->Color565(r,g,b)); } // end pixel delay(5); } // end scanline if (DEBUG) { Serial.print("Loaded in "); Serial.print(millis() - startTime); Serial.println(" ms"); } } // end goodBmp } } bmpFile.close(); if(!goodBmp && DEBUG) Serial.println("BMP format not recognized."); } // These read 16- and 32-bit types from the SD card file. // BMP data is stored little-endian, Arduino is little-endian too. // May need to reverse subscript order if porting elsewhere. uint16_t UILCD::read16(File f) { if (DEBUG) { Serial.println("UILCD::read16()"); } uint16_t result; ((uint8_t *)&result)[0] = f.read(); // LSB ((uint8_t *)&result)[1] = f.read(); // MSB return result; } uint32_t UILCD::read32(File f) { if (DEBUG) { Serial.println("UILCD::read32()"); } uint32_t result; ((uint8_t *)&result)[0] = f.read(); // LSB ((uint8_t *)&result)[1] = f.read(); ((uint8_t *)&result)[2] = f.read(); ((uint8_t *)&result)[3] = f.read(); // MSB return result; }