int main(void) {
/* Initialize system */
SystemInit();
/* Initialize ILI9341 */
TM_ILI9341_Init();
/* Rotate LCD for 90 degrees */
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Landscape_2);
/* Fill lcd with color */
TM_ILI9341_Fill(ILI9341_COLOR_MAGENTA);
/* Draw white circle */
TM_ILI9341_DrawCircle(60, 60, 40, ILI9341_COLOR_GREEN);
/* Draw red filled circle */
TM_ILI9341_DrawFilledCircle(60, 60, 35, ILI9341_COLOR_RED);
/* Draw blue rectangle */
TM_ILI9341_DrawRectangle(120, 20, 220, 100, ILI9341_COLOR_BLUE);
/* Draw black filled circle */
TM_ILI9341_DrawFilledRectangle(130, 30, 210, 90, ILI9341_COLOR_BLACK);
/* Draw line with custom color 0x0005 */
TM_ILI9341_DrawLine(10, 120, 310, 120, 0x0005);
/* Put string with black foreground color and blue background with 11x18px font */
TM_ILI9341_Puts(65, 130, "STM32F4 Discovery", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_BLUE2);
/* Put string with black foreground color and blue background with 11x18px font */
TM_ILI9341_Puts(60, 150, "ILI9341 LCD Module", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_BLUE2);
/* Put string with black foreground color and red background with 11x18px font */
TM_ILI9341_Puts(45, 229, "stm32f4-discovery.com", &TM_Font_7x10, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
while (1) {
}
}
int main(void) {
char str[100];
TM_DS1307_Time_t time;
uint8_t last;
/* Initialize system */
SystemInit();
/* Initialize LEDS */
TM_DISCO_LedInit();
/* Initialize ILI9341 LCD on board */
TM_ILI9341_Init();
TM_ILI9341_Fill(ILI9341_COLOR_ORANGE);
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
TM_ILI9341_Puts(90, 310, "stm32f4-discovery.com", &TM_Font_7x10, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
/* Initialize DS1307 */
if (TM_DS1307_Init() != TM_DS1307_Result_Ok) {
/* Red LED on */
TM_DISCO_LedOn(LED_RED);
/* Show on LCD */
TM_ILI9341_Puts(10, 10, "DS1307 Error", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
while (1);
}
/* Set date and time */
/* Day 7, 26th May 2014, 02:05:00 */
time.hours = 21;
time.minutes = 18;
time.seconds = 0;
time.date = 26;
time.day = 1;
time.month = 5;
time.year = 14;
TM_DS1307_SetDateTime(&time);
/* Disable output first */
TM_DS1307_DisableOutputPin();
/* Set output pin to 4096 Hz */
TM_DS1307_EnableOutputPin(TM_DS1307_OutputFrequency_4096Hz);
while (1) {
/* Get date and time */
TM_DS1307_GetDateTime(&time);
/* Display on LCD */
sprintf(str, "Day: %d\nDate: %02d\nMonth: %02d\nYear: %04d\nHours: %02d\nMinutes: %02d\nSeconds: %02d", time.day, time.date, time.month, time.year + 2000, time.hours, time.minutes, time.seconds);
TM_ILI9341_Puts(10, 15, str, &TM_Font_11x18, ILI9341_COLOR_ORANGE, 0x0000);
/* Toggle GREEN led if needed */
if (last != time.seconds) {
last = time.seconds;
/* Toggle GREEN LED */
TM_DISCO_LedToggle(LED_GREEN);
}
}
}
int main(void) {
/* Initialize system */
SystemInit();
/* Initialize delay */
TM_DELAY_Init();
/* Initialize ILI9341 with LTDC */
/* By default layer 1 is used */
TM_ILI9341_Init();
/* Rotate LCD for 90 degrees */
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Landscape_2);
TM_ILI9341_SetLayer1();
/* Fill data on layer 1 */
TM_ILI9341_Fill(ILI9341_COLOR_WHITE);
/* Show text */
TM_ILI9341_Puts(65, 30, "Layer 1", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_BLUE2);
TM_ILI9341_Puts(20, 130, "STM32F429 Discovery ONLY!", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_BLUE2);
TM_ILI9341_Puts(60, 150, "ILI9341 LCD Module", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_BLUE2);
TM_ILI9341_Puts(70, 170, "with LTDC support", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_BLUE2);
TM_ILI9341_Puts(170, 230, "stm32f4-discovery.com", &TM_Font_7x10, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
/* Go to layer 2 */
TM_ILI9341_SetLayer2();
/* Fill data on layer 2 */
TM_ILI9341_Fill(ILI9341_COLOR_GREEN2);
/* Show text */
TM_ILI9341_Puts(65, 30, "Layer 2", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_BLUE);
TM_ILI9341_Puts(20, 130, "STM32F429 Discovery ONLY!", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_RED);
TM_ILI9341_Puts(60, 150, "ILI9341 LCD Module", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_BLUE2);
TM_ILI9341_Puts(70, 170, "with LTDC support", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_BLUE2);
TM_ILI9341_Puts(170, 230, "stm32f4-discovery.com", &TM_Font_7x10, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
/* Draw circle on layer 2 */
TM_ILI9341_DrawCircle(150, 150, 140, ILI9341_COLOR_BLACK);
while (1) {
/* This will set opacity of one layer to 0, other to max (255) each time */
/* This is like toggle function */
TM_ILI9341_ChangeLayers();
Delayms(500);
/*
//Bottom code works the same as one before inside while loop
//Turn on Layer1 and turn off Layer2
TM_ILI9341_SetLayer1Opacity(255);
TM_ILI9341_SetLayer2Opacity(0);
Delayms(500);
//Turn on Layer2 and turn off Layer1
TM_ILI9341_SetLayer1Opacity(0);
TM_ILI9341_SetLayer2Opacity(255);
Delayms(500);
*/
}
}
int test_exi(void) {
/* Initialize system */
SystemInit();
/* Initialize LEDS */
TM_DISCO_LedInit();
//Initialize LCD
TM_ILI9341_Init();
//Fill with orange color
TM_ILI9341_Fill(ILI9341_COLOR_ORANGE);
//Rotate LCD
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
/* Attach interrupt on pin PA0 = External line 0 */
/* Button connected on discovery boards */
if (TM_EXTI_Attach(GPIOA, GPIO_Pin_0, TM_EXTI_Trigger_Rising) == TM_EXTI_Result_Ok) {
TM_DISCO_LedOn(LED_RED);
}
/* Attach interrupt on pin PC13 = External line 13 */
/* Button connected on nucleo boards */
if (TM_EXTI_Attach(GPIOC, GPIO_Pin_13, TM_EXTI_Trigger_Falling) == TM_EXTI_Result_Ok) {
TM_DISCO_LedOn(LED_GREEN);
}
while (1) {
}
}
int main(void) {
/* Set coordinates for poly line */
TM_DMA2DRAPHIC_Poly_t Coordinates[] = {
{10, 10},
{15, 65},
{200, 200},
{150, 30},
{10, 10}
};
/* Initialize system */
SystemInit();
/* Initialize delay functions */
TM_DELAY_Init();
/* Initialize ILI9341 with LTDC */
/* By default layer 1 is used */
TM_ILI9341_Init();
/* Initialize DMA2D GRAPHIC library */
TM_DMA2DGRAPHIC_Init();
/* Set ILI9341 Orientation */
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
/* Set DMA2D GRAPHIC library Orientation */
TM_DMA2DGRAPHIC_SetOrientation((uint8_t)TM_ILI9341_Orientation_Portrait_2);
/* Layer 1 */
/* Draw red rectangle at X = 10, Y = 10 position, width = 100 and height = 50px */
TM_DMA2DGRAPHIC_DrawRectangle(10, 10, 100, 50, GRAPHIC_COLOR_RED);
/* Draw filled blue rectangle at X = 100, Y = 100 position, width = 100 and height = 50px */
TM_DMA2DGRAPHIC_DrawFilledRectangle(100, 100, 100, 50, GRAPHIC_COLOR_BLUE);
/* Draw rounded rectangle */
TM_DMA2DGRAPHIC_DrawRoundedRectangle(110, 110, 80, 30, 10, GRAPHIC_COLOR_GREEN);
/* Go to layer 2, set address offset in memory for LCD */
TM_DMA2DGRAPHIC_SetLayer(2);
/* Fill layer 2 */
TM_DMA2DGRAPHIC_Fill(GRAPHIC_COLOR_YELLOW);
/* Draw poly line */
TM_DMA2DGRAPHIC_DrawPolyLine(Coordinates, 5, GRAPHIC_COLOR_BLACK);
/* Draw filled circle */
TM_DMA2DGRAPHIC_DrawFilledCircle(100, 170, 40, GRAPHIC_COLOR_CYAN);
while (1) {
/* Change display layer on LCD using LTDC transfer */
TM_ILI9341_ChangeLayers();
/* Delay */
Delayms(1000);
}
}
void initialize_log_func(void)
{
//Initialize LCD
TM_ILI9341_Init();
//Fill with orange color
TM_ILI9341_Fill(ILI9341_COLOR_ORANGE);
//Rotate LCD
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
memset(str_blank, 0x20, LOG_MAX_SIZE);
str_blank[LOG_MAX_SIZE - 1] = '\0';
}
int main(void){
SystemInit();
TM_DELAY_Init();
TM_ILI9341_Init();
TM_ILI9341_SetLayer1();
/* Initialize USART2 at 115200 baud, TX: PD5, RX: PD6 */
TM_USART_Init(USART2, TM_USART_PinsPack_2, 115200);
uint8_t wacc = 0x3A; // 0xA6
uint8_t racc = 0x3B; // 0xA7
// 0x2D POWER_CTL: Power-saving features control
TM_I2C_Write(I2C2, wacc, 0x2D, 0x08);
// 0x31 DATA_FORMAT: Data format control
//TM_I2C_Write(I2C1, wacc, 0x31, 0x0B); // FULL_RES and +- 16g
TM_I2C_Write(I2C2, wacc, 0x31, 0x01); // fixed resolution and +- 4g
// 0x2C BW_RATE: Data rate and power mode control
TM_I2C_Write(I2C2, wacc, 0x2C, 0x0A);
char str[16] = {0};
sprintf(str, "delay = 100");
TM_USART_Puts(USART2, str);
while(1){
TM_ILI9341_Fill(ILI9341_COLOR_WHITE);
TM_ILI9341_Puts(30, 30, str, &TM_Font_11x18, ILI9341_COLOR_WHITE, ILI9341_COLOR_BLUE2);
uint8_t buff[6] = {0};
int16_t tri[3] = {0};
TM_I2C_ReadMulti(I2C2, racc, 0x32, buff, 6);
// original read digit
tri[0] = (int16_t) ((uint16_t)buff[1] << 8 | (uint16_t)buff[0]);
tri[1] = (int16_t) ((uint16_t)buff[3] << 8 | (uint16_t)buff[2]);
tri[2] = (int16_t) ((uint16_t)buff[5] << 8 | (uint16_t)buff[4]);
float ftri[3] = {0}, divisor = 128.0f;
ftri[0] = (float) tri[0] / divisor;
ftri[1] = (float) tri[1] / divisor;
ftri[2] = (float) tri[2] / divisor;
sprintf(str, "%.3f,%.3f,%.3f\n\r", ftri[0], ftri[1], ftri[2]);
TM_USART_Puts(USART2, str);
TM_ILI9341_Puts(30, 50, str, &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_WHITE);
Delayms(100);
}
}
int main(void) {
char str[30];
/* Create TouchData struct */
TM_STMPE811_TouchData touchData;
/* Initialize system */
SystemInit();
/* Initialize LCD */
TM_ILI9341_Init();
/* Fill with orange color */
TM_ILI9341_Fill(ILI9341_COLOR_ORANGE);
/* Rotate LCD */
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
/* Initialize Touch */
if (TM_STMPE811_Init() != TM_STMPE811_State_Ok) {
TM_ILI9341_Puts(20, 20, "STMPE811 Error", &TM_Font_11x18, ILI9341_COLOR_ORANGE, ILI9341_COLOR_BLACK);
while (1);
}
/* Select touch screen orientation */
touchData.orientation = TM_STMPE811_Orientation_Portrait_2;
/* Print some text */
TM_ILI9341_Puts(20, 20, "Press on LCD", &TM_Font_11x18, ILI9341_COLOR_ORANGE, ILI9341_COLOR_BLACK);
TM_ILI9341_Puts(93, 310, "stm32f4-discovery.com", &TM_Font_7x10, ILI9341_COLOR_GREEN, ILI9341_COLOR_BLACK);
while (1) {
if (TM_STMPE811_ReadTouch(&touchData) == TM_STMPE811_State_Pressed) {
/* Touch valid */
sprintf(str, "Pressed \n\nX: %03d\nY: %03d", touchData.x, touchData.y);
TM_ILI9341_Puts(20, 80, str, &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
/* Draw pixel on touch location */
TM_ILI9341_DrawPixel(touchData.x, touchData.y, 0x0000);
} else {
sprintf(str, "Not Pressed\n\n \n ");
TM_ILI9341_Puts(20, 80, str, &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
}
}
}
int main(void) {
/* L3GD20 Struct */
TM_L3GD20_t L3GD20_Data;
char buffer[20];
/* Initialize system */
SystemInit();
/* Initialize delay */
TM_DELAY_Init();
/* Init ILI9341 with LTDC on STM32F429 Discovery board */
TM_ILI9341_Init();
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
/* Fill layer 1 */
TM_ILI9341_Fill(ILI9341_COLOR_RED);
/* Put some text */
TM_ILI9341_Puts(10, 10, "L3GD20 3-Axis\nGyroscope", &TM_Font_11x18, 0x0000, ILI9341_COLOR_RED);
TM_ILI9341_Puts(90, 310, "stm32f4-discovery.com", &TM_Font_7x10, ILI9341_COLOR_BLACK, ILI9341_COLOR_RED);
/* Init L3GD20 sensor */
if (TM_L3GD20_Init(TM_L3GD20_Scale_2000) != TM_L3GD20_Result_Ok) {
/* Sensor error */
TM_ILI9341_Puts(10, 100, "Sensor ERROR!", &TM_Font_11x18, 0x0000, ILI9341_COLOR_RED);
while (1);
}
while (1) {
/* Read data */
TM_L3GD20_Read(&L3GD20_Data);
/* Display data on LCD */
sprintf(buffer, "X rotation: %4d", L3GD20_Data.X);
TM_ILI9341_Puts(10, 100, buffer, &TM_Font_11x18, 0x0000, ILI9341_COLOR_RED);
sprintf(buffer, "Y rotation: %4d", L3GD20_Data.Y);
TM_ILI9341_Puts(10, 122, buffer, &TM_Font_11x18, 0x0000, ILI9341_COLOR_RED);
sprintf(buffer, "Z rotation: %4d", L3GD20_Data.Z);
TM_ILI9341_Puts(10, 144, buffer, &TM_Font_11x18, 0x0000, ILI9341_COLOR_RED);
}
}
int main(void) {
char str[30];
//Create TouchData struct
TM_STMPE811_TouchData touchData;
//Initialize system
SystemInit();
//Initialize LCD
TM_ILI9341_Init();
//Fill with orange color
TM_ILI9341_Fill(ILI9341_COLOR_ORANGE);
//Rotate LCD
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
//Initialize Touch
TM_STMPE811_Init();
//Select touch screen orientation
touchData.orientation = TM_STMPE811_Orientation_Portrait_2;
//Print some text
TM_ILI9341_Puts(20, 20, "Press on LCD", &TM_Font_11x18, ILI9341_COLOR_ORANGE, ILI9341_COLOR_BLACK);
TM_ILI9341_Puts(168, 308, "majerle.eu", &TM_Font_7x10, ILI9341_COLOR_GREEN, ILI9341_COLOR_BLACK);
while (1) {
if (TM_STMPE811_ReadTouch(&touchData) == TM_STMPE811_State_Pressed) {
//Touch valid
sprintf(str, "Pressed \n\nX: %03d\nY: %03d", touchData.x, touchData.y);
TM_ILI9341_Puts(20, 80, str, &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
TM_ILI9341_DrawPixel(touchData.x, touchData.y, 0x0000);
} else {
sprintf(str, "Not Pressed\n\n \n ");
TM_ILI9341_Puts(20, 80, str, &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
}
}
}
int main(void) {
uint16_t i;
uint8_t devices_found = 0;
char buffer[20];
/* Initialize system */
SystemInit();
/* Initialize delay */
TM_DELAY_Init();
/* Initialize leds on board */
TM_DISCO_LedInit();
/* Init LCD on STM32F429-Discovery board */
TM_ILI9341_Init();
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
/* Set background color */
TM_ILI9341_Fill(0x1234);
/* Init I2C3 peripheral, PA8, PC9 */
TM_I2C_Init(I2C3, TM_I2C_PinsPack_1, 100000);
/* Make search and show on LCD */
for (i = 2; i < 0xFF; i += 2) {
/* Check if device detected */
if (TM_I2C_IsDeviceConnected(I2C3, i)) {
/* Format string */
sprintf(buffer, "Device: %02X", i);
/* Print to LCD */
TM_ILI9341_Puts(10, 10 + 12 * devices_found++, buffer, &TM_Font_7x10, 0x0000, 0x1234);
}
}
while (1) {
}
}
int main(void) {
TM_AM2301_Data_t data;
char str[50];
/* Initialize system */
SystemInit();
/* Initialize delay */
TM_DELAY_Init();
/* Initialize LCD on F429-Discovery board */
TM_ILI9341_Init();
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
TM_ILI9341_Fill(ILI9341_COLOR_ORANGE);
TM_ILI9341_Puts(10, 10, "AM2301 (DHT21)\nsensor", &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
TM_ILI9341_Puts(90, 310, "stm32f4-discovery.com", &TM_Font_7x10, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
/* Initialize sensor */
TM_AM2301_Init();
/* Reset time */
TM_DELAY_SetTime(0);
while (1) {
/* Every 1 second */
if (TM_DELAY_Time() > 1000000) {
TM_DELAY_SetTime(0);
/* Data valid */
if (TM_AM2301_Read(&data) == TM_AM2301_OK) {
/* Show on LCD */
sprintf(str, "Humidity: %2.1f %%\nTemperature: %2.1f C", (float)data.Hum / 10, (float)data.Temp / 10);
TM_ILI9341_Puts(10, 100, str, &TM_Font_11x18, ILI9341_COLOR_BLACK, ILI9341_COLOR_ORANGE);
}
}
/* Do other stuff constantly */
}
}
int main(void) {
int accelData[3];
int analogData[BUFFER];
int i=0;
for(i=0;i<BUFFER;i++){ analogData[i]=0; }
int a = 0;
int analogIn = 0;
int analogMin, analogMax;
/* Initialize system */
SystemInit();
/* Initialize delay */
//TM_DELAY_Init();
/* Initialize PG13 (GREEN LED) and PG14 (RED LED) */
TM_GPIO_Init(GPIOG, GPIO_PIN_13 | GPIO_PIN_14, TM_GPIO_Mode_OUT, TM_GPIO_OType_PP, TM_GPIO_PuPd_NOPULL, TM_GPIO_Speed_Fast);
TM_GPIO_SetPinValue(GPIOG, GPIO_PIN_14, 1); // Red: ON
#ifdef ENABLE_USART
/* Initialize USART1 at 115200 baud, TX: PA10, RX: PA9 */
TM_USART_Init(USART1, TM_USART_PinsPack_1, 115200);
#endif
#ifdef ENABLE_VCP
/* Initialize USB Virtual Comm Port */
TM_USB_VCP_Result status = TM_USB_VCP_NOT_CONNECTED;
while (TM_USB_VCP_GetStatus() != TM_USB_VCP_CONNECTED) {
TM_USB_VCP_Init();
TM_GPIO_TogglePinValue(GPIOG, GPIO_PIN_14);
Delay(500000);
}
SendString("USB VCP initialized and connected\n");
TM_GPIO_TogglePinValue(GPIOG, GPIO_PIN_14 | GPIO_PIN_13); // Red: OFF, Gr: ON
#endif
#ifdef ENABLE_MMA
/* Initialize MMA845X */
uint8_t mma_status = MMA845X_Initialize(MMA_RANGE_4G);
if (mma_status == MMA_OK) {
SendString("MMA initialized\n");
} else {
SendString("MMA initialization failed, error code: ");
// Add 48 to the byte value to have character representation, (48 = '0')
SendChar('0'+mma_status);
SendChar('\n');
}
#endif
/* Initialize Display */
TM_ILI9341_Init();
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_1);
TM_ILI9341_SetLayer1();
TM_ILI9341_Fill(ILI9341_COLOR_BLACK); /* Fill data on layer 1 */
/* Initialize ADC1 */
TM_ADC_Init(CURRENT_ADC, CURRENT_CH);
/* Initialize PE2 and PE3 for digital output (Motor direction) */
TM_GPIO_Init(GPIOE, GPIO_PIN_2 | GPIO_PIN_3, TM_GPIO_Mode_OUT, TM_GPIO_OType_PP, TM_GPIO_PuPd_NOPULL, TM_GPIO_Speed_Fast);
// Set them to HIGH/LOW
TM_GPIO_SetPinHigh(GPIOE, GPIO_PIN_3);
TM_GPIO_SetPinLow(GPIOE, GPIO_PIN_2);
#ifdef ENABLE_PWM
/* Set up PE5 (in front of PE4) for PWM (TIM9 CH1 PP2) (Motor speed control) */
TM_PWM_TIM_t TIM9_Data;
// Set PWM to 1kHz frequency on timer TIM4, 1 kHz = 1ms = 1000us
TM_PWM_InitTimer(TIM9, &TIM9_Data, 1000);
// Initialize PWM on TIM9, Channel 1 and PinsPack 2 = PE5
TM_PWM_InitChannel(&TIM9_Data, TM_PWM_Channel_1, TM_PWM_PinsPack_2);
// Set channel 1 value, 50% duty cycle
TM_PWM_SetChannelPercent(&TIM9_Data, TM_PWM_Channel_1, 50);
#endif
/* Initialize DAC channel 2, pin PA5 (Shaker control) */
//TM_DAC_Init(TM_DAC2);
/* Set 12bit analog value of 2047/4096 * 3.3V */
//TM_DAC_SetValue(TM_DAC2, 4096);
#ifdef ENABLE_DAC
// DAC PIN PA5
/* Initialize DAC1, use TIM4 for signal generation */
TM_DAC_SIGNAL_Init(TM_DAC2, TIM4);
/* Output predefined triangle signal with frequency of 5kHz */
TM_DAC_SIGNAL_SetSignal(TM_DAC2, TM_DAC_SIGNAL_Signal_Sinus, 50);
#endif
/* MAIN LOOP */
while (1) {
// Read acceleration data
#ifdef ENABLE_MMA
MMA845X_ReadAcceleration(accelData);
#endif
// Read analog input
analogData[a] = TM_ADC_Read(CURRENT_ADC, CURRENT_CH);
a++;
if(a==BUFFER) {a=0;}
// Analog average
analogIn=0;
analogMax=0;
analogMin=4096;
for(i=0;i<BUFFER;i++){
if(analogData[i] > analogMax) { analogMax = analogData[i]; }
if(analogData[i] < analogMin) { analogMin = analogData[i]; }
analogIn+=analogData[i];
}
analogIn/=BUFFER;
// Print graphs
printGraphsLCD(accelData, analogData[a], analogIn, analogMin, analogMax);
// Toggle Green led
TM_GPIO_TogglePinValue(GPIOG, GPIO_PIN_13);
}
}
int main(void) {
//TM_STMPE811_TouchData instance
TM_STMPE811_TouchData touchData;
//TM_ILI9341_Button_t instance
TM_ILI9341_Button_t button;
int8_t buttonPressed, button1, button2, button3;
char str[30];
//Initialize system
SystemInit();
//Initialize onboard leds
TM_DISCO_LedInit();
//Initialize LCD
TM_ILI9341_Init();
//Fill LCD with gray color
TM_ILI9341_Fill(ILI9341_COLOR_GRAY);
//Select orientation
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
//Select touch screen orientation
touchData.orientation = TM_STMPE811_Orientation_Portrait_2;
//Initialize Touch
TM_STMPE811_Init();
//Button 1, default configuration
//Red with black border and black font 11x18
button.x = 10;
button.y = 30;
button.width = 219;
button.height = 50;
button.background = ILI9341_COLOR_RED;
button.borderColor = ILI9341_COLOR_BLACK;
button.label = "Button 1";
button.color = ILI9341_COLOR_BLACK;
button.font = &TM_Font_11x18;
//Add button
button1 = TM_ILI9341_Button_Add(&button);
//Button with custom background and without label
button.x = 10;
button.y = 260;
button.width = 105;
button.height = 50;
button.background = ILI9341_COLOR_GREEN;
button.borderColor = ILI9341_COLOR_BLACK;
button.label = "Button 2";
//Use background image and no label
button.flags = TM_BUTTON_FLAG_NOLABEL | TM_BUTTON_FLAG_IMAGE;
button.color = ILI9341_COLOR_BLACK;
button.font = &TM_Font_11x18;
button.image = buttonBackground; //Variable stored in
//Add button
button2 = TM_ILI9341_Button_Add(&button);
//Button with custom background and with label and without border and 7x10 fontsize
button.x = 125;
button.y = 260;
button.background = ILI9341_COLOR_BLUE2;
button.borderColor = ILI9341_COLOR_BLACK;
button.label = "Button 3";
button.color = ILI9341_COLOR_BLACK;
button.font = &TM_Font_7x10;
button.flags = TM_BUTTON_FLAG_IMAGE | TM_BUTTON_FLAG_NOBORDER; //Use background image, without border
//Add button
button3 = TM_ILI9341_Button_Add(&button);
if (!TM_DISCO_LedIsOn(LED_RED)) {
//If led res is turned off, disable buttons 2 and 3
TM_ILI9341_Button_Disable(button2);
TM_ILI9341_Button_Disable(button3);
TM_ILI9341_Puts(25, 220, "Buttons disabled!", &TM_Font_11x18, ILI9341_COLOR_RED, ILI9341_COLOR_GRAY);
}
//Draw buttons
TM_ILI9341_Button_DrawAll();
//Draw some strings
TM_ILI9341_Puts(45, 245, "LED on LED off", &TM_Font_7x10, ILI9341_COLOR_BLACK, ILI9341_COLOR_GRAY);
TM_ILI9341_Puts(10, 100, "Bottom buttons work\nonly if red led is turned on.\nYou can toggle red\nled with Button 1.", &TM_Font_7x10, ILI9341_COLOR_BLACK, ILI9341_COLOR_GRAY);
while (1) {
if (TM_STMPE811_ReadTouch(&touchData) == TM_STMPE811_State_Pressed) {
buttonPressed = TM_ILI9341_Button_Touch(&touchData);
if (buttonPressed >= 0) {
//Any button pressed
sprintf(str, "Pressed: Button %d", (buttonPressed + 1));
} else {
sprintf(str, "Press the button ");
}
if (buttonPressed == button1) {
//Red button 1 is pressed, toggle led
TM_DISCO_LedToggle(LED_RED);
if (TM_DISCO_LedIsOn(LED_RED)) {
//If led is turned on, enable button 2 and button 3
TM_ILI9341_Button_Enable(button2);
TM_ILI9341_Button_Enable(button3);
TM_ILI9341_Puts(25, 220, "Buttons enabled! ", &TM_Font_11x18, ILI9341_COLOR_GREEN, ILI9341_COLOR_GRAY);
} else {
//otherwise disable both
TM_ILI9341_Button_Disable(button2);
TM_ILI9341_Button_Disable(button3);
TM_ILI9341_Puts(25, 220, "Buttons disabled!", &TM_Font_11x18, ILI9341_COLOR_RED, ILI9341_COLOR_GRAY);
}
} else if (buttonPressed == button2) {
//If button 2 is pressed, turn green led on
TM_DISCO_LedOn(LED_GREEN);
} else if (buttonPressed == button3) {
//if button 3 is pressed, turn green led off
TM_DISCO_LedOff(LED_GREEN);
}
}
TM_ILI9341_Puts(10, 5, str, &TM_Font_11x18, ILI9341_COLOR_GREEN, ILI9341_COLOR_GRAY);
}
}
void TM_SNAKE_Start(void) {
/* Initialize delay */
TM_DELAY_Init();
/* Initialize leds on board */
TM_DISCO_LedInit();
/* Turn off all leds */
TM_DISCO_LedOff(LED_ALL);
/* Initialize True random number generator */
TM_RNG_Init();
/* Initialize ILI9341 LCD */
TM_ILI9341_Init();
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
/* Initialize USB HID Host for keyboard */
TM_USB_HIDHOST_Init();
/* Set default options */
TM_SNAKE_SetFirstOptions();
/* Set default values */
TM_SNAKE_SetDefaultSnake();
/* Prepare display */
TM_SNAKE_PrepareDisplay();
/* Generate random target */
TM_SNAKE_GenerateTarget();
/* Set time to 0 */
TM_DELAY_SetTime(0);
while (1) {
/* Process USB HID host */
TM_USB_HIDHOST_Process();
/* Check for timeout, move snake here */
if (TM_DELAY_Time() >= Settings.Millis && !Settings.Pause && !GameOver) {
/* Reset time */
TM_DELAY_SetTime(0);
/* Get new direction value */
Snake.Direction = Snake1.Direction;
/* Get last x/y value from snake array = snake head */
Snake_Head[0] = Snake.Snake[Snake.LastIndex][0];
Snake_Head[1] = Snake.Snake[Snake.LastIndex][1];
/* Store last value before update */
Snake_Head_Last[0] = Snake_Head[0];
Snake_Head_Last[1] = Snake_Head[1];
if (!Snake_FirstTime) {
/* Move snake */
switch (Snake.Direction) {
case SNAKE_DIRECTION_LEFT:
Snake_Head[0] -= 1;
break;
case SNAKE_DIRECTION_RIGHT:
Snake_Head[0] += 1;
break;
case SNAKE_DIRECTION_UP:
Snake_Head[1] -= 1;
break;
case SNAKE_DIRECTION_DOWN:
Snake_Head[1] += 1;
break;
default:
break;
}
}
/* Overflow is activated */
if (Settings.Overflow) {
/* Check X */
if (Snake_Head[0] == -1) {
Snake_Head[0] = SNAKE_PIXELS - 1;
} else if (Snake_Head[0] == SNAKE_PIXELS) {
Snake_Head[0] = 0;
}
/* Check Y */
if (Snake_Head[1] == -1) {
Snake_Head[1] = SNAKE_PIXELS - 1;
} else if (Snake_Head[1] == SNAKE_PIXELS) {
Snake_Head[1] = 0;
}
} else {
/* Check walls */
if (
Snake_Head[0] == -1 ||
Snake_Head[0] == SNAKE_PIXELS ||
Snake_Head[1] == -1 ||
Snake_Head[1] == SNAKE_PIXELS
) {
/* We hit the wall somewhere */
GameOver = 1;
}
}
if (!Snake_FirstTime) {
/* Clear first value from array = snake foot */
TM_SNAKE_DeleteFromArray(0, Snake_Foot);
/* Check if snake hit itself */
if (TM_SNAKE_MatchesSnakeLocations(Snake_Head)) {
/* Set gameover flag */
GameOver = 1;
}
}
/* Check if target is reached */
if (
!GameOver &&
Snake_Head[0] == Snake_Food[0] &&
Snake_Head[1] == Snake_Food[1]
) {
/* Add new value to the array, increase snake */
TM_SNAKE_AddToArray(Snake_Head);
/* Increase counter for snake hits */
Snake.Hits++;
/* Generate new target */
TM_SNAKE_GenerateTarget();
}
if (!GameOver) {
if (!Snake_FirstTime) {
/* Add new value to the array = new snake head */
TM_SNAKE_AddToArray(Snake_Head);
}
/* Clear pixel on LCD for foot */
/* First clear foot, maybe is new head on the same position */
TM_SNAKE_DrawPixel(Snake_Foot[0], Snake_Foot[1], 0);
/* Draw pixel on LCD for new head position with head color */
TM_SNAKE_DrawPixel(Snake_Head[0], Snake_Head[1], 3);
/* Draw new pixel for the second pixel after head with new color to delete head color */
TM_SNAKE_DrawPixel(Snake_Head_Last[0], Snake_Head_Last[1], 1);
}
/* Clear flag if needed */
if (Snake_FirstTime) {
Snake_FirstTime = 0;
}
}
if (GameOver) {
/* Check flag */
if (!GameOverDisplay) {
/* Set flag */
GameOverDisplay = 1;
/* Show content to user */
TM_ILI9341_Puts(88, 120, "Game\nOVER", &TM_Font_16x26, ILI9341_COLOR_WHITE, ILI9341_COLOR_BLACK);
TM_ILI9341_Puts(28, 180, "Press 'r' to start again!!", &TM_Font_7x10, ILI9341_COLOR_WHITE, ILI9341_COLOR_BLACK);
}
} else {
/* Clear flag */
GameOverDisplay = 0;
}
/* Check if connected device is keyboard */
if (TM_USB_HIDHOST_Device() == TM_USB_HIDHOST_Result_KeyboardConnected) {
/* Green LED ON */
TM_DISCO_LedOn(LED_GREEN);
/* Read keyboard data */
TM_USB_HIDHOST_ReadKeyboard(&Keyboard);
/* If any buttons active */
if (Keyboard.ButtonStatus == TM_USB_HIDHOST_Button_Pressed) {
/* Check pressed button and do actions */
switch ((uint8_t)Keyboard.Button) {
case SNAKE_KEY_LEFT:
/* Change direction if possible */
if (
Snake.Direction == SNAKE_DIRECTION_UP ||
Snake.Direction == SNAKE_DIRECTION_DOWN ||
Snake.Direction == SNAKE_DIRECTION_LEFT
) {
/* Disable pause mode */
Settings.Pause = 0;
/* Set direction */
Snake1.Direction = SNAKE_DIRECTION_LEFT;
}
break;
case SNAKE_KEY_RIGHT:
/* Change direction if possible */
if (
Snake.Direction == SNAKE_DIRECTION_UP ||
Snake.Direction == SNAKE_DIRECTION_DOWN ||
Snake.Direction == SNAKE_DIRECTION_RIGHT
) {
/* Disable pause mode */
Settings.Pause = 0;
/* Set direction */
Snake1.Direction = SNAKE_DIRECTION_RIGHT;
}
break;
case SNAKE_KEY_UP:
/* Change direction if possible */
if (
Snake.Direction == SNAKE_DIRECTION_LEFT ||
Snake.Direction == SNAKE_DIRECTION_RIGHT ||
Snake.Direction == SNAKE_DIRECTION_UP
) {
/* Disable pause mode */
Settings.Pause = 0;
/* Set direction */
Snake1.Direction = SNAKE_DIRECTION_UP;
}
break;
case SNAKE_KEY_DOWN:
/* Change direction if possible */
if (
Snake.Direction == SNAKE_DIRECTION_LEFT ||
Snake.Direction == SNAKE_DIRECTION_RIGHT ||
Snake.Direction == SNAKE_DIRECTION_DOWN
) {
/* Disable pause mode */
Settings.Pause = 0;
/* Set direction */
Snake1.Direction = SNAKE_DIRECTION_DOWN;
}
break;
case SNAKE_KEY_SPEED_UP:
/* Increase speed if possible */
TM_SNAKE_SpeedUp();
break;
case SNAKE_KEY_SPEED_DOWN:
/* Decrease speed if possible */
TM_SNAKE_SpeedDown();
break;
case SNAKE_KEY_PAUSE:
/* Toggle pause */
if (Settings.Pause) {
Settings.Pause = 0;
} else {
Settings.Pause = 1;
}
break;
case SNAKE_KEY_RESET:
/* Draw snake area */
TM_SNAKE_DrawArea();
/* Set default snake, leave as it was before */
TM_SNAKE_SetDefaultSnake();
/* Generate random target */
TM_SNAKE_GenerateTarget();
/* Disable gameover */
GameOver = 0;
/* Reset first time flag */
Snake_FirstTime = 1;
break;
case SNAKE_KEY_OVERFLOW:
/* Toggle overflow mode */
if (Settings.Overflow) {
Settings.Overflow = 0;
} else {
Settings.Overflow = 1;
}
break;
default:
break;
}
}
} else {
/* Green LED OFF */
TM_DISCO_LedOff(LED_GREEN);
}
/* Update LCD with changed settings */
/* Check overflow */
if (Settings1.Overflow != Settings.Overflow || Settings1.Speed != Settings.Speed) {
/* Save new */
Settings1.Overflow = Settings.Overflow;
/* Save new */
Settings1.Speed = Settings.Speed;
/* Display game mode and speed */
sprintf(Buffer, "Mode:%4d; Speed: %2d/%2d", Settings.Overflow, Settings.Speed, SNAKE_SPEED_MAX);
TM_ILI9341_Puts(10, SNAKE_TEXT_LINE1, Buffer, &TM_Font_7x10, 0x0000, SNAKE_COLOR_MAIN_BCK);
}
/* Check snake hits */
if (Snake1.Hits != Snake.Hits) {
/* Save new */
Snake1.Hits = Snake.Hits;
/* Display Speed */
sprintf(Buffer, "Hits:%4d; Score: %5d", Snake.Hits, (2 - Settings.Overflow) * Snake.Hits * Settings.Speed);
TM_ILI9341_Puts(10, SNAKE_TEXT_LINE2, Buffer, &TM_Font_7x10, 0x0000, SNAKE_COLOR_MAIN_BCK);
}
}
}
int main(void) {
/* Variables used */
TM_GPS_Data_t GPS_Data;
TM_GPS_Result_t result, current;
TM_GPS_Float_t GPS_Float;
TM_GPS_Distance_t GPS_Distance;
char buffer[40];
uint8_t i;
float temp;
uint8_t iOff;
/* Initialize system */
SystemInit();
/* Delay init */
TM_DELAY_Init();
/* Initialize leds */
TM_DISCO_LedInit();
/* Initialize GPS on 115200 baudrate */
TM_GPS_Init(&GPS_Data, 115200);
/* Initialize ili9341 LCD on STM32F429-Discovery board */
TM_ILI9341_Init();
/* Rotate LCD */
TM_ILI9341_Rotate(TM_ILI9341_Orientation_Portrait_2);
/* Go to the begginning of LCD */
iOff = 0;
/* Version 1.1 added */
/* Set two test coordinates */
/* from Ljubljana */
GPS_Distance.Latitude1 = 46.050513;
GPS_Distance.Longitude1 = 14.512873;
/* to New York */
GPS_Distance.Latitude2 = 40.711096;
GPS_Distance.Longitude2 = -74.007529;
/* Display location */
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, "Ljubljana -> New York", &TM_Font_7x10, 0x0000, 0xFFFF);
/* Calculate distance and bearing between 2 pointes */
TM_GPS_DistanceBetween(&GPS_Distance);
/* Convert float number */
TM_GPS_ConvertFloat(GPS_Distance.Distance, &GPS_Float, 1);
sprintf(buffer, " - Distance: %d.%1d meters", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
TM_GPS_ConvertFloat(GPS_Distance.Bearing, &GPS_Float, 3);
sprintf(buffer, " - Bearing: %d.%03d degrees", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Delay 5s */
Delayms(5000);
/* Clear screen */
TM_ILI9341_Fill(0xFFFF);
/* Go to the begginning of LCD */
iOff = 0;
/* Reset counter */
TM_DELAY_SetTime(0);
while (1) {
/* Update GPR data */
/* Call this as faster as possible */
result = TM_GPS_Update(&GPS_Data);
/* If we didn't receive any useful data in the start */
if (result == TM_GPS_Result_FirstDataWaiting && TM_DELAY_Time() > 3000) {
/* If we didn't receive nothing within 3 seconds */
TM_DELAY_SetTime(0);
/* Display data on LCD */
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, "Check your GPS receiver!", &TM_Font_7x10, 0x0000, 0xFFFF);
}
/* If we have any unread data */
if (result == TM_GPS_Result_NewData) {
/* We received new packet of useful data from GPS */
current = TM_GPS_Result_NewData;
/* Go to the begginning of LCD */
iOff = 0;
/* Is GPS signal valid? */
if (GPS_Data.Validity) {
/* If you want to make a GPS tracker, now is the time to save your data on SD card */
/* Toggle GREEN LED */
TM_DISCO_LedToggle(LED_GREEN);
/* We have valid GPS signal */
#ifndef GPS_DISABLE_GPGGA
/* Latitude */
/* Convert float to integer and decimal part, with 6 decimal places */
TM_GPS_ConvertFloat(GPS_Data.Latitude, &GPS_Float, 6);
sprintf(buffer, " - Latitude: %d.%d", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Longitude */
/* Convert float to integer and decimal part, with 6 decimal places */
TM_GPS_ConvertFloat(GPS_Data.Longitude, &GPS_Float, 6);
sprintf(buffer, " - Longitude: %d.%d", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Satellites in use */
sprintf(buffer, " - Sats in use: %02d", GPS_Data.Satellites);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Current time */
sprintf(buffer, " - UTC Time: %02d.%02d.%02d:%02d", GPS_Data.Time.Hours, GPS_Data.Time.Minutes, GPS_Data.Time.Seconds, GPS_Data.Time.Hundredths);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Fix: 0 = invalid, 1 = GPS, 2 = DGPS */
sprintf(buffer, " - Fix: %d", GPS_Data.Fix);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Altitude */
/* Convert float to integer and decimal part, with 6 decimal places */
TM_GPS_ConvertFloat(GPS_Data.Altitude, &GPS_Float, 6);
sprintf(buffer, " - Altitude: %3d.%06d", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
#endif
#ifndef GPS_DISABLE_GPRMC
/* Current date */
sprintf(buffer, " - Date: %02d.%02d.%04d", GPS_Data.Date.Date, GPS_Data.Date.Month, GPS_Data.Date.Year + 2000);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Current speed in knots */
TM_GPS_ConvertFloat(GPS_Data.Speed, &GPS_Float, 6);
sprintf(buffer, " - Speed in knots: %2d.%06d", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Current speed in km/h */
temp = TM_GPS_ConvertSpeed(GPS_Data.Speed, TM_GPS_Speed_KilometerPerHour);
TM_GPS_ConvertFloat(temp, &GPS_Float, 6);
sprintf(buffer, " - Speed in km/h: %2d.%06d", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
TM_GPS_ConvertFloat(GPS_Data.Direction, &GPS_Float, 3);
sprintf(buffer, " - Direction: %3d.%03d", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
#endif
#ifndef GPS_DISABLE_GPGSA
/* Horizontal dilution of precision */
TM_GPS_ConvertFloat(GPS_Data.HDOP, &GPS_Float, 2);
sprintf(buffer, " - HDOP: %2d.%02d", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Vertical dilution of precision */
TM_GPS_ConvertFloat(GPS_Data.VDOP, &GPS_Float, 2);
sprintf(buffer, " - VDOP: %2d.%02d", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Position dilution of precision */
TM_GPS_ConvertFloat(GPS_Data.PDOP, &GPS_Float, 2);
sprintf(buffer, " - PDOP: %2d.%02d", GPS_Float.Integer, GPS_Float.Decimal);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Current fix mode in use */
sprintf(buffer, " - Fix mode: %d", GPS_Data.FixMode);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
/* Display IDs of satellites in use */
sprintf(buffer, "Sats ids: ");
for (i = 0; i < GPS_Data.Satellites; i++) {
if (i < (GPS_Data.Satellites - 1)) {
sprintf(buffer, "%s%d,", buffer, GPS_Data.SatelliteIDs[i]);
} else {
sprintf(buffer, "%s%d", buffer, GPS_Data.SatelliteIDs[i]);
}
}
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
#endif
#ifndef GPS_DISABLE_GPGSV
/* Satellites in view */
sprintf(buffer, " - Satellites in view: %02d", GPS_Data.SatellitesInView);
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, buffer, &TM_Font_7x10, 0x0000, 0xFFFF);
#endif
} else {
/* Clear screen */
if (iOff > 0) {
iOff = 0;
TM_ILI9341_Fill(0xFFFF);
}
/* Go to the beginning of LCD */
iOff = 0;
/* Toggle RED LED */
TM_DISCO_LedToggle(LED_RED);
/* GPS signal is not valid */
TM_ILI9341_Puts(10, START_Y + 11 * iOff, "New received data haven't valid GPS signal!", &TM_Font_7x10, 0x0000, 0xFFFF);
}
} else if (result == TM_GPS_Result_FirstDataWaiting && current != TM_GPS_Result_FirstDataWaiting) {
current = TM_GPS_Result_FirstDataWaiting;
TM_ILI9341_Puts(10, START_Y + 11 * iOff++, "Waiting first data from GPS!", &TM_Font_7x10, 0x0000, 0xFFFF);
} else if (result == TM_GPS_Result_OldData && current != TM_GPS_Result_OldData) {
current = TM_GPS_Result_OldData;
/* We already read data, nothing new was received from GPS */
}
}
}
