/**
* @brief Shift cursor with defined step (CUR_STEP).
* @param CursorEvent: specifies direction of shift.
* This parameter can be one of the following values:
* @arg CUR_DOWN: shift cursor down by step.
* @arg CUR_UP: shift cursor up by step.
* @arg CUR_RIGHT: shift cursor right by step.
* @arg CUR_LEFT: shift cursor left by step.
* @retval None
*/
void CursorStepMove(uint8_t CursorEvent)
{
uint16_t tmpY, tmpX;
/*Load current cursor position*/
tmpY = Cursor->Y;
tmpX = Cursor->X;
/*Step cursor position with regard to desired direction.*/
switch (CursorEvent)
{
case CUR_DOWN:
tmpY -= (tmpY >= CUR_STEP) ? (CUR_STEP) : (tmpY);
break;
case CUR_LEFT:
tmpY += (LCD_Width - tmpY - CursorPointer[1] >= CUR_STEP) ? (CUR_STEP) : (LCD_Width - tmpY - CursorPointer[1]);
break;
case CUR_RIGHT:
tmpX += (LCD_Height - tmpX - CursorPointer[0] >= CUR_STEP) ? (CUR_STEP) : (LCD_Height - tmpX - CursorPointer[0]);
break;
case CUR_UP:
tmpX -= (tmpX >= CUR_STEP) ? (CUR_STEP) : (tmpX);
break;
default:
break;
}
/*Pass just calculated position to call what handle this change*/
CursorPosition(tmpX, tmpY);
GL_Delay(3);
}
/**
* @brief Add a message in the initialization page
* @param msg: pointer to the string to be displayed
* @retval None
*/
void GL_State_Message (uint8_t *msg)
{
uint8_t tmpCaption[40];
GL_CenterCaption (tmpCaption, msg, LCD_Width / GL_FONT_SMALL_WIDTH);
GL_DisplayAdjStringLine(3 * (LCD_Height / 5), 300, tmpCaption, GL_FALSE);
GL_Delay(300);
}
/**
* @brief Read the coordinate of the point touched and assign their
* value to the variables u32_TSXCoordinate and u32_TSYCoordinate
* @param None
* @retval None
*/
void TSC_Read(void)
{
#if TOUCH_SCREEN_CAPABILITY
TSC_Value_X = 0x00;
TSC_Value_Y = 0x00;
if((I2C_ReadDeviceRegister(pTscHwParam.TSC_DeviceRegister, GL_TSC_CTRL) & 0x80))
{
GL_Delay(TOUCH_DELAY);
/* Stop touchscreen controller */
I2C_WriteDeviceRegister(pTscHwParam.TSC_DeviceRegister, GL_TSC_CTRL, 0x00);
TSC_Value_X = I2C_ReadDataBuffer(pTscHwParam.TSC_DeviceRegister, GL_TSC_DATA_Y);
TSC_Value_Y = I2C_ReadDataBuffer(pTscHwParam.TSC_DeviceRegister, GL_TSC_DATA_X);
I2C_ReadDataBuffer(pTscHwParam.TSC_DeviceRegister, GL_TSC_DATA_Z);
u32_TSXCoordinate = getDisplayCoordinateX( TSC_Value_X, TSC_Value_Y );
u32_TSYCoordinate = getDisplayCoordinateY( TSC_Value_X, TSC_Value_Y );
touch_done = 1;
/* Clear the interrupt pending bit and enable the FIFO again */
I2C_WriteDeviceRegister(pTscHwParam.TSC_DeviceRegister, GL_FIFO_CTRL_STA, 0x01);
I2C_WriteDeviceRegister(pTscHwParam.TSC_DeviceRegister, GL_INT_STA, IOE_TS_IT);
I2C_WriteDeviceRegister(pTscHwParam.TSC_DeviceRegister, GL_FIFO_CTRL_STA, 0x00);
GL_Delay(0x02);
/* Enable touchscreen controller */
I2C_WriteDeviceRegister(pTscHwParam.TSC_DeviceRegister, GL_TSC_CTRL, 0x01);
GL_Delay(0x05);
/* check if the FIFO is not empty */
if(I2C_ReadDeviceRegister(pTscHwParam.TSC_DeviceRegister, GL_FIFO_CTRL_STA) != 0x20)
{
/* Flush the FIFO */
I2C_WriteDeviceRegister(pTscHwParam.TSC_DeviceRegister, GL_FIFO_CTRL_STA, 0x01);
I2C_WriteDeviceRegister(pTscHwParam.TSC_DeviceRegister, GL_FIFO_CTRL_STA, 0x00);
}
}
else
{
GL_Delay(1);
}
#endif
}
/**
* @brief display the initialization page
* @param None
* @retval None
*/
void GL_Startup (void)
{
uint8_t cnt = 0;
GL_Clear(GL_White);
GL_DrawButtonBMP( 210, 110, 148, (LCD_Height / 10)*2, (uint8_t*) STM32Logo );
for ( ; cnt < 2; cnt ++)
{
GL_DisplayAdjStringLine(144, 250, (uint8_t *)"STM32 System Initializing. ", GL_FALSE);
GL_Delay(100);
GL_DisplayAdjStringLine(144, 250, (uint8_t *)"STM32 System Initializing.. ", GL_FALSE);
GL_Delay(100);
GL_DisplayAdjStringLine(144, 250, (uint8_t *)"STM32 System Initializing...", GL_FALSE);
GL_Delay(100);
}
}
/**
* @brief Calibrate TouchScreen coordinates by LCD touch in 5 points
* @param None
* @retval None
*/
void TS_Calibration(void)
{
uint32_t coordinate_X1a = 0, coordinate_X2a = 0, coordinate_X3a = 0, coordinate_X4a = 0, coordinate_X5a = 0;
uint32_t coordinate_Y1a = 0, coordinate_Y2a = 0, coordinate_Y3a = 0, coordinate_Y4a = 0, coordinate_Y5a = 0;
uint32_t coordinate_X1b = 0, coordinate_X2b = 0, coordinate_X3b = 0, coordinate_X4b = 0, coordinate_X5b = 0;
uint32_t coordinate_Y1b = 0, coordinate_Y2b = 0, coordinate_Y3b = 0, coordinate_Y4b = 0, coordinate_Y5b = 0;
uint32_t coordinate_X1 = 0, coordinate_X2 = 0, coordinate_X3 = 0, coordinate_X4 = 0, coordinate_X5 = 0;
uint32_t coordinate_Y1 = 0, coordinate_Y2 = 0, coordinate_Y3 = 0, coordinate_Y4 = 0, coordinate_Y5 = 0;
uint16_t Xd1 = (LCD_Width / 2), Xd2 = 1 * (LCD_Width / 5), Xd3 = 4 * (LCD_Width / 5), Xd4 = 4 * (LCD_Width / 5), Xd5 = 1 * (LCD_Width / 5);
uint16_t Yd1 = (LCD_Height / 2), Yd2 = 1 * (LCD_Height / 5), Yd3 = 1 * (LCD_Height / 5), Yd4 = 4 * (LCD_Height / 5), Yd5 = 4 * (LCD_Height / 5);
double A = 0.0, B = 0.0, C = 0.0, D = 0.0, E = 0.0, F = 0.0;
double d = 0.0, dx1 = 0.0, dx2 = 0.0, dx3 = 0.0, dy1 = 0.0, dy2 = 0.0, dy3 = 0.0;
uint32_t X2_1 = 0, X2_2 = 0, X2_3 = 0, X2_4 = 0, X2_5 = 0;
uint32_t Y2_1 = 0, Y2_2 = 0, Y2_3 = 0, Y2_4 = 0, Y2_5 = 0;
uint32_t XxY_1 = 0, XxY_2 = 0, XxY_3 = 0, XxY_4 = 0, XxY_5 = 0;
uint32_t XxXd_1 = 0, XxXd_2 = 0, XxXd_3 = 0, XxXd_4 = 0, XxXd_5 = 0;
uint32_t YxXd_1 = 0, YxXd_2 = 0, YxXd_3 = 0, YxXd_4 = 0, YxXd_5 = 0;
uint32_t XxYd_1 = 0, XxYd_2 = 0, XxYd_3 = 0, XxYd_4 = 0, XxYd_5 = 0;
uint32_t YxYd_1 = 0, YxYd_2 = 0, YxYd_3 = 0, YxYd_4 = 0, YxYd_5 = 0;
uint32_t alfa = 0, beta = 0, chi = 0, Kx = 0, Ky = 0, Lx = 0, Ly = 0;
uint16_t epsilon = 0, fi = 0, Mx = 0, My = 0;
GL_SetBackColor(GL_White);
GL_SetTextColor(GL_Black);
GL_Clear(White);
GL_DisplayAdjStringLine(3 * (LCD_Height / 7), LCD_Width - 25, "Run Calibration.", GL_FALSE);
GL_Delay(40);
GL_DisplayAdjStringLine(3 * (LCD_Height / 7), LCD_Width - 25, "Run Calibration..", GL_FALSE);
GL_Delay(40);
GL_DisplayAdjStringLine(3 * (LCD_Height / 7), LCD_Width - 25, "Run Calibration...", GL_FALSE);
GL_Delay(30);
touch_done = 0;
GL_Clear(White);
GL_Cross( (LCD_Height / 2), (LCD_Width / 2) ); /* Absolute Central Point */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X1a = TSC_Value_X;
coordinate_Y1a = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
GL_Clear(White);
GL_Cross(1*(LCD_Height / 5), 1*(LCD_Width / 5)); /* Nord-East Corner point */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X2a = TSC_Value_X;
coordinate_Y2a = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
GL_Clear(White);
GL_Cross(1*(LCD_Height / 5), 4*(LCD_Width / 5)); /* Nord-West Corner */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X3a = TSC_Value_X;
coordinate_Y3a = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
GL_Clear(White);
GL_Cross(4*(LCD_Height / 5), 4*(LCD_Width / 5)); /* Sud-West Corner */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X4a = TSC_Value_X;
coordinate_Y4a = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
GL_Clear(White);
GL_Cross(4*(LCD_Height / 5), 1*(LCD_Width / 5)); /* Sud-East Corner point */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X5a = TSC_Value_X;
coordinate_Y5a = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
GL_Clear(White);
GL_Cross( (LCD_Height / 2), (LCD_Width / 2) ); /* Absolute Central Point */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X1b = TSC_Value_X;
coordinate_Y1b = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
GL_Clear(White);
GL_Cross(1*(LCD_Height / 5), 1*(LCD_Width / 5)); /* Nord-East Corner point */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X2b = TSC_Value_X;
coordinate_Y2b = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
GL_Clear(White);
GL_Cross(1*(LCD_Height / 5), 4*(LCD_Width / 5)); /* Nord-West Corner */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X3b = TSC_Value_X;
coordinate_Y3b = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
GL_Clear(White);
GL_Cross(4*(LCD_Height / 5), 4*(LCD_Width / 5)); /* Sud-West Corner */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X4b = TSC_Value_X;
coordinate_Y4b = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
GL_Clear(White);
GL_Cross(4*(LCD_Height / 5), 1*(LCD_Width / 5)); /* Sud-East Corner point */
while ( touch_done == 0)
{
TSC_Read();
}
coordinate_X5b = TSC_Value_X;
coordinate_Y5b = TSC_Value_Y;
GL_Delay(90); /* This is to catch only one touch event */
TSC_Init();
touch_done = 0;
/* Average between X and Y coupled Touchscreen values */
coordinate_X1 = (coordinate_X1a + coordinate_X1b) / 2;
coordinate_X2 = (coordinate_X2a + coordinate_X2b) / 2;
coordinate_X3 = (coordinate_X3a + coordinate_X3b) / 2;
coordinate_X4 = (coordinate_X4a + coordinate_X4b) / 2;
coordinate_X5 = (coordinate_X5a + coordinate_X5b) / 2;
coordinate_Y1 = (coordinate_Y1a + coordinate_Y1b) / 2;
coordinate_Y2 = (coordinate_Y2a + coordinate_Y2b) / 2;
coordinate_Y3 = (coordinate_Y3a + coordinate_Y3b) / 2;
coordinate_Y4 = (coordinate_Y4a + coordinate_Y4b) / 2;
coordinate_Y5 = (coordinate_Y5a + coordinate_Y5b) / 2;
X2_1 = (coordinate_X1 * coordinate_X1);
X2_2 = (coordinate_X2 * coordinate_X2);
X2_3 = (coordinate_X3 * coordinate_X3);
X2_4 = (coordinate_X4 * coordinate_X4);
X2_5 = (coordinate_X5 * coordinate_X5);
Y2_1 = (coordinate_Y1 * coordinate_Y1);
Y2_2 = (coordinate_Y2 * coordinate_Y2);
Y2_3 = (coordinate_Y3 * coordinate_Y3);
Y2_4 = (coordinate_Y4 * coordinate_Y4);
Y2_5 = (coordinate_Y5 * coordinate_Y5);
XxY_1 = (coordinate_X1 * coordinate_Y1);
XxY_2 = (coordinate_X2 * coordinate_Y2);
XxY_3 = (coordinate_X3 * coordinate_Y3);
XxY_4 = (coordinate_X4 * coordinate_Y4);
XxY_5 = (coordinate_X5 * coordinate_Y5);
XxXd_1 = ( coordinate_X1 * Xd1 );
XxXd_2 = ( coordinate_X2 * Xd2 );
XxXd_3 = ( coordinate_X3 * Xd3 );
XxXd_4 = ( coordinate_X4 * Xd4 );
XxXd_5 = ( coordinate_X5 * Xd5 );
YxXd_1 = ( coordinate_Y1 * Xd1 );
YxXd_2 = ( coordinate_Y2 * Xd2 );
YxXd_3 = ( coordinate_Y3 * Xd3 );
YxXd_4 = ( coordinate_Y4 * Xd4 );
YxXd_5 = ( coordinate_Y5 * Xd5 );
XxYd_1 = ( coordinate_X1 * Yd1 );
XxYd_2 = ( coordinate_X2 * Yd2 );
XxYd_3 = ( coordinate_X3 * Yd3 );
XxYd_4 = ( coordinate_X4 * Yd4 );
XxYd_5 = ( coordinate_X5 * Yd5 );
YxYd_1 = ( coordinate_Y1 * Yd1 );
YxYd_2 = ( coordinate_Y2 * Yd2 );
YxYd_3 = ( coordinate_Y3 * Yd3 );
YxYd_4 = ( coordinate_Y4 * Yd4 );
YxYd_5 = ( coordinate_Y5 * Yd5 );
alfa = X2_1 + X2_2 + X2_3 + X2_4 + X2_5;
beta = Y2_1 + Y2_2 + Y2_3 + Y2_4 + Y2_5;
chi = XxY_1 + XxY_2 + XxY_3 + XxY_4 + XxY_5;
epsilon = coordinate_X1 + coordinate_X2 + coordinate_X3 + coordinate_X4 + coordinate_X5;
fi = coordinate_Y1 + coordinate_Y2 + coordinate_Y3 + coordinate_Y4 + coordinate_Y5;
Kx = XxXd_1 + XxXd_2 + XxXd_3 + XxXd_4 + XxXd_5;
Ky = XxYd_1 + XxYd_2 + XxYd_3 + XxYd_4 + XxYd_5;
Lx = YxXd_1 + YxXd_2 + YxXd_3 + YxXd_4 + YxXd_5;
Ly = YxYd_1 + YxYd_2 + YxYd_3 + YxYd_4 + YxYd_5;
Mx = Xd1 + Xd2 + Xd3 + Xd4 + Xd5;
My = Yd1 + Yd2 + Yd3 + Yd4 + Yd5;
d = 5 * ( ((double)alfa * beta) - ((double)chi * chi) ) + 2 * ((double)chi * epsilon * fi) - ((double)alfa * fi * fi ) - ( (double)beta * epsilon * epsilon );
dx1 = 5 * ( ((double)Kx * beta) - ((double)Lx * chi) ) + ((double)fi * ( ((double)Lx * epsilon) - ((double)Kx * fi) )) + ((double)Mx * ( ((double)chi * fi) - ((double)beta * epsilon) ));
dx2 = 5 * ( ((double)Lx * alfa) - ((double)Kx * chi) ) + ((double)epsilon * ( ((double)Kx * fi) - ((double)Lx * epsilon) )) + ((double)Mx * ( ((double)chi * epsilon) - ((double)alfa * fi) ));
dx3 = ((double)Kx * ( ((double)chi * fi) - ((double)beta * epsilon) )) + ((double)Lx * ( ((double)chi * epsilon) - ((double)alfa * fi) )) + ((double)Mx * ( ((double)alfa * beta) - ((double)chi * chi) ));
dy1 = 5 * ( ((double)Ky * beta) - ((double)Ly * chi) ) + ((double)fi * ( ((double)Ly * epsilon) - ((double)Ky * fi) )) + ((double)My * ( ((double)chi * fi) - ((double)beta * epsilon) ));
dy2 = 5 * ( ((double)Ly * alfa) - ((double)Ky * chi) ) + ((double)epsilon * ( ((double)Ky * fi) - ((double)Ly * epsilon) )) + ((double)My * ( ((double)chi * epsilon) - ((double)alfa * fi) ));
dy3 = ((double)Ky * ( ((double)chi * fi) - ((double)beta * epsilon) )) + ((double)Ly * ( ((double)chi * epsilon) - ((double)alfa * fi) )) + ((double)My * ( ((double)alfa * beta) - ((double)chi * chi) ));
A = dx1 / d;
B = dx2 / d;
C = dx3 / d;
D = dy1 / d;
E = dy2 / d;
F = dy3 / d;
/* To avoid computation with "double" variables A, B, C, D, E, F, we use the s32 variables
A2, B2, C2, D2, E2, F2, multiplied for a Scale Factor equal to 100000 to retain the precision*/
A2 = (s32)(A * RESCALE_FACTOR);
B2 = (s32)(B * RESCALE_FACTOR);
C2 = (s32)(C * RESCALE_FACTOR);
D2 = (s32)(D * RESCALE_FACTOR);
E2 = (s32)(E * RESCALE_FACTOR);
F2 = (s32)(F * RESCALE_FACTOR);
GL_Clear(White);
GL_DisplayAdjStringLine(3 * (LCD_Height / 7), 10 * (LCD_Width / 11), "Calibration done!", GL_FALSE);
GL_Delay(25); /* Now show HOME Menu */
GL_Clear(White);
calibration_done = 1;
/********************* FLASH PROGRAMMING FOR SAVING "calibration_done" variable **********************/
TSC_FlashStatus = TSC_FLASH_COMPLETE;
TSC_MemoryProgramStatus = PASSED;
FlashFree_Address = CalibrationAddr;
/* Unlock the Flash Program Erase controller */
TSC_FLASH_Unlock();
/* Erase Flash sectors ******************************************************/
#if defined(USE_STM3210C_EVAL) || defined(USE_STM32100E_EVAL) || defined(USE_STM3220F_EVAL)
/* Clear All pending flags */
TSC_FLASH_ClearFlag( TSC_FLASH_FLAG_BSY | TSC_FLASH_FLAG_EOP | TSC_FLASH_FLAG_PGERR | TSC_FLASH_FLAG_WRPRTERR);
/* Erase Last Flash Page */
TSC_FlashStatus = TSC_FLASH_ErasePage( FlashFree_Address );
#endif
/* Writing calibration parameters to the Flash Memory */
TSC_FlashStatus = TSC_FLASH_ProgramWord( FlashFree_Address, calibration_done);
/* Increasing Flash Memory Page Address */
FlashFree_Address = FlashFree_Address + 4;
/* Writing Calibration Parameter */
TSC_FlashStatus = TSC_FLASH_ProgramWord( FlashFree_Address, A2);
/* Increasing Flash Memory Page Address */
FlashFree_Address = FlashFree_Address + 4;
/* Writing Calibration Parameter */
TSC_FlashStatus = TSC_FLASH_ProgramWord( FlashFree_Address, B2);
/* Increasing Flash Memory Page Address */
FlashFree_Address = FlashFree_Address + 4;
/* Writing Calibration Parameter */
TSC_FlashStatus = TSC_FLASH_ProgramWord( FlashFree_Address, C2);
/* Increasing Flash Memory Page Address */
FlashFree_Address = FlashFree_Address + 4;
/* Writing Calibration Parameter */
TSC_FlashStatus = TSC_FLASH_ProgramWord( FlashFree_Address, D2);
/* Increasing Flash Memory Page Address */
FlashFree_Address = FlashFree_Address + 4;
/* Writing Calibration Parameter */
TSC_FlashStatus = TSC_FLASH_ProgramWord( FlashFree_Address, E2);
/* Increasing Flash Memory Page Address */
FlashFree_Address = FlashFree_Address + 4;
/* Writing Calibration Parameter */
TSC_FlashStatus = TSC_FLASH_ProgramWord( FlashFree_Address, F2);
/* Increasing Flash Memory Page Address */
FlashFree_Address = FlashFree_Address + 4;
/* Reading Calibration Flag from the Flash Memory */
calibration_done = (*(__IO uint32_t*) CalibrationAddr) & 0x000000FF;
}
