Lib for the new LCD Display with ILI9341 controller

Revision:
14:2724838d11ed
Parent:
13:b2b3e5430f81
--- a/SPI_TFT_ILI9341_NUCLEO.cpp	Wed Jun 25 16:51:27 2014 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,1048 +0,0 @@
-/* mbed library for 240*320 pixel display TFT based on ILI9341 LCD Controller
- * Copyright (c) 2013, 2014 Peter Drescher - DC2PD
- * Special version for STM Nucleo -L152
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
- * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
- * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
- * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
- * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
- * THE SOFTWARE.
- */
-
- // 24.06.14   initial version
- // 25.06.14   add Nucleo F103RB 
-
-// only include this file if target is L152 or F103RB : 
-#if defined TARGET_NUCLEO_L152RE || defined TARGET_NUCLEO_F103RB
-
-#include "SPI_TFT_ILI9341.h"
-#include "mbed.h"
-
-#if defined TARGET_NUCLEO_L152RE
-#include "stm32l1xx_dma.h"
-#define use_ram
-#endif
-
-#if defined TARGET_NUCLEO_F103RB
-#include "stm32f10x_dma.h"
-#endif
-
-#define BPP         16                  // Bits per pixel
-
-//extern Serial pc;
-//extern DigitalOut xx;     // debug !!
-
-DMA_InitTypeDef DMA_InitStructure; 
-
-
-SPI_TFT_ILI9341::SPI_TFT_ILI9341(PinName mosi, PinName miso, PinName sclk, PinName cs, PinName reset, PinName dc, const char *name)
-    : GraphicsDisplay(name), SPI(mosi,miso,sclk,NC), _cs(cs), _reset(reset), _dc(dc)
-{
-
-    format(8,3);                 // 8 bit spi mode 3
-    frequency(10000000);         // 10 Mhz SPI clock : result 2 / 4 = 8
-    orientation = 0;
-    char_x = 0;
-    if(_spi.spi == SPI_1){       // test which SPI is in use
-         spi_num = 1;
-    }
-    if(_spi.spi == SPI_2){
-         spi_num = 2;
-    }
-    #ifdef SPI_3                // there is no SPI 3 on all devices
-    if(_spi.spi == SPI_3){
-         spi_num = 3;
-    }
-    #endif
-    tft_reset();
-}
-
-// we define a fast write to the SPI port
-// we use the bit banding address to get the flag without masking
-
-#define bit_SPI1_txe  *((volatile unsigned int *)0x42260104)
-#define SPI1_DR       *((volatile unsigned int *)0x4001300C)
-#define bit_SPI2_txe  *((volatile unsigned int *)0x42070104)
-#define SPI2_DR       *((volatile unsigned int *)0x4000380C)
-#define bit_SPI3_txe  *((volatile unsigned int *)0x42078104)
-#define SPI3_DR       *((volatile unsigned int *)0x40003C0C)
-
-void SPI_TFT_ILI9341::f_write(int data){
-
-switch(spi_num){  // used SPI port
-case (1):
-    while(bit_SPI1_txe == 0);  // wait for SPI1->SR TXE flag
-    SPI1_DR = data;
-    break;
-
-case (2):
-    while( bit_SPI2_txe  == 0);  // wait for SPI2->SR TXE flag
-    SPI2_DR = data;
-    break;
-
-case (3):
-    while( bit_SPI3_txe == 0);  // wait for SPI3->SR TXE flag
-    SPI3_DR = data;
-    break;
-
-    }
-}
-
-// wait for SPI not busy
-// we have to wait for the last bit to switch the cs off
-// we use the bit banding address to get the flag without masking
-
-#define bit_SPI1_bsy  *((volatile unsigned int *)0x4226011C)
-#define bit_SPI2_bsy  *((volatile unsigned int *)0x4207011C)
-#define bit_SPI3_bsy  *((volatile unsigned int *)0x4207811C)
-
-void inline SPI_TFT_ILI9341::spi_bsy(void){    
-switch(spi_num){        // decide which SPI is to use
-case (1):
-    while(bit_SPI1_bsy == 1);   // SPI1->SR bit 7
-    break;
-
-case (2):
-    while(bit_SPI2_bsy == 1);   // SPI2->SR bit 7
-    break;
-
-case (3):
-    while(bit_SPI3_bsy == 1);   // SPI2->SR bit 7
-    break;
-    }
-}
-
-
-// switch fast between 8 and 16 bit mode
-#define bit_SPI1_dff  *((volatile unsigned int *)0x4226002C)
-#define bit_SPI2_dff  *((volatile unsigned int *)0x4207002C)
-#define bit_SPI3_dff  *((volatile unsigned int *)0x4207802C)
-void SPI_TFT_ILI9341::spi_16(bool s){
-switch(spi_num){        // decide which SPI is to use
-case(1):
-    if(s) bit_SPI1_dff = 1; // switch to 16 bit Mode
-    else  bit_SPI1_dff = 0; // switch to 8  bit Mode
-    break;
-
-case(2):
-    if(s) bit_SPI2_dff = 1; // switch to 16 bit Mode
-    else  bit_SPI2_dff = 0; // switch to 8  bit Mode
-    break;
-
-case(3):
-    if(s) bit_SPI3_dff = 1; // switch to 16 bit Mode
-    else  bit_SPI3_dff = 0; // switch to 8  bit Mode
-    break;
-    }
-}
-
-
-int SPI_TFT_ILI9341::width()
-{
-    if (orientation == 0 || orientation == 2) return 240;
-    else return 320;
-}
-
-
-int SPI_TFT_ILI9341::height()
-{
-    if (orientation == 0 || orientation == 2) return 320;
-    else return 240;
-}
-
-
-void SPI_TFT_ILI9341::set_orientation(unsigned int o)
-{
-    orientation = o;
-    wr_cmd(0x36);                     // MEMORY_ACCESS_CONTROL
-    switch (orientation) {
-        case 0:
-            f_write(0x48);
-            break;
-        case 1:
-            f_write(0x28);
-            break;
-        case 2:
-            f_write(0x88);
-            break;
-        case 3:
-            f_write(0xE8);
-            break;
-    }
-    spi_bsy();    // wait for end of transfer
-    _cs = 1;
-    WindowMax();
-}
-
-
-// write command to tft register
-// use fast command
-void SPI_TFT_ILI9341::wr_cmd(unsigned char cmd)
-{
-    _dc = 0;
-    _cs = 0;
-    f_write(cmd);
-    spi_bsy();
-    _dc = 1;
-}
-
-void SPI_TFT_ILI9341::wr_dat(unsigned char dat)
-{
-   f_write(dat);
-   spi_bsy();  // wait for SPI send
-}
-
-// the ILI9341 can read
-char SPI_TFT_ILI9341::rd_byte(unsigned char cmd)
-{
-    // has to change !!
-    return(0);
-}
-
-// read 32 bit
-int SPI_TFT_ILI9341::rd_32(unsigned char cmd)
-{
-    // has to change !!!
-    return(0);
-}
-
-int  SPI_TFT_ILI9341::Read_ID(void){
-    int r;
-    r = rd_byte(0x0A);
-    r = rd_byte(0x0A);
-    r = rd_byte(0x0A);
-    r = rd_byte(0x0A);
-    return(r);
-}
-
-
-// Init code based on MI0283QT datasheet
-// this code is called only at start
-// no need to be optimized
-
-void SPI_TFT_ILI9341::tft_reset()
-{
-    _cs = 1;                           // cs high
-    _dc = 1;                           // dc high
-    _reset = 0;                        // display reset
-
-    wait_us(50);
-    _reset = 1;                       // end hardware reset
-    wait_ms(5);
-
-    wr_cmd(0x01);                     // SW reset
-    wait_ms(5);
-    wr_cmd(0x28);                     // display off
-
-    /* Start Initial Sequence ----------------------------------------------------*/
-    wr_cmd(0xCF);
-    f_write(0x00);
-    f_write(0x83);
-    f_write(0x30);
-    spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xED);
-     f_write(0x64);
-     f_write(0x03);
-     f_write(0x12);
-     f_write(0x81);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xE8);
-     f_write(0x85);
-     f_write(0x01);
-     f_write(0x79);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xCB);
-     f_write(0x39);
-     f_write(0x2C);
-     f_write(0x00);
-     f_write(0x34);
-     f_write(0x02);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xF7);
-     f_write(0x20);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xEA);
-     f_write(0x00);
-     f_write(0x00);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xC0);                     // POWER_CONTROL_1
-     f_write(0x26);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xC1);                     // POWER_CONTROL_2
-     f_write(0x11);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xC5);                     // VCOM_CONTROL_1
-     f_write(0x35);
-     f_write(0x3E);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xC7);                     // VCOM_CONTROL_2
-     f_write(0xBE);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0x36);                     // MEMORY_ACCESS_CONTROL
-     f_write(0x48);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0x3A);                     // COLMOD_PIXEL_FORMAT_SET
-     f_write(0x55);                 // 16 bit pixel
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xB1);                     // Frame Rate
-     f_write(0x00);
-     f_write(0x1B);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xF2);                     // Gamma Function Disable
-     f_write(0x08);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0x26);
-     f_write(0x01);                 // gamma set for curve 01/2/04/08
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xE0);                     // positive gamma correction
-     f_write(0x1F);
-     f_write(0x1A);
-     f_write(0x18);
-     f_write(0x0A);
-     f_write(0x0F);
-     f_write(0x06);
-     f_write(0x45);
-     f_write(0x87);
-     f_write(0x32);
-     f_write(0x0A);
-     f_write(0x07);
-     f_write(0x02);
-     f_write(0x07);
-     f_write(0x05);
-     f_write(0x00);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xE1);                     // negativ gamma correction
-     f_write(0x00);
-     f_write(0x25);
-     f_write(0x27);
-     f_write(0x05);
-     f_write(0x10);
-     f_write(0x09);
-     f_write(0x3A);
-     f_write(0x78);
-     f_write(0x4D);
-     f_write(0x05);
-     f_write(0x18);
-     f_write(0x0D);
-     f_write(0x38);
-     f_write(0x3A);
-     f_write(0x1F);
-     spi_bsy();
-     _cs = 1;
-
-     WindowMax ();
-
-     //wr_cmd(0x34);                     // tearing effect off
-     //_cs = 1;
-
-     //wr_cmd(0x35);                     // tearing effect on
-     //_cs = 1;
-
-     wr_cmd(0xB7);                       // entry mode
-     f_write(0x07);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0xB6);                       // display function control
-     f_write(0x0A);
-     f_write(0x82);
-     f_write(0x27);
-     f_write(0x00);
-     spi_bsy();
-     _cs = 1;
-
-     wr_cmd(0x11);                     // sleep out
-     spi_bsy();
-     _cs = 1;
-
-     wait_ms(100);
-
-     wr_cmd(0x29);                     // display on
-     spi_bsy();
-     _cs = 1;
-
-     wait_ms(100);
-
-    //    Configure the DMA controller init-structure
-    DMA_StructInit(&DMA_InitStructure);
-    switch(spi_num){        // decide which SPI is to use
-    case (1):
-        RCC_AHBPeriphClockCmd(RCC_AHBPeriph_DMA1, ENABLE);    // SPI1 and SPI2 are using DMA 1
-        DMA_InitStructure.DMA_PeripheralBaseAddr  = (uint32_t) &(SPI1->DR);
-        break;
-    case (2):
-        RCC_AHBPeriphClockCmd(RCC_AHBPeriph_DMA1, ENABLE);    // SPI1 and SPI2 are using DMA 1
-        DMA_InitStructure.DMA_PeripheralBaseAddr  = (uint32_t) &(SPI2->DR);
-        break;
-    case (3):
-        RCC_AHBPeriphClockCmd(RCC_AHBPeriph_DMA2, ENABLE);    // SPI3 is using DMA 2
-        DMA_InitStructure.DMA_PeripheralBaseAddr  = (uint32_t) &(SPI3->DR);
-        break;
-    }
-    DMA_InitStructure.DMA_DIR = DMA_DIR_PeripheralDST;
-    DMA_InitStructure.DMA_M2M = DMA_M2M_Disable;
-    DMA_InitStructure.DMA_BufferSize  = 0;
-    DMA_InitStructure.DMA_PeripheralInc  = DMA_PeripheralInc_Disable;
-    DMA_InitStructure.DMA_PeripheralDataSize  = DMA_PeripheralDataSize_HalfWord;
-    DMA_InitStructure.DMA_MemoryDataSize  = DMA_MemoryDataSize_HalfWord;
-    DMA_InitStructure.DMA_Mode  = DMA_Mode_Normal;
-    DMA_InitStructure.DMA_Priority  = DMA_Priority_High;
- }
-
-
-// speed optimized
-// write direct to SPI1 register !
-void SPI_TFT_ILI9341::pixel(int x, int y, int color)
-{
-    wr_cmd(0x2A);
-    spi_16(1);         // switch to 8 bit Mode
-    f_write(x);
-    spi_bsy();
-    _cs = 1;
-
-    spi_16(0);        // switch to 8 bit Mode
-    wr_cmd(0x2B);
-    spi_16(1);
-    f_write(y);
-    spi_bsy();
-    _cs = 1;
-    spi_16(0);
-
-    wr_cmd(0x2C); // send pixel
-    spi_16(1);
-    f_write(color);
-    spi_bsy();
-    _cs = 1;
-    spi_16(0);
-}
-
-// optimized
-// write direct to SPI1 register !
-void SPI_TFT_ILI9341::window (unsigned int x, unsigned int y, unsigned int w, unsigned int h)
-{
-    wr_cmd(0x2A);
-    spi_16(1);
-    f_write(x);
-    f_write(x+w-1);
-    spi_bsy();
-    _cs = 1;
-    spi_16(0);
-
-    wr_cmd(0x2B);
-    spi_16(1);
-    f_write(y) ;
-    f_write(y+h-1);
-    spi_bsy();
-    _cs = 1;
-    spi_16(0);
-}
-
-
-void SPI_TFT_ILI9341::WindowMax (void)
-{
-    window (0, 0, width(),  height());
-}
-
-// optimized
-// use DMA to transfer pixel data to the screen
-void SPI_TFT_ILI9341::cls (void)
-{
-    // we can use the fillrect function 
-   fillrect(0,0,width()-1,height()-1,_background);
-}    
-
-void SPI_TFT_ILI9341::circle(int x0, int y0, int r, int color)
-{
-
-    int x = -r, y = 0, err = 2-2*r, e2;
-    do {
-        pixel(x0-x, y0+y,color);
-        pixel(x0+x, y0+y,color);
-        pixel(x0+x, y0-y,color);
-        pixel(x0-x, y0-y,color);
-        e2 = err;
-        if (e2 <= y) {
-            err += ++y*2+1;
-            if (-x == y && e2 <= x) e2 = 0;
-        }
-        if (e2 > x) err += ++x*2+1;
-    } while (x <= 0);
-}
-
-void SPI_TFT_ILI9341::fillcircle(int x0, int y0, int r, int color)
-{
-    int x = -r, y = 0, err = 2-2*r, e2;
-    do {
-        vline(x0-x, y0-y, y0+y, color);
-        vline(x0+x, y0-y, y0+y, color);
-        e2 = err;
-        if (e2 <= y) {
-            err += ++y*2+1;
-            if (-x == y && e2 <= x) e2 = 0;
-        }
-        if (e2 > x) err += ++x*2+1;
-    } while (x <= 0);
-}
-
-
-// optimized for speed
-void SPI_TFT_ILI9341::hline(int x0, int x1, int y, int color)
-{
-    int w,j;
-    w = x1 - x0 + 1;
-    window(x0,y,w,1);
-    _dc = 0;
-    _cs = 0;
-    f_write(0x2C); // send pixel
-    spi_bsy();
-    _dc = 1;
-    spi_16(1);
-
-    for (j=0; j<w; j++) {
-        f_write(color);
-    }
-    spi_bsy();
-    spi_16(0);
-    _cs = 1;
-    WindowMax();
-    return;
-}
-
-// optimized for speed
-void SPI_TFT_ILI9341::vline(int x, int y0, int y1, int color)
-{
-    int h,y;
-    h = y1 - y0 + 1;
-    window(x,y0,1,h);
-    _dc = 0;
-    _cs = 0;
-    f_write(0x2C); // send pixel
-    spi_bsy();
-    _dc = 1;
-    spi_16(1);
-                // switch to 16 bit Mode 3
-    for (y=0; y<h; y++) {
-        f_write(color);
-    }
-    spi_bsy();
-    spi_16(0);
-    _cs = 1;
-    WindowMax();
-    return;
-}
-
-
-void SPI_TFT_ILI9341::line(int x0, int y0, int x1, int y1, int color)
-{
-    //WindowMax();
-    int   dx = 0, dy = 0;
-    int   dx_sym = 0, dy_sym = 0;
-    int   dx_x2 = 0, dy_x2 = 0;
-    int   di = 0;
-
-    dx = x1-x0;
-    dy = y1-y0;
-
-    if (dx == 0) {        /* vertical line */
-        if (y1 > y0) vline(x0,y0,y1,color);
-        else vline(x0,y1,y0,color);
-        return;
-    }
-
-    if (dx > 0) {
-        dx_sym = 1;
-    } else {
-        dx_sym = -1;
-    }
-    if (dy == 0) {        /* horizontal line */
-        if (x1 > x0) hline(x0,x1,y0,color);
-        else  hline(x1,x0,y0,color);
-        return;
-    }
-
-    if (dy > 0) {
-        dy_sym = 1;
-    } else {
-        dy_sym = -1;
-    }
-
-    dx = dx_sym*dx;
-    dy = dy_sym*dy;
-
-    dx_x2 = dx*2;
-    dy_x2 = dy*2;
-
-    if (dx >= dy) {
-        di = dy_x2 - dx;
-        while (x0 != x1) {
-
-            pixel(x0, y0, color);
-            x0 += dx_sym;
-            if (di<0) {
-                di += dy_x2;
-            } else {
-                di += dy_x2 - dx_x2;
-                y0 += dy_sym;
-            }
-        }
-        pixel(x0, y0, color);
-    } else {
-        di = dx_x2 - dy;
-        while (y0 != y1) {
-            pixel(x0, y0, color);
-            y0 += dy_sym;
-            if (di < 0) {
-                di += dx_x2;
-            } else {
-                di += dx_x2 - dy_x2;
-                x0 += dx_sym;
-            }
-        }
-        pixel(x0, y0, color);
-    }
-    return;
-}
-
-
-void SPI_TFT_ILI9341::rect(int x0, int y0, int x1, int y1, int color)
-{
-
-    if (x1 > x0) hline(x0,x1,y0,color);
-    else  hline(x1,x0,y0,color);
-
-    if (y1 > y0) vline(x0,y0,y1,color);
-    else vline(x0,y1,y0,color);
-
-    if (x1 > x0) hline(x0,x1,y1,color);
-    else  hline(x1,x0,y1,color);
-
-    if (y1 > y0) vline(x1,y0,y1,color);
-    else vline(x1,y1,y0,color);
-
-    return;
-}
-
-
-
-// optimized for speed
-// use DMA
-void SPI_TFT_ILI9341::fillrect(int x0, int y0, int x1, int y1, int color)
-{
-
-    int h = y1 - y0 + 1;
-    int w = x1 - x0 + 1;
-    int pixel = h * w;
-    unsigned int dma_transfer;
-    window(x0,y0,w,h);
-
-    wr_cmd(0x2C);  // send pixel
-    spi_16(1);
-    DMA_InitStructure.DMA_MemoryBaseAddr  = (uint32_t) &color;
-    DMA_InitStructure.DMA_MemoryInc  = DMA_MemoryInc_Disable;
-
-    switch(spi_num){        // decide which SPI is to use
-    case (1):
-        DMA_Init(DMA1_Channel3, &DMA_InitStructure);  // init the DMA
-        do{
-            if(pixel < 0x10000) {
-                dma_transfer = pixel;
-                pixel = 0;
-            }
-            else {
-                dma_transfer = 0xffff;
-                pixel = pixel - 0xffff;
-            }
-            DMA_SetCurrDataCounter(DMA1_Channel3, dma_transfer);
-            SPI_I2S_DMACmd(SPI1, SPI_I2S_DMAReq_Tx,ENABLE);
-            DMA_Cmd(DMA1_Channel3, ENABLE);
-            while(DMA_GetCurrDataCounter(DMA1_Channel3) != 0);     // wait for end of transfer
-            DMA_Cmd(DMA1_Channel3, DISABLE);
-        }while(pixel > 0);
-        break;
-
-    case (2):
-        DMA_Init(DMA1_Channel5, &DMA_InitStructure);  // init the DMA
-        do{
-            if(pixel < 0x10000) {
-                dma_transfer = pixel;
-                pixel = 0;
-            }
-            else {
-                dma_transfer = 0xffff;
-                pixel = pixel - 0xffff;
-            }
-            DMA_SetCurrDataCounter(DMA1_Channel5, dma_transfer);
-            SPI_I2S_DMACmd(SPI2, SPI_I2S_DMAReq_Tx,ENABLE);
-            DMA_Cmd(DMA1_Channel5, ENABLE);
-            while(DMA_GetCurrDataCounter(DMA1_Channel5) != 0);     // wait for end of transfer
-            DMA_Cmd(DMA1_Channel5, DISABLE);
-        }while(pixel > 0);
-        break;
-
-    case (3):
-        DMA_Init(DMA2_Channel2, &DMA_InitStructure);  // init the DMA
-        do{
-            if(pixel < 0x10000) {
-                dma_transfer = pixel;
-                pixel = 0;
-            }
-            else {
-                dma_transfer = 0xffff;
-                pixel = pixel - 0xffff;
-            }
-            DMA_SetCurrDataCounter(DMA2_Channel2, dma_transfer);
-            SPI_I2S_DMACmd(SPI3, SPI_I2S_DMAReq_Tx,ENABLE);
-            DMA_Cmd(DMA2_Channel2, ENABLE);
-            while(DMA_GetCurrDataCounter(DMA2_Channel2) != 0);     // wait for end of transfer
-            DMA_Cmd(DMA2_Channel2, DISABLE);
-        }while(pixel > 0);
-        break;
-    }
-    spi_bsy();
-    spi_16(0);
-    _cs = 1;
-    WindowMax();
-    return;
-}
-
-void SPI_TFT_ILI9341::locate(int x, int y)
-{
-    char_x = x;
-    char_y = y;
-}
-
-int SPI_TFT_ILI9341::columns()
-{
-    return width() / font[1];
-}
-
-
-int SPI_TFT_ILI9341::rows()
-{
-    return height() / font[2];
-}
-
-
-int SPI_TFT_ILI9341::_putc(int value)
-{
-    if (value == '\n') {    // new line
-        char_x = 0;
-        char_y = char_y + font[2];
-        if (char_y >= height() - font[2]) {
-            char_y = 0;
-        }
-    } else {
-        character(char_x, char_y, value);
-    }
-    return value;
-}
-
-
-// speed optimized
-// will use dma
-void SPI_TFT_ILI9341::character(int x, int y, int c)
-{
-    unsigned int hor,vert,offset,bpl,j,i,b;
-    unsigned char* zeichen;
-    unsigned char z,w;
-    #ifdef use_ram
-    unsigned int pixel;
-    unsigned int p;
-    unsigned int dma_count,dma_off;
-    uint16_t *buffer;
-    #endif
-
-    if ((c < 31) || (c > 127)) return;   // test char range
-
-    // read font parameter from start of array
-    offset = font[0];                    // bytes / char
-    hor = font[1];                       // get hor size of font
-    vert = font[2];                      // get vert size of font
-    bpl = font[3];                       // bytes per line
-
-    if (char_x + hor > width()) {
-        char_x = 0;
-        char_y = char_y + vert;
-        if (char_y >= height() - font[2]) {
-            char_y = 0;
-        }
-    }
-    window(char_x, char_y,hor,vert);           // setup char box
-    wr_cmd(0x2C);
-    spi_16(1);                                 // switch to 16 bit Mode
-    #ifdef use_ram
-    pixel = hor * vert;                        // calculate buffer size
-    buffer = (uint16_t *) malloc (2*pixel);    // we need a buffer for the font
-    if(buffer != NULL) {                       // there is memory space -> use dma
-        zeichen = &font[((c -32) * offset) + 4]; // start of char bitmap
-        w = zeichen[0];                          // width of actual char
-        p = 0;
-        // construct the font into the buffer
-        for (j=0; j<vert; j++) {            //  vert line
-            for (i=0; i<hor; i++) {         //  horz line
-                z =  zeichen[bpl * i + ((j & 0xF8) >> 3)+1];
-                b = 1 << (j & 0x07);
-                if (( z & b ) == 0x00) {
-                    buffer[p] = _background;
-                } else {
-                    buffer[p] = _foreground;
-                }
-                p++;
-            }
-        }
-        // copy the buffer with DMA SPI to display
-        dma_off = 0;  // offset for DMA transfer
-        DMA_InitStructure.DMA_MemoryBaseAddr  = (uint32_t)  (buffer + dma_off);
-        DMA_InitStructure.DMA_MemoryInc  = DMA_MemoryInc_Enable;
-
-        switch(spi_num){        // decide which SPI is to use
-        case (1):
-        DMA_Init(DMA1_Channel3, &DMA_InitStructure);  // init the DMA
-        // start DMA
-         do {
-            if (pixel > 0X10000) {         // this is a giant font !
-                dma_count = 0Xffff;
-                pixel = pixel - 0Xffff;
-            } else {
-                dma_count = pixel;
-                pixel = 0;
-            }
-            DMA_SetCurrDataCounter(DMA1_Channel3, dma_count);
-            SPI_I2S_DMACmd(SPI1, SPI_I2S_DMAReq_Tx,ENABLE);
-            DMA_Cmd(DMA1_Channel3, ENABLE);
-            while(DMA_GetCurrDataCounter(DMA1_Channel3) != 0);     // wait for end of transfer
-            DMA_Cmd(DMA1_Channel3, DISABLE);
-        }while(pixel > 0);
-        break;
-
-        case (2):
-        DMA_Init(DMA1_Channel5, &DMA_InitStructure);  // init the DMA
-        // start DMA
-         do {
-            if (pixel > 0X10000) {         // this is a giant font !
-                dma_count = 0Xffff;
-                pixel = pixel - 0Xffff;
-            } else {
-                dma_count = pixel;
-                pixel = 0;
-            }
-            DMA_SetCurrDataCounter(DMA1_Channel5, dma_count);
-            SPI_I2S_DMACmd(SPI2, SPI_I2S_DMAReq_Tx,ENABLE);
-            DMA_Cmd(DMA1_Channel5, ENABLE);
-            while(DMA_GetCurrDataCounter(DMA1_Channel5) != 0);     // wait for end of transfer
-            DMA_Cmd(DMA1_Channel5, DISABLE);
-        }while(pixel > 0);
-        break;
-
-        case (3):
-        DMA_Init(DMA2_Channel2, &DMA_InitStructure);  // init the DMA
-        // start DMA
-         do {
-            if (pixel > 0X10000) {         // this is a giant font !
-                dma_count = 0Xffff;
-                pixel = pixel - 0Xffff;
-            } else {
-                dma_count = pixel;
-                pixel = 0;
-            }
-            DMA_SetCurrDataCounter(DMA2_Channel2, dma_count);
-            SPI_I2S_DMACmd(SPI3, SPI_I2S_DMAReq_Tx,ENABLE);
-            DMA_Cmd(DMA2_Channel2, ENABLE);
-            while(DMA_GetCurrDataCounter(DMA2_Channel2) != 0);     // wait for end of transfer
-            DMA_Cmd(DMA2_Channel2, DISABLE);
-        }while(pixel > 0);
-        break;
-
-        }
-        spi_bsy();
-        free ((uint16_t *) buffer);
-        spi_16(0);
-    }
-    
-    else{
-        #endif
-        zeichen = &font[((c -32) * offset) + 4]; // start of char bitmap
-        w = zeichen[0];                          // width of actual char
-        for (j=0; j<vert; j++) {  //  vert line
-            for (i=0; i<hor; i++) {   //  horz line
-                z =  zeichen[bpl * i + ((j & 0xF8) >> 3)+1];
-                b = 1 << (j & 0x07);
-                if (( z & b ) == 0x00) {
-                  f_write(_background);
-                } else {
-                  f_write(_foreground);
-                }
-            }
-        }
-        spi_bsy();
-        _cs = 1;
-        spi_16(0);
-    #ifdef use_ram   
-    }
-    #endif    
-    _cs = 1;
-    WindowMax();
-    if ((w + 2) < hor) {                   // x offset to next char
-        char_x += w + 2;
-    } else char_x += hor;
-}
-
-
-void SPI_TFT_ILI9341::set_font(unsigned char* f)
-{
-    font = f;
-}
-
-
-void SPI_TFT_ILI9341::Bitmap(unsigned int x, unsigned int y, unsigned int w, unsigned int h,unsigned char *bitmap)
-{
-    unsigned int  j;
-    int padd;
-    unsigned short *bitmap_ptr = (unsigned short *)bitmap;
-
-    unsigned int i;
-
-    // the lines are padded to multiple of 4 bytes in a bitmap
-    padd = -1;
-    do {
-        padd ++;
-    } while (2*(w + padd)%4 != 0);
-    window(x, y, w, h);
-    bitmap_ptr += ((h - 1)* (w + padd));
-    wr_cmd(0x2C);  // send pixel
-    spi_16(1);
-    for (j = 0; j < h; j++) {         //Lines
-        for (i = 0; i < w; i++) {     // one line
-                f_write(*bitmap_ptr);    // one line
-                bitmap_ptr++;
-        }
-        bitmap_ptr -= 2*w;
-        bitmap_ptr -= padd;
-    }
-    spi_bsy();
-    _cs = 1;
-    spi_16(0);
-    WindowMax();
-}
-
-
-// local filesystem is not implemented but you can add a SD card to a different SPI
-
-int SPI_TFT_ILI9341::BMP_16(unsigned int x, unsigned int y, const char *Name_BMP)
-{
-
-#define OffsetPixelWidth    18
-#define OffsetPixelHeigh    22
-#define OffsetFileSize      34
-#define OffsetPixData       10
-#define OffsetBPP           28
-
-    char filename[50];
-    unsigned char BMP_Header[54];
-    unsigned short BPP_t;
-    unsigned int PixelWidth,PixelHeigh,start_data;
-    unsigned int    i,off;
-    int padd,j;
-    unsigned short *line;
-
-    // get the filename
-    i=0;
-    while (*Name_BMP!='\0') {
-        filename[i++]=*Name_BMP++;
-    }
-    filename[i] = 0;
-
-    FILE *Image = fopen((const char *)&filename[0], "rb");  // open the bmp file
-    if (!Image) {
-        return(0);      // error file not found !
-    }
-
-    fread(&BMP_Header[0],1,54,Image);      // get the BMP Header
-
-    if (BMP_Header[0] != 0x42 || BMP_Header[1] != 0x4D) {  // check magic byte
-        fclose(Image);
-        return(-1);     // error no BMP file
-    }
-
-    BPP_t = BMP_Header[OffsetBPP] + (BMP_Header[OffsetBPP + 1] << 8);
-    if (BPP_t != 0x0010) {
-        fclose(Image);
-        return(-2);     // error no 16 bit BMP
-    }
-
-    PixelHeigh = BMP_Header[OffsetPixelHeigh] + (BMP_Header[OffsetPixelHeigh + 1] << 8) + (BMP_Header[OffsetPixelHeigh + 2] << 16) + (BMP_Header[OffsetPixelHeigh + 3] << 24);
-    PixelWidth = BMP_Header[OffsetPixelWidth] + (BMP_Header[OffsetPixelWidth + 1] << 8) + (BMP_Header[OffsetPixelWidth + 2] << 16) + (BMP_Header[OffsetPixelWidth + 3] << 24);
-    if (PixelHeigh > height() + y || PixelWidth > width() + x) {
-        fclose(Image);
-        return(-3);      // to big
-    }
-
-    start_data = BMP_Header[OffsetPixData] + (BMP_Header[OffsetPixData + 1] << 8) + (BMP_Header[OffsetPixData + 2] << 16) + (BMP_Header[OffsetPixData + 3] << 24);
-
-    line = (unsigned short *) malloc (2 * PixelWidth); // we need a buffer for a line
-    if (line == NULL) {
-        return(-4);         // error no memory
-    }
-
-    // the bmp lines are padded to multiple of 4 bytes
-    padd = -1;
-    do {
-        padd ++;
-    } while ((PixelWidth * 2 + padd)%4 != 0);
-
-    window(x, y,PixelWidth ,PixelHeigh);
-    wr_cmd(0x2C);  // send pixel
-    spi_16(1);
-    for (j = PixelHeigh - 1; j >= 0; j--) {               //Lines bottom up
-        off = j * (PixelWidth  * 2 + padd) + start_data;   // start of line
-        fseek(Image, off ,SEEK_SET);
-        fread(line,1,PixelWidth * 2,Image);       // read a line - slow
-        for (i = 0; i < PixelWidth; i++) {        // copy pixel data to TFT
-            f_write(line[i]);                  // one 16 bit pixel
-        }
-     }
-    spi_bsy();
-    _cs = 1;
-    spi_16(0);
-    free (line);
-    fclose(Image);
-    WindowMax();
-    return(1);
-}
-
-#endif
-