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ili9341.c
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ili9341.c
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/*
* Copyright (c) 2014-2015, TAKAHASHI Tomohiro (TTRFTECH) [email protected]
* All rights reserved.
*
* This is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3, or (at your option)
* any later version.
*
* The software is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNU Radio; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#include "ch.h"
#include "hal.h"
#include "nanovna.h"
uint16_t spi_buffer[SPI_BUFFER_SIZE];
// Default foreground & background colors
uint16_t foreground_color = 0;
uint16_t background_color = 0;
// Display width and height definition
#define ILI9341_WIDTH 320
#define ILI9341_HEIGHT 240
// Display commands list
#define ILI9341_NOP 0x00
#define ILI9341_SOFTWARE_RESET 0x01
#define ILI9341_READ_IDENTIFICATION 0x04
#define ILI9341_READ_STATUS 0x09
#define ILI9341_READ_POWER_MODE 0x0A
#define ILI9341_READ_MADCTL 0x0B
#define ILI9341_READ_PIXEL_FORMAT 0x0C
#define ILI9341_READ_IMAGE_FORMAT 0x0D
#define ILI9341_READ_SIGNAL_MODE 0x0E
#define ILI9341_READ_SELF_DIAGNOSTIC 0x0F
#define ILI9341_SLEEP_IN 0x10
#define ILI9341_SLEEP_OUT 0x11
#define ILI9341_PARTIAL_MODE_ON 0x12
#define ILI9341_NORMAL_DISPLAY_MODE_ON 0x13
#define ILI9341_INVERSION_OFF 0x20
#define ILI9341_INVERSION_ON 0x21
#define ILI9341_GAMMA_SET 0x26
#define ILI9341_DISPLAY_OFF 0x28
#define ILI9341_DISPLAY_ON 0x29
#define ILI9341_COLUMN_ADDRESS_SET 0x2A
#define ILI9341_PAGE_ADDRESS_SET 0x2B
#define ILI9341_MEMORY_WRITE 0x2C
#define ILI9341_COLOR_SET 0x2D
#define ILI9341_MEMORY_READ 0x2E
#define ILI9341_PARTIAL_AREA 0x30
#define ILI9341_VERTICAL_SCROLLING_DEF 0x33
#define ILI9341_TEARING_LINE_OFF 0x34
#define ILI9341_TEARING_LINE_ON 0x35
#define ILI9341_MEMORY_ACCESS_CONTROL 0x36
#define ILI9341_VERTICAL_SCROLLING 0x37
#define ILI9341_IDLE_MODE_OFF 0x38
#define ILI9341_IDLE_MODE_ON 0x39
#define ILI9341_PIXEL_FORMAT_SET 0x3A
#define ILI9341_WRITE_MEMORY_CONTINUE 0x3C
#define ILI9341_READ_MEMORY_CONTINUE 0x3E
#define ILI9341_SET_TEAR_SCANLINE 0x44
#define ILI9341_GET_SCANLINE 0x45
#define ILI9341_WRITE_BRIGHTNESS 0x51
#define ILI9341_READ_BRIGHTNESS 0x52
#define ILI9341_WRITE_CTRL_DISPLAY 0x53
#define ILI9341_READ_CTRL_DISPLAY 0x54
#define ILI9341_WRITE_CA_BRIGHTNESS 0x55
#define ILI9341_READ_CA_BRIGHTNESS 0x56
#define ILI9341_WRITE_CA_MIN_BRIGHTNESS 0x5E
#define ILI9341_READ_CA_MIN_BRIGHTNESS 0x5F
#define ILI9341_READ_ID1 0xDA
#define ILI9341_READ_ID2 0xDB
#define ILI9341_READ_ID3 0xDC
#define ILI9341_RGB_INTERFACE_CONTROL 0xB0
#define ILI9341_FRAME_RATE_CONTROL_1 0xB1
#define ILI9341_FRAME_RATE_CONTROL_2 0xB2
#define ILI9341_FRAME_RATE_CONTROL_3 0xB3
#define ILI9341_DISPLAY_INVERSION_CONTROL 0xB4
#define ILI9341_BLANKING_PORCH_CONTROL 0xB5
#define ILI9341_DISPLAY_FUNCTION_CONTROL 0xB6
#define ILI9341_ENTRY_MODE_SET 0xB7
#define ILI9341_BACKLIGHT_CONTROL_1 0xB8
#define ILI9341_BACKLIGHT_CONTROL_2 0xB9
#define ILI9341_BACKLIGHT_CONTROL_3 0xBA
#define ILI9341_BACKLIGHT_CONTROL_4 0xBB
#define ILI9341_BACKLIGHT_CONTROL_5 0xBC
#define ILI9341_BACKLIGHT_CONTROL_7 0xBE
#define ILI9341_BACKLIGHT_CONTROL_8 0xBF
#define ILI9341_POWER_CONTROL_1 0xC0
#define ILI9341_POWER_CONTROL_2 0xC1
#define ILI9341_VCOM_CONTROL_1 0xC5
#define ILI9341_VCOM_CONTROL_2 0xC7
#define ILI9341_POWERA 0xCB
#define ILI9341_POWERB 0xCF
#define ILI9341_NV_MEMORY_WRITE 0xD0
#define ILI9341_NV_PROTECTION_KEY 0xD1
#define ILI9341_NV_STATUS_READ 0xD2
#define ILI9341_READ_ID4 0xD3
#define ILI9341_POSITIVE_GAMMA_CORRECTION 0xE0
#define ILI9341_NEGATIVE_GAMMA_CORRECTION 0xE1
#define ILI9341_DIGITAL_GAMMA_CONTROL_1 0xE2
#define ILI9341_DIGITAL_GAMMA_CONTROL_2 0xE3
#define ILI9341_DTCA 0xE8
#define ILI9341_DTCB 0xEA
#define ILI9341_POWER_SEQ 0xED
#define ILI9341_3GAMMA_EN 0xF2
#define ILI9341_INTERFACE_CONTROL 0xF6
#define ILI9341_PUMP_RATIO_CONTROL 0xF7
//
// ILI9341_MEMORY_ACCESS_CONTROL registers
//
#define ILI9341_MADCTL_MY 0x80
#define ILI9341_MADCTL_MX 0x40
#define ILI9341_MADCTL_MV 0x20
#define ILI9341_MADCTL_ML 0x10
#define ILI9341_MADCTL_BGR 0x08
#define ILI9341_MADCTL_MH 0x04
#define ILI9341_MADCTL_RGB 0x00
#define DISPLAY_ROTATION_270 (ILI9341_MADCTL_MX | ILI9341_MADCTL_BGR)
#define DISPLAY_ROTATION_90 (ILI9341_MADCTL_MY | ILI9341_MADCTL_BGR)
#define DISPLAY_ROTATION_0 (ILI9341_MADCTL_MV | ILI9341_MADCTL_BGR)
#define DISPLAY_ROTATION_180 (ILI9341_MADCTL_MX | ILI9341_MADCTL_MY \
| ILI9341_MADCTL_MV | ILI9341_MADCTL_BGR)
//
// Pin macros
//
#define RESET_ASSERT palClearPad(GPIOA, 15)
#define RESET_NEGATE palSetPad(GPIOA, 15)
#define CS_LOW palClearPad(GPIOB, 6)
#define CS_HIGH palSetPad(GPIOB, 6)
#define DC_CMD palClearPad(GPIOB, 7)
#define DC_DATA palSetPad(GPIOB, 7)
//*****************************************************************************
//********************************** SPI bus **********************************
//*****************************************************************************
// STM32 SPI transfer mode:
// in 8 bit mode:
// if you write *(uint8_t*)(&SPI1->DR) = (uint8_t) data, then data send as << data
// if you write *(uint16_t*)(&SPI1->DR) =(uint16_t) data, then data send as << dataLoByte, after send dataHiByte
// in 16 bit mode
// if you write *(uint16_t*)(&SPI1->DR) =(uint16_t) data, then data send as << data
// SPI init in 8 bit mode
#define SPI_CR2_8BIT 0x0700
#define SPI_CR2_16BIT 0x0F00
// SPI bus activity macros
// The RXNE flag is set depending on the FRXTH bit value in the SPIx_CR2 register:
// • If FRXTH is set, RXNE goes high and stays high until the RXFIFO level is greater or equal to 1/4 (8-bit).
#define SPI_RX_IS_NOT_EMPTY (SPI1->SR&SPI_SR_RXNE)
#define SPI_RX_IS_EMPTY (((SPI1->SR&SPI_SR_RXNE) == 0))
// The TXE flag is set when transmission TXFIFO has enough space to store data to send.
// 0: Tx buffer not empty, bit is cleared automatically when the TXFIFO level becomes greater than 1/2
// 1: Tx buffer empty, flag goes high and stays high until the TXFIFO level is lower or equal to 1/2 of the FIFO depth
#define SPI_TX_IS_NOT_EMPTY (((SPI1->SR&(SPI_SR_TXE)) == 0))
#define SPI_TX_IS_EMPTY (SPI1->SR&SPI_SR_TXE)
// When BSY is set, it indicates that a data transfer is in progress on the SPI (the SPI bus is busy).
#define SPI_IS_BUSY (SPI1->SR & SPI_SR_BSY)
// SPI send data macros
#define SPI_WRITE_8BIT(data) *(__IO uint8_t*)(&SPI1->DR) = (uint8_t) data
#define SPI_WRITE_16BIT(data) SPI1->DR = data
// SPI read data macros
#define SPI_READ_DATA SPI1->DR
#ifdef __USE_DISPLAY_DMA__
static const stm32_dma_stream_t *dmatx =
STM32_DMA_STREAM(STM32_SPI_SPI1_TX_DMA_STREAM);
static uint32_t txdmamode =
STM32_DMA_CR_CHSEL(SPI1_TX_DMA_CHANNEL) // Select SPI1 Tx DMA
| STM32_DMA_CR_PL(STM32_SPI_SPI1_DMA_PRIORITY) // Set priority
| STM32_DMA_CR_DIR_M2P // Memory to Spi
| STM32_DMA_CR_DMEIE //
| STM32_DMA_CR_TEIE;
static void spi_lld_serve_tx_interrupt(SPIDriver *spip, uint32_t flags)
{
(void)spip;
(void)flags;
}
static const stm32_dma_stream_t *dmarx = STM32_DMA_STREAM(STM32_SPI_SPI1_RX_DMA_STREAM);
static uint32_t rxdmamode = STM32_DMA_CR_CHSEL(SPI1_RX_DMA_CHANNEL)
| STM32_DMA_CR_PL(STM32_SPI_SPI1_DMA_PRIORITY)
| STM32_DMA_CR_DIR_P2M
| STM32_DMA_CR_TCIE
| STM32_DMA_CR_DMEIE
| STM32_DMA_CR_TEIE;
static void spi_lld_serve_rx_interrupt(SPIDriver *spip, uint32_t flags)
{
(void)spip;
(void)flags;
}
static void dmaStreamFlush(uint32_t len)
{
while (len) {
// DMA data transfer limited by 65535
uint16_t tx_size = len > 65535 ? 65535 : len;
dmaStreamSetTransactionSize(dmatx, tx_size);
dmaStreamEnable(dmatx);
len -= tx_size;
dmaWaitCompletion(dmatx);
}
}
#endif
static void spi_init(void)
{
rccEnableSPI1(FALSE);
SPI1->CR1 = 0;
SPI1->CR1 = SPI_CR1_MSTR // SPI is MASTER
| SPI_CR1_SSM // Software slave management (The external NSS pin is free for other application uses)
| SPI_CR1_SSI; // Internal slave select (This bit has an effect only when the SSM bit is set. Allow use NSS pin as I/O)
// | SPI_CR1_BR_1; // Baud rate control
SPI1->CR2 = SPI_CR2_8BIT // SPI data size, set to 8 bit
| SPI_CR2_FRXTH; // SPI_SR_RXNE generated every 8 bit data
// | SPI_CR2_SSOE; //
#ifdef __USE_DISPLAY_DMA__
// Tx DMA init
dmaStreamAllocate(dmatx, STM32_SPI_SPI1_IRQ_PRIORITY, (stm32_dmaisr_t)spi_lld_serve_tx_interrupt, NULL);
dmaStreamSetPeripheral(dmatx, &SPI1->DR);
// Rx DMA init
dmaStreamAllocate(dmarx, STM32_SPI_SPI1_IRQ_PRIORITY, (stm32_dmaisr_t)spi_lld_serve_rx_interrupt, NULL);
dmaStreamSetPeripheral(dmarx, &SPI1->DR);
// Enable DMA on SPI
SPI1->CR2|= SPI_CR2_TXDMAEN // Tx DMA enable
| SPI_CR2_RXDMAEN; // Rx DMA enable
#endif
SPI1->CR1|= SPI_CR1_SPE; //SPI enable
}
// Disable inline for this function
static void __attribute__ ((noinline)) send_command(uint8_t cmd, uint8_t len, const uint8_t *data)
{
CS_LOW;
//while (SPI_TX_IS_NOT_EMPTY);
DC_CMD;
SPI_WRITE_8BIT(cmd);
// Need wait transfer complete and set data bit
while (SPI_IS_BUSY)
;
// Send command data (if need)
DC_DATA;
while (len-- > 0) {
while (SPI_TX_IS_NOT_EMPTY)
;
SPI_WRITE_8BIT(*data++);
}
//CS_HIGH;
}
static const uint8_t ili9341_init_seq[] = {
// cmd, len, data...,
// SW reset
ILI9341_SOFTWARE_RESET, 0,
// display off
ILI9341_DISPLAY_OFF, 0,
// Power control B
ILI9341_POWERB, 3, 0x00, 0x83, 0x30,
// Power on sequence control
ILI9341_POWER_SEQ, 4, 0x64, 0x03, 0x12, 0x81,
//ILI9341_POWER_SEQ, 4, 0x55, 0x01, 0x23, 0x01,
// Driver timing control A
ILI9341_DTCA, 3, 0x85, 0x01, 0x79,
//ILI9341_DTCA, 3, 0x84, 0x11, 0x7a,
// Power control A
ILI9341_POWERA, 5, 0x39, 0x2C, 0x00, 0x34, 0x02,
// Pump ratio control
ILI9341_PUMP_RATIO_CONTROL, 1, 0x20,
// Driver timing control B
ILI9341_DTCB, 2, 0x00, 0x00,
// POWER_CONTROL_1
ILI9341_POWER_CONTROL_1, 1, 0x26,
// POWER_CONTROL_2
ILI9341_POWER_CONTROL_2, 1, 0x11,
// VCOM_CONTROL_1
ILI9341_VCOM_CONTROL_1, 2, 0x35, 0x3E,
// VCOM_CONTROL_2
ILI9341_VCOM_CONTROL_2, 1, 0xBE,
// MEMORY_ACCESS_CONTROL
//ILI9341_MEMORY_ACCESS_CONTROL, 1, 0x48, // portlait
ILI9341_MEMORY_ACCESS_CONTROL, 1, DISPLAY_ROTATION_0, // landscape
// COLMOD_PIXEL_FORMAT_SET : 16 bit pixel
ILI9341_PIXEL_FORMAT_SET, 1, 0x55,
// Frame Rate
ILI9341_FRAME_RATE_CONTROL_1, 2, 0x00, 0x1B,
// Gamma Function Disable
ILI9341_3GAMMA_EN, 1, 0x08,
// gamma set for curve 01/2/04/08
ILI9341_GAMMA_SET, 1, 0x01,
// positive gamma correction
//ILI9341_POSITIVE_GAMMA_CORRECTION, 15, 0x1F, 0x1A, 0x18, 0x0A, 0x0F, 0x06, 0x45, 0x87, 0x32, 0x0A, 0x07, 0x02, 0x07, 0x05, 0x00,
// negativ gamma correction
//ILI9341_NEGATIVE_GAMMA_CORRECTION, 15, 0x00, 0x25, 0x27, 0x05, 0x10, 0x09, 0x3A, 0x78, 0x4D, 0x05, 0x18, 0x0D, 0x38, 0x3A, 0x1F,
// Column Address Set
//ILI9341_COLUMN_ADDRESS_SET, 4, 0x00, 0x00, 0x01, 0x3f, // width 320
// Page Address Set
//ILI9341_PAGE_ADDRESS_SET, 4, 0x00, 0x00, 0x00, 0xef, // height 240
// entry mode
ILI9341_ENTRY_MODE_SET, 1, 0x06,
// display function control
ILI9341_DISPLAY_FUNCTION_CONTROL, 4, 0x0A, 0x82, 0x27, 0x00,
// Interface Control (set WEMODE=0)
ILI9341_INTERFACE_CONTROL, 3, 0x00, 0x00, 0x00,
// control display
//ILI9341_WRITE_CTRL_DISPLAY, 1, 0x0c,
// diaplay brightness
//ILI9341_WRITE_BRIGHTNESS, 1, 0xff,
// sleep out
ILI9341_SLEEP_OUT, 0,
// display on
ILI9341_DISPLAY_ON, 0,
0 // sentinel
};
void ili9341_init(void)
{
spi_init();
DC_DATA;
RESET_ASSERT;
chThdSleepMilliseconds(10);
RESET_NEGATE;
const uint8_t *p;
for (p = ili9341_init_seq; *p; ) {
send_command(p[0], p[1], &p[2]);
p += 2 + p[1];
chThdSleepMilliseconds(5);
}
}
#ifndef __USE_DISPLAY_DMA__
void ili9341_fill(int x, int y, int w, int h, int color)
{
//uint8_t xx[4] = { x >> 8, x, (x+w-1) >> 8, (x+w-1) };
//uint8_t yy[4] = { y >> 8, y, (y+h-1) >> 8, (y+h-1) };
uint32_t xx = __REV16(x | ((x + w - 1) << 16));
uint32_t yy = __REV16(y | ((y + h - 1) << 16));
send_command(ILI9341_COLUMN_ADDRESS_SET, 4, (uint8_t*)&xx);
send_command(ILI9341_PAGE_ADDRESS_SET, 4, (uint8_t*)&yy);
send_command(ILI9341_MEMORY_WRITE, 0, NULL);
int32_t len = w * h;
while (len-- > 0) {
while (SPI_TX_IS_NOT_EMPTY)
;
SPI_WRITE_16BIT(color);
}
}
void ili9341_bulk(int x, int y, int w, int h)
{
// uint8_t xx[4] = { x >> 8, x, (x+w-1) >> 8, (x+w-1) };
// uint8_t yy[4] = { y >> 8, y, (y+h-1) >> 8, (y+h-1) };
uint16_t *buf = spi_buffer;
uint32_t xx = __REV16(x | ((x + w - 1) << 16));
uint32_t yy = __REV16(y | ((y + h - 1) << 16));
send_command(ILI9341_COLUMN_ADDRESS_SET, 4, (uint8_t *)&xx);
send_command(ILI9341_PAGE_ADDRESS_SET, 4, (uint8_t*)&yy);
send_command(ILI9341_MEMORY_WRITE, 0, NULL);
int32_t len = w * h;
while (len-- > 0) {
while (SPI_TX_IS_NOT_EMPTY)
;
SPI_WRITE_16BIT(*buf++);
}
}
static uint8_t ssp_sendrecvdata(void)
{
// Start RX clock (by sending data)
SPI_WRITE_8BIT(0);
while (SPI_RX_IS_EMPTY && SPI_IS_BUSY)
;
return SPI_READ_DATA;
}
void ili9341_read_memory(int x, int y, int w, int h, int len, uint16_t *out)
{
// uint8_t xx[4] = { x >> 8, x, (x+w-1) >> 8, (x+w-1) };
// uint8_t yy[4] = { y >> 8, y, (y+h-1) >> 8, (y+h-1) };
uint32_t xx = __REV16(x | ((x + w - 1) << 16));
uint32_t yy = __REV16(y | ((y + h - 1) << 16));
send_command(ILI9341_COLUMN_ADDRESS_SET, 4, (uint8_t *)&xx);
send_command(ILI9341_PAGE_ADDRESS_SET, 4, (uint8_t*)&yy);
send_command(ILI9341_MEMORY_READ, 0, NULL);
// Skip data from rx buffer
while (SPI_RX_IS_NOT_EMPTY)
(void) SPI_READ_DATA;
// require 8bit dummy clock
ssp_sendrecvdata();
while (len-- > 0) {
// read data is always 18bit
uint8_t r = ssp_sendrecvdata();
uint8_t g = ssp_sendrecvdata();
uint8_t b = ssp_sendrecvdata();
*out++ = RGB565(r, g, b);
}
CS_HIGH;
}
#else
//
// Use DMA for send data
//
// Fill region by some color
void ili9341_fill(int x, int y, int w, int h, int color)
{
uint32_t xx = __REV16(x | ((x + w - 1) << 16));
uint32_t yy = __REV16(y | ((y + h - 1) << 16));
send_command(ILI9341_COLUMN_ADDRESS_SET, 4, (uint8_t *)&xx);
send_command(ILI9341_PAGE_ADDRESS_SET, 4, (uint8_t *)&yy);
send_command(ILI9341_MEMORY_WRITE, 0, NULL);
dmaStreamSetMemory0(dmatx, &color);
dmaStreamSetMode(dmatx, txdmamode | STM32_DMA_CR_PSIZE_HWORD | STM32_DMA_CR_MSIZE_HWORD);
dmaStreamFlush(w * h);
}
void ili9341_bulk_8bit(int x, int y, int w, int h, uint16_t *palette)
{
uint32_t xx = __REV16(x | ((x + w - 1) << 16));
uint32_t yy = __REV16(y | ((y + h - 1) << 16));
send_command(ILI9341_COLUMN_ADDRESS_SET, 4, (uint8_t *)&xx);
send_command(ILI9341_PAGE_ADDRESS_SET, 4, (uint8_t *)&yy);
send_command(ILI9341_MEMORY_WRITE, 0, NULL);
uint8_t *buf = (uint8_t *)spi_buffer;
int32_t len = w * h;
while (len-- > 0) {
uint16_t color = palette[*buf++];
while (SPI_TX_IS_NOT_EMPTY)
;
SPI_WRITE_16BIT(color);
}
}
// Copy spi_buffer to region
void ili9341_bulk(int x, int y, int w, int h)
{
uint32_t xx = __REV16(x | ((x + w - 1) << 16));
uint32_t yy = __REV16(y | ((y + h - 1) << 16));
send_command(ILI9341_COLUMN_ADDRESS_SET, 4, (uint8_t *)&xx);
send_command(ILI9341_PAGE_ADDRESS_SET, 4, (uint8_t *)&yy);
send_command(ILI9341_MEMORY_WRITE, 0, NULL);
// Init Tx DMA mem->spi, set size, mode (spi and mem data size is 16 bit)
dmaStreamSetMemory0(dmatx, spi_buffer);
dmaStreamSetMode(dmatx, txdmamode | STM32_DMA_CR_PSIZE_HWORD |
STM32_DMA_CR_MSIZE_HWORD | STM32_DMA_CR_MINC);
dmaStreamFlush(w * h);
}
// Copy screen data to buffer
// Warning!!! buffer size must be greater then 3*len + 1 bytes
void ili9341_read_memory(int x, int y, int w, int h, int len, uint16_t *out)
{
uint8_t dummy_tx = 0;
uint8_t *rgbbuf = (uint8_t *)out;
uint16_t data_size = len * 3 + 1;
uint32_t xx = __REV16(x | ((x + w - 1) << 16));
uint32_t yy = __REV16(y | ((y + h - 1) << 16));
send_command(ILI9341_COLUMN_ADDRESS_SET, 4, (uint8_t *)&xx);
send_command(ILI9341_PAGE_ADDRESS_SET, 4, (uint8_t *)&yy);
send_command(ILI9341_MEMORY_READ, 0, NULL);
// Skip SPI rx buffer
while (SPI_RX_IS_NOT_EMPTY) (void)SPI_READ_DATA;
// Init Rx DMA buffer, size, mode (spi and mem data size is 8 bit)
dmaStreamSetMemory0(dmarx, rgbbuf);
dmaStreamSetTransactionSize(dmarx, data_size);
dmaStreamSetMode(dmarx, rxdmamode | STM32_DMA_CR_PSIZE_BYTE | STM32_DMA_CR_MSIZE_BYTE |
STM32_DMA_CR_MINC);
// Init dummy Tx DMA (for rx clock), size, mode (spi and mem data size is 8 bit)
dmaStreamSetMemory0(dmatx, &dummy_tx);
dmaStreamSetTransactionSize(dmatx, data_size);
dmaStreamSetMode(dmatx, txdmamode | STM32_DMA_CR_PSIZE_BYTE | STM32_DMA_CR_MSIZE_BYTE);
// Start DMA exchange
dmaStreamEnable(dmatx);
dmaStreamEnable(dmarx);
// Wait DMA completion
dmaWaitCompletion(dmatx);
dmaWaitCompletion(dmarx);
CS_HIGH;
// Parce recived data
// Skip dummy 8-bit read
rgbbuf++;
while (len-- > 0) {
uint8_t r, g, b;
// read data is always 18bit
r = rgbbuf[0];
g = rgbbuf[1];
b = rgbbuf[2];
*out++ = RGB565(r, g, b);
rgbbuf += 3;
}
}
#endif
void ili9341_clear_screen(void)
{
ili9341_fill(0, 0, ILI9341_WIDTH, ILI9341_HEIGHT, background_color);
}
void ili9341_set_foreground(uint16_t fg)
{
foreground_color = fg;
}
void ili9341_set_background(uint16_t bg)
{
background_color = bg;
}
void ili9341_set_rotation(uint8_t r)
{
// static const uint8_t rotation_const[]={DISPLAY_ROTATION_0, DISPLAY_ROTATION_90,
// DISPLAY_ROTATION_180, DISPLAY_ROTATION_270};
send_command(ILI9341_MEMORY_ACCESS_CONTROL, 1, &r);
}
void blit8BitWidthBitmap(uint16_t x, uint16_t y, uint16_t width, uint16_t height,
const uint8_t *bitmap)
{
uint16_t *buf = spi_buffer;
for (uint16_t c = 0; c < height; c++) {
uint8_t bits = *bitmap++;
for (uint16_t r = 0; r < width; r++) {
*buf++ = (0x80 & bits) ? foreground_color : background_color;
bits <<= 1;
}
}
ili9341_bulk(x, y, width, height);
}
static void blit16BitWidthBitmap(uint16_t x, uint16_t y, uint16_t width, uint16_t height,
const uint16_t *bitmap)
{
uint16_t *buf = spi_buffer;
for (uint16_t c = 0; c < height; c++) {
uint16_t bits = *bitmap++;
for (uint16_t r = 0; r < width; r++) {
*buf++ = (0x8000 & bits) ? foreground_color : background_color;
bits <<= 1;
}
}
ili9341_bulk(x, y, width, height);
}
void ili9341_drawchar(uint8_t ch, int x, int y)
{
blit8BitWidthBitmap(x, y, FONT_GET_WIDTH(ch), FONT_GET_HEIGHT, FONT_GET_DATA(ch));
}
void ili9341_drawstring(const char *str, int x, int y)
{
while (*str) {
uint8_t ch = *str++;
const uint8_t *char_buf = FONT_GET_DATA(ch);
uint16_t w = FONT_GET_WIDTH(ch);
blit8BitWidthBitmap(x, y, w, FONT_GET_HEIGHT, char_buf);
x += w;
}
}
void ili9341_drawstringV(const char *str, int x, int y)
{
ili9341_set_rotation(DISPLAY_ROTATION_270);
ili9341_drawstring(str, ILI9341_HEIGHT-y, x);
ili9341_set_rotation(DISPLAY_ROTATION_0);
}
int ili9341_drawchar_size(uint8_t ch, int x, int y, uint8_t size)
{
uint16_t *buf = spi_buffer;
const uint8_t *char_buf = FONT_GET_DATA(ch);
uint16_t w = FONT_GET_WIDTH(ch);
for (int c = 0; c < FONT_GET_HEIGHT; c++, char_buf++) {
for (int i = 0; i < size; i++) {
uint8_t bits = *char_buf;
for (int r = 0; r < w; r++, bits <<= 1)
for (int j = 0; j < size; j++)
*buf++ = (0x80 & bits) ? foreground_color : background_color;
}
}
ili9341_bulk(x, y, w * size, FONT_GET_HEIGHT * size);
return w*size;
}
void ili9341_drawfont(uint8_t ch, int x, int y)
{
blit16BitWidthBitmap(x, y, NUM_FONT_GET_WIDTH, NUM_FONT_GET_HEIGHT,
NUM_FONT_GET_DATA(ch));
}
void ili9341_drawstring_size(const char *str, int x, int y, uint8_t size)
{
while (*str)
x += ili9341_drawchar_size(*str++, x, y, size);
}
#if 0
static void ili9341_pixel(int x, int y, uint16_t color)
{
uint32_t xx = __REV16(x|((x)<<16));
uint32_t yy = __REV16(y|((y)<<16));
send_command(ILI9341_COLUMN_ADDRESS_SET, 4, (uint8_t*)&xx);
send_command(ILI9341_PAGE_ADDRESS_SET, 4, (uint8_t*)&yy);
send_command(ILI9341_MEMORY_WRITE, 2, &color);
}
#endif
#define SWAP(x, y) { int z = x; x = y; y = z; }
void ili9341_line(int x0, int y0, int x1, int y1)
{
#if 0
// modifed Bresenham's line algorithm, see https://en.wikipedia.org/wiki/Bresenham%27s_line_algorithm
int dx = x1 - x0, sx = 1; if (dx < 0) {dx = -dx; sx = -1;}
int dy = y1 - y0, sy = 1; if (dy < 0) {dy = -dy; sy = -1;}
int err = (dx > dy ? dx : -dy) / 2;
while (1) {
ili9341_pixel(x0, y0, DEFAULT_FG_COLOR);
if (x0 == x1 && y0 == y1)
break;
int e2 = err;
if (e2 > -dx) { err -= dy; x0 += sx; }
if (e2 < dy) { err += dx; y0 += sy; }
}
#endif
if (x0 > x1) {
SWAP(x0, x1);
SWAP(y0, y1);
}
while (x0 <= x1) {
int dx = x1 - x0 + 1;
int dy = y1 - y0;
if (dy >= 0) {
dy++;
if (dy > dx) {
dy /= dx; dx = 1;
} else {
dx /= dy; dy = 1;
}
} else {
dy--;
if (-dy > dx) {
dy /= dx; dx = 1;
} else {
dx /= -dy;dy = -1;
}
}
if (dy > 0)
ili9341_fill(x0, y0, dx, dy, foreground_color);
else
ili9341_fill(x0, y0+dy, dx, -dy, foreground_color);
x0 += dx;
y0 += dy;
}
}
#if 0
static const uint16_t colormap[] = {
RGBHEX(0x00ff00), RGBHEX(0x0000ff), RGBHEX(0xff0000),
RGBHEX(0x00ffff), RGBHEX(0xff00ff), RGBHEX(0xffff00)
};
void ili9341_test(int mode)
{
int x, y;
int i;
switch (mode) {
default:
#if 1
ili9341_fill(0, 0, 320, 240, 0);
for (y = 0; y < 240; y++) {
ili9341_fill(0, y, 320, 1, RGB(240-y, y, (y + 120) % 256));
}
break;
case 1:
ili9341_fill(0, 0, 320, 240, 0);
for (y = 0; y < 240; y++) {
for (x = 0; x < 320; x++) {
ili9341_pixel(x, y, (y<<8)|x);
}
}
break;
case 2:
//send_command16(0x55, 0xff00);
ili9341_pixel(64, 64, 0xaa55);
break;
#endif
#if 1
case 3:
for (i = 0; i < 10; i++)
ili9341_drawfont(i, i*20, 120);
break;
#endif
#if 0
case 4:
draw_grid(10, 8, 29, 29, 15, 0, 0xffff, 0);
break;
#endif
case 4:
ili9341_line(0, 0, 15, 100);
ili9341_line(0, 0, 100, 100);
ili9341_line(0, 15, 100, 0);
ili9341_line(0, 100, 100, 0);
break;
}
}
#endif