acidvegas/acidportal
1
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
d7477aa07a
acidportal/lib/TFT_eSPI/Processors/TFT_eSPI_STM32.h
acidvegas d7477aa07a
Initial commit
2024-08-16 06:24:29 -04:00

1079 lines
50 KiB
C
Raw Blame History

////////////////////////////////////////////////////
// TFT_eSPI driver functions for STM32 processors //
////////////////////////////////////////////////////
#ifndef _TFT_eSPI_STM32H_
#define _TFT_eSPI_STM32H_
// Processor ID reported by getSetup()
#define PROCESSOR_ID 0x32F
// Include processor specific header
// None
// RPi support not tested - Fast RPi not supported
// Processor specific code used by SPI bus transaction startWrite and endWrite functions
#define SET_BUS_WRITE_MODE // Not used
#define SET_BUS_READ_MODE // Not used
// SUPPORT_TRANSACTIONS is mandatory for STM32
#if !defined (SUPPORT_TRANSACTIONS)
#define SUPPORT_TRANSACTIONS
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Define the parallel bus interface chip pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#if defined(TFT_PARALLEL_8_BIT)
// The STM32 processors can toggle pins fast, TFTs need setup and hold times
// for writes so here twc can be extended with delays:
//
// 0 1 2 3 4 5 Extra high periods
// TFT_WR ¯|_ _ _ _ _ _ |¯ ¯ ¯ ¯ ¯ ¯ ¯|
// 5 4 3 2 1 0 Extra low periods
// xxxx=======================xxxx
// |<---------- twc --------->|
// |<- tdst ->|<-- tdht -->|
//
// Data is placed bit by bit on bus during period xxxx and TFT_WR driven low
// Period xxxx depends on D0-D7 pin allocations and bit manipulation needed
// Data stable during period ===
// Most TFTs can be "overclocked" and run >2x faster than data sheet figures
////////////////////////////////////////////////////////////////////////////////////////
// Write strobe timing setup
////////////////////////////////////////////////////////////////////////////////////////
#if defined (ILI9341_DRIVER) || defined(ILI9341_2_DRIVER) || defined (ST7796_DRIVER) || defined (ILI9486_DRIVER) // WRX twc spec is <=66ns = 15.15MHz
// Extra write pulse low time (delay for data setup)
#if defined (STM32F1xx)
#define WR_TWRL_0 // Change to WR_TWRL_1 if overclocking processor
#elif defined (STM32F2xx) || defined (STM32F4xx)
#define WR_TWRL_0 // Tested with STM32F446 - 27.6MHz when WR_TWRH_1 defined
//#define WR_TWRL_3 // STM32F446 - 15.6MHz when WR_TWRH_3 defined
#elif defined (STM32F7xx)
#define WR_TWRL_1 //Tested with STM32F767
#else
#define WR_TWRL_5
#endif
// Extra write pulse high time (data hold time, delays next write cycle start)
#if defined (STM32F1xx)
#define WR_TWRH_0
#elif defined (STM32F2xx) || defined (STM32F4xx)
#define WR_TWRH_0 // Tested with STM32F446
//#define WR_TWRL_3
#elif defined (STM32F7xx)
#define WR_TWRH_1 //Tested with STM32F767
#else
#define WR_TWRH_5
#endif
#elif defined (ILI9481_DRIVER) // WRX twc spec is 100ns = 10MHz
// Extra write pulse low time (delay for data setup)
#if defined (STM32F1xx)
#define WR_TWRL_0
#elif defined (STM32F2xx) || defined (STM32F4xx)
//#define WR_TWRL_0 // STM32F446 - ~30MHz when WR_TWRH_0 defined
//#define WR_TWRL_1 // STM32F446 - ~25MHz when WR_TWRH_0 defined
#define WR_TWRL_2 // STM32F446 - ~20MHz when WR_TWRH_2 defined
//#define WR_TWRL_3 // STM32F446 - ~16MHz when WR_TWRH_3 defined
//#define WR_TWRL_4
//#define WR_TWRL_5 // STM32F446 - ~12MHz when WR_TWRH_5 defined
#elif defined (STM32F7xx)
//#define WR_TWRL_0
//#define WR_TWRL_1
//#define WR_TWRL_2
#define WR_TWRL_3
#else
//#define WR_TWRH_0 // Fastest
//#define WR_TWRH_1
//#define WR_TWRH_2
#define WR_TWRH_3 // Slowest
#endif
// Extra write pulse high time (data hold time, delays next write cycle start)
#if defined (STM32F1xx)
#define WR_TWRH_0
#elif defined (STM32F2xx) || defined (STM32F4xx)
//#define WR_TWRH_0
//#define WR_TWRH_1
#define WR_TWRH_2
//#define WR_TWRH_3
#elif defined (STM32F7xx)
//#define WR_TWRH_0
//#define WR_TWRH_1
//#define WR_TWRH_2
#define WR_TWRH_3
//#define WR_TWRH_4
//#define WR_TWRH_5
#else
//#define WR_TWRH_0 // Fastest
//#define WR_TWRH_1
//#define WR_TWRH_2
#define WR_TWRH_3 // Slowest
#endif
#else // Default display slow settings
#if defined (STM32F1xx)
// STM32F1xx series can run at full speed (unless overclocked)
#define WR_TWRL_0
#define WR_TWRH_0
#else
// Extra write pulse low time (delay for data setup)
//#define WR_TWRL_0
//#define WR_TWRL_1
//#define WR_TWRL_2
#define WR_TWRL_3
//#define WR_TWRL_4
//#define WR_TWRL_5
// Extra write pulse high time (data hold time, delays next write cycle start)
//#define WR_TWRH_0
//#define WR_TWRH_1
//#define WR_TWRH_2
//#define WR_TWRH_3
//#define WR_TWRH_4
#define WR_TWRH_5
#endif
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Macros for all other SPI displays
////////////////////////////////////////////////////////////////////////////////////////
#else
// Use SPI1 as default if not defined
#ifndef TFT_SPI_PORT
#define TFT_SPI_PORT 1
#endif
// Global define is _VARIANT_ARDUINO_STM32_, see board package stm32_def.h for specific variants
#if defined (STM32F2xx) || defined (STM32F4xx) || defined (STM32F7xx)
#define STM32_DMA // DMA is available with these processors
#if (TFT_SPI_PORT == 1)
// Initialise processor specific SPI and DMA instances - used by init()
#define INIT_TFT_DATA_BUS spiHal.Instance = SPI1; \
dmaHal.Instance = DMA2_Stream3
// The DMA hard-coding for SPI1 is in TFT_eSPI_STM32.c as follows:
// DMA_CHANNEL_3
// DMA2_Stream3_IRQn and DMA2_Stream3_IRQHandler()
#elif (TFT_SPI_PORT == 2)
// Initialise processor specific SPI and DMA instances - used by init()
#define INIT_TFT_DATA_BUS spiHal.Instance = SPI2; \
dmaHal.Instance = DMA1_Stream4
// The DMA hard-coding for SPI2 is in TFT_eSPI_STM32.c as follows:
// DMA_CHANNEL_4
// DMA1_Stream4_IRQn and DMA1_Stream4_IRQHandler()
#elif (TFT_SPI_PORT == 3)
// Initialise processor specific SPI and DMA instances - used by init()
#define INIT_TFT_DATA_BUS spiHal.Instance = SPI3; \
dmaHal.Instance = DMA1_Stream5
// The DMA hard-coding for SPI3 is in TFT_eSPI_STM32.c as follows:
// DMA_CHANNEL_4
// DMA1_Stream5_IRQn and DMA1_Stream5_IRQHandler()
#endif
#elif defined (STM32F1xx)
// For Blue Pill and STM32F1xx processors with DMA support
#define STM32_DMA // DMA is available with these processors
#if (TFT_SPI_PORT == 1)
#define INIT_TFT_DATA_BUS spiHal.Instance = SPI1; \
dmaHal.Instance = DMA1_Channel3
#elif (TFT_SPI_PORT == 2)
#define INIT_TFT_DATA_BUS spiHal.Instance = SPI2; \
dmaHal.Instance = DMA1_Channel5
#endif
#else
// For STM32 processor with no implemented DMA support (yet)
#if (TFT_SPI_PORT == 1)
#define INIT_TFT_DATA_BUS spiHal.Instance = SPI1
#elif (TFT_SPI_PORT == 2)
#define INIT_TFT_DATA_BUS spiHal.Instance = SPI2
#endif
#endif
#endif
#ifdef STM32_DMA
// Code to check if DMA is busy, used by SPI DMA + transaction + endWrite functions
#define DMA_BUSY_CHECK { if (DMA_Enabled) while(dmaBusy()); }
#else
#define DMA_BUSY_CHECK
#endif
// If smooth fonts are enabled the filing system may need to be loaded
#ifdef SMOOTH_FONT
// Call up the filing system for the anti-aliased fonts <<<==== TODO
//#define FS_NO_GLOBALS
//#include <FS.h>
#endif // end of parallel/SPI selection
////////////////////////////////////////////////////////////////////////////////////////
// Define the DC (TFT Data/Command or Register Select (RS))pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#if !defined (TFT_DC) || (TFT_DC < 0)
#define DC_C // No macro allocated so it generates no code
#define DC_D // No macro allocated so it generates no code
#undef TFT_DC
#else
// Convert Arduino pin reference Dn or STM pin reference PXn to port and mask
#define DC_PORT digitalPinToPort(TFT_DC)
#define DC_PIN_MASK digitalPinToBitMask(TFT_DC)
// Use bit set reset register
#define DC_C DC_PORT->BSRR = DC_PIN_MASK<<16
#define DC_D DC_PORT->BSRR = DC_PIN_MASK
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Define the CS (TFT chip select) pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#if !defined (TFT_CS) || (TFT_CS < 0)
#define CS_L // No macro allocated so it generates no code
#define CS_H // No macro allocated so it generates no code
#undef TFT_CS
#else
// Convert Arduino pin reference Dx or STM pin reference PXn to port and mask
#define CS_PORT digitalPinToPort(TFT_CS)
#define CS_PIN_MASK digitalPinToBitMask(TFT_CS)
// Use bit set reset register
#define CS_L CS_PORT->BSRR = CS_PIN_MASK<<16
#define CS_H CS_PORT->BSRR = CS_PIN_MASK
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Define the RD (TFT Read) pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#ifdef TFT_RD
#if (TFT_RD >= 0)
// Convert Arduino pin reference Dx or STM pin reference PXn to port and mask
#define RD_PORT digitalPinToPort(TFT_RD)
#define RD_PIN_MASK digitalPinToBitMask(TFT_RD)
// Use bit set reset register
#define RD_L RD_PORT->BSRR = RD_PIN_MASK<<16
#define RD_H RD_PORT->BSRR = RD_PIN_MASK
#else
#define RD_L
#define RD_H
#endif
#else
#define TFT_RD -1
#define RD_L
#define RD_H
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Define the WR (TFT Write) pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#ifdef TFT_WR
// Convert Arduino pin reference Dx or STM pin reference PXn to port and mask
#define WR_PORT digitalPinToPort(TFT_WR)
#define WR_PIN_MASK digitalPinToBitMask(TFT_WR)
// Use bit set reset register
#define WR_L WR_PORT->BSRR = WR_PIN_MASK<<16
#define WR_H WR_PORT->BSRR = WR_PIN_MASK
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Define the touch screen chip select pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#if !defined (TOUCH_CS) || (TOUCH_CS < 0)
#define T_CS_L // No macro allocated so it generates no code
#define T_CS_H // No macro allocated so it generates no code
#else
// Speed is not important for this signal
#define T_CS_L digitalWrite(TOUCH_CS, LOW)
#define T_CS_H digitalWrite(TOUCH_CS, HIGH)
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Make sure TFT_MISO is defined if not used to avoid an error message
////////////////////////////////////////////////////////////////////////////////////////
#if !defined (TFT_PARALLEL_8_BIT)
#ifndef TFT_MISO
#define TFT_MISO -1
#endif
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Define the parallel bus interface chip pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#if defined (TFT_PARALLEL_8_BIT)
// Mask for the 8 data bits to set pin directions (not used)
#define GPIO_DIR_MASK 0
#define PARALLEL_INIT_TFT_DATA_BUS // None
#define INIT_TFT_DATA_BUS // Setup built into TFT_eSPI.cpp
////////////////////////////////////////////////////////////////////////////////////////
// Define the TFT_WR drive cycle timing
////////////////////////////////////////////////////////////////////////////////////////
// Write low extra setup time
#if defined WR_TWRL_0
#define WR_TWRL
#elif defined WR_TWRL_1 // 1 extra low period
#define WR_TWRL WR_L
#elif defined WR_TWRL_2 // 2 extra low periods
#define WR_TWRL WR_L; WR_L
#elif defined WR_TWRL_3 // 3 extra low periods
#define WR_TWRL WR_L; WR_L; WR_L
#elif defined WR_TWRL_4 // 4 extra low periods
#define WR_TWRL WR_L; WR_L; WR_L; WR_L
#elif defined WR_TWRL_5 // 5 extra low periods
#define WR_TWRL WR_L; WR_L; WR_L; WR_L; WR_L
#endif
// Write high extra hold time
#if defined WR_TWRH_0
#define WR_TWRH WR_H
#elif defined WR_TWRH_1 // 1 extra high period
#define WR_TWRH WR_H; WR_H
#elif defined WR_TWRH_2 // 2 extra high periods
#define WR_TWRH WR_H; WR_H; WR_H
#elif defined WR_TWRH_3 // 3 extra high periods
#define WR_TWRH WR_H; WR_H; WR_H; WR_H
#elif defined WR_TWRH_4 // 4 extra high periods
#define WR_TWRH WR_H; WR_H; WR_H; WR_H; WR_H
#elif defined WR_TWRH_5 // 5 extra high periods
#define WR_TWRH WR_H; WR_H; WR_H; WR_H; WR_H; WR_H
#endif
#define WR_STB WR_TWRL; WR_TWRH // Rising edge write strobe
////////////////////////////////////////////////////////////////////////////////////////
// Nucleo 64: hard-coded pins
////////////////////////////////////////////////////////////////////////////////////////
#ifdef NUCLEO_64_TFT
// Convert Arduino pin reference Dx or STM pin reference PXn to port and mask
#define D0_PIN_NAME digitalPinToPinName(TFT_D0)
#define D1_PIN_NAME digitalPinToPinName(TFT_D1)
#define D2_PIN_NAME digitalPinToPinName(TFT_D2)
#define D3_PIN_NAME digitalPinToPinName(TFT_D3)
#define D4_PIN_NAME digitalPinToPinName(TFT_D4)
#define D5_PIN_NAME digitalPinToPinName(TFT_D5)
#define D6_PIN_NAME digitalPinToPinName(TFT_D6)
#define D7_PIN_NAME digitalPinToPinName(TFT_D7)
// Pin port bit number 0-15 (not used for Nucleo)
#define D0_PIN_BIT (D0_PIN_NAME & 0xF)
#define D1_PIN_BIT (D1_PIN_NAME & 0xF)
#define D2_PIN_BIT (D2_PIN_NAME & 0xF)
#define D3_PIN_BIT (D3_PIN_NAME & 0xF)
#define D4_PIN_BIT (D4_PIN_NAME & 0xF)
#define D5_PIN_BIT (D5_PIN_NAME & 0xF)
#define D6_PIN_BIT (D6_PIN_NAME & 0xF)
#define D7_PIN_BIT (D7_PIN_NAME & 0xF)
// Pin port - better than get_GPIO_Port() which seems to be slow...
#define D0_PIN_PORT GPIOA
#define D1_PIN_PORT GPIOC
#define D2_PIN_PORT GPIOA
#define D3_PIN_PORT GPIOB
#define D4_PIN_PORT GPIOB
#define D5_PIN_PORT GPIOB
#define D6_PIN_PORT GPIOB
#define D7_PIN_PORT GPIOA
// Pin masks for set/clear
#define D0_PIN_MASK (1UL<< 9) // Set/clear mask for PA9
#define D1_PIN_MASK (1UL<< 7) // Set/clear mask for PC7
#define D2_PIN_MASK (1UL<<10) // Set/clear mask for PA10
#define D3_PIN_MASK (1UL<< 3) // Set/clear mask for PB3
#define D4_PIN_MASK (1UL<< 5) // Set/clear mask for PB5
#define D5_PIN_MASK (1UL<< 4) // Set/clear mask for PB4
#define D6_PIN_MASK (1UL<<10) // Set/clear mask for PB10
#define D7_PIN_MASK (1UL<< 8) // Set/clear mask for PA8
// Create bit set/reset mask based on LS byte of value B
#define D0_BSR_MASK(B) ((D0_PIN_MASK<<16)>>(((B)<< 4)&0x10))
#define D1_BSR_MASK(B) ((D1_PIN_MASK<<16)>>(((B)<< 3)&0x10))
#define D2_BSR_MASK(B) ((D2_PIN_MASK<<16)>>(((B)<< 2)&0x10))
#define D3_BSR_MASK(B) ((D3_PIN_MASK<<16)>>(((B)<< 1)&0x10))
#define D4_BSR_MASK(B) ((D4_PIN_MASK<<16)>>(((B)<< 0)&0x10))
#define D5_BSR_MASK(B) ((D5_PIN_MASK<<16)>>(((B)>> 1)&0x10))
#define D6_BSR_MASK(B) ((D6_PIN_MASK<<16)>>(((B)>> 2)&0x10))
#define D7_BSR_MASK(B) ((D7_PIN_MASK<<16)>>(((B)>> 3)&0x10))
// Create bit set/reset mask for top byte of 16 bit value B
#define D8_BSR_MASK(B) ((D0_PIN_MASK<<16)>>(((B)>> 4)&0x10))
#define D9_BSR_MASK(B) ((D1_PIN_MASK<<16)>>(((B)>> 5)&0x10))
#define D10_BSR_MASK(B) ((D2_PIN_MASK<<16)>>(((B)>> 6)&0x10))
#define D11_BSR_MASK(B) ((D3_PIN_MASK<<16)>>(((B)>> 7)&0x10))
#define D12_BSR_MASK(B) ((D4_PIN_MASK<<16)>>(((B)>> 8)&0x10))
#define D13_BSR_MASK(B) ((D5_PIN_MASK<<16)>>(((B)>> 9)&0x10))
#define D14_BSR_MASK(B) ((D6_PIN_MASK<<16)>>(((B)>>10)&0x10))
#define D15_BSR_MASK(B) ((D7_PIN_MASK<<16)>>(((B)>>11)&0x10))
// Write 8 bits to TFT
#define tft_Write_8(C) GPIOA->BSRR = D0_BSR_MASK(C) | D2_BSR_MASK(C) | D7_BSR_MASK(C); \
WR_L; \
GPIOC->BSRR = D1_BSR_MASK(C); \
GPIOB->BSRR = D3_BSR_MASK(C) | D4_BSR_MASK(C) | D5_BSR_MASK(C) | D6_BSR_MASK(C); \
WR_STB // Need to slow down strobe
#if defined (SSD1963_DRIVER)
// Write 18 bit color to TFT (untested)
#define tft_Write_16(C) r6 = (((C) & 0xF800)>> 8); g6 = (((C) & 0x07E0)>> 3); b6 = (((C) & 0x001F)<< 3); \
GPIOA->BSRR = D0_BSR_MASK(r6) | D2_BSR_MASK(r6) | D7_BSR_MASK(r6); \
WR_L; \
GPIOC->BSRR = D1_BSR_MASK(r6); \
GPIOB->BSRR = D3_BSR_MASK(r6) | D4_BSR_MASK(r6) | D5_BSR_MASK(r6) | D6_BSR_MASK(r6); \
WR_STB; \
GPIOA->BSRR = D0_BSR_MASK(g6) | D2_BSR_MASK(g6) | D7_BSR_MASK(g6); \
WR_L; \
GPIOC->BSRR = D1_BSR_MASK(g6); \
GPIOB->BSRR = D3_BSR_MASK(g6) | D4_BSR_MASK(g6) | D5_BSR_MASK(g6) | D6_BSR_MASK(g6); \
WR_STB; \
GPIOA->BSRR = D0_BSR_MASK(b6) | D2_BSR_MASK(b6) | D7_BSR_MASK(b6); \
WR_L; \
GPIOC->BSRR = D1_BSR_MASK(b6); \
GPIOB->BSRR = D3_BSR_MASK(b6) | D4_BSR_MASK(b6) | D5_BSR_MASK(b6) | D6_BSR_MASK(b6); \
WR_STB // Need to slow down strobe
// 18 bit color write with swapped bytes
#define tft_Write_16S(C) Cswap = ((C) >>8 | (C) << 8); tft_Write_16(Cswap)
#else
// Write 16 bits to TFT
#define tft_Write_16(C) GPIOA->BSRR = D8_BSR_MASK(C) | D10_BSR_MASK(C) | D15_BSR_MASK(C); \
WR_L; \
GPIOC->BSRR = D9_BSR_MASK(C); \
GPIOB->BSRR = D11_BSR_MASK(C) | D12_BSR_MASK(C) | D13_BSR_MASK(C) | D14_BSR_MASK(C); \
WR_STB; \
GPIOA->BSRR = D0_BSR_MASK(C) | D2_BSR_MASK(C) | D7_BSR_MASK(C); \
WR_L; \
GPIOC->BSRR = D1_BSR_MASK(C); \
GPIOB->BSRR = D3_BSR_MASK(C) | D4_BSR_MASK(C) | D5_BSR_MASK(C) | D6_BSR_MASK(C); \
WR_STB // Need to slow down strobe
// 16 bit write with swapped bytes
#define tft_Write_16S(C) GPIOA->BSRR = D0_BSR_MASK(C) | D2_BSR_MASK(C) | D7_BSR_MASK(C); \
WR_L; \
GPIOC->BSRR = D1_BSR_MASK(C); \
GPIOB->BSRR = D3_BSR_MASK(C) | D4_BSR_MASK(C) | D5_BSR_MASK(C) | D6_BSR_MASK(C); \
WR_STB; \
GPIOA->BSRR = D8_BSR_MASK(C) | D10_BSR_MASK(C) | D15_BSR_MASK(C); \
WR_L; \
GPIOC->BSRR = D9_BSR_MASK(C); \
GPIOB->BSRR = D11_BSR_MASK(C) | D12_BSR_MASK(C) | D13_BSR_MASK(C) | D14_BSR_MASK(C); \
WR_STB
#endif
#define tft_Write_32(C) tft_Write_16((uint16_t)((C)>>16)); tft_Write_16((uint16_t)(C))
#define tft_Write_32C(C,D) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(D))
#define tft_Write_32D(C) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(C))
// Read a data bit
#define RD_TFT_D0 (((GPIOA->IDR)&(D0_PIN_MASK))>>( 9-0)) // Read pin PA9
#define RD_TFT_D1 (((GPIOC->IDR)&(D1_PIN_MASK))>>( 7-1)) // Read pin PC7
#define RD_TFT_D2 (((GPIOA->IDR)&(D2_PIN_MASK))>>(10-2)) // Read pin PA10
#define RD_TFT_D3 (((GPIOB->IDR)&(D3_PIN_MASK))>>( 3-3)) // Read pin PB3
#define RD_TFT_D4 (((GPIOB->IDR)&(D4_PIN_MASK))>>( 5-4)) // Read pin PB5
#define RD_TFT_D5 (((GPIOB->IDR)&(D5_PIN_MASK))<<(-4+5)) // Read pin PB4
#define RD_TFT_D6 (((GPIOB->IDR)&(D6_PIN_MASK))>>(10-6)) // Read pin PB10
#define RD_TFT_D7 (((GPIOA->IDR)&(D7_PIN_MASK))>>( 8-7)) // Read pin PA8
////////////////////////////////////////////////////////////////////////////////////////
// Nucleo 144: hard-coded pins
////////////////////////////////////////////////////////////////////////////////////////
#elif defined (NUCLEO_144_TFT)
// Convert Arduino pin reference Dx or STM pin reference PXn to port and mask
// (diagnostic only - not used for Nucleo)
#define D0_PIN_NAME digitalPinToPinName(TFT_D0)
#define D1_PIN_NAME digitalPinToPinName(TFT_D1)
#define D2_PIN_NAME digitalPinToPinName(TFT_D2)
#define D3_PIN_NAME digitalPinToPinName(TFT_D3)
#define D4_PIN_NAME digitalPinToPinName(TFT_D4)
#define D5_PIN_NAME digitalPinToPinName(TFT_D5)
#define D6_PIN_NAME digitalPinToPinName(TFT_D6)
#define D7_PIN_NAME digitalPinToPinName(TFT_D7)
// Pin port bit number 0-15 (diagnostic only - not used for Nucleo)
#define D0_PIN_BIT (D0_PIN_NAME & 0xF)
#define D1_PIN_BIT (D1_PIN_NAME & 0xF)
#define D2_PIN_BIT (D2_PIN_NAME & 0xF)
#define D3_PIN_BIT (D3_PIN_NAME & 0xF)
#define D4_PIN_BIT (D4_PIN_NAME & 0xF)
#define D5_PIN_BIT (D5_PIN_NAME & 0xF)
#define D6_PIN_BIT (D6_PIN_NAME & 0xF)
#define D7_PIN_BIT (D7_PIN_NAME & 0xF)
#if !defined (STM32H7xx)
// Ports associated with pins - get_GPIO_Port() seems to be slow...
#define D0_PIN_PORT GPIOF
#define D1_PIN_PORT GPIOD
#define D2_PIN_PORT GPIOF
#define D3_PIN_PORT GPIOE
#define D4_PIN_PORT GPIOF
#define D5_PIN_PORT GPIOE
#define D6_PIN_PORT GPIOE
#define D7_PIN_PORT GPIOF
// Pin masks for set/clear
#define D0_PIN_MASK (1UL<<12) // Set/clear mask for PF12 PF3
#define D1_PIN_MASK (1UL<<15) // Set/clear mask for PD15
#define D2_PIN_MASK (1UL<<15) // Set/clear mask for PF15 PG14
#define D3_PIN_MASK (1UL<<13) // Set/clear mask for PE13
#define D4_PIN_MASK (1UL<<14) // Set/clear mask for PF14
#define D5_PIN_MASK (1UL<<11) // Set/clear mask for PE11
#define D6_PIN_MASK (1UL<< 9) // Set/clear mask for PE9
#define D7_PIN_MASK (1UL<<13) // Set/clear mask for PF13 PG12
// Create bit set/reset mask based on LS byte of value B
#define D0_BSR_MASK(B) ((D0_PIN_MASK<<16)>>(((B)<< 4)&0x10))
#define D1_BSR_MASK(B) ((D1_PIN_MASK<<16)>>(((B)<< 3)&0x10))
#define D2_BSR_MASK(B) ((D2_PIN_MASK<<16)>>(((B)<< 2)&0x10))
#define D3_BSR_MASK(B) ((D3_PIN_MASK<<16)>>(((B)<< 1)&0x10))
#define D4_BSR_MASK(B) ((D4_PIN_MASK<<16)>>(((B)<< 0)&0x10))
#define D5_BSR_MASK(B) ((D5_PIN_MASK<<16)>>(((B)>> 1)&0x10))
#define D6_BSR_MASK(B) ((D6_PIN_MASK<<16)>>(((B)>> 2)&0x10))
#define D7_BSR_MASK(B) ((D7_PIN_MASK<<16)>>(((B)>> 3)&0x10))
// Create bit set/reset mask for top byte of 16 bit value B
#define D8_BSR_MASK(B) ((D0_PIN_MASK<<16)>>(((B)>> 4)&0x10))
#define D9_BSR_MASK(B) ((D1_PIN_MASK<<16)>>(((B)>> 5)&0x10))
#define D10_BSR_MASK(B) ((D2_PIN_MASK<<16)>>(((B)>> 6)&0x10))
#define D11_BSR_MASK(B) ((D3_PIN_MASK<<16)>>(((B)>> 7)&0x10))
#define D12_BSR_MASK(B) ((D4_PIN_MASK<<16)>>(((B)>> 8)&0x10))
#define D13_BSR_MASK(B) ((D5_PIN_MASK<<16)>>(((B)>> 9)&0x10))
#define D14_BSR_MASK(B) ((D6_PIN_MASK<<16)>>(((B)>>10)&0x10))
#define D15_BSR_MASK(B) ((D7_PIN_MASK<<16)>>(((B)>>11)&0x10))
// Write 8 bits to TFT
#define tft_Write_8(C) GPIOF->BSRR = D0_BSR_MASK(C) | D2_BSR_MASK(C) | D4_BSR_MASK(C) | D7_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D1_BSR_MASK(C); \
GPIOE->BSRR = D3_BSR_MASK(C) | D5_BSR_MASK(C) | D6_BSR_MASK(C); \
WR_STB
#if defined (SSD1963_DRIVER)
// Write 18 bit color to TFT (untested)
#define tft_Write_16(C) r6 = (((C) & 0xF800)>> 8); g6 = (((C) & 0x07E0)>> 3); b6 = (((C) & 0x001F)<< 3); \
GPIOF->BSRR = D0_BSR_MASK(r6) | D2_BSR_MASK(r6) | D4_BSR_MASK(r6) | D7_BSR_MASK(r6); \
WR_L; \
GPIOD->BSRR = D1_BSR_MASK(r6); \
GPIOE->BSRR = D3_BSR_MASK(r6) | D5_BSR_MASK(r6) | D6_BSR_MASK(r6); \
WR_STB; \
GPIOF->BSRR = D0_BSR_MASK(g6) | D2_BSR_MASK(g6) | D4_BSR_MASK(g6) | D7_BSR_MASK(g6); \
WR_L; \
GPIOD->BSRR = D1_BSR_MASK(g6); \
GPIOE->BSRR = D3_BSR_MASK(g6) | D5_BSR_MASK(g6) | D6_BSR_MASK(g6); \
WR_STB; \
GPIOF->BSRR = D0_BSR_MASK(b6) | D2_BSR_MASK(b6) | D4_BSR_MASK(b6) | D7_BSR_MASK(b6); \
WR_L; \
GPIOD->BSRR = D1_BSR_MASK(b6); \
GPIOE->BSRR = D3_BSR_MASK(b6) | D5_BSR_MASK(b6) | D6_BSR_MASK(b6); \
WR_STB // Need to slow down strobe
// 18 bit color write with swapped bytes
#define tft_Write_16S(C) Cswap = ((C) >>8 | (C) << 8); tft_Write_16(Cswap)
#else
// Write 16 bits to TFT
#define tft_Write_16(C) GPIOF->BSRR = D8_BSR_MASK(C) | D10_BSR_MASK(C) | D12_BSR_MASK(C) | D15_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D9_BSR_MASK(C); \
GPIOE->BSRR = D11_BSR_MASK(C) | D13_BSR_MASK(C) | D14_BSR_MASK(C); \
WR_STB;\
GPIOF->BSRR = D0_BSR_MASK(C) | D2_BSR_MASK(C) | D4_BSR_MASK(C) | D7_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D1_BSR_MASK(C); \
GPIOE->BSRR = D3_BSR_MASK(C) | D5_BSR_MASK(C) | D6_BSR_MASK(C); \
WR_STB
// 16 bit write with swapped bytes
#define tft_Write_16S(C) GPIOF->BSRR = D0_BSR_MASK(C) | D2_BSR_MASK(C) | D4_BSR_MASK(C) | D7_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D1_BSR_MASK(C); \
GPIOE->BSRR = D3_BSR_MASK(C) | D5_BSR_MASK(C) | D6_BSR_MASK(C); \
WR_STB; \
GPIOF->BSRR = D8_BSR_MASK(C) | D10_BSR_MASK(C) | D12_BSR_MASK(C) | D15_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D9_BSR_MASK(C); \
GPIOE->BSRR = D11_BSR_MASK(C) | D13_BSR_MASK(C) | D14_BSR_MASK(C); \
WR_STB
#endif
#define tft_Write_32(C) tft_Write_16((uint16_t)((C)>>16)); tft_Write_16((uint16_t)(C))
#define tft_Write_32C(C,D) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(D))
#define tft_Write_32D(C) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(C))
// Read a data bit
#define RD_TFT_D0 (((GPIOF->IDR)&(D0_PIN_MASK))>>(12-0)) // Read pin PF12
#define RD_TFT_D1 (((GPIOD->IDR)&(D1_PIN_MASK))>>(15-1)) // Read pin PD15
#define RD_TFT_D2 (((GPIOF->IDR)&(D2_PIN_MASK))>>(15-2)) // Read pin PF15
#define RD_TFT_D3 (((GPIOE->IDR)&(D3_PIN_MASK))>>(13-3)) // Read pin PE13
#define RD_TFT_D4 (((GPIOF->IDR)&(D4_PIN_MASK))>>(14-4)) // Read pin PF14
#define RD_TFT_D5 (((GPIOE->IDR)&(D5_PIN_MASK))>>(11-5)) // Read pin PE11
#define RD_TFT_D6 (((GPIOE->IDR)&(D6_PIN_MASK))>>( 9-6)) // Read pin PE9
#define RD_TFT_D7 (((GPIOF->IDR)&(D7_PIN_MASK))>>(13-7)) // Read pin PF13
#else
// Test setup for STM32H743 - starts to run, slow and then crashes! Board support bug?
// Ports associated with pins - get_GPIO_Port() seems to be slow...
#define D0_PIN_PORT GPIOF
#define D1_PIN_PORT GPIOD
#define D2_PIN_PORT GPIOG
#define D3_PIN_PORT GPIOE
#define D4_PIN_PORT GPIOE
#define D5_PIN_PORT GPIOE
#define D6_PIN_PORT GPIOE
#define D7_PIN_PORT GPIOG
// Pin masks for set/clear
#define D0_PIN_MASK (1UL<< 3) // Set/clear mask for PF3
#define D1_PIN_MASK (1UL<<15) // Set/clear mask for PD15
#define D2_PIN_MASK (1UL<<14) // Set/clear mask for PG14
#define D3_PIN_MASK (1UL<<13) // Set/clear mask for PE13
#define D4_PIN_MASK (1UL<<14) // Set/clear mask for PE14
#define D5_PIN_MASK (1UL<<11) // Set/clear mask for PE11
#define D6_PIN_MASK (1UL<< 9) // Set/clear mask for PE9
#define D7_PIN_MASK (1UL<<12) // Set/clear mask for PG12
// Create bit set/reset mask based on LS byte of value B
#define D0_BSR_MASK(B) ((D0_PIN_MASK<<16)>>(((B)<< 4)&0x10))
#define D1_BSR_MASK(B) ((D1_PIN_MASK<<16)>>(((B)<< 3)&0x10))
#define D2_BSR_MASK(B) ((D2_PIN_MASK<<16)>>(((B)<< 2)&0x10))
#define D3_BSR_MASK(B) ((D3_PIN_MASK<<16)>>(((B)<< 1)&0x10))
#define D4_BSR_MASK(B) ((D4_PIN_MASK<<16)>>(((B)<< 0)&0x10))
#define D5_BSR_MASK(B) ((D5_PIN_MASK<<16)>>(((B)>> 1)&0x10))
#define D6_BSR_MASK(B) ((D6_PIN_MASK<<16)>>(((B)>> 2)&0x10))
#define D7_BSR_MASK(B) ((D7_PIN_MASK<<16)>>(((B)>> 3)&0x10))
// Create bit set/reset mask for top byte of 16 bit value B
#define D8_BSR_MASK(B) ((D0_PIN_MASK<<16)>>(((B)>> 4)&0x10))
#define D9_BSR_MASK(B) ((D1_PIN_MASK<<16)>>(((B)>> 5)&0x10))
#define D10_BSR_MASK(B) ((D2_PIN_MASK<<16)>>(((B)>> 6)&0x10))
#define D11_BSR_MASK(B) ((D3_PIN_MASK<<16)>>(((B)>> 7)&0x10))
#define D12_BSR_MASK(B) ((D4_PIN_MASK<<16)>>(((B)>> 8)&0x10))
#define D13_BSR_MASK(B) ((D5_PIN_MASK<<16)>>(((B)>> 9)&0x10))
#define D14_BSR_MASK(B) ((D6_PIN_MASK<<16)>>(((B)>>10)&0x10))
#define D15_BSR_MASK(B) ((D7_PIN_MASK<<16)>>(((B)>>11)&0x10))
// Write 8 bits to TFT
#define tft_Write_8(C) GPIOF->BSRR = D0_BSR_MASK(C); \
GPIOG->BSRR = D2_BSR_MASK(C) | D7_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D1_BSR_MASK(C); \
GPIOE->BSRR = D3_BSR_MASK(C) | D4_BSR_MASK(C) | D5_BSR_MASK(C) | D6_BSR_MASK(C); \
WR_STB
// Write 16 bits to TFT
#define tft_Write_16(C) GPIOF->BSRR = D8_BSR_MASK(C); \
GPIOG->BSRR = D10_BSR_MASK(C) | D15_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D9_BSR_MASK(C); \
GPIOE->BSRR = D11_BSR_MASK(C) | D12_BSR_MASK(C) | D13_BSR_MASK(C) | D14_BSR_MASK(C); \
WR_STB;\
GPIOF->BSRR = D0_BSR_MASK(C); \
GPIOG->BSRR = D2_BSR_MASK(C) | D7_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D1_BSR_MASK(C); \
GPIOE->BSRR = D3_BSR_MASK(C) | D4_BSR_MASK(C) | D5_BSR_MASK(C) | D6_BSR_MASK(C); \
WR_STB
// 16 bit write with swapped bytes
#define tft_Write_16S(C) GPIOF->BSRR = D0_BSR_MASK(C); \
GPIOG->BSRR = D2_BSR_MASK(C) | D7_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D1_BSR_MASK(C); \
GPIOE->BSRR = D3_BSR_MASK(C) | D4_BSR_MASK(C) | D5_BSR_MASK(C) | D6_BSR_MASK(C); \
WR_STB; \
GPIOF->BSRR = D8_BSR_MASK(C); \
GPIOG->BSRR = D10_BSR_MASK(C) | D15_BSR_MASK(C); \
WR_L; \
GPIOD->BSRR = D9_BSR_MASK(C); \
GPIOE->BSRR = D11_BSR_MASK(C) | D12_BSR_MASK(C) | D13_BSR_MASK(C) | D14_BSR_MASK(C); \
WR_STB
#define tft_Write_32(C) tft_Write_16((uint16_t)((C)>>16)); tft_Write_16((uint16_t)(C))
#define tft_Write_32C(C,D) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(D))
#define tft_Write_32D(C) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(C))
// Read a data bit
#define RD_TFT_D0 (((GPIOF->IDR)&(D0_PIN_MASK))>>( 3-0)) // Read pin PF3
#define RD_TFT_D1 (((GPIOD->IDR)&(D1_PIN_MASK))>>(15-1)) // Read pin PD15
#define RD_TFT_D2 (((GPIOG->IDR)&(D2_PIN_MASK))>>(14-2)) // Read pin PG14
#define RD_TFT_D3 (((GPIOE->IDR)&(D3_PIN_MASK))>>(13-3)) // Read pin PE13
#define RD_TFT_D4 (((GPIOE->IDR)&(D4_PIN_MASK))>>(14-4)) // Read pin PE14
#define RD_TFT_D5 (((GPIOE->IDR)&(D5_PIN_MASK))>>(11-5)) // Read pin PE11
#define RD_TFT_D6 (((GPIOE->IDR)&(D6_PIN_MASK))>>( 9-6)) // Read pin PE9
#define RD_TFT_D7 (((GPIOG->IDR)&(D7_PIN_MASK))>>(12-7)) // Read pin PG12
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Support for other STM32 boards (not optimised!)
////////////////////////////////////////////////////////////////////////////////////////
#else
#if defined (STM_PORTA_DATA_BUS) || defined (STM_PORTB_DATA_BUS) || defined (STM_PORTC_DATA_BUS) || defined (STM_PORTD_DATA_BUS)
#if defined (STM_PORTA_DATA_BUS)
#define GPIOX GPIOA
#elif defined (STM_PORTB_DATA_BUS)
#define GPIOX GPIOB
#elif defined (STM_PORTC_DATA_BUS)
#define GPIOX GPIOC
#elif defined (STM_PORTD_DATA_BUS)
#define GPIOX GPIOD
#endif
// Write 8 bits to TFT
#define tft_Write_8(C) GPIOX->BSRR = (0x00FF0000 | (uint8_t)(C)); WR_L; WR_STB
#if defined (SSD1963_DRIVER)
// Write 18 bit color to TFT (untested)
#define tft_Write_16(C) r6 = (((C) & 0xF800)>> 8); g6 = (((C) & 0x07E0)>> 3); b6 = (((C) & 0x001F)<< 3); \
GPIOX->BSRR = (0x00FF0000 | (uint8_t)(r6)); WR_L; WR_STB; \
GPIOX->BSRR = (0x00FF0000 | (uint8_t)(g6)); WR_L; WR_STB; \
GPIOX->BSRR = (0x00FF0000 | (uint8_t)(b6)); WR_L; WR_STB
// 18 bit color write with swapped bytes
#define tft_Write_16S(C) Cswap = ((C) >>8 | (C) << 8); tft_Write_16(Cswap)
#else
// Write 16 bits to TFT
#define tft_Write_16(C) GPIOX->BSRR = (0x00FF0000 | (uint8_t)(C>>8)); WR_L; WR_STB; \
GPIOX->BSRR = (0x00FF0000 | (uint8_t)(C>>0)); WR_L; WR_STB
// 16 bit write with swapped bytes
#define tft_Write_16S(C) GPIOX->BSRR = (0x00FF0000 | (uint8_t)(C>>0)); WR_L; WR_STB; \
GPIOX->BSRR = (0x00FF0000 | (uint8_t)(C>>8)); WR_L; WR_STB
#endif
#define tft_Write_32(C) tft_Write_16((uint16_t)((C)>>16)); tft_Write_16((uint16_t)(C))
#define tft_Write_32C(C,D) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(D))
#define tft_Write_32D(C) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(C))
// Read a data bit
#define RD_TFT_D0 ((GPIOX->IDR) & 0x01) // Read pin TFT_D0
#define RD_TFT_D1 ((GPIOX->IDR) & 0x02) // Read pin TFT_D1
#define RD_TFT_D2 ((GPIOX->IDR) & 0x04) // Read pin TFT_D2
#define RD_TFT_D3 ((GPIOX->IDR) & 0x08) // Read pin TFT_D3
#define RD_TFT_D4 ((GPIOX->IDR) & 0x10) // Read pin TFT_D4
#define RD_TFT_D5 ((GPIOX->IDR) & 0x20) // Read pin TFT_D5
#define RD_TFT_D6 ((GPIOX->IDR) & 0x40) // Read pin TFT_D6
#define RD_TFT_D7 ((GPIOX->IDR) & 0x80) // Read pin TFT_D7
#else
// This will work with any STM32 to parallel TFT pin mapping but will be slower
// Convert Arduino pin reference Dx or STM pin reference PXn to port and mask
#define D0_PIN_NAME digitalPinToPinName(TFT_D0)
#define D1_PIN_NAME digitalPinToPinName(TFT_D1)
#define D2_PIN_NAME digitalPinToPinName(TFT_D2)
#define D3_PIN_NAME digitalPinToPinName(TFT_D3)
#define D4_PIN_NAME digitalPinToPinName(TFT_D4)
#define D5_PIN_NAME digitalPinToPinName(TFT_D5)
#define D6_PIN_NAME digitalPinToPinName(TFT_D6)
#define D7_PIN_NAME digitalPinToPinName(TFT_D7)
// Pin port bit number 0-15
#define D0_PIN_BIT (D0_PIN_NAME & 0xF)
#define D1_PIN_BIT (D1_PIN_NAME & 0xF)
#define D2_PIN_BIT (D2_PIN_NAME & 0xF)
#define D3_PIN_BIT (D3_PIN_NAME & 0xF)
#define D4_PIN_BIT (D4_PIN_NAME & 0xF)
#define D5_PIN_BIT (D5_PIN_NAME & 0xF)
#define D6_PIN_BIT (D6_PIN_NAME & 0xF)
#define D7_PIN_BIT (D7_PIN_NAME & 0xF)
// Pin port
#define D0_PIN_PORT digitalPinToPort(TFT_D0)
#define D1_PIN_PORT digitalPinToPort(TFT_D1)
#define D2_PIN_PORT digitalPinToPort(TFT_D2)
#define D3_PIN_PORT digitalPinToPort(TFT_D3)
#define D4_PIN_PORT digitalPinToPort(TFT_D4)
#define D5_PIN_PORT digitalPinToPort(TFT_D5)
#define D6_PIN_PORT digitalPinToPort(TFT_D6)
#define D7_PIN_PORT digitalPinToPort(TFT_D7)
// Pin masks for set/clear
#define D0_PIN_MASK digitalPinToBitMask(TFT_D0)
#define D1_PIN_MASK digitalPinToBitMask(TFT_D1)
#define D2_PIN_MASK digitalPinToBitMask(TFT_D2)
#define D3_PIN_MASK digitalPinToBitMask(TFT_D3)
#define D4_PIN_MASK digitalPinToBitMask(TFT_D4)
#define D5_PIN_MASK digitalPinToBitMask(TFT_D5)
#define D6_PIN_MASK digitalPinToBitMask(TFT_D6)
#define D7_PIN_MASK digitalPinToBitMask(TFT_D7)
// Create bit set/reset mask based on LS byte of value B
#define D0_BSR_MASK(B) ((D0_PIN_MASK<<16)>>(((B)<< 4)&0x10))
#define D1_BSR_MASK(B) ((D1_PIN_MASK<<16)>>(((B)<< 3)&0x10))
#define D2_BSR_MASK(B) ((D2_PIN_MASK<<16)>>(((B)<< 2)&0x10))
#define D3_BSR_MASK(B) ((D3_PIN_MASK<<16)>>(((B)<< 1)&0x10))
#define D4_BSR_MASK(B) ((D4_PIN_MASK<<16)>>(((B)<< 0)&0x10))
#define D5_BSR_MASK(B) ((D5_PIN_MASK<<16)>>(((B)>> 1)&0x10))
#define D6_BSR_MASK(B) ((D6_PIN_MASK<<16)>>(((B)>> 2)&0x10))
#define D7_BSR_MASK(B) ((D7_PIN_MASK<<16)>>(((B)>> 3)&0x10))
// Create bit set/reset mask for top byte of 16 bit value B
#define D8_BSR_MASK(B) ((D0_PIN_MASK<<16)>>(((B)>> 4)&0x10))
#define D9_BSR_MASK(B) ((D1_PIN_MASK<<16)>>(((B)>> 5)&0x10))
#define D10_BSR_MASK(B) ((D2_PIN_MASK<<16)>>(((B)>> 6)&0x10))
#define D11_BSR_MASK(B) ((D3_PIN_MASK<<16)>>(((B)>> 7)&0x10))
#define D12_BSR_MASK(B) ((D4_PIN_MASK<<16)>>(((B)>> 8)&0x10))
#define D13_BSR_MASK(B) ((D5_PIN_MASK<<16)>>(((B)>> 9)&0x10))
#define D14_BSR_MASK(B) ((D6_PIN_MASK<<16)>>(((B)>>10)&0x10))
#define D15_BSR_MASK(B) ((D7_PIN_MASK<<16)>>(((B)>>11)&0x10))
// Write 8 bits to TFT
#define tft_Write_8(C) D0_PIN_PORT->BSRR = D0_BSR_MASK(C); \
D1_PIN_PORT->BSRR = D1_BSR_MASK(C); \
D2_PIN_PORT->BSRR = D2_BSR_MASK(C); \
D3_PIN_PORT->BSRR = D3_BSR_MASK(C); \
WR_L; \
D4_PIN_PORT->BSRR = D4_BSR_MASK(C); \
D5_PIN_PORT->BSRR = D5_BSR_MASK(C); \
D6_PIN_PORT->BSRR = D6_BSR_MASK(C); \
D7_PIN_PORT->BSRR = D7_BSR_MASK(C); \
WR_STB
#if defined (SSD1963_DRIVER)
// Write 18 bit color to TFT (untested)
#define tft_Write_16(C) r6 = (((C) & 0xF800)>> 8); g6 = (((C) & 0x07E0)>> 3); b6 = (((C) & 0x001F)<< 3); \
D0_PIN_PORT->BSRR = D8_BSR_MASK(r6); \
D1_PIN_PORT->BSRR = D9_BSR_MASK(r6); \
D2_PIN_PORT->BSRR = D10_BSR_MASK(r6); \
D3_PIN_PORT->BSRR = D11_BSR_MASK(r6); \
WR_L; \
D4_PIN_PORT->BSRR = D12_BSR_MASK(r6); \
D5_PIN_PORT->BSRR = D13_BSR_MASK(r6); \
D6_PIN_PORT->BSRR = D14_BSR_MASK(r6); \
D7_PIN_PORT->BSRR = D15_BSR_MASK(r6); \
WR_STB;\
D0_PIN_PORT->BSRR = D8_BSR_MASK(g6); \
D1_PIN_PORT->BSRR = D9_BSR_MASK(g6); \
D2_PIN_PORT->BSRR = D10_BSR_MASK(g6); \
D3_PIN_PORT->BSRR = D11_BSR_MASK(g6); \
WR_L; \
D4_PIN_PORT->BSRR = D12_BSR_MASK(g6); \
D5_PIN_PORT->BSRR = D13_BSR_MASK(g6); \
D6_PIN_PORT->BSRR = D14_BSR_MASK(g6); \
D7_PIN_PORT->BSRR = D15_BSR_MASK(g6); \
WR_STB;\
D0_PIN_PORT->BSRR = D0_BSR_MASK(b6); \
D1_PIN_PORT->BSRR = D1_BSR_MASK(b6); \
D2_PIN_PORT->BSRR = D2_BSR_MASK(b6); \
D3_PIN_PORT->BSRR = D3_BSR_MASK(b6); \
WR_L; \
D4_PIN_PORT->BSRR = D4_BSR_MASK(b6); \
D5_PIN_PORT->BSRR = D5_BSR_MASK(b6); \
D6_PIN_PORT->BSRR = D6_BSR_MASK(b6); \
D7_PIN_PORT->BSRR = D7_BSR_MASK(b6); \
WR_STB
// 18 bit color write with swapped bytes
#define tft_Write_16S(C) Cswap = ((C) >>8 | (C) << 8); tft_Write_16(Cswap)
#else
// Write 16 bits to TFT
#define tft_Write_16(C) D0_PIN_PORT->BSRR = D8_BSR_MASK(C); \
D1_PIN_PORT->BSRR = D9_BSR_MASK(C); \
D2_PIN_PORT->BSRR = D10_BSR_MASK(C); \
D3_PIN_PORT->BSRR = D11_BSR_MASK(C); \
WR_L; \
D4_PIN_PORT->BSRR = D12_BSR_MASK(C); \
D5_PIN_PORT->BSRR = D13_BSR_MASK(C); \
D6_PIN_PORT->BSRR = D14_BSR_MASK(C); \
D7_PIN_PORT->BSRR = D15_BSR_MASK(C); \
WR_STB;\
D0_PIN_PORT->BSRR = D0_BSR_MASK(C); \
D1_PIN_PORT->BSRR = D1_BSR_MASK(C); \
D2_PIN_PORT->BSRR = D2_BSR_MASK(C); \
D3_PIN_PORT->BSRR = D3_BSR_MASK(C); \
WR_L; \
D4_PIN_PORT->BSRR = D4_BSR_MASK(C); \
D5_PIN_PORT->BSRR = D5_BSR_MASK(C); \
D6_PIN_PORT->BSRR = D6_BSR_MASK(C); \
D7_PIN_PORT->BSRR = D7_BSR_MASK(C); \
WR_STB
// 16 bit write with swapped bytes
#define tft_Write_16S(C) D0_PIN_PORT->BSRR = D0_BSR_MASK(C); \
D1_PIN_PORT->BSRR = D1_BSR_MASK(C); \
D2_PIN_PORT->BSRR = D2_BSR_MASK(C); \
D3_PIN_PORT->BSRR = D3_BSR_MASK(C); \
WR_L; \
D4_PIN_PORT->BSRR = D4_BSR_MASK(C); \
D5_PIN_PORT->BSRR = D5_BSR_MASK(C); \
D6_PIN_PORT->BSRR = D6_BSR_MASK(C); \
D7_PIN_PORT->BSRR = D7_BSR_MASK(C); \
WR_STB; \
D0_PIN_PORT->BSRR = D8_BSR_MASK(C); \
D1_PIN_PORT->BSRR = D9_BSR_MASK(C); \
D2_PIN_PORT->BSRR = D10_BSR_MASK(C); \
D3_PIN_PORT->BSRR = D11_BSR_MASK(C); \
WR_L; \
D4_PIN_PORT->BSRR = D12_BSR_MASK(C); \
D5_PIN_PORT->BSRR = D13_BSR_MASK(C); \
D6_PIN_PORT->BSRR = D14_BSR_MASK(C); \
D7_PIN_PORT->BSRR = D15_BSR_MASK(C); \
WR_STB
#endif
#define tft_Write_32(C) tft_Write_16((uint16_t)((C)>>16)); tft_Write_16((uint16_t)(C))
#define tft_Write_32C(C,D) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(D))
#define tft_Write_32D(C) tft_Write_16((uint16_t)(C)); tft_Write_16((uint16_t)(C))
// Read a data bit
#define RD_TFT_D0 ((((D0_PIN_PORT->IDR) >> (D0_PIN_BIT))&1)<<0) // Read pin TFT_D0
#define RD_TFT_D1 ((((D1_PIN_PORT->IDR) >> (D1_PIN_BIT))&1)<<1) // Read pin TFT_D1
#define RD_TFT_D2 ((((D2_PIN_PORT->IDR) >> (D2_PIN_BIT))&1)<<2) // Read pin TFT_D2
#define RD_TFT_D3 ((((D3_PIN_PORT->IDR) >> (D3_PIN_BIT))&1)<<3) // Read pin TFT_D3
#define RD_TFT_D4 ((((D4_PIN_PORT->IDR) >> (D4_PIN_BIT))&1)<<4) // Read pin TFT_D4
#define RD_TFT_D5 ((((D5_PIN_PORT->IDR) >> (D5_PIN_BIT))&1)<<5) // Read pin TFT_D5
#define RD_TFT_D6 ((((D6_PIN_PORT->IDR) >> (D6_PIN_BIT))&1)<<6) // Read pin TFT_D6
#define RD_TFT_D7 ((((D7_PIN_PORT->IDR) >> (D7_PIN_BIT))&1)<<7) // Read pin TFT_D7
#endif
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Macros to write commands/pixel colour data to a SPI ILI948x TFT
////////////////////////////////////////////////////////////////////////////////////////
#elif defined (SPI_18BIT_DRIVER) // SPI 18 bit colour
// Write 8 bits to TFT
#define tft_Write_8(C) \
{ spiBuffer[0] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 1, 10); }
// Convert 16 bit colour to 18 bit and write in 3 bytes
#define tft_Write_16(C) \
{ spiBuffer[0] = ((C) & 0xF800)>>8; spiBuffer[1] = ((C) & 0x07E0)>>3; spiBuffer[2] = ((C) & 0x001F)<<3; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 3, 10); }
// Convert swapped byte 16 bit colour to 18 bit and write in 3 bytes
#define tft_Write_16S(C) \
{ spiBuffer[0] = (C) & 0xF8; spiBuffer[1] = ((C) & 0xE000)>>11 | ((C) & 0x07)<<5; spiBuffer[2] = ((C) & 0x1F00)>>5; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 3, 10); }
// Write 32 bits to TFT
#define tft_Write_32(C) \
{ spiBuffer[0] = (C)>>24; spiBuffer[1] = (C)>>16; spiBuffer[2] = (C)>>8; spiBuffer[3] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 4, 10); }
// Write two address coordinates
#define tft_Write_32C(C,D) \
{ spiBuffer[0] = (C)>>8; spiBuffer[1] = C; spiBuffer[2] = (D)>>8; spiBuffer[3] = D; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 4, 10); }
// Write same value twice
#define tft_Write_32D(C) \
{ spiBuffer[0] = spiBuffer[2] = (C)>>8; spiBuffer[1] = spiBuffer[3] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 4, 10); }
////////////////////////////////////////////////////////////////////////////////////////
// Macros to write commands/pixel colour data to a SPI Raspberry Pi TFT
////////////////////////////////////////////////////////////////////////////////////////
#elif defined (RPI_DISPLAY_TYPE)
#define tft_Write_8(C) \
{ spiBuffer[0] = 0; spiBuffer[1] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 2, 10); }
#define tft_Write_16(C) \
{ spiBuffer[0] = (C)>>8; spiBuffer[1] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 2, 10); }
#define tft_Write_16S(C) \
{ spiBuffer[0] = C; spiBuffer[1] = (C)>>8; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 2, 10); }
#define tft_Write_32(C) \
{ spiBuffer[0] = (C)>>24; spiBuffer[1] = (C)>>16; spiBuffer[2] = (C)>>8; spiBuffer[3] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 4, 10); }
#define tft_Write_32C(C,D) \
{ spiBuffer[1] = ((C)>>8); spiBuffer[3] = (C); spiBuffer[5] = ((D)>>8); spiBuffer[7] = D; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 8, 10); }
#define tft_Write_32D(C) \
{ spiBuffer[1] = ((C)>>8); spiBuffer[3] = (C); spiBuffer[5] = ((C)>>8); spiBuffer[7] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 8, 10); }
////////////////////////////////////////////////////////////////////////////////////////
// Macros for all other SPI displays
////////////////////////////////////////////////////////////////////////////////////////
#else
#if defined(ST7789_DRIVER) || defined(ST7789_2_DRIVER)
// Temporary workaround for issue #510 part 2
#define tft_Write_8(C) spi.transfer(C)
#else
#define tft_Write_8(C) \
{ spiBuffer[0] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 1, 10); delayMicroseconds(1);}
#endif
#define tft_Write_16(C) \
{ spiBuffer[0] = (C)>>8; spiBuffer[1] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 2, 10); }
#define tft_Write_16S(C) \
{ spiBuffer[0] = C; spiBuffer[1] = (C)>>8; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 2, 10); }
#define tft_Write_32(C) \
{ spiBuffer[0] = (C)>>24; spiBuffer[1] = (C)>>16; spiBuffer[2] = (C)>>8; spiBuffer[3] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 4, 10); }
#define tft_Write_32C(C,D) \
{ spiBuffer[0] = (C)>>8; spiBuffer[1] = C; spiBuffer[2] = (D)>>8; spiBuffer[3] = D; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 4, 10); }
#define tft_Write_32D(C) \
{ spiBuffer[0] = spiBuffer[2] = (C)>>8; spiBuffer[1] = spiBuffer[3] = C; \
HAL_SPI_Transmit(&spiHal, spiBuffer, 4, 10); }
#endif
#ifndef tft_Write_16N
#define tft_Write_16N tft_Write_16
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Macros to read from display using SPI or software SPI
////////////////////////////////////////////////////////////////////////////////////////
#if defined (TFT_SDA_READ)
// Macros to support a bit banged function call for STM32 and bi-directional SDA pin
#define TFT_eSPI_ENABLE_8_BIT_READ // Enable tft_Read_8();
#define SCLK_L digitalWrite(TFT_SCLK, LOW)
#define SCLK_H digitalWrite(TFT_SCLK, HIGH)
#elif !defined (TFT_PARALLEL_8_BIT)
// Use a SPI read transfer
#define tft_Read_8() spi.transfer(0)
#endif
#endif // Header end
Reference in New Issue View Git Blame Copy Permalink