NerdNos-Firmware/lib/TFT_eSPI/Processors/TFT_eSPI_Generic.h

189 lines
7.3 KiB
C
Raw Normal View History

////////////////////////////////////////////////////
// TFT_eSPI generic driver functions //
////////////////////////////////////////////////////
// This is a generic driver for Arduino boards, it supports SPI interface displays
// 8 bit parallel interface to TFT is not supported for generic processors
#ifndef _TFT_eSPI_GENERICH_
#define _TFT_eSPI_GENERICH_
// Processor ID reported by getSetup()
#define PROCESSOR_ID 0x0000
// Include processor specific header
// None
// 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
// Code to check if DMA is busy, used by SPI bus transaction startWrite and endWrite functions
#define DMA_BUSY_CHECK // Not used so leave blank
// To be safe, SUPPORT_TRANSACTIONS is assumed mandatory
#if !defined (SUPPORT_TRANSACTIONS)
#define SUPPORT_TRANSACTIONS
#endif
// Initialise processor specific SPI functions, used by init()
#define INIT_TFT_DATA_BUS
// 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
//#define FS_NO_GLOBALS
//#include <FS.h>
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Define the DC (TFT Data/Command or Register Select (RS))pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#ifndef TFT_DC
#define DC_C // No macro allocated so it generates no code
#define DC_D // No macro allocated so it generates no code
#else
#define DC_C digitalWrite(TFT_DC, LOW)
#define DC_D digitalWrite(TFT_DC, HIGH)
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Define the CS (TFT chip select) pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#ifndef TFT_CS
#define CS_L // No macro allocated so it generates no code
#define CS_H // No macro allocated so it generates no code
#else
#define CS_L digitalWrite(TFT_CS, LOW)
#define CS_H digitalWrite(TFT_CS, HIGH)
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Make sure TFT_RD is defined if not used to avoid an error message
////////////////////////////////////////////////////////////////////////////////////////
#ifndef TFT_RD
#define TFT_RD -1
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Define the WR (TFT Write) pin drive code
////////////////////////////////////////////////////////////////////////////////////////
#ifdef TFT_WR
#define WR_L digitalWrite(TFT_WR, LOW)
#define WR_H digitalWrite(TFT_WR, HIGH)
#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
#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
////////////////////////////////////////////////////////////////////////////////////////
#ifndef TFT_MISO
#define TFT_MISO -1
#endif
////////////////////////////////////////////////////////////////////////////////////////
// Macros to write commands/pixel colour data to a SPI ILI948x TFT
////////////////////////////////////////////////////////////////////////////////////////
#if defined (SPI_18BIT_DRIVER) // SPI 18 bit colour
// Write 8 bits to TFT
#define tft_Write_8(C) spi.transfer(C)
// Convert 16 bit colour to 18 bit and write in 3 bytes
#define tft_Write_16(C) spi.transfer(((C) & 0xF800)>>8); \
spi.transfer(((C) & 0x07E0)>>3); \
spi.transfer(((C) & 0x001F)<<3)
// Convert swapped byte 16 bit colour to 18 bit and write in 3 bytes
#define tft_Write_16S(C) spi.transfer((C) & 0xF8); \
spi.transfer(((C) & 0xE000)>>11 | ((C) & 0x07)<<5); \
spi.transfer(((C) & 0x1F00)>>5)
// Write 32 bits to TFT
#define tft_Write_32(C) spi.transfer16((C)>>16); spi.transfer16((uint16_t)(C))
// Write two address coordinates
#define tft_Write_32C(C,D) spi.transfer16(C); spi.transfer16(D)
// Write same value twice
#define tft_Write_32D(C) spi.transfer16(C); spi.transfer16(C)
////////////////////////////////////////////////////////////////////////////////////////
// Macros to write commands/pixel colour data to other displays
////////////////////////////////////////////////////////////////////////////////////////
#else
#if defined (RPI_DISPLAY_TYPE) // RPi TFT type always needs 16 bit transfers
#define tft_Write_8(C) spi.transfer(C); spi.transfer(C)
#define tft_Write_16(C) spi.transfer((uint8_t)((C)>>8));spi.transfer((uint8_t)((C)>>0))
#define tft_Write_16S(C) spi.transfer((uint8_t)((C)>>0));spi.transfer((uint8_t)((C)>>8))
#define tft_Write_32(C) \
tft_Write_16((uint16_t) ((C)>>16)); \
tft_Write_16((uint16_t) ((C)>>0))
#define tft_Write_32C(C,D) \
spi.transfer(0); spi.transfer((C)>>8); \
spi.transfer(0); spi.transfer((C)>>0); \
spi.transfer(0); spi.transfer((D)>>8); \
spi.transfer(0); spi.transfer((D)>>0)
#define tft_Write_32D(C) \
spi.transfer(0); spi.transfer((C)>>8); \
spi.transfer(0); spi.transfer((C)>>0); \
spi.transfer(0); spi.transfer((C)>>8); \
spi.transfer(0); spi.transfer((C)>>0)
#else
#ifdef __AVR__ // AVR processors do not have 16 bit transfer
#define tft_Write_8(C) {SPDR=(C); while (!(SPSR&_BV(SPIF)));}
#define tft_Write_16(C) tft_Write_8((uint8_t)((C)>>8));tft_Write_8((uint8_t)((C)>>0))
#define tft_Write_16S(C) tft_Write_8((uint8_t)((C)>>0));tft_Write_8((uint8_t)((C)>>8))
#else
#define tft_Write_8(C) spi.transfer(C)
#define tft_Write_16(C) spi.transfer16(C)
#define tft_Write_16S(C) spi.transfer16(((C)>>8) | ((C)<<8))
#endif // AVR
#define tft_Write_32(C) \
tft_Write_16((uint16_t) ((C)>>16)); \
tft_Write_16((uint16_t) ((C)>>0))
#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))
#endif // RPI_DISPLAY_TYPE
#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)
// Use a bit banged function call for STM32 and bi-directional SDA pin
#define TFT_eSPI_ENABLE_8_BIT_READ // Enable tft_Read_8(void);
#define SCLK_L digitalWrite(TFT_SCLK, LOW)
#define SCLK_H digitalWrite(TFT_SCLK, LOW)
#else
// Use a SPI read transfer
#define tft_Read_8() spi.transfer(0)
#endif
#endif // Header end