/*! * @file Adafruit_SPITFT.h * * Part of Adafruit's GFX graphics library. Originally this class was * written to handle a range of color TFT displays connected via SPI, * but over time this library and some display-specific subclasses have * mutated to include some color OLEDs as well as parallel-interfaced * displays. The name's been kept for the sake of older code. * * Adafruit invests time and resources providing this open source code, * please support Adafruit and open-source hardware by purchasing * products from Adafruit! * * @section author Author * * Written by Limor "ladyada" Fried for Adafruit Industries, * with contributions from the open source community. * * @section license License * * BSD license, all text here must be included in any redistribution. */ #ifndef _ADAFRUIT_SPITFT_H_ #define _ADAFRUIT_SPITFT_H_ #if !defined(__AVR_ATtiny85__) // Not for ATtiny, at all #include #include "Adafruit_GFX.h" // HARDWARE CONFIG --------------------------------------------------------- #if defined(__AVR__) typedef uint8_t PORT_t; ///< PORT values are 8-bit #define USE_FAST_PINIO ///< Use direct PORT register access #elif defined(ARDUINO_STM32_FEATHER) // WICED typedef class HardwareSPI SPIClass; ///< SPI is a bit odd on WICED typedef uint32_t PORT_t; ///< PORT values are 32-bit #elif defined(__arm__) #if defined(ARDUINO_ARCH_SAMD) // Adafruit M0, M4 typedef uint32_t PORT_t; ///< PORT values are 32-bit #define USE_FAST_PINIO ///< Use direct PORT register access #define HAS_PORT_SET_CLR ///< PORTs have set & clear registers #elif defined(CORE_TEENSY) // PJRC Teensy 3.x typedef uint8_t PORT_t; ///< PORT values are 8-bit #define USE_FAST_PINIO ///< Use direct PORT register access #define HAS_PORT_SET_CLR ///< PORTs have set & clear registers #else // Arduino Due? typedef uint32_t PORT_t; ///< PORT values are 32-bit // USE_FAST_PINIO not available here (yet)...Due has a totally different // GPIO register set and will require some changes elsewhere (e.g. in // constructors especially). #endif #else // !ARM // Probably ESP8266 or ESP32. USE_FAST_PINIO is not available here (yet) // but don't worry about it too much...the digitalWrite() implementation // on these platforms is reasonably efficient and already RAM-resident, // only gotcha then is no parallel connection support for now. typedef uint32_t PORT_t; ///< PORT values are 32-bit #endif // end !ARM typedef volatile PORT_t* PORTreg_t; ///< PORT register type #if defined(__AVR__) #define DEFAULT_SPI_FREQ 8000000L ///< Hardware SPI default speed #else #define DEFAULT_SPI_FREQ 16000000L ///< Hardware SPI default speed #endif //#define USE_SPI_DMA ///< If set, use SPI DMA if available // Another "oops" name -- in the future parallel DMA will also be handled. // If DMA is enabled, Arduino sketch MUST #include // Estimated RAM usage: // 4 bytes/pixel on display major axis + 8 bytes/pixel on minor axis, // e.g. 320x240 pixels = 320 * 4 + 240 * 8 = 3,200 bytes. #if !defined(ARDUINO_ARCH_SAMD) #undef USE_SPI_DMA ///< DMA currently for SAMD chips only #endif #if defined(USE_SPI_DMA) #pragma message ("GFX DMA IS ENABLED. HIGHLY EXPERIMENTAL.") #include #endif // This is kind of a kludge. Needed a way to disambiguate the software SPI // and parallel constructors via their argument lists. Originally tried a // bool as the first argument to the parallel constructor (specifying 8-bit // vs 16-bit interface) but the compiler regards this as equivalent to an // integer and thus still ambiguous. SO...the parallel constructor requires // an enumerated type as the first argument: tft8 (for 8-bit parallel) or // tft16 (for 16-bit)...even though 16-bit isn't fully implemented or tested // and might never be, still needed that disambiguation from soft SPI. enum tftBusWidth { tft8, tft16 }; ///< For first arg to parallel constructor // CLASS DEFINITION -------------------------------------------------------- /*! @brief Adafruit_SPITFT is an intermediary class between Adafruit_GFX and various hardware-specific subclasses for different displays. It handles certain operations that are common to a range of displays (address window, area fills, etc.). Originally these were all color TFT displays interfaced via SPI, but it's since expanded to include color OLEDs and parallel-interfaced TFTs. THE NAME HAS BEEN KEPT TO AVOID BREAKING A LOT OF SUBCLASSES AND EXAMPLE CODE. Many of the class member functions similarly live on with names that don't necessarily accurately describe what they're doing, again to avoid breaking a lot of other code. If in doubt, read the comments. */ class Adafruit_SPITFT : public Adafruit_GFX { public: // CONSTRUCTORS -------------------------------------------------------- // Software SPI constructor: expects width & height (at default rotation // setting 0), 4 signal pins (cs, dc, mosi, sclk), 2 optional pins // (reset, miso). cs argument is required but can be -1 if unused -- // rather than moving it to the optional arguments, it was done this way // to avoid breaking existing code (-1 option was a later addition). Adafruit_SPITFT(uint16_t w, uint16_t h, int8_t cs, int8_t dc, int8_t mosi, int8_t sck, int8_t rst = -1, int8_t miso = -1); // Hardware SPI constructor using the default SPI port: expects width & // height (at default rotation setting 0), 2 signal pins (cs, dc), // optional reset pin. cs is required but can be -1 if unused -- rather // than moving it to the optional arguments, it was done this way to // avoid breaking existing code (-1 option was a later addition). Adafruit_SPITFT(uint16_t w, uint16_t h, int8_t cs, int8_t dc, int8_t rst = -1); // Hardware SPI constructor using an arbitrary SPI peripheral: expects // width & height (rotation 0), SPIClass pointer, 2 signal pins (cs, dc) // and optional reset pin. cs is required but can be -1 if unused. Adafruit_SPITFT(uint16_t w, uint16_t h, SPIClass *spiClass, int8_t cs, int8_t dc, int8_t rst = -1); // Parallel constructor: expects width & height (rotation 0), flag // indicating whether 16-bit (true) or 8-bit (false) interface, 3 signal // pins (d0, wr, dc), 3 optional pins (cs, rst, rd). 16-bit parallel // isn't even fully implemented but the 'wide' flag was added as a // required argument to avoid ambiguity with other constructors. Adafruit_SPITFT(uint16_t w, uint16_t h, tftBusWidth busWidth, int8_t d0, int8_t wr, int8_t dc, int8_t cs = -1, int8_t rst = -1, int8_t rd = -1); // CLASS MEMBER FUNCTIONS ---------------------------------------------- // These first two functions MUST be declared by subclasses: /*! @brief Display-specific initialization function. @param freq SPI frequency, in hz (or 0 for default or unused). */ virtual void begin(uint32_t freq) = 0; /*! @brief Set up the specific display hardware's "address window" for subsequent pixel-pushing operations. @param x Leftmost pixel of area to be drawn (MUST be within display bounds at current rotation setting). @param y Topmost pixel of area to be drawn (MUST be within display bounds at current rotation setting). @param w Width of area to be drawn, in pixels (MUST be >0 and, added to x, within display bounds at current rotation). @param h Height of area to be drawn, in pixels (MUST be >0 and, added to x, within display bounds at current rotation). */ virtual void setAddrWindow( uint16_t x, uint16_t y, uint16_t w, uint16_t h) = 0; // Remaining functions do not need to be declared in subclasses // unless they wish to provide hardware-specific optimizations. // Brief comments here...documented more thoroughly in .cpp file. // Subclass' begin() function invokes this to initialize hardware. // Name is outdated (interface may be parallel) but for compatibility: void initSPI(uint32_t freq = 0); // 0 = use default SPI speed // Chip select and/or hardware SPI transaction start as needed: void startWrite(void); // Chip deselect and/or hardware SPI transaction end as needed: void endWrite(void); // These functions require a chip-select and/or SPI transaction // around them. Higher-level graphics primitives might start a // single transaction and then make multiple calls to these functions // (e.g. circle or text rendering might make repeated lines or rects) // before ending the transaction. It's more efficient than starting a // transaction every time. void writePixel(int16_t x, int16_t y, uint16_t color); void writePixels(uint16_t *colors, uint32_t len); void writeColor(uint16_t color, uint32_t len); void writeFillRect(int16_t x, int16_t y, int16_t w, int16_t h, uint16_t color); void writeFastHLine(int16_t x, int16_t y, int16_t w, uint16_t color); void writeFastVLine(int16_t x, int16_t y, int16_t h, uint16_t color); // This is a new function, similar to writeFillRect() except that // all arguments MUST be onscreen, sorted and clipped. If higher-level // primitives can handle their own sorting/clipping, it avoids repeating // such operations in the low-level code, making it potentially faster. // CALLING THIS WITH UNCLIPPED OR NEGATIVE VALUES COULD BE DISASTROUS. inline void writeFillRectPreclipped(int16_t x, int16_t y, int16_t w, int16_t h, uint16_t color); // These functions are similar to the 'write' functions above, but with // a chip-select and/or SPI transaction built-in. They're typically used // solo -- that is, as graphics primitives in themselves, not invoked by // higher-level primitives (which should use the functions above). void drawPixel(int16_t x, int16_t y, uint16_t color); void fillRect(int16_t x, int16_t y, int16_t w, int16_t h, uint16_t color); void drawFastHLine(int16_t x, int16_t y, int16_t w, uint16_t color); void drawFastVLine(int16_t x, int16_t y, int16_t h, uint16_t color); // A single-pixel push encapsulated in a transaction. I don't think // this is used anymore (BMP demos might've used it?) but is provided // for backward compatibility, consider it deprecated: void pushColor(uint16_t color); using Adafruit_GFX::drawRGBBitmap; // Check base class first void drawRGBBitmap(int16_t x, int16_t y, uint16_t *pcolors, int16_t w, int16_t h); void invertDisplay(bool i); uint16_t color565(uint8_t r, uint8_t g, uint8_t b); // Despite parallel additions, function names kept for compatibility: void spiWrite(uint8_t b); // Write single byte as DATA void writeCommand(uint8_t cmd); // Write single byte as COMMAND uint8_t spiRead(void); // Read single byte of data // Most of these low-level functions were formerly macros in // Adafruit_SPITFT_Macros.h. Some have been made into inline functions // to avoid macro mishaps. Despite the addition of code for a parallel // display interface, the names have been kept for backward // compatibility (some subclasses may be invoking these): void SPI_WRITE16(uint16_t w); // Not inline void SPI_WRITE32(uint32_t l); // Not inline void SPI_WRITE_PIXELS(uint16_t *data, uint32_t bytes); // ditto // Old code had both a spiWrite16() function and SPI_WRITE16 macro // in addition to the SPI_WRITE32 macro. The latter two have been // made into functions here, and spiWrite16() removed (use SPI_WRITE16() // instead). It looks like most subclasses had gotten comfortable with // SPI_WRITE16 and SPI_WRITE32 anyway so those names were kept rather // than the less-obnoxious camelcase variants, oh well. // Placing these functions entirely in the class definition inlines // them implicitly them while allowing their use in other code: /*! @brief Set the chip-select line HIGH. Does NOT check whether CS pin is set (>=0), that should be handled in calling function. Despite function name, this is used even if the display connection is parallel. */ void SPI_CS_HIGH(void) { #if defined(USE_FAST_PINIO) #if defined(HAS_PORT_SET_CLR) #if defined(KINETISK) *csPortSet = 1; #else // !KINETISK *csPortSet = csPinMask; #endif // end !KINETISK #else // !HAS_PORT_SET_CLR *csPort |= csPinMaskSet; #endif // end !HAS_PORT_SET_CLR #else // !USE_FAST_PINIO digitalWrite(_cs, HIGH); #endif // end !USE_FAST_PINIO } /*! @brief Set the chip-select line LOW. Does NOT check whether CS pin is set (>=0), that should be handled in calling function. Despite function name, this is used even if the display connection is parallel. */ void SPI_CS_LOW(void) { #if defined(USE_FAST_PINIO) #if defined(HAS_PORT_SET_CLR) #if defined(KINETISK) *csPortClr = 1; #else // !KINETISK *csPortClr = csPinMask; #endif // end !KINETISK #else // !HAS_PORT_SET_CLR *csPort &= csPinMaskClr; #endif // end !HAS_PORT_SET_CLR #else // !USE_FAST_PINIO digitalWrite(_cs, LOW); #endif // end !USE_FAST_PINIO } /*! @brief Set the data/command line HIGH (data mode). */ void SPI_DC_HIGH(void) { #if defined(USE_FAST_PINIO) #if defined(HAS_PORT_SET_CLR) #if defined(KINETISK) *dcPortSet = 1; #else // !KINETISK *dcPortSet = dcPinMask; #endif // end !KINETISK #else // !HAS_PORT_SET_CLR *dcPort |= dcPinMaskSet; #endif // end !HAS_PORT_SET_CLR #else // !USE_FAST_PINIO digitalWrite(_dc, HIGH); #endif // end !USE_FAST_PINIO } /*! @brief Set the data/command line LOW (command mode). */ void SPI_DC_LOW(void) { #if defined(USE_FAST_PINIO) #if defined(HAS_PORT_SET_CLR) #if defined(KINETISK) *dcPortClr = 1; #else // !KINETISK *dcPortClr = dcPinMask; #endif // end !KINETISK #else // !HAS_PORT_SET_CLR *dcPort &= dcPinMaskClr; #endif // end !HAS_PORT_SET_CLR #else // !USE_FAST_PINIO digitalWrite(_dc, LOW); #endif // end !USE_FAST_PINIO } protected: // A few more low-level member functions -- some may have previously // been macros. Shouldn't have a need to access these externally, so // they've been moved to the protected section. Additionally, they're // declared inline here and the code is in the .cpp file, since outside // code doesn't need to see these. inline void SPI_MOSI_HIGH(void); inline void SPI_MOSI_LOW(void); inline void SPI_SCK_HIGH(void); inline void SPI_SCK_LOW(void); inline bool SPI_MISO_READ(void); inline void SPI_BEGIN_TRANSACTION(void); inline void SPI_END_TRANSACTION(void); inline void TFT_WR_STROBE(void); // Parallel interface write strobe inline void TFT_RD_HIGH(void); // Parallel interface read high inline void TFT_RD_LOW(void); // Parallel interface read low // CLASS INSTANCE VARIABLES -------------------------------------------- // Here be dragons! There's a big union of three structures here -- // one each for hardware SPI, software (bitbang) SPI, and parallel // interfaces. This is to save some memory, since a display's connection // will be only one of these. The order of some things is a little weird // in an attempt to get values to align and pack better in RAM. #if defined(USE_FAST_PINIO) #if defined(HAS_PORT_SET_CLR) PORTreg_t csPortSet; ///< PORT register for chip select SET PORTreg_t csPortClr; ///< PORT register for chip select CLEAR PORTreg_t dcPortSet; ///< PORT register for data/command SET PORTreg_t dcPortClr; ///< PORT register for data/command CLEAR #else // !HAS_PORT_SET_CLR PORTreg_t csPort; ///< PORT register for chip select PORTreg_t dcPort; ///< PORT register for data/command #endif // end HAS_PORT_SET_CLR #endif // end USE_FAST_PINIO #if !defined(ARDUINO_STM32_FEATHER) union { #endif struct { // Values specific to HARDWARE SPI: SPIClass *_spi; ///< SPI class pointer uint32_t _freq; SPISettings settings; } hwspi; struct { // Values specific to SOFTWARE SPI: #if defined(USE_FAST_PINIO) PORTreg_t misoPort; ///< PORT (PIN) register for MISO #if defined(HAS_PORT_SET_CLR) PORTreg_t mosiPortSet; ///< PORT register for MOSI SET PORTreg_t mosiPortClr; ///< PORT register for MOSI CLEAR PORTreg_t sckPortSet; ///< PORT register for SCK SET PORTreg_t sckPortClr; ///< PORT register for SCK CLEAR #if !defined(KINETISK) PORT_t mosiPinMask; ///< Bitmask for MOSI PORT_t sckPinMask; ///< Bitmask for SCK #endif // end !KINETISK #else // !HAS_PORT_SET_CLR PORTreg_t mosiPort; ///< PORT register for MOSI PORTreg_t sckPort; ///< PORT register for SCK PORT_t mosiPinMaskSet; ///< Bitmask for MOSI SET (OR) PORT_t mosiPinMaskClr; ///< Bitmask for MOSI CLEAR (AND) PORT_t sckPinMaskSet; ///< Bitmask for SCK SET (OR bitmask) PORT_t sckPinMaskClr; ///< Bitmask for SCK CLEAR (AND) #endif // end HAS_PORT_SET_CLR #if !defined(KINETISK) PORT_t misoPinMask; ///< Bitmask for MISO #endif // end !KINETISK #endif // end USE_FAST_PINIO int8_t _mosi; ///< MOSI pin # int8_t _miso; ///< MISO pin # int8_t _sck; ///< SCK pin # } swspi; struct { // Values specific to 8-bit parallel: #if defined(USE_FAST_PINIO) volatile uint8_t *writePort; ///< PORT register for DATA WRITE volatile uint8_t *readPort; ///< PORT (PIN) register for DATA READ #if defined(HAS_PORT_SET_CLR) // Port direction register pointers are always 8-bit regardless of // PORTreg_t -- even if 32-bit port, we modify a byte-aligned 8 bits. volatile uint8_t *dirSet; ///< PORT byte data direction SET volatile uint8_t *dirClr; ///< PORT byte data direction CLEAR PORTreg_t wrPortSet; ///< PORT register for write strobe SET PORTreg_t wrPortClr; ///< PORT register for write strobe CLEAR PORTreg_t rdPortSet; ///< PORT register for read strobe SET PORTreg_t rdPortClr; ///< PORT register for read strobe CLEAR #if !defined(KINETISK) PORT_t wrPinMask; ///< Bitmask for write strobe #endif // end !KINETISK PORT_t rdPinMask; ///< Bitmask for read strobe #else // !HAS_PORT_SET_CLR // Port direction register pointer is always 8-bit regardless of // PORTreg_t -- even if 32-bit port, we modify a byte-aligned 8 bits. volatile uint8_t *portDir; ///< PORT direction register PORTreg_t wrPort; ///< PORT register for write strobe PORTreg_t rdPort; ///< PORT register for read strobe PORT_t wrPinMaskSet; ///< Bitmask for write strobe SET (OR) PORT_t wrPinMaskClr; ///< Bitmask for write strobe CLEAR (AND) PORT_t rdPinMaskSet; ///< Bitmask for read strobe SET (OR) PORT_t rdPinMaskClr; ///< Bitmask for read strobe CLEAR (AND) #endif // end HAS_PORT_SET_CLR #endif // end USE_FAST_PINIO int8_t _d0; ///< Data pin 0 # int8_t _wr; ///< Write strobe pin # int8_t _rd; ///< Read strobe pin # (or -1) bool wide = 0; ///< If true, is 16-bit interface } tft8; #if !defined(ARDUINO_STM32_FEATHER) }; #endif #if defined(USE_SPI_DMA) // Used by hardware SPI and tft8 Adafruit_ZeroDMA dma; ///< DMA instance DmacDescriptor *dptr = NULL; ///< 1st descriptor DmacDescriptor *descriptor = NULL; ///< Allocated descriptor list uint16_t *pixelBuf[2]; ///< Working buffers uint16_t maxFillLen; ///< Max pixels per DMA xfer uint16_t lastFillColor = 0; ///< Last color used w/fill uint32_t lastFillLen = 0; ///< # of pixels w/last fill uint8_t onePixelBuf; ///< For hi==lo fill #endif #if defined(USE_FAST_PINIO) #if defined(HAS_PORT_SET_CLR) #if !defined(KINETISK) PORT_t csPinMask; ///< Bitmask for chip select PORT_t dcPinMask; ///< Bitmask for data/command #endif // end !KINETISK #else // !HAS_PORT_SET_CLR PORT_t csPinMaskSet; ///< Bitmask for chip select SET (OR) PORT_t csPinMaskClr; ///< Bitmask for chip select CLEAR (AND) PORT_t dcPinMaskSet; ///< Bitmask for data/command SET (OR) PORT_t dcPinMaskClr; ///< Bitmask for data/command CLEAR (AND) #endif // end HAS_PORT_SET_CLR #endif // end USE_FAST_PINIO uint8_t connection; ///< TFT_HARD_SPI, TFT_SOFT_SPI, etc. int8_t _rst; ///< Reset pin # (or -1) int8_t _cs; ///< Chip select pin # (or -1) int8_t _dc; ///< Data/command pin # int16_t _xstart = 0; ///< Internal framebuffer X offset int16_t _ystart = 0; ///< Internal framebuffer Y offset uint8_t invertOnCommand = 0; ///< Command to enable invert mode uint8_t invertOffCommand = 0; ///< Command to disable invert mode uint32_t _freq = 0; ///< Dummy var to keep subclasses happy }; #endif // end __AVR_ATtiny85__ #endif // end _ADAFRUIT_SPITFT_H_