Mercurial > hp34970-firmware / file revision
lib/unigraphic/SSD1322.cpp@424d792fea4f
lib/unigraphic/SSD1322.cpp
Fri, 16 Oct 2020 22:08:47 +0200
- author
- David Douard <david.douard@sdfa3.org>
- date
- Fri, 16 Oct 2020 22:08:47 +0200
- changeset 28
- 424d792fea4f
- parent 26
- 86f099bda525
- child 40
- 069bbd5ee3e4
- permissions
- -rw-r--r--
compile for nucleo f446re & f303re with mbed 6
/* mbed UniGraphic library - Device specific class * Copyright (c) 2015 Peter Drescher * Released under the MIT License: http://mbed.org/license/mit */ #include "platform.h" #include "SSD1322.h" ////////////////////////////////////////////////////////////////////////////////// // display settings /////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////// #define IC_X_SEGS 480 // SSD1322 SEG has range 0-479 (479-0 if MX=1), check your datasheet, important for the orientation #define IC_Y_COMS 128 // SSD1322 COM has range 0-127 (127-0 if MY=1), check your datasheet, important for the orientation #define BPP 4 // SSD1322 has 16 gray levels #define SSD1322_CMD_ENABLE_GRAY_SCALE_TABLE 0x00 #define SSD1322_CMD_SET_COLUMN_ADDR 0x15 #define SSD1322_CMD_WRITE_RAM 0x5C #define SSD1322_CMD_READ_RAM 0x5D #define SSD1322_CMD_SET_ROW_ADDR 0x75 #define SSD1322_CMD_SET_REMAP 0xA0 #define SSD1322_CMD_SET_DISPLAY_START_LINE 0xA1 #define SSD1322_CMD_SET_DISPLAY_OFFSET 0xA2 #define SSD1322_CMD_SET_DISPLAY_MODE_OFF 0xA4 #define SSD1322_CMD_SET_DISPLAY_MODE_ON 0xA5 #define SSD1322_CMD_SET_DISPLAY_MODE_NORMAL 0xA6 #define SSD1322_CMD_SET_DISPLAY_MODE_INVERSE 0xA7 #define SSD1322_CMD_ENABLE_PARTIAL_DISPLAY 0xA8 #define SSD1322_CMD_EXIT_PARTIAL_DISPLAY 0xA9 #define SSD1322_CMD_SET_FUNCTION_SELECTION 0xAB #define SSD1322_CMD_SET_DISPLAY_OFF 0xAE #define SSD1322_CMD_SET_DISPLAY_ON 0xAF #define SSD1322_CMD_SET_PHASE_LENGTH 0xB1 #define SSD1322_CMD_SET_CLOCK_DIVIDER 0xB3 #define SSD1322_CMD_DISPLAY_ENHANCEMENT 0xB4 #define SSD1322_CMD_SET_GPIO 0xB5 #define SSD1322_CMD_SET_SECOND_PRECHARGE_PERIOD 0xB6 #define SSD1322_CMD_SET_GRAY_SCALE_TABLE 0xB8 #define SSD1322_CMD_SET_DEFAULT_LINEAR_GRAY_SCALE_TABLE 0xB9 #define SSD1322_CMD_SET_PRECHARGE_VOLTAGE 0xBB #define SSD1322_CMD_SET_VCOMH_VOLTAGE 0xBE #define SSD1322_CMD_SET_CONTRAST_CURRENT 0xC1 #define SSD1322_CMD_MASTER_CURRENT_CONTROL 0xC7 #define SSD1322_CMD_SET_MULTIPLEX_RATIO 0xCA #define SSD1322_CMD_DISPLAY_ENHANCEMENT_B 0xD1 #define SSD1322_CMD_SET_COMMAND_LOCK 0xFD // set for some OLED displays //#define ALTERNATE_OLED_VERSION static const uint8_t oledInit[] = { SSD1322_CMD_SET_COMMAND_LOCK, 1, 0x12, /* Unlock OLED driver IC*/ SSD1322_CMD_SET_DISPLAY_OFF, 0, SSD1322_CMD_SET_CLOCK_DIVIDER, 1, 0x91,//0xF0, //max freq, was 0x91, SSD1322_CMD_SET_MULTIPLEX_RATIO, 1, 0x3F, /*duty = 1/64*,64 COMS are enabled*/ SSD1322_CMD_SET_DISPLAY_OFFSET, 1, 0x00, SSD1322_CMD_SET_DISPLAY_START_LINE, 1, 0x00, /*set start line position*/ SSD1322_CMD_SET_REMAP, 2, 0x14, // Horizontal address increment, // Disable Column Address Re-map, // Enable Nibble Re-map,Scan from COM[N-1] to COM0, // Disable COM Split Odd Even 0x11, // Enable Dual COM mode SSD1322_CMD_SET_GPIO, 1, 0x00, SSD1322_CMD_SET_FUNCTION_SELECTION, 1, 0x01, /* selection external VDD */ SSD1322_CMD_DISPLAY_ENHANCEMENT, 2, 0xA0, /* enables the external VSL*/ 0xfd, /* 0xfd,Enhanced low GS display quality;default is 0xb5(normal),*/ SSD1322_CMD_SET_CONTRAST_CURRENT, 1, 0xff, /* default is 0x7f*/ SSD1322_CMD_MASTER_CURRENT_CONTROL, 1, 0x0f, /* writeCommand(0xB9); GRAY TABLE,linear Gray Scale*/ SSD1322_CMD_SET_PHASE_LENGTH, 1, 0xE2, /*default is 0x74*/ SSD1322_CMD_DISPLAY_ENHANCEMENT_B, 2, 0x82, 0x20, #ifdef ALTERNATE_OLED_VERSION SSD1322_CMD_SET_PRECHARGE_VOLTAGE, 1, 0x08, /* 0.3xVcc */ SSD1322_CMD_SET_SECOND_PRECHARGE_PERIOD, 1, 0x0F, /* 15 clocks */ #else SSD1322_CMD_SET_PRECHARGE_VOLTAGE, 1, 0x1F, /* 0.6xVcc */ SSD1322_CMD_SET_SECOND_PRECHARGE_PERIOD, 1, 0x08, /* default */ #endif SSD1322_CMD_SET_VCOMH_VOLTAGE, 1, 0x07, /*0.86xVcc;default is 0x04*/ SSD1322_CMD_SET_DISPLAY_MODE_NORMAL, 0, SSD1322_CMD_SET_DISPLAY_ON, 0 }; //////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////// //#include "mbed_debug.h" #define SWAP(a, b) { a ^= b; b ^= a; a ^= b; } SSD1322::SSD1322(int Hz, PinName mosi, PinName miso, PinName sclk, PinName CS, PinName reset, PinName DC, const char *name) : GraphicsDisplay(name), screensize_X(DISPLAY_WIDTH), screensize_Y(DISPLAY_HEIGHT), _BPP(BPP), _PAGES(DISPLAY_HEIGHT/8*BPP), _IC_X_SEGS(IC_X_SEGS), _IC_Y_COMS(IC_Y_COMS), _IC_PAGES(IC_Y_COMS/8*BPP), _spi(mosi, miso, sclk), _DC(DC), _CS(CS), _RST(reset) { _RST = 1; _DC = 1; _CS = 1; _spi.format(8, 0); // 8 bit spi mode 0 _spi.frequency(Hz); set_auto_up(false); foreground(0xFFFF); background(0x0000); hw_reset(); init(); set_orientation(1); cls(); locate(0,0); //_internalEventCallback.attach(this, &SSD1322::_cbHandler); } void SSD1322::wr_cmd8(unsigned char cmd) { _CS = 0; _DC.write(0); // 0=cmd _spi.write(cmd); // write 8bit _DC.write(1); // 1=data next _CS = 1; } void SSD1322::wr_data8(unsigned char data) { _CS = 0; _spi.write(data); // write 8bit _CS = 1; } void SSD1322::hw_reset() { ThisThread::sleep_for(15); _DC = 1; _CS = 1; _RST = 0; // display reset ThisThread::sleep_for(2); _RST = 1; // end reset ThisThread::sleep_for(100); } void SSD1322::bus_enable(bool enable) { _CS = enable ? 0:1; } // monochrome SSD1322 driver ICs does not have ram rotate in hw (swap raw<->columns) like TFT displays // for portrait views, XY swap will be done in sw in pixel() function void SSD1322::set_orientation(int o) { orientation = o; if (o & 0x01) { set_width(screensize_X); set_height(screensize_Y); } else { set_width(screensize_Y); set_height(screensize_X); } switch (o) { case (0):// portrait view -90° mirrorXY(Y); break; case (1): // default, landscape view 0° mirrorXY(NONE); break; case (2):// portrait view +90° mirrorXY(X); break; case (3):// landscape view +180° mirrorXY(XY); break; } } void SSD1322::mirrorXY(mirror_t mode) { // Horizontal address increment, // Disable Column Address Re-map, // Enable Nibble Re-map,Scan from COM[N-1] to COM0, // Disable COM Split Odd Even // Enable Dual COM mode unsigned char d; switch (mode) { case(NONE): d = 0x14; break; case(X): d = 0x10; break; case(Y): d = 0x16; break; case(XY): d = 0x12; break; } wr_cmd8(SSD1322_CMD_SET_REMAP); wr_data8(d); wr_data8(0x11); } void SSD1322::invert(unsigned char o) { if(o == 0) wr_cmd8(SSD1322_CMD_SET_DISPLAY_MODE_NORMAL); else wr_cmd8(SSD1322_CMD_SET_DISPLAY_MODE_INVERSE); } void SSD1322::set_contrast(int o) { contrast = o; wr_cmd8(SSD1322_CMD_SET_CONTRAST_CURRENT); wr_data8(o&0xFF); } int SSD1322::get_contrast(void) { return(contrast); } void SSD1322::window(int x, int y, int w, int h) { // current pixel location cur_x = x; cur_y = y; // window settings win_x1 = x; win_x2 = x + w - 1; win_y1 = y; win_y2 = y + h - 1; } void SSD1322::window_pushpixel(unsigned short color) { pixel(cur_x, cur_y, color); cur_x++; if(cur_x > win_x2) { cur_x = win_x1; cur_y++; if(cur_y > win_y2) { cur_y = win_y1; } } } void SSD1322::window_pushpixel(unsigned short color, unsigned int count) { while(count) { pixel(cur_x, cur_y, color); cur_x++; if(cur_x > win_x2) { cur_x = win_x1; cur_y++; if(cur_y > win_y2) { cur_y = win_y1; } } count--; } } void SSD1322::window_pushpixelbuf(unsigned short* color, unsigned int lenght) { while(lenght) { pixel(cur_x, cur_y, *color++); cur_x++; if(cur_x > win_x2) { cur_x = win_x1; cur_y++; if(cur_y > win_y2) { cur_y = win_y1; } } lenght--; } } unsigned short SSD1322::pixelpos(int x, int y) { if(!(orientation&1)) SWAP(x,y); // first check parameter if((x >= screensize_X) || (y >= screensize_Y)) return 0; unsigned short page = y * _BPP / 8; return (x + page*screensize_X); } void SSD1322::pixel(int x, int y, unsigned short color) { if(!(orientation&1)) SWAP(x,y); // first check parameter if((x >= screensize_X) || (y >= screensize_Y)) return; /* unsigned short page = y * _BPP / 8; unsigned char pos = y & ((8 / _BPP) - 1); // position in page unsigned char mask = (( 1 << _BPP) - 1); buffer[(x + page*screensize_X)] = (buffer[(x + page*screensize_X)] & ~(mask<<(pos*_BPP))) | ((color&mask)<<(pos*_BPP)); */ unsigned char cval = _pixelBuffer[(y*128) + x/2]; if (x&1) { cval = (cval & 0xF0) | (color & 0x0F); } else { cval = (cval & 0x0F) | (color & 0x0F)<<4; } _pixelBuffer[(y*128) + x/2] = cval; } unsigned short SSD1322::pixelread(int x, int y) { if(!(orientation&1)) SWAP(x,y); // first check parameter if((x >= screensize_X) || (y >= screensize_Y)) return 0; unsigned short page = y * _BPP / 8; unsigned char pos = y & ((8 / _BPP) - 1); // position in page unsigned char mask = (( 1 << _BPP) - 1); //FAUX return (_pixelBuffer[(x + page*screensize_X)]); // = (_pixelBuffer[(x + page*screensize_X)] & ~(mask<<(pos*_BPP))) | ((color&mask)<<(pos*_BPP)); } // Set row address 0~64 void SSD1322::set_row_address(unsigned char start_row, unsigned char end_row) { wr_cmd8(SSD1322_CMD_SET_ROW_ADDR); start_row &= 0x3F; wr_data8(start_row); end_row &= 0x3F; wr_data8(end_row); } // Set col address 0~64 for Gray mode) void SSD1322::set_column_address(unsigned char start_col, unsigned char end_col) { wr_cmd8(SSD1322_CMD_SET_COLUMN_ADDR); start_col = (start_col & 0x3F) + 0x1C; wr_data8(start_col); // where does this 0x1C (28) comes from??? end_col = (end_col & 0x3F) + 0x1C; wr_data8(end_col); } void SSD1322::copy_to_lcd(void) { unsigned int x, y; unsigned int i; set_row_address(0); set_column_address(0); memcpy((void*)_trBuffer, (const void*)_pixelBuffer, DISPLAY_BUFFER_ELEMENTS * sizeof(DISPLAY_BUFFER_TYPE)); wr_cmd8(SSD1322_CMD_WRITE_RAM); #ifdef DEVICE_SPI_ASYNCH _CS = 0; _spi.transfer((uint8_t*) _trBuffer, 64*128, (uint8_t*) NULL, 0, _spiEventCb); #else i = 0; for(y=0; y<64; y++) for(x=0; x<128; x++) wr_data8(_trBuffer[i++]); #endif } void SSD1322::copy_to_lcd(unsigned char from_col, unsigned char to_col, unsigned char from_row, unsigned char to_row) { unsigned int x, y; if (to_col>0x3F) to_col = 0x3F; if (to_row>0x3F) to_row = 0x3F; memcpy((void*)_trBuffer, (const void*)_pixelBuffer, DISPLAY_BUFFER_ELEMENTS * sizeof(DISPLAY_BUFFER_TYPE)); set_row_address(from_row, to_row); set_column_address(from_col, to_col); wr_cmd8(SSD1322_CMD_WRITE_RAM); for(y=from_row; y<=to_row; y++) { for(x=from_col; x<=to_col; x++) { wr_data8(_trBuffer[y*128 + 2*x]); wr_data8(_trBuffer[y*128 + 2*x + 1]); } } } unsigned long SSD1322::buffaddr(unsigned int i) { return (unsigned long) &(_pixelBuffer[i]); } void SSD1322::clrbuff(const unsigned char value) { memset((void*)_pixelBuffer, value, screensize_X*_PAGES); } void SSD1322::fills(const unsigned char value) { clrbuff(value); copy_to_lcd(); } void SSD1322::cls(void) { clrbuff(); copy_to_lcd(); } // reset and init the lcd controller void SSD1322::init() { /* Start Initial Sequence ----------------------------------------------------*/ for (uint16_t ind=0; ind < sizeof(oledInit); ) { wr_cmd8(oledInit[ind++]); uint8_t dataSize = oledInit[ind++]; while (dataSize--) { wr_data8(oledInit[ind++]); } } }
