Steffen Arntz / TFTLCD

This is a port of Henning Kralsen's UTFT library for Arduino/chipKIT to mbed, refactored to make full use of C inheritance and access control, in order to reduce work when implementing new drivers and at the same time make the code more readable and easier to maintain. As of now supported are SSD1289 (16-bit interface), HX8340-B (serial interface) and ST7735 (serial interface). Drivers for other controllers will be added as time and resources to acquire the displays to test the code permit.

Dependents:   UTFT_SSD1289

Fork of TFTLCD by Todor Todorov

ssd1289.cpp@10:69571adcfad5, 2012-12-11 (annotated)

Committer:
ttodorov
Date:
Tue Dec 11 03:18:43 2012 +0000
Revision:
10:69571adcfad5
Parent:
4:3ac4239f6c9c
Child:
12:d0978272a340
- preliminary support for using 18-bit colors

Who changed what in which revision?

UserRevisionLine numberNew contents of line
ttodorov 0:881ff0b71102 1 /*
ttodorov 0:881ff0b71102 2 * Copyright (C)2010-2012 Henning Karlsen. All right reserved.
ttodorov 0:881ff0b71102 3 * Copyright (C)2012 Todor Todorov.
ttodorov 0:881ff0b71102 4 *
ttodorov 0:881ff0b71102 5 * This library is free software; you can redistribute it and/or
ttodorov 0:881ff0b71102 6 * modify it under the terms of the GNU Lesser General Public
ttodorov 0:881ff0b71102 7 * License as published by the Free Software Foundation; either
ttodorov 0:881ff0b71102 8 * version 2.1 of the License, or (at your option) any later version.
ttodorov 0:881ff0b71102 9 *
ttodorov 0:881ff0b71102 10 * This library is distributed in the hope that it will be useful,
ttodorov 0:881ff0b71102 11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
ttodorov 0:881ff0b71102 12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
ttodorov 0:881ff0b71102 13 * Lesser General Public License for more details.
ttodorov 0:881ff0b71102 14 *
ttodorov 0:881ff0b71102 15 * You should have received a copy of the GNU Lesser General Public
ttodorov 0:881ff0b71102 16 * License along with this library; if not, write to:
ttodorov 0:881ff0b71102 17 *
ttodorov 0:881ff0b71102 18 * Free Software Foundation, Inc.
ttodorov 0:881ff0b71102 19 * 51 Franklin St, 5th Floor, Boston, MA 02110-1301, USA
ttodorov 0:881ff0b71102 20 *
ttodorov 0:881ff0b71102 21 *********************************************************************/
ttodorov 3:64a5b67d5b51 22 #include "ssd1289.h"
ttodorov 3:64a5b67d5b51 23 #include "helpers.h"
ttodorov 0:881ff0b71102 24
ttodorov 4:3ac4239f6c9c 25 SSD1289_LCD::SSD1289_LCD( PinName CS, PinName RESET, PinName RS, PinName WR, BusOut* DATA_PORT, PinName BL, PinName RD )
ttodorov 4:3ac4239f6c9c 26 : LCD( 240, 320, CS, RS, RESET ), _lcd_pin_wr( WR )
ttodorov 0:881ff0b71102 27 {
ttodorov 0:881ff0b71102 28 _lcd_port = DATA_PORT;
ttodorov 4:3ac4239f6c9c 29 if ( BL != NC ) _lcd_pin_bl = new DigitalOut( BL );
ttodorov 4:3ac4239f6c9c 30 else _lcd_pin_bl = 0;
ttodorov 4:3ac4239f6c9c 31 if ( RD != NC ) _lcd_pin_rd = new DigitalOut( RD );
ttodorov 4:3ac4239f6c9c 32 else _lcd_pin_rd = 0;
ttodorov 0:881ff0b71102 33 }
ttodorov 0:881ff0b71102 34
ttodorov 4:3ac4239f6c9c 35 void SSD1289_LCD::Initialize( orientation_t orientation )
ttodorov 0:881ff0b71102 36 {
ttodorov 0:881ff0b71102 37 _orientation = orientation;
ttodorov 0:881ff0b71102 38
ttodorov 0:881ff0b71102 39 _lcd_pin_reset = HIGH;
ttodorov 0:881ff0b71102 40 wait_ms( 5 );
ttodorov 0:881ff0b71102 41 _lcd_pin_reset = LOW;
ttodorov 0:881ff0b71102 42 wait_ms( 15 );
ttodorov 0:881ff0b71102 43 _lcd_pin_reset = HIGH;
ttodorov 0:881ff0b71102 44 _lcd_pin_cs = HIGH;
ttodorov 4:3ac4239f6c9c 45 if ( _lcd_pin_bl != 0 )
ttodorov 4:3ac4239f6c9c 46 *_lcd_pin_bl = HIGH;
ttodorov 0:881ff0b71102 47 if ( _lcd_pin_rd != 0 )
ttodorov 0:881ff0b71102 48 *_lcd_pin_rd = HIGH;
ttodorov 0:881ff0b71102 49 _lcd_pin_wr = HIGH;
ttodorov 0:881ff0b71102 50 wait_ms( 15 );
ttodorov 0:881ff0b71102 51
ttodorov 4:3ac4239f6c9c 52 Activate();
ttodorov 2:81ed304b7e9b 53 WriteCmdData( 0x00, 0x0001 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 54 WriteCmdData( 0x03, 0xA8A4 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 55 WriteCmdData( 0x0C, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 56 WriteCmdData( 0x0D, 0x080C ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 57 WriteCmdData( 0x0E, 0x2B00 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 58 WriteCmdData( 0x1E, 0x00B7 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 59 WriteCmdData( 0x01, 0x2B3F ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 60 WriteCmdData( 0x02, 0x0600 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 61 WriteCmdData( 0x10, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 62 WriteCmdData( 0x11, 0x6070 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 63 WriteCmdData( 0x05, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 64 WriteCmdData( 0x06, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 65 WriteCmdData( 0x16, 0xEF1C ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 66 WriteCmdData( 0x17, 0x0003 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 67 WriteCmdData( 0x07, 0x0233 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 68 WriteCmdData( 0x0B, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 69 WriteCmdData( 0x0F, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 70 WriteCmdData( 0x41, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 71 WriteCmdData( 0x42, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 72 WriteCmdData( 0x48, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 73 WriteCmdData( 0x49, 0x013F ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 74 WriteCmdData( 0x4A, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 75 WriteCmdData( 0x4B, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 76 WriteCmdData( 0x44, 0xEF00 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 77 WriteCmdData( 0x45, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 78 WriteCmdData( 0x46, 0x013F ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 79 WriteCmdData( 0x30, 0x0707 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 80 WriteCmdData( 0x31, 0x0204 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 81 WriteCmdData( 0x32, 0x0204 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 82 WriteCmdData( 0x33, 0x0502 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 83 WriteCmdData( 0x34, 0x0507 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 84 WriteCmdData( 0x35, 0x0204 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 85 WriteCmdData( 0x36, 0x0204 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 86 WriteCmdData( 0x37, 0x0502 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 87 WriteCmdData( 0x3A, 0x0302 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 88 WriteCmdData( 0x3B, 0x0302 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 89 WriteCmdData( 0x23, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 90 WriteCmdData( 0x24, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 91 WriteCmdData( 0x25, 0x8000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 92 WriteCmdData( 0x4f, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 93 WriteCmdData( 0x4e, 0x0000 ); wait_ms( 1 );
ttodorov 2:81ed304b7e9b 94 WriteCmd( 0x22 );
ttodorov 4:3ac4239f6c9c 95 Deactivate();
ttodorov 0:881ff0b71102 96 }
ttodorov 0:881ff0b71102 97
ttodorov 4:3ac4239f6c9c 98 void SSD1289_LCD::Sleep( void )
ttodorov 0:881ff0b71102 99 {
ttodorov 4:3ac4239f6c9c 100 // TODO: figure out if the SSD1289 controller has sleep and wakeup commands
ttodorov 4:3ac4239f6c9c 101 if ( _lcd_pin_bl != 0 )
ttodorov 4:3ac4239f6c9c 102 *_lcd_pin_bl = LOW;
ttodorov 0:881ff0b71102 103 }
ttodorov 0:881ff0b71102 104
ttodorov 4:3ac4239f6c9c 105 void SSD1289_LCD::WakeUp( void )
ttodorov 4:3ac4239f6c9c 106 {
ttodorov 4:3ac4239f6c9c 107 // TODO: figure out if the SSD1289 controller has sleep and wakeup commands
ttodorov 4:3ac4239f6c9c 108 if ( _lcd_pin_bl != 0 )
ttodorov 4:3ac4239f6c9c 109 *_lcd_pin_bl = HIGH;
ttodorov 4:3ac4239f6c9c 110 }
ttodorov 4:3ac4239f6c9c 111
ttodorov 4:3ac4239f6c9c 112 void SSD1289_LCD::WriteCmd( unsigned short cmd )
ttodorov 4:3ac4239f6c9c 113 {
ttodorov 4:3ac4239f6c9c 114 _lcd_pin_rs = LOW;
ttodorov 4:3ac4239f6c9c 115 _lcd_port->write( cmd );
ttodorov 4:3ac4239f6c9c 116 pulseLow( _lcd_pin_wr );
ttodorov 4:3ac4239f6c9c 117 }
ttodorov 4:3ac4239f6c9c 118
ttodorov 4:3ac4239f6c9c 119 void SSD1289_LCD::WriteData( unsigned short data )
ttodorov 0:881ff0b71102 120 {
ttodorov 0:881ff0b71102 121 _lcd_pin_rs = HIGH;
ttodorov 0:881ff0b71102 122 _lcd_port->write( data );
ttodorov 0:881ff0b71102 123 pulseLow( _lcd_pin_wr );
ttodorov 0:881ff0b71102 124 }
ttodorov 0:881ff0b71102 125
ttodorov 4:3ac4239f6c9c 126 void SSD1289_LCD::SetXY( uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2 )
ttodorov 0:881ff0b71102 127 {
ttodorov 0:881ff0b71102 128 if ( _orientation == LANDSCAPE )
ttodorov 0:881ff0b71102 129 {
ttodorov 0:881ff0b71102 130 swap( uint16_t, x1, y1 )
ttodorov 0:881ff0b71102 131 swap( uint16_t, x2, y2 )
ttodorov 0:881ff0b71102 132 y1 = _disp_height - y1;
ttodorov 0:881ff0b71102 133 y2 = _disp_height - y2;
ttodorov 0:881ff0b71102 134 swap( uint16_t, y1, y2 )
ttodorov 0:881ff0b71102 135 }
ttodorov 0:881ff0b71102 136
ttodorov 2:81ed304b7e9b 137 WriteCmdData( 0x44, ( x2 << 8 ) + x1 );
ttodorov 2:81ed304b7e9b 138 WriteCmdData( 0x45, y1 );
ttodorov 2:81ed304b7e9b 139 WriteCmdData( 0x46, y2 );
ttodorov 2:81ed304b7e9b 140 WriteCmdData( 0x4e, x1 );
ttodorov 2:81ed304b7e9b 141 WriteCmdData( 0x4f, y1 );
ttodorov 2:81ed304b7e9b 142 WriteCmd( 0x22 );
ttodorov 0:881ff0b71102 143 }
ttodorov 10:69571adcfad5 144
ttodorov 10:69571adcfad5 145 void SSD1289_LCD::SetPixelColor( unsigned short color )
ttodorov 10:69571adcfad5 146 {
ttodorov 10:69571adcfad5 147 WriteData( color );
ttodorov 10:69571adcfad5 148 }