339 lines
12 KiB
C
339 lines
12 KiB
C
/*
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u8g_dev_ssd1322_nhd31oled_bw.c
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1-Bit (BW) Driver for SSD1322 Controller (OLED Display)
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Tested with NHD-3.12-25664
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Universal 8bit Graphics Library
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Copyright (c) 2012, olikraus@gmail.com
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All rights reserved.
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Redistribution and use in source and binary forms, with or without modification,
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are permitted provided that the following conditions are met:
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* Redistributions of source code must retain the above copyright notice, this list
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of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright notice, this
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list of conditions and the following disclaimer in the documentation and/or other
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materials provided with the distribution.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
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CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
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INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
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CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
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CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
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ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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SSD130x Monochrom OLED Controller
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SSD131x Character OLED Controller
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SSD132x Graylevel OLED Controller
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SSD1331 Color OLED Controller
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*/
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#include "u8g.h"
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/* width must be multiple of 8, largest value is 248 unless u8g 16 bit mode is enabled */
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#if defined(U8G_16BIT)
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#define WIDTH 256
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#else
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#define WIDTH 248
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#endif
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#define HEIGHT 64
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#define PAGE_HEIGHT 8
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/*
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http://www.newhavendisplay.com/app_notes/OLED_25664.txt
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http://www.newhavendisplay.com/forum/viewtopic.php?f=15&t=3758
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*/
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static const uint8_t u8g_dev_ssd1322_1bit_nhd_312_init_seq[] PROGMEM = {
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U8G_ESC_DLY(10), /* delay 10 ms */
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U8G_ESC_CS(0), /* disable chip */
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U8G_ESC_ADR(0), /* instruction mode */
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U8G_ESC_RST(1), /* do reset low pulse with (1*16)+2 milliseconds */
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U8G_ESC_CS(1), /* enable chip */
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U8G_ESC_DLY(100), /* delay 100 ms */
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U8G_ESC_DLY(100), /* delay 100 ms */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0fd, /* lock command */
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U8G_ESC_ADR(1), /* data mode */
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0x012, /* unlock */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0ae, /* display off, sleep mode */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0b3,
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U8G_ESC_ADR(1), /* data mode */
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0x091, /* set display clock divide ratio/oscillator frequency (set clock as 80 frames/sec) */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0ca, /* multiplex ratio */
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U8G_ESC_ADR(1), /* data mode */
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0x03f, /* 1/64 Duty (0x0F~0x3F) */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0a2,
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U8G_ESC_ADR(1), /* data mode */
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0x000, /* display offset, shift mapping ram counter */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0a1,
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U8G_ESC_ADR(1), /* data mode */
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0x000, /* display start line */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0a0, /* Set Re-Map / Dual COM Line Mode */
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U8G_ESC_ADR(1), /* data mode */
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0x014, /* was 0x014 */
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0x011, /* was 0x011 */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0ab,
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U8G_ESC_ADR(1), /* data mode */
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0x001, /* Enable Internal VDD Regulator */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0b4, /* Display Enhancement A */
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U8G_ESC_ADR(1), /* data mode */
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0x0a0,
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0x005|0x0fd,
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U8G_ESC_ADR(0), /* instruction mode */
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0x0c1, /* contrast */
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U8G_ESC_ADR(1), /* data mode */
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0x09f,
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U8G_ESC_ADR(0), /* instruction mode */
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0x0c7, /* Set Scale Factor of Segment Output Current Control */
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U8G_ESC_ADR(1), /* data mode */
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0x00f,
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U8G_ESC_ADR(0), /* instruction mode */
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0x0b9, /* linear gray scale */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0b1, /* Phase 1 (Reset) & Phase 2 (Pre-Charge) Period Adjustment */
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U8G_ESC_ADR(1), /* data mode */
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0x0e2,
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U8G_ESC_ADR(0), /* instruction mode */
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0x0d1, /* Display Enhancement B */
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U8G_ESC_ADR(1), /* data mode */
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0x082|0x020,
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0x020,
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U8G_ESC_ADR(0), /* instruction mode */
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0x0bb, /* precharge voltage */
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U8G_ESC_ADR(1), /* data mode */
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0x01f,
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U8G_ESC_ADR(0), /* instruction mode */
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0x0b6, /* precharge period */
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U8G_ESC_ADR(1), /* data mode */
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0x008,
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U8G_ESC_ADR(0), /* instruction mode */
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0x0be, /* vcomh */
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U8G_ESC_ADR(1), /* data mode */
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0x007,
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U8G_ESC_ADR(0), /* instruction mode */
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0x0a6, /* normal display */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0a9, /* exit partial display */
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U8G_ESC_ADR(0), /* instruction mode */
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0x0af, /* display on */
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U8G_ESC_CS(0), /* disable chip */
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U8G_ESC_END /* end of sequence */
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};
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static const uint8_t u8g_dev_ssd1322_1bit_nhd_312_prepare_page_seq[] PROGMEM = {
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U8G_ESC_ADR(0), /* instruction mode */
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U8G_ESC_CS(1), /* enable chip */
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0x015, /* column address... */
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U8G_ESC_ADR(1), /* data mode */
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0x01c, /* start at column 0 */
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0x05b, /* end column */
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U8G_ESC_ADR(0), /* instruction mode */
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0x075, /* row address... */
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U8G_ESC_ADR(1), /* data mode */
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U8G_ESC_END /* end of sequence */
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};
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static void u8g_dev_ssd1322_1bit_prepare_row(u8g_t *u8g, u8g_dev_t *dev, uint8_t delta_row)
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{
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uint8_t row = ((u8g_pb_t *)(dev->dev_mem))->p.page;
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row *= ((u8g_pb_t *)(dev->dev_mem))->p.page_height;
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row += delta_row;
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u8g_WriteEscSeqP(u8g, dev, u8g_dev_ssd1322_1bit_nhd_312_prepare_page_seq);
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u8g_WriteByte(u8g, dev, row); /* start at the selected row */
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u8g_WriteByte(u8g, dev, row+1); /* end within the selected row */
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u8g_SetAddress(u8g, dev, 0); /* instruction mode mode */
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u8g_WriteByte(u8g, dev, 0x05c); /* write to ram */
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u8g_SetAddress(u8g, dev, 1); /* data mode */
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}
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static const uint8_t u8g_dev_ssd13xx_sleep_on[] PROGMEM = {
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U8G_ESC_ADR(0), /* instruction mode */
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U8G_ESC_CS(1), /* enable chip */
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0x0ae, /* display off */
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U8G_ESC_CS(0), /* disable chip, bugfix 12 nov 2014 */
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U8G_ESC_END /* end of sequence */
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};
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static const uint8_t u8g_dev_ssd13xx_sleep_off[] PROGMEM = {
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U8G_ESC_ADR(0), /* instruction mode */
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U8G_ESC_CS(1), /* enable chip */
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0x0af, /* display on */
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U8G_ESC_DLY(50), /* delay 50 ms */
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U8G_ESC_CS(0), /* disable chip, bugfix 12 nov 2014 */
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U8G_ESC_END /* end of sequence */
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};
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uint8_t u8g_dev_ssd1322_nhd31oled_bw_fn(u8g_t *u8g, u8g_dev_t *dev, uint8_t msg, void *arg)
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{
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switch(msg)
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{
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case U8G_DEV_MSG_INIT:
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u8g_InitCom(u8g, dev, U8G_SPI_CLK_CYCLE_300NS);
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u8g_WriteEscSeqP(u8g, dev, u8g_dev_ssd1322_1bit_nhd_312_init_seq);
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break;
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case U8G_DEV_MSG_STOP:
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break;
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case U8G_DEV_MSG_PAGE_NEXT:
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{
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uint8_t i;
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u8g_pb_t *pb = (u8g_pb_t *)(dev->dev_mem);
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uint8_t *p = pb->buf;
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u8g_uint_t cnt;
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cnt = pb->width;
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cnt >>= 3;
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for( i = 0; i < pb->p.page_height; i++ )
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{
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u8g_dev_ssd1322_1bit_prepare_row(u8g, dev, i); /* this will also enable chip select */
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#if !defined(U8G_16BIT)
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u8g_WriteByte(u8g, dev, 0x0ff);
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u8g_WriteByte(u8g, dev, 0x0ff);
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#endif
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u8g_WriteSequenceBWTo16GrDevice(u8g, dev, cnt, p);
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#if !defined(U8G_16BIT)
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u8g_WriteByte(u8g, dev, 0x0ff);
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u8g_WriteByte(u8g, dev, 0x0ff);
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#endif
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u8g_MicroDelay(); // for DUE?
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u8g_SetChipSelect(u8g, dev, 0);
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p+=cnt;
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}
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}
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break;
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case U8G_DEV_MSG_CONTRAST:
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u8g_SetChipSelect(u8g, dev, 1);
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u8g_SetAddress(u8g, dev, 0); /* instruction mode */
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u8g_WriteByte(u8g, dev, 0x081);
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u8g_SetAddress(u8g, dev, 1); /* data mode */
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u8g_WriteByte(u8g, dev, (*(uint8_t *)arg) >> 1);
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u8g_MicroDelay(); // for DUE?
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u8g_SetChipSelect(u8g, dev, 0);
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break;
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case U8G_DEV_MSG_SLEEP_ON:
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u8g_WriteEscSeqP(u8g, dev, u8g_dev_ssd13xx_sleep_on);
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return 1;
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case U8G_DEV_MSG_SLEEP_OFF:
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u8g_WriteEscSeqP(u8g, dev, u8g_dev_ssd13xx_sleep_off);
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return 1;
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}
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return u8g_dev_pb8h1_base_fn(u8g, dev, msg, arg);
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}
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uint8_t u8g_dev_ssd1322_nhd31oled_2x_bw_fn(u8g_t *u8g, u8g_dev_t *dev, uint8_t msg, void *arg)
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{
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switch(msg)
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{
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case U8G_DEV_MSG_INIT:
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u8g_InitCom(u8g, dev, U8G_SPI_CLK_CYCLE_300NS);
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u8g_WriteEscSeqP(u8g, dev, u8g_dev_ssd1322_1bit_nhd_312_init_seq);
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break;
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case U8G_DEV_MSG_STOP:
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break;
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case U8G_DEV_MSG_PAGE_NEXT:
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{
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uint8_t i;
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u8g_pb_t *pb = (u8g_pb_t *)(dev->dev_mem);
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uint8_t *p = pb->buf;
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u8g_uint_t cnt;
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cnt = pb->width;
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cnt >>= 3;
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for( i = 0; i < pb->p.page_height; i++ )
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{
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u8g_dev_ssd1322_1bit_prepare_row(u8g, dev, i); /* this will also enable chip select */
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#if !defined(U8G_16BIT)
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u8g_WriteByte(u8g, dev, 0x0ff);
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u8g_WriteByte(u8g, dev, 0x0ff);
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#endif
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u8g_WriteSequenceBWTo16GrDevice(u8g, dev, cnt, p);
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#if !defined(U8G_16BIT)
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u8g_WriteByte(u8g, dev, 0x0ff);
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u8g_WriteByte(u8g, dev, 0x0ff);
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#endif
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u8g_MicroDelay(); // for DUE?
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u8g_SetChipSelect(u8g, dev, 0);
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p+=cnt;
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}
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}
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break;
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case U8G_DEV_MSG_CONTRAST:
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u8g_SetChipSelect(u8g, dev, 1);
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u8g_SetAddress(u8g, dev, 0); /* instruction mode */
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u8g_WriteByte(u8g, dev, 0x0c1); /* 21 May 2013, fixed contrast command */
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u8g_SetAddress(u8g, dev, 1); /* data mode */
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u8g_WriteByte(u8g, dev, (*(uint8_t *)arg) >> 1);
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u8g_SetChipSelect(u8g, dev, 0);
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break;
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case U8G_DEV_MSG_SLEEP_ON:
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u8g_WriteEscSeqP(u8g, dev, u8g_dev_ssd13xx_sleep_on);
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return 1;
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case U8G_DEV_MSG_SLEEP_OFF:
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u8g_WriteEscSeqP(u8g, dev, u8g_dev_ssd13xx_sleep_off);
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return 1;
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}
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return u8g_dev_pb16h1_base_fn(u8g, dev, msg, arg);
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}
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U8G_PB_DEV(u8g_dev_ssd1322_nhd31oled_bw_sw_spi , WIDTH, HEIGHT, PAGE_HEIGHT, u8g_dev_ssd1322_nhd31oled_bw_fn, U8G_COM_SW_SPI);
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U8G_PB_DEV(u8g_dev_ssd1322_nhd31oled_bw_hw_spi , WIDTH, HEIGHT, PAGE_HEIGHT, u8g_dev_ssd1322_nhd31oled_bw_fn, U8G_COM_HW_SPI);
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U8G_PB_DEV(u8g_dev_ssd1322_nhd31oled_bw_parallel , WIDTH, HEIGHT, PAGE_HEIGHT, u8g_dev_ssd1322_nhd31oled_bw_fn, U8G_COM_FAST_PARALLEL);
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#define DWIDTH (WIDTH*2)
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uint8_t u8g_dev_ssd1322_nhd31oled_2x_bw_buf[DWIDTH] U8G_NOCOMMON ;
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u8g_pb_t u8g_dev_ssd1322_nhd31oled_2x_bw_pb = { {16, HEIGHT, 0, 0, 0}, WIDTH, u8g_dev_ssd1322_nhd31oled_2x_bw_buf};
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u8g_dev_t u8g_dev_ssd1322_nhd31oled_2x_bw_sw_spi = { u8g_dev_ssd1322_nhd31oled_2x_bw_fn, &u8g_dev_ssd1322_nhd31oled_2x_bw_pb, U8G_COM_SW_SPI };
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u8g_dev_t u8g_dev_ssd1322_nhd31oled_2x_bw_hw_spi = { u8g_dev_ssd1322_nhd31oled_2x_bw_fn, &u8g_dev_ssd1322_nhd31oled_2x_bw_pb, U8G_COM_HW_SPI };
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