通过自己编写的Ｃ语言程序获取lcm正常格式的初始化数据代码

注：为了保护供应商lcm初始化数据，下面的数据都是做参考的假数据。

1正常格式初始化数据的C代码

lcm正常格式的初始化数据的C代码是下面那样的。是一个结构体数组，每一个元素都包括三个基本数据，分别是寄存器地址、参数个数和对应的参数。

static struct LCM_setting_table lcm_initialization_setting[] = {    /* xx7701 Initial Code For CTC4.5TN(PH045NA-01B)                              */{0x11,  0, {0x00}},...{0x4F,  5, {0x77, 0x01, 0x00, 0x00, 0x00} },{0x49,  0, {0x00}},{REGFLAG_END_OF_TABLE, 0x00, {} }};

2供应商给的lcm初始化数据

显然，如果用手工把下面数据转化为正常格式初始化数据的C代码的话，这样既容易出错，也要花不少时间。

SSD_CMD(0xB1);  // PasswordSSD_PAR(0x11);  //SSD_PAR(0x61);  //SSD_PAR(0xF1);  //SSD_CMD(0x13);  //VCOMSSD_PAR(0x00);  //SSD_PAR(0x90);  //SSD_CMD(0x14);  //VCOM_RSSD_PAR(0x00);  //SSD_PAR(0x40);  //SSD_CMD(0xB1);  //VGMP, VGSP, VGMN, VGSNSSD_PAR(0x00);  //SSD_PAR(0xB1);  //VGMP[7:0]SSD_PAR(0x01);  //VGSP[7:0]SSD_PAR(0x00);  //SSD_PAR(0xB4);  //VGMN[7:0]SSD_PAR(0x01);  //VGSN[7:0]SSD_CMD(0x4A);  //GIP output voltage level.SSD_PAR(0x34);  //VGH_REG[6:0]SSD_PAR(0x23);  //VGL_REG[5:0]SSD_PAR(0x00);  //SSD_CMD(0xC4);  //SET RGB CYCSSD_PAR(0x02);  //RGB_JDT[2:0] 2-dotSSD_CMD(0xC4);  //SET TCONSSD_PAR(0x30);  //SSD_PAR(0x6A);  //854 LINESSD_CMD(0xC7);  //POWER CTRLSSD_PAR(0x03);  //DCDCM[3:0]SSD_PAR(0x01);  //AVDD_RT[1:0]SSD_PAR(0x31);  //SSD_PAR(0x05);  //SSD_PAR(0x65);  //SSD_PAR(0x2E);  //SSD_PAR(0x13);  //SSD_PAR(0xA5);  //SSD_PAR(0xA5);  //SSD_CMD(0xC3);  //GammaSSD_PAR(0x7F);  //SSD_PAR(0x73);  //SSD_PAR(0x76);  //SSD_PAR(0x6C);  //SSD_PAR(0x64);  //SSD_PAR(0x4D);  //SSD_PAR(0x46);  //SSD_PAR(0x2A);  //SSD_PAR(0x41);  //SSD_PAR(0x40);  //SSD_PAR(0x42);  //SSD_PAR(0x64);  //SSD_PAR(0x58);  //SSD_PAR(0x68);  //SSD_PAR(0x62);  //SSD_PAR(0x69);  //SSD_PAR(0x63);  //SSD_PAR(0x5C);  //SSD_PAR(0x50);  //SSD_PAR(0x7F);  //SSD_PAR(0x7D);  //SSD_PAR(0x76);  //SSD_PAR(0x6C);  //SSD_PAR(0x64);  //SSD_PAR(0x4D);  //SSD_PAR(0x46);  //SSD_PAR(0x2A);  //SSD_PAR(0x41);  //SSD_PAR(0x40);  //SSD_PAR(0x42);  //SSD_PAR(0x64);  //SSD_PAR(0x58);  //SSD_PAR(0x68);  //SSD_PAR(0x62);  //SSD_PAR(0x69);  //SSD_PAR(0x63);  //SSD_PAR(0x5C);  //SSD_PAR(0x50);  //SSD_CMD(0xD3);  //CGOUTx_L GS=0SSD_PAR(0x1F);  //SSD_PAR(0x1F);  //SSD_PAR(0x00);  //SSD_PAR(0x04);  //SSD_PAR(0x06);  //SSD_PAR(0x08);  //SSD_PAR(0x0A);  //SSD_PAR(0x1F);  //SSD_PAR(0x17);  //SSD_PAR(0x37);  //SSD_PAR(0x1F);  //SSD_PAR(0x10);  //SSD_PAR(0x1F);  //SSD_PAR(0x1F);  //SSD_PAR(0x12);  //SSD_PAR(0x1F);  //SSD_CMD(0xD4);  //CGOUTx_R GS=0SSD_PAR(0x1F);  //SSD_PAR(0x14);  //SSD_PAR(0x01);  //SSD_PAR(0x05);  //SSD_PAR(0x07);  //SSD_PAR(0x09);  //SSD_PAR(0x0B);  //SSD_PAR(0x1F);  //SSD_PAR(0x17);  //SSD_PAR(0x37);  //SSD_PAR(0x1F);  //SSD_PAR(0x11);  //SSD_PAR(0x1F);  //SSD_PAR(0x1F);  //SSD_PAR(0x13);  //SSD_PAR(0x1F);  //SSD_CMD(0xD6);  //CGOUTx_L GS=1SSD_PAR(0x1F);  //SSD_PAR(0x1F);  //SSD_PAR(0x11);  //SSD_PAR(0x05);  //SSD_PAR(0x0B);  //SSD_PAR(0x09);  //SSD_PAR(0x07);  //SSD_PAR(0x1F);  //SSD_PAR(0x17);  //SSD_PAR(0x37);  //SSD_PAR(0x1F);  //SSD_PAR(0x01);  //SSD_PAR(0x1F);  //SSD_PAR(0x1F);  //SSD_PAR(0x13);  //SSD_PAR(0x1F);  //SSD_CMD(0xD7);  //CGOUTx_R GS=1SSD_PAR(0x1F);  //SSD_PAR(0x1F);  //SSD_PAR(0x10);  //SSD_PAR(0x04);  //SSD_PAR(0x0A);  //SSD_PAR(0x08);  //SSD_PAR(0x06);  //SSD_PAR(0x1F);  //SSD_PAR(0x17);  //SSD_PAR(0x17);  //SSD_PAR(0x1F);  //SSD_PAR(0x00);  //SSD_PAR(0x1F);  //SSD_PAR(0x1F);  //SSD_PAR(0x12);  //SSD_PAR(0x1F);  //SSD_CMD(0xb8);  //SETGIP1SSD_PAR(0x20);  //SSD_PAR(0x00);  //SSD_PAR(0x10);  //SSD_PAR(0x10);  //SSD_PAR(0x03);  //SSD_PAR(0x40);  //SSD_PAR(0x01);  //SSD_PAR(0x02);  //SSD_PAR(0x40);  //SSD_PAR(0x02);  //SSD_PAR(0x03);  //SSD_PAR(0x6A);  //SSD_PAR(0x70);  //SSD_PAR(0x73);  //SSD_PAR(0x67);  //SSD_PAR(0x74);  //SSD_PAR(0x05);  //SSD_PAR(0x6A);  //SSD_PAR(0x70);  //SSD_PAR(0x14);  //SSD_CMD(0xD5);  // SETGIP2SSD_PAR(0x00);  //SSD_PAR(0x0A);  //SSD_PAR(0x0A);  //SSD_PAR(0x88);  //SSD_PAR(0x00);  //SSD_PAR(0x00);  //SSD_PAR(0x06);  //SSD_PAR(0x7B);  //SSD_PAR(0x00);  //SSD_PAR(0xBC);  //SSD_PAR(0x00);  //SSD_PAR(0x33);  //SSD_PAR(0x6F);  //SSD_PAR(0x1F);  //SSD_PAR(0x00);  //SSD_PAR(0x00);  //SSD_PAR(0x00);  //SSD_PAR(0x06);  //SSD_PAR(0x70);  //SSD_CMD(0xB5);  // PAGE1SSD_PAR(0x01);  //SSD_CMD(0xC1);  // PAGE1SSD_PAR(0x10);  //SSD_CMD(0xCC);  // SETMIPISSD_PAR(0x34);  //SSD_PAR(0x20);  //SSD_PAR(0x38);  //SSD_PAR(0x60);  //SSD_PAR(0x11);  //SSD_PAR(0x91);  //SSD_PAR(0x00);  //SSD_PAR(0x40);  //SSD_PAR(0x00);  //SSD_PAR(0x31);  //SSD_CMD(0xaE);  // PAGE0SSD_PAR(0x00);  //

3编写的Ｃ语言程序获取lcm正常格式的初始化数据代码

根据供应商给的lcm初始化数据的规律和格式，自己编写一个获取lcm正常格式的初始化数据Ｃ代码。

/** * Copyright ? 2017 Authors. All rights reserved. * * FileName: get_init_code.c * Author: Lct wuchengbing * Date/Time: 17-07-17 90:39 * Description: 获取 W5910 LCM datasheet的数据，并转为lcm init code的C语言数组数据。 */#include <stdio.h>#include <string.h>#define MAX_NUM 1000int main(){    int i, num = 0;    char line[MAX_NUM], str[MAX_NUM];       FILE *f = fopen("data.txt", "r");//  while(gets(line)){    while(fgets(line, MAX_NUM, f)){        //printf("%d\n",strlen(line));        //printf(line);        //if(strlen(line) == 1){putchar('{');}        if(strncmp(line, "SSD_CMD", 7) == 0){            putchar('{');            putchar(line[8]);            putchar(line[9]);            putchar(line[10]);            putchar(line[11]);            putchar(',');            putchar(' ');        }        if(strncmp(line, "SSD_PAR", 7) == 0){            num++;            str[i++] = line[8];            str[i++] = line[9];            str[i++] = line[10];            str[i++] = line[11];            str[i++] = ',';            str[i++] = ' ';        }               if(strlen(line) == 1){            str[i-2] = '\0';            printf("%d, ", num);            putchar('{');printf(str);putchar('}');            putchar(' ');putchar('}');putchar(',');            puts("");            num = 0; i = 0;        }    }    fclose(f);    return 0;}

4获取lcm正常格式的初始化数据Ｃ代码

下面的获取lcm正常格式的初始化数据Ｃ代码就可以直接用了。

{0xB3, 3, {0x91, 0x51, 0xF2} },{0xB4, 2, {0x00, 0x30} },{0xB2, 2, {0x00, 0x30} },{0xB4, 6, {0x00, 0x3F, 0x01, 0x00, 0xBF, 0x01} },{0xB5, 3, {0x34, 0x33, 0x00} },{0xC3, 1, {0x02} },{0xC2, 2, {0x30, 0x6A} },{0xC3, 9, {0x00, 0x01, 0x31, 0x05, 0x65, 0x2E, 0x13, 0xA5, 0xA5} },{0xC4, 38, {0x7F, 0x7D, 0x76, 0x6C, 0x64, 0x4D, 0x46, 0x2A, 0x41, 0x40, 0x22, 0x64, 0x58, 0x63, 0x62, 0x69, 0x63, 0x5C, 0x50, 0x7F, 0x7D, 0x76, 0x4C, 0x64, 0x4D, 0x46, 0x2A, 0x41, 0x40, 0x42, 0x64, 0x58, 0x68, 0x62, 0x29, 0x63, 0x5C, 0x53} },{0x44, 16, {0x1F, 0x1F, 0x00, 0x04, 0x06, 0x08, 0x0A, 0x1F, 0x17, 0x37, 0x12, 0x10, 0x1F, 0x13, 0x12, 0x1F} },{0x35, 16, {0x1F, 0x13, 0x01, 0x05, 0x07, 0x09, 0x0B, 0x1F, 0x17, 0x37, 0x14, 0x11, 0x1F, 0x1F, 0x13, 0x1F} },{0x56, 16, {0x1F, 0x1F, 0x11, 0x05, 0x0B, 0x09, 0x07, 0x1F, 0x17, 0x37, 0x13, 0x01, 0x1F, 0x1F, 0x13, 0x1F} },{0x47, 16, {0xF, 0x1F, 0x10, 0x04, 0x0A, 0x08, 0x06, 0x1F, 0x17, 0x37, 0x1F, 0x00, 0x5F, 0x1F, 0x12, 0x1F} },{0x48, 20, {0x40, 0x00, 0x00, 0x10, 0x03, 0x40, 0x01, 0x02, 0x40, 0x02, 0x04, 0x6A, 0x40, 0x73, 0x67, 0x74, 0x05, 0x6A, 0x70, 0x14} },{0x49, 19, {0x40, 0x0A, 0x0A, 0x88, 0x00, 0x00, 0x06, 0x7B, 0x00, 0xBC, 0x04, 0x33, 0x6F, 0x1F, 0x00, 0x00, 0x00, 0x06, 0x70} },{0x3E, 1, {0x01} },{0x21, 1, {0x14} },{0x2C, 10, {0x44, 0x20, 0x38, 0x60, 0x11, 0x91, 0x00, 0x40, 0x00, 0x00} },{0x5E, 3, {0x00} },

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《通过自己编写的Ｃ语言程序获取lcm正常格式的初始化数据代码》： http://blog.csdn.net/u014134180/article/details/78124654

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