219 lines
16 KiB
C++
219 lines
16 KiB
C++
#ifndef EXPERTWIN_H
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#define EXPERTWIN_H
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#include "basewin.h"
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#include "gutil/qjson.h"
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#include <QLabel>
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#include <QSpinBox>
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#include <QComboBox>
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#include <QRadioButton>
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class ExpertWin : public BaseWin {
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Q_OBJECT
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public:
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explicit ExpertWin(QWidget *parent, int);
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QByteArray savedData();
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void addMapData(QByteArray &);
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int screenWidth{1280}, screenHeight{720};
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double rate{1};
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QLabel *fdModuleWidth, *fdModuleHeight, *fdGroupNum, *fdScanNum;
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QLabel *fdChipType, *fdDecodeMode;
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JObj cfg;
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JObj mBox {
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{"ModuleRow", 1},
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{"ModuleCol", 1},
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{"Direction", 1},
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{"SectorCount", 1}
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};
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JObj mModule {
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{"ModuleWidth", 32},
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{"ModuleHeight", 16},
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{"GroupNum", 2},
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{"ScanNum", 4},
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{"ChipType", "通用"},
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{"DecodeMode", "138译码"},
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{"GroupMode", "三线并行"}
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};
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QSpinBox *fdCardWidth, *fdCardHeight;
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QComboBox *fdDirection, *fdSectorCount;
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QRadioButton *fdAdvacned;
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//added by alahover -s 20230817
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int m_iRcvCardType;
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class zrf_base_param{
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public:
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unsigned char b0_7 = 0b0; //DAT信号 方式 0:高有效(共阴) 1:低有效(共阳);
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unsigned char b0_6 = 0b0; //STB信号有效方式 0:正向 1:反向;
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unsigned char b0_5 = 0b0; //OE信号有效0 :低有 效1 :高有效;
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unsigned char b0_4 = 0b0; //行有效方式:0 :低有效1 :高有效;
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unsigned char b0_3_1 = 0b000; //行译码方式bit2~bit0与地址0x01 bit7~bit6 表示 bit4~bit3。0:普通,常规138译码;00001:SM5266;00010:SM5366;01000::ICN2013;00100:无译码;00101:595译码;0110::5958译码;01110:ICND2018;其他:保留;
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unsigned char b0_0 = 0b0; //0 :全色;1 :单双色;
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unsigned char b0 = (b0_7 << 7 & 0b10000000)| (b0_6 << 6 & 0b01000000)| (b0_5 << 5 & 0b00100000)| (b0_4 << 4 & 0b00010000)| (b0_3_1 << 1 & 0b00001110) | (b0_0 & 0b00000001);
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unsigned char b1_7_6 = 0b00; //行译码方式 bit4~bit3
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unsigned char b1_5 = 0b0; //消影控制电平0:高有效;1:低有效
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unsigned char b1_4 = 0b0; //双卡备份0:关闭;1:启用
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unsigned char b1_3_2 = 0b00; //颜色深度00:8bit;01:10bit;10:12bit
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unsigned char b1_1 = 0b0; //D信号扩展为第二时钟0:关闭;1:启用
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unsigned char b1_0 = 0b0; //上电渐亮0:启用;1:关闭
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unsigned char b1 = (b1_7_6<< 6 & 0b11000000) | (b1_5<<5 & 0b00100000) | (b1_4<<4 & 0b00010000) | (b1_3_2<<2 & 0b00001100) | (b1_1<<1 & 0b00000010) |(b1_0&0b00000001);
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unsigned char b2 = 0x5; //实际消影时间为:(输入值 * 2 + 1) * 48ns
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unsigned char b3 = 0x8; //一组数据控制模组的行数:1~64;其他无效;
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unsigned char b4 = 0x10; //一组数据控制的模组列数:1~128,其他无效;
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unsigned char b5 = 0x08; //模组扫描方式:1~64,其他无效;
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unsigned char b6 = 0x00; //模组每行空点数,详见说明2;
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unsigned char b7_7_6 = 0b11; //输出数据线4,00:红;01:绿;10:蓝;11:黑;
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unsigned char b7_5_4 = 0b10; //输出数据线3,00:红;01:绿;10:蓝;11:黑;
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unsigned char b7_3_2 = 0b01; //输出数据线2,00:红;01:绿;10:蓝;11:黑;
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unsigned char b7_1_0 = 0b00; //输出数据线1,00:红;01:绿;10:蓝;11:黑;
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unsigned char b7 = (b7_7_6 << 6 & 0b11000000) | (b7_5_4<<4 & 0b00110000) | (b7_3_2 << 2 & 0b00001100) | (b7_1_0 & 0b00000011) ;
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//数据传输方向及数据输出模式
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unsigned char b8_7 = 0b0; //多种描点数据 :0,关闭;1,启用
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unsigned char b8_6 = 0b0; //扫描复用模式:0,行扫;1,列扫;
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unsigned char b8_5_4 = 0b00; //模组级联方向:00:从右往左;01:从上往下;10:从左往右;11:从下往上;
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unsigned char b8_3_0 = 0b0000; //数据输出模式:0000:标准16组并行数据输出,0001:增强20组并行数据输出,0010:增强24组并行数据输出,0101:串行16组数据输出,0100:串行32组数据输出,0011:串行 64 组数据输出,0110:增强32组并行数据输出,0111:串行 128 组数据,1000:串行 96 组数据,1001~1111:保留
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unsigned char b8 = (b8_7<<7 &0b10000000) | (b8_6<<6 & 0b01000000) | (b8_5_4<<4 & 0b00110000) | (b8_3_0 & 0b00001111) ;
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unsigned char b9 = 0xFF; //静态亮度 0:最暗,ff:最亮;区别于帧同步包中的动态亮度;
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unsigned char b10 = 0xFF; //红亮度0:最暗,ff:最亮
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unsigned char b11 = 0xFF; //绿亮度0:最暗,ff:最亮
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unsigned char b12 = 0xFF; //蓝亮度0:最暗,ff:最亮
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unsigned char b13 = 0x00; //模组驱动芯片类型选择: //0x00:普通恒流芯片 0x0F:ICN2053; 0x01:MBI5042、MBI5041; 0x10:ICN2038S; 0x02:MY9268; 0x11:MBI5124; 0x03:MBI5050; 0x12:SM16017; 0x04:SD16749; 0x13:SM16207;
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//0x05:SM16136; 0x14:SM16159; 0x06:APA101; 0x15:LS9929IP; 0x07:MY9266; 0x16:ICND2110 0x08:MY9868; 0x17:LS9918IP; 0x09:MBI5052; 0x18:SM16237;
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//0x0A:SUM2017; 0x19:SUM2028; 0x0B:MY9862; 0x1A:SUM2017TD; 0x0C:SUM2032; 0x1B:SM16259; 0x0D:MBI5153; 0x1C:ICND2065/ICND2055; 0x1D:SM16359; 0x1E:RT5965/RT5966;
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//0x1F:MBI5264; 其他未定义
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unsigned char b14 = 0x00; //芯片辅助识别标志
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unsigned char b15 = 0xAC; //红电流增益 0:最暗,ff:最亮
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unsigned char b16 = 0xAC; //绿电流增益 0:最暗,ff:最亮
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unsigned char b17 = 0xAC; //蓝电流增益 0:最暗,ff:最亮
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//数据时钟频率
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unsigned char b18_7_4 = 0x0; //保留
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unsigned char b18_3_0 = 0x5; //输出数据时钟频率选择:0:31.25M; 1:25M; 2:20.83M; 3:17.8M 4:15.625M; 5:12.5M; 6:10.4M; 7:8.9M; 8:7.8M; 9:6.25M; 10:5.2M; 11:4.5M; 12:3.9M; 13:3.125M; 14:1.9M; 15:1M;
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unsigned char b18 = (b18_7_4<<4 & 0b11110000) | (b18_3_0 & 0b00001111);
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//数据时钟相位及占空比
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unsigned char b19_7_4 = 0b0000; //输出数据时钟相位:0000:0 度; 0001:- 90 度; 0010:+90 度; 其他暂时保留;
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unsigned char b19_3_0 = 0b0101; //输出数据时钟占空比:0000:50%; 0001:25%; 0010:75%; 其他暂时保留;
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unsigned char b19 = (b19_7_4<<4 & 0b11110000) | (b19_3_0 & 0b00001111);
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//PWM芯片灰度时钟周期
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unsigned char b20 = 0x20; //PWM 类智能芯片的灰度时钟周期设定:MBI5042 芯片,软件计算; MY9268,MBI5050,用户设定;设定有效值范围 4~128, 其他不支持;
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//灰度等级及倍频模式
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unsigned char b21_7_5 = 0b000; //输出数据时钟相位:0000:0 度; 0001:- 90 度; 0010:+90 度; 其他暂时保留;
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unsigned char b21_4_0 = 0b10111; //输出数据时钟占空比:0000:50%; 0001:25%; 0010:75%; 其他暂时保留;
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unsigned char b21 = (b21_7_5 << 5 & 0b11100000) | (b21_4_0 & 0b00011111);
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//倍频模式 、低灰优化
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unsigned char b22_7_6 = 0b00; //倍频模式:00:无倍频;01:VPWM;10:VPWM2;11:VPWM3;
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unsigned char b22_5_2 = 0b0000; //补偿等级:暂未定义:0000~1111
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unsigned char b22_1_0 = 0b00; //低辉补偿:00:普通模式, 01:合并补偿, 10:累加补偿
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unsigned char b22 = (b22_7_6 << 6 & 0b11000000) | (b22_5_2<<2 & 0b00111100) | (b22_1_0 & 0b00000011);
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unsigned char b23 = 0x00; //保留
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//画面刷新频率
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unsigned char b24_7_5 = 0b000; //图像帧频率000:60Hz;001:50Hz;010:75Hz;011:30Hz;100:120Hz;其他保留
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unsigned char b24_4_0 = 0b00000; //画面刷新频率 ,高 5bit
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unsigned char b24 = (b24_7_5<<5 & 0b11100000) | (b24_4_0 & 0b00011111);
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unsigned char b25 = 0xF0; //画面刷新频率 ,低 8bit
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//与显卡同步
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unsigned char b26_7 = 0b1; //0:与显卡同步;1:不同步
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unsigned char b26_6 = 0b0; //低于 120hz时,该位置1,选择为行外扫描灰度
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unsigned char b26_5_0 = 0b000000; //显卡同步时,帧频倍数
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unsigned char b26 = (b26_7<<7 & 0b10000000) | (b26_6<<6 & 0b01000000) | (b26_5_0 & 0b00111111);
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unsigned char b27_28[2] = { 0x01,0x33}; //非 5030/5042 时:ldq 值 = 166M/场频/扫描方式/遍数, 此数据必须小于 65535,当帧频不准时,利用微调选项调整
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//5030/5042 时:ldq 值 = 166M/场频/扫描方式/19/遍数, 此数据必须小于 65535,此处遍数为:4096 级时:5, 8192 级时:9 , 16384级时:17 此值最小为 485.
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//Ldq_vpwm,普通芯片的普通模式和 PWM 芯片与 ldq 一致,普通芯片的 VPWM 模式下,对遍数进行了修正(4096-38 遍;8192-39 遍;16384-134 遍);
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//Ldq_vpwm2方式时,即普通芯片的VPWM灰度优先模式下,对遍数进行了修正(4096-58 遍;8192-59 遍;16384-116 遍;32768-117 遍;65536-118 遍);
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//MY9268、MBI5050 时:画面刷新率/60Hz注意同步刷新时,数据源的帧频率需要考虑是 60Hz,还是50Hz,还是 75Hz;低字节在前
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//与显卡同步
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unsigned char b29_7_4 = 0b0000; //0:与显卡同步;1:不同步
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unsigned char b29_3_2 = 0b00; //低于 120hz时,该位置1,选择为行外扫描灰度
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unsigned char b29_1_0 = 0b00; //显卡同步时,帧频倍数
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unsigned char b29 = (b29_7_4<<4 & 0b11110000) | (b29_3_2<<2 &0b00001100) | (b29_1_0 & 0b00000011);
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unsigned char b30 = 0x00; //DPWM 芯片刷新倍频数 ICND2055/ICND2065 刷新倍频数 b7~b0
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unsigned char b31 = 0x00; //接收卡带载列数低字节
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unsigned char b32 = 0x80; //接收卡带载列数高字节
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//空行模式
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unsigned char b33_7_4 = 0b0000; //偶数图像区空行4bit
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unsigned char b33_3_0 = 0b0000; //奇数图像区空行 4bit
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unsigned char b33 = (b33_7_4<<4 & 0b11110000) | (b33_3_0 & 0b00001111);
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//模组端口空行位置
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unsigned char b34_7_4 = 0b0000; //1~14 表示第1到15组数据;0 保留;15 表示所有数据组都有空行
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unsigned char b34_3_0 = 0b0000; //1~15,表示1到15组数据;0 保留
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unsigned char b34 = (b34_7_4<<5 & 0b11110000) | (b34_3_0 & 0b00001111);
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unsigned char b35 = 0x00; //消隐控制结束时刻
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//行驱动芯片参数
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unsigned char b36_7_6 = 0b00; //保留
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unsigned char b36_5_0 = 0b000000; //详见说明3
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unsigned char b36 = (b36_7_6<<6 & 0b11000000) | (b36_5_0 & 0b00111111);
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//行驱动芯片参数
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unsigned char b37_7_5 = 0b000; //保留
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unsigned char b37_4_3 = 0b00; //端口内空数据通道数
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unsigned char b37_2 = 0b0; //UD口交换
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unsigned char b37_1 = 0b0; //逆序
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unsigned char b37_0 = 0b0; //奇偶交换
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unsigned char b37 = (b37_7_5<<5 & 0b11100000) | (b37_4_3<<3 & 0b00011000) | (b37_2<<2 & 0b00000100) | (b37_1 <<1 & 0b00000010) | (b37_0 & 0b00000001);
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unsigned char b38_69[32] = {0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0a,0x0b,0x0c,0x0d,0x0e,0x0f,0x10,0x11,0x12,0x13,0x14,0x15,0x16,0x17,0x18,0x19,0x1a,0x1b,0x1c,0x1d,0x1e,0x1f}; //端口1~31输出图像区
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//行驱动芯片参数
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unsigned char b70_7 = 0b000; //空行模式 0:关闭 1:打开
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unsigned char b70_6 = 0b00; //对折偏移 0:关闭 1:打开
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unsigned char b70_5_2 = 0b0; //对折模式: 0:正常模式; 1:两折; 2:镜像对折; 3:3折; 4:4折; 5:5折; 6:6折; 7:8折;其他:保留
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unsigned char b70_1 = 0b0; //空列模式: 0:禁止; 1:允许
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unsigned char b70_0 = 0b1; //bit0 图像区偏移: 0:菱形偏移模式; 1:梯形 偏移模式
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unsigned char b70 = (b70_7<<7 & 0b10000000) | (b70_6<<6 & 0b01000000) | (b70_5_2<<2 & 0b00111100) | (b70_1<<1 & 0b00000010) | (b70_0 & 0b00000001);
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//{0x00,0x00,0x00}图像区1列偏移低8bit,图像区1行偏移低8bit,图像区1列偏移低4bit+行偏移高4bit
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unsigned char b71_166[32][3] = {{0x00,0x00,0x00},{0x00,0x01,0x00},{0x00,0x02,0x00},{0x00,0x03,0x00},{0x00,0x04,0x00},{0x00,0x05,0x00},{0x00,0x06,0x00},{0x00,0x07,0x00},
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{0x00,0x08,0x00},{0x00,0x09,0x00},{0x00,0x0A,0x00},{0x00,0x0B,0x00},{0x00,0x0C,0x00},{0x00,0x0D,0x00},{0x00,0x0E,0x00},{0x00,0x0F,0x00},
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{0x00,0x00,0x01},{0x00,0x10,0x01},{0x00,0x20,0x01},{0x00,0x30,0x01},{0x00,0x40,0x01},{0x00,0x50,0x01},{0x00,0x60,0x01},{0x00,0x70,0x01},
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{0x00,0x80,0x01},{0x00,0x90,0x01},{0x00,0xA0,0x01},{0x00,0xB0,0x01},{0x00,0xC0,0x01},{0x00,0xD0,0x01},{0x00,0xE0,0x01},{0x00,0xF0,0x01}};
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unsigned char b167 = 0x00; //同步预留时间
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unsigned char b168_7_5 = 0b000; //保留
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unsigned char b168_4_0 = 0b00000; //消隐延迟时间:(输入值+1)*48ns
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unsigned char b168 = (b168_7_5<<5 & 0b11100000) | (b168_4_0 & 0b00011111);
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unsigned short b169_192[12] = {0x0000,//红芯片参数 1 高字节,红芯片参数 1 低字节
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0x0000,//红芯片参数 2 高字节,红芯片参数 2 低字节
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0x0000,//红芯片参数 3 高字节,红芯片参数 3 低字节
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0x0000,//绿芯片参数 1 高字节,绿芯片参数 1 低字节
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0x0000,//绿芯片参数 2 高字节,绿芯片参数 2 低字节
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0x0000,//绿芯片参数 3 高字节,绿芯片参数 3 低字节
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0x0000,//蓝芯片参数 1 高字节,蓝芯片参数 1 低字节
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0x0000,//蓝芯片参数 2 高字节,蓝芯片参数 2 低字节
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0x0000,//蓝芯片参数 3 高字节,蓝芯片参数 3 低字节
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0x0000,//红芯片参数 4 高字节,红芯片参数 4 低字节
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0x0000,//绿芯片参数 4 高字节,绿芯片参数 4 低字节
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0x0000 //蓝芯片参数 4 高字节,蓝芯片参数 4 低字节
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};
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unsigned char b193 = 0x00; //保留
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};
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zrf_base_param zrfBaseParam;
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void claseToStruct();
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//added by alahover -o 20230817
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protected:
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void closeEvent(QCloseEvent *) override;
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};
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#endif // EXPERTWIN_H
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