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initial commit
2024-03-05 03:46:18 +00:00
#include "MultiFrameCapture_8458Color.h"
#include "config.h"
#include "applog.h"
#include "gvideoisp1.h"
#include "Gpio.h"
#include "DevUtil.h"
#include "FpgaComm.h"
#include "CorrectParam.h"
#include "correct_ultis.h"
#include "stringex.hpp"
#include "filetools.h"
#include "CImageMerge.h"
#include "jsonconfig.h"
#include "StopWatch.h"
#include "linux\sched.h"
#include "deviceconfig.h"
#define LOG_PATH "/usr/local/correct.log"
FileTools ft_m_log(LOG_PATH);
static std::string loggername = "MultiFrameCapture_8458Color";
static double radio = 1.0;
static int offsetStep1[12];
static int expStep1[2][3];
static int org_index = 0;
static void initStep1()
{
printf("initStep aaaaaaaaaaa \n");
for (int i = 0; i < 2; i++)
{
for (int j = 0; j < 3; j++)
{
expStep1[i][j] = 600;
}
}
for (int i = 0; i < 12; i++)
{
offsetStep1[i] = 256;
printf("offsetStep[%d]=%d \n",i,offsetStep1[i]);
}
}
MultiFrameCapture_8458Color::MultiFrameCapture_8458Color() :
reset_pin(new GpioOut(50)),
fpgaLoad(new Gpio(70)),
fpga_conf_done(new Gpio(69)),
fpga_conf_initn(new Gpio(71)),
bcorrecting(false),
snapthread(1)
{
LOG_INIT();
fpga_conf_done->setDirection(Gpio::in);
fpgaComm.reset(new FpgaComm());
pimgdata_info = {0};
//fpga_reload();
//fpga_reset();
std::this_thread::sleep_for(std::chrono::milliseconds(1000));
//fpgaComm->resetADC();
//fpgaComm->resetADC();
// fpgaComm->update();
video.reset(new VIDEO_CLASS());
set_ADC_config_frequency(12);
init_adc_8458();
// GetFpgaparam(0x01,0);
snapthread.enqueue([]{
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
CPU_SET(5, &cpuset);
pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpuset); });
}
MultiFrameCapture_8458Color::~MultiFrameCapture_8458Color()
{
if (video.get())
video.reset();
printf("Exit ~MultiFrameCapture_8458Color() \n");
}
void MultiFrameCapture_8458Color::open()
{
}
void MultiFrameCapture_8458Color::open(HGScanConfig config,FPGAConfigParam fpgaparam)
{
// config.g200params.dpi = 3;
uint32_t reg8 =0,reg5 = 0,reg12 =0,reg11 =0, reg10 =0;
set_ADC_config_frequency(12);
init_adc_8458();
if(config.g200params.dpi == 2)
{
set_exp_8458_double(1315,4100,true); //12214 300dpi 5632 80us 10138 144us 11378 200dpi 56 3942
set_exp_8458_double(1315,4100,false);
}
else
{
set_exp_8458_single(4315,14855,false);
set_exp_8458_single(4315,14855,true);
}
printf(" dpi = %d \n",config.g200params.dpi);
fpgaComm->read(11,reg11);
fpgaComm->write(11,(reg11&0xffffffc0)|0x12);
fpgaComm->write(13,0xdec0000);
//fpgaComm->write(13,0xd680000);
video->set_buf_count(10);
fpgaComm->set_cis_type(true);
m_config = config;
m_fpgaparam = fpgaparam;
bool dunnancis = true;
int dpi = config.g200params.dpi == 0x02 ? 2 : (config.g200params.dpi == 0x03 ? 3 : 2);
int mode = config.g200params.color;
auto phyHeight = paperHeight[(PaperSize)config.g200params.paper];
int pixheight; // = ((int)((phyHeight / 25.4 * (dpi == 0x02 ? 300 : (dpi == 0x03 ? 600 : 200)) + 2) / 3)) * 3 * 2;
int tdpi = config.g200params.dpi == 0x02 ? 300 : (config.g200params.dpi == 0x03 ? 600 : 200);
pixheight = ((int)((phyHeight / 25.4 * tdpi + 2) / 3)) * 3;
frame_height = 300;
frame_count = ceil(pixheight / (float)(frame_height));
// frame_count = 10; // 最后一帧丢帧,多采集一帧防止图像数据缺失
if (frame_height * frame_count > FPGA_MAX_HEIGHT_SUP)
frame_count = FPGA_MAX_HEIGHT_SUP / frame_height;
fpgaComm->read(15,m_fpgaversion);
int startsample = 0;
ModeFpga fpgamod = {
.colorMode = mode,
.dpi = m_config.g200params.dpi,
.led = 1,
.sample = startsample, // 256+39
.adcA = 0,
.adcB = 0,
.selftest = 0,
.sp = config.g200params.dpi == 3 ? 14855 : 12313 }; // 600DPI 0x1450 300DPI 0xe10 10138
fpgaComm->setRegs(0x01, *((int *)(&fpgamod)));
fpgaComm->setSample(startsample);
fpgaComm->enableLed(true);
fpgaComm->setEnTestCol(false);
fpgaComm->setEnTestBit(false);
set_dpi_mode(config.g200params.dpi == 3);
video->open(config.g200params.dpi == 0x03 ? 7344 : 3672,frame_height*2);
fpgaComm->setFrameNum(frame_count);
fpgaComm->setFrameHeight(frame_height);
printf("fpgaComm set height = %d \n", frame_height);
fpgaComm->read(8,reg8);
//fpgaComm->write(8,reg8|0x100); //行号 enable
fpgaComm->write(8,reg8&0xfffffeff); //行号 disable
fpgaComm->read(5,reg5);
//fpgaComm->write(5,reg5|0x2000); //测试数据 白+黑 enable
fpgaComm->write(5,reg5&0xffffdfff); //测试数据 白+黑 disable
fpgaComm->read(12,reg12);
//fpgaComm->write(12,reg5&0xfffff000+0x97e); //帧间隔延迟 >=22.5us
//fpgaComm->write(12,reg5&0xe000e000+0xfa0067e); //帧间隔延迟 >=22.5us
//fpgaComm->write(12,0x04e20400); //0x494e491 0x79de496 范围 0-12 16-28 (16-28 > 0-12)
fpgaComm->read(10,reg10);
if(m_config.g200params.dpi == 3){
fpgaComm->write(10,0x03b0037a); //120 us 600*600 多帧
fpgaComm->write(12,0x02000100); //120 us 600*600 多帧
}
else{
fpgaComm->write(12,0x00200010); //58us 300*600 多帧
fpgaComm->write(10,0x01b0017a); //58us 300*600 多帧
// fpgaComm->write(12,0x03b0037a); //58us 300*600 多帧
// fpgaComm->write(10,0x05b00500); //58us 300*600 多帧
}
//fpgaComm->write(4,0x77204001);
//fpgaComm->write(7,0x48004041);
//if(m_config.g200params.dpi == 3)
// fpgaComm->write(10,reg10&0xffff0000+0x3f8); //行间隔 低16位
// fpgaComm->write(10,reg10&0xffff0000+0x1f8); //行间隔 低16位
//fpgaComm->write(10,reg10&0xffff+0x4000000); //帧结束计数 高16位
fpgaComm->write(22,201);
fpgaComm->setFrameNum(1);
fpgaComm->update(3);
fpgaComm->capture(); // abort first frame
video->read_frame(1000);
fpgaComm->setFrameNum(frame_count);
fpgaComm->update(3);
// initLut(fpgaparam.LutPath, config.g200params.color);
// initLut(config.g200params.is_textcorrect?fpgaparam.LutPath:fpgaparam.TextLutPath,config.g200params.color);
// initLut(fpgaparam.TextLutPath, config.g200params.color);
init_lutdate();
// init_imagedatabuffer();
}
void MultiFrameCapture_8458Color::init_lutdate()
{
DeviceConfig::Gray_Apply gray_;
gray_.value = Get_static_deviceconfig().GetParam().gray_param;
std::string lutpath = m_config.g200params.is_textcorrect ? m_fpgaparam.LutPath : m_fpgaparam.TextLutPath;
if ((m_fpgaparam.DpiMode == 1) && (gray_.Param_Setting.en_200_clr == 1 && m_config.g200params.color == true))
lutpath = "/usr/local/huago/Graylut200clr.bmp";
else if ((m_fpgaparam.DpiMode == 2) && (gray_.Param_Setting.en_300_clr == 1 && m_config.g200params.color == true))
lutpath = "/usr/local/huago/Graylut300clr.bmp";
else if ((m_fpgaparam.DpiMode == 3) && (gray_.Param_Setting.en_600_clr == 1 && m_config.g200params.color == true))
lutpath = "/usr/local/huago/Graylut600clr.bmp";
else if ((m_fpgaparam.DpiMode == 16) && (gray_.Param_Setting.en_slow_clr == 1 && m_config.g200params.color == true))
lutpath = "/usr/local/huago/Graylutslow_moireclr.bmp";
else if ((m_fpgaparam.DpiMode == 17) && (gray_.Param_Setting.en_slow_300_clr == 1 && m_config.g200params.color == true))
lutpath = "/usr/local/huago/Graylutslow_moire300clr.bmp";
else if ((m_fpgaparam.DpiMode == 32) && (gray_.Param_Setting.en_long_Manuscript_200_clr == 1 && m_config.g200params.color == true))
lutpath = "/usr/local/huago/GraylutLong_Manuscript200clr.bmp";
else if ((m_fpgaparam.DpiMode == 33) && (gray_.Param_Setting.en_long_Manuscript_300_clr == 1 && m_config.g200params.color == true))
lutpath = "/usr/local/huago/GraylutLong_Manuscript300clr.bmp";
else if ((m_fpgaparam.DpiMode == 1) && (gray_.Param_Setting.en_200_gray == 1 && m_config.g200params.color == false))
lutpath = "/usr/local/huago/Graylut200gray.bmp";
else if ((m_fpgaparam.DpiMode == 2) && (gray_.Param_Setting.en_300_gray == 1 && m_config.g200params.color == false))
lutpath = "/usr/local/huago/Graylut300gray.bmp";
else if ((m_fpgaparam.DpiMode == 3) && (gray_.Param_Setting.en_600_gray == 1 && m_config.g200params.color == false))
lutpath = "/usr/local/huago/Graylut600gray.bmp";
else if ((m_fpgaparam.DpiMode == 16) && (gray_.Param_Setting.en_slow_gray == 1 && m_config.g200params.color == false))
lutpath = "/usr/local/huago/Graylutslow_moiregray.bmp";
else if ((m_fpgaparam.DpiMode == 17) && (gray_.Param_Setting.en_slow_300_gray == 1 && m_config.g200params.color == false))
lutpath = "/usr/local/huago/Graylutslow_moire300gray.bmp";
else if ((m_fpgaparam.DpiMode == 32) && (gray_.Param_Setting.en_long_Manuscript_200_gray == 1 && m_config.g200params.color == false))
lutpath = "/usr/local/huago/GraylutLong_Manuscript200gray.bmp";
else if ((m_fpgaparam.DpiMode == 33) && (gray_.Param_Setting.en_long_Manuscript_300_gray == 1 && m_config.g200params.color == false))
lutpath = "/usr/local/huago/GraylutLong_Manuscript300gray.bmp";
initLut(lutpath, m_config.g200params.color);
}
void MultiFrameCapture_8458Color::close()
{
if (video.get())
video->close();
// if(pimgdata_info.pdata) free(pimgdata_info.pdata);
// pimgdata_info.pdata = nullptr;
pimgdata_info.offset = pimgdata_info.frame_count = pimgdata_info.img_h = pimgdata_info.img_w = 0;
printf("pimgdata_ free !!!!!\n");
// fpgaComm->resetADC();
// fpga_reload();
}
void MultiFrameCapture_8458Color::Fpga_regsAccess_reset(bool enable){
if(fpgaComm.get())
fpgaComm->regsAccess_reset(enable);
if (enable)
{
set_ADC_config_frequency(12);
init_adc_8458();
}
}
void MultiFrameCapture_8458Color::start()
{
if (video.get())
video->start();
}
void MultiFrameCapture_8458Color::MultiFrameCapture_8458Color::stop()
{
if (video.get())
video->stop();
}
bool MultiFrameCapture_8458Color::is_runing()
{
return false;
}
// static void printlog(std::string str)
// {
// std::ofstream o("/root/log.txt",std::ios::app|std::ios::binary);
// if(o.is_open())
// {
// o << str <<std::endl;
// o.close();
// }
// }
void MultiFrameCapture_8458Color::snap()
{
fpgaComm->capture();
printf("snap start !!!!! \n");
b_stop_snap = false;
pimgdata_info.offset = pimgdata_info.frame_count =
pimgdata_info.img_h = pimgdata_info.img_w = 0;
snap_fu = snapthread.enqueue([this]{
auto snap_func = [this](int height,int width, int channels, bool last_frame, unsigned int frame_index)
{
StopWatch sw;
void *data = video->read_frame(500);
if (data)
{
update_imgdatainfo(data,height,width);
printf("memcpy date size = %d times = %f index = %d \n",height*width,sw.elapsed_ms(),frame_index);
}
else
{
printf("!!!!!!!!!! error read frame losted, i = %d \n", frame_index);
//printlog("!!!!!!!!!! error read frame losted");
}
};
int width = 3672*3*(m_config.g200params.dpi == 3 ? 2 : 1)*2;
int height = frame_height;
for (int i = 1; i <= frame_count; i++)
{
curr_frame_snap_index = i;
snap_func(height,width, 0, (i == frame_count), i);
if (b_stop_snap)
{
int snaped_frame_count = fpgaComm->getFrame_counter_val();
printf("!!!!!!!!!! revsed frame count = %d i = %d \n", snaped_frame_count, i);
if (snaped_frame_count > i && snaped_frame_count > 0) // 正常情况下 snaped_frame_count 一定大于0
{
int reversed_frame_count = snaped_frame_count - i;
for (int j = 1; j <= reversed_frame_count; j++)
{
curr_frame_snap_index =j+i;
snap_func(height, width,0, ((i + j) == reversed_frame_count), i + j);
}
}
break; // 跳出当前读取多帧循环
}
}
printf("snap end !!!!! \n"); });
}
void MultiFrameCapture_8458Color::snap(frame_data_info info)
{
printf("snap start !!!!! \n");
b_stop_snap = false;
info.offset = info.frame_count = info.img_h = info.img_w = 0;
snap_fu = snapthread.enqueue([this, info]{
frame_data_info frame_info {0};
frame_info.pdata = info.pdata;
frame_info.total = info.total;
auto snap_func = [this,&frame_info](int height,int width, int channels, bool last_frame, unsigned int frame_index)
{
StopWatch sw;
void *data = video->read_frame(500);
if (data)
{
update_imgdatainfo(data,frame_info,height,width);
printf("memcpy date size = %d times = %f index = %d \n",height*width,sw.elapsed_ms(),frame_index);
}
else
printf("!!!!!!!!!! error read frame losted, i = %d \n", frame_index);
};
int width = 3672*3*(m_config.g200params.dpi == 3 ? 2 : 1)*2;
int height = frame_height;
for (int i = 1; i <= frame_count; i++)
{
curr_frame_snap_index = i;
snap_func(height,width, 0, (i == frame_count), i);
if (b_stop_snap)
{
int snaped_frame_count = fpgaComm->getFrame_counter_val();
printf("!!!!!!!!!! revsed frame count = %d i = %d \n", snaped_frame_count, i);
if (snaped_frame_count > i && snaped_frame_count > 0) // 正常情况下 snaped_frame_count 一定大于0
{
int reversed_frame_count = snaped_frame_count - i;
for (int j = 1; j <= reversed_frame_count; j++)
{
curr_frame_snap_index = i+j;
snap_func(height, width,0, ((i + j) == reversed_frame_count), i + j);
}
}
break; // 跳出当前读取多帧循环
}
}
pimgdata_info = frame_info;
printf("snap end !!!!! \n"); });
}
cv::Size MultiFrameCapture_8458Color::frame_data_size()
{
return {2 * 3672*3*(m_config.g200params.dpi == 3 ? 2 : 1), frame_height * frame_count};
}
void MultiFrameCapture_8458Color::stopsnap()
{
b_stop_snap = true;
if(snap_fu.valid()) snap_fu.get();
}
int MultiFrameCapture_8458Color::getautosizeheight()
{
unsigned int val;
unsigned int reg8 = 0;
fpgaComm->read(8, reg8);
// std::cout << "1 reg[8]:" << string_format("0x%08x", reg8) << std::endl;
// fpgaComm->update(4);
fpgaComm->read(14, val);
int regv = val;
val &= 0x0000ffff;
// std::cout << string_format("ONE height = %d reg[14] = %d \n", val, regv);
// fpgaComm->update(5);
fpgaComm->write(8, reg8 & 0xfffffff7);
// std::cout << string_format("ONE reg[8] = %d \n", reg8 & 0xfffffff7);
std::this_thread::sleep_for(std::chrono::milliseconds(5));
// fpgaComm->update(6);
fpgaComm->read(14, val);
regv = val;
val &= 0x0000ffff;
fpgaComm->read(8, reg8);
// std::cout << "2 reg[8]:" << string_format("0x%08x", reg8) << std::endl;
std::cout << string_format("TWO height = %d reg[14] = %d \n", val, regv);
std::this_thread::sleep_for(std::chrono::milliseconds(5));
fpgaComm->write(8, reg8 | 0x8);
// fpgaComm->write(8,0x02260008);
// fpgaComm->update(7);
// fpgaComm->read(8, reg8);
// std::cout << "2 reg[8]:" << string_format("0x%08x", reg8) << std::endl;
return val;
// return fpgaComm->getFrameHeight();
}
void MultiFrameCapture_8458Color::set_size(int width, int height)
{
if (video.get())
video->set_size(width, height);
}
void MultiFrameCapture_8458Color::set_sp(int sp)
{
fpgaComm->setSp(sp);
}
void *MultiFrameCapture_8458Color::readFrame(int timeout)
{
return video->read_frame(timeout);
}
cv::Mat MultiFrameCapture_8458Color::read_one_frame()
{
return cv::Mat();
}
frame_data_info MultiFrameCapture_8458Color::ReadMultiFrame(int state)
{
printf(" ReadMultiFrame state : %d \n", state);
if (state & 1)
b_stop_snap = true;
if (snap_fu.valid())
snap_fu.get();
if ((state & 0x2) || (!pimgdata_info.pdata))
return {0};
return pimgdata_info;
}
void MultiFrameCapture_8458Color::set_gain(int ix, int val)
{
for (int i = 0; i < 6; i++)
{
if (ix)
fpgaComm->setAGain(i, val);
else
fpgaComm->setBGain(i, val);
}
}
void MultiFrameCapture_8458Color::set_offset(int ix, int val)
{
for (int i = 0; i < 6; i++)
{
if (ix)
fpgaComm->setAOffset(i, val);
else
fpgaComm->setBOffset(i, val);
std::this_thread::sleep_for(std::chrono::milliseconds(1));
}
}
void MultiFrameCapture_8458Color::set_expo(int ix, int val)
{
switch (ix)
{
case 0:
fpgaComm->setAExposureR(val);
break;
case 1:
fpgaComm->setAExposureG(val);
break;
case 2:
fpgaComm->setAExposureB(val);
break;
case 3:
fpgaComm->setBExposureR(val);
break;
case 4:
fpgaComm->setBExposureG(val);
break;
case 5:
fpgaComm->setBExposureB(val);
break;
default:
break;
}
std::this_thread::sleep_for(std::chrono::milliseconds(1));
}
std::shared_ptr<IRegsAccess> MultiFrameCapture_8458Color::regs()
{
return fpgaComm;
}
void MultiFrameCapture_8458Color::reset()
{
fpga_reset();
std::this_thread::sleep_for(std::chrono::milliseconds(1000));
fpgaComm->resetADC();
// fpgaComm->setDelayTime(0X3e8);
// fpgaComm->setRegs(0x00, fpgaComm->getRegs(0x00));
// fpgaComm->setRegs(0x01, fpgaComm->getRegs(0x01));
}
int MultiFrameCapture_8458Color::width()
{
// int dpi = fpgaComm->getDpi();
// int channel = 1;
// int width = dpi == 0x02 ? 1296 * channel : (dpi == 0x03 ? (2592 * channel) : (864 * channel));
// printf("get width = %d \n", width);
//return width;
return 3672 *(m_config.g200params.dpi == 3 ? 2 : 1);
}
int MultiFrameCapture_8458Color::height()
{
return fpgaComm->getFrameHeight();
}
int MultiFrameCapture_8458Color::color()
{
return fpgaComm->getColorMode() ? 16 : 0;
}
void MultiFrameCapture_8458Color::init_autocorrect(int colormode)
{
std::thread t_correctthread = std::thread(&MultiFrameCapture_8458Color::correctcolor, this, colormode);
t_correctthread.detach();
}
void MultiFrameCapture_8458Color::configFPGAParam(int mode, int dpi)
{
printf("dpi = %d mode = %d \n", dpi, mode);
//fpgaComm->resetADC();
FPGAConfigParam fpgaparam = GetFpgaparam(dpi, mode);
// int offF[6]={0,0,0,0,0,200};
// int offB[6]={0,0,0,0,0,0};
for (int i = 0; i < 6; i++)
{
if (i < 3)
{
set_expo(i, fpgaparam.ExposureF[i]);
printf("fpgaparam.ExposureF[%d] = %d \n", i, fpgaparam.ExposureF[i]);
}
else
{
set_expo(i, fpgaparam.ExposureB[i % 3]);
printf("fpgaparam.ExposureB[%d] = %d \n", i, fpgaparam.ExposureB[i % 3]);
}
std::this_thread::sleep_for(std::chrono::milliseconds(3));
fpgaComm->setAOffset(i, fpgaparam.OffsetF[i]);
// fpgaComm->setAOffset(i,offF[i]);
printf("fpgaparam.setAOffset[%d] = %d \n", i, fpgaparam.OffsetF[i]);
std::this_thread::sleep_for(std::chrono::milliseconds(3));
fpgaComm->setBOffset(i, fpgaparam.OffsetB[i]);
// fpgaComm->setBOffset(i, offB[i]);
printf("fpgaparam.OffsetB[%d] = %d \n", i, fpgaparam.OffsetB[i]);
std::this_thread::sleep_for(std::chrono::milliseconds(3));
fpgaComm->setAGain(i, fpgaparam.GainF[i]);
printf("fpgaparam.GainF[%d] = %d \n", i, fpgaparam.GainF[i]);
std::this_thread::sleep_for(std::chrono::milliseconds(3));
fpgaComm->setBGain(i, fpgaparam.GainB[i]);
printf("fpgaparam.GainB[%d] = %d \n", i, fpgaparam.GainB[i]);
std::this_thread::sleep_for(std::chrono::milliseconds(3));
}
}
void MultiFrameCapture_8458Color::openDevice(int dpi, int mode)
{
fpgaComm->set_cis_type(true);
int config_dpi = dpi == 1 ? 2 : dpi;
int channelwidth = config_dpi == 0x02 ? 1296 : (config_dpi == 0x03 ? 2592 : 864);
int channels = mode == 0x01 ? 3 : 1;
int width = channelwidth * channels;
int c_frame_height = mode == 0x01 ? 100 * 3 : 100;
FPGAConfigParam fpgaparam = GetFpgaparam(dpi, mode);
fpgaComm->read(15,m_fpgaversion);
printf("m_fpgaversion =%d \n",m_fpgaversion);
int startsample = 208;
printf("fpgaparam.sp=%d exp=%d gain=%d offset=%d LUT=%s", fpgaparam.Sp, fpgaparam.ExposureB[0], fpgaparam.GainB[0], fpgaparam.OffsetB[0], fpgaparam.LutPath.c_str());
// int startsample= cistype.GetCisType()==CISVendor::DUNNAN_CIS_V0?205:262;
float v_ratio = *((float*)(&fpgaparam.VRatio));
fpgaparam.Sp *= v_ratio;
printf("\n openDevice apply sp = %d, v_ratio =%f",fpgaparam.Sp,v_ratio);
ModeFpga fpgamod = {
.colorMode = mode,
.dpi = config_dpi,
.led = 1,
.sample = startsample, // 256+39
.adcA = 0,
.adcB = 0,
.selftest = 0,
.sp = fpgaparam.Sp}; // 600DPI 0x1450 300DPI 0xe10
fpgaComm->setRegs(0x01, *((int *)(&fpgamod)));
fpgaComm->setSample(startsample);
fpgaComm->enableLed(true);
fpgaComm->setEnTestCol(false);
fpgaComm->setEnTestBit(false);
set_dpi_mode(dpi == 3);
configFPGAParam(mode, dpi);
fpgaComm->setFrame_interval_max(0x1010); //dpi > 2 ? 7200 : 3600
fpgaComm->setFrame_interval_min(0xa98); //dpi > 2 ? 900 : 1540
video->open(width, 100 * 2); // 300dpi 7344/2 600dpi 7344 //FRAME_HEIGHT * 2
printf("opened video with width = %d height = %d \n", width, c_frame_height);
fpgaComm->setFrameHeight(c_frame_height);
fpgaComm->setFrameNum(1);
for (int i = 0; i < 1; i++)
{
fpgaComm->capture(); // abort first frame
video->read_frame(200);
std::this_thread::sleep_for(std::chrono::milliseconds(20));
printf("abort first frame \n");
}
}
void MultiFrameCapture_8458Color::creatcorrectconfig(int dpi, int mode)
{
printf(" opendevice");
openDevice(dpi, mode);
printf(" opendevice end ");
bool isDone = false;
int i = 1;
initStep1();
while (!isDone) //先暗场
{
std::string log = "==============================第" + std::to_string(i) + "次===============================";
ft_m_log.append_log(log);
configFPGAParam(mode, dpi);
ft_m_log.append_log(log);
fpgaComm->enableLed(false);
std::this_thread::sleep_for(std::chrono::milliseconds(3));
fpgaComm->capture();
std::this_thread::sleep_for(std::chrono::milliseconds(3));
isDone = saveLutImg(dpi, mode, true); // 0 color_black 1 color_white 2 gray_balck 3 gray_white
i++;
}
i = 1;
isDone = false;
initStep1();
while (!isDone) //后明场
{
configFPGAParam(mode, dpi);
std::string log = "==============================第" + std::to_string(i) + "次===============================";
ft_m_log.append_log(log);
fpgaComm->enableLed(true);
std::this_thread::sleep_for(std::chrono::milliseconds(3));
fpgaComm->capture();
std::this_thread::sleep_for(std::chrono::milliseconds(3));
isDone = saveLutImg(dpi, mode, false);
i++;
}
printf("creatcorrectconfig %s \n", (mode == IMAGE_COLOR ? " Color" : " Gray"));
//creatLUTData(dpi, mode);
video->close();
}
static int savelutindex = 0;
bool MultiFrameCapture_8458Color::saveLutImg(int dpi, int mode, bool black)
{
int config_dpi = dpi == 1 ? 2 : dpi;
int offset_indexs[] = {0, 1, 2, 5, 4, 3, 3, 4, 5, 2, 1, 0};
int channels = mode == IMAGE_COLOR ? 3 : 1;
int height = 100;
int width = config_dpi == 0x02 ? 1296 : (config_dpi == 0x03 ? 2592 : 864);
int orgimgwidth = width * 2 * 3 * channels;
int dstwidth = width * 2 * 3;
bool isNeedSave = true;
std::string log;
void *data = video->read_frame(10000);
if (data == NULL)
{
isNeedSave = false;
log = "WARNNING WARNNING WARNNING FAILDED TO READ IMAGE DATA !!!!!!!!!!!!!!!!!!!\r\n";
ft_m_log.append_log(log);
if (m_captureCallback)
m_captureCallback(mode, log);
return isNeedSave;
}
cv::Mat src(height, orgimgwidth, CV_8UC1, data);
//cv::imwrite(std::to_string(savelutindex++) + ".jpg", src);
CImageMerge t_marge;
cv::Mat mrgmat = t_marge.MergeImage(mode == 0x01, src, dstwidth, height,m_fpgaversion);
mrgmat = mrgmat(cv::Rect(0,20,mrgmat.cols,mrgmat.rows-20));
// return false;
FPGAConfigParam param = GetFpgaparam(dpi, mode);
if (black) //暗场
{
double offValues[12];
std::vector<bool> bflags;
for (volatile int n = 0; n < 2; n++)
{
cv::Mat img = mrgmat(cv::Rect(mrgmat.cols * n / 2, 10, mrgmat.cols / 2, mrgmat.rows - 10)).clone();
int offset_total = 0;
for (volatile int s = 0; s < 6; s++) //
{
int k = n * 6 + s;
int offset_wdth;
if ((k == 5) || (k == 6))
{
offset_wdth = config_dpi == 0x03 ? 864 : (config_dpi == 0x02 ? 432 : 288);
}
else
{
offset_wdth = config_dpi == 0x03 ? 1296 : (config_dpi == 0x02 ? 648 : 432);
}
double min,max;
//auto t_mat= img(cv::Rect(offset_total, 10, offset_wdth, img.rows - 10));
//cv::minMaxLoc(t_mat,&min,&max);
cv::Scalar mean = cv::mean(img(cv::Rect(offset_total, 10, offset_wdth, img.rows - 10)));
//printf("AAAAAAAAAAAAAAAAAAAAAAAAAAA min = %.2f max= %.2f mean = %0.2f \n",min,max);
offset_total += offset_wdth;
offValues[k] = mean.val[0];
printf("\noffValues[%d] = %f",k,mean.val[0]);
bflags.push_back(false);
//offValues[k] = min;
}
}
// std::string clrmode = (mode == 0x01 ? "彩色" : " 灰度");
// log = "开始" + clrmode + "暗场校正 \n";
for (volatile int s = 0; s < 2; s++)
{
int offsets[6]; // = (int *)(s == 0 ? &param.OffsetF[0] : &param.OffsetB[0]);
memcpy(offsets, (s == 0 ? &param.OffsetF[0] : &param.OffsetB[0]), sizeof(param.OffsetF));
for (volatile int j = 0; j < 6; j++)
{
int k = s * 6 + j;
double diff = BLACK_DIFF(offValues[k]);
//double diff = 3-offValues[k];
double step = radio * diff;
int preStep = offsetStep1[k];
printf("offsetStep1[%d]=%d \n",k,offsetStep1[k]);
if (step * preStep < 0)
{
step = 0 - preStep / 2;
}
else
{
radio = 1;
}
if (step < 1 && step > 0)
step = 1;
if (step < 0 && step > -1)
step = -1;
// FMT_STEP(step);
bool isMinStep = abs(step) == 1 && step == offsetStep1[k];
bool isOutBounds = offsets[j] >= 255 && step > 0;
isOutBounds |= offsets[j] <= 0 && step < 0;
log += " 暗场校正 :" + std::to_string(k) + ";diff:" + std::to_string(diff) + ";light:" + std::to_string(offValues[k]) + ";offset:" + std::to_string(offsets[j]) + ";step:" + std::to_string(step) + "\r\n";
if (isOutBounds)
log += "" + std::to_string(k) + "条带暗场校正异常,暗场值无法降低 \r\n";
else if (abs(step) > 1 || isMinStep)
{
offsetStep1[k] = (int)(step);
offsets[offset_indexs[k]] += step;
log += "offsetStep1" + std::to_string(k) + " = " + std::to_string(offsetStep1[k]) + ", offset_indexs" + std::to_string(k) + " =" + std::to_string(offset_indexs[k]) + "\r\n";
if (offsets[offset_indexs[k]] < 1)
offsets[offset_indexs[k]] = 1;
if (offsets[offset_indexs[k]] > 255)
offsets[offset_indexs[k]] = 255;
//isNeedSave = false;
bflags[k] = false;
}
else
{
bflags[k] = true;
printf("channel[%d] black correct done\n",k);
}
log += (s == 0 ? "彩色正面" : "彩色背面");
log += "偏移值:" + std::to_string(offsets[0]) + "," + std::to_string(offsets[1]) + "," + std::to_string(offsets[2]) + "," + std::to_string(offsets[3]) + "," + std::to_string(offsets[4]) + "," + std::to_string(offsets[5]) + "\r\n";
// log += (s == 0 ? "彩色正面暗场校正完成 \r\n" : "彩色背面暗场校正完成 \r\n");
ft_m_log.append_log(log);
if (m_captureCallback)
m_captureCallback(mode, log);
log = "";
}
auto siez = sizeof(param.OffsetF);
memcpy((s == 0 ? &param.OffsetF[0] : &param.OffsetB[0]), offsets, sizeof(param.OffsetF));
}
for(int i = 0;i<bflags.size();i++)
{
if(!bflags[i])
isNeedSave=false;
}
if (isNeedSave)
{
printf("Save LUT image path :%s \n", param.Flat_BwPath.c_str());
log = "暗场校正完成 \r\n";
if (m_captureCallback)
m_captureCallback(mode, log);
// log ="";
imwrite(param.Flat_BwPath, mrgmat);
}
}
else //明场
{
if (mode == IMAGE_COLOR)
{
double values[2][3];
cv::Scalar a = cv::mean(mrgmat(cv::Rect(0, 0, mrgmat.cols / 2, mrgmat.rows)));
cv::Scalar b = cv::mean(mrgmat(cv::Rect(mrgmat.cols / 2, 0, mrgmat.cols / 2, mrgmat.rows)));
for (int j = 0; j < 3; j++)
{
values[0][j] = a.val[2 - j];
values[1][j] = b.val[2 - j];
}
log = "开始彩色明场校正 \r\n";
if (m_captureCallback)
m_captureCallback(mode, log);
for (int s = 0; s < 2; s++)
{
int exposures[3]; // = (int *)(s == 0 ? param.ExposureF : param.ExposureB);
memcpy(exposures, (s == 0 ? &param.ExposureF[0] : &param.ExposureB[0]), sizeof(param.ExposureB));
for (int x = 0; x < 3; x++)
{
int k = (3 * s + x);
int diff = LIGHT_DIFF(param.MaxBright, *((double *)values + k));
log += " 明场:" + std::to_string(k) + ";diff" + std::to_string(diff) + "\r\n";
if(abs(diff) > 30)
radio = 2;
else
radio = 1;
double step = diff * radio;
int preStep = *((int *)expStep + k);
if (step * preStep < 0)
{
step = 0 - preStep / 2;
}
if (step < 1 && step > 0)
step = 1;
if (step < 0 && step > -1)
step = -1;
bool isMinStep = abs(step) == 1 && step == *((int *)expStep + k);
bool isOutBounds = exposures[x] >= (param.Sp -5) && step > 0;
isOutBounds |= exposures[x] <= 0 && step < 0;
if (isOutBounds)
log += "" + std::to_string(x) + "个明场校正异常 \r\n";
else if (abs(diff) >= 1 || isMinStep)
{
*((int *)expStep + k) = (int)(step);
exposures[x] += step;
if (exposures[x] > (param.Sp -5))
{
exposures[x] = (param.Sp -5);
}
if (exposures[x] < 0)
exposures[x] = 0;
isNeedSave = false;
}
log += " 曝光值:" + std::to_string(exposures[x]) + "\r\n";
log += " 调整步长:" + std::to_string(*((int *)expStep + k)) + "\r\n";
}
memcpy((s == 0 ? &param.ExposureF[0] : &param.ExposureB[0]), exposures, sizeof(param.ExposureB));
}
ft_m_log.append_log(log);
if (m_captureCallback)
m_captureCallback(mode, log);
if (isNeedSave)
{
log = "彩色明场校正完成\r\n";
if (m_captureCallback)
m_captureCallback(mode, log);
// log ="";
imwrite(param.Flat_WhitePath, mrgmat);
}
}
else
{
double values[2];
values[0] = cv::mean(mrgmat(cv::Rect(0, 0, mrgmat.cols / 2, mrgmat.rows))).val[0];
values[1] = cv::mean(mrgmat(cv::Rect(mrgmat.cols / 2, 0, mrgmat.cols / 2, mrgmat.rows))).val[0];
log = "-----开始灰色明场校正-----\r\n";
log += " 灰色扫描灰度明场均值:" + std::to_string(values[0]) + "," + std::to_string(values[1]) + "\r\n";
if (m_captureCallback)
m_captureCallback(mode, log);
for (int s = 0; s < 2; s++)
{
int *exposures = (int *)(s == 0 ? param.ExposureF : param.ExposureB);
int diff = LIGHT_DIFF(param.MaxBright, values[s]);
if(abs(diff) > 30)
radio = 2;
else
radio = 1;
double step = diff * radio;
log += " 明场:" + std::to_string(s) + ";diff" + std::to_string(diff) + "\r\n";
int preStep = expStep[s][0];
if (step * preStep < 0)
{
step = 0 - preStep / 2;
}
else
{
radio = 1;
}
if (step < 1 && step > 0)
step = 1;
if (step < 0 && step > -1)
step = -1;
int exp = *(exposures + 1);
// std::string ss1(string_format("exp[%d] = %d step = %.3f \r\n", s, exp, step));
// log += ss1;
bool isMinStep = abs(step) == 1 && step == expStep[s][0];
bool isOutBounds = exp >= (param.Sp -5) && step > 0;
isOutBounds |= exp <= 0 && step < 0;
if (isOutBounds)
log += "" + std::to_string(s) + "个明场校正异常 \r\n";
else if (abs(diff) > 1 || isMinStep)
{
exp += step;
if (exp < 0)
exp = 0;
if (exp >(param.Sp -5))
exp = (param.Sp -5);
float coffe[3] = {1, 1, 1}; // 0.2, 1,0.51
for (int k = 0; k < 3; k++)
{
*(exposures + k) = (int)(exp * coffe[k]);
expStep[s][k] = (int)(step);
std::string exps(string_format("expStep[%d][%d] = %.3f\r\n", s, k, step));
log += exps;
std::string ss(string_format("exposures[%d] = %0.3f \r\n", k, exposures[k]));
log += ss;
}
isNeedSave = false;
}
}
ft_m_log.append_log(log);
if (m_captureCallback)
m_captureCallback(mode, log);
if (isNeedSave)
{
printf("Save LUT image path :%s \n", param.Flat_WhitePath.c_str());
log = "灰度明场校正完成\r\n";
if (m_captureCallback)
m_captureCallback(mode, log);
log = "";
imwrite(param.Flat_WhitePath, mrgmat);
}
}
}
SaveFpgaparam(param);
printf("exit Save_lut \n");
return isNeedSave;
}
void MultiFrameCapture_8458Color::correctcolor(int correctmode)
{
printf(" correctcolor start \n");
auto _start = std::chrono::steady_clock::now();
ThreadPool pool(2);
std::queue<std::future<void>> fu_correct;
std::string loginfo = "Start Correctcolor 200DPI COLOR \r\n";
// if (m_captureCallback)
// m_captureCallback(0x01, loginfo);
creatcorrectconfig(0x01, IMAGE_COLOR);
auto param = GetFpgaparam(0x01,IMAGE_COLOR);
fu_correct.emplace(pool.enqueue([param](){creatLUTData(0x01,IMAGE_COLOR,param);}));
loginfo = "-----------200DPI COLOR Correct Done----------- \r\n\r\n Start Correctcolor 200DPI GRAY \r\n";
if (m_captureCallback)
m_captureCallback(0x01, loginfo);
creatcorrectconfig(0x01, IMAGE_GRAY);
param = GetFpgaparam(0x01,IMAGE_GRAY);
fu_correct.emplace(pool.enqueue([param](){creatLUTData(0x01,IMAGE_GRAY,param);}));
loginfo = "-----------200DPI Gray Correct Done----------- \r\n\r\n Start Correctcolor 200DPI COLOR \r\n";
if (m_captureCallback)
m_captureCallback(0x02, loginfo);
creatcorrectconfig(0x02, IMAGE_COLOR);
param = GetFpgaparam(0x02,IMAGE_COLOR);
fu_correct.emplace(pool.enqueue([param](){creatLUTData(0x02,IMAGE_COLOR,param);}));
loginfo = "-----------300DPI COLOR Correct Done----------- \r\n\r\n Start Correctcolor 300DPI GRAY \r\n";
if (m_captureCallback)
m_captureCallback(0x02, loginfo);
creatcorrectconfig(0x02, IMAGE_GRAY);
param = GetFpgaparam(0x02,IMAGE_GRAY);
fu_correct.emplace(pool.enqueue([param](){creatLUTData(0x02,IMAGE_GRAY,param);}));
loginfo = "-----------300DPI Gray Correct Done----------- \r\n\r\n Start Correctcolor 600DPI COLOR \r\n";
while(fu_correct.size())
{
fu_correct.front().get();
fu_correct.pop();
}
loginfo = "******Correct Done****** time " + std::to_string(std::chrono::duration<double>(std::chrono::steady_clock::now() - _start).count())+"s";
if (m_captureCallback)
m_captureCallback(0x03, loginfo);
}
void MultiFrameCapture_8458Color::fpga_reset()
{
reset_pin->setValue(Gpio::Low);
std::this_thread::sleep_for(std::chrono::milliseconds(50));
reset_pin->setValue(Gpio::High);
std::this_thread::sleep_for(std::chrono::milliseconds(50));
}
void MultiFrameCapture_8458Color::fpga_reload()
{
// fpga 代码重载
fpgaLoad->setValue(Gpio::Low);
std::this_thread::sleep_for(std::chrono::milliseconds(15));
fpga_conf_initn->setValue(Gpio::Low);
std::this_thread::sleep_for(std::chrono::milliseconds(15));
printf("\n fpga_conf_done value %d",fpga_conf_done->getValue());
fpgaLoad->setValue(Gpio::High);
std::this_thread::sleep_for(std::chrono::milliseconds(15));
fpga_conf_initn->setValue(Gpio::High);
//std::this_thread::sleep_for(std::chrono::milliseconds(5));
printf("\n fpga_conf_done value %d",fpga_conf_done->getValue());
// while(fpga_conf_done->getValue() == Gpio::GpioLevel::Low)
// std::this_thread::sleep_for(std::chrono::milliseconds(5));
std::this_thread::sleep_for(std::chrono::seconds(3));
printf("\n fpga_conf_done value %d",fpga_conf_done->getValue());
fpgaComm->resetADC();
fpgaComm->update(0);
}
void MultiFrameCapture_8458Color::init_imagedatabuffer()
{
printf("pimgdata_info.pdata = %p \n", pimgdata_info.pdata);
if (pimgdata_info.pdata)
{
free(pimgdata_info.pdata);
pimgdata_info.pdata = nullptr;
}
if (frame_count != 0)
{
int t_frame_count = fpgaComm->getFrameNum();
int width = this->width()*(m_config.g200params.color ? 3 : 1);
int height = frame_height*2;
pimgdata_info.pdata = malloc(height * t_frame_count*width );
pimgdata_info.total = height * t_frame_count;
pimgdata_info.offset = 0;
pimgdata_info.frame_count = 0;
pimgdata_info.img_h = 0;
pimgdata_info.img_w = 0;
printf("pimgdata_info.pdata = %p malloc_size = %d \n", pimgdata_info.pdata, height * t_frame_count*width,t_frame_count,width,height);
}
}
void MultiFrameCapture_8458Color::free_imagedatabuffer()
{
if (pimgdata_info.pdata)
{
free(pimgdata_info.pdata);
pimgdata_info.pdata = nullptr;
}
printf("--- free pimgdata_info.pdata --- \n");
}
// static void neon_memcpy(volatile void *dst, volatile void *src, int sz)
// {
// if (sz & 63)
// sz = (sz & -64) + 64;
// asm volatile (
// "NEONCopyPLD: \n"
// " VLDM %[src]!,{d0-d7} \n"
// " VSTM %[dst]!,{d0-d7} \n"
// " SUBS %[sz],%[sz],#0x40 \n"
// " BGT NEONCopyPLD \n"
// : [dst]"+r"(dst), [src]"+r"(src), [sz]"+r"(sz) : : "d0", "d1", "d2", "d3", "d4", "d5", "d6", "d7", "cc", "memory");
// }
void MultiFrameCapture_8458Color::update_imgdatainfo(void *itemmat, frame_data_info &info, uint32_t h, uint32_t w)
{
// StopWatch sw;
if (info.pdata && itemmat)
{
// neon_memcpy(pimgdata_info.pdata + pimgdata_info.offset,itemmat,h*w);
memcpy(info.pdata + info.offset, itemmat, h * w);
info.offset += h * w;
info.frame_count++;
info.img_h += h;
info.img_w = w;
// printf("offset = %d item_total = %d \n", pimgdata_info.offset,pimgdata_info.frame_count);
}
// printf("size = %d frame memcpy time = %fms \n", h*w,sw.elapsed_ms());
}
void MultiFrameCapture_8458Color::update_imgdatainfo(void *itemmat, uint32_t h, uint32_t w)
{
if (pimgdata_info.pdata && itemmat)
{
memcpy(pimgdata_info.pdata + pimgdata_info.offset, itemmat, h * w);
pimgdata_info.offset += h * w;
pimgdata_info.frame_count++;
pimgdata_info.img_h += h;
pimgdata_info.img_w = w;
}
}
void MultiFrameCapture_8458Color::init_adc_8458()
{
std::this_thread::sleep_for(std::chrono::milliseconds(100));
for(int i =0;i<192;i++){
write_adc_8458(bank_change[i/64],i%64,bank_value[i],1);
write_adc_8458(bank_change[i/64],i%64,bank_value[i],0);
}
std::this_thread::sleep_for(std::chrono::milliseconds(100));
}
void MultiFrameCapture_8458Color::write_adc_8458(int bank, int addr, int val,bool A_or_B)
{
uint32_t reg5 = 0;
fpgaComm->read(5,reg5);
fpgaComm->write(5,reg5|0xc000); // adc 配置使能打开
//std::this_thread::sleep_for(std::chrono::milliseconds(1));
adc_8458_param p_adc{0};
p_adc.param.r_or_w_h = p_adc.param.r_or_w_l = 1;
p_adc.param.addr_l = 0;
p_adc.param.addr_h = addr;
p_adc.param.val_l = bank;
p_adc.param.val_h = val;
fpgaComm->write(A_or_B ?4:7,p_adc.value);
uint32_t reg1_v;
fpgaComm->read(1,reg1_v);
Mode_FPGA reg1 = *((Mode_FPGA*)&reg1_v);
A_or_B ? reg1.adcA = 1 :reg1.adcB = 1 ;
fpgaComm->write(1,*((uint32_t*)&reg1));
A_or_B ? reg1.adcA = 0 :reg1.adcB = 0 ;
fpgaComm->write(1,*((uint32_t*)&reg1));
//std::this_thread::sleep_for(std::chrono::milliseconds(1));
fpgaComm->write(5,reg5&0xffff3fff);// adc 配置使能关闭
}
uint32_t MultiFrameCapture_8458Color::read_adc_8458(int bank, int addr,bool A_or_B)
{
uint32_t reg5 = 0;
fpgaComm->read(5,reg5);
fpgaComm->write(5,reg5|0xc000); // adc 配置使能打开
std::this_thread::sleep_for(std::chrono::milliseconds(1));
adc_8458_param p_adc{0};
p_adc.param.r_or_w_h = 1;
p_adc.param.r_or_w_l = 3;
p_adc.param.addr_l = 0;
p_adc.param.addr_h = addr;
p_adc.param.val_l = bank;
p_adc.param.val_h = 0;
fpgaComm->write(A_or_B ?4:7,p_adc.value);
uint32_t reg1_v;
fpgaComm->read(1,reg1_v);
Mode_FPGA reg1 = *((Mode_FPGA*)&reg1_v);
A_or_B ? reg1.adcA = 1 :reg1.adcB = 1 ;
fpgaComm->write(1,*((uint32_t*)&reg1));
A_or_B ? reg1.adcA = 0 :reg1.adcB = 0 ;
fpgaComm->write(1,*((uint32_t*)&reg1));
std::this_thread::sleep_for(std::chrono::milliseconds(1));
fpgaComm->write(5,reg5&0xffff3fff);// adc 配置使能关闭
uint32_t read_reg =0;
fpgaComm->read(3,read_reg);
return read_reg;
}
void MultiFrameCapture_8458Color::set_dpi_mode(bool is_600)
{
if(is_600)
{
write_adc_8458(bank_change[2],0x14,0x01,false);
write_adc_8458(bank_change[2],0x14,0x01,true);
write_adc_8458(bank_change[2],0x16,0x01,false);
write_adc_8458(bank_change[2],0x16,0x01,true);
}
else
{
write_adc_8458(bank_change[2],0x14,0x02,false);
write_adc_8458(bank_change[2],0x14,0x02,true);
write_adc_8458(bank_change[2],0x16,0x03,false);
write_adc_8458(bank_change[2],0x16,0x03,true);
}
}
void MultiFrameCapture_8458Color::set_exp_8458_double(int exp, int sp,bool A_or_B)
{
int pix_counter = (sp -10) /2;
set_pixel_count_8458(pix_counter);
int exp_max = pix_counter - 80 - 80 - 10;
if((exp * 2) > exp_max)
exp = exp_max / 2;
write_adc_8458(bank_change[1],1,0,A_or_B);
write_adc_8458(bank_change[1],2,80,A_or_B);
write_adc_8458(bank_change[1],3,((exp+80)&0xff00)/0x100,A_or_B);
write_adc_8458(bank_change[1],4,(exp+80)&0xff,A_or_B);
write_adc_8458(bank_change[1],5,((pix_counter/2+80)&0xff00)/0x100,A_or_B);
write_adc_8458(bank_change[1],6,(pix_counter/2+80)&0xff,A_or_B);
write_adc_8458(bank_change[1],7,((pix_counter/2+exp+80)&0xff00)/0x100,A_or_B);
write_adc_8458(bank_change[1],8,(pix_counter/2+exp+80)&0xff,A_or_B);
}
void MultiFrameCapture_8458Color::set_led_off()
{
for(int i =0; i < 2 ;i++){
write_adc_8458(bank_change[1],1,0,i); //led off
write_adc_8458(bank_change[1],2,0,i);
write_adc_8458(bank_change[1],3,0,i);
write_adc_8458(bank_change[1],4,0,i);
write_adc_8458(bank_change[1],5,0,i);
write_adc_8458(bank_change[1],6,0,i);
write_adc_8458(bank_change[1],7,0,i);
write_adc_8458(bank_change[1],8,0,i);
}
}
void MultiFrameCapture_8458Color::set_exp_8458_single(int exp,int sp,bool A_or_B){
int pix_counter = (sp -10) /2;
set_pixel_count_8458(pix_counter);
int exp_max = pix_counter - 80 - 10;
if(exp > exp_max)
exp = exp_max;
write_adc_8458(bank_change[1],1,0,A_or_B);
write_adc_8458(bank_change[1],2,1,A_or_B);
write_adc_8458(bank_change[1],3,((exp+80)&0xff00)/0x100,A_or_B);
write_adc_8458(bank_change[1],4,(exp+80)&0xff,A_or_B);
write_adc_8458(bank_change[1],5,0,A_or_B);
write_adc_8458(bank_change[1],6,0,A_or_B);
write_adc_8458(bank_change[1],7,0,A_or_B);
write_adc_8458(bank_change[1],8,0,A_or_B);
}
void MultiFrameCapture_8458Color::set_pixel_count_8458(int val)
{
write_adc_8458(bank_change[0],54,(val&0xff00)/0x100,true);
write_adc_8458(bank_change[0],54,(val&0xff00)/0x100,false);
write_adc_8458(bank_change[0],55,val&0xff,true);
write_adc_8458(bank_change[0],55,val&0xff,false);
}
void MultiFrameCapture_8458Color::set_analog_gain_8458(int r1, int r2, int g1, int g2, int b1, int b2, bool A_or_B)
{
write_adc_8458(bank_change[0],10,r1*0x10+g1,A_or_B); //max 7
write_adc_8458(bank_change[0],11,b1*0x10+r2,A_or_B);
write_adc_8458(bank_change[0],12,g2*0x10+b2,A_or_B);
}
void MultiFrameCapture_8458Color::set_analog_offset_8458(int type,int val,bool A_or_B){
if(type >=4 && type <= 9)
write_adc_8458(bank_change[0],type,val,A_or_B); //max 32 299mv 8.3mv
}
void MultiFrameCapture_8458Color::set_digital_offset_8458(int type,int val, bool A_or_B)
{
int addr = 13 + type*2;
write_adc_8458(bank_change[0],addr,(val&0x700)/0x100,A_or_B);
write_adc_8458(bank_change[0],addr+1,val&0xff,A_or_B);
}
void MultiFrameCapture_8458Color::set_digital_gain_8458(int type,int val, bool A_or_B)
{
int addr = 19 + type*2;
write_adc_8458(bank_change[0],addr,(val&0xff00)/0x100,A_or_B);
write_adc_8458(bank_change[0],addr+1,val&0xff,A_or_B);
}
void MultiFrameCapture_8458Color::set_ADC_config_frequency(uint32_t freq)
{
uint32_t reg2 = 0;
fpgaComm->read(2, reg2);
fpgaComm->write(2, (reg2 & 0xffffffe1) | (freq << 1)); // adc 配置 频率
}
void MultiFrameCapture_8458Color::single_correct(std::uint32_t mode)
{
std::vector<uint32_t> sup_correct_dpi{1, 2, 3, 0x10, 0x11,0x20,0x21};
union correct_mode_
{
struct
{
uint32_t dpi : 16;
uint32_t color_mode : 8;
uint32_t correct_mode : 8;
} param;
uint32_t value;
};
correct_mode_ tmp;
tmp.value = mode;
if (std::count(sup_correct_dpi.begin(), sup_correct_dpi.end(), tmp.param.dpi) && (tmp.param.color_mode < 2))
{
auto param = Get_Static_CorrectParam().GetFpgaparam(tmp.param.dpi, tmp.param.color_mode);
if (tmp.param.correct_mode == 1)
creatLUTData(tmp.param.dpi, tmp.param.color_mode, param);
else if (tmp.param.correct_mode == 2)
creatLUTData_gray(tmp.param.dpi, tmp.param.color_mode, param);
}
}