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camDev/Calib/sourceCode/calib_tb.cpp
jerryzeng c1049417b1 version 1.6.1 
1. fix calib bug: last data output error
2. add frmae lastSync
2025-11-24 18:19:01 +08:00

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#include <fstream>
#include <cstring>
#include <stdio.h>
#include "ap_utils.h"
#include <iostream>
#include "calib.h"
#include "../../globals/tbGlobals.h"
Luma_frameInfo readParaFile(const char* file)
{
std::ifstream inputFile(file);
Luma_frameInfo frameInfo;
std::string strLineTxt;
int data;
getline(inputFile, strLineTxt); //XL
sscanf(strLineTxt.c_str(), "XL:%d", &data);
frameInfo.L = (uint16_t)data;
getline(inputFile, strLineTxt); //XR
getline(inputFile, strLineTxt); //TL
sscanf(strLineTxt.c_str(), "TL:%d", &data);
frameInfo.T = (uint16_t)data;
getline(inputFile, strLineTxt); //TR
getline(inputFile, strLineTxt); //W
sscanf(strLineTxt.c_str(), "W:%d", &data);
frameInfo.W = (uint16_t)data;
getline(inputFile, strLineTxt); //H
sscanf(strLineTxt.c_str(), "H:%d", &data);
frameInfo.H = (uint16_t)data;
getline(inputFile, strLineTxt); //FrmNO
sscanf(strLineTxt.c_str(), "FrmNO:%x", &data);
frameInfo.FrmNo = (uint32_t)data;
getline(inputFile, strLineTxt); //TimStp
sscanf(strLineTxt.c_str(), "TimStp:%x", &data);
frameInfo.TimeStamp = (uint32_t)data;
getline(inputFile, strLineTxt); //EncInfo
sscanf(strLineTxt.c_str(), "EncInfo:%x", &data);
frameInfo.encInfo = (uint32_t)data;
inputFile.close();
return frameInfo;
}
std::vector<RgnSubPix> readSubpixDataFile(
const char* file,
uint16_t* validSize)
{
std::ifstream inputFile(file);
std::string strLineTxt;
int size = 0;
std::vector<RgnSubPix> testData;
RgnSubPix a_line;
uint16_t validNum = 0;
while(getline(inputFile, strLineTxt))
{
if (strLineTxt.empty())
continue;
float x;
int y, Rid, Flag, pkValue, Sync;
#if defined(__linux__)
sscanf(strLineTxt.c_str(), "%f %d %d %x %d %x", &x, &y, &Rid, &Flag, &pkValue, &Sync);
#else
sscanf_s(strLineTxt.c_str(), "%f %d %d %x %d %x", &x, &y, &Rid, &Flag, &pkValue, &Sync);
#endif
a_line.x = (float)x;
a_line.y = (ap_uint<12>)y;
a_line.rid = (ap_uint<11>)Rid;
a_line.flag = (ap_uint<4>)Flag;
a_line.value = (ap_uint<8>)pkValue;
a_line.Sync = (ap_uint<2>)Sync;
testData.push_back(a_line);
if(x >= 0)
validNum ++;
}
*validSize = validNum;
inputFile.close();
return testData;
}
void genCalibTestSream(
std::vector<RgnSubPix>& subpixData,
hls::stream<CalibData>& calibStream,
const Luma_frameInfo framwInfo,
const uint16_t validDataSize)
{
CalibData VSync;
Byte8 dataBuff;
//1st:FrmNo
dataBuff.nData[0] = framwInfo.FrmNo;
dataBuff.nData[1] = 0;
VSync.Sync = 0b10;
VSync.calibK[0] = dataBuff.dData;
VSync.calibK[1] = 0;
calibStream.write(VSync);
//2nd:FrmNo
dataBuff.nData[0] = framwInfo.TimeStamp;
VSync.Sync = 0b00;
VSync.calibK[0] = dataBuff.dData;
VSync.calibK[1] = 0;
calibStream.write(VSync);
//3rd:encInfo
dataBuff.nData[0] = framwInfo.encInfo;
VSync.Sync = 0b00;
VSync.calibK[0] = dataBuff.dData;
VSync.calibK[1] = 0;
calibStream.write(VSync);
//4th:frmW(12bit), frmH(12bit)
ap_uint<16> data16_1, data16_2;
data16_1 = framwInfo.W;
data16_2 = framwInfo.H;
ap_uint<32> tmpData;
tmpData(11,0) = data16_1.range(11,0);
tmpData(23,12) = data16_2.range(11,0);
tmpData(31,24) = 0;
dataBuff.nData[0] = (uint32_t)tmpData;
VSync.calibK[0] = dataBuff.dData;
VSync.calibK[1] = 0;
VSync.Sync = 0b00;
calibStream.write(VSync);
//5th: frmX, WinNum
int lines = (int)subpixData.size() / 2; //lines
data16_1 = framwInfo.L;
data16_2 = (uint16_t)lines;
tmpData(11,0) = data16_1.range(11,0);
tmpData(23,12) = data16_2.range(11,0);
tmpData(31,24) = 0;
dataBuff.nData[0] = (uint32_t)tmpData;
VSync.calibK[0] = dataBuff.dData;
VSync.calibK[1] = 0;
VSync.Sync = 0b00;
calibStream.write(VSync);
//6th: frmY
data16_1 = framwInfo.T;
data16_2 = validDataSize;
tmpData(11,0) = data16_1.range(11,0);
tmpData(23,12) = data16_2.range(11,0);
tmpData(31,24) = 0;
dataBuff.nData[0] = (uint32_t)tmpData;
VSync.calibK[0] = dataBuff.dData;
VSync.calibK[1] = 0;
VSync.Sync = 0b00;
calibStream.write(VSync);
//output data
for(int i = 0; i < lines; i ++)
{
if(i == lines-1)
int kkk = 1; //debug point
RgnSubPix a_line = subpixData[i*2];
CalibData conData;
dataBuff.fData[0] = a_line.x;
ap_uint<32> apData32;
apData32(11, 0) = a_line.y.range(11,0);
apData32(22, 12) = a_line.rid.range(10,0);
apData32(26,23) = a_line.flag(3,0);
apData32(31,27) = 0;
dataBuff.nData[1] = (uint32_t)apData32;
conData.calibK[0] = dataBuff.dData;
apData32(7,0) = a_line.value.range(7,0);
apData32(31,8) = 0;
dataBuff.nData[0] = (uint32_t)apData32;
dataBuff.nData[1] = 0;
conData.calibK[1] = dataBuff.dData;
conData.Sync = a_line.Sync;
calibStream.write(conData);
a_line = subpixData[i*2+1];
dataBuff.fData[0] = a_line.x;
apData32(11, 0) = a_line.y.range(11,0);
apData32(22, 12) = a_line.rid.range(10,0);
apData32(26,23) = a_line.flag(3,0);
apData32(31,27) = 0;
dataBuff.nData[1] = (uint32_t)apData32;
conData.calibK[0] = dataBuff.dData;
apData32(7,0) = a_line.value.range(7,0);
apData32(31,8) = 0;
dataBuff.nData[0] = (uint32_t)apData32;
dataBuff.nData[1] = 0;
conData.calibK[1] = dataBuff.dData;
conData.Sync = a_line.Sync;
calibStream.write(conData);
for(int m = 0; m < 4; m ++) //write k
{
conData.Sync = 0b00;
if(m == 0)
{
Byte8 dataConv_0;
dataConv_0.fData[0] = 0.0;
dataConv_0.fData[1] = 0.0;
Byte8 dataConv_1;
dataConv_1.fData[0] = 1.0;
dataConv_1.fData[1] = 1.0;
conData.calibK[0] = dataConv_0.dData;
conData.calibK[1] = dataConv_1.dData;
}
else
{
Byte8 dataConv;
dataConv.fData[0] = 0.0;
dataConv.fData[1] = 0.0;
conData.calibK[0] = dataConv.dData;
conData.calibK[1] = dataConv.dData;
}
calibStream.write(conData);
}
}
return;
}
void convertSubpixCalibStreamToArray(
hls::stream<RgnSubPixCalib>& streamData,
std::vector<Luma_rgnSubpixCalib>& arrayData,
uint32_t* FrmNo,
uint32_t* timeStamp,
uint32_t* encInfo,
uint16_t* frameROI_w,
uint16_t* frameROI_h,
uint16_t* frameROI_x,
uint16_t* frameROI_y)
{
//1st:FrmNo
RgnSubPixCalib VSync = streamData.read();
UintFloat tmp;
tmp.fdata = VSync.x;
*FrmNo = (uint32_t)tmp.unData;
//2nd:timeStamp
VSync = streamData.read();
tmp.fdata = VSync.x;
*timeStamp = (uint32_t)tmp.unData;
//3rd:encInfo
VSync = streamData.read();
tmp.fdata = VSync.x;
*encInfo = (uint32_t)tmp.unData;
//4th:frmW(12bit), frmH(12bit)
VSync = streamData.read();
tmp.fdata = VSync.x;
*frameROI_w = tmp.unData & 0xfff;
*frameROI_h = (tmp.unData >> 12) & 0xfff;
//5th: frmX, WinNum
VSync = streamData.read();
tmp.fdata = VSync.x;
*frameROI_x = tmp.unData & 0xfff;
uint16_t winNum = (tmp.unData >> 12) & 0xfff;
//6th: frmY
VSync = streamData.read();
tmp.fdata = VSync.x;
*frameROI_y = tmp.unData & 0xfff;
//output data
for(int i = 0; i < winNum; i ++)
{
if(i == winNum-1)
int kkk = 1; //debug point
RgnSubPixCalib data_in = streamData.read();
Luma_rgnSubpixCalib a_pnt;
a_pnt.x = data_in.x;
a_pnt.y = data_in.y;
a_pnt.Rid = (uint16_t)data_in.rid;
a_pnt.Flag = (uint8_t)data_in.flag;
a_pnt.pkValue = (uint8_t)data_in.value;
a_pnt.sync = (uint8_t)data_in.Sync;
arrayData.push_back(a_pnt);
}
return;
}
void writeSubpixCalibData(
const char* fileName,
std::vector<Luma_rgnSubpixCalib>& outData)
{
std::ofstream sw(fileName);
int i_max = outData.size();
for (int i = 0; i < i_max; i++)
{
char data[250];
#if defined(__linux__)
sprintf(data, "%.2f %.2f %04d %01x %02d %01x",
outData[i].x, outData[i].y, outData[i].Rid, outData[i].Flag, outData[i].pkValue, outData[i].sync);
#else
sprintf_s(data, "%.2f %.2f %04d %01x %02d %01x",
outData[i].x, outData[i].y, outData[i].Rid, outData[i].Flag, outData[i].pkValue, outData[i].sync);
#endif
sw << data << std::endl;
}
sw.close();
}
#define TST_GROUP 3
int main()
{
#if defined(__linux__)
const char* SrcDataPath[TST_GROUP] = {
"/home/zengHQ/CamTestData/testSample/PickRgn_C/PickRgn_Rslt/Txt/",
"/home/zengHQ/CamTestData/Grp_0/PickRgn_C/PickRgn_Rslt/Txt/",
"/home/zengHQ/CamTestData/Grp_1/PickRgn_C/PickRgn_Rslt/Txt/"
};
const char* InDataPath[TST_GROUP] = {
"/home/zengHQ/CamTestData/testSample/Subpix/",
"/home/zengHQ/CamTestData/Grp_0/Subpix/",
"/home/zengHQ/CamTestData/Grp_1/Subpix/",
};
const char* OutDataPath[TST_GROUP] = {
"/home/zengHQ/CamTestData/testSample/Calib/",
"/home/zengHQ/CamTestData/Grp_0/Calib/",
"/home/zengHQ/CamTestData/Grp_1/Calib/",
};
#else
const char* SrcDataPath[TST_GROUP] = {
"E:/CamTestData/testSample/PickRgn_C/PickRgn_Rslt/Txt/",
"E:/CamTestData/Grp_0/PickRgn_C/PickRgn_Rslt/Txt/",
"E:/CamTestData/Grp_1/PickRgn_C/PickRgn_Rslt/Txt/"
};
const char* InDataPath[TST_GROUP] = {
"E:/CamTestData/testSample/Subpix/",
"E:/CamTestData/Grp_0/Subpix/",
"E:/CamTestData/Grp_1/Subpix/",
};
const char* OutDataPath[TST_GROUP] = {
"E:/CamTestData/testSample/Calib/",
"E:/CamTestData/Grp_0/Calib/",
"E:/CamTestData/Grp_1/Calib/",
};
#endif
int testFileSize[TST_GROUP] = {1, 4, 4};
for(int n = 1; n < TST_GROUP; n ++)
{
int winSize = 0;
int fileSize = testFileSize[n];
for(int fi = 0; fi < fileSize; fi++)
{
char fileName[200];
char paraFileName[200];
char outFileName[200];
#if defined(__linux__)
sprintf(fileName, "%s%d_L_subpix.txt", InDataPath[n], fi);
sprintf(paraFileName, "%s%d_para_verilog.txt", SrcDataPath[n], fi);
sprintf(outFileName, "%s%d_L_calib.txt", OutDataPath[n], fi);
#else
sprintf_s(fileName, "%s%d_L_subpix.txt", InDataPath[n], fi);
sprintf_s(paraFileName, "%s%d_para_verilog.txt", SrcDataPath[n], fi);
sprintf_s(outFileName, "%s%d_L_calib.txt", OutDataPath[n], fi);
#endif
Luma_frameInfo framwInfo = readParaFile(paraFileName);
uint16_t vldSize = 0;
std::vector<RgnSubPix> testData = readSubpixDataFile(fileName, &vldSize);
//gen test stream
hls::stream<CalibData> inStream;
genCalibTestSream(testData, inStream, framwInfo, vldSize);
hls::stream<RgnSubPixCalib> outStream;
calib(inStream,outStream);
std::vector<Luma_rgnSubpixCalib> outData;
uint32_t outFrmNo, outTimeStamp, outEncInfo;
uint16_t outROI_w,outROI_h, outROI_x,outROI_y;
convertSubpixCalibStreamToArray(
outStream,
outData,
&outFrmNo,
&outTimeStamp,
&outEncInfo,
&outROI_w,
&outROI_h,
&outROI_x,
&outROI_y);
writeSubpixCalibData(outFileName, outData);
}
}
printf("done!\n");
}
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