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24 Commits
34 ... master

Author SHA1 Message Date
tangchao0503
faf83b2545 fix: 
1、光谱bin2 hdr文件中的波长信息;
2、第一次运行创建配置文件时,添加推流配置;
 2024-12-04 16:13:56 +08:00
tangchao0503
e8760dcfe5 优化编码参数解决问题: 
1、编码后数据量过大导致大疆图传中断;
2、大疆遥控器解码后,视频出现偶尔后退的情况;
 2024-09-25 13:46:55 +08:00
tangchao0503
bd4d055129 待解决bug:有的仪器使用avio_open/av_write_frame将视频写入文件会崩溃,而且写入的视频无法播放; 2024-03-01 10:15:27 +08:00
tangchao0503
a91f5f5b04 1、添加配置文件控制推流参数; 
2、解决遥控器解码时帧序混乱的问题(gop_size = 1);
3、完善代码;
 2024-01-29 17:21:07 +08:00
tangchao0503
2e4679aaef 实现功能:提取rgb波段并通过h264编码; 2024-01-23 15:33:18 +08:00
tangchao0503
061e1f83bd add:记录cpu温度; 2023-10-25 15:37:15 +08:00
tangchao0503
d0b67b47c1 add:psdk重启后,通知本程序发送本程序的状态; 2023-10-25 15:33:52 +08:00
tangchao0503
7fa3b70d10 Modify:去掉内存池; 2023-10-18 11:39:01 +08:00
tangchao0503
781b33f577 add:添加温湿度传感器硬件,并解析温湿度/气压等数据; 2023-10-18 11:37:02 +08:00
tangchao0503
f33103c970 fix:修复时间同步错误 2023-09-13 17:24:16 +08:00
tangchao0503
a341e0b2c5 add:采集过程中同时记录相机温度,高于80度停止采集,高于90度系统关闭 2023-09-13 17:08:17 +08:00
tangchao0503
19e2309be7 fix:返回的曝光时间都使用微秒; 2023-09-04 18:03:20 +08:00
tangchao0503
a492baea18 fix:惯导进入full nav才开始采集高光谱; 2023-09-01 15:38:16 +08:00
tangchao0503
096df8075c 修改: 
记录上次设置的帧率和曝光时间,打开时,将上次的帧率和曝光时间设置为当前参数;
 2023-08-29 13:46:40 +08:00
tangchao0503
ba1b01bccc fix bug:解析sbg的sulution mode; 2023-08-18 16:01:22 +08:00
tangchao0503
e4a7c4481b 打印版本号 2023-07-14 16:34:31 +08:00
tangchao0503
1476c2bc15 内存映射mremap在320G时会失败,改为用fwrite,经测试980PRO 2个bin1 采集80分钟不会丢帧; 2023-07-14 16:33:37 +08:00
tangchao0503
6d6b662cec 输出调试信息 2023-07-14 09:21:58 +08:00
tangchao0503
2e158431e7 输出版本号:35 2023-07-04 21:23:25 +08:00
tangchao0503
6473a1f4ce 内存映射写磁盘 2023-07-04 21:22:38 +08:00
tangchao0503
cc76d62ded 1. 使用相机时间来计算times文件; 
2. times放弃每帧写一次的方法;
3. 不满100帧的内容不丢弃:添加一个队列来记录压入队列的帧数;
 2023-06-30 15:21:23 +08:00
tangchao0503
e620c87ecf 打印版本号 2023-06-28 13:32:59 +08:00
tangchao0503
47002ad894 改变光谱bin2的波长计算方式为:通过bin1平均相邻波长获取; 2023-06-28 11:59:46 +08:00
tangchao0503
5337a40837 更新:发送 bin 状态到遥控器 2023-06-27 14:01:19 +08:00
11 changed files with 1514 additions and 259 deletions
Expand all files Collapse all files

9
CMakeLists.txt
View File

@ -23,6 +23,9 @@ find_package(OpenCV 4.2.0 REQUIRED)
include_directories(/usr/local/include/opencv4/)
link_directories(/usr/local/lib)
include_directories(/home/300tc/library/ffmpeg_build/include)
link_directories(/home/300tc/library/ffmpeg_build/lib)
add_executable(${CMAKE_PROJECT_NAME}
Source_Files/fileoperation.cpp
Header_Files/fileoperation.h
@ -53,4 +56,8 @@ target_link_libraries(${CMAKE_PROJECT_NAME}
irisXimeaImager
libconfig.so
libconfig++.so
${OpenCV_LIBS})
${OpenCV_LIBS}
avformat
avcodec
swscale
avutil)

55
Header_Files/configfile.h
View File

@ -34,12 +34,16 @@ public:
bool getspatialBin(int &spatialBin);
bool getEffectiveWindow(int &width, int &offsetx, int &height, int &offsety);
bool getEffectiveWindowRoi(int &width, int &offsetx);
bool getWindowOffsety_HeightOfSpectral(int &offsety, int &height, string spectralBinString);//spectralBinString = "bin1"或者”bin2“
bool getGainOffset(float &gain, float &offset);
bool getGainOffsetOfSpectralBin1(float &gain, float &offset);
bool getSN(QString &SN);
bool getBufferPolicy(int &bufferPolicy);
bool getAcqBufferSize(int &acqBufferSize);
bool getPushFlowParam(int &flowSwitch, int &rgbHeight, int &framerateVideo);
bool createConfigFile();
bool updateConfigFile();
@ -47,4 +51,55 @@ private:
string m_configfilePath;
Config cfg;
};
class ParameterConfigfile
{
public:
ParameterConfigfile();
void setConfigfilePath(string configfilePath);
bool isConfigfileExist();
bool parseConfigfile();
bool getFrameRate(int &frameRate);
bool setFrameRate(int frameRate);
bool getExposeTime(float &exposeTime);
bool setExposeTime(float exposeTime);
bool createConfigFile();
// bool updateConfigFile();
bool writeConfig2File();
string m_configfilePath;
Config cfg;
private:
};
class StateOf300tcConfigfile:public ParameterConfigfile
{
public:
StateOf300tcConfigfile();
bool getSwitchState(bool &switchState);
bool setSwitchState(bool switchState);
bool getSbgState(int &sbgState);
bool setSbgState(int sbgState);
bool getSbgSolutionMode(int &sbgSolutionMode);
bool setSbgSolutionMode(int sbgSolutionMode);
bool getXimeaState(int &ximeaState);
bool setXimeaState(int ximeaState);
bool getExposeMaxValueOfOneFrame(int &exposeMaxValueOfOneFrame);
bool setExposeMaxValueOfOneFrame(int exposeMaxValueOfOneFrame);
bool createConfigFile();
private:
bool getIntValue(int &value, string field);
bool setIntValue(int value, string field);
};
#endif //XIMEAIMAGERECORDER_CONFIGFILE_H

35
Header_Files/rgbImage.h
View File

@ -11,6 +11,18 @@
#include <QObject>
#include <QImage>
#include <opencv2/opencv.hpp>//包含了所有东西,编译很慢
#include "opencv2/imgproc/types_c.h"
extern "C"
{
#include <libavcodec/avcodec.h>
#include <libavutil/opt.h>
#include "libavutil/pixfmt.h"
#include "libswscale/swscale.h"
#include <libavutil/imgutils.h>
#include <libavutil/avutil.h>
#include "libavdevice/avdevice.h"
}
using namespace cv;
class rgbImage :public QObject
@ -21,38 +33,33 @@ public:
rgbImage(QWidget* pParent = NULL);
~rgbImage();
void SetRgbImageWidthAndHeight(int BandCount, int Sample, int FrameNumber);
void SetRgbImageWidthAndHeight(int BandCount, int Width, int height);
void SetRgbBandNumber(int redBandNumber, int greenBandNumber, int blueBandNumber);
void FillRgbImage(unsigned short *datacube);
void FillFocusGrayImage(unsigned short *datacube);
void FillFocusGrayQImage(unsigned short * datacube);
void FillOnerowofRgbImage(cv::Mat * matRgbImage, int rowNumber, unsigned short *datacube);
QImage Mat2QImage(cv::Mat cvImg);//https://www.cnblogs.com/annt/p/ant003.html
QImage *m_QRgbImage;
cv::Mat *m_matRgbImage;
QImage m_Qphoto;
QImage *m_qimageFocusGrayImage;
cv::Mat *m_matFocusGrayImage;//用于调焦时,显示一帧的灰度图
//cv::Mat m_matFocusGrayImage;//用于调焦时,显示一帧的灰度图
CvVideoWriter *m_frame_writer;
VideoWriter m_VideoWriter;
// VideoWriter m_video("appsrc ! autovideoconvert ! filesink location=/media/nvme/delete/live.avi", CV_FOURCC('M', 'J', 'P', 'G'), 25.0, Size(640, 480));
// VideoWriter video("test.avi", CV_FOURCC('M', 'J', 'P', 'G'), 25.0, Size(640, 480));//
//控制该填充rgb图像第几帧数据
//以下两种情况需要重置为01调用函数SetRgbImageWidthAndHeight2每次开始填充数据前
int m_iFrameCounter;
int m_iFramerate;//
protected:
private:
@ -61,15 +68,17 @@ private:
int m_iFrameNumber;//
void initffmpeg();
int m_iRedBandNumber;
int m_iGreenBandNumber;
int m_iBlueBandNumber;
public slots:
signals :
void sendstr(QString str);
void sendstr1(QString str);
void refreslabelimg(QImage* img1);
};
#endif //XIMEAAIRBORNESYSTEM_RGBIMAGE_H

33
Header_Files/udpserver.h
View File

@ -11,17 +11,43 @@
#include <QObject>
#include <QThread>
#include <QDir>
#include <QtSerialPort/QSerialPort>
#include <QtSerialPort/QSerialPortInfo>
#include "ximeaimager.h"
#include "sbgrecorder.h"
#include "fileoperation.h"
#include "configfile.h"
extern "C"
{
// #include <sbgEComLib.h>
#include <stdlib.h>
}
class Record300TcTemperature : public QObject
{
Q_OBJECT
public:
Record300TcTemperature();
void stopRecordTemperature();
private:
bool m_bIsRecord;
QSerialPort * m_serial;
float parseMessage(QByteArray * data);
public slots:
void recordTemperature(QString filePath);
signals:
};
class UdpServer:public QObject
{
Q_OBJECT
@ -48,6 +74,11 @@ class UdpServer:public QObject
void sender(int status);
QThread * m_recordTempThread;
Record300TcTemperature * m_300tcTemperature;
StateOf300tcConfigfile stateOf300tc;
signals:
void systemStart();
void systemStop();
@ -56,6 +87,7 @@ signals:
void startDeleteFileSignal();
void recordXimeaOnlySignal(double,QString);
void record300tcTemperatureSignal(QString);
public slots:
void onRecordFinished();
@ -67,6 +99,7 @@ public slots:
void sendXimeaImageStatus(int ximeaImageStatus);
void sendXimeaAutoExposeMaxValueOfOneFrame(int autoExposeMaxValueOfOneFrame, double exposeTime);
void sendXimeaBinState(int spatialBin, int spectralBin);
void sendXimeaImageFrameRate(double frameRate);
void sendCopyFileStatus(int fileStatus);
};

74
Header_Files/ximeaimager.h
View File

@ -27,6 +27,8 @@
#include <exception>
#include <fcntl.h>
#include <sys/mman.h>
#include <cmath>
#include <vector>
#include <QObject>
#include <QDateTime>
@ -42,9 +44,12 @@
#include "MemoryPool.h"
#include <queue>
#include <QMutex>
#include <QUdpSocket>
#include "rgbImage.h"
#define PUSH_FLOW_PORT 666
//#ifdef WIN32
@ -70,12 +75,13 @@ private:
};
class XimeaImager;
class RecordXimeaTemperature : public QObject
{
Q_OBJECT
public:
RecordXimeaTemperature(Iris::IrisXimeaImager * imager);
RecordXimeaTemperature(Iris::IrisXimeaImager * imager, XimeaImager * ximeaImager);
void stopRecordTemperature();
@ -83,6 +89,7 @@ private:
Iris::IrisXimeaImager * m_imager;
bool m_bIsRecord;
XimeaImager * m_ximeaImager;
public slots:
void recordTemperature(QString filePath);
@ -100,10 +107,11 @@ Q_OBJECT
public:
WriteData2Disk();
void setParm(queue<DataBuffer *> * q, QString baseFileName, int frameSizeInByte, int number_WriteDisk, MemoryPool<DataBuffer> * pool, rgbImage * rgbImage);
void setParm(queue<DataBuffer *> * q, queue<int> * qFrameCounter, QString baseFileName, int frameSizeInByte, int number_WriteDisk, MemoryPool<DataBuffer> * pool, rgbImage * rgbImage);
private:
queue<DataBuffer *> * m_q;
queue<int> * m_qFrameCounter;
QString m_QbaseFileName;
int m_iFrameSizeInByte;
int m_iNumber_WriteDisk;
@ -119,6 +127,32 @@ public slots:
signals:
};
class PushFlow : public QObject
{
Q_OBJECT
public:
PushFlow();
void setParm(rgbImage * img, int width, int height, int framerateVideo);
void exitPushFlow();
void setVedioFilePath(QString path);
private:
QString m_QVedioFilePath;
bool isExitPushFlow;
rgbImage * m_rgbImage;
int m_iWidth;
int m_iHeight;
int m_iFramerateVideo;
public slots:
void encodePushFlow();
signals:
};
class XimeaImager : public QObject
{
Q_OBJECT
@ -129,7 +163,7 @@ public:
void setFramerate(double framerate);
double getFramerate();
double setExposureTime(float exposureTime);
double setExposureTime(float exposureTime_in_us);
int wrapSetExposureTime(float exposureTime_in_us);
double getExposureTime();
double autoExposure();
@ -142,6 +176,9 @@ public:
int getWindowEndBand();
double geWavelengthAtBand(int x);
static int findClosestIndex(const std::vector<double>& numbers, double target);
void getRgbBandNumber(int &redBandNumber, int &greenBandNumber, int &blueBandNumber);
void stopRecord();
int getFrameCounter();
void writeXiApiErrorCodes(QString filePath, int xiApiErrorCodes);
@ -154,14 +191,22 @@ private:
int m_iImagerState;
int m_iImagerStateTemp;
int m_iOffsetyOfSpectralBin1, m_iOffsetyOfSpectralBin2;
int m_iHeightOfSpectralBin1, m_iHeightOfSpectralBin2;
QThread * m_recordTempThread;
RecordXimeaTemperature * m_ximeaTemperature;
QThread * writeData2DiskThread;
WriteData2Disk * writeData2Disk;
queue<DataBuffer *> * q;
queue<int> * m_qFrameCounter;
MemoryPool<DataBuffer> * m_pool;
QThread * m_pushFlowThread;
PushFlow * m_pushFlow;
int m_iFlowSwitch;
QString m_baseFileName;
QString m_ximeaTemperatureCSVPath;
@ -176,26 +221,14 @@ private:
void processXiApiErrorCodes(int xiApiErrorCodes);
inline double getSbgTime(double TimeDifferenceBetweensOSAndSbg)
inline double getSbgTime(XI_IMG * image, double timeDifferenceBetweenSbgAndXimea)
{
struct timespec systemTime;
clock_gettime(CLOCK_REALTIME,&systemTime);
tm systemTime_rili;
localtime_r(&systemTime.tv_sec, &systemTime_rili);
double secondSystem=(systemTime_rili.tm_mday-1)*24*60*60+systemTime_rili.tm_hour*60*60+systemTime_rili.tm_min*60+systemTime_rili.tm_sec;
double nanosecondSystem=secondSystem+static_cast<double>(systemTime.tv_nsec)/1000000000;
// printf("\n");
// printf("XimeaImager::getSbgTime------系统时间纳秒%d\n", systemTime.tv_nsec);
// printf("XimeaImager::getSbgTime------系统时间(未偏移)%f\n", nanosecondSystem);
// printf("XimeaImager::getSbgTime------系统时间(偏移)%f\n", nanosecondSystem-TimeDifferenceBetweensOSAndSbg);
return nanosecondSystem-TimeDifferenceBetweensOSAndSbg;
double ximeaTime = (double)image->tsSec + (double)image->tsUSec/1000000;
return ximeaTime + timeDifferenceBetweenSbgAndXimea;
}
Configfile m_configfile;
ParameterConfigfile m_parameterConfigfile;
@ -203,6 +236,7 @@ public slots:
void openImger();
void closeImger();
double calculateTimeDifferenceBetweenSbgAndximea(XI_IMG * m_image, double timeDifferenceBetweenSbgAndOS);
void startRecord(double TimeDifferenceBetweensOSAndSbg,QString baseFileName);
signals:
@ -211,8 +245,10 @@ signals:
void recordXimeaTemperatureSignal(QString);
void startWriteDiskSignal();
void startPushFlowSignal();
void autoExposeMaxValueOfOneFrame(int, double);
void frameRateSignal(double);
void binSignal(int, int);
};
#endif // XIMEAIMAGER_H

405
Source_Files/configfile.cpp
View File

@ -166,6 +166,86 @@ bool Configfile::getEffectiveWindowRoi(int &width, int &offsetx)
return true;
}
bool Configfile::getPushFlowParam(int &flowSwitch, int &rgbHeight, int &framerateVideo)
{
Setting& root = cfg.getRoot();
if (!root.exists("push_flow_param"))
{
// 配置项不存在,添加配置项
Setting & push_flow_param = root.add("push_flow_param", Setting::TypeGroup);
push_flow_param.add("flow_switch", Setting::TypeInt) = 0;
push_flow_param.add("rgb_height", Setting::TypeInt) = 720;
push_flow_param.add("framerate_video", Setting::TypeInt) = 5;
// 保存修改后的配置到文件
try
{
QList<QString> fileInfo = getFileInfo(QString::fromStdString(m_configfilePath));
bool ret = createDir(fileInfo[0]);
cfg.writeFile(m_configfilePath.c_str());
std::cout << "Config item 'push_flow_param' added." << std::endl;
flowSwitch = 0;
rgbHeight = 720;
framerateVideo = 5;
return true;
}
catch (const libconfig::FileIOException &fioex)
{
std::cerr << "I/O error while writing file." << std::endl;
return false;
}
}
else
{
try
{
const Setting &push_flow_param = root["push_flow_param"];
if(!(push_flow_param.lookupValue("rgb_height", rgbHeight)
&& push_flow_param.lookupValue("framerate_video", framerateVideo)
&& push_flow_param.lookupValue("flow_switch", flowSwitch)
))
{
return false;
}
}
catch(const SettingNotFoundException &nfex)
{
// Ignore.
return false;
}
return true;
}
}
bool Configfile::getWindowOffsety_HeightOfSpectral(int &offsety, int &height, string spectralBinString)
{
const Setting& root = cfg.getRoot();
try
{
const Setting &spectralArgument = root["effective_window"][spectralBinString]["spectral"];
if(!(spectralArgument.lookupValue("height", height)
&& spectralArgument.lookupValue("offsety", offsety)))
{
return false;
}
}
catch(const SettingNotFoundException &nfex)
{
// Ignore.
return false;
}
return true;
}
bool Configfile::getGainOffset(float &gain, float &offset)
{
const Setting& root = cfg.getRoot();
@ -206,6 +286,35 @@ bool Configfile::getGainOffset(float &gain, float &offset)
return true;
}
bool Configfile::getGainOffsetOfSpectralBin1(float &gain, float &offset)
{
const Setting& root = cfg.getRoot();
try
{
const Setting &gainOffset = root["gainOffset"];
int count = gainOffset.getLength();
string spectralBinString = "spectralBin1";
const Setting &gainOffsetSetting = gainOffset[spectralBinString];
string name = gainOffsetSetting.getName();
if(!(gainOffsetSetting.lookupValue("gain", gain)
&& gainOffsetSetting.lookupValue("offset", offset)))
{
return false;
}
}
catch(const SettingNotFoundException &nfex)
{
// Ignore.
return false;
}
return true;
}
bool Configfile::getSN(QString &SN)
{
try
@ -327,6 +436,10 @@ bool Configfile::createConfigFile()
ximeadll.add("buffer_policy", Setting::TypeInt) = 0;
ximeadll.add("acq_buffer_size", Setting::TypeInt) = 400;
Setting &push_flow_param = root.add("push_flow_param", Setting::TypeGroup);
push_flow_param.add("flow_switch", Setting::TypeInt) = 1;
push_flow_param.add("rgb_height", Setting::TypeInt) = 720;
push_flow_param.add("framerate_video", Setting::TypeInt) = 5;
// Write out the new configuration.
QString output_file = "/media/nvme/300TC/config/ximea.cfg";
@ -417,3 +530,295 @@ bool Configfile::updateConfigFile()
return true;
}
ParameterConfigfile::ParameterConfigfile()
{
}
void ParameterConfigfile::setConfigfilePath(string configfilePath)
{
m_configfilePath = configfilePath;
}
bool ParameterConfigfile::isConfigfileExist()
{
QFileInfo info(QString::fromStdString(m_configfilePath));
return info.exists();
}
bool ParameterConfigfile::parseConfigfile()
{
// Read the file. If there is an error, report it and exit.
try
{
cfg.readFile(m_configfilePath);
return true;
}
catch(const FileIOException &fioex)
{
std::cerr << "I/O error while reading file." << std::endl;
return false;
}
catch(const ParseException &pex)
{
std::cerr << "Parse error at " << pex.getFile() << ":" << pex.getLine()
<< " - " << pex.getError() << std::endl;
return false;
}
}
bool ParameterConfigfile::createConfigFile()
{
using namespace std;
using namespace libconfig;
Config cfg;
Setting &root = cfg.getRoot();
// Add some settings to the configuration.
// Setting &SN = root.add("SN", Setting::TypeString) = "0098";
// Setting &spatialBin = root.add("spatialBin", Setting::TypeInt) = 2;
// Setting &SpectralBin = root.add("spectralBin", Setting::TypeInt) = 2;
Setting &ximeaParam = root.add("ximeaParam", Setting::TypeGroup);
ximeaParam.add("frameRate", Setting::TypeInt) = 100;
ximeaParam.add("exposeTime", Setting::TypeFloat) = 10.0;
// Write out the new configuration.
try
{
QList<QString> fileInfo = getFileInfo(QString::fromStdString(m_configfilePath));
bool ret = createDir(fileInfo[0]);
cfg.writeFile(m_configfilePath.c_str());
cerr << "New configuration successfully written to: " << m_configfilePath.c_str() << endl;
}
catch(const FileIOException &fioex)
{
cerr << "I/O error while writing configuration file: " << m_configfilePath.c_str() << endl;
return true;
}
return true;
}
bool ParameterConfigfile::getFrameRate(int &frameRate)
{
const Setting& root = cfg.getRoot();
try
{
const Setting &ximeaParam = root["ximeaParam"];
frameRate = ximeaParam.lookup("frameRate");
// std::cout << "ParameterConfigfile::getFrameRate"<< frameRate<<std::endl;
return true;
}
catch(const SettingNotFoundException &nfex)
{
cerr << "No 'frameRate' setting in configuration file." << endl;
return false;
}
}
bool ParameterConfigfile::setFrameRate(int frameRate)
{
const Setting& root = cfg.getRoot();
try
{
Setting &frameRate2 = root["ximeaParam"]["frameRate"];
frameRate2 = frameRate;
writeConfig2File();
return true;
}
catch(const SettingNotFoundException &nfex)
{
cerr << "No 'frameRate' setting in configuration file." << endl;
return false;
}
}
bool ParameterConfigfile::getExposeTime(float &exposeTime)
{
const Setting& root = cfg.getRoot();
try
{
const Setting &ximeaParam = root["ximeaParam"];
exposeTime = ximeaParam.lookup("exposeTime");
// std::cout << "ParameterConfigfile::getExposeTime"<< exposeTime<<std::endl;
return true;
}
catch(const SettingNotFoundException &nfex)
{
cerr << "No 'exposeTime' setting in configuration file." << endl;
return false;
}
}
bool ParameterConfigfile::setExposeTime(float exposeTime)
{
const Setting& root = cfg.getRoot();
try
{
Setting &frameRate2 = root["ximeaParam"]["exposeTime"];
frameRate2 = exposeTime;
writeConfig2File();
return true;
}
catch(const SettingNotFoundException &nfex)
{
cerr << "No 'exposeTime' setting in configuration file." << endl;
return false;
}
}
bool ParameterConfigfile::writeConfig2File()
{
try
{
QList<QString> fileInfo = getFileInfo(QString::fromStdString(m_configfilePath));
bool ret = createDir(fileInfo[0]);
cfg.writeFile(m_configfilePath.c_str());
// cerr << "New configuration successfully written to: " << m_configfilePath.c_str() << endl;
}
catch(const FileIOException &fioex)
{
cerr << "I/O error while writing configuration file: " << m_configfilePath.c_str() << endl;
return false;
}
return true;
}
StateOf300tcConfigfile::StateOf300tcConfigfile()
{
}
bool StateOf300tcConfigfile::getIntValue(int &value, string field)
{
const Setting& root = cfg.getRoot();
try
{
const Setting &ximeaParam = root["ximeaParam"];
value = ximeaParam.lookup(field);
// std::cout << "StateOf300tcConfigfile::getIntValue"<< value<<std::endl;
return true;
}
catch(const SettingNotFoundException &nfex)
{
cerr << "No setting in configuration file." << endl;
return false;
}
}
bool StateOf300tcConfigfile::setIntValue(int value, string field)
{
const Setting& root = cfg.getRoot();
try
{
Setting &frameRate2 = root["ximeaParam"][field];
frameRate2 = value;
writeConfig2File();
return true;
}
catch(const SettingNotFoundException &nfex)
{
cerr << "No setting in configuration file." << endl;
return false;
}
}
bool StateOf300tcConfigfile::createConfigFile()
{
using namespace std;
using namespace libconfig;
Config cfg;
Setting &root = cfg.getRoot();
// Add some settings to the configuration.
// Setting &SN = root.add("SN", Setting::TypeString) = "0098";
// Setting &spatialBin = root.add("spatialBin", Setting::TypeInt) = 2;
// Setting &SpectralBin = root.add("spectralBin", Setting::TypeInt) = 2;
Setting &ximeaParam = root.add("ximeaParam", Setting::TypeGroup);
ximeaParam.add("sbgState", Setting::TypeInt) = 0;
ximeaParam.add("sbgSolutionMode", Setting::TypeInt) = 0;
ximeaParam.add("ximeaState", Setting::TypeInt) = 100;
ximeaParam.add("frameRate", Setting::TypeInt) = 0;
ximeaParam.add("exposeTime", Setting::TypeFloat) = 0.0;
ximeaParam.add("exposeMaxValueOfOneFrame", Setting::TypeInt) = 0;
// Write out the new configuration.
try
{
QList<QString> fileInfo = getFileInfo(QString::fromStdString(m_configfilePath));
bool ret = createDir(fileInfo[0]);
cfg.writeFile(m_configfilePath.c_str());
cerr << "New configuration successfully written to: " << m_configfilePath.c_str() << endl;
}
catch(const FileIOException &fioex)
{
cerr << "I/O error while writing configuration file: " << m_configfilePath.c_str() << endl;
return true;
}
return true;
}
bool StateOf300tcConfigfile::getSbgState(int &sbgState)
{
return getIntValue(sbgState,"sbgState");
}
bool StateOf300tcConfigfile::setSbgState(int sbgState)
{
return setIntValue(sbgState,"sbgState");
}
bool StateOf300tcConfigfile::getSbgSolutionMode(int &sbgSolutionMode)
{
return getIntValue(sbgSolutionMode,"sbgSolutionMode");
}
bool StateOf300tcConfigfile::setSbgSolutionMode(int sbgSolutionMode)
{
return setIntValue(sbgSolutionMode,"sbgSolutionMode");
}
bool StateOf300tcConfigfile::getXimeaState(int &ximeaState)
{
return getIntValue(ximeaState,"ximeaState");
}
bool StateOf300tcConfigfile::setXimeaState(int ximeaState)
{
return setIntValue(ximeaState,"ximeaState");
}
bool StateOf300tcConfigfile::getExposeMaxValueOfOneFrame(int &exposeMaxValueOfOneFrame)
{
return getIntValue(exposeMaxValueOfOneFrame,"exposeMaxValueOfOneFrame");
}
bool StateOf300tcConfigfile::setExposeMaxValueOfOneFrame(int exposeMaxValueOfOneFrame)
{
return setIntValue(exposeMaxValueOfOneFrame,"exposeMaxValueOfOneFrame");
}

1
Source_Files/main.cpp
View File

@ -3,6 +3,7 @@
int main(int argc, char *argv[])
{
std::cout<<"ximeaAirborneSystem 版本:"<< "44." <<std::endl;
QCoreApplication a(argc, argv);
//UdpServer* x=new UdpServer();

246
Source_Files/rgbImage.cpp
View File

@ -4,7 +4,6 @@
#include "../Header_Files/rgbImage.h"
rgbImage::rgbImage(QWidget* pParent)
{
m_QRgbImage = nullptr;
@ -12,8 +11,9 @@ rgbImage::rgbImage(QWidget* pParent)
m_matFocusGrayImage = nullptr;
m_qimageFocusGrayImage = nullptr;
m_iRedBandNumber = 0;
m_iGreenBandNumber = 0;
m_iBlueBandNumber = 0;
}
rgbImage::~rgbImage()
@ -21,8 +21,18 @@ rgbImage::~rgbImage()
}
void rgbImage::SetRgbBandNumber(int redBandNumber, int greenBandNumber, int blueBandNumber)
{
m_iRedBandNumber = redBandNumber;
m_iGreenBandNumber = greenBandNumber;
m_iBlueBandNumber = blueBandNumber;
void rgbImage::SetRgbImageWidthAndHeight(int BandCount, int Sample, int FrameNumber)
// std::cout<<"rgbImage::SetRgbBandNumber红波段的波段号"<< redBandNumber <<std::endl;
// std::cout<<"rgbImage::SetRgbBandNumber绿波段的波段号"<< greenBandNumber <<std::endl;
// std::cout<<"rgbImage::SetRgbBandNumber蓝波段的波段号"<< blueBandNumber <<std::endl;
}
void rgbImage::SetRgbImageWidthAndHeight(int BandCount, int Width, int height)
{
using namespace cv;
@ -30,19 +40,21 @@ void rgbImage::SetRgbImageWidthAndHeight(int BandCount, int Sample, int FrameNum
{
delete m_QRgbImage;//有问题????????????????????????????????????????????????
}
//m_QRgbImage = new QImage(Sample, FrameNumber, QImage::Format_RGB888);
//m_QRgbImage = new QImage(Width, height, QImage::Format_RGB888);
if (m_matRgbImage != nullptr)
{
delete m_matRgbImage;
}
m_matRgbImage = new Mat(FrameNumber, Sample, CV_8UC3, Scalar(0, 0, 0));
m_matRgbImage = new Mat(height, Width, CV_8UC3, Scalar(0, 0, 0));
int codec = VideoWriter::fourcc('M', 'P', '4', '2'); // select desired codec (must be available at runtime)
double fps = 20.0; // framerate of the created video stream
std::string filename = "appsrc ! autovideoconvert ! filesink location=/media/nvme/delete/live.avi";//https://blog.csdn.net/ancientapesman/article/details/117324638
m_VideoWriter.open(filename, codec, fps, m_matRgbImage->size(), true);
// int codec = VideoWriter::fourcc('H', '2', '6', '4'); // select desired codec (must be available at runtime)
// double fps = 20.0;// framerate of the created video stream
// std::string filename = "appsrc ! autovideoconvert ! filesink location=/media/nvme/live.mp4";//https://blog.csdn.net/ancientapesman/article/details/117324638
//// std::string filename = "/media/nvme/live.mp4";
// auto ddddd=m_matRgbImage->size();
// m_VideoWriter.open(filename, codec, fps, Size(20, 1368), true);
// VideoWriter video("test.avi", CV_FOURCC('M', 'J', 'P', 'G'), 25.0, Size(640, 480));
@ -54,127 +66,169 @@ void rgbImage::SetRgbImageWidthAndHeight(int BandCount, int Sample, int FrameNum
if (m_qimageFocusGrayImage == nullptr)
{
m_qimageFocusGrayImage = new QImage(Sample, BandCount, QImage::Format_RGB32);
m_qimageFocusGrayImage = new QImage(Width, BandCount, QImage::Format_RGB32);
}
if (m_matFocusGrayImage == nullptr)
{
m_matFocusGrayImage = new Mat(BandCount, Sample, CV_16U, Scalar(0));
m_matFocusGrayImage = new Mat(BandCount, Width, CV_16U, Scalar(0));
//cv::Mat matAdjustPreview = Mat::zeros(BandCount, Sample, CV_16U);
//cv::Mat matAdjustPreview = Mat::zeros(BandCount, Width, CV_16U);
}
//cv::Mat matAdjustPreview = Mat::zeros(BandCount, Sample, CV_16U);
//cv::Mat matAdjustPreview = Mat::zeros(BandCount, Width, CV_16U);
//m_matFocusGrayImage = matAdjustPreview;
std::cout << "设置帧数:" << FrameNumber << std::endl;
std::cout << "高光谱rgb图像设置高度" << height << std::endl;
m_iFrameCounter = 0;//每次都重置为0
m_iSampleNumber = Sample;
m_iSampleNumber = Width;
m_iBandNumber = BandCount;
m_iFrameNumber = FrameNumber;
m_iFrameNumber = height;
//std::cout << "rgb影像内存地址为" << m_QRgbImage << std::endl;
}
void rgbImage::FillOnerowofRgbImage(cv::Mat * matRgbImage, int rowNumber, unsigned short *datacube)
{
//方式1逐像素修改
// unsigned short r, g, b;
// for (int j = 0; j < m_iSampleNumber; j++)
// {
// //取值一帧影像中从左到右的rgb像元值
// r = *(datacube + m_iRedBandNumber * m_iSampleNumber + j)*255/4096;
// g = *(datacube + m_iGreenBandNumber * m_iSampleNumber + j)*255/4096;
// b = *(datacube + m_iBlueBandNumber * m_iSampleNumber + j)*255/4096;
//
//// r = *(datacube + m_iRedBandNumber * m_iSampleNumber + j);
//// g = *(datacube + m_iGreenBandNumber * m_iSampleNumber + j);
//// b = *(datacube + m_iBlueBandNumber * m_iSampleNumber + j);
//
// //将像元值赋值到cv::Mat中操作像元值https://zhuanlan.zhihu.com/p/51842288
// //int dataType = m_matRgbImage->type();//当数据类型为CV_16UC3时返回18
// //std::cout << "m_matRgbImage数据类型为" << dataType << std::endl;
// if (matRgbImage->type() == CV_8UC3)
// {
//// std::cout << "操作像素值!" << std::endl;
// matRgbImage->at<cv::Vec3b>(rowNumber, j)[2] = r;
// matRgbImage->at<cv::Vec3b>(rowNumber, j)[1] = g;
// matRgbImage->at<cv::Vec3b>(rowNumber, j)[0] = b;
//
//// QString savePath_cv = "/media/nvme/delete/" + QString::number(m_iFrameCounter) + "_cv.png";
//// cv::imwrite(savePath_cv.toStdString(), *matRgbImage);
// }
//
// int column = 800;
// if(j == column)
// {
// std::cout << "行:" << rowNumber << "提取:第 " << column << " 列的 r g b 分别为 " << r << " " << g << " " << b << std::endl;
// std::cout << "mat第 " << column << " 列的 r g b 分别为 " << (unsigned short)matRgbImage->at<cv::Vec3b>(rowNumber, j)[2] << " " << (unsigned short)matRgbImage->at<cv::Vec3b>(rowNumber, j)[1] << " " << (unsigned short)matRgbImage->at<cv::Vec3b>(rowNumber, j)[0] << std::endl;
// }
// }
//方式2通过指针操作更快
unsigned short r, g, b;
const int cols = matRgbImage->cols;
const int step = matRgbImage->channels();
unsigned char *p_row0_b = matRgbImage->ptr(rowNumber);
unsigned char *p_row0_g = matRgbImage->ptr(rowNumber) + 1;
unsigned char *p_row0_r = matRgbImage->ptr(rowNumber) + 2;
for (int j = 0; j < m_iSampleNumber; j++)
{
//取值一帧影像中从左到右的rgb像元值
r = *(datacube + 121 * m_iSampleNumber + j)*255/4096;
g = *(datacube + 79 * m_iSampleNumber + j)*255/4096;
b = *(datacube + 40 * m_iSampleNumber + j)*255/4096;
//取值一帧影像中从左到右的rgb像元值,线性拉伸
r = *(datacube + m_iRedBandNumber * m_iSampleNumber + j)*255/4096;
g = *(datacube + m_iGreenBandNumber * m_iSampleNumber + j)*255/4096;
b = *(datacube + m_iBlueBandNumber * m_iSampleNumber + j)*255/4096;
//将像元值赋值到cv::Mat中操作像元值https://zhuanlan.zhihu.com/p/51842288
//int dataType = m_matRgbImage->type();//当数据类型为CV_16UC3时返回18
//std::cout << "m_matRgbImage数据类型为" << dataType << std::endl;
if (matRgbImage->type() == CV_16UC3)
{
//std::cout << "操作像素值!" << std::endl;
matRgbImage->at<cv::Vec3w>(rowNumber, j)[2] = r;
matRgbImage->at<cv::Vec3w>(rowNumber, j)[1] = g;
matRgbImage->at<cv::Vec3w>(rowNumber, j)[0] = b;
}
*p_row0_b = b;
*p_row0_g = g;
*p_row0_r = r;
// int column = 800;
// if(j == column)
// {
// std::cout << "行:" << rowNumber << "提取:第 " << column << " 列的 r g b 分别为 " << r << " " << g << " " << b << std::endl;
//// std::cout << "修改后" << rowNumber << "提取:第 " << column << " 列的 r g b 分别为 " << (unsigned short)*p_row0_r << " " << (unsigned short)*p_row0_g << " " << (unsigned short)*p_row0_b << std::endl;
//// std::cout << "mat第 " << column << " 列的 r g b 分别为 " << (unsigned short)matRgbImage->at<cv::Vec3b>(rowNumber, j)[2] << " " << (unsigned short)matRgbImage->at<cv::Vec3b>(rowNumber, j)[1] << " " << (unsigned short)matRgbImage->at<cv::Vec3b>(rowNumber, j)[0] << std::endl;
// }
p_row0_b += step;
p_row0_g += step;
p_row0_r += step;
}
//方式3通过内存拷贝快速提取rgb
// if (matRgbImage->isContinuous())// check mat is continuous or not
// matRgbImage->reshape(1, matRgbImage->rows * matRgbImage->cols).col(0).setTo(Scalar(value));
// else
// {
// for (int i = 0; i < matRgbImage->rows; i++)
// matRgbImage->row(i).reshape(1, matRgbImage->cols).col(0).setTo(Scalar(value));
// }
}
QImage rgbImage::Mat2QImage(cv::Mat cvImg)//https://www.cnblogs.com/annt/p/ant003.html
{
QImage qImg;
if (cvImg.channels() == 3)//3 channels color image
{
cv::cvtColor(cvImg, cvImg, CV_BGR2RGB);
qImg = QImage((const unsigned char*)(cvImg.data),
cvImg.cols, cvImg.rows,
cvImg.cols*cvImg.channels(),
QImage::Format_RGB888);
}
else if (cvImg.channels() == 1)//grayscale image
{
qImg = QImage((const unsigned char*)(cvImg.data),
cvImg.cols, cvImg.rows,
cvImg.cols*cvImg.channels(),
QImage::Format_Indexed8);
}
else
{
qImg = QImage((const unsigned char*)(cvImg.data),
cvImg.cols, cvImg.rows,
cvImg.cols*cvImg.channels(),
QImage::Format_RGB888);
}
return qImg;
}
void rgbImage::FillRgbImage(unsigned short *datacube)
{
unsigned short *r_row, *g_row, *b_row;
//从第二行开始向下移动一行https://blog.csdn.net/u014686356/article/details/65937750
// m_matRgbImage->rowRange(0, m_matRgbImage->rows - 1).copyTo(m_matRgbImage->rowRange(1, m_matRgbImage->rows));//经tc验证此行代码工作异常为啥不加.clone()就异常??????
// m_matRgbImage->rowRange(0, m_matRgbImage->rows - 1).clone().copyTo(m_matRgbImage->rowRange(1, m_matRgbImage->rows));//此方式ximea帧率130hz1min左右就出现漏帧
if(m_iFrameCounter<m_iFrameNumber)
// cv::Mat upperPart = m_matRgbImage->rowRange(0, m_matRgbImage->rows - 1).clone();//此方式ximea帧率130hz1min左右就出现漏帧
// upperPart.copyTo(m_matRgbImage->rowRange(1, m_matRgbImage->rows));
for (int i = m_matRgbImage->rows - 2; i >= 0; --i)//此方式ximea帧率130hz4.5min左右出现漏帧 → 此方式效率最高
{
FillOnerowofRgbImage(m_matRgbImage, m_iFrameCounter, datacube);
// std::cout << "小于:" << m_iFrameNumber << std::endl;
m_matRgbImage->row(i).copyTo(m_matRgbImage->row(i+1));
}
else
{
// std::cout << "大于:" << m_iFrameNumber << std::endl;
//通过行赋值将前m_iFrameNumber-1行向上移动一行https://blog.csdn.net/u014686356/article/details/65937750
// m_matRgbImage->rowRange(1, m_matRgbImage->rows).copyTo(m_matRgbImage->rowRange(0, m_matRgbImage->rows-1));
for (int i = 1; i < m_matRgbImage->rows; ++i)
{
// std::cout << "大于:" << i << std::endl;
m_matRgbImage->col(i).copyTo(m_matRgbImage->col(i-1));
// std::cout << "--------------" << i << std::endl;
}
FillOnerowofRgbImage(m_matRgbImage, 0, datacube);
// m_Qphoto = Mat2QImage(*m_matRgbImage);
// std::cout << "1111111111111111111111111111"<< std::endl;
//通过FillOnerowofRgbImage为m_iFrameNumber行赋值
FillOnerowofRgbImage(m_matRgbImage, m_iFrameNumber-1, datacube);
// std::cout << "22222222222222222"<< std::endl;
// //循环给每行像素赋值
// r_row = datacube + 121 * m_iSampleNumber;
// g_row = datacube + 79 * m_iSampleNumber;
// b_row = datacube + 40 * m_iSampleNumber;
// for (int j = 0; j < m_iFrameNumber; j++)
// {
// p = m_matRgbImage.ptr<uchar>(j);
// for ( j = 0; j < nCols; ++j){
// p[j] = table[p[j]];
// }
//保存rgb图片
// if (m_iFrameCounter % m_iFramerate == 0 || m_iFrameCounter == m_iFrameNumber - 1)
// {
//// QString savePath = "/media/nvme/delete/" + QString::number(m_iFrameCounter) + "_qt.jpg";
//// m_Qphoto.save(savePath);
//
// }
//保存rgb图片
if (m_iFrameCounter % m_iFramerate == 0 || m_iFrameCounter == m_iFrameNumber - 1)
{
////保存文件
//FileOperation * fileOperation = new FileOperation();
//string directory = fileOperation->getDirectoryOfExe();
//string rgbFilePathStrech = “/media/nvme/300TC/config/” + "\\tmp_image_strech.png";//没有拉伸图片
// std::string rgbFilePathNoStrech = "/media/nvme/300TC/config/" + std::to_string(m_iFrameCounter) + "ctmp_image_no_strech.png";
//m_QRgbImage->save(QString::fromStdString(rgbFilePathNoStrech), "PNG");
// cv::imwrite(rgbFilePathNoStrech, *m_matRgbImage);
//cv::imwrite(rgbFilePathStrech, CStretch(*m_matRgbImage, 0.01));
}
m_VideoWriter.write(*m_matRgbImage);
std::string rgbFilePathNoStrech = "/media/nvme/delete/" + std::to_string(m_iFrameCounter) + "ctmp_image_no_strech.png";
cv::imwrite(rgbFilePathNoStrech, *m_matRgbImage);
}
// QString savePath_cv = "/media/nvme/delete/" + QString::number(m_iFrameCounter) + "_cv.jpg";
// cv::imwrite(savePath_cv.toStdString(), *m_matRgbImage);
// }
// m_VideoWriter.write(*m_matRgbImage);
// std::string rgbFilePathNoStrech = "/media/nvme/delete/" + std::to_string(m_iFrameCounter) + "ctmp_image_no_strech.png";
// cv::imwrite(rgbFilePathNoStrech, *m_matRgbImage);
m_iFrameCounter++;
}

81
Source_Files/sbgrecorder.cpp
View File

@ -608,66 +608,43 @@ void sbgtc::SbgRecorder::parseSbgMessage(QByteArray * sbgMessage)
//判断模式是否为: NAV_POSITION
if(receivedMsgClass==SBG_ECOM_CLASS_LOG_ECOM_0 && receivedMsg==SBG_ECOM_LOG_EKF_EULER)
{
m_iSolutionModeCounter++;//
m_iSolutionModeCounter++;
uint32_t status=logData.ekfEulerData.status;
uint32_t mode=status>>24;//?????????????????????????????????????
// uint32_t mode=status;//这是错的
uint32_t mode=status & 0xf;
//一秒钟发射一次mode
if(m_iSolutionModeCounter%200 == 0)
{
emit sbgSolutionModeSignal(mode);
// std::cout << "logData.ekfEulerData.status: " << status << std::endl;
switch (mode)
{
case SBG_ECOM_SOL_MODE_UNINITIALIZED:
// std::cout<<"此刻模式为: "<<"UNINITIALIZED"<<std::endl;
break;
case SBG_ECOM_SOL_MODE_VERTICAL_GYRO:
// std::cout<<"此刻模式为: "<<"VERTICAL_GYRO"<<std::endl;
break;
case SBG_ECOM_SOL_MODE_AHRS:
// std::cout<<"此刻模式为: "<<"AHRS"<<std::endl;
break;
case SBG_ECOM_SOL_MODE_NAV_VELOCITY:
// std::cout<<"此刻模式为: "<<"NAV_VELOCITY"<<std::endl;
break;
case SBG_ECOM_SOL_MODE_NAV_POSITION:
// std::cout<<"此刻模式为: "<<"NAV_POSITION"<<std::endl;
switch (mode) {
case SBG_ECOM_SOL_MODE_UNINITIALIZED:
// std::cout << "此刻模式为: " << "UNINITIALIZED" << std::endl;
m_bIsNAV_POSITION_MODE = false;
break;
case SBG_ECOM_SOL_MODE_VERTICAL_GYRO:
// std::cout << "此刻模式为: " << "VERTICAL_GYRO" << std::endl;
m_bIsNAV_POSITION_MODE = false;
break;
case SBG_ECOM_SOL_MODE_AHRS:
// std::cout << "此刻模式为: " << "AHRS" << std::endl;
m_bIsNAV_POSITION_MODE = false;
break;
case SBG_ECOM_SOL_MODE_NAV_VELOCITY:
// std::cout << "此刻模式为: " << "NAV_VELOCITY" << std::endl;
m_bIsNAV_POSITION_MODE = false;
break;
case SBG_ECOM_SOL_MODE_NAV_POSITION:
// std::cout << "此刻模式为: " << "NAV_POSITION" << std::endl;
m_bIsNAV_POSITION_MODE = true;
break;
default:
break;
break;
default:
break;
}
}
switch (mode)
{
case SBG_ECOM_SOL_MODE_UNINITIALIZED:
// std::cout<<"此刻模式为: "<<"UNINITIALIZED"<<std::endl;
m_bIsNAV_POSITION_MODE=false;
break;
case SBG_ECOM_SOL_MODE_VERTICAL_GYRO:
// std::cout<<"此刻模式为: "<<"VERTICAL_GYRO"<<std::endl;
m_bIsNAV_POSITION_MODE=false;
break;
case SBG_ECOM_SOL_MODE_AHRS:
// std::cout<<"此刻模式为: "<<"AHRS"<<std::endl;
m_bIsNAV_POSITION_MODE=false;
break;
case SBG_ECOM_SOL_MODE_NAV_VELOCITY:
// std::cout<<"此刻模式为: "<<"NAV_VELOCITY"<<std::endl;
m_bIsNAV_POSITION_MODE=false;
break;
case SBG_ECOM_SOL_MODE_NAV_POSITION:
// std::cout<<"此刻模式为: "<<"NAV_POSITION"<<std::endl;
m_bIsNAV_POSITION_MODE=true;
break;
default:
break;
}
}
else if(receivedMsgClass==SBG_ECOM_CLASS_LOG_ECOM_0 && receivedMsg==SBG_ECOM_LOG_GPS1_POS)
{
@ -687,6 +664,10 @@ void sbgtc::SbgRecorder::parseSbgMessage(QByteArray * sbgMessage)
// std::cout<<"纬度精度为:"<<maximal<<std::endl;
// std::cout<<"numSvUsed"<<satelliteCounter<<std::endl;
//
// std::cout<<"latitude"<<logData.gpsPosData.latitude<<std::endl;
// std::cout<<"longitude"<<logData.gpsPosData.longitude<<std::endl;
// std::cout<<"altitude"<<logData.gpsPosData.altitude<<std::endl;
emit sbgAccuracySignal(static_cast<int>(maximal), satelliteCounter);
@ -727,7 +708,7 @@ void sbgtc::SbgRecorder::parseSbgMessage(QByteArray * sbgMessage)
//控制开始采集高光谱影像,m_bIsNAV_POSITION_MODE &&
if(m_bIsRecordHyperspecatralImage && m_bIsSyncSystemTimeBaseGpstime && receivedMsgClass==SBG_ECOM_CLASS_LOG_ECOM_0 && receivedMsg==SBG_ECOM_LOG_UTC_TIME)
if(m_bIsRecordHyperspecatralImage && m_bIsSyncSystemTimeBaseGpstime && m_bIsNAV_POSITION_MODE && receivedMsgClass==SBG_ECOM_CLASS_LOG_ECOM_0 && receivedMsg==SBG_ECOM_LOG_UTC_TIME)
{
m_baseFileName=getFileNameBaseOnTime();
emit sbgReady(calculateTimeDifferenceBetweenSystemAndSbg(logData),m_baseFileName);

285
Source_Files/udpserver.cpp
View File

@ -8,16 +8,16 @@ UdpServer::UdpServer()
m_udpSocket->bind(45454, QUdpSocket::ShareAddress);
connect(m_udpSocket, SIGNAL(readyRead()),this, SLOT(processPendingDatagrams()));
m_RecordSbgThread=new QThread();
m_sbgRecorder=new sbgtc::SbgRecorder();
m_sbgRecorder->moveToThread(m_RecordSbgThread);
m_RecordSbgThread->start();
m_RecordThread=new QThread();
m_imager=new XimeaImager();
m_imager->moveToThread(m_RecordThread);
m_RecordThread->start(QThread::HighestPriority);
m_RecordSbgThread=new QThread();
m_sbgRecorder=new sbgtc::SbgRecorder();
m_sbgRecorder->moveToThread(m_RecordSbgThread);
m_RecordSbgThread->start();
m_CopyFileThread=new QThread();
m_copyFile=new FileOperation();
m_copyFile->moveToThread(m_CopyFileThread);
@ -51,19 +51,41 @@ UdpServer::UdpServer()
connect(m_imager, SIGNAL(ximeaImageStatus(int)),this, SLOT(sendXimeaImageStatus(int)));
connect(m_imager, SIGNAL(autoExposeMaxValueOfOneFrame(int, double)),this, SLOT(sendXimeaAutoExposeMaxValueOfOneFrame(int, double)));
connect(m_imager, SIGNAL(binSignal(int, int)),this, SLOT(sendXimeaBinState(int, int)));
connect(m_imager, SIGNAL(frameRateSignal(double)),this, SLOT(sendXimeaImageFrameRate(double)));
connect(m_copyFile, SIGNAL(copyFileStatus(int)),this, SLOT(sendCopyFileStatus(int)));
QString ximeaParamCfgFile = "/media/nvme/300TC/config/StateOf300tc.cfg";
stateOf300tc.setConfigfilePath(ximeaParamCfgFile.toStdString());
if(!stateOf300tc.isConfigfileExist())
stateOf300tc.createConfigFile();
stateOf300tc.parseConfigfile();
stateOf300tc.setSbgState(0);
stateOf300tc.setSbgSolutionMode(0);
stateOf300tc.setXimeaState(100);
stateOf300tc.setFrameRate(0);
stateOf300tc.setExposeTime(0);
stateOf300tc.setExposeMaxValueOfOneFrame(0);
//当软件不正常关闭并且重启后通知其他psdk程序
m_clientIpAddress=QHostAddress(QHostAddress::LocalHost);
sendSerialPortStatus(0);
sendXimeaImageStatus(0);
sendXimeaImageStatus(100);
sendCopyFileStatus(0);
system("sudo gpio write 10 0");
m_recordTempThread=new QThread();
m_300tcTemperature = new Record300TcTemperature();
m_300tcTemperature->moveToThread(m_recordTempThread);
m_recordTempThread->start();
connect(this, SIGNAL(record300tcTemperatureSignal(QString)),m_300tcTemperature, SLOT(recordTemperature(QString)));
QDateTime curDateTime = QDateTime::currentDateTime();
QString currentTime = curDateTime.toString("yyyy_MM_dd_hh_mm_ss");
QString Temperature300tcCSVPath = QDir::cleanPath(QString::fromStdString("/media/nvme/300TC/programRunLog/300tcTemperature") + QDir::separator() + "300tcTemperature_" + currentTime + ".csv");
emit record300tcTemperatureSignal(Temperature300tcCSVPath);
std::cout<<"UdpServer::UdpServer--------:System ready!"<<std::endl;
}
@ -101,7 +123,7 @@ void UdpServer::processPendingDatagrams()
case 2://关闭系统:关闭相机和sbg串口,关闭软件
{
std::cout<<"2代表关闭系统!"<<std::endl;
m_300tcTemperature->stopRecordTemperature();
if(m_sbgRecorder->getSbgState()>=1)
{
@ -166,8 +188,8 @@ void UdpServer::processPendingDatagrams()
{
if(m_imager->getImagerState()>=101 && m_imager->getImagerState()<=103)
{
float time = datagramList[1].toFloat();//ms
m_imager->wrapSetExposureTime(time*1000);
float time = datagramList[1].toFloat();//μs
m_imager->wrapSetExposureTime(time);
std::cout<<"7手动设置曝光时间为" << time <<std::endl;
}
@ -196,8 +218,30 @@ void UdpServer::processPendingDatagrams()
break;
}
case 10:
{
std::cout<<"10代表!"<<std::endl;
int sbgState,sbgSolutionMode,ximeaState,frameRate,exposeMaxValueOfOneFrame;
float exposeTime;
stateOf300tc.getSbgState(sbgState);
stateOf300tc.getSbgSolutionMode(sbgSolutionMode);
stateOf300tc.getXimeaState(ximeaState);
stateOf300tc.getFrameRate(frameRate);
stateOf300tc.getExposeTime(exposeTime);
stateOf300tc.getExposeMaxValueOfOneFrame(exposeMaxValueOfOneFrame);
sendSerialPortStatus(sbgState);
sendSbgSolutionModeState(sbgSolutionMode);
sendXimeaImageStatus(ximeaState);
sendXimeaAutoExposeMaxValueOfOneFrame(exposeMaxValueOfOneFrame, exposeTime);
sendXimeaImageFrameRate(frameRate);
break;
}
default:
std::cout<<">=9没有意义!"<<std::endl;
std::cout<<">=11没有意义!"<<std::endl;
break;
}
@ -259,6 +303,8 @@ void UdpServer::sendSerialPortStatus(int serialPortStatus)
datagram2send.operator =(status.toStdString().c_str());
m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
stateOf300tc.setSbgState(serialPortStatus);
}
void UdpServer::sendSbgSolutionModeState(int SolutionMode)
@ -271,6 +317,8 @@ void UdpServer::sendSbgSolutionModeState(int SolutionMode)
datagram2send.operator =(status.toStdString().c_str());
m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
stateOf300tc.setSbgSolutionMode(SolutionMode);
}
void UdpServer::sendSbgAccuracyState(int Accuracy,int SatelliteCounter)
@ -295,15 +343,32 @@ void UdpServer::sendXimeaImageStatus(int ximeaImageStatus)
datagram2send.operator =(status.toStdString().c_str());
m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
stateOf300tc.setXimeaState(ximeaImageStatus);
}
void UdpServer::sendXimeaAutoExposeMaxValueOfOneFrame(int autoExposeMaxValueOfOneFrame, double exposeTime)
{
// std::cout<<"UdpServer::sendXimeaAutoExposeMaxValueOfOneFrame---------------------:"<< exposeTime << " " << autoExposeMaxValueOfOneFrame <<std::endl;
QByteArray datagram2send;
QString status = "XimeaAutoExpose," + QString::number(autoExposeMaxValueOfOneFrame) + "," + QString::number(exposeTime, 'f', 2);
datagram2send.operator =(status.toStdString().c_str());
m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
stateOf300tc.setExposeTime(exposeTime);
stateOf300tc.setExposeMaxValueOfOneFrame(autoExposeMaxValueOfOneFrame);
}
void UdpServer::sendXimeaBinState(int spatialBin, int spectralBin)
{
// std::cout<<"UdpServer::sendXimeaAutoExposeMaxValueOfOneFrame---------------------:"<< ximeaImageStatus <<std::endl;
QByteArray datagram2send;
QString status = "XimeaAutoExpose," + QString::number(autoExposeMaxValueOfOneFrame) + "," + QString::number(exposeTime, 'f', 2);
QString status = "bin," + QString::number(spatialBin) + "," + QString::number(spectralBin);
datagram2send.operator =(status.toStdString().c_str());
m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
@ -319,6 +384,8 @@ void UdpServer::sendXimeaImageFrameRate(double frameRate)
datagram2send.operator =(status.toStdString().c_str());
m_udpSocket->writeDatagram(datagram2send.data(),datagram2send.size(),m_clientIpAddress, 45455);
stateOf300tc.setFrameRate(frameRate);
}
void UdpServer::sendCopyFileStatus(int fileStatus)
@ -337,3 +404,199 @@ void UdpServer::onRecordFinished()
{
std::cout<<"UdpServer::onRecordFinished----------------:影像停止采集"<<std::endl;
}
Record300TcTemperature::Record300TcTemperature()
{
m_bIsRecord = true;
}
void Record300TcTemperature::stopRecordTemperature()
{
m_bIsRecord = false;
}
void Record300TcTemperature::recordTemperature(QString filePath= nullptr)
{
if(filePath== nullptr)
filePath="300tcTemperature.csv";
QList<QString> fileInfo = getFileInfo(filePath);
bool ret = createDir(fileInfo[0]);
ofstream temperatureFile300Tc(filePath.toStdString().c_str(),ios::app);
int counter = 0;
m_serial=new QSerialPort();
if(m_serial->isOpen())//如果串口已经打开了 先给他关闭了
{
m_serial->clear();
m_serial->close();
}
QString portname = "ttyUSB2";
m_serial->setPortName(portname);
m_serial->open(QIODevice::ReadWrite);
bool x=m_serial->setBaudRate(9600);
QByteArray requestData;
while (m_bIsRecord)
{
counter++;
if(m_serial->waitForReadyRead(30000))
{
requestData = m_serial->readAll();
float temp = parseMessage(&requestData);
if (temp == -10000)
{
continue;
}
QDateTime curDateTime = QDateTime::currentDateTime();
QString currentTime = curDateTime.toString("yyyy/MM/dd hh:mm:ss");
temperatureFile300Tc << currentTime.toStdString() << "," << temp << "\n";
// if(temp > 80)
// {
// system("/home/300tc/projects/udpClient/udpClient 127.0.0.1 9,0");
// }
// if(temp > 90)
// {
// system("/home/300tc/projects/udpClient/udpClient 127.0.0.1 2");
// }
//
if (counter % 60 == 0)
{
temperatureFile300Tc.flush();
}
sleep(1);
}
else
{
// std::cout<<"Record300TcTemperature::recordTemperature--Wait response timeout."<<std::endl;
}
}
m_bIsRecord = true;
temperatureFile300Tc.close();
}
float Record300TcTemperature::parseMessage(QByteArray * data)
{
float Lux;
float T;
float P;
float Hum;
float H;
bool hasTemperature = false;
// qDebug() << "Received data(hex): " << data->toHex();
// for (int i = 0; i < data->length(); ++i)
// {
// qDebug() << i << ":" << (int)data->at(i);
// }
QByteArray target = QByteArray::fromHex("5a5a"); // The pattern to search for
int offset_tmp = data->indexOf(target);
QList<int> offsets;
while (offset_tmp != -1)
{
offsets.append(offset_tmp);
offset_tmp = data->indexOf(target, offset_tmp + target.size());
}
if (offsets.isEmpty())
{
// qDebug() << "5A5A not found in the data.";
return -10000;
}
// qDebug() << "5A5A found at offsets:" << offsets;
for (int i = 0; i < offsets.length(); ++i)
{
int offset = offsets.at(i);
int messageClass = data->at(offset + 2);
int messageCount = data->at(offset + 3) + 5;
// qDebug() << "messageCount:" << messageCount;
if (offset + messageCount - 1 > data->length() - 1)
{
qDebug() << i << ": Some data of this frame is missing! Discarding the frame.";
continue;
}
int checksum = 0;
QList<int> numbers;
for (int j = 0; j < messageCount - 1; ++j)
{
if (i==offsets.length()-1 && j== messageCount-1)
{
int sdf=1;
}
int index = offset + j;
if (index >= data->length())//Some data of this frame is missing! Discarding the frame.
{
checksum = -1;
break;
}
int tmp = static_cast<int>(data->at(index));
numbers.append(tmp);
checksum += tmp;
}
// qDebug() << "jiaqilai:" << numbers;
if (checksum == -1)
{
qDebug() << "Some data of this frame is missing! Discarding the frame.";
continue;
}
if ((checksum & 0xFF) != data->at(offset + messageCount - 1))
{
qDebug() << "Checksum mismatch! Discarding the frame.";
continue;
}
//parse data
switch (messageClass)
{
case 0x15:
Lux = (float)((data->at(offset + 4)<<24)|(data->at(offset + 5)<<16)|(data->at(offset + 6)<<8)|data->at(offset + 7)) / 100;
// qDebug() << "lux: " << Lux;
break;
case 0x45:
T = (float)((data->at(offset + 4)<<8)|data->at(offset + 5)) / 100;
P = (float)((data->at(offset + 6)<<24)|(data->at(offset + 7)<<16)|(data->at(offset + 8)<<8)|data->at(offset + 9)) / 100;
Hum = (float)((data->at(offset + 10)<<8) | data->at(offset + 11)) / 100;
H = (float)((data->at(offset + 12)<<8)|data->at(offset + 13));
hasTemperature = true;
// qDebug() << "T: " << T;
// qDebug() << "P: " << P;
// qDebug() << "Hum: " << Hum;
// qDebug() << "H: " << H;
break;
default : // 可选的
;
}
}
if (hasTemperature)
{
return T;
}
else
{
return -10000;
}
}

549
Source_Files/ximeaimager.cpp
View File

@ -12,9 +12,30 @@ XimeaImager::XimeaImager()
if(!m_configfile.isConfigfileExist())
m_configfile.createConfigFile();
m_configfile.parseConfigfile();
m_configfile.getWindowOffsety_HeightOfSpectral(m_iOffsetyOfSpectralBin1, m_iHeightOfSpectralBin1, "bin1");
m_configfile.getWindowOffsety_HeightOfSpectral(m_iOffsetyOfSpectralBin2, m_iHeightOfSpectralBin2, "bin2");
//检查 ximea.cfg 是否满足要求
if(m_iOffsetyOfSpectralBin2 != m_iOffsetyOfSpectralBin1 / 2)
{
std::cout<<"ximea.cfg 错误m_iOffsetyOfSpectralBin2 != m_iOffsetyOfSpectralBin1 / 2!"<<std::endl;
}
if(m_iOffsetyOfSpectralBin2 % 2 != 0)
{
std::cout<<"ximea.cfg 错误m_iOffsetyOfSpectralBin2 不是 2 的倍数ximea相机不接受!"<<std::endl;
}
if(m_iHeightOfSpectralBin1 < m_iHeightOfSpectralBin2 * 2)
{
std::cout<<"ximea.cfg 错误bin1 波段数小于 bin2 波段数的 2 倍!"<<std::endl;
}
QString ximeaParamCfgFile = "/media/nvme/300TC/config/ximeaParam.cfg";
m_parameterConfigfile.setConfigfilePath(ximeaParamCfgFile.toStdString());
if(!m_parameterConfigfile.isConfigfileExist())
m_parameterConfigfile.createConfigFile();
m_parameterConfigfile.parseConfigfile();
m_recordTempThread=new QThread();
m_ximeaTemperature = new RecordXimeaTemperature(&m_imager);
m_ximeaTemperature = new RecordXimeaTemperature(&m_imager, this);
m_ximeaTemperature->moveToThread(m_recordTempThread);
m_recordTempThread->start();
@ -26,8 +47,15 @@ XimeaImager::XimeaImager()
writeData2DiskThread->start(QThread::HighestPriority);
connect(this, SIGNAL(startWriteDiskSignal()), writeData2Disk, SLOT(write2Disk()));
m_pushFlowThread=new QThread();
m_pushFlow = new PushFlow();
m_pushFlow->moveToThread(m_pushFlowThread);
m_pushFlowThread->start();
connect(this, SIGNAL(startPushFlowSignal()), m_pushFlow, SLOT(encodePushFlow()));
m_pool = new MemoryPool<DataBuffer>;
q = new queue<DataBuffer *>;
m_qFrameCounter = new queue<int>;
m_rgbImage = new rgbImage();
}
@ -61,6 +89,10 @@ void XimeaImager::openImger()
{
bool haha = m_imager.setSpectralBin(spectralBin);
bool haha2 = m_imager.setSpatialBin(spatialBin);
emit binSignal(spatialBin, spectralBin);
std::cout<<"spectralBin"<< spectralBin <<std::endl;
std::cout<<"spatialBin"<< spatialBin <<std::endl;
}
float gain, offset;//用于生成头文件中的波长信息
@ -74,10 +106,24 @@ void XimeaImager::openImger()
ret = m_configfile.getEffectiveWindow(width, offsetx, height, offsety);
if (ret)
{
int rgbHeight;
int framerateVideo;
m_configfile.getPushFlowParam(m_iFlowSwitch, rgbHeight, framerateVideo);
std::cout <<"rgbHeight" << rgbHeight << ", framerateVideo" << framerateVideo << std::endl;
m_imager.setEffectiveWindow(offsetx, width, offsety, height);
m_rgbImage->SetRgbImageWidthAndHeight(height, width, 20);
m_rgbImage->SetRgbImageWidthAndHeight(height, width, rgbHeight);
m_pushFlow->setParm(m_rgbImage,width,rgbHeight,framerateVideo);
int redBandNumber;
int greenBandNumber;
int blueBandNumber;
getRgbBandNumber(redBandNumber, greenBandNumber, blueBandNumber);
m_rgbImage->SetRgbBandNumber(redBandNumber, greenBandNumber, blueBandNumber);
std::cout<<"height"<< height <<std::endl;
std::cout<<"width"<< width <<std::endl;
std::cout<<"每帧字节数:"<< width * height * 2 <<std::endl;
}
// int width_roi = 0, offsetx_roi = 0;
@ -99,7 +145,20 @@ void XimeaImager::openImger()
m_imager.setAcqBufferSize(acqBufferSize);
}
setFramerate(100);
if (m_parameterConfigfile.isConfigfileExist())
{
int frameRate;
m_parameterConfigfile.getFrameRate(frameRate);
setFramerate(frameRate);
float exposeTime;
m_parameterConfigfile.getExposeTime(exposeTime);
wrapSetExposureTime(exposeTime);
}
else
{
setFramerate(100);
}
//经验证frameSizeManual和frameSizeAuto相等
int frameSizeManual = m_imager.get_band_count()*m_imager.get_sample_count()*2;
@ -115,7 +174,7 @@ void XimeaImager::openImger()
QDateTime curDateTime = QDateTime::currentDateTime();
QString currentTime = curDateTime.toString("yyyy_MM_dd_hh_mm_ss");
m_ximeaTemperatureCSVPath = QDir::cleanPath(QString::fromStdString("/home/programRunLog/hyperspectralLog") + QDir::separator() + "ximeaTemperature_" + currentTime + ".csv");
m_ximeaTemperatureCSVPath = QDir::cleanPath(QString::fromStdString("/media/nvme/300TC/programRunLog/ximeaTemperature") + QDir::separator() + "ximeaTemperature_" + currentTime + ".csv");
// m_ximeaTemperatureCSVPath = "/home/ximeaTemperature.csv";
emit recordXimeaTemperatureSignal(m_ximeaTemperatureCSVPath);
}
@ -164,14 +223,21 @@ void XimeaImager::setFramerate(double framerate)
{
m_imager.set_framerate(framerate);
int maxExposureTimeInUs=1/framerate*1000000*0.01;
setExposureTime(maxExposureTimeInUs);
// setExposureTime(1000);
int exposureTimeInUs = getExposureTime();
int maxExposureTimeInUs=1/framerate*1000000;
if (exposureTimeInUs > maxExposureTimeInUs)
{
wrapSetExposureTime(maxExposureTimeInUs);
}
m_iImagerState=102;
emit ximeaImageStatus(m_iImagerState);
emit frameRateSignal(framerate);
m_parameterConfigfile.setFrameRate(framerate);
}
catch(int xiApiErrorCodes)
{
@ -207,9 +273,7 @@ double XimeaImager::setExposureTime(float exposureTime_in_us)
//确保设置的积分时间比最大积分时间小
if(exposureTime_in_us<maxExposureTime_in_us)
{
m_imager.set_integration_time(exposureTime_in_us);
}
else
{
@ -218,6 +282,7 @@ double XimeaImager::setExposureTime(float exposureTime_in_us)
//返回设置的积分时间
integrationTime2Return=m_imager.get_integration_time();
m_parameterConfigfile.setExposeTime(integrationTime2Return);
return integrationTime2Return;
}
@ -241,7 +306,7 @@ int XimeaImager::wrapSetExposureTime(float exposureTime_in_us)
m_iImagerState=103;
emit ximeaImageStatus(m_iImagerState);
emit autoExposeMaxValueOfOneFrame(maxValueOfOneFrame, exposureTime/1000);
emit autoExposeMaxValueOfOneFrame(maxValueOfOneFrame, exposureTime);
return maxValueOfOneFrame;
}
@ -304,7 +369,7 @@ double XimeaImager::autoExposure()
m_iImagerState=103;
emit ximeaImageStatus(m_iImagerState);
emit autoExposeMaxValueOfOneFrame(maxValueOfOneFrame, exposureTime/1000);
emit autoExposeMaxValueOfOneFrame(maxValueOfOneFrame, exposureTime);
std::cout<<"自动曝光完成!"<<std::endl;
return exposureTime;
@ -441,6 +506,50 @@ double XimeaImager::geWavelengthAtBand(int x)
}
}
void XimeaImager::getRgbBandNumber(int &redBandNumber, int &greenBandNumber, int &blueBandNumber)
{
vector<double> wavelengths;
for (int i = getWindowStartBand(); i < getWindowEndBand(); i++)
{
wavelengths.push_back(geWavelengthAtBand(i));
}
//envi打开文件时的红绿蓝波长nm
int r_envi = 640;
int g_envi = 550;
int b_envi = 470;
redBandNumber = findClosestIndex(wavelengths, r_envi);
greenBandNumber = findClosestIndex(wavelengths, g_envi);
blueBandNumber = findClosestIndex(wavelengths, b_envi);
// std::cout<<"红波段的波段号:"<< redBandNumber <<std::endl;
// std::cout<<"绿波段的波段号:"<< greenBandNumber <<std::endl;
// std::cout<<"蓝波段的波段号:"<< blueBandNumber <<std::endl;
}
int XimeaImager::findClosestIndex(const std::vector<double>& numbers, double target)
{
if (numbers.empty()) {
// 处理空向量的情况
return -1;
}
double minDifference = std::abs(numbers[0] - target);
int closestIndex = 0;
for (int i = 1; i < numbers.size(); ++i)
{
double currentDifference = std::abs(numbers[i] - target);
if (currentDifference < minDifference)
{
minDifference = currentDifference;
closestIndex = i;
}
}
return closestIndex;
}
int XimeaImager::getMaxValueOfOneFrame(unsigned short * data, int numberOfPixel)
{
//排序
@ -471,15 +580,41 @@ int XimeaImager::getImagerState() const
return m_iImagerState;
}
double XimeaImager::calculateTimeDifferenceBetweenSbgAndximea(XI_IMG * image, double timeDifferenceBetweenSbgAndOS)
{
printf("XimeaImager::calculateTimeDifferenceBetweenSystemAndximea--timeDifferenceBetweenSbgAndOS: %f s\n", timeDifferenceBetweenSbgAndOS);
double ximeaTime=image->tsSec + image->tsUSec/1000000;
printf("XimeaImager::calculateTimeDifferenceBetweenSystemAndximea--ximeaTime: %f s\n", ximeaTime);
//获取系统时间(纳秒)
struct timespec systemTime;
clock_gettime(CLOCK_REALTIME,&systemTime);
tm systemTime_rili;
localtime_r(&systemTime.tv_sec, &systemTime_rili);
double secondSystem=(systemTime_rili.tm_mday-1)*24*60*60+systemTime_rili.tm_hour*60*60+systemTime_rili.tm_min*60+systemTime_rili.tm_sec;
double timeOS=secondSystem+static_cast<double>(systemTime.tv_nsec)/1000000000;
printf("XimeaImager::calculateTimeDifferenceBetweenSystemAndximea--osTime: %f s\n", timeOS);
//计算系统时间和gps时间之间的差距
double timeDifferenceBetweenSbgAndximea = timeOS - timeDifferenceBetweenSbgAndOS - ximeaTime;
printf("XimeaImager::calculateTimeDifferenceBetweenSystemAndximea--timeDifferenceBetweenSbgAndximea: %f s\n", timeDifferenceBetweenSbgAndximea);
return timeDifferenceBetweenSbgAndximea;
}
void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString baseFileName)
{
m_ximeaTemperature->stopRecordTemperature();//开始采集影像前,停止获取相机的温度,以免降低帧率;
try
{
if(m_iImagerState <= 99 || m_iImagerState==100 || m_iImagerState==104)
{
emit ximeaImageStatus(m_iImagerState);
printf("已经开始采集----------------------------!\n");
return;
}
@ -497,23 +632,36 @@ void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString base
m_baseFileName=baseFileName;
QString timesFileName=m_baseFileName+".times";
FILE *hHimesFile=fopen(timesFileName.toStdString().c_str(),"w+");
// ofstream timesFile(timesFileName.toStdString());
std::cout << "曝光时间为:" << getExposureTime()/1000 << "ms" <<std::endl;
std::cout << "帧率为:" << getFramerate() << "hz" <<std::endl;
std::cout << "曝光时间为:" << getExposureTime() << "μs" <<std::endl;
using namespace std;
// ofstream timesFileHandle(timesFileName.toStdString()+"_ofstream");
int number_WriteDisk = 100;
writeData2Disk->setParm(q,m_baseFileName,m_iFrameSizeInByte, number_WriteDisk, m_pool, m_rgbImage);
emit startWriteDiskSignal();
writeData2Disk->setParm(q, m_qFrameCounter,m_baseFileName,m_iFrameSizeInByte, number_WriteDisk, m_pool, m_rgbImage);
// emit startWriteDiskSignal();
int indexofbuff;
DataBuffer * buffer;
QString timesFileName=m_baseFileName+".times";
FILE *hHimesFile=fopen(timesFileName.toStdString().c_str(),"w+");
// ofstream timesFile(timesFileName.toStdString());
double timeDifferenceBetweenSbgAndXimea;
double * sbgTimeBuffer = new double[number_WriteDisk];
QString imageFileName=m_baseFileName+".bil";
FILE *hFile=fopen(imageFileName.toStdString().c_str(),"w+b");
double * imageBuffer = new double[number_WriteDisk];
QString vedioFileName=m_baseFileName+".h264";
m_pushFlow->setVedioFilePath(vedioFileName);
if(m_iFlowSwitch == 1)
{
emit startPushFlowSignal();
}
m_imager.start();
struct timeval timeStart, timeEnd;
double runTime=0;
@ -523,85 +671,81 @@ void XimeaImager::startRecord(double TimeDifferenceBetweensOSAndSbg,QString base
unsigned short *x=m_imager.get_frame(m_buffer);
m_iFrameCounter+=1;
//fwrite(m_buffer,2,getBandCount()*getSampleCount(),hFile);
// fwrite(m_imager.m_image.bp,static_cast<int>(m_imager.m_image.bp_size),1,hFile);
//fflush(hFile);//只保证了将IO缓冲写入系统缓冲中使IO读操作能成功但系统什么时候写入磁盘由系统决定一般是达到一定量时系统他就写入磁盘。
//sync();//强制系统将系统文件缓冲的内容写入磁盘
if (m_iFrameCounter == 1)
{
timeDifferenceBetweenSbgAndXimea = calculateTimeDifferenceBetweenSbgAndximea(&m_imager.m_image, TimeDifferenceBetweensOSAndSbg);
}
fwrite(m_imager.m_image.bp,1,m_iFrameSizeInByte, hFile);
//构造rgb图像用于推流到m300遥控器
if(m_iFlowSwitch == 1)
{
m_rgbImage->FillRgbImage((unsigned short *)m_imager.m_image.bp);
}
indexofbuff = m_iFrameCounter % number_WriteDisk;
if (indexofbuff == 1)
{
r_qtx.lock();
buffer = m_pool->newElement();
r_qtx.unlock();
}
if (indexofbuff == 0)
{
memcpy((void *)buffer->data + (number_WriteDisk - 1) * m_iFrameSizeInByte,m_imager.m_image.bp,m_iFrameSizeInByte);
sbgTimeBuffer[number_WriteDisk - 1] = getSbgTime(&m_imager.m_image, timeDifferenceBetweenSbgAndXimea);
}
else
{
memcpy((void *)buffer->data + (indexofbuff - 1) * m_iFrameSizeInByte,m_imager.m_image.bp,m_iFrameSizeInByte);
sbgTimeBuffer[indexofbuff - 1] = getSbgTime(&m_imager.m_image, timeDifferenceBetweenSbgAndXimea);
}
if (indexofbuff == 0)
{
r_qtx.lock();
q->push(buffer);
r_qtx.unlock();
for (int i = 0; i < number_WriteDisk; ++i)
{
fprintf(hHimesFile,"%f\n",sbgTimeBuffer[i]);
}
}
}
if (indexofbuff != 0)
{
for (int i = 0; i < indexofbuff; ++i)
{
fprintf(hHimesFile,"%f\n",sbgTimeBuffer[i]);
}
double sbgTime=getSbgTime(TimeDifferenceBetweensOSAndSbg);
fprintf(hHimesFile,"%f\n",sbgTime);
// fwrite(&sbgTime,sizeof(double),1,hHimesFile);
// timesFile<<sbgTime<< "\n";
// timesFileHandle << sbgTime << "\n";
std::cout << "没凑满: " << indexofbuff <<std::endl;
}
gettimeofday(&timeEnd, NULL);
runTime = (timeEnd.tv_sec - timeStart.tv_sec ) + (double)(timeEnd.tv_usec -timeStart.tv_usec)/1000000;
m_imager.stop();
writeData2Disk->exitWriteData2Disk();
writeHdr();
m_iFrameCounter = m_iFrameCounter - indexofbuff;
if (indexofbuff != 0)
{
m_pool->deleteElement(buffer);
}
m_pushFlow->exitPushFlow();
double frameInTheory=runTime * getFramerate() - indexofbuff;
delete[] sbgTimeBuffer;
double frameLossed=m_imager.m_image.acq_nframe - indexofbuff - m_iFrameCounter;
double frameLossRate=frameLossed / (m_imager.m_image.acq_nframe - indexofbuff);
double frameInTheory=runTime * getFramerate();
std::cout<<"当前采集文件为: "<<baseFileName.toStdString()<<std::endl;
std::cout<<"采集时间为: "<<runTime<< "s" <<std::endl;
double frameLossed = m_imager.m_image.acq_nframe - m_iFrameCounter;
double frameLossRate = frameLossed / m_imager.m_image.acq_nframe;
std::cout<<"当前采集文件为: "<<baseFileName.toStdString()<< ".bil" <<std::endl;
std::cout<<"采集时间为: "<<runTime/60<< " min" <<std::endl;
std::cout<<"当前帧率为: "<<getFramerate() << "hz" <<std::endl;
std::cout<<"每秒数据量为: "<<getFramerate()*m_iFrameSizeInByte/(1024*1024)<<"MB"<<std::endl;
std::cout<<"理论采集帧数为: "<<m_imager.m_image.acq_nframe - indexofbuff<<std::endl;
std::cout<<"理论采集帧数为: "<<m_imager.m_image.acq_nframe<<std::endl;
std::cout<<"实际采集帧数为:"<<m_iFrameCounter<<std::endl;
std::cout<<"丢失帧数为: "<<frameLossed<<std::endl;
std::cout<<"丢帧率为: "<<frameLossRate * 100<< "%" <<std::endl;
fclose(hHimesFile);
fclose(hFile);
// timesFileHandle.close();
// timesFile.close();
timeStr = formatTimeStr(timeFormat);
printf("停止采集:%s!\n", timeStr.toStdString().c_str());
writeHdr();
m_iImagerState=m_iImagerStateTemp;
emit ximeaImageStatus(m_iImagerState);
emit recordFinished();
emit recordXimeaTemperatureSignal(m_ximeaTemperatureCSVPath);//停止采集影像后,继续获取传感器温度;
}
catch(int xiApiErrorCodes)
{
@ -641,6 +785,7 @@ void XimeaImager::writeHdr()
hdrFileHandle << "wavelength units = nanometers\n";
hdrFileHandle << "wavelength = {";
//hdrFileHandle << std::setprecision(5);
for (int i = getWindowStartBand(); i < getWindowEndBand(); i++)
{
hdrFileHandle << geWavelengthAtBand(i);
@ -651,6 +796,7 @@ void XimeaImager::writeHdr()
printf("头文件中写入了多少个波段:%d\n",i-getWindowStartBand()+1);//???????????????
}
}
hdrFileHandle << "}\n";
hdrFileHandle.close();
}
@ -808,10 +954,12 @@ DataBuffer::~DataBuffer()
{
}
RecordXimeaTemperature::RecordXimeaTemperature(Iris::IrisXimeaImager * imager)
RecordXimeaTemperature::RecordXimeaTemperature(Iris::IrisXimeaImager * imager, XimeaImager * ximeaImager)
{
m_imager = imager;
m_bIsRecord = true;
m_ximeaImager = ximeaImager;
}
void RecordXimeaTemperature::stopRecordTemperature()
@ -823,19 +971,56 @@ void RecordXimeaTemperature::recordTemperature(QString filePath= nullptr)
{
if(filePath== nullptr)
filePath="ximeaTemperature.csv";
ofstream ximeaTemperatureFile(filePath.toStdString().c_str(),ios::app);
QList<QString> fileInfo = getFileInfo(filePath);
bool ret = createDir(fileInfo[0]);
ofstream ximeaTemperatureFile(filePath.toStdString().c_str(),ios::app);
int counter = 0;
while(m_bIsRecord)
{
counter++;
float temp = m_imager->getTemperature();
if(temp > 80 && m_ximeaImager->getImagerState() == 104)
{
ximeaTemperatureFile.flush();
system("/home/300tc/projects/udpClient/udpClient 127.0.0.1 9,0");
}
if(temp > 90)
{
ximeaTemperatureFile.flush();
system("/home/300tc/projects/udpClient/udpClient 127.0.0.1 2");
}
// 获取剩余硬盘空间和剩余采集时间
FILE *fp;
char buffer[128];
fp = popen("cat /sys/devices/virtual/thermal/thermal_zone1/temp", "r");
if (fp == NULL) {
perror("popen");
}
// 读取输出并处理
unsigned long long temper;
if (fgets(buffer, sizeof(buffer), fp) != NULL)
{
temper = strtoull(buffer, NULL, 10);
// printf("CPU温度: %.2f;\n", (float)temper/1000);
}
pclose(fp);
QDateTime curDateTime = QDateTime::currentDateTime();
QString currentTime = curDateTime.toString("yyyy/MM/dd hh:mm:ss");
ximeaTemperatureFile << currentTime.toStdString() << "," << temp << "\n";
ximeaTemperatureFile << currentTime.toStdString() << "," << temp << "," << (float)temper/1000 << "\n";
// std::cout<<"RecordXimeaTemperature::recordTemperature----------------:ximea Temperature is "<< temp <<std::endl;
// std::cout<<"RecordXimeaTemperature::recordTemperature----------------:ximea state is "<< m_ximeaImager->getImagerState() <<std::endl;
if (counter % 60 == 0)
{
ximeaTemperatureFile.flush();
}
sleep(1);
}
@ -854,7 +1039,9 @@ void WriteData2Disk::write2Disk()
QString imageFileName=m_QbaseFileName+".bil";
FILE *hFile=fopen(imageFileName.toStdString().c_str(),"w+b");
int frameCounter = 0;
int frameNumber;
unsigned short * dataBuffer = new unsigned short[m_iFrameSizeInByte/2*m_iNumber_WriteDisk];
isExitWriteData2Disk = false;
while(true)
@ -867,43 +1054,57 @@ void WriteData2Disk::write2Disk()
std::cout<<"WriteData2Disk::write2Disk-----------------------队列为空,采集线程已经退出!"<<std::endl;
break;
}
else if(isExitWriteData2Disk)
{
std::cout<<"WriteData2Disk::write2Disk-----------------------isExitWriteData2Disktrue"<<std::endl;
std::cout<<"WriteData2Disk::write2Disk-----------------------队列大小"<<m_q->size()<<std::endl;
}
else if(bempty && !isExitWriteData2Disk)
{
continue;
}
r_qtx.lock();
DataBuffer * buffer = m_q->front();
memcpy(dataBuffer,buffer->data,m_iFrameSizeInByte*m_iNumber_WriteDisk);
int frameNumber = m_qFrameCounter->front();
memcpy(dataBuffer,buffer->data,m_iFrameSizeInByte*frameNumber);
// m_pool->destroy(m_q->front());
m_pool->deleteElement(buffer);
m_q->pop();
m_qFrameCounter->pop();
r_qtx.unlock();
//构造rgb图像用于推流到m300遥控器
// m_rgbImage->FillRgbImage(dataBuffer);
m_rgbImage->FillRgbImage(dataBuffer);
// std::cout<<"WriteData2Disk::write2Disk-----------------------正在写磁盘!" << m_pool->max_size() <<std::endl;//
fwrite(dataBuffer,1,m_iFrameSizeInByte*m_iNumber_WriteDisk, hFile);
fwrite(dataBuffer,1,m_iFrameSizeInByte*frameNumber, hFile);
frameCounter++;
}
m_rgbImage->m_VideoWriter.release();
fclose(hFile);
delete[] dataBuffer;
std::cout<<"WriteData2Disk::write2Disk-----------------------写磁盘线程将退出,内存池可达到的最多元素数:" << m_pool->max_size() <<std::endl;
std::cout<<"WriteData2Disk::write2Disk-----------------------写磁盘线程将退出,共写帧数:" << frameCounter*m_iNumber_WriteDisk <<std::endl;
std::cout<<"WriteData2Disk::write2Disk-----------------------写磁盘线程将退出,fwrite 调用次数:" << frameCounter <<std::endl;
}
void WriteData2Disk::exitWriteData2Disk()
{
std::cout<< "执行函数WriteData2Disk::exitWriteData2Disk" <<std::endl;
isExitWriteData2Disk = true;
}
void WriteData2Disk::setParm(queue<DataBuffer *> * q, QString baseFileName, int frameSizeInByte, int number_WriteDisk, MemoryPool<DataBuffer> * pool, rgbImage * rgbImage)
void WriteData2Disk::setParm(queue<DataBuffer *> * q, queue<int> * qFrameCounter, QString baseFileName, int frameSizeInByte, int number_WriteDisk, MemoryPool<DataBuffer> * pool, rgbImage * rgbImage)
{
m_q = q;
m_qFrameCounter = qFrameCounter;
m_QbaseFileName = baseFileName;
m_iFrameSizeInByte = frameSizeInByte;
m_iNumber_WriteDisk = number_WriteDisk;
@ -912,3 +1113,213 @@ void WriteData2Disk::setParm(queue<DataBuffer *> * q, QString baseFileName, int
m_rgbImage = rgbImage;
}
PushFlow::PushFlow()
{
m_iWidth = 1368;
m_iHeight = 720;
m_iFramerateVideo = 5;
}
void PushFlow::setParm(rgbImage * img, int width, int height, int framerateVideo)
{
m_rgbImage = img;
m_iWidth = width;
m_iHeight = height;
m_iFramerateVideo = framerateVideo;
}
void PushFlow::setVedioFilePath(QString path)
{
m_QVedioFilePath = path;
}
void PushFlow::exitPushFlow()
{
isExitPushFlow = true;
}
void PushFlow::encodePushFlow()
{
// 创建输出视频的AVFormatContext
const char* outputVideoPath = "/media/nvme/delete/300tc.h264";
FILE *fp = fopen(m_QVedioFilePath.toStdString().c_str(),"w+b");
AVFormatContext* formatContext = nullptr;
avformat_alloc_output_context2(&formatContext, nullptr, "mp4", outputVideoPath);
if (!formatContext)
{
qDebug() << "Error: Failed to allocate output context";
return;
}
// 查找H.264编码器
const AVCodec* codec = avcodec_find_encoder(AV_CODEC_ID_H264);
if (!codec)
{
qDebug() << "Error: Codec not found";
avformat_free_context(formatContext);
return;
}
// 创建输出视频流
AVStream* videoStream = avformat_new_stream(formatContext, codec);
if (!videoStream)
{
qDebug() << "Error: Failed to create video stream";
avformat_free_context(formatContext);
return;
}
// 设置视频流的参数,例如分辨率、帧率等
videoStream->codecpar->width = m_iWidth;
videoStream->codecpar->height = m_iHeight;
videoStream->codecpar->codec_id = AV_CODEC_ID_H264; // 设置为H.264编解码器
videoStream->codecpar->format = AV_PIX_FMT_YUV420P; // 设置为YUV420P像素格式
// 配置视频流的参数
AVCodecContext* codecContext = avcodec_alloc_context3(codec);
if (!codecContext)
{
qDebug() << "Error: Failed to allocate codec context";
avformat_free_context(formatContext);
return;
}
// 设置视频流的参数,例如分辨率、帧率等
codecContext->width = m_iWidth;
codecContext->height = m_iHeight;
codecContext->time_base = {1, m_iFramerateVideo};
codecContext->pix_fmt = AV_PIX_FMT_YUV420P; // 设置为YUV420P格式
codecContext->gop_size = 50;//多少帧产生一组关键帧
codecContext->max_b_frames = 0;//b帧参考帧设置为1会导致视频回退的现象
// codecContext->bit_rate = 1000000; // 设置比特率为 1000000
// 打开视频编码器
if (avcodec_open2(codecContext, codec, nullptr) < 0)
{
qDebug() << "Error: Failed to open codec";
avcodec_free_context(&codecContext);
avformat_free_context(formatContext);
return;
}
// 打开输出文件
// if (avio_open(&formatContext->pb, outputVideoPath, AVIO_FLAG_WRITE) < 0)
// {
// qDebug() << "Error: Failed to open output file";
// avcodec_close(codecContext);
// avcodec_free_context(&codecContext);
// avformat_free_context(formatContext);
// return;
// }
// 写入文件头
// avformat_write_header(formatContext, nullptr);
// 使用sws_scale进行颜色空间转换
SwsContext* swsContext = sws_getContext(m_iWidth, m_iHeight, AV_PIX_FMT_BGR24,
m_iWidth, m_iHeight, AV_PIX_FMT_YUV420P,
SWS_BICUBIC, nullptr, nullptr, nullptr);
if (!swsContext)
{
qDebug() << "Error: Failed to create sws context";
avio_closep(&formatContext->pb);
avcodec_close(codecContext);
avcodec_free_context(&codecContext);
avformat_free_context(formatContext);
return;
}
// 创建 AVFrame 作为目标图像
AVFrame* dstFrame = av_frame_alloc();
av_image_alloc(dstFrame->data, dstFrame->linesize, m_iWidth, m_iHeight, AV_PIX_FMT_YUV420P, 1);
// 设置目标图像参数
dstFrame->width = m_iWidth;
dstFrame->height = m_iHeight;
dstFrame->format = AV_PIX_FMT_YUV420P;
AVFrame* frame = av_frame_alloc();
av_image_alloc(frame->data, frame->linesize, m_iWidth, m_iHeight, AV_PIX_FMT_BGR24, 1);
QUdpSocket * m_udpSocket = new QUdpSocket();
m_udpSocket->bind(PUSH_FLOW_PORT, QUdpSocket::ShareAddress);
QHostAddress m_clientIpAddress=QHostAddress(QHostAddress::LocalHost);
// QHostAddress m_clientIpAddress("192.168.1.30");
// QHostAddress m_clientIpAddress("192.168.111.1");
int udpSendCounter=0;
int encodeCounter=0;
isExitPushFlow = false;
unsigned long sleepTime = 1/(float)m_iFramerateVideo * 1000;
std::cout<< "推流帧率: " << m_iFramerateVideo << ", sleepTime" << sleepTime << "ms." << std::endl;
while(true)
{
QThread::msleep(sleepTime);
memcpy(frame->data[0], m_rgbImage->m_matRgbImage->data, m_rgbImage->m_matRgbImage->rows * m_rgbImage->m_matRgbImage->step[0]);
// memcpy(frame->data[0], m_rgbImage->m_Qphoto.bits(), m_rgbImage->m_Qphoto.byteCount());
// 使用sws_scale进行颜色空间转换
sws_scale(swsContext, frame->data, frame->linesize, 0, m_iHeight,
dstFrame->data, dstFrame->linesize);
dstFrame->pts = encodeCounter;
// 将AVFrame编码为视频帧
AVPacket pkt;
av_init_packet(&pkt);
pkt.data = nullptr;
pkt.size = 0;
if (avcodec_send_frame(codecContext, dstFrame) == 0 &&
avcodec_receive_packet(codecContext, &pkt) == 0)
{
fwrite(pkt.data, 1, pkt.size, fp);
m_udpSocket->writeDatagram((const char *)pkt.data,pkt.size,m_clientIpAddress, PUSH_FLOW_PORT);
// std::cout << "编码第 " << udpSendCounter << " 帧数据大小: " << pkt.size << std::endl;
// std::cout<< "pkt.pts: " << pkt.pts << std::endl;
// std::cout<< "pkt.dts: " << pkt.dts << std::endl << std::endl;
udpSendCounter++;
// 将编码后的帧写入文件
// pkt.stream_index = videoStream->index;
// av_interleaved_write_frame(formatContext, &pkt);
// av_write_frame(formatContext, &pkt);
av_packet_unref(&pkt);
}
encodeCounter++;
if(isExitPushFlow)
{
std::cout<<"PushFlow::encodePushFlow-----------------------推流线程将退出!"<<std::endl;
break;
}
}
fclose(fp);
// 写入文件尾
// av_write_trailer(formatContext);
// 释放AVFrame和相关资源
av_freep(&frame->data[0]);
av_frame_free(&frame);
// 释放资源
sws_freeContext(swsContext);
av_freep(&dstFrame->data[0]);
av_frame_free(&dstFrame);
// av_packet_free(&pkt);
avcodec_close(codecContext);
avcodec_free_context(&codecContext);
avio_closep(&formatContext->pb);
avformat_free_context(formatContext);
std::cout<<"PushFlow::encodePushFlow-----------------------推流线程已经退出!" << std::endl;
}