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Hi, Guys,
I'm using the F200 and visual studio 2012 to develop object tracking algorithm. But I have problem when I try to obtain the image data. When I use the QueryStreamProfileSet function to get a ProfileSet, it always returns PXC_STATUS_ITEM_UNAVAILABLE.
I'm sure that my SDK and the camera works well. Because when I use the demo provided by SDK, I can get the image show. But now I don't want to use the PXCSenseManager and I want to get the image and processing it using OpenCV. My code are attached (I learned this code from the other forum and it works for R200 camera). Also, I can find my camera by IUID and the available stream type is COLOR, DEPTH, and IR. But when I call the QueryStreamProfileSet function, it always returns PXC_STATUS_ITEM_UNAVAILABLE.
Could someone help me check what's wrong? Did I miss some crucial steps?
#include <windows.h>
#include "iostream"
#include "resource.h"
#include "pxcdefs.h"
#include <cv.h>
#include <highgui.h>
using namespace std;
using namespace cv;
pxcStatus retStatus; //函数的返回状态
PXCSession *Session = PXCSession::CreateInstance();
pxcUID f200_iuid = 1129862729;
#define F200_IUID f200_iuid;//需要测试才能知道这个值是多少
/**
**查找设备,获取并初始化指定摄像头的Device接口
**/
PXCCapture::Device* ImplSeek(pxcUID iuid){
cout<<"Destination IUID:"<<iuid<<endl;
PXCCapture *Capture;
PXCCapture::Device *rsDevice = NULL;
for(uint_fast8_t idx = 0; idx < UINT_FAST8_MAX; idx += 1){
PXCSession::ImplDesc Impl = {};
Impl.group = PXCSession::IMPL_GROUP_SENSOR;
Impl.subgroup = PXCSession::IMPL_SUBGROUP_VIDEO_CAPTURE;
retStatus = Session->QueryImpl(&Impl, idx, &Impl);
if(retStatus < PXC_STATUS_NO_ERROR)
continue;
cout<<"-------------------------------------------"<<endl;
wcout<<"DCM:"<<Impl.friendlyName<<endl;
cout<<"***IUID is:"<<Impl.iuid<<endl;
retStatus = Session->CreateImpl(&Impl, &Capture);
if(retStatus < PXC_STATUS_NO_ERROR)
continue;
PXCCapture::DeviceInfo dinfo = { 0 };
retStatus = Capture->QueryDeviceInfo(idx, &dinfo);
if(retStatus < PXC_STATUS_NO_ERROR){
cout<<"Detail Information:Fail to query device"<<endl;
continue;
}
wcout<<"Details:"<<endl;
wcout<<"Name:"<<dinfo.name<<", DCM index:"<<dinfo.didx<<endl;
wcout<<"Available Stream Type: ";
if(dinfo.streams & PXCCapture::STREAM_TYPE_COLOR)
cout<<"COLOR";
if(dinfo.streams & PXCCapture::STREAM_TYPE_DEPTH)
cout<<", DEPTH";
if(dinfo.streams & PXCCapture::STREAM_TYPE_IR)
cout<<", IR";
if(dinfo.streams & PXCCapture::STREAM_TYPE_LEFT)
cout<<", LEFT";
if(dinfo.streams & PXCCapture::STREAM_TYPE_RIGHT)
cout<<", RIGHT.";
cout<<endl;
wcout<<"---firmware version:V---"<<dinfo.firmware[0]<<"."<<dinfo.firmware[1]<<"."<<dinfo.firmware[2]<<"."<<dinfo.firmware[3]<<endl;//顺便检查一下是否要升级
wcout<<"---serial: -----"<<dinfo.serial<<endl; //
wcout<<"---did:----"<<dinfo.did<<endl;
if(Impl.iuid != iuid){
cout<<"The IUID of this device is not matched"<<endl;
continue;
}
cout<<"================================================"<<endl;
wcout<<"Bingo! Find the matched device:"<<Capture->DeviceModelToString(dinfo.model)<<". "<<endl;
rsDevice = Capture->CreateDevice(idx);//connected to the device
if(rsDevice == NULL){
cout<<"rsDevice is NULL"<<endl;
continue;
}
return rsDevice;
}
if(rsDevice == NULL){
cout<<"\nNo matched device"<<endl;
}
return NULL;
}
/**
**Initial Stream Type
**/
void StreamInit(int Profile_idx, PXCCapture::Device *dstDevice, bool Dualeye){
PXCCapture::Device::StreamProfileSet ProfileSet = {};
if(Dualeye){
PXCCapture::StreamType scope = PXCCapture::STREAM_TYPE_COLOR | PXCCapture::STREAM_TYPE_DEPTH | PXCCapture::STREAM_TYPE_LEFT | PXCCapture::STREAM_TYPE_RIGHT;
retStatus = dstDevice->QueryStreamProfileSet(scope, Profile_idx, &ProfileSet);
if(retStatus == PXC_STATUS_ITEM_UNAVAILABLE){
cout<<"Item not find"<<endl;
exit(0);
}
ProfileSet.color.options = ProfileSet.depth.options = ProfileSet.right.options = ProfileSet.left.options = PXCCapture::Device::STREAM_OPTION_STRONG_STREAM_SYNC;
}else{
PXCCapture::StreamType scope = PXCCapture::STREAM_TYPE_COLOR | PXCCapture::STREAM_TYPE_DEPTH | PXCCapture::STREAM_TYPE_IR;
dstDevice->QueryStreamProfileSet(scope, Profile_idx, &ProfileSet);
ProfileSet.color.options = ProfileSet.depth.options = ProfileSet.ir.options = PXCCapture::Device::STREAM_OPTION_STRONG_STREAM_SYNC;
}
if(dstDevice->IsStreamProfileSetValid(&ProfileSet)){
dstDevice->SetStreamProfileSet(&ProfileSet);
cout<<"Ready"<<endl;
}else{
cout<<"Bad ProfileSet"<<endl;
}
}
struct Frames{
Mat Color;//RGB image matrix
Mat Depth;//depth image matrix
Mat IR;//IR image matrix
Mat IR_;
};
Frames Update(PXCCapture::Device *Device, bool Dualeye = true, PXCCapture::StreamType scope = PXCCapture::STREAM_TYPE_COLOR | PXCCapture::STREAM_TYPE_DEPTH){
PXCCapture::Sample FrameSamples;
PXCImage::ImageData color8, depth16, _ir, biol16, bior16;
retStatus = Device->ReadStreams(scope, &FrameSamples);
if(retStatus < PXC_STATUS_NO_ERROR){
cout<<"ReadStreams Error"<<endl;
exit(0);
}
Frames frames;
if(Dualeye){
#pragma region dualeye
if(scope & PXCCapture::STREAM_TYPE_COLOR){
FrameSamples.color->AcquireAccess(PXCImage::ACCESS_READ, PXCImage::PIXEL_FORMAT_RGB24,PXCImage::ROTATION_0_DEGREE, PXCImage::OPTION_ANY, &color8);
Mat Color(Size(320,240), CV_8UC3, color8.planes[0]);
frames.Color = Color;
FrameSamples.color->ReleaseAccess(&color8);
}
if(scope & PXCCapture::STREAM_TYPE_DEPTH){
FrameSamples.depth->AcquireAccess(PXCImage::ACCESS_READ, PXCImage::PIXEL_FORMAT_DEPTH,PXCImage::ROTATION_0_DEGREE, PXCImage::OPTION_ANY, &depth16);
Mat Depth(Size(320,240), CV_16UC1, depth16.planes[0]);
frames.Depth = Depth;
FrameSamples.depth->ReleaseAccess(&depth16);
}
if (scope & PXCCapture::STREAM_TYPE_LEFT)
{
FrameSamples.left->AcquireAccess(PXCImage::ACCESS_READ, PXCImage::PIXEL_FORMAT_Y16, PXCImage::ROTATION_0_DEGREE, PXCImage::OPTION_ANY, &biol16);
Mat StroL(Size(320, 240), CV_16UC1, biol16.planes[0]);
frames.IR = StroL;
FrameSamples.left->ReleaseAccess(&biol16);
}
if (scope & PXCCapture::STREAM_TYPE_RIGHT)
{
FrameSamples.right->AcquireAccess(PXCImage::ACCESS_READ, PXCImage::PIXEL_FORMAT_Y16, PXCImage::ROTATION_0_DEGREE, PXCImage::OPTION_ANY, &bior16);
Mat StroR(Size(320, 240), CV_16UC1, bior16.planes[0]);
frames.IR_ = StroR;
FrameSamples.right->ReleaseAccess(&bior16);
}
#pragma endregion
}
else
{
#pragma region _
if (scope & PXCCapture::STREAM_TYPE_COLOR)
{
FrameSamples.color->AcquireAccess(PXCImage::ACCESS_READ, PXCImage::PIXEL_FORMAT_RGB24, PXCImage::ROTATION_0_DEGREE, PXCImage::OPTION_ANY, &color8);
Mat Color(Size(640, 480), CV_8UC3, color8.planes[0]); frames.Color = Color;
FrameSamples.color->ReleaseAccess(&color8);
}
if (scope & PXCCapture::STREAM_TYPE_DEPTH)
{
FrameSamples.depth->AcquireAccess(PXCImage::ACCESS_READ, PXCImage::PIXEL_FORMAT_DEPTH, PXCImage::ROTATION_0_DEGREE, PXCImage::OPTION_ANY, &depth16);
Mat Depth(Size(640, 480), CV_16UC1, depth16.planes[0]); frames.Depth = Depth;
FrameSamples.depth->ReleaseAccess(&depth16);
}
if (scope & PXCCapture::STREAM_TYPE_IR)
{
FrameSamples.ir->AcquireAccess(PXCImage::ACCESS_READ, PXCImage::PIXEL_FORMAT_Y16, PXCImage::ROTATION_0_DEGREE, PXCImage::OPTION_ANY, &_ir);
Mat _IR(Size(640, 480), CV_16UC1, _ir.planes[0]); frames.IR = _IR;
FrameSamples.left->ReleaseAccess(&_ir);
}
#pragma endregion
}
FrameSamples.ReleaseImages();
return(frames);
}
int main(){
PXCCapture::Device *F200_Device;
F200_Device = ImplSeek(f200_iuid);
StreamInit(6, F200_Device, true);
cout<<"Streaming..."<<endl;
for(;;){
Frames F200_rgbd = Update(F200_Device);
Mat Depth8 = F200_rgbd.Depth.clone();
(Depth8 /= 15).convertTo(Depth8, CV_8UC1, 1, 20);
//show
imshow("Depth8", Depth8);
imshow("Color",F200_rgbd.Color);
waitKey(1);
}
return 0;
}
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