//////////////////////////////////////////////////////////////////////////////////////// // // IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING. // // By downloading, copying, installing or using the software you agree to this license. // If you do not agree to this license, do not download, install, // copy or use the software. // // // Intel License Agreement // For Open Source Computer Vision Library // // Copyright (C) 2000, Intel Corporation, all rights reserved. // Third party copyrights are property of their respective owners. // // Redistribution and use in source and binary forms, with or without modification, // are permitted provided that the following conditions are met: // // * Redistribution's of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // * Redistribution's in binary form must reproduce the above copyright notice, // this list of conditions and the following disclaimer in the documentation // and/or other materials provided with the distribution. // // * The name of Intel Corporation may not be used to endorse or promote products // derived from this software without specific prior written permission. // // This software is provided by the copyright holders and contributors "as is" and // any express or implied warranties, including, but not limited to, the implied // warranties of merchantability and fitness for a particular purpose are disclaimed. // In no event shall the Intel Corporation or contributors be liable for any direct, // indirect, incidental, special, exemplary, or consequential damages // (including, but not limited to, procurement of substitute goods or services; // loss of use, data, or profits; or business interruption) however caused // and on any theory of liability, whether in contract, strict liability, // or tort (including negligence or otherwise) arising in any way out of // the use of this software, even if advised of the possibility of such damage. // // // // The code has been contributed by Justin G. Eskesen on 2010 Jan // #include "precomp.hpp" #ifdef HAVE_PVAPI #if !defined WIN32 && !defined _WIN32 && !defined _LINUX #define _LINUX #endif #if defined(_x64) || defined (__x86_64) || defined (_M_X64) #define _x64 1 #elif defined(_x86) || defined(__i386) || defined (_M_IX86) #define _x86 1 #endif #include #ifdef WIN32 # include #else # include # include #endif //#include #define MAX_CAMERAS 10 /********************* Capturing video from camera via PvAPI *********************/ class CvCaptureCAM_PvAPI : public CvCapture { public: CvCaptureCAM_PvAPI(); virtual ~CvCaptureCAM_PvAPI() { close(); } virtual bool open( int index ); virtual void close(); virtual double getProperty(int) const; virtual bool setProperty(int, double); virtual bool grabFrame(); virtual IplImage* retrieveFrame(int); virtual int getCaptureDomain() { return CV_CAP_PVAPI; } protected: #ifndef WIN32 virtual void Sleep(unsigned int time); #endif void stopCapture(); bool startCapture(); bool resizeCaptureFrame (int frameWidth, int frameHeight); typedef struct { unsigned long UID; tPvHandle Handle; tPvFrame Frame; } tCamera; IplImage *frame; tCamera Camera; tPvErr Errcode; }; CvCaptureCAM_PvAPI::CvCaptureCAM_PvAPI() { frame = NULL; memset(&this->Camera, 0, sizeof(this->Camera)); } #ifndef WIN32 void CvCaptureCAM_PvAPI::Sleep(unsigned int time) { struct timespec t,r; t.tv_sec = time / 1000; t.tv_nsec = (time % 1000) * 1000000; while(nanosleep(&t,&r)==-1) t = r; } #endif void CvCaptureCAM_PvAPI::close() { // Stop the acquisition & free the camera stopCapture(); PvCameraClose(Camera.Handle); PvUnInitialize(); } // Initialize camera input bool CvCaptureCAM_PvAPI::open( int index ) { tPvCameraInfo cameraList[MAX_CAMERAS]; tPvCameraInfo camInfo; tPvIpSettings ipSettings; if (PvInitialize()) { } //return false; Sleep(1000); //close(); int numCameras=PvCameraList(cameraList, MAX_CAMERAS, NULL); if (numCameras <= 0 || index >= numCameras) return false; Camera.UID = cameraList[index].UniqueId; if (!PvCameraInfo(Camera.UID,&camInfo) && !PvCameraIpSettingsGet(Camera.UID,&ipSettings)) { /* struct in_addr addr; addr.s_addr = ipSettings.CurrentIpAddress; printf("Current address:\t%s\n",inet_ntoa(addr)); addr.s_addr = ipSettings.CurrentIpSubnet; printf("Current subnet:\t\t%s\n",inet_ntoa(addr)); addr.s_addr = ipSettings.CurrentIpGateway; printf("Current gateway:\t%s\n",inet_ntoa(addr)); */ } else { fprintf(stderr,"ERROR: could not retrieve camera IP settings.\n"); return false; } if (PvCameraOpen(Camera.UID, ePvAccessMaster, &(Camera.Handle))==ePvErrSuccess) { tPvUint32 frameWidth, frameHeight; unsigned long maxSize; PvAttrUint32Get(Camera.Handle, "Width", &frameWidth); PvAttrUint32Get(Camera.Handle, "Height", &frameHeight); // Determine the maximum packet size supported by the system (ethernet adapter) // and then configure the camera to use this value. If the system's NIC only supports // an MTU of 1500 or lower, this will automatically configure an MTU of 1500. // 8228 is the optimal size described by the API in order to enable jumbo frames maxSize = 8228; //PvAttrUint32Get(Camera.Handle,"PacketSize",&maxSize); if (PvCaptureAdjustPacketSize(Camera.Handle,maxSize)!=ePvErrSuccess) return false; resizeCaptureFrame(frameWidth, frameHeight); return startCapture(); } fprintf(stderr,"Error cannot open camera\n"); return false; } bool CvCaptureCAM_PvAPI::grabFrame() { //if(Camera.Frame.Status != ePvErrUnplugged && Camera.Frame.Status != ePvErrCancelled) return PvCaptureQueueFrame(Camera.Handle, &(Camera.Frame), NULL) == ePvErrSuccess; } IplImage* CvCaptureCAM_PvAPI::retrieveFrame(int) { if (PvCaptureWaitForFrameDone(Camera.Handle, &(Camera.Frame), 1000) == ePvErrSuccess) { return frame; } else return NULL; } double CvCaptureCAM_PvAPI::getProperty( int property_id ) const { tPvUint32 nTemp; switch ( property_id ) { case CV_CAP_PROP_FRAME_WIDTH: PvAttrUint32Get(Camera.Handle, "Width", &nTemp); return (double)nTemp; case CV_CAP_PROP_FRAME_HEIGHT: PvAttrUint32Get(Camera.Handle, "Height", &nTemp); return (double)nTemp; case CV_CAP_PROP_EXPOSURE: PvAttrUint32Get(Camera.Handle,"ExposureValue",&nTemp); return (double)nTemp; case CV_CAP_PROP_FPS: tPvFloat32 nfTemp; PvAttrFloat32Get(Camera.Handle, "StatFrameRate", &nfTemp); return (double)nfTemp; case CV_CAP_PROP_PVAPI_MULTICASTIP: char mEnable[2]; char mIp[11]; PvAttrEnumGet(Camera.Handle,"MulticastEnable",mEnable,sizeof(mEnable),NULL); if (strcmp(mEnable, "Off") == 0) { return -1; } else { long int ip; int a,b,c,d; PvAttrStringGet(Camera.Handle, "MulticastIPAddress",mIp,sizeof(mIp),NULL); sscanf(mIp, "%d.%d.%d.%d", &a, &b, &c, &d); ip = ((a*256 + b)*256 + c)*256 + d; return (double)ip; } case CV_CAP_PROP_GAIN: PvAttrUint32Get(Camera.Handle, "GainValue", &nTemp); return (double)nTemp; case CV_CAP_PROP_PVAPI_FRAMESTARTTRIGGERMODE: char triggerMode[256]; PvAttrEnumGet(Camera.Handle, "FrameStartTriggerMode", triggerMode, 256, NULL); if (strcmp(triggerMode, "Freerun")==0) return 0.0; else if (strcmp(triggerMode, "SyncIn1")==0) return 1.0; else if (strcmp(triggerMode, "SyncIn2")==0) return 2.0; else if (strcmp(triggerMode, "FixedRate")==0) return 3.0; else if (strcmp(triggerMode, "Software")==0) return 4.0; else return -1.0; case CV_CAP_PROP_PVAPI_DECIMATIONHORIZONTAL: PvAttrUint32Get(Camera.Handle, "DecimationHorizontal", &nTemp); return (double)nTemp; case CV_CAP_PROP_PVAPI_DECIMATIONVERTICAL: PvAttrUint32Get(Camera.Handle, "DecimationVertical", &nTemp); return (double)nTemp; case CV_CAP_PROP_PVAPI_BINNINGX: PvAttrUint32Get(Camera.Handle,"BinningX",&nTemp); return (double)nTemp; case CV_CAP_PROP_PVAPI_BINNINGY: PvAttrUint32Get(Camera.Handle,"BinningY",&nTemp); return (double)nTemp; case CV_CAP_PROP_PVAPI_PIXELFORMAT: char pixelFormat[256]; PvAttrEnumGet(Camera.Handle, "PixelFormat", pixelFormat,256,NULL); if (strcmp(pixelFormat, "Mono8")==0) return 1.0; else if (strcmp(pixelFormat, "Mono16")==0) return 2.0; else if (strcmp(pixelFormat, "Bayer8")==0) return 3.0; else if (strcmp(pixelFormat, "Bayer16")==0) return 4.0; else if (strcmp(pixelFormat, "Rgb24")==0) return 5.0; else if (strcmp(pixelFormat, "Bgr24")==0) return 6.0; else if (strcmp(pixelFormat, "Rgba32")==0) return 7.0; else if (strcmp(pixelFormat, "Bgra32")==0) return 8.0; } return -1.0; } bool CvCaptureCAM_PvAPI::setProperty( int property_id, double value ) { tPvErr error; switch ( property_id ) { case CV_CAP_PROP_FRAME_WIDTH: { tPvUint32 currHeight; PvAttrUint32Get(Camera.Handle, "Height", &currHeight); stopCapture(); // Reallocate Frames if (!resizeCaptureFrame(value, currHeight)) { startCapture(); return false; } startCapture(); break; } case CV_CAP_PROP_FRAME_HEIGHT: { tPvUint32 currWidth; PvAttrUint32Get(Camera.Handle, "Width", &currWidth); stopCapture(); // Reallocate Frames if (!resizeCaptureFrame(currWidth, value)) { startCapture(); return false; } startCapture(); break; } case CV_CAP_PROP_EXPOSURE: if ((PvAttrUint32Set(Camera.Handle,"ExposureValue",(tPvUint32)value)==ePvErrSuccess)) break; else return false; case CV_CAP_PROP_PVAPI_MULTICASTIP: if (value==-1) { if ((PvAttrEnumSet(Camera.Handle,"MulticastEnable", "Off")==ePvErrSuccess)) break; else return false; } else { cv::String ip=cv::format("%d.%d.%d.%d", ((unsigned int)value>>24)&255, ((unsigned int)value>>16)&255, ((unsigned int)value>>8)&255, (unsigned int)value&255); if ((PvAttrEnumSet(Camera.Handle,"MulticastEnable", "On")==ePvErrSuccess) && (PvAttrStringSet(Camera.Handle, "MulticastIPAddress", ip.c_str())==ePvErrSuccess)) break; else return false; } case CV_CAP_PROP_GAIN: if (PvAttrUint32Set(Camera.Handle,"GainValue",(tPvUint32)value)!=ePvErrSuccess) { return false; } break; case CV_CAP_PROP_PVAPI_FRAMESTARTTRIGGERMODE: if (value==0) error = PvAttrEnumSet(Camera.Handle, "FrameStartTriggerMode", "Freerun"); else if (value==1) error = PvAttrEnumSet(Camera.Handle, "FrameStartTriggerMode", "SyncIn1"); else if (value==2) error = PvAttrEnumSet(Camera.Handle, "FrameStartTriggerMode", "SyncIn2"); else if (value==3) error = PvAttrEnumSet(Camera.Handle, "FrameStartTriggerMode", "FixedRate"); else if (value==4) error = PvAttrEnumSet(Camera.Handle, "FrameStartTriggerMode", "Software"); else error = ePvErrOutOfRange; if(error==ePvErrSuccess) break; else return false; case CV_CAP_PROP_PVAPI_DECIMATIONHORIZONTAL: if (value >= 1 && value <= 8) error = PvAttrUint32Set(Camera.Handle, "DecimationHorizontal", value); else error = ePvErrOutOfRange; if(error==ePvErrSuccess) break; else return false; case CV_CAP_PROP_PVAPI_DECIMATIONVERTICAL: if (value >= 1 && value <= 8) error = PvAttrUint32Set(Camera.Handle, "DecimationVertical", value); else error = ePvErrOutOfRange; if(error==ePvErrSuccess) break; else return false; case CV_CAP_PROP_PVAPI_BINNINGX: error = PvAttrUint32Set(Camera.Handle, "BinningX", value); if(error==ePvErrSuccess) break; else return false; case CV_CAP_PROP_PVAPI_BINNINGY: error = PvAttrUint32Set(Camera.Handle, "BinningY", value); if(error==ePvErrSuccess) break; else return false; case CV_CAP_PROP_PVAPI_PIXELFORMAT: { cv::String pixelFormat; if (value==1) pixelFormat = "Mono8"; else if (value==2) pixelFormat = "Mono16"; else if (value==3) pixelFormat = "Bayer8"; else if (value==4) pixelFormat = "Bayer16"; else if (value==5) pixelFormat = "Rgb24"; else if (value==6) pixelFormat = "Bgr24"; else if (value==7) pixelFormat = "Rgba32"; else if (value==8) pixelFormat = "Bgra32"; else return false; if ((PvAttrEnumSet(Camera.Handle,"PixelFormat", pixelFormat.c_str())==ePvErrSuccess)) { tPvUint32 currWidth; tPvUint32 currHeight; PvAttrUint32Get(Camera.Handle, "Width", &currWidth); PvAttrUint32Get(Camera.Handle, "Height", &currHeight); stopCapture(); // Reallocate Frames if (!resizeCaptureFrame(currWidth, currHeight)) { startCapture(); return false; } startCapture(); return true; } else return false; } default: return false; } return true; } void CvCaptureCAM_PvAPI::stopCapture() { PvCommandRun(Camera.Handle, "AcquisitionStop"); PvCaptureEnd(Camera.Handle); } bool CvCaptureCAM_PvAPI::startCapture() { // Start the camera PvCaptureStart(Camera.Handle); // Set the camera to capture continuously if(PvAttrEnumSet(Camera.Handle, "AcquisitionMode", "Continuous")!= ePvErrSuccess) { fprintf(stderr,"Could not set PvAPI Acquisition Mode\n"); return false; } if(PvCommandRun(Camera.Handle, "AcquisitionStart")!= ePvErrSuccess) { fprintf(stderr,"Could not start PvAPI acquisition\n"); return false; } if(PvAttrEnumSet(Camera.Handle, "FrameStartTriggerMode", "Freerun")!= ePvErrSuccess) { fprintf(stderr,"Error setting PvAPI trigger to \"Freerun\""); return false; } return true; } bool CvCaptureCAM_PvAPI::resizeCaptureFrame (int frameWidth, int frameHeight) { char pixelFormat[256]; tPvUint32 frameSize; tPvUint32 sensorHeight; tPvUint32 sensorWidth; if (frame) { cvReleaseImage(&frame); frame = NULL; } if (PvAttrUint32Get(Camera.Handle, "SensorWidth", &sensorWidth) != ePvErrSuccess) { return false; } if (PvAttrUint32Get(Camera.Handle, "SensorHeight", &sensorHeight) != ePvErrSuccess) { return false; } // Cap out of bounds widths to the max supported by the sensor if ((frameWidth < 0) || ((tPvUint32)frameWidth > sensorWidth)) { frameWidth = sensorWidth; } if ((frameHeight < 0) || ((tPvUint32)frameHeight > sensorHeight)) { frameHeight = sensorHeight; } if (PvAttrUint32Set(Camera.Handle, "Height", frameHeight) != ePvErrSuccess) { return false; } if (PvAttrUint32Set(Camera.Handle, "Width", frameWidth) != ePvErrSuccess) { return false; } PvAttrEnumGet(Camera.Handle, "PixelFormat", pixelFormat,256,NULL); PvAttrUint32Get(Camera.Handle, "TotalBytesPerFrame", &frameSize); if ( (strcmp(pixelFormat, "Mono8")==0) || (strcmp(pixelFormat, "Bayer8")==0) ) { frame = cvCreateImage(cvSize((int)frameWidth, (int)frameHeight), IPL_DEPTH_8U, 1); frame->widthStep = (int)frameWidth; Camera.Frame.ImageBufferSize = frameSize; Camera.Frame.ImageBuffer = frame->imageData; } else if ( (strcmp(pixelFormat, "Mono16")==0) || (strcmp(pixelFormat, "Bayer16")==0) ) { frame = cvCreateImage(cvSize((int)frameWidth, (int)frameHeight), IPL_DEPTH_16U, 1); frame->widthStep = (int)frameWidth*2; Camera.Frame.ImageBufferSize = frameSize; Camera.Frame.ImageBuffer = frame->imageData; } else if ( (strcmp(pixelFormat, "Rgb24")==0) || (strcmp(pixelFormat, "Bgr24")==0) ) { frame = cvCreateImage(cvSize((int)frameWidth, (int)frameHeight), IPL_DEPTH_8U, 3); frame->widthStep = (int)frameWidth*3; Camera.Frame.ImageBufferSize = frameSize; Camera.Frame.ImageBuffer = frame->imageData; } else if ( (strcmp(pixelFormat, "Rgba32")==0) || (strcmp(pixelFormat, "Bgra32")==0) ) { frame = cvCreateImage(cvSize((int)frameWidth, (int)frameHeight), IPL_DEPTH_8U, 4); frame->widthStep = (int)frameWidth*4; Camera.Frame.ImageBufferSize = frameSize; Camera.Frame.ImageBuffer = frame->imageData; } else return false; return true; } CvCapture* cvCreateCameraCapture_PvAPI( int index ) { CvCaptureCAM_PvAPI* capture = new CvCaptureCAM_PvAPI; if ( capture->open( index )) return capture; delete capture; return NULL; } #endif