int ImperxStream::Connect(const std::string &IP) { PvResult lResult; // Create an GEV system and an interface. PvSystem lSystem; // Find all GEV Devices on the network. lSystem.SetDetectionTimeout( 2000 ); lResult = lSystem.Find(); if( !lResult.IsOK() ) { //Failed to find PvAnything printf( "PvSystem::Find Error: %s", lResult.GetCodeString().GetAscii() ); return -1; } // Get the number of GEV Interfaces that were found using GetInterfaceCount. PvUInt32 lInterfaceCount = lSystem.GetInterfaceCount(); // Search through interfaces for any devices // Check devices for correct target IP for( PvUInt32 x = 0; x < lInterfaceCount; x++ ) { // get pointer to each of interface PvInterface * lInterface = lSystem.GetInterface( x ); // Get the number of GEV devices that were found using GetDeviceCount. PvUInt32 lDeviceCount = lInterface->GetDeviceCount(); for( PvUInt32 y = 0; y < lDeviceCount ; y++ ) { PvDeviceInfo *tDeviceInfo = lInterface->GetDeviceInfo( y ); std::string laddress(tDeviceInfo->GetIPAddress().GetAscii()); if (!laddress.compare(IP)) { lDeviceInfo = tDeviceInfo; printf( "Interface %i\nMAC Address: %s\nIP Address: %s\nSubnet Mask: %s\n\n", x, lInterface->GetMACAddress().GetAscii(), lInterface->GetIPAddress().GetAscii(), lInterface->GetSubnetMask().GetAscii() ); printf( "Device %i\nMAC Address: %s\nIP Address: %s\nSerial number: %s\n\n", y, tDeviceInfo->GetMACAddress().GetAscii(), tDeviceInfo->GetIPAddress().GetAscii(), tDeviceInfo->GetSerialNumber().GetAscii() ); } } } // Connect to the last GEV Device found. if( lDeviceInfo != NULL ) { printf( "Connecting to %s\n", lDeviceInfo->GetMACAddress().GetAscii() ); lResult = lDevice.Connect( lDeviceInfo ); if ( !lResult.IsOK() ) { printf( "Unable to connect to %s\n", lDeviceInfo->GetMACAddress().GetAscii() ); } else { printf( "Successfully connected to %s\n", lDeviceInfo->GetMACAddress().GetAscii() ); } } else { printf( "No device found\n" ); } // Get device parameters need to control streaming PvGenParameterArray *lDeviceParams = lDevice.GetGenParameters(); return 0; }
bool AcquireImages(CamInfo* cams, int numCams) { int i; PvResult result; // Initialize Camera System PvSystem system; system.SetDetectionTimeout(2000); result = system.Find(); if(!result.IsOK()){ printf("PvSystem::Find Error: %s", result.GetCodeString().GetAscii()); return false; } PvDevice lDevice[numCams]; PvGenParameterArray *lDeviceParams[numCams]; PvStream lStream[numCams]; PvPipeline *lPipeline[numCams]; for(i=0; i < numCams; i++){ PvDeviceInfo* lDeviceInfo = NULL; PvDeviceInfo* tempInfo; // Get the number of GEV Interfaces that were found using GetInterfaceCount. PvUInt32 lInterfaceCount = system.GetInterfaceCount(); // For each interface, check MAC Address against passed address for( PvUInt32 x = 0; x < lInterfaceCount; x++ ) { // get pointer to each of interface PvInterface * lInterface = system.GetInterface( x ); // Get the number of GEV devices that were found using GetDeviceCount. PvUInt32 lDeviceCount = lInterface->GetDeviceCount(); for( PvUInt32 y = 0; y < lDeviceCount ; y++ ) { tempInfo = lInterface->GetDeviceInfo( y ); if(strlen(cams[i].MACAddress) == strlen(tempInfo->GetMACAddress().GetAscii()) && strncmp(cams[i].MACAddress,tempInfo->GetMACAddress().GetAscii(),strlen(cams[i].MACAddress)) == 0){ lDeviceInfo = tempInfo; break; } } } // If no device is selected, abort if( lDeviceInfo == NULL ) { printf( "No device selected.\n" ); return false; } // Connect to the GEV Device printf( "Connecting to %s\n", lDeviceInfo->GetMACAddress().GetAscii() ); if ( !lDevice[i].Connect( lDeviceInfo ).IsOK() ) { printf( "Unable to connect to %s\n", lDeviceInfo->GetMACAddress().GetAscii() ); return false; } printf( "Successfully connected to %s\n", lDeviceInfo->GetMACAddress().GetAscii() ); printf( "\n" ); // Get device parameters need to control streaming lDeviceParams[i] = lDevice[i].GetGenParameters(); // Negotiate streaming packet size lDevice[i].NegotiatePacketSize(); // Open stream - have the PvDevice do it for us printf( "Opening stream to device\n" ); lStream[i].Open( lDeviceInfo->GetIPAddress() ); // Create the PvPipeline object lPipeline[i] = new PvPipeline( &lStream[i] ); // Reading payload size from device PvInt64 lSize = 0; lDeviceParams[i]->GetIntegerValue( "PayloadSize", lSize ); // Set the Buffer size and the Buffer count lPipeline[i]->SetBufferSize( static_cast<PvUInt32>( lSize ) ); lPipeline[i]->SetBufferCount( 16 ); // Increase for high frame rate without missing block IDs // Have to set the Device IP destination to the Stream lDevice[i].SetStreamDestination( lStream[i].GetLocalIPAddress(), lStream[i].GetLocalPort() ); } PvGenParameterArray *lStreamParams[numCams]; for(i=0; i < numCams; i++){ // IMPORTANT: the pipeline needs to be "armed", or started before // we instruct the device to send us images printf( "Starting pipeline %d\n",i); lPipeline[i]->Start(); // Get stream parameters/stats lStreamParams[i] = lStream[i].GetParameters(); // TLParamsLocked is optional but when present, it MUST be set to 1 // before sending the AcquisitionStart command lDeviceParams[i]->SetIntegerValue( "TLParamsLocked", 1 ); printf( "Resetting timestamp counter...\n" ); lDeviceParams[i]->ExecuteCommand( "GevTimestampControlReset" ); // The pipeline is already "armed", we just have to tell the device // to start sending us images printf( "Sending StartAcquisition command to device\n" ); lDeviceParams[i]->ExecuteCommand( "AcquisitionStart" ); } char lDoodle[] = "|\\-|-/"; int lDoodleIndex = 0; PvInt64 lImageCountVal = 0; double lFrameRateVal = 0.0; double lBandwidthVal = 0.0; PvInt64 lPipelineBlocksDropped = 0; // Acquire images until the user instructs us to stop printf( "\n<press the enter key to stop streaming>\n" ); //PvBufferWriter writer; char filePath[MAXFILEPATH]; PvUInt32 lWidth = 4096, lHeight = 9250; while ( running ) { for(i=0; i < numCams; i++){ // Retrieve next buffer PvBuffer *lBuffer = NULL; PvResult lOperationResult; PvResult lResult = lPipeline[i]->RetrieveNextBuffer( &lBuffer, 1000, &lOperationResult ); if ( lResult.IsOK() ) { if ( lOperationResult.IsOK() ) { lStreamParams[i]->GetIntegerValue( "ImagesCount", lImageCountVal ); lStreamParams[i]->GetFloatValue( "AcquisitionRateAverage", lFrameRateVal ); lStreamParams[i]->GetFloatValue( "BandwidthAverage", lBandwidthVal ); lStreamParams[i]->GetIntegerValue("PipelineBlocksDropped", lPipelineBlocksDropped); filePath[0] = '\0'; sprintf(filePath,"%s/%s%04X.tif",cams[i].filename,cams[i].prefix,lBuffer->GetBlockID()); TIFF *out = TIFFOpen(filePath,"w"); TIFFSetField(out, TIFFTAG_IMAGEWIDTH, lWidth); TIFFSetField(out, TIFFTAG_IMAGELENGTH, lHeight); TIFFSetField(out, TIFFTAG_SAMPLESPERPIXEL, 1); TIFFSetField(out, TIFFTAG_BITSPERSAMPLE, 8); TIFFSetField(out, TIFFTAG_ORIENTATION, ORIENTATION_TOPLEFT); TIFFSetField(out, TIFFTAG_PLANARCONFIG, PLANARCONFIG_CONTIG); TIFFSetField(out, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_MINISBLACK); TIFFSetField(out, TIFFTAG_COMPRESSION, COMPRESSION_NONE); TIFFWriteEncodedStrip(out,0,lBuffer->GetDataPointer(),lWidth*lHeight); TIFFClose(out); printf( "%d:%s%c Timestamp: %016llX BlockID: %04X %.01f FPS %d DROP %.01f Mb/s\r\n",i, cams[i].prefix, lDoodle[ lDoodleIndex ], lBuffer->GetTimestamp(), lBuffer->GetBlockID(), lFrameRateVal, lPipelineBlocksDropped, lBandwidthVal / 1000000.0 ); } else { printf("%d: ERROR Code: %s, Description: %s\r\n",i,lOperationResult.GetCodeString().GetAscii(),lOperationResult.GetDescription().GetAscii()); } // We have an image - do some processing (...) // VERY IMPORTANT: // release the buffer back to the pipeline lPipeline[i]->ReleaseBuffer( lBuffer ); usleep(200); } else { // Timeout printf( "%d:%s%c Timeout\r\n",i, cams[i].prefix,lDoodle[ lDoodleIndex ]); } } ++lDoodleIndex %= 6; } //_getch(); // Flush key buffer for next stop printf( "\n\n" ); for(i=0; i < numCams; i++){ // Tell the device to stop sending images printf( "Sending AcquisitionStop command to the device\n" ); lDeviceParams[i]->ExecuteCommand( "AcquisitionStop" ); // If present reset TLParamsLocked to 0. Must be done AFTER the // streaming has been stopped lDeviceParams[i]->SetIntegerValue( "TLParamsLocked", 0 ); // We stop the pipeline - letting the object lapse out of // scope would have had the destructor do the same, but we do it anyway printf( "Stop pipeline\n" ); lPipeline[i]->Stop(); delete lPipeline[i]; // Now close the stream. Also optionnal but nice to have printf( "Closing stream\n" ); lStream[i].Close(); // Finally disconnect the device. Optional, still nice to have printf( "Disconnecting device\n" ); lDevice[i].Disconnect(); } return true; }
int ImperxStream::Connect() { PvResult lResult; // Create an GEV system and an interface. PvSystem lSystem; // Find all GEV Devices on the network. lSystem.SetDetectionTimeout( 2000 ); lResult = lSystem.Find(); if( !lResult.IsOK() ) { printf( "PvSystem::Find Error: %s", lResult.GetCodeString().GetAscii() ); return -1; } // Get the number of GEV Interfaces that were found using GetInterfaceCount. PvUInt32 lInterfaceCount = lSystem.GetInterfaceCount(); // Display information about all found interface // For each interface, display information about all devices. for( PvUInt32 x = 0; x < lInterfaceCount; x++ ) { // get pointer to each of interface PvInterface * lInterface = lSystem.GetInterface( x ); printf( "Interface %i\nMAC Address: %s\nIP Address: %s\nSubnet Mask: %s\n\n", x, lInterface->GetMACAddress().GetAscii(), lInterface->GetIPAddress().GetAscii(), lInterface->GetSubnetMask().GetAscii() ); // Get the number of GEV devices that were found using GetDeviceCount. PvUInt32 lDeviceCount = lInterface->GetDeviceCount(); for( PvUInt32 y = 0; y < lDeviceCount ; y++ ) { lDeviceInfo = lInterface->GetDeviceInfo( y ); printf( "Device %i\nMAC Address: %s\nIP Address: %s\nSerial number: %s\n\n", y, lDeviceInfo->GetMACAddress().GetAscii(), lDeviceInfo->GetIPAddress().GetAscii(), lDeviceInfo->GetSerialNumber().GetAscii() ); } } // Connect to the last GEV Device found. if( lDeviceInfo != NULL ) { printf( "Connecting to %s\n", lDeviceInfo->GetMACAddress().GetAscii() ); lResult = lDevice.Connect( lDeviceInfo ); if ( !lResult.IsOK() ) { printf( "Unable to connect to %s\n", lDeviceInfo->GetMACAddress().GetAscii() ); } else { printf( "Successfully connected to %s\n", lDeviceInfo->GetMACAddress().GetAscii() ); } } else { printf( "No device found\n" ); } // Get device parameters need to control streaming lDeviceParams = lDevice.GetGenParameters(); return 0; }
bool AcquireImages() { PvResult lResult; PvDeviceInfo *lDeviceInfo = NULL; PvSystem lSystem; PvStream lStream; lSystem.SetDetectionTimeout( 20000 ); lResult = lSystem.Find(); if( !lResult.IsOK() ) { cout << "PvSystem::Find Error: " << lResult.GetCodeString().GetAscii(); return -1; } PvUInt32 lInterfaceCount = lSystem.GetInterfaceCount(); for( PvUInt32 x = 0; x < lInterfaceCount; x++ ) { PvInterface * lInterface = lSystem.GetInterface( x ); cout << "Ethernet Interface " << endl; cout << "IP Address: " << lInterface->GetIPAddress().GetAscii() << endl; cout << "Subnet Mask: " << lInterface->GetSubnetMask().GetAscii() << endl << endl; PvUInt32 lDeviceCount = lInterface->GetDeviceCount(); for( PvUInt32 y = 0; y < lDeviceCount ; y++ ) { lDeviceInfo = lInterface->GetDeviceInfo( y ); cout << "ThermoCam " << endl; cout << "IP Address: " << lDeviceInfo->GetIPAddress().GetAscii() << endl; } } if( lDeviceInfo != NULL ) { cout << "Connecting to " << lDeviceInfo->GetIPAddress().GetAscii() << endl; PvDevice lDevice; lResult = lDevice.Connect( lDeviceInfo ); if ( !lResult.IsOK() ) { cout << "Unable to connect to " << lDeviceInfo->GetIPAddress().GetAscii() << endl; } else { cout << "Successfully connected to " << lDeviceInfo->GetIPAddress().GetAscii() << endl; lResult = lDevice.NegotiatePacketSize( ); if ( !lResult.IsOK() ) { cout << endl; cout << " Failed to negotiate a packet size setting GevSCPSPacketSize to original value"; PvSleepMs( 2500 ); } cout << endl; cout << "3. Open stream......"; lResult = lStream.Open( lDeviceInfo->GetIPAddress() ); if ( !lResult.IsOK() ) { cout << endl; cout << " Failed to open stream"; return 0; } lDevice.SetStreamDestination( lStream.GetLocalIPAddress(), lStream.GetLocalPort() ); PvInt64 lPayloadSize; lDevice.GetGenParameters()->GetIntegerValue( "PayloadSize", lPayloadSize ); PvBuffer * lBuffer = new PvBuffer(); lBuffer->Alloc( static_cast<PvUInt32>( lPayloadSize ) ); PvBuffer *lPtr = NULL; PvImage *lImage = NULL; cout << endl; cout << "5. Grab one image" << endl; lStream.QueueBuffer( lBuffer ); lDevice.GetGenParameters()->SetIntegerValue( "TLParamsLocked", 1 ); lDevice.GetGenParameters()->ExecuteCommand( "AcquisitionStart" ); PvResult lStreamResult; lResult = lStream.RetrieveBuffer( &lPtr, &lStreamResult, 10000 ); lDevice.GetGenParameters()->ExecuteCommand( "AcquisitionStop" ); lDevice.GetGenParameters()->SetIntegerValue( "TLParamsLocked", 0 ); PvInt64 lWidth = 0, lHeight = 0; PvGenParameterArray *lDeviceParams = lDevice.GetGenParameters(); lDeviceParams->GetIntegerValue( "Width", lWidth); lDeviceParams->GetIntegerValue( "Height", lHeight); cvNamedWindow("OpenCV: ThermoCam",CV_WINDOW_NORMAL); cv::Mat raw_lImage(cv::Size(lWidth,lHeight),CV_8U); if ( lResult.IsOK() ) { if ( lStreamResult.IsOK() ) { cout << endl; cout << "6. Using RGB Filter"; lImage=lPtr->GetImage(); lPtr->GetImage()->Alloc(lImage->GetWidth(),lImage->GetHeight(),PvPixelMono8); cout << " a. Save the original image into ImageOriginal.bmp"; PvBufferWriter lBufferWriter; lBufferWriter.Store(lPtr,"ThermoCam.bmp",PvBufferFormatBMP); } lImage->Attach(raw_lImage.data,lImage->GetWidth(),lImage->GetHeight(),PvPixelMono8); //cv::imshow("OpenCV: ThermoCam",raw_lImage); cv::FileStorage fs("ThermoCam.xml",cv::FileStorage::WRITE); fs << "raw_lImage" << raw_lImage; fs.release(); //if(cv::waitKey(1000) >= 0) break; lPtr->Free(); } lBuffer->Free(); lDevice.ResetStreamDestination(); lStream.Close(); lDevice.Disconnect(); return true; } } else { cout << "No device found" << endl; } return 0; }