/*M/////////////////////////////////////////////////////////////////////////////////////// // // 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. // //M*/ #include "precomp.hpp" #include "opencv2/core.hpp" #include "opencv2/imgproc.hpp" #ifdef HAVE_OPENNI2 #include #ifndef i386 # define i386 0 #endif #ifndef __arm__ # define __arm__ 0 #endif #ifndef _ARC # define _ARC 0 #endif #ifndef __APPLE__ # define __APPLE__ 0 #endif #define CV_STREAM_TIMEOUT 2000 #define CV_DEPTH_STREAM 0 #define CV_COLOR_STREAM 1 #define CV_IR_STREAM 2 #define CV_MAX_NUM_STREAMS 3 #include "OpenNI.h" #include "PS1080.h" /////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// class CvCapture_OpenNI2 : public CvCapture { public: enum { DEVICE_DEFAULT=0, DEVICE_MS_KINECT=0, DEVICE_ASUS_XTION=1, DEVICE_MAX=1 }; static const int INVALID_PIXEL_VAL = 0; static const int INVALID_COORDINATE_VAL = 0; static const int DEFAULT_MAX_BUFFER_SIZE = 2; static const int DEFAULT_IS_CIRCLE_BUFFER = 0; static const int DEFAULT_MAX_TIME_DURATION = 20; CvCapture_OpenNI2(int index = 0); CvCapture_OpenNI2(const char * filename); virtual ~CvCapture_OpenNI2(); virtual double getProperty(int propIdx) const CV_OVERRIDE; virtual bool setProperty(int probIdx, double propVal) CV_OVERRIDE; virtual bool grabFrame() CV_OVERRIDE; virtual IplImage* retrieveFrame(int outputType) CV_OVERRIDE; bool isOpened() const; protected: struct OutputMap { public: cv::Mat mat; IplImage* getIplImagePtr(); private: IplImage iplHeader; }; static const int outputMapsTypesCount = 8; static openni::VideoMode defaultStreamOutputMode(int stream); IplImage* retrieveDepthMap(); IplImage* retrievePointCloudMap(); IplImage* retrieveDisparityMap(); IplImage* retrieveDisparityMap_32F(); IplImage* retrieveValidDepthMask(); IplImage* retrieveBGRImage(); IplImage* retrieveGrayImage(); IplImage* retrieveIrImage(); openni::Status toggleStream(int stream, bool toggle); bool readCamerasParams(); double getDepthGeneratorProperty(int propIdx) const; bool setDepthGeneratorProperty(int propIdx, double propVal); double getImageGeneratorProperty(int propIdx) const; bool setImageGeneratorProperty(int propIdx, double propVal); double getIrGeneratorProperty(int propIdx) const; bool setIrGeneratorProperty(int propIdx, double propVal); double getCommonProperty(int propIdx) const; bool setCommonProperty(int propIdx, double propVal); // OpenNI context openni::Device device; bool isContextOpened; openni::Recorder recorder; // Data generators with its metadata openni::VideoStream streams[CV_MAX_NUM_STREAMS]; openni::VideoFrameRef streamFrames[CV_MAX_NUM_STREAMS]; cv::Mat streamImages[CV_MAX_NUM_STREAMS]; int maxBufferSize, maxTimeDuration; // for approx sync bool isCircleBuffer; //cv::Ptr approxSyncGrabber; // Cameras settings: // TODO find in OpenNI function to convert z->disparity and remove fields "baseline" and depthFocalLength_VGA // Distance between IR projector and IR camera (in meters) double baseline; // Focal length for the IR camera in VGA resolution (in pixels) int depthFocalLength_VGA; // The value for shadow (occluded pixels) int shadowValue; // The value for pixels without a valid disparity measurement int noSampleValue; std::vector outputMaps; }; IplImage* CvCapture_OpenNI2::OutputMap::getIplImagePtr() { if( mat.empty() ) return 0; iplHeader = IplImage(mat); return &iplHeader; } bool CvCapture_OpenNI2::isOpened() const { return isContextOpened; } openni::VideoMode CvCapture_OpenNI2::defaultStreamOutputMode(int stream) { openni::VideoMode mode; mode.setResolution(640, 480); mode.setFps(30); switch (stream) { case CV_DEPTH_STREAM: mode.setPixelFormat(openni::PIXEL_FORMAT_DEPTH_1_MM); break; case CV_COLOR_STREAM: mode.setPixelFormat(openni::PIXEL_FORMAT_RGB888); break; case CV_IR_STREAM: mode.setPixelFormat(openni::PIXEL_FORMAT_GRAY16); break; } return mode; } CvCapture_OpenNI2::CvCapture_OpenNI2( int index ) { const char* deviceURI = openni::ANY_DEVICE; openni::Status status; int deviceType = DEVICE_DEFAULT; noSampleValue = shadowValue = 0; isContextOpened = false; maxBufferSize = DEFAULT_MAX_BUFFER_SIZE; isCircleBuffer = DEFAULT_IS_CIRCLE_BUFFER; maxTimeDuration = DEFAULT_MAX_TIME_DURATION; if( index >= 10 ) { deviceType = index / 10; index %= 10; } // Initialize and configure the context. status = openni::OpenNI::initialize(); if (status != openni::STATUS_OK) { CV_Error(CV_StsError, cv::format("Failed to initialize:", openni::OpenNI::getExtendedError())); return; } // find appropriate device URI openni::Array ldevs; if (index > 0) { openni::OpenNI::enumerateDevices(&ldevs); deviceURI = ldevs[index].getUri(); } status = device.open(deviceURI); if( status != openni::STATUS_OK ) { CV_Error(CV_StsError, cv::format("OpenCVKinect: Device open failed see: %s\n", openni::OpenNI::getExtendedError())); openni::OpenNI::shutdown(); return; } status = toggleStream(CV_DEPTH_STREAM, true); // Asus XTION and Occipital Structure Sensor do not have an image generator if (deviceType != DEVICE_ASUS_XTION) status = openni::Status(status | toggleStream(CV_COLOR_STREAM, true)); if (status != openni::STATUS_OK) { openni::OpenNI::shutdown(); return; } if (!readCamerasParams()) { CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::CvCapture_OpenNI2 : Could not read cameras parameters\n")); return; } outputMaps.resize( outputMapsTypesCount ); isContextOpened = true; setProperty(CV_CAP_PROP_OPENNI_REGISTRATION, 1.0); } openni::Status CvCapture_OpenNI2::toggleStream(int stream, bool toggle) { openni::Status status; // for logging static const char* stream_names[CV_MAX_NUM_STREAMS] = { "depth", "color", "IR" }; static const openni::SensorType stream_sensor_types[CV_MAX_NUM_STREAMS] = { openni::SENSOR_DEPTH, openni::SENSOR_COLOR, openni::SENSOR_IR }; if (toggle) // want to open stream { // already opened if (streams[stream].isValid()) return openni::STATUS_OK; // open stream status = streams[stream].create(device, stream_sensor_types[stream]); if (status == openni::STATUS_OK) { // set video mode status = streams[stream].setVideoMode(defaultStreamOutputMode(stream)); // xn::DepthGenerator supports VGA only! (Jan 2011) if (status != openni::STATUS_OK) { CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::CvCapture_OpenNI2 : Couldn't set %s stream output mode: %s\n", stream_names[stream], openni::OpenNI::getExtendedError())); streams[stream].destroy(); return status; } // start stream status = streams[stream].start(); if (status != openni::STATUS_OK) { CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::CvCapture_OpenNI2 : Couldn't start %s stream: %s\n", stream_names[stream], openni::OpenNI::getExtendedError())); streams[stream].destroy(); return status; } } else { CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::CvCapture_OpenNI2 : Couldn't find %s stream:: %s\n", stream_names[stream], openni::OpenNI::getExtendedError())); return status; } } else if (streams[stream].isValid()) // want to close stream { streams[stream].stop(); streams[stream].destroy(); } return openni::STATUS_OK; } CvCapture_OpenNI2::CvCapture_OpenNI2(const char * filename) { openni::Status status; isContextOpened = false; maxBufferSize = DEFAULT_MAX_BUFFER_SIZE; isCircleBuffer = DEFAULT_IS_CIRCLE_BUFFER; maxTimeDuration = DEFAULT_MAX_TIME_DURATION; // Initialize and configure the context. status = openni::OpenNI::initialize(); if (status != openni::STATUS_OK) { CV_Error(CV_StsError, cv::format("Failed to initialize:", openni::OpenNI::getExtendedError())); return; } // Open file status = device.open(filename); if( status != openni::STATUS_OK ) { CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::CvCapture_OpenNI2 : Failed to open input file (%s): %s\n", filename, openni::OpenNI::getExtendedError())); return; } status = openni::Status(toggleStream(CV_DEPTH_STREAM, true) | toggleStream(CV_COLOR_STREAM, true)); if (status != openni::STATUS_OK) { openni::OpenNI::shutdown(); return; } if( !readCamerasParams() ) { CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::CvCapture_OpenNI2 : Could not read cameras parameters\n")); return; } outputMaps.resize( outputMapsTypesCount ); isContextOpened = true; } CvCapture_OpenNI2::~CvCapture_OpenNI2() { for (int i = 0; i < CV_MAX_NUM_STREAMS; ++i) { streamFrames[i].release(); streams[i].stop(); streams[i].destroy(); } device.close(); openni::OpenNI::shutdown(); } bool CvCapture_OpenNI2::readCamerasParams() { double pixelSize = 0; if (streams[CV_DEPTH_STREAM].getProperty(XN_STREAM_PROPERTY_ZERO_PLANE_PIXEL_SIZE, &pixelSize) != openni::STATUS_OK) { CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::readCamerasParams : Could not read pixel size!\n")); return false; } // pixel size @ VGA = pixel size @ SXGA x 2 pixelSize *= 2.0; // in mm // focal length of IR camera in pixels for VGA resolution int zeroPlanDistance; // in mm if (streams[CV_DEPTH_STREAM].getProperty(XN_STREAM_PROPERTY_ZERO_PLANE_DISTANCE, &zeroPlanDistance) != openni::STATUS_OK) { CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::readCamerasParams : Could not read virtual plane distance!\n")); return false; } if (streams[CV_DEPTH_STREAM].getProperty(XN_STREAM_PROPERTY_EMITTER_DCMOS_DISTANCE, &baseline) != openni::STATUS_OK) { CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::readCamerasParams : Could not read base line!\n")); return false; } // baseline from cm -> mm baseline *= 10; // focal length from mm -> pixels (valid for 640x480) depthFocalLength_VGA = (int)((double)zeroPlanDistance / (double)pixelSize); return true; } double CvCapture_OpenNI2::getProperty( int propIdx ) const { double propValue = 0; if( isOpened() ) { int purePropIdx = propIdx & ~CV_CAP_OPENNI_GENERATORS_MASK; if( (propIdx & CV_CAP_OPENNI_GENERATORS_MASK) == CV_CAP_OPENNI_IMAGE_GENERATOR ) { propValue = getImageGeneratorProperty( purePropIdx ); } else if( (propIdx & CV_CAP_OPENNI_GENERATORS_MASK) == CV_CAP_OPENNI_DEPTH_GENERATOR ) { propValue = getDepthGeneratorProperty( purePropIdx ); } else if ((propIdx & CV_CAP_OPENNI_GENERATORS_MASK) == CV_CAP_OPENNI_IR_GENERATOR) { propValue = getIrGeneratorProperty(purePropIdx); } else { propValue = getCommonProperty( purePropIdx ); } } return propValue; } bool CvCapture_OpenNI2::setProperty( int propIdx, double propValue ) { bool isSet = false; if( isOpened() ) { int purePropIdx = propIdx & ~CV_CAP_OPENNI_GENERATORS_MASK; if( (propIdx & CV_CAP_OPENNI_GENERATORS_MASK) == CV_CAP_OPENNI_IMAGE_GENERATOR ) { isSet = setImageGeneratorProperty( purePropIdx, propValue ); } else if( (propIdx & CV_CAP_OPENNI_GENERATORS_MASK) == CV_CAP_OPENNI_DEPTH_GENERATOR ) { isSet = setDepthGeneratorProperty( purePropIdx, propValue ); } else if ((propIdx & CV_CAP_OPENNI_GENERATORS_MASK) == CV_CAP_OPENNI_IR_GENERATOR) { isSet = setIrGeneratorProperty(purePropIdx, propValue); } else { isSet = setCommonProperty( purePropIdx, propValue ); } } return isSet; } double CvCapture_OpenNI2::getCommonProperty( int propIdx ) const { double propValue = 0; switch( propIdx ) { case CV_CAP_PROP_FRAME_WIDTH : case CV_CAP_PROP_FRAME_HEIGHT : case CV_CAP_PROP_FPS : case CV_CAP_PROP_OPENNI_FRAME_MAX_DEPTH : case CV_CAP_PROP_OPENNI_BASELINE : case CV_CAP_PROP_OPENNI_FOCAL_LENGTH : case CV_CAP_PROP_OPENNI_REGISTRATION : propValue = getDepthGeneratorProperty( propIdx ); break; case CV_CAP_PROP_OPENNI2_SYNC : propValue = const_cast(this)->device.getDepthColorSyncEnabled(); case CV_CAP_PROP_OPENNI2_MIRROR: { bool isMirroring = false; for (int i = 0; i < CV_MAX_NUM_STREAMS; ++i) isMirroring |= streams[i].getMirroringEnabled(); propValue = isMirroring ? 1.0 : 0.0; break; } default : CV_Error( CV_StsBadArg, cv::format("Such parameter (propIdx=%d) isn't supported for getting.\n", propIdx) ); } return propValue; } bool CvCapture_OpenNI2::setCommonProperty( int propIdx, double propValue ) { bool isSet = false; switch( propIdx ) { case CV_CAP_PROP_OPENNI2_MIRROR: { bool mirror = propValue > 0.0 ? true : false; for (int i = 0; i < CV_MAX_NUM_STREAMS; ++i) { if (streams[i].isValid()) isSet |= streams[i].setMirroringEnabled(mirror) == openni::STATUS_OK; } } break; // There is a set of properties that correspond to depth generator by default // (is they are pass without particular generator flag). case CV_CAP_PROP_OPENNI_REGISTRATION: isSet = setDepthGeneratorProperty( propIdx, propValue ); break; case CV_CAP_PROP_OPENNI2_SYNC: isSet = device.setDepthColorSyncEnabled(propValue > 0.0) == openni::STATUS_OK; break; default: CV_Error( CV_StsBadArg, cv::format("Such parameter (propIdx=%d) isn't supported for setting.\n", propIdx) ); } return isSet; } double CvCapture_OpenNI2::getDepthGeneratorProperty( int propIdx ) const { double propValue = 0; if( !streams[CV_DEPTH_STREAM].isValid() ) return propValue; openni::VideoMode mode; switch( propIdx ) { case CV_CAP_PROP_OPENNI_GENERATOR_PRESENT: propValue = streams[CV_DEPTH_STREAM].isValid(); break; case CV_CAP_PROP_FRAME_WIDTH : propValue = streams[CV_DEPTH_STREAM].getVideoMode().getResolutionX(); break; case CV_CAP_PROP_FRAME_HEIGHT : propValue = streams[CV_DEPTH_STREAM].getVideoMode().getResolutionY(); break; case CV_CAP_PROP_FPS : mode = streams[CV_DEPTH_STREAM].getVideoMode(); propValue = mode.getFps(); break; case CV_CAP_PROP_OPENNI_FRAME_MAX_DEPTH : propValue = streams[CV_DEPTH_STREAM].getMaxPixelValue(); break; case CV_CAP_PROP_OPENNI_BASELINE : propValue = baseline; break; case CV_CAP_PROP_OPENNI_FOCAL_LENGTH : propValue = (double)depthFocalLength_VGA; break; case CV_CAP_PROP_OPENNI_REGISTRATION : propValue = device.getImageRegistrationMode(); break; case CV_CAP_PROP_POS_MSEC : propValue = (double)streamFrames[CV_DEPTH_STREAM].getTimestamp(); break; case CV_CAP_PROP_POS_FRAMES : propValue = streamFrames[CV_DEPTH_STREAM].getFrameIndex(); break; default : CV_Error( CV_StsBadArg, cv::format("Depth generator does not support such parameter (propIdx=%d) for getting.\n", propIdx) ); } return propValue; } bool CvCapture_OpenNI2::setDepthGeneratorProperty( int propIdx, double propValue ) { bool isSet = false; switch( propIdx ) { case CV_CAP_PROP_OPENNI_GENERATOR_PRESENT: if (isContextOpened) isSet = toggleStream(CV_DEPTH_STREAM, propValue > 0.0) == openni::STATUS_OK; break; case CV_CAP_PROP_OPENNI_REGISTRATION: { CV_Assert(streams[CV_DEPTH_STREAM].isValid()); if( propValue != 0.0 ) // "on" { // if there isn't image generator (i.e. ASUS XtionPro doesn't have it) // then the property isn't available if ( streams[CV_COLOR_STREAM].isValid() ) { openni::ImageRegistrationMode mode = propValue != 0.0 ? openni::IMAGE_REGISTRATION_DEPTH_TO_COLOR : openni::IMAGE_REGISTRATION_OFF; if( device.getImageRegistrationMode() != mode ) { if (device.isImageRegistrationModeSupported(mode)) { openni::Status status = device.setImageRegistrationMode(mode); if( status != openni::STATUS_OK ) CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::setDepthGeneratorProperty : %s\n", openni::OpenNI::getExtendedError())); else isSet = true; } else CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::setDepthGeneratorProperty : Unsupported viewpoint.\n")); } else isSet = true; } } else // "off" { openni::Status status = device.setImageRegistrationMode(openni::IMAGE_REGISTRATION_OFF); if( status != openni::STATUS_OK ) CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::setDepthGeneratorProperty : %s\n", openni::OpenNI::getExtendedError())); else isSet = true; } } break; default: CV_Error( CV_StsBadArg, cv::format("Depth generator does not support such parameter (propIdx=%d) for setting.\n", propIdx) ); } return isSet; } double CvCapture_OpenNI2::getImageGeneratorProperty( int propIdx ) const { double propValue = 0.; if( !streams[CV_COLOR_STREAM].isValid() ) return propValue; openni::VideoMode mode; switch( propIdx ) { case CV_CAP_PROP_OPENNI_GENERATOR_PRESENT: propValue = streams[CV_COLOR_STREAM].isValid(); break; case CV_CAP_PROP_FRAME_WIDTH : propValue = streams[CV_COLOR_STREAM].getVideoMode().getResolutionX(); break; case CV_CAP_PROP_FRAME_HEIGHT : propValue = streams[CV_COLOR_STREAM].getVideoMode().getResolutionY(); break; case CV_CAP_PROP_FPS : propValue = streams[CV_COLOR_STREAM].getVideoMode().getFps(); break; case CV_CAP_PROP_POS_MSEC : propValue = (double)streamFrames[CV_COLOR_STREAM].getTimestamp(); break; case CV_CAP_PROP_POS_FRAMES : propValue = (double)streamFrames[CV_COLOR_STREAM].getFrameIndex(); break; default : CV_Error( CV_StsBadArg, cv::format("Image generator does not support such parameter (propIdx=%d) for getting.\n", propIdx) ); } return propValue; } bool CvCapture_OpenNI2::setImageGeneratorProperty(int propIdx, double propValue) { bool isSet = false; switch( propIdx ) { case CV_CAP_PROP_OPENNI_GENERATOR_PRESENT: if (isContextOpened) isSet = toggleStream(CV_COLOR_STREAM, propValue > 0.0) == openni::STATUS_OK; break; case CV_CAP_PROP_OPENNI_OUTPUT_MODE : { if (!streams[CV_COLOR_STREAM].isValid()) return isSet; openni::VideoMode mode = streams[CV_COLOR_STREAM].getVideoMode(); switch( cvRound(propValue) ) { case CV_CAP_OPENNI_VGA_30HZ : mode.setResolution(640,480); mode.setFps(30); break; case CV_CAP_OPENNI_SXGA_15HZ : mode.setResolution(1280, 960); mode.setFps(15); break; case CV_CAP_OPENNI_SXGA_30HZ : mode.setResolution(1280, 960); mode.setFps(30); break; case CV_CAP_OPENNI_QVGA_30HZ : mode.setResolution(320, 240); mode.setFps(30); break; case CV_CAP_OPENNI_QVGA_60HZ : mode.setResolution(320, 240); mode.setFps(60); break; default : CV_Error( CV_StsBadArg, "Unsupported image generator output mode.\n"); } openni::Status status = streams[CV_COLOR_STREAM].setVideoMode( mode ); if( status != openni::STATUS_OK ) CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::setImageGeneratorProperty : %s\n", openni::OpenNI::getExtendedError())); else isSet = true; break; } default: CV_Error( CV_StsBadArg, cv::format("Image generator does not support such parameter (propIdx=%d) for setting.\n", propIdx) ); } return isSet; } double CvCapture_OpenNI2::getIrGeneratorProperty(int propIdx) const { double propValue = 0.; if (!streams[CV_IR_STREAM].isValid()) return propValue; openni::VideoMode mode; switch (propIdx) { case CV_CAP_PROP_OPENNI_GENERATOR_PRESENT: propValue = streams[CV_IR_STREAM].isValid(); break; case CV_CAP_PROP_FRAME_WIDTH: propValue = streams[CV_IR_STREAM].getVideoMode().getResolutionX(); break; case CV_CAP_PROP_FRAME_HEIGHT: propValue = streams[CV_IR_STREAM].getVideoMode().getResolutionY(); break; case CV_CAP_PROP_FPS: propValue = streams[CV_IR_STREAM].getVideoMode().getFps(); break; case CV_CAP_PROP_POS_MSEC: propValue = (double)streamFrames[CV_IR_STREAM].getTimestamp(); break; case CV_CAP_PROP_POS_FRAMES: propValue = (double)streamFrames[CV_IR_STREAM].getFrameIndex(); break; default: CV_Error(CV_StsBadArg, cv::format("Image generator does not support such parameter (propIdx=%d) for getting.\n", propIdx)); } return propValue; } bool CvCapture_OpenNI2::setIrGeneratorProperty(int propIdx, double propValue) { bool isSet = false; switch (propIdx) { case CV_CAP_PROP_OPENNI_GENERATOR_PRESENT: if (isContextOpened) isSet = toggleStream(CV_IR_STREAM, propValue > 0.0) == openni::STATUS_OK; break; case CV_CAP_PROP_OPENNI_OUTPUT_MODE: { if (!streams[CV_IR_STREAM].isValid()) return isSet; openni::VideoMode mode = streams[CV_IR_STREAM].getVideoMode(); switch (cvRound(propValue)) { case CV_CAP_OPENNI_VGA_30HZ: mode.setResolution(640, 480); mode.setFps(30); break; case CV_CAP_OPENNI_SXGA_15HZ: mode.setResolution(1280, 960); mode.setFps(15); break; case CV_CAP_OPENNI_SXGA_30HZ: mode.setResolution(1280, 960); mode.setFps(30); break; case CV_CAP_OPENNI_QVGA_30HZ: mode.setResolution(320, 240); mode.setFps(30); break; case CV_CAP_OPENNI_QVGA_60HZ: mode.setResolution(320, 240); mode.setFps(60); break; default: CV_Error(CV_StsBadArg, "Unsupported image generator output mode.\n"); } openni::Status status = streams[CV_IR_STREAM].setVideoMode(mode); if (status != openni::STATUS_OK) CV_Error(CV_StsError, cv::format("CvCapture_OpenNI2::setImageGeneratorProperty : %s\n", openni::OpenNI::getExtendedError())); else isSet = true; break; } default: CV_Error(CV_StsBadArg, cv::format("Image generator does not support such parameter (propIdx=%d) for setting.\n", propIdx)); } return isSet; } bool CvCapture_OpenNI2::grabFrame() { if( !isOpened() ) return false; bool isGrabbed = false; int numActiveStreams = 0; openni::VideoStream* streamPtrs[CV_MAX_NUM_STREAMS]; for (int i = 0; i < CV_MAX_NUM_STREAMS; ++i) { streamPtrs[numActiveStreams++] = &streams[i]; } int currentStream; openni::Status status = openni::OpenNI::waitForAnyStream(streamPtrs, numActiveStreams, ¤tStream, CV_STREAM_TIMEOUT); if( status != openni::STATUS_OK ) return false; for (int i = 0; i < CV_MAX_NUM_STREAMS; ++i) { if (streams[i].isValid()) streams[i].readFrame(&streamFrames[i]); } isGrabbed = true; return isGrabbed; } inline void getDepthMapFromMetaData(const openni::VideoFrameRef& depthMetaData, cv::Mat& depthMap, int noSampleValue, int shadowValue) { depthMap.create(depthMetaData.getHeight(), depthMetaData.getWidth(), CV_16UC1); depthMap.data = (uchar*)depthMetaData.getData(); cv::Mat badMask = (depthMap == (double)noSampleValue) | (depthMap == (double)shadowValue) | (depthMap == 0); // mask the pixels with invalid depth depthMap.setTo( cv::Scalar::all( CvCapture_OpenNI2::INVALID_PIXEL_VAL ), badMask ); } IplImage* CvCapture_OpenNI2::retrieveDepthMap() { if( !streamFrames[CV_DEPTH_STREAM].isValid() ) return 0; getDepthMapFromMetaData(streamFrames[CV_DEPTH_STREAM], outputMaps[CV_CAP_OPENNI_DEPTH_MAP].mat, noSampleValue, shadowValue ); return outputMaps[CV_CAP_OPENNI_DEPTH_MAP].getIplImagePtr(); } IplImage* CvCapture_OpenNI2::retrievePointCloudMap() { if( !streamFrames[CV_DEPTH_STREAM].isValid() ) return 0; cv::Mat depthImg; getDepthMapFromMetaData(streamFrames[CV_DEPTH_STREAM], depthImg, noSampleValue, shadowValue); const int badPoint = INVALID_PIXEL_VAL; const float badCoord = INVALID_COORDINATE_VAL; int cols = streamFrames[CV_DEPTH_STREAM].getWidth(), rows = streamFrames[CV_DEPTH_STREAM].getHeight(); cv::Mat pointCloud_XYZ( rows, cols, CV_32FC3, cv::Scalar::all(badPoint) ); float worldX, worldY, worldZ; for( int y = 0; y < rows; y++ ) { for (int x = 0; x < cols; x++) { openni::CoordinateConverter::convertDepthToWorld(streams[CV_DEPTH_STREAM], x, y, depthImg.at(y, x), &worldX, &worldY, &worldZ); if (depthImg.at(y, x) == badPoint) // not valid pointCloud_XYZ.at(y, x) = cv::Point3f(badCoord, badCoord, badCoord); else { pointCloud_XYZ.at(y, x) = cv::Point3f(worldX*0.001f, worldY*0.001f, worldZ*0.001f); // from mm to meters } } } outputMaps[CV_CAP_OPENNI_POINT_CLOUD_MAP].mat = pointCloud_XYZ; return outputMaps[CV_CAP_OPENNI_POINT_CLOUD_MAP].getIplImagePtr(); } static void computeDisparity_32F( const openni::VideoFrameRef& depthMetaData, cv::Mat& disp, double baseline, int F, int noSampleValue, int shadowValue) { cv::Mat depth; getDepthMapFromMetaData( depthMetaData, depth, noSampleValue, shadowValue ); CV_Assert( depth.type() == CV_16UC1 ); // disparity = baseline * F / z; float mult = (float)(baseline /*mm*/ * F /*pixels*/); disp.create( depth.size(), CV_32FC1); disp = cv::Scalar::all( CvCapture_OpenNI2::INVALID_PIXEL_VAL ); for( int y = 0; y < disp.rows; y++ ) { for( int x = 0; x < disp.cols; x++ ) { unsigned short curDepth = depth.at(y,x); if( curDepth != CvCapture_OpenNI2::INVALID_PIXEL_VAL ) disp.at(y,x) = mult / curDepth; } } } IplImage* CvCapture_OpenNI2::retrieveDisparityMap() { if (!streamFrames[CV_DEPTH_STREAM].isValid()) return 0; cv::Mat disp32; computeDisparity_32F(streamFrames[CV_DEPTH_STREAM], disp32, baseline, depthFocalLength_VGA, noSampleValue, shadowValue); disp32.convertTo( outputMaps[CV_CAP_OPENNI_DISPARITY_MAP].mat, CV_8UC1 ); return outputMaps[CV_CAP_OPENNI_DISPARITY_MAP].getIplImagePtr(); } IplImage* CvCapture_OpenNI2::retrieveDisparityMap_32F() { if (!streamFrames[CV_DEPTH_STREAM].isValid()) return 0; computeDisparity_32F(streamFrames[CV_DEPTH_STREAM], outputMaps[CV_CAP_OPENNI_DISPARITY_MAP_32F].mat, baseline, depthFocalLength_VGA, noSampleValue, shadowValue); return outputMaps[CV_CAP_OPENNI_DISPARITY_MAP_32F].getIplImagePtr(); } IplImage* CvCapture_OpenNI2::retrieveValidDepthMask() { if (!streamFrames[CV_DEPTH_STREAM].isValid()) return 0; cv::Mat d; getDepthMapFromMetaData(streamFrames[CV_DEPTH_STREAM], d, noSampleValue, shadowValue); outputMaps[CV_CAP_OPENNI_VALID_DEPTH_MASK].mat = d != CvCapture_OpenNI2::INVALID_PIXEL_VAL; return outputMaps[CV_CAP_OPENNI_VALID_DEPTH_MASK].getIplImagePtr(); } inline void getBGRImageFromMetaData( const openni::VideoFrameRef& imageMetaData, cv::Mat& bgrImage ) { cv::Mat bufferImage; if( imageMetaData.getVideoMode().getPixelFormat() != openni::PIXEL_FORMAT_RGB888 ) CV_Error( CV_StsUnsupportedFormat, "Unsupported format of grabbed image\n" ); bgrImage.create(imageMetaData.getHeight(), imageMetaData.getWidth(), CV_8UC3); bufferImage.create(imageMetaData.getHeight(), imageMetaData.getWidth(), CV_8UC3); bufferImage.data = (uchar*)imageMetaData.getData(); cv::cvtColor(bufferImage, bgrImage, cv::COLOR_RGB2BGR); } inline void getGrayImageFromMetaData(const openni::VideoFrameRef& imageMetaData, cv::Mat& grayImage) { if (imageMetaData.getVideoMode().getPixelFormat() == openni::PIXEL_FORMAT_GRAY8) { grayImage.create(imageMetaData.getHeight(), imageMetaData.getWidth(), CV_8UC1); grayImage.data = (uchar*)imageMetaData.getData(); } else if (imageMetaData.getVideoMode().getPixelFormat() == openni::PIXEL_FORMAT_GRAY16) { grayImage.create(imageMetaData.getHeight(), imageMetaData.getWidth(), CV_16UC1); grayImage.data = (uchar*)imageMetaData.getData(); } else { CV_Error(CV_StsUnsupportedFormat, "Unsupported format of grabbed image\n"); } } IplImage* CvCapture_OpenNI2::retrieveBGRImage() { if( !streamFrames[CV_COLOR_STREAM].isValid() ) return 0; getBGRImageFromMetaData(streamFrames[CV_COLOR_STREAM], outputMaps[CV_CAP_OPENNI_BGR_IMAGE].mat ); return outputMaps[CV_CAP_OPENNI_BGR_IMAGE].getIplImagePtr(); } IplImage* CvCapture_OpenNI2::retrieveGrayImage() { if (!streamFrames[CV_COLOR_STREAM].isValid()) return 0; CV_Assert(streamFrames[CV_COLOR_STREAM].getVideoMode().getPixelFormat() == openni::PIXEL_FORMAT_RGB888); // RGB cv::Mat rgbImage; getBGRImageFromMetaData(streamFrames[CV_COLOR_STREAM], rgbImage); cv::cvtColor( rgbImage, outputMaps[CV_CAP_OPENNI_GRAY_IMAGE].mat, CV_BGR2GRAY ); return outputMaps[CV_CAP_OPENNI_GRAY_IMAGE].getIplImagePtr(); } IplImage* CvCapture_OpenNI2::retrieveIrImage() { if (!streamFrames[CV_IR_STREAM].isValid()) return 0; getGrayImageFromMetaData(streamFrames[CV_IR_STREAM], outputMaps[CV_CAP_OPENNI_IR_IMAGE].mat); return outputMaps[CV_CAP_OPENNI_IR_IMAGE].getIplImagePtr(); } IplImage* CvCapture_OpenNI2::retrieveFrame( int outputType ) { IplImage* image = 0; CV_Assert( outputType < outputMapsTypesCount && outputType >= 0); if( outputType == CV_CAP_OPENNI_DEPTH_MAP ) { image = retrieveDepthMap(); } else if( outputType == CV_CAP_OPENNI_POINT_CLOUD_MAP ) { image = retrievePointCloudMap(); } else if( outputType == CV_CAP_OPENNI_DISPARITY_MAP ) { image = retrieveDisparityMap(); } else if( outputType == CV_CAP_OPENNI_DISPARITY_MAP_32F ) { image = retrieveDisparityMap_32F(); } else if( outputType == CV_CAP_OPENNI_VALID_DEPTH_MASK ) { image = retrieveValidDepthMask(); } else if( outputType == CV_CAP_OPENNI_BGR_IMAGE ) { image = retrieveBGRImage(); } else if( outputType == CV_CAP_OPENNI_GRAY_IMAGE ) { image = retrieveGrayImage(); } else if( outputType == CV_CAP_OPENNI_IR_IMAGE ) { image = retrieveIrImage(); } return image; } CvCapture* cvCreateCameraCapture_OpenNI2( int index ) { CvCapture_OpenNI2* capture = new CvCapture_OpenNI2( index ); if( capture->isOpened() ) return capture; delete capture; return 0; } CvCapture* cvCreateFileCapture_OpenNI2( const char* filename ) { CvCapture_OpenNI2* capture = new CvCapture_OpenNI2( filename ); if( capture->isOpened() ) return capture; delete capture; return 0; } #endif