/external/mesa3d/src/mesa/main/ |
H A D | texcompress_cpal.h | 35 GLsizei imageSize, const void *palette);
|
H A D | texstore.h | 112 GLsizei imageSize, const GLvoid *data); 121 GLsizei imageSize, const GLvoid *data);
|
H A D | teximage.h | 259 GLint border, GLsizei imageSize, 265 GLsizei height, GLint border, GLsizei imageSize, 272 GLsizei imageSize, const GLvoid *data); 282 GLsizei imageSize, const GLvoid *data); 287 GLenum format, GLsizei imageSize, 294 GLsizei imageSize, const GLvoid *data);
|
/external/deqp/external/vulkancts/modules/vulkan/image/ |
H A D | vktImageTestsUtil.cpp | 58 tcu::UVec3 getShaderGridSize (const ImageType imageType, const tcu::UVec3& imageSize) argument 64 return tcu::UVec3(imageSize.x(), 1u, 1u); 67 return tcu::UVec3(imageSize.x(), imageSize.z(), 1u); 70 return tcu::UVec3(imageSize.x(), imageSize.y(), 1u); 74 return tcu::UVec3(imageSize.x(), imageSize.y(), imageSize.z()); 77 return tcu::UVec3(imageSize 88 getLayerSize(const ImageType imageType, const tcu::UVec3& imageSize) argument 112 getNumLayers(const ImageType imageType, const tcu::UVec3& imageSize) argument 138 getNumPixels(const ImageType imageType, const tcu::UVec3& imageSize) argument [all...] |
H A D | vktImageTestsUtil.hpp | 101 tcu::UVec3 getShaderGridSize (const ImageType imageType, const tcu::UVec3& imageSize); //!< Size used for addresing image in a shader 102 tcu::UVec3 getLayerSize (const ImageType imageType, const tcu::UVec3& imageSize); //!< Size of a single layer 103 deUint32 getNumLayers (const ImageType imageType, const tcu::UVec3& imageSize); //!< Number of array layers (for array and cube types) 104 deUint32 getNumPixels (const ImageType imageType, const tcu::UVec3& imageSize); //!< Number of texels in an image 174 inline vk::VkDeviceSize getImageSizeBytes (const tcu::IVec3& imageSize, const vk::VkFormat format) argument 176 return tcu::getPixelSize(vk::mapVkFormat(format)) * imageSize.x() * imageSize.y() * imageSize.z();
|
H A D | vktImageQualifiersTests.cpp | 68 const tcu::UVec3 getLocalWorkGroupSize (const ImageType imageType, const tcu::UVec3& imageSize) argument 70 const tcu::UVec3 computeGridSize = getShaderGridSize(imageType, imageSize); 78 const tcu::UVec3 getNumWorkGroups (const ImageType imageType, const tcu::UVec3& imageSize) argument 80 const tcu::UVec3 computeGridSize = getShaderGridSize(imageType, imageSize); 81 const tcu::UVec3 localWorkGroupSize = getLocalWorkGroupSize(imageType, imageSize); 115 const tcu::UVec3& imageSize, 126 for (deUint32 layerNdx = 0; layerNdx < getNumLayers(imageType, imageSize); ++layerNdx) 160 return passedLayers == getNumLayers(imageType, imageSize); 207 const tcu::UVec3& imageSize, 230 const tcu::UVec3& imageSize, 113 comparePixelBuffers(tcu::TestContext& testCtx, const ImageType imageType, const tcu::UVec3& imageSize, const tcu::TextureFormat& format, const tcu::ConstPixelBufferAccess& reference, const tcu::ConstPixelBufferAccess& result) argument 225 MemoryQualifierTestCase(tcu::TestContext& testCtx, const std::string& name, const std::string& description, const Qualifier qualifier, const ImageType imageType, const tcu::UVec3& imageSize, const tcu::TextureFormat& format, const glu::GLSLVersion glslVersion) argument 343 MemoryQualifierInstanceBase(Context& context, const std::string& name, const ImageType imageType, const tcu::UVec3& imageSize, const tcu::TextureFormat& format) argument 464 MemoryQualifierInstanceImage(Context& context, const std::string& name, const ImageType imageType, const tcu::UVec3& imageSize, const tcu::TextureFormat& format) argument 604 MemoryQualifierInstanceBuffer(Context& context, const std::string& name, const ImageType imageType, const tcu::UVec3& imageSize, const tcu::TextureFormat& format) argument 696 ImageParams(const ImageType imageType, const tcu::UVec3& imageSize) argument 738 const tcu::UVec3 imageSize = imageParamsArray[imageTypeNdx].m_imageSize; local [all...] |
H A D | vktImageAtomicOperationTests.cpp | 248 const tcu::UVec3& imageSize, 268 const tcu::UVec3& imageSize, 274 , m_imageSize (imageSize) 321 const tcu::UVec3& imageSize, 341 const tcu::UVec3& imageSize, 347 , m_imageSize (imageSize) 396 const tcu::UVec3& imageSize, 430 const tcu::UVec3& imageSize, 436 , m_imageSize (imageSize) 591 const tcu::UVec3& imageSize, 264 BinaryAtomicEndResultCase(tcu::TestContext& testCtx, const string& name, const string& description, const ImageType imageType, const tcu::UVec3& imageSize, const tcu::TextureFormat& format, const AtomicOperation operation, const glu::GLSLVersion glslVersion) argument 337 BinaryAtomicIntermValuesCase(TestContext& testCtx, const string& name, const string& description, const ImageType imageType, const tcu::UVec3& imageSize, const TextureFormat& format, const AtomicOperation operation, const glu::GLSLVersion glslVersion) argument 427 BinaryAtomicInstanceBase(Context& context, const string& name, const ImageType imageType, const tcu::UVec3& imageSize, const TextureFormat& format, const AtomicOperation operation) argument 588 BinaryAtomicEndResultInstance(Context& context, const string& name, const ImageType imageType, const tcu::UVec3& imageSize, const TextureFormat& format, const AtomicOperation operation) argument 711 BinaryAtomicIntermValuesInstance(Context& context, const string& name, const ImageType imageType, const tcu::UVec3& imageSize, const TextureFormat& format, const AtomicOperation operation) argument 925 ImageParams(const ImageType imageType, const tcu::UVec3& imageSize) argument 960 const tcu::UVec3 imageSize = imageParamsArray[imageTypeNdx].m_imageSize; local [all...] |
/external/deqp/external/vulkancts/modules/vulkan/sparse_resources/ |
H A D | vktSparseResourcesTestsUtil.cpp | 60 tcu::UVec3 getShaderGridSize(const ImageType imageType, const tcu::UVec3& imageSize, const deUint32 mipLevel) argument 62 const deUint32 mipLevelX = std::max(imageSize.x() >> mipLevel, 1u); 63 const deUint32 mipLevelY = std::max(imageSize.y() >> mipLevel, 1u); 64 const deUint32 mipLevelZ = std::max(imageSize.z() >> mipLevel, 1u); 72 return tcu::UVec3(imageSize.x(), 1u, 1u); 75 return tcu::UVec3(mipLevelX, imageSize.z(), 1u); 81 return tcu::UVec3(mipLevelX, mipLevelY, imageSize.z()); 90 return tcu::UVec3(mipLevelX, mipLevelY, 6u * imageSize.z()); 98 tcu::UVec3 getLayerSize(const ImageType imageType, const tcu::UVec3& imageSize) argument 105 return tcu::UVec3(imageSize 122 getNumLayers(const ImageType imageType, const tcu::UVec3& imageSize) argument 148 getNumPixels(const ImageType imageType, const tcu::UVec3& imageSize) argument 203 isImageSizeSupported(const ImageType imageType, const tcu::UVec3& imageSize, const vk::VkPhysicalDeviceLimits& limits) argument [all...] |
H A D | vktSparseResourcesImageSparseBinding.cpp | 62 const tcu::UVec3& imageSize, 77 const tcu::UVec3& imageSize, 81 , m_imageSize (imageSize) 91 const tcu::UVec3& imageSize, 104 const tcu::UVec3& imageSize, 108 , m_imageSize (imageSize) 444 const tcu::UVec3 imageSize = imageParametersArray[imageTypeNdx].imageSizes[imageSizeNdx]; local 447 stream << imageSize.x() << "_" << imageSize.y() << "_" << imageSize 73 ImageSparseBindingCase(tcu::TestContext& testCtx, const std::string& name, const std::string& description, const ImageType imageType, const tcu::UVec3& imageSize, const tcu::TextureFormat& format) argument 102 ImageSparseBindingInstance(Context& context, const ImageType imageType, const tcu::UVec3& imageSize, const tcu::TextureFormat& format) argument [all...] |
H A D | vktSparseResourcesTestsUtil.hpp | 104 const tcu::UVec3& imageSize, 106 tcu::UVec3 getLayerSize (const ImageType imageType, const tcu::UVec3& imageSize); //!< Size of a single layer 107 deUint32 getNumLayers (const ImageType imageType, const tcu::UVec3& imageSize); //!< Number of array layers (for array and cube types) 108 deUint32 getNumPixels (const ImageType imageType, const tcu::UVec3& imageSize); //!< Number of texels in an image 112 const tcu::UVec3& imageSize,
|
/external/opencv3/samples/cpp/ |
H A D | stereo_calib.cpp | 74 Size imageSize; local 90 if( imageSize == Size() ) 91 imageSize = img.size(); 92 else if( img.size() != imageSize ) 175 imageSize, R, T, E, F, 230 imageSize, R, T, R1, R2, P1, P2, Q, 231 CALIB_ZERO_DISPARITY, 1, imageSize, &validRoi[0], &validRoi[1]); 270 stereoRectifyUncalibrated(Mat(allimgpt[0]), Mat(allimgpt[1]), F, imageSize, H1, H2, 3); local 279 initUndistortRectifyMap(cameraMatrix[0], distCoeffs[0], R1, P1, imageSize, CV_16SC2, rmap[0][0], rmap[0][1]); 280 initUndistortRectifyMap(cameraMatrix[1], distCoeffs[1], R2, P2, imageSize, CV_16SC [all...] |
H A D | 3calibration.cpp | 48 Size imageSize, Size boardSize, 90 double err = calibrateCamera(objpt, imgpt, imageSize, cameraMatrix, 140 imageSize, R, T, E, F, 179 Size boardSize, imageSize; local 274 imageSize = view.size(); 294 run3Calibration(imgpt[0], imgpt[1], imgpt[2], imageSize, 316 fs << "imageWidth" << imageSize.width; 317 fs << "imageHeight" << imageSize.height; 325 imageSize, R12, T12, R13, T13, 327 imageSize, 45 run3Calibration( vector<vector<Point2f> > imagePoints1, vector<vector<Point2f> > imagePoints2, vector<vector<Point2f> > imagePoints3, Size imageSize, Size boardSize, float squareSize, float aspectRatio, int flags, Mat& cameraMatrix1, Mat& distCoeffs1, Mat& cameraMatrix2, Mat& distCoeffs2, Mat& cameraMatrix3, Mat& distCoeffs3, Mat& R12, Mat& T12, Mat& R13, Mat& T13) argument [all...] |
H A D | calibration.cpp | 138 Size imageSize, Size boardSize, Pattern patternType, 156 double rms = calibrateCamera(objectPoints, imagePoints, imageSize, cameraMatrix, 171 Size imageSize, Size boardSize, 191 fs << "image_width" << imageSize.width; 192 fs << "image_height" << imageSize.height; 269 Size imageSize, Size boardSize, Pattern patternType, float squareSize, 277 bool ok = runCalibration(imagePoints, imageSize, boardSize, patternType, squareSize, 285 saveCameraParams( outputFilename, imageSize, 299 Size boardSize, imageSize; local 454 runAndSave(outputFilename, imagePoints, imageSize, 137 runCalibration( vector<vector<Point2f> > imagePoints, Size imageSize, Size boardSize, Pattern patternType, float squareSize, float aspectRatio, int flags, Mat& cameraMatrix, Mat& distCoeffs, vector<Mat>& rvecs, vector<Mat>& tvecs, vector<float>& reprojErrs, double& totalAvgErr) argument 170 saveCameraParams( const string& filename, Size imageSize, Size boardSize, float squareSize, float aspectRatio, int flags, const Mat& cameraMatrix, const Mat& distCoeffs, const vector<Mat>& rvecs, const vector<Mat>& tvecs, const vector<float>& reprojErrs, const vector<vector<Point2f> >& imagePoints, double totalAvgErr ) argument 267 runAndSave(const string& outputFilename, const vector<vector<Point2f> >& imagePoints, Size imageSize, Size boardSize, Pattern patternType, float squareSize, float aspectRatio, int flags, Mat& cameraMatrix, Mat& distCoeffs, bool writeExtrinsics, bool writePoints ) argument [all...] |
/external/deqp/modules/gles31/functional/ |
H A D | es31fShaderImageLoadStoreTests.cpp | 695 static void setTextureStorage (glu::CallLogWrapper& glLog, TextureType imageType, deUint32 internalFormat, const IVec3& imageSize, deUint32 textureBufGL) argument 704 const int numBytes = format.getPixelSize() * imageSize.x(); 709 DE_ASSERT(imageSize.y() == 1 && imageSize.z() == 1); 717 glLog.glTexStorage2D(textureTarget, 1, internalFormat, imageSize.x(), imageSize.y()); 718 DE_ASSERT(imageSize.z() == 1); 723 glLog.glTexStorage3D(textureTarget, 1, internalFormat, imageSize.x(), imageSize.y(), imageSize 735 const IVec3& imageSize = src.getSize(); local 1030 readBufferTextureWithMappingAndVerify(const RenderContext& renderCtx, glu::CallLogWrapper& glLog, deUint32 bufferGL, const TextureFormat& textureFormat, int imageSize, const ImageLayerVerifier& verifyLayer) argument 1053 readTextureAndVerify(const RenderContext& renderCtx, glu::CallLogWrapper& glLog, deUint32 textureGL, deUint32 bufferGL, TextureType textureType, const TextureFormat& textureFormat, const IVec3& imageSize, const ImageLayerVerifier& verifyLayer) argument 1137 const IVec3& imageSize = defaultImageSize(m_textureType); local 1321 const IVec3 imageSize = image.getSize(); local 1357 const IVec3& imageSize = defaultImageSize(m_textureType); local 1932 const IVec3& imageSize = defaultImageSize(m_imageType); local 2333 const IVec3& imageSize = defaultImageSize(m_imageType); local 2553 const IVec3& imageSize = defaultImageSize(m_imageType); local 3311 const IVec3 imageSize = imageType == TEXTURETYPE_BUFFER ? IVec3(baseSize.x(), 1, 1) local [all...] |
/external/opencv3/samples/cpp/tutorial_code/calib3d/camera_calibration/ |
H A D | camera_calibration.cpp | 221 bool runCalibrationAndSave(Settings& s, Size imageSize, Mat& cameraMatrix, Mat& distCoeffs, 252 Size imageSize; local 269 if( runCalibrationAndSave(s, imageSize, cameraMatrix, distCoeffs, imagePoints)) 278 runCalibrationAndSave(s, imageSize, cameraMatrix, distCoeffs, imagePoints); 283 imageSize = view.size(); // Format input image. 385 getOptimalNewCameraMatrix(cameraMatrix, distCoeffs, imageSize, 1, imageSize, 0), 386 imageSize, CV_16SC2, map1, map2); 456 static bool runCalibration( Settings& s, Size& imageSize, Mat& cameraMatrix, Mat& distCoeffs, argument 473 double rms = calibrateCamera(objectPoints, imagePoints, imageSize, cameraMatri 487 saveCameraParams( Settings& s, Size& imageSize, Mat& cameraMatrix, Mat& distCoeffs, const vector<Mat>& rvecs, const vector<Mat>& tvecs, const vector<float>& reprojErrs, const vector<vector<Point2f> >& imagePoints, double totalAvgErr ) argument 565 runCalibrationAndSave(Settings& s, Size imageSize, Mat& cameraMatrix, Mat& distCoeffs, vector<vector<Point2f> > imagePoints) argument [all...] |
/external/deqp/modules/internal/ |
H A D | ditImageIOTests.cpp | 63 const int imageSize = texture.getAccess().getSlicePitch()*texture.getDepth(); local 64 const deUint32 hash = deMemoryHash(texture.getAccess().getDataPtr(), imageSize);
|
/external/libjpeg-turbo/java/org/libjpegturbo/turbojpeg/ |
H A D | TJTransformer.java | 57 * image of length <code>imageSize</code> bytes stored in 62 * @param imageSize size of the JPEG image (in bytes) 64 public TJTransformer(byte[] jpegImage, int imageSize) throws Exception { argument 66 setSourceImage(jpegImage, imageSize);
|
/external/opencv3/modules/java/src/ |
H A D | calib3d+Calib3d.java | 249 // C++: void stereoRectify(Mat K1, Mat D1, Mat K2, Mat D2, Size imageSize, Mat R, Mat tvec, Mat& R1, Mat& R2, Mat& P1, Mat& P2, Mat& Q, int flags, Size newImageSize = Size(), double balance = 0.0, double fov_scale = 1.0) 252 //javadoc: stereoRectify(K1, D1, K2, D2, imageSize, R, tvec, R1, R2, P1, P2, Q, flags, newImageSize, balance, fov_scale) 253 public static void stereoRectify(Mat K1, Mat D1, Mat K2, Mat D2, Size imageSize, Mat R, Mat tvec, Mat R1, Mat R2, Mat P1, Mat P2, Mat Q, int flags, Size newImageSize, double balance, double fov_scale) argument 256 stereoRectify_0(K1.nativeObj, D1.nativeObj, K2.nativeObj, D2.nativeObj, imageSize.width, imageSize.height, R.nativeObj, tvec.nativeObj, R1.nativeObj, R2.nativeObj, P1.nativeObj, P2.nativeObj, Q.nativeObj, flags, newImageSize.width, newImageSize.height, balance, fov_scale); 261 //javadoc: stereoRectify(K1, D1, K2, D2, imageSize, R, tvec, R1, R2, P1, P2, Q, flags) 262 public static void stereoRectify(Mat K1, Mat D1, Mat K2, Mat D2, Size imageSize, Mat R, Mat tvec, Mat R1, Mat R2, Mat P1, Mat P2, Mat Q, int flags) argument 265 stereoRectify_1(K1.nativeObj, D1.nativeObj, K2.nativeObj, D2.nativeObj, imageSize.width, imageSize.height, R.nativeObj, tvec.nativeObj, R1.nativeObj, R2.nativeObj, P1.nativeObj, P2.nativeObj, Q.nativeObj, flags); 272 // C++: double stereoCalibrate(vector_Mat objectPoints, vector_Mat imagePoints1, vector_Mat imagePoints2, Mat& K1, Mat& D1, Mat& K2, Mat& D2, Size imageSize, Ma 276 stereoCalibrate(List<Mat> objectPoints, List<Mat> imagePoints1, List<Mat> imagePoints2, Mat K1, Mat D1, Mat K2, Mat D2, Size imageSize, Mat R, Mat T, int flags, TermCriteria criteria) argument 287 stereoCalibrate(List<Mat> objectPoints, List<Mat> imagePoints1, List<Mat> imagePoints2, Mat K1, Mat D1, Mat K2, Mat D2, Size imageSize, Mat R, Mat T, int flags) argument 298 stereoCalibrate(List<Mat> objectPoints, List<Mat> imagePoints1, List<Mat> imagePoints2, Mat K1, Mat D1, Mat K2, Mat D2, Size imageSize, Mat R, Mat T) argument 455 initCameraMatrix2D(List<MatOfPoint3f> objectPoints, List<MatOfPoint2f> imagePoints, Size imageSize, double aspectRatio) argument 467 initCameraMatrix2D(List<MatOfPoint3f> objectPoints, List<MatOfPoint2f> imagePoints, Size imageSize) argument 544 calibrateCamera(List<Mat> objectPoints, List<Mat> imagePoints, Size imageSize, Mat cameraMatrix, Mat distCoeffs, List<Mat> rvecs, List<Mat> tvecs, int flags, TermCriteria criteria) argument 559 calibrateCamera(List<Mat> objectPoints, List<Mat> imagePoints, Size imageSize, Mat cameraMatrix, Mat distCoeffs, List<Mat> rvecs, List<Mat> tvecs, int flags) argument 574 calibrateCamera(List<Mat> objectPoints, List<Mat> imagePoints, Size imageSize, Mat cameraMatrix, Mat distCoeffs, List<Mat> rvecs, List<Mat> tvecs) argument 594 calibrationMatrixValues(Mat cameraMatrix, Size imageSize, double apertureWidth, double apertureHeight, double[] fovx, double[] fovy, double[] focalLength, Point principalPoint, double[] aspectRatio) argument 616 stereoCalibrate(List<Mat> objectPoints, List<Mat> imagePoints1, List<Mat> imagePoints2, Mat cameraMatrix1, Mat distCoeffs1, Mat cameraMatrix2, Mat distCoeffs2, Size imageSize, Mat R, Mat T, Mat E, Mat F, int flags, TermCriteria criteria) argument 627 stereoCalibrate(List<Mat> objectPoints, List<Mat> imagePoints1, List<Mat> imagePoints2, Mat cameraMatrix1, Mat distCoeffs1, Mat cameraMatrix2, Mat distCoeffs2, Size imageSize, Mat R, Mat T, Mat E, Mat F, int flags) argument 638 stereoCalibrate(List<Mat> objectPoints, List<Mat> imagePoints1, List<Mat> imagePoints2, Mat cameraMatrix1, Mat distCoeffs1, Mat cameraMatrix2, Mat distCoeffs2, Size imageSize, Mat R, Mat T, Mat E, Mat F) argument 735 stereoRectify(Mat cameraMatrix1, Mat distCoeffs1, Mat cameraMatrix2, Mat distCoeffs2, Size imageSize, Mat R, Mat T, Mat R1, Mat R2, Mat P1, Mat P2, Mat Q, int flags, double alpha, Size newImageSize, Rect validPixROI1, Rect validPixROI2) argument 746 stereoRectify(Mat cameraMatrix1, Mat distCoeffs1, Mat cameraMatrix2, Mat distCoeffs2, Size imageSize, Mat R, Mat T, Mat R1, Mat R2, Mat P1, Mat P2, Mat Q) argument 783 rectify3Collinear(Mat cameraMatrix1, Mat distCoeffs1, Mat cameraMatrix2, Mat distCoeffs2, Mat cameraMatrix3, Mat distCoeffs3, List<Mat> imgpt1, List<Mat> imgpt3, Size imageSize, Mat R12, Mat T12, Mat R13, Mat T13, Mat R1, Mat R2, Mat R3, Mat P1, Mat P2, Mat P3, Mat Q, double alpha, Size newImgSize, Rect roi1, Rect roi2, int flags) argument 801 getOptimalNewCameraMatrix(Mat cameraMatrix, Mat distCoeffs, Size imageSize, double alpha, Size newImgSize, Rect validPixROI, boolean centerPrincipalPoint) argument 810 getOptimalNewCameraMatrix(Mat cameraMatrix, Mat distCoeffs, Size imageSize, double alpha) argument [all...] |
/external/opencv/cvaux/src/ |
H A D | cvepilines.cpp | 667 int icvGetAngleLine( CvPoint2D64d startPoint, CvSize imageSize,CvPoint2D64d *point1,CvPoint2D64d *point2) argument 678 pb.x = imageSize.width-1; 681 pd.x = imageSize.width-1; 682 pd.y = imageSize.height-1; 685 pc.y = imageSize.height-1; 697 else if( startPoint.y > imageSize.height-1 ) 708 else if ( startPoint.x > imageSize.width-1 ) 715 else if ( startPoint.y > imageSize.height-1 ) 730 if( startPoint.x < imageSize.width/2 ) 741 else if( startPoint.y > imageSize 794 icvGetCommonArea( CvSize imageSize, CvPoint3D64d epipole1,CvPoint3D64d epipole2, CvMatr64d fundMatr, CvVect64d coeff11,CvVect64d coeff12, CvVect64d coeff21,CvVect64d coeff22, int* result) argument 1174 icvGetCrossRectDirect( CvSize imageSize, double a,double b,double c, CvPoint2D64d *start,CvPoint2D64d *end, int* result) argument 1294 icvGetQuadsTransform( CvSize imageSize, CvMatr64d camMatr1, CvMatr64d rotMatr1, CvVect64d transVect1, CvMatr64d camMatr2, CvMatr64d rotMatr2, CvVect64d transVect2, CvSize* warpSize, double quad1[4][2], double quad2[4][2], CvMatr64d fundMatr, CvPoint3D64d* epipole1, CvPoint3D64d* epipole2 ) argument 1672 icvGetQuadsTransformNew( CvSize imageSize, CvMatr32f camMatr1, CvMatr32f camMatr2, CvMatr32f rotMatr1, CvVect32f transVect1, CvSize* warpSize, double quad1[4][2], double quad2[4][2], CvMatr32f fundMatr, CvPoint3D32f* epipole1, CvPoint3D32f* epipole2 ) argument 1826 icvGetCutPiece( CvVect64d areaLineCoef1,CvVect64d areaLineCoef2, CvPoint2D64d epipole, CvSize imageSize, CvPoint2D64d* point11,CvPoint2D64d* point12, CvPoint2D64d* point21,CvPoint2D64d* point22, int* result) argument 2181 FindLineForEpiline( CvSize imageSize, float a,float b,float c, CvPoint2D32f *start,CvPoint2D32f *end, int* result) argument 2274 GetAngleLinee( CvPoint2D32f epipole, CvSize imageSize,CvPoint2D32f point1,CvPoint2D32f point2) argument [all...] |
/external/opencv3/modules/features2d/src/ |
H A D | keypoint.cpp | 105 void KeyPointsFilter::runByImageBorder( std::vector<KeyPoint>& keypoints, Size imageSize, int borderSize ) argument 109 if (imageSize.height <= borderSize * 2 || imageSize.width <= borderSize * 2) 114 Point(imageSize.width - borderSize, imageSize.height - borderSize)))),
|
/external/skia/src/sfnt/ |
H A D | SkOTTable_EBLC.h | 109 SK_OT_ULONG imageSize; // all glyphs are of the same size member in struct:SkOTTableEmbeddedBitmapLocation::IndexSubTable2 133 SK_OT_ULONG imageSize; //all glyphs have the same data size member in struct:SkOTTableEmbeddedBitmapLocation::IndexSubTable5
|
/external/opencv/ |
H A D | cvjni.cpp | 151 int imageSize = strm->GetSize();
local 152 jbooleanArray res_array = env->NewBooleanArray(imageSize);
157 env->SetBooleanArrayRegion(res_array, 0, imageSize, (jboolean*)strm->GetByte());
257 int imageSize;
local 270 imageSize = strm->GetSize();
271 jbooleanArray res_array = env->NewBooleanArray(imageSize);
276 env->SetBooleanArrayRegion(res_array, 0, imageSize, (jboolean*)strm->GetByte());
701 int imageSize;
765 imageSize = m_strm->GetSize();
766 res_array = env->NewBooleanArray(imageSize);
[all...] |
/external/opencv3/modules/calib3d/test/ |
H A D | test_cameracalibration.cpp | 260 CvSize imageSize, CvPoint2D64f* imagePoints, CvPoint3D64f* objectPoints, 296 CvSize imageSize; local 374 values_read = fscanf(file,"%d %d\n",&(imageSize.width),&(imageSize.height)); 376 if( imageSize.width <= 0 || imageSize.height <= 0 ) 515 cameraMatrix[2] = (imageSize.width - 1)*0.5; 516 cameraMatrix[5] = (imageSize.height - 1)*0.5; 522 imageSize, 677 CvSize imageSize, CvPoint2D64 685 calibrate( int imageCount, int* pointCounts, CvSize imageSize, CvPoint2D64f* imagePoints, CvPoint3D64f* objectPoints, double* distortionCoeffs, double* cameraMatrix, double* translationVectors, double* rotationMatrices, int flags ) argument 744 Size imageSize = _imageSize; local 936 calibMatrixValues( const Mat& _cameraMatrix, Size imageSize, double apertureWidth, double apertureHeight, double& fovx, double& fovy, double& focalLength, Point2d& principalPoint, double& aspectRatio ) argument 962 calibMatrixValues( const Mat& cameraMatrix, Size imageSize, double apertureWidth, double apertureHeight, double& fovx, double& fovy, double& focalLength, Point2d& principalPoint, double& aspectRatio ) argument [all...] |
H A D | test_fisheye.cpp | 50 const static cv::Size imageSize; member in class:fisheyeTest 71 double cols = this->imageSize.width, 72 rows = this->imageSize.height; 264 cv::fisheye::calibrate(objectPoints, imagePoints, imageSize, K, D, 292 param.Init(cv::Vec2d(cv::max(imageSize.width, imageSize.height) / CV_PI, cv::max(imageSize.width, imageSize.height) / CV_PI), 293 cv::Vec2d(imageSize.width / 2.0 - 0.5, imageSize [all...] |
/external/deqp/external/vulkancts/modules/vulkan/compute/ |
H A D | vktComputeTestsUtil.hpp | 155 inline vk::VkDeviceSize getImageSizeBytes (const tcu::IVec3& imageSize, const vk::VkFormat format) argument 157 return tcu::getPixelSize(vk::mapVkFormat(format)) * imageSize.x() * imageSize.y() * imageSize.z();
|