/* Copyright (c) 2015 Advanced Micro Devices, Inc. All rights reserved. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #if USE_OPENCV_CONTRIB #include"internal_publishKernels.h" /*!*********************************************************************************************************** input parameter validator. param [in] node The handle to the node. param [in] index The index of the parameter to validate. *************************************************************************************************************/ static vx_status VX_CALLBACK CV_SURF_Compute_InputValidator(vx_node node, vx_uint32 index) { vx_status status = VX_SUCCESS; vx_parameter param = vxGetParameterByIndex(node, index); if (index == 0) { vx_image image; vx_df_image df_image = VX_DF_IMAGE_VIRT; STATUS_ERROR_CHECK(vxQueryParameter(param, VX_PARAMETER_ATTRIBUTE_REF, &image, sizeof(vx_image))); STATUS_ERROR_CHECK(vxQueryImage(image, VX_IMAGE_ATTRIBUTE_FORMAT, &df_image, sizeof(df_image))); if (df_image != VX_DF_IMAGE_U8) status = VX_ERROR_INVALID_VALUE; vxReleaseImage(&image); } if (index == 1) { vx_image image; vx_df_image df_image = VX_DF_IMAGE_VIRT; STATUS_ERROR_CHECK(vxQueryParameter(param, VX_PARAMETER_ATTRIBUTE_REF, &image, sizeof(vx_image))); STATUS_ERROR_CHECK(vxQueryImage(image, VX_IMAGE_ATTRIBUTE_FORMAT, &df_image, sizeof(df_image))); if (df_image != VX_DF_IMAGE_U8) status = VX_ERROR_INVALID_VALUE; vxReleaseImage(&image); } else if (index == 2) { vx_array array; vx_size size = 0; STATUS_ERROR_CHECK(vxQueryParameter(param, VX_PARAMETER_ATTRIBUTE_REF, &array, sizeof(array))); STATUS_ERROR_CHECK(vxQueryArray(array, VX_ARRAY_ATTRIBUTE_CAPACITY, &size, sizeof(size))); vxReleaseArray(&array); } else if (index == 3) { vx_array array; vx_size size = 0; STATUS_ERROR_CHECK(vxQueryParameter(param, VX_PARAMETER_ATTRIBUTE_REF, &array, sizeof(array))); STATUS_ERROR_CHECK(vxQueryArray(array, VX_ARRAY_ATTRIBUTE_CAPACITY, &size, sizeof(size))); vxReleaseArray(&array); } else if (index == 4) { vx_scalar scalar = 0; vx_enum type = 0; vx_float32 value = 0; STATUS_ERROR_CHECK(vxQueryParameter(param, VX_PARAMETER_ATTRIBUTE_REF, &scalar, sizeof(scalar))); STATUS_ERROR_CHECK(vxQueryScalar(scalar, VX_SCALAR_ATTRIBUTE_TYPE, &type, sizeof(type))); STATUS_ERROR_CHECK(vxReadScalarValue(scalar, &value)); if (value < 0 || type != VX_TYPE_FLOAT32) status = VX_ERROR_INVALID_VALUE; vxReleaseScalar(&scalar); } else if (index == 5) { vx_scalar scalar = 0; vx_enum type = 0; vx_int32 value = 0; STATUS_ERROR_CHECK(vxQueryParameter(param, VX_PARAMETER_ATTRIBUTE_REF, &scalar, sizeof(scalar))); STATUS_ERROR_CHECK(vxQueryScalar(scalar, VX_SCALAR_ATTRIBUTE_TYPE, &type, sizeof(type))); STATUS_ERROR_CHECK(vxReadScalarValue(scalar, &value)); if (value < 0 || type != VX_TYPE_INT32) status = VX_ERROR_INVALID_VALUE; vxReleaseScalar(&scalar); } else if (index == 6) { vx_scalar scalar = 0; vx_enum type = 0; vx_int32 value = 0; STATUS_ERROR_CHECK(vxQueryParameter(param, VX_PARAMETER_ATTRIBUTE_REF, &scalar, sizeof(scalar))); STATUS_ERROR_CHECK(vxQueryScalar(scalar, VX_SCALAR_ATTRIBUTE_TYPE, &type, sizeof(type))); STATUS_ERROR_CHECK(vxReadScalarValue(scalar, &value)); if (value < 0 || type != VX_TYPE_INT32) status = VX_ERROR_INVALID_VALUE; vxReleaseScalar(&scalar); } else if (index == 7) { vx_scalar scalar = 0; vx_enum type = 0; vx_bool value = vx_true_e; STATUS_ERROR_CHECK(vxQueryParameter(param, VX_PARAMETER_ATTRIBUTE_REF, &scalar, sizeof(scalar))); STATUS_ERROR_CHECK(vxQueryScalar(scalar, VX_SCALAR_ATTRIBUTE_TYPE, &type, sizeof(type))); STATUS_ERROR_CHECK(vxReadScalarValue(scalar, &value)); if ((value != vx_true_e && value != vx_false_e) || type != VX_TYPE_BOOL) status = VX_ERROR_INVALID_VALUE; vxReleaseScalar(&scalar); } else if (index == 8) { vx_scalar scalar = 0; vx_enum type = 0; vx_bool value = vx_true_e; STATUS_ERROR_CHECK(vxQueryParameter(param, VX_PARAMETER_ATTRIBUTE_REF, &scalar, sizeof(scalar))); STATUS_ERROR_CHECK(vxQueryScalar(scalar, VX_SCALAR_ATTRIBUTE_TYPE, &type, sizeof(type))); STATUS_ERROR_CHECK(vxReadScalarValue(scalar, &value)); if ((value != vx_true_e && value != vx_false_e) || type != VX_TYPE_BOOL) status = VX_ERROR_INVALID_VALUE; vxReleaseScalar(&scalar); } vxReleaseParameter(¶m); return status; } /*!*********************************************************************************************************** output parameter validator. *************************************************************************************************************/ static vx_status VX_CALLBACK CV_SURF_Compute_OutputValidator(vx_node node, vx_uint32 index, vx_meta_format meta) { vx_status status = VX_SUCCESS; if (index == 2) { vx_parameter output_param = vxGetParameterByIndex(node, 2); vx_array output; vx_size size = 0; STATUS_ERROR_CHECK(vxQueryParameter(output_param, VX_PARAMETER_ATTRIBUTE_REF, &output, sizeof(vx_array))); STATUS_ERROR_CHECK(vxQueryArray(output, VX_ARRAY_ATTRIBUTE_CAPACITY, &size, sizeof(size))); if (size <= 0) status = VX_ERROR_INVALID_VALUE; vxReleaseArray(&output); vxReleaseParameter(&output_param); } return status; } /*!*********************************************************************************************************** Execution Kernel *************************************************************************************************************/ static vx_status VX_CALLBACK CV_SURF_Compute_Kernel(vx_node node, const vx_reference *parameters, vx_uint32 num) { vx_status status = VX_SUCCESS; vx_image image_in = (vx_image) parameters[0]; vx_image mask = (vx_image) parameters[1]; vx_array array = (vx_array) parameters[2]; vx_array DESP = (vx_array) parameters[3]; vx_scalar hessianThreshold = (vx_scalar) parameters[4]; vx_scalar nOctaves = (vx_scalar) parameters[5]; vx_scalar nOctaveLayers = (vx_scalar) parameters[6]; vx_scalar EXTENDED = (vx_scalar) parameters[7]; vx_scalar UPRIGHT = (vx_scalar) parameters[8]; Mat *mat, *mask_mat, Img; vx_float32 FloatValue = 0; vx_int32 value = 0; vx_bool extend, upright, value_b; float HessianThreshold; int NOctaves, NOctaveLayers; //Extracting Values from the Scalar STATUS_ERROR_CHECK(vxReadScalarValue(hessianThreshold, &FloatValue)); HessianThreshold = FloatValue; STATUS_ERROR_CHECK(vxReadScalarValue(nOctaves, &value)); NOctaves = value; STATUS_ERROR_CHECK(vxReadScalarValue(nOctaveLayers, &value)); NOctaveLayers = value; STATUS_ERROR_CHECK(vxReadScalarValue(EXTENDED, &value_b)); extend = value_b; STATUS_ERROR_CHECK(vxReadScalarValue(UPRIGHT, &value_b)); upright = value_b; //Converting VX Image to OpenCV Mat STATUS_ERROR_CHECK(VX_to_CV_Image(&mat, image_in)); STATUS_ERROR_CHECK(VX_to_CV_Image(&mask_mat, mask)); //Compute using OpenCV bool extended_B, upright_b; if (extend == vx_true_e) extended_B = true; else extended_B = false; if (upright == vx_true_e) upright_b = true; else upright_b = false; vector key_points; Mat Desp; Ptr surf = xfeatures2d::SURF::create(HessianThreshold, NOctaves, NOctaveLayers); surf->detectAndCompute(*mat, *mask_mat, key_points, Desp); //Converting OpenCV Keypoints to OpenVX Keypoints STATUS_ERROR_CHECK(CV_to_VX_keypoints(key_points, array)); if (extend == 1) STATUS_ERROR_CHECK(CV_DESP_to_VX_DESP(Desp, DESP, 512)); if (extend != 1) STATUS_ERROR_CHECK(CV_DESP_to_VX_DESP(Desp, DESP, 256)); return status; } /************************************************************************************************************ Function to Register the Kernel for Publish *************************************************************************************************************/ vx_status CV_SURF_compute_Register(vx_context context) { vx_status status = VX_SUCCESS; vx_kernel Kernel = vxAddKernel(context, "org.opencv.surf_compute", VX_KERNEL_OPENCV_SURF_COMPUTE, CV_SURF_Compute_Kernel, 9, CV_SURF_Compute_InputValidator, CV_SURF_Compute_OutputValidator, nullptr, nullptr); if (Kernel) { PARAM_ERROR_CHECK(vxAddParameterToKernel(Kernel, 0, VX_INPUT, VX_TYPE_IMAGE, VX_PARAMETER_STATE_REQUIRED)); PARAM_ERROR_CHECK(vxAddParameterToKernel(Kernel, 1, VX_INPUT, VX_TYPE_IMAGE, VX_PARAMETER_STATE_REQUIRED)); PARAM_ERROR_CHECK(vxAddParameterToKernel(Kernel, 2, VX_BIDIRECTIONAL, VX_TYPE_ARRAY, VX_PARAMETER_STATE_REQUIRED)); PARAM_ERROR_CHECK(vxAddParameterToKernel(Kernel, 3, VX_BIDIRECTIONAL, VX_TYPE_ARRAY, VX_PARAMETER_STATE_REQUIRED)); PARAM_ERROR_CHECK(vxAddParameterToKernel(Kernel, 4, VX_INPUT, VX_TYPE_SCALAR, VX_PARAMETER_STATE_REQUIRED)); PARAM_ERROR_CHECK(vxAddParameterToKernel(Kernel, 5, VX_INPUT, VX_TYPE_SCALAR, VX_PARAMETER_STATE_REQUIRED)); PARAM_ERROR_CHECK(vxAddParameterToKernel(Kernel, 6, VX_INPUT, VX_TYPE_SCALAR, VX_PARAMETER_STATE_REQUIRED)); PARAM_ERROR_CHECK(vxAddParameterToKernel(Kernel, 7, VX_INPUT, VX_TYPE_SCALAR, VX_PARAMETER_STATE_REQUIRED)); PARAM_ERROR_CHECK(vxAddParameterToKernel(Kernel, 8, VX_INPUT, VX_TYPE_SCALAR, VX_PARAMETER_STATE_REQUIRED)); PARAM_ERROR_CHECK(vxFinalizeKernel(Kernel)); } if (status != VX_SUCCESS) { exit: vxRemoveKernel(Kernel); return VX_FAILURE; } return status; } #endif