/* * 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. * * * License Agreement * For Open Source Computer Vision Library * (3-clause BSD License) * * Copyright (C) 2016, NVIDIA 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: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * * Redistributions 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. * * * Neither the names of the copyright holders nor the names of the contributors * may 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 copyright holders 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. */ #ifndef _tegra_hal_H_INCLUDED_ #define _tegra_hal_H_INCLUDED_ #define CAROTENE_NS carotene_o4t #include "carotene/functions.hpp" #include #include #include #include #define RANGE_DATA(type, base, step) reinterpret_cast(const_cast(reinterpret_cast(base)) + static_cast(range.start) * step) #define PARALLEL_CORE 0 #if PARALLEL_CORE #define SRC_ARG1 ST * src1_data_, size_t src1_step_, #define SRC_STORE1 src1_data(src1_data_), src1_step(src1_step_), #define SRC_VAR1 ST * src1_data; \ size_t src1_step; #define SRC_ARG2 ST * src1_data_, size_t src1_step_, \ ST * src2_data_, size_t src2_step_, #define SRC_STORE2 src1_data(src1_data_), src1_step(src1_step_), \ src2_data(src2_data_), src2_step(src2_step_), #define SRC_VAR2 ST * src1_data; \ size_t src1_step; \ ST * src2_data; \ size_t src2_step; #define DST_ARG1 DT * dst1_data_, size_t dst1_step_, #define DST_STORE1 dst1_data(dst1_data_), dst1_step(dst1_step_), #define DST_VAR1 DT * dst1_data; \ size_t dst1_step; #define SCALE_ARG0 #define SCALE_STORE0 #define SCALE_VAR0 #define SCALE_ARG1 , double scale_ #define SCALE_STORE1 , scale(scale_) #define SCALE_VAR1 double scale; #define SCALE_ARG3 , const double *scales_ #define SCALE_STORE3 , scales(scales_, scales_ + 3) #define SCALE_VAR3 std::vector scales; #define TegraGenOp_Invoker(name, func, src_cnt, dst_cnt, scale_cnt, ...) \ template \ class TegraGenOp_##name##_Invoker : public cv::ParallelLoopBody \ { \ public: \ TegraGenOp_##name##_Invoker(SRC_ARG##src_cnt \ DST_ARG##dst_cnt \ int width_, int height_ \ SCALE_ARG##scale_cnt) : \ cv::ParallelLoopBody(), SRC_STORE##src_cnt \ DST_STORE##dst_cnt \ width(width_), height(height_) \ SCALE_STORE##scale_cnt {} \ virtual void operator()(const cv::Range& range) const \ { \ CAROTENE_NS::func(CAROTENE_NS::Size2D(width, range.end-range.start), __VA_ARGS__); \ } \ private: \ SRC_VAR##src_cnt \ DST_VAR##dst_cnt \ int width, height; \ SCALE_VAR##scale_cnt \ const TegraGenOp_##name##_Invoker& operator= (const TegraGenOp_##name##_Invoker&); \ }; #define TegraBinaryOp_Invoker(name, func) TegraGenOp_Invoker(name, func, 2, 1, 0, \ RANGE_DATA(ST, src1_data, src1_step), src1_step, \ RANGE_DATA(ST, src2_data, src2_step), src2_step, \ RANGE_DATA(DT, dst1_data, dst1_step), dst1_step ) #define TegraBinaryOp_InvokerVAArg(name, func, ...) TegraGenOp_Invoker(name, func, 2, 1, 0, \ RANGE_DATA(ST, src1_data, src1_step), src1_step, \ RANGE_DATA(ST, src2_data, src2_step), src2_step, \ RANGE_DATA(DT, dst1_data, dst1_step), dst1_step, __VA_ARGS__) #define TEGRA_BINARYOP(type, op, src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ parallel_for_(Range(0, h), \ TegraGenOp_##op##_Invoker(src1, sz1, src2, sz2, dst, sz, w, h), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraBinaryOp_InvokerVAArg(add, add, CAROTENE_NS::CONVERT_POLICY_SATURATE) /*Original addition use saturated operator, so use the same from CAROTENE*/ TegraBinaryOp_Invoker(addf, add) TegraBinaryOp_InvokerVAArg(sub, sub, CAROTENE_NS::CONVERT_POLICY_SATURATE) /*Original addition use saturated operator, so use the same from CAROTENE*/ TegraBinaryOp_Invoker(subf, sub) TegraBinaryOp_Invoker(max, max) TegraBinaryOp_Invoker(min, min) TegraBinaryOp_Invoker(absDiff, absDiff) TegraBinaryOp_Invoker(bitwiseAnd, bitwiseAnd) TegraBinaryOp_Invoker(bitwiseOr, bitwiseOr) TegraBinaryOp_Invoker(bitwiseXor, bitwiseXor) #define TegraUnaryOp_Invoker(name, func) TegraGenOp_Invoker(name, func, 1, 1, 0, \ RANGE_DATA(ST, src1_data, src1_step), src1_step, \ RANGE_DATA(DT, dst1_data, dst1_step), dst1_step ) TegraUnaryOp_Invoker(bitwiseNot, bitwiseNot) #define TEGRA_UNARYOP(type, op, src1, sz1, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ parallel_for_(Range(0, h), \ TegraGenOp_##op##_Invoker(src1, sz1, dst, sz, w, h), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_add8u #define cv_hal_add8u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u8, add, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_add8s #define cv_hal_add8s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s8, add, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_add16u #define cv_hal_add16u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u16, add, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_add16s #define cv_hal_add16s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s16, add, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_add32s #define cv_hal_add32s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s32, add, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_add32f #define cv_hal_add32f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f32, addf, src1, sz1, src2, sz2, dst, sz, w, h) //#undef cv_hal_add64f //#define cv_hal_add64f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f64, addf, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_sub8u #define cv_hal_sub8u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u8, sub, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_sub8s #define cv_hal_sub8s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s8, sub, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_sub16u #define cv_hal_sub16u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u16, sub, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_sub16s #define cv_hal_sub16s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s16, sub, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_sub32s #define cv_hal_sub32s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s32, sub, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_sub32f #define cv_hal_sub32f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f32, subf, src1, sz1, src2, sz2, dst, sz, w, h) //#undef cv_hal_sub64f //#define cv_hal_sub64f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f64, subf, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_max8u #define cv_hal_max8u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u8, max, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_max8s #define cv_hal_max8s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s8, max, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_max16u #define cv_hal_max16u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u16, max, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_max16s #define cv_hal_max16s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s16, max, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_max32s #define cv_hal_max32s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s32, max, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_max32f #define cv_hal_max32f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f32, max, src1, sz1, src2, sz2, dst, sz, w, h) //#undef cv_hal_max64f //#define cv_hal_max64f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f64, max, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_min8u #define cv_hal_min8u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u8, min, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_min8s #define cv_hal_min8s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s8, min, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_min16u #define cv_hal_min16u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u16, min, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_min16s #define cv_hal_min16s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s16, min, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_min32s #define cv_hal_min32s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s32, min, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_min32f #define cv_hal_min32f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f32, min, src1, sz1, src2, sz2, dst, sz, w, h) //#undef cv_hal_min64f //#define cv_hal_min64f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f64, min, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_absdiff8u #define cv_hal_absdiff8u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u8, absDiff, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_absdiff8s #define cv_hal_absdiff8s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s8, absDiff, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_absdiff16u #define cv_hal_absdiff16u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u16, absDiff, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_absdiff16s #define cv_hal_absdiff16s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s16, absDiff, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_absdiff32s #define cv_hal_absdiff32s(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::s32, absDiff, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_absdiff32f #define cv_hal_absdiff32f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f32, absDiff, src1, sz1, src2, sz2, dst, sz, w, h) //#undef cv_hal_absdiff64f //#define cv_hal_absdiff64f(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::f64, absDiff, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_and8u #define cv_hal_and8u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u8, bitwiseAnd, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_or8u #define cv_hal_or8u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u8, bitwiseOr, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_xor8u #define cv_hal_xor8u(src1, sz1, src2, sz2, dst, sz, w, h) TEGRA_BINARYOP(CAROTENE_NS::u8, bitwiseXor, src1, sz1, src2, sz2, dst, sz, w, h) #undef cv_hal_not8u #define cv_hal_not8u(src1, sz1, dst, sz, w, h) TEGRA_UNARYOP(CAROTENE_NS::u8, bitwiseNot, src1, sz1, dst, sz, w, h) TegraBinaryOp_Invoker(cmpEQ, cmpEQ) TegraBinaryOp_Invoker(cmpNE, cmpNE) TegraBinaryOp_Invoker(cmpGT, cmpGT) TegraBinaryOp_Invoker(cmpGE, cmpGE) TegraGenOp_Invoker(cmpLT, cmpGT, 2, 1, 0, RANGE_DATA(ST, src2_data, src2_step), src2_step, \ RANGE_DATA(ST, src1_data, src1_step), src1_step, \ RANGE_DATA(DT, dst1_data, dst1_step), dst1_step) TegraGenOp_Invoker(cmpLE, cmpGE, 2, 1, 0, RANGE_DATA(ST, src2_data, src2_step), src2_step, \ RANGE_DATA(ST, src1_data, src1_step), src1_step, \ RANGE_DATA(DT, dst1_data, dst1_step), dst1_step) #define TEGRA_CMP(type, src1, sz1, src2, sz2, dst, sz, w, h, op) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ ((op) == cv::CMP_EQ) ? \ parallel_for_(Range(0, h), \ TegraGenOp_cmpEQ_Invoker(src1, sz1, src2, sz2, dst, sz, w, h), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_NE) ? \ parallel_for_(Range(0, h), \ TegraGenOp_cmpNE_Invoker(src1, sz1, src2, sz2, dst, sz, w, h), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_GT) ? \ parallel_for_(Range(0, h), \ TegraGenOp_cmpGT_Invoker(src1, sz1, src2, sz2, dst, sz, w, h), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_GE) ? \ parallel_for_(Range(0, h), \ TegraGenOp_cmpGE_Invoker(src1, sz1, src2, sz2, dst, sz, w, h), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_LT) ? \ parallel_for_(Range(0, h), \ TegraGenOp_cmpLT_Invoker(src1, sz1, src2, sz2, dst, sz, w, h), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_LE) ? \ parallel_for_(Range(0, h), \ TegraGenOp_cmpLE_Invoker(src1, sz1, src2, sz2, dst, sz, w, h), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_cmp8u #define cv_hal_cmp8u(src1, sz1, src2, sz2, dst, sz, w, h, op) TEGRA_CMP(CAROTENE_NS::u8, src1, sz1, src2, sz2, dst, sz, w, h, op) #undef cv_hal_cmp8s #define cv_hal_cmp8s(src1, sz1, src2, sz2, dst, sz, w, h, op) TEGRA_CMP(CAROTENE_NS::s8, src1, sz1, src2, sz2, dst, sz, w, h, op) #undef cv_hal_cmp16u #define cv_hal_cmp16u(src1, sz1, src2, sz2, dst, sz, w, h, op) TEGRA_CMP(CAROTENE_NS::u16, src1, sz1, src2, sz2, dst, sz, w, h, op) #undef cv_hal_cmp16s #define cv_hal_cmp16s(src1, sz1, src2, sz2, dst, sz, w, h, op) TEGRA_CMP(CAROTENE_NS::s16, src1, sz1, src2, sz2, dst, sz, w, h, op) #undef cv_hal_cmp32s #define cv_hal_cmp32s(src1, sz1, src2, sz2, dst, sz, w, h, op) TEGRA_CMP(CAROTENE_NS::s32, src1, sz1, src2, sz2, dst, sz, w, h, op) #undef cv_hal_cmp32f #define cv_hal_cmp32f(src1, sz1, src2, sz2, dst, sz, w, h, op) TEGRA_CMP(CAROTENE_NS::f32, src1, sz1, src2, sz2, dst, sz, w, h, op) //#undef cv_hal_cmp64f //#define cv_hal_cmp64f(src1, sz1, src2, sz2, dst, sz, w, h, op) TEGRA_CMP(CAROTENE_NS::f64, src1, sz1, src2, sz2, dst, sz, w, h, op) #define TegraBinaryOpScale_Invoker(name, func, scale_cnt, ...) TegraGenOp_Invoker(name, func, 2, 1, scale_cnt, \ RANGE_DATA(ST, src1_data, src1_step), src1_step, \ RANGE_DATA(ST, src2_data, src2_step), src2_step, \ RANGE_DATA(DT, dst1_data, dst1_step), dst1_step, __VA_ARGS__) #define TEGRA_BINARYOPSCALE(type, op, src1, sz1, src2, sz2, dst, sz, w, h, scales) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ parallel_for_(Range(0, h), \ TegraGenOp_##op##_Invoker(src1, sz1, src2, sz2, dst, sz, w, h, scales), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraBinaryOpScale_Invoker(mul, mul, 1, scale, CAROTENE_NS::CONVERT_POLICY_SATURATE) TegraBinaryOpScale_Invoker(mulf, mul, 1, scale) TegraBinaryOpScale_Invoker(div, div, 1, scale, CAROTENE_NS::CONVERT_POLICY_SATURATE) TegraBinaryOpScale_Invoker(divf, div, 1, scale) #define TegraUnaryOpScale_Invoker(name, func, scale_cnt, ...) TegraGenOp_Invoker(name, func, 1, 1, scale_cnt, \ RANGE_DATA(ST, src1_data, src1_step), src1_step, \ RANGE_DATA(DT, dst1_data, dst1_step), dst1_step, __VA_ARGS__) #define TEGRA_UNARYOPSCALE(type, op, src1, sz1, dst, sz, w, h, scales) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ parallel_for_(Range(0, h), \ TegraGenOp_##op##_Invoker(src1, sz1, dst, sz, w, h, scales), \ (w * h) / static_cast(1<<16)), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraUnaryOpScale_Invoker(recip, reciprocal, 1, scale, CAROTENE_NS::CONVERT_POLICY_SATURATE) TegraUnaryOpScale_Invoker(recipf, reciprocal, 1, scale) #undef cv_hal_mul8u #define cv_hal_mul8u(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::u8, mul, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_mul8s #define cv_hal_mul8s(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::s8, mul, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_mul16u #define cv_hal_mul16u(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::u16, mul, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_mul16s #define cv_hal_mul16s(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::s16, mul, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_mul32s #define cv_hal_mul32s(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::s32, mul, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_mul32f #define cv_hal_mul32f(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::f32, mulf, src1, sz1, src2, sz2, dst, sz, w, h, scales) //#undef cv_hal_mul64f //#define cv_hal_mul64f(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::f64, mulf, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_div8u #define cv_hal_div8u(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::u8, div, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_div8s #define cv_hal_div8s(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::s8, div, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_div16u #define cv_hal_div16u(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::u16, div, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_div16s #define cv_hal_div16s(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::s16, div, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_div32s #define cv_hal_div32s(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::s32, div, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_div32f #define cv_hal_div32f(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::f32, divf, src1, sz1, src2, sz2, dst, sz, w, h, scales) //#undef cv_hal_div64f //#define cv_hal_div64f(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::f64, divf, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_recip8u #define cv_hal_recip8u(src1, sz1, dst, sz, w, h, scales) TEGRA_UNARYOPSCALE(CAROTENE_NS::u8, recip, src1, sz1, dst, sz, w, h, scales) #undef cv_hal_recip8s #define cv_hal_recip8s(src1, sz1, dst, sz, w, h, scales) TEGRA_UNARYOPSCALE(CAROTENE_NS::s8, recip, src1, sz1, dst, sz, w, h, scales) #undef cv_hal_recip16u #define cv_hal_recip16u(src1, sz1, dst, sz, w, h, scales) TEGRA_UNARYOPSCALE(CAROTENE_NS::u16, recip, src1, sz1, dst, sz, w, h, scales) #undef cv_hal_recip16s #define cv_hal_recip16s(src1, sz1, dst, sz, w, h, scales) TEGRA_UNARYOPSCALE(CAROTENE_NS::s16, recip, src1, sz1, dst, sz, w, h, scales) #undef cv_hal_recip32s #define cv_hal_recip32s(src1, sz1, dst, sz, w, h, scales) TEGRA_UNARYOPSCALE(CAROTENE_NS::s32, recip, src1, sz1, dst, sz, w, h, scales) #undef cv_hal_recip32f #define cv_hal_recip32f(src1, sz1, dst, sz, w, h, scales) TEGRA_UNARYOPSCALE(CAROTENE_NS::f32, recipf, src1, sz1, dst, sz, w, h, scales) //#undef cv_hal_recip64f //#define cv_hal_recip64f(src1, sz1, dst, sz, w, h, scales) TEGRA_UNARYOPSCALE(CAROTENE_NS::f64, recipf, src1, sz1, dst, sz, w, h, scales) TegraBinaryOpScale_Invoker(addWeighted, addWeighted, 3, scales[0], scales[1], scales[2]) #undef cv_hal_addWeighted8u #define cv_hal_addWeighted8u(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::u8, addWeighted, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_addWeighted8s #define cv_hal_addWeighted8s(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::s8, addWeighted, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_addWeighted16u #define cv_hal_addWeighted16u(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::u16, addWeighted, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_addWeighted16s #define cv_hal_addWeighted16s(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::s16, addWeighted, src1, sz1, src2, sz2, dst, sz, w, h, scales) #undef cv_hal_addWeighted32s #define cv_hal_addWeighted32s(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::s32, addWeighted, src1, sz1, src2, sz2, dst, sz, w, h, scales) //#undef cv_hal_addWeighted32f //#define cv_hal_addWeighted32f(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::f32, addWeighted, src1, sz1, src2, sz2, dst, sz, w, h, scales) //#undef cv_hal_addWeighted64f //#define cv_hal_addWeighted64f(src1, sz1, src2, sz2, dst, sz, w, h, scales) TEGRA_BINARYOPSCALE(CAROTENE_NS::f64, addWeighted, src1, sz1, src2, sz2, dst, sz, w, h, scales) #else #define TEGRA_ADD(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::add(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz, \ CAROTENE_NS::CONVERT_POLICY_SATURATE), /*Original addition use saturated operator*/ \ /*so use the same from CAROTENE*/ \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_ADDF(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::add(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_SUB(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::sub(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz, \ CAROTENE_NS::CONVERT_POLICY_SATURATE), /*Original addition use saturated operator*/ \ /*so use the same from CAROTENE*/ \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_SUBF(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::sub(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_MAX(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::max(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_MIN(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::min(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_ABSDIFF(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::absDiff(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_AND(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::bitwiseAnd(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_OR(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::bitwiseOr(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_XOR(src1, sz1, src2, sz2, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::bitwiseXor(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_NOT(src1, sz1, dst, sz, w, h) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::bitwiseNot(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ dst, sz), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_add8u #define cv_hal_add8u TEGRA_ADD #undef cv_hal_add8s #define cv_hal_add8s TEGRA_ADD #undef cv_hal_add16u #define cv_hal_add16u TEGRA_ADD #undef cv_hal_add16s #define cv_hal_add16s TEGRA_ADD #undef cv_hal_add32s #define cv_hal_add32s TEGRA_ADD #undef cv_hal_add32f #define cv_hal_add32f TEGRA_ADDF //#undef cv_hal_add64f //#define cv_hal_add64f TEGRA_ADDF #undef cv_hal_sub8u #define cv_hal_sub8u TEGRA_SUB #undef cv_hal_sub8s #define cv_hal_sub8s TEGRA_SUB #undef cv_hal_sub16u #define cv_hal_sub16u TEGRA_SUB #undef cv_hal_sub16s #define cv_hal_sub16s TEGRA_SUB #undef cv_hal_sub32s #define cv_hal_sub32s TEGRA_SUB #undef cv_hal_sub32f #define cv_hal_sub32f TEGRA_SUBF //#undef cv_hal_sub64f //#define cv_hal_sub64f TEGRA_SUBF #undef cv_hal_max8u #define cv_hal_max8u TEGRA_MAX #undef cv_hal_max8s #define cv_hal_max8s TEGRA_MAX #undef cv_hal_max16u #define cv_hal_max16u TEGRA_MAX #undef cv_hal_max16s #define cv_hal_max16s TEGRA_MAX #undef cv_hal_max32s #define cv_hal_max32s TEGRA_MAX #undef cv_hal_max32f #define cv_hal_max32f TEGRA_MAX //#undef cv_hal_max64f //#define cv_hal_max64f TEGRA_MAX #undef cv_hal_min8u #define cv_hal_min8u TEGRA_MIN #undef cv_hal_min8s #define cv_hal_min8s TEGRA_MIN #undef cv_hal_min16u #define cv_hal_min16u TEGRA_MIN #undef cv_hal_min16s #define cv_hal_min16s TEGRA_MIN #undef cv_hal_min32s #define cv_hal_min32s TEGRA_MIN #undef cv_hal_min32f #define cv_hal_min32f TEGRA_MIN //#undef cv_hal_min64f //#define cv_hal_min64f TEGRA_MIN #undef cv_hal_absdiff8u #define cv_hal_absdiff8u TEGRA_ABSDIFF #undef cv_hal_absdiff8s #define cv_hal_absdiff8s TEGRA_ABSDIFF #undef cv_hal_absdiff16u #define cv_hal_absdiff16u TEGRA_ABSDIFF #undef cv_hal_absdiff16s #define cv_hal_absdiff16s TEGRA_ABSDIFF #undef cv_hal_absdiff32s #define cv_hal_absdiff32s TEGRA_ABSDIFF #undef cv_hal_absdiff32f #define cv_hal_absdiff32f TEGRA_ABSDIFF //#undef cv_hal_absdiff64f //#define cv_hal_absdiff64f TEGRA_ABSDIFF #undef cv_hal_and8u #define cv_hal_and8u TEGRA_AND #undef cv_hal_or8u #define cv_hal_or8u TEGRA_OR #undef cv_hal_xor8u #define cv_hal_xor8u TEGRA_XOR #undef cv_hal_not8u #define cv_hal_not8u TEGRA_NOT #define TEGRA_CMP(src1, sz1, src2, sz2, dst, sz, w, h, op) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ ((op) == cv::CMP_EQ) ? \ CAROTENE_NS::cmpEQ(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_NE) ? \ CAROTENE_NS::cmpNE(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_GT) ? \ CAROTENE_NS::cmpGT(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_GE) ? \ CAROTENE_NS::cmpGE(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_LT) ? \ CAROTENE_NS::cmpGT(CAROTENE_NS::Size2D(w, h), \ src2, sz2, \ src1, sz1, \ dst, sz), \ CV_HAL_ERROR_OK : \ ((op) == cv::CMP_LE) ? \ CAROTENE_NS::cmpGE(CAROTENE_NS::Size2D(w, h), \ src2, sz2, \ src1, sz1, \ dst, sz), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_cmp8u #define cv_hal_cmp8u TEGRA_CMP #undef cv_hal_cmp8s #define cv_hal_cmp8s TEGRA_CMP #undef cv_hal_cmp16u #define cv_hal_cmp16u TEGRA_CMP #undef cv_hal_cmp16s #define cv_hal_cmp16s TEGRA_CMP #undef cv_hal_cmp32s #define cv_hal_cmp32s TEGRA_CMP #undef cv_hal_cmp32f #define cv_hal_cmp32f TEGRA_CMP //#undef cv_hal_cmp64f //#define cv_hal_cmp64f TEGRA_CMP #define TEGRA_MUL(src1, sz1, src2, sz2, dst, sz, w, h, scale) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::mul(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz, \ scale, \ CAROTENE_NS::CONVERT_POLICY_SATURATE), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_MULF(src1, sz1, src2, sz2, dst, sz, w, h, scale) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::mul(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz, \ (float)scale), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_DIV(src1, sz1, src2, sz2, dst, sz, w, h, scale) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::div(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz, \ scale, \ CAROTENE_NS::CONVERT_POLICY_SATURATE), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_DIVF(src1, sz1, src2, sz2, dst, sz, w, h, scale) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::div(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz, \ (float)scale), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_RECIP(src2, sz2, dst, sz, w, h, scale) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::reciprocal(CAROTENE_NS::Size2D(w, h), \ src2, sz2, \ dst, sz, \ scale, \ CAROTENE_NS::CONVERT_POLICY_SATURATE), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_RECIPF(src2, sz2, dst, sz, w, h, scale) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::reciprocal(CAROTENE_NS::Size2D(w, h), \ src2, sz2, \ dst, sz, \ (float)scale), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_mul8u #define cv_hal_mul8u TEGRA_MUL #undef cv_hal_mul8s #define cv_hal_mul8s TEGRA_MUL #undef cv_hal_mul16u #define cv_hal_mul16u TEGRA_MUL #undef cv_hal_mul16s #define cv_hal_mul16s TEGRA_MUL #undef cv_hal_mul32s #define cv_hal_mul32s TEGRA_MUL #undef cv_hal_mul32f #define cv_hal_mul32f TEGRA_MULF //#undef cv_hal_mul64f //#define cv_hal_mul64f TEGRA_MULF #undef cv_hal_div8u #define cv_hal_div8u TEGRA_DIV #undef cv_hal_div8s #define cv_hal_div8s TEGRA_DIV #undef cv_hal_div16u #define cv_hal_div16u TEGRA_DIV #undef cv_hal_div16s #define cv_hal_div16s TEGRA_DIV #undef cv_hal_div32s #define cv_hal_div32s TEGRA_DIV #undef cv_hal_div32f #define cv_hal_div32f TEGRA_DIVF //#undef cv_hal_div64f //#define cv_hal_div64f TEGRA_DIVF #undef cv_hal_recip8u #define cv_hal_recip8u TEGRA_RECIP #undef cv_hal_recip8s #define cv_hal_recip8s TEGRA_RECIP #undef cv_hal_recip16u #define cv_hal_recip16u TEGRA_RECIP #undef cv_hal_recip16s #define cv_hal_recip16s TEGRA_RECIP #undef cv_hal_recip32s #define cv_hal_recip32s TEGRA_RECIP #undef cv_hal_recip32f #define cv_hal_recip32f TEGRA_RECIPF //#undef cv_hal_recip64f //#define cv_hal_recip64f TEGRA_RECIPF #define TEGRA_ADDWEIGHTED(src1, sz1, src2, sz2, dst, sz, w, h, scales) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ CAROTENE_NS::addWeighted(CAROTENE_NS::Size2D(w, h), \ src1, sz1, \ src2, sz2, \ dst, sz, \ ((double *)scales)[0], ((double *)scales)[1], ((double *)scales)[2]), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_addWeighted8u #define cv_hal_addWeighted8u TEGRA_ADDWEIGHTED #undef cv_hal_addWeighted8s #define cv_hal_addWeighted8s TEGRA_ADDWEIGHTED #undef cv_hal_addWeighted16u #define cv_hal_addWeighted16u TEGRA_ADDWEIGHTED #undef cv_hal_addWeighted16s #define cv_hal_addWeighted16s TEGRA_ADDWEIGHTED #undef cv_hal_addWeighted32s #define cv_hal_addWeighted32s TEGRA_ADDWEIGHTED //#undef cv_hal_addWeighted32f //#define cv_hal_addWeighted32f TEGRA_ADDWEIGHTED //#undef cv_hal_addWeighted64f //#define cv_hal_addWeighted64f TEGRA_ADDWEIGHTED #endif //PARALLEL_CORE #define ROW_SRC_ARG1 const ST * src1_data_ #define ROW_SRC_STORE1 , src1_data(src1_data_) #define ROW_SRC_VAR1 const ST * src1_data; #define ROW_SRC_ARG2 ROW_SRC_ARG1 \ , const ST * src2_data_ #define ROW_SRC_STORE2 ROW_SRC_STORE1 \ , src2_data(src2_data_) #define ROW_SRC_VAR2 ROW_SRC_VAR1 \ const ST * src2_data; #define ROW_SRC_ARG3 ROW_SRC_ARG2 \ , const ST * src3_data_ #define ROW_SRC_STORE3 ROW_SRC_STORE2 \ , src3_data(src3_data_) #define ROW_SRC_VAR3 ROW_SRC_VAR2 \ const ST * src3_data; #define ROW_SRC_ARG4 ROW_SRC_ARG3 \ , const ST * src4_data_ #define ROW_SRC_STORE4 ROW_SRC_STORE3 \ , src4_data(src4_data_) #define ROW_SRC_VAR4 ROW_SRC_VAR3 \ const ST * src4_data; #define ROW_DST_ARG1 , DT * dst1_data_ #define ROW_DST_STORE1 , dst1_data(dst1_data_) #define ROW_DST_VAR1 DT * dst1_data; #define ROW_DST_ARG2 ROW_DST_ARG1 \ , DT * dst2_data_ #define ROW_DST_STORE2 ROW_DST_STORE1 \ , dst2_data(dst2_data_) #define ROW_DST_VAR2 ROW_DST_VAR1 \ DT * dst2_data; #define ROW_DST_ARG3 ROW_DST_ARG2 \ , DT * dst3_data_ #define ROW_DST_STORE3 ROW_DST_STORE2 \ , dst3_data(dst3_data_) #define ROW_DST_VAR3 ROW_DST_VAR2 \ DT * dst3_data; #define ROW_DST_ARG4 ROW_DST_ARG3 \ , DT * dst4_data_ #define ROW_DST_STORE4 ROW_DST_STORE3 \ , dst4_data(dst4_data_) #define ROW_DST_VAR4 ROW_DST_VAR3 \ DT * dst4_data; #define ROW_VAL_ARG0 #define ROW_VAL_STORE0 #define ROW_VAL_VAR0 #define ROW_VAL_ARG1 , double val_ #define ROW_VAL_STORE1 , val(val_) #define ROW_VAL_VAR1 double val; #define TegraRowOp_Invoker(name, func, src_cnt, dst_cnt, val_cnt, ...) \ template \ class TegraRowOp_##name##_Invoker : public cv::ParallelLoopBody \ { \ public: \ TegraRowOp_##name##_Invoker(ROW_SRC_ARG##src_cnt \ ROW_DST_ARG##dst_cnt \ ROW_VAL_ARG##val_cnt) : \ cv::ParallelLoopBody() ROW_SRC_STORE##src_cnt \ ROW_DST_STORE##dst_cnt \ ROW_VAL_STORE##val_cnt {} \ virtual void operator()(const cv::Range& range) const \ { \ CAROTENE_NS::func(CAROTENE_NS::Size2D(range.end-range.start, 1), __VA_ARGS__); \ } \ private: \ ROW_SRC_VAR##src_cnt \ ROW_DST_VAR##dst_cnt \ ROW_VAL_VAR##val_cnt \ const TegraRowOp_##name##_Invoker& operator= (const TegraRowOp_##name##_Invoker&); \ }; #define TEGRA_SPLIT(src, dst, len, cn) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ cn == 2 ? \ CAROTENE_NS::split2(CAROTENE_NS::Size2D(len, 1), \ src, len, \ dst[0], len, \ dst[1], len), \ CV_HAL_ERROR_OK : \ cn == 3 ? \ CAROTENE_NS::split3(CAROTENE_NS::Size2D(len, 1), \ src, len, \ dst[0], len, \ dst[1], len, \ dst[2], len), \ CV_HAL_ERROR_OK : \ cn == 4 ? \ CAROTENE_NS::split4(CAROTENE_NS::Size2D(len, 1), \ src, len, \ dst[0], len, \ dst[1], len, \ dst[2], len, \ dst[3], len), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraRowOp_Invoker(split2, split2, 1, 2, 0, RANGE_DATA(ST, src1_data, 2*sizeof(ST)), range.end-range.start, RANGE_DATA(DT, dst1_data, sizeof(DT)), range.end-range.start, RANGE_DATA(DT, dst2_data, sizeof(DT)), range.end-range.start) TegraRowOp_Invoker(split3, split3, 1, 3, 0, RANGE_DATA(ST, src1_data, 3*sizeof(ST)), range.end-range.start, RANGE_DATA(DT, dst1_data, sizeof(DT)), range.end-range.start, RANGE_DATA(DT, dst2_data, sizeof(DT)), range.end-range.start, RANGE_DATA(DT, dst3_data, sizeof(DT)), range.end-range.start) TegraRowOp_Invoker(split4, split4, 1, 4, 0, RANGE_DATA(ST, src1_data, 4*sizeof(ST)), range.end-range.start, RANGE_DATA(DT, dst1_data, sizeof(DT)), range.end-range.start, RANGE_DATA(DT, dst2_data, sizeof(DT)), range.end-range.start, RANGE_DATA(DT, dst3_data, sizeof(DT)), range.end-range.start, RANGE_DATA(DT, dst4_data, sizeof(DT)), range.end-range.start) #define TEGRA_SPLIT64S(type, src, dst, len, cn) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ cn == 2 ? \ parallel_for_(Range(0, len), \ TegraRowOp_split2_Invoker(src, dst[0], dst[1]), \ (len) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ cn == 3 ? \ parallel_for_(Range(0, len), \ TegraRowOp_split3_Invoker(src, dst[0], dst[1], dst[2]), \ (len) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ cn == 4 ? \ parallel_for_(Range(0, len), \ TegraRowOp_split4_Invoker(src, dst[0], dst[1], dst[2], dst[3]), \ (len) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_MERGE(src, dst, len, cn) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ cn == 2 ? \ CAROTENE_NS::combine2(CAROTENE_NS::Size2D(len, 1), \ src[0], len, \ src[1], len, \ dst, len), \ CV_HAL_ERROR_OK : \ cn == 3 ? \ CAROTENE_NS::combine3(CAROTENE_NS::Size2D(len, 1), \ src[0], len, \ src[1], len, \ src[2], len, \ dst, len), \ CV_HAL_ERROR_OK : \ cn == 4 ? \ CAROTENE_NS::combine4(CAROTENE_NS::Size2D(len, 1), \ src[0], len, \ src[1], len, \ src[2], len, \ src[3], len, \ dst, len), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraRowOp_Invoker(combine2, combine2, 2, 1, 0, RANGE_DATA(ST, src1_data, sizeof(ST)), range.end-range.start, RANGE_DATA(ST, src2_data, sizeof(ST)), range.end-range.start, RANGE_DATA(DT, dst1_data, 2*sizeof(DT)), range.end-range.start) TegraRowOp_Invoker(combine3, combine3, 3, 1, 0, RANGE_DATA(ST, src1_data, sizeof(ST)), range.end-range.start, RANGE_DATA(ST, src2_data, sizeof(ST)), range.end-range.start, RANGE_DATA(ST, src3_data, sizeof(ST)), range.end-range.start, RANGE_DATA(DT, dst1_data, 3*sizeof(DT)), range.end-range.start) TegraRowOp_Invoker(combine4, combine4, 4, 1, 0, RANGE_DATA(ST, src1_data, sizeof(ST)), range.end-range.start, RANGE_DATA(ST, src2_data, sizeof(ST)), range.end-range.start, RANGE_DATA(ST, src3_data, sizeof(ST)), range.end-range.start, RANGE_DATA(ST, src4_data, sizeof(ST)), range.end-range.start, RANGE_DATA(DT, dst1_data, 4*sizeof(DT)), range.end-range.start) #define TEGRA_MERGE64S(type, src, dst, len, cn) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ cn == 2 ? \ parallel_for_(Range(0, len), \ TegraRowOp_combine2_Invoker(src[0], src[1], dst), \ (len) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ cn == 3 ? \ parallel_for_(Range(0, len), \ TegraRowOp_combine3_Invoker(src[0], src[1], src[2], dst), \ (len) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ cn == 4 ? \ parallel_for_(Range(0, len), \ TegraRowOp_combine4_Invoker(src[0], src[1], src[2], src[3], dst), \ (len) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_split8u #define cv_hal_split8u TEGRA_SPLIT #undef cv_hal_split16u #define cv_hal_split16u TEGRA_SPLIT #undef cv_hal_split32s #define cv_hal_split32s TEGRA_SPLIT #undef cv_hal_split64s #define cv_hal_split64s(src, dst, len, cn) TEGRA_SPLIT64S(CAROTENE_NS::s64, src, dst, len, cn) #undef cv_hal_merge8u #define cv_hal_merge8u TEGRA_MERGE #undef cv_hal_merge16u #define cv_hal_merge16u TEGRA_MERGE #undef cv_hal_merge32s #define cv_hal_merge32s TEGRA_MERGE #undef cv_hal_merge64s #define cv_hal_merge64s(src, dst, len, cn) TEGRA_MERGE64S(CAROTENE_NS::s64, src, dst, len, cn) TegraRowOp_Invoker(phase, phase, 2, 1, 1, RANGE_DATA(ST, src1_data, sizeof(CAROTENE_NS::f32)), range.end-range.start, RANGE_DATA(ST, src2_data, sizeof(CAROTENE_NS::f32)), range.end-range.start, RANGE_DATA(DT, dst1_data, sizeof(CAROTENE_NS::f32)), range.end-range.start, val) #define TEGRA_FASTATAN(y, x, dst, len, angleInDegrees) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ parallel_for_(Range(0, len), \ TegraRowOp_phase_Invoker(x, y, dst, angleInDegrees ? 1.0f : M_PI/180), \ (len) / static_cast(1<<16)), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_fastAtan32f #define cv_hal_fastAtan32f TEGRA_FASTATAN TegraRowOp_Invoker(magnitude, magnitude, 2, 1, 0, RANGE_DATA(ST, src1_data, sizeof(CAROTENE_NS::f32)), range.end-range.start, RANGE_DATA(ST, src2_data, sizeof(CAROTENE_NS::f32)), range.end-range.start, RANGE_DATA(DT, dst1_data, sizeof(CAROTENE_NS::f32)), range.end-range.start) #define TEGRA_MAGNITUDE(x, y, dst, len) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ parallel_for_(Range(0, len), \ TegraRowOp_magnitude_Invoker(x, y, dst), \ (len) / static_cast(1<<16)), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_magnitude32f #define cv_hal_magnitude32f TEGRA_MAGNITUDE #if defined OPENCV_IMGPROC_HAL_INTERFACE_H struct cvhalFilter2D; struct FilterCtx { CAROTENE_NS::Size2D ksize; CAROTENE_NS::s16* kernel_data; CAROTENE_NS::BORDER_MODE border; }; inline int TEGRA_FILTERINIT(cvhalFilter2D **context, uchar *kernel_data, size_t kernel_step, int kernel_type, int kernel_width, int kernel_height, int max_width, int max_height, int src_type, int dst_type, int borderType, double delta, int anchor_x, int anchor_y, bool allowSubmatrix, bool allowInplace) { if(!context || !kernel_data || allowSubmatrix || allowInplace || src_type != CV_8UC1 || dst_type != CV_8UC1 || delta != 0 || anchor_x != kernel_width / 2 || anchor_y != kernel_height / 2 ) return CV_HAL_ERROR_NOT_IMPLEMENTED; FilterCtx* ctx = new FilterCtx; if(!ctx) return CV_HAL_ERROR_UNKNOWN; ctx->ksize.width = kernel_width; ctx->ksize.height = kernel_height; switch(borderType) { case CV_HAL_BORDER_CONSTANT: ctx->border = CAROTENE_NS::BORDER_MODE_CONSTANT; break; case CV_HAL_BORDER_REPLICATE: ctx->border = CAROTENE_NS::BORDER_MODE_REPLICATE; break; case CV_HAL_BORDER_REFLECT: ctx->border = CAROTENE_NS::BORDER_MODE_REFLECT; break; case CV_HAL_BORDER_WRAP: ctx->border = CAROTENE_NS::BORDER_MODE_WRAP; break; case CV_HAL_BORDER_REFLECT_101: ctx->border = CAROTENE_NS::BORDER_MODE_REFLECT101; break; default: delete ctx; return CV_HAL_ERROR_NOT_IMPLEMENTED; } if(!CAROTENE_NS::isConvolutionSupported(CAROTENE_NS::Size2D(max_width, max_height), ctx->ksize, ctx->border)) { delete ctx; return CV_HAL_ERROR_NOT_IMPLEMENTED; } ctx->kernel_data = new CAROTENE_NS::s16[kernel_width*kernel_height]; if(!ctx->kernel_data) return CV_HAL_ERROR_UNKNOWN; switch(kernel_type) { case CV_8UC1: convert(ctx->ksize, (CAROTENE_NS::u8*)kernel_data, kernel_step, ctx->kernel_data, kernel_width); break; case CV_8SC1: convert(ctx->ksize, (CAROTENE_NS::s8*)kernel_data, kernel_step, ctx->kernel_data, kernel_width); break; case CV_16UC1: for(int j = 0; j < kernel_height; ++j) { std::memcpy(ctx->kernel_data + kernel_width * j, kernel_data + kernel_step * j, kernel_width * sizeof(int16_t)); } default: delete[] ctx->kernel_data; delete ctx; return CV_HAL_ERROR_NOT_IMPLEMENTED; } *context = (cvhalFilter2D*)(ctx); return CV_HAL_ERROR_OK; } inline int TEGRA_FILTERFREE(cvhalFilter2D *context) { if(context) { if(((FilterCtx*)context)->kernel_data) delete[] ((FilterCtx*)context)->kernel_data; delete (FilterCtx*)context; return CV_HAL_ERROR_OK; } else { return CV_HAL_ERROR_UNKNOWN; } } #define TEGRA_FILTERIMPL(context, src_data, src_step, dst_data, dst_step, width, height, full_width, full_height, offset_x, offset_y) \ ( \ (void)full_width, (void)full_height, (void)offset_x, (void)offset_y, \ context && CAROTENE_NS::isConvolutionSupported(CAROTENE_NS::Size2D(width, height), ((FilterCtx*)context)->ksize, ((FilterCtx*)context)->border) ? \ CAROTENE_NS::convolution(CAROTENE_NS::Size2D(width, height), \ src_data, src_step, \ dst_data, dst_step, \ ((FilterCtx*)context)->border, 0, \ ((FilterCtx*)context)->ksize, ((FilterCtx*)context)->kernel_data, 1), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_filterInit #define cv_hal_filterInit TEGRA_FILTERINIT #undef cv_hal_filter #define cv_hal_filter TEGRA_FILTERIMPL #undef cv_hal_filterFree #define cv_hal_filterFree TEGRA_FILTERFREE struct SepFilterCtx { int16_t kernelx_data[3]; int16_t kernely_data[3]; CAROTENE_NS::BORDER_MODE border; }; inline int TEGRA_SEPFILTERINIT(cvhalFilter2D **context, int src_type, int dst_type, int kernel_type, uchar *kernelx_data, size_t , int kernelx_width, int kernelx_height, uchar *kernely_data, size_t kernely_step, int kernely_width, int kernely_height, int anchor_x, int anchor_y, double delta, int borderType) { if(!context || !kernelx_data || !kernely_data || src_type != CV_8UC1 || dst_type != CV_16SC1 || !(kernelx_width == 3 && kernelx_height == 1) || !(kernely_width == 1 && kernely_height == 3) || delta != 0 || anchor_x != 1 || anchor_y != 1) return CV_HAL_ERROR_NOT_IMPLEMENTED; SepFilterCtx* ctx = new SepFilterCtx; if(!ctx) return CV_HAL_ERROR_UNKNOWN; switch(borderType) { case CV_HAL_BORDER_CONSTANT: ctx->border = CAROTENE_NS::BORDER_MODE_CONSTANT; break; case CV_HAL_BORDER_REPLICATE: ctx->border = CAROTENE_NS::BORDER_MODE_REPLICATE; break; case CV_HAL_BORDER_REFLECT: ctx->border = CAROTENE_NS::BORDER_MODE_REFLECT; break; case CV_HAL_BORDER_WRAP: ctx->border = CAROTENE_NS::BORDER_MODE_WRAP; break; case CV_HAL_BORDER_REFLECT_101: ctx->border = CAROTENE_NS::BORDER_MODE_REFLECT101; break; default: delete ctx; return CV_HAL_ERROR_NOT_IMPLEMENTED; } if(!CAROTENE_NS::isSeparableFilter3x3Supported(CAROTENE_NS::Size2D(16, 16), ctx->border, 3, 3)) { delete ctx; return CV_HAL_ERROR_NOT_IMPLEMENTED; } switch(kernel_type) { case CV_8UC1: ctx->kernelx_data[0]=kernelx_data[0]; ctx->kernelx_data[1]=kernelx_data[1]; ctx->kernelx_data[2]=kernelx_data[2]; ctx->kernely_data[0]=kernely_data[0]; ctx->kernely_data[1]=kernely_data[kernely_step]; ctx->kernely_data[2]=kernely_data[2*kernely_step]; break; case CV_8SC1: ctx->kernelx_data[0]=((char*)kernelx_data)[0]; ctx->kernelx_data[1]=((char*)kernelx_data)[1]; ctx->kernelx_data[2]=((char*)kernelx_data)[2]; ctx->kernely_data[0]=((char*)kernely_data)[0]; ctx->kernely_data[1]=((char*)(kernely_data+kernely_step))[0]; ctx->kernely_data[2]=((char*)(kernely_data+2*kernely_step))[0]; break; case CV_16UC1: ctx->kernelx_data[0]=((int16_t*)kernelx_data)[0]; ctx->kernelx_data[1]=((int16_t*)kernelx_data)[1]; ctx->kernelx_data[2]=((int16_t*)kernelx_data)[2]; ctx->kernely_data[0]=((int16_t*)kernely_data)[0]; ctx->kernely_data[1]=((int16_t*)(kernely_data+kernely_step))[0]; ctx->kernely_data[2]=((int16_t*)(kernely_data+2*kernely_step))[0]; default: delete ctx; return CV_HAL_ERROR_NOT_IMPLEMENTED; } *context = (cvhalFilter2D*)(ctx); return CV_HAL_ERROR_OK; } inline int TEGRA_SEPFILTERFREE(cvhalFilter2D *context) { if(context) { delete (SepFilterCtx*)context; return CV_HAL_ERROR_OK; } else { return CV_HAL_ERROR_UNKNOWN; } } #define TEGRA_SEPFILTERIMPL(context, src_data, src_step, dst_data, dst_step, width, height, full_width, full_height, offset_x, offset_y) \ ( \ context && CAROTENE_NS::isSeparableFilter3x3Supported(CAROTENE_NS::Size2D(width, height), ((SepFilterCtx*)context)->border, 3, 3, \ CAROTENE_NS::Margin(offset_x, full_width - width - offset_x, offset_y, full_height - height - offset_y)) ? \ CAROTENE_NS::SeparableFilter3x3(CAROTENE_NS::Size2D(width, height), \ src_data, src_step, \ (CAROTENE_NS::s16*)dst_data, dst_step, \ 3, 3, ((SepFilterCtx*)context)->kernelx_data, ((SepFilterCtx*)context)->kernely_data, \ ((SepFilterCtx*)context)->border, 0, \ CAROTENE_NS::Margin(offset_x, full_width - width - offset_x, offset_y, full_height - height - offset_y)), \ CV_HAL_ERROR_OK \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_sepFilterInit #define cv_hal_sepFilterInit TEGRA_SEPFILTERINIT #undef cv_hal_sepFilter #define cv_hal_sepFilter TEGRA_SEPFILTERIMPL #undef cv_hal_sepFilterFree #define cv_hal_sepFilterFree TEGRA_SEPFILTERFREE struct MorphCtx { int operation; int channels; CAROTENE_NS::Size2D ksize; int anchor_x, anchor_y; CAROTENE_NS::BORDER_MODE border; uchar borderValues[4]; }; inline int TEGRA_MORPHINIT(cvhalFilter2D **context, int operation, int src_type, int dst_type, int, int, int kernel_type, uchar *kernel_data, size_t kernel_step, int kernel_width, int kernel_height, int anchor_x, int anchor_y, int borderType, const double borderValue[4], int iterations, bool allowSubmatrix, bool allowInplace) { if(!context || !kernel_data || src_type != dst_type || CV_MAT_DEPTH(src_type) != CV_8U || src_type < 0 || (src_type >> CV_CN_SHIFT) > 3 || allowSubmatrix || allowInplace || iterations != 1 || !CAROTENE_NS::isSupportedConfiguration()) return CV_HAL_ERROR_NOT_IMPLEMENTED; switch(CV_MAT_DEPTH(kernel_type)) { case CV_8U: if(CAROTENE_NS::countNonZero(CAROTENE_NS::Size2D(kernel_width, kernel_height), kernel_data, kernel_step) != kernel_width * kernel_height) return CV_HAL_ERROR_NOT_IMPLEMENTED; break; case CV_16U: if(CAROTENE_NS::countNonZero(CAROTENE_NS::Size2D(kernel_width, kernel_height), (uint16_t*)kernel_data, kernel_step) != kernel_width * kernel_height) return CV_HAL_ERROR_NOT_IMPLEMENTED; break; case CV_32S: if(CAROTENE_NS::countNonZero(CAROTENE_NS::Size2D(kernel_width, kernel_height), (int32_t*)kernel_data, kernel_step) != kernel_width * kernel_height) return CV_HAL_ERROR_NOT_IMPLEMENTED; break; case CV_32F: if(CAROTENE_NS::countNonZero(CAROTENE_NS::Size2D(kernel_width, kernel_height), (float*)kernel_data, kernel_step) != kernel_width * kernel_height) return CV_HAL_ERROR_NOT_IMPLEMENTED; break; case CV_64F: if(CAROTENE_NS::countNonZero(CAROTENE_NS::Size2D(kernel_width, kernel_height), (double*)kernel_data, kernel_step) != kernel_width * kernel_height) return CV_HAL_ERROR_NOT_IMPLEMENTED; break; default: return CV_HAL_ERROR_NOT_IMPLEMENTED; } MorphCtx* ctx = new MorphCtx; if(!ctx) return CV_HAL_ERROR_UNKNOWN; ctx->channels = (src_type >> CV_CN_SHIFT) + 1; ctx->ksize.width = kernel_width; ctx->ksize.height = kernel_height; ctx->anchor_x = anchor_x; ctx->anchor_y = anchor_y; switch(operation) { case MORPH_ERODE: case MORPH_DILATE: ctx->operation = operation; break; default: delete ctx; return CV_HAL_ERROR_NOT_IMPLEMENTED; } switch(borderType) { case CV_HAL_BORDER_CONSTANT: ctx->border = CAROTENE_NS::BORDER_MODE_CONSTANT; if( borderValue[0] == DBL_MAX && borderValue[1] == DBL_MAX && borderValue[2] == DBL_MAX && borderValue[3] == DBL_MAX ) { if( operation == MORPH_ERODE ) for(int i = 0; i < ctx->channels; ++i) ctx->borderValues[i] = (CAROTENE_NS::u8)UCHAR_MAX; else for(int i = 0; i < ctx->channels; ++i) ctx->borderValues[i] = 0; } else { for(int i = 0; i < ctx->channels; ++i) ctx->borderValues[i] = (CAROTENE_NS::u8)cv::saturate_cast(borderValue[i]); } break; case CV_HAL_BORDER_REPLICATE: ctx->border = CAROTENE_NS::BORDER_MODE_REPLICATE; break; case CV_HAL_BORDER_REFLECT: ctx->border = CAROTENE_NS::BORDER_MODE_REFLECT; break; case CV_HAL_BORDER_WRAP: ctx->border = CAROTENE_NS::BORDER_MODE_WRAP; break; case CV_HAL_BORDER_REFLECT_101: ctx->border = CAROTENE_NS::BORDER_MODE_REFLECT101; break; default: delete ctx; return CV_HAL_ERROR_NOT_IMPLEMENTED; } *context = (cvhalFilter2D*)(ctx); return CV_HAL_ERROR_OK; } inline int TEGRA_MORPHFREE(cvhalFilter2D *context) { if(context) { delete (MorphCtx*)context; return CV_HAL_ERROR_OK; } else { return CV_HAL_ERROR_UNKNOWN; } } #define TEGRA_MORPHIMPL(context, src_data, src_step, dst_data, dst_step, width, height, src_full_width, src_full_height, src_roi_x, src_roi_y, dst_full_width, dst_full_height, dst_roi_x, dst_roi_y) \ ( \ (void)dst_full_width, (void)dst_full_height, (void)dst_roi_x, (void)dst_roi_y, \ context && CAROTENE_NS::isSupportedConfiguration() ? \ ((MorphCtx*)context)->operation == MORPH_ERODE ? \ CAROTENE_NS::erode(CAROTENE_NS::Size2D(width, height), ((MorphCtx*)context)->channels, \ src_data, src_step, dst_data, dst_step, \ ((MorphCtx*)context)->ksize, ((MorphCtx*)context)->anchor_x, ((MorphCtx*)context)->anchor_y, \ ((MorphCtx*)context)->border, ((MorphCtx*)context)->border, ((MorphCtx*)context)->borderValues, \ CAROTENE_NS::Margin(src_roi_x, src_full_width - width - src_roi_x, src_roi_y, src_full_height - height - src_roi_y)), \ CV_HAL_ERROR_OK : \ ((MorphCtx*)context)->operation == MORPH_DILATE ? \ CAROTENE_NS::dilate(CAROTENE_NS::Size2D(width, height), ((MorphCtx*)context)->channels, \ src_data, src_step, dst_data, dst_step, \ ((MorphCtx*)context)->ksize, ((MorphCtx*)context)->anchor_x, ((MorphCtx*)context)->anchor_y, \ ((MorphCtx*)context)->border, ((MorphCtx*)context)->border, ((MorphCtx*)context)->borderValues, \ CAROTENE_NS::Margin(src_roi_x, src_full_width - width - src_roi_x, src_roi_y, src_full_height - height - src_roi_y)), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_morphInit #define cv_hal_morphInit TEGRA_MORPHINIT #undef cv_hal_morph #define cv_hal_morph TEGRA_MORPHIMPL #undef cv_hal_morphFree #define cv_hal_morphFree TEGRA_MORPHFREE #define TEGRA_RESIZE(src_type, src_data, src_step, src_width, src_height, dst_data, dst_step, dst_width, dst_height, inv_scale_x, inv_scale_y, interpolation) \ ( \ interpolation == CV_HAL_INTER_LINEAR ? \ CV_MAT_DEPTH(src_type) == CV_8U && CAROTENE_NS::isResizeLinearOpenCVSupported(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), ((src_type >> CV_CN_SHIFT) + 1)) && \ inv_scale_x > 0 && inv_scale_y > 0 && \ (dst_width - 0.5)/inv_scale_x - 0.5 < src_width && (dst_height - 0.5)/inv_scale_y - 0.5 < src_height && \ (dst_width + 0.5)/inv_scale_x + 0.5 >= src_width && (dst_height + 0.5)/inv_scale_y + 0.5 >= src_height && \ std::abs(dst_width / inv_scale_x - src_width) < 0.1 && std::abs(dst_height / inv_scale_y - src_height) < 0.1 ? \ CAROTENE_NS::resizeLinearOpenCV(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, dst_data, dst_step, 1.0/inv_scale_x, 1.0/inv_scale_y, ((src_type >> CV_CN_SHIFT) + 1)), \ CV_HAL_ERROR_OK : CV_HAL_ERROR_NOT_IMPLEMENTED : \ interpolation == CV_HAL_INTER_AREA ? \ CV_MAT_DEPTH(src_type) == CV_8U && CAROTENE_NS::isResizeAreaSupported(1.0/inv_scale_x, 1.0/inv_scale_y, ((src_type >> CV_CN_SHIFT) + 1)) && \ std::abs(dst_width / inv_scale_x - src_width) < 0.1 && std::abs(dst_height / inv_scale_y - src_height) < 0.1 ? \ CAROTENE_NS::resizeAreaOpenCV(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, dst_data, dst_step, 1.0/inv_scale_x, 1.0/inv_scale_y, ((src_type >> CV_CN_SHIFT) + 1)), \ CV_HAL_ERROR_OK : CV_HAL_ERROR_NOT_IMPLEMENTED : \ /*nearest neighbour interpolation disabled due to rounding accuracy issues*/ \ /*interpolation == CV_HAL_INTER_NEAREST ? \ (src_type == CV_8UC1 || src_type == CV_8SC1) && CAROTENE_NS::isResizeNearestNeighborSupported(CAROTENE_NS::Size2D(src_width, src_height), 1) ? \ CAROTENE_NS::resizeNearestNeighbor(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, dst_data, dst_step, 1.0/inv_scale_x, 1.0/inv_scale_y, 1), \ CV_HAL_ERROR_OK : \ (src_type == CV_8UC3 || src_type == CV_8SC3) && CAROTENE_NS::isResizeNearestNeighborSupported(CAROTENE_NS::Size2D(src_width, src_height), 3) ? \ CAROTENE_NS::resizeNearestNeighbor(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, dst_data, dst_step, 1.0/inv_scale_x, 1.0/inv_scale_y, 3), \ CV_HAL_ERROR_OK : \ (src_type == CV_8UC4 || src_type == CV_8SC4 || src_type == CV_16UC2 || src_type == CV_16SC2 || src_type == CV_32SC1) && \ CAROTENE_NS::isResizeNearestNeighborSupported(CAROTENE_NS::Size2D(src_width, src_height), 4) ? \ CAROTENE_NS::resizeNearestNeighbor(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, dst_data, dst_step, 1.0/inv_scale_x, 1.0/inv_scale_y, 4), \ CV_HAL_ERROR_OK : CV_HAL_ERROR_NOT_IMPLEMENTED :*/ \ CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_WARPAFFINE(src_type, src_data, src_step, src_width, src_height, dst_data, dst_step, dst_width, dst_height, M, interpolation, borderType, borderValue) \ ( \ interpolation == CV_HAL_INTER_NEAREST ? \ (src_type == CV_8UC1 || src_type == CV_8SC1) && (borderType == CV_HAL_BORDER_REPLICATE || borderType == CV_HAL_BORDER_CONSTANT) && \ CAROTENE_NS::isWarpAffineNearestNeighborSupported(CAROTENE_NS::Size2D(src_width, src_height)) ? \ CAROTENE_NS::warpAffineNearestNeighbor(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ std::vector(M+0,M+6).data(), \ dst_data, dst_step, \ borderType == CV_HAL_BORDER_REPLICATE ? CAROTENE_NS::BORDER_MODE_REPLICATE : CAROTENE_NS::BORDER_MODE_CONSTANT, \ (CAROTENE_NS::u8)borderValue[0]), \ CV_HAL_ERROR_OK : CV_HAL_ERROR_NOT_IMPLEMENTED : \ interpolation == CV_HAL_INTER_LINEAR ? \ (src_type == CV_8UC1 || src_type == CV_8SC1) && (borderType == CV_HAL_BORDER_REPLICATE || borderType == CV_HAL_BORDER_CONSTANT) && \ CAROTENE_NS::isWarpAffineLinearSupported(CAROTENE_NS::Size2D(src_width, src_height)) ? \ CAROTENE_NS::warpAffineLinear(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ std::vector(M+0,M+6).data(), \ dst_data, dst_step, \ borderType == CV_HAL_BORDER_REPLICATE ? CAROTENE_NS::BORDER_MODE_REPLICATE : CAROTENE_NS::BORDER_MODE_CONSTANT, \ (CAROTENE_NS::u8)borderValue[0]), \ CV_HAL_ERROR_OK : CV_HAL_ERROR_NOT_IMPLEMENTED : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_WARPPERSPECTIVE(src_type, src_data, src_step, src_width, src_height, dst_data, dst_step, dst_width, dst_height, M, interpolation, borderType, borderValue) \ ( \ interpolation == CV_HAL_INTER_NEAREST ? \ (src_type == CV_8UC1 || src_type == CV_8SC1) && (borderType == CV_HAL_BORDER_REPLICATE || borderType == CV_HAL_BORDER_CONSTANT) && \ CAROTENE_NS::isWarpPerspectiveNearestNeighborSupported(CAROTENE_NS::Size2D(src_width, src_height)) ? \ CAROTENE_NS::warpPerspectiveNearestNeighbor(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ std::vector(M+0,M+9).data(), \ dst_data, dst_step, \ borderType == CV_HAL_BORDER_REPLICATE ? CAROTENE_NS::BORDER_MODE_REPLICATE : CAROTENE_NS::BORDER_MODE_CONSTANT, \ (CAROTENE_NS::u8)borderValue[0]), \ CV_HAL_ERROR_OK : CV_HAL_ERROR_NOT_IMPLEMENTED : \ interpolation == CV_HAL_INTER_LINEAR ? \ (src_type == CV_8UC1 || src_type == CV_8SC1) && (borderType == CV_HAL_BORDER_REPLICATE || borderType == CV_HAL_BORDER_CONSTANT) && \ CAROTENE_NS::isWarpPerspectiveLinearSupported(CAROTENE_NS::Size2D(src_width, src_height)) ? \ CAROTENE_NS::warpPerspectiveLinear(CAROTENE_NS::Size2D(src_width, src_height), CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ std::vector(M+0,M+9).data(), \ dst_data, dst_step, \ borderType == CV_HAL_BORDER_REPLICATE ? CAROTENE_NS::BORDER_MODE_REPLICATE : CAROTENE_NS::BORDER_MODE_CONSTANT, \ (CAROTENE_NS::u8)borderValue[0]), \ CV_HAL_ERROR_OK : CV_HAL_ERROR_NOT_IMPLEMENTED : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_resize #define cv_hal_resize TEGRA_RESIZE //warpAffine/warpPerspective disabled due to rounding accuracy issue //#undef cv_hal_warpAffine //#define cv_hal_warpAffine TEGRA_WARPAFFINE //#undef cv_hal_warpPerspective //#define cv_hal_warpPerspective TEGRA_WARPPERSPECTIVE #define TegraCvtColor_Invoker(name, func, ...) \ class TegraCvtColor_##name##_Invoker : public cv::ParallelLoopBody \ { \ public: \ TegraCvtColor_##name##_Invoker(const uchar * src_data_, size_t src_step_, uchar * dst_data_, size_t dst_step_, int width_, int height_) : \ cv::ParallelLoopBody(), src_data(src_data_), src_step(src_step_), dst_data(dst_data_), dst_step(dst_step_), width(width_), height(height_) {} \ virtual void operator()(const cv::Range& range) const \ { \ CAROTENE_NS::func(CAROTENE_NS::Size2D(width, range.end-range.start), __VA_ARGS__); \ } \ private: \ const uchar * src_data; \ size_t src_step; \ uchar * dst_data; \ size_t dst_step; \ int width, height; \ const TegraCvtColor_##name##_Invoker& operator= (const TegraCvtColor_##name##_Invoker&); \ }; TegraCvtColor_Invoker(rgb2bgr, rgb2bgr, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgb2bgrx, rgb2bgrx, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgb2rgbx, rgb2rgbx, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgbx2bgr, rgbx2bgr, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgbx2rgb, rgbx2rgb, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgbx2bgrx, rgbx2bgrx, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) #define TEGRA_CVTBGRTOBGR(src_data, src_step, dst_data, dst_step, width, height, depth, scn, dcn, swapBlue) \ ( \ depth == CV_8U && CAROTENE_NS::isSupportedConfiguration() ? \ scn == 3 ? \ dcn == 3 ? \ swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgb2bgr_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED : \ dcn == 4 ? \ (swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgb2bgrx_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_rgb2rgbx_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED : \ scn == 4 ? \ dcn == 3 ? \ (swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgbx2bgr_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_rgbx2rgb_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ dcn == 4 ? \ swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgbx2bgrx_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED : \ CV_HAL_ERROR_NOT_IMPLEMENTED : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraCvtColor_Invoker(rgb2bgr565, rgb2bgr565, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgb2rgb565, rgb2rgb565, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgbx2bgr565, rgbx2bgr565, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgbx2rgb565, rgbx2rgb565, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) #define TEGRA_CVTBGRTOBGR565(src_data, src_step, dst_data, dst_step, width, height, scn, swapBlue, greenBits) \ ( \ greenBits == 6 && CAROTENE_NS::isSupportedConfiguration() ? \ scn == 3 ? \ (swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgb2bgr565_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_rgb2rgb565_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ scn == 4 ? \ (swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgbx2bgr565_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_rgbx2rgb565_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraCvtColor_Invoker(rgb2gray, rgb2gray, CAROTENE_NS::COLOR_SPACE_BT601, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(bgr2gray, bgr2gray, CAROTENE_NS::COLOR_SPACE_BT601, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgbx2gray, rgbx2gray, CAROTENE_NS::COLOR_SPACE_BT601, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(bgrx2gray, bgrx2gray, CAROTENE_NS::COLOR_SPACE_BT601, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) #define TEGRA_CVTBGRTOGRAY(src_data, src_step, dst_data, dst_step, width, height, depth, scn, swapBlue) \ ( \ depth == CV_8U && CAROTENE_NS::isSupportedConfiguration() ? \ scn == 3 ? \ (swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgb2gray_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_bgr2gray_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ scn == 4 ? \ (swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgbx2gray_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_bgrx2gray_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraCvtColor_Invoker(gray2rgb, gray2rgb, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(gray2rgbx, gray2rgbx, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) #define TEGRA_CVTGRAYTOBGR(src_data, src_step, dst_data, dst_step, width, height, depth, dcn) \ ( \ depth == CV_8U && CAROTENE_NS::isSupportedConfiguration() ? \ dcn == 3 ? \ parallel_for_(Range(0, height), \ TegraCvtColor_gray2rgb_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ dcn == 4 ? \ parallel_for_(Range(0, height), \ TegraCvtColor_gray2rgbx_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraCvtColor_Invoker(rgb2ycrcb, rgb2ycrcb, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(bgr2ycrcb, bgr2ycrcb, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(rgbx2ycrcb, rgbx2ycrcb, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) TegraCvtColor_Invoker(bgrx2ycrcb, bgrx2ycrcb, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step) #define TEGRA_CVTBGRTOYUV(src_data, src_step, dst_data, dst_step, width, height, depth, scn, swapBlue, isCbCr) \ ( \ isCbCr && depth == CV_8U && CAROTENE_NS::isSupportedConfiguration() ? \ scn == 3 ? \ (swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgb2ycrcb_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_bgr2ycrcb_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ scn == 4 ? \ (swapBlue ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgbx2ycrcb_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_bgrx2ycrcb_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) TegraCvtColor_Invoker(rgb2hsv, rgb2hsv, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step, 180) TegraCvtColor_Invoker(bgr2hsv, bgr2hsv, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step, 180) TegraCvtColor_Invoker(rgbx2hsv, rgbx2hsv, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step, 180) TegraCvtColor_Invoker(bgrx2hsv, bgrx2hsv, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step, 180) TegraCvtColor_Invoker(rgb2hsvf, rgb2hsv, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step, 256) TegraCvtColor_Invoker(bgr2hsvf, bgr2hsv, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step, 256) TegraCvtColor_Invoker(rgbx2hsvf, rgbx2hsv, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step, 256) TegraCvtColor_Invoker(bgrx2hsvf, bgrx2hsv, src_data + static_cast(range.start) * src_step, src_step, \ dst_data + static_cast(range.start) * dst_step, dst_step, 256) #define TEGRA_CVTBGRTOHSV(src_data, src_step, dst_data, dst_step, width, height, depth, scn, swapBlue, isFullRange, isHSV) \ ( \ isHSV && depth == CV_8U && CAROTENE_NS::isSupportedConfiguration() ? \ scn == 3 ? \ (swapBlue ? \ isFullRange ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgb2hsvf_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_rgb2hsv_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ isFullRange ? \ parallel_for_(Range(0, height), \ TegraCvtColor_bgr2hsvf_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_bgr2hsv_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ scn == 4 ? \ (swapBlue ? \ isFullRange ? \ parallel_for_(Range(0, height), \ TegraCvtColor_rgbx2hsvf_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_rgbx2hsv_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ isFullRange ? \ parallel_for_(Range(0, height), \ TegraCvtColor_bgrx2hsvf_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) : \ parallel_for_(Range(0, height), \ TegraCvtColor_bgrx2hsv_Invoker(src_data, src_step, dst_data, dst_step, width, height), \ (width * height) / static_cast(1<<16)) ), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #define TEGRA_CVT2PYUVTOBGR(src_data, src_step, dst_data, dst_step, dst_width, dst_height, dcn, swapBlue, uIdx) \ ( \ CAROTENE_NS::isSupportedConfiguration() ? \ dcn == 3 ? \ uIdx == 0 ? \ (swapBlue ? \ CAROTENE_NS::yuv420i2rgb(CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ src_data + src_step * dst_height, src_step, \ dst_data, dst_step) : \ CAROTENE_NS::yuv420i2bgr(CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ src_data + src_step * dst_height, src_step, \ dst_data, dst_step)), \ CV_HAL_ERROR_OK : \ uIdx == 1 ? \ (swapBlue ? \ CAROTENE_NS::yuv420sp2rgb(CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ src_data + src_step * dst_height, src_step, \ dst_data, dst_step) : \ CAROTENE_NS::yuv420sp2bgr(CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ src_data + src_step * dst_height, src_step, \ dst_data, dst_step)), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED : \ dcn == 4 ? \ uIdx == 0 ? \ (swapBlue ? \ CAROTENE_NS::yuv420i2rgbx(CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ src_data + src_step * dst_height, src_step, \ dst_data, dst_step) : \ CAROTENE_NS::yuv420i2bgrx(CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ src_data + src_step * dst_height, src_step, \ dst_data, dst_step)), \ CV_HAL_ERROR_OK : \ uIdx == 1 ? \ (swapBlue ? \ CAROTENE_NS::yuv420sp2rgbx(CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ src_data + src_step * dst_height, src_step, \ dst_data, dst_step) : \ CAROTENE_NS::yuv420sp2bgrx(CAROTENE_NS::Size2D(dst_width, dst_height), \ src_data, src_step, \ src_data + src_step * dst_height, src_step, \ dst_data, dst_step)), \ CV_HAL_ERROR_OK : \ CV_HAL_ERROR_NOT_IMPLEMENTED : \ CV_HAL_ERROR_NOT_IMPLEMENTED \ : CV_HAL_ERROR_NOT_IMPLEMENTED \ ) #undef cv_hal_cvtBGRtoBGR #define cv_hal_cvtBGRtoBGR TEGRA_CVTBGRTOBGR #undef cv_hal_cvtBGRtoBGR5x5 #define cv_hal_cvtBGRtoBGR5x5 TEGRA_CVTBGRTOBGR565 #undef cv_hal_cvtBGRtoGray #define cv_hal_cvtBGRtoGray TEGRA_CVTBGRTOGRAY #undef cv_hal_cvtGraytoBGR #define cv_hal_cvtGraytoBGR TEGRA_CVTGRAYTOBGR #undef cv_hal_cvtBGRtoYUV #define cv_hal_cvtBGRtoYUV TEGRA_CVTBGRTOYUV #undef cv_hal_cvtBGRtoHSV #define cv_hal_cvtBGRtoHSV TEGRA_CVTBGRTOHSV #undef cv_hal_cvtTwoPlaneYUVtoBGR #define cv_hal_cvtTwoPlaneYUVtoBGR TEGRA_CVT2PYUVTOBGR #endif // OPENCV_IMGPROC_HAL_INTERFACE_H #endif