/* * This file is part of FFmpeg. * * 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. */ #include "cuda/vector_helpers.cuh" #include "vf_scale_cuda.h" template using subsample_function_t = T (*)(cudaTextureObject_t tex, int xo, int yo, int dst_width, int dst_height, int src_width, int src_height, int bit_depth, float param); // --- CONVERSION LOGIC --- static const ushort mask_10bit = 0xFFC0; static const ushort mask_16bit = 0xFFFF; static inline __device__ ushort conv_8to16(uchar in, ushort mask) { return ((ushort)in | ((ushort)in << 8)) & mask; } static inline __device__ uchar conv_16to8(ushort in) { return in >> 8; } static inline __device__ uchar conv_10to8(ushort in) { return in >> 8; } static inline __device__ ushort conv_10to16(ushort in) { return in | (in >> 10); } static inline __device__ ushort conv_16to10(ushort in) { return in & mask_10bit; } #define DEF_F(N, T) \ template subsample_func_y, \ subsample_function_t subsample_func_uv> \ __device__ static inline void N(cudaTextureObject_t src_tex[4], T *dst[4], int xo, int yo, \ int dst_width, int dst_height, int dst_pitch, \ int src_width, int src_height, float param) #define SUB_F(m, plane) \ subsample_func_##m(src_tex[plane], xo, yo, \ dst_width, dst_height, \ src_width, src_height, \ in_bit_depth, param) // FFmpeg passes pitch in bytes, CUDA uses potentially larger types #define FIXED_PITCH \ (dst_pitch/sizeof(*dst[0])) #define DEFAULT_DST(n) \ dst[n][yo*FIXED_PITCH+xo] // yuv420p->X struct Convert_yuv420p_yuv420p { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = SUB_F(uv, 1); DEFAULT_DST(2) = SUB_F(uv, 2); } }; struct Convert_yuv420p_nv12 { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef uchar out_T; typedef uchar2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = make_uchar2( SUB_F(uv, 1), SUB_F(uv, 2) ); } }; struct Convert_yuv420p_yuv444p { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = SUB_F(uv, 1); DEFAULT_DST(2) = SUB_F(uv, 2); } }; struct Convert_yuv420p_p010le { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_8to16(SUB_F(y, 0), mask_10bit); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = make_ushort2( conv_8to16(SUB_F(uv, 1), mask_10bit), conv_8to16(SUB_F(uv, 2), mask_10bit) ); } }; struct Convert_yuv420p_p016le { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_8to16(SUB_F(y, 0), mask_16bit); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = make_ushort2( conv_8to16(SUB_F(uv, 1), mask_16bit), conv_8to16(SUB_F(uv, 2), mask_16bit) ); } }; struct Convert_yuv420p_yuv444p16le { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef ushort out_T; typedef ushort out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_8to16(SUB_F(y, 0), mask_16bit); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = conv_8to16(SUB_F(uv, 1), mask_16bit); DEFAULT_DST(2) = conv_8to16(SUB_F(uv, 2), mask_16bit); } }; // nv12->X struct Convert_nv12_yuv420p { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar2 in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = res.x; DEFAULT_DST(2) = res.y; } }; struct Convert_nv12_nv12 { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar2 in_T_uv; typedef uchar out_T; typedef uchar2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = SUB_F(uv, 1); } }; struct Convert_nv12_yuv444p { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar2 in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = res.x; DEFAULT_DST(2) = res.y; } }; struct Convert_nv12_p010le { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar2 in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_8to16(SUB_F(y, 0), mask_10bit); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = make_ushort2( conv_8to16(res.x, mask_10bit), conv_8to16(res.y, mask_10bit) ); } }; struct Convert_nv12_p016le { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar2 in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_8to16(SUB_F(y, 0), mask_16bit); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = make_ushort2( conv_8to16(res.x, mask_16bit), conv_8to16(res.y, mask_16bit) ); } }; struct Convert_nv12_yuv444p16le { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar2 in_T_uv; typedef ushort out_T; typedef ushort out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_8to16(SUB_F(y, 0), mask_16bit); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = conv_8to16(res.x, mask_16bit); DEFAULT_DST(2) = conv_8to16(res.y, mask_16bit); } }; // yuv444p->X struct Convert_yuv444p_yuv420p { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = SUB_F(uv, 1); DEFAULT_DST(2) = SUB_F(uv, 2); } }; struct Convert_yuv444p_nv12 { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef uchar out_T; typedef uchar2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = make_uchar2( SUB_F(uv, 1), SUB_F(uv, 2) ); } }; struct Convert_yuv444p_yuv444p { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = SUB_F(uv, 1); DEFAULT_DST(2) = SUB_F(uv, 2); } }; struct Convert_yuv444p_p010le { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_8to16(SUB_F(y, 0), mask_10bit); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = make_ushort2( conv_8to16(SUB_F(uv, 1), mask_10bit), conv_8to16(SUB_F(uv, 2), mask_10bit) ); } }; struct Convert_yuv444p_p016le { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_8to16(SUB_F(y, 0), mask_16bit); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = make_ushort2( conv_8to16(SUB_F(uv, 1), mask_16bit), conv_8to16(SUB_F(uv, 2), mask_16bit) ); } }; struct Convert_yuv444p_yuv444p16le { static const int in_bit_depth = 8; typedef uchar in_T; typedef uchar in_T_uv; typedef ushort out_T; typedef ushort out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_8to16(SUB_F(y, 0), mask_16bit); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = conv_8to16(SUB_F(uv, 1), mask_16bit); DEFAULT_DST(2) = conv_8to16(SUB_F(uv, 2), mask_16bit); } }; // p010le->X struct Convert_p010le_yuv420p { static const int in_bit_depth = 10; typedef ushort in_T; typedef ushort2 in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_10to8(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = conv_10to8(res.x); DEFAULT_DST(2) = conv_10to8(res.y); } }; struct Convert_p010le_nv12 { static const int in_bit_depth = 10; typedef ushort in_T; typedef ushort2 in_T_uv; typedef uchar out_T; typedef uchar2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_10to8(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = make_uchar2( conv_10to8(res.x), conv_10to8(res.y) ); } }; struct Convert_p010le_yuv444p { static const int in_bit_depth = 10; typedef ushort in_T; typedef ushort2 in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_10to8(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = conv_10to8(res.x); DEFAULT_DST(2) = conv_10to8(res.y); } }; struct Convert_p010le_p010le { static const int in_bit_depth = 10; typedef ushort in_T; typedef ushort2 in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = SUB_F(uv, 1); } }; struct Convert_p010le_p016le { static const int in_bit_depth = 10; typedef ushort in_T; typedef ushort2 in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_10to16(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = make_ushort2( conv_10to16(res.x), conv_10to16(res.y) ); } }; struct Convert_p010le_yuv444p16le { static const int in_bit_depth = 10; typedef ushort in_T; typedef ushort2 in_T_uv; typedef ushort out_T; typedef ushort out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_10to16(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = conv_10to16(res.x); DEFAULT_DST(2) = conv_10to16(res.y); } }; // p016le->X struct Convert_p016le_yuv420p { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort2 in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_16to8(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = conv_16to8(res.x); DEFAULT_DST(2) = conv_16to8(res.y); } }; struct Convert_p016le_nv12 { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort2 in_T_uv; typedef uchar out_T; typedef uchar2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_16to8(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = make_uchar2( conv_16to8(res.x), conv_16to8(res.y) ); } }; struct Convert_p016le_yuv444p { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort2 in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_16to8(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = conv_16to8(res.x); DEFAULT_DST(2) = conv_16to8(res.y); } }; struct Convert_p016le_p010le { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort2 in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_16to10(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = make_ushort2( conv_16to10(res.x), conv_16to10(res.y) ); } }; struct Convert_p016le_p016le { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort2 in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = SUB_F(uv, 1); } }; struct Convert_p016le_yuv444p16le { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort2 in_T_uv; typedef ushort out_T; typedef ushort out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { in_T_uv res = SUB_F(uv, 1); DEFAULT_DST(1) = res.x; DEFAULT_DST(2) = res.y; } }; // yuv444p16le->X struct Convert_yuv444p16le_yuv420p { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_16to8(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = conv_16to8(SUB_F(uv, 1)); DEFAULT_DST(2) = conv_16to8(SUB_F(uv, 2)); } }; struct Convert_yuv444p16le_nv12 { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort in_T_uv; typedef uchar out_T; typedef uchar2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_16to8(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = make_uchar2( conv_16to8(SUB_F(uv, 1)), conv_16to8(SUB_F(uv, 2)) ); } }; struct Convert_yuv444p16le_yuv444p { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort in_T_uv; typedef uchar out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_16to8(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = conv_16to8(SUB_F(uv, 1)); DEFAULT_DST(2) = conv_16to8(SUB_F(uv, 2)); } }; struct Convert_yuv444p16le_p010le { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = conv_16to10(SUB_F(y, 0)); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = make_ushort2( conv_16to10(SUB_F(uv, 1)), conv_16to10(SUB_F(uv, 2)) ); } }; struct Convert_yuv444p16le_p016le { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort in_T_uv; typedef ushort out_T; typedef ushort2 out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = make_ushort2( SUB_F(uv, 1), SUB_F(uv, 2) ); } }; struct Convert_yuv444p16le_yuv444p16le { static const int in_bit_depth = 16; typedef ushort in_T; typedef ushort in_T_uv; typedef ushort out_T; typedef ushort out_T_uv; DEF_F(Convert, out_T) { DEFAULT_DST(0) = SUB_F(y, 0); } DEF_F(Convert_uv, out_T_uv) { DEFAULT_DST(1) = SUB_F(uv, 1); DEFAULT_DST(2) = SUB_F(uv, 2); } }; #define DEF_CONVERT_IDENTITY(fmt1, fmt2)\ \ struct Convert_##fmt1##_##fmt2 \ { \ static const int in_bit_depth = 8; \ typedef uchar4 in_T; \ typedef uchar in_T_uv; \ typedef uchar4 out_T; \ typedef uchar out_T_uv; \ \ DEF_F(Convert, out_T) \ { \ DEFAULT_DST(0) = SUB_F(y, 0); \ } \ \ DEF_F(Convert_uv, out_T_uv) \ { \ } \ }; \ #define DEF_CONVERT_REORDER(fmt1, fmt2) \ \ struct Convert_##fmt1##_##fmt2 \ { \ static const int in_bit_depth = 8; \ typedef uchar4 in_T; \ typedef uchar in_T_uv; \ typedef uchar4 out_T; \ typedef uchar out_T_uv; \ \ DEF_F(Convert, out_T) \ { \ uchar4 res = SUB_F(y, 0); \ DEFAULT_DST(0) = make_uchar4( \ res.z, \ res.y, \ res.x, \ res.w \ ); \ } \ \ DEF_F(Convert_uv, out_T_uv) \ { \ } \ }; \ #define DEF_CONVERT_RGB(fmt1, fmt2) \ \ DEF_CONVERT_IDENTITY(fmt1, fmt1) \ DEF_CONVERT_REORDER (fmt1, fmt2) \ DEF_CONVERT_REORDER (fmt2, fmt1) \ DEF_CONVERT_IDENTITY(fmt2, fmt2) DEF_CONVERT_RGB(rgb0, bgr0) DEF_CONVERT_RGB(rgba, bgra) DEF_CONVERT_IDENTITY(rgba, rgb0) DEF_CONVERT_IDENTITY(bgra, bgr0) DEF_CONVERT_REORDER(rgba, bgr0) DEF_CONVERT_REORDER(bgra, rgb0) struct Convert_bgr0_bgra { static const int in_bit_depth = 8; typedef uchar4 in_T; typedef uchar in_T_uv; typedef uchar4 out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { uchar4 res = SUB_F(y, 0); DEFAULT_DST(0) = make_uchar4( res.x, res.y, res.z, 1 ); } DEF_F(Convert_uv, out_T_uv) { } }; struct Convert_bgr0_rgba { static const int in_bit_depth = 8; typedef uchar4 in_T; typedef uchar in_T_uv; typedef uchar4 out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { uchar4 res = SUB_F(y, 0); DEFAULT_DST(0) = make_uchar4( res.z, res.y, res.x, 1 ); } DEF_F(Convert_uv, out_T_uv) { } }; struct Convert_rgb0_bgra { static const int in_bit_depth = 8; typedef uchar4 in_T; typedef uchar in_T_uv; typedef uchar4 out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { uchar4 res = SUB_F(y, 0); DEFAULT_DST(0) = make_uchar4( res.z, res.y, res.x, 1 ); } DEF_F(Convert_uv, out_T_uv) { } }; struct Convert_rgb0_rgba { static const int in_bit_depth = 8; typedef uchar4 in_T; typedef uchar in_T_uv; typedef uchar4 out_T; typedef uchar out_T_uv; DEF_F(Convert, out_T) { uchar4 res = SUB_F(y, 0); DEFAULT_DST(0) = make_uchar4( res.x, res.y, res.z, 1 ); } DEF_F(Convert_uv, out_T_uv) { } }; // --- SCALING LOGIC --- typedef float4 (*coeffs_function_t)(float, float); __device__ static inline float4 lanczos_coeffs(float x, float param) { const float pi = 3.141592654f; float4 res = make_float4( pi * (x + 1), pi * x, pi * (x - 1), pi * (x - 2)); res.x = res.x == 0.0f ? 1.0f : __sinf(res.x) * __sinf(res.x / 2.0f) / (res.x * res.x / 2.0f); res.y = res.y == 0.0f ? 1.0f : __sinf(res.y) * __sinf(res.y / 2.0f) / (res.y * res.y / 2.0f); res.z = res.z == 0.0f ? 1.0f : __sinf(res.z) * __sinf(res.z / 2.0f) / (res.z * res.z / 2.0f); res.w = res.w == 0.0f ? 1.0f : __sinf(res.w) * __sinf(res.w / 2.0f) / (res.w * res.w / 2.0f); return res / (res.x + res.y + res.z + res.w); } __device__ static inline float4 bicubic_coeffs(float x, float param) { const float A = param == SCALE_CUDA_PARAM_DEFAULT ? 0.0f : -param; float4 res; res.x = ((A * (x + 1) - 5 * A) * (x + 1) + 8 * A) * (x + 1) - 4 * A; res.y = ((A + 2) * x - (A + 3)) * x * x + 1; res.z = ((A + 2) * (1 - x) - (A + 3)) * (1 - x) * (1 - x) + 1; res.w = 1.0f - res.x - res.y - res.z; return res; } template __device__ static inline V apply_coeffs(float4 coeffs, V c0, V c1, V c2, V c3) { V res = c0 * coeffs.x; res += c1 * coeffs.y; res += c2 * coeffs.z; res += c3 * coeffs.w; return res; } template __device__ static inline T Subsample_Nearest(cudaTextureObject_t tex, int xo, int yo, int dst_width, int dst_height, int src_width, int src_height, int bit_depth, float param) { float hscale = (float)src_width / (float)dst_width; float vscale = (float)src_height / (float)dst_height; float xi = (xo + 0.5f) * hscale; float yi = (yo + 0.5f) * vscale; return tex2D(tex, xi, yi); } template __device__ static inline T Subsample_Bilinear(cudaTextureObject_t tex, int xo, int yo, int dst_width, int dst_height, int src_width, int src_height, int bit_depth, float param) { float hscale = (float)src_width / (float)dst_width; float vscale = (float)src_height / (float)dst_height; float xi = (xo + 0.5f) * hscale; float yi = (yo + 0.5f) * vscale; // 3-tap filter weights are {wh,1.0,wh} and {wv,1.0,wv} float wh = min(max(0.5f * (hscale - 1.0f), 0.0f), 1.0f); float wv = min(max(0.5f * (vscale - 1.0f), 0.0f), 1.0f); // Convert weights to two bilinear weights -> {wh,1.0,wh} -> {wh,0.5,0} + {0,0.5,wh} float dx = wh / (0.5f + wh); float dy = wv / (0.5f + wv); intT r; vec_set_scalar(r, 2); r += tex2D(tex, xi - dx, yi - dy); r += tex2D(tex, xi + dx, yi - dy); r += tex2D(tex, xi - dx, yi + dy); r += tex2D(tex, xi + dx, yi + dy); T res; vec_set(res, r >> 2); return res; } template __device__ static inline T Subsample_Bicubic(cudaTextureObject_t tex, int xo, int yo, int dst_width, int dst_height, int src_width, int src_height, int bit_depth, float param) { float hscale = (float)src_width / (float)dst_width; float vscale = (float)src_height / (float)dst_height; float xi = (xo + 0.5f) * hscale - 0.5f; float yi = (yo + 0.5f) * vscale - 0.5f; float px = floor(xi); float py = floor(yi); float fx = xi - px; float fy = yi - py; float factor = bit_depth > 8 ? 0xFFFF : 0xFF; float4 coeffsX = coeffs_function(fx, param); float4 coeffsY = coeffs_function(fy, param); #define PIX(x, y) tex2D(tex, (x), (y)) return from_floatN( apply_coeffs(coeffsY, apply_coeffs(coeffsX, PIX(px - 1, py - 1), PIX(px, py - 1), PIX(px + 1, py - 1), PIX(px + 2, py - 1)), apply_coeffs(coeffsX, PIX(px - 1, py ), PIX(px, py ), PIX(px + 1, py ), PIX(px + 2, py )), apply_coeffs(coeffsX, PIX(px - 1, py + 1), PIX(px, py + 1), PIX(px + 1, py + 1), PIX(px + 2, py + 1)), apply_coeffs(coeffsX, PIX(px - 1, py + 2), PIX(px, py + 2), PIX(px + 1, py + 2), PIX(px + 2, py + 2)) ) * factor ); #undef PIX } /// --- FUNCTION EXPORTS --- #define KERNEL_ARGS(T) \ cudaTextureObject_t src_tex_0, cudaTextureObject_t src_tex_1, \ cudaTextureObject_t src_tex_2, cudaTextureObject_t src_tex_3, \ T *dst_0, T *dst_1, T *dst_2, T *dst_3, \ int dst_width, int dst_height, int dst_pitch, \ int src_width, int src_height, float param #define SUBSAMPLE(Convert, T) \ cudaTextureObject_t src_tex[4] = \ { src_tex_0, src_tex_1, src_tex_2, src_tex_3 }; \ T *dst[4] = { dst_0, dst_1, dst_2, dst_3 }; \ int xo = blockIdx.x * blockDim.x + threadIdx.x; \ int yo = blockIdx.y * blockDim.y + threadIdx.y; \ if (yo >= dst_height || xo >= dst_width) return; \ Convert( \ src_tex, dst, xo, yo, \ dst_width, dst_height, dst_pitch, \ src_width, src_height, param); extern "C" { #define NEAREST_KERNEL(C, S) \ __global__ void Subsample_Nearest_##C##S( \ KERNEL_ARGS(Convert_##C::out_T##S)) \ { \ SUBSAMPLE((Convert_##C::Convert##S< \ Subsample_Nearest, \ Subsample_Nearest >), \ Convert_##C::out_T##S) \ } #define NEAREST_KERNEL_RAW(C) \ NEAREST_KERNEL(C,) \ NEAREST_KERNEL(C,_uv) #define NEAREST_KERNELS(C) \ NEAREST_KERNEL_RAW(yuv420p_ ## C) \ NEAREST_KERNEL_RAW(nv12_ ## C) \ NEAREST_KERNEL_RAW(yuv444p_ ## C) \ NEAREST_KERNEL_RAW(p010le_ ## C) \ NEAREST_KERNEL_RAW(p016le_ ## C) \ NEAREST_KERNEL_RAW(yuv444p16le_ ## C) #define NEAREST_KERNELS_RGB(C) \ NEAREST_KERNEL_RAW(rgb0_ ## C) \ NEAREST_KERNEL_RAW(bgr0_ ## C) \ NEAREST_KERNEL_RAW(rgba_ ## C) \ NEAREST_KERNEL_RAW(bgra_ ## C) \ NEAREST_KERNELS(yuv420p) NEAREST_KERNELS(nv12) NEAREST_KERNELS(yuv444p) NEAREST_KERNELS(p010le) NEAREST_KERNELS(p016le) NEAREST_KERNELS(yuv444p16le) NEAREST_KERNELS_RGB(rgb0) NEAREST_KERNELS_RGB(bgr0) NEAREST_KERNELS_RGB(rgba) NEAREST_KERNELS_RGB(bgra) #define BILINEAR_KERNEL(C, S) \ __global__ void Subsample_Bilinear_##C##S( \ KERNEL_ARGS(Convert_##C::out_T##S)) \ { \ SUBSAMPLE((Convert_##C::Convert##S< \ Subsample_Bilinear, \ Subsample_Bilinear >), \ Convert_##C::out_T##S) \ } #define BILINEAR_KERNEL_RAW(C) \ BILINEAR_KERNEL(C,) \ BILINEAR_KERNEL(C,_uv) #define BILINEAR_KERNELS(C) \ BILINEAR_KERNEL_RAW(yuv420p_ ## C) \ BILINEAR_KERNEL_RAW(nv12_ ## C) \ BILINEAR_KERNEL_RAW(yuv444p_ ## C) \ BILINEAR_KERNEL_RAW(p010le_ ## C) \ BILINEAR_KERNEL_RAW(p016le_ ## C) \ BILINEAR_KERNEL_RAW(yuv444p16le_ ## C) #define BILINEAR_KERNELS_RGB(C) \ BILINEAR_KERNEL_RAW(rgb0_ ## C) \ BILINEAR_KERNEL_RAW(bgr0_ ## C) \ BILINEAR_KERNEL_RAW(rgba_ ## C) \ BILINEAR_KERNEL_RAW(bgra_ ## C) BILINEAR_KERNELS(yuv420p) BILINEAR_KERNELS(nv12) BILINEAR_KERNELS(yuv444p) BILINEAR_KERNELS(p010le) BILINEAR_KERNELS(p016le) BILINEAR_KERNELS(yuv444p16le) BILINEAR_KERNELS_RGB(rgb0) BILINEAR_KERNELS_RGB(bgr0) BILINEAR_KERNELS_RGB(rgba) BILINEAR_KERNELS_RGB(bgra) #define BICUBIC_KERNEL(C, S) \ __global__ void Subsample_Bicubic_##C##S( \ KERNEL_ARGS(Convert_##C::out_T##S)) \ { \ SUBSAMPLE((Convert_##C::Convert##S< \ Subsample_Bicubic, \ Subsample_Bicubic >), \ Convert_##C::out_T##S) \ } #define BICUBIC_KERNEL_RAW(C) \ BICUBIC_KERNEL(C,) \ BICUBIC_KERNEL(C,_uv) #define BICUBIC_KERNELS(C) \ BICUBIC_KERNEL_RAW(yuv420p_ ## C) \ BICUBIC_KERNEL_RAW(nv12_ ## C) \ BICUBIC_KERNEL_RAW(yuv444p_ ## C) \ BICUBIC_KERNEL_RAW(p010le_ ## C) \ BICUBIC_KERNEL_RAW(p016le_ ## C) \ BICUBIC_KERNEL_RAW(yuv444p16le_ ## C) #define BICUBIC_KERNELS_RGB(C) \ BICUBIC_KERNEL_RAW(rgb0_ ## C) \ BICUBIC_KERNEL_RAW(bgr0_ ## C) \ BICUBIC_KERNEL_RAW(rgba_ ## C) \ BICUBIC_KERNEL_RAW(bgra_ ## C) BICUBIC_KERNELS(yuv420p) BICUBIC_KERNELS(nv12) BICUBIC_KERNELS(yuv444p) BICUBIC_KERNELS(p010le) BICUBIC_KERNELS(p016le) BICUBIC_KERNELS(yuv444p16le) BICUBIC_KERNELS_RGB(rgb0) BICUBIC_KERNELS_RGB(bgr0) BICUBIC_KERNELS_RGB(rgba) BICUBIC_KERNELS_RGB(bgra) #define LANCZOS_KERNEL(C, S) \ __global__ void Subsample_Lanczos_##C##S( \ KERNEL_ARGS(Convert_##C::out_T##S)) \ { \ SUBSAMPLE((Convert_##C::Convert##S< \ Subsample_Bicubic, \ Subsample_Bicubic >), \ Convert_##C::out_T##S) \ } #define LANCZOS_KERNEL_RAW(C) \ LANCZOS_KERNEL(C,) \ LANCZOS_KERNEL(C,_uv) #define LANCZOS_KERNELS(C) \ LANCZOS_KERNEL_RAW(yuv420p_ ## C) \ LANCZOS_KERNEL_RAW(nv12_ ## C) \ LANCZOS_KERNEL_RAW(yuv444p_ ## C) \ LANCZOS_KERNEL_RAW(p010le_ ## C) \ LANCZOS_KERNEL_RAW(p016le_ ## C) \ LANCZOS_KERNEL_RAW(yuv444p16le_ ## C) #define LANCZOS_KERNELS_RGB(C) \ LANCZOS_KERNEL_RAW(rgb0_ ## C) \ LANCZOS_KERNEL_RAW(bgr0_ ## C) \ LANCZOS_KERNEL_RAW(rgba_ ## C) \ LANCZOS_KERNEL_RAW(bgra_ ## C) LANCZOS_KERNELS(yuv420p) LANCZOS_KERNELS(nv12) LANCZOS_KERNELS(yuv444p) LANCZOS_KERNELS(p010le) LANCZOS_KERNELS(p016le) LANCZOS_KERNELS(yuv444p16le) LANCZOS_KERNELS_RGB(rgb0) LANCZOS_KERNELS_RGB(bgr0) LANCZOS_KERNELS_RGB(rgba) LANCZOS_KERNELS_RGB(bgra) }