/** * Copyright (C) 2025 Niklas Haas * * This file is part of FFmpeg. * * FFmpeg is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * FFmpeg is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with FFmpeg; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "libavutil/avassert.h" #include "ops_backend.h" #ifndef BIT_DEPTH # define BIT_DEPTH 32 #endif #if BIT_DEPTH == 32 # define PIXEL_TYPE SWS_PIXEL_F32 # define PIXEL_MAX FLT_MAX # define PIXEL_MIN FLT_MIN # define pixel_t float # define block_t f32block_t # define px f32 #else # error Invalid BIT_DEPTH #endif #define IS_FLOAT 1 #define FMT_CHAR f #include "ops_tmpl_common.c" DECL_SETUP(setup_dither) { const int size = 1 << op->dither.size_log2; if (!size) { /* We special case this value */ av_assert1(!av_cmp_q(op->dither.matrix[0], av_make_q(1, 2))); out->ptr = NULL; return 0; } const int width = FFMAX(size, SWS_BLOCK_SIZE); pixel_t *matrix = out->ptr = av_malloc(sizeof(pixel_t) * size * width); if (!matrix) return AVERROR(ENOMEM); for (int y = 0; y < size; y++) { for (int x = 0; x < size; x++) matrix[y * width + x] = av_q2pixel(op->dither.matrix[y * size + x]); for (int x = size; x < width; x++) /* pad to block size */ matrix[y * width + x] = matrix[y * width + (x % size)]; } return 0; } DECL_FUNC(dither, const int size_log2) { const pixel_t *restrict matrix = impl->priv.ptr; const int mask = (1 << size_log2) - 1; const int y_line = iter->y; const int row0 = (y_line + 0) & mask; const int row1 = (y_line + 3) & mask; const int row2 = (y_line + 2) & mask; const int row3 = (y_line + 5) & mask; const int size = 1 << size_log2; const int width = FFMAX(size, SWS_BLOCK_SIZE); const int base = iter->x & ~(SWS_BLOCK_SIZE - 1) & (size - 1); SWS_LOOP for (int i = 0; i < SWS_BLOCK_SIZE; i++) { x[i] += size_log2 ? matrix[row0 * width + base + i] : (pixel_t) 0.5; y[i] += size_log2 ? matrix[row1 * width + base + i] : (pixel_t) 0.5; z[i] += size_log2 ? matrix[row2 * width + base + i] : (pixel_t) 0.5; w[i] += size_log2 ? matrix[row3 * width + base + i] : (pixel_t) 0.5; } CONTINUE(block_t, x, y, z, w); } #define WRAP_DITHER(N) \ DECL_IMPL(dither##N) \ { \ CALL(dither, N); \ } \ \ DECL_ENTRY(dither##N, \ .op = SWS_OP_DITHER, \ .dither_size = N, \ .setup = fn(setup_dither), \ .free = av_free, \ ); WRAP_DITHER(0) WRAP_DITHER(1) WRAP_DITHER(2) WRAP_DITHER(3) WRAP_DITHER(4) WRAP_DITHER(5) WRAP_DITHER(6) WRAP_DITHER(7) WRAP_DITHER(8) typedef struct { /* Stored in split form for convenience */ pixel_t m[4][4]; pixel_t k[4]; } fn(LinCoeffs); DECL_SETUP(setup_linear) { fn(LinCoeffs) c; for (int i = 0; i < 4; i++) { for (int j = 0; j < 4; j++) c.m[i][j] = av_q2pixel(op->lin.m[i][j]); c.k[i] = av_q2pixel(op->lin.m[i][4]); } return SETUP_MEMDUP(c); } /** * Fully general case for a 5x5 linear affine transformation. Should never be * called without constant `mask`. This function will compile down to the * appropriately optimized version for the required subset of operations when * called with a constant mask. */ DECL_FUNC(linear_mask, const uint32_t mask) { const fn(LinCoeffs) c = *(const fn(LinCoeffs) *) impl->priv.ptr; SWS_LOOP for (int i = 0; i < SWS_BLOCK_SIZE; i++) { const pixel_t xx = x[i]; const pixel_t yy = y[i]; const pixel_t zz = z[i]; const pixel_t ww = w[i]; x[i] = (mask & SWS_MASK_OFF(0)) ? c.k[0] : 0; x[i] += (mask & SWS_MASK(0, 0)) ? c.m[0][0] * xx : xx; x[i] += (mask & SWS_MASK(0, 1)) ? c.m[0][1] * yy : 0; x[i] += (mask & SWS_MASK(0, 2)) ? c.m[0][2] * zz : 0; x[i] += (mask & SWS_MASK(0, 3)) ? c.m[0][3] * ww : 0; y[i] = (mask & SWS_MASK_OFF(1)) ? c.k[1] : 0; y[i] += (mask & SWS_MASK(1, 0)) ? c.m[1][0] * xx : 0; y[i] += (mask & SWS_MASK(1, 1)) ? c.m[1][1] * yy : yy; y[i] += (mask & SWS_MASK(1, 2)) ? c.m[1][2] * zz : 0; y[i] += (mask & SWS_MASK(1, 3)) ? c.m[1][3] * ww : 0; z[i] = (mask & SWS_MASK_OFF(2)) ? c.k[2] : 0; z[i] += (mask & SWS_MASK(2, 0)) ? c.m[2][0] * xx : 0; z[i] += (mask & SWS_MASK(2, 1)) ? c.m[2][1] * yy : 0; z[i] += (mask & SWS_MASK(2, 2)) ? c.m[2][2] * zz : zz; z[i] += (mask & SWS_MASK(2, 3)) ? c.m[2][3] * ww : 0; w[i] = (mask & SWS_MASK_OFF(3)) ? c.k[3] : 0; w[i] += (mask & SWS_MASK(3, 0)) ? c.m[3][0] * xx : 0; w[i] += (mask & SWS_MASK(3, 1)) ? c.m[3][1] * yy : 0; w[i] += (mask & SWS_MASK(3, 2)) ? c.m[3][2] * zz : 0; w[i] += (mask & SWS_MASK(3, 3)) ? c.m[3][3] * ww : ww; } CONTINUE(block_t, x, y, z, w); } #define WRAP_LINEAR(NAME, MASK) \ DECL_IMPL(linear_##NAME) \ { \ CALL(linear_mask, MASK); \ } \ \ DECL_ENTRY(linear_##NAME, \ .op = SWS_OP_LINEAR, \ .setup = fn(setup_linear), \ .free = av_free, \ .linear_mask = (MASK), \ ); WRAP_LINEAR(luma, SWS_MASK_LUMA) WRAP_LINEAR(alpha, SWS_MASK_ALPHA) WRAP_LINEAR(lumalpha, SWS_MASK_LUMA | SWS_MASK_ALPHA) WRAP_LINEAR(dot3, 0x7) WRAP_LINEAR(row0, SWS_MASK_ROW(0)) WRAP_LINEAR(row0a, SWS_MASK_ROW(0) | SWS_MASK_ALPHA) WRAP_LINEAR(diag3, SWS_MASK_DIAG3) WRAP_LINEAR(diag4, SWS_MASK_DIAG4) WRAP_LINEAR(diagoff3, SWS_MASK_DIAG3 | SWS_MASK_OFF3) WRAP_LINEAR(matrix3, SWS_MASK_MAT3) WRAP_LINEAR(affine3, SWS_MASK_MAT3 | SWS_MASK_OFF3) WRAP_LINEAR(affine3a, SWS_MASK_MAT3 | SWS_MASK_OFF3 | SWS_MASK_ALPHA) WRAP_LINEAR(matrix4, SWS_MASK_MAT4) WRAP_LINEAR(affine4, SWS_MASK_MAT4 | SWS_MASK_OFF4) static const SwsOpTable fn(op_table_float) = { .block_size = SWS_BLOCK_SIZE, .entries = { REF_COMMON_PATTERNS(convert_uint8), REF_COMMON_PATTERNS(convert_uint16), REF_COMMON_PATTERNS(convert_uint32), &fn(op_clear_1110), REF_COMMON_PATTERNS(min), REF_COMMON_PATTERNS(max), REF_COMMON_PATTERNS(scale), &fn(op_dither0), &fn(op_dither1), &fn(op_dither2), &fn(op_dither3), &fn(op_dither4), &fn(op_dither5), &fn(op_dither6), &fn(op_dither7), &fn(op_dither8), &fn(op_linear_luma), &fn(op_linear_alpha), &fn(op_linear_lumalpha), &fn(op_linear_dot3), &fn(op_linear_row0), &fn(op_linear_row0a), &fn(op_linear_diag3), &fn(op_linear_diag4), &fn(op_linear_diagoff3), &fn(op_linear_matrix3), &fn(op_linear_affine3), &fn(op_linear_affine3a), &fn(op_linear_matrix4), &fn(op_linear_affine4), NULL }, }; #undef PIXEL_TYPE #undef PIXEL_MAX #undef PIXEL_MIN #undef pixel_t #undef block_t #undef px #undef FMT_CHAR #undef IS_FLOAT