mirror of https://github.com/mpv-player/mpv
711 lines
23 KiB
C
711 lines
23 KiB
C
/*
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* This file is part of mpv.
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*
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* mpv is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* mpv is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with mpv. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <math.h>
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#include <libavutil/cpu.h>
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#include "common/common.h"
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#include "common/msg.h"
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#include "csputils.h"
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#include "misc/thread_pool.h"
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#include "misc/thread_tools.h"
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#include "options/m_config.h"
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#include "options/m_option.h"
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#include "repack.h"
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#include "video/fmt-conversion.h"
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#include "video/img_format.h"
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#include "zimg.h"
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static_assert(MP_IMAGE_BYTE_ALIGN >= ZIMG_ALIGN, "");
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#define HAVE_ZIMG_ALPHA (ZIMG_API_VERSION >= ZIMG_MAKE_API_VERSION(2, 4))
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static const struct m_opt_choice_alternatives mp_zimg_scalers[] = {
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{"point", ZIMG_RESIZE_POINT},
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{"bilinear", ZIMG_RESIZE_BILINEAR},
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{"bicubic", ZIMG_RESIZE_BICUBIC},
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{"spline16", ZIMG_RESIZE_SPLINE16},
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{"spline36", ZIMG_RESIZE_SPLINE36},
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{"lanczos", ZIMG_RESIZE_LANCZOS},
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{0}
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};
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const struct zimg_opts zimg_opts_defaults = {
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.scaler = ZIMG_RESIZE_LANCZOS,
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.scaler_params = {NAN, NAN},
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.scaler_chroma_params = {NAN, NAN},
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.scaler_chroma = ZIMG_RESIZE_BILINEAR,
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.dither = ZIMG_DITHER_RANDOM,
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.fast = 1,
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};
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#define OPT_PARAM(var) OPT_DOUBLE(var), .flags = M_OPT_DEFAULT_NAN
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#define OPT_BASE_STRUCT struct zimg_opts
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const struct m_sub_options zimg_conf = {
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.opts = (struct m_option[]) {
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{"scaler", OPT_CHOICE_C(scaler, mp_zimg_scalers)},
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{"scaler-param-a", OPT_PARAM(scaler_params[0])},
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{"scaler-param-b", OPT_PARAM(scaler_params[1])},
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{"scaler-chroma", OPT_CHOICE_C(scaler_chroma, mp_zimg_scalers)},
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{"scaler-chroma-param-a", OPT_PARAM(scaler_chroma_params[0])},
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{"scaler-chroma-param-b", OPT_PARAM(scaler_chroma_params[1])},
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{"dither", OPT_CHOICE(dither,
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{"no", ZIMG_DITHER_NONE},
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{"ordered", ZIMG_DITHER_ORDERED},
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{"random", ZIMG_DITHER_RANDOM},
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{"error-diffusion", ZIMG_DITHER_ERROR_DIFFUSION})},
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{"fast", OPT_FLAG(fast)},
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{"threads", OPT_CHOICE(threads, {"auto", 0}), M_RANGE(1, 64)},
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{0}
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},
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.size = sizeof(struct zimg_opts),
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.defaults = &zimg_opts_defaults,
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};
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struct mp_zimg_state {
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zimg_filter_graph *graph;
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void *tmp;
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void *tmp_alloc;
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struct mp_zimg_repack *src;
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struct mp_zimg_repack *dst;
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int slice_y, slice_h; // y start position, height of target slice
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double scale_y;
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struct mp_waiter thread_waiter;
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};
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struct mp_zimg_repack {
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bool pack; // if false, this is for unpacking
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struct mp_image_params fmt; // original mp format (possibly packed format,
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// swapped endian)
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int zimgfmt; // zimg equivalent unpacked format
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int num_planes; // number of planes involved
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unsigned zmask[4]; // zmask[mp_index] = zimg mask (using mp index!)
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int z_planes[4]; // z_planes[zimg_index] = mp_index (or -1)
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struct mp_repack *repack; // converting to/from planar
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// Temporary memory for slice-wise repacking. This may be set even if repack
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// is not set (then it may be used to avoid alignment issues). This has
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// about one slice worth of data.
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struct mp_image *tmp;
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// Temporary memory for zimg buffer.
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zimg_image_buffer zbuf;
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struct mp_image cropped_tmp;
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int real_w, real_h; // aligned size
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};
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static void mp_zimg_update_from_cmdline(struct mp_zimg_context *ctx)
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{
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m_config_cache_update(ctx->opts_cache);
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struct zimg_opts *opts = ctx->opts_cache->opts;
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ctx->opts = *opts;
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}
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static zimg_chroma_location_e mp_to_z_chroma(enum mp_chroma_location cl)
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{
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switch (cl) {
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case MP_CHROMA_LEFT: return ZIMG_CHROMA_LEFT;
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case MP_CHROMA_CENTER: return ZIMG_CHROMA_CENTER;
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default: return ZIMG_CHROMA_LEFT;
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}
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}
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static zimg_matrix_coefficients_e mp_to_z_matrix(enum mp_csp csp)
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{
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switch (csp) {
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case MP_CSP_BT_601: return ZIMG_MATRIX_BT470_BG;
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case MP_CSP_BT_709: return ZIMG_MATRIX_BT709;
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case MP_CSP_SMPTE_240M: return ZIMG_MATRIX_ST240_M;
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case MP_CSP_BT_2020_NC: return ZIMG_MATRIX_BT2020_NCL;
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case MP_CSP_BT_2020_C: return ZIMG_MATRIX_BT2020_CL;
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case MP_CSP_RGB: return ZIMG_MATRIX_RGB;
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case MP_CSP_XYZ: return ZIMG_MATRIX_RGB;
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case MP_CSP_YCGCO: return ZIMG_MATRIX_YCGCO;
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default: return ZIMG_MATRIX_BT709;
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}
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}
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static zimg_transfer_characteristics_e mp_to_z_trc(enum mp_csp_trc trc)
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{
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switch (trc) {
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case MP_CSP_TRC_BT_1886: return ZIMG_TRANSFER_BT709;
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case MP_CSP_TRC_SRGB: return ZIMG_TRANSFER_IEC_61966_2_1;
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case MP_CSP_TRC_LINEAR: return ZIMG_TRANSFER_LINEAR;
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case MP_CSP_TRC_GAMMA22: return ZIMG_TRANSFER_BT470_M;
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case MP_CSP_TRC_GAMMA28: return ZIMG_TRANSFER_BT470_BG;
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case MP_CSP_TRC_PQ: return ZIMG_TRANSFER_ST2084;
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case MP_CSP_TRC_HLG: return ZIMG_TRANSFER_ARIB_B67;
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case MP_CSP_TRC_GAMMA18: // ?
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case MP_CSP_TRC_GAMMA20:
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case MP_CSP_TRC_GAMMA24:
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case MP_CSP_TRC_GAMMA26:
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case MP_CSP_TRC_PRO_PHOTO:
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case MP_CSP_TRC_V_LOG:
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case MP_CSP_TRC_S_LOG1:
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case MP_CSP_TRC_S_LOG2: // ?
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default: return ZIMG_TRANSFER_BT709;
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}
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}
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static zimg_color_primaries_e mp_to_z_prim(enum mp_csp_prim prim)
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{
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switch (prim) {
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case MP_CSP_PRIM_BT_601_525:return ZIMG_PRIMARIES_ST170_M;
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case MP_CSP_PRIM_BT_601_625:return ZIMG_PRIMARIES_BT470_BG;
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case MP_CSP_PRIM_BT_709: return ZIMG_PRIMARIES_BT709;
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case MP_CSP_PRIM_BT_2020: return ZIMG_PRIMARIES_BT2020;
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case MP_CSP_PRIM_BT_470M: return ZIMG_PRIMARIES_BT470_M;
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case MP_CSP_PRIM_CIE_1931: return ZIMG_PRIMARIES_ST428;
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case MP_CSP_PRIM_DCI_P3: return ZIMG_PRIMARIES_ST431_2;
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case MP_CSP_PRIM_DISPLAY_P3:return ZIMG_PRIMARIES_ST432_1;
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case MP_CSP_PRIM_APPLE: // ?
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case MP_CSP_PRIM_ADOBE:
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case MP_CSP_PRIM_PRO_PHOTO:
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case MP_CSP_PRIM_V_GAMUT:
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case MP_CSP_PRIM_S_GAMUT: // ?
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default: return ZIMG_PRIMARIES_BT709;
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}
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}
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static void destroy_zimg(struct mp_zimg_context *ctx)
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{
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for (int n = 0; n < ctx->num_states; n++) {
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struct mp_zimg_state *st = ctx->states[n];
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talloc_free(st->tmp_alloc);
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zimg_filter_graph_free(st->graph);
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TA_FREEP(&st->src);
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TA_FREEP(&st->dst);
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talloc_free(st);
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}
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ctx->num_states = 0;
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}
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static void free_mp_zimg(void *p)
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{
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struct mp_zimg_context *ctx = p;
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destroy_zimg(ctx);
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TA_FREEP(&ctx->tp);
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}
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struct mp_zimg_context *mp_zimg_alloc(void)
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{
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struct mp_zimg_context *ctx = talloc_ptrtype(NULL, ctx);
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*ctx = (struct mp_zimg_context) {
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.log = mp_null_log,
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};
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ctx->opts = *(struct zimg_opts *)zimg_conf.defaults;
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talloc_set_destructor(ctx, free_mp_zimg);
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return ctx;
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}
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void mp_zimg_enable_cmdline_opts(struct mp_zimg_context *ctx,
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struct mpv_global *g)
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{
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if (ctx->opts_cache)
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return;
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ctx->opts_cache = m_config_cache_alloc(ctx, g, &zimg_conf);
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destroy_zimg(ctx); // force update
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mp_zimg_update_from_cmdline(ctx); // first update
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}
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static int repack_entrypoint(void *user, unsigned i, unsigned x0, unsigned x1)
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{
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struct mp_zimg_repack *r = user;
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// If reading is not aligned, just read slightly more data.
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if (!r->pack)
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x0 &= ~(unsigned)(mp_repack_get_align_x(r->repack) - 1);
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// mp_repack requirements and zimg guarantees.
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assert(!(i & (mp_repack_get_align_y(r->repack) - 1)));
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assert(!(x0 & (mp_repack_get_align_x(r->repack) - 1)));
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unsigned i_src = i & (r->pack ? r->zmask[0] : ZIMG_BUFFER_MAX);
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unsigned i_dst = i & (r->pack ? ZIMG_BUFFER_MAX : r->zmask[0]);
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repack_line(r->repack, x0, i_dst, x0, i_src, x1 - x0);
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return 0;
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}
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static bool wrap_buffer(struct mp_zimg_state *st, struct mp_zimg_repack *r,
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struct mp_image *a_mpi)
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{
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zimg_image_buffer *buf = &r->zbuf;
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*buf = (zimg_image_buffer){ZIMG_API_VERSION};
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struct mp_image *mpi = a_mpi;
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if (r->pack) {
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mpi = &r->cropped_tmp;
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*mpi = *a_mpi;
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mp_image_crop(mpi, 0, st->slice_y, mpi->w, st->slice_y + st->slice_h);
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}
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bool direct[MP_MAX_PLANES] = {0};
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for (int p = 0; p < mpi->num_planes; p++) {
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// If alignment is good, try to avoid copy.
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direct[p] = !((uintptr_t)mpi->planes[p] % ZIMG_ALIGN) &&
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!(mpi->stride[p] % ZIMG_ALIGN);
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}
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if (!repack_config_buffers(r->repack, 0, r->pack ? mpi : r->tmp,
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0, r->pack ? r->tmp : mpi, direct))
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return false;
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for (int n = 0; n < MP_ARRAY_SIZE(buf->plane); n++) {
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// Note: this is really the only place we have to care about plane
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// permutation (zimg_image_buffer may have a different plane order
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// than the shadow mpi like r->tmp). We never use the zimg indexes
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// in other places.
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int mplane = r->z_planes[n];
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if (mplane < 0)
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continue;
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struct mp_image *tmpi = direct[mplane] ? mpi : r->tmp;
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buf->plane[n].data = tmpi->planes[mplane];
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buf->plane[n].stride = tmpi->stride[mplane];
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buf->plane[n].mask = direct[mplane] ? ZIMG_BUFFER_MAX : r->zmask[mplane];
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}
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return true;
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}
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// (ctx and st can be NULL for probing.)
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static bool setup_format(zimg_image_format *zfmt, struct mp_zimg_repack *r,
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bool pack, struct mp_image_params *user_fmt,
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struct mp_zimg_context *ctx,
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struct mp_zimg_state *st)
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{
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r->fmt = *user_fmt;
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r->pack = pack;
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zimg_image_format_default(zfmt, ZIMG_API_VERSION);
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int rp_flags = 0;
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// For e.g. RGB565, go to lowest depth on pack for less weird dithering.
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if (r->pack) {
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rp_flags |= REPACK_CREATE_ROUND_DOWN;
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} else {
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rp_flags |= REPACK_CREATE_EXPAND_8BIT;
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}
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r->repack = mp_repack_create_planar(r->fmt.imgfmt, r->pack, rp_flags);
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if (!r->repack)
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return false;
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int align_x = mp_repack_get_align_x(r->repack);
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r->zimgfmt = r->pack ? mp_repack_get_format_src(r->repack)
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: mp_repack_get_format_dst(r->repack);
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if (ctx) {
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talloc_steal(r, r->repack);
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} else {
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TA_FREEP(&r->repack);
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}
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struct mp_image_params fmt = r->fmt;
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mp_image_params_guess_csp(&fmt);
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struct mp_regular_imgfmt desc;
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if (!mp_get_regular_imgfmt(&desc, r->zimgfmt))
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return false;
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// Relies on zimg callbacks reading on 64 byte alignment.
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if (!MP_IS_POWER_OF_2(align_x) || align_x > 64 / desc.component_size)
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return false;
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// no weird stuff
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if (desc.num_planes > 4)
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return false;
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for (int n = 0; n < 4; n++)
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r->z_planes[n] = -1;
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for (int n = 0; n < desc.num_planes; n++) {
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if (desc.planes[n].num_components != 1)
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return false;
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int c = desc.planes[n].components[0];
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if (c < 1 || c > 4)
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return false;
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if (c < 4) {
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// Unfortunately, ffmpeg prefers GBR order for planar RGB, while zimg
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// is sane. This makes it necessary to determine and fix the order.
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r->z_planes[c - 1] = n;
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} else {
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r->z_planes[3] = n; // alpha, always plane 4 in zimg
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#if HAVE_ZIMG_ALPHA
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zfmt->alpha = fmt.alpha == MP_ALPHA_PREMUL
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? ZIMG_ALPHA_PREMULTIPLIED : ZIMG_ALPHA_STRAIGHT;
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#else
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return false;
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#endif
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}
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}
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r->num_planes = desc.num_planes;
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// Take care of input/output size, including slicing.
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// Note: formats with subsampled chroma may have odd width or height in
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// mpv and FFmpeg. This is because the width/height is actually a cropping
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// rectangle. Reconstruct the image allocation size and set the cropping.
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zfmt->width = r->real_w = MP_ALIGN_UP(fmt.w, 1 << desc.chroma_xs);
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zfmt->height = r->real_h = MP_ALIGN_UP(fmt.h, 1 << desc.chroma_ys);
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if (st) {
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if (r->pack) {
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zfmt->height = r->real_h = st->slice_h =
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MPMIN(st->slice_y + st->slice_h, r->real_h) - st->slice_y;
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assert(MP_IS_ALIGNED(r->real_h, 1 << desc.chroma_ys));
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} else {
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// Relies on st->dst being initialized first.
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struct mp_zimg_repack *dst = st->dst;
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zfmt->active_region.width = dst->real_w * (double)fmt.w / dst->fmt.w;
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zfmt->active_region.height = dst->real_h * st->scale_y;
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zfmt->active_region.top = st->slice_y * st->scale_y;
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}
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}
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zfmt->subsample_w = desc.chroma_xs;
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zfmt->subsample_h = desc.chroma_ys;
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zfmt->color_family = ZIMG_COLOR_YUV;
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if (desc.num_planes <= 2) {
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zfmt->color_family = ZIMG_COLOR_GREY;
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} else if (fmt.color.space == MP_CSP_RGB || fmt.color.space == MP_CSP_XYZ) {
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zfmt->color_family = ZIMG_COLOR_RGB;
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}
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if (desc.component_type == MP_COMPONENT_TYPE_UINT &&
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desc.component_size == 1)
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{
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zfmt->pixel_type = ZIMG_PIXEL_BYTE;
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} else if (desc.component_type == MP_COMPONENT_TYPE_UINT &&
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desc.component_size == 2)
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{
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zfmt->pixel_type = ZIMG_PIXEL_WORD;
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} else if (desc.component_type == MP_COMPONENT_TYPE_FLOAT &&
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desc.component_size == 2)
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{
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zfmt->pixel_type = ZIMG_PIXEL_HALF;
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} else if (desc.component_type == MP_COMPONENT_TYPE_FLOAT &&
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desc.component_size == 4)
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{
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zfmt->pixel_type = ZIMG_PIXEL_FLOAT;
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} else {
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return false;
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}
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// (Formats like P010 are basically reported as P016.)
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zfmt->depth = desc.component_size * 8 + MPMIN(0, desc.component_pad);
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zfmt->pixel_range = fmt.color.levels == MP_CSP_LEVELS_PC ?
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ZIMG_RANGE_FULL : ZIMG_RANGE_LIMITED;
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zfmt->matrix_coefficients = mp_to_z_matrix(fmt.color.space);
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zfmt->transfer_characteristics = mp_to_z_trc(fmt.color.gamma);
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zfmt->color_primaries = mp_to_z_prim(fmt.color.primaries);
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zfmt->chroma_location = mp_to_z_chroma(fmt.chroma_location);
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if (ctx && ctx->opts.fast) {
|
|
// mpv's default for RGB output slows down zimg significantly.
|
|
if (zfmt->transfer_characteristics == ZIMG_TRANSFER_IEC_61966_2_1 &&
|
|
zfmt->color_family == ZIMG_COLOR_RGB)
|
|
zfmt->transfer_characteristics = ZIMG_TRANSFER_BT709;
|
|
}
|
|
|
|
// mpv treats _some_ gray formats as RGB; zimg doesn't like this.
|
|
if (zfmt->color_family == ZIMG_COLOR_GREY &&
|
|
zfmt->matrix_coefficients == ZIMG_MATRIX_RGB)
|
|
zfmt->matrix_coefficients = ZIMG_MATRIX_BT470_BG;
|
|
|
|
return true;
|
|
}
|
|
|
|
static bool allocate_buffer(struct mp_zimg_state *st, struct mp_zimg_repack *r)
|
|
{
|
|
unsigned lines = 0;
|
|
int err;
|
|
if (r->pack) {
|
|
err = zimg_filter_graph_get_output_buffering(st->graph, &lines);
|
|
} else {
|
|
err = zimg_filter_graph_get_input_buffering(st->graph, &lines);
|
|
}
|
|
|
|
if (err)
|
|
return false;
|
|
|
|
r->zmask[0] = zimg_select_buffer_mask(lines);
|
|
|
|
// Either ZIMG_BUFFER_MAX, or a power-of-2 slice buffer.
|
|
assert(r->zmask[0] == ZIMG_BUFFER_MAX || MP_IS_POWER_OF_2(r->zmask[0] + 1));
|
|
|
|
int h = r->zmask[0] == ZIMG_BUFFER_MAX ? r->real_h : r->zmask[0] + 1;
|
|
if (h >= r->real_h) {
|
|
h = r->real_h;
|
|
r->zmask[0] = ZIMG_BUFFER_MAX;
|
|
}
|
|
|
|
r->tmp = mp_image_alloc(r->zimgfmt, r->real_w, h);
|
|
talloc_steal(r, r->tmp);
|
|
|
|
if (!r->tmp)
|
|
return false;
|
|
|
|
// Note: although zimg doesn't require that the chroma plane's zmask is
|
|
// divided by the full size zmask, the repack callback requires it,
|
|
// since mp_repack can handle only proper slices.
|
|
for (int n = 1; n < r->tmp->fmt.num_planes; n++) {
|
|
r->zmask[n] = r->zmask[0];
|
|
if (r->zmask[0] != ZIMG_BUFFER_MAX)
|
|
r->zmask[n] = r->zmask[n] >> r->tmp->fmt.ys[n];
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
static bool mp_zimg_state_init(struct mp_zimg_context *ctx,
|
|
struct mp_zimg_state *st,
|
|
int slice_y, int slice_h)
|
|
{
|
|
struct zimg_opts *opts = &ctx->opts;
|
|
|
|
st->src = talloc_zero(NULL, struct mp_zimg_repack);
|
|
st->dst = talloc_zero(NULL, struct mp_zimg_repack);
|
|
|
|
st->scale_y = ctx->src.h / (double)ctx->dst.h;
|
|
st->slice_y = slice_y;
|
|
st->slice_h = slice_h;
|
|
|
|
zimg_image_format src_fmt, dst_fmt;
|
|
|
|
// Note: do dst first, because src uses fields from dst.
|
|
if (!setup_format(&dst_fmt, st->dst, true, &ctx->dst, ctx, st) ||
|
|
!setup_format(&src_fmt, st->src, false, &ctx->src, ctx, st))
|
|
return false;
|
|
|
|
zimg_graph_builder_params params;
|
|
zimg_graph_builder_params_default(¶ms, ZIMG_API_VERSION);
|
|
|
|
params.resample_filter = opts->scaler;
|
|
params.filter_param_a = opts->scaler_params[0];
|
|
params.filter_param_b = opts->scaler_params[1];
|
|
|
|
params.resample_filter_uv = opts->scaler_chroma;
|
|
params.filter_param_a_uv = opts->scaler_chroma_params[0];
|
|
params.filter_param_b_uv = opts->scaler_chroma_params[1];
|
|
|
|
params.dither_type = opts->dither;
|
|
|
|
params.cpu_type = ZIMG_CPU_AUTO_64B;
|
|
|
|
if (opts->fast)
|
|
params.allow_approximate_gamma = 1;
|
|
|
|
if (ctx->src.color.sig_peak > 0)
|
|
params.nominal_peak_luminance = ctx->src.color.sig_peak;
|
|
|
|
st->graph = zimg_filter_graph_build(&src_fmt, &dst_fmt, ¶ms);
|
|
if (!st->graph) {
|
|
char err[128] = {0};
|
|
zimg_get_last_error(err, sizeof(err) - 1);
|
|
MP_ERR(ctx, "zimg_filter_graph_build: %s \n", err);
|
|
return false;
|
|
}
|
|
|
|
size_t tmp_size;
|
|
if (!zimg_filter_graph_get_tmp_size(st->graph, &tmp_size)) {
|
|
tmp_size = MP_ALIGN_UP(tmp_size, ZIMG_ALIGN) + ZIMG_ALIGN;
|
|
st->tmp_alloc = ta_alloc_size(NULL, tmp_size);
|
|
if (st->tmp_alloc)
|
|
st->tmp = (void *)MP_ALIGN_UP((uintptr_t)st->tmp_alloc, ZIMG_ALIGN);
|
|
}
|
|
|
|
if (!st->tmp_alloc)
|
|
return false;
|
|
|
|
if (!allocate_buffer(st, st->src) || !allocate_buffer(st, st->dst))
|
|
return false;
|
|
|
|
return true;
|
|
}
|
|
|
|
bool mp_zimg_config(struct mp_zimg_context *ctx)
|
|
{
|
|
destroy_zimg(ctx);
|
|
|
|
if (ctx->opts_cache)
|
|
mp_zimg_update_from_cmdline(ctx);
|
|
|
|
int slices = ctx->opts.threads;
|
|
if (slices < 1)
|
|
slices = av_cpu_count();
|
|
slices = MPCLAMP(slices, 1, 64);
|
|
|
|
struct mp_imgfmt_desc dstfmt = mp_imgfmt_get_desc(ctx->dst.imgfmt);
|
|
if (!dstfmt.align_y)
|
|
goto fail;
|
|
int full_h = MP_ALIGN_UP(ctx->dst.h, dstfmt.align_y);
|
|
int slice_h = (full_h + slices - 1) / slices;
|
|
slice_h = MP_ALIGN_UP(slice_h, dstfmt.align_y);
|
|
slice_h = MP_ALIGN_UP(slice_h, 64); // for dithering and minimum slice size
|
|
slices = (full_h + slice_h - 1) / slice_h;
|
|
|
|
int threads = slices - 1;
|
|
if (threads != ctx->current_thread_count) {
|
|
// Just destroy and recreate all - dumb and costly, but rarely happens.
|
|
TA_FREEP(&ctx->tp);
|
|
ctx->current_thread_count = 0;
|
|
if (threads) {
|
|
MP_VERBOSE(ctx, "using %d threads for scaling\n", threads);
|
|
ctx->tp = mp_thread_pool_create(NULL, threads, threads, threads);
|
|
if (!ctx->tp)
|
|
goto fail;
|
|
ctx->current_thread_count = threads;
|
|
}
|
|
}
|
|
|
|
for (int n = 0; n < slices; n++) {
|
|
struct mp_zimg_state *st = talloc_zero(NULL, struct mp_zimg_state);
|
|
MP_TARRAY_APPEND(ctx, ctx->states, ctx->num_states, st);
|
|
|
|
if (!mp_zimg_state_init(ctx, st, n * slice_h, slice_h))
|
|
goto fail;
|
|
}
|
|
|
|
assert(ctx->num_states == slices);
|
|
|
|
return true;
|
|
|
|
fail:
|
|
destroy_zimg(ctx);
|
|
return false;
|
|
}
|
|
|
|
bool mp_zimg_config_image_params(struct mp_zimg_context *ctx)
|
|
{
|
|
if (ctx->num_states) {
|
|
// All states are the same, so checking only one of them is sufficient.
|
|
struct mp_zimg_state *st = ctx->states[0];
|
|
if (st->src && mp_image_params_equal(&ctx->src, &st->src->fmt) &&
|
|
st->dst && mp_image_params_equal(&ctx->dst, &st->dst->fmt) &&
|
|
(!ctx->opts_cache || !m_config_cache_update(ctx->opts_cache)) &&
|
|
st->graph)
|
|
return true;
|
|
}
|
|
return mp_zimg_config(ctx);
|
|
}
|
|
|
|
static void do_convert(struct mp_zimg_state *st)
|
|
{
|
|
assert(st->graph);
|
|
|
|
// An annoyance.
|
|
zimg_image_buffer *zsrc = &st->src->zbuf;
|
|
zimg_image_buffer_const zsrc_c = {ZIMG_API_VERSION};
|
|
for (int n = 0; n < MP_ARRAY_SIZE(zsrc_c.plane); n++) {
|
|
zsrc_c.plane[n].data = zsrc->plane[n].data;
|
|
zsrc_c.plane[n].stride = zsrc->plane[n].stride;
|
|
zsrc_c.plane[n].mask = zsrc->plane[n].mask;
|
|
}
|
|
|
|
// (The API promises to succeed if no user callbacks fail, so no need
|
|
// to check the return value.)
|
|
zimg_filter_graph_process(st->graph, &zsrc_c, &st->dst->zbuf, st->tmp,
|
|
repack_entrypoint, st->src,
|
|
repack_entrypoint, st->dst);
|
|
}
|
|
|
|
static void do_convert_thread(void *ptr)
|
|
{
|
|
struct mp_zimg_state *st = ptr;
|
|
|
|
do_convert(st);
|
|
mp_waiter_wakeup(&st->thread_waiter, 0);
|
|
}
|
|
|
|
bool mp_zimg_convert(struct mp_zimg_context *ctx, struct mp_image *dst,
|
|
struct mp_image *src)
|
|
{
|
|
ctx->src = src->params;
|
|
ctx->dst = dst->params;
|
|
|
|
if (!mp_zimg_config_image_params(ctx)) {
|
|
MP_ERR(ctx, "zimg initialization failed.\n");
|
|
return false;
|
|
}
|
|
|
|
for (int n = 0; n < ctx->num_states; n++) {
|
|
struct mp_zimg_state *st = ctx->states[n];
|
|
|
|
if (!wrap_buffer(st, st->src, src) || !wrap_buffer(st, st->dst, dst)) {
|
|
MP_ERR(ctx, "zimg repacker initialization failed.\n");
|
|
return false;
|
|
}
|
|
}
|
|
|
|
for (int n = 1; n < ctx->num_states; n++) {
|
|
struct mp_zimg_state *st = ctx->states[n];
|
|
|
|
st->thread_waiter = (struct mp_waiter)MP_WAITER_INITIALIZER;
|
|
|
|
bool r = mp_thread_pool_run(ctx->tp, do_convert_thread, st);
|
|
// This is guaranteed by the API; and unrolling would be inconvenient.
|
|
assert(r);
|
|
}
|
|
|
|
do_convert(ctx->states[0]);
|
|
|
|
for (int n = 1; n < ctx->num_states; n++) {
|
|
struct mp_zimg_state *st = ctx->states[n];
|
|
|
|
mp_waiter_wait(&st->thread_waiter);
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
static bool supports_format(int imgfmt, bool out)
|
|
{
|
|
struct mp_image_params fmt = {.imgfmt = imgfmt};
|
|
struct mp_zimg_repack t;
|
|
zimg_image_format zfmt;
|
|
return setup_format(&zfmt, &t, out, &fmt, NULL, NULL);
|
|
}
|
|
|
|
bool mp_zimg_supports_in_format(int imgfmt)
|
|
{
|
|
return supports_format(imgfmt, false);
|
|
}
|
|
|
|
bool mp_zimg_supports_out_format(int imgfmt)
|
|
{
|
|
return supports_format(imgfmt, true);
|
|
}
|