mirror of https://github.com/mpv-player/mpv
591 lines
19 KiB
C
591 lines
19 KiB
C
/*
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* This file is part of MPlayer.
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*
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* MPlayer is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* MPlayer 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 General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with MPlayer; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#include "config.h"
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <assert.h>
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#include <libavutil/mem.h>
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#include <libavutil/common.h>
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#include <libavutil/bswap.h>
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#include <libavcodec/avcodec.h>
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#include "talloc.h"
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#include "img_format.h"
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#include "mp_image.h"
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#include "sws_utils.h"
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#include "memcpy_pic.h"
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#include "fmt-conversion.h"
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struct m_refcount {
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void *arg;
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// free() is called if refcount reaches 0.
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void (*free)(void *arg);
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// External refcounted object (such as libavcodec DR buffers). This assumes
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// that the actual data is managed by the external object, not by
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// m_refcount. The .ext_* calls use that external object's refcount
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// primitives.
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void (*ext_ref)(void *arg);
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void (*ext_unref)(void *arg);
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bool (*ext_is_unique)(void *arg);
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// Native refcount (there may be additional references if .ext_* are set)
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int refcount;
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};
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// Only for checking API usage
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static int m_refcount_destructor(void *ptr)
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{
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struct m_refcount *ref = ptr;
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assert(ref->refcount == 0);
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return 0;
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}
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// Starts out with refcount==1, caller can set .arg and .free and .ext_*
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static struct m_refcount *m_refcount_new(void)
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{
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struct m_refcount *ref = talloc_ptrtype(NULL, ref);
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*ref = (struct m_refcount) { .refcount = 1 };
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talloc_set_destructor(ref, m_refcount_destructor);
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return ref;
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}
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static void m_refcount_ref(struct m_refcount *ref)
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{
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ref->refcount++;
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if (ref->ext_ref)
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ref->ext_ref(ref->arg);
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}
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static void m_refcount_unref(struct m_refcount *ref)
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{
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assert(ref->refcount > 0);
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if (ref->ext_unref)
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ref->ext_unref(ref->arg);
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ref->refcount--;
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if (ref->refcount == 0) {
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if (ref->free)
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ref->free(ref->arg);
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talloc_free(ref);
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}
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}
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static bool m_refcount_is_unique(struct m_refcount *ref)
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{
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if (ref->refcount > 1)
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return false;
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if (ref->ext_is_unique)
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return ref->ext_is_unique(ref->arg); // referenced only by us
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return true;
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}
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static void mp_image_alloc_planes(struct mp_image *mpi)
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{
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assert(!mpi->planes[0]);
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size_t plane_size[MP_MAX_PLANES];
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for (int n = 0; n < MP_MAX_PLANES; n++) {
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int alloc_h = MP_ALIGN_UP(mpi->h, 32) >> mpi->fmt.ys[n];
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int line_bytes = (mpi->plane_w[n] * mpi->fmt.bpp[n] + 7) / 8;
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mpi->stride[n] = FFALIGN(line_bytes, SWS_MIN_BYTE_ALIGN);
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plane_size[n] = mpi->stride[n] * alloc_h;
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}
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if (mpi->imgfmt == IMGFMT_PAL8)
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plane_size[1] = MP_PALETTE_SIZE;
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size_t sum = 0;
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for (int n = 0; n < MP_MAX_PLANES; n++)
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sum += plane_size[n];
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uint8_t *data = av_malloc(FFMAX(sum, 1));
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if (!data)
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abort(); //out of memory
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for (int n = 0; n < MP_MAX_PLANES; n++) {
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mpi->planes[n] = plane_size[n] ? data : NULL;
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data += plane_size[n];
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}
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}
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void mp_image_setfmt(struct mp_image *mpi, unsigned int out_fmt)
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{
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mpi->flags &= ~MP_IMGFLAG_FMT_MASK;
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struct mp_imgfmt_desc fmt = mp_imgfmt_get_desc(out_fmt);
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mpi->fmt = fmt;
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mpi->flags |= fmt.flags;
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mpi->imgfmt = fmt.id;
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mpi->chroma_x_shift = fmt.chroma_xs;
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mpi->chroma_y_shift = fmt.chroma_ys;
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mpi->num_planes = fmt.num_planes;
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mp_image_set_size(mpi, mpi->w, mpi->h);
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}
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static int mp_image_destructor(void *ptr)
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{
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mp_image_t *mpi = ptr;
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m_refcount_unref(mpi->refcount);
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return 0;
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}
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static int mp_chroma_div_up(int size, int shift)
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{
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return (size + (1 << shift) - 1) >> shift;
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}
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// Caller has to make sure this doesn't exceed the allocated plane data/strides.
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void mp_image_set_size(struct mp_image *mpi, int w, int h)
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{
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mpi->w = mpi->display_w = w;
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mpi->h = mpi->display_h = h;
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for (int n = 0; n < mpi->num_planes; n++) {
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mpi->plane_w[n] = mp_chroma_div_up(mpi->w, mpi->fmt.xs[n]);
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mpi->plane_h[n] = mp_chroma_div_up(mpi->h, mpi->fmt.ys[n]);
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}
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mpi->chroma_width = mpi->plane_w[1];
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mpi->chroma_height = mpi->plane_h[1];
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}
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void mp_image_set_display_size(struct mp_image *mpi, int dw, int dh)
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{
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mpi->display_w = dw;
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mpi->display_h = dh;
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}
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struct mp_image *mp_image_alloc(unsigned int imgfmt, int w, int h)
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{
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struct mp_image *mpi = talloc_zero(NULL, struct mp_image);
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talloc_set_destructor(mpi, mp_image_destructor);
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mp_image_set_size(mpi, w, h);
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mp_image_setfmt(mpi, imgfmt);
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mp_image_alloc_planes(mpi);
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mpi->refcount = m_refcount_new();
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mpi->refcount->free = av_free;
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mpi->refcount->arg = mpi->planes[0];
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return mpi;
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}
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struct mp_image *mp_image_new_copy(struct mp_image *img)
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{
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struct mp_image *new = mp_image_alloc(img->imgfmt, img->w, img->h);
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mp_image_copy(new, img);
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mp_image_copy_attributes(new, img);
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// Normally these are covered by the reference to the original image data
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// (like the AVFrame in vd_lavc.c), but we can't manage it on our own.
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new->qscale = NULL;
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new->qstride = 0;
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return new;
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}
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// Make dst take over the image data of src, and free src.
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// This is basically a safe version of *dst = *src; free(src);
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// Only works with ref-counted images, and can't change image size/format.
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void mp_image_steal_data(struct mp_image *dst, struct mp_image *src)
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{
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assert(dst->imgfmt == src->imgfmt && dst->w == src->w && dst->h == src->h);
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assert(dst->refcount && src->refcount);
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for (int p = 0; p < MP_MAX_PLANES; p++) {
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dst->planes[p] = src->planes[p];
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dst->stride[p] = src->stride[p];
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}
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mp_image_copy_attributes(dst, src);
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m_refcount_unref(dst->refcount);
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dst->refcount = src->refcount;
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talloc_set_destructor(src, NULL);
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talloc_free(src);
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}
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// Return a new reference to img. The returned reference is owned by the caller,
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// while img is left untouched.
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struct mp_image *mp_image_new_ref(struct mp_image *img)
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{
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if (!img->refcount)
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return mp_image_new_copy(img);
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struct mp_image *new = talloc_ptrtype(NULL, new);
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talloc_set_destructor(new, mp_image_destructor);
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*new = *img;
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m_refcount_ref(new->refcount);
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return new;
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}
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// Return a reference counted reference to img. If the reference count reaches
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// 0, call free(free_arg). The data passed by img must not be free'd before
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// that. The new reference will be writeable.
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struct mp_image *mp_image_new_custom_ref(struct mp_image *img, void *free_arg,
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void (*free)(void *arg))
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{
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return mp_image_new_external_ref(img, free_arg, NULL, NULL, NULL, free);
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}
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// Return a reference counted reference to img. ref/unref/is_unique are used to
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// connect to an external refcounting API. It is assumed that the new object
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// has an initial reference to that external API. If free is given, that is
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// called after the last unref. All function pointers are optional.
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struct mp_image *mp_image_new_external_ref(struct mp_image *img, void *arg,
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void (*ref)(void *arg),
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void (*unref)(void *arg),
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bool (*is_unique)(void *arg),
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void (*free)(void *arg))
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{
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struct mp_image *new = talloc_ptrtype(NULL, new);
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talloc_set_destructor(new, mp_image_destructor);
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*new = *img;
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new->refcount = m_refcount_new();
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new->refcount->ext_ref = ref;
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new->refcount->ext_unref = unref;
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new->refcount->ext_is_unique = is_unique;
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new->refcount->free = free;
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new->refcount->arg = arg;
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return new;
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}
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bool mp_image_is_writeable(struct mp_image *img)
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{
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if (!img->refcount)
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return true; // not ref-counted => always considered writeable
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return m_refcount_is_unique(img->refcount);
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}
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// Make the image data referenced by img writeable. This allocates new data
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// if the data wasn't already writeable, and img->planes[] and img->stride[]
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// will be set to the copy.
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void mp_image_make_writeable(struct mp_image *img)
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{
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if (mp_image_is_writeable(img))
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return;
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mp_image_steal_data(img, mp_image_new_copy(img));
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assert(mp_image_is_writeable(img));
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}
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void mp_image_setrefp(struct mp_image **p_img, struct mp_image *new_value)
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{
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if (*p_img != new_value) {
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talloc_free(*p_img);
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*p_img = new_value ? mp_image_new_ref(new_value) : NULL;
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}
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}
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// Mere helper function (mp_image can be directly free'd with talloc_free)
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void mp_image_unrefp(struct mp_image **p_img)
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{
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talloc_free(*p_img);
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*p_img = NULL;
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}
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void mp_image_copy(struct mp_image *dst, struct mp_image *src)
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{
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assert(dst->imgfmt == src->imgfmt);
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assert(dst->w == src->w && dst->h == src->h);
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assert(mp_image_is_writeable(dst));
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for (int n = 0; n < dst->num_planes; n++) {
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int line_bytes = (dst->plane_w[n] * dst->fmt.bpp[n] + 7) / 8;
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memcpy_pic(dst->planes[n], src->planes[n], line_bytes, dst->plane_h[n],
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dst->stride[n], src->stride[n]);
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}
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if (dst->imgfmt == IMGFMT_PAL8)
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memcpy(dst->planes[1], src->planes[1], MP_PALETTE_SIZE);
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}
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void mp_image_copy_attributes(struct mp_image *dst, struct mp_image *src)
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{
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dst->pict_type = src->pict_type;
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dst->fields = src->fields;
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dst->qscale_type = src->qscale_type;
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dst->pts = src->pts;
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if (dst->w == src->w && dst->h == src->h) {
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dst->display_w = src->display_w;
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dst->display_h = src->display_h;
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}
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if ((dst->flags & MP_IMGFLAG_YUV) == (src->flags & MP_IMGFLAG_YUV)) {
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dst->colorspace = src->colorspace;
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dst->levels = src->levels;
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dst->chroma_location = src->chroma_location;
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}
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if (dst->imgfmt == IMGFMT_PAL8 && src->imgfmt == IMGFMT_PAL8) {
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if (dst->planes[1] && src->planes[1])
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memcpy(dst->planes[1], src->planes[1], MP_PALETTE_SIZE);
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}
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}
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// Crop the given image to (x0, y0)-(x1, y1) (bottom/right border exclusive)
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// x0/y0 must be naturally aligned.
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void mp_image_crop(struct mp_image *img, int x0, int y0, int x1, int y1)
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{
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assert(x0 >= 0 && y0 >= 0);
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assert(x0 <= x1 && y0 <= y1);
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assert(x1 <= img->w && y1 <= img->h);
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assert(!(x0 & (img->fmt.align_x - 1)));
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assert(!(y0 & (img->fmt.align_y - 1)));
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for (int p = 0; p < img->num_planes; ++p) {
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img->planes[p] += (y0 >> img->fmt.ys[p]) * img->stride[p] +
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(x0 >> img->fmt.xs[p]) * img->fmt.bpp[p] / 8;
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}
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mp_image_set_size(img, x1 - x0, y1 - y0);
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}
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void mp_image_crop_rc(struct mp_image *img, struct mp_rect rc)
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{
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mp_image_crop(img, rc.x0, rc.y0, rc.x1, rc.y1);
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}
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// Bottom/right border is allowed not to be aligned, but it might implicitly
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// overwrite pixel data until the alignment (align_x/align_y) is reached.
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void mp_image_clear(struct mp_image *img, int x0, int y0, int x1, int y1)
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{
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assert(x0 >= 0 && y0 >= 0);
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assert(x0 <= x1 && y0 <= y1);
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assert(x1 <= img->w && y1 <= img->h);
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assert(!(x0 & (img->fmt.align_x - 1)));
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assert(!(y0 & (img->fmt.align_y - 1)));
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struct mp_image area = *img;
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mp_image_crop(&area, x0, y0, x1, y1);
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uint32_t plane_clear[MP_MAX_PLANES] = {0};
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if (area.imgfmt == IMGFMT_YUYV) {
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plane_clear[0] = av_le2ne16(0x8000);
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} else if (area.imgfmt == IMGFMT_UYVY) {
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plane_clear[0] = av_le2ne16(0x0080);
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} else if (area.imgfmt == IMGFMT_NV12 || area.imgfmt == IMGFMT_NV21) {
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plane_clear[1] = 0x8080;
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} else if (area.flags & MP_IMGFLAG_YUV_P) {
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uint16_t chroma_clear = (1 << area.fmt.plane_bits) / 2;
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if (!(area.flags & MP_IMGFLAG_NE))
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chroma_clear = av_bswap16(chroma_clear);
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if (area.num_planes > 2)
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plane_clear[1] = plane_clear[2] = chroma_clear;
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}
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for (int p = 0; p < area.num_planes; p++) {
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int bpp = area.fmt.bpp[p];
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int bytes = (area.plane_w[p] * bpp + 7) / 8;
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if (bpp <= 8) {
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memset_pic(area.planes[p], plane_clear[p], bytes,
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area.plane_h[p], area.stride[p]);
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} else {
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memset16_pic(area.planes[p], plane_clear[p], (bytes + 1) / 2,
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area.plane_h[p], area.stride[p]);
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}
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}
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}
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void mp_image_vflip(struct mp_image *img)
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{
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for (int p = 0; p < img->num_planes; p++) {
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img->planes[p] = img->planes[p] + img->stride[p] * (img->plane_h[p] - 1);
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img->stride[p] = -img->stride[p];
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}
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}
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enum mp_csp mp_image_csp(struct mp_image *img)
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{
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if (img->colorspace != MP_CSP_AUTO)
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return img->colorspace;
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return (img->flags & MP_IMGFLAG_YUV) ? MP_CSP_BT_601 : MP_CSP_RGB;
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}
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enum mp_csp_levels mp_image_levels(struct mp_image *img)
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{
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if (img->levels != MP_CSP_LEVELS_AUTO)
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return img->levels;
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return (img->flags & MP_IMGFLAG_YUV) ? MP_CSP_LEVELS_TV : MP_CSP_LEVELS_PC;
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}
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static void mp_image_params_from_image(struct mp_image_params *params,
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const struct mp_image *image)
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{
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// (Ideally mp_image should use mp_image_params directly instead)
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*params = (struct mp_image_params) {
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.imgfmt = image->imgfmt,
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.w = image->w,
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.h = image->h,
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.d_w = image->display_w,
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.d_h = image->display_h,
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.colorspace = image->colorspace,
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.colorlevels = image->levels,
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};
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}
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void mp_image_set_colorspace_details(struct mp_image *image,
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struct mp_csp_details *csp)
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{
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struct mp_image_params params;
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mp_image_params_from_image(¶ms, image);
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mp_image_params_guess_csp(¶ms);
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image->colorspace = params.colorspace;
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image->levels = params.colorlevels;
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}
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// If details like params->colorspace/colorlevels are missing, guess them from
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// the other settings. Also, even if they are set, make them consistent with
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// the colorspace as implied by the pixel format.
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void mp_image_params_guess_csp(struct mp_image_params *params)
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{
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struct mp_imgfmt_desc fmt = mp_imgfmt_get_desc(params->imgfmt);
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if (!fmt.id)
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return;
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if (fmt.flags & MP_IMGFLAG_YUV) {
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|
if (params->colorspace != MP_CSP_BT_601 &&
|
|
params->colorspace != MP_CSP_BT_709 &&
|
|
params->colorspace != MP_CSP_SMPTE_240M &&
|
|
params->colorspace != MP_CSP_YCGCO)
|
|
{
|
|
// Makes no sense, so guess instead
|
|
// YCGCO should be separate, but libavcodec disagrees
|
|
params->colorspace = MP_CSP_AUTO;
|
|
}
|
|
if (params->colorspace == MP_CSP_AUTO)
|
|
params->colorspace = mp_csp_guess_colorspace(params->w, params->h);
|
|
if (params->colorlevels == MP_CSP_LEVELS_AUTO)
|
|
params->colorlevels = MP_CSP_LEVELS_TV;
|
|
} else if (fmt.flags & MP_IMGFLAG_RGB) {
|
|
params->colorspace = MP_CSP_RGB;
|
|
params->colorlevels = MP_CSP_LEVELS_PC;
|
|
} else if (fmt.flags & MP_IMGFLAG_XYZ) {
|
|
params->colorspace = MP_CSP_XYZ;
|
|
params->colorlevels = MP_CSP_LEVELS_PC;
|
|
} else {
|
|
// We have no clue.
|
|
params->colorspace = MP_CSP_AUTO;
|
|
params->colorlevels = MP_CSP_LEVELS_AUTO;
|
|
}
|
|
}
|
|
|
|
// Copy properties and data of the AVFrame into the mp_image, without taking
|
|
// care of memory management issues.
|
|
void mp_image_copy_fields_from_av_frame(struct mp_image *dst,
|
|
struct AVFrame *src)
|
|
{
|
|
mp_image_setfmt(dst, pixfmt2imgfmt(src->format));
|
|
mp_image_set_size(dst, src->width, src->height);
|
|
|
|
for (int i = 0; i < 4; i++) {
|
|
dst->planes[i] = src->data[i];
|
|
dst->stride[i] = src->linesize[i];
|
|
}
|
|
|
|
dst->pict_type = src->pict_type;
|
|
|
|
dst->fields = MP_IMGFIELD_ORDERED;
|
|
if (src->interlaced_frame)
|
|
dst->fields |= MP_IMGFIELD_INTERLACED;
|
|
if (src->top_field_first)
|
|
dst->fields |= MP_IMGFIELD_TOP_FIRST;
|
|
if (src->repeat_pict == 1)
|
|
dst->fields |= MP_IMGFIELD_REPEAT_FIRST;
|
|
|
|
#if HAVE_AVUTIL_QP_API
|
|
dst->qscale = av_frame_get_qp_table(src, &dst->qstride, &dst->qscale_type);
|
|
#else
|
|
dst->qscale = src->qscale_table;
|
|
dst->qstride = src->qstride;
|
|
dst->qscale_type = src->qscale_type;
|
|
#endif
|
|
}
|
|
|
|
// Copy properties and data of the mp_image into the AVFrame, without taking
|
|
// care of memory management issues.
|
|
void mp_image_copy_fields_to_av_frame(struct AVFrame *dst,
|
|
struct mp_image *src)
|
|
{
|
|
dst->format = imgfmt2pixfmt(src->imgfmt);
|
|
dst->width = src->w;
|
|
dst->height = src->h;
|
|
|
|
for (int i = 0; i < 4; i++) {
|
|
dst->data[i] = src->planes[i];
|
|
dst->linesize[i] = src->stride[i];
|
|
}
|
|
dst->extended_data = dst->data;
|
|
|
|
dst->pict_type = src->pict_type;
|
|
if (src->fields & MP_IMGFIELD_INTERLACED)
|
|
dst->interlaced_frame = 1;
|
|
if (src->fields & MP_IMGFIELD_TOP_FIRST)
|
|
dst->top_field_first = 1;
|
|
if (src->fields & MP_IMGFIELD_REPEAT_FIRST)
|
|
dst->repeat_pict = 1;
|
|
}
|
|
|
|
#if HAVE_AVUTIL_REFCOUNTING
|
|
|
|
static void frame_free(void *p)
|
|
{
|
|
AVFrame *frame = p;
|
|
av_frame_free(&frame);
|
|
}
|
|
|
|
static bool frame_is_unique(void *p)
|
|
{
|
|
AVFrame *frame = p;
|
|
return av_frame_is_writable(frame);
|
|
}
|
|
|
|
// Create a new mp_image reference to av_frame.
|
|
struct mp_image *mp_image_from_av_frame(struct AVFrame *av_frame)
|
|
{
|
|
AVFrame *new_ref = av_frame_clone(av_frame);
|
|
if (!new_ref)
|
|
abort(); // OOM
|
|
struct mp_image t = {0};
|
|
mp_image_copy_fields_from_av_frame(&t, new_ref);
|
|
return mp_image_new_external_ref(&t, new_ref, NULL, NULL, frame_is_unique,
|
|
frame_free);
|
|
}
|
|
|
|
static void free_img(void *opaque, uint8_t *data)
|
|
{
|
|
struct mp_image *img = opaque;
|
|
talloc_free(img);
|
|
}
|
|
|
|
// Convert the mp_image reference to a AVFrame reference.
|
|
// Warning: img is unreferenced (i.e. free'd). This is asymmetric to
|
|
// mp_image_from_av_frame(). It's done this way to allow marking the
|
|
// resulting AVFrame as writeable if img is the only reference (in
|
|
// other words, it's an optimization).
|
|
struct AVFrame *mp_image_to_av_frame_and_unref(struct mp_image *img)
|
|
{
|
|
struct mp_image *new_ref = mp_image_new_ref(img); // ensure it's refcounted
|
|
talloc_free(img);
|
|
AVFrame *frame = av_frame_alloc();
|
|
mp_image_copy_fields_to_av_frame(frame, new_ref);
|
|
// Caveat: if img has shared references, and all other references disappear
|
|
// at a later point, the AVFrame will still be read-only.
|
|
int flags = 0;
|
|
if (!mp_image_is_writeable(new_ref))
|
|
flags |= AV_BUFFER_FLAG_READONLY;
|
|
frame->buf[0] = av_buffer_create(NULL, 0, free_img, new_ref, flags);
|
|
return frame;
|
|
}
|
|
|
|
#endif /* HAVE_AVUTIL_REFCOUNTING */
|