ref: e16e2726e8c1019bfdd62b73caa8cba255b7ee1c
dir: /src/picture.c/
/* * Copyright © 2018, VideoLAN and dav1d authors * Copyright © 2018, Two Orioles, LLC * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include <assert.h> #include <errno.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "common/intops.h" #include "common/mem.h" #include "common/validate.h" #include "src/internal.h" #include "src/log.h" #include "src/picture.h" #include "src/ref.h" #include "src/thread.h" #include "src/thread_task.h" int dav1d_default_picture_alloc(Dav1dPicture *const p, void *const cookie) { assert(cookie == NULL); const int hbd = p->p.bpc > 8; const int aligned_w = (p->p.w + 127) & ~127; const int aligned_h = (p->p.h + 127) & ~127; const int has_chroma = p->p.layout != DAV1D_PIXEL_LAYOUT_I400; const int ss_ver = p->p.layout == DAV1D_PIXEL_LAYOUT_I420; const int ss_hor = p->p.layout != DAV1D_PIXEL_LAYOUT_I444; p->stride[0] = aligned_w << hbd; p->stride[1] = has_chroma ? (aligned_w >> ss_hor) << hbd : 0; const size_t y_sz = p->stride[0] * aligned_h; const size_t uv_sz = p->stride[1] * (aligned_h >> ss_ver); const size_t pic_size = y_sz + 2 * uv_sz; uint8_t *data = dav1d_alloc_aligned(pic_size + DAV1D_PICTURE_ALIGNMENT, DAV1D_PICTURE_ALIGNMENT); if (data == NULL) { return DAV1D_ERR(ENOMEM); } p->data[0] = data; p->data[1] = has_chroma ? data + y_sz : NULL; p->data[2] = has_chroma ? data + y_sz + uv_sz : NULL; #ifndef NDEBUG /* safety check */ p->allocator_data = data; #endif return 0; } void dav1d_default_picture_release(Dav1dPicture *const p, void *const cookie) { assert(cookie == NULL); #ifndef NDEBUG /* safety check */ assert(p->allocator_data == p->data[0]); #endif dav1d_free_aligned(p->data[0]); } struct pic_ctx_context { Dav1dPicAllocator allocator; Dav1dPicture pic; void *extra_ptr; /* MUST BE AT THE END */ }; static void free_buffer(const uint8_t *const data, void *const user_data) { struct pic_ctx_context *pic_ctx = user_data; pic_ctx->allocator.release_picture_callback(&pic_ctx->pic, pic_ctx->allocator.cookie); free(pic_ctx); } static int picture_alloc_with_edges(Dav1dContext *const c, Dav1dPicture *const p, const int w, const int h, Dav1dSequenceHeader *seq_hdr, Dav1dRef *seq_hdr_ref, Dav1dFrameHeader *frame_hdr, Dav1dRef *frame_hdr_ref, Dav1dContentLightLevel *content_light, Dav1dRef *content_light_ref, Dav1dMasteringDisplay *mastering_display, Dav1dRef *mastering_display_ref, const int bpc, const Dav1dDataProps *props, Dav1dPicAllocator *const p_allocator, const size_t extra, void **const extra_ptr) { if (p->data[0]) { dav1d_log(c, "Picture already allocated!\n"); return -1; } assert(bpc > 0 && bpc <= 16); struct pic_ctx_context *pic_ctx = malloc(extra + sizeof(struct pic_ctx_context)); if (pic_ctx == NULL) { return DAV1D_ERR(ENOMEM); } p->p.w = w; p->p.h = h; p->seq_hdr = seq_hdr; p->frame_hdr = frame_hdr; p->content_light = content_light; p->mastering_display = mastering_display; p->p.layout = seq_hdr->layout; p->p.bpc = bpc; dav1d_data_props_set_defaults(&p->m); int res = p_allocator->alloc_picture_callback(p, p_allocator->cookie); if (res < 0) { free(pic_ctx); return res; } pic_ctx->allocator = *p_allocator; pic_ctx->pic = *p; if (!(p->ref = dav1d_ref_wrap(p->data[0], free_buffer, pic_ctx))) { p_allocator->release_picture_callback(p, p_allocator->cookie); free(pic_ctx); dav1d_log(c, "Failed to wrap picture: %s\n", strerror(errno)); return DAV1D_ERR(ENOMEM); } p->seq_hdr_ref = seq_hdr_ref; if (seq_hdr_ref) dav1d_ref_inc(seq_hdr_ref); p->frame_hdr_ref = frame_hdr_ref; if (frame_hdr_ref) dav1d_ref_inc(frame_hdr_ref); dav1d_data_props_copy(&p->m, props); if (extra && extra_ptr) *extra_ptr = &pic_ctx->extra_ptr; p->content_light_ref = content_light_ref; if (content_light_ref) dav1d_ref_inc(content_light_ref); p->mastering_display_ref = mastering_display_ref; if (mastering_display_ref) dav1d_ref_inc(mastering_display_ref); return 0; } int dav1d_thread_picture_alloc(Dav1dContext *const c, Dav1dFrameContext *const f, const int bpc) { Dav1dThreadPicture *const p = &f->sr_cur; p->t = c->n_fc > 1 ? &f->frame_thread.td : NULL; const int res = picture_alloc_with_edges(c, &p->p, f->frame_hdr->width[1], f->frame_hdr->height, f->seq_hdr, f->seq_hdr_ref, f->frame_hdr, f->frame_hdr_ref, c->content_light, c->content_light_ref, c->mastering_display, c->mastering_display_ref, bpc, &f->tile[0].data.m, &c->allocator, p->t != NULL ? sizeof(atomic_int) * 2 : 0, (void **) &p->progress); if (res) return res; p->visible = f->frame_hdr->show_frame; if (p->t) { atomic_init(&p->progress[0], 0); atomic_init(&p->progress[1], 0); } return res; } int dav1d_picture_alloc_copy(Dav1dContext *const c, Dav1dPicture *const dst, const int w, const Dav1dPicture *const src) { struct pic_ctx_context *const pic_ctx = src->ref->user_data; const int res = picture_alloc_with_edges(c, dst, w, src->p.h, src->seq_hdr, src->seq_hdr_ref, src->frame_hdr, src->frame_hdr_ref, src->content_light, src->content_light_ref, src->mastering_display, src->mastering_display_ref, src->p.bpc, &src->m, &pic_ctx->allocator, 0, NULL); return res; } void dav1d_picture_ref(Dav1dPicture *const dst, const Dav1dPicture *const src) { validate_input(dst != NULL); validate_input(dst->data[0] == NULL); validate_input(src != NULL); if (src->ref) { validate_input(src->data[0] != NULL); dav1d_ref_inc(src->ref); if (src->frame_hdr_ref) dav1d_ref_inc(src->frame_hdr_ref); if (src->seq_hdr_ref) dav1d_ref_inc(src->seq_hdr_ref); if (src->m.user_data.ref) dav1d_ref_inc(src->m.user_data.ref); if (src->content_light_ref) dav1d_ref_inc(src->content_light_ref); if (src->mastering_display_ref) dav1d_ref_inc(src->mastering_display_ref); } *dst = *src; } void dav1d_picture_move_ref(Dav1dPicture *const dst, Dav1dPicture *const src) { validate_input(dst != NULL); validate_input(dst->data[0] == NULL); validate_input(src != NULL); if (src->ref) validate_input(src->data[0] != NULL); *dst = *src; memset(src, 0, sizeof(*src)); } void dav1d_thread_picture_ref(Dav1dThreadPicture *dst, const Dav1dThreadPicture *src) { dav1d_picture_ref(&dst->p, &src->p); dst->t = src->t; dst->visible = src->visible; dst->progress = src->progress; } void dav1d_picture_unref_internal(Dav1dPicture *const p) { validate_input(p != NULL); if (p->ref) { validate_input(p->data[0] != NULL); dav1d_ref_dec(&p->ref); dav1d_ref_dec(&p->seq_hdr_ref); dav1d_ref_dec(&p->frame_hdr_ref); dav1d_ref_dec(&p->m.user_data.ref); dav1d_ref_dec(&p->content_light_ref); dav1d_ref_dec(&p->mastering_display_ref); } memset(p, 0, sizeof(*p)); } void dav1d_thread_picture_unref(Dav1dThreadPicture *const p) { dav1d_picture_unref_internal(&p->p); p->t = NULL; p->progress = NULL; } int dav1d_thread_picture_wait(const Dav1dThreadPicture *const p, int y_unclipped, const enum PlaneType plane_type) { assert(plane_type != PLANE_TYPE_ALL); if (!p->t) return 0; // convert to luma units; include plane delay from loopfilters; clip const int ss_ver = p->p.p.layout == DAV1D_PIXEL_LAYOUT_I420; y_unclipped *= 1 << (plane_type & ss_ver); // we rely here on PLANE_TYPE_UV being 1 y_unclipped += (plane_type != PLANE_TYPE_BLOCK) * 8; // delay imposed by loopfilter const unsigned y = iclip(y_unclipped, 1, p->p.p.h); atomic_uint *const progress = &p->progress[plane_type != PLANE_TYPE_BLOCK]; unsigned state; if ((state = atomic_load_explicit(progress, memory_order_acquire)) >= y) return state == FRAME_ERROR; pthread_mutex_lock(&p->t->lock); while ((state = atomic_load_explicit(progress, memory_order_relaxed)) < y) pthread_cond_wait(&p->t->cond, &p->t->lock); pthread_mutex_unlock(&p->t->lock); return state == FRAME_ERROR; } void dav1d_thread_picture_signal(const Dav1dThreadPicture *const p, const int y, // in pixel units const enum PlaneType plane_type) { assert(plane_type != PLANE_TYPE_UV); if (!p->t) return; pthread_mutex_lock(&p->t->lock); if (plane_type != PLANE_TYPE_Y) atomic_store(&p->progress[0], y); if (plane_type != PLANE_TYPE_BLOCK) atomic_store(&p->progress[1], y); pthread_cond_broadcast(&p->t->cond); pthread_mutex_unlock(&p->t->lock); }