1 /*
2 * Copyright (c) 2016, Alliance for Open Media. All rights reserved
3 *
4 * This source code is subject to the terms of the BSD 2 Clause License and
5 * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
6 * was not distributed with this source code in the LICENSE file, you can
7 * obtain it at www.aomedia.org/license/software. If the Alliance for Open
8 * Media Patent License 1.0 was not distributed with this source code in the
9 * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
10 */
11 #include <assert.h>
12 #include <stdlib.h>
13
14 #include "config/aom_config.h"
15
16 #include "aom_scale/yv12config.h"
17 #include "av1/common/common.h"
18 #include "av1/encoder/encoder.h"
19 #include "av1/encoder/extend.h"
20 #include "av1/encoder/lookahead.h"
21
22 /* Return the buffer at the given absolute index and increment the index */
pop(struct lookahead_ctx * ctx,int * idx)23 static struct lookahead_entry *pop(struct lookahead_ctx *ctx, int *idx) {
24 int index = *idx;
25 struct lookahead_entry *buf = ctx->buf + index;
26
27 assert(index < ctx->max_sz);
28 if (++index >= ctx->max_sz) index -= ctx->max_sz;
29 *idx = index;
30 return buf;
31 }
32
av1_lookahead_destroy(struct lookahead_ctx * ctx)33 void av1_lookahead_destroy(struct lookahead_ctx *ctx) {
34 if (ctx) {
35 if (ctx->buf) {
36 int i;
37
38 for (i = 0; i < ctx->max_sz; i++) aom_free_frame_buffer(&ctx->buf[i].img);
39 free(ctx->buf);
40 }
41 free(ctx);
42 }
43 }
44
av1_lookahead_init(unsigned int width,unsigned int height,unsigned int subsampling_x,unsigned int subsampling_y,int use_highbitdepth,unsigned int depth,const int border_in_pixels,int byte_alignment,int num_lap_buffers,bool is_all_intra,int enable_global_motion)45 struct lookahead_ctx *av1_lookahead_init(
46 unsigned int width, unsigned int height, unsigned int subsampling_x,
47 unsigned int subsampling_y, int use_highbitdepth, unsigned int depth,
48 const int border_in_pixels, int byte_alignment, int num_lap_buffers,
49 bool is_all_intra, int enable_global_motion) {
50 int lag_in_frames = AOMMAX(1, depth);
51
52 // For all-intra frame encoding, previous source frames are not required.
53 // Hence max_pre_frames is set to 0 in this case. As previous source frames
54 // are accessed using a negative index to av1_lookahead_peek(), setting
55 // max_pre_frames to 0 will cause av1_lookahead_peek() to return NULL for a
56 // negative index.
57 const uint8_t max_pre_frames = is_all_intra ? 0 : MAX_PRE_FRAMES;
58
59 // Add the lags to depth and clamp
60 depth += num_lap_buffers;
61 depth = clamp(depth, 1, MAX_TOTAL_BUFFERS);
62
63 // Allocate memory to keep previous source frames available.
64 depth += max_pre_frames;
65
66 // Allocate the lookahead structures
67 struct lookahead_ctx *ctx = calloc(1, sizeof(*ctx));
68 if (ctx) {
69 unsigned int i;
70 ctx->max_sz = depth;
71 ctx->push_frame_count = 0;
72 ctx->max_pre_frames = max_pre_frames;
73 ctx->read_ctxs[ENCODE_STAGE].pop_sz = ctx->max_sz - ctx->max_pre_frames;
74 ctx->read_ctxs[ENCODE_STAGE].valid = 1;
75 if (num_lap_buffers) {
76 ctx->read_ctxs[LAP_STAGE].pop_sz = lag_in_frames;
77 ctx->read_ctxs[LAP_STAGE].valid = 1;
78 }
79 ctx->buf = calloc(depth, sizeof(*ctx->buf));
80 if (!ctx->buf) goto fail;
81 for (i = 0; i < depth; i++) {
82 if (aom_realloc_frame_buffer(
83 &ctx->buf[i].img, width, height, subsampling_x, subsampling_y,
84 use_highbitdepth, border_in_pixels, byte_alignment, NULL, NULL,
85 NULL, enable_global_motion))
86 goto fail;
87 }
88 }
89 return ctx;
90 fail:
91 av1_lookahead_destroy(ctx);
92 return NULL;
93 }
94
av1_lookahead_push(struct lookahead_ctx * ctx,const YV12_BUFFER_CONFIG * src,int64_t ts_start,int64_t ts_end,int use_highbitdepth,aom_enc_frame_flags_t flags)95 int av1_lookahead_push(struct lookahead_ctx *ctx, const YV12_BUFFER_CONFIG *src,
96 int64_t ts_start, int64_t ts_end, int use_highbitdepth,
97 aom_enc_frame_flags_t flags) {
98 int width = src->y_crop_width;
99 int height = src->y_crop_height;
100 int uv_width = src->uv_crop_width;
101 int uv_height = src->uv_crop_height;
102 int subsampling_x = src->subsampling_x;
103 int subsampling_y = src->subsampling_y;
104 int larger_dimensions, new_dimensions;
105
106 assert(ctx->read_ctxs[ENCODE_STAGE].valid == 1);
107 if (ctx->read_ctxs[ENCODE_STAGE].sz + 1 + ctx->max_pre_frames > ctx->max_sz)
108 return 1;
109 ctx->read_ctxs[ENCODE_STAGE].sz++;
110 if (ctx->read_ctxs[LAP_STAGE].valid) {
111 ctx->read_ctxs[LAP_STAGE].sz++;
112 }
113 struct lookahead_entry *buf = pop(ctx, &ctx->write_idx);
114
115 new_dimensions = width != buf->img.y_crop_width ||
116 height != buf->img.y_crop_height ||
117 uv_width != buf->img.uv_crop_width ||
118 uv_height != buf->img.uv_crop_height;
119 larger_dimensions = width > buf->img.y_width || height > buf->img.y_height ||
120 uv_width > buf->img.uv_width ||
121 uv_height > buf->img.uv_height;
122 assert(!larger_dimensions || new_dimensions);
123
124 if (larger_dimensions) {
125 YV12_BUFFER_CONFIG new_img;
126 memset(&new_img, 0, sizeof(new_img));
127 if (aom_alloc_frame_buffer(&new_img, width, height, subsampling_x,
128 subsampling_y, use_highbitdepth,
129 AOM_BORDER_IN_PIXELS, 0))
130 return 1;
131 aom_free_frame_buffer(&buf->img);
132 buf->img = new_img;
133 } else if (new_dimensions) {
134 buf->img.y_crop_width = src->y_crop_width;
135 buf->img.y_crop_height = src->y_crop_height;
136 buf->img.uv_crop_width = src->uv_crop_width;
137 buf->img.uv_crop_height = src->uv_crop_height;
138 buf->img.subsampling_x = src->subsampling_x;
139 buf->img.subsampling_y = src->subsampling_y;
140 }
141 // Partial copy not implemented yet
142 av1_copy_and_extend_frame(src, &buf->img);
143
144 buf->ts_start = ts_start;
145 buf->ts_end = ts_end;
146 buf->display_idx = ctx->push_frame_count;
147 buf->flags = flags;
148 ++ctx->push_frame_count;
149 aom_remove_metadata_from_frame_buffer(&buf->img);
150 aom_copy_metadata_to_frame_buffer(&buf->img, src->metadata);
151 return 0;
152 }
153
av1_lookahead_pop(struct lookahead_ctx * ctx,int drain,COMPRESSOR_STAGE stage)154 struct lookahead_entry *av1_lookahead_pop(struct lookahead_ctx *ctx, int drain,
155 COMPRESSOR_STAGE stage) {
156 struct lookahead_entry *buf = NULL;
157 if (ctx) {
158 struct read_ctx *read_ctx = &ctx->read_ctxs[stage];
159 assert(read_ctx->valid == 1);
160 if (read_ctx->sz && (drain || read_ctx->sz == read_ctx->pop_sz)) {
161 buf = pop(ctx, &read_ctx->read_idx);
162 read_ctx->sz--;
163 }
164 }
165 return buf;
166 }
167
av1_lookahead_peek(struct lookahead_ctx * ctx,int index,COMPRESSOR_STAGE stage)168 struct lookahead_entry *av1_lookahead_peek(struct lookahead_ctx *ctx, int index,
169 COMPRESSOR_STAGE stage) {
170 struct lookahead_entry *buf = NULL;
171 if (ctx == NULL) {
172 return buf;
173 }
174
175 struct read_ctx *read_ctx = &ctx->read_ctxs[stage];
176 assert(read_ctx->valid == 1);
177 if (index >= 0) {
178 // Forward peek
179 if (index < read_ctx->sz) {
180 index += read_ctx->read_idx;
181 if (index >= ctx->max_sz) index -= ctx->max_sz;
182 buf = ctx->buf + index;
183 }
184 } else if (index < 0) {
185 // Backward peek
186 if (-index <= ctx->max_pre_frames) {
187 index += (int)(read_ctx->read_idx);
188 if (index < 0) index += (int)(ctx->max_sz);
189 buf = ctx->buf + index;
190 }
191 }
192
193 return buf;
194 }
195
av1_lookahead_depth(struct lookahead_ctx * ctx,COMPRESSOR_STAGE stage)196 unsigned int av1_lookahead_depth(struct lookahead_ctx *ctx,
197 COMPRESSOR_STAGE stage) {
198 assert(ctx != NULL);
199
200 struct read_ctx *read_ctx = &ctx->read_ctxs[stage];
201 assert(read_ctx->valid == 1);
202 return read_ctx->sz;
203 }
204
av1_lookahead_pop_sz(struct lookahead_ctx * ctx,COMPRESSOR_STAGE stage)205 int av1_lookahead_pop_sz(struct lookahead_ctx *ctx, COMPRESSOR_STAGE stage) {
206 assert(ctx != NULL);
207
208 struct read_ctx *read_ctx = &ctx->read_ctxs[stage];
209 assert(read_ctx->valid == 1);
210 return read_ctx->pop_sz;
211 }
212