445 lines
13 KiB
C
445 lines
13 KiB
C
/******************************************************************************
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Copyright (C) 2016 by Hugh Bailey <obs.jim@gmail.com>
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This program 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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This program 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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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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******************************************************************************/
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#include "obs-internal.h"
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static bool ready_deinterlace_frames(obs_source_t *source, uint64_t sys_time)
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{
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struct obs_source_frame *next_frame = source->async_frames.array[0];
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struct obs_source_frame *prev_frame = NULL;
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struct obs_source_frame *frame = NULL;
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uint64_t sys_offset = sys_time - source->last_sys_timestamp;
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uint64_t frame_time = next_frame->timestamp;
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uint64_t frame_offset = 0;
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size_t idx = 1;
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if ((source->flags & OBS_SOURCE_FLAG_UNBUFFERED) != 0) {
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while (source->async_frames.num > 2) {
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da_erase(source->async_frames, 0);
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remove_async_frame(source, next_frame);
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next_frame = source->async_frames.array[0];
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}
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if (source->async_frames.num == 2)
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source->async_frames.array[0]->prev_frame = true;
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source->deinterlace_offset = 0;
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source->last_frame_ts = next_frame->timestamp;
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return true;
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}
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/* account for timestamp invalidation */
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if (frame_out_of_bounds(source, frame_time)) {
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source->last_frame_ts = next_frame->timestamp;
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source->deinterlace_offset = 0;
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return true;
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} else {
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frame_offset = frame_time - source->last_frame_ts;
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source->last_frame_ts += sys_offset;
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}
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while (source->last_frame_ts > next_frame->timestamp) {
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/* this tries to reduce the needless frame duplication, also
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* helps smooth out async rendering to frame boundaries. In
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* other words, tries to keep the framerate as smooth as
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* possible */
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if ((source->last_frame_ts - next_frame->timestamp) < 2000000)
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break;
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if (prev_frame) {
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da_erase(source->async_frames, 0);
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remove_async_frame(source, prev_frame);
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}
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if (source->async_frames.num <= 2) {
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bool exit = true;
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if (prev_frame) {
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prev_frame->prev_frame = true;
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} else if (!frame && source->async_frames.num == 2) {
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exit = false;
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}
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if (exit) {
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source->deinterlace_offset = 0;
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return true;
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}
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}
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if (frame)
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idx = 2;
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else
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idx = 1;
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prev_frame = frame;
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frame = next_frame;
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next_frame = source->async_frames.array[idx];
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/* more timestamp checking and compensating */
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if ((next_frame->timestamp - frame_time) > MAX_TS_VAR) {
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source->last_frame_ts =
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next_frame->timestamp - frame_offset;
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source->deinterlace_offset = 0;
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}
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frame_time = next_frame->timestamp;
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frame_offset = frame_time - source->last_frame_ts;
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}
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if (prev_frame)
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prev_frame->prev_frame = true;
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return frame != NULL;
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}
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static inline bool first_frame(obs_source_t *s)
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{
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if (s->last_frame_ts)
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return false;
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if (s->async_frames.num >= 2)
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s->async_frames.array[0]->prev_frame = true;
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return true;
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}
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static inline uint64_t uint64_diff(uint64_t ts1, uint64_t ts2)
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{
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return (ts1 < ts2) ? (ts2 - ts1) : (ts1 - ts2);
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}
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static inline void deinterlace_get_closest_frames(obs_source_t *s,
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uint64_t sys_time)
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{
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const struct video_output_info *info;
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uint64_t half_interval;
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if (!s->async_frames.num)
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return;
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info = video_output_get_info(obs->video.video);
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half_interval = (uint64_t)info->fps_den * 500000000ULL /
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(uint64_t)info->fps_num;
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if (first_frame(s) || ready_deinterlace_frames(s, sys_time)) {
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uint64_t offset;
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s->prev_async_frame = NULL;
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s->cur_async_frame = s->async_frames.array[0];
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da_erase(s->async_frames, 0);
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if (s->cur_async_frame->prev_frame) {
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s->prev_async_frame = s->cur_async_frame;
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s->cur_async_frame = s->async_frames.array[0];
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da_erase(s->async_frames, 0);
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s->deinterlace_half_duration = (uint32_t)
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((s->cur_async_frame->timestamp -
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s->prev_async_frame->timestamp) / 2);
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} else {
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s->deinterlace_half_duration = (uint32_t)
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((s->cur_async_frame->timestamp -
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s->deinterlace_frame_ts) / 2);
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}
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if (!s->last_frame_ts)
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s->last_frame_ts = s->cur_async_frame->timestamp;
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s->deinterlace_frame_ts = s->cur_async_frame->timestamp;
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offset = obs->video.video_time - s->deinterlace_frame_ts;
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if (!s->deinterlace_offset) {
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s->deinterlace_offset = offset;
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} else {
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uint64_t offset_diff = uint64_diff(
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s->deinterlace_offset, offset);
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if (offset_diff > half_interval)
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s->deinterlace_offset = offset;
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}
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}
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}
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void deinterlace_process_last_frame(obs_source_t *s, uint64_t sys_time)
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{
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if (s->prev_async_frame) {
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remove_async_frame(s, s->prev_async_frame);
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s->prev_async_frame = NULL;
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}
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if (s->cur_async_frame) {
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remove_async_frame(s, s->cur_async_frame);
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s->cur_async_frame = NULL;
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}
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deinterlace_get_closest_frames(s, sys_time);
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}
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void set_deinterlace_texture_size(obs_source_t *source)
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{
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if (source->async_gpu_conversion) {
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source->async_prev_texrender =
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gs_texrender_create(GS_BGRX, GS_ZS_NONE);
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source->async_prev_texture = gs_texture_create(
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source->async_convert_width,
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source->async_convert_height,
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source->async_texture_format,
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1, NULL, GS_DYNAMIC);
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} else {
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enum gs_color_format format = convert_video_format(
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source->async_format);
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source->async_prev_texture = gs_texture_create(
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source->async_width, source->async_height,
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format, 1, NULL, GS_DYNAMIC);
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}
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}
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static inline struct obs_source_frame *get_prev_frame(obs_source_t *source,
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bool *updated)
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{
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struct obs_source_frame *frame = NULL;
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pthread_mutex_lock(&source->async_mutex);
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*updated = source->cur_async_frame != NULL;
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frame = source->prev_async_frame;
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source->prev_async_frame = NULL;
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if (frame)
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os_atomic_inc_long(&frame->refs);
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pthread_mutex_unlock(&source->async_mutex);
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return frame;
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}
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void deinterlace_update_async_video(obs_source_t *source)
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{
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struct obs_source_frame *frame;
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bool updated;
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if (source->deinterlace_rendered)
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return;
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frame = get_prev_frame(source, &updated);
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source->deinterlace_rendered = true;
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if (frame)
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frame = filter_async_video(source, frame);
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if (frame) {
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if (set_async_texture_size(source, frame)) {
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update_async_texture(source, frame,
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source->async_prev_texture,
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source->async_prev_texrender);
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}
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obs_source_release_frame(source, frame);
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} else if (updated) { /* swap cur/prev if no previous texture */
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gs_texture_t *prev_tex = source->async_prev_texture;
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source->async_prev_texture = source->async_texture;
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source->async_texture = prev_tex;
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if (source->async_texrender) {
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gs_texrender_t *prev = source->async_prev_texrender;
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source->async_prev_texrender = source->async_texrender;
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source->async_texrender = prev;
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}
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}
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}
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static inline gs_effect_t *get_effect(enum obs_deinterlace_mode mode)
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{
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switch (mode) {
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case OBS_DEINTERLACE_MODE_DISABLE: return NULL;
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case OBS_DEINTERLACE_MODE_DISCARD:
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return obs_load_effect(&obs->video.deinterlace_discard_effect,
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"deinterlace_discard.effect");
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case OBS_DEINTERLACE_MODE_RETRO:
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return obs_load_effect(&obs->video.deinterlace_discard_2x_effect,
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"deinterlace_discard_2x.effect");
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case OBS_DEINTERLACE_MODE_BLEND:
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return obs_load_effect(&obs->video.deinterlace_blend_effect,
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"deinterlace_blend.effect");
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case OBS_DEINTERLACE_MODE_BLEND_2X:
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return obs_load_effect(&obs->video.deinterlace_blend_2x_effect,
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"deinterlace_blend_2x.effect");
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case OBS_DEINTERLACE_MODE_LINEAR:
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return obs_load_effect(&obs->video.deinterlace_linear_effect,
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"deinterlace_linear.effect");
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case OBS_DEINTERLACE_MODE_LINEAR_2X:
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return obs_load_effect(&obs->video.deinterlace_linear_2x_effect,
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"deinterlace_linear_2x.effect");
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case OBS_DEINTERLACE_MODE_YADIF:
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return obs_load_effect(&obs->video.deinterlace_yadif_effect,
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"deinterlace_yadif.effect");
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case OBS_DEINTERLACE_MODE_YADIF_2X:
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return obs_load_effect(&obs->video.deinterlace_yadif_2x_effect,
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"deinterlace_yadif_2x.effect");
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}
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return NULL;
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}
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#define TWOX_TOLERANCE 1000000
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void deinterlace_render(obs_source_t *s)
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{
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gs_effect_t *effect = s->deinterlace_effect;
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uint64_t frame2_ts;
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gs_eparam_t *image = gs_effect_get_param_by_name(effect, "image");
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gs_eparam_t *prev = gs_effect_get_param_by_name(effect,
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"previous_image");
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gs_eparam_t *field = gs_effect_get_param_by_name(effect, "field_order");
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gs_eparam_t *frame2 = gs_effect_get_param_by_name(effect, "frame2");
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gs_eparam_t *dimensions = gs_effect_get_param_by_name(effect,
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"dimensions");
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struct vec2 size = {(float)s->async_width, (float)s->async_height};
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bool yuv = format_is_yuv(s->async_format);
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bool limited_range = yuv && !s->async_full_range;
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const char *tech = yuv ? "DrawMatrix" : "Draw";
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gs_texture_t *cur_tex = s->async_texrender ?
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gs_texrender_get_texture(s->async_texrender) :
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s->async_texture;
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gs_texture_t *prev_tex = s->async_prev_texrender ?
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gs_texrender_get_texture(s->async_prev_texrender) :
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s->async_prev_texture;
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if (!cur_tex || !prev_tex || !s->async_width || !s->async_height)
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return;
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gs_effect_set_texture(image, cur_tex);
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gs_effect_set_texture(prev, prev_tex);
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gs_effect_set_int(field, s->deinterlace_top_first);
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gs_effect_set_vec2(dimensions, &size);
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if (yuv) {
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gs_eparam_t *color_matrix = gs_effect_get_param_by_name(
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effect, "color_matrix");
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gs_effect_set_val(color_matrix, s->async_color_matrix,
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sizeof(float) * 16);
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}
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if (limited_range) {
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const size_t size = sizeof(float) * 3;
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gs_eparam_t *color_range_min = gs_effect_get_param_by_name(
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effect, "color_range_min");
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gs_eparam_t *color_range_max = gs_effect_get_param_by_name(
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effect, "color_range_max");
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gs_effect_set_val(color_range_min, s->async_color_range_min,
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size);
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gs_effect_set_val(color_range_max, s->async_color_range_max,
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size);
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}
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frame2_ts = s->deinterlace_frame_ts + s->deinterlace_offset +
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s->deinterlace_half_duration - TWOX_TOLERANCE;
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gs_effect_set_bool(frame2, obs->video.video_time >= frame2_ts);
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while (gs_effect_loop(effect, tech))
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gs_draw_sprite(NULL, s->async_flip ? GS_FLIP_V : 0,
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s->async_width, s->async_height);
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}
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static void enable_deinterlacing(obs_source_t *source,
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enum obs_deinterlace_mode mode)
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{
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obs_enter_graphics();
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if (source->async_format != VIDEO_FORMAT_NONE &&
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source->async_width != 0 &&
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source->async_height != 0)
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set_deinterlace_texture_size(source);
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source->deinterlace_mode = mode;
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source->deinterlace_effect = get_effect(mode);
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pthread_mutex_lock(&source->async_mutex);
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if (source->prev_async_frame) {
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remove_async_frame(source, source->prev_async_frame);
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source->prev_async_frame = NULL;
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}
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pthread_mutex_unlock(&source->async_mutex);
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obs_leave_graphics();
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}
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static void disable_deinterlacing(obs_source_t *source)
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{
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obs_enter_graphics();
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gs_texture_destroy(source->async_prev_texture);
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gs_texrender_destroy(source->async_prev_texrender);
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source->deinterlace_mode = OBS_DEINTERLACE_MODE_DISABLE;
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source->async_prev_texture = NULL;
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source->async_prev_texrender = NULL;
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obs_leave_graphics();
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}
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void obs_source_set_deinterlace_mode(obs_source_t *source,
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enum obs_deinterlace_mode mode)
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{
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if (!obs_source_valid(source, "obs_source_set_deinterlace_mode"))
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return;
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if (source->deinterlace_mode == mode)
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return;
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if (source->deinterlace_mode == OBS_DEINTERLACE_MODE_DISABLE) {
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enable_deinterlacing(source, mode);
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} else if (mode == OBS_DEINTERLACE_MODE_DISABLE) {
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disable_deinterlacing(source);
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} else {
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obs_enter_graphics();
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source->deinterlace_mode = mode;
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source->deinterlace_effect = get_effect(mode);
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obs_leave_graphics();
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}
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}
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enum obs_deinterlace_mode obs_source_get_deinterlace_mode(
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const obs_source_t *source)
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{
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return obs_source_valid(source, "obs_source_set_deinterlace_mode") ?
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source->deinterlace_mode : OBS_DEINTERLACE_MODE_DISABLE;
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}
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void obs_source_set_deinterlace_field_order(obs_source_t *source,
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enum obs_deinterlace_field_order field_order)
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{
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if (!obs_source_valid(source, "obs_source_set_deinterlace_field_order"))
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return;
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source->deinterlace_top_first =
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field_order == OBS_DEINTERLACE_FIELD_ORDER_TOP;
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}
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enum obs_deinterlace_field_order obs_source_get_deinterlace_field_order(
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const obs_source_t *source)
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{
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if (!obs_source_valid(source, "obs_source_set_deinterlace_field_order"))
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return OBS_DEINTERLACE_FIELD_ORDER_TOP;
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return source->deinterlace_top_first
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? OBS_DEINTERLACE_FIELD_ORDER_TOP
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: OBS_DEINTERLACE_FIELD_ORDER_BOTTOM;
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}
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