Commit e8e380f9 authored by Dmitry Kovalev's avatar Dmitry Kovalev Committed by Gerrit Code Review
Browse files

Merge "Cleaning up vp9_ratectrl.c file."

parents 7e7c95a2 92380695
......@@ -103,10 +103,9 @@ int vp9_rc_bits_per_mb(FRAME_TYPE frame_type, int qindex,
return (int)(0.5 + (enumerator * correction_factor / q));
}
static int estimate_bits_at_q(int frame_kind, int q, int mbs,
static int estimate_bits_at_q(FRAME_TYPE frame_type, int q, int mbs,
double correction_factor) {
const int bpm = (int)(vp9_rc_bits_per_mb(frame_kind, q, correction_factor));
const int bpm = (int)(vp9_rc_bits_per_mb(frame_type, q, correction_factor));
return ((uint64_t)bpm * mbs) >> BPER_MB_NORMBITS;
}
......@@ -144,13 +143,12 @@ int vp9_rc_clamp_iframe_target_size(const VP9_COMP *const cpi, int target) {
// Update the buffer level for higher layers, given the encoded current layer.
static void update_layer_buffer_level(VP9_COMP *const cpi,
int encoded_frame_size) {
static void update_layer_buffer_level(SVC *svc, int encoded_frame_size) {
int temporal_layer = 0;
int current_temporal_layer = cpi->svc.temporal_layer_id;
int current_temporal_layer = svc->temporal_layer_id;
for (temporal_layer = current_temporal_layer + 1;
temporal_layer < cpi->svc.number_temporal_layers; ++temporal_layer) {
LAYER_CONTEXT *lc = &cpi->svc.layer_context[temporal_layer];
temporal_layer < svc->number_temporal_layers; ++temporal_layer) {
LAYER_CONTEXT *lc = &svc->layer_context[temporal_layer];
RATE_CONTROL *lrc = &lc->rc;
int bits_off_for_this_layer = (int)(lc->target_bandwidth / lc->framerate -
encoded_frame_size);
......@@ -180,7 +178,7 @@ static void update_buffer_level(VP9_COMP *cpi, int encoded_frame_size) {
rc->buffer_level = rc->bits_off_target;
if (cpi->use_svc && cpi->oxcf.end_usage == USAGE_STREAM_FROM_SERVER) {
update_layer_buffer_level(cpi, encoded_frame_size);
update_layer_buffer_level(&cpi->svc, encoded_frame_size);
}
}
......@@ -299,7 +297,7 @@ static void set_rate_correction_factor(VP9_COMP *cpi, double factor) {
}
void vp9_rc_update_rate_correction_factors(VP9_COMP *cpi, int damp_var) {
const int q = cpi->common.base_qindex;
const VP9_COMMON *const cm = &cpi->common;
int correction_factor = 100;
double rate_correction_factor = get_rate_correction_factor(cpi);
double adjustment_limit;
......@@ -312,8 +310,8 @@ void vp9_rc_update_rate_correction_factors(VP9_COMP *cpi, int damp_var) {
// Work out how big we would have expected the frame to be at this Q given
// the current correction factor.
// Stay in double to avoid int overflow when values are large
projected_size_based_on_q = estimate_bits_at_q(cpi->common.frame_type, q,
cpi->common.MBs,
projected_size_based_on_q = estimate_bits_at_q(cm->frame_type,
cm->base_qindex, cm->MBs,
rate_correction_factor);
// Work out a size correction factor.
if (projected_size_based_on_q > 0)
......@@ -337,20 +335,18 @@ void vp9_rc_update_rate_correction_factors(VP9_COMP *cpi, int damp_var) {
if (correction_factor > 102) {
// We are not already at the worst allowable quality
correction_factor =
(int)(100 + ((correction_factor - 100) * adjustment_limit));
rate_correction_factor =
((rate_correction_factor * correction_factor) / 100);
correction_factor = (int)(100 + ((correction_factor - 100) *
adjustment_limit));
rate_correction_factor = (rate_correction_factor * correction_factor) / 100;
// Keep rate_correction_factor within limits
if (rate_correction_factor > MAX_BPB_FACTOR)
rate_correction_factor = MAX_BPB_FACTOR;
} else if (correction_factor < 99) {
// We are not already at the best allowable quality
correction_factor =
(int)(100 - ((100 - correction_factor) * adjustment_limit));
rate_correction_factor =
((rate_correction_factor * correction_factor) / 100);
correction_factor = (int)(100 - ((100 - correction_factor) *
adjustment_limit));
rate_correction_factor = (rate_correction_factor * correction_factor) / 100;
// Keep rate_correction_factor within limits
if (rate_correction_factor < MIN_BPB_FACTOR)
......@@ -439,6 +435,7 @@ static int calc_active_worst_quality_one_pass_cbr(const VP9_COMP *cpi) {
// If buffer is below the optimal level, let the active_worst_quality go from
// ambient Q (at buffer = optimal level) to worst_quality level
// (at buffer = critical level).
const VP9_COMMON *const cm = &cpi->common;
const VP9_CONFIG *oxcf = &cpi->oxcf;
const RATE_CONTROL *rc = &cpi->rc;
// Buffer level below which we push active_worst to worst_quality.
......@@ -446,9 +443,9 @@ static int calc_active_worst_quality_one_pass_cbr(const VP9_COMP *cpi) {
int64_t buff_lvl_step = 0;
int adjustment = 0;
int active_worst_quality;
if (cpi->common.frame_type == KEY_FRAME)
if (cm->frame_type == KEY_FRAME)
return rc->worst_quality;
if (cpi->common.current_video_frame > 1)
if (cm->current_video_frame > 1)
active_worst_quality = MIN(rc->worst_quality,
rc->avg_frame_qindex[INTER_FRAME] * 5 / 4);
else
......@@ -581,7 +578,7 @@ static int rc_pick_q_and_bounds_one_pass_cbr(const VP9_COMP *cpi,
active_best_quality, active_worst_quality);
if (q > *top_index) {
// Special case when we are targeting the max allowed rate
if (cpi->rc.this_frame_target >= cpi->rc.max_frame_bandwidth)
if (rc->this_frame_target >= rc->max_frame_bandwidth)
*top_index = q;
else
q = *top_index;
......@@ -747,7 +744,7 @@ static int rc_pick_q_and_bounds_one_pass_vbr(const VP9_COMP *cpi,
active_best_quality, active_worst_quality);
if (q > *top_index) {
// Special case when we are targeting the max allowed rate
if (cpi->rc.this_frame_target >= cpi->rc.max_frame_bandwidth)
if (rc->this_frame_target >= rc->max_frame_bandwidth)
*top_index = q;
else
q = *top_index;
......@@ -962,8 +959,7 @@ static int rc_pick_q_and_bounds_two_pass(const VP9_COMP *cpi,
}
int vp9_rc_pick_q_and_bounds(const VP9_COMP *cpi,
int *bottom_index,
int *top_index) {
int *bottom_index, int *top_index) {
int q;
if (cpi->pass == 0) {
if (cpi->oxcf.end_usage == USAGE_STREAM_FROM_SERVER)
......@@ -1031,16 +1027,17 @@ void vp9_rc_set_frame_target(VP9_COMP *cpi, int target) {
static void update_alt_ref_frame_stats(VP9_COMP *cpi) {
// this frame refreshes means next frames don't unless specified by user
cpi->rc.frames_since_golden = 0;
RATE_CONTROL *const rc = &cpi->rc;
rc->frames_since_golden = 0;
#if CONFIG_MULTIPLE_ARF
if (!cpi->multi_arf_enabled)
#endif
// Clear the alternate reference update pending flag.
cpi->rc.source_alt_ref_pending = 0;
rc->source_alt_ref_pending = 0;
// Set the alternate reference frame active flag
cpi->rc.source_alt_ref_active = 1;
rc->source_alt_ref_active = 1;
}
static void update_golden_frame_stats(VP9_COMP *cpi) {
......@@ -1069,6 +1066,7 @@ static void update_golden_frame_stats(VP9_COMP *cpi) {
void vp9_rc_postencode_update(VP9_COMP *cpi, uint64_t bytes_used) {
VP9_COMMON *const cm = &cpi->common;
const VP9_CONFIG *const oxcf = &cpi->oxcf;
RATE_CONTROL *const rc = &cpi->rc;
cm->last_frame_type = cm->frame_type;
......@@ -1078,7 +1076,7 @@ void vp9_rc_postencode_update(VP9_COMP *cpi, uint64_t bytes_used) {
// Post encode loop adjustment of Q prediction.
vp9_rc_update_rate_correction_factors(
cpi, (cpi->sf.recode_loop >= ALLOW_RECODE_KFARFGF ||
cpi->oxcf.end_usage == USAGE_STREAM_FROM_SERVER) ? 2 : 0);
oxcf->end_usage == USAGE_STREAM_FROM_SERVER) ? 2 : 0);
// Keep a record of last Q and ambient average Q.
if (cm->frame_type == KEY_FRAME) {
......@@ -1087,7 +1085,7 @@ void vp9_rc_postencode_update(VP9_COMP *cpi, uint64_t bytes_used) {
3 * rc->avg_frame_qindex[KEY_FRAME] + cm->base_qindex, 2);
} else if (!rc->is_src_frame_alt_ref &&
(cpi->refresh_golden_frame || cpi->refresh_alt_ref_frame) &&
!(cpi->use_svc && cpi->oxcf.end_usage == USAGE_STREAM_FROM_SERVER)) {
!(cpi->use_svc && oxcf->end_usage == USAGE_STREAM_FROM_SERVER)) {
rc->last_q[2] = cm->base_qindex;
rc->avg_frame_qindex[2] = ROUND_POWER_OF_TWO(
3 * rc->avg_frame_qindex[2] + cm->base_qindex, 2);
......@@ -1137,7 +1135,7 @@ void vp9_rc_postencode_update(VP9_COMP *cpi, uint64_t bytes_used) {
rc->total_target_vs_actual = rc->total_actual_bits - rc->total_target_bits;
if (cpi->oxcf.play_alternate && cpi->refresh_alt_ref_frame &&
if (oxcf->play_alternate && cpi->refresh_alt_ref_frame &&
(cm->frame_type != KEY_FRAME))
// Update the alternate reference frame stats as appropriate.
update_alt_ref_frame_stats(cpi);
......@@ -1230,18 +1228,19 @@ void vp9_rc_get_one_pass_vbr_params(VP9_COMP *cpi) {
static int calc_pframe_target_size_one_pass_cbr(const VP9_COMP *cpi) {
const VP9_CONFIG *oxcf = &cpi->oxcf;
const RATE_CONTROL *rc = &cpi->rc;
const SVC *const svc = &cpi->svc;
const int64_t diff = oxcf->optimal_buffer_level - rc->buffer_level;
const int64_t one_pct_bits = 1 + oxcf->optimal_buffer_level / 100;
int min_frame_target = MAX(rc->av_per_frame_bandwidth >> 4,
FRAME_OVERHEAD_BITS);
int target = rc->av_per_frame_bandwidth;
if (cpi->svc.number_temporal_layers > 1 &&
cpi->oxcf.end_usage == USAGE_STREAM_FROM_SERVER) {
if (svc->number_temporal_layers > 1 &&
oxcf->end_usage == USAGE_STREAM_FROM_SERVER) {
// Note that for layers, av_per_frame_bandwidth is the cumulative
// per-frame-bandwidth. For the target size of this frame, use the
// layer average frame size (i.e., non-cumulative per-frame-bw).
int current_temporal_layer = cpi->svc.temporal_layer_id;
const LAYER_CONTEXT *lc = &cpi->svc.layer_context[current_temporal_layer];
int current_temporal_layer = svc->temporal_layer_id;
const LAYER_CONTEXT *lc = &svc->layer_context[current_temporal_layer];
target = lc->avg_frame_size;
min_frame_target = MAX(lc->avg_frame_size >> 4, FRAME_OVERHEAD_BITS);
}
......
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