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authorNathan Caldwell <saintdev@gmail.com>2011-03-16 23:35:39 -0400
committerRonald S. Bultje <rsbultje@gmail.com>2011-03-16 23:35:39 -0400
commit4afedfd8e5c5f102d3a67c224c33b51bbed47eee (patch)
tree222a3432ec8e2062f9d10ad3967875b7d01ac6a2
parentb7c96769c52a312c6f6abe43f5d8c83701118a0b (diff)
downloadffmpeg-4afedfd8e5c5f102d3a67c224c33b51bbed47eee.tar.gz
aacenc: cosmetics, indentation, and comment clarification
Correct bad indentation in aaccoder Clarify and correct comments in 3GPP psymodel, other cosmetics.
-rw-r--r--libavcodec/aaccoder.c50
-rw-r--r--libavcodec/aacpsy.c21
2 files changed, 37 insertions, 34 deletions
diff --git a/libavcodec/aaccoder.c b/libavcodec/aaccoder.c
index d2c928205f..79723c61ef 100644
--- a/libavcodec/aaccoder.c
+++ b/libavcodec/aaccoder.c
@@ -146,34 +146,34 @@ static av_always_inline float quantize_and_encode_band_cost_template(
curidx *= range;
curidx += quants[j] + off;
}
- curbits = ff_aac_spectral_bits[cb-1][curidx];
- vec = &ff_aac_codebook_vectors[cb-1][curidx*dim];
- if (BT_UNSIGNED) {
- for (k = 0; k < dim; k++) {
- float t = fabsf(in[i+k]);
- float di;
- if (BT_ESC && vec[k] == 64.0f) { //FIXME: slow
- if (t >= CLIPPED_ESCAPE) {
- di = t - CLIPPED_ESCAPE;
- curbits += 21;
- } else {
- int c = av_clip(quant(t, Q), 0, 8191);
- di = t - c*cbrtf(c)*IQ;
- curbits += av_log2(c)*2 - 4 + 1;
- }
+ curbits = ff_aac_spectral_bits[cb-1][curidx];
+ vec = &ff_aac_codebook_vectors[cb-1][curidx*dim];
+ if (BT_UNSIGNED) {
+ for (k = 0; k < dim; k++) {
+ float t = fabsf(in[i+k]);
+ float di;
+ if (BT_ESC && vec[k] == 64.0f) { //FIXME: slow
+ if (t >= CLIPPED_ESCAPE) {
+ di = t - CLIPPED_ESCAPE;
+ curbits += 21;
} else {
- di = t - vec[k]*IQ;
+ int c = av_clip(quant(t, Q), 0, 8191);
+ di = t - c*cbrtf(c)*IQ;
+ curbits += av_log2(c)*2 - 4 + 1;
}
- if (vec[k] != 0.0f)
- curbits++;
- rd += di*di;
- }
- } else {
- for (k = 0; k < dim; k++) {
- float di = in[i+k] - vec[k]*IQ;
- rd += di*di;
+ } else {
+ di = t - vec[k]*IQ;
}
+ if (vec[k] != 0.0f)
+ curbits++;
+ rd += di*di;
}
+ } else {
+ for (k = 0; k < dim; k++) {
+ float di = in[i+k] - vec[k]*IQ;
+ rd += di*di;
+ }
+ }
cost += rd * lambda + curbits;
resbits += curbits;
if (cost >= uplim)
@@ -575,7 +575,7 @@ static void search_for_quantizers_anmr(AVCodecContext *avctx, AACEncContext *s,
int qnrg = av_clip_uint8(log2f(sqrtf(qnrgf/qcnt))*4 - 31 + SCALE_ONE_POS - SCALE_DIV_512);
q1 = qnrg + 30;
q0 = qnrg - 30;
- //av_log(NULL, AV_LOG_ERROR, "q0 %d, q1 %d\n", q0, q1);
+ //av_log(NULL, AV_LOG_ERROR, "q0 %d, q1 %d\n", q0, q1);
if (q0 < q0low) {
q1 += q0low - q0;
q0 = q0low;
diff --git a/libavcodec/aacpsy.c b/libavcodec/aacpsy.c
index de3b0f329e..d9896ed74f 100644
--- a/libavcodec/aacpsy.c
+++ b/libavcodec/aacpsy.c
@@ -39,8 +39,8 @@
* constants for 3GPP AAC psychoacoustic model
* @{
*/
-#define PSY_3GPP_SPREAD_HI 1.5f // spreading factor for ascending threshold spreading (15 dB/Bark)
-#define PSY_3GPP_SPREAD_LOW 3.0f // spreading factor for descending threshold spreading (30 dB/Bark)
+#define PSY_3GPP_THR_SPREAD_HI 1.5f // spreading factor for low-to-hi threshold spreading (15 dB/Bark)
+#define PSY_3GPP_THR_SPREAD_LOW 3.0f // spreading factor for hi-to-low threshold spreading (30 dB/Bark)
#define PSY_3GPP_RPEMIN 0.01f
#define PSY_3GPP_RPELEV 2.0f
@@ -256,8 +256,8 @@ static av_cold int psy_3gpp_init(FFPsyContext *ctx) {
for (g = 0; g < ctx->num_bands[j] - 1; g++) {
AacPsyCoeffs *coeff = &coeffs[g];
float bark_width = coeffs[g+1].barks - coeffs->barks;
- coeff->spread_low[0] = pow(10.0, -bark_width * PSY_3GPP_SPREAD_LOW);
- coeff->spread_hi [0] = pow(10.0, -bark_width * PSY_3GPP_SPREAD_HI);
+ coeff->spread_low[0] = pow(10.0, -bark_width * PSY_3GPP_THR_SPREAD_LOW);
+ coeff->spread_hi [0] = pow(10.0, -bark_width * PSY_3GPP_THR_SPREAD_HI);
}
start = 0;
for (g = 0; g < ctx->num_bands[j]; g++) {
@@ -395,9 +395,9 @@ static void psy_3gpp_analyze(FFPsyContext *ctx, int channel,
AacPsyChannel *pch = &pctx->ch[channel];
int start = 0;
int i, w, g;
- const int num_bands = ctx->num_bands[wi->num_windows == 8];
- const uint8_t* band_sizes = ctx->bands[wi->num_windows == 8];
- AacPsyCoeffs *coeffs = &pctx->psy_coef[wi->num_windows == 8];
+ const int num_bands = ctx->num_bands[wi->num_windows == 8];
+ const uint8_t *band_sizes = ctx->bands[wi->num_windows == 8];
+ AacPsyCoeffs *coeffs = &pctx->psy_coef[wi->num_windows == 8];
//calculate energies, initial thresholds and related values - 5.4.2 "Threshold Calculation"
for (w = 0; w < wi->num_windows*16; w += 16) {
@@ -410,17 +410,19 @@ static void psy_3gpp_analyze(FFPsyContext *ctx, int channel,
start += band_sizes[g];
}
}
- //modify thresholds - spread, threshold in quiet - 5.4.3 "Spreaded Energy Calculation"
+ //modify thresholds and energies - spread, threshold in quiet, pre-echo control
for (w = 0; w < wi->num_windows*16; w += 16) {
-
AacPsyBand *bands = &pch->band[w];
+ //5.4.2.3 "Spreading" & 5.4.3 "Spreaded Energy Calculation"
for (g = 1; g < num_bands; g++)
bands[g].thr = FFMAX(bands[g].thr, bands[g-1].thr * coeffs[g].spread_hi[0]);
for (g = num_bands - 2; g >= 0; g--)
bands[g].thr = FFMAX(bands[g].thr, bands[g+1].thr * coeffs[g].spread_low[0]);
+ //5.4.2.4 "Threshold in quiet"
for (g = 0; g < num_bands; g++) {
AacPsyBand *band = &bands[g];
band->thr_quiet = band->thr = FFMAX(band->thr, coeffs[g].ath);
+ //5.4.2.5 "Pre-echo control"
if (!(wi->window_type[0] == LONG_STOP_SEQUENCE || (wi->window_type[1] == LONG_START_SEQUENCE && !w)))
band->thr = FFMAX(PSY_3GPP_RPEMIN*band->thr, FFMIN(band->thr,
PSY_3GPP_RPELEV*pch->prev_band[w+g].thr_quiet));
@@ -436,6 +438,7 @@ static void psy_3gpp_analyze(FFPsyContext *ctx, int channel,
psy_band->energy = band->energy;
}
}
+
memcpy(pch->prev_band, pch->band, sizeof(pch->band));
}