aacenc: Rename Psy3gpp* structs to AacPsy*
This allows cleaner implementation of other psymodels using the existing structs. It also will make it easier to interchange individual parts of the psymodel to create hybrid models. Patch by: Nathan Caldwell <saintdev@gmail.com> Originally committed as revision 24890 to svn://svn.ffmpeg.org/ffmpeg/trunk
This commit is contained in:
Nathan Caldwell
Alex Converse
parent
078ae66b4b
commit
af00dddeca
@ -51,44 +51,44 @@
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/**
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/**
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* information for single band used by 3GPP TS26.403-inspired psychoacoustic model
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* information for single band used by 3GPP TS26.403-inspired psychoacoustic model
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*/
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*/
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typedef struct Psy3gppBand{
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typedef struct AacPsyBand{
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float energy; ///< band energy
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float energy; ///< band energy
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float ffac; ///< form factor
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float ffac; ///< form factor
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float thr; ///< energy threshold
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float thr; ///< energy threshold
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float min_snr; ///< minimal SNR
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float min_snr; ///< minimal SNR
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float thr_quiet; ///< threshold in quiet
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float thr_quiet; ///< threshold in quiet
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}Psy3gppBand;
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}AacPsyBand;
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/**
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/**
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* single/pair channel context for psychoacoustic model
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* single/pair channel context for psychoacoustic model
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*/
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*/
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typedef struct Psy3gppChannel{
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typedef struct AacPsyChannel{
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Psy3gppBand band[128]; ///< bands information
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AacPsyBand band[128]; ///< bands information
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Psy3gppBand prev_band[128]; ///< bands information from the previous frame
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AacPsyBand prev_band[128]; ///< bands information from the previous frame
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float win_energy; ///< sliding average of channel energy
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float win_energy; ///< sliding average of channel energy
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float iir_state[2]; ///< hi-pass IIR filter state
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float iir_state[2]; ///< hi-pass IIR filter state
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uint8_t next_grouping; ///< stored grouping scheme for the next frame (in case of 8 short window sequence)
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uint8_t next_grouping; ///< stored grouping scheme for the next frame (in case of 8 short window sequence)
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enum WindowSequence next_window_seq; ///< window sequence to be used in the next frame
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enum WindowSequence next_window_seq; ///< window sequence to be used in the next frame
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}Psy3gppChannel;
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}AacPsyChannel;
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/**
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/**
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* psychoacoustic model frame type-dependent coefficients
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* psychoacoustic model frame type-dependent coefficients
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*/
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*/
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typedef struct Psy3gppCoeffs{
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typedef struct AacPsyCoeffs{
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float ath [64]; ///< absolute threshold of hearing per bands
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float ath [64]; ///< absolute threshold of hearing per bands
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float barks [64]; ///< Bark value for each spectral band in long frame
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float barks [64]; ///< Bark value for each spectral band in long frame
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float spread_low[64]; ///< spreading factor for low-to-high threshold spreading in long frame
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float spread_low[64]; ///< spreading factor for low-to-high threshold spreading in long frame
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float spread_hi [64]; ///< spreading factor for high-to-low threshold spreading in long frame
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float spread_hi [64]; ///< spreading factor for high-to-low threshold spreading in long frame
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}Psy3gppCoeffs;
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}AacPsyCoeffs;
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/**
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/**
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* 3GPP TS26.403-inspired psychoacoustic model specific data
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* 3GPP TS26.403-inspired psychoacoustic model specific data
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*/
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*/
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typedef struct Psy3gppContext{
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typedef struct AacPsyContext{
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Psy3gppCoeffs psy_coef[2];
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AacPsyCoeffs psy_coef[2];
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Psy3gppChannel *ch;
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AacPsyChannel *ch;
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}Psy3gppContext;
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}AacPsyContext;
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/**
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/**
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* Calculate Bark value for given line.
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* Calculate Bark value for given line.
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@ -113,17 +113,17 @@ static av_cold float ath(float f, float add)
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}
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}
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static av_cold int psy_3gpp_init(FFPsyContext *ctx) {
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static av_cold int psy_3gpp_init(FFPsyContext *ctx) {
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Psy3gppContext *pctx;
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AacPsyContext *pctx;
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float bark;
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float bark;
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int i, j, g, start;
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int i, j, g, start;
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float prev, minscale, minath;
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float prev, minscale, minath;
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ctx->model_priv_data = av_mallocz(sizeof(Psy3gppContext));
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ctx->model_priv_data = av_mallocz(sizeof(AacPsyContext));
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pctx = (Psy3gppContext*) ctx->model_priv_data;
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pctx = (AacPsyContext*) ctx->model_priv_data;
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minath = ath(3410, ATH_ADD);
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minath = ath(3410, ATH_ADD);
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for (j = 0; j < 2; j++) {
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for (j = 0; j < 2; j++) {
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Psy3gppCoeffs *coeffs = &pctx->psy_coef[j];
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AacPsyCoeffs *coeffs = &pctx->psy_coef[j];
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float line_to_frequency = ctx->avctx->sample_rate / (j ? 256.f : 2048.0f);
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float line_to_frequency = ctx->avctx->sample_rate / (j ? 256.f : 2048.0f);
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i = 0;
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i = 0;
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prev = 0.0;
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prev = 0.0;
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@ -147,7 +147,7 @@ static av_cold int psy_3gpp_init(FFPsyContext *ctx) {
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}
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}
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}
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}
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pctx->ch = av_mallocz(sizeof(Psy3gppChannel) * ctx->avctx->channels);
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pctx->ch = av_mallocz(sizeof(AacPsyChannel) * ctx->avctx->channels);
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return 0;
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return 0;
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}
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}
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@ -182,8 +182,8 @@ static FFPsyWindowInfo psy_3gpp_window(FFPsyContext *ctx,
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int i, j;
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int i, j;
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int br = ctx->avctx->bit_rate / ctx->avctx->channels;
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int br = ctx->avctx->bit_rate / ctx->avctx->channels;
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int attack_ratio = br <= 16000 ? 18 : 10;
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int attack_ratio = br <= 16000 ? 18 : 10;
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Psy3gppContext *pctx = (Psy3gppContext*) ctx->model_priv_data;
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AacPsyContext *pctx = (AacPsyContext*) ctx->model_priv_data;
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Psy3gppChannel *pch = &pctx->ch[channel];
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AacPsyChannel *pch = &pctx->ch[channel];
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uint8_t grouping = 0;
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uint8_t grouping = 0;
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int next_type = pch->next_window_seq;
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int next_type = pch->next_window_seq;
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FFPsyWindowInfo wi;
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FFPsyWindowInfo wi;
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@ -266,18 +266,18 @@ static FFPsyWindowInfo psy_3gpp_window(FFPsyContext *ctx,
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static void psy_3gpp_analyze(FFPsyContext *ctx, int channel,
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static void psy_3gpp_analyze(FFPsyContext *ctx, int channel,
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const float *coefs, FFPsyWindowInfo *wi)
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const float *coefs, FFPsyWindowInfo *wi)
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{
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{
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Psy3gppContext *pctx = (Psy3gppContext*) ctx->model_priv_data;
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AacPsyContext *pctx = (AacPsyContext*) ctx->model_priv_data;
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Psy3gppChannel *pch = &pctx->ch[channel];
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AacPsyChannel *pch = &pctx->ch[channel];
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int start = 0;
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int start = 0;
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int i, w, g;
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int i, w, g;
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const int num_bands = ctx->num_bands[wi->num_windows == 8];
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const int num_bands = ctx->num_bands[wi->num_windows == 8];
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const uint8_t* band_sizes = ctx->bands[wi->num_windows == 8];
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const uint8_t* band_sizes = ctx->bands[wi->num_windows == 8];
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Psy3gppCoeffs *coeffs = &pctx->psy_coef[wi->num_windows == 8];
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AacPsyCoeffs *coeffs = &pctx->psy_coef[wi->num_windows == 8];
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//calculate energies, initial thresholds and related values - 5.4.2 "Threshold Calculation"
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//calculate energies, initial thresholds and related values - 5.4.2 "Threshold Calculation"
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for (w = 0; w < wi->num_windows*16; w += 16) {
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for (w = 0; w < wi->num_windows*16; w += 16) {
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for (g = 0; g < num_bands; g++) {
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for (g = 0; g < num_bands; g++) {
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Psy3gppBand *band = &pch->band[w+g];
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AacPsyBand *band = &pch->band[w+g];
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band->energy = 0.0f;
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band->energy = 0.0f;
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for (i = 0; i < band_sizes[g]; i++)
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for (i = 0; i < band_sizes[g]; i++)
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band->energy += coefs[start+i] * coefs[start+i];
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band->energy += coefs[start+i] * coefs[start+i];
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@ -290,7 +290,7 @@ static void psy_3gpp_analyze(FFPsyContext *ctx, int channel,
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}
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}
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//modify thresholds - spread, threshold in quiet - 5.4.3 "Spreaded Energy Calculation"
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//modify thresholds - spread, threshold in quiet - 5.4.3 "Spreaded Energy Calculation"
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for (w = 0; w < wi->num_windows*16; w += 16) {
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for (w = 0; w < wi->num_windows*16; w += 16) {
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Psy3gppBand *band = &pch->band[w];
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AacPsyBand *band = &pch->band[w];
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for (g = 1; g < num_bands; g++)
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for (g = 1; g < num_bands; g++)
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band[g].thr = FFMAX(band[g].thr, band[g-1].thr * coeffs->spread_low[g-1]);
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band[g].thr = FFMAX(band[g].thr, band[g-1].thr * coeffs->spread_low[g-1]);
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for (g = num_bands - 2; g >= 0; g--)
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for (g = num_bands - 2; g >= 0; g--)
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@ -311,7 +311,7 @@ static void psy_3gpp_analyze(FFPsyContext *ctx, int channel,
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static av_cold void psy_3gpp_end(FFPsyContext *apc)
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static av_cold void psy_3gpp_end(FFPsyContext *apc)
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{
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{
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Psy3gppContext *pctx = (Psy3gppContext*) apc->model_priv_data;
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AacPsyContext *pctx = (AacPsyContext*) apc->model_priv_data;
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av_freep(&pctx->ch);
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av_freep(&pctx->ch);
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av_freep(&apc->model_priv_data);
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av_freep(&apc->model_priv_data);
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}
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}
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@ -35,7 +35,7 @@ struct FFTContext {
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uint16_t *revtab;
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uint16_t *revtab;
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FFTComplex *tmp_buf;
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FFTComplex *tmp_buf;
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int mdct_size; /* size of MDCT (i.e. number of input data * 2) */
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int mdct_size; /* size of MDCT (i.e. number of input data * 2) */
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int mdct_bits; /* n = 2^nbits */
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int mdct_bits; /* n = 2^mdct_bits */
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/* pre/post rotation tables */
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/* pre/post rotation tables */
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FFTSample *tcos;
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FFTSample *tcos;
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FFTSample *tsin;
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FFTSample *tsin;
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