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avfilter/af_headphone: fix filtering of non-power of 2 length IRs in time domain
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a1b4f120c0
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@ -50,6 +50,7 @@ typedef struct HeadphoneContext {
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int eof_hrirs;
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int ir_len;
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int air_len;
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int mapping[64];
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@ -172,6 +173,7 @@ static int headphone_convolute(AVFilterContext *ctx, void *arg, int jobnr, int n
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float *ringbuffer = td->ringbuffer[jobnr];
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float *temp_src = td->temp_src[jobnr];
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const int ir_len = s->ir_len;
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const int air_len = s->air_len;
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const float *src = (const float *)in->data[0];
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float *dst = (float *)out->data[0];
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const int in_channels = in->channels;
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@ -200,23 +202,23 @@ static int headphone_convolute(AVFilterContext *ctx, void *arg, int jobnr, int n
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if (l == s->lfe_channel) {
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*dst += *(buffer[s->lfe_channel] + wr) * s->gain_lfe;
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temp_ir += FFALIGN(ir_len, 16);
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temp_ir += air_len;
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continue;
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}
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read = (wr - *(delay + l) - (ir_len - 1) + buffer_length) & modulo;
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read = (wr - *(delay + l) - (air_len - 1) + buffer_length) & modulo;
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if (read + ir_len < buffer_length) {
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memcpy(temp_src, bptr + read, ir_len * sizeof(*temp_src));
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if (read + air_len < buffer_length) {
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memcpy(temp_src, bptr + read, air_len * sizeof(*temp_src));
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} else {
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int len = FFMIN(ir_len - (read % ir_len), buffer_length - read);
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int len = FFMIN(air_len - (read % air_len), buffer_length - read);
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memcpy(temp_src, bptr + read, len * sizeof(*temp_src));
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memcpy(temp_src + len, bptr, (ir_len - len) * sizeof(*temp_src));
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memcpy(temp_src + len, bptr, (air_len - len) * sizeof(*temp_src));
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}
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dst[0] += s->fdsp->scalarproduct_float(temp_ir, temp_src, ir_len);
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temp_ir += FFALIGN(ir_len, 16);
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dst[0] += s->fdsp->scalarproduct_float(temp_ir, temp_src, FFALIGN(ir_len, 32));
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temp_ir += air_len;
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}
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if (fabsf(dst[0]) > 1)
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@ -260,7 +262,7 @@ static int headphone_fast_convolute(AVFilterContext *ctx, void *arg, int jobnr,
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dst += offset;
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n_read = FFMIN(s->ir_len, in->nb_samples);
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n_read = FFMIN(ir_len, in->nb_samples);
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for (j = 0; j < n_read; j++) {
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dst[2 * j] = ringbuffer[wr];
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ringbuffer[wr] = 0.0;
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@ -396,8 +398,9 @@ static int convert_coeffs(AVFilterContext *ctx, AVFilterLink *inlink)
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int n_fft;
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int i, j, k;
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s->buffer_length = 1 << (32 - ff_clz(s->ir_len));
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s->n_fft = n_fft = 1 << (32 - ff_clz(s->ir_len + s->size));
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s->air_len = 1 << (32 - ff_clz(ir_len));
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s->buffer_length = 1 << (32 - ff_clz(s->air_len));
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s->n_fft = n_fft = 1 << (32 - ff_clz(ir_len + s->size));
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if (s->type == FREQUENCY_DOMAIN) {
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fft_in_l = av_calloc(n_fft, sizeof(*fft_in_l));
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@ -423,8 +426,8 @@ static int convert_coeffs(AVFilterContext *ctx, AVFilterLink *inlink)
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}
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}
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s->data_ir[0] = av_calloc(FFALIGN(s->ir_len, 16), sizeof(float) * s->nb_irs);
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s->data_ir[1] = av_calloc(FFALIGN(s->ir_len, 16), sizeof(float) * s->nb_irs);
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s->data_ir[0] = av_calloc(s->air_len, sizeof(float) * s->nb_irs);
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s->data_ir[1] = av_calloc(s->air_len, sizeof(float) * s->nb_irs);
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s->delay[0] = av_calloc(s->nb_irs, sizeof(float));
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s->delay[1] = av_calloc(s->nb_irs, sizeof(float));
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@ -449,11 +452,11 @@ static int convert_coeffs(AVFilterContext *ctx, AVFilterLink *inlink)
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}
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if (s->type == TIME_DOMAIN) {
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s->temp_src[0] = av_calloc(FFALIGN(ir_len, 16), sizeof(float));
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s->temp_src[1] = av_calloc(FFALIGN(ir_len, 16), sizeof(float));
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s->temp_src[0] = av_calloc(s->air_len, sizeof(float));
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s->temp_src[1] = av_calloc(s->air_len, sizeof(float));
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data_ir_l = av_calloc(nb_irs * FFALIGN(ir_len, 16), sizeof(*data_ir_l));
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data_ir_r = av_calloc(nb_irs * FFALIGN(ir_len, 16), sizeof(*data_ir_r));
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data_ir_l = av_calloc(nb_irs * s->air_len, sizeof(*data_ir_l));
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data_ir_r = av_calloc(nb_irs * s->air_len, sizeof(*data_ir_r));
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if (!data_ir_r || !data_ir_l || !s->temp_src[0] || !s->temp_src[1]) {
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ret = AVERROR(ENOMEM);
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goto fail;
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@ -495,7 +498,7 @@ static int convert_coeffs(AVFilterContext *ctx, AVFilterLink *inlink)
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if (idx == -1)
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continue;
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if (s->type == TIME_DOMAIN) {
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offset = idx * FFALIGN(len, 16);
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offset = idx * s->air_len;
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for (j = 0; j < len; j++) {
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data_ir_l[offset + j] = ptr[len * 2 - j * 2 - 2] * gain_lin;
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data_ir_r[offset + j] = ptr[len * 2 - j * 2 - 1] * gain_lin;
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@ -538,7 +541,7 @@ static int convert_coeffs(AVFilterContext *ctx, AVFilterLink *inlink)
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I = idx * 2;
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if (s->type == TIME_DOMAIN) {
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offset = idx * FFALIGN(len, 16);
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offset = idx * s->air_len;
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for (j = 0; j < len; j++) {
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data_ir_l[offset + j] = ptr[len * N - j * N - N + I ] * gain_lin;
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data_ir_r[offset + j] = ptr[len * N - j * N - N + I + 1] * gain_lin;
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@ -567,8 +570,8 @@ static int convert_coeffs(AVFilterContext *ctx, AVFilterLink *inlink)
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}
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if (s->type == TIME_DOMAIN) {
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memcpy(s->data_ir[0], data_ir_l, sizeof(float) * nb_irs * FFALIGN(ir_len, 16));
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memcpy(s->data_ir[1], data_ir_r, sizeof(float) * nb_irs * FFALIGN(ir_len, 16));
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memcpy(s->data_ir[0], data_ir_l, sizeof(float) * nb_irs * s->air_len);
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memcpy(s->data_ir[1], data_ir_r, sizeof(float) * nb_irs * s->air_len);
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} else {
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s->data_hrtf[0] = av_calloc(n_fft * s->nb_irs, sizeof(FFTComplex));
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s->data_hrtf[1] = av_calloc(n_fft * s->nb_irs, sizeof(FFTComplex));
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