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@ -208,7 +208,7 @@ void release_visualizer(filter_sys_t *p_filter) |
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free(p_sys); |
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} |
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void fft_once(void *p_data, block_t *block, int16_t *output) |
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void fft_once(void *p_data, uint8_t *p_buffer, int nb_samples, int16_t *output) |
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{ |
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filter_sys_t *p_sys = (filter_sys_t*)p_data; |
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@ -219,31 +219,31 @@ void fft_once(void *p_data, block_t *block, int16_t *output) |
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float p_output[FFT_BUFFER_SIZE]; /* Raw FFT Result */ |
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int16_t p_buffer1[FFT_BUFFER_SIZE]; /* Buffer on which we perform
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the FFT (first channel) */ |
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float *p_buffl = (float*)block->p_buffer; /* Original buffer */ |
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float *p_buffl = (float*)p_buffer; /* Original buffer */ |
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int16_t *p_buffs; /* int16_t converted buffer */ |
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int16_t *p_s16_buff; /* int16_t converted buffer */ |
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if (!block->i_nb_samples) { |
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if (!nb_samples) { |
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LOGE("no samples yet..."); |
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goto release; |
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} |
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/* Allocate the buffer only if the number of samples change */ |
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if (block->i_nb_samples != p_sys->i_prev_nb_samples) |
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if (nb_samples != p_sys->i_prev_nb_samples) |
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{ |
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free(p_sys->p_prev_s16_buff); |
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p_sys->p_prev_s16_buff = malloc(block->i_nb_samples * |
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p_sys->p_prev_s16_buff = malloc(nb_samples * |
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p_sys->i_channels * |
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sizeof(int16_t)); |
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if (!p_sys->p_prev_s16_buff) |
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goto release; |
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p_sys->i_prev_nb_samples = block->i_nb_samples; |
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p_sys->i_prev_nb_samples = nb_samples; |
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} |
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p_buffs = p_s16_buff = p_sys->p_prev_s16_buff; |
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/* Convert the buffer to int16_t */ |
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for (i = block->i_nb_samples * p_sys->i_channels; i--;) |
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for (i = nb_samples * p_sys->i_channels; i--;) |
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{ |
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union {float f; int32_t i;} u; |
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@ -275,14 +275,14 @@ void fft_once(void *p_data, block_t *block, int16_t *output) |
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p_buffer1[i] = *p_buffs; |
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p_buffs += p_sys->i_channels; |
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if (p_buffs >= &p_s16_buff[block->i_nb_samples * p_sys->i_channels]) |
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if (p_buffs >= &p_s16_buff[nb_samples * p_sys->i_channels]) |
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p_buffs = p_s16_buff; |
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} |
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window_scale_in_place (p_buffer1, &wind_ctx); |
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fft_perform (p_buffer1, p_output, p_state); |
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for (i = 0; i< FFT_BUFFER_SIZE; ++i) |
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output[i] = p_output[i] * (2 ^ 16) |
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for (i = 0; i < FFT_BUFFER_SIZE; ++i) |
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output[i] = p_output[i] * (2 ^ 16) |
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/ ((FFT_BUFFER_SIZE / 2 * 32768) ^ 2); |
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LOGE("out[100]=%d,out[101]=%d,out[102]=%d", output[100], output[101], output[102]); |
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