ref: 26fbba4eb876e7147570f036c4bcba241c84529d
dir: /pulse.c/
#include "aac_qc.h" #include "pulse.h" #define STARTSFB 16 // approx. 2kHz void PulseCoder(AACQuantInfo *quantInfo, int *quant) { int i, j, sb, k; int pulses = 0; pulse pul_arr[4]; #if 1 for (sb = STARTSFB; sb < quantInfo->nr_of_sfb; sb++) { for (i = quantInfo->sfb_offset[sb]; i < quantInfo->sfb_offset[sb+1]; i++) { if ((i != 0)&&(i<quantInfo->sfb_offset[quantInfo->nr_of_sfb])) { /* This is a peak */ if ((abs(quant[i]) > abs(quant[i-1])+4)&&(abs(quant[i]) > abs(quant[i+1])+4)) { pulses++; if (pulses == 1) { j = i; pul_arr[pulses-1].offset = i-quantInfo->sfb_offset[sb]; pul_arr[pulses-1].sfb = sb; pul_arr[pulses-1].amp = min(15,(int)(abs((quant[i-1])+abs(quant[i+1]))/2+0.5)); if (pul_arr[pulses-1].offset >= 32) { pulses = 0; } } else { pul_arr[pulses-1].offset = i-j; j = i; pul_arr[pulses-1].amp = min(15,(int)((abs(quant[i-1])+abs(quant[i+1]))/2+0.5)); if (pul_arr[pulses-1].offset >= 32) { pulses--; goto end; } } } if (pulses == 4) goto end; } } } #endif end: if (pulses) { quantInfo->pulseInfo.pulse_data_present = 1; quantInfo->pulseInfo.number_pulse = pulses-1; quantInfo->pulseInfo.pulse_start_sfb = pul_arr[0].sfb; k = quantInfo->sfb_offset[pul_arr[0].sfb]; for (i = 0; i < pulses; i++) { quantInfo->pulseInfo.pulse_offset[i] = pul_arr[i].offset; quantInfo->pulseInfo.pulse_amp[i] = pul_arr[i].amp; k += pul_arr[i].offset; if (quant[k] > 0) quant[k] -= pul_arr[i].amp; else quant[k] += pul_arr[i].amp; } } else { quantInfo->pulseInfo.pulse_data_present = 0; } } void PulseDecoder(AACQuantInfo *quantInfo, int *quant) { int i, offset; if (quantInfo->pulseInfo.pulse_data_present) { offset = quantInfo->sfb_offset[quantInfo->pulseInfo.pulse_start_sfb]; for(i = 0; i < quantInfo->pulseInfo.number_pulse+1; i++) { offset += quantInfo->pulseInfo.pulse_offset[i]; if (quant[offset] > 0) quant[offset] -= quantInfo->pulseInfo.pulse_amp[i]; else quant[offset] += quantInfo->pulseInfo.pulse_amp[i]; } } }