/* * Copyright (C) 2000-2003 the xine project * * This file is part of xine, a free video player. * * xine is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * xine is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include "attributes.h" #include "resample.h" /* contributed by paul flinders */ void _x_audio_out_resample_mono(int16_t *last_sample, int16_t* input_samples, uint32_t in_samples, int16_t* output_samples, uint32_t out_samples) { unsigned int osample; /* 16+16 fixed point math */ uint32_t isample = 0xFFFF0000U; uint32_t istep = (in_samples << 16) / out_samples + 1; #ifdef VERBOSE printf ("Audio : resample %d samples to %d\n", in_samples, out_samples); #endif for (osample = 0; osample < out_samples && isample >= 0xFFFF0000U; osample++) { uint32_t t = isample&0xffff; output_samples[osample] = (last_sample[0] * (0x10000-t) + input_samples[0] * t) >> 16; isample += istep; } for (; osample < out_samples; osample++) { int s1; int s2; int16_t os; uint32_t t = isample&0xffff; /* don't "optimize" the (isample >> 16)*2 to (isample >> 15) */ s1 = input_samples[(isample >> 16)]; s2 = input_samples[(isample >> 16)+1]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[osample] = os; isample += istep; } last_sample[0] = input_samples[in_samples - 1]; } void _x_audio_out_resample_stereo(int16_t *last_sample, int16_t* input_samples, uint32_t in_samples, int16_t* output_samples, uint32_t out_samples) { unsigned int osample; /* 16+16 fixed point math */ uint32_t isample = 0xFFFF0000U; uint32_t istep = (in_samples << 16) / out_samples + 1; #ifdef VERBOSE printf ("Audio : resample %d samples to %d\n", in_samples, out_samples); #endif for (osample = 0; osample < out_samples && isample >= 0xFFFF0000U; osample++) { uint32_t t = isample&0xffff; output_samples[osample*2 ] = (last_sample[0] * (0x10000-t) + input_samples[0] * t) >> 16; output_samples[osample*2+1] = (last_sample[1] * (0x10000-t) + input_samples[1] * t) >> 16; isample += istep; } for (; osample < out_samples; osample++) { int s1; int s2; int16_t os; uint32_t t = isample&0xffff; /* don't "optimize" the (isample >> 16)*2 to (isample >> 15) */ s1 = input_samples[(isample >> 16)*2]; s2 = input_samples[(isample >> 16)*2+2]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[osample * 2] = os; s1 = input_samples[(isample >> 16)*2+1]; s2 = input_samples[(isample >> 16)*2+3]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 2 )+1] = os; isample += istep; } memcpy (last_sample, &input_samples[in_samples*2-2], 2 * sizeof (last_sample[0])); } void _x_audio_out_resample_4channel(int16_t *last_sample, int16_t* input_samples, uint32_t in_samples, int16_t* output_samples, uint32_t out_samples) { unsigned int osample; /* 16+16 fixed point math */ uint32_t isample = 0xFFFF0000U; uint32_t istep = (in_samples << 16) / out_samples + 1; #ifdef VERBOSE printf ("Audio : resample %d samples to %d\n", in_samples, out_samples); #endif for (osample = 0; osample < out_samples && isample >= 0xFFFF0000U; osample++) { uint32_t t = isample&0xffff; output_samples[osample*4 ] = (last_sample[0] * (0x10000-t) + input_samples[0] * t) >> 16; output_samples[osample*4+1] = (last_sample[1] * (0x10000-t) + input_samples[1] * t) >> 16; output_samples[osample*4+2] = (last_sample[2] * (0x10000-t) + input_samples[2] * t) >> 16; output_samples[osample*4+3] = (last_sample[3] * (0x10000-t) + input_samples[3] * t) >> 16; isample += istep; } for (; osample < out_samples; osample++) { int s1; int s2; int16_t os; uint32_t t = isample&0xffff; /* don't "optimize" the (isample >> 16)*2 to (isample >> 15) */ s1 = input_samples[(isample >> 16)*4]; s2 = input_samples[(isample >> 16)*4+4]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[osample * 4] = os; s1 = input_samples[(isample >> 16)*4+1]; s2 = input_samples[(isample >> 16)*4+5]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 4 )+1] = os; s1 = input_samples[(isample >> 16)*4+2]; s2 = input_samples[(isample >> 16)*4+6]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 4 )+2] = os; s1 = input_samples[(isample >> 16)*4+3]; s2 = input_samples[(isample >> 16)*4+7]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 4 )+3] = os; isample += istep; } memcpy (last_sample, &input_samples[in_samples*4-4], 4 * sizeof (last_sample[0])); } void _x_audio_out_resample_5channel(int16_t *last_sample, int16_t* input_samples, uint32_t in_samples, int16_t* output_samples, uint32_t out_samples) { unsigned int osample; /* 16+16 fixed point math */ uint32_t isample = 0xFFFF0000U; uint32_t istep = (in_samples << 16) / out_samples + 1; #ifdef VERBOSE printf ("Audio : resample %d samples to %d\n", in_samples, out_samples); #endif for (osample = 0; osample < out_samples && isample >= 0xFFFF0000U; osample++) { uint32_t t = isample&0xffff; output_samples[osample*5 ] = (last_sample[0] * (0x10000-t) + input_samples[0] * t) >> 16; output_samples[osample*5+1] = (last_sample[1] * (0x10000-t) + input_samples[1] * t) >> 16; output_samples[osample*5+2] = (last_sample[2] * (0x10000-t) + input_samples[2] * t) >> 16; output_samples[osample*5+3] = (last_sample[3] * (0x10000-t) + input_samples[3] * t) >> 16; output_samples[osample*5+4] = (last_sample[4] * (0x10000-t) + input_samples[4] * t) >> 16; isample += istep; } for (; osample < out_samples; osample++) { int s1; int s2; int16_t os; uint32_t t = isample&0xffff; /* don't "optimize" the (isample >> 16)*2 to (isample >> 15) */ s1 = input_samples[(isample >> 16)*5]; s2 = input_samples[(isample >> 16)*5+5]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[osample * 5] = os; s1 = input_samples[(isample >> 16)*5+1]; s2 = input_samples[(isample >> 16)*5+6]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 5 )+1] = os; s1 = input_samples[(isample >> 16)*5+2]; s2 = input_samples[(isample >> 16)*5+7]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 5 )+2] = os; s1 = input_samples[(isample >> 16)*5+3]; s2 = input_samples[(isample >> 16)*5+8]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 5 )+3] = os; s1 = input_samples[(isample >> 16)*5+4]; s2 = input_samples[(isample >> 16)*5+9]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 5 )+4] = os; isample += istep; } memcpy (last_sample, &input_samples[in_samples*5-5], 5 * sizeof (last_sample[0])); } void _x_audio_out_resample_6channel(int16_t *last_sample, int16_t* input_samples, uint32_t in_samples, int16_t* output_samples, uint32_t out_samples) { unsigned int osample; /* 16+16 fixed point math */ uint32_t isample = 0xFFFF0000U; uint32_t istep = (in_samples << 16) / out_samples + 1; #ifdef VERBOSE printf ("Audio : resample %d samples to %d\n", in_samples, out_samples); #endif for (osample = 0; osample < out_samples && isample >= 0xFFFF0000U; osample++) { uint32_t t = isample&0xffff; output_samples[osample*6 ] = (last_sample[0] * (0x10000-t) + input_samples[0] * t) >> 16; output_samples[osample*6+1] = (last_sample[1] * (0x10000-t) + input_samples[1] * t) >> 16; output_samples[osample*6+2] = (last_sample[2] * (0x10000-t) + input_samples[2] * t) >> 16; output_samples[osample*6+3] = (last_sample[3] * (0x10000-t) + input_samples[3] * t) >> 16; output_samples[osample*6+4] = (last_sample[4] * (0x10000-t) + input_samples[4] * t) >> 16; output_samples[osample*6+5] = (last_sample[5] * (0x10000-t) + input_samples[5] * t) >> 16; isample += istep; } for (; osample < out_samples; osample++) { int s1; int s2; int16_t os; uint32_t t = isample&0xffff; /* don't "optimize" the (isample >> 16)*2 to (isample >> 15) */ s1 = input_samples[(isample >> 16)*6]; s2 = input_samples[(isample >> 16)*6+6]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[osample * 6] = os; s1 = input_samples[(isample >> 16)*6+1]; s2 = input_samples[(isample >> 16)*6+7]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 6 )+1] = os; s1 = input_samples[(isample >> 16)*6+2]; s2 = input_samples[(isample >> 16)*6+8]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 6 )+2] = os; s1 = input_samples[(isample >> 16)*6+3]; s2 = input_samples[(isample >> 16)*6+9]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 6 )+3] = os; s1 = input_samples[(isample >> 16)*6+4]; s2 = input_samples[(isample >> 16)*6+10]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 6 )+4] = os; s1 = input_samples[(isample >> 16)*6+5]; s2 = input_samples[(isample >> 16)*6+11]; os = (s1 * (0x10000-t)+ s2 * t) >> 16; output_samples[(osample * 6 )+5] = os; isample += istep; } memcpy (last_sample, &input_samples[in_samples*6-6], 6 * sizeof (last_sample[0])); } void _x_audio_out_resample_8to16(int8_t* input_samples, int16_t* output_samples, uint32_t samples) { while( samples-- ) { int16_t os; os = *input_samples++; os = (os - 0x80) << 8; *output_samples++ = os; } } void _x_audio_out_resample_16to8(int16_t* input_samples, int8_t* output_samples, uint32_t samples) { while( samples-- ) { int16_t os; os = *input_samples++; os = (os >> 8) + 0x80; *output_samples++ = os; } } void _x_audio_out_resample_monotostereo(int16_t* input_samples, int16_t* output_samples, uint32_t frames) { while( frames-- ) { int16_t os; os = *input_samples++; *output_samples++ = os; *output_samples++ = os; } } void _x_audio_out_resample_stereotomono(int16_t* input_samples, int16_t* output_samples, uint32_t frames) { while( frames-- ) { int16_t os; os = (*input_samples++)>>1; os += (*input_samples++)>>1; *output_samples++ = os; } }