/* Copyright (C) 2009 Jonathon Fowler This program 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. This program 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 02110-1301, USA. */ #include "_multivc.h" /* JBF: position = offset of starting sample in start rate = resampling increment start = sound data length = count of samples to mix */ // 8-bit stereo source, 8-bit mono output void MV_Mix8BitMono8Stereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { uint8_t *source = (uint8_t *) start; uint8_t *dest = (uint8_t *) MV_MixDestination; int32_t sample0, sample1; while (length--) { sample0 = source[(position >> 16) << 1]; sample1 = source[((position >> 16) << 1) + 1]; position += rate; sample0 = (MV_LeftVolume[sample0] + MV_LeftVolume[sample1]) / 2 + *dest; sample0 = MV_HarshClipTable[sample0 + 128]; *dest = sample0 & 255; dest += MV_SampleSize; } MV_MixPosition = position; MV_MixDestination = (char *) dest; } // 8-bit stereo source, 8-bit stereo output void MV_Mix8BitStereo8Stereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { uint8_t *source = (uint8_t *) start; uint8_t *dest = (uint8_t *) MV_MixDestination; int32_t sample0, sample1; while (length--) { sample0 = source[(position >> 16) << 1]; sample1 = source[((position >> 16) << 1) + 1]; position += rate; sample0 = MV_LeftVolume[sample0] + *dest; sample1 = MV_RightVolume[sample1] + *(dest + MV_RightChannelOffset); sample0 = MV_HarshClipTable[sample0 + 128]; sample1 = MV_HarshClipTable[sample1 + 128]; *dest = sample0 & 255; *(dest + MV_RightChannelOffset) = sample1 & 255; dest += MV_SampleSize; } MV_MixPosition = position; MV_MixDestination = (char *) dest; } // 8-bit stereo source, 16-bit mono output void MV_Mix16BitMono8Stereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { uint8_t *source = (uint8_t *) start; int16_t *dest = (int16_t *) MV_MixDestination; int32_t sample0, sample1; while (length--) { sample0 = source[(position >> 16) << 1]; sample1 = source[((position >> 16) << 1) + 1]; position += rate; sample0 = (MV_LeftVolume[sample0] + MV_LeftVolume[sample1]) / 2 + *dest; if (sample0 < -32768) sample0 = -32768; else if (sample0 > 32767) sample0 = 32767; *dest = (int16_t) sample0; dest += MV_SampleSize / 2; } MV_MixPosition = position; MV_MixDestination = (char *) dest; } // 8-bit stereo source, 16-bit stereo output void MV_Mix16BitStereo8Stereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { uint8_t *source = (uint8_t *) start; int16_t *dest = (int16_t *) MV_MixDestination; int32_t sample0, sample1; while (length--) { sample0 = source[(position >> 16) << 1]; sample1 = source[((position >> 16) << 1) + 1]; position += rate; sample0 = MV_LeftVolume[sample0] + *dest; sample1 = MV_RightVolume[sample1] + *(dest + MV_RightChannelOffset / 2); if (sample0 < -32768) sample0 = -32768; else if (sample0 > 32767) sample0 = 32767; if (sample1 < -32768) sample1 = -32768; else if (sample1 > 32767) sample1 = 32767; *dest = (int16_t) sample0; *(dest + MV_RightChannelOffset/2) = (int16_t) sample1; dest += MV_SampleSize / 2; } MV_MixPosition = position; MV_MixDestination = (char *) dest; } // 16-bit stereo source, 16-bit mono output void MV_Mix16BitMono16Stereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { uint16_t *source = (uint16_t *) start; int16_t *dest = (int16_t *) MV_MixDestination; int32_t sample0l, sample0h, sample0; int32_t sample1l, sample1h, sample1; while (length--) { sample0 = source[(position >> 16) << 1]; sample1 = source[((position >> 16) << 1) + 1]; #ifdef BIGENDIAN sample0l = sample0 >> 8; sample0h = (sample0 & 255) ^ 128; sample1l = sample1 >> 8; sample1h = (sample1 & 255) ^ 128; #else sample0l = sample0 & 255; sample0h = (sample0 >> 8) ^ 128; sample1l = sample1 & 255; sample1h = (sample1 >> 8) ^ 128; #endif position += rate; sample0l = MV_LeftVolume[sample0l] >> 8; sample0h = MV_LeftVolume[sample0h]; sample0 = sample0l + sample0h + 128; sample1l = MV_LeftVolume[sample1l] >> 8; sample1h = MV_LeftVolume[sample1h]; sample1 = sample1l + sample1h + 128; sample0 = (sample0 + sample1) / 2 + *dest; if (sample0 < -32768) sample0 = -32768; else if (sample0 > 32767) sample0 = 32767; *dest = (int16_t) sample0; dest += MV_SampleSize / 2; } MV_MixPosition = position; MV_MixDestination = (char *) dest; } // 16-bit stereo source, 8-bit mono output void MV_Mix8BitMono16Stereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { int8_t *source = (int8_t *) start + 1; uint8_t *dest = (uint8_t *) MV_MixDestination; int32_t sample0, sample1; while (length--) { sample0 = source[(position >> 16) << 2]; sample1 = source[((position >> 16) << 2) + 2]; position += rate; sample0 = MV_LeftVolume[sample0 + 128]; sample1 = MV_LeftVolume[sample1 + 128]; sample0 = (sample0 + sample1) / 2 + *dest; sample0 = MV_HarshClipTable[sample0 + 128]; *dest = sample0 & 255; dest += MV_SampleSize; } MV_MixPosition = position; MV_MixDestination = (char *) dest; } // 16-bit stereo source, 8-bit stereo output void MV_Mix8BitStereo16Stereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { int8_t *source = (int8_t *) start + 1; uint8_t *dest = (uint8_t *) MV_MixDestination; int32_t sample0, sample1; while (length--) { sample0 = source[(position >> 16) << 2]; sample1 = source[((position >> 16) << 2) + 2]; position += rate; sample0 = MV_LeftVolume[sample0 + 128] + *dest; sample1 = MV_RightVolume[sample1 + 128] + *(dest + MV_RightChannelOffset); sample0 = MV_HarshClipTable[sample0 + 128]; sample1 = MV_HarshClipTable[sample1 + 128]; *dest = sample0 & 255; *(dest + MV_RightChannelOffset) = sample1 & 255; dest += MV_SampleSize; } MV_MixPosition = position; MV_MixDestination = (char *) dest; } // 16-bit stereo source, 16-bit stereo output void MV_Mix16BitStereo16Stereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { uint16_t *source = (uint16_t *) start; int16_t *dest = (int16_t *) MV_MixDestination; int32_t sample0l, sample0h, sample0; int32_t sample1l, sample1h, sample1; while (length--) { sample0 = source[(position >> 16) << 1]; sample1 = source[((position >> 16) << 1) + 1]; #ifdef BIGENDIAN sample0l = sample0 >> 8; sample0h = (sample0 & 255) ^ 128; sample1l = sample1 >> 8; sample1h = (sample1 & 255) ^ 128; #else sample0l = sample0 & 255; sample0h = (sample0 >> 8) ^ 128; sample1l = sample1 & 255; sample1h = (sample1 >> 8) ^ 128; #endif position += rate; sample0l = MV_LeftVolume[sample0l] >> 8; sample0h = MV_LeftVolume[sample0h]; sample1l = MV_RightVolume[sample1l] >> 8; sample1h = MV_RightVolume[sample1h]; sample0 = sample0l + sample0h + 128 + *dest; sample1 = sample1l + sample1h + 128 + *(dest + MV_RightChannelOffset/2); if (sample0 < -32768) sample0 = -32768; else if (sample0 > 32767) sample0 = 32767; if (sample1 < -32768) sample1 = -32768; else if (sample1 > 32767) sample1 = 32767; *dest = (int16_t) sample0; *(dest + MV_RightChannelOffset/2) = (int16_t) sample1; dest += MV_SampleSize / 2; } MV_MixPosition = position; MV_MixDestination = (char *) dest; }