ref: bff9e7cab76d907ea4666c76a61bb9f547f11b1e
dir: /Game/src/audiolib/mv_mix.c/
#include "multivoc.h" extern char *MV_MixDestination; extern uint32_t MV_MixPosition; extern int *MV_GLast, *MV_GPos, *MV_GVal; extern int MV_LeftVolume; extern int MV_RightVolume; extern int MV_MaxVolume; // extern unsigned char *MV_HarshClipTable; extern int MV_RightChannelOffset; extern int MV_SampleSize; extern int MV_Channels; //int do_cubic = 1; extern int g_CV_CubicInterpolation; #define do_cubic (g_CV_CubicInterpolation) #define gval0 MV_GVal[*MV_GPos&3] #define gval(x) MV_GVal[(*MV_GPos+x)&3] int MV_cubic(int position) { int xd, fa; xd = (position >> 1) & 0x7FFF; fa = gval(3) - 3*gval(2) + 3*gval(1) - gval0; fa *= (xd - (2<<15)) / 6; fa >>= 15; fa += gval(2) - gval(1) - gval(1) + gval0; fa *= (xd - (1<<15)) >> 1; fa >>= 15; fa += gval(1) - gval0; fa *= xd; fa >>= 15; fa += gval0; return fa; } static int MV_cubic8(const unsigned char *src, int position, int rate) { int temp, hpos = position >> 16; if (abs(hpos - *MV_GLast) > 3) *MV_GLast = hpos; temp = hpos; while (hpos > *MV_GLast) { gval0 = ((int)src[temp++] - 0x80) << 8; *MV_GPos = (*MV_GPos + 1) & 3; (*MV_GLast)++; } return do_cubic ? (MV_cubic(position) >> 8) + 0x80 : (gval(3) >> 8) + 0x80; } static int MV_cubic16(const short *src, int position, int rate) { int temp, hpos = position >> 16; if (abs(hpos - *MV_GLast) > 3) *MV_GLast = hpos; temp = hpos; while (hpos > *MV_GLast) { gval0 = src[temp++]; *MV_GPos = (*MV_GPos + 1) & 3; (*MV_GLast)++; } return do_cubic ? MV_cubic(position) : gval(3); } static int MV_cubic8to16(const unsigned char *src, int position, int rate) { int temp, hpos = position >> 16; if (abs(hpos - *MV_GLast) > 3) *MV_GLast = hpos; temp = hpos; while (hpos > *MV_GLast) { gval0 = ((int)src[temp++] - 0x80) << 8; *MV_GPos = (*MV_GPos + 1) & 3; (*MV_GLast)++; } return do_cubic ? MV_cubic(position) : gval(3); } static int MV_cubic16to8(const short *src, int position, int rate) { int temp, hpos = position >> 16; if (abs(hpos - *MV_GLast) > 3) *MV_GLast = hpos; temp = hpos; while (hpos > *MV_GLast) { gval0 = src[temp++]; *MV_GPos = (*MV_GPos + 1) & 3; (*MV_GLast)++; } return do_cubic ? (MV_cubic(position) >> 8) + 0x80 : (gval(3) >> 8) + 0x80; } void MV_Mix8BitMono( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const unsigned char *src; unsigned char *dest; unsigned int i; src = (const unsigned char *)start; dest = (unsigned char *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic8to16(src, position, rate); int d = (*dest - 0x80) << 8; d += (s * MV_LeftVolume) / MV_MaxVolume; if (d < -32768) *dest = 0; else if (d > 32767) *dest = 255; else *dest = (d >> 8) + 128; position += rate; dest += MV_SampleSize; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_Mix8BitStereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const unsigned char *src; unsigned char *dest; unsigned int i; src = (const unsigned char *)start; dest = (unsigned char *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic8to16(src, position, rate); int dl = (dest[0] - 0x80) << 8; int dr = (dest[MV_RightChannelOffset] - 0x80) << 8; dl += (MV_LeftVolume * s) / MV_MaxVolume; dr += (MV_RightVolume * s) / MV_MaxVolume; if (dl < -32768) dest[0] = 0; else if (dl > 32767) dest[0] = 255; else dest[0] = (dl >> 8) + 128; if (dr < -32768) dest[MV_RightChannelOffset] = 0; else if (dr > 32767) dest[MV_RightChannelOffset] = 255; else dest[MV_RightChannelOffset] = (dl >> 8) + 128; position += rate; dest += MV_SampleSize; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_Mix16BitMono( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const unsigned char *src; short *dest; unsigned int i; src = (const unsigned char *)start; dest = (short *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic8to16(src, position, rate); int d = dest[0]; d += (MV_LeftVolume * s) / MV_MaxVolume; if (d < -32768) *dest = -32768; else if (d > 32767) *dest = 32767; else *dest = d; position += rate; dest += MV_SampleSize/2; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_Mix16BitStereo( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const unsigned char *src; short *dest; unsigned int i; src = (unsigned char *)start; dest = (short *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic8to16(src, position, rate); int dl = dest[0]; int dr = dest[MV_RightChannelOffset/2]; dl += (MV_LeftVolume * s) / MV_MaxVolume; dr += (MV_RightVolume * s) / MV_MaxVolume; if (dl < -32768) dest[0] = -32768; else if (dl > 32767) dest[0] = 32767; else dest[0] = dl; if (dr < -32768) dest[MV_RightChannelOffset/2] = -32768; else if (dr > 32767) dest[MV_RightChannelOffset/2] = 32767; else dest[MV_RightChannelOffset/2] = dr; position += rate; dest += MV_SampleSize/2; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_Mix8BitMono16( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const short *src; unsigned char *dest; unsigned int i; src = (const short *)start; dest = (unsigned char *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic16(src, position, rate); int d = (*dest - 0x80) << 8; d += (MV_LeftVolume * s) / MV_MaxVolume; if (d < -32768) *dest = 0; else if (d > 32767) *dest = 255; else *dest = (d >> 8) + 128; position += rate; dest += MV_SampleSize; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_Mix8BitStereo16( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const short *src; unsigned char *dest; unsigned int i; src = (const short *)start; dest = (unsigned char *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic16(src, position, rate); int dl = (dest[0] - 0x80) << 8; int dr = (dest[MV_RightChannelOffset/2] - 0x80) << 8; dl += (MV_LeftVolume * s) / MV_MaxVolume; dr += (MV_RightVolume * s) / MV_MaxVolume; if (dl < -32768) dest[0] = 0; else if (dl > 32767) dest[0] = 255; else dest[0] = (dl >> 8) + 128; if (dr < -32768) dest[MV_RightChannelOffset] = 0; else if (dr > 32767) dest[MV_RightChannelOffset] = 255; else dest[MV_RightChannelOffset] = (dl >> 8) + 128; position += rate; dest += MV_SampleSize; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_Mix16BitMono16( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const short *src; short *dest; unsigned int i; src = (const short *)start; dest = (short *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic16(src, position, rate); int d = *dest; d += (MV_LeftVolume * s) / MV_MaxVolume; if (d < -32768) *dest = -32768; else if (d > 32767) *dest = 32767; else *dest = d; position += rate; dest += MV_SampleSize/2; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_Mix16BitStereo16( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const short *src; short *dest; unsigned int i; src = (const short *)start; dest = (short *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic16(src, position, rate); int dl = dest[0]; int dr = dest[MV_RightChannelOffset/2]; dl += (MV_LeftVolume * s) / MV_MaxVolume; dr += (MV_RightVolume * s) / MV_MaxVolume; if (dl < -32768) dest[0] = -32768; else if (dl > 32767) dest[0] = 32767; else dest[0] = dl; if (dr < -32768) dest[MV_RightChannelOffset/2] = -32768; else if (dr > 32767) dest[MV_RightChannelOffset/2] = 32767; else dest[MV_RightChannelOffset/2] = dl; position += rate; dest += MV_SampleSize/2; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_MixFPMono8( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const unsigned char *src; double *dest; unsigned int i; src = (const unsigned char *)start; dest = (double *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic8to16(src, position, rate); double out; out = (double)s * (double)MV_LeftVolume / (double)MV_MaxVolume; out = out / ((double)0x8000); *dest += out; position += rate; dest += MV_Channels; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_MixFPStereo8( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const unsigned char *src; double *dest; unsigned int i; src = (const unsigned char *)start; dest = (double *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic8to16(src, position, rate); double left, right; left = (double)MV_LeftVolume * (double)s / (double)MV_MaxVolume; left = left / ((double)0x8000); right = (double)(MV_RightVolume * s) / MV_MaxVolume; right = right / ((double)0x8000); dest[0] += left; dest[1] += right; position += rate; dest += MV_Channels; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_MixFPMono16( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const short *src; double *dest; unsigned int i; src = (const short *)start; dest = (double *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic16(src, position, rate); double out; out = (double)s * (double)MV_LeftVolume / (double)MV_MaxVolume; out = out / ((double)0x8000); *dest += out; position += rate; dest += MV_Channels; } MV_MixPosition = position; MV_MixDestination = (char *)dest; } void MV_MixFPStereo16( uint32_t position, uint32_t rate, const char *start, uint32_t length ) { const short *src; double *dest; unsigned int i; src = (const short *)start; dest = (double *)MV_MixDestination; for (i = 0; i < length; i++) { int s = MV_cubic16(src, position, rate); double left, right; left = (double)MV_LeftVolume * (double)s / (double)MV_MaxVolume; left = left / ((double)0x8000); right = (double)(MV_RightVolume * s) / MV_MaxVolume; right = right / ((double)0x8000); dest[0] += left; dest[1] += right; position += rate; dest += MV_Channels; } MV_MixPosition = position; MV_MixDestination = (char *)dest; }