/*************************************************************************** * * * LinuxSampler - modular, streaming capable sampler * * * * Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck * * * * 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., 59 Temple Place, Suite 330, Boston, * * MA 02111-1307 USA * ***************************************************************************/ #include #include #include #include "Synthesizer.h" #include "Profiler.h" #define SYNTHESIZE(IMPL,CHAN,FILTER,INTERPOLATE,LOOP,CONSTPITCH) \ Synthesizer::SynthesizeFragment( \ voice, samples, pSrc, skip) #define SYNTHESIZEP(IMPL,CHAN,FILTER,INTERPOLATE,LOOP,CONSTPITCH) \ RTMath::time_stamp_t start = Profiler::Stamp(); \ Synthesizer::SynthesizeFragment( \ voice, samples, pSrc, skip); \ Profiler::Record(start, samples, skip) namespace LinuxSampler { namespace gig { void SynthesizeFragment_mode01(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,0,0,0,1); } void SynthesizeFragment_mode02(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,0,0,1,1); } void SynthesizeFragment_mode03(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,0,0,1,1); } void SynthesizeFragment_mode04(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,0,1,0,0); } void SynthesizeFragment_mode05(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,0,1,0,1); } void SynthesizeFragment_mode06(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,0,1,1,0); } void SynthesizeFragment_mode07(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,0,1,1,1); } void SynthesizeFragment_mode08(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,1,0,0,1); } void SynthesizeFragment_mode09(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,1,0,0,1); } void SynthesizeFragment_mode0a(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,1,0,1,1); } void SynthesizeFragment_mode0b(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,1,0,1,1); } void SynthesizeFragment_mode0c(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,1,1,0,0); } void SynthesizeFragment_mode0d(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,1,1,0,1); } void SynthesizeFragment_mode0e(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,1,1,1,0); } void SynthesizeFragment_mode0f(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,MONO,1,1,1,1); } void SynthesizeFragment_mode11(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,0,0,0,1); } void SynthesizeFragment_mode13(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,0,0,1,1); } void SynthesizeFragment_mode14(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,0,1,0,0); } void SynthesizeFragment_mode15(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,0,1,0,1); } void SynthesizeFragment_mode16(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,0,1,1,0); } void SynthesizeFragment_mode17(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,0,1,1,1); } void SynthesizeFragment_mode19(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,1,0,0,1); } void SynthesizeFragment_mode1b(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,1,0,1,1); } void SynthesizeFragment_mode1c(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,1,1,0,0); } void SynthesizeFragment_mode1d(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,1,1,0,1); } void SynthesizeFragment_mode1e(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,1,1,1,0); } void SynthesizeFragment_mode1f(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(CPP,STEREO,1,1,1,1); } #if ARCH_X86 void SynthesizeFragment_mode21(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,0,0,0,1); } void SynthesizeFragment_mode23(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,0,0,1,1); } void SynthesizeFragment_mode24(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,0,1,0,0); } void SynthesizeFragment_mode25(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,0,1,0,1); } void SynthesizeFragment_mode26(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,0,1,1,0); } void SynthesizeFragment_mode27(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,0,1,1,1); } void SynthesizeFragment_mode29(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,1,0,0,1); } void SynthesizeFragment_mode2b(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,1,0,1,1); } void SynthesizeFragment_mode2c(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,1,1,0,0); } void SynthesizeFragment_mode2d(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,1,1,0,1); } void SynthesizeFragment_mode2e(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,1,1,1,0); } void SynthesizeFragment_mode2f(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,MONO,1,1,1,1); } void SynthesizeFragment_mode31(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,0,0,0,1); } void SynthesizeFragment_mode33(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,0,0,1,1); } void SynthesizeFragment_mode34(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,0,1,0,0); } void SynthesizeFragment_mode35(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,0,1,0,1); } void SynthesizeFragment_mode36(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,0,1,1,0); } void SynthesizeFragment_mode37(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,0,1,1,1); } void SynthesizeFragment_mode39(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,1,0,0,1); } void SynthesizeFragment_mode3b(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,1,0,1,1); } void SynthesizeFragment_mode3c(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,1,1,0,0); } void SynthesizeFragment_mode3d(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,1,1,0,1); } void SynthesizeFragment_mode3e(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,1,1,1,0); } void SynthesizeFragment_mode3f(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZE(ASM_X86_MMX_SSE,STEREO,1,1,1,1); } #endif // ARCH_X86 //These are the same thing but with performance monitoring void SynthesizeFragment_mode41(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,0,0,0,1); } void SynthesizeFragment_mode42(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,0,0,1,1); } void SynthesizeFragment_mode43(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,0,0,1,1); } void SynthesizeFragment_mode44(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,0,1,0,0); } void SynthesizeFragment_mode45(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,0,1,0,1); } void SynthesizeFragment_mode46(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,0,1,1,0); } void SynthesizeFragment_mode47(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,0,1,1,1); } void SynthesizeFragment_mode48(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,1,0,0,1); } void SynthesizeFragment_mode49(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,1,0,0,1); } void SynthesizeFragment_mode4a(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,1,0,1,1); } void SynthesizeFragment_mode4b(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,1,0,1,1); } void SynthesizeFragment_mode4c(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,1,1,0,0); } void SynthesizeFragment_mode4d(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,1,1,0,1); } void SynthesizeFragment_mode4e(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,1,1,1,0); } void SynthesizeFragment_mode4f(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,MONO,1,1,1,1); } void SynthesizeFragment_mode51(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,0,0,0,1); } void SynthesizeFragment_mode53(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,0,0,1,1); } void SynthesizeFragment_mode54(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,0,1,0,0); } void SynthesizeFragment_mode55(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,0,1,0,1); } void SynthesizeFragment_mode56(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,0,1,1,0); } void SynthesizeFragment_mode57(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,0,1,1,1); } void SynthesizeFragment_mode59(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,1,0,0,1); } void SynthesizeFragment_mode5b(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,1,0,1,1); } void SynthesizeFragment_mode5c(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,1,1,0,0); } void SynthesizeFragment_mode5d(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,1,1,0,1); } void SynthesizeFragment_mode5e(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,1,1,1,0); } void SynthesizeFragment_mode5f(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(CPP,STEREO,1,1,1,1); } #if ARCH_X86 void SynthesizeFragment_mode61(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,0,0,0,1); } void SynthesizeFragment_mode63(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,0,0,1,1); } void SynthesizeFragment_mode64(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,0,1,0,0); } void SynthesizeFragment_mode65(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,0,1,0,1); } void SynthesizeFragment_mode66(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,0,1,1,0); } void SynthesizeFragment_mode67(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,0,1,1,1); } void SynthesizeFragment_mode69(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,1,0,0,1); } void SynthesizeFragment_mode6b(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,1,0,1,1); } void SynthesizeFragment_mode6c(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,1,1,0,0); } void SynthesizeFragment_mode6d(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,1,1,0,1); } void SynthesizeFragment_mode6e(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,1,1,1,0); } void SynthesizeFragment_mode6f(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,MONO,1,1,1,1); } void SynthesizeFragment_mode71(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,0,0,0,1); } void SynthesizeFragment_mode73(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,0,0,1,1); } void SynthesizeFragment_mode74(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,0,1,0,0); } void SynthesizeFragment_mode75(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,0,1,0,1); } void SynthesizeFragment_mode76(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,0,1,1,0); } void SynthesizeFragment_mode77(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,0,1,1,1); } void SynthesizeFragment_mode79(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,1,0,0,1); } void SynthesizeFragment_mode7b(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,1,0,1,1); } void SynthesizeFragment_mode7c(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,1,1,0,0); } void SynthesizeFragment_mode7d(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,1,1,0,1); } void SynthesizeFragment_mode7e(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,1,1,1,0); } void SynthesizeFragment_mode7f(VOICE &voice, uint samples, sample_t* pSrc, uint skip) { SYNTHESIZEP(ASM_X86_MMX_SSE,STEREO,1,1,1,1); } #endif // ARCH_X86 void* GetSynthesisFunction(const int SynthesisMode) { // Mode Bits: IMPL,CHAN,FILT,INTERP,LOOP,CONSTPITCH switch (SynthesisMode) { case 0x00: // redundant case 0x01: return (void*) SynthesizeFragment_mode01; case 0x02: // redundant case 0x03: return (void*) SynthesizeFragment_mode03; case 0x04: return (void*) SynthesizeFragment_mode04; case 0x05: return (void*) SynthesizeFragment_mode05; case 0x06: return (void*) SynthesizeFragment_mode06; case 0x07: return (void*) SynthesizeFragment_mode07; case 0x08: // redundant case 0x09: return (void*) SynthesizeFragment_mode09; case 0x0a: // redundant case 0x0b: return (void*) SynthesizeFragment_mode0b; case 0x0c: return (void*) SynthesizeFragment_mode0c; case 0x0d: return (void*) SynthesizeFragment_mode0d; case 0x0e: return (void*) SynthesizeFragment_mode0e; case 0x0f: return (void*) SynthesizeFragment_mode0f; case 0x10: // redundant case 0x11: return (void*) SynthesizeFragment_mode11; case 0x12: // redundant case 0x13: return (void*) SynthesizeFragment_mode13; case 0x14: return (void*) SynthesizeFragment_mode14; case 0x15: return (void*) SynthesizeFragment_mode15; case 0x16: return (void*) SynthesizeFragment_mode16; case 0x17: return (void*) SynthesizeFragment_mode17; case 0x18: // redundant case 0x19: return (void*) SynthesizeFragment_mode19; case 0x1a: // redundant case 0x1b: return (void*) SynthesizeFragment_mode1b; case 0x1c: return (void*) SynthesizeFragment_mode1c; case 0x1d: return (void*) SynthesizeFragment_mode1d; case 0x1e: return (void*) SynthesizeFragment_mode1e; case 0x1f: return (void*) SynthesizeFragment_mode1f; #if ARCH_X86 case 0x20: // redundant case 0x21: return (void*) SynthesizeFragment_mode21; case 0x22: // redundant case 0x23: return (void*) SynthesizeFragment_mode23; case 0x24: return (void*) SynthesizeFragment_mode24; case 0x25: return (void*) SynthesizeFragment_mode25; case 0x26: return (void*) SynthesizeFragment_mode26; case 0x27: return (void*) SynthesizeFragment_mode27; case 0x28: // redundant case 0x29: return (void*) SynthesizeFragment_mode29; case 0x2a: // redundant case 0x2b: return (void*) SynthesizeFragment_mode2b; case 0x2c: return (void*) SynthesizeFragment_mode2c; case 0x2d: return (void*) SynthesizeFragment_mode2d; case 0x2e: return (void*) SynthesizeFragment_mode2e; case 0x2f: return (void*) SynthesizeFragment_mode2f; case 0x30: // redundant case 0x31: return (void*) SynthesizeFragment_mode31; case 0x32: // redundant case 0x33: return (void*) SynthesizeFragment_mode33; case 0x34: return (void*) SynthesizeFragment_mode34; case 0x35: return (void*) SynthesizeFragment_mode35; case 0x36: return (void*) SynthesizeFragment_mode36; case 0x37: return (void*) SynthesizeFragment_mode37; case 0x38: // redundant case 0x39: return (void*) SynthesizeFragment_mode39; case 0x3a: // redundant case 0x3b: return (void*) SynthesizeFragment_mode3b; case 0x3c: return (void*) SynthesizeFragment_mode3c; case 0x3d: return (void*) SynthesizeFragment_mode3d; case 0x3e: return (void*) SynthesizeFragment_mode3e; case 0x3f: return (void*) SynthesizeFragment_mode3f; #endif // ARCH_X86 //these are the same with performance monitoring case 0x40: // redundant case 0x41: return (void*) SynthesizeFragment_mode41; case 0x42: // redundant case 0x43: return (void*) SynthesizeFragment_mode43; case 0x44: return (void*) SynthesizeFragment_mode44; case 0x45: return (void*) SynthesizeFragment_mode45; case 0x46: return (void*) SynthesizeFragment_mode46; case 0x47: return (void*) SynthesizeFragment_mode47; case 0x48: // redundant case 0x49: return (void*) SynthesizeFragment_mode49; case 0x4a: // redundant case 0x4b: return (void*) SynthesizeFragment_mode4b; case 0x4c: return (void*) SynthesizeFragment_mode4c; case 0x4d: return (void*) SynthesizeFragment_mode4d; case 0x4e: return (void*) SynthesizeFragment_mode4e; case 0x4f: return (void*) SynthesizeFragment_mode4f; case 0x50: // redundant case 0x51: return (void*) SynthesizeFragment_mode51; case 0x52: // redundant case 0x53: return (void*) SynthesizeFragment_mode53; case 0x54: return (void*) SynthesizeFragment_mode54; case 0x55: return (void*) SynthesizeFragment_mode55; case 0x56: return (void*) SynthesizeFragment_mode56; case 0x57: return (void*) SynthesizeFragment_mode57; case 0x58: // redundant case 0x59: return (void*) SynthesizeFragment_mode59; case 0x5a: // redundant case 0x5b: return (void*) SynthesizeFragment_mode5b; case 0x5c: return (void*) SynthesizeFragment_mode5c; case 0x5d: return (void*) SynthesizeFragment_mode5d; case 0x5e: return (void*) SynthesizeFragment_mode5e; case 0x5f: return (void*) SynthesizeFragment_mode5f; #if ARCH_X86 case 0x60: // redundant case 0x61: return (void*) SynthesizeFragment_mode61; case 0x62: // redundant case 0x63: return (void*) SynthesizeFragment_mode63; case 0x64: return (void*) SynthesizeFragment_mode64; case 0x65: return (void*) SynthesizeFragment_mode65; case 0x66: return (void*) SynthesizeFragment_mode66; case 0x67: return (void*) SynthesizeFragment_mode67; case 0x68: // redundant case 0x69: return (void*) SynthesizeFragment_mode69; case 0x6a: // redundant case 0x6b: return (void*) SynthesizeFragment_mode6b; case 0x6c: return (void*) SynthesizeFragment_mode6c; case 0x6d: return (void*) SynthesizeFragment_mode6d; case 0x6e: return (void*) SynthesizeFragment_mode6e; case 0x6f: return (void*) SynthesizeFragment_mode6f; case 0x70: // redundant case 0x71: return (void*) SynthesizeFragment_mode71; case 0x72: // redundant case 0x73: return (void*) SynthesizeFragment_mode73; case 0x74: return (void*) SynthesizeFragment_mode74; case 0x75: return (void*) SynthesizeFragment_mode75; case 0x76: return (void*) SynthesizeFragment_mode76; case 0x77: return (void*) SynthesizeFragment_mode77; case 0x78: // redundant case 0x79: return (void*) SynthesizeFragment_mode79; case 0x7a: // redundant case 0x7b: return (void*) SynthesizeFragment_mode7b; case 0x7c: return (void*) SynthesizeFragment_mode7c; case 0x7d: return (void*) SynthesizeFragment_mode7d; case 0x7e: return (void*) SynthesizeFragment_mode7e; case 0x7f: return (void*) SynthesizeFragment_mode7f; #endif // ARCH_X86 default: { printf("gig::Synthesizer: Invalid Synthesis Mode: %d\n", SynthesisMode); exit(-1); } } } void RunSynthesisFunction(const int SynthesisMode, VOICE& voice, uint Samples, sample_t* pSrc, uint Skip) { SynthesizeFragment_Fn* f = (SynthesizeFragment_Fn*) GetSynthesisFunction(SynthesisMode); f(voice, Samples, pSrc, Skip); } }} // namespace LinuxSampler::gig