mirror of
https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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2fd4b22a83
Original commit message from CVS: * gst/modplug/libmodplug/load_ptm.cpp: Fix compilation with gcc-4.1 and -Werror (#327355).
217 lines
6.3 KiB
C++
217 lines
6.3 KiB
C++
/*
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* This source code is public domain.
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*
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* Authors: Olivier Lapicque <olivierl@jps.net>,
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* Adam Goode <adam@evdebs.org> (endian and char fixes for PPC)
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*/
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//////////////////////////////////////////////
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// PTM PolyTracker module loader //
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//////////////////////////////////////////////
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include "stdafx.h"
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#include "sndfile.h"
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//#pragma warning(disable:4244)
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#pragma pack(1)
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typedef struct PTMFILEHEADER
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{
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CHAR songname[28]; // name of song, asciiz string
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CHAR eof; // 26
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BYTE version_lo; // 03 version of file, currently 0203h
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BYTE version_hi; // 02
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BYTE reserved1; // reserved, set to 0
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WORD norders; // number of orders (0..256)
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WORD nsamples; // number of instruments (1..255)
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WORD npatterns; // number of patterns (1..128)
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WORD nchannels; // number of channels (voices) used (1..32)
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WORD fileflags; // set to 0
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WORD reserved2; // reserved, set to 0
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DWORD ptmf_id; // song identification, 'PTMF' or 0x464d5450
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BYTE reserved3[16]; // reserved, set to 0
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BYTE chnpan[32]; // channel panning settings, 0..15, 0 = left, 7 = middle, 15 = right
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BYTE orders[256]; // order list, valid entries 0..nOrders-1
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WORD patseg[128]; // pattern offsets (*16)
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} PTMFILEHEADER, *LPPTMFILEHEADER;
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#define SIZEOF_PTMFILEHEADER 608
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typedef struct PTMSAMPLE
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{
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BYTE sampletype; // sample type (bit array)
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CHAR filename[12]; // name of external sample file
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BYTE volume; // default volume
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WORD nC4Spd; // C4 speed
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WORD sampleseg; // sample segment (used internally)
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WORD fileofs[2]; // offset of sample data
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WORD length[2]; // sample size (in bytes)
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WORD loopbeg[2]; // start of loop
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WORD loopend[2]; // end of loop
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WORD gusdata[8];
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char samplename[28]; // name of sample, asciiz // changed from CHAR
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DWORD ptms_id; // sample identification, 'PTMS' or 0x534d5450
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} PTMSAMPLE;
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#define SIZEOF_PTMSAMPLE 80
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#pragma pack()
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BOOL CSoundFile::ReadPTM(const BYTE *lpStream, DWORD dwMemLength)
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//---------------------------------------------------------------
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{
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PTMFILEHEADER pfh = *(LPPTMFILEHEADER)lpStream;
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DWORD dwMemPos;
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UINT nOrders;
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pfh.norders = bswapLE16(pfh.norders);
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pfh.nsamples = bswapLE16(pfh.nsamples);
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pfh.npatterns = bswapLE16(pfh.npatterns);
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pfh.nchannels = bswapLE16(pfh.nchannels);
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pfh.fileflags = bswapLE16(pfh.fileflags);
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pfh.reserved2 = bswapLE16(pfh.reserved2);
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pfh.ptmf_id = bswapLE32(pfh.ptmf_id);
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for (UINT j=0; j<128; j++)
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{
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pfh.patseg[j] = bswapLE16(pfh.patseg[j]);
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}
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if ((!lpStream) || (dwMemLength < 1024)) return FALSE;
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if ((pfh.ptmf_id != 0x464d5450) || (!pfh.nchannels)
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|| (pfh.nchannels > 32)
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|| (pfh.norders > 256) || (!pfh.norders)
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|| (!pfh.nsamples) || (pfh.nsamples > 255)
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|| (!pfh.npatterns) || (pfh.npatterns > 128)
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|| (SIZEOF_PTMFILEHEADER+pfh.nsamples*SIZEOF_PTMSAMPLE >= (int)dwMemLength)) return FALSE;
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memcpy(m_szNames[0], pfh.songname, 28);
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m_szNames[0][28] = 0;
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m_nType = MOD_TYPE_PTM;
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m_nChannels = pfh.nchannels;
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m_nSamples = (pfh.nsamples < MAX_SAMPLES) ? pfh.nsamples : MAX_SAMPLES-1;
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dwMemPos = SIZEOF_PTMFILEHEADER;
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nOrders = (pfh.norders < MAX_ORDERS) ? pfh.norders : MAX_ORDERS-1;
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memcpy(Order, pfh.orders, nOrders);
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for (UINT ipan=0; ipan<m_nChannels; ipan++)
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{
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ChnSettings[ipan].nVolume = 64;
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ChnSettings[ipan].nPan = ((pfh.chnpan[ipan] & 0x0F) << 4) + 4;
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}
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for (UINT ismp=0; ismp<m_nSamples; ismp++, dwMemPos += SIZEOF_PTMSAMPLE)
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{
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MODINSTRUMENT *pins = &Ins[ismp+1];
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PTMSAMPLE *psmp = (PTMSAMPLE *)(lpStream+dwMemPos);
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lstrcpyn(m_szNames[ismp+1], psmp->samplename, 28);
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memcpy(pins->name, psmp->filename, 12);
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pins->name[12] = 0;
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pins->nGlobalVol = 64;
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pins->nPan = 128;
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pins->nVolume = psmp->volume << 2;
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pins->nC4Speed = bswapLE16(psmp->nC4Spd) << 1;
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pins->uFlags = 0;
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if ((psmp->sampletype & 3) == 1)
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{
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UINT smpflg = RS_PCM8D;
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DWORD samplepos;
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DWORD psmp_length, psmp_loopbeg, psmp_loopend, psmp_fileofs;
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memcpy (&psmp_length, (void *) psmp->length, sizeof (DWORD));
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memcpy (&psmp_loopbeg, (void *) psmp->loopbeg, sizeof (DWORD));
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memcpy (&psmp_loopend, (void *) psmp->loopend, sizeof (DWORD));
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memcpy (&psmp_fileofs, (void *) psmp->fileofs, sizeof (DWORD));
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pins->nLength = bswapLE32(psmp_length);
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pins->nLoopStart = bswapLE32(psmp_loopbeg);
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pins->nLoopEnd = bswapLE32(psmp_loopend);
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samplepos = bswapLE32(psmp_fileofs);
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if (psmp->sampletype & 4) pins->uFlags |= CHN_LOOP;
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if (psmp->sampletype & 8) pins->uFlags |= CHN_PINGPONGLOOP;
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if (psmp->sampletype & 16)
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{
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pins->uFlags |= CHN_16BIT;
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pins->nLength >>= 1;
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pins->nLoopStart >>= 1;
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pins->nLoopEnd >>= 1;
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smpflg = RS_PTM8DTO16;
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}
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if ((pins->nLength) && (samplepos) && (samplepos < dwMemLength))
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{
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ReadSample(pins, smpflg, (LPSTR)(lpStream+samplepos), dwMemLength-samplepos);
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}
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}
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}
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// Reading Patterns
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for (UINT ipat=0; ipat<pfh.npatterns; ipat++)
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{
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dwMemPos = ((UINT)pfh.patseg[ipat]) << 4;
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if ((!dwMemPos) || (dwMemPos >= dwMemLength)) continue;
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PatternSize[ipat] = 64;
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if ((Patterns[ipat] = AllocatePattern(64, m_nChannels)) == NULL) break;
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//
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MODCOMMAND *m = Patterns[ipat];
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for (UINT row=0; ((row < 64) && (dwMemPos < dwMemLength)); )
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{
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UINT b = lpStream[dwMemPos++];
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if (dwMemPos >= dwMemLength) break;
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if (b)
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{
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UINT nChn = b & 0x1F;
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if (b & 0x20)
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{
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if (dwMemPos + 2 > dwMemLength) break;
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m[nChn].note = lpStream[dwMemPos++];
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m[nChn].instr = lpStream[dwMemPos++];
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}
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if (b & 0x40)
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{
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if (dwMemPos + 2 > dwMemLength) break;
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m[nChn].command = lpStream[dwMemPos++];
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m[nChn].param = lpStream[dwMemPos++];
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if ((m[nChn].command == 0x0E) && ((m[nChn].param & 0xF0) == 0x80))
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{
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m[nChn].command = CMD_S3MCMDEX;
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} else
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if (m[nChn].command < 0x10)
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{
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ConvertModCommand(&m[nChn]);
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} else
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{
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switch(m[nChn].command)
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{
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case 16:
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m[nChn].command = CMD_GLOBALVOLUME;
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break;
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case 17:
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m[nChn].command = CMD_RETRIG;
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break;
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case 18:
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m[nChn].command = CMD_FINEVIBRATO;
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break;
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default:
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m[nChn].command = 0;
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}
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}
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}
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if (b & 0x80)
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{
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if (dwMemPos >= dwMemLength) break;
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m[nChn].volcmd = VOLCMD_VOLUME;
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m[nChn].vol = lpStream[dwMemPos++];
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}
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} else
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{
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row++;
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m += m_nChannels;
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}
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}
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}
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return TRUE;
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}
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