/* Copyright (c) 2002-2012 Croteam Ltd. This program is free software; you can redistribute it and/or modify it under the terms of version 2 of the GNU General Public License as published by the Free Software Foundation 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 "stdh.h" #include #include #include #include #include #include #include #include // generic function called if a dll function is not found static void FailFunction_t(const char *strName) { ThrowF_t(TRANS("Function %s not found."), strName); } // ------------------------------------ AMP11 // amp11lib vars extern BOOL _bAMP11Enabled = FALSE; static HINSTANCE _hAmp11lib = NULL; // amp11lib types typedef signed char ALsint8; typedef unsigned char ALuint8; typedef signed short ALsint16; typedef unsigned short ALuint16; typedef signed int ALsint32; typedef unsigned int ALuint32; typedef signed int ALsize; typedef int ALbool; typedef float ALfloat; #define ALtrue 1 #define ALfalse 0 typedef ALsint32 ALhandle; // define amp11lib function pointers #define DLLFUNCTION(dll, output, name, inputs, params, required) \ output (__stdcall *p##name) inputs = NULL; #include "al_functions.h" #undef DLLFUNCTION static void AMP11_SetFunctionPointers_t(void) { const char *strName; // get amp11lib function pointers #define DLLFUNCTION(dll, output, name, inputs, params, required) \ strName = "_" #name "@" #params; \ p##name = (output (__stdcall*) inputs) GetProcAddress( _hAmp11lib, strName); \ if(p##name == NULL) FailFunction_t(strName); #include "al_functions.h" #undef DLLFUNCTION } static void AMP11_ClearFunctionPointers(void) { // clear amp11lib function pointers #define DLLFUNCTION(dll, output, name, inputs, params, required) p##name = NULL; #include "al_functions.h" #undef DLLFUNCTION } class CDecodeData_MPEG { public: ALhandle mpeg_hMainFile; // mainfile handle if using subfile ALhandle mpeg_hFile; // file handle ALhandle mpeg_hDecoder; // the decoder handle FLOAT mpeg_fSecondsLen; // length of sound in seconds WAVEFORMATEX mpeg_wfeFormat; // format of sound }; // ------------------------------------ Ogg Vorbis #include // we define needed stuff ourselves, and ignore the rest // vorbis vars extern BOOL _bOVEnabled = FALSE; static HINSTANCE _hOV = NULL; class CDecodeData_OGG { public: FILE *ogg_fFile; // the stdio file that ogg is in SLONG ogg_slOffset; // offset where the ogg starts in the file (!=0 for oggs in zip) SLONG ogg_slSize; // size of ogg in the file (!=filesize for oggs in zip) OggVorbis_File *ogg_vfVorbisFile; // the decoder file WAVEFORMATEX ogg_wfeFormat; // format of sound }; // define vorbis function pointers #define DLLFUNCTION(dll, output, name, inputs, params, required) \ output (__cdecl *p##name) inputs = NULL; #include "ov_functions.h" #undef DLLFUNCTION static void OV_SetFunctionPointers_t(void) { const char *strName; // get vo function pointers #define DLLFUNCTION(dll, output, name, inputs, params, required) \ strName = #name ; \ p##name = (output (__cdecl *) inputs) GetProcAddress( _hOV, strName); \ if(p##name == NULL) FailFunction_t(strName); #include "ov_functions.h" #undef DLLFUNCTION } static void OV_ClearFunctionPointers(void) { // clear vo function pointers #define DLLFUNCTION(dll, output, name, inputs, params, required) p##name = NULL; #include "ov_functions.h" #undef DLLFUNCTION } // ogg file reading callbacks // static size_t ogg_read_func (void *ptr, size_t size, size_t nmemb, void *datasource) { CDecodeData_OGG *pogg = (CDecodeData_OGG *)datasource; // calculate how much can be read at most SLONG slToRead = size*nmemb; SLONG slCurrentPos = ftell(pogg->ogg_fFile)-pogg->ogg_slOffset; SLONG slSizeLeft = ClampDn(pogg->ogg_slSize-slCurrentPos, 0L); slToRead = ClampUp(slToRead, slSizeLeft); // rounded down to the block size slToRead/=size; slToRead*=size; // if there is nothing to read if (slToRead<=0) { return 0; } return fread(ptr, size, slToRead/size, pogg->ogg_fFile); } static int ogg_seek_func (void *datasource, ogg_int64_t offset, int whence) { return -1; /* !!!! seeking is evil with vorbisfile 1.0RC2 CDecodeData_OGG *pogg = (CDecodeData_OGG *)datasource; SLONG slCurrentPos = ftell(pogg->ogg_fFile)-pogg->ogg_slOffset; if (whence==SEEK_CUR) { return fseek(pogg->ogg_fFile, offset, SEEK_CUR); } else if (whence==SEEK_END) { return fseek(pogg->ogg_fFile, pogg->ogg_slOffset+pogg->ogg_slSize-offset, SEEK_SET); } else { ASSERT(whence==SEEK_SET); return fseek(pogg->ogg_fFile, pogg->ogg_slOffset+offset, SEEK_SET); } */ } static int ogg_close_func (void *datasource) { return 0; /* !!!! closing is evil with vorbisfile 1.0RC2 CDecodeData_OGG *pogg = (CDecodeData_OGG *)datasource; fclose(pogg->ogg_fFile); */ } static long ogg_tell_func (void *datasource) { return -1; /* !!!! seeking is evil with vorbisfile 1.0RC2 CDecodeData_OGG *pogg = (CDecodeData_OGG *)datasource; ftell(pogg->ogg_fFile)-pogg->ogg_slOffset; */ } static ov_callbacks ovcCallbacks = { ogg_read_func, ogg_seek_func, ogg_close_func, ogg_tell_func, }; // initialize/end the decoding support engine(s) void CSoundDecoder::InitPlugins(void) { try { // load vorbis if (_hOV==NULL) { #ifndef NDEBUG #define VORBISLIB "libvorbisfile.dll" #else #define VORBISLIB "libvorbisfile.dll" #endif _hOV = ::LoadLibraryA(VORBISLIB); } if( _hOV == NULL) { ThrowF_t(TRANS("Cannot load libvorbisfile.dll.")); } // prepare function pointers OV_SetFunctionPointers_t(); // if all successful, enable mpx playing _bOVEnabled = TRUE; CPrintF(TRANS(" libvorbisfile.dll loaded, ogg playing enabled\n")); } catch (char *strError) { CPrintF(TRANS("OGG playing disabled: %s\n"), strError); } try { // load amp11lib if (_hAmp11lib==NULL) { _hAmp11lib = ::LoadLibraryA( "amp11lib.dll"); } if( _hAmp11lib == NULL) { ThrowF_t(TRANS("Cannot load amp11lib.dll.")); } // prepare function pointers AMP11_SetFunctionPointers_t(); // initialize amp11lib before calling any of its functions palInitLibrary(); // if all successful, enable mpx playing _bAMP11Enabled = TRUE; CPrintF(TRANS(" amp11lib.dll loaded, mpx playing enabled\n")); } catch (char *strError) { CPrintF(TRANS("MPX playing disabled: %s\n"), strError); } } void CSoundDecoder::EndPlugins(void) { // cleanup amp11lib when not needed anymore if (_bAMP11Enabled) { palEndLibrary(); AMP11_ClearFunctionPointers(); FreeLibrary(_hAmp11lib); _hAmp11lib = NULL; _bAMP11Enabled = FALSE; } // cleanup vorbis when not needed anymore if (_bOVEnabled) { OV_ClearFunctionPointers(); FreeLibrary(_hOV); _hOV = NULL; _bOVEnabled = FALSE; } } // decoder that streams from file CSoundDecoder::CSoundDecoder(const CTFileName &fnm) { sdc_pogg = NULL; sdc_pmpeg = NULL; CTFileName fnmExpanded; INDEX iFileType = ExpandFilePath(EFP_READ, fnm, fnmExpanded); // if ogg if (fnmExpanded.FileExt()==".ogg") { if (!_bOVEnabled) { return; } sdc_pogg = new CDecodeData_OGG; sdc_pogg->ogg_fFile = NULL; sdc_pogg->ogg_vfVorbisFile = NULL; sdc_pogg->ogg_slOffset = 0; sdc_pogg->ogg_slSize = 0; INDEX iZipHandle = 0; try { // if in zip if (iFileType==EFP_BASEZIP || iFileType==EFP_MODZIP) { // open it iZipHandle = UNZIPOpen_t(fnmExpanded); CTFileName fnmZip; SLONG slOffset; SLONG slSizeCompressed; SLONG slSizeUncompressed; BOOL bCompressed; UNZIPGetFileInfo(iZipHandle, fnmZip, slOffset, slSizeCompressed, slSizeUncompressed, bCompressed); // if compressed if (bCompressed) { ThrowF_t(TRANS("encoded audio in archives must not be compressed!\n")); } // open ogg file sdc_pogg->ogg_fFile = fopen(fnmZip, "rb"); // if error if (sdc_pogg->ogg_fFile==0) { ThrowF_t(TRANS("cannot open archive '%s'"), (const char*)fnmZip); } // remember offset and size sdc_pogg->ogg_slOffset = slOffset; sdc_pogg->ogg_slSize = slSizeUncompressed; fseek(sdc_pogg->ogg_fFile, slOffset, SEEK_SET); // if not in zip } else if (iFileType==EFP_FILE) { // open ogg file sdc_pogg->ogg_fFile = fopen(fnmExpanded, "rb"); // if error if (sdc_pogg->ogg_fFile==0) { ThrowF_t(TRANS("cannot open encoded audio file")); } // remember offset and size sdc_pogg->ogg_slOffset = 0; fseek(sdc_pogg->ogg_fFile, 0, SEEK_END); sdc_pogg->ogg_slSize = ftell(sdc_pogg->ogg_fFile); fseek(sdc_pogg->ogg_fFile, 0, SEEK_SET); // if not found } else { ThrowF_t(TRANS("file not found")); } // initialize decoder sdc_pogg->ogg_vfVorbisFile = new OggVorbis_File; int iRes = pov_open_callbacks(sdc_pogg, sdc_pogg->ogg_vfVorbisFile, NULL, 0, ovcCallbacks); // if error if (iRes!=0) { ThrowF_t(TRANS("cannot open ogg decoder")); } // get info on the file vorbis_info *pvi = pov_info(sdc_pogg->ogg_vfVorbisFile, -1); // remember it's format WAVEFORMATEX form; form.wFormatTag=WAVE_FORMAT_PCM; form.nChannels=pvi->channels; form.nSamplesPerSec=pvi->rate; form.wBitsPerSample=16; form.nBlockAlign=form.nChannels*form.wBitsPerSample/8; form.nAvgBytesPerSec=form.nSamplesPerSec*form.nBlockAlign; form.cbSize=0; // check for stereo if (pvi->channels!=2) { ThrowF_t(TRANS("not stereo")); } sdc_pogg->ogg_wfeFormat = form; } catch (char*strError) { CPrintF(TRANS("Cannot open encoded audio '%s' for streaming: %s\n"), (const char*)fnm, (const char*)strError); if (sdc_pogg->ogg_vfVorbisFile!=NULL) { delete sdc_pogg->ogg_vfVorbisFile; sdc_pogg->ogg_vfVorbisFile = NULL; } if (sdc_pogg->ogg_fFile!=NULL) { fclose(sdc_pogg->ogg_fFile); sdc_pogg->ogg_fFile = NULL; } if (iZipHandle!=0) { UNZIPClose(iZipHandle); } Clear(); return; } if (iZipHandle!=0) { UNZIPClose(iZipHandle); } // if mp3 } else if (fnmExpanded.FileExt()==".mp3") { if (!_bAMP11Enabled) { return; } sdc_pmpeg = new CDecodeData_MPEG; sdc_pmpeg->mpeg_hMainFile = 0; sdc_pmpeg->mpeg_hFile = 0; sdc_pmpeg->mpeg_hDecoder = 0; INDEX iZipHandle = 0; try { // if in zip if (iFileType==EFP_BASEZIP || iFileType==EFP_MODZIP) { // open it iZipHandle = UNZIPOpen_t(fnmExpanded); CTFileName fnmZip; SLONG slOffset; SLONG slSizeCompressed; SLONG slSizeUncompressed; BOOL bCompressed; UNZIPGetFileInfo(iZipHandle, fnmZip, slOffset, slSizeCompressed, slSizeUncompressed, bCompressed); // if compressed if (bCompressed) { ThrowF_t(TRANS("encoded audio in archives must not be compressed!\n")); } // open the zip file sdc_pmpeg->mpeg_hMainFile = palOpenInputFile(fnmZip); // if error if (sdc_pmpeg->mpeg_hMainFile==0) { ThrowF_t(TRANS("cannot open archive '%s'"), (const char*)fnmZip); } // open the subfile sdc_pmpeg->mpeg_hFile = palOpenSubFile(sdc_pmpeg->mpeg_hMainFile, slOffset, slSizeUncompressed); // if error if (sdc_pmpeg->mpeg_hFile==0) { ThrowF_t(TRANS("cannot open encoded audio file")); } // if not in zip } else if (iFileType==EFP_FILE) { // open mpx file sdc_pmpeg->mpeg_hFile = palOpenInputFile(fnmExpanded); // if error if (sdc_pmpeg->mpeg_hFile==0) { ThrowF_t(TRANS("cannot open mpx file")); } // if not found } else { ThrowF_t(TRANS("file not found")); } // get info on the file int layer, ver, freq, stereo, rate; if (!palGetMPXHeader(sdc_pmpeg->mpeg_hFile, &layer, &ver, &freq, &stereo, &rate)) { ThrowF_t(TRANS("not a valid mpeg audio file.")); } // remember it's format WAVEFORMATEX form; form.wFormatTag=WAVE_FORMAT_PCM; form.nChannels=stereo?2:1; form.nSamplesPerSec=freq; form.wBitsPerSample=16; form.nBlockAlign=form.nChannels*form.wBitsPerSample/8; form.nAvgBytesPerSec=form.nSamplesPerSec*form.nBlockAlign; form.cbSize=0; // check for stereo if (!stereo) { ThrowF_t(TRANS("not stereo")); } sdc_pmpeg->mpeg_wfeFormat = form; // initialize decoder sdc_pmpeg->mpeg_hDecoder = palOpenDecoder(sdc_pmpeg->mpeg_hFile); // if error if (sdc_pmpeg->mpeg_hDecoder==0) { ThrowF_t(TRANS("cannot open mpx decoder")); } } catch (char*strError) { CPrintF(TRANS("Cannot open mpx '%s' for streaming: %s\n"), (const char*)fnm, (const char*)strError); if (iZipHandle!=0) { UNZIPClose(iZipHandle); } Clear(); return; } if (iZipHandle!=0) { UNZIPClose(iZipHandle); } sdc_pmpeg->mpeg_fSecondsLen = palDecGetLen(sdc_pmpeg->mpeg_hDecoder); } } CSoundDecoder::~CSoundDecoder(void) { Clear(); } void CSoundDecoder::Clear(void) { if (sdc_pmpeg!=NULL) { if (sdc_pmpeg->mpeg_hDecoder!=0) palClose(sdc_pmpeg->mpeg_hDecoder); if (sdc_pmpeg->mpeg_hFile!=0) palClose(sdc_pmpeg->mpeg_hFile); if (sdc_pmpeg->mpeg_hMainFile!=0) palClose(sdc_pmpeg->mpeg_hMainFile); sdc_pmpeg->mpeg_hMainFile = 0; sdc_pmpeg->mpeg_hFile = 0; sdc_pmpeg->mpeg_hDecoder = 0; delete sdc_pmpeg; sdc_pmpeg = NULL; } else if (sdc_pogg!=NULL) { if (sdc_pogg->ogg_vfVorbisFile!=NULL) { pov_clear(sdc_pogg->ogg_vfVorbisFile); delete sdc_pogg->ogg_vfVorbisFile; sdc_pogg->ogg_vfVorbisFile = NULL; } if (sdc_pogg->ogg_fFile!=NULL) { fclose(sdc_pogg->ogg_fFile); sdc_pogg->ogg_fFile = NULL; } delete sdc_pogg; sdc_pogg = NULL; } } // reset decoder to start of sample void CSoundDecoder::Reset(void) { if (sdc_pmpeg!=NULL) { palDecSeekAbs(sdc_pmpeg->mpeg_hDecoder, 0.0f); } else if (sdc_pogg!=NULL) { // so instead, we reinit pov_clear(sdc_pogg->ogg_vfVorbisFile); fseek(sdc_pogg->ogg_fFile, sdc_pogg->ogg_slOffset, SEEK_SET); pov_open_callbacks(sdc_pogg, sdc_pogg->ogg_vfVorbisFile, NULL, 0, ovcCallbacks); } } BOOL CSoundDecoder::IsOpen(void) { if (sdc_pmpeg!=NULL && sdc_pmpeg->mpeg_hDecoder!=0) { return TRUE; } else if (sdc_pogg!=NULL && sdc_pogg->ogg_vfVorbisFile!=0) { return TRUE; } else { return FALSE; } } void CSoundDecoder::GetFormat(WAVEFORMATEX &wfe) { if (sdc_pmpeg!=NULL) { wfe = sdc_pmpeg->mpeg_wfeFormat; } else if (sdc_pogg!=NULL) { wfe = sdc_pogg->ogg_wfeFormat; } else { NOTHING; } } // decode a block of bytes INDEX CSoundDecoder::Decode(void *pvDestBuffer, INDEX ctBytesToDecode) { // if ogg if (sdc_pogg!=NULL && sdc_pogg->ogg_vfVorbisFile!=0) { // decode ogg static int iCurrrentSection = -1; // we don't care about this char *pch = (char *)pvDestBuffer; INDEX ctDecoded = 0; while (ctDecodedogg_vfVorbisFile, pch, ctBytesToDecode-ctDecoded, 0, 2, 1, &iCurrrentSection); if (iRes<=0) { return ctDecoded; } ctDecoded+=iRes; pch+=iRes; } return ctDecoded; // if mpeg } else if (sdc_pmpeg!=NULL && sdc_pmpeg->mpeg_hDecoder!=0) { // decode mpeg return palRead(sdc_pmpeg->mpeg_hDecoder, pvDestBuffer, ctBytesToDecode); // if no decoder } else { // play all zeroes memset(pvDestBuffer, 0, ctBytesToDecode); return ctBytesToDecode; } }