/* ** music_dumb.cpp ** Alternative module player, using a modified DUMB for decoding. ** Based on the Foobar2000 component foo_dumb, version 0.9.8.4. ** **--------------------------------------------------------------------------- ** Copyright 2008 Randy Heit ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ // HEADER FILES ------------------------------------------------------------ #include #include #include #include #include "streamsource.h" #undef CDECL // w32api's windef.h defines this #include "../dumb/include/dumb.h" #include "../dumb/include/internal/it.h" #include "zmusic/m_swap.h" #include "zmusic/mididefs.h" #include "zmusic/midiconfig.h" #include "../../libraries/music_common/fileio.h" // MACROS ------------------------------------------------------------------ // TYPES ------------------------------------------------------------------- DumbConfig dumbConfig; class DumbSong : public StreamSource { public: DumbSong(DUH *myduh, int samplerate); ~DumbSong(); //bool SetPosition(int ms); bool SetSubsong(int subsong) override; bool Start() override; SoundStreamInfo GetFormat() override; void ChangeSettingNum(const char* setting, double val) override; std::string GetStats() override; std::string Codec; std::string TrackerVersion; std::string FormatVersion; int NumChannels; int NumPatterns; int NumOrders; float MasterVolume; protected: int srate, interp, volramp; int start_order; double delta; double length; bool eof; bool started = false; size_t written; DUH *duh; DUH_SIGRENDERER *sr; std::mutex crit_sec; bool open2(long pos); long render(double volume, double delta, long samples, sample_t **buffer); int decode_run(void *buffer, unsigned int size); bool GetData(void *buffer, size_t len) override; }; #pragma pack(1) #if defined(__GNUC__) #define FORCE_PACKED __attribute__((__packed__)) #else #define FORCE_PACKED #endif typedef struct tagITFILEHEADER { uint32_t id; // 0x4D504D49 char songname[26]; uint16_t reserved1; // 0x1004 uint16_t ordnum; uint16_t insnum; uint16_t smpnum; uint16_t patnum; uint16_t cwtv; uint16_t cmwt; uint16_t flags; uint16_t special; uint8_t globalvol; uint8_t mv; uint8_t speed; uint8_t tempo; uint8_t sep; uint8_t zero; uint16_t msglength; uint32_t msgoffset; uint32_t reserved2; uint8_t chnpan[64]; uint8_t chnvol[64]; } FORCE_PACKED ITFILEHEADER, *PITFILEHEADER; typedef struct MODMIDICFG { char szMidiGlb[9*32]; // changed from CHAR char szMidiSFXExt[16*32]; // changed from CHAR char szMidiZXXExt[128*32]; // changed from CHAR } FORCE_PACKED MODMIDICFG, *LPMODMIDICFG; #pragma pack() // EXTERNAL FUNCTION PROTOTYPES -------------------------------------------- // PUBLIC FUNCTION PROTOTYPES ---------------------------------------------- // PRIVATE FUNCTION PROTOTYPES --------------------------------------------- // EXTERNAL DATA DECLARATIONS ---------------------------------------------- // PUBLIC DATA DEFINITIONS ------------------------------------------------- // PRIVATE DATA DEFINITIONS ------------------------------------------------ // CODE -------------------------------------------------------------------- //========================================================================== // // ReadDUH // // Reads metadata from a generic module. // //========================================================================== static void ReadDUH(DUH * duh, DumbSong *info, bool meta, bool dos) { if (!duh) return; DUMB_IT_SIGDATA * itsd = duh_get_it_sigdata(duh); if (!itsd) return; info->NumChannels = itsd->n_pchannels; info->NumPatterns = itsd->n_patterns; info->NumOrders = itsd->n_orders; if (meta) { if (itsd->name[0]) { //if (dos) info.meta_add(field_title, string_utf8_from_oem((char*)&itsd->name, sizeof(itsd->name))); //else info.meta_add(field_title, pfc::stringcvt::string_utf8_from_ansi((char *)&itsd->name, sizeof(itsd->name))); } if (itsd->song_message && *itsd->song_message) { //if (dos) info.meta_add(field_comment, string_utf8_from_oem_multiline((char*)itsd->song_message)); //else info.meta_add(field_comment, pfc::stringcvt::string_utf8_from_ansi((char *)itsd->song_message)); } } // std::string does not like nullptr assignments. Was this really necessary? :( auto a = duh_get_tag(duh, "FORMAT"); if (a) info->Codec = a; a = duh_get_tag(duh, "TRACKERVERSION"); if (a) info->TrackerVersion = a; a = duh_get_tag(duh, "FORMATVERSION"); if (a) info->FormatVersion = a; #if 0 std::string name; if (itsd->n_samples) { int i, n; //info.info_set_int(field_samples, itsd->n_samples); if (meta && itsd->sample) { for (i = 0, n = itsd->n_samples; i < n; i++) { if (itsd->sample[i].name[0]) { name = "smpl"; if (i < 10) name += '0'; name += '0' + i; //if (dos) info.meta_add(name, string_utf8_from_oem((char*)&itsd->sample[i].name, sizeof(itsd->sample[i].name))); //else info.meta_add(name, pfc::stringcvt::string_utf8_from_ansi((char *)&itsd->sample[i].name, sizeof(itsd->sample[i].name))); } } } } if (itsd->n_instruments) { //info.info_set_int(field_instruments, itsd->n_instruments); if (meta && itsd->instrument) { for (i = 0, n = itsd->n_instruments; i < n; i++) { if (itsd->instrument[i].name[0]) { name = "inst"; if (i < 10) name += '0'; name += '0' + i; //if (dos) info.meta_add(name, string_utf8_from_oem((char*)&itsd->instrument[i].name, sizeof(itsd->instrument[i].name))); //else info.meta_add(name, pfc::stringcvt::string_utf8_from_ansi((char *)&itsd->instrument[i].name, sizeof(itsd->instrument[i].name))); } } } } #endif } //========================================================================== // // ReadIT // // Reads metadata from an IT file. // //========================================================================== static bool ReadIT(const uint8_t * ptr, unsigned size, DumbSong *info, bool meta) { PITFILEHEADER pifh = (PITFILEHEADER) ptr; if ((!ptr) || (size < 0x100)) return false; if ((LittleLong(pifh->id) != 0x4D504D49) || (LittleShort(pifh->insnum) >= 256) || (!pifh->smpnum) || (LittleShort(pifh->smpnum) > 4000) || // XXX (!pifh->ordnum)) return false; if (sizeof(ITFILEHEADER) + LittleShort(pifh->ordnum) + LittleShort(pifh->insnum)*4 + LittleShort(pifh->smpnum)*4 + LittleShort(pifh->patnum)*4 > size) return false; char ver[40]; snprintf(ver, 40, "IT v%u.%02x", LittleShort(pifh->cmwt) >> 8, LittleShort(pifh->cmwt) & 255); info->Codec = ver; snprintf(ver, 40, "%u.%02x", LittleShort(pifh->cwtv) >> 8, LittleShort(pifh->cwtv) & 255); info->TrackerVersion = ver; //if ( pifh->smpnum ) info.info_set_int( field_samples, LittleShort(pifh->smpnum) ); //if ( pifh->insnum ) info.info_set_int( field_instruments, LittleShort(pifh->insnum) ); //if ( meta && pifh->songname[0] ) info.meta_add( field_title, string_utf8_from_it( (char*)&pifh->songname, 26 ) ); unsigned n, l, m_nChannels = 0; // bah, some file (jm-romance.it) with message length rounded up to a multiple of 256 (384 instead of 300) unsigned msgoffset = LittleLong(pifh->msgoffset); unsigned msgend = msgoffset + LittleShort(pifh->msglength); uint32_t * offset; // std::string name; if (meta) { offset = (uint32_t *)(ptr + 0xC0 + LittleShort(pifh->ordnum) + LittleShort(pifh->insnum) * 4); for (n = 0, l = LittleShort(pifh->smpnum); n < l; n++, offset++) { uint32_t offset_n = LittleLong( *offset ); if ( offset_n >= msgoffset && offset_n < msgend ) msgend = offset_n; if ((!offset_n) || (offset_n + 0x14 + 26 + 2 >= size)) continue; // XXX if (ptr[offset_n] == 0 && ptr[offset_n + 1] == 0 && ptr[offset_n + 2] == 'I' && ptr[offset_n + 3] == 'M' && ptr[offset_n + 4] == 'P' && ptr[offset_n + 5] == 'S') { offset_n += 2; } #if 0 if (*(ptr + offset_n + 0x14)) { name = "smpl"; if (n < 10) name << '0'; name << ('0' + n); //info.meta_add(name, string_utf8_from_it((const char *) ptr + offset_n + 0x14, 26)); } #endif } offset = (uint32_t *)(ptr + 0xC0 + LittleShort(pifh->ordnum)); for (n = 0, l = LittleShort(pifh->insnum); n < l; n++, offset++) { uint32_t offset_n = LittleLong( *offset ); if ( offset_n >= msgoffset && offset_n < msgend ) msgend = offset_n; if ((!offset_n) || (offset_n + 0x20 + 26 >= size)) continue; #if 0 if (*(ptr + offset_n + 0x20)) { name = "inst"; if (n < 10) name << '0'; name << ('0' + n); //info.meta_add(name, string_utf8_from_it((const char *) ptr + offset_n + 0x20, 26)); } #endif } } unsigned pos = 0xC0 + LittleShort(pifh->ordnum) + LittleShort(pifh->insnum) * 4 + LittleShort(pifh->smpnum) * 4 + LittleShort(pifh->patnum) * 4; if (pos < size) { uint16_t val16 = LittleShort( *(uint16_t *)(ptr + pos) ); pos += 2; if (pos + val16 * 8 < size) pos += val16 * 8; } if (LittleShort(pifh->flags) & 0x80) { if (pos + sizeof(MODMIDICFG) < size) { pos += sizeof(MODMIDICFG); } } if ((pos + 8 < size) && (*(uint32_t *)(ptr + pos) == MAKE_ID('P','N','A','M'))) { unsigned len = LittleLong(*(uint32_t *)(ptr + pos + 4)); pos += 8; if ((pos + len <= size) && (len <= 240 * 32) && (len >= 32)) { if (meta) { l = len / 32; for (n = 0; n < l; n++) { #if 0 if (*(ptr + pos + n * 32)) { name = "patt"; if (n < 10) name << '0'; name << ('0' + n); //info.meta_add(name, string_utf8_from_it((const char *) ptr + pos + n * 32, 32)); } #endif } } pos += len; } } if ((pos + 8 < size) && (*(uint32_t *)(ptr + pos) == MAKE_ID('C','N','A','M'))) { unsigned len = LittleLong(*(uint32_t *)(ptr + pos + 4)); pos += 8; if ((pos + len <= size) && (len <= 64 * 20) && (len >= 20)) { l = len / 20; m_nChannels = l; if (meta) { for (n = 0; n < l; n++) { #if 0 if (*(ptr + pos + n * 20)) { name = "chan"; if (n < 10) name << '0'; name << ('0' + n); //info.meta_add(name, string_utf8_from_it((const char *) ptr + pos + n * 20, 20)); } #endif } } pos += len; } } offset = (uint32_t *)(ptr + 0xC0 + LittleShort(pifh->ordnum) + LittleShort(pifh->insnum) * 4 + LittleShort(pifh->smpnum) * 4); uint8_t chnmask[64]; for (n = 0, l = LittleShort(pifh->patnum); n < l; n++) { memset(chnmask, 0, sizeof(chnmask)); uint32_t offset_n = LittleLong( offset[n] ); if ((!offset_n) || (offset_n + 4 >= size)) continue; unsigned len = LittleShort(*(uint16_t *)(ptr + offset_n)); unsigned rows = LittleShort(*(uint16_t *)(ptr + offset_n + 2)); if ((rows < 4) || (rows > 256)) continue; if (offset_n + 8 + len > size) continue; unsigned i = 0; const uint8_t * p = ptr + offset_n + 8; unsigned nrow = 0; while (nrow < rows) { if (i >= len) break; uint8_t b = p[i++]; if (!b) { nrow++; continue; } unsigned ch = b & 0x7F; if (ch) ch = (ch - 1) & 0x3F; if (b & 0x80) { if (i >= len) break; chnmask[ch] = p[i++]; } // Channel used if (chnmask[ch] & 0x0F) { if ((ch >= m_nChannels) && (ch < 64)) m_nChannels = ch+1; } // Note if (chnmask[ch] & 1) i++; // Instrument if (chnmask[ch] & 2) i++; // Volume if (chnmask[ch] & 4) i++; // Effect if (chnmask[ch] & 8) i += 2; if (i >= len) break; } } if ( meta && ( LittleShort(pifh->special) & 1 ) && ( msgend - msgoffset ) && ( msgend < size ) ) { const char * str = (const char *) ptr + msgoffset; std::string msg(str); //info.meta_add( field_comment, string_utf8_from_it_multiline( msg ) ); } info->NumChannels = m_nChannels; info->NumPatterns = LittleShort(pifh->patnum); info->NumOrders = LittleShort(pifh->ordnum); return true; } //========================================================================== // // DUMB memory file system // //========================================================================== typedef struct tdumbfile_mem_status { const uint8_t *ptr; unsigned int offset, size; } dumbfile_mem_status; static int DUMBCALLBACK dumbfile_mem_skip(void *f, long n) { dumbfile_mem_status * s = (dumbfile_mem_status *) f; s->offset += n; if (s->offset > s->size) { s->offset = s->size; return 1; } return 0; } static int DUMBCALLBACK dumbfile_mem_getc(void *f) { dumbfile_mem_status * s = (dumbfile_mem_status *) f; if (s->offset < s->size) { return *(s->ptr + s->offset++); } return -1; } static int32 DUMBCALLBACK dumbfile_mem_getnc(char *ptr, int32 n, void *f) { dumbfile_mem_status * s = (dumbfile_mem_status *) f; long max = s->size - s->offset; if (max > n) max = n; if (max) { memcpy(ptr, s->ptr + s->offset, max); s->offset += max; } return max; } static int DUMBCALLBACK dumbfile_mem_seek(void *f, long n) { dumbfile_mem_status * s = (dumbfile_mem_status *) f; s->offset = n; if (s->offset > s->size) { s->offset = s->size; return 1; } return 0; } static long DUMBCALLBACK dumbfile_mem_get_size(void *f) { dumbfile_mem_status * s = (dumbfile_mem_status *) f; return s->size; } static DUMBFILE_SYSTEM mem_dfs = { NULL, // open &dumbfile_mem_skip, &dumbfile_mem_getc, &dumbfile_mem_getnc, NULL, // close &dumbfile_mem_seek, &dumbfile_mem_get_size }; //========================================================================== // // dumb_read_allfile // //========================================================================== DUMBFILE *dumb_read_allfile(dumbfile_mem_status *filestate, uint8_t *start, MusicIO::FileInterface *reader, int lenhave, int lenfull) { filestate->size = lenfull; filestate->offset = 0; if (lenhave >= lenfull) filestate->ptr = (uint8_t *)start; else { uint8_t *mem = new uint8_t[lenfull]; memcpy(mem, start, lenhave); if (reader->read(mem + lenhave, lenfull - lenhave) != (lenfull - lenhave)) { delete[] mem; return NULL; } filestate->ptr = mem; } return dumbfile_open_ex(filestate, &mem_dfs); } //========================================================================== // // MOD_SetAutoChip // // Disables interpolation for short samples that meet criteria set by // the cvars referenced at the top of this function. // //========================================================================== static void MOD_SetAutoChip(DUH *duh) { int size_force = dumbConfig.mod_autochip_size_force; int size_scan = dumbConfig.mod_autochip_size_scan; int scan_threshold_8 = ((dumbConfig.mod_autochip_scan_threshold * 0x100) + 50) / 100; int scan_threshold_16 = ((dumbConfig.mod_autochip_scan_threshold * 0x10000) + 50) / 100; DUMB_IT_SIGDATA * itsd = duh_get_it_sigdata(duh); if (itsd) { for (int i = 0, j = itsd->n_samples; i < j; i++) { IT_SAMPLE * sample = &itsd->sample[i]; if (sample->flags & IT_SAMPLE_EXISTS) { int channels = sample->flags & IT_SAMPLE_STEREO ? 2 : 1; if (sample->length < size_force) sample->max_resampling_quality = 0; else if (sample->length < size_scan) { if ((sample->flags & (IT_SAMPLE_LOOP|IT_SAMPLE_PINGPONG_LOOP)) == IT_SAMPLE_LOOP) { int loop_start = sample->loop_start * channels; int loop_end = sample->loop_end * channels; int s1, s2; if (sample->flags & IT_SAMPLE_16BIT) { s1 = ((signed short *)sample->data)[loop_start]; s2 = ((signed short *)sample->data)[loop_end - channels]; if (abs(s1 - s2) > scan_threshold_16) { sample->max_resampling_quality = 0; continue; } if (channels == 2) { s1 = ((signed short *)sample->data)[loop_start + 1]; s2 = ((signed short *)sample->data)[loop_end - 1]; if (abs(s1 - s2) > scan_threshold_16) { sample->max_resampling_quality = 0; continue; } } } else { s1 = ((signed char *)sample->data)[loop_start]; s2 = ((signed char *)sample->data)[loop_end - channels]; if (abs(s1 - s2) > scan_threshold_8) { sample->max_resampling_quality = 0; continue; } if (channels == 2) { s1 = ((signed char *)sample->data)[loop_start + 1]; s2 = ((signed char *)sample->data)[loop_end - 1]; if (abs(s1 - s2) > scan_threshold_8) { sample->max_resampling_quality = 0; continue; } } } } if ((sample->flags & (IT_SAMPLE_SUS_LOOP|IT_SAMPLE_PINGPONG_SUS_LOOP)) == IT_SAMPLE_SUS_LOOP) { int sus_loop_start = sample->sus_loop_start * channels; int sus_loop_end = sample->sus_loop_end * channels; int s1, s2; if (sample->flags & IT_SAMPLE_16BIT) { s1 = ((signed short *)sample->data)[sus_loop_start]; s2 = ((signed short *)sample->data)[sus_loop_end - channels]; if (abs(s1 - s2) > scan_threshold_16) { sample->max_resampling_quality = 0; continue; } if (channels == 2) { s1 = ((signed short *)sample->data)[sus_loop_start + 1]; s2 = ((signed short *)sample->data)[sus_loop_end - 1]; if (abs(s1 - s2) > scan_threshold_16) { sample->max_resampling_quality = 0; continue; } } } else { s1 = ((signed char *)sample->data)[sus_loop_start]; s2 = ((signed char *)sample->data)[sus_loop_end - channels]; if (abs(s1 - s2) > scan_threshold_8) { sample->max_resampling_quality = 0; continue; } if (channels == 2) { s1 = ((signed char *)sample->data)[sus_loop_start + 1]; s2 = ((signed char *)sample->data)[sus_loop_end - 1]; if (abs(s1 - s2) > scan_threshold_8) { sample->max_resampling_quality = 0; continue; } } } } int k, l = sample->length * channels; if (sample->flags & IT_SAMPLE_LOOP) l = sample->loop_end * channels; if (sample->flags & IT_SAMPLE_16BIT) { for (k = channels; k < l; k += channels) { if (abs(((signed short *)sample->data)[k - channels] - ((signed short *)sample->data)[k]) > scan_threshold_16) { break; } } if (k < l) { sample->max_resampling_quality = 0; continue; } if (channels == 2) { for (k = 2 + 1; k < l; k += 2) { if (abs(((signed short *)sample->data)[k - 2] - ((signed short *)sample->data)[k]) > scan_threshold_16) { break; } } } if (k < l) { sample->max_resampling_quality = 0; continue; } } else { for (k = channels; k < l; k += channels) { if (abs(((signed char *)sample->data)[k - channels] - ((signed char *)sample->data)[k]) > scan_threshold_8) { break; } } if (k < l) { sample->max_resampling_quality = 0; continue; } if (channels == 2) { for (k = 2 + 1; k < l; k += 2) { if (abs(((signed char *)sample->data)[k - 2] - ((signed char *)sample->data)[k]) > scan_threshold_8) { break; } } } if (k < l) { sample->max_resampling_quality = 0; continue; } } } } } } } //========================================================================== // // MOD_OpenSong // //========================================================================== StreamSource* MOD_OpenSong(MusicIO::FileInterface *reader, int samplerate) { DUH *duh = 0; int headsize; union { uint8_t start[64]; uint32_t dstart[64/4]; }; dumbfile_mem_status filestate; DUMBFILE *f = NULL; DumbSong *state = NULL; bool is_it = false; bool is_dos = true; auto fpos = reader->tell(); int size = (int)reader->filelength(); filestate.ptr = start; filestate.offset = 0; headsize = MIN((int)sizeof(start), size); if (headsize != reader->read(start, headsize)) { return NULL; } if (size >= 4 && dstart[0] == MAKE_ID('I','M','P','M')) { is_it = true; if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_it_quick(f); } } else if (size >= 17 && !memcmp(start, "Extended Module: ", 17)) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_xm_quick(f); } } else if (size >= 0x30 && dstart[11] == MAKE_ID('S','C','R','M')) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_s3m_quick(f); } } else if (size >= 1168 && /*start[28] == 0x1A &&*/ start[29] == 2 && ( !memcmp( &start[20], "!Scream!", 8 ) || !memcmp( &start[20], "BMOD2STM", 8 ) || !memcmp( &start[20], "WUZAMOD!", 8 ) ) ) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_stm_quick(f); } } else if (size >= 2 && ((start[0] == 0x69 && start[1] == 0x66) || (start[0] == 0x4A && start[1] == 0x4E))) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_669_quick(f); } } else if (size >= 0x30 && dstart[11] == MAKE_ID('P','T','M','F')) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_ptm_quick(f); } } else if (size >= 4 && dstart[0] == MAKE_ID('P','S','M',' ')) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_psm_quick(f, 0/*start_order*/); /*start_order = 0;*/ } } else if (size >= 4 && dstart[0] == (uint32_t)MAKE_ID('P','S','M',254)) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_old_psm_quick(f); } } else if (size >= 3 && start[0] == 'M' && start[1] == 'T' && start[2] == 'M') { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_mtm_quick(f); } } else if (size >= 12 && dstart[0] == MAKE_ID('R','I','F','F') && (dstart[2] == MAKE_ID('D','S','M','F') || dstart[2] == MAKE_ID('A','M',' ',' ') || dstart[2] == MAKE_ID('A','M','F','F'))) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_riff_quick(f); } } else if (size >= 32 && !memcmp( start, "ASYLUM Music Format", 19 ) && !memcmp( start + 19, " V1.0", 5 ) ) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_asy_quick(f); } } else if (size >= 8 && dstart[0] == MAKE_ID('O','K','T','A') && dstart[1] == MAKE_ID('S','O','N','G')) { if ((f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { duh = dumb_read_okt_quick(f); } } if ( ! duh ) { is_dos = false; if (filestate.ptr == (uint8_t *)start) { if (!(f = dumb_read_allfile(&filestate, start, reader, headsize, size))) { reader->seek(fpos, SEEK_SET); return NULL; } } else { filestate.offset = 0; } // No way to get the filename, so we can't check for a .mod extension, and // therefore, trying to load an old 15-instrument SoundTracker module is not // safe. We'll restrict MOD loading to 31-instrument modules with known // signatures and let the sound system worry about 15-instrument ones. // (Assuming it even supports them) duh = dumb_read_mod_quick(f, true); } if (f != NULL) { dumbfile_close(f); } if ( duh ) { if (dumbConfig.mod_autochip) { MOD_SetAutoChip(duh); } state = new DumbSong(duh, samplerate); if (is_it) ReadIT(filestate.ptr, size, state, false); else ReadDUH(duh, state, false, is_dos); } else { // Reposition file pointer for other codecs to do their checks. reader->seek(fpos, SEEK_SET); } if (filestate.ptr != (uint8_t *)start) { delete[] const_cast(filestate.ptr); } return state; } //========================================================================== // // DumbSong :: read static // //========================================================================== bool DumbSong::GetData(void *buffer, size_t sizebytes) { if (eof) { memset(buffer, 0, sizebytes); return false; } std::lock_guard lock_(crit_sec); while (sizebytes > 0) { int written = decode_run(buffer, (unsigned)sizebytes / 8); if (written < 0) { return false; } if (written == 0) { memset(buffer, 0, sizebytes); return true; } else { // Convert to float for (int i = 0; i < written * 2; ++i) { ((float *)buffer)[i] = (((int *)buffer)[i] / (float)(1 << 24)) * MasterVolume; } } buffer = (uint8_t *)buffer + written * 8; sizebytes -= written * 8; } return true; } //========================================================================== // // ChangeSetting // //========================================================================== void DumbSong::ChangeSettingNum(const char* setting, double val) { if (!stricmp(setting, "dumb.mastervolume")) MasterVolume = (float)val; } //========================================================================== // // DumbSong constructor // //========================================================================== DumbSong::DumbSong(DUH* myduh, int samplerate) { duh = myduh; sr = NULL; eof = false; interp = dumbConfig.mod_interp; volramp = dumbConfig.mod_volramp; written = 0; length = 0; start_order = 0; MasterVolume = (float)dumbConfig.mod_dumb_mastervolume; if (dumbConfig.mod_samplerate != 0) { srate = dumbConfig.mod_samplerate; } else { srate = samplerate; } delta = 65536.0 / srate; } //========================================================================== // // DumbSong destructor // //========================================================================== DumbSong::~DumbSong() { if (sr) duh_end_sigrenderer(sr); if (duh) unload_duh(duh); } //========================================================================== // // DumbSong GetFormat // //========================================================================== SoundStreamInfo DumbSong::GetFormat() { return { 32*1024, srate, 2 }; } //========================================================================== // // DumbSong :: Play // //========================================================================== bool DumbSong::Start() { started = open2(0); return started; } //========================================================================== // // DumbSong :: SetSubsong // //========================================================================== bool DumbSong::SetSubsong(int order) { if (order == start_order) { return true; } if (!started) { start_order = order; return true; } std::lock_guard lock(crit_sec); DUH_SIGRENDERER *oldsr = sr; sr = NULL; start_order = order; if (!open2(0)) { sr = oldsr; return false; } duh_end_sigrenderer(oldsr); return true; } //========================================================================== // // DumbSong :: open2 // //========================================================================== bool DumbSong::open2(long pos) { if (start_order != 0) { sr = dumb_it_start_at_order(duh, 2, start_order); if (sr && pos) duh_sigrenderer_generate_samples(sr, 0, 1, pos, 0); } else { sr = duh_start_sigrenderer(duh, 0, 2, pos); } if (!sr) { return false; } DUMB_IT_SIGRENDERER *itsr = duh_get_it_sigrenderer(sr); dumb_it_set_resampling_quality(itsr, interp); dumb_it_set_ramp_style(itsr, volramp); if (!m_Looping) { dumb_it_set_loop_callback(itsr, &dumb_it_callback_terminate, NULL); } dumb_it_set_xm_speed_zero_callback(itsr, &dumb_it_callback_terminate, NULL); dumb_it_set_global_volume_zero_callback(itsr, &dumb_it_callback_terminate, NULL); return true; } //========================================================================== // // DumbSong :: render // //========================================================================== long DumbSong::render(double volume, double delta, long samples, sample_t **buffer) { long written = duh_sigrenderer_generate_samples(sr, volume, delta, samples, buffer); if (written < samples) { if (!m_Looping) { eof = true; } else { duh_end_sigrenderer(sr); sr = NULL; if (!open2(0)) { eof = true; } } } return written; } //========================================================================== // // DumbSong :: decode_run // // Given a buffer of 32-bit PCM stereo pairs and a size specified in // samples, returns the number of samples written to the buffer. // //========================================================================== int DumbSong::decode_run(void *buffer, unsigned int size) { if (eof) return 0; DUMB_IT_SIGRENDERER *itsr = duh_get_it_sigrenderer(sr); if (itsr == nullptr) return 0; int dt = int(delta * 65536.0 + 0.5); long samples = long((((LONG_LONG)itsr->time_left << 16) | itsr->sub_time_left) / dt); if (samples == 0 || samples > (long)size) samples = size; sample_t **buf = (sample_t **)&buffer; int written = 0; retry: dumb_silence(buf[0], size * 2); written = render(1, delta, samples, buf); if (eof) return false; else if (written == 0) goto retry; else if (written == -1) return -1; return written; } //========================================================================== // // DumbSong :: GetStats // //========================================================================== std::string DumbSong::GetStats() { //return StreamSong::GetStats(); DUMB_IT_SIGRENDERER *itsr = duh_get_it_sigrenderer(sr); DUMB_IT_SIGDATA *itsd = duh_get_it_sigdata(duh); int channels = 0; for (int i = 0; i < DUMB_IT_N_CHANNELS; i++) { IT_PLAYING * playing = itsr->channel[i].playing; if (playing && !(playing->flags & IT_PLAYING_DEAD)) channels++; } for (int i = 0; i < DUMB_IT_N_NNA_CHANNELS; i++) { if (itsr->playing[i]) channels++; } if (itsr == NULL || itsd == NULL) { return "Problem getting stats"; } else { char out[120]; snprintf(out, 120, "%s, Order:%3d/%d Patt:%2d/%d Row:%2d/%2d Chan:%2d/%2d Speed:%2d Tempo:%3d", Codec.c_str(), itsr->order, NumOrders, (itsd->order && itsr->order < itsd->n_orders ? itsd->order[itsr->order] : 0), NumPatterns, itsr->row, itsr->n_rows, channels, NumChannels, itsr->speed, itsr->tempo ); return out; } }