/* TiMidity -- Experimental MIDI to WAVE converter Copyright (C) 1995 Tuukka Toivonen This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA timidity.c */ #include #include #include "timidity.h" #include "templates.h" #include "cmdlib.h" #include "c_cvars.h" #include "c_dispatch.h" #include "i_system.h" #include "files.h" #include "w_wad.h" CVAR(String, midi_config, CONFIG_FILE, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) CVAR(Int, midi_voices, 32, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) CVAR(Bool, midi_timiditylike, false, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) CVAR(String, gus_patchdir, "", CVAR_ARCHIVE|CVAR_GLOBALCONFIG) CVAR(Bool, midi_dmxgus, true, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) CVAR(Int, gus_memsize, 0, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) namespace Timidity { ToneBank *tonebank[MAXBANK], *drumset[MAXBANK]; static FString def_instr_name; int openmode = OM_FILEORLUMP; static int read_config_file(const char *name, bool ismain) { FileReader *fp; char tmp[1024], *cp; ToneBank *bank = NULL; int i, j, k, line = 0, words; static int rcf_count = 0; int lumpnum; if (rcf_count > 50) { Printf("Timidity: Probable source loop in configuration files\n"); return (-1); } if (ismain) openmode = OM_FILEORLUMP; if (!(fp = open_filereader(name, openmode, &lumpnum))) return -1; if (ismain) { if (lumpnum > 0) { openmode = OM_LUMP; clear_pathlist(); // when reading from a PK3 we won't want to use any external path } else { openmode = OM_FILE; } } while (fp->Gets(tmp, sizeof(tmp))) { line++; FCommandLine w(tmp, true); words = w.argc(); if (words == 0) continue; /* Originally the TiMidity++ extensions were prefixed like this */ if (strcmp(w[0], "#extension") == 0) { w.Shift(); words--; } else if (*w[0] == '#') { continue; } for (i = 0; i < words; ++i) { if (*w[i] == '#') { words = i; break; } } /* * TiMidity++ adds a number of extensions to the config file format. * Many of them are completely irrelevant to SDL_sound, but at least * we shouldn't choke on them. * * Unfortunately the documentation for these extensions is often quite * vague, gramatically strange or completely absent. */ if ( !strcmp(w[0], "comm") /* "comm" program second */ || !strcmp(w[0], "HTTPproxy") /* "HTTPproxy" hostname:port */ || !strcmp(w[0], "FTPproxy") /* "FTPproxy" hostname:port */ || !strcmp(w[0], "mailaddr") /* "mailaddr" your-mail-address */ || !strcmp(w[0], "opt") /* "opt" timidity-options */ ) { /* * + "comm" sets some kind of comment -- the documentation is too * vague for me to understand at this time. * + "HTTPproxy", "FTPproxy" and "mailaddr" are for reading data * over a network, rather than from the file system. * + "opt" specifies default options for TiMidity++. * * These are all quite useless for our version of TiMidity, so * they can safely remain no-ops. */ } else if (!strcmp(w[0], "timeout")) /* "timeout" program second */ { /* * Specifies a timeout value of the program. A number of seconds * before TiMidity kills the note. This may be useful to implement * later, but I don't see any urgent need for it. */ //Printf("FIXME: Implement \"timeout\" in TiMidity config.\n"); } else if (!strcmp(w[0], "copydrumset") /* "copydrumset" drumset */ || !strcmp(w[0], "copybank")) /* "copybank" bank */ { /* * Copies all the settings of the specified drumset or bank to * the current drumset or bank. May be useful later, but not a * high priority. */ //Printf("FIXME: Implement \"%s\" in TiMidity config.\n", w[0]); } else if (!strcmp(w[0], "undef")) /* "undef" progno */ { /* * Undefines the tone "progno" of the current tone bank (or * drum set?). Not a high priority. */ //Printf("FIXME: Implement \"undef\" in TiMidity config.\n"); } else if (!strcmp(w[0], "altassign")) /* "altassign" prog1 prog2 ... */ { /* * Sets the alternate assign for drum set. Whatever that's * supposed to mean. */ //Printf("FIXME: Implement \"altassign\" in TiMidity config.\n"); } else if (!strcmp(w[0], "soundfont")) { /* * "soundfont" sf_file "remove" * "soundfont" sf_file ["order=" order] ["cutoff=" cutoff] * ["reso=" reso] ["amp=" amp] */ if (words < 2) { Printf("%s: line %d: No soundfont given\n", name, line); delete fp; return -2; } if (words > 2 && !strcmp(w[2], "remove")) { font_remove(w[1]); } else { int order = 0; for (i = 2; i < words; ++i) { if (!(cp = strchr(w[i], '='))) { Printf("%s: line %d: bad soundfont option %s\n", name, line, w[i]); delete fp; return -2; } } font_add(w[1], order); } } else if (!strcmp(w[0], "font")) { /* * "font" "exclude" bank preset keynote * "font" "order" order bank preset keynote */ int order, drum = -1, bank = -1, instr = -1; if (words < 3) { Printf("%s: line %d: syntax error\n", name, line); delete fp; return -2; } if (!strcmp(w[1], "exclude")) { order = 254; i = 2; } else if (!strcmp(w[1], "order")) { order = atoi(w[2]); i = 3; } else { Printf("%s: line %d: font subcommand must be 'order' or 'exclude'\n", name, line); delete fp; return -2; } if (i < words) { drum = atoi(w[i++]); } if (i < words) { bank = atoi(w[i++]); } if (i < words) { instr = atoi(w[i++]); } if (drum != 128) { instr = bank; bank = drum; drum = 0; } else { drum = 1; } font_order(order, drum, bank, instr); } else if (!strcmp(w[0], "progbase")) { /* * The documentation for this makes absolutely no sense to me, but * apparently it sets some sort of base offset for tone numbers. * Why anyone would want to do this is beyond me. */ //Printf("FIXME: Implement \"progbase\" in TiMidity config.\n"); } else if (!strcmp(w[0], "map")) /* "map" name set1 elem1 set2 elem2 */ { /* * This extension is the one we will need to implement, as it is * used by the "eawpats". Unfortunately I cannot find any * documentation whatsoever for it, but it looks like it's used * for remapping one instrument to another somehow. */ //Printf("FIXME: Implement \"map\" in TiMidity config.\n"); } /* Standard TiMidity config */ else if (!strcmp(w[0], "dir")) { if (words < 2) { Printf("%s: line %d: No directory given\n", name, line); delete fp; return -2; } for (i = 1; i < words; i++) add_to_pathlist(w[i]); } else if (!strcmp(w[0], "source")) { if (words < 2) { Printf("%s: line %d: No file name given\n", name, line); return -2; } for (i=1; i 127) { Printf("%s: line %d: Drum set must be between 0 and 127\n", name, line); delete fp; return -2; } if (drumset[i] == NULL) { drumset[i] = new ToneBank; } bank = drumset[i]; } else if (!strcmp(w[0], "bank")) { if (words < 2) { Printf("%s: line %d: No bank number given\n", name, line); delete fp; return -2; } i = atoi(w[1]); if (i < 0 || i > 127) { Printf("%s: line %d: Tone bank must be between 0 and 127\n", name, line); delete fp; return -2; } if (tonebank[i] == NULL) { tonebank[i] = new ToneBank; } bank = tonebank[i]; } else { if ((words < 2) || (*w[0] < '0' || *w[0] > '9')) { Printf("%s: line %d: syntax error\n", name, line); delete fp; return -2; } i = atoi(w[0]); if (i < 0 || i > 127) { Printf("%s: line %d: Program must be between 0 and 127\n", name, line); delete fp; return -2; } if (bank == NULL) { Printf("%s: line %d: Must specify tone bank or drum set before assignment\n", name, line); delete fp; return -2; } bank->tone[i].note = bank->tone[i].amp = bank->tone[i].pan = bank->tone[i].fontbank = bank->tone[i].fontpreset = bank->tone[i].fontnote = bank->tone[i].strip_loop = bank->tone[i].strip_envelope = bank->tone[i].strip_tail = -1; if (!strcmp(w[1], "%font")) { bank->tone[i].name = w[2]; bank->tone[i].fontbank = atoi(w[3]); bank->tone[i].fontpreset = atoi(w[4]); if (words > 5 && (bank->tone[i].fontbank == 128 || (w[5][0] >= '0' && w[5][0] <= '9'))) { bank->tone[i].fontnote = atoi(w[5]); j = 6; } else { j = 5; } font_add(w[2], 254); } else { bank->tone[i].name = w[1]; j = 2; } for (; j '9')) { Printf("%s: line %d: amplification must be between 0 and %d\n", name, line, MAX_AMPLIFICATION); delete fp; return -2; } bank->tone[i].amp = k; } else if (!strcmp(w[j], "note")) { k = atoi(cp); if ((k < 0 || k > 127) || (*cp < '0' || *cp > '9')) { Printf("%s: line %d: note must be between 0 and 127\n", name, line); delete fp; return -2; } bank->tone[i].note = k; } else if (!strcmp(w[j], "pan")) { if (!strcmp(cp, "center")) k = 64; else if (!strcmp(cp, "left")) k = 0; else if (!strcmp(cp, "right")) k = 127; else k = ((atoi(cp)+100) * 100) / 157; if ((k < 0 || k > 127) || (k == 0 && *cp != '-' && (*cp < '0' || *cp > '9'))) { Printf("%s: line %d: panning must be left, right, " "center, or between -100 and 100\n", name, line); delete fp; return -2; } bank->tone[i].pan = k; } else if (!strcmp(w[j], "keep")) { if (!strcmp(cp, "env")) bank->tone[i].strip_envelope = 0; else if (!strcmp(cp, "loop")) bank->tone[i].strip_loop = 0; else { Printf("%s: line %d: keep must be env or loop\n", name, line); delete fp; return -2; } } else if (!strcmp(w[j], "strip")) { if (!strcmp(cp, "env")) bank->tone[i].strip_envelope = 1; else if (!strcmp(cp, "loop")) bank->tone[i].strip_loop = 1; else if (!strcmp(cp, "tail")) bank->tone[i].strip_tail = 1; else { Printf("%s: line %d: strip must be env, loop, or tail\n", name, line); delete fp; return -2; } } else { Printf("%s: line %d: bad patch option %s\n", name, line, w[j]); delete fp; return -2; } } } } /* if (ferror(fp)) { Printf("Can't read %s: %s\n", name, strerror(errno)); close_file(fp); return -2; } */ delete fp; return 0; } void FreeAll() { free_instruments(); font_freeall(); for (int i = 0; i < MAXBANK; ++i) { if (tonebank[i] != NULL) { delete tonebank[i]; tonebank[i] = NULL; } if (drumset[i] != NULL) { delete drumset[i]; drumset[i] = NULL; } } } int LoadConfig(const char *filename) { /* !!! FIXME: This may be ugly, but slightly less so than requiring the * default search path to have only one element. I think. * * We only need to include the likely locations for the config * file itself since that file should contain any other directory * that needs to be added to the search path. */ clear_pathlist(); #ifdef _WIN32 add_to_pathlist("C:\\TIMIDITY"); add_to_pathlist("\\TIMIDITY"); add_to_pathlist(progdir); #else add_to_pathlist("/usr/local/lib/timidity"); add_to_pathlist("/etc/timidity"); add_to_pathlist("/etc"); #endif /* Some functions get aggravated if not even the standard banks are available. */ if (tonebank[0] == NULL) { tonebank[0] = new ToneBank; drumset[0] = new ToneBank; } return read_config_file(filename, true); } int LoadConfig() { if (midi_dmxgus) { return LoadDMXGUS(); } else { return LoadConfig(midi_config); } } int LoadDMXGUS() { int lump = Wads.CheckNumForName("DMXGUS"); if (lump == -1) lump = Wads.CheckNumForName("DMXGUSC"); if (lump == -1) return LoadConfig(midi_config); FWadLump data = Wads.OpenLumpNum(lump); if (data.GetLength() == 0) return LoadConfig(midi_config); // The GUS put its patches in %ULTRADIR%/MIDI so we can try that FString ultradir = getenv("ULTRADIR"); if (ultradir.IsNotEmpty()) { ultradir += "/midi"; add_to_pathlist(ultradir.GetChars()); } // Load DMXGUS lump and patches from gus_patchdir add_to_pathlist(gus_patchdir); char readbuffer[1024]; long size = data.GetLength(); long read = 0; BYTE remap[256]; FString patches[256]; memset(remap, 255, sizeof(remap)); char temp[16]; int current = -1; int status = -1; int gusbank = (gus_memsize >= 1 && gus_memsize <= 4) ? gus_memsize : -1; data.Seek(0, SEEK_SET); while (data.Gets(readbuffer, 1024) && read < size) { int i = 0; while (readbuffer[i] != 0 && i < 1024) { // Don't try to parse comments if (readbuffer[i] == '#') break; // Actively ignore spaces else if (readbuffer[i] == ' ') {} // Comma separate values else if (status >= 0 && status <= 4 && readbuffer[i] == ',') { if (++status == gusbank) { remap[current] = 0; } } // Status -1: outside of a line // Status 0: reading patch value else if (status == -1 && readbuffer[i] >= '0' && readbuffer[i] <= '9') { current = readbuffer[i] - '0'; status = 0; } else if (status == 0 && readbuffer[i] >= '0' && readbuffer[i] <= '9') { current *= 10; current += readbuffer[i] - '0'; } // Status 1 through 4: remaps (256K, 512K, 768K, and 1024K resp.) else if (status == gusbank && readbuffer[i] >= '0' && readbuffer[i] <= '9') { remap[current] *= 10; remap[current] += readbuffer[i] - '0'; } // Status 5: parsing patch name else if (status == 5 && i < 1015) { memcpy(temp, readbuffer + i, 8); for (int j = 0; j < 8; ++j) { if (temp[j] < 33) { temp[j] = 0; break; } } temp[8] = 0; patches[current] = temp; // Prepare to parse next line status = -1; break; } ++i; } read += i; if (i == 0) continue; readbuffer[i-1] = 0; } if (tonebank[0] == NULL) { tonebank[0] = new ToneBank; drumset[0] = new ToneBank; } // From 0 to 127: tonebank[0]; from 128 to 255: drumset[0]. ToneBank *bank = tonebank[0]; for (int k = 0; k < 256; ++k) { int j = (gusbank > 0) ? remap[k] : k; if (k == 128) bank = drumset[0]; // No need to bother with things that don't exist if (patches[j].IsEmpty()) continue; int val = k % 128; bank->tone[val].note = bank->tone[val].amp = bank->tone[val].pan = bank->tone[val].fontbank = bank->tone[val].fontpreset = bank->tone[val].fontnote = bank->tone[val].strip_loop = bank->tone[val].strip_envelope = bank->tone[val].strip_tail = -1; bank->tone[val].name = patches[j]; } return 0; } Renderer::Renderer(float sample_rate) { rate = sample_rate; patches = NULL; resample_buffer_size = 0; resample_buffer = NULL; voice = NULL; adjust_panning_immediately = false; control_ratio = clamp(int(rate / CONTROLS_PER_SECOND), 1, MAX_CONTROL_RATIO); lost_notes = 0; cut_notes = 0; default_instrument = NULL; default_program = DEFAULT_PROGRAM; if (def_instr_name.IsNotEmpty()) set_default_instrument(def_instr_name); voices = clamp(midi_voices, 16, 256); voice = new Voice[voices]; drumchannels = DEFAULT_DRUMCHANNELS; } Renderer::~Renderer() { if (resample_buffer != NULL) { M_Free(resample_buffer); } if (voice != NULL) { delete[] voice; } } void Renderer::ComputeOutput(float *buffer, int count) { // count is in samples, not bytes. if (count <= 0) { return; } Voice *v = &voice[0]; memset(buffer, 0, sizeof(float)*count*2); // An integer 0 is also a float 0. if (resample_buffer_size < count) { resample_buffer_size = count; resample_buffer = (sample_t *)M_Realloc(resample_buffer, count * sizeof(float) * 2); } for (int i = 0; i < voices; i++, v++) { if (v->status & VOICE_RUNNING) { mix_voice(this, buffer, v, count); } } } void Renderer::MarkInstrument(int banknum, int percussion, int instr) { ToneBank *bank; if (banknum >= MAXBANK) { return; } if (banknum != 0) { /* Mark the standard bank in case it's not defined by this one. */ MarkInstrument(0, percussion, instr); } if (percussion) { bank = drumset[banknum]; } else { bank = tonebank[banknum]; } if (bank == NULL) { return; } if (bank->instrument[instr] == NULL) { bank->instrument[instr] = MAGIC_LOAD_INSTRUMENT; } } #ifdef _WIN32 #define WIN32_LEAN_AND_MEAN #include #endif void cmsg(int type, int verbosity_level, const char *fmt, ...) { /* va_list args; va_start(args, fmt); VPrintf(PRINT_HIGH, fmt, args); msg.VFormat(fmt, args); */ #ifdef _WIN32 char buf[1024]; va_list args; va_start(args, fmt); vsprintf(buf, fmt, args); va_end(args); OutputDebugString(buf); #endif } }