/* * MusE FLUID Synth softsynth plugin * * Copyright (C) 2004 Mathias Lundgren (lunar_shuttle@users.sourcforge.net) * * $Id: fluidsynti.cpp,v 1.19.2.18 2009/12/06 10:05:00 terminator356 Exp $ * */ #include "fluidsynti.h" #include "muse/midi.h" #include #include #include FluidCtrl FluidSynth::fluidCtrl[] = { //{ "Expression", CTRL_EXPRESSION, 0, 127 }, //{ "Sustain", CTRL_SUSTAIN, 0, 127 }, //{ "Portamento", CTRL_PORTAMENTO, 0, 127 }, //{ "Soft Pedal", CTRL_SOFT_PEDAL, 0, 127 }, //{ "Variation", CTRL_VARIATION_SEND, 0, 127 }, //{ "Channel reverb send", CTRL_REVERB_SEND, 0, 127 }, //{ "Channel chorus send", CTRL_CHORUS_SEND, 0, 127 }, //{ "Pitch", CTRL_PITCH, -8192, 8191 } // These controllers' initial values are set by the FS_PREDEF_ values, so just set them to zero here. { "Gain", FS_GAIN ,0, 127, 0}, { "Master reverb on/off", FS_REVERB_ON , 0, 1, 0}, { "Master reverb level", FS_REVERB_LEVEL, 0, 16384, 0}, { "Master reverb size", FS_REVERB_ROOMSIZE, 0, 16384, 0}, // Interval: [0,1] { "Master reverb damping", FS_REVERB_DAMPING, 0, 16384, 0}, // Interval: [0,1] { "Master reverb width", FS_REVERB_WIDTH, 0, 16384, 0}, // Interval: [0,100] { "Master chorus on/off", FS_CHORUS_ON, 0, 1, 0}, { "Master chorus num delay lines", FS_CHORUS_NUM, 0, 10, 0}, //Default: 3 { "Master chorus type", FS_CHORUS_TYPE, 0, 1, 0}, { "Master chorus speed", FS_CHORUS_SPEED, 0, 16384, 0}, // (0.291,5) Hz { "Master chorus depth", FS_CHORUS_DEPTH, 0, 16384, 0}, // [0,40] { "Master chorus level", FS_CHORUS_LEVEL, 0, 16384, 0}, // [0,1] { "Program", CTRL_PROGRAM, 0, 0xffffff, 0}, { "Modulation", CTRL_MODULATION, 0, 127, 0}, { "Portamento time", CTRL_PORTAMENTO_TIME, 0, 127, 0}, { "Volume", CTRL_VOLUME, 0, 127, 100}, { "Pan", CTRL_PANPOT, -64, 63, 0}, { "Expression", CTRL_EXPRESSION, 0, 127, 127}, { "Sustain", CTRL_SUSTAIN, 0, 127, 0}, { "Portamento", CTRL_PORTAMENTO, 0, 127, 0}, { "Soft Pedal", CTRL_SOFT_PEDAL, 0, 127, 0}, { "Variation", CTRL_VARIATION_SEND, 0, 127, 0}, { "Channel reverb send", CTRL_REVERB_SEND, 0, 127, 40}, { "Channel chorus send", CTRL_CHORUS_SEND, 0, 127, 0}, { "Pitch", CTRL_PITCH, -8192, 8191, 0}, // Added by T356 { "Pitch bend sensitivity", FS_PITCHWHEELSENS, 0, 24, 2} }; static int NUM_CONTROLLER = sizeof(FluidSynth::fluidCtrl)/sizeof(*(FluidSynth::fluidCtrl)); QString *projPathPtr; // // Fluidsynth // FluidSynth::FluidSynth(int sr, pthread_mutex_t *_Globalsfloader_mutex) : Mess(2) { setSampleRate(sr); fluid_settings_t* s = new_fluid_settings(); fluid_settings_setnum(s, (char*) "synth.sample-rate", float(sampleRate())); fluidsynth = new_fluid_synth(s); if (!fluidsynth) { printf("Error while creating fluidsynth!\n"); return; } //Set up channels: for (int i=0; ishow(); gui->setWindowTitle(name); lastdir= ""; currentlyLoadedFonts = 0; nrOfSoundfonts = 0; sendChannelData(); cho_on = false; cho_num = FS_PREDEF_CHORUS_NUM; cho_type = FS_PREDEF_CHORUS_TYPE; cho_level = FS_PREDEF_CHORUS_LEVEL; cho_speed = FS_PREDEF_CHORUS_SPEED; cho_depth = FS_PREDEF_CHORUS_DEPTH; setController(0, FS_GAIN, (int)(fluidCtrl[0].max*FS_PREDEF_VOLUME)); setController(0, FS_REVERB_ON, 0); setController(0, FS_REVERB_LEVEL, (int)(fluidCtrl[2].max*FS_PREDEF_REVERB_LEVEL)); setController(0, FS_REVERB_ROOMSIZE, (int)(fluidCtrl[3].max*FS_PREDEF_REVERB_ROOMSIZE)); setController(0, FS_REVERB_DAMPING, (int)(fluidCtrl[4].max*FS_PREDEF_REVERB_DAMPING)); setController(0, FS_REVERB_WIDTH, (int)(fluidCtrl[5].max*FS_PREDEF_REVERB_WIDTH)); setController(0, FS_CHORUS_ON, 0); setController(0, FS_CHORUS_NUM, FS_PREDEF_CHORUS_NUM); //setController(0, FS_CHORUS_TYPE, FS_PREDEF_CHORUS_TYPE); //? setController(0, FS_CHORUS_SPEED, (int)(fluidCtrl[9].max*FS_PREDEF_CHORUS_SPEED)); setController(0, FS_CHORUS_DEPTH, (int)(fluidCtrl[10].max*FS_PREDEF_CHORUS_DEPTH)); setController(0, FS_CHORUS_LEVEL, (int)(fluidCtrl[11].max*FS_PREDEF_CHORUS_LEVEL)); return false; } //--------------------------------------------------------- // processMessages // Called from host always, even if output path is unconnected. //--------------------------------------------------------- void FluidSynth::processMessages() { //Process messages from the gui while (gui->fifoSize()) { MidiPlayEvent ev = gui->readEvent(); if (ev.type() == ME_SYSEX) { sysex(ev.len(), ev.data()); sendEvent(ev); } else if (ev.type() == ME_CONTROLLER) { setController(ev.channel(), ev.dataA(), ev.dataB(), true); sendEvent(ev); } else { if (FS_DEBUG) printf("FluidSynth::processMessages(): unknown event, type: %d\n", ev.type()); } } } //--------------------------------------------------------- // process // Called from host, ONLY if output path is connected. //--------------------------------------------------------- void FluidSynth::process(float** ports, int offset, int len) { /* //Process messages from the gui while (gui->fifoSize()) { MidiPlayEvent ev = gui->readEvent(); if (ev.type() == ME_SYSEX) { sysex(ev.len(), ev.data()); sendEvent(ev); } else if (ev.type() == ME_CONTROLLER) { setController(ev.channel(), ev.dataA(), ev.dataB(), true); sendEvent(ev); } else { if (FS_DEBUG) printf("FluidSynth::process(): unknown event, type: %d\n", ev.type()); } } */ if (fluid_synth_write_float(fluidsynth, len, ports[0], offset, 1, ports[1], offset, 1)) { M_ERROR("Error writing from synth!"); return; } } //--------------------------------------------------------- // getInitData // Prepare data that will restore the synth's state on load //--------------------------------------------------------- void FluidSynth::getInitData(int* n, const unsigned char** data) const { //printf("projPathPtr "); //std::cout << *projPathPtr << std::endl; // Data setup: // FS_INIT_DATA (1 byte) // FluidSynth version (2 bytes, x.y) // n = Number of soundfonts (1 byte) // Lastdir (variable size) // // FS_FONTS_BEGIN // n blocks with font path (variable size) // n bytes with font external id // // for all channels (16), 1 byte each for external id + 1 byte for preset + 1 byte for bankno // which is mapped to internal id after all fonts are loaded. // // reverb + chorus on/off (2 bytes) if (FS_DEBUG) printf("FluidSynth::getInitData()\n"); //Calculate length: int len = FS_INIT_DATA_HEADER_SIZE + strlen(lastdir.c_str()) + 1; //header size for (std::list::const_iterator it = stack.begin(); it!=stack.end(); it++) { // if the soundfont is located under the projectPath we extract this from the filename int fileLen = strlen(it->filename.c_str()); if (QString(it->filename.c_str()).startsWith(*projPathPtr)) { printf("project path found in filename, len %d shortened with %d\n",fileLen, projPathPtr->length()+1); fileLen = fileLen - projPathPtr->length()-1; } len+=fileLen + 2; } //Add length for lastdir and channels: len+=strlen(lastdir.c_str())+1; len+=(FS_MAX_NR_OF_CHANNELS*4); // 4 bytes: ext+int id + bankno + drumchannel status // + reverb len+=2; if (FS_DEBUG) printf("Total length of init sysex: %d\n", len); byte* d = new byte[len]; // Header: d[0] = FS_INIT_DATA; d[1] = FS_VERSION_MAJOR; d[2] = FS_VERSION_MINOR; d[3] = stack.size(); //Lastdir: byte* chptr = d + FS_INIT_DATA_HEADER_SIZE; memcpy(chptr, lastdir.c_str(), strlen(lastdir.c_str())+1); //For each font... chptr+=strlen(lastdir.c_str())+1; for (std::list::const_iterator it =stack.begin(); it!=stack.end(); it++) { // if the soundfont is located under the projectPath we extract this from the filename int offset=0; if (QString(it->filename.c_str()).startsWith(*projPathPtr)) { offset= projPathPtr->length()+1; } memcpy(chptr, it->filename.c_str()+offset, strlen(it->filename.c_str())-offset+1); //printf("path name stored=%s\n", it->filename.c_str()+offset); chptr = chptr + 1 + strlen(it->filename.c_str())-offset; } //For each font again... *chptr = FS_INIT_CHANNEL_SECTION; chptr++; for (std::list::const_iterator it =stack.begin(); it!=stack.end(); it++) { *chptr = it->extid; chptr++; } //External id:s & preset for all channels: for(int i=0; itoAscii().data() << std::endl; bool load_drumchannels = true; // Introduced in initdata ver 0.3 bool handle_bankvalue = true; // Introduced in initdata ver 0.4 if (FS_DEBUG) { printf("--- PARSING INIT DATA ---\n"); for (int i=0; itoAscii(); if (QFileInfo(fonts[i].filename.c_str()).isRelative()) { printf("path is relative, we append full path!\n"); fonts[i].filename = ba.constData() + std::string("/")+ fonts[i].filename; } std::cout << "SOUNDFONT FILENAME + PATH " << fonts[i].filename << std::endl; } if (*chptr != FS_INIT_CHANNEL_SECTION) { sendError("Init-data corrupt... Projectfile error. Initdata ignored.\n"); return; } chptr++; for (int i=0; iwriteEvent(ev); } //----------------------------------- // pushSoundfont - load a soundfont //----------------------------------- bool FluidSynth::pushSoundfont (const char* filename, int extid) { pthread_attr_t* attributes = (pthread_attr_t*) malloc(sizeof(pthread_attr_t)); pthread_attr_init(attributes); pthread_attr_setdetachstate(attributes, PTHREAD_CREATE_DETACHED); FS_Helper* helper = new FS_Helper; helper->fptr = this; helper->filename = filename; helper->id = extid; if (pthread_create(&fontThread, attributes, ::fontLoadThread, (void*) helper)) perror("creating thread failed:"); pthread_attr_destroy(attributes); return true; } //--------------------------------------------------------- // fontLoadThread // helper thread to load soundfont in the // background //--------------------------------------------------------- static void* fontLoadThread(void* t) { //Init vars FS_Helper* h = (FS_Helper*) t; FluidSynth* fptr = h->fptr; const char* filename = h->filename.c_str(); pthread_mutex_t* sfloader_mutex = (fptr->_sfloader_mutex); //Let only one loadThread have access to the fluidsynth-object at the time pthread_mutex_lock(sfloader_mutex); int rv = fluid_synth_sfload(fptr->fluidsynth, filename, 1); if (rv ==-1) { fptr->sendError(fluid_synth_error(fptr->fluidsynth)); if (FS_DEBUG) std::cerr << DEBUG_ARGS << "error loading soundfont: " << fluid_synth_error(fptr->fluidsynth) << std::endl; //Unlock the mutex, or else we might be stuck here forever... pthread_mutex_unlock(sfloader_mutex); delete h; pthread_exit(0); } //Deal with internal and external id etc. if (FS_DEBUG) printf("Soundfont %s loaded, index %d\n", filename, rv); FluidSoundFont font; font.filename = h->filename;//strdup(filename); font.intid = rv; if (h->id == FS_UNSPECIFIED_ID) { font.extid = fptr->getNextAvailableExternalId(); if (FS_DEBUG) printf("Font got extid %d\n",font.extid); } else font.extid = h->id; if (FS_DEBUG) printf("Font has external id: %d int id:%d\n", font.extid, font.intid); //Strip off the filename QString temp = QString(filename); QString name = temp.right(temp.length() - temp.lastIndexOf('/',-1) - 1); name = name.left(name.length()-4); //Strip off ".sf2" font.name = name.toLatin1().constData(); fptr->stack.push_front(font); fptr->currentlyLoadedFonts++; //Cleanup & unlock: pthread_mutex_unlock(sfloader_mutex); delete h; if (FS_DEBUG) printf("Currently loaded fonts: %d Nr of soundfonts: %d\n",fptr->currentlyLoadedFonts, fptr->nrOfSoundfonts); //Check whether this was the last font or not. If so, run initSynth(); if (fptr->nrOfSoundfonts <= fptr->currentlyLoadedFonts) { if (FS_DEBUG) printf("This was the last font, rewriting channel settings...\n"); fptr->rewriteChannelSettings(); //Update data in GUI-window. fptr->sendSoundFontData();; fptr->sendChannelData(); } pthread_exit(0); } //--------------------------------------------------------- // playNote // called from host //--------------------------------------------------------- bool FluidSynth::playNote(int channel, int pitch, int velo) { if (channels[channel].font_intid == FS_UNSPECIFIED_FONT || channels[channel].font_intid == FS_UNSPECIFIED_ID) return false; if (velo) { if (fluid_synth_noteon(fluidsynth, channel, pitch, velo)) { if (FS_DEBUG) std::cerr << DEBUG_ARGS << "error processing noteon event: " << fluid_synth_error(fluidsynth); } } else { if (fluid_synth_noteoff(fluidsynth, channel, pitch)) if (FS_DEBUG) std::cerr << DEBUG_ARGS << "error processing noteoff event: " << fluid_synth_error(fluidsynth) << std::endl; } return false; } //--------------------------------------------------------- // sendSoundFontData //--------------------------------------------------------- void FluidSynth::sendSoundFontData() { int ndatalen = 2; //2 bytes for command and length //Calculate length in chars of all strings in the soundfontstack in one string for (std::list::iterator it = stack.begin(); it != stack.end(); it++) { ndatalen += 1 + strlen(it->name.c_str()); ndatalen += FS_SFDATALEN; //unsigned char for ID } byte ndata[ndatalen]; *ndata = FS_SEND_SOUNDFONTDATA; //The command *(ndata + 1) = (unsigned char)stack.size (); //Nr of Soundfonts // Copy the stuff to ndatalen: char* chunk_start = (char*)(ndata + 2); int chunk_len, name_len; for (std::list::iterator it = stack.begin(); it != stack.end(); ++it) { name_len = strlen(it->name.c_str()) + 1; chunk_len = name_len + FS_SFDATALEN; memcpy(chunk_start, it->name.c_str(), name_len); //First, store the fontname *(chunk_start + name_len) = it->extid; //The GUI only needs to know about the external id, store that here chunk_start += chunk_len; } sendSysex(ndatalen, ndata); } //--------------------------------------------------------- // sendChannelData //--------------------------------------------------------- void FluidSynth::sendChannelData() { int chunk_size = 2; int chdata_length = (chunk_size * FS_MAX_NR_OF_CHANNELS) +1 ; //Command and the 2 channels * 16 byte chdata[chdata_length]; byte* chdptr; chdata[0] = FS_SEND_CHANNELINFO; chdptr = (chdata + 1); for (int i=0; i::iterator it = stack.begin(); it != stack.end(); it++) printf("Font: %s\tintid: %d\textid %d\tfilename:%s\n", it->name.c_str(), it->intid, it->extid, it->filename.c_str()); printf("Reverb on: %d, width: %f, size: %f level: %f damp: %f\n",rev_on, rev_width, rev_size, rev_level, rev_damping); printf("-----------------------------------------------------\n"); } //--------------------------------------------------------- // guiVisible //--------------------------------------------------------- bool FluidSynth::guiVisible() const { return gui->isVisible(); } //--------------------------------------------------------- // showGui //--------------------------------------------------------- void FluidSynth::showGui(bool val) { gui->setShown(val); } //--------------------------------------------------------- // setController //--------------------------------------------------------- bool FluidSynth::setController(int channel, int id, int val) { setController(channel, id, val, false); return false; } //--------------------------------------------------------- // setController //--------------------------------------------------------- void FluidSynth::setController(int channel, int id, int val, bool fromGui) { // // Channelless controllers // int err = 0; switch (id) { case FS_GAIN: { fluid_synth_set_gain(fluidsynth, (float) val/25); //gives val an interval of approximately[0,5] //Forward to gui if not from Gui if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_GAIN, val); gui->writeEvent(ev); } break; } case FS_REVERB_ON: { rev_on = val; fluid_synth_set_reverb_on(fluidsynth, val); // 0 or 1 //if (rev_on) // fluid_synth_set_reverb(fluidsynth, rev_size, rev_damping, rev_width, rev_level); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_REVERB_ON, val); gui->writeEvent(ev); } break; } case FS_REVERB_LEVEL: //Interval: 0-2 rev_level = (double)2*val/16384; //[0,2] //if (rev_on) fluid_synth_set_reverb(fluidsynth, rev_size, rev_damping, rev_width, rev_level); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_REVERB_LEVEL, val); gui->writeEvent(ev); } break; case FS_REVERB_WIDTH: // rev_width = (double)val/164; //[0,100] //if (rev_on) fluid_synth_set_reverb(fluidsynth, rev_size, rev_damping, rev_width, rev_level); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_REVERB_WIDTH, val); gui->writeEvent(ev); } break; case FS_REVERB_DAMPING: //[0,1] rev_damping = (double)val/16384; //if (rev_on) fluid_synth_set_reverb(fluidsynth, rev_size, rev_damping, rev_width, rev_level); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_REVERB_DAMPING, val); gui->writeEvent(ev); } break; case FS_REVERB_ROOMSIZE: //[0,1] rev_size = (double)val/16384; //if (rev_on) fluid_synth_set_reverb(fluidsynth, rev_size, rev_damping, rev_width, rev_level); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_REVERB_ROOMSIZE, val); gui->writeEvent(ev); } break; case FS_CHORUS_ON: {// 0 or 1 cho_on = val; fluid_synth_set_chorus_on(fluidsynth, val); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_CHORUS_ON, val); gui->writeEvent(ev); } break; } case FS_CHORUS_NUM: {//Number of delay lines cho_num = val; fluid_synth_set_chorus(fluidsynth, cho_num, cho_level, cho_speed, cho_depth, cho_type); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_CHORUS_NUM, val); gui->writeEvent(ev); } break; } case FS_CHORUS_TYPE: {//? cho_type = val; fluid_synth_set_chorus(fluidsynth, cho_num, cho_level, cho_speed, cho_depth, cho_type); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_CHORUS_TYPE, val); gui->writeEvent(ev); } break; } case FS_CHORUS_SPEED: {//(0.291,5) Hz cho_speed = (double)(0.291 + (double)val/3479); fluid_synth_set_chorus(fluidsynth, cho_num, cho_level, cho_speed, cho_depth, cho_type); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_CHORUS_SPEED, val); gui->writeEvent(ev); } break; } case FS_CHORUS_DEPTH: { //[0,40] cho_depth = (double) val*40/16383; fluid_synth_set_chorus(fluidsynth, cho_num, cho_level, cho_speed, cho_depth, cho_type); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_CHORUS_DEPTH, val); gui->writeEvent(ev); } break; } case FS_CHORUS_LEVEL: { //[0,1] cho_level = (double) val/16383; fluid_synth_set_chorus(fluidsynth, cho_num, cho_level, cho_speed, cho_depth, cho_type); if (!fromGui) { MidiPlayEvent ev(0, 0, 0, ME_CONTROLLER, FS_CHORUS_LEVEL, val); gui->writeEvent(ev); } break; } // // Controllers that depend on channels // case CTRL_PITCH: // MusE's range is from -8192 to +8191, fluidsynth seems to be [0, 16384] val +=8192; err = fluid_synth_pitch_bend (fluidsynth, channel, val); break; // Added by T356 case FS_PITCHWHEELSENS: err = fluid_synth_pitch_wheel_sens(fluidsynth, channel, val); break; case CTRL_PROGRAM: { //Check if MusE is trying to set a preset on an unspecified font. If so, ignore. if (FS_DEBUG) printf("Program select : channel %d val %d\n",channel, val); byte font_intid = channels[channel].font_intid; if (font_intid == FS_UNSPECIFIED_ID || font_intid == FS_UNSPECIFIED_FONT) return; byte banknum = ((val >> 16) & 0xff); byte patch = (val & 0xff); //printf("val: %d banknum: %x patch: %d\n", val, banknum, patch); err = fluid_synth_program_select(fluidsynth, channel, font_intid , banknum, patch); if (err) printf("FluidSynth::setController() - Error changing program on soundfont %s, channel: %d\n", fluid_synth_error(fluidsynth), channel); else { channels[channel].preset = val;//setChannelPreset(val, channel); channels[channel].banknum = banknum; } break; } default: if (FS_DEBUG) printf("Setting controller on channel: %d with id: 0x%x to val: %d\n",channel, id, val); err = fluid_synth_cc(fluidsynth, channel, id, val); break; } if (err) printf ("FluidSynth::setController() - error processing controller event: %s\n", fluid_synth_error(fluidsynth)); } //--------------------------------------------------------- // getControllerInfo //--------------------------------------------------------- int FluidSynth::getControllerInfo(int id, const char** name, int* controller, int* min, int* max, int* initval) const { if (id >= NUM_CONTROLLER) return 0; *controller = fluidCtrl[id].num; *name = fluidCtrl[id].name; *min = fluidCtrl[id].min; *max = fluidCtrl[id].max; switch(id) { case 0: *initval = (int)(fluidCtrl[0].max*FS_PREDEF_VOLUME); break; case 1: *initval = 0; break; case 2: *initval = (int)(fluidCtrl[2].max*FS_PREDEF_REVERB_LEVEL); break; case 3: *initval = (int)(fluidCtrl[3].max*FS_PREDEF_REVERB_ROOMSIZE); break; case 4: *initval = (int)(fluidCtrl[4].max*FS_PREDEF_REVERB_DAMPING); break; case 5: *initval = (int)(fluidCtrl[5].max*FS_PREDEF_REVERB_WIDTH); break; case 6: *initval = 0; break; case 7: *initval = (int)(fluidCtrl[7].max*FS_PREDEF_CHORUS_NUM); break; case 8: *initval = (int)(fluidCtrl[8].max*FS_PREDEF_CHORUS_TYPE); break; case 9: *initval = (int)(fluidCtrl[9].max*FS_PREDEF_CHORUS_SPEED); break; case 10: *initval = (int)(fluidCtrl[10].max*FS_PREDEF_CHORUS_DEPTH); break; case 11: *initval = (int)(fluidCtrl[11].max*FS_PREDEF_CHORUS_LEVEL); break; default: *initval = fluidCtrl[id].initval; break; } if (FS_DEBUG) //printf("FluidSynth::getControllerInfo() id: %d name: %s controller: %d min: %d max: %d\n",id,*name,*controller,*min,*max); printf("FluidSynth::getControllerInfo() id: %d name: %s controller: %d min: %d max: %d initval: %d\n",id,*name,*controller,*min,*max,*initval); return ++id; } //--------------------------------------------------------- // sendError //--------------------------------------------------------- void FluidSynth::sendError(const char *errorMessage) { int len = 2 + strlen(errorMessage); unsigned char data[len]; *data = FS_ERROR; memcpy(data + 1, errorMessage, len - 1); sendSysex(len, data); } //--------------------------------------------------------- // getNextAvailableExternalId //--------------------------------------------------------- int FluidSynth::getNextAvailableExternalId() { unsigned char place[FS_MAX_NR_OF_CHANNELS]; for(int i=0; i::iterator it = stack.begin(); it != stack.end(); it++) place[it->extid] = 1; int i=0; while (i < FS_MAX_NR_OF_CHANNELS && place[i] == 1) i++; return i; } //--------------------------------------------------------- // sfChannelChange //--------------------------------------------------------- void FluidSynth::sfChannelChange(byte extid, byte channel) { if (FS_DEBUG) printf("FluidSynth::sfChannelChange()-Setting channel %d to font with extid %d intid %d\n",channel, extid, getFontInternalIdByExtId(extid)); channels[channel].font_extid = extid; channels[channel].font_intid = getFontInternalIdByExtId(extid); } //--------------------------------------------------------- // getFontInternalIdByExtId //--------------------------------------------------------- byte FluidSynth::getFontInternalIdByExtId(byte ext_id) { for (std::list::iterator it = stack.begin(); it !=stack.end(); it++) { if (it->extid == ext_id) return it->intid; } return FS_UNSPECIFIED_FONT; } //--------------------------------------------------------- // sendLastDir //--------------------------------------------------------- void FluidSynth::sendLastdir(const char* lastdir) { int n = strlen(lastdir) + 2; byte d[n]; d[0] = FS_LASTDIR_CHANGE; memcpy(d+1,lastdir, strlen(lastdir)+1); MidiPlayEvent ev(0,0, ME_SYSEX, d, n); gui->writeEvent(ev); } //--------------------------------------------------------- // rewriteChannelSettings //--------------------------------------------------------- void FluidSynth::rewriteChannelSettings() { //Walk through the channels, remap internal ID:s to external ID:s (something that actually only needs to be done at //startup, since the fonts aren't loaded yet at that time and it isn't possible to give them a correct internal id //since they don't have any at that time, this can probably be fixed in a smarter way (but it works..)) for (int i=0; i"; else if (channels[i].preset == FS_UNSPECIFIED_PRESET) //return "no preset"; return ""; else { fluid_preset_t *preset = fluid_synth_get_channel_preset(fluidsynth, i); //if (!preset) return "no preset"; if (!preset) return ""; return preset->get_name(preset); } } //--------------------------------------------------------- // getPatchInfo //--------------------------------------------------------- const MidiPatch* FluidSynth::getPatchInfo(int i, const MidiPatch* patch) const { //if (channels[i].font_intid == FS_UNSPECIFIED_FONT) if (channels[i].font_intid == FS_UNSPECIFIED_FONT || channels[i].font_intid == FS_UNSPECIFIED_ID) return 0; //else if (channels[i].preset == FS_UNSPECIFIED_PRESET) // return 0; else { //printf("Getpatchname, channel: %d\n",channel); if (!patch) //Deliver first patch return getFirstPatch(i); else //Deliver next patch return getNextPatch(i, patch); } } //--------------------------------------------------------- // getFirstPatch //--------------------------------------------------------- const MidiPatch* FluidSynth::getFirstPatch (int channel) const { static MidiPatch midiPatch; midiPatch.typ = 0; midiPatch.lbank = 0; fluid_preset_t* preset; int font_id = channels[channel].font_intid; //if (font_id == FS_UNSPECIFIED_FONT) if (font_id == FS_UNSPECIFIED_FONT || font_id == FS_UNSPECIFIED_ID) return 0; fluid_sfont_t* sfont = fluid_synth_get_sfont_by_id(fluidsynth, font_id); if (!channels[channel].drumchannel) { for (unsigned bank = 0; bank < 128; ++bank) { for (unsigned patch = 0; patch < 128; ++patch) { preset = sfont->get_preset (sfont, bank, patch); if (preset) { midiPatch.hbank = bank; midiPatch.prog = patch; midiPatch.name = preset->get_name (preset); return &midiPatch; } } } return 0; } else { //This is a drumchannel int bank = 128; for (unsigned patch = 0; patch < 128; ++patch) { preset = sfont->get_preset (sfont, bank, patch); if (preset) { midiPatch.hbank = bank; midiPatch.prog = patch; midiPatch.name = preset->get_name(preset); return &midiPatch; } } } return 0; } //--------------------------------------------------------- // getNextPatch //--------------------------------------------------------- const MidiPatch* FluidSynth::getNextPatch (int channel, const MidiPatch* patch) const { static MidiPatch midiPatch; //First check if there actually is any soundfont associated to the channel. If not, don't bother int font_id = channels[channel].font_intid; if (font_id == FS_UNSPECIFIED_FONT || font_id == FS_UNSPECIFIED_ID) return 0; if (patch == 0) return getFirstPatch(channel); midiPatch.typ = 0; midiPatch.lbank = 0; //printf("Font has internal id: %d\n",font_id); fluid_preset_t* preset; fluid_sfont_t* sfont = fluid_synth_get_sfont_by_id(fluidsynth, font_id); if (!channels[channel].drumchannel) { unsigned prog = patch->prog + 1; for (unsigned bank = patch->hbank; bank < 128; ++bank) { for ( ; prog < 128; ++prog) { preset = sfont->get_preset (sfont, bank, prog); if (preset) { //printf("Preset info: bank: %d prog: %d name: %s\n", bank, prog, preset->get_name(preset)); midiPatch.hbank = bank; midiPatch.prog = prog; midiPatch.name = preset->get_name (preset); return &midiPatch; } } prog = 0; // Reset if we "come around" } } else { //This is a drum channel unsigned bank = 128; unsigned prog = patch->prog; for (prog = patch->prog + 1; prog < 128; ++prog) { preset = sfont->get_preset (sfont, bank, prog); if (preset) { //printf("Preset info: bank: %d prog: %d name: %s\n",bank, prog, preset->get_name(preset)); midiPatch.hbank = bank; midiPatch.prog = prog; midiPatch.name = preset->get_name (preset); return &midiPatch; } } } return 0; } //--------------------------------------------------------- // popSoundfont //--------------------------------------------------------- bool FluidSynth::popSoundfont (int ext_id) { bool success = false; int int_id = getFontInternalIdByExtId(ext_id); //if (int_id == FS_UNSPECIFIED_FONT) { if (int_id == FS_UNSPECIFIED_FONT || int_id == FS_UNSPECIFIED_ID) { std::cerr << DEBUG_ARGS << "Internal error! Request for deletion of Soundfont that is not registered!" << std::endl; } else { //Try to unload soundfont int err = fluid_synth_sfunload(fluidsynth, int_id, 0); if (err != -1) {//Success //Check all channels that the font is used in for (int i=0; i::iterator it =stack.begin(); it !=stack.end(); it++) { if (it->intid == int_id) { stack.erase(it); break; } } //Resend fontdata & re-initialize sendSoundFontData(); sendChannelData(); rewriteChannelSettings(); success = true; currentlyLoadedFonts--; } else //OK, there was trouble std::cerr << DEBUG_ARGS << "Error unloading soundfont!" << fluid_synth_error(fluidsynth) << std::endl; } if (FS_DEBUG) printf("Removed soundfont with ext it: %d\n",ext_id); return success; } //--------------------------------------------------------- // instantiate // construct a new synthesizer instance //--------------------------------------------------------- class QWidget; static pthread_mutex_t globalMutex; static bool mutexEnabled = false; static Mess* instantiate(int sr, QWidget*, QString* projectPathPtr, const char* name) { printf("fluidsynth sampleRate %d\n", sr); projPathPtr=projectPathPtr; if (!mutexEnabled) { pthread_mutex_init(&globalMutex,NULL); mutexEnabled = true; } FluidSynth* synth = new FluidSynth(sr, &globalMutex); if (synth->init(name)) { delete synth; synth = 0; } return synth; } extern "C" { static MESS descriptor = { "FluidSynth", "FluidSynth soundfont loader by Mathias Lundgren", //Mathias Lundgren (lunar_shuttle@users.sf.net) "0.1", //Version string MESS_MAJOR_VERSION, MESS_MINOR_VERSION, instantiate, }; // We must compile with -fvisibility=hidden to avoid namespace // conflicts with global variables. // Only visible symbol is "mess_descriptor". // (TODO: all plugins should be compiled this way) __attribute__ ((visibility("default"))) const MESS* mess_descriptor() { return &descriptor; } }