/* ** music_fluidsynth_mididevice.cpp ** Provides access to FluidSynth as a generic MIDI device. ** **--------------------------------------------------------------------------- ** Copyright 2010 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 "mididevice.h" #include "mus2midi.h" // FluidSynth implementation of a MIDI device ------------------------------- #ifndef DYN_FLUIDSYNTH #include #else #include "i_module.h" extern FModule FluidSynthModule; struct fluid_settings_t; struct fluid_synth_t; #endif class FluidSynthMIDIDevice : public SoftSynthMIDIDevice { public: FluidSynthMIDIDevice(int samplerate, const FluidConfig *config, int (*printfunc_)(const char *, ...)); ~FluidSynthMIDIDevice(); int OpenRenderer(); std::string GetStats() override; void ChangeSettingInt(const char *setting, int value); void ChangeSettingNum(const char *setting, double value); void ChangeSettingString(const char *setting, const char *value); int GetDeviceType() const override { return MDEV_FLUIDSYNTH; } protected: void HandleEvent(int status, int parm1, int parm2); void HandleLongEvent(const uint8_t *data, int len); void ComputeOutput(float *buffer, int len); int LoadPatchSets(const FluidConfig *config); fluid_settings_t *FluidSettings; fluid_synth_t *FluidSynth; int (*printfunc)(const char*, ...); // These are getting set together, so if we want to keep the renderer and the config data separate we need to store local copies to apply changes. float fluid_reverb_roomsize, fluid_reverb_damping, fluid_reverb_width, fluid_reverb_level; float fluid_chorus_level,fluid_chorus_speed, fluid_chorus_depth; int fluid_chorus_voices, fluid_chorus_type; #ifdef DYN_FLUIDSYNTH enum { FLUID_FAILED = -1, FLUID_OK = 0 }; static TReqProc new_fluid_settings; static TReqProc new_fluid_synth; static TReqProc delete_fluid_synth; static TReqProc delete_fluid_settings; static TReqProc fluid_settings_setnum; static TReqProc fluid_settings_setstr; static TReqProc fluid_settings_setint; static TReqProc fluid_settings_getint; static TReqProc fluid_synth_set_reverb_on; static TReqProc fluid_synth_set_chorus_on; static TReqProc fluid_synth_set_interp_method; static TReqProc fluid_synth_set_polyphony; static TReqProc fluid_synth_get_polyphony; static TReqProc fluid_synth_get_active_voice_count; static TReqProc fluid_synth_get_cpu_load; static TReqProc fluid_synth_system_reset; static TReqProc fluid_synth_noteon; static TReqProc fluid_synth_noteoff; static TReqProc fluid_synth_cc; static TReqProc fluid_synth_program_change; static TReqProc fluid_synth_channel_pressure; static TReqProc fluid_synth_pitch_bend; static TReqProc fluid_synth_write_float; static TReqProc fluid_synth_sfload; static TReqProc fluid_synth_set_reverb; static TReqProc fluid_synth_set_chorus; static TReqProc fluid_synth_sysex; bool LoadFluidSynth(const char *fluid_lib); void UnloadFluidSynth(); #endif }; // MACROS ------------------------------------------------------------------ #ifdef DYN_FLUIDSYNTH #ifdef _WIN32 #ifndef _M_X64 #define FLUIDSYNTHLIB1 "fluidsynth.dll" #define FLUIDSYNTHLIB2 "libfluidsynth.dll" #else #define FLUIDSYNTHLIB1 "fluidsynth64.dll" #define FLUIDSYNTHLIB2 "libfluidsynth64.dll" #endif #else #include #ifdef __APPLE__ #define FLUIDSYNTHLIB1 "libfluidsynth.1.dylib" #else // !__APPLE__ #define FLUIDSYNTHLIB1 "libfluidsynth.so.1" #endif // __APPLE__ #endif #endif // TYPES ------------------------------------------------------------------- // EXTERNAL FUNCTION PROTOTYPES -------------------------------------------- const char *BaseFileSearch(const char *file, const char *ext, bool lookfirstinprogdir = false); // PUBLIC FUNCTION PROTOTYPES ---------------------------------------------- // PRIVATE FUNCTION PROTOTYPES --------------------------------------------- // EXTERNAL DATA DECLARATIONS ---------------------------------------------- // PRIVATE DATA DEFINITIONS ------------------------------------------------ // PUBLIC DATA DEFINITIONS ------------------------------------------------- // CODE -------------------------------------------------------------------- //========================================================================== // // FluidSynthMIDIDevice Constructor // //========================================================================== FluidSynthMIDIDevice::FluidSynthMIDIDevice(int samplerate, const FluidConfig *config, int (*printfunc_)(const char*, ...) = nullptr) : SoftSynthMIDIDevice(samplerate <= 0? config->fluid_samplerate : samplerate, 22050, 96000) { StreamBlockSize = 4; // These are needed for changing the settings. If something posts a transient config in here we got no way to retrieve the values afterward. fluid_reverb_roomsize = config->fluid_reverb_roomsize; fluid_reverb_damping = config->fluid_reverb_damping; fluid_reverb_width = config->fluid_reverb_width; fluid_reverb_level = config->fluid_reverb_level; fluid_chorus_voices = config->fluid_chorus_voices; fluid_chorus_level = config->fluid_chorus_level; fluid_chorus_speed = config->fluid_chorus_speed; fluid_chorus_depth = config->fluid_chorus_depth; fluid_chorus_type = config->fluid_chorus_type; printfunc = printfunc_; FluidSynth = NULL; FluidSettings = NULL; #ifdef DYN_FLUIDSYNTH if (!LoadFluidSynth(config->fluid_lib.c_str())) { throw std::runtime_error("Failed to load FluidSynth.\n"); } #endif FluidSettings = new_fluid_settings(); if (FluidSettings == NULL) { throw std::runtime_error("Failed to create FluidSettings.\n"); } fluid_settings_setnum(FluidSettings, "synth.sample-rate", SampleRate); fluid_settings_setnum(FluidSettings, "synth.gain", config->fluid_gain); fluid_settings_setint(FluidSettings, "synth.reverb.active", config->fluid_reverb); fluid_settings_setint(FluidSettings, "synth.chorus.active", config->fluid_chorus); fluid_settings_setint(FluidSettings, "synth.polyphony", config->fluid_voices); fluid_settings_setint(FluidSettings, "synth.cpu-cores", config->fluid_threads); FluidSynth = new_fluid_synth(FluidSettings); if (FluidSynth == NULL) { delete_fluid_settings(FluidSettings); throw std::runtime_error("Failed to create FluidSynth.\n"); } fluid_synth_set_interp_method(FluidSynth, -1, config->fluid_interp); fluid_synth_set_reverb(FluidSynth, fluid_reverb_roomsize, fluid_reverb_damping, fluid_reverb_width, fluid_reverb_level); fluid_synth_set_chorus(FluidSynth, fluid_chorus_voices, fluid_chorus_level, fluid_chorus_speed, fluid_chorus_depth, fluid_chorus_type); // try loading a patch set that got specified with $mididevice. int res = 0; if (LoadPatchSets(config)) { return; } delete_fluid_settings(FluidSettings); delete_fluid_synth(FluidSynth); FluidSynth = nullptr; FluidSettings = nullptr; throw std::runtime_error("Failed to load any MIDI patches.\n"); } //========================================================================== // // FluidSynthMIDIDevice Destructor // //========================================================================== FluidSynthMIDIDevice::~FluidSynthMIDIDevice() { Close(); if (FluidSynth != NULL) { delete_fluid_synth(FluidSynth); } if (FluidSettings != NULL) { delete_fluid_settings(FluidSettings); } #ifdef DYN_FLUIDSYNTH UnloadFluidSynth(); #endif } //========================================================================== // // FluidSynthMIDIDevice :: Open // // Returns 0 on success. // //========================================================================== int FluidSynthMIDIDevice::OpenRenderer() { fluid_synth_system_reset(FluidSynth); return 0; } //========================================================================== // // FluidSynthMIDIDevice :: HandleEvent // // Translates a MIDI event into FluidSynth calls. // //========================================================================== void FluidSynthMIDIDevice::HandleEvent(int status, int parm1, int parm2) { int command = status & 0xF0; int channel = status & 0x0F; switch (command) { case MIDI_NOTEOFF: fluid_synth_noteoff(FluidSynth, channel, parm1); break; case MIDI_NOTEON: fluid_synth_noteon(FluidSynth, channel, parm1, parm2); break; case MIDI_POLYPRESS: break; case MIDI_CTRLCHANGE: fluid_synth_cc(FluidSynth, channel, parm1, parm2); break; case MIDI_PRGMCHANGE: fluid_synth_program_change(FluidSynth, channel, parm1); break; case MIDI_CHANPRESS: fluid_synth_channel_pressure(FluidSynth, channel, parm1); break; case MIDI_PITCHBEND: fluid_synth_pitch_bend(FluidSynth, channel, (parm1 & 0x7f) | ((parm2 & 0x7f) << 7)); break; } } //========================================================================== // // FluidSynthMIDIDevice :: HandleLongEvent // // Handle SysEx messages. // //========================================================================== void FluidSynthMIDIDevice::HandleLongEvent(const uint8_t *data, int len) { if (len > 1 && (data[0] == 0xF0 || data[0] == 0xF7)) { fluid_synth_sysex(FluidSynth, (const char *)data + 1, len - 1, NULL, NULL, NULL, 0); } } //========================================================================== // // FluidSynthMIDIDevice :: ComputeOutput // //========================================================================== void FluidSynthMIDIDevice::ComputeOutput(float *buffer, int len) { fluid_synth_write_float(FluidSynth, len, buffer, 0, 2, buffer, 1, 2); } //========================================================================== // // FluidSynthMIDIDevice :: LoadPatchSets // //========================================================================== int FluidSynthMIDIDevice::LoadPatchSets(const FluidConfig *config) { int count = 0; for (auto& file : config->fluid_patchset) { if (FLUID_FAILED != fluid_synth_sfload(FluidSynth, file.c_str(), count == 0)) { //DPrintf(DMSG_NOTIFY, "Loaded patch set %s.\n", tok); count++; } else { if (printfunc) printfunc("Failed to load patch set %s.\n", file.c_str()); } } return count; } //========================================================================== // // FluidSynthMIDIDevice :: ChangeSettingInt // // Changes an integer setting. // //========================================================================== void FluidSynthMIDIDevice::ChangeSettingInt(const char *setting, int value) { if (FluidSynth == nullptr || FluidSettings == nullptr || strncmp(setting, "fluidsynth.", 11)) { return; } setting += 11; if (strcmp(setting, "synth.interpolation") == 0) { if (FLUID_OK != fluid_synth_set_interp_method(FluidSynth, -1, value)) { if (printfunc) printfunc("Setting interpolation method %d failed.\n", value); } } else if (strcmp(setting, "synth.polyphony") == 0) { if (FLUID_OK != fluid_synth_set_polyphony(FluidSynth, value)) { if (printfunc) printfunc("Setting polyphony to %d failed.\n", value); } } else if (0 == fluid_settings_setint(FluidSettings, setting, value)) { if (printfunc) printfunc("Failed to set %s to %d.\n", setting, value); } // fluid_settings_setint succeeded; update these settings in the running synth, too else if (strcmp(setting, "synth.reverb.active") == 0) { fluid_synth_set_reverb_on(FluidSynth, value); } else if (strcmp(setting, "synth.chorus.active") == 0) { fluid_synth_set_chorus_on(FluidSynth, value); } } //========================================================================== // // FluidSynthMIDIDevice :: ChangeSettingNum // // Changes a numeric setting. // //========================================================================== void FluidSynthMIDIDevice::ChangeSettingNum(const char *setting, double value) { if (FluidSynth == nullptr || FluidSettings == nullptr || strncmp(setting, "fluidsynth.", 11)) { return; } setting += 11; bool reverbchanged = false, choruschanged = false; if (strcmp(setting, "z.reverb-roomsize") == 0) { fluid_reverb_roomsize = (float)value; reverbchanged = true; } else if (strcmp(setting, "z.reverb-damping") == 0) { fluid_reverb_damping = (float)value; reverbchanged = true; } else if (strcmp(setting, "z.reverb-width") == 0) { fluid_reverb_width = (float)value; reverbchanged = true; } else if (strcmp(setting, "z.reverb-level") == 0) { fluid_reverb_level = (float)value; reverbchanged = true; } else if (strcmp(setting, "z.chorus-voices") == 0) { fluid_chorus_voices = (int)value; choruschanged = true; } else if (strcmp(setting, "z.chorus-level") == 0) { fluid_chorus_level = (float)value; choruschanged = true; } else if (strcmp(setting, "z.chorus-speed") == 0) { fluid_chorus_speed = (float)value; choruschanged = true; } else if (strcmp(setting, "z.chorus-depth") == 0) { fluid_chorus_depth = (float)value; choruschanged = true; } else if (strcmp(setting, "z.chorus-type") == 0) { fluid_chorus_type = (int)value; choruschanged = true; } else if (0 == fluid_settings_setnum(FluidSettings, setting, value)) { if (printfunc) printfunc("Failed to set %s to %g.\n", setting, value); } if (reverbchanged) fluid_synth_set_reverb(FluidSynth, fluid_reverb_roomsize, fluid_reverb_damping, fluid_reverb_width, fluid_reverb_level); if (choruschanged) fluid_synth_set_chorus(FluidSynth, (int)fluid_chorus_voices, fluid_chorus_level, fluid_chorus_speed, fluid_chorus_depth, (int)fluid_chorus_type); } //========================================================================== // // FluidSynthMIDIDevice :: ChangeSettingString // // Changes a string setting. // //========================================================================== void FluidSynthMIDIDevice::ChangeSettingString(const char *setting, const char *value) { if (FluidSynth == nullptr || FluidSettings == nullptr || strncmp(setting, "fluidsynth.", 11)) { return; } setting += 11; if (0 == fluid_settings_setstr(FluidSettings, setting, value)) { if (printfunc) printfunc("Failed to set %s to %s.\n", setting, value); } } //========================================================================== // // FluidSynthMIDIDevice :: GetStats // //========================================================================== std::string FluidSynthMIDIDevice::GetStats() { if (FluidSynth == NULL || FluidSettings == NULL) { return "FluidSynth is invalid"; } std::lock_guard lock(CritSec); int polyphony = fluid_synth_get_polyphony(FluidSynth); int voices = fluid_synth_get_active_voice_count(FluidSynth); double load = fluid_synth_get_cpu_load(FluidSynth); int chorus, reverb, maxpoly; fluid_settings_getint(FluidSettings, "synth.chorus.active", &chorus); fluid_settings_getint(FluidSettings, "synth.reverb.active", &reverb); fluid_settings_getint(FluidSettings, "synth.polyphony", &maxpoly); char out[100]; snprintf(out, 100,"Voices: %3d/%3d(%3d) %6.2f%% CPU Reverb: %3s Chorus: %3s", voices, polyphony, maxpoly, load, reverb ? "yes" : "no", chorus ? "yes" : "no"); return out; } #ifdef DYN_FLUIDSYNTH //========================================================================== // // FluidSynthMIDIDevice :: LoadFluidSynth // // Returns true if the FluidSynth library was successfully loaded. // //========================================================================== FModuleMaybe FluidSynthModule{"FluidSynth"}; #define DYN_FLUID_SYM(x) decltype(FluidSynthMIDIDevice::x) FluidSynthMIDIDevice::x{#x} DYN_FLUID_SYM(new_fluid_settings); DYN_FLUID_SYM(new_fluid_synth); DYN_FLUID_SYM(delete_fluid_synth); DYN_FLUID_SYM(delete_fluid_settings); DYN_FLUID_SYM(fluid_settings_setnum); DYN_FLUID_SYM(fluid_settings_setstr); DYN_FLUID_SYM(fluid_settings_setint); DYN_FLUID_SYM(fluid_settings_getint); DYN_FLUID_SYM(fluid_synth_set_reverb_on); DYN_FLUID_SYM(fluid_synth_set_chorus_on); DYN_FLUID_SYM(fluid_synth_set_interp_method); DYN_FLUID_SYM(fluid_synth_set_polyphony); DYN_FLUID_SYM(fluid_synth_get_polyphony); DYN_FLUID_SYM(fluid_synth_get_active_voice_count); DYN_FLUID_SYM(fluid_synth_get_cpu_load); DYN_FLUID_SYM(fluid_synth_system_reset); DYN_FLUID_SYM(fluid_synth_noteon); DYN_FLUID_SYM(fluid_synth_noteoff); DYN_FLUID_SYM(fluid_synth_cc); DYN_FLUID_SYM(fluid_synth_program_change); DYN_FLUID_SYM(fluid_synth_channel_pressure); DYN_FLUID_SYM(fluid_synth_pitch_bend); DYN_FLUID_SYM(fluid_synth_write_float); DYN_FLUID_SYM(fluid_synth_sfload); DYN_FLUID_SYM(fluid_synth_set_reverb); DYN_FLUID_SYM(fluid_synth_set_chorus); DYN_FLUID_SYM(fluid_synth_sysex); bool FluidSynthMIDIDevice::LoadFluidSynth(const char *fluid_lib) { if (fluid_lib && strlen(fluid_lib) > 0) { if(!FluidSynthModule.Load({fluid_lib})) { const char* libname = fluid_lib; if (printfunc) printfunc("Could not load %s\n", libname); } else return true; } #ifdef FLUIDSYNTHLIB2 if(!FluidSynthModule.Load({FLUIDSYNTHLIB1, FLUIDSYNTHLIB2})) { if (printfunc) printfunc("Could not load " FLUIDSYNTHLIB1 " or " FLUIDSYNTHLIB2 "\n"); return false; } #else if(!FluidSynthModule.Load({fluid_lib, FLUIDSYNTHLIB1})) { if (printfunc) printfunc("Could not load " FLUIDSYNTHLIB1 ": %s\n", dlerror()); return false; } #endif return true; } //========================================================================== // // FluidSynthMIDIDevice :: UnloadFluidSynth // //========================================================================== void FluidSynthMIDIDevice::UnloadFluidSynth() { FluidSynthModule.Unload(); } #endif //========================================================================== // // // //========================================================================== MIDIDevice *CreateFluidSynthMIDIDevice(int samplerate, const FluidConfig *config, int (*printfunc)(const char*, ...)) { return new FluidSynthMIDIDevice(samplerate, config, printfunc); }