/* * Carla Native Plugins * Copyright (C) 2012-2019 Filipe Coelho * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * For a full copy of the GNU General Public License see the doc/GPL.txt file. */ /* This plugin code is based on MOD Devices' midi-to-cv-mono by Bram Giesen and Jarno Verheesen */ #include "CarlaNative.h" #include "CarlaMIDI.h" #include #include // ----------------------------------------------------------------------- #define NUM_NOTESBUFFER 8 typedef enum { PARAM_OCTAVE = 0, PARAM_SEMITONE, PARAM_CENT, PARAM_RETRIGGER, PARAM_COUNT } Midi2CvParams; typedef struct { // keep track of active notes uint8_t activeNotesList[NUM_NOTESBUFFER]; uint8_t reTriggerBuffer[NUM_NOTESBUFFER]; uint8_t triggerIndex; uint8_t activeNotes; uint8_t activeVelocity; uint8_t reTriggered; size_t notesIndex; bool activePorts; // other stuff bool triggerState; int notesPressed; float params[PARAM_COUNT]; } Midi2CvHandle; static void panic(Midi2CvHandle* const handle) { memset(handle->activeNotesList, 200, sizeof(uint8_t)*NUM_NOTESBUFFER); memset(handle->reTriggerBuffer, 0, sizeof(uint8_t)*NUM_NOTESBUFFER); handle->triggerIndex = 0; handle->reTriggered = 200; handle->activeNotes = 0; handle->activeVelocity = 0; handle->activePorts = false; handle->notesPressed = 0; handle->notesIndex = 0; handle->triggerState = false; } static void set_status(Midi2CvHandle* const handle, int status) { handle->activePorts = status; handle->triggerState = status; } // ----------------------------------------------------------------------- static NativePluginHandle midi2cv_instantiate(const NativeHostDescriptor* host) { Midi2CvHandle* const handle = (Midi2CvHandle*)malloc(sizeof(Midi2CvHandle)); if (handle == NULL) return NULL; panic(handle); memset(handle->params, 0, sizeof(float)*PARAM_COUNT); return handle; // unused (void)host; } #define handlePtr ((Midi2CvHandle*)handle) static void midi2cv_cleanup(NativePluginHandle handle) { free(handlePtr); } static uint32_t midi2cv_get_parameter_count(NativePluginHandle handle) { return PARAM_COUNT; // unused (void)handle; } static const NativeParameter* midi2cv_get_parameter_info(NativePluginHandle handle, uint32_t index) { if (index > PARAM_COUNT) return NULL; static NativeParameter param; param.hints = NATIVE_PARAMETER_IS_ENABLED|NATIVE_PARAMETER_IS_AUTOMATABLE; param.unit = NULL; param.scalePointCount = 0; param.scalePoints = NULL; switch (index) { case PARAM_OCTAVE: param.name = "Octave"; param.hints |= NATIVE_PARAMETER_IS_INTEGER; param.ranges.def = 0.0f; param.ranges.min = -3.0f; param.ranges.max = 3.0f; param.ranges.step = 1.0f; param.ranges.stepSmall = 1.0f; param.ranges.stepLarge = 1.0f; break; case PARAM_SEMITONE: param.name = "Semitone"; param.hints |= NATIVE_PARAMETER_IS_INTEGER; param.ranges.def = 0.0f; param.ranges.min = -12.0f; param.ranges.max = 12.0f; param.ranges.step = 1.0f; param.ranges.stepSmall = 1.0f; param.ranges.stepLarge = 6.0f; break; case PARAM_CENT: param.name = "Cent"; param.hints |= NATIVE_PARAMETER_IS_INTEGER; param.ranges.def = 0.0f; param.ranges.min = -100.0f; param.ranges.max = 100.0f; param.ranges.step = 10.0f; param.ranges.stepSmall = 1.0f; param.ranges.stepLarge = 50.0f; break; case PARAM_RETRIGGER: param.name = "Retrigger"; param.hints |= NATIVE_PARAMETER_IS_BOOLEAN; param.ranges.def = 0.0f; param.ranges.min = 0.0f; param.ranges.max = 1.0f; param.ranges.step = 1.0f; param.ranges.stepSmall = 1.0f; param.ranges.stepLarge = 1.0f; break; } return ¶m; // unused (void)handle; } static float midi2cv_get_parameter_value(NativePluginHandle handle, uint32_t index) { return handlePtr->params[index]; } static void midi2cv_set_parameter_value(NativePluginHandle handle, uint32_t index, float value) { handlePtr->params[index] = value; } static const NativePortRange* midi2cv_get_buffer_port_range(NativePluginHandle handle, uint32_t index, bool isOutput) { if (! isOutput) return NULL; static NativePortRange npr; switch (index) { case 0: npr.minimum = 0.0f; npr.maximum = 9.0f; return ⊀ case 1: npr.minimum = 0.0f; npr.maximum = 10.5f; return ⊀ case 2: npr.minimum = 0.0f; npr.maximum = 10.0f; return ⊀ default: return NULL; } // unused (void)handle; } static const char* midi2cv_get_buffer_port_name(NativePluginHandle handle, uint32_t index, bool isOutput) { if (! isOutput) return NULL; switch (index) { case 0: return "Pitch"; case 1: return "Velocity"; case 2: return "Gate"; default: return NULL; } // unused (void)handle; } static void midi2cv_activate(NativePluginHandle handle) { panic(handlePtr); } // FIXME for v3.0, use const for the input buffer static void midi2cv_process(NativePluginHandle handle, float** inBuffer, float** outBuffer, uint32_t frames, const NativeMidiEvent* midiEvents, uint32_t midiEventCount) { float* const pitch = outBuffer[0]; float* const velocity = outBuffer[1]; float* const trigger = outBuffer[2]; const float oC = handlePtr->params[PARAM_OCTAVE]; const float sC = handlePtr->params[PARAM_SEMITONE]; const float cC = handlePtr->params[PARAM_CENT]; const bool rC = handlePtr->params[PARAM_RETRIGGER] > 0.5f; bool retrigger = true; for (uint32_t i=0; i < midiEventCount; ++i) { const NativeMidiEvent* const midiEvent = &midiEvents[i]; if (midiEvent->size <= 1 || midiEvent->size > 3) continue; const uint8_t* const mdata = midiEvent->data; const uint8_t status = MIDI_GET_STATUS_FROM_DATA(mdata); int storeN = 0; bool emptySlot = false; int notesIndex = NUM_NOTESBUFFER - 1; bool noteFound = false; switch (status) { case MIDI_STATUS_NOTE_ON: while (!emptySlot && storeN < NUM_NOTESBUFFER) { if (handlePtr->activeNotesList[storeN] == 200) { handlePtr->activeNotesList[storeN] = mdata[1]; emptySlot = true; } storeN++; } handlePtr->activeNotes = mdata[1]; handlePtr->activeVelocity = mdata[2]; handlePtr->triggerIndex = (handlePtr->triggerIndex + 1U) % 8U; handlePtr->reTriggerBuffer[handlePtr->triggerIndex] = 1U; handlePtr->reTriggered = mdata[1]; break; case MIDI_STATUS_NOTE_OFF: handlePtr->notesPressed--; for (int n = 0; n < NUM_NOTESBUFFER; ++n) if (mdata[1] == handlePtr->activeNotesList[n]) handlePtr->activeNotesList[n] = 200; while (!noteFound && notesIndex >= 0) { if (handlePtr->activeNotesList[notesIndex] < 200) { handlePtr->activeNotes = handlePtr->activeNotesList[notesIndex]; if(retrigger && handlePtr->activeNotes != handlePtr->reTriggered) { handlePtr->reTriggered = mdata[1]; } noteFound = true; } notesIndex--; } break; case MIDI_STATUS_CONTROL_CHANGE: if (mdata[1] == MIDI_CONTROL_ALL_NOTES_OFF) panic(handlePtr); break; } } int checked_note = 0; bool active_notes_found = false; while (checked_note < NUM_NOTESBUFFER && ! active_notes_found) { if (handlePtr->activeNotesList[checked_note] != 200) active_notes_found = true; checked_note++; } if (active_notes_found) { set_status(handlePtr, 1); } else { set_status(handlePtr, 0); handlePtr->activeVelocity = 0; } for (uint32_t i=0; iactiveNotes * 1/12.0f)); velocity[i] = (0.0f + ((float)handlePtr->activeVelocity * 1/12.0f)); trigger[i] = ((handlePtr->triggerState == true) ? 10.0f : 0.0f); if (handlePtr->reTriggerBuffer[handlePtr->triggerIndex] == 1 && rC) { handlePtr->reTriggerBuffer[handlePtr->triggerIndex] = 0; trigger[i] = 0.0f; } } return; // unused (void)inBuffer; } #undef handlePtr // ----------------------------------------------------------------------- static const NativePluginDescriptor midi2cvDesc = { .category = NATIVE_PLUGIN_CATEGORY_UTILITY, .hints = NATIVE_PLUGIN_IS_RTSAFE|NATIVE_PLUGIN_USES_CONTROL_VOLTAGE, .supports = NATIVE_PLUGIN_SUPPORTS_ALL_SOUND_OFF, .audioIns = 0, .audioOuts = 0, .cvIns = 0, .cvOuts = 3, // pitch, velocity, gate .midiIns = 1, .midiOuts = 0, .paramIns = PARAM_COUNT, .paramOuts = 0, .name = "MIDI to CV", .label = "midi2cv", .maker = "falkTX, Bram Giesen, Jarno Verheesen", .copyright = "GNU GPL v2+", .instantiate = midi2cv_instantiate, .cleanup = midi2cv_cleanup, .get_parameter_count = midi2cv_get_parameter_count, .get_parameter_info = midi2cv_get_parameter_info, .get_parameter_value = midi2cv_get_parameter_value, .get_midi_program_count = NULL, .get_midi_program_info = NULL, .set_parameter_value = midi2cv_set_parameter_value, .set_midi_program = NULL, .set_custom_data = NULL, .get_buffer_port_name = midi2cv_get_buffer_port_name, .get_buffer_port_range = midi2cv_get_buffer_port_range, .ui_show = NULL, .ui_idle = NULL, .ui_set_parameter_value = NULL, .ui_set_midi_program = NULL, .ui_set_custom_data = NULL, .activate = midi2cv_activate, .deactivate = NULL, .process = midi2cv_process, .get_state = NULL, .set_state = NULL, .dispatcher = NULL, .render_inline_display = NULL }; // ----------------------------------------------------------------------- void carla_register_native_plugin_midi2cv(void); void carla_register_native_plugin_midi2cv(void) { carla_register_native_plugin(&midi2cvDesc); } // -----------------------------------------------------------------------