/* Copyright 2013-2019 Matt Tytel * * vital 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 3 of the License, or * (at your option) any later version. * * vital 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. * * You should have received a copy of the GNU General Public License * along with vital. If not, see . */ #include "producers_module.h" namespace vital { ProducersModule::ProducersModule() : SynthModule(kNumInputs, kNumOutputs), sample_destination_(nullptr), filter1_on_(nullptr), filter2_on_(nullptr) { for (int i = 0; i < kNumOscillators; ++i) { std::string number = std::to_string(i + 1); oscillators_[i] = new OscillatorModule("osc_" + number); addSubmodule(oscillators_[i]); addProcessor(oscillators_[i]); oscillators_[i]->enable(false); oscillator_destinations_[i] = nullptr; } sampler_ = new SampleModule(); addSubmodule(sampler_); addProcessor(sampler_); sampler_->enable(false); } void ProducersModule::init() { for (int i = 0; i < kNumOscillators; ++i) { std::string number = std::to_string(i + 1); oscillator_destinations_[i] = createBaseControl("osc_" + number + "_destination"); oscillators_[i]->useInput(input(kReset), OscillatorModule::kReset); oscillators_[i]->useInput(input(kRetrigger), OscillatorModule::kRetrigger); oscillators_[i]->useInput(input(kMidi), OscillatorModule::kMidi); oscillators_[i]->useInput(input(kActiveVoices), OscillatorModule::kActiveVoices); } sample_destination_ = createBaseControl("sample_destination"); sampler_->useInput(input(kReset), SampleModule::kReset); sampler_->useInput(input(kNoteCount), SampleModule::kNoteCount); sampler_->useInput(input(kMidi), SampleModule::kMidi); SynthModule::init(); for (int i = 0; i < kNumOscillators; ++i) { int index1 = getFirstModulationIndex(i); int index2 = getSecondModulationIndex(i); oscillators_[i]->oscillator()->setFirstOscillatorOutput(oscillators_[index1]->output(OscillatorModule::kRaw)); oscillators_[i]->oscillator()->setSecondOscillatorOutput(oscillators_[index2]->output(OscillatorModule::kRaw)); oscillators_[i]->oscillator()->setSampleOutput(sampler_->output(SampleModule::kRaw)); } } void ProducersModule::process(int num_samples) { SynthModule::process(num_samples); getLocalProcessor(sampler_)->process(num_samples); SynthOscillator::DistortionType distortion_types[kNumOscillators]; bool processed[kNumOscillators]; for (int i = 0; i < kNumOscillators; ++i) { distortion_types[i] = oscillators_[i]->getDistortionType(); processed[i] = false; } int num_processed = 0; int index = 0; for (int i = 0; i < kNumOscillators * kNumOscillators && num_processed < kNumOscillators; ++i) { OscillatorModule* module = oscillators_[index]; int first_source = getFirstModulationIndex(index); int second_source = getSecondModulationIndex(index); if ((!SynthOscillator::isFirstModulation(distortion_types[index]) || processed[first_source]) && (!SynthOscillator::isSecondModulation(distortion_types[index]) || processed[second_source]) && !processed[index]) { num_processed++; processed[index] = true; getLocalProcessor(module)->process(num_samples); } index = (index + 1) % kNumOscillators; } poly_float* filter1_output = output(kToFilter1)->buffer; poly_float* filter2_output = output(kToFilter2)->buffer; poly_float* raw_output = output(kRawOut)->buffer; poly_float* direct_output = output(kDirectOut)->buffer; utils::zeroBuffer(filter1_output, num_samples); utils::zeroBuffer(filter2_output, num_samples); utils::zeroBuffer(raw_output, num_samples); utils::zeroBuffer(direct_output, num_samples); bool filter1_on = isFilter1On(); bool filter2_on = isFilter2On(); for (int i = 0; i < kNumOscillators; ++i) { const poly_float* buffer = oscillators_[i]->output(OscillatorModule::kLevelled)->buffer; int destination = oscillator_destinations_[i]->value(); bool raw = destination == constants::kEffects; bool filter1 = destination == constants::kFilter1 || destination == constants::kDualFilters; bool filter2 = destination == constants::kFilter2 || destination == constants::kDualFilters; bool direct_out = destination == constants::kDirectOut; if (raw || (!filter2 && filter1 && !filter1_on) || (!filter1 && filter2 && !filter2_on) || (filter1 && filter2 && !filter1_on && !filter2_on)) { utils::addBuffers(raw_output, raw_output, buffer, num_samples); } if (filter1) utils::addBuffers(filter1_output, filter1_output, buffer, num_samples); if (filter2) utils::addBuffers(filter2_output, filter2_output, buffer, num_samples); if (direct_out) utils::addBuffers(direct_output, direct_output, buffer, num_samples); } const poly_float* sample = sampler_->output(SampleModule::kLevelled)->buffer; int sample_destination = sample_destination_->value(); bool sample_raw = sample_destination == constants::kEffects; bool filter1_sample = sample_destination == constants::kFilter1 || sample_destination == constants::kDualFilters; bool filter2_sample = sample_destination == constants::kFilter2 || sample_destination == constants::kDualFilters; bool sample_direct_out = sample_destination == constants::kDirectOut; if (sample_raw || (!filter2_sample && filter1_sample && !filter1_on) || (!filter1_sample && filter2_sample && !filter2_on) || (filter1_sample && filter2_sample && !filter1_on && !filter2_on)) { utils::addBuffers(raw_output, raw_output, sample, num_samples); } if (filter1_sample) utils::addBuffers(filter1_output, filter1_output, sample, num_samples); if (filter2_sample) utils::addBuffers(filter2_output, filter2_output, sample, num_samples); if (sample_direct_out) utils::addBuffers(direct_output, direct_output, sample, num_samples); } } // namespace vital