#include #include #include #include "programs.h" #include "globals.h" #include "shared_object_manager.h" using namespace std; oscillator_t::oscillator_t() { phase=0; fm_strength=NULL; ksl=0; ksr=0; sync=false; custom_wave=NULL; } oscillator_t& oscillator_t::operator=(const oscillator_t &that) { if (this!=&that) { if (this->fm_strength) delete [] this->fm_strength; memcpy(this, &that, sizeof(*this)); this->fm_strength=new fixed_t[n_osc]; memcpy(this->fm_strength, that.fm_strength, sizeof(*that.fm_strength)*n_osc); this->custom_wave=that.custom_wave; return *this; } else return *this; } program_t::program_t() { osc_settings=NULL; env_settings=NULL; filter_settings.enabled=false; sync_factor=0; n_osc=0; pfactor.fm=NULL; pfactor.out=NULL; pfactor.freq_env_amount=NULL; create_func=NULL; dl_handle=NULL; } program_t::~program_t() { cleanup(); } void program_t::cleanup() { if (osc_settings) { for (unsigned int i=0;icleanup(); for (i=0;i<(sizeof(controller_affects)/sizeof(*controller_affects));++i) this->controller_affects[i]=that.controller_affects[i]; this->formula=that.formula; this->n_osc=that.n_osc; this->osc_settings=new oscillator_t[n_osc]; this->env_settings=new env_settings_t[n_osc]; memcpy(this->controller, that.controller, sizeof(that.controller)); copy(&that.osc_settings[0], &that.osc_settings[n_osc], this->osc_settings); copy(&that.env_settings[0], &that.env_settings[n_osc], this->env_settings); this->filter_settings=that.filter_settings; this->sync_factor=that.sync_factor; this->pfactor=that.pfactor; this->pfactor.out=new param_factor_t [n_osc]; memcpy(this->pfactor.out, that.pfactor.out, sizeof(param_factor_t)*n_osc); this->pfactor.freq_env_amount=new param_factor_t [n_osc]; memcpy(this->pfactor.freq_env_amount, that.pfactor.freq_env_amount, sizeof(param_factor_t)*n_osc); this->pfactor.fm=new param_factor_t* [n_osc]; for (i=0;ipfactor.fm[i]=new param_factor_t [n_osc]; memcpy(this->pfactor.fm[i], that.pfactor.fm[i], sizeof(param_factor_t)*n_osc); } this->create_func=that.create_func; this->dl_handle=that.dl_handle; if (dl_handle) dlref_inc(dl_handle); return *this; } else return *this; } void program_t::set_param(const parameter_t &p, fixed_t v) //ACHTUNG: { //wenn das verändert wird, muss auch Note::set_param verändert werden! switch(p.par) { case ATTACK: env_settings[p.osc].attack=v*samp_rate >>SCALE; break; case DECAY: env_settings[p.osc].decay=v*samp_rate >>SCALE; break; case SUSTAIN: env_settings[p.osc].sustain=v; break; case RELEASE: env_settings[p.osc].release=v*samp_rate >>SCALE; break; case HOLD: env_settings[p.osc].hold=(v!=0); break; case KSR: osc_settings[p.osc].ksr=float(v)/ONE; break; case KSL: osc_settings[p.osc].ksl=float(v)/ONE; break; case FACTOR: osc_settings[p.osc].factor=v; break; case MODULATION: osc_settings[p.osc].fm_strength[p.index]=v; break; case OUTPUT: osc_settings[p.osc].output=v; break; case TREMOLO: osc_settings[p.osc].tremolo_depth=v; break; case TREM_LFO: osc_settings[p.osc].tremolo_lfo=v; break; case VIBRATO: osc_settings[p.osc].vibrato_depth=v; break; case VIB_LFO: osc_settings[p.osc].vibrato_lfo=v; break; case WAVEFORM: osc_settings[p.osc].waveform=v; break; case SYNC: osc_settings[p.osc].sync=(v!=0); break; case FILTER_ENABLED: filter_settings.enabled=(v!=0); break; case FILTER_ENV_AMOUNT: filter_settings.env_amount=float(v)/ONE; break; case FILTER_ATTACK: filter_settings.env_settings.attack=v*samp_rate/filter_update_frames >>SCALE; break; case FILTER_DECAY: filter_settings.env_settings.decay=v*samp_rate/filter_update_frames >>SCALE; break; case FILTER_SUSTAIN: filter_settings.env_settings.sustain=v; break; case FILTER_RELEASE: filter_settings.env_settings.release=v*samp_rate/filter_update_frames >>SCALE; break; case FILTER_HOLD: filter_settings.env_settings.hold=(v!=0); break; case FILTER_OFFSET: filter_settings.freqfactor_offset=float(v)/ONE; break; case FILTER_RESONANCE: filter_settings.resonance=float(v)/ONE; break; case FILTER_TREMOLO: filter_settings.trem_strength=v; break; case FILTER_TREM_LFO: filter_settings.trem_lfo=v; break; case SYNC_FACTOR: sync_factor=v; break; case FREQ_ATTACK: osc_settings[p.osc].freq_env.attack=v*samp_rate >>SCALE; break; case FREQ_DECAY: osc_settings[p.osc].freq_env.decay=v*samp_rate >>SCALE; break; case FREQ_SUSTAIN: osc_settings[p.osc].freq_env.sustain=v; break; case FREQ_RELEASE: osc_settings[p.osc].freq_env.release=v*samp_rate >>SCALE; break; case FREQ_HOLD: osc_settings[p.osc].freq_env.hold=(v!=0); break; case FREQ_ENV_AMOUNT: osc_settings[p.osc].freq_env_amount=double(v)/ONE; break; default: throw string("trying to set an unknown parameter"); } } bool parameter_t::operator< (const struct parameter_t &b) const { if (par!=b.par) return (par < b.par); else if (osc!=b.osc) return (osc < b.osc); else if (index!=b.index) return (index < b.index); else return false; //they're equal } fixed_t calc_pfactor(param_factor_t &formula, fixed_t vel) { return formula.offset + (formula.vel_amount * vel >>SCALE); } void init_default_program(program_t &p) { p.n_osc=1; p.osc_settings=new oscillator_t[1]; p.env_settings=new env_settings_t[1]; p.osc_settings[0].n_osc=1; p.osc_settings[0].fm_strength=new fixed_t[1]; p.osc_settings[0].factor=ONE; p.osc_settings[0].fm_strength[0]=0; p.osc_settings[0].ksl=0; p.osc_settings[0].ksr=0; p.osc_settings[0].output=ONE; p.osc_settings[0].tremolo_depth=0; p.osc_settings[0].vibrato_depth=0; p.osc_settings[0].waveform=0; p.env_settings[0].attack=0; p.env_settings[0].decay=0; p.env_settings[0].sustain=ONE; p.env_settings[0].release=3*samp_rate; p.env_settings[0].hold=true; p.filter_settings.enabled=false; p.pfactor.out=new param_factor_t [1]; p.pfactor.freq_env_amount=new param_factor_t [1]; p.pfactor.fm=new param_factor_t* [1]; p.pfactor.filter_env.offset=ONE; p.pfactor.filter_env.vel_amount=0; p.pfactor.filter_res.offset=ONE; p.pfactor.filter_res.vel_amount=0; p.pfactor.filter_offset.offset=ONE; p.pfactor.filter_offset.vel_amount=0; p.pfactor.out[0].offset=0; p.pfactor.out[0].vel_amount=ONE; p.pfactor.freq_env_amount[0].offset=ONE; p.pfactor.freq_env_amount[0].vel_amount=0; p.pfactor.fm[0]=new param_factor_t [1]; p.pfactor.fm[0][0].offset=ONE; p.pfactor.fm[0][0].vel_amount=0; }