/* An LV2 plugin to generate DAHDSR envelopes Gate and (re)trigger Copyright 2011 David Robillard Copyright 2004 Mike Rawes This 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. This software 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 this software. If not, see . */ #include #include "lv2/lv2plug.in/ns/ext/morph/morph.h" #include "lv2/lv2plug.in/ns/lv2core/lv2.h" #include "common.h" #include "uris.h" #define DAHDSR_GATE 0 #define DAHDSR_TRIGGER 1 #define DAHDSR_DELAY 2 #define DAHDSR_ATTACK 3 #define DAHDSR_HOLD 4 #define DAHDSR_DECAY 5 #define DAHDSR_SUSTAIN 6 #define DAHDSR_RELEASE 7 #define DAHDSR_OUTPUT 8 typedef enum { IDLE, DELAY, ATTACK, HOLD, DECAY, SUSTAIN, RELEASE } DAHDSRState; typedef struct { float* gate; float* trigger; float* delay; float* attack; float* hold; float* decay; float* sustain; float* release; float* output; float srate; float inv_srate; float last_gate; float last_trigger; float from_level; float level; uint32_t delay_is_cv; uint32_t attack_is_cv; uint32_t hold_is_cv; uint32_t decay_is_cv; uint32_t sustain_is_cv; uint32_t release_is_cv; DAHDSRState state; uint32_t samples; URIs uris; } Dahdsr; static void cleanup(LV2_Handle instance) { free(instance); } static void connect_port(LV2_Handle instance, uint32_t port, void* data) { Dahdsr* plugin = (Dahdsr*)instance; switch (port) { case DAHDSR_GATE: plugin->gate = (float*)data; break; case DAHDSR_TRIGGER: plugin->trigger = (float*)data; break; case DAHDSR_DELAY: plugin->delay = (float*)data; break; case DAHDSR_ATTACK: plugin->attack = (float*)data; break; case DAHDSR_HOLD: plugin->hold = (float*)data; break; case DAHDSR_DECAY: plugin->decay = (float*)data; break; case DAHDSR_SUSTAIN: plugin->sustain = (float*)data; break; case DAHDSR_RELEASE: plugin->release = (float*)data; break; case DAHDSR_OUTPUT: plugin->output = (float*)data; break; } } static LV2_Morph_Status morph_port(LV2_Handle instance, uint32_t port, LV2_URID type, const LV2_Morph_Property*const* properties) { Dahdsr* plugin = (Dahdsr*)instance; if (type != plugin->uris.lv2_ControlPort && type != plugin->uris.lv2_CVPort) { return LV2_MORPH_ERR_BAD_TYPE; } switch (port) { case DAHDSR_DELAY: plugin->delay_is_cv = (type == plugin->uris.lv2_CVPort); break; case DAHDSR_ATTACK: plugin->attack_is_cv = (type == plugin->uris.lv2_CVPort); break; case DAHDSR_HOLD: plugin->hold_is_cv = (type == plugin->uris.lv2_CVPort); break; case DAHDSR_DECAY: plugin->decay_is_cv = (type == plugin->uris.lv2_CVPort); break; case DAHDSR_SUSTAIN: plugin->sustain_is_cv = (type == plugin->uris.lv2_CVPort); break; case DAHDSR_RELEASE: plugin->release_is_cv = (type == plugin->uris.lv2_CVPort); break; default: return LV2_MORPH_ERR_BAD_PORT; } return LV2_MORPH_SUCCESS; } static LV2_Handle instantiate(const LV2_Descriptor* descriptor, double sample_rate, const char* bundle_path, const LV2_Feature* const* features) { Dahdsr* plugin = (Dahdsr*)malloc(sizeof(Dahdsr)); if (!plugin) { return NULL; } plugin->srate = (float)sample_rate; plugin->inv_srate = 1.0f / plugin->srate; plugin->delay_is_cv = 0; plugin->attack_is_cv = 0; plugin->hold_is_cv = 0; plugin->decay_is_cv = 0; plugin->sustain_is_cv = 0; plugin->release_is_cv = 0; map_uris(&plugin->uris, features); return (LV2_Handle)plugin; } static void activate(LV2_Handle instance) { Dahdsr* plugin = (Dahdsr*)instance; plugin->last_gate = 0.0f; plugin->last_trigger = 0.0f; plugin->from_level = 0.0f; plugin->level = 0.0f; plugin->state = IDLE; plugin->samples = 0; } static void run(LV2_Handle instance, uint32_t sample_count) { Dahdsr* plugin = (Dahdsr*)instance; /* Gate */ const float* gate = plugin->gate; /* Trigger */ const float* trigger = plugin->trigger; /* Delay Time (s) */ const float* delay = plugin->delay; /* Attack Time (s) */ const float* attack = plugin->attack; /* Hold Time (s) */ const float* hold = plugin->hold; /* Decay Time (s) */ const float* decay = plugin->decay; /* Sustain Level */ const float* sustain = plugin->sustain; /* Release Time (s) */ const float* release = plugin->release; /* Envelope Out */ float* output = plugin->output; /* Instance Data */ float srate = plugin->srate; float inv_srate = plugin->inv_srate; float last_gate = plugin->last_gate; float last_trigger = plugin->last_trigger; float from_level = plugin->from_level; float level = plugin->level; DAHDSRState state = plugin->state; uint32_t samples = plugin->samples; float elapsed; for (uint32_t s = 0; s < sample_count; ++s) { const float dl = delay[s * plugin->delay_is_cv]; const float at = attack[s * plugin->attack_is_cv]; const float hl = hold[s * plugin->hold_is_cv]; const float dc = decay[s * plugin->decay_is_cv]; const float st = sustain[s * plugin->sustain_is_cv]; const float rl = release[s * plugin->release_is_cv]; /* Convert times into rates */ const float del = dl > 0.0f ? inv_srate / dl : srate; const float att = at > 0.0f ? inv_srate / at : srate; const float hld = hl > 0.0f ? inv_srate / hl : srate; const float dec = dc > 0.0f ? inv_srate / dc : srate; const float rel = rl > 0.0f ? inv_srate / rl : srate; const float gat = gate[s]; const float trg = trigger[s]; const float sus = f_clip(st, 0.0f, 1.0f); /* Initialise delay phase if gate is opened and was closed, or we received a trigger */ if ((trg > 0.0f && !(last_trigger > 0.0f)) || (gat > 0.0f && !(last_gate > 0.0f))) { if (del < srate) { state = DELAY; } else if (att < srate) { state = ATTACK; } else { state = hld < srate ? HOLD : (dec < srate ? DECAY : (gat > 0.0f ? SUSTAIN : (rel < srate ? RELEASE : IDLE))); level = 1.0f; } samples = 0; } /* Release if gate was open and now closed */ if (state != IDLE && state != RELEASE && last_gate > 0.0f && !(gat > 0.0f)) { state = rel < srate ? RELEASE : IDLE; samples = 0; } if (samples == 0) { from_level = level; } /* Calculate level of envelope from current state */ switch (state) { case IDLE: level = 0; break; case DELAY: samples++; elapsed = (float)samples * del; if (elapsed > 1.0f) { state = att < srate ? ATTACK : (hld < srate ? HOLD : (dec < srate ? DECAY : (gat > 0.0f ? SUSTAIN : (rel < srate ? RELEASE : IDLE)))); samples = 0; } break; case ATTACK: samples++; elapsed = (float)samples * att; if (elapsed > 1.0f) { state = hld < srate ? HOLD : (dec < srate ? DECAY : (gat > 0.0f ? SUSTAIN : (rel < srate ? RELEASE : IDLE))); level = 1.0f; samples = 0; } else { level = from_level + elapsed * (1.0f - from_level); } break; case HOLD: samples++; elapsed = (float)samples * hld; if (elapsed > 1.0f) { state = dec < srate ? DECAY : (gat > 0.0f ? SUSTAIN : (rel < srate ? RELEASE : IDLE)); samples = 0; } break; case DECAY: samples++; elapsed = (float)samples * dec; if (elapsed > 1.0f) { state = gat > 0.0f ? SUSTAIN : (rel < srate ? RELEASE : IDLE); level = sus; samples = 0; } else { level = from_level + elapsed * (sus - from_level); } break; case SUSTAIN: level = sus; break; case RELEASE: samples++; elapsed = (float)samples * rel; if (elapsed > 1.0f) { state = IDLE; level = 0.0f; samples = 0; } else { level = from_level - elapsed * from_level; } break; default: /* Should never happen */ level = 0.0f; } output[s] = level; last_gate = gate[s]; last_trigger = trigger[s]; } plugin->last_gate = last_gate; plugin->last_trigger = last_trigger; plugin->from_level = from_level; plugin->level = level; plugin->state = state; plugin->samples = samples; } static const void* extension_data(const char* uri) { static const LV2_Morph_Interface morph = { morph_port, NULL }; if (!strcmp(uri, LV2_MORPH__interface)) { return &morph; } return NULL; } static const LV2_Descriptor descriptor = { "http://drobilla.net/plugins/blop/dahdsr", instantiate, connect_port, activate, run, NULL, cleanup, extension_data, }; LV2_SYMBOL_EXPORT const LV2_Descriptor* lv2_descriptor(uint32_t index) { switch (index) { case 0: return &descriptor; default: return NULL; } }