/* a-comp * Copyright (C) 2016 Damien Zammit * * 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 (at your option) 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. */ #include #include #include #include #ifdef LV2_EXTENDED #include #include "ardour/lv2_extensions.h" #endif #include "lv2/lv2plug.in/ns/lv2core/lv2.h" #define ACOMP_URI "urn:ardour:a-comp" typedef enum { ACOMP_INPUT0 = 0, ACOMP_INPUT1, ACOMP_OUTPUT, ACOMP_ATTACK, ACOMP_RELEASE, ACOMP_KNEE, ACOMP_RATIO, ACOMP_THRESHOLD, ACOMP_MAKEUP, ACOMP_GAINR, ACOMP_OUTLEVEL, ACOMP_SIDECHAIN, } PortIndex; typedef struct { float* input0; float* input1; float* output; float* attack; float* release; float* knee; float* ratio; float* thresdb; float* makeup; float* gainr; float* outlevel; float* sidechain; float srate; float old_yl; float old_y1; float old_yg; #ifdef LV2_EXTENDED bool need_expose; LV2_Inline_Display_Image_Surface surf; cairo_surface_t* display; LV2_Inline_Display* queue_draw; uint32_t w, h; /* ports pointers are only valid during run so we'll * have to cache them for the display, besides * we do want to check for changes */ float v_knee; float v_ratio; float v_thresdb; float v_makeup; #endif } AComp; static LV2_Handle instantiate(const LV2_Descriptor* descriptor, double rate, const char* bundle_path, const LV2_Feature* const* features) { AComp* acomp = (AComp*)calloc(1, sizeof(AComp)); for (int i=0; features[i]; ++i) { #ifdef LV2_EXTENDED if (!strcmp(features[i]->URI, LV2_INLINEDISPLAY__queue_draw)) { acomp->queue_draw = (LV2_Inline_Display*) features[i]->data; } #endif } acomp->srate = rate; acomp->old_yl=acomp->old_y1=acomp->old_yg=0.f; acomp->need_expose = true; return (LV2_Handle)acomp; } static void connect_port(LV2_Handle instance, uint32_t port, void* data) { AComp* acomp = (AComp*)instance; switch ((PortIndex)port) { case ACOMP_ATTACK: acomp->attack = (float*)data; break; case ACOMP_RELEASE: acomp->release = (float*)data; break; case ACOMP_KNEE: acomp->knee = (float*)data; break; case ACOMP_RATIO: acomp->ratio = (float*)data; break; case ACOMP_THRESHOLD: acomp->thresdb = (float*)data; break; case ACOMP_MAKEUP: acomp->makeup = (float*)data; break; case ACOMP_GAINR: acomp->gainr = (float*)data; break; case ACOMP_OUTLEVEL: acomp->outlevel = (float*)data; break; case ACOMP_SIDECHAIN: acomp->sidechain = (float*)data; break; case ACOMP_INPUT0: acomp->input0 = (float*)data; break; case ACOMP_INPUT1: acomp->input1 = (float*)data; break; case ACOMP_OUTPUT: acomp->output = (float*)data; break; } } // Force already-denormal float value to zero static inline float sanitize_denormal(float value) { if (!isnormal(value)) { value = 0.f; } return value; } static inline float from_dB(float gdb) { return (exp(gdb/20.f*log(10.f))); } static inline float to_dB(float g) { return (20.f*log10(g)); } static void activate(LV2_Handle instance) { AComp* acomp = (AComp*)instance; *(acomp->gainr) = 0.0f; *(acomp->outlevel) = -45.0f; acomp->old_yl=acomp->old_y1=acomp->old_yg=0.f; } static void run(LV2_Handle instance, uint32_t n_samples) { AComp* acomp = (AComp*)instance; const float* const input0 = acomp->input0; const float* const input1 = acomp->input1; float* const output = acomp->output; float srate = acomp->srate; float width = (6.f * *(acomp->knee)) + 0.01; float cdb=0.f; float attack_coeff = exp(-1000.f/(*(acomp->attack) * srate)); float release_coeff = exp(-1000.f/(*(acomp->release) * srate)); float max = 0.f; float lgaininp = 0.f; float Lgain = 1.f; float Lxg, Lxl, Lyg, Lyl, Ly1; int usesidechain = (*(acomp->sidechain) < 0.5) ? 0 : 1; uint32_t i; float ingain; float in0; float in1; float ratio = *(acomp->ratio); float thresdb = *(acomp->thresdb); #ifdef LV2_EXTENDED if (acomp->v_knee != *acomp->knee) { acomp->v_knee = *acomp->knee; acomp->need_expose = true; } if (acomp->v_ratio != *acomp->ratio) { acomp->v_ratio = *acomp->ratio; acomp->need_expose = true; } if (acomp->v_thresdb != *acomp->thresdb) { acomp->v_thresdb = *acomp->thresdb; acomp->need_expose = true; } if (acomp->v_makeup != *acomp->makeup) { acomp->v_makeup = *acomp->makeup; acomp->need_expose = true; } #endif for (i = 0; i < n_samples; i++) { in0 = input0[i]; in1 = input1[i]; ingain = usesidechain ? in1 : in0; Lyg = 0.f; Lxg = (ingain==0.f) ? -160.f : to_dB(fabs(ingain)); Lxg = sanitize_denormal(Lxg); Lyg = Lxg + (1.f/ratio-1.f)*(Lxg-thresdb+width/2.f)*(Lxg-thresdb+width/2.f)/(2.f*width); if (2.f*(Lxg-thresdb) < -width) { Lyg = Lxg; } else { Lyg = thresdb + (Lxg-thresdb)/ratio; Lyg = sanitize_denormal(Lyg); } Lxl = Lxg - Lyg; acomp->old_y1 = sanitize_denormal(acomp->old_y1); acomp->old_yl = sanitize_denormal(acomp->old_yl); Ly1 = fmaxf(Lxl, release_coeff * acomp->old_y1+(1.f-release_coeff)*Lxl); Lyl = attack_coeff * acomp->old_yl+(1.f-attack_coeff)*Ly1; Ly1 = sanitize_denormal(Ly1); Lyl = sanitize_denormal(Lyl); cdb = -Lyl; Lgain = from_dB(cdb); *(acomp->gainr) = Lyl; lgaininp = in0 * Lgain; output[i] = lgaininp * from_dB(*(acomp->makeup)); max = (fabsf(output[i]) > max) ? fabsf(output[i]) : sanitize_denormal(max); acomp->old_yl = Lyl; acomp->old_y1 = Ly1; acomp->old_yg = Lyg; } *(acomp->outlevel) = (max == 0.f) ? -45.f : to_dB(max); #ifdef LV2_EXTENDED if (acomp->need_expose && acomp->queue_draw) { acomp->need_expose = false; acomp->queue_draw->queue_draw (acomp->queue_draw->handle); } #endif } static void deactivate(LV2_Handle instance) { activate(instance); } static void cleanup(LV2_Handle instance) { #ifdef LV2_EXTENDED AComp* acomp = (AComp*)instance; if (acomp->display) { cairo_surface_destroy (acomp->display); } #endif free(instance); } #ifndef MIN #define MIN(A,B) ((A) < (B)) ? (A) : (B) #endif #ifdef LV2_EXTENDED static float comp_curve (AComp* self, float in) { const float knee = self->v_knee; const float ratio = self->v_ratio; const float makeup = self->v_makeup; const float thresdb = self->v_thresdb; const float width = 6.f * knee + 0.01f; float xg, yg; yg = 0.f; xg = (in == 0.f) ? -160.f : to_dB (fabs (in)); if (2.f * (xg - thresdb) < -width) { yg = xg; } else if (2.f * fabs (xg - thresdb) <= width) { yg = xg + (1.f / ratio - 1.f ) * (xg - thresdb + width / 2.f) * (xg - thresdb + width / 2.f) / (2.f * width); } else if (2.f * (xg - thresdb) > width) { yg = thresdb + (xg - thresdb) / ratio; } return yg + makeup; } static LV2_Inline_Display_Image_Surface * render_inline (LV2_Handle instance, uint32_t w, uint32_t max_h) { AComp* self = (AComp*)instance; uint32_t h = MIN (ceilf (w * 9.f/16.f), max_h); if (!self->display || self->w != w || self->h != h) { if (self->display) cairo_surface_destroy(self->display); self->display = cairo_image_surface_create (CAIRO_FORMAT_ARGB32, w, h); self->w = w; self->h = h; } cairo_t* cr = cairo_create (self->display); // clear background cairo_rectangle (cr, 0, 0, w, h); cairo_set_source_rgba (cr, .2, .2, .2, 1.0); cairo_fill (cr); // TODO draw grid. cairo_set_source_rgba (cr, .8, .8, .8, 1.0); cairo_set_line_width(cr, 1.0); cairo_move_to (cr, 0, 0); for (uint32_t x = 0; x < w; ++x) { // TODO proper range.. float v = x / (float)w; float y_db = comp_curve (self, v); float y = h - h * from_dB (y_db); cairo_line_to (cr, x, y); } cairo_stroke (cr); // create RGBA surface cairo_destroy (cr); cairo_surface_flush (self->display); self->surf.width = cairo_image_surface_get_width (self->display); self->surf.height = cairo_image_surface_get_height (self->display); self->surf.stride = cairo_image_surface_get_stride (self->display); self->surf.data = cairo_image_surface_get_data (self->display); return &self->surf; } #endif static const void* extension_data(const char* uri) { static const LV2_Inline_Display_Interface display = { render_inline }; if (!strcmp(uri, LV2_INLINEDISPLAY__interface)) { return &display; } return NULL; } static const LV2_Descriptor descriptor = { ACOMP_URI, instantiate, connect_port, activate, run, deactivate, cleanup, extension_data }; LV2_SYMBOL_EXPORT const LV2_Descriptor* lv2_descriptor(uint32_t index) { switch (index) { case 0: return &descriptor; default: return NULL; } }