651 lines
15 KiB
C
651 lines
15 KiB
C
/* a-eq
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* Copyright (C) 2016 Damien Zammit <damien@zamaudio.com>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*/
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#ifndef _GNU_SOURCE
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#define _GNU_SOURCE // needed for M_PI
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#endif
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#include <math.h>
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#include <complex.h>
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#include <stdlib.h>
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#include <string.h>
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#include <stdbool.h>
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#include <stdio.h>
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#include "lv2/lv2plug.in/ns/lv2core/lv2.h"
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#ifdef LV2_EXTENDED
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#include <cairo/cairo.h>
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#include "ardour/lv2_extensions.h"
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#endif
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#define AEQ_URI "urn:ardour:a-eq"
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#define BANDS 6
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#ifndef MIN
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#define MIN(A,B) ((A) < (B)) ? (A) : (B)
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#endif
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typedef enum {
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AEQ_SHELFTOGL = 0,
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AEQ_FREQL,
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AEQ_GAINL,
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AEQ_FREQ1,
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AEQ_GAIN1,
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AEQ_BW1,
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AEQ_FREQ2,
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AEQ_GAIN2,
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AEQ_BW2,
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AEQ_FREQ3,
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AEQ_GAIN3,
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AEQ_BW3,
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AEQ_FREQ4,
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AEQ_GAIN4,
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AEQ_BW4,
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AEQ_SHELFTOGH,
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AEQ_FREQH,
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AEQ_GAINH,
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AEQ_MASTER,
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AEQ_FILTOGL,
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AEQ_FILTOG1,
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AEQ_FILTOG2,
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AEQ_FILTOG3,
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AEQ_FILTOG4,
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AEQ_FILTOGH,
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AEQ_INPUT,
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AEQ_OUTPUT,
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} PortIndex;
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static inline float
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to_dB(float g) {
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return (20.f*log10(g));
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}
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static inline float
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from_dB(float gdb) {
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return (exp(gdb/20.f*log(10.f)));
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}
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struct linear_svf {
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double g, k;
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double a[3];
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double m[3];
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double s[2];
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};
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static void linear_svf_reset(struct linear_svf *self)
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{
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self->s[0] = self->s[1] = 0.0;
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}
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typedef struct {
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float* shelftogl;
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float* shelftogh;
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float* f0[BANDS];
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float* g[BANDS];
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float* bw[BANDS];
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float* filtog[BANDS];
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float* master;
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float srate;
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float* input;
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float* output;
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struct linear_svf v_filter[BANDS];
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float v_g[BANDS];
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float v_bw[BANDS];
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float v_f0[BANDS];
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float v_filtog[BANDS];
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float v_shelftogl;
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float v_shelftogh;
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float v_master;
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bool need_expose;
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#ifdef LV2_EXTENDED
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LV2_Inline_Display_Image_Surface surf;
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cairo_surface_t* display;
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LV2_Inline_Display* queue_draw;
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uint32_t w, h;
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#endif
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} Aeq;
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static LV2_Handle
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instantiate(const LV2_Descriptor* descriptor,
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double rate,
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const char* bundle_path,
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const LV2_Feature* const* features)
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{
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Aeq* aeq = (Aeq*)malloc(sizeof(Aeq));
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aeq->srate = rate;
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#ifdef LV2_EXTENDED
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for (int i=0; features[i]; ++i) {
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if (!strcmp(features[i]->URI, LV2_INLINEDISPLAY__queue_draw)) {
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aeq->queue_draw = (LV2_Inline_Display*) features[i]->data;
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}
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}
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#endif
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for (int i = 0; i < BANDS; i++)
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linear_svf_reset(&aeq->v_filter[i]);
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aeq->need_expose = true;
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#ifdef LV2_EXTENDED
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aeq->display = NULL;
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#endif
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return (LV2_Handle)aeq;
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}
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static void
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connect_port(LV2_Handle instance,
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uint32_t port,
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void* data)
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{
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Aeq* aeq = (Aeq*)instance;
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switch ((PortIndex)port) {
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case AEQ_SHELFTOGL:
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aeq->shelftogl = (float*)data;
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break;
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case AEQ_FREQL:
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aeq->f0[0] = (float*)data;
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break;
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case AEQ_GAINL:
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aeq->g[0] = (float*)data;
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break;
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case AEQ_FREQ1:
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aeq->f0[1] = (float*)data;
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break;
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case AEQ_GAIN1:
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aeq->g[1] = (float*)data;
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break;
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case AEQ_BW1:
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aeq->bw[1] = (float*)data;
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break;
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case AEQ_FREQ2:
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aeq->f0[2] = (float*)data;
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break;
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case AEQ_GAIN2:
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aeq->g[2] = (float*)data;
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break;
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case AEQ_BW2:
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aeq->bw[2] = (float*)data;
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break;
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case AEQ_FREQ3:
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aeq->f0[3] = (float*)data;
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break;
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case AEQ_GAIN3:
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aeq->g[3] = (float*)data;
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break;
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case AEQ_BW3:
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aeq->bw[3] = (float*)data;
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break;
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case AEQ_FREQ4:
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aeq->f0[4] = (float*)data;
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break;
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case AEQ_GAIN4:
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aeq->g[4] = (float*)data;
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break;
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case AEQ_BW4:
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aeq->bw[4] = (float*)data;
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break;
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case AEQ_SHELFTOGH:
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aeq->shelftogh = (float*)data;
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break;
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case AEQ_FREQH:
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aeq->f0[5] = (float*)data;
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break;
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case AEQ_GAINH:
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aeq->g[5] = (float*)data;
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break;
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case AEQ_MASTER:
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aeq->master = (float*)data;
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break;
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case AEQ_FILTOGL:
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aeq->filtog[0] = (float*)data;
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break;
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case AEQ_FILTOG1:
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aeq->filtog[1] = (float*)data;
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break;
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case AEQ_FILTOG2:
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aeq->filtog[2] = (float*)data;
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break;
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case AEQ_FILTOG3:
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aeq->filtog[3] = (float*)data;
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break;
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case AEQ_FILTOG4:
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aeq->filtog[4] = (float*)data;
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break;
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case AEQ_FILTOGH:
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aeq->filtog[5] = (float*)data;
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break;
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case AEQ_INPUT:
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aeq->input = (float*)data;
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break;
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case AEQ_OUTPUT:
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aeq->output = (float*)data;
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break;
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}
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}
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static void
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activate(LV2_Handle instance)
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{
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int i;
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Aeq* aeq = (Aeq*)instance;
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for (i = 0; i < BANDS; i++)
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linear_svf_reset(&aeq->v_filter[i]);
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}
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// SVF filters
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// http://www.cytomic.com/files/dsp/SvfLinearTrapOptimised2.pdf
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static void linear_svf_set_hp(struct linear_svf *self, float sample_rate, float cutoff, float resonance)
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{
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double f0 = (double)cutoff;
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double q = (double)resonance;
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double sr = (double)sample_rate;
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self->g = tan(M_PI * (f0 / sr));
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self->k = 1.0 / q;
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self->a[0] = 1.0 / (1.0 + self->g * (self->g + self->k));
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self->a[1] = self->g * self->a[0];
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self->a[2] = self->g * self->a[1];
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self->m[0] = 1.0;
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self->m[1] = -self->k;
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self->m[2] = -1.0;
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}
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static void linear_svf_set_lp(struct linear_svf *self, float sample_rate, float cutoff, float resonance)
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{
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double f0 = (double)cutoff;
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double q = (double)resonance;
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double sr = (double)sample_rate;
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self->g = tan(M_PI * (f0 / sr));
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self->k = 1.0 / q;
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self->a[0] = 1.0 / (1.0 + self->g * (self->g + self->k));
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self->a[1] = self->g * self->a[0];
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self->a[2] = self->g * self->a[1];
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self->m[0] = 0.0;
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self->m[1] = 0.0;
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self->m[2] = 1.0;
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}
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static void linear_svf_set_peq(struct linear_svf *self, float gdb, float sample_rate, float cutoff, float bandwidth)
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{
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double f0 = (double)cutoff;
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double q = (double)pow(2.0, 1.0 / bandwidth) / (pow(2.0, bandwidth) - 1.0);
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double sr = (double)sample_rate;
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double A = pow(10.0, gdb/40.0);
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self->g = tan(M_PI * (f0 / sr));
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self->k = 1.0 / (q * A);
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self->a[0] = 1.0 / (1.0 + self->g * (self->g + self->k));
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self->a[1] = self->g * self->a[0];
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self->a[2] = self->g * self->a[1];
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self->m[0] = 1.0;
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self->m[1] = self->k * (A * A - 1.0);
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self->m[2] = 0.0;
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}
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static void linear_svf_set_highshelf(struct linear_svf *self, float gdb, float sample_rate, float cutoff, float resonance)
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{
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double f0 = (double)cutoff;
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double q = (double)resonance;
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double sr = (double)sample_rate;
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double A = pow(10.0, gdb/40.0);
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self->g = tan(M_PI * (f0 / sr));
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self->k = 1.0 / q;
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self->a[0] = 1.0 / (1.0 + self->g * (self->g + self->k));
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self->a[1] = self->g * self->a[0];
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self->a[2] = self->g * self->a[1];
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self->m[0] = A * A;
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self->m[1] = self->k * (1.0 - A) * A;
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self->m[2] = 1.0 - A * A;
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}
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static void linear_svf_set_lowshelf(struct linear_svf *self, float gdb, float sample_rate, float cutoff, float resonance)
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{
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double f0 = (double)cutoff;
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double q = (double)resonance;
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double sr = (double)sample_rate;
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double A = pow(10.0, gdb/40.0);
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self->g = tan(M_PI * (f0 / sr));
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self->k = 1.0 / q;
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self->a[0] = 1.0 / (1.0 + self->g * (self->g + self->k));
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self->a[1] = self->g * self->a[0];
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self->a[2] = self->g * self->a[1];
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self->m[0] = 1.0;
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self->m[1] = self->k * (A - 1.0);
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self->m[2] = A * A - 1.0;
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}
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static float run_linear_svf(struct linear_svf *self, float in)
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{
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double v[3];
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double din = (double)in;
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double out;
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v[2] = din - self->s[1];
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v[0] = (self->a[0] * self->s[0]) + (self->a[1] * v[2]);
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v[1] = self->s[1] + (self->a[1] * self->s[0]) + (self->a[2] * v[2]);
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self->s[0] = (2.0 * v[0]) - self->s[0];
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self->s[1] = (2.0 * v[1]) - self->s[1];
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out = (self->m[0] * din)
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+ (self->m[1] * v[0])
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+ (self->m[2] * v[1]);
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return (float)out;
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}
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static void
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run(LV2_Handle instance, uint32_t n_samples)
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{
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Aeq* aeq = (Aeq*)instance;
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const float* const input = aeq->input;
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float* const output = aeq->output;
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float srate = aeq->srate;
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float in0, out;
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uint32_t i, j;
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if (*(aeq->shelftogl) > 0.5) {
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linear_svf_set_lowshelf(&aeq->v_filter[0], *(aeq->g[0]), srate, *(aeq->f0[0]), 0.7071068);
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} else {
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linear_svf_set_hp(&aeq->v_filter[0], srate, *(aeq->f0[0]), 0.7071068);
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}
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linear_svf_set_peq(&aeq->v_filter[1], *(aeq->g[1]), srate, *(aeq->f0[1]), *(aeq->bw[1]));
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linear_svf_set_peq(&aeq->v_filter[2], *(aeq->g[2]), srate, *(aeq->f0[2]), *(aeq->bw[2]));
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linear_svf_set_peq(&aeq->v_filter[3], *(aeq->g[3]), srate, *(aeq->f0[3]), *(aeq->bw[3]));
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linear_svf_set_peq(&aeq->v_filter[4], *(aeq->g[4]), srate, *(aeq->f0[4]), *(aeq->bw[4]));
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if (*(aeq->shelftogh) > 0.5) {
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linear_svf_set_highshelf(&aeq->v_filter[5], *(aeq->g[5]), srate, *(aeq->f0[5]), 0.7071068);
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} else {
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linear_svf_set_lp(&aeq->v_filter[5], srate, *(aeq->f0[5]), 0.7071068);
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}
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for (i = 0; i < n_samples; i++) {
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in0 = input[i];
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out = in0;
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for (j = 0; j < BANDS; j++) {
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if (*(aeq->filtog[j]) > 0.5)
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out = run_linear_svf(&aeq->v_filter[j], out);
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}
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output[i] = out * from_dB(*(aeq->master));
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}
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for (i = 0; i < BANDS; i++) {
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if (aeq->v_f0[i] != *(aeq->f0[i])) {
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aeq->v_f0[i] = *(aeq->f0[i]);
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aeq->need_expose = true;
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}
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if (aeq->v_g[i] != *(aeq->g[i])) {
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aeq->v_g[i] = *(aeq->g[i]);
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aeq->need_expose = true;
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}
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if (i != 0 && i != 5 && aeq->v_bw[i] != *(aeq->bw[i])) {
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aeq->v_bw[i] = *(aeq->bw[i]);
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aeq->need_expose = true;
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}
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if (aeq->v_filtog[i] != *(aeq->filtog[i])) {
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aeq->v_filtog[i] = *(aeq->filtog[i]);
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aeq->need_expose = true;
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}
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if (aeq->v_shelftogl != *(aeq->shelftogl)) {
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aeq->v_shelftogl = *(aeq->shelftogl);
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aeq->need_expose = true;
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}
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if (aeq->v_shelftogh != *(aeq->shelftogh)) {
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aeq->v_shelftogh = *(aeq->shelftogh);
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aeq->need_expose = true;
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}
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if (aeq->v_master != *(aeq->master)) {
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aeq->v_master = *(aeq->master);
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aeq->need_expose = true;
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}
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}
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#ifdef LV2_EXTENDED
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if (aeq->need_expose && aeq->queue_draw) {
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aeq->need_expose = false;
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aeq->queue_draw->queue_draw (aeq->queue_draw->handle);
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}
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#endif
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}
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#ifdef LV2_EXTENDED
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static float
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eq_curve (Aeq* self, float f) {
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float SR = self->srate;
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double complex H = 1.0;
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double theta = f * 2. * M_PI / SR;
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double complex z = cexp(I * theta);
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double complex zz = cexp(2 * I * theta);
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double complex zm = z - 1.0;
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double complex zp = z + 1.0;
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double complex zzm = zz - 1.0;
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double A;
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double m0, m1, m2, g, k;
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// low
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if (self->v_filtog[0]) {
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A = pow(10.0, self->v_g[0]/40.0);
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m0 = self->v_filter[0].m[0];
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m1 = self->v_filter[0].m[1];
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m2 = self->v_filter[0].m[2];
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g = self->v_filter[0].g;
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k = self->v_filter[0].k;
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if (self->v_shelftogl) {
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// lowshelf
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H *= (A*m0*zm*zm + g*g*(m0+m2)*zp*zp + sqrt(A)*g*(k*m0+m1) * zzm) / (A*zm*zm + g*g*zp*zp + sqrt(A)*g*k*zzm);
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} else {
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// hp:
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H *= zm*zm / (zm*zm + g*g*zp*zp + g*k*zzm);
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}
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}
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// peq1:
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if (self->v_filtog[1]) {
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A = pow(10.0, self->v_g[1]/40.0);
|
|
m1 = self->v_filter[1].m[1] / A;
|
|
g = self->v_filter[1].g;
|
|
k = self->v_filter[1].k;
|
|
H *= (g*k*zzm + A*(g*zp*(m1*zm + g*m2*zp) + (zm*zm + g*g*zp*zp))) / (g*k*zzm + A*(zm*zm + g*g*zp*zp));
|
|
}
|
|
|
|
// peq2:
|
|
if (self->v_filtog[2]) {
|
|
A = pow(10.0, self->v_g[2]/40.0);
|
|
m1 = self->v_filter[2].m[1] / A;
|
|
g = self->v_filter[2].g;
|
|
k = self->v_filter[2].k;
|
|
H *= (g*k*zzm + A*(g*zp*(m1*zm + g*m2*zp) + (zm*zm + g*g*zp*zp))) / (g*k*zzm + A*(zm*zm + g*g*zp*zp));
|
|
}
|
|
|
|
// peq3:
|
|
if (self->v_filtog[3]) {
|
|
A = pow(10.0, self->v_g[3]/40.0);
|
|
m1 = self->v_filter[3].m[1] / A;
|
|
g = self->v_filter[3].g;
|
|
k = self->v_filter[3].k;
|
|
H *= (g*k*zzm + A*(g*zp*(m1*zm + g*m2*zp) + (zm*zm + g*g*zp*zp))) / (g*k*zzm + A*(zm*zm + g*g*zp*zp));
|
|
}
|
|
|
|
// peq4:
|
|
if (self->v_filtog[4]) {
|
|
A = pow(10.0, self->v_g[4]/40.0);
|
|
m1 = self->v_filter[4].m[1] / A;
|
|
g = self->v_filter[4].g;
|
|
k = self->v_filter[4].k;
|
|
H *= (g*k*zzm + A*(g*zp*(m1*zm + g*m2*zp) + (zm*zm + g*g*zp*zp))) / (g*k*zzm + A*(zm*zm + g*g*zp*zp));
|
|
}
|
|
|
|
// high
|
|
if (self->v_filtog[5]) {
|
|
A = pow(10.0, self->v_g[5]/40.0);
|
|
m0 = self->v_filter[5].m[0];
|
|
m1 = self->v_filter[5].m[1];
|
|
m2 = self->v_filter[5].m[2];
|
|
g = self->v_filter[5].g;
|
|
k = self->v_filter[5].k;
|
|
if (self->v_shelftogh) {
|
|
// highshelf:
|
|
H *= ( sqrt(A) * g * zp * (m1 * zm + sqrt(A)*g*m2*zp) + m0 * ( zm*zm + A*g*g*zp*zp + sqrt(A)*g*k*zzm)) / (zm*zm + A*g*g*zp*zp + sqrt(A)*g*k*zzm);
|
|
} else {
|
|
// lp:
|
|
H *= (g*g*zp*zp) / (zm*zm + g*g*zp*zp + g*k*zzm);
|
|
}
|
|
}
|
|
|
|
return cabs(H);
|
|
}
|
|
|
|
static LV2_Inline_Display_Image_Surface *
|
|
render_inline (LV2_Handle instance, uint32_t w, uint32_t max_h)
|
|
{
|
|
Aeq* self = (Aeq*)instance;
|
|
uint32_t h = MIN (w * 9 / 16, 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);
|
|
|
|
cairo_set_line_width(cr, 1.0);
|
|
|
|
// draw grid 5dB steps
|
|
const double dash2[] = {1, 3};
|
|
cairo_save (cr);
|
|
cairo_set_line_cap(cr, CAIRO_LINE_CAP_ROUND);
|
|
cairo_set_dash(cr, dash2, 2, 2);
|
|
cairo_set_source_rgba (cr, 0.5, 0.5, 0.5, 0.5);
|
|
|
|
for (uint32_t d = 1; d < 8; ++d) {
|
|
const float y = -.5 + floorf (h * (d * 5.f / 40.f));
|
|
cairo_move_to (cr, 0, y);
|
|
cairo_line_to (cr, w, y);
|
|
cairo_stroke (cr);
|
|
}
|
|
cairo_restore (cr);
|
|
|
|
|
|
// draw curve
|
|
cairo_set_source_rgba (cr, .8, .8, .8, 1.0);
|
|
cairo_move_to (cr, 0, h);
|
|
|
|
for (uint32_t x = 0; x < w; ++x) {
|
|
// plot 20..20kHz +-20dB
|
|
const float x_hz = 20.f * powf (1000.f, (float)x / (float)w);
|
|
const float y_db = to_dB(eq_curve(self, x_hz)) + self->v_master;
|
|
const float y = h * -y_db / 40.0 + h / 2;
|
|
cairo_line_to (cr, x, y);
|
|
//printf("(hz,H,db)=(%f, %f, %f)\n", x_hz, from_dB(y_db), y_db);
|
|
}
|
|
cairo_stroke_preserve (cr);
|
|
|
|
cairo_line_to (cr, w, h);
|
|
cairo_close_path (cr);
|
|
cairo_clip (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)
|
|
{
|
|
#ifdef LV2_EXTENDED
|
|
static const LV2_Inline_Display_Interface display = { render_inline };
|
|
if (!strcmp(uri, LV2_INLINEDISPLAY__interface)) {
|
|
return &display;
|
|
}
|
|
#endif
|
|
return NULL;
|
|
}
|
|
|
|
static void
|
|
cleanup(LV2_Handle instance)
|
|
{
|
|
#ifdef LV2_EXTENDED
|
|
Aeq* aeq = (Aeq*)instance;
|
|
if (aeq->display) {
|
|
cairo_surface_destroy (aeq->display);
|
|
}
|
|
#endif
|
|
free(instance);
|
|
}
|
|
|
|
static const LV2_Descriptor descriptor = {
|
|
AEQ_URI,
|
|
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;
|
|
}
|
|
}
|