ref: fea33a2fc4eca3b9a84ec8c549f37ad99a55c2ef
dir: /dsp/kick_drum.c/
/* ------------------------------------------------------------ name: "Kick Drum" Code generated with Faust 2.23.10 (https://faust.grame.fr) Compilation options: -lang c -scal -ftz 0 ------------------------------------------------------------ */ #ifndef __KickDrum_H__ #define __KickDrum_H__ /* KickDrum Plan 9 C architecture for Faust. */ #include <u.h> #include <libc.h> #include "uiglue.h" #define max(x,y) (((x) > (y)) ? (x) : (y)) #define min(x,y) (((x) < (y)) ? (x) : (y)) #ifndef FAUSTFLOAT #define FAUSTFLOAT float #endif #ifdef __cplusplus extern "C" { #endif #include <math.h> #include <stdlib.h> typedef struct { int iRec0[2]; } KickDrumSIG0; static KickDrumSIG0* newKickDrumSIG0(void) { return (KickDrumSIG0*)calloc(1, sizeof(KickDrumSIG0)); } static void deleteKickDrumSIG0(KickDrumSIG0* dsp) { USED(dsp); free(dsp); } int getNumInputsKickDrumSIG0(KickDrumSIG0* dsp) { USED(dsp); return 0; } int getNumOutputsKickDrumSIG0(KickDrumSIG0* dsp) { USED(dsp); return 1; } int getInputRateKickDrumSIG0(KickDrumSIG0* dsp, int channel) { USED(dsp); int rate; switch ((channel)) { default: { rate = -1; break; } } return rate; } int getOutputRateKickDrumSIG0(KickDrumSIG0* dsp, int channel) { USED(dsp); int rate; switch ((channel)) { case 0: { rate = 0; break; } default: { rate = -1; break; } } return rate; } static void instanceInitKickDrumSIG0(KickDrumSIG0* dsp, int sample_rate) { USED(sample_rate); USED(dsp); /* C99 loop */ { int l0; for (l0 = 0; (l0 < 2); l0 = (l0 + 1)) { dsp->iRec0[l0] = 0; } } } static void fillKickDrumSIG0(KickDrumSIG0* dsp, int count, float* table) { USED(dsp); /* C99 loop */ { int i; for (i = 0; (i < count); i = (i + 1)) { dsp->iRec0[0] = (dsp->iRec0[1] + 1); table[i] = sinf((9.58738019e-05f * (float)(dsp->iRec0[0] + -1))); dsp->iRec0[1] = dsp->iRec0[0]; } } } static float ftbl0KickDrumSIG0[65536]; #ifndef FAUSTCLASS #define FAUSTCLASS KickDrum #endif #ifdef __APPLE__ #define exp10f __exp10f #define exp10 __exp10 #endif typedef struct { FAUSTFLOAT fHslider0; int fSampleRate; float fConst0; float fConst1; FAUSTFLOAT fHslider1; FAUSTFLOAT fCheckbox0; FAUSTFLOAT fHslider2; FAUSTFLOAT fHslider3; FAUSTFLOAT fButton0; float fVec0[2]; int iRec2[2]; FAUSTFLOAT fHslider4; float fRec1[2]; FAUSTFLOAT fHslider5; FAUSTFLOAT fHslider6; } KickDrum; KickDrum* newKickDrum(void) { KickDrum* dsp = (KickDrum*)calloc(1, sizeof(KickDrum)); return dsp; } void deleteKickDrum(KickDrum* dsp) { USED(dsp); free(dsp); } void metadataKickDrum(MetaGlue* m) { m->declare(m->metaInterface, "basics.lib/name", "Faust Basic Element Library"); m->declare(m->metaInterface, "basics.lib/version", "0.1"); m->declare(m->metaInterface, "envelopes.lib/ar:author", "Yann Orlarey, Stéphane Letz"); m->declare(m->metaInterface, "envelopes.lib/author", "GRAME"); m->declare(m->metaInterface, "envelopes.lib/copyright", "GRAME"); m->declare(m->metaInterface, "envelopes.lib/license", "LGPL with exception"); m->declare(m->metaInterface, "envelopes.lib/name", "Faust Envelope Library"); m->declare(m->metaInterface, "envelopes.lib/version", "0.1"); m->declare(m->metaInterface, "filename", "kick_drum.dsp"); m->declare(m->metaInterface, "group", "Synthesis"); m->declare(m->metaInterface, "maths.lib/author", "GRAME"); m->declare(m->metaInterface, "maths.lib/copyright", "GRAME"); m->declare(m->metaInterface, "maths.lib/license", "LGPL with exception"); m->declare(m->metaInterface, "maths.lib/name", "Faust Math Library"); m->declare(m->metaInterface, "maths.lib/version", "2.3"); m->declare(m->metaInterface, "name", "Kick Drum"); m->declare(m->metaInterface, "oscillators.lib/name", "Faust Oscillator Library"); m->declare(m->metaInterface, "oscillators.lib/version", "0.1"); m->declare(m->metaInterface, "platform.lib/name", "Generic Platform Library"); m->declare(m->metaInterface, "platform.lib/version", "0.1"); } int getSampleRateKickDrum(KickDrum* dsp) { USED(dsp); return dsp->fSampleRate; } int getNumInputsKickDrum(KickDrum* dsp) { USED(dsp); return 0; } int getNumOutputsKickDrum(KickDrum* dsp) { USED(dsp); return 1; } int getInputRateKickDrum(KickDrum* dsp, int channel) { USED(dsp); int rate; switch ((channel)) { default: { rate = -1; break; } } return rate; } int getOutputRateKickDrum(KickDrum* dsp, int channel) { USED(dsp); int rate; switch ((channel)) { case 0: { rate = 1; break; } default: { rate = -1; break; } } return rate; } void classInitKickDrum(int sample_rate) { USED(sample_rate); KickDrumSIG0* sig0 = newKickDrumSIG0(); instanceInitKickDrumSIG0(sig0, sample_rate); fillKickDrumSIG0(sig0, 65536, ftbl0KickDrumSIG0); deleteKickDrumSIG0(sig0); } void instanceResetUserInterfaceKickDrum(KickDrum* dsp) { USED(dsp); dsp->fHslider0 = (FAUSTFLOAT)1.0f; dsp->fHslider1 = (FAUSTFLOAT)100.0f; dsp->fCheckbox0 = (FAUSTFLOAT)0.0f; dsp->fHslider2 = (FAUSTFLOAT)-5.0f; dsp->fHslider3 = (FAUSTFLOAT)0.001f; dsp->fButton0 = (FAUSTFLOAT)0.0f; dsp->fHslider4 = (FAUSTFLOAT)0.001f; dsp->fHslider5 = (FAUSTFLOAT)0.001f; dsp->fHslider6 = (FAUSTFLOAT)0.001f; } void instanceClearKickDrum(KickDrum* dsp) { USED(dsp); /* C99 loop */ { int l1; for (l1 = 0; (l1 < 2); l1 = (l1 + 1)) { dsp->fVec0[l1] = 0.0f; } } /* C99 loop */ { int l2; for (l2 = 0; (l2 < 2); l2 = (l2 + 1)) { dsp->iRec2[l2] = 0; } } /* C99 loop */ { int l3; for (l3 = 0; (l3 < 2); l3 = (l3 + 1)) { dsp->fRec1[l3] = 0.0f; } } } void instanceConstantsKickDrum(KickDrum* dsp, int sample_rate) { USED(sample_rate); USED(dsp); dsp->fSampleRate = sample_rate; dsp->fConst0 = fminf(192000.0f, fmaxf(1.0f, (float)dsp->fSampleRate)); dsp->fConst1 = (1.0f / dsp->fConst0); } void instanceInitKickDrum(KickDrum* dsp, int sample_rate) { USED(sample_rate); USED(dsp); instanceConstantsKickDrum(dsp, sample_rate); instanceResetUserInterfaceKickDrum(dsp); instanceClearKickDrum(dsp); } void initKickDrum(KickDrum* dsp, int sample_rate) { USED(sample_rate); USED(dsp); classInitKickDrum(sample_rate); instanceInitKickDrum(dsp, sample_rate); } void buildUserInterfaceKickDrum(KickDrum* dsp, UIGlue* ui_interface) { USED(dsp); ui_interface->openVerticalBox(ui_interface->uiInterface, "Kick Drum"); ui_interface->openVerticalBox(ui_interface->uiInterface, "A"); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider1, "0", ""); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider1, "unit", "Hz"); ui_interface->addHorizontalSlider(ui_interface->uiInterface, "Frequency", &dsp->fHslider1, 100.0f, 5.0f, 200.0f, 1.0f); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider5, "1", ""); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider5, "unit", "s"); ui_interface->addHorizontalSlider(ui_interface->uiInterface, "Attack", &dsp->fHslider5, 0.00100000005f, 9.99999975e-06f, 0.200000003f, 0.00100000005f); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider6, "3", ""); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider6, "unit", "s"); ui_interface->addHorizontalSlider(ui_interface->uiInterface, "Release", &dsp->fHslider6, 0.00100000005f, 9.99999975e-06f, 1.0f, 0.00100000005f); ui_interface->closeBox(ui_interface->uiInterface); ui_interface->openVerticalBox(ui_interface->uiInterface, "B"); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider2, "0", ""); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider2, "unit", "Hz"); ui_interface->addHorizontalSlider(ui_interface->uiInterface, "Frequency", &dsp->fHslider2, -5.0f, -200.0f, 200.0f, 1.0f); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider3, "1", ""); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider3, "unit", "s"); ui_interface->addHorizontalSlider(ui_interface->uiInterface, "Attack", &dsp->fHslider3, 0.00100000005f, 9.99999975e-06f, 0.200000003f, 0.00100000005f); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider4, "2", ""); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider4, "unit", "s"); ui_interface->addHorizontalSlider(ui_interface->uiInterface, "Release", &dsp->fHslider4, 0.00100000005f, 9.99999975e-06f, 1.0f, 0.00100000005f); ui_interface->declare(ui_interface->uiInterface, &dsp->fCheckbox0, "3", ""); ui_interface->addCheckButton(ui_interface->uiInterface, "Enable", &dsp->fCheckbox0); ui_interface->closeBox(ui_interface->uiInterface); ui_interface->openVerticalBox(ui_interface->uiInterface, "Control"); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider0, "0", ""); ui_interface->declare(ui_interface->uiInterface, &dsp->fHslider0, "style", "knob"); ui_interface->addHorizontalSlider(ui_interface->uiInterface, "Gain", &dsp->fHslider0, 1.0f, 0.0f, 1.0f, 0.00999999978f); ui_interface->declare(ui_interface->uiInterface, &dsp->fButton0, "1", ""); ui_interface->declare(ui_interface->uiInterface, &dsp->fButton0, "autovoice", ""); ui_interface->declare(ui_interface->uiInterface, &dsp->fButton0, "crossvoice", ""); ui_interface->addButton(ui_interface->uiInterface, "Gate", &dsp->fButton0); ui_interface->closeBox(ui_interface->uiInterface); ui_interface->closeBox(ui_interface->uiInterface); } void computeKickDrum(KickDrum* dsp, int count, FAUSTFLOAT** inputs, FAUSTFLOAT** outputs) { USED(inputs); USED(dsp); FAUSTFLOAT* output0 = outputs[0]; float fSlow0 = (float)dsp->fHslider0; float fSlow1 = (float)dsp->fHslider1; float fSlow2 = ((float)dsp->fCheckbox0 * (float)dsp->fHslider2); float fSlow3 = fmaxf(1.0f, (dsp->fConst0 * (float)dsp->fHslider3)); float fSlow4 = (1.0f / fSlow3); float fSlow5 = (float)dsp->fButton0; float fSlow6 = (1.0f / fmaxf(1.0f, (dsp->fConst0 * (float)dsp->fHslider4))); float fSlow7 = fmaxf(1.0f, (dsp->fConst0 * (float)dsp->fHslider5)); float fSlow8 = (1.0f / fSlow7); float fSlow9 = (1.0f / fmaxf(1.0f, (dsp->fConst0 * (float)dsp->fHslider6))); /* C99 loop */ { int i; for (i = 0; (i < count); i = (i + 1)) { dsp->fVec0[0] = fSlow5; dsp->iRec2[0] = ((fSlow5 > dsp->fVec0[1]) + ((fSlow5 <= dsp->fVec0[1]) * (dsp->iRec2[1] + (dsp->iRec2[1] > 0)))); float fTemp0 = (float)dsp->iRec2[0]; float fTemp1 = (dsp->fConst1 * (fSlow1 + (fSlow2 * fmaxf(0.0f, fminf((fSlow4 * fTemp0), (1.0f - (fSlow6 * (fTemp0 - fSlow3)))))))); float fTemp2 = (fSlow5 - dsp->fVec0[1]); float fTemp3 = (dsp->fRec1[1] * ((float)((fTemp2 * (float)(fTemp2 > 0.0f)) > 0.0f) + -1.0f)); dsp->fRec1[0] = (fTemp1 - (fTemp3 + floorf((fTemp1 - fTemp3)))); output0[i] = (FAUSTFLOAT)(fSlow0 * (ftbl0KickDrumSIG0[(int)(65536.0f * dsp->fRec1[0])] * fmaxf(0.0f, fminf((fSlow8 * fTemp0), ((fSlow9 * (fSlow7 - fTemp0)) + 1.0f))))); dsp->fVec0[1] = dsp->fVec0[0]; dsp->iRec2[1] = dsp->iRec2[0]; dsp->fRec1[1] = dsp->fRec1[0]; } } } #ifdef __cplusplus } #endif static KickDrum *cloneKickDrum(KickDrum *dsp) { return memmove(newKickDrum(), dsp, sizeof(*dsp)); } static void *stateKickDrum(KickDrum *dsp, int *sz) { *sz = sizeof(*dsp); return dsp; } #define DSP KickDrum #include "dspf.h" static DSPf dspf = { .new = newKickDrum, .clone = cloneKickDrum, .state = stateKickDrum, .init = instanceInitKickDrum, .delete = deleteKickDrum, .metadata = metadataKickDrum, .num_in = getNumInputsKickDrum, .num_out = getNumOutputsKickDrum, .clear = instanceClearKickDrum, .reset_ui = instanceResetUserInterfaceKickDrum, .build_ui = buildUserInterfaceKickDrum, .compute = computeKickDrum, }; void * class_init(int rate) { classInitKickDrum(rate); return &dspf; } #endif