diff options
author | Damien Zammit <damien@zamaudio.com> | 2016-07-15 01:53:32 +1000 |
---|---|---|
committer | Damien Zammit <damien@zamaudio.com> | 2016-07-15 01:54:50 +1000 |
commit | fdfff818509cb8e7b7753cf40336cb3d112b4e7c (patch) | |
tree | f0d15703f5890bfc114091535c0fc7a6386815fd /libs/plugins/a-eq.lv2/a-eq.c | |
parent | d8a97789c10c8fb264b5c31ed1334471bbda1772 (diff) |
a-EQ: Remove LPF/HPF completely from this plugin
Diffstat (limited to 'libs/plugins/a-eq.lv2/a-eq.c')
-rw-r--r-- | libs/plugins/a-eq.lv2/a-eq.c | 130 |
1 files changed, 8 insertions, 122 deletions
diff --git a/libs/plugins/a-eq.lv2/a-eq.c b/libs/plugins/a-eq.lv2/a-eq.c index 8083d4742d..380e1ba3e5 100644 --- a/libs/plugins/a-eq.lv2/a-eq.c +++ b/libs/plugins/a-eq.lv2/a-eq.c @@ -39,8 +39,7 @@ #endif typedef enum { - AEQ_SHELFTOGL = 0, - AEQ_FREQL, + AEQ_FREQL = 0, AEQ_GAINL, AEQ_FREQ1, AEQ_GAIN1, @@ -54,7 +53,6 @@ typedef enum { AEQ_FREQ4, AEQ_GAIN4, AEQ_BW4, - AEQ_SHELFTOGH, AEQ_FREQH, AEQ_GAINH, AEQ_MASTER, @@ -96,8 +94,6 @@ static void linear_svf_reset(struct linear_svf *self) } typedef struct { - float* shelftogl; - float* shelftogh; float* f0[BANDS]; float* g[BANDS]; float* bw[BANDS]; @@ -114,8 +110,6 @@ typedef struct { float v_bw[BANDS]; float v_f0[BANDS]; float v_filtog[BANDS]; - float v_shelftogl; - float v_shelftogh; float v_master; bool need_expose; @@ -164,9 +158,6 @@ connect_port(LV2_Handle instance, Aeq* aeq = (Aeq*)instance; switch ((PortIndex)port) { - case AEQ_SHELFTOGL: - aeq->shelftogl = (float*)data; - break; case AEQ_FREQL: aeq->f0[0] = (float*)data; break; @@ -209,9 +200,6 @@ connect_port(LV2_Handle instance, case AEQ_BW4: aeq->bw[4] = (float*)data; break; - case AEQ_SHELFTOGH: - aeq->shelftogh = (float*)data; - break; case AEQ_FREQH: aeq->f0[5] = (float*)data; break; @@ -261,42 +249,6 @@ activate(LV2_Handle instance) // SVF filters // http://www.cytomic.com/files/dsp/SvfLinearTrapOptimised2.pdf -static void linear_svf_set_hp(struct linear_svf *self, float sample_rate, float cutoff, float resonance) -{ - double f0 = (double)cutoff; - double q = (double)resonance; - double sr = (double)sample_rate; - - self->g = tan(M_PI * (f0 / sr)); - self->k = 1.0 / q; - - self->a[0] = 1.0 / (1.0 + self->g * (self->g + self->k)); - self->a[1] = self->g * self->a[0]; - self->a[2] = self->g * self->a[1]; - - self->m[0] = 1.0; - self->m[1] = -self->k; - self->m[2] = -1.0; -} - -static void linear_svf_set_lp(struct linear_svf *self, float sample_rate, float cutoff, float resonance) -{ - double f0 = (double)cutoff; - double q = (double)resonance; - double sr = (double)sample_rate; - - self->g = tan(M_PI * (f0 / sr)); - self->k = 1.0 / q; - - self->a[0] = 1.0 / (1.0 + self->g * (self->g + self->k)); - self->a[1] = self->g * self->a[0]; - self->a[2] = self->g * self->a[1]; - - self->m[0] = 0.0; - self->m[1] = 0.0; - self->m[2] = 1.0; -} - static void linear_svf_set_peq(struct linear_svf *self, float gdb, float sample_rate, float cutoff, float bandwidth) { double f0 = (double)cutoff; @@ -379,11 +331,7 @@ static void set_params(LV2_Handle instance, int band) { switch (band) { case 0: - if (aeq->v_shelftogl > 0.5) { - linear_svf_set_lowshelf(&aeq->v_filter[0], aeq->v_g[0], aeq->srate, aeq->v_f0[0], 0.7071068); - } else { - linear_svf_set_hp(&aeq->v_filter[0], aeq->srate, aeq->v_f0[0], 0.7071068); - } + linear_svf_set_lowshelf(&aeq->v_filter[0], aeq->v_g[0], aeq->srate, aeq->v_f0[0], 0.7071068); break; case 1: case 2: @@ -392,11 +340,7 @@ static void set_params(LV2_Handle instance, int band) { linear_svf_set_peq(&aeq->v_filter[band], aeq->v_g[band], aeq->srate, aeq->v_f0[band], aeq->v_bw[band]); break; case 5: - if (aeq->v_shelftogh > 0.5) { - linear_svf_set_highshelf(&aeq->v_filter[5], aeq->v_g[5], aeq->srate, aeq->v_f0[5], 0.7071068); - } else { - linear_svf_set_lp(&aeq->v_filter[5], aeq->srate, aeq->v_f0[5], 0.7071068); - } + linear_svf_set_highshelf(&aeq->v_filter[5], aeq->v_g[5], aeq->srate, aeq->v_f0[5], 0.7071068); break; } } @@ -447,14 +391,6 @@ run(LV2_Handle instance, uint32_t n_samples) aeq->v_bw[i] += tau * (*aeq->bw[i] - aeq->v_bw[i]); aeq->need_expose = true; } - if (!is_eq(aeq->v_shelftogl, *aeq->shelftogl)) { - aeq->v_shelftogl = *(aeq->shelftogl); - aeq->need_expose = true; - } - if (!is_eq(aeq->v_shelftogh, *aeq->shelftogh)) { - aeq->v_shelftogh = *(aeq->shelftogh); - aeq->need_expose = true; - } if (!is_eq(aeq->v_master, *aeq->master)) { aeq->v_master = *(aeq->master); aeq->need_expose = true; @@ -491,38 +427,6 @@ calc_peq(Aeq* self, int i, double omega) { } static double -calc_lowpass(Aeq* self, double omega) { - double complex H = 0.0; - double complex z = cexp(I * omega); - double complex zz = cexp(2. * I * omega); - double complex zm = z - 1.0; - double complex zp = z + 1.0; - double complex zzm = zz - 1.0; - - double g = self->v_filter[5].g; - double k = self->v_filter[5].k; - - H = (g*g*zp*zp) / (zm*zm + g*g*zp*zp + g*k*zzm); - return cabs(H); -} - -static double -calc_highpass(Aeq* self, double omega) { - double complex H = 0.0; - double complex z = cexp(I * omega); - double complex zz = cexp(2. * I * omega); - double complex zm = z - 1.0; - double complex zp = z + 1.0; - double complex zzm = zz - 1.0; - - double g = self->v_filter[0].g; - double k = self->v_filter[0].k; - - H = zm*zm / (zm*zm + g*g*zp*zp + g*k*zzm); - return cabs(H); -} - -static double calc_lowshelf(Aeq* self, double omega) { double complex H = 0.0; double complex z = cexp(I * omega); @@ -569,35 +473,17 @@ eq_curve (Aeq* self, float f) { double SR = (double)self->srate; double omega = f * 2. * M_PI / SR; - // low - if (self->v_shelftogl) { - // lowshelf - response *= calc_lowshelf(self, omega); - } else { - // hp: - response *= calc_highpass(self, omega); - } + // lowshelf + response *= calc_lowshelf(self, omega); - // peq1: + // peq 1 - 4: response *= calc_peq(self, 1, omega); - - // peq2: response *= calc_peq(self, 2, omega); - - // peq3: response *= calc_peq(self, 3, omega); - - // peq4: response *= calc_peq(self, 4, omega); - // high - if (self->v_shelftogh) { - // highshelf: - response *= calc_highshelf(self, omega); - } else { - // lp: - response *= calc_lowpass(self, omega); - } + // highshelf: + response *= calc_highshelf(self, omega); return (float)response; } |