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ix!();
use crate::*;
impl SurgeSuperOscillator {
pub fn update_lagvals(&mut self, is_init: bool) {
macro_rules! sso_param {
($x:ident) => {
self.params[SSOParam::$x]
}
}
let shape = pvalf![sso_param![Shape]];
let pw = pvalf![sso_param![Width]];
let pw2 = pvalf![sso_param![SubWidth]];
let sub = pvalf![sso_param![SubLevel]];
let sync = pvalf![sso_param![SyncPitch]];
self.l_sync.new_value(maxf(0.0, sync));
self.l_pw.new_value(limit_range(pw, 0.001, 0.999));
self.l_pw2.new_value(limit_range(pw2, 0.001, 0.999));
self.l_shape.new_value(limit_range(shape, -1.0, 1.0));
self.l_sub.new_value(limit_range(sub, 0.0, 1.0));
let pp: f64 = self.tuner.n2p_tuningctr( (self.pitch + self.l_sync.v) as f64 );
let invt: f32 = 4.0 * (
mind(1.0_f64,
8.175798915_f64 * pp * self.srunit.dsamplerate_os_inv()
) as f32
);
let hpf2: f32 = minf(SSO_INTEGRATOR_HPF, SSO_HPF_CYCLE_LOSS.powf(invt));
self.li_hpf.set_target(hpf2);
if is_init {
self.l_pw.instantize();
self.l_pw2.instantize();
self.l_shape.instantize();
self.l_sub.instantize();
self.l_sync.instantize();
self.li_dc.instantize();
self.li_hpf.instantize();
self.li_integratormult.instantize();
}
}
}