void lp_ladspa_knob_float::emit_changed(double val) { if(val != pv_last_val){ pv_last_val = val; //sp_val->setValue(val); if(pv_is_log == true){ val = pow(10.0, val); //val = exp(val); } emit(val_changed((float)val)); } }
void GxCabinet::run_dsp_mono(uint32_t n_samples) { cur_bufsize = n_samples; if (*(schedule_ok) != schedule_ok_) *(schedule_ok) = schedule_ok_; // run dsp memcpy(output, input, n_samples * sizeof(float)); // run selected cabinet convolver cabconv.run_static(n_samples, &cabconv, output); // work ? if (!atomic_get(schedule_wait) && (val_changed() || buffsize_changed())) { clevel_ = (*clevel); cbass_ = (*cbass); ctreble_ = (*ctreble); c_model_= (*c_model); atomic_set(&schedule_wait,1); schedule->schedule_work(schedule->handle, sizeof(bool), &doit); } }
void lp_ladspa_knob_float::pos_def_val() { set_kb_val(pv_def_val); sp_val->setValue(pv_def_val); emit(val_changed((float)pv_def_val)); }