Exemplo n.º 1
0
//---------------------------------------------------
void HiHat_calcAsync( )
{
	//calc the osc  vol eg
	hatVoice.egValueOscVol = slopeEg2_calc(&hatVoice.oscVolEg);

	//turn off trigger signal if trigger gate mode is on and volume == 0
	if(trigger_isGateModeOn())
	{
		if(!hatVoice.egValueOscVol)
		{
			if(hatVoice.isOpen)
			{
				trigger_triggerVoice(TRIGGER_7, TRIGGER_OFF);
				voiceControl_noteOff(TRIGGER_7);
			} else {
				trigger_triggerVoice(TRIGGER_6, TRIGGER_OFF);
				voiceControl_noteOff(TRIGGER_6);
			}
		}
	}

	//calc snap EG if transient sample 0 is activated
	if(hatVoice.transGen.waveform == 0)
	{
		const float snapVal = SnapEg_calc(&hatVoice.snapEg, hatVoice.transGen.pitch);
		hatVoice.osc.pitchMod = 1 + snapVal*hatVoice.transGen.volume;
	}

	osc_setFreq(&hatVoice.osc);
	osc_setFreq(&hatVoice.modOsc);
	osc_setFreq(&hatVoice.modOsc2);
}
Exemplo n.º 2
0
//---------------------------------------------------
void Cymbal_calcAsync()
{
	//calc the osc  vol eg
	cymbalVoice.egValueOscVol = slopeEg2_calc(&cymbalVoice.oscVolEg);

	//turn off trigger signal if trigger gate mode is on and volume == 0
	if(trigger_isGateModeOn())
	{
		if(!cymbalVoice.egValueOscVol) {
			trigger_triggerVoice(TRIGGER_5, TRIGGER_OFF);
			voiceControl_noteOff(TRIGGER_5);
		}
	}

	//calc snap EG if transient sample 0 is activated
	if(cymbalVoice.transGen.waveform == 0)
	{
		const float snapVal = SnapEg_calc(&cymbalVoice.snapEg,cymbalVoice.transGen.pitch);
		cymbalVoice.osc.pitchMod = 1 + snapVal*cymbalVoice.transGen.volume;
	}

	//update osc phaseInc
	osc_setFreq(&cymbalVoice.osc);
	osc_setFreq(&cymbalVoice.modOsc);
	osc_setFreq(&cymbalVoice.modOsc2);
}
Exemplo n.º 3
0
//---------------------------------------------------
void calcDrumVoiceAsync(const uint8_t voiceNr)
{


	//add modulation eg to osc freq (1 = no change. a+eg = original freq + modulation
	const float egPitchVal = DecayEg_calc(&voiceArray[voiceNr].oscPitchEg);
	const float pitchEgValue = egPitchVal*voiceArray[voiceNr].egPitchModAmount;
	voiceArray[voiceNr].osc.pitchMod = 1+pitchEgValue;

	//calc snap EG if transient sample 0 is activated
	if(voiceArray[voiceNr].transGen.waveform == 0)
	{
		const float snapVal = SnapEg_calc(&voiceArray[voiceNr].snapEg, voiceArray[voiceNr].transGen.pitch);
		voiceArray[voiceNr].osc.pitchMod += snapVal*voiceArray[voiceNr].transGen.volume;
	}

	// fm amount with pitch eg
	voiceArray[voiceNr].osc.fmMod = voiceArray[voiceNr].fmModAmount * egPitchVal;

	//calc the osc + noise vol eg
#if (AMP_EG_SYNC==0)

	//check if in attack phase
	if( (voiceArray[voiceNr].oscVolEg.attack == 1 ) && ((voiceArray[voiceNr].oscVolEg.state == EG_A) || (voiceArray[voiceNr].oscVolEg.state == EG_REPEAT)) )
	{
			//if attack is set to 0 -> no interpolation
		voiceArray[voiceNr].ampFilterInput = slopeEg2_calc(&voiceArray[voiceNr].oscVolEg);
		voiceArray[voiceNr].lastGain = voiceArray[voiceNr].ampFilterInput;
	}
	else
	{
		voiceArray[voiceNr].lastGain = voiceArray[voiceNr].ampFilterInput;
		voiceArray[voiceNr].ampFilterInput = slopeEg2_calc(&voiceArray[voiceNr].oscVolEg);
	}

	//turn off trigger signal if trigger gate mode is on and volume == 0
	if(trigger_isGateModeOn())
	{
		if(!voiceArray[voiceNr].ampFilterInput) {
			trigger_triggerVoice(TRIGGER_1 + voiceNr, TRIGGER_OFF);
			voiceControl_noteOff(TRIGGER_1 + voiceNr);
		}
	}
#endif

	//update osc phaseInc
	osc_setFreq(&voiceArray[voiceNr].osc);
	osc_setFreq(&voiceArray[voiceNr].modOsc);

}