auto APU::Noise::clockLength() -> void { if(envelope.loopMode == 0) { if(lengthCounter > 0) lengthCounter--; } } auto APU::Noise::clock() -> uint8 { if(lengthCounter == 0) return 0; uint8 result = (lfsr & 1) ? envelope.volume() : 0; if(--periodCounter == 0) { uint feedback; if(shortMode) { feedback = ((lfsr >> 0) & 1) ^ ((lfsr >> 6) & 1); } else { feedback = ((lfsr >> 0) & 1) ^ ((lfsr >> 1) & 1); } lfsr = (lfsr >> 1) | (feedback << 14); periodCounter = apu.noisePeriodTableNTSC[period]; } return result; } auto APU::Noise::power() -> void { } auto APU::Noise::reset() -> void { lengthCounter = 0; envelope.speed = 0; envelope.useSpeedAsVolume = 0; envelope.loopMode = 0; envelope.reloadDecay = 0; envelope.decayCounter = 0; envelope.decayVolume = 0; period = 0; periodCounter = 1; shortMode = 0; lfsr = 1; }