#ifndef _IHANDLERS_H #define _IHANDLERS_H extern volatile uint16_t pitch; // Pitch value extern volatile uint16_t vol; // Volume value extern volatile uint8_t vScaledVolume; // Volume byte extern volatile uint16_t pitch_counter; // Pitch counter extern volatile uint16_t pitch_counter_l; // Last value of pitch counter extern volatile uint16_t vol_counter; // Pitch counter extern volatile uint16_t vol_counter_l; // Last value of pitch counter extern volatile uint16_t timer_overflow_counter; // counter for frequency measurement extern volatile bool volumeValueAvailable; // Volume read flag extern volatile bool pitchValueAvailable; // Pitch read flag extern volatile bool reenableInt1; // Pitch read flag extern volatile uint8_t vWavetableSelector; extern volatile uint16_t vPointerIncrement; // Table pointer increment inline void resetPitchFlag() { pitchValueAvailable = false; } inline void resetVolFlag() { volumeValueAvailable = false; } inline void savePitchCounter() { pitch_counter_l=pitch_counter; } inline void saveVolCounter() { vol_counter_l=vol_counter; }; inline void setWavetableSampleAdvance(uint16_t val) { vPointerIncrement = val;} inline void disableInt1() { EIMSK &= ~ (1 << INT1); } inline void enableInt1() { if (reenableInt1) EIMSK |= (1 << INT1); } void ihInitialiseTimer(); void ihInitialiseInterrupts(); void ihInitialisePitchMeasurement(); void ihInitialiseVolumeMeasurement(); void resetPitchFlag(); void resetVolFlag(); void savePitchCounter(); void saveVolCounter(); #endif // _IHANDLERS_H