85 lines
6.0 KiB
C++
85 lines
6.0 KiB
C++
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//These functions simply trigger the injector/coil driver off or on.
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//NOTE: squirt status is changed as per http://www.msextra.com/doc/ms1extra/COM_RS232.htm#Acmd
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/*
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#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
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//For the AVR chips, use the faster bit flipping method of switching pins
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void ignitionSetter(byte *port, bool startCharge)
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{
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if(
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}
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void openInjector1() { *inj1_pin_port |= (inj1_pin_mask); ; BIT_SET(currentStatus.squirt, BIT_SQUIRT_INJ1); }
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void closeInjector1() { *inj1_pin_port &= ~(inj1_pin_mask); BIT_CLEAR(currentStatus.squirt, BIT_SQUIRT_INJ1); }
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void beginCoil1Charge() { *ign1_pin_port |= (ign1_pin_mask); BIT_SET(currentStatus.spark, 0); digitalWrite(pinTachOut, LOW); }
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void endCoil1Charge() { *ign1_pin_port &= ~(ign1_pin_mask); BIT_CLEAR(currentStatus.spark, 0); }
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void openInjector2() { *inj2_pin_port |= (inj2_pin_mask); ; BIT_SET(currentStatus.squirt, BIT_SQUIRT_INJ2); }
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void closeInjector2() { *inj2_pin_port &= ~(inj2_pin_mask); BIT_CLEAR(currentStatus.squirt, BIT_SQUIRT_INJ2); }
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void beginCoil2Charge() { *ign2_pin_port |= (ign2_pin_mask); BIT_SET(currentStatus.spark, 1); digitalWrite(pinTachOut, LOW); }
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void endCoil2Charge() { *ign2_pin_port &= ~(ign2_pin_mask); BIT_CLEAR(currentStatus.spark, 1);}
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void openInjector3() { *inj3_pin_port |= (inj3_pin_mask); ; BIT_SET(currentStatus.squirt, BIT_SQUIRT_INJ3); }
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void closeInjector3() { *inj3_pin_port &= ~(inj3_pin_mask); BIT_CLEAR(currentStatus.squirt, BIT_SQUIRT_INJ3); }
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void beginCoil3Charge() { *ign3_pin_port |= (ign3_pin_mask); BIT_SET(currentStatus.spark, 2); digitalWrite(pinTachOut, LOW); }
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void endCoil3Charge() { *ign3_pin_port &= ~(ign3_pin_mask); BIT_CLEAR(currentStatus.spark, 2);}
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void openInjector4() { *inj4_pin_port |= (inj4_pin_mask); ; BIT_SET(currentStatus.squirt, BIT_SQUIRT_INJ4); }
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void closeInjector4() { *inj4_pin_port &= ~(inj4_pin_mask); BIT_CLEAR(currentStatus.squirt, BIT_SQUIRT_INJ4); }
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void beginCoil4Charge() { *ign4_pin_port |= (ign4_pin_mask); BIT_SET(currentStatus.spark, 3); digitalWrite(pinTachOut, LOW); }
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void endCoil4Charge() { *ign4_pin_port &= ~(ign4_pin_mask); BIT_CLEAR(currentStatus.spark, 3);}
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#else
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*/
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volatile bool tachoAlt = true;
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#define TACH_PULSE_HIGH() *tach_pin_port |= (tach_pin_mask)
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#define TACH_PULSE_LOW() if( (configPage1.tachoDiv == 0) || tachoAlt ) *tach_pin_port &= ~(tach_pin_mask); tachoAlt = !tachoAlt
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inline void openInjector1() { digitalWrite(pinInjector1, HIGH); BIT_SET(currentStatus.squirt, BIT_SQUIRT_INJ1); }
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inline void closeInjector1() { digitalWrite(pinInjector1, LOW); BIT_CLEAR(currentStatus.squirt, BIT_SQUIRT_INJ1); }
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inline void beginCoil1Charge() { digitalWrite(pinCoil1, coilHIGH); TACH_PULSE_LOW(); }
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inline void endCoil1Charge() { digitalWrite(pinCoil1, coilLOW); TACH_PULSE_HIGH(); }
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inline void openInjector2() { digitalWrite(pinInjector2, HIGH); BIT_SET(currentStatus.squirt, BIT_SQUIRT_INJ2); } //Sets the relevant pin HIGH and changes the current status bit for injector 2 (2nd bit of currentStatus.squirt)
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inline void closeInjector2() { digitalWrite(pinInjector2, LOW); BIT_CLEAR(currentStatus.squirt, BIT_SQUIRT_INJ2); }
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inline void beginCoil2Charge() { digitalWrite(pinCoil2, coilHIGH); TACH_PULSE_LOW(); }
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inline void endCoil2Charge() { digitalWrite(pinCoil2, coilLOW); TACH_PULSE_HIGH(); }
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inline void openInjector3() { digitalWrite(pinInjector3, HIGH); BIT_SET(currentStatus.squirt, BIT_SQUIRT_INJ3); } //Sets the relevant pin HIGH and changes the current status bit for injector 3 (3rd bit of currentStatus.squirt)
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inline void closeInjector3() { digitalWrite(pinInjector3, LOW); BIT_CLEAR(currentStatus.squirt, BIT_SQUIRT_INJ3); }
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inline void beginCoil3Charge() { digitalWrite(pinCoil3, coilHIGH); TACH_PULSE_LOW(); }
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inline void endCoil3Charge() { digitalWrite(pinCoil3, coilLOW); TACH_PULSE_HIGH(); }
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inline void openInjector4() { digitalWrite(pinInjector4, HIGH); BIT_SET(currentStatus.squirt, BIT_SQUIRT_INJ4); } //Sets the relevant pin HIGH and changes the current status bit for injector 4 (4th bit of currentStatus.squirt)
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inline void closeInjector4() { digitalWrite(pinInjector4, LOW); BIT_CLEAR(currentStatus.squirt, BIT_SQUIRT_INJ4); }
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inline void beginCoil4Charge() { digitalWrite(pinCoil4, coilHIGH); TACH_PULSE_LOW(); }
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inline void endCoil4Charge() { digitalWrite(pinCoil4, coilLOW); TACH_PULSE_HIGH(); }
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inline void openInjector5() { digitalWrite(pinInjector5, HIGH); }
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inline void closeInjector5() { digitalWrite(pinInjector5, LOW); }
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inline void beginCoil5Charge() { digitalWrite(pinCoil5, coilHIGH); TACH_PULSE_LOW(); }
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inline void endCoil5Charge() { digitalWrite(pinCoil5, coilLOW); TACH_PULSE_HIGH(); }
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//#endif
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//Combination functions for semi-sequential injection
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void openInjector1and4() { digitalWrite(pinInjector1, HIGH); digitalWrite(pinInjector4, HIGH); BIT_SET(currentStatus.squirt, 0); }
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void closeInjector1and4() { digitalWrite(pinInjector1, LOW); digitalWrite(pinInjector4, LOW);BIT_CLEAR(currentStatus.squirt, 0); }
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void openInjector2and3() { digitalWrite(pinInjector2, HIGH); digitalWrite(pinInjector3, HIGH); BIT_SET(currentStatus.squirt, 1); }
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void closeInjector2and3() { digitalWrite(pinInjector2, LOW); digitalWrite(pinInjector3, LOW); BIT_CLEAR(currentStatus.squirt, 1); }
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//Below functions are used for 5 cylinder support
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void openInjector3and5() { digitalWrite(pinInjector3, HIGH); digitalWrite(pinInjector5, HIGH); BIT_SET(currentStatus.squirt, 0); }
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void closeInjector3and5() { digitalWrite(pinInjector3, LOW); digitalWrite(pinInjector5, LOW);BIT_CLEAR(currentStatus.squirt, 0); }
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//As above but for ignition (Wasted COP mode)
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void beginCoil1and3Charge() { digitalWrite(pinCoil1, coilHIGH); digitalWrite(pinCoil3, coilHIGH); digitalWrite(pinTachOut, LOW); }
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void endCoil1and3Charge() { digitalWrite(pinCoil1, coilLOW); digitalWrite(pinCoil3, coilLOW); }
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void beginCoil2and4Charge() { digitalWrite(pinCoil2, coilHIGH); digitalWrite(pinCoil4, coilHIGH); digitalWrite(pinTachOut, LOW); }
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void endCoil2and4Charge() { digitalWrite(pinCoil2, coilLOW); digitalWrite(pinCoil4, coilLOW); }
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void nullCallback() { return; }
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