133 lines
11 KiB
C++
133 lines
11 KiB
C++
#include "scheduledIO.h"
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#include "scheduler.h"
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#include "globals.h"
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#include "timers.h"
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#include "acc_mc33810.h"
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/** @file
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* Injector and Coil (toggle/open/close) control (under various situations, eg with particular cylinder count, rotary engine type or wasted spark ign, etc.).
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* Also accounts for presence of MC33810 injector/ignition (dwell, etc.) control circuit.
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* Functions here are typically assigned (at initialisation) to callback function variables (e.g. inj1StartFunction or inj1EndFunction)
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* form where they are called (by scheduler.ino).
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*/
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void openInjector1(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { openInjector1_DIRECT(); } else { openInjector1_MC33810(); } }
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void closeInjector1(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { closeInjector1_DIRECT(); } else { closeInjector1_MC33810(); } }
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void openInjector2(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { openInjector2_DIRECT(); } else { openInjector2_MC33810(); } }
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void closeInjector2(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { closeInjector2_DIRECT(); } else { closeInjector2_MC33810(); } }
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void openInjector3(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { openInjector3_DIRECT(); } else { openInjector3_MC33810(); } }
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void closeInjector3(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { closeInjector3_DIRECT(); } else { closeInjector3_MC33810(); } }
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void openInjector4(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { openInjector4_DIRECT(); } else { openInjector4_MC33810(); } }
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void closeInjector4(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { closeInjector4_DIRECT(); } else { closeInjector4_MC33810(); } }
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void openInjector5(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { openInjector5_DIRECT(); } else { openInjector5_MC33810(); } }
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void closeInjector5(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { closeInjector5_DIRECT(); } else { closeInjector5_MC33810(); } }
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void openInjector6(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { openInjector6_DIRECT(); } else { openInjector6_MC33810(); } }
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void closeInjector6(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { closeInjector6_DIRECT(); } else { closeInjector6_MC33810(); } }
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void openInjector7(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { openInjector7_DIRECT(); } else { openInjector7_MC33810(); } }
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void closeInjector7(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { closeInjector7_DIRECT(); } else { closeInjector7_MC33810(); } }
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void openInjector8(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { openInjector8_DIRECT(); } else { openInjector8_MC33810(); } }
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void closeInjector8(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { closeInjector8_DIRECT(); } else { closeInjector8_MC33810(); } }
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void injector1Toggle(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { injector1Toggle_DIRECT(); } else { injector1Toggle_MC33810(); } }
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void injector2Toggle(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { injector2Toggle_DIRECT(); } else { injector2Toggle_MC33810(); } }
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void injector3Toggle(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { injector3Toggle_DIRECT(); } else { injector3Toggle_MC33810(); } }
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void injector4Toggle(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { injector4Toggle_DIRECT(); } else { injector4Toggle_MC33810(); } }
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void injector5Toggle(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { injector5Toggle_DIRECT(); } else { injector5Toggle_MC33810(); } }
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void injector6Toggle(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { injector6Toggle_DIRECT(); } else { injector6Toggle_MC33810(); } }
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void injector7Toggle(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { injector7Toggle_DIRECT(); } else { injector7Toggle_MC33810(); } }
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void injector8Toggle(void) { if(injectorOutputControl != OUTPUT_CONTROL_MC33810) { injector8Toggle_DIRECT(); } else { injector8Toggle_MC33810(); } }
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void coil1Toggle(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil1Toggle_DIRECT(); } else { coil1Toggle_MC33810(); } }
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void coil2Toggle(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil2Toggle_DIRECT(); } else { coil2Toggle_MC33810(); } }
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void coil3Toggle(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil3Toggle_DIRECT(); } else { coil3Toggle_MC33810(); } }
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void coil4Toggle(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil4Toggle_DIRECT(); } else { coil4Toggle_MC33810(); } }
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void coil5Toggle(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil5Toggle_DIRECT(); } else { coil5Toggle_MC33810(); } }
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void coil6Toggle(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil6Toggle_DIRECT(); } else { coil6Toggle_MC33810(); } }
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void coil7Toggle(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil7Toggle_DIRECT(); } else { coil7Toggle_MC33810(); } }
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void coil8Toggle(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil8Toggle_DIRECT(); } else { coil8Toggle_MC33810(); } }
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// These are for Semi-Sequential and 5 Cylinder injection
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//Standard 4 cylinder pairings
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void openInjector1and3(void) { openInjector1(); openInjector3(); }
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void closeInjector1and3(void) { closeInjector1(); closeInjector3(); }
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void openInjector2and4(void) { openInjector2(); openInjector4(); }
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void closeInjector2and4(void) { closeInjector2(); closeInjector4(); }
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//Alternative output pairings
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void openInjector1and4(void) { openInjector1(); openInjector4(); }
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void closeInjector1and4(void) { closeInjector1(); closeInjector4(); }
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void openInjector2and3(void) { openInjector2(); openInjector3(); }
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void closeInjector2and3(void) { closeInjector2(); closeInjector3(); }
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void openInjector3and5(void) { openInjector3(); openInjector5(); }
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void closeInjector3and5(void) { closeInjector3(); closeInjector5(); }
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void openInjector2and5(void) { openInjector2(); openInjector5(); }
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void closeInjector2and5(void) { closeInjector2(); closeInjector5(); }
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void openInjector3and6(void) { openInjector3(); openInjector6(); }
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void closeInjector3and6(void) { closeInjector3(); closeInjector6(); }
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void openInjector1and5(void) { openInjector1(); openInjector5(); }
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void closeInjector1and5(void) { closeInjector1(); closeInjector5(); }
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void openInjector2and6(void) { openInjector2(); openInjector6(); }
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void closeInjector2and6(void) { closeInjector2(); closeInjector6(); }
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void openInjector3and7(void) { openInjector3(); openInjector7(); }
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void closeInjector3and7(void) { closeInjector3(); closeInjector7(); }
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void openInjector4and8(void) { openInjector4(); openInjector8(); }
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void closeInjector4and8(void) { closeInjector4(); closeInjector8(); }
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void beginCoil1Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil1Charging_DIRECT(); } else { coil1Charging_MC33810(); } tachoOutputOn(); }
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void endCoil1Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil1StopCharging_DIRECT(); } else { coil1StopCharging_MC33810(); } tachoOutputOff(); }
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void beginCoil2Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil2Charging_DIRECT(); } else { coil2Charging_MC33810(); } tachoOutputOn(); }
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void endCoil2Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil2StopCharging_DIRECT(); } else { coil2StopCharging_MC33810(); } tachoOutputOff(); }
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void beginCoil3Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil3Charging_DIRECT(); } else { coil3Charging_MC33810(); } tachoOutputOn(); }
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void endCoil3Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil3StopCharging_DIRECT(); } else { coil3StopCharging_MC33810(); } tachoOutputOff(); }
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void beginCoil4Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil4Charging_DIRECT(); } else { coil4Charging_MC33810(); } tachoOutputOn(); }
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void endCoil4Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil4StopCharging_DIRECT(); } else { coil4StopCharging_MC33810(); } tachoOutputOff(); }
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void beginCoil5Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil5Charging_DIRECT(); } else { coil5Charging_MC33810(); } tachoOutputOn(); }
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void endCoil5Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil5StopCharging_DIRECT(); } else { coil5StopCharging_MC33810(); } tachoOutputOff(); }
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void beginCoil6Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil6Charging_DIRECT(); } else { coil6Charging_MC33810(); } tachoOutputOn(); }
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void endCoil6Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil6StopCharging_DIRECT(); } else { coil6StopCharging_MC33810(); } tachoOutputOff(); }
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void beginCoil7Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil7Charging_DIRECT(); } else { coil7Charging_MC33810(); } tachoOutputOn(); }
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void endCoil7Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil7StopCharging_DIRECT(); } else { coil7StopCharging_MC33810(); } tachoOutputOff(); }
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void beginCoil8Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil8Charging_DIRECT(); } else { coil8Charging_MC33810(); } tachoOutputOn(); }
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void endCoil8Charge(void) { if(ignitionOutputControl != OUTPUT_CONTROL_MC33810) { coil8StopCharging_DIRECT(); } else { coil8StopCharging_MC33810(); } tachoOutputOff(); }
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//The below 3 calls are all part of the rotary ignition mode
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void beginTrailingCoilCharge(void) { beginCoil2Charge(); }
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void endTrailingCoilCharge1(void) { endCoil2Charge(); beginCoil3Charge(); } //Sets ign3 (Trailing select) high
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void endTrailingCoilCharge2(void) { endCoil2Charge(); endCoil3Charge(); } //sets ign3 (Trailing select) low
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//As above but for ignition (Wasted COP mode)
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void beginCoil1and3Charge(void) { beginCoil1Charge(); beginCoil3Charge(); }
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void endCoil1and3Charge(void) { endCoil1Charge(); endCoil3Charge(); }
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void beginCoil2and4Charge(void) { beginCoil2Charge(); beginCoil4Charge(); }
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void endCoil2and4Charge(void) { endCoil2Charge(); endCoil4Charge(); }
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//For 6cyl wasted COP mode)
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void beginCoil1and4Charge(void) { beginCoil1Charge(); beginCoil4Charge(); }
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void endCoil1and4Charge(void) { endCoil1Charge(); endCoil4Charge(); }
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void beginCoil2and5Charge(void) { beginCoil2Charge(); beginCoil5Charge(); }
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void endCoil2and5Charge(void) { endCoil2Charge(); endCoil5Charge(); }
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void beginCoil3and6Charge(void) { beginCoil3Charge(); beginCoil6Charge(); }
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void endCoil3and6Charge(void) { endCoil3Charge(); endCoil6Charge(); }
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//For 8cyl wasted COP mode)
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void beginCoil1and5Charge(void) { beginCoil1Charge(); beginCoil5Charge(); }
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void endCoil1and5Charge(void) { endCoil1Charge(); endCoil5Charge(); }
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void beginCoil2and6Charge(void) { beginCoil2Charge(); beginCoil6Charge(); }
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void endCoil2and6Charge(void) { endCoil2Charge(); endCoil6Charge(); }
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void beginCoil3and7Charge(void) { beginCoil3Charge(); beginCoil7Charge(); }
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void endCoil3and7Charge(void) { endCoil3Charge(); endCoil7Charge(); }
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void beginCoil4and8Charge(void) { beginCoil4Charge(); beginCoil8Charge(); }
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void endCoil4and8Charge(void) { endCoil4Charge(); endCoil8Charge(); }
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void tachoOutputOn(void) { if(configPage6.tachoMode) { TACHO_PULSE_LOW(); } else { tachoOutputFlag = READY; } }
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void tachoOutputOff(void) { if(configPage6.tachoMode) { TACHO_PULSE_HIGH(); } }
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void nullCallback(void) { return; }
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