mirror of https://github.com/rusefi/rusefi.git
170 lines
4.8 KiB
C++
170 lines
4.8 KiB
C++
/*
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* @file launch_control.cpp
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*
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* @date 10. sep. 2019
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* Author: Ola Ruud
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*/
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#include "pch.h"
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#if EFI_LAUNCH_CONTROL
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#include "boost_control.h"
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#include "launch_control.h"
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#include "periodic_task.h"
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#include "advance_map.h"
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#include "engine_state.h"
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#include "advance_map.h"
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#include "tinymt32.h"
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/**
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* We can have active condition from switch or from clutch.
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* In case we are dependent on VSS we just return true.
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*/
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bool LaunchControlBase::isInsideSwitchCondition() {
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isSwitchActivated = engineConfiguration->launchActivationMode == SWITCH_INPUT_LAUNCH;
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isClutchActivated = engineConfiguration->launchActivationMode == CLUTCH_INPUT_LAUNCH;
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if (isSwitchActivated) {
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#if !EFI_SIMULATOR
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if (isBrainPinValid(engineConfiguration->launchActivatePin)) {
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launchActivatePinState = engineConfiguration->launchActivateInverted ^ efiReadPin(engineConfiguration->launchActivatePin);
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}
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#endif // EFI_PROD_CODE
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return launchActivatePinState;
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} else if (isClutchActivated) {
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if (isBrainPinValid(engineConfiguration->clutchDownPin)) {
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return engine->engineState.clutchDownState;
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} else {
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return false;
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}
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} else {
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// ALWAYS_ACTIVE_LAUNCH
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return true;
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}
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}
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/**
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* Returns True when Vehicle speed ALLOWS launch control
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*/
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bool LaunchControlBase::isInsideSpeedCondition() const {
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if (engineConfiguration->launchSpeedThreshold == 0) {
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return true; // allow launch, speed does not matter
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}
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int speed = Sensor::getOrZero(SensorType::VehicleSpeed);
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return engineConfiguration->launchSpeedThreshold > speed;
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}
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/**
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* Returns false if TPS is invalid or TPS > preset threshold
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*/
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bool LaunchControlBase::isInsideTpsCondition() const {
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auto tps = Sensor::get(SensorType::DriverThrottleIntent);
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// Disallow launch without valid TPS
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if (!tps.Valid) {
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return false;
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}
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// todo: should this be 'launchTpsThreshold <= tps.Value' so that nicely calibrated TPS of zero does not prevent launch?
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return engineConfiguration->launchTpsThreshold < tps.Value;
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}
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/**
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* Condition is true as soon as we are above LaunchRpm
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*/
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bool LaunchControlBase::isInsideRPMCondition(int rpm) const {
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int launchRpm = engineConfiguration->launchRpm;
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return (launchRpm < rpm);
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}
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bool LaunchControlBase::isLaunchConditionMet(int rpm) {
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activateSwitchCondition = isInsideSwitchCondition();
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rpmCondition = isInsideRPMCondition(rpm);
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speedCondition = isInsideSpeedCondition();
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tpsCondition = isInsideTpsCondition();
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return speedCondition && activateSwitchCondition && rpmCondition && tpsCondition;
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}
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LaunchControlBase::LaunchControlBase() {
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launchActivatePinState = false;
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isLaunchCondition = false;
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}
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bool LaunchControlBase::getFuelCoefficient() const {
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return 1 + (isLaunchCondition && engineConfiguration->launchControlEnabled ? engineConfiguration->launchFuelAdderPercent / 100.0 : 0);
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}
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void LaunchControlBase::update() {
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if (!engineConfiguration->launchControlEnabled) {
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return;
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}
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int rpm = Sensor::getOrZero(SensorType::Rpm);
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combinedConditions = isLaunchConditionMet(rpm);
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//and still recalculate in case user changed the values
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retardThresholdRpm = engineConfiguration->launchRpm
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/*
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we never had UI for 'launchAdvanceRpmRange' so it was always zero. are we supposed to forget about this dead line
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or it is supposed to be referencing 'launchTimingRpmRange'?
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+ (engineConfiguration->enableLaunchRetard ? engineConfiguration->launchAdvanceRpmRange : 0)
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*/
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+ engineConfiguration->hardCutRpmRange;
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if (!combinedConditions) {
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// conditions not met, reset timer
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m_launchTimer.reset();
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isLaunchCondition = false;
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} else {
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// If conditions are met...
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isLaunchCondition = m_launchTimer.hasElapsedSec(engineConfiguration->launchActivateDelay);
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}
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}
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bool LaunchControlBase::isLaunchRpmRetardCondition() const {
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return isLaunchCondition && (retardThresholdRpm < Sensor::getOrZero(SensorType::Rpm));
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}
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bool LaunchControlBase::isLaunchSparkRpmRetardCondition() const {
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return isLaunchRpmRetardCondition() && engineConfiguration->launchSparkCutEnable;
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}
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bool LaunchControlBase::isLaunchFuelRpmRetardCondition() const {
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return isLaunchRpmRetardCondition() && engineConfiguration->launchFuelCutEnable;
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}
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SoftSparkLimiter::SoftSparkLimiter(bool p_allowHardCut) {
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this->allowHardCut = p_allowHardCut;
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#if EFI_UNIT_TEST
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initLaunchControl();
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#endif // EFI_UNIT_TEST
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}
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void SoftSparkLimiter::setTargetSkipRatio(float p_targetSkipRatio) {
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this->targetSkipRatio = p_targetSkipRatio;
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}
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static tinymt32_t tinymt;
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bool SoftSparkLimiter::shouldSkip() {
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if (targetSkipRatio == 0 || (!allowHardCut && wasJustSkipped)) {
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wasJustSkipped = false;
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return false;
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}
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float r = tinymt32_generate_float(&tinymt);
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wasJustSkipped = r < (allowHardCut ? 1 : 2) * targetSkipRatio;
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return wasJustSkipped;
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}
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void initLaunchControl() {
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tinymt32_init(&tinymt, 1345135);
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}
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#endif /* EFI_LAUNCH_CONTROL */
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