mirror of https://github.com/rusefi/rusefi-1.git
182 lines
6.1 KiB
C++
182 lines
6.1 KiB
C++
/**
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* @file trigger_emulator_algo.cpp
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*
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* This file is about producing real electrical signals which emulate trigger signal based on
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* a known TriggerShape.
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*
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* Historically this implementation was implemented based on PwmConfig which is maybe not the
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* best way to implement it. (todo: why is not the best way?)
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*
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* A newer implementation of pretty much the same thing is TriggerStimulatorHelper
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* todo: one emulator should be enough! another one should be eliminated
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*
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* @date Mar 3, 2014
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* @author Andrey Belomutskiy, (c) 2012-2018
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*/
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#include "global.h"
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#include "EfiWave.h"
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int getPreviousIndex(const int currentIndex, const int size) {
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return (currentIndex + size - 1) % size;
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}
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bool needEvent(const int currentIndex, const int size, MultiWave *multiWave, int channelIndex) {
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int prevIndex = getPreviousIndex(currentIndex, size);
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pin_state_t previousValue = multiWave->getChannelState(channelIndex, /*phaseIndex*/prevIndex);
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pin_state_t currentValue = multiWave->getChannelState(channelIndex, /*phaseIndex*/currentIndex);
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return previousValue != currentValue;
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}
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#if EFI_EMULATE_POSITION_SENSORS || defined(__DOXYGEN__)
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#include "engine.h"
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#include "trigger_emulator_algo.h"
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#include "engine_configuration.h"
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#include "trigger_central.h"
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#include "trigger_simulator.h"
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#include "pwm_generator.h"
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TriggerEmulatorHelper::TriggerEmulatorHelper() {
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}
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EXTERN_ENGINE
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;
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void TriggerEmulatorHelper::handleEmulatorCallback(PwmConfig *state, int stateIndex) {
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// todo: code duplication with TriggerStimulatorHelper::feedSimulatedEvent?
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MultiWave *multiWave = &state->multiWave;
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if (needEvent(stateIndex, state->phaseCount, &state->multiWave, 0)) {
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pin_state_t currentValue = multiWave->getChannelState(/*phaseIndex*/0, stateIndex);
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hwHandleShaftSignal(currentValue ? SHAFT_PRIMARY_RISING : SHAFT_PRIMARY_FALLING);
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}
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if (needEvent(stateIndex, state->phaseCount, &state->multiWave, 1)) {
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pin_state_t currentValue = multiWave->getChannelState(/*phaseIndex*/1, stateIndex);
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hwHandleShaftSignal(currentValue ? SHAFT_SECONDARY_RISING : SHAFT_SECONDARY_FALLING);
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}
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if (needEvent(stateIndex, state->phaseCount, &state->multiWave, 2)) {
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pin_state_t currentValue = multiWave->getChannelState(/*phaseIndex*/2, stateIndex);
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hwHandleShaftSignal(currentValue ? SHAFT_3RD_RISING : SHAFT_3RD_FALLING);
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}
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// print("hello %d\r\n", chTimeNow());
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}
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/*
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* todo: should we simply re-use instances used by trigger_decoder?
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* todo: since we are emulating same shape we are decoding
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*/
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static pin_state_t pinStates1[PWM_PHASE_MAX_COUNT];
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static pin_state_t pinStates2[PWM_PHASE_MAX_COUNT];
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static pin_state_t pinStates3[PWM_PHASE_MAX_COUNT];
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static SingleWave waves[PWM_PHASE_MAX_WAVE_PER_PWM] = { SingleWave(pinStates1), SingleWave(pinStates2),
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SingleWave(pinStates3) };
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static SingleWave sr[PWM_PHASE_MAX_WAVE_PER_PWM] = { waves[0], waves[1], waves[2] };
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static float switchTimesBuffer[PWM_PHASE_MAX_COUNT];
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PwmConfig triggerSignal(switchTimesBuffer, sr);
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#define DO_NOT_STOP 999999999
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static int stopEmulationAtIndex = DO_NOT_STOP;
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static bool isEmulating = true;
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static Logging *logger;
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static int atTriggerVersion = 0;
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#if EFI_ENGINE_SNIFFER
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#include "engine_sniffer.h"
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extern WaveChart waveChart;
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#endif /* EFI_ENGINE_SNIFFER */
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void setTriggerEmulatorRPM(int rpm DECLARE_ENGINE_PARAMETER_SUFFIX) {
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engineConfiguration->bc.triggerSimulatorFrequency = rpm;
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/**
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* All we need to do here is to change the periodMs
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* togglePwmState() would see that the periodMs has changed and act accordingly
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*/
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if (rpm == 0) {
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triggerSignal.setFrequency(NAN);
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} else {
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float rpmM = getRpmMultiplier(engineConfiguration->operationMode);
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float rPerSecond = rpm * rpmM / 60.0; // per minute converted to per second
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triggerSignal.setFrequency(rPerSecond);
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}
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#if EFI_ENGINE_SNIFFER
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if (engine->isTestMode)
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waveChart.reset();
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#endif /* EFI_ENGINE_SNIFFER */
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scheduleMsg(logger, "Emulating position sensor(s). RPM=%d", rpm);
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}
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static void updateTriggerShapeIfNeeded(PwmConfig *state) {
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if (atTriggerVersion < engine->triggerCentral.triggerShape.version) {
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atTriggerVersion = engine->triggerCentral.triggerShape.version;
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scheduleMsg(logger, "Stimulator: updating trigger shape: %d/%d %d", atTriggerVersion,
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engine->getGlobalConfigurationVersion(), currentTimeMillis());
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TriggerShape *s = &engine->triggerCentral.triggerShape;
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pin_state_t *pinStates[PWM_PHASE_MAX_WAVE_PER_PWM] = {
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s->wave.channels[0].pinStates,
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s->wave.channels[1].pinStates,
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s->wave.channels[2].pinStates };
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copyPwmParameters(state, s->getSize(), s->wave.switchTimes, PWM_PHASE_MAX_WAVE_PER_PWM, pinStates);
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state->safe.periodNt = -1; // this would cause loop re-initialization
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}
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}
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static TriggerEmulatorHelper helper;
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static void emulatorApplyPinState(PwmConfig *state, int stateIndex) {
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if (stopEmulationAtIndex == stateIndex) {
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isEmulating = false;
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}
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if (!isEmulating) {
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return;
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}
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#if EFI_PROD_CODE || defined(__DOXYGEN__)
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applyPinState(state, stateIndex);
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#endif /* EFI_PROD_CODE */
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if (engineConfiguration->directSelfStimulation) {
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/**
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* this callback would invoke the input signal handlers directly
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*/
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helper.handleEmulatorCallback(state, stateIndex);
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}
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}
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static void setEmulatorAtIndex(int index) {
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stopEmulationAtIndex = index;
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}
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static void resumeStimulator() {
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isEmulating = true;
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stopEmulationAtIndex = DO_NOT_STOP;
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}
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void initTriggerEmulatorLogic(Logging *sharedLogger DECLARE_ENGINE_PARAMETER_SUFFIX) {
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logger = sharedLogger;
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TriggerShape *s = &engine->triggerCentral.triggerShape;
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setTriggerEmulatorRPM(engineConfiguration->bc.triggerSimulatorFrequency PASS_ENGINE_PARAMETER_SUFFIX);
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pin_state_t *pinStates[PWM_PHASE_MAX_WAVE_PER_PWM] = {
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s->wave.channels[0].pinStates,
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s->wave.channels[1].pinStates,
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s->wave.channels[2].pinStates };
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triggerSignal.weComplexInit("position sensor",
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&engine->executor,
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s->getSize(), s->wave.switchTimes, PWM_PHASE_MAX_WAVE_PER_PWM,
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pinStates, updateTriggerShapeIfNeeded, emulatorApplyPinState);
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addConsoleActionI("rpm", setTriggerEmulatorRPM);
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addConsoleActionI("stop_stimulator_at_index", setEmulatorAtIndex);
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addConsoleAction("resume_stimulator", resumeStimulator);
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}
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#endif /* EFI_EMULATE_POSITION_SENSORS */
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