void testAngleResolver(void) { printf("*************************************************** testAngleResolver\r\n"); engineConfiguration->globalTriggerAngleOffset = 175; trigger_shape_s * ts = &engineConfiguration2->triggerShape; confgiureFordAspireTriggerShape(ts); ts->calculateTriggerSynchPoint(&engineConfiguration->triggerConfig); assertEqualsM("index 2", 232.76, ts->eventAngles[3]); // this angle is relation to synch point assertEqualsM("time 2", 0.3233, ts->wave.getSwitchTime(2)); assertEqualsM("index 5", 409.8412, ts->eventAngles[6]); assertEqualsM("time 5", 0.5692, ts->wave.getSwitchTime(5)); assertEquals(9, ts->getTriggerShapeSynchPointIndex()); assertEqualsM("shape size", 10, ts->getSize()); OutputSignalList list; ae.resetEventList(); printf("*************************************************** testAngleResolver 0\r\n"); registerActuatorEventExt(engineConfiguration, &engineConfiguration2->triggerShape, ae.getNextActuatorEvent(), list.add(INJECTOR_1_OUTPUT), 53 - 175); assertEqualsM("size", 1, ae.size); assertEquals(1, list.getSize()); assertEquals(0, ae.events[0].position.eventIndex); assertEquals(53, ae.events[0].position.angleOffset); printf("*************************************************** testAngleResolver 2\r\n"); ae.resetEventList(); registerActuatorEventExt(engineConfiguration, &engineConfiguration2->triggerShape, ae.getNextActuatorEvent(), list.add(INJECTOR_1_OUTPUT), 51 + 180 - 175); assertEquals(2, ae.events[0].position.eventIndex); assertEquals(109.1, ae.events[0].position.angleOffset); }
void testAngleResolver(void) { printf("*************************************************** testAngleResolver\r\n"); EngineTestHelper eth(FORD_ASPIRE_1996); Engine *engine = ð.engine; engine_configuration_s *engineConfiguration = eth.engine.engineConfiguration; engineConfiguration->globalTriggerAngleOffset = 175; assertTrue(engine->engineConfiguration2!=NULL); trigger_shape_s * ts = &engine->triggerShape; confgiureFordAspireTriggerShape(ts); ts->calculateTriggerSynchPoint(engineConfiguration, engine); assertEqualsM("index 2", 228.0450, ts->eventAngles[3]); // this angle is relation to synch point assertEqualsM("time 2", 0.3233, ts->wave.getSwitchTime(2)); assertEqualsM("index 5", 413.7470, ts->eventAngles[6]); assertEqualsM("time 5", 0.5692, ts->wave.getSwitchTime(5)); assertEquals(4, ts->getTriggerShapeSynchPointIndex()); assertEqualsM("shape size", 10, ts->getSize()); OutputSignalList list; ae.resetEventList(); printf("*************************************************** testAngleResolver 0\r\n"); findTriggerPosition(&ae.getNextActuatorEvent()->position, 53 - 175 PASS_ENGINE_PARAMETER); assertEqualsM("size", 1, ae.size); assertEquals(1, ae.events[0].position.eventIndex); assertEquals(3.1588, ae.events[0].position.angleOffset); printf("*************************************************** testAngleResolver 2\r\n"); ae.resetEventList(); findTriggerPosition(&ae.getNextActuatorEvent()->position, 51 + 180 - 175 PASS_ENGINE_PARAMETER); assertEquals(2, ae.events[0].position.eventIndex); assertEquals(112.3495, ae.events[0].position.angleOffset); }