/** Test scene running with bus value 1 (takes two cycles) */ void Scene_Test::writeBusOne() { Doc* doc = new Doc(this, m_cache); Bus::instance()->setValue(Bus::defaultFade(), 1); Fixture* fxi = new Fixture(doc); fxi->setAddress(0); fxi->setUniverse(0); fxi->setChannels(10); doc->addFixture(fxi); Scene* s1 = new Scene(doc); s1->setName("First"); s1->setValue(fxi->id(), 0, 255); s1->setValue(fxi->id(), 1, 127); s1->setValue(fxi->id(), 2, 0); doc->addFunction(s1); s1->arm(); QByteArray uni(4 * 512, 0); MasterTimerStub* mts = new MasterTimerStub(this, NULL, uni); QVERIFY(s1->stopped() == true); mts->startFunction(s1); QVERIFY(s1->stopped() == false); QVERIFY(uni[0] == (char) 0); QVERIFY(uni[1] == (char) 0); QVERIFY(uni[2] == (char) 0); s1->write(mts, &uni); QVERIFY(s1->stopped() == false); QVERIFY(uni[0] == (char) 127); QVERIFY(uni[1] == (char) 63); QVERIFY(uni[2] == (char) 0); s1->write(mts, &uni); QVERIFY(s1->stopped() == true); QVERIFY(uni[0] == (char) 255); QVERIFY(uni[1] == (char) 127); QVERIFY(uni[2] == (char) 0); mts->stopFunction(s1); QVERIFY(s1->stopped() == true); QVERIFY(uni[0] == (char) 255); QVERIFY(uni[1] == (char) 127); QVERIFY(uni[2] == (char) 0); s1->disarm(); delete mts; delete doc; }
void Collection_Test::write() { Doc* doc = new Doc(this, m_cache); Bus::instance()->setValue(Bus::defaultFade(), 0); Bus::instance()->setValue(Bus::defaultHold(), 0); Fixture* fxi = new Fixture(doc); fxi->setAddress(0); fxi->setUniverse(0); fxi->setChannels(4); doc->addFixture(fxi); Scene* s1 = new Scene(doc); s1->setName("Scene1"); s1->setValue(fxi->id(), 0, UCHAR_MAX); s1->setValue(fxi->id(), 1, UCHAR_MAX); doc->addFunction(s1); Scene* s2 = new Scene(doc); s2->setName("Scene2"); s2->setValue(fxi->id(), 2, UCHAR_MAX); s2->setValue(fxi->id(), 3, UCHAR_MAX); doc->addFunction(s2); Collection* c = new Collection(doc); c->setName("Collection"); c->addFunction(s1->id()); c->addFunction(s2->id()); s1->arm(); s2->arm(); c->arm(); QByteArray uni; MasterTimerStub* mts = new MasterTimerStub(this, NULL, uni); /* Collection starts all of its members immediately when it is started itself. */ QVERIFY(c->stopped() == true); mts->startFunction(c); QVERIFY(c->stopped() == false); c->write(mts, &uni); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 3); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(mts->m_functionList[2] == s2); /* All write calls to the collection "succeed" as long as there are members running. */ c->write(mts, &uni); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 3); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(mts->m_functionList[2] == s2); c->write(mts, &uni); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 3); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(mts->m_functionList[2] == s2); /* S2 is still running after this so the collection is also running */ mts->stopFunction(s1); QVERIFY(s1->stopped() == true); c->write(mts, &uni); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s2); /* Now the collection must also tell it's ready to be stopped */ mts->stopFunction(s2); QVERIFY(s2->stopped() == true); QVERIFY(c->stopped() == true); mts->stopFunction(c); c->disarm(); s1->disarm(); s2->disarm(); delete mts; delete doc; }
void Chaser_Test::writeBusZeroPingPongForward() { Doc* doc = new Doc(this, m_cache); Bus::instance()->setValue(Bus::defaultFade(), 0); Bus::instance()->setValue(Bus::defaultHold(), 0); Fixture* fxi = new Fixture(doc); fxi->setAddress(0); fxi->setUniverse(0); fxi->setChannels(2); doc->addFixture(fxi); Scene* s1 = new Scene(doc); s1->setName("Scene1"); s1->setValue(fxi->id(), 0, UCHAR_MAX); s1->setValue(fxi->id(), 1, UCHAR_MAX); doc->addFunction(s1); Scene* s2 = new Scene(doc); s2->setName("Scene2"); s2->setValue(fxi->id(), 0, 127); s2->setValue(fxi->id(), 1, 127); doc->addFunction(s2); Scene* s3 = new Scene(doc); s3->setName("Scene2"); s3->setValue(fxi->id(), 0, 0); s3->setValue(fxi->id(), 1, 0); doc->addFunction(s3); Chaser* c = new Chaser(doc); c->setName("Chaser"); c->setRunOrder(Chaser::PingPong); c->addStep(s1->id()); c->addStep(s2->id()); c->addStep(s3->id()); s1->arm(); s2->arm(); s3->arm(); c->arm(); QByteArray uni; MasterTimerStub* mts = new MasterTimerStub(this, NULL, uni); QVERIFY(c->stopped() == true); mts->startFunction(c); QVERIFY(c->stopped() == false); /* Since hold bus' value is 0 each call to write() starts the next step in chaser. Last step comes first because the chaser is now running backwards. */ c->write(mts, &uni); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(s1->stopped() == false); c->write(mts, &uni); QVERIFY(s1->stopped() == true); mts->stopFunction(s1); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s2); QVERIFY(s2->stopped() == false); c->write(mts, &uni); QVERIFY(s2->stopped() == true); mts->stopFunction(s2); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s3); QVERIFY(s3->stopped() == false); c->write(mts, &uni); QVERIFY(s3->stopped() == true); mts->stopFunction(s3); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s2); QVERIFY(s2->stopped() == false); c->write(mts, &uni); QVERIFY(s2->stopped() == true); mts->stopFunction(s2); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(s1->stopped() == false); c->write(mts, &uni); QVERIFY(s1->stopped() == true); mts->stopFunction(s1); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s2); QVERIFY(s2->stopped() == false); c->write(mts, &uni); QVERIFY(s2->stopped() == true); mts->stopFunction(s2); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s3); QVERIFY(s3->stopped() == false); c->write(mts, &uni); QVERIFY(s3->stopped() == true); mts->stopFunction(s3); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s2); QVERIFY(s2->stopped() == false); c->write(mts, &uni); QVERIFY(s2->stopped() == true); mts->stopFunction(s2); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(s1->stopped() == false); c->stop(); QVERIFY(c->stopped() == true); mts->stopFunction(c); QVERIFY(s1->stopped() == true); QVERIFY(s2->stopped() == true); QVERIFY(s3->stopped() == true); c->disarm(); s1->disarm(); s2->disarm(); s3->disarm(); delete mts; delete doc; }
void Chaser_Test::writeBusZeroSingleShotBackward() { Doc* doc = new Doc(this, m_cache); Bus::instance()->setValue(Bus::defaultFade(), 0); Bus::instance()->setValue(Bus::defaultHold(), 0); Fixture* fxi = new Fixture(doc); fxi->setAddress(0); fxi->setUniverse(0); fxi->setChannels(2); doc->addFixture(fxi); Scene* s1 = new Scene(doc); s1->setName("Scene1"); s1->setValue(fxi->id(), 0, UCHAR_MAX); s1->setValue(fxi->id(), 1, UCHAR_MAX); doc->addFunction(s1); Scene* s2 = new Scene(doc); s2->setName("Scene2"); s2->setValue(fxi->id(), 0, 0); s2->setValue(fxi->id(), 1, 0); doc->addFunction(s2); Chaser* c = new Chaser(doc); c->setName("Chaser"); c->setRunOrder(Chaser::SingleShot); c->setDirection(Chaser::Backward); c->addStep(s1->id()); c->addStep(s2->id()); s1->arm(); s2->arm(); c->arm(); QByteArray uni; MasterTimerStub* mts = new MasterTimerStub(this, NULL, uni); QVERIFY(c->stopped() == true); mts->startFunction(c); QVERIFY(c->stopped() == false); /* SingleShot will stop automatically after the last step */ c->write(mts, &uni); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s2); QVERIFY(s2->stopped() == false); c->write(mts, &uni); QVERIFY(s2->stopped() == true); mts->stopFunction(s2); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(s1->stopped() == false); c->write(mts, &uni); QVERIFY(c->stopped() == true); mts->stopFunction(c); QVERIFY(s1->stopped() == true); QVERIFY(s2->stopped() == true); c->disarm(); s1->disarm(); s2->disarm(); delete mts; delete doc; }
void Chaser_Test::writeBusZeroLoopForward() { Doc* doc = new Doc(this, m_cache); Bus::instance()->setValue(Bus::defaultFade(), 0); Bus::instance()->setValue(Bus::defaultHold(), 0); Fixture* fxi = new Fixture(doc); fxi->setAddress(0); fxi->setUniverse(0); fxi->setChannels(2); doc->addFixture(fxi); Scene* s1 = new Scene(doc); s1->setName("Scene1"); s1->setValue(fxi->id(), 0, UCHAR_MAX); s1->setValue(fxi->id(), 1, UCHAR_MAX); doc->addFunction(s1); Scene* s2 = new Scene(doc); s2->setName("Scene2"); s2->setValue(fxi->id(), 0, 0); s2->setValue(fxi->id(), 1, 0); doc->addFunction(s2); Chaser* c = new Chaser(doc); c->setName("Chaser"); c->addStep(s1->id()); c->addStep(s2->id()); s1->arm(); s2->arm(); c->arm(); QByteArray uni; MasterTimerStub* mts = new MasterTimerStub(this, NULL, uni); QVERIFY(c->stopped() == true); mts->startFunction(c); QVERIFY(c->stopped() == false); /* Since hold bus' value is 0 each call to write() starts the next step in chaser. The functions must be manually removed from the stub, which is OK (we're not testing the timer now), as long as the correct step is always marked as stopped. */ c->write(mts, &uni); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(s1->stopped() == false); c->write(mts, &uni); QVERIFY(s1->stopped() == true); mts->stopFunction(s1); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s2); QVERIFY(s2->stopped() == false); c->write(mts, &uni); QVERIFY(s2->stopped() == true); mts->stopFunction(s2); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(s1->stopped() == false); c->write(mts, &uni); QVERIFY(s1->stopped() == true); mts->stopFunction(s1); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s2); QVERIFY(s2->stopped() == false); c->write(mts, &uni); QVERIFY(s2->stopped() == true); mts->stopFunction(s2); QVERIFY(c->stopped() == false); QVERIFY(mts->m_functionList.size() == 2); QVERIFY(mts->m_functionList[0] == c); QVERIFY(mts->m_functionList[1] == s1); QVERIFY(s1->stopped() == false); c->stop(); mts->stopFunction(c); QVERIFY(c->stopped() == true); QVERIFY(s1->stopped() == true); QVERIFY(s2->stopped() == true); c->disarm(); s1->disarm(); s2->disarm(); delete mts; delete doc; }
/** Test scene running with initial values something else than zero */ void Scene_Test::writeNonZeroStartingValues() { Doc* doc = new Doc(this, m_cache); Bus::instance()->setValue(Bus::defaultFade(), 2); Fixture* fxi = new Fixture(doc); fxi->setAddress(0); fxi->setUniverse(0); fxi->setChannels(10); doc->addFixture(fxi); Scene* s1 = new Scene(doc); s1->setName("First"); s1->setValue(fxi->id(), 0, 255); s1->setValue(fxi->id(), 1, 127); s1->setValue(fxi->id(), 2, 0); doc->addFunction(s1); s1->arm(); QByteArray uni(4 * 512, 0); MasterTimerStub* mts = new MasterTimerStub(this, NULL, uni); QVERIFY(s1->stopped() == true); mts->startFunction(s1); QVERIFY(s1->stopped() == false); uni[0] = (char) 100; uni[1] = (char) 255; uni[2] = (char) 3; s1->write(mts, &uni); QVERIFY(s1->stopped() == false); QVERIFY(uni[0] == (char) 151); QVERIFY(uni[1] == (char) 213); // Result is 3 on AMD64, 2 on IA32 QVERIFY(uni[2] == (char) 3 || uni[2] == (char) 2); s1->write(mts, &uni); QVERIFY(s1->stopped() == false); QVERIFY(uni[0] == (char) 203); QVERIFY(uni[1] == (char) 170); // Result is 2 on AMD64, 1 in IA32 QVERIFY(uni[2] == (char) 2 || uni[2] == (char) 1); s1->write(mts, &uni); QVERIFY(s1->stopped() == true); QVERIFY(uni[0] == (char) 255); QVERIFY(uni[1] == (char) 127); QVERIFY(uni[2] == (char) 0); mts->stopFunction(s1); QVERIFY(s1->stopped() == true); QVERIFY(uni[0] == (char) 255); QVERIFY(uni[1] == (char) 127); QVERIFY(uni[2] == (char) 0); s1->disarm(); delete mts; delete doc; }