/* * * Copyright (C) 2006 MeVis Research GmbH All Rights Reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * Further, this software is distributed without any warranty that it is * free of the rightful claim of any third person regarding infringement * or the like. Any license provided herein, whether implied or * otherwise, applies only to this software file. Patent licenses, if * any, provided herein do not apply to combinations of this program with * other software, or any other product whatsoever. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * Contact information: MeVis Research GmbH, Universitaetsallee 29, * 28359 Bremen, Germany or: * * http://www.mevis.de * */ //---------------------------------------------------------------------------------- /*! // \file PythonQtTests.cpp // \author Florian Link // \author Last changed by $Author: florian $ // \date 2006-05 */ //---------------------------------------------------------------------------------- #include "PythonQtTests.h" void PythonQtTestSlotCalling::initTestCase() { _helper = new PythonQtTestSlotCallingHelper(this); PythonQtObjectPtr main = PythonQt::self()->getMainModule(); main.evalScript("import PythonQt"); PythonQt::self()->addObject(main, "obj", _helper); } void PythonQtTestSlotCalling::init() { } void* polymorphic_ClassB_Handler(const void* ptr, char** className) { ClassB* o = (ClassB*)ptr; if (o->type()==2) { *className = "ClassB"; return (ClassB*)o; } if (o->type()==3) { *className = "ClassC"; return (ClassC*)o; } if (o->type()==4) { *className = "ClassD"; return (ClassD*)o; } return NULL; } void PythonQtTestSlotCalling::testInheritance() { PythonQt::self()->registerCPPClass("ClassA",NULL,NULL, PythonQtCreateObject); PythonQt::self()->registerCPPClass("ClassB",NULL,NULL, PythonQtCreateObject); PythonQt::self()->registerCPPClass("ClassC",NULL,NULL, PythonQtCreateObject); PythonQt::self()->addParentClass("ClassC", "ClassA", PythonQtUpcastingOffset()); PythonQt::self()->addParentClass("ClassC", "ClassB", PythonQtUpcastingOffset()); PythonQt::self()->registerClass(&ClassD::staticMetaObject, NULL, PythonQtCreateObject); PythonQt::self()->addParentClass("ClassD", "ClassA", PythonQtUpcastingOffset()); PythonQt::self()->addParentClass("ClassD", "ClassB", PythonQtUpcastingOffset()); PythonQtObjectPtr classA = PythonQt::self()->getMainModule().getVariable("PythonQt.ClassA"); PythonQtObjectPtr classB = PythonQt::self()->getMainModule().getVariable("PythonQt.ClassB"); PythonQtObjectPtr classC = PythonQt::self()->getMainModule().getVariable("PythonQt.ClassC"); PythonQtObjectPtr classD = PythonQt::self()->getMainModule().getVariable("PythonQt.ClassD"); QVERIFY(classA); QVERIFY(classB); QVERIFY(classC); QVERIFY(classD); QVERIFY(_helper->runScript("a = PythonQt.ClassA();\nif obj.getClassAPtr(a).getX()==1: obj.setPassed();\n")); QEXPECT_FAIL("", "ClassB can not be converted to ClassA", Continue); QVERIFY(_helper->runScript("a = PythonQt.ClassB();\nif obj.getClassAPtr(a).getX()==1: obj.setPassed();\n")); QVERIFY(_helper->runScript("a = PythonQt.ClassC();\nif obj.getClassAPtr(a).getX()==1: obj.setPassed();\n")); QVERIFY(_helper->runScript("a = PythonQt.ClassD();\nif obj.getClassAPtr(a).getX()==1: obj.setPassed();\n")); QEXPECT_FAIL("", "ClassA can not be converted to ClassB", Continue); QVERIFY(_helper->runScript("a = PythonQt.ClassA();\nif obj.getClassBPtr(a).getY()==2: obj.setPassed();\n")); QVERIFY(_helper->runScript("a = PythonQt.ClassB();\nif obj.getClassBPtr(a).getY()==2: obj.setPassed();\n")); QVERIFY(_helper->runScript("a = PythonQt.ClassC();\nif obj.getClassBPtr(a).getY()==2: obj.setPassed();\n")); QVERIFY(_helper->runScript("a = PythonQt.ClassD();\nif obj.getClassBPtr(a).getY()==2: obj.setPassed();\n")); QEXPECT_FAIL("", "ClassA can not be converted to ClassC", Continue); QVERIFY(_helper->runScript("a = PythonQt.ClassA();\nif obj.getClassCPtr(a).getX()==1: obj.setPassed();\n")); QEXPECT_FAIL("", "ClassB can not be converted to ClassC", Continue); QVERIFY(_helper->runScript("a = PythonQt.ClassB();\nif obj.getClassCPtr(a).getX()==1: obj.setPassed();\n")); QVERIFY(_helper->runScript("a = PythonQt.ClassC();\nif obj.getClassCPtr(a).getX()==1: obj.setPassed();\n")); QEXPECT_FAIL("", "ClassD can not be converted to ClassC", Continue); QVERIFY(_helper->runScript("a = PythonQt.ClassD();\nif obj.getClassCPtr(a).getX()==1: obj.setPassed();\n")); QVERIFY(_helper->runScript("if type(obj.createClassA())==PythonQt.ClassA: obj.setPassed();\n")); QVERIFY(_helper->runScript("if type(obj.createClassB())==PythonQt.ClassB: obj.setPassed();\n")); QVERIFY(_helper->runScript("if type(obj.createClassCAsA())==PythonQt.ClassA: obj.setPassed();\n")); QVERIFY(_helper->runScript("if type(obj.createClassCAsB())==PythonQt.ClassB: obj.setPassed();\n")); QVERIFY(_helper->runScript("if type(obj.createClassD())==PythonQt.ClassD: obj.setPassed();\n")); QVERIFY(_helper->runScript("if type(obj.createClassDAsA())==PythonQt.ClassA: obj.setPassed();\n")); QVERIFY(_helper->runScript("if type(obj.createClassDAsB())==PythonQt.ClassB: obj.setPassed();\n")); PythonQt::self()->addPolymorphicHandler("ClassB", polymorphic_ClassB_Handler); QVERIFY(_helper->runScript("if type(obj.getClassBPtr(obj.createClassB()))==PythonQt.ClassB: obj.setPassed();\n")); QVERIFY(_helper->runScript("if type(obj.createClassCAsB())==PythonQt.ClassC: obj.setPassed();\n")); QVERIFY(_helper->runScript("if type(obj.createClassDAsB())==PythonQt.ClassD: obj.setPassed();\n")); } void PythonQtTestSlotCalling::testAutoConversion() { QVERIFY(_helper->runScript("if obj.setAutoConvertColor(PythonQt.QtCore.Qt.red)==PythonQt.Qt.QColor(PythonQt.QtCore.Qt.red): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.setAutoConvertBrush(PythonQt.QtCore.Qt.red)==PythonQt.Qt.QBrush(PythonQt.QtCore.Qt.red): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.setAutoConvertPen(PythonQt.QtCore.Qt.red)==PythonQt.Qt.QPen(PythonQt.QtCore.Qt.red): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.setAutoConvertBrush(PythonQt.Qt.QColor(PythonQt.QtCore.Qt.red))==PythonQt.Qt.QBrush(PythonQt.QtCore.Qt.red): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.setAutoConvertPen(PythonQt.Qt.QColor(PythonQt.QtCore.Qt.red))==PythonQt.Qt.QPen(PythonQt.QtCore.Qt.red): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.setAutoConvertCursor(PythonQt.Qt.QCursor(PythonQt.QtCore.Qt.UpArrowCursor)).shape()==PythonQt.Qt.QCursor(PythonQt.QtCore.Qt.UpArrowCursor).shape(): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.setAutoConvertCursor(PythonQt.QtCore.Qt.UpArrowCursor).shape()==PythonQt.Qt.QCursor(PythonQt.QtCore.Qt.UpArrowCursor).shape(): obj.setPassed();\n")); } void PythonQtTestSlotCalling::testNoArgSlotCall() { QVERIFY(_helper->runScript("obj.testNoArg(); obj.setPassed();\n")); } void PythonQtTestSlotCalling::testOverloadedCall() { QVERIFY(_helper->runScript("obj.overload(False); obj.setPassed();\n", 0)); QVERIFY(_helper->runScript("obj.overload(True); obj.setPassed();\n", 0)); QVERIFY(_helper->runScript("obj.overload(12.5); obj.setPassed();\n", 1)); QVERIFY(_helper->runScript("obj.overload(12); obj.setPassed();\n", 2)); QVERIFY(_helper->runScript("obj.overload('test'); obj.setPassed();\n", 3)); QVERIFY(_helper->runScript("obj.overload(u'test'); obj.setPassed();\n", 3)); QVERIFY(_helper->runScript("obj.overload(('test','test2')); obj.setPassed();\n", 4)); QVERIFY(_helper->runScript("obj.overload(obj); obj.setPassed();\n", 5)); QVERIFY(_helper->runScript("obj.overload(12,13); obj.setPassed();\n", 6)); } void PythonQtTestSlotCalling::testPyObjectSlotCall() { QVERIFY(_helper->runScript("if obj.getPyObject(PythonQt)==PythonQt: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getPyObject('Hello')=='Hello': obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getPyObjectFromVariant(PythonQt)==PythonQt: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getPyObjectFromVariant2(PythonQt)==PythonQt: obj.setPassed();\n")); // QVERIFY(_helper->runScript("if obj.getPyObjectFromPtr(PythonQt)==PythonQt: obj.setPassed();\n")); } void PythonQtTestSlotCalling::testCPPSlotCalls() { // test QColor compare operation QVERIFY(_helper->runScript("if PythonQt.QtGui.QColor(1,2,3)==PythonQt.QtGui.QColor(1,2,3): obj.setPassed();obj.testNoArg()\n")); QVERIFY(_helper->runScript("if PythonQt.QtGui.QColor(1,2,3)!=PythonQt.QtGui.QColor(3,2,1): obj.setPassed();obj.testNoArg()\n")); // test passing/returning QColors QVERIFY(_helper->runScript("if obj.getQColor1(PythonQt.QtGui.QColor(1,2,3))==PythonQt.QtGui.QColor(1,2,3): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQColor2(PythonQt.QtGui.QColor(1,2,3))==PythonQt.QtGui.QColor(1,2,3): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQColor3(PythonQt.QtGui.QColor(1,2,3))==PythonQt.QtGui.QColor(1,2,3): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQColor4(PythonQt.QtGui.QColor(1,2,3))==PythonQt.QtGui.QColor(1,2,3): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQColor5()==PythonQt.QtGui.QColor(1,2,3): obj.setPassed();\n")); } void PythonQtTestSlotCalling::testPODSlotCalls() { QVERIFY(_helper->runScript("if obj.getBool(False)==False: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getBool(True)==True: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getInt(-42)==-42: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getUInt(42)==42: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getShort(-43)==-43: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getUShort(43)==43: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getChar(-12)==-12: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getUChar(12)==12: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getLong(-256*256*256)==-256*256*256: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getULong(256*256*256)==256*256*256: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getLongLong(-42)==-42: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getULongLong(42)==42: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQChar(4096)==4096: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getDouble(47.12)==47.12: obj.setPassed();\n")); QVERIFY(_helper->runScript("if abs(obj.getFloat(47.11)-47.11)<0.01: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQString('testStr')=='testStr': obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQString('')=='': obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQStringList(('test','test2'))==('test','test2'): obj.setPassed();\n")); } void PythonQtTestSlotCalling::testQVariantSlotCalls() { QVERIFY(_helper->runScript("if obj.getQVariant(-42)==-42: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQVariant('testStr')=='testStr': obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQVariant(('test','test2'))==('test','test2'): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQVariant(('test',12, 47.11))==('test',12, 47.11): obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQVariant({'test':'bla','test2':47.11})=={'test':'bla','test2':47.11}: obj.setPassed();\n")); QEXPECT_FAIL("", "Testing to pass a map and compare with a different map", Continue); QVERIFY(_helper->runScript("if obj.getQVariant({'test':'bla2','test2':47.11})=={'test':'bla','test2':47.11}: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getQVariant(obj)==obj: obj.setPassed();\n")); } void PythonQtTestSlotCalling::testObjectSlotCalls() { QVERIFY(_helper->runScript("if obj.getQObject(obj)==obj: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getTestObject(obj)==obj: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getNewObject().className()=='PythonQtTestSlotCallingHelper': obj.setPassed();\n")); QEXPECT_FAIL("", "Testing to pass a QObject when another object was expected", Continue); QVERIFY(_helper->runScript("if obj.getQWidget(obj)==obj: obj.setPassed();\n")); } void PythonQtTestSlotCalling::testCppFactory() { PythonQtTestCppFactory* f = new PythonQtTestCppFactory; PythonQt::self()->addInstanceDecorators(new PQCppObjectDecorator); // do not register, since we want to know if that works as well //qRegisterMetaType("PQCppObjectNoWrap"); PythonQt::self()->addDecorators(new PQCppObjectNoWrapDecorator); PythonQt::self()->addWrapperFactory(f); QVERIFY(_helper->runScript("if obj.createPQCppObject(12).getHeight()==12: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.createPQCppObject(12).getH()==12: obj.setPassed();\n")); QVERIFY(_helper->runScript("pq1 = obj.createPQCppObject(12);\n" "pq2 = obj.createPQCppObject(13);\n" "pq3 = obj.getPQCppObject(pq1);\n" "pq4 = obj.getPQCppObject(pq2);\n" "if pq3.getHeight()==12 and pq4.getHeight()==13: obj.setPassed();\n" )); QVERIFY(_helper->runScript("if obj.createPQCppObjectNoWrap(12).getH()==12: obj.setPassed();\n")); QVERIFY(_helper->runScript("if obj.getPQCppObjectNoWrapAsValue().getH()==47: obj.setPassed();\n")); qRegisterMetaType("PQUnknownButRegisteredValueObject"); QVERIFY(_helper->runScript("a = obj.getUnknownButRegisteredValueObjectAsPtr();print a;\nif a!=None: obj.setPassed();\n")); QVERIFY(_helper->runScript("a = obj.getUnknownButRegisteredValueObjectAsValue();print a;\nif a!=None: obj.setPassed();\n")); QVERIFY(_helper->runScript("a = obj.getUnknownValueObjectAsPtr();print a;\nif a!=None: obj.setPassed();\n")); QEXPECT_FAIL("", "Testing by value return without the object being registered as QMetaType or having registered a default constructor decorator", Continue); QVERIFY(_helper->runScript("a = obj.getUnknownValueObjectAsValue();print a;\nif a!=None: obj.setPassed();\n")); // expect to get strict call to double overload QVERIFY(_helper->runScript("obj.testNoArg()\nfrom PythonQt import PQCppObjectNoWrap\na = PQCppObjectNoWrap(22.2)\nif a.getH()==2: obj.setPassed();\n")); // expect to get un-strict call to double overload QVERIFY(_helper->runScript("obj.testNoArg()\nfrom PythonQt import PQCppObjectNoWrap\na = PQCppObjectNoWrap(22)\nif a.getH()==2: obj.setPassed();\n")); // expect to get strict call to copy constructor overload QVERIFY(_helper->runScript("obj.testNoArg()\nfrom PythonQt import PQCppObjectNoWrap\na = PQCppObjectNoWrap(PQCppObjectNoWrap())\nprint a.getH()\nif a.getH()==1: obj.setPassed();\n")); // test decorated enums // already registered by signals test //PythonQt::self()->registerCPPClass("PQCppObject2",NULL,NULL, PythonQtCreateObject); // local enum (decorated) QVERIFY(_helper->runScript("obj.testNoArg()\nfrom PythonQt import PQCppObject2\na = PQCppObject2()\nprint a.testEnumFlag1\nif a.testEnumFlag1(PQCppObject2.TestEnumValue2)==PQCppObject2.TestEnumValue2: obj.setPassed();\n")); // enum with namespace (decorated) QVERIFY(_helper->runScript("obj.testNoArg()\nfrom PythonQt import PQCppObject2\na = PQCppObject2()\nif a.testEnumFlag2(PQCppObject2.TestEnumValue2)==PQCppObject2.TestEnumValue2: obj.setPassed();\n")); // with int overload to check overloading QVERIFY(_helper->runScript("obj.testNoArg()\nfrom PythonQt import PQCppObject2\na = PQCppObject2()\nif a.testEnumFlag3(PQCppObject2.TestEnumValue2)==PQCppObject2.TestEnumValue2: obj.setPassed();\n")); } PQCppObject2Decorator::TestEnumFlag PQCppObject2Decorator::testEnumFlag1(PQCppObject2* obj, PQCppObject2Decorator::TestEnumFlag flag) { return flag; } PQCppObject2::TestEnumFlag PQCppObject2Decorator::testEnumFlag2(PQCppObject2* obj, PQCppObject2::TestEnumFlag flag) { return flag; } // with int overload PQCppObject2Decorator::TestEnumFlag PQCppObject2Decorator::testEnumFlag3(PQCppObject2* obj, int flag) { return (TestEnumFlag)-1; } PQCppObject2Decorator::TestEnumFlag PQCppObject2Decorator::testEnumFlag3(PQCppObject2* obj, PQCppObject2Decorator::TestEnumFlag flag) { return flag; } void PythonQtTestSlotCalling::testMultiArgsSlotCall() { QVERIFY(_helper->runScript("if obj.getMultiArgs(12,47.11,'test')==(12,47.11,'test'): obj.setPassed();\n")); } bool PythonQtTestSlotCallingHelper::runScript(const char* script, int expectedOverload) { _called = false; _passed = false; _calledOverload = -1; PyRun_SimpleString(script); return _called && _passed && _calledOverload==expectedOverload; } void PythonQtTestSignalHandler::initTestCase() { _helper = new PythonQtTestSignalHandlerHelper(this); PythonQtObjectPtr main = PythonQt::self()->getMainModule(); PythonQt::self()->addObject(main, "obj", _helper); } void PythonQtTestSignalHandler::testSignalHandler() { PythonQtObjectPtr main = PythonQt::self()->getMainModule(); PyRun_SimpleString("def testIntSignal(a):\n if a==12: obj.setPassed();\n"); QVERIFY(PythonQt::self()->addSignalHandler(_helper, SIGNAL(intSignal(int)), main, "testIntSignal")); QVERIFY(_helper->emitIntSignal(12)); PyRun_SimpleString("def testFloatSignal(a):\n if a==12: obj.setPassed();\n"); QVERIFY(PythonQt::self()->addSignalHandler(_helper, SIGNAL(floatSignal(float)), main, "testFloatSignal")); QVERIFY(_helper->emitFloatSignal(12)); // test decorated enums PythonQt::self()->registerCPPClass("PQCppObject2",NULL,NULL, PythonQtCreateObject); PyRun_SimpleString("def testEnumSignal(a):\n if a==1: obj.setPassed();\n"); QVERIFY(PythonQt::self()->addSignalHandler(_helper, SIGNAL(enumSignal(PQCppObject2::TestEnumFlag)), main, "testEnumSignal")); QVERIFY(_helper->emitEnumSignal(PQCppObject2::TestEnumValue2)); PyRun_SimpleString("def testVariantSignal(a):\n if a==obj.expectedVariant(): obj.setPassed();\n"); QVERIFY(PythonQt::self()->addSignalHandler(_helper, SIGNAL(variantSignal(QVariant)), main, "testVariantSignal")); _helper->setExpectedVariant(QString("Test")); QVERIFY(_helper->emitVariantSignal(QString("Test"))); _helper->setExpectedVariant(12); QVERIFY(_helper->emitVariantSignal(12)); _helper->setExpectedVariant(QStringList() << "test1" << "test2"); QVERIFY(_helper->emitVariantSignal(QStringList() << "test1" << "test2")); _helper->setExpectedVariant(qVariantFromValue((QObject*)_helper)); QVERIFY(_helper->emitVariantSignal(qVariantFromValue((QObject*)_helper))); PyRun_SimpleString("def testComplexSignal(a,b,l,o):\n if a==12 and b==13 and l==('test1','test2') and o == obj: obj.setPassed();\n"); // intentionally not normalized signal: QVERIFY(PythonQt::self()->addSignalHandler(_helper, SIGNAL(complexSignal( int, float , const QStringList , QObject*)), main, "testComplexSignal")); QVERIFY(_helper->emitComplexSignal(12,13,QStringList() << "test1" << "test2", _helper)); // try removing the handler QVERIFY(PythonQt::self()->removeSignalHandler(_helper, SIGNAL(complexSignal( int, float , const QStringList , QObject*)), main, "testComplexSignal")); // and emit the signal, which should fail because the handler was removed QVERIFY(!_helper->emitComplexSignal(12,13,QStringList() << "test1" << "test2", _helper)); QVERIFY(PythonQt::self()->removeSignalHandler(_helper, SIGNAL(intSignal(int)), main, "testIntSignal")); QVERIFY(PythonQt::self()->removeSignalHandler(_helper, SIGNAL(floatSignal(float)), main, "testFloatSignal")); QVERIFY(PythonQt::self()->removeSignalHandler(_helper, SIGNAL(variantSignal(QVariant)), main, "testVariantSignal")); QVERIFY(PythonQt::self()->removeSignalHandler(_helper, SIGNAL(enumSignal(PQCppObject2::TestEnumFlag)), main, "testEnumSignal")); } void PythonQtTestSignalHandler::testRecursiveSignalHandler() { PythonQtObjectPtr main = PythonQt::self()->getMainModule(); PyRun_SimpleString("def testSignal1(a):\n obj.emitSignal2(a);\n"); PyRun_SimpleString("def testSignal2(a):\n obj.emitSignal3(float(a));\n"); PyRun_SimpleString("def testSignal3(a):\n if a==12: obj.setPassed();\n"); QVERIFY(PythonQt::self()->addSignalHandler(_helper, SIGNAL(signal1(int)), main, "testSignal1")); QVERIFY(PythonQt::self()->addSignalHandler(_helper, SIGNAL(signal2(const QString&)), main, "testSignal2")); QVERIFY(PythonQt::self()->addSignalHandler(_helper, SIGNAL(signal3(float)), main, "testSignal3")); QVERIFY(_helper->emitSignal1(12)); } void PythonQtTestApi::initTestCase() { _helper = new PythonQtTestApiHelper(); _main = PythonQt::self()->getMainModule(); _main.evalScript("import PythonQt"); _main.addObject("obj", _helper); } void PythonQtTestApi::testProperties() { PythonQtObjectPtr main = PythonQt::self()->getMainModule(); // check for name alias (for backward comp to Qt3) main.evalScript("obj.name = 'hello'"); QVERIFY(QString("hello") == main.getVariable("obj.name").toString()); main.evalScript("obj.objectName = 'hello2'"); QVERIFY(QString("hello2") == main.getVariable("obj.objectName").toString()); } void PythonQtTestApi::testDynamicProperties() { PythonQtObjectPtr main = PythonQt::self()->getMainModule(); // this fails and should fail, but how could that be tested? // main.evalScript("obj.testProp = 1"); // create a new dynamic property main.evalScript("obj.setProperty('testProp','testValue')"); // read the property QVERIFY(QString("testValue") == main.getVariable("obj.testProp").toString()); // modify and read again main.evalScript("obj.testProp = 12"); QVERIFY(12 == main.getVariable("obj.testProp").toInt()); // check if dynamic property is in dict QVERIFY(12 == main.evalScript("obj.__dict__['testProp']", Py_eval_input).toInt()); // check if dynamic property is in introspection QStringList l = PythonQt::self()->introspection(PythonQt::self()->getMainModule(), "obj", PythonQt::Anything); QVERIFY(l.contains("testProp")); // check with None, previous value expected main.evalScript("obj.testProp = None"); QVERIFY(12 == main.getVariable("obj.testProp").toInt()); } bool PythonQtTestApiHelper::call(const QString& function, const QVariantList& args, const QVariant& expectedResult) { _passed = false; QVariant r = PythonQt::self()->call(PythonQt::self()->getMainModule(), function, args); return _passed && expectedResult==r; } void PythonQtTestApi::testCall() { PythonQtObjectPtr main = PythonQt::self()->getMainModule(); QVERIFY(qVariantValue(PythonQt::self()->getVariable(main, "obj"))==_helper); PyRun_SimpleString("def testCallNoArgs():\n obj.setPassed();\n"); QVERIFY(_helper->call("testCallNoArgs", QVariantList(), QVariant())); PyRun_SimpleString("def testCall1(a):\n if a=='test': obj.setPassed();\n return 'test2';\n"); QVERIFY(_helper->call("testCall1", QVariantList() << QVariant("test"), QVariant(QString("test2")))); PyRun_SimpleString("def testCall2(a, b):\n if a=='test' and b==obj: obj.setPassed();\n return obj;\n"); QVariant r = PythonQt::self()->call(PythonQt::self()->getMainModule(), "testCall2", QVariantList() << QVariant("test") << qVariantFromValue((QObject*)_helper)); QObject* p = qVariantValue(r); QVERIFY(p==_helper); } void PythonQtTestApi::testVariables() { PythonQt::self()->addObject(PythonQt::self()->getMainModule(), "someObject", _helper); QVariant v = PythonQt::self()->getVariable(PythonQt::self()->getMainModule(), "someObject"); QObject* p = qVariantValue(v); QVERIFY(p==_helper); // test for unset variable QVariant v2 = PythonQt::self()->getVariable(PythonQt::self()->getMainModule(), "someObject2"); QVERIFY(v2==QVariant()); PythonQt::self()->addVariable(PythonQt::self()->getMainModule(), "someValue", QStringList() << "test1" << "test2"); QVariant v3 = PythonQt::self()->getVariable(PythonQt::self()->getMainModule(), "someValue"); QVERIFY(v3 == QVariant(QStringList() << "test1" << "test2")); QStringList l = PythonQt::self()->introspection(PythonQt::self()->getMainModule(), QString::null, PythonQt::Variable); QSet s; // check that at least these three variables are set s << "obj" << "someObject" << "someValue"; foreach (QString value, s) { QVERIFY(l.indexOf(value)!=-1); } // insert a second time! PythonQt::self()->addObject(PythonQt::self()->getMainModule(), "someObject", _helper); // and remove PythonQt::self()->removeVariable(PythonQt::self()->getMainModule(), "someObject"); // we expect to find no variable QVariant v4 = PythonQt::self()->getVariable(PythonQt::self()->getMainModule(), "someObject"); QVERIFY(v4==QVariant()); } void PythonQtTestApi::testImporter() { PythonQt::self()->setImporter(_helper); PythonQt::self()->overwriteSysPath(QStringList() << "c:\\test"); PyRun_SimpleString("import bla\n"); } void PythonQtTestApi::testQtNamespace() { QVERIFY(_main.getVariable("PythonQt.QtCore.Qt.red").toInt()==Qt::red); QVERIFY(_main.getVariable("PythonQt.QtCore.Qt.FlatCap").toInt()==Qt::FlatCap); QVERIFY(PythonQtObjectPtr(_main.getVariable("PythonQt.QtCore.Qt.escape"))); // check for an enum type wrapper QVERIFY(PythonQtObjectPtr(_main.getVariable("PythonQt.QtCore.Qt.AlignmentFlag"))); // check for a flags type wrapper QVERIFY(PythonQtObjectPtr(_main.getVariable("PythonQt.QtCore.Qt.Alignment"))); } void PythonQtTestApi::testConnects() { // QVERIFY(qVariantValue(_main.evalScript("PythonQt.Qt.QColor(PythonQt.Qt.Qt.red)" ,Py_eval_input)) == QColor(Qt::red)); //TODO: add signal/slot connect both with QObject.connect and connect } void PythonQtTestApi::testQColorDecorators() { PythonQtObjectPtr colorClass = _main.getVariable("PythonQt.QtGui.QColor"); QVERIFY(colorClass); // verify that the class is in the correct module QVERIFY(colorClass.getVariable("__module__") == "PythonQt.QtGui"); // test on Qt module as well: colorClass = _main.getVariable("PythonQt.Qt.QColor"); QVERIFY(colorClass); // constructors QVERIFY(qVariantValue(colorClass.call(QVariantList() << 1 << 2 << 3)) == QColor(1,2,3)); QVERIFY(qVariantValue(colorClass.call()) == QColor()); QEXPECT_FAIL("", "Testing non-existing constructor", Continue); QVERIFY(colorClass.call(QVariantList() << 1 << 2) != QVariant()); // check that enum overload is taken over int QVERIFY(qVariantValue(_main.evalScript("PythonQt.Qt.QColor(PythonQt.Qt.Qt.red)" ,Py_eval_input)) == QColor(Qt::red)); // check that int overload is taken over enum QVERIFY(qVariantValue(_main.evalScript("PythonQt.Qt.QColor(0x112233)" ,Py_eval_input)) == QColor(0x112233)); // check for decorated Cmyk enum value QVERIFY(colorClass.getVariable("Cmyk").toInt() == QColor::Cmyk); PythonQtObjectPtr staticMethod = colorClass.getVariable("fromRgb"); QVERIFY(staticMethod); // direct call of static method via class QVERIFY(qVariantValue(colorClass.call("fromRgb", QVariantList() << 1 << 2 << 3)) == QColor(1,2,3)); // direct call of static method QVERIFY(qVariantValue(staticMethod.call(QVariantList() << 1 << 2 << 3)) == QColor(1,2,3)); PythonQtObjectPtr publicMethod = colorClass.getVariable("red"); QVERIFY(publicMethod); // call with passing self in: QVERIFY(colorClass.call("red", QVariantList() << QColor(255,0,0)).toInt() == 255); } QByteArray PythonQtTestApiHelper::readFileAsBytes(const QString& filename) { QByteArray b; return b; } QByteArray PythonQtTestApiHelper::readSourceFile(const QString& filename, bool& ok) { QByteArray b; ok = true; return b; } bool PythonQtTestApiHelper::exists(const QString& filename) { return true; } QDateTime PythonQtTestApiHelper::lastModifiedDate(const QString& filename) { return QDateTime::currentDateTime(); } void PythonQtTestApi::testRedirect() { connect(PythonQt::self(), SIGNAL(pythonStdOut(const QString&)), _helper, SLOT(stdOut(const QString&))); connect(PythonQt::self(), SIGNAL(pythonStdErr(const QString&)), _helper, SLOT(stdErr(const QString&))); PyRun_SimpleString("print 'test'\n"); } void PythonQtTestApiHelper::stdOut(const QString& s) { qDebug() << s; } void PythonQtTestApiHelper::stdErr(const QString& s) { qDebug() << s; } QObject* PythonQtTestCppFactory::create(const QByteArray& name, void *ptr) { if (name == "PQCppObject") { return new PQCppObjectWrapper(ptr); } return NULL; }