/* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ package lib; import com.sun.star.beans.Property; import com.sun.star.beans.PropertyAttribute; import com.sun.star.beans.PropertyVetoException; import com.sun.star.beans.XPropertySet; import com.sun.star.beans.XPropertySetInfo; import com.sun.star.beans.UnknownPropertyException; import com.sun.star.lang.IllegalArgumentException; import com.sun.star.lang.WrappedTargetException; import java.lang.reflect.Array; import java.lang.reflect.Field; import java.lang.reflect.Method; import java.lang.reflect.Modifier; import util.ValueChanger; import util.ValueComparer; import util.utils; /** * MultiPropertyTest extends the functionality of MultiMethodTest to support * services testing. Since, in most cases, service tests has one method testing * most of its properties, the MultiPropertyTest provides unified version of * the method: testProperty(). * *

The testProperty() is called, when the MultiMethodTest's testing method * is not found in the subclass. So, by defining such methods for properties * the standard testing behaviour can be changed. * *

The testing behaviour also can be changed by overriding compare(), * getNewVAlue() or toString(Object) methods, or by extending PropertyTester * class. * * @see MultiMethodTest * @see #testProperty(String) * @see #testProperty(String, PropertyTester) * @see #compare * @see #toString(Object) */ public class MultiPropertyTest extends MultiMethodTest { /** * Contains a XPropertySet interface of the tested object. Is initialized * in MultiMethodTest code. */ public XPropertySet oObj; /** * Overrides MultiMethodTest.invokeTestMethod(). If the test for the * meth is not available (meth == null) * calls testProperty method for the method. Otherwise calls * super.invokeTestMethod(). * * @see MultiMethodTest#invokeTestMethod */ @Override protected void invokeTestMethod(Method meth, String methName) { if (meth != null) { super.invokeTestMethod(meth, methName); } else { testProperty(methName); } } /** * PropertyTester class defines how to test a property and defined * to allow subclasses of MultiPropertyTest to change the testing * behaviour more flexible, since the behaviour can be customized for * each property separately, by providing subclass of PropertyTester * and passing it to testProperty(String, PropertyTester method). */ public class PropertyTester { /** * The method defines the whole process of testing propName * property. * *

First, it checks if the property exists(it maybe optional). * Then, a value to set the property with is calculated with * getNewValue method. Normally, the new value is calculated * based on old value, but subclasses can override the behaviour * (for example, if old value is null) and specify their own value. * Then the property is set with that new value and the result( * it maybe an exception too, for example a PropertyVetoException) * is checked with checkResult method. * * @param propName - the property to test. * @result - adds the result of testing propName property to * MultiMethodTest.tRes. */ protected void testProperty(String propName) { XPropertySetInfo info = oObj.getPropertySetInfo(); if (info != null) { final boolean bHasProperty = info.hasPropertyByName(propName); if (!bHasProperty) { if (isOptional(propName) || entry.isOptional) { // skipping optional property test log.println("Property '" + propName + "' is optional and not supported"); tRes.tested(propName, true); return; } else { // cannot test the property log.println("Tested XPropertySet does not contain'" + propName + "' property"); tRes.tested(propName, false); return; } } } try { Object oldValue = oObj.getPropertyValue(propName); if( (oldValue==null) || utils.isVoid(oldValue) ) { // #i111560# method getNewValue() does not work with an empty oldValue Property prop = info.getPropertyByName(propName); if( (prop.Attributes & PropertyAttribute.MAYBEVOID) != 0 ) { // todo: implement a new test independent from method getNewValue() log.println("changing initially empty MAYBEVOID properties is not supported by the test framework so far - skip test of property: " + propName); tRes.tested(propName, true); return; } else { log.println( "property '"+propName+"' is not set but is not MAYBEVOID"); tRes.tested(propName, false); return; } } Object newValue; // trying to create new value try { newValue = getNewValue(propName, oldValue); } catch (java.lang.IllegalArgumentException e) { // skipping test since new value is not available Status.failed("Cannot create new value for '" + propName + " : " + e.getMessage()); return; } // for an exception thrown during setting new value // to pass it to checkResult method Exception exception = null; try { log.println("try to set:"); log.println("old = " + toString(oldValue)); log.println("new = " + toString(newValue)); oObj.setPropertyValue(propName, newValue); } catch (IllegalArgumentException e) { exception = e; } catch (PropertyVetoException e) { exception = e; } catch (WrappedTargetException e) { exception = e; } catch (UnknownPropertyException e) { exception = e; } catch (RuntimeException e) { exception = e; } // getting result value Object resValue = oObj.getPropertyValue(propName); // checking results checkResult(propName, oldValue, newValue, resValue, exception); } catch (Exception e) { log.println("Exception occurred while testing property '" + propName + "'"); e.printStackTrace(log); tRes.tested(propName, false); } } /** * The method checks result of setting a new value to the * property based o the following arguments: * @param propName - the property to test * @param oldValue - the old value of the property, before changing it. * @param newValue - the new value the property has been set with * @param resValue - the value of the property after having changed it * @param exception - if not null - the exception thrown by * XPropertySet.setPropertyValue, else indicates * normal method completion. * *

If the property is READ_ONLY, than either PropertyVetoException * should be thrown or the value of property should not have changed * (resValue is compared with oldValue with compare method). * *

If the property is not READ_ONLY, checks that the new value has * been successfully set(resValue is compared with newValue with * compare method). * *

If the exception is not null then(except the case of read-only * property and PropertyVetoException above) it is rethrown to allow * further catching it if needed. * *

Subclasses can override to change this behaviour. */ protected void checkResult(String propName, Object oldValue, Object newValue, Object resValue, Exception exception) throws Exception { XPropertySetInfo info = oObj.getPropertySetInfo(); if (info == null) { log.println("Can't get XPropertySetInfo for property " + propName); tRes.tested(propName, false); return; } Property prop = info.getPropertyByName(propName); boolean readOnly = (prop.Attributes & PropertyAttribute.READONLY) != 0; boolean maybeVoid = (prop.Attributes & PropertyAttribute.MAYBEVOID) != 0; //check get-set methods if (maybeVoid) { log.println("Property " + propName + " is void"); } if (readOnly) { log.println("Property " + propName + " is readOnly"); } if (util.utils.isVoid(oldValue) && !maybeVoid) { log.println(propName + " is void, but it's not MAYBEVOID"); tRes.tested(propName, false); } else if (oldValue == null) { log.println(propName + " has null value, and therefore can't be changed"); tRes.tested(propName, true); } else if (readOnly) { // check if exception was thrown if (exception != null) { if (exception instanceof PropertyVetoException) { // the change of read only prohibited - OK log.println("Property is ReadOnly and wasn't changed"); log.println("Property '" + propName + "' OK"); tRes.tested(propName, true); } else if (exception instanceof IllegalArgumentException) { // the change of read only prohibited - OK log.println("Property is ReadOnly and wasn't changed"); log.println("Property '" + propName + "' OK"); tRes.tested(propName, true); } else if (exception instanceof UnknownPropertyException) { // the change of read only prohibited - OK log.println("Property is ReadOnly and wasn't changed"); log.println("Property '" + propName + "' OK"); tRes.tested(propName, true); } else if (exception instanceof RuntimeException) { // the change of read only prohibited - OK log.println("Property is ReadOnly and wasn't changed"); log.println("Property '" + propName + "' OK"); tRes.tested(propName, true); } else { throw exception; } } else { // if no exception - check that value // has not changed if (!compare(resValue, oldValue)) { log.println("Read only property '" + propName + "' has changed"); log.println("result = " + toString(resValue)); tRes.tested(propName, false); } else { log.println("Read only property '" + propName + "' hasn't changed"); log.println("Property '" + propName + "' OK"); tRes.tested(propName, true); } } } else { if (exception == null) { // if no exception thrown // check that the new value is set if (!compare(resValue, newValue)) { log.println("Value for '" + propName + "' hasn't changed as expected"); log.println("result = " + toString(resValue)); if (!compare(resValue, oldValue)) { log.println("But it has changed."); tRes.tested(propName, true); } else { tRes.tested(propName, false); } } else { log.println("Property '" + propName + "' OK"); log.println("result = " + toString(resValue)); tRes.tested(propName, true); } } else { throw exception; } } } /** * The method produces new value of the property from the oldValue. * It returns the result of ValueChanger.changePValue method. * Subclasses can override the method to return their own value, * when the changePValue behavior is not enough, for example, * when oldValue is null. */ protected Object getNewValue(String propName, Object oldValue) throws java.lang.IllegalArgumentException { return ValueChanger.changePValue(oldValue, propName); } /** * The method compares obj1 and obj2. It calls * MultiPropertyTest.compare, but subclasses can override to change * the behavior, since normally compare calls Object.equals method * which is not appropriate in some cases(e.g., structs with equals * not overridden). */ protected boolean compare(Object obj1, Object obj2) { return MultiPropertyTest.this.compare(obj1, obj2); } /** * The method returns a String representation of the obj. It calls * MultipropertyTest.toString(Object), but subclasses can override * to change the behavior. */ protected String toString(Object obj) { return MultiPropertyTest.this.toString(obj); } } /** * Extension for PropertyTester which switches two * different values. getNewValue() method of this * class returns one of these two values depending on the * old value, so new value is not equal to old value. */ public class PropertyValueSwitcher extends PropertyTester { Object val1 = null; Object val2 = null; /** * Constructs a property tester with two different values * specified as parameters. * * @param val1 Not null value for the property * tested. * @param val2 Not null value for the property * tested which differs from the first value. */ public PropertyValueSwitcher(Object val1, Object val2) { this.val1 = val1; this.val2 = val2; } /** * Overridden method of PropertyTester which * retruns new value from two values specified. * * @return The second value if old value is equal to the first * one, the first value otherwise. */ @Override protected Object getNewValue(String propName, Object old) { if (ValueComparer.equalValue(val1, old)) { return val2; } else { return val1; } } } /** * The method performs testing of propName property using propTester. */ protected void testProperty(String propName, PropertyTester propTester) { propTester.testProperty(propName); } /** * The method performs testing of propName property. It uses PropertyTester * instance for testing. */ protected void testProperty(String propName) { testProperty(propName, new PropertyTester()); } /** * Tests the property using PropertyValueSwitcher * tester and two values for this property. * * @see PropertyValueSwitcher */ protected void testProperty(String propName, Object val1, Object val2) { testProperty(propName, new PropertyValueSwitcher(val1, val2)); } /** * Compares two object. In the implementation calls obj1.equals(obj2). */ protected boolean compare(Object obj1, Object obj2) { return ValueComparer.equalValue(obj1, obj2); } /** * Gets string representation of the obj. In the implementation * returns obj.toString(). */ protected String toString(Object obj) { if (obj == null) { return "null"; } StringBuilder s = new StringBuilder(obj.toString()); if (obj.getClass().isArray()) { int n = Array.getLength(obj); s.append('[').append(n).append("]{"); for (int i = 0; i != n; ++i) { if (i != 0) { s.append(", "); } s.append(toString(Array.get(obj, i))); } s.append('}'); } else if (ValueChanger.isStructure(obj)) { s.append('{'); Field[] fields = obj.getClass().getFields(); boolean first = true; for (int i = 0; i != fields.length; ++i) { if ((fields[i].getModifiers() & Modifier.STATIC) == 0) { if (!first) { s.append(", "); } first = false; try { s.append(toString(fields[i].get(obj))); } catch (IllegalAccessException e) { throw new RuntimeException("unexpected " + e, e); } } } s.append('}'); } return s.toString(); } }