/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * 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/. */ #include "basictest.hxx" #include #include #include namespace { using namespace com::sun::star; class Nested_Struct : public test::BootstrapFixture { public: Nested_Struct(): BootstrapFixture(true, false) {}; void testAssign1(); void testAssign1Alt(); // result is uno-ised and tested void testOldAssign(); void testOldAssignAlt(); // result is uno-ised and tested void testUnfixedVarAssign(); void testUnfixedVarAssignAlt(); // result is uno-ised and tested void testFixedVarAssign(); void testFixedVarAssignAlt(); // result is uno-ised and tested void testUnoAccess(); // fdo#60117 specific test // Adds code needed to register the test suite CPPUNIT_TEST_SUITE(Nested_Struct); // Declares the method as a test to call CPPUNIT_TEST(testAssign1); CPPUNIT_TEST(testAssign1Alt); CPPUNIT_TEST(testOldAssign); CPPUNIT_TEST(testOldAssignAlt); CPPUNIT_TEST(testUnfixedVarAssign); CPPUNIT_TEST(testUnfixedVarAssignAlt); CPPUNIT_TEST(testFixedVarAssign); CPPUNIT_TEST(testFixedVarAssignAlt); CPPUNIT_TEST(testUnoAccess); // End of test suite definition CPPUNIT_TEST_SUITE_END(); }; // tests the new behaviour, we should be able to // directly modify the value of the nested 'HorizontalLine' struct OUString sTestSource1( "Function doUnitTest() as Integer\n" "Dim b0 as new \"com.sun.star.table.TableBorder\"\n" "b0.HorizontalLine.OuterLineWidth = 9\n" "doUnitTest = b0.HorizontalLine.OuterLineWidth\n" "End Function\n" ); OUString sTestSource1Alt( "Function doUnitTest() as Object\n" "Dim b0 as new \"com.sun.star.table.TableBorder\"\n" "b0.HorizontalLine.OuterLineWidth = 9\n" "doUnitTest = b0\n" "End Function\n" ); // tests the old behaviour, we should still be able // to use the old workaround of // a) creating a new instance BorderLine, // b) cloning the new instance with the value of b0.HorizontalLine // c) modifying the new instance // d) setting b0.HorizontalLine with the value of the new instance OUString sTestSource2( "Function doUnitTest()\n" "Dim b0 as new \"com.sun.star.table.TableBorder\", l as new \"com.sun.star.table.BorderLine\"\n" "l = b0.HorizontalLine\n" "l.OuterLineWidth = 9\n" "b0.HorizontalLine = l\n" "doUnitTest = b0.HorizontalLine.OuterLineWidth\n" "End Function\n" ); OUString sTestSource2Alt( "Function doUnitTest()\n" "Dim b0 as new \"com.sun.star.table.TableBorder\", l as new \"com.sun.star.table.BorderLine\"\n" "l = b0.HorizontalLine\n" "l.OuterLineWidth = 9\n" "b0.HorizontalLine = l\n" "doUnitTest = b0\n" "End Function\n" ); // it should be legal to assign a variant to a struct ( and copy by val ) // make sure we aren't copying by reference, we make sure that l is not // a reference copy of b0.HorizontalLine, each one should have an // OuterLineWidth of 4 & 9 respectively and we should be returning // 13 the sum of the two ( hopefully unique values if we haven't copied by reference ) OUString sTestSource3( "Function doUnitTest()\n" "Dim b0 as new \"com.sun.star.table.TableBorder\"\n" "l = b0.HorizontalLine\n" "l.OuterLineWidth = 9\n" "b0.HorizontalLine = l\n" "l.OuterLineWidth = 4\n" "doUnitTest = b0.HorizontalLine.OuterLineWidth + l.OuterLineWidth\n" "End Function\n" ); OUString sTestSource3Alt( "Function doUnitTest()\n" "Dim b0 as new \"com.sun.star.table.TableBorder\"\n" "l = b0.HorizontalLine\n" "l.OuterLineWidth = 9\n" "b0.HorizontalLine = l\n" "l.OuterLineWidth = 4\n" "Dim result(1)\n" "result(0) = b0\n" "result(1) = l\n" "doUnitTest = result\n" "End Function\n" ); // nearly the same as above but this time for a fixed type // variable OUString sTestSource4( "Function doUnitTest()\n" "Dim b0 as new \"com.sun.star.table.TableBorder\", l as new \"com.sun.star.table.BorderLine\"\n" "l = b0.HorizontalLine\n" "l.OuterLineWidth = 9\n" "b0.HorizontalLine = l\n" "l.OuterLineWidth = 4\n" "doUnitTest = b0.HorizontalLine.OuterLineWidth + l.OuterLineWidth\n" "End Function\n" ); OUString sTestSource4Alt( "Function doUnitTest()\n" "Dim b0 as new \"com.sun.star.table.TableBorder\", l as new \"com.sun.star.table.BorderLine\"\n" "l = b0.HorizontalLine\n" "l.OuterLineWidth = 9\n" "b0.HorizontalLine = l\n" "l.OuterLineWidth = 4\n" "Dim result(1)\n" "result(0) = b0\n" "result(1) = l\n" "doUnitTest = result\n" "End Function\n" ); // Although basic might appear to correctly change nested struct elements // fdo#60117 shows that basic can be fooled ( and even the watch(ed) variable // in the debugger shows the expected values ) // We need to additionally check the actual uno struct to see if the // changes made are *really* reflected in the object OUString sTestSource5( "Function doUnitTest() as Object\n" "Dim aWinDesc as new \"com.sun.star.awt.WindowDescriptor\"\n" "Dim aRect as new \"com.sun.star.awt.Rectangle\"\n" "aRect.X = 200\n" "aWinDesc.Bounds = aRect\n" "doUnitTest = aWinDesc\n" "End Function\n" ); void Nested_Struct::testAssign1() { MacroSnippet myMacro( sTestSource1 ); myMacro.Compile(); CPPUNIT_ASSERT_MESSAGE("testAssign1 fails with compile error",!myMacro.HasError() ); SbxVariableRef pNew = myMacro.Run(); CPPUNIT_ASSERT_EQUAL(static_cast(9), pNew->GetInteger()); } void Nested_Struct::testAssign1Alt() { MacroSnippet myMacro( sTestSource1Alt ); myMacro.Compile(); CPPUNIT_ASSERT_MESSAGE("testAssign1Alt fails with compile error",!myMacro.HasError() ); SbxVariableRef pNew = myMacro.Run(); uno::Any aRet = sbxToUnoValue( pNew.get() ); table::TableBorder aBorder; aRet >>= aBorder; int result = aBorder.HorizontalLine.OuterLineWidth; CPPUNIT_ASSERT_EQUAL( 9, result ); } void Nested_Struct::testOldAssign() { MacroSnippet myMacro( sTestSource2 ); myMacro.Compile(); CPPUNIT_ASSERT_MESSAGE("testOldAssign fails with compile error",!myMacro.HasError() ); SbxVariableRef pNew = myMacro.Run(); CPPUNIT_ASSERT_EQUAL(static_cast(9), pNew->GetInteger()); } void Nested_Struct::testOldAssignAlt() { MacroSnippet myMacro( sTestSource2Alt ); myMacro.Compile(); CPPUNIT_ASSERT_MESSAGE("testOldAssign fails with compile error",!myMacro.HasError() ); SbxVariableRef pNew = myMacro.Run(); uno::Any aRet = sbxToUnoValue( pNew.get() ); table::TableBorder aBorder; aRet >>= aBorder; int result = aBorder.HorizontalLine.OuterLineWidth; CPPUNIT_ASSERT_EQUAL( 9, result ); } void Nested_Struct::testUnfixedVarAssign() { MacroSnippet myMacro( sTestSource3 ); myMacro.Compile(); CPPUNIT_ASSERT_MESSAGE("testUnfixedVarAssign fails with compile error",!myMacro.HasError() ); // forces a broadcast SbxVariableRef pNew = myMacro.Run(); CPPUNIT_ASSERT_EQUAL(static_cast(13), pNew->GetInteger()); } void Nested_Struct::testUnfixedVarAssignAlt() { MacroSnippet myMacro( sTestSource3Alt ); myMacro.Compile(); CPPUNIT_ASSERT_MESSAGE("testUnfixedVarAssignAlt fails with compile error",!myMacro.HasError() ); SbxVariableRef pNew = myMacro.Run(); uno::Any aRet = sbxToUnoValue( pNew.get() ); uno::Sequence< uno::Any > aResult; bool bRes = aRet >>= aResult; CPPUNIT_ASSERT_EQUAL(true, bRes ); int result = aResult.getLength(); // should have 2 elements in a sequence returned CPPUNIT_ASSERT_EQUAL(2, result ); table::TableBorder aBorder; aResult[0] >>= aBorder; table::BorderLine aBorderLine; aResult[1] >>= aBorderLine; result = aBorder.HorizontalLine.OuterLineWidth; CPPUNIT_ASSERT_EQUAL(9, result ); result = aBorderLine.OuterLineWidth; CPPUNIT_ASSERT_EQUAL(4, result ); } void Nested_Struct::testFixedVarAssign() { MacroSnippet myMacro( sTestSource4 ); myMacro.Compile(); CPPUNIT_ASSERT_MESSAGE("testFixedVarAssign fails with compile error",!myMacro.HasError() ); SbxVariableRef pNew = myMacro.Run(); CPPUNIT_ASSERT_EQUAL(static_cast(13), pNew->GetInteger()); } void Nested_Struct::testFixedVarAssignAlt() { MacroSnippet myMacro( sTestSource4Alt ); myMacro.Compile(); CPPUNIT_ASSERT_MESSAGE("testFixedVarAssignAlt fails with compile error",!myMacro.HasError() ); SbxVariableRef pNew = myMacro.Run(); uno::Any aRet = sbxToUnoValue( pNew.get() ); uno::Sequence< uno::Any > aResult; bool bRes = aRet >>= aResult; CPPUNIT_ASSERT_EQUAL(true, bRes ); int result = aResult.getLength(); // should have 2 elements in a sequence returned CPPUNIT_ASSERT_EQUAL(2, result ); table::TableBorder aBorder; aResult[0] >>= aBorder; table::BorderLine aBorderLine; aResult[1] >>= aBorderLine; result = aBorder.HorizontalLine.OuterLineWidth; CPPUNIT_ASSERT_EQUAL(9, result ); result = aBorderLine.OuterLineWidth; CPPUNIT_ASSERT_EQUAL(4, result ); } void Nested_Struct::testUnoAccess() { MacroSnippet myMacro( sTestSource5 ); myMacro.Compile(); CPPUNIT_ASSERT_MESSAGE("testUnoAccess fails with compile error",!myMacro.HasError() ); SbxVariableRef pNew = myMacro.Run(); uno::Any aRet = sbxToUnoValue( pNew.get() ); awt::WindowDescriptor aWinDesc; aRet >>= aWinDesc; int result = aWinDesc.Bounds.X; CPPUNIT_ASSERT_EQUAL(200, result ); } // Put the test suite in the registry CPPUNIT_TEST_SUITE_REGISTRATION(Nested_Struct); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */