/* -*- 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/. * * 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 . */ #include #include #include #include "cppunit/TestAssert.h" #include "cppunit/TestFixture.h" #include "cppunit/extensions/HelperMacros.h" #include "cppunit/plugin/TestPlugIn.h" #include "rtl/string.hxx" #include "rtl/ustring.hxx" namespace { class TestString: public CppUnit::TestFixture { public: void testNatural(); void testRemove(); void testStripStart(); void testStripEnd(); void testStrip(); void testToken(); void testTokenCount(); void testDecimalStringToNumber(); void testIsdigitAsciiString(); void testReverseString(); void testEqualsString(); CPPUNIT_TEST_SUITE(TestString); CPPUNIT_TEST(testNatural); CPPUNIT_TEST(testRemove); CPPUNIT_TEST(testStripStart); CPPUNIT_TEST(testStripEnd); CPPUNIT_TEST(testStrip); CPPUNIT_TEST(testToken); CPPUNIT_TEST(testTokenCount); CPPUNIT_TEST(testDecimalStringToNumber); CPPUNIT_TEST(testIsdigitAsciiString); CPPUNIT_TEST(testReverseString); CPPUNIT_TEST(testEqualsString); CPPUNIT_TEST_SUITE_END(); }; void TestString::testDecimalStringToNumber() { rtl::OUString s1("1234"); CPPUNIT_ASSERT_EQUAL((sal_uInt32)1234, comphelper::string::decimalStringToNumber(s1)); s1 += rtl::OUString(static_cast(0x07C6)); CPPUNIT_ASSERT_EQUAL((sal_uInt32)12346, comphelper::string::decimalStringToNumber(s1)); // Codepoints on 2 16bits words sal_uInt32 utf16String[] = { 0x1D7FE /* 8 */, 0x1D7F7 /* 1 */}; s1 = rtl::OUString(utf16String, 2); CPPUNIT_ASSERT_EQUAL((sal_uInt32)81, comphelper::string::decimalStringToNumber(s1)); } void TestString::testIsdigitAsciiString() { rtl::OString s1("1234"); CPPUNIT_ASSERT_EQUAL(comphelper::string::isdigitAsciiString(s1), true); rtl::OString s2("1A34"); CPPUNIT_ASSERT_EQUAL(comphelper::string::isdigitAsciiString(s2), false); rtl::OString s3; CPPUNIT_ASSERT_EQUAL(comphelper::string::isdigitAsciiString(s3), true); } using namespace ::com::sun::star; class testCollator : public cppu::WeakImplHelper1< i18n::XCollator > { public: virtual sal_Int32 SAL_CALL compareSubstring( const rtl::OUString& str1, sal_Int32 off1, sal_Int32 len1, const rtl::OUString& str2, sal_Int32 off2, sal_Int32 len2) throw(uno::RuntimeException) { return str1.copy(off1, len1).compareTo(str2.copy(off2, len2)); } virtual sal_Int32 SAL_CALL compareString( const rtl::OUString& str1, const rtl::OUString& str2) throw(uno::RuntimeException) { return str1.compareTo(str2); } virtual sal_Int32 SAL_CALL loadDefaultCollator(const lang::Locale&, sal_Int32) throw(uno::RuntimeException) {return 0;} virtual sal_Int32 SAL_CALL loadCollatorAlgorithm(const rtl::OUString&, const lang::Locale&, sal_Int32) throw(uno::RuntimeException) {return 0;} virtual void SAL_CALL loadCollatorAlgorithmWithEndUserOption(const rtl::OUString&, const lang::Locale&, const uno::Sequence< sal_Int32 >&) throw(uno::RuntimeException) {} virtual uno::Sequence< rtl::OUString > SAL_CALL listCollatorAlgorithms(const lang::Locale&) throw(uno::RuntimeException) { return uno::Sequence< rtl::OUString >(); } virtual uno::Sequence< sal_Int32 > SAL_CALL listCollatorOptions(const rtl::OUString&) throw(uno::RuntimeException) { return uno::Sequence< sal_Int32 >(); } }; #define IS_DIGIT(CHAR) (((CHAR) >= 48) && ((CHAR <= 57))) class testBreakIterator : public cppu::WeakImplHelper1< i18n::XBreakIterator > { public: virtual sal_Int32 SAL_CALL nextCharacters( const rtl::OUString&, sal_Int32, const lang::Locale&, sal_Int16, sal_Int32, sal_Int32& ) throw(uno::RuntimeException) {return -1;} virtual sal_Int32 SAL_CALL previousCharacters( const rtl::OUString&, sal_Int32, const lang::Locale&, sal_Int16, sal_Int32, sal_Int32& ) throw(uno::RuntimeException) {return -1;} virtual i18n::Boundary SAL_CALL previousWord( const rtl::OUString&, sal_Int32, const lang::Locale&, sal_Int16) throw(uno::RuntimeException) { return i18n::Boundary(); } virtual i18n::Boundary SAL_CALL nextWord( const rtl::OUString&, sal_Int32, const lang::Locale&, sal_Int16) throw(uno::RuntimeException) { return i18n::Boundary(); } virtual i18n::Boundary SAL_CALL getWordBoundary( const rtl::OUString&, sal_Int32, const lang::Locale&, sal_Int16, sal_Bool ) throw(uno::RuntimeException) { return i18n::Boundary(); } virtual sal_Bool SAL_CALL isBeginWord( const rtl::OUString&, sal_Int32, const lang::Locale&, sal_Int16 ) throw(uno::RuntimeException) { return false; } virtual sal_Bool SAL_CALL isEndWord( const rtl::OUString&, sal_Int32, const lang::Locale& , sal_Int16 ) throw(uno::RuntimeException) { return false; } virtual sal_Int16 SAL_CALL getWordType( const rtl::OUString&, sal_Int32, const lang::Locale& ) throw(uno::RuntimeException) { return 0; } virtual sal_Int32 SAL_CALL beginOfSentence( const rtl::OUString&, sal_Int32, const lang::Locale& ) throw(uno::RuntimeException) { return 0; } virtual sal_Int32 SAL_CALL endOfSentence( const rtl::OUString& rText, sal_Int32, const lang::Locale& ) throw(uno::RuntimeException) { return rText.getLength(); } virtual i18n::LineBreakResults SAL_CALL getLineBreak( const rtl::OUString&, sal_Int32, const lang::Locale&, sal_Int32, const i18n::LineBreakHyphenationOptions&, const i18n::LineBreakUserOptions&) throw(uno::RuntimeException) { return i18n::LineBreakResults(); } virtual sal_Int16 SAL_CALL getScriptType( const rtl::OUString&, sal_Int32 ) throw(uno::RuntimeException) { return -1; } virtual sal_Int32 SAL_CALL beginOfScript( const rtl::OUString&, sal_Int32, sal_Int16 ) throw(uno::RuntimeException) { return -1; } virtual sal_Int32 SAL_CALL endOfScript( const rtl::OUString&, sal_Int32, sal_Int16 ) throw(uno::RuntimeException) { return -1; } virtual sal_Int32 SAL_CALL previousScript( const rtl::OUString&, sal_Int32, sal_Int16 ) throw(uno::RuntimeException) { return -1; } virtual sal_Int32 SAL_CALL nextScript( const rtl::OUString&, sal_Int32, sal_Int16 ) throw(uno::RuntimeException) { return -1; } virtual sal_Int32 SAL_CALL beginOfCharBlock( const rtl::OUString&, sal_Int32, const lang::Locale&, sal_Int16 ) throw(uno::RuntimeException) { return -1; } virtual sal_Int32 SAL_CALL endOfCharBlock( const rtl::OUString& rText, sal_Int32 nStartPos, const lang::Locale&, sal_Int16 CharType ) throw(uno::RuntimeException) { const sal_Unicode *pStr = rText.getStr()+nStartPos; for (sal_Int32 nI = nStartPos; nI < rText.getLength(); ++nI) { if (CharType == i18n::CharType::DECIMAL_DIGIT_NUMBER && !IS_DIGIT(*pStr)) return nI; else if (CharType != i18n::CharType::DECIMAL_DIGIT_NUMBER && IS_DIGIT(*pStr)) return nI; ++pStr; } return -1; } virtual sal_Int32 SAL_CALL previousCharBlock( const rtl::OUString&, sal_Int32, const lang::Locale&, sal_Int16 ) throw(uno::RuntimeException) { return -1; } virtual sal_Int32 SAL_CALL nextCharBlock( const rtl::OUString& rText, sal_Int32 nStartPos, const lang::Locale&, sal_Int16 CharType ) throw(uno::RuntimeException) { const sal_Unicode *pStr = rText.getStr()+nStartPos; for (sal_Int32 nI = nStartPos; nI < rText.getLength(); ++nI) { if (CharType == i18n::CharType::DECIMAL_DIGIT_NUMBER && IS_DIGIT(*pStr)) return nI; else if (CharType != i18n::CharType::DECIMAL_DIGIT_NUMBER && !IS_DIGIT(*pStr)) return nI; ++pStr; } return -1; } }; void TestString::testNatural() { using namespace comphelper::string; uno::Reference< i18n::XCollator > xCollator(new testCollator); uno::Reference< i18n::XBreakIterator > xBI(new testBreakIterator); // --- Some generic tests to ensure we do not alter original behavior // outside what we want CPPUNIT_ASSERT( compareNatural("ABC", "ABC", xCollator, xBI, lang::Locale()) == 0 ); // Case sensitivity CPPUNIT_ASSERT( compareNatural("ABC", "abc", xCollator, xBI, lang::Locale()) < 0 ); // Reverse CPPUNIT_ASSERT( compareNatural("abc", "ABC", xCollator, xBI, lang::Locale()) > 0 ); // First shorter CPPUNIT_ASSERT( compareNatural("alongstring", "alongerstring", xCollator, xBI, lang::Locale()) > 0 ); // Second shorter CPPUNIT_ASSERT( compareNatural("alongerstring", "alongstring", xCollator, xBI, lang::Locale()) < 0 ); // -- Here we go on natural order, each one is followed by classic compare and the reverse comparison // That's why we originally made the patch CPPUNIT_ASSERT( compareNatural("Heading 9", "Heading 10", xCollator, xBI, lang::Locale()) < 0 ); // Original behavior CPPUNIT_ASSERT( OUString("Heading 9").compareTo("Heading 10") > 0 ); CPPUNIT_ASSERT( compareNatural("Heading 10", "Heading 9", xCollator, xBI, lang::Locale()) > 0 ); // Harder CPPUNIT_ASSERT( compareNatural("July, the 4th", "July, the 10th", xCollator, xBI, lang::Locale()) < 0 ); CPPUNIT_ASSERT( OUString("July, the 4th").compareTo("July, the 10th") > 0 ); CPPUNIT_ASSERT( compareNatural("July, the 10th", "July, the 4th", xCollator, xBI, lang::Locale()) > 0 ); // Hardest CPPUNIT_ASSERT( compareNatural("abc08", "abc010", xCollator, xBI, lang::Locale()) < 0 ); CPPUNIT_ASSERT( OUString("abc08").compareTo("abc010") > 0 ); CPPUNIT_ASSERT( compareNatural("abc010", "abc08", xCollator, xBI, lang::Locale()) > 0 ); CPPUNIT_ASSERT( compareNatural("apple10apple", "apple10apple", xCollator, xBI, lang::Locale()) == 0 ); } void TestString::testRemove() { ::rtl::OString aIn("abc"); ::rtl::OString aOut; aOut = ::comphelper::string::remove(aIn, 'b'); CPPUNIT_ASSERT(aOut == "ac"); aIn = "aaa"; aOut = ::comphelper::string::remove(aIn, 'a'); CPPUNIT_ASSERT(aOut.isEmpty()); } void TestString::testStripStart() { ::rtl::OString aIn("abc"); ::rtl::OString aOut; aOut = ::comphelper::string::stripStart(aIn, 'b'); CPPUNIT_ASSERT(aOut == "abc"); aOut = ::comphelper::string::stripStart(aIn, 'a'); CPPUNIT_ASSERT(aOut == "bc"); aIn = "aaa"; aOut = ::comphelper::string::stripStart(aIn, 'a'); CPPUNIT_ASSERT(aOut.isEmpty()); aIn = "aba"; aOut = ::comphelper::string::stripStart(aIn, 'a'); CPPUNIT_ASSERT(aOut == "ba"); } void TestString::testStripEnd() { ::rtl::OString aIn("abc"); ::rtl::OString aOut; aOut = ::comphelper::string::stripEnd(aIn, 'b'); CPPUNIT_ASSERT(aOut == "abc"); aOut = ::comphelper::string::stripEnd(aIn, 'c'); CPPUNIT_ASSERT(aOut == "ab"); aIn = "aaa"; aOut = ::comphelper::string::stripEnd(aIn, 'a'); CPPUNIT_ASSERT(aOut.isEmpty()); aIn = "aba"; aOut = ::comphelper::string::stripEnd(aIn, 'a'); CPPUNIT_ASSERT(aOut == "ab"); } void TestString::testStrip() { ::rtl::OString aIn("abc"); ::rtl::OString aOut; aOut = ::comphelper::string::strip(aIn, 'b'); CPPUNIT_ASSERT(aOut == "abc"); aOut = ::comphelper::string::strip(aIn, 'c'); CPPUNIT_ASSERT(aOut == "ab"); aIn = "aaa"; aOut = ::comphelper::string::strip(aIn, 'a'); CPPUNIT_ASSERT(aOut.isEmpty()); aIn = "aba"; aOut = ::comphelper::string::strip(aIn, 'a'); CPPUNIT_ASSERT(aOut == "b"); } void TestString::testToken() { ::rtl::OString aIn("10.11.12"); ::rtl::OString aOut; aOut = ::comphelper::string::getToken(aIn, -1, '.'); CPPUNIT_ASSERT(aOut.isEmpty()); aOut = ::comphelper::string::getToken(aIn, 0, '.'); CPPUNIT_ASSERT(aOut == "10"); aOut = ::comphelper::string::getToken(aIn, 1, '.'); CPPUNIT_ASSERT(aOut == "11"); aOut = ::comphelper::string::getToken(aIn, 2, '.'); CPPUNIT_ASSERT(aOut == "12"); aOut = ::comphelper::string::getToken(aIn, 3, '.'); CPPUNIT_ASSERT(aOut.isEmpty()); } void TestString::testTokenCount() { ::rtl::OString aIn("10.11.12"); sal_Int32 nOut; nOut = ::comphelper::string::getTokenCount(aIn, '.'); CPPUNIT_ASSERT(nOut == 3); nOut = ::comphelper::string::getTokenCount(aIn, 'X'); CPPUNIT_ASSERT(nOut == 1); nOut = ::comphelper::string::getTokenCount(rtl::OString(), 'X'); CPPUNIT_ASSERT(nOut == 0); } void TestString::testReverseString() { ::rtl::OString aIn("ABC"); ::rtl::OString aOut = ::comphelper::string::reverseString(aIn); CPPUNIT_ASSERT(aOut == "CBA"); } void TestString::testEqualsString() { ::rtl::OString aIn("A"); CPPUNIT_ASSERT(::comphelper::string::equals(aIn, 'A')); CPPUNIT_ASSERT(!::comphelper::string::equals(aIn, 'B')); aIn = ::rtl::OString("AA"); CPPUNIT_ASSERT(!::comphelper::string::equals(aIn, 'A')); aIn = ::rtl::OString(); CPPUNIT_ASSERT(!::comphelper::string::equals(aIn, 'A')); } CPPUNIT_TEST_SUITE_REGISTRATION(TestString); } CPPUNIT_PLUGIN_IMPLEMENT(); /* vim:set shiftwidth=4 softtabstop=4 expandtab: */