/* -*- 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 . */ // autogenerated file with codegen.pl #include #include #include #include #include #include #include "stringhelper.hxx" #include "valueequal.hxx" inline void printOUString( ::rtl::OUString const & _suStr ) { rtl::OString aString; printf( "OUString: " ); aString = ::rtl::OUStringToOString( _suStr, RTL_TEXTENCODING_ASCII_US ); printf( "'%s'\n", aString.getStr( ) ); } namespace rtl_OUString { class ctors_rtl_uString : public CppUnit::TestFixture { public: /// test of OUString(rtl_uString*) void ctors_001() { rtl::OUString *pStr = new rtl::OUString( "a String" ); rtl::OUString aStrToTest(pStr->pData); delete pStr; // maybe here should we do something with current memory char* pBuffer = (char*) malloc(2 * 8); memset(pBuffer, 0, 2 * 8); free(pBuffer); sal_Bool bResult = aStrToTest == "a String"; CPPUNIT_ASSERT_MESSAGE("String must not be empty", bResult == sal_True); } // Change the following lines only, if you add, remove or rename // member functions of the current class, // because these macros are need by auto register mechanism. CPPUNIT_TEST_SUITE(ctors_rtl_uString); CPPUNIT_TEST(ctors_001); CPPUNIT_TEST_SUITE_END(); }; class number : public CppUnit::TestFixture { void number_float_test_impl(float _nValue) { rtl::OUString suValue(rtl::OUString::number(_nValue)); rtl::OString sValue; sValue <<= suValue; printf("nFloat := %.9f sValue := %s\n", _nValue, sValue.getStr()); float nValueATOF = static_cast(atof( sValue.getStr() )); bool bEqualResult = is_float_equal(_nValue, nValueATOF); CPPUNIT_ASSERT_MESSAGE("Values are not equal.", bEqualResult == true); } void number_float_test(float _nValue) { number_float_test_impl(_nValue); // test also the negative part. float nNegativeValue = -_nValue; number_float_test_impl(nNegativeValue); } public: // insert your test code here. void number_float_test_001() { // this is demonstration code // CPPUNIT_ASSERT_MESSAGE("a message", 1 == 1); float nValue = 3.0f; number_float_test(nValue); } void number_float_test_002() { float nValue = 3.5f; number_float_test(nValue); } void number_float_test_003() { float nValue = 3.0625f; number_float_test(nValue); } void number_float_test_004() { float nValue = 3.502525f; number_float_test(nValue); } void number_float_test_005() { float nValue = 3.141592f; number_float_test(nValue); } void number_float_test_006() { float nValue = 3.5025255f; number_float_test(nValue); } void number_float_test_007() { float nValue = 3.0039062f; number_float_test(nValue); } private: void number_double_test_impl(double _nValue) { rtl::OUString suValue; suValue = rtl::OUString::number( _nValue ); rtl::OString sValue; sValue <<= suValue; printf("nDouble := %.20f sValue := %s\n", _nValue, sValue.getStr()); double nValueATOF = atof( sValue.getStr() ); bool bEqualResult = is_double_equal(_nValue, nValueATOF); CPPUNIT_ASSERT_MESSAGE("Values are not equal.", bEqualResult == true); } void number_double_test(double _nValue) { number_double_test_impl(_nValue); // test also the negative part. double nNegativeValue = -_nValue; number_double_test_impl(nNegativeValue); } public: // number double void number_double_test_001() { double nValue = 3.0; number_double_test(nValue); } void number_double_test_002() { double nValue = 3.5; number_double_test(nValue); } void number_double_test_003() { double nValue = 3.0625; number_double_test(nValue); } void number_double_test_004() { double nValue = 3.1415926535; number_double_test(nValue); } void number_double_test_005() { double nValue = 3.141592653589793; number_double_test(nValue); } void number_double_test_006() { double nValue = 3.1415926535897932; number_double_test(nValue); } void number_double_test_007() { double nValue = 3.14159265358979323; number_double_test(nValue); } void number_double_test_008() { double nValue = 3.141592653589793238462643; number_double_test(nValue); } // Change the following lines only, if you add, remove or rename // member functions of the current class, // because these macros are need by auto register mechanism. CPPUNIT_TEST_SUITE(number); CPPUNIT_TEST(number_float_test_001); CPPUNIT_TEST(number_float_test_002); CPPUNIT_TEST(number_float_test_003); CPPUNIT_TEST(number_float_test_004); CPPUNIT_TEST(number_float_test_005); CPPUNIT_TEST(number_float_test_006); CPPUNIT_TEST(number_float_test_007); CPPUNIT_TEST(number_double_test_001); CPPUNIT_TEST(number_double_test_002); CPPUNIT_TEST(number_double_test_003); CPPUNIT_TEST(number_double_test_004); CPPUNIT_TEST(number_double_test_005); CPPUNIT_TEST(number_double_test_006); CPPUNIT_TEST(number_double_test_007); CPPUNIT_TEST(number_double_test_008); CPPUNIT_TEST_SUITE_END(); }; // class number //------------------------------------------------------------------------ // testing the method toDouble() //------------------------------------------------------------------------ template sal_Int16 SAL_CALL checkPrecisionSize() { // sal_Int16 nSize = sizeof(T); volatile T nCalcValue = 1.0; // (i + 1) is the current precision // numerical series // 1.1 // 10.1 // 100.1 // ... // 1000...0.1 sal_Int16 i = 0; for (i=0;i<50;i++) { nCalcValue *= 10; volatile T nValue = nCalcValue + static_cast(0.1); volatile T dSub = nValue - nCalcValue; // ----- 0.11 ---- 0.1 ---- 0.09 ----- if (0.11 > dSub && dSub > 0.09) { // due to the fact, that the value is break down we sub 1 from the precision value // but to suppress this, we start at zero, precision is i+1 till here --i; break; } } sal_Int16 j= 0; nCalcValue = 1.0; // numerical series // 1.1 // 1.01 // 1.001 // ... // 1.000...001 for (j=0;j<50;j++) { nCalcValue /= 10; volatile T nValue = nCalcValue + static_cast(1.0); volatile T dSub = nValue - static_cast(1.0); // ---- 0.02 ----- 0.01 ---- 0 --- -0.99 ---- -0.98 ---- // volatile T dSubAbsolut = fabs(dSub); // ---- 0.02 ----- 0.01 ---- 0 (cut) if ( dSub == 0) break; } if (i != j) { // hmmm.... // imho i +- 1 == j is a good value int n = i - j; if (n < 0) n = -n; if (n <= 1) { return std::min(i,j); } else { printf("warning: presision differs more than 1!\n"); } } return i; } class testPrecision { public: testPrecision() { sal_Int16 nPrecision; nPrecision = checkPrecisionSize(); printf("precision of float: %d sizeof()=%" SAL_PRI_SIZET "d\n", nPrecision, sizeof(float)); nPrecision = checkPrecisionSize(); printf("precision of double: %d sizeof()=%" SAL_PRI_SIZET "d\n", nPrecision, sizeof(double)); nPrecision = checkPrecisionSize(); printf("precision of long double: %d sizeof()=%" SAL_PRI_SIZET "d\n", nPrecision, sizeof(long double)); } }; class toInt: public CppUnit::TestFixture { public: void test() { CPPUNIT_ASSERT_EQUAL( static_cast< sal_Int32 >(-0x76543210), (rtl::OUString("-76543210"). toInt32(16))); // @return 0 if this string represents no number or one of too large magnitude CPPUNIT_ASSERT_EQUAL( static_cast< sal_Int32 >(0), (rtl::OUString("+FEDCBA98"). toInt32(16))); CPPUNIT_ASSERT_EQUAL( static_cast< sal_Int64 >(-SAL_CONST_INT64(0x76543210FEDCBA98)), (rtl::OUString( "-76543210FEDCBA98"). toInt64(16))); // @return 0 if this string represents no number or one of too large magnitude CPPUNIT_ASSERT_EQUAL( static_cast< sal_Int64 >(SAL_CONST_INT64(0)), (rtl::OUString( "+FEDCBA9876543210"). toInt64(16))); } CPPUNIT_TEST_SUITE(toInt); CPPUNIT_TEST(test); CPPUNIT_TEST_SUITE_END(); }; // - toDouble (tests) class toDouble : public CppUnit::TestFixture { public: void toDouble_test_impl(rtl::OString const& _sValue) { //printf("the original str is %s\n", _sValue.getStr()); double nValueATOF = atof( _sValue.getStr() ); //printf("original data is %e\n", nValueATOF); rtl::OUString suValue = rtl::OUString::createFromAscii( _sValue.getStr() ); double nValueToDouble = suValue.toDouble(); //printf("result data is %e\n", nValueToDouble); bool bEqualResult = is_double_equal(nValueToDouble, nValueATOF); CPPUNIT_ASSERT_MESSAGE("Values are not equal.", bEqualResult == true); } void toDouble_test(rtl::OString const& _sValue) { toDouble_test_impl(_sValue); // test also the negativ part. rtl::OString sNegativValue("-"); sNegativValue += _sValue; toDouble_test_impl(sNegativValue); } // insert your test code here. void toDouble_selftest() { printf("Start selftest:\n"); CPPUNIT_ASSERT (is_double_equal(1.0, 1.01) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.0001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.00001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.000001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.0000001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.00000001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.000000001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.0000000001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.00000000001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.000000000001) == false); CPPUNIT_ASSERT (is_double_equal(1.0, 1.0000000000001) == false); // we check til 15 values after comma CPPUNIT_ASSERT (is_double_equal(1.0, 1.00000000000001) == true); CPPUNIT_ASSERT (is_double_equal(1.0, 1.000000000000001) == true); CPPUNIT_ASSERT (is_double_equal(1.0, 1.0000000000000001) == true); printf("Selftest done.\n"); } void toDouble_test_3() { rtl::OString sValue("3"); toDouble_test(sValue); } void toDouble_test_3_5() { rtl::OString sValue("3.5"); toDouble_test(sValue); } void toDouble_test_3_0625() { rtl::OString sValue("3.0625"); toDouble_test(sValue); } void toDouble_test_pi() { // value from http://www.angio.net/pi/digits/50.txt rtl::OString sValue("3.141592653589793238462643383279502884197169399375"); toDouble_test(sValue); } void toDouble_test_1() { rtl::OString sValue("1"); toDouble_test(sValue); } void toDouble_test_10() { rtl::OString sValue("10"); toDouble_test(sValue); } void toDouble_test_100() { rtl::OString sValue("100"); toDouble_test(sValue); } void toDouble_test_1000() { rtl::OString sValue("1000"); toDouble_test(sValue); } void toDouble_test_10000() { rtl::OString sValue("10000"); toDouble_test(sValue); } void toDouble_test_1e99() { rtl::OString sValue("1e99"); toDouble_test(sValue); } void toDouble_test_1e_n99() { rtl::OString sValue("1e-99"); toDouble_test(sValue); } void toDouble_test_1e308() { rtl::OString sValue("1e308"); toDouble_test(sValue); } // Change the following lines only, if you add, remove or rename // member functions of the current class, // because these macros are need by auto register mechanism. CPPUNIT_TEST_SUITE(toDouble); CPPUNIT_TEST(toDouble_selftest); CPPUNIT_TEST(toDouble_test_3); CPPUNIT_TEST(toDouble_test_3_5); CPPUNIT_TEST(toDouble_test_3_0625); CPPUNIT_TEST(toDouble_test_pi); CPPUNIT_TEST(toDouble_test_1); CPPUNIT_TEST(toDouble_test_10); CPPUNIT_TEST(toDouble_test_100); CPPUNIT_TEST(toDouble_test_1000); CPPUNIT_TEST(toDouble_test_10000); CPPUNIT_TEST(toDouble_test_1e99); CPPUNIT_TEST(toDouble_test_1e_n99); CPPUNIT_TEST(toDouble_test_1e308); CPPUNIT_TEST_SUITE_END(); }; // class toDouble // - toFloat (tests) class toFloat : public CppUnit::TestFixture { public: void toFloat_test_impl(rtl::OString const& _sValue) { //printf("the original str is %s\n", _sValue.getStr()); float nValueATOF = static_cast(atof( _sValue.getStr() )); //printf("the original str is %.10f\n", nValueATOF); rtl::OUString suValue = rtl::OUString::createFromAscii( _sValue.getStr() ); float nValueToFloat = suValue.toFloat(); //printf("the result str is %.10f\n", nValueToFloat); bool bEqualResult = is_float_equal(nValueToFloat, nValueATOF); CPPUNIT_ASSERT_MESSAGE("Values are not equal.", bEqualResult == true); } void toFloat_test(rtl::OString const& _sValue) { toFloat_test_impl(_sValue); // test also the negativ part. rtl::OString sNegativValue("-"); sNegativValue += _sValue; toFloat_test_impl(sNegativValue); } // insert your test code here. void toFloat_selftest() { printf("Start selftest:\n"); CPPUNIT_ASSERT (is_float_equal(1.0f, 1.01f) == false); CPPUNIT_ASSERT (is_float_equal(1.0f, 1.001f) == false); CPPUNIT_ASSERT (is_float_equal(1.0f, 1.0001f) == false); CPPUNIT_ASSERT (is_float_equal(1.0f, 1.00001f) == false); CPPUNIT_ASSERT (is_float_equal(1.0f, 1.000002f) == false); CPPUNIT_ASSERT (is_float_equal(1.0f, 1.0000001f) == true); CPPUNIT_ASSERT (is_float_equal(1.0f, 1.00000001f) == true); CPPUNIT_ASSERT (is_float_equal(1.0f, 1.000000001f) == true); printf("Selftest done.\n"); } void toFloat_test_3() { rtl::OString sValue("3"); toFloat_test(sValue); } void toFloat_test_3_5() { rtl::OString sValue("3.5"); toFloat_test(sValue); } void toFloat_test_3_0625() { rtl::OString sValue("3.0625"); toFloat_test(sValue); } void toFloat_test_3_0625_e() { rtl::OString sValue("3.0625e-4"); toFloat_test(sValue); } void toFloat_test_pi() { // value from http://www.angio.net/pi/digits/50.txt rtl::OString sValue("3.141592653589793238462643383279502884197169399375"); toFloat_test(sValue); } void toFloat_test_1() { rtl::OString sValue("1"); toFloat_test(sValue); } void toFloat_test_10() { rtl::OString sValue("10"); toFloat_test(sValue); } void toFloat_test_100() { rtl::OString sValue("100"); toFloat_test(sValue); } void toFloat_test_1000() { rtl::OString sValue("1000"); toFloat_test(sValue); } void toFloat_test_10000() { rtl::OString sValue("10000"); toFloat_test(sValue); } void toFloat_test_mix() { rtl::OString sValue("456789321455.123456789012"); toFloat_test(sValue); } void toFloat_test_1e99() { rtl::OString sValue("1e99"); toFloat_test(sValue); } void toFloat_test_1e_n99() { rtl::OString sValue("1e-9"); toFloat_test(sValue); } void toFloat_test_1e308() { rtl::OString sValue("1e308"); toFloat_test(sValue); } // Change the following lines only, if you add, remove or rename // member functions of the current class, // because these macros are need by auto register mechanism. CPPUNIT_TEST_SUITE(toFloat); CPPUNIT_TEST(toFloat_selftest); CPPUNIT_TEST(toFloat_test_3); CPPUNIT_TEST(toFloat_test_3_5); CPPUNIT_TEST(toFloat_test_3_0625); CPPUNIT_TEST(toFloat_test_3_0625_e); CPPUNIT_TEST(toFloat_test_pi); CPPUNIT_TEST(toFloat_test_1); CPPUNIT_TEST(toFloat_test_10); CPPUNIT_TEST(toFloat_test_100); CPPUNIT_TEST(toFloat_test_1000); CPPUNIT_TEST(toFloat_test_10000); CPPUNIT_TEST(toFloat_test_mix); CPPUNIT_TEST(toFloat_test_1e99); CPPUNIT_TEST(toFloat_test_1e_n99); CPPUNIT_TEST(toFloat_test_1e308); CPPUNIT_TEST_SUITE_END(); }; // class toFloat // - lastIndexOf (tests) class lastIndexOf : public CppUnit::TestFixture { public: void lastIndexOf_oustring(rtl::OUString const& _suStr, rtl::OUString const& _suSearchStr, sal_Int32 _nExpectedResultPos) { // Algorithm // search the string _suSearchStr (rtl::OUString) in the string _suStr. // check if the _nExpectedResultPos occurs. sal_Int32 nPos = _suStr.lastIndexOf(_suSearchStr); CPPUNIT_ASSERT_MESSAGE("expected position is wrong", nPos == _nExpectedResultPos); } void lastIndexOf_salunicode(rtl::OUString const& _suStr, sal_Unicode _cuSearchChar, sal_Int32 _nExpectedResultPos) { // Algorithm // search the unicode char _suSearchChar (sal_Unicode) in the string _suStr. // check if the _nExpectedResultPos occurs. sal_Int32 nPos = _suStr.lastIndexOf(_cuSearchChar); CPPUNIT_ASSERT_MESSAGE("expected position is wrong", nPos == _nExpectedResultPos); } void lastIndexOf_oustring_offset(rtl::OUString const& _suStr, rtl::OUString const& _suSearchStr, sal_Int32 _nExpectedResultPos, sal_Int32 _nStartOffset) { sal_Int32 nPos = _suStr.lastIndexOf(_suSearchStr, _nStartOffset); CPPUNIT_ASSERT_MESSAGE("expected position is wrong", nPos == _nExpectedResultPos); } void lastIndexOf_salunicode_offset(rtl::OUString const& _suStr, sal_Unicode _cuSearchChar, sal_Int32 _nExpectedResultPos, sal_Int32 _nStartOffset) { sal_Int32 nPos = _suStr.lastIndexOf(_cuSearchChar, _nStartOffset); CPPUNIT_ASSERT_MESSAGE("expected position is wrong", nPos == _nExpectedResultPos); } void lastIndexOf_test_oustring_offset_001() { // search for sun, start at the end, found (pos==0) rtl::OUString aStr("sun java system"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring_offset(aStr, aSearchStr, 0, aStr.getLength()); } void lastIndexOf_test_oustring_offset_002() { // search for sun, start at pos = 3, found (pos==0) rtl::OUString aStr("sun java system"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring_offset(aStr, aSearchStr, 0, 3); } void lastIndexOf_test_oustring_offset_003() { // search for sun, start at pos = 2, found (pos==-1) rtl::OUString aStr("sun java system"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring_offset(aStr, aSearchStr, -1, 2); } void lastIndexOf_test_oustring_offset_004() { // search for sun, start at the end, found (pos==0) rtl::OUString aStr("sun java system"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring_offset(aStr, aSearchStr, -1, -1); } void lastIndexOf_test_oustring_001() { // search for sun, found (pos==0) rtl::OUString aStr("sun java system"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring(aStr, aSearchStr, 0); } void lastIndexOf_test_oustring_002() { // search for sun, found (pos==4) rtl::OUString aStr("the sun java system"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring(aStr, aSearchStr, 4); } void lastIndexOf_test_oustring_003() { // search for sun, found (pos==8) rtl::OUString aStr("the sun sun java system"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring(aStr, aSearchStr, 8); } void lastIndexOf_test_oustring_004() { // search for sun, found (pos==8) rtl::OUString aStr("the sun sun"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring(aStr, aSearchStr, 8); } void lastIndexOf_test_oustring_005() { // search for sun, found (pos==4) rtl::OUString aStr("the sun su"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring(aStr, aSearchStr, 4); } void lastIndexOf_test_oustring_006() { // search for sun, found (pos==-1) rtl::OUString aStr("the su su"); rtl::OUString aSearchStr("sun"); lastIndexOf_oustring(aStr, aSearchStr, -1); } void lastIndexOf_test_oustring_007() { // search for earth, not found (-1) rtl::OUString aStr("the su su"); rtl::OUString aSearchStr("earth"); lastIndexOf_oustring(aStr, aSearchStr, -1); } void lastIndexOf_test_oustring_008() { // search for earth, not found (-1) rtl::OUString aStr = rtl::OUString(); rtl::OUString aSearchStr("earth"); lastIndexOf_oustring(aStr, aSearchStr, -1); } void lastIndexOf_test_oustring_009() { // search for earth, not found (-1) rtl::OUString aStr = rtl::OUString(); rtl::OUString aSearchStr = rtl::OUString(); lastIndexOf_oustring(aStr, aSearchStr, -1); } void lastIndexOf_test_salunicode_001() { // search for 's', found (19) rtl::OUString aStr("the sun sun java system"); sal_Unicode suChar = L's'; lastIndexOf_salunicode(aStr, suChar, 19); } void lastIndexOf_test_salunicode_002() { // search for 'x', not found (-1) rtl::OUString aStr("the sun sun java system"); sal_Unicode suChar = L'x'; lastIndexOf_salunicode(aStr, suChar, -1); } void lastIndexOf_test_salunicode_offset_001() { // search for 's', start from pos last char, found (19) rtl::OUString aStr("the sun sun java system"); sal_Unicode cuChar = L's'; lastIndexOf_salunicode_offset(aStr, cuChar, 19, aStr.getLength()); } void lastIndexOf_test_salunicode_offset_002() { // search for 's', start pos is last occur from search behind, found (17) rtl::OUString aStr("the sun sun java system"); sal_Unicode cuChar = L's'; lastIndexOf_salunicode_offset(aStr, cuChar, 17, 19); } void lastIndexOf_test_salunicode_offset_003() { // search for 't', start pos is 1, found (0) rtl::OUString aStr("the sun sun java system"); sal_Unicode cuChar = L't'; lastIndexOf_salunicode_offset(aStr, cuChar, 0, 1); } // Change the following lines only, if you add, remove or rename // member functions of the current class, // because these macros are need by auto register mechanism. CPPUNIT_TEST_SUITE(lastIndexOf); CPPUNIT_TEST(lastIndexOf_test_oustring_001); CPPUNIT_TEST(lastIndexOf_test_oustring_002); CPPUNIT_TEST(lastIndexOf_test_oustring_003); CPPUNIT_TEST(lastIndexOf_test_oustring_004); CPPUNIT_TEST(lastIndexOf_test_oustring_005); CPPUNIT_TEST(lastIndexOf_test_oustring_006); CPPUNIT_TEST(lastIndexOf_test_oustring_007); CPPUNIT_TEST(lastIndexOf_test_oustring_008); CPPUNIT_TEST(lastIndexOf_test_oustring_009); CPPUNIT_TEST(lastIndexOf_test_oustring_offset_001); CPPUNIT_TEST(lastIndexOf_test_oustring_offset_002); CPPUNIT_TEST(lastIndexOf_test_oustring_offset_003); CPPUNIT_TEST(lastIndexOf_test_oustring_offset_004); CPPUNIT_TEST(lastIndexOf_test_salunicode_001); CPPUNIT_TEST(lastIndexOf_test_salunicode_002); CPPUNIT_TEST(lastIndexOf_test_salunicode_offset_001); CPPUNIT_TEST(lastIndexOf_test_salunicode_offset_002); CPPUNIT_TEST(lastIndexOf_test_salunicode_offset_003); CPPUNIT_TEST_SUITE_END(); }; // class lastIndexOf // - getToken (tests) class getToken : public CppUnit::TestFixture { public: void getToken_000() { rtl::OUString suTokenStr; sal_Int32 nIndex = 0; do { suTokenStr.getToken( 0, ';', nIndex ); } while ( nIndex >= 0 ); printf("Index %" SAL_PRIdINT32 "\n", nIndex); // should not GPF } void getToken_001() { rtl::OUString suTokenStr("a;b"); sal_Int32 nIndex = 0; rtl::OUString suToken = suTokenStr.getToken( 0, ';', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be a 'a'", suToken == "a" ); /* rtl::OUString */ suToken = suTokenStr.getToken( 0, ';', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be a 'b'", suToken == "b" ); CPPUNIT_ASSERT_MESSAGE("index should be negative", nIndex == -1); } void getToken_002() { rtl::OUString suTokenStr("a;b.c"); sal_Int32 nIndex = 0; rtl::OUString suToken = suTokenStr.getToken( 0, ';', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be a 'a'", suToken == "a" ); /* rtl::OUString */ suToken = suTokenStr.getToken( 0, '.', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be a 'b'", suToken == "b" ); /* rtl::OUString */ suToken = suTokenStr.getToken( 0, '.', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be a 'c'", suToken == "c" ); CPPUNIT_ASSERT_MESSAGE("index should be negative", nIndex == -1); } void getToken_003() { rtl::OUString suTokenStr("a;;b"); sal_Int32 nIndex = 0; rtl::OUString suToken = suTokenStr.getToken( 0, ';', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be a 'a'", suToken == "a" ); /* rtl::OUString */ suToken = suTokenStr.getToken( 0, ';', nIndex ); CPPUNIT_ASSERT_MESSAGE("Token should be empty", suToken.isEmpty()); /* rtl::OUString */ suToken = suTokenStr.getToken( 0, ';', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be a 'b'", suToken == "b" ); CPPUNIT_ASSERT_MESSAGE("index should be negative", nIndex == -1); } void getToken_004() { rtl::OUString suTokenStr("longer.then.ever."); sal_Int32 nIndex = 0; rtl::OUString suToken = suTokenStr.getToken( 0, '.', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be 'longer'", suToken == "longer" ); /* rtl::OUString */ suToken = suTokenStr.getToken( 0, '.', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be 'then'", suToken == "then" ); /* rtl::OUString */ suToken = suTokenStr.getToken( 0, '.', nIndex ); CPPUNIT_ASSERT_MESSAGE( "Token should be 'ever'", suToken == "ever" ); /* rtl::OUString */ suToken = suTokenStr.getToken( 0, '.', nIndex ); CPPUNIT_ASSERT_MESSAGE("Token should be empty", suToken.isEmpty()); CPPUNIT_ASSERT_MESSAGE("index should be negative", nIndex == -1); } void getToken_005() { rtl::OUString ab("ab"); sal_Int32 n = 0; CPPUNIT_ASSERT_MESSAGE( "token should be 'ab'", ab.getToken(0, '-', n) == ab); CPPUNIT_ASSERT_MESSAGE("n should be -1", n == -1); CPPUNIT_ASSERT_MESSAGE( "token should be empty", ab.getToken(0, '-', n).isEmpty()); } CPPUNIT_TEST_SUITE(getToken); CPPUNIT_TEST(getToken_000); CPPUNIT_TEST(getToken_001); CPPUNIT_TEST(getToken_002); CPPUNIT_TEST(getToken_003); CPPUNIT_TEST(getToken_004); CPPUNIT_TEST(getToken_005); CPPUNIT_TEST_SUITE_END(); }; // class getToken class convertToString: public CppUnit::TestFixture { public: void test(); CPPUNIT_TEST_SUITE(convertToString); CPPUNIT_TEST(test); CPPUNIT_TEST_SUITE_END(); }; void convertToString::test() { static sal_Unicode const utf16[] = { 0x0041, 0x00E4, 0x0061 }; rtl::OString s; CPPUNIT_ASSERT( rtl::OUString(utf16, SAL_N_ELEMENTS(utf16)).convertToString( &s, RTL_TEXTENCODING_UTF7, (RTL_UNICODETOTEXT_FLAGS_UNDEFINED_ERROR | RTL_UNICODETOTEXT_FLAGS_INVALID_ERROR))); CPPUNIT_ASSERT_EQUAL( rtl::OString(RTL_CONSTASCII_STRINGPARAM("A+AOQ-a")), s); } // - string construction & interning (tests) // ----------------------------------------------------------------------------- class construction : public CppUnit::TestFixture { public: void construct() { #ifdef RTL_INLINE_STRINGS ::rtl::OUString aFoo( "foo" ); CPPUNIT_ASSERT_MESSAGE("string contents", aFoo[0] == 'f'); CPPUNIT_ASSERT_MESSAGE("string contents", aFoo[1] == 'o'); CPPUNIT_ASSERT_MESSAGE("string contents", aFoo[2] == 'o'); CPPUNIT_ASSERT_MESSAGE("string length", aFoo.getLength() == 3); ::rtl::OUString aBaa( "this is a very long string with a lot of long things inside it and it goes on and on and on forever etc." ); CPPUNIT_ASSERT_MESSAGE("string length", aBaa.getLength() == 104); // Dig at the internals ... FIXME: should we have the bit-flag defines public ? CPPUNIT_ASSERT_MESSAGE("string static flags", (aBaa.pData->refCount & 1<<30) != 0); #endif } void intern() { // The empty string is 'static' a special case ... rtl::OUString().intern(); rtl::OUString::intern( "",strlen(""),RTL_TEXTENCODING_ASCII_US ); ::rtl::OUString aFoo( "foo" ); ::rtl::OUString aFooIntern = aFoo.intern(); CPPUNIT_ASSERT_MESSAGE( "string contents", aFooIntern == "foo" ); CPPUNIT_ASSERT_MESSAGE("string length", aFooIntern.getLength() == 3); // We have to dup due to no atomic 'intern' bit-set operation CPPUNIT_ASSERT_MESSAGE("intern dups", aFoo.pData != aFooIntern.pData); // Test interning lots of things int i; static const int nSequence = 4096; rtl::OUString *pStrs; sal_uIntPtr *pValues; pStrs = new rtl::OUString[nSequence]; pValues = new sal_uIntPtr[nSequence]; for (i = 0; i < nSequence; i++) { pStrs[i] = rtl::OUString::number( sqrt( static_cast(i) ) ).intern(); pValues[i] = reinterpret_cast( pStrs[i].pData ); } for (i = 0; i < nSequence; i++) { rtl::OUString aNew = rtl::OUString::number( sqrt( static_cast(i) ) ).intern(); CPPUNIT_ASSERT_MESSAGE("double intern failed", aNew.pData == pStrs[i].pData); } // Free strings to check for leaks for (i = 0; i < nSequence; i++) { // Overwrite - hopefully this re-uses the memory pStrs[i] = rtl::OUString(); pStrs[i] = rtl::OUString::number( sqrt( static_cast(i) ) ); } for (i = 0; i < nSequence; i++) { rtl::OUString aIntern; sal_uIntPtr nValue; aIntern = rtl::OUString::number( sqrt( static_cast(i) ) ).intern(); nValue = reinterpret_cast( aIntern.pData ); // This may not be 100% reliable: memory may // have been re-used, but it's worth checking. CPPUNIT_ASSERT_MESSAGE("intern leaking", nValue != pValues[i]); } delete [] pValues; delete [] pStrs; } CPPUNIT_TEST_SUITE(construction); CPPUNIT_TEST(construct); CPPUNIT_TEST(intern); CPPUNIT_TEST_SUITE_END(); }; class indexOfAscii: public CppUnit::TestFixture { public: void test(); CPPUNIT_TEST_SUITE(indexOfAscii); CPPUNIT_TEST(test); CPPUNIT_TEST_SUITE_END(); }; void indexOfAscii::test() { CPPUNIT_ASSERT_EQUAL( sal_Int32(-1), rtl::OUString().indexOfAsciiL(RTL_CONSTASCII_STRINGPARAM(""))); CPPUNIT_ASSERT_EQUAL( sal_Int32(-1), rtl::OUString().lastIndexOfAsciiL(RTL_CONSTASCII_STRINGPARAM(""))); CPPUNIT_ASSERT_EQUAL( sal_Int32(0), rtl::OUString("foo").indexOfAsciiL( RTL_CONSTASCII_STRINGPARAM("foo"))); CPPUNIT_ASSERT_EQUAL( sal_Int32(0), rtl::OUString("foo").lastIndexOfAsciiL( RTL_CONSTASCII_STRINGPARAM("foo"))); CPPUNIT_ASSERT_EQUAL( sal_Int32(2), rtl::OUString("fofoobar").indexOfAsciiL( RTL_CONSTASCII_STRINGPARAM("foo"))); CPPUNIT_ASSERT_EQUAL( sal_Int32(3), rtl::OUString("foofoofob"). lastIndexOfAsciiL(RTL_CONSTASCII_STRINGPARAM("foo"))); CPPUNIT_ASSERT_EQUAL( sal_Int32(3), rtl::OUString("foofoobar").indexOfAsciiL( RTL_CONSTASCII_STRINGPARAM("foo"), 1)); } class endsWith: public CppUnit::TestFixture { public: void test(); CPPUNIT_TEST_SUITE(endsWith); CPPUNIT_TEST(test); CPPUNIT_TEST_SUITE_END(); }; void endsWith::test() { CPPUNIT_ASSERT_EQUAL( true, rtl::OUString().endsWithAsciiL(RTL_CONSTASCII_STRINGPARAM(""))); CPPUNIT_ASSERT_EQUAL( false, rtl::OUString().endsWithAsciiL(RTL_CONSTASCII_STRINGPARAM("foo"))); CPPUNIT_ASSERT_EQUAL( true, rtl::OUString("bar").endsWithAsciiL( RTL_CONSTASCII_STRINGPARAM("bar"))); CPPUNIT_ASSERT_EQUAL( true, rtl::OUString("foobar").endsWithAsciiL( RTL_CONSTASCII_STRINGPARAM("bar"))); CPPUNIT_ASSERT_EQUAL( false, rtl::OUString("FOOBAR").endsWithAsciiL( RTL_CONSTASCII_STRINGPARAM("bar"))); } class createFromCodePoints: public CppUnit::TestFixture { public: void test(); CPPUNIT_TEST_SUITE(createFromCodePoints); CPPUNIT_TEST(test); CPPUNIT_TEST_SUITE_END(); }; void createFromCodePoints::test() { CPPUNIT_ASSERT_EQUAL( sal_Int32(0), rtl::OUString(static_cast< sal_uInt32 const * >(NULL), 0).getLength()); static sal_uInt32 const cp[] = { 0, 0xD800, 0xFFFF, 0x10000, 0x10FFFF }; rtl::OUString s(cp, sizeof cp / sizeof (sal_uInt32)); CPPUNIT_ASSERT_EQUAL(sal_Int32(7), s.getLength()); CPPUNIT_ASSERT_EQUAL(sal_Unicode(0), s[0]); CPPUNIT_ASSERT_EQUAL(sal_Unicode(0xD800), s[1]); CPPUNIT_ASSERT_EQUAL(sal_Unicode(0xFFFF), s[2]); CPPUNIT_ASSERT_EQUAL(sal_Unicode(0xD800), s[3]); CPPUNIT_ASSERT_EQUAL(sal_Unicode(0xDC00), s[4]); CPPUNIT_ASSERT_EQUAL(sal_Unicode(0xDBFF), s[5]); CPPUNIT_ASSERT_EQUAL(sal_Unicode(0xDFFF), s[6]); } class iterateCodePoints: public CppUnit::TestFixture { public: void testNotWellFormed(); CPPUNIT_TEST_SUITE(iterateCodePoints); CPPUNIT_TEST(testNotWellFormed); CPPUNIT_TEST_SUITE_END(); }; void iterateCodePoints::testNotWellFormed() { static sal_Unicode const utf16[] = { 0xD800, 0xDC00, 0x0041, 0xDBFF, 0xDFFF, 0xDDEF, 0xD9AB }; rtl::OUString s(utf16, sizeof utf16 / sizeof (sal_Unicode)); sal_Int32 i = 0; CPPUNIT_ASSERT_EQUAL(sal_uInt32(0x10000), s.iterateCodePoints(&i)); CPPUNIT_ASSERT_EQUAL(sal_Int32(2), i); CPPUNIT_ASSERT_EQUAL(sal_uInt32(0x0041), s.iterateCodePoints(&i)); CPPUNIT_ASSERT_EQUAL(sal_Int32(3), i); CPPUNIT_ASSERT_EQUAL(sal_uInt32(0x10FFFF), s.iterateCodePoints(&i)); CPPUNIT_ASSERT_EQUAL(sal_Int32(5), i); CPPUNIT_ASSERT_EQUAL(sal_uInt32(0xDDEF), s.iterateCodePoints(&i)); CPPUNIT_ASSERT_EQUAL(sal_Int32(6), i); CPPUNIT_ASSERT_EQUAL(sal_uInt32(0xD9AB), s.iterateCodePoints(&i)); CPPUNIT_ASSERT_EQUAL(sal_Int32(7), i); CPPUNIT_ASSERT_EQUAL(sal_uInt32(0xD9AB), s.iterateCodePoints(&i, -1)); CPPUNIT_ASSERT_EQUAL(sal_Int32(6), i); CPPUNIT_ASSERT_EQUAL(sal_uInt32(0xDDEF), s.iterateCodePoints(&i, -1)); CPPUNIT_ASSERT_EQUAL(sal_Int32(5), i); CPPUNIT_ASSERT_EQUAL(sal_uInt32(0x10FFFF), s.iterateCodePoints(&i, -1)); CPPUNIT_ASSERT_EQUAL(sal_Int32(3), i); CPPUNIT_ASSERT_EQUAL(sal_uInt32(0x0041), s.iterateCodePoints(&i, -1)); CPPUNIT_ASSERT_EQUAL(sal_Int32(2), i); CPPUNIT_ASSERT_EQUAL(sal_uInt32(0x10000), s.iterateCodePoints(&i, -1)); CPPUNIT_ASSERT_EQUAL(sal_Int32(0), i); i = 1; CPPUNIT_ASSERT_EQUAL(sal_uInt32(0xDC00), s.iterateCodePoints(&i, 2)); CPPUNIT_ASSERT_EQUAL(sal_Int32(3), i); i = 4; CPPUNIT_ASSERT_EQUAL(sal_uInt32(0x10000), s.iterateCodePoints(&i, -3)); CPPUNIT_ASSERT_EQUAL(sal_Int32(0), i); } class convertFromString: public CppUnit::TestFixture { public: void test(); CPPUNIT_TEST_SUITE(createFromCodePoints); CPPUNIT_TEST(test); CPPUNIT_TEST_SUITE_END(); }; void convertFromString::test() { rtl::OUString t; CPPUNIT_ASSERT( !rtl_convertStringToUString( &t.pData, RTL_CONSTASCII_STRINGPARAM("\x80"), RTL_TEXTENCODING_UTF8, (RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR))); CPPUNIT_ASSERT( !rtl_convertStringToUString( &t.pData, RTL_CONSTASCII_STRINGPARAM("\xC0"), RTL_TEXTENCODING_UTF8, (RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR))); CPPUNIT_ASSERT( !rtl_convertStringToUString( &t.pData, RTL_CONSTASCII_STRINGPARAM("\xFF"), RTL_TEXTENCODING_UTF8, (RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR))); CPPUNIT_ASSERT( rtl_convertStringToUString( &t.pData, RTL_CONSTASCII_STRINGPARAM("abc"), RTL_TEXTENCODING_UTF8, (RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR | RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR))); CPPUNIT_ASSERT( t == "abc" ); } CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::number); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::toInt); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::toDouble); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::toFloat); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::lastIndexOf); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::getToken); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::convertToString); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::construction); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::indexOfAscii); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::endsWith); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::createFromCodePoints); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::iterateCodePoints); CPPUNIT_TEST_SUITE_REGISTRATION(rtl_OUString::convertFromString); } // namespace rtl_OUString // this macro creates an empty function, which will called by the RegisterAllFunctions() // to let the user the possibility to also register some functions by hand. CPPUNIT_PLUGIN_IMPLEMENT(); /* vim:set shiftwidth=4 softtabstop=4 expandtab: */