/* -*- 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 . */ #ifndef _RTL_USTRING_HXX_ #define _RTL_USTRING_HXX_ #include "sal/config.h" #include #include #include #include "osl/diagnose.h" #include #include #include #include #include "sal/log.hxx" #ifdef RTL_FAST_STRING #include #endif #if defined EXCEPTIONS_OFF #include #else #include #endif // The unittest uses slightly different code to help check that the proper // calls are made. The class is put into a different namespace to make // sure the compiler generates a different (if generating also non-inline) // copy of the function and does not merge them together. The class // is "brought" into the proper rtl namespace by a typedef below. #ifdef RTL_STRING_UNITTEST #define rtl rtlunittest #endif namespace rtl { #ifdef RTL_STRING_UNITTEST #undef rtl #endif /* ======================================================================= */ /** This String class provides base functionality for C++ like Unicode character array handling. The advantage of this class is that it handles all the memory management for you - and it does it more efficiently. If you assign a string to another string, the data of both strings are shared (without any copy operation or memory allocation) as long as you do not change the string. This class also stores the length of the string, so that many operations are faster than the C-str-functions. This class provides only readonly string handling. So you could create a string and you could only query the content from this string. It provides also functionality to change the string, but this results in every case in a new string instance (in the most cases with a memory allocation). You don't have functionality to change the content of the string. If you want to change the string content, then you should use the OStringBuffer class, which provides these functionalities and avoids too much memory allocation. The design of this class is similar to the string classes in Java so less people should have understanding problems when they use this class. */ class SAL_WARN_UNUSED OUString { public: /// @cond INTERNAL rtl_uString * pData; /// @endcond private: class DO_NOT_ACQUIRE{}; OUString( rtl_uString * value, SAL_UNUSED_PARAMETER DO_NOT_ACQUIRE * ) { pData = value; } public: /** New string containing no characters. */ OUString() SAL_THROW(()) { pData = 0; rtl_uString_new( &pData ); } /** New string from OUString. @param str a OUString. */ OUString( const OUString & str ) SAL_THROW(()) { pData = str.pData; rtl_uString_acquire( pData ); } /** New string from OUString data. @param str a OUString data. */ OUString( rtl_uString * str ) SAL_THROW(()) { pData = str; rtl_uString_acquire( pData ); } /** New OUString from OUString data without acquiring it. Takeover of ownership. The SAL_NO_ACQUIRE dummy parameter is only there to distinguish this from other constructors. @param str OUString data */ inline OUString( rtl_uString * str, __sal_NoAcquire ) SAL_THROW(()) { pData = str; } /** New string from a single Unicode character. @param value a Unicode character. */ explicit OUString( sal_Unicode value ) SAL_THROW(()) : pData (0) { rtl_uString_newFromStr_WithLength( &pData, &value, 1 ); } /** New string from a Unicode character buffer array. @param value a NULL-terminated Unicode character array. */ OUString( const sal_Unicode * value ) SAL_THROW(()) { pData = 0; rtl_uString_newFromStr( &pData, value ); } /** New string from a Unicode character buffer array. @param value a Unicode character array. @param length the number of character which should be copied. The character array length must be greater than or equal to this value. */ OUString( const sal_Unicode * value, sal_Int32 length ) SAL_THROW(()) { pData = 0; rtl_uString_newFromStr_WithLength( &pData, value, length ); } /** New string from an 8-Bit string literal that is expected to contain only characters in the ASCII set (i.e. first 128 characters). This constructor allows an efficient and convenient way to create OUString instances from ASCII literals. When creating strings from data that is not pure ASCII, it needs to be converted to OUString by explicitly providing the encoding to use for the conversion. If there are any embedded \0's in the string literal, the result is undefined. Use the overload that explicitly accepts length. @param literal the 8-bit ASCII string literal @since LibreOffice 3.6 */ #if HAVE_SFINAE_ANONYMOUS_BROKEN // Old gcc can try to convert anonymous enums to OUString and give compile error. // So instead have a variant for const and non-const char[]. template< int N > OUString( const char (&literal)[ N ] ) { // Check that the string literal is in fact N - 1 long (no embedded \0's), // any decent compiler should optimize out calls to strlen with literals. assert( strlen( literal ) == N - 1 ); pData = 0; rtl_uString_newFromLiteral( &pData, literal, N - 1, 0 ); #ifdef RTL_STRING_UNITTEST rtl_string_unittest_const_literal = true; #endif } /** * It is an error to call this overload. Strings cannot directly use non-const char[]. * @internal */ template< int N > OUString( char (&value)[ N ] ) #ifndef RTL_STRING_UNITTEST ; // intentionally not implemented #else { (void) value; // unused pData = 0; rtl_uString_newFromLiteral( &pData, "!!br0ken!!", 10, 0 ); // set to garbage rtl_string_unittest_invalid_conversion = true; } #endif #else // HAVE_SFINAE_ANONYMOUS_BROKEN template< typename T > OUString( T& literal, typename internal::ConstCharArrayDetector< T, internal::Dummy >::Type = internal::Dummy() ) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); pData = 0; if( internal::ConstCharArrayDetector< T, void >::size - 1 == 0 ) // empty string rtl_uString_new( &pData ); else rtl_uString_newFromLiteral( &pData, literal, internal::ConstCharArrayDetector< T, void >::size - 1, 0 ); #ifdef RTL_STRING_UNITTEST rtl_string_unittest_const_literal = true; #endif } #endif // HAVE_SFINAE_ANONYMOUS_BROKEN #ifdef RTL_STRING_UNITTEST /** * Only used by unittests to detect incorrect conversions. * @internal */ template< typename T > OUString( T&, typename internal::ExceptConstCharArrayDetector< T >::Type = internal::Dummy() ) { pData = 0; rtl_uString_newFromLiteral( &pData, "!!br0ken!!", 10, 0 ); // set to garbage rtl_string_unittest_invalid_conversion = true; } /** * Only used by unittests to detect incorrect conversions. * @internal */ template< typename T > OUString( const T&, typename internal::ExceptCharArrayDetector< T >::Type = internal::Dummy() ) { pData = 0; rtl_uString_newFromLiteral( &pData, "!!br0ken!!", 10, 0 ); // set to garbage rtl_string_unittest_invalid_conversion = true; } #endif /** New string from an 8-Bit character buffer array. @param value An 8-Bit character array. @param length The number of character which should be converted. The 8-Bit character array length must be greater than or equal to this value. @param encoding The text encoding from which the 8-Bit character sequence should be converted. @param convertFlags Flags which control the conversion. see RTL_TEXTTOUNICODE_FLAGS_... @exception std::bad_alloc is thrown if an out-of-memory condition occurs */ OUString( const sal_Char * value, sal_Int32 length, rtl_TextEncoding encoding, sal_uInt32 convertFlags = OSTRING_TO_OUSTRING_CVTFLAGS ) { pData = 0; rtl_string2UString( &pData, value, length, encoding, convertFlags ); if (pData == 0) { #if defined EXCEPTIONS_OFF abort(); #else throw std::bad_alloc(); #endif } } /** Create a new string from an array of Unicode code points. @param codePoints an array of at least codePointCount code points, which each must be in the range from 0 to 0x10FFFF, inclusive. May be null if codePointCount is zero. @param codePointCount the non-negative number of code points. @exception std::bad_alloc is thrown if either an out-of-memory condition occurs or the resulting number of UTF-16 code units would have been larger than SAL_MAX_INT32. @since UDK 3.2.7 */ inline explicit OUString( sal_uInt32 const * codePoints, sal_Int32 codePointCount): pData(NULL) { rtl_uString_newFromCodePoints(&pData, codePoints, codePointCount); if (pData == NULL) { #if defined EXCEPTIONS_OFF abort(); #else throw std::bad_alloc(); #endif } } #ifdef RTL_FAST_STRING /** @overload @internal */ template< typename T1, typename T2 > OUString( const OUStringConcat< T1, T2 >& c ) { const sal_Int32 l = c.length(); pData = rtl_uString_alloc( l ); if (l != 0) { sal_Unicode* end = c.addData( pData->buffer ); pData->length = end - pData->buffer; *end = '\0'; // TODO realloc in case pData->length is noticeably smaller than l? } } #endif /** Release the string data. */ ~OUString() SAL_THROW(()) { rtl_uString_release( pData ); } /** Provides an OUString const & passing a storage pointer of an rtl_uString * handle. It is more convenient to use C++ OUString member functions when dealing with rtl_uString * handles. Using this function avoids unnecessary acquire()/release() calls for a temporary OUString object. @param ppHandle pointer to storage @return OUString const & based on given storage */ static inline OUString const & unacquired( rtl_uString * const * ppHandle ) { return * reinterpret_cast< OUString const * >( ppHandle ); } /** Assign a new string. @param str a OUString. */ OUString & operator=( const OUString & str ) SAL_THROW(()) { rtl_uString_assign( &pData, str.pData ); return *this; } /** Assign a new string from an 8-Bit string literal that is expected to contain only characters in the ASCII set (i.e. first 128 characters). This operator allows an efficient and convenient way to assign OUString instances from ASCII literals. When assigning strings from data that is not pure ASCII, it needs to be converted to OUString by explicitly providing the encoding to use for the conversion. @param literal the 8-bit ASCII string literal @since LibreOffice 3.6 */ template< typename T > typename internal::ConstCharArrayDetector< T, OUString& >::Type operator=( T& literal ) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); if( internal::ConstCharArrayDetector< T, void >::size - 1 == 0 ) // empty string rtl_uString_new( &pData ); else rtl_uString_newFromLiteral( &pData, literal, internal::ConstCharArrayDetector< T, void >::size - 1, 0 ); return *this; } /** Append a string to this string. @param str a OUString. */ OUString & operator+=( const OUString & str ) SAL_THROW(()) { rtl_uString_newConcat( &pData, pData, str.pData ); return *this; } #ifdef RTL_FAST_STRING /** @overload @internal */ template< typename T1, typename T2 > OUString& operator+=( const OUStringConcat< T1, T2 >& c ) { const int l = c.length(); if( l == 0 ) return *this; rtl_uString_ensureCapacity( &pData, pData->length + l ); sal_Unicode* end = c.addData( pData->buffer + pData->length ); *end = '\0'; pData->length = end - pData->buffer; return *this; } #endif /** Returns the length of this string. The length is equal to the number of Unicode characters in this string. @return the length of the sequence of characters represented by this object. */ sal_Int32 getLength() const SAL_THROW(()) { return pData->length; } /** Checks if a string is empty. @return true if the string is empty; false, otherwise. @since LibreOffice 3.4 */ bool isEmpty() const SAL_THROW(()) { return pData->length == 0; } /** Returns a pointer to the Unicode character buffer for this string. It isn't necessarily NULL terminated. @return a pointer to the Unicode characters buffer for this object. */ const sal_Unicode * getStr() const SAL_THROW(()) { return pData->buffer; } /** Access to individual characters. @param index must be non-negative and less than length. @return the character at the given index. @since LibreOffice 3.5 */ sal_Unicode operator [](sal_Int32 index) const { return getStr()[index]; } /** Compares two strings. The comparison is based on the numeric value of each character in the strings and return a value indicating their relationship. This function can't be used for language specific sorting. @param str the object to be compared. @return 0 - if both strings are equal < 0 - if this string is less than the string argument > 0 - if this string is greater than the string argument */ sal_Int32 compareTo( const OUString & str ) const SAL_THROW(()) { return rtl_ustr_compare_WithLength( pData->buffer, pData->length, str.pData->buffer, str.pData->length ); } /** Compares two strings with a maximum count of characters. The comparison is based on the numeric value of each character in the strings and return a value indicating their relationship. This function can't be used for language specific sorting. @param str the object to be compared. @param maxLength the maximum count of characters to be compared. @return 0 - if both strings are equal < 0 - if this string is less than the string argument > 0 - if this string is greater than the string argument @since UDK 3.2.7 */ sal_Int32 compareTo( const OUString & str, sal_Int32 maxLength ) const SAL_THROW(()) { return rtl_ustr_shortenedCompare_WithLength( pData->buffer, pData->length, str.pData->buffer, str.pData->length, maxLength ); } /** Compares two strings in reverse order. The comparison is based on the numeric value of each character in the strings and return a value indicating their relationship. This function can't be used for language specific sorting. @param str the object to be compared. @return 0 - if both strings are equal < 0 - if this string is less than the string argument > 0 - if this string is greater than the string argument */ sal_Int32 reverseCompareTo( const OUString & str ) const SAL_THROW(()) { return rtl_ustr_reverseCompare_WithLength( pData->buffer, pData->length, str.pData->buffer, str.pData->length ); } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 4.1 */ template< typename T > typename internal::ConstCharArrayDetector< T, sal_Int32 >::Type reverseCompareTo( T& literal ) const SAL_THROW(()) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return rtl_ustr_asciil_reverseCompare_WithLength( pData->buffer, pData->length, literal, internal::ConstCharArrayDetector< T, void >::size - 1 ); } /** Perform a comparison of two strings. The result is true if and only if second string represents the same sequence of characters as the first string. This function can't be used for language specific comparison. @param str the object to be compared. @return sal_True if the strings are equal; sal_False, otherwise. */ sal_Bool equals( const OUString & str ) const SAL_THROW(()) { if ( pData->length != str.pData->length ) return sal_False; if ( pData == str.pData ) return sal_True; return rtl_ustr_reverseCompare_WithLength( pData->buffer, pData->length, str.pData->buffer, str.pData->length ) == 0; } /** Perform a ASCII lowercase comparison of two strings. The result is true if and only if second string represents the same sequence of characters as the first string, ignoring the case. Character values between 65 and 90 (ASCII A-Z) are interpreted as values between 97 and 122 (ASCII a-z). This function can't be used for language specific comparison. @param str the object to be compared. @return sal_True if the strings are equal; sal_False, otherwise. */ sal_Bool equalsIgnoreAsciiCase( const OUString & str ) const SAL_THROW(()) { if ( pData->length != str.pData->length ) return sal_False; if ( pData == str.pData ) return sal_True; return rtl_ustr_compareIgnoreAsciiCase_WithLength( pData->buffer, pData->length, str.pData->buffer, str.pData->length ) == 0; } /** Perform a ASCII lowercase comparison of two strings. Compare the two strings with uppercase ASCII character values between 65 and 90 (ASCII A-Z) interpreted as values between 97 and 122 (ASCII a-z). This function can't be used for language specific comparison. @param str the object to be compared. @return 0 - if both strings are equal < 0 - if this string is less than the string argument > 0 - if this string is greater than the string argument @since LibreOffice 4.0 */ sal_Int32 compareToIgnoreAsciiCase( const OUString & str ) const SAL_THROW(()) { return rtl_ustr_compareIgnoreAsciiCase_WithLength( pData->buffer, pData->length, str.pData->buffer, str.pData->length ); } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 3.6 */ template< typename T > typename internal::ConstCharArrayDetector< T, bool >::Type equalsIgnoreAsciiCase( T& literal ) const SAL_THROW(()) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); if ( pData->length != internal::ConstCharArrayDetector< T, void >::size - 1 ) return sal_False; return rtl_ustr_ascii_compareIgnoreAsciiCase_WithLength( pData->buffer, pData->length, literal ) == 0; } /** Match against a substring appearing in this string. The result is true if and only if the second string appears as a substring of this string, at the given position. This function can't be used for language specific comparison. @param str the object (substring) to be compared. @param fromIndex the index to start the comparion from. The index must be greater than or equal to 0 and less or equal as the string length. @return sal_True if str match with the characters in the string at the given position; sal_False, otherwise. */ sal_Bool match( const OUString & str, sal_Int32 fromIndex = 0 ) const SAL_THROW(()) { return rtl_ustr_shortenedCompare_WithLength( pData->buffer+fromIndex, pData->length-fromIndex, str.pData->buffer, str.pData->length, str.pData->length ) == 0; } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 3.6 */ template< typename T > typename internal::ConstCharArrayDetector< T, bool >::Type match( T& literal, sal_Int32 fromIndex = 0 ) const SAL_THROW(()) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return rtl_ustr_ascii_shortenedCompare_WithLength( pData->buffer+fromIndex, pData->length-fromIndex, literal, internal::ConstCharArrayDetector< T, void >::size - 1 ) == 0; } /** Match against a substring appearing in this string, ignoring the case of ASCII letters. The result is true if and only if the second string appears as a substring of this string, at the given position. Character values between 65 and 90 (ASCII A-Z) are interpreted as values between 97 and 122 (ASCII a-z). This function can't be used for language specific comparison. @param str the object (substring) to be compared. @param fromIndex the index to start the comparion from. The index must be greater than or equal to 0 and less than or equal to the string length. @return sal_True if str match with the characters in the string at the given position; sal_False, otherwise. */ sal_Bool matchIgnoreAsciiCase( const OUString & str, sal_Int32 fromIndex = 0 ) const SAL_THROW(()) { return rtl_ustr_shortenedCompareIgnoreAsciiCase_WithLength( pData->buffer+fromIndex, pData->length-fromIndex, str.pData->buffer, str.pData->length, str.pData->length ) == 0; } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 3.6 */ template< typename T > typename internal::ConstCharArrayDetector< T, bool >::Type matchIgnoreAsciiCase( T& literal, sal_Int32 fromIndex = 0 ) const SAL_THROW(()) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return rtl_ustr_ascii_shortenedCompareIgnoreAsciiCase_WithLength( pData->buffer+fromIndex, pData->length-fromIndex, literal, internal::ConstCharArrayDetector< T, void >::size - 1 ) == 0; } /** Compares two strings. The comparison is based on the numeric value of each character in the strings and return a value indicating their relationship. Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated. This function can't be used for language specific sorting. @param asciiStr the 8-Bit ASCII character string to be compared. @return 0 - if both strings are equal < 0 - if this string is less than the string argument > 0 - if this string is greater than the string argument */ sal_Int32 compareToAscii( const sal_Char* asciiStr ) const SAL_THROW(()) { return rtl_ustr_ascii_compare_WithLength( pData->buffer, pData->length, asciiStr ); } /** Compares two strings with a maximum count of characters. The comparison is based on the numeric value of each character in the strings and return a value indicating their relationship. Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated. This function can't be used for language specific sorting. @param asciiStr the 8-Bit ASCII character string to be compared. @param maxLength the maximum count of characters to be compared. @return 0 - if both strings are equal < 0 - if this string is less than the string argument > 0 - if this string is greater than the string argument */ sal_Int32 compareToAscii( const sal_Char * asciiStr, sal_Int32 maxLength ) const SAL_THROW(()) { return rtl_ustr_ascii_shortenedCompare_WithLength( pData->buffer, pData->length, asciiStr, maxLength ); } /** Compares two strings in reverse order. This could be useful, if normally both strings start with the same content. The comparison is based on the numeric value of each character in the strings and return a value indicating their relationship. Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated and must be greater than or equal to asciiStrLength. This function can't be used for language specific sorting. @param asciiStr the 8-Bit ASCII character string to be compared. @param asciiStrLength the length of the ascii string @return 0 - if both strings are equal < 0 - if this string is less than the string argument > 0 - if this string is greater than the string argument */ sal_Int32 reverseCompareToAsciiL( const sal_Char * asciiStr, sal_Int32 asciiStrLength ) const SAL_THROW(()) { return rtl_ustr_asciil_reverseCompare_WithLength( pData->buffer, pData->length, asciiStr, asciiStrLength ); } /** Perform a comparison of two strings. The result is true if and only if second string represents the same sequence of characters as the first string. Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated. This function can't be used for language specific comparison. @param asciiStr the 8-Bit ASCII character string to be compared. @return sal_True if the strings are equal; sal_False, otherwise. */ sal_Bool equalsAscii( const sal_Char* asciiStr ) const SAL_THROW(()) { return rtl_ustr_ascii_compare_WithLength( pData->buffer, pData->length, asciiStr ) == 0; } /** Perform a comparison of two strings. The result is true if and only if second string represents the same sequence of characters as the first string. Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated and must be greater than or equal to asciiStrLength. This function can't be used for language specific comparison. @param asciiStr the 8-Bit ASCII character string to be compared. @param asciiStrLength the length of the ascii string @return sal_True if the strings are equal; sal_False, otherwise. */ sal_Bool equalsAsciiL( const sal_Char* asciiStr, sal_Int32 asciiStrLength ) const SAL_THROW(()) { if ( pData->length != asciiStrLength ) return sal_False; return rtl_ustr_asciil_reverseEquals_WithLength( pData->buffer, asciiStr, asciiStrLength ); } /** Perform a ASCII lowercase comparison of two strings. The result is true if and only if second string represents the same sequence of characters as the first string, ignoring the case. Character values between 65 and 90 (ASCII A-Z) are interpreted as values between 97 and 122 (ASCII a-z). Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated. This function can't be used for language specific comparison. @param asciiStr the 8-Bit ASCII character string to be compared. @return sal_True if the strings are equal; sal_False, otherwise. */ sal_Bool equalsIgnoreAsciiCaseAscii( const sal_Char * asciiStr ) const SAL_THROW(()) { return rtl_ustr_ascii_compareIgnoreAsciiCase_WithLength( pData->buffer, pData->length, asciiStr ) == 0; } /** Compares two ASCII strings ignoring case The comparison is based on the numeric value of each character in the strings and return a value indicating their relationship. Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated. This function can't be used for language specific sorting. @param asciiStr the 8-Bit ASCII character string to be compared. @return 0 - if both strings are equal < 0 - if this string is less than the string argument > 0 - if this string is greater than the string argument @since LibreOffice 3.5 */ sal_Int32 compareToIgnoreAsciiCaseAscii( const sal_Char * asciiStr ) const SAL_THROW(()) { return rtl_ustr_ascii_compareIgnoreAsciiCase_WithLength( pData->buffer, pData->length, asciiStr ); } /** Perform an ASCII lowercase comparison of two strings. The result is true if and only if second string represents the same sequence of characters as the first string, ignoring the case. Character values between 65 and 90 (ASCII A-Z) are interpreted as values between 97 and 122 (ASCII a-z). Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated and must be greater than or equal to asciiStrLength. This function can't be used for language specific comparison. @param asciiStr the 8-Bit ASCII character string to be compared. @param asciiStrLength the length of the ascii string @return sal_True if the strings are equal; sal_False, otherwise. */ sal_Bool equalsIgnoreAsciiCaseAsciiL( const sal_Char * asciiStr, sal_Int32 asciiStrLength ) const SAL_THROW(()) { if ( pData->length != asciiStrLength ) return sal_False; return rtl_ustr_ascii_compareIgnoreAsciiCase_WithLength( pData->buffer, pData->length, asciiStr ) == 0; } /** Match against a substring appearing in this string. The result is true if and only if the second string appears as a substring of this string, at the given position. Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated and must be greater than or equal to asciiStrLength. This function can't be used for language specific comparison. @param asciiStr the object (substring) to be compared. @param asciiStrLength the length of asciiStr. @param fromIndex the index to start the comparion from. The index must be greater than or equal to 0 and less than or equal to the string length. @return sal_True if str match with the characters in the string at the given position; sal_False, otherwise. */ sal_Bool matchAsciiL( const sal_Char* asciiStr, sal_Int32 asciiStrLength, sal_Int32 fromIndex = 0 ) const SAL_THROW(()) { return rtl_ustr_ascii_shortenedCompare_WithLength( pData->buffer+fromIndex, pData->length-fromIndex, asciiStr, asciiStrLength ) == 0; } // This overload is left undefined, to detect calls of matchAsciiL that // erroneously use RTL_CONSTASCII_USTRINGPARAM instead of // RTL_CONSTASCII_STRINGPARAM (but would lead to ambiguities on 32 bit // platforms): #if SAL_TYPES_SIZEOFLONG == 8 void matchAsciiL(char const *, sal_Int32, rtl_TextEncoding) const; #endif /** Match against a substring appearing in this string, ignoring the case of ASCII letters. The result is true if and only if the second string appears as a substring of this string, at the given position. Character values between 65 and 90 (ASCII A-Z) are interpreted as values between 97 and 122 (ASCII a-z). Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated and must be greater than or equal to asciiStrLength. This function can't be used for language specific comparison. @param asciiStr the 8-Bit ASCII character string to be compared. @param asciiStrLength the length of the ascii string @param fromIndex the index to start the comparion from. The index must be greater than or equal to 0 and less than or equal to the string length. @return sal_True if str match with the characters in the string at the given position; sal_False, otherwise. */ sal_Bool matchIgnoreAsciiCaseAsciiL( const sal_Char* asciiStr, sal_Int32 asciiStrLength, sal_Int32 fromIndex = 0 ) const SAL_THROW(()) { return rtl_ustr_ascii_shortenedCompareIgnoreAsciiCase_WithLength( pData->buffer+fromIndex, pData->length-fromIndex, asciiStr, asciiStrLength ) == 0; } // This overload is left undefined, to detect calls of // matchIgnoreAsciiCaseAsciiL that erroneously use // RTL_CONSTASCII_USTRINGPARAM instead of RTL_CONSTASCII_STRINGPARAM (but // would lead to ambiguities on 32 bit platforms): #if SAL_TYPES_SIZEOFLONG == 8 void matchIgnoreAsciiCaseAsciiL(char const *, sal_Int32, rtl_TextEncoding) const; #endif /** Check whether this string starts with a given substring. @param str the substring to be compared @return true if and only if the given str appears as a substring at the start of this string @since LibreOffice 4.0 */ bool startsWith(OUString const & str) const { return match(str, 0); } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 4.0 */ template< typename T > typename internal::ConstCharArrayDetector< T, bool >::Type startsWith( T& literal ) const { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return internal::ConstCharArrayDetector< T, void >::size - 1 <= pData->length && rtl_ustr_asciil_reverseEquals_WithLength( pData->buffer, literal, internal::ConstCharArrayDetector< T, void >::size - 1); } /** Check whether this string starts with a given string, ignoring the case of ASCII letters. Character values between 65 and 90 (ASCII A-Z) are interpreted as values between 97 and 122 (ASCII a-z). This function can't be used for language specific comparison. @param str the object (substring) to be compared. @return true if this string starts with str, ignoring the case of ASCII letters ("A"--"Z" and "a"--"z"); otherwise, false is returned @since LibreOffice 4.0 */ sal_Bool startsWithIgnoreAsciiCase( const OUString & str ) const SAL_THROW(()) { return matchIgnoreAsciiCase(str, 0); } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 4.0 */ template< typename T > typename internal::ConstCharArrayDetector< T, bool >::Type startsWithIgnoreAsciiCase( T& literal ) const SAL_THROW(()) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return (rtl_ustr_ascii_compareIgnoreAsciiCase_WithLengths( pData->buffer, internal::ConstCharArrayDetector< T, void >::size - 1, literal, internal::ConstCharArrayDetector< T, void >::size - 1) == 0); } /** Check whether this string ends with a given substring. @param str the substring to be compared @return true if and only if the given str appears as a substring at the end of this string @since LibreOffice 3.6 */ bool endsWith(OUString const & str) const { return str.getLength() <= getLength() && match(str, getLength() - str.getLength()); } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 3.6 */ template< typename T > typename internal::ConstCharArrayDetector< T, bool >::Type endsWith( T& literal ) const { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return internal::ConstCharArrayDetector< T, void >::size - 1 <= pData->length && rtl_ustr_asciil_reverseEquals_WithLength( pData->buffer + pData->length - ( internal::ConstCharArrayDetector< T, void >::size - 1 ), literal, internal::ConstCharArrayDetector< T, void >::size - 1); } /** Check whether this string ends with a given ASCII string. @param asciiStr a sequence of at least asciiStrLength ASCII characters (bytes in the range 0x00--0x7F) @param asciiStrLength the length of asciiStr; must be non-negative @return true if this string ends with asciiStr; otherwise, false is returned @since UDK 3.2.7 */ inline bool endsWithAsciiL(char const * asciiStr, sal_Int32 asciiStrLength) const { return asciiStrLength <= pData->length && rtl_ustr_asciil_reverseEquals_WithLength( pData->buffer + pData->length - asciiStrLength, asciiStr, asciiStrLength); } /** Check whether this string ends with a given string, ignoring the case of ASCII letters. Character values between 65 and 90 (ASCII A-Z) are interpreted as values between 97 and 122 (ASCII a-z). This function can't be used for language specific comparison. @param str the object (substring) to be compared. @return true if this string ends with str, ignoring the case of ASCII letters ("A"--"Z" and "a"--"z"); otherwise, false is returned @since LibreOffice 3.6 */ sal_Bool endsWithIgnoreAsciiCase( const OUString & str ) const SAL_THROW(()) { return str.getLength() <= getLength() && matchIgnoreAsciiCase(str, getLength() - str.getLength()); } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 3.6 */ template< typename T > typename internal::ConstCharArrayDetector< T, bool >::Type endsWithIgnoreAsciiCase( T& literal ) const SAL_THROW(()) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return internal::ConstCharArrayDetector< T, void >::size - 1 <= pData->length && (rtl_ustr_ascii_compareIgnoreAsciiCase_WithLengths( pData->buffer + pData->length - ( internal::ConstCharArrayDetector< T, void >::size - 1 ), internal::ConstCharArrayDetector< T, void >::size - 1, literal, internal::ConstCharArrayDetector< T, void >::size - 1) == 0); } /** Check whether this string ends with a given ASCII string, ignoring the case of ASCII letters. @param asciiStr a sequence of at least asciiStrLength ASCII characters (bytes in the range 0x00--0x7F) @param asciiStrLength the length of asciiStr; must be non-negative @return true if this string ends with asciiStr, ignoring the case of ASCII letters ("A"--"Z" and "a"--"z"); otherwise, false is returned */ inline bool endsWithIgnoreAsciiCaseAsciiL( char const * asciiStr, sal_Int32 asciiStrLength) const { return asciiStrLength <= pData->length && (rtl_ustr_ascii_compareIgnoreAsciiCase_WithLengths( pData->buffer + pData->length - asciiStrLength, asciiStrLength, asciiStr, asciiStrLength) == 0); } friend sal_Bool operator == ( const OUString& rStr1, const OUString& rStr2 ) SAL_THROW(()) { return rStr1.equals(rStr2); } friend sal_Bool operator == ( const OUString& rStr1, const sal_Unicode * pStr2 ) SAL_THROW(()) { return rStr1.compareTo( pStr2 ) == 0; } friend sal_Bool operator == ( const sal_Unicode * pStr1, const OUString& rStr2 ) SAL_THROW(()) { return OUString( pStr1 ).compareTo( rStr2 ) == 0; } friend sal_Bool operator != ( const OUString& rStr1, const OUString& rStr2 ) SAL_THROW(()) { return !(operator == ( rStr1, rStr2 )); } friend sal_Bool operator != ( const OUString& rStr1, const sal_Unicode * pStr2 ) SAL_THROW(()) { return !(operator == ( rStr1, pStr2 )); } friend sal_Bool operator != ( const sal_Unicode * pStr1, const OUString& rStr2 ) SAL_THROW(()) { return !(operator == ( pStr1, rStr2 )); } friend sal_Bool operator < ( const OUString& rStr1, const OUString& rStr2 ) SAL_THROW(()) { return rStr1.compareTo( rStr2 ) < 0; } friend sal_Bool operator > ( const OUString& rStr1, const OUString& rStr2 ) SAL_THROW(()) { return rStr1.compareTo( rStr2 ) > 0; } friend sal_Bool operator <= ( const OUString& rStr1, const OUString& rStr2 ) SAL_THROW(()) { return rStr1.compareTo( rStr2 ) <= 0; } friend sal_Bool operator >= ( const OUString& rStr1, const OUString& rStr2 ) SAL_THROW(()) { return rStr1.compareTo( rStr2 ) >= 0; } /** * Compare string to an ASCII string literal. * * This operator is equal to calling equalsAsciiL(). * * @since LibreOffice 3.6 */ template< typename T > friend inline typename internal::ConstCharArrayDetector< T, bool >::Type operator==( const OUString& string, T& literal ) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return string.equalsAsciiL( literal, internal::ConstCharArrayDetector< T, void >::size - 1 ); } /** * Compare string to an ASCII string literal. * * This operator is equal to calling equalsAsciiL(). * * @since LibreOffice 3.6 */ template< typename T > friend inline typename internal::ConstCharArrayDetector< T, bool >::Type operator==( T& literal, const OUString& string ) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return string.equalsAsciiL( literal, internal::ConstCharArrayDetector< T, void >::size - 1 ); } /** * Compare string to an ASCII string literal. * * This operator is equal to calling !equalsAsciiL(). * * @since LibreOffice 3.6 */ template< typename T > friend inline typename internal::ConstCharArrayDetector< T, bool >::Type operator!=( const OUString& string, T& literal ) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return !string.equalsAsciiL( literal, internal::ConstCharArrayDetector< T, void >::size - 1 ); } /** * Compare string to an ASCII string literal. * * This operator is equal to calling !equalsAsciiL(). * * @since LibreOffice 3.6 */ template< typename T > friend inline typename internal::ConstCharArrayDetector< T, bool >::Type operator!=( T& literal, const OUString& string ) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return !string.equalsAsciiL( literal, internal::ConstCharArrayDetector< T, void >::size - 1 ); } /** Returns a hashcode for this string. @return a hash code value for this object. @see rtl::OUStringHash for convenient use of boost::unordered_map */ sal_Int32 hashCode() const SAL_THROW(()) { return rtl_ustr_hashCode_WithLength( pData->buffer, pData->length ); } /** Returns the index within this string of the first occurrence of the specified character, starting the search at the specified index. @param ch character to be located. @param fromIndex the index to start the search from. The index must be greater than or equal to 0 and less than or equal to the string length. @return the index of the first occurrence of the character in the character sequence represented by this string that is greater than or equal to fromIndex, or -1 if the character does not occur. */ sal_Int32 indexOf( sal_Unicode ch, sal_Int32 fromIndex = 0 ) const SAL_THROW(()) { sal_Int32 ret = rtl_ustr_indexOfChar_WithLength( pData->buffer+fromIndex, pData->length-fromIndex, ch ); return (ret < 0 ? ret : ret+fromIndex); } /** Returns the index within this string of the last occurrence of the specified character, searching backward starting at the end. @param ch character to be located. @return the index of the last occurrence of the character in the character sequence represented by this string, or -1 if the character does not occur. */ sal_Int32 lastIndexOf( sal_Unicode ch ) const SAL_THROW(()) { return rtl_ustr_lastIndexOfChar_WithLength( pData->buffer, pData->length, ch ); } /** Returns the index within this string of the last occurrence of the specified character, searching backward starting before the specified index. @param ch character to be located. @param fromIndex the index before which to start the search. @return the index of the last occurrence of the character in the character sequence represented by this string that is less than fromIndex, or -1 if the character does not occur before that point. */ sal_Int32 lastIndexOf( sal_Unicode ch, sal_Int32 fromIndex ) const SAL_THROW(()) { return rtl_ustr_lastIndexOfChar_WithLength( pData->buffer, fromIndex, ch ); } /** Returns the index within this string of the first occurrence of the specified substring, starting at the specified index. If str doesn't include any character, always -1 is returned. This is also the case, if both strings are empty. @param str the substring to search for. @param fromIndex the index to start the search from. @return If the string argument occurs one or more times as a substring within this string at the starting index, then the index of the first character of the first such substring is returned. If it does not occur as a substring starting at fromIndex or beyond, -1 is returned. */ sal_Int32 indexOf( const OUString & str, sal_Int32 fromIndex = 0 ) const SAL_THROW(()) { sal_Int32 ret = rtl_ustr_indexOfStr_WithLength( pData->buffer+fromIndex, pData->length-fromIndex, str.pData->buffer, str.pData->length ); return (ret < 0 ? ret : ret+fromIndex); } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 3.6 */ template< typename T > typename internal::ConstCharArrayDetector< T, sal_Int32 >::Type indexOf( T& literal, sal_Int32 fromIndex = 0 ) const SAL_THROW(()) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); sal_Int32 ret = rtl_ustr_indexOfAscii_WithLength( pData->buffer + fromIndex, pData->length - fromIndex, literal, internal::ConstCharArrayDetector< T, void >::size - 1); return ret < 0 ? ret : ret + fromIndex; } /** Returns the index within this string of the first occurrence of the specified ASCII substring, starting at the specified index. @param str the substring to be searched for. Need not be null-terminated, but must be at least as long as the specified len. Must only contain characters in the ASCII range 0x00--7F. @param len the length of the substring; must be non-negative. @param fromIndex the index to start the search from. Must be in the range from zero to the length of this string, inclusive. @return the index (starting at 0) of the first character of the first occurrence of the substring within this string starting at the given fromIndex, or -1 if the substring does not occur. If len is zero, -1 is returned. @since UDK 3.2.7 */ sal_Int32 indexOfAsciiL( char const * str, sal_Int32 len, sal_Int32 fromIndex = 0) const SAL_THROW(()) { sal_Int32 ret = rtl_ustr_indexOfAscii_WithLength( pData->buffer + fromIndex, pData->length - fromIndex, str, len); return ret < 0 ? ret : ret + fromIndex; } // This overload is left undefined, to detect calls of indexOfAsciiL that // erroneously use RTL_CONSTASCII_USTRINGPARAM instead of // RTL_CONSTASCII_STRINGPARAM (but would lead to ambiguities on 32 bit // platforms): #if SAL_TYPES_SIZEOFLONG == 8 void indexOfAsciiL(char const *, sal_Int32 len, rtl_TextEncoding) const; #endif /** Returns the index within this string of the last occurrence of the specified substring, searching backward starting at the end. The returned index indicates the starting index of the substring in this string. If str doesn't include any character, always -1 is returned. This is also the case, if both strings are empty. @param str the substring to search for. @return If the string argument occurs one or more times as a substring within this string, then the index of the first character of the last such substring is returned. If it does not occur as a substring, -1 is returned. */ sal_Int32 lastIndexOf( const OUString & str ) const SAL_THROW(()) { return rtl_ustr_lastIndexOfStr_WithLength( pData->buffer, pData->length, str.pData->buffer, str.pData->length ); } /** Returns the index within this string of the last occurrence of the specified substring, searching backward starting before the specified index. The returned index indicates the starting index of the substring in this string. If str doesn't include any character, always -1 is returned. This is also the case, if both strings are empty. @param str the substring to search for. @param fromIndex the index before which to start the search. @return If the string argument occurs one or more times as a substring within this string before the starting index, then the index of the first character of the last such substring is returned. Otherwise, -1 is returned. */ sal_Int32 lastIndexOf( const OUString & str, sal_Int32 fromIndex ) const SAL_THROW(()) { return rtl_ustr_lastIndexOfStr_WithLength( pData->buffer, fromIndex, str.pData->buffer, str.pData->length ); } /** @overload This function accepts an ASCII string literal as its argument. @since LibreOffice 3.6 */ template< typename T > typename internal::ConstCharArrayDetector< T, sal_Int32 >::Type lastIndexOf( T& literal ) const SAL_THROW(()) { assert( strlen( literal ) == internal::ConstCharArrayDetector< T >::size - 1 ); return rtl_ustr_lastIndexOfAscii_WithLength( pData->buffer, pData->length, literal, internal::ConstCharArrayDetector< T, void >::size - 1); } /** Returns the index within this string of the last occurrence of the specified ASCII substring. @param str the substring to be searched for. Need not be null-terminated, but must be at least as long as the specified len. Must only contain characters in the ASCII range 0x00--7F. @param len the length of the substring; must be non-negative. @return the index (starting at 0) of the first character of the last occurrence of the substring within this string, or -1 if the substring does not occur. If len is zero, -1 is returned. @since UDK 3.2.7 */ sal_Int32 lastIndexOfAsciiL(char const * str, sal_Int32 len) const SAL_THROW(()) { return rtl_ustr_lastIndexOfAscii_WithLength( pData->buffer, pData->length, str, len); } /** Returns a new string that is a substring of this string. The substring begins at the specified beginIndex. If beginIndex is negative or be greater than the length of this string, behaviour is undefined. @param beginIndex the beginning index, inclusive. @return the specified substring. */ SAL_WARN_UNUSED_RESULT OUString copy( sal_Int32 beginIndex ) const SAL_THROW(()) { rtl_uString *pNew = 0; rtl_uString_newFromSubString( &pNew, pData, beginIndex, getLength() - beginIndex ); return OUString( pNew, (DO_NOT_ACQUIRE*)0 ); } /** Returns a new string that is a substring of this string. The substring begins at the specified beginIndex and contains count characters. If either beginIndex or count are negative, or beginIndex + count are greater than the length of this string then behaviour is undefined. @param beginIndex the beginning index, inclusive. @param count the number of characters. @return the specified substring. */ SAL_WARN_UNUSED_RESULT OUString copy( sal_Int32 beginIndex, sal_Int32 count ) const SAL_THROW(()) { rtl_uString *pNew = 0; rtl_uString_newFromSubString( &pNew, pData, beginIndex, count ); return OUString( pNew, (DO_NOT_ACQUIRE*)0 ); } /** Concatenates the specified string to the end of this string. @param str the string that is concatenated to the end of this string. @return a string that represents the concatenation of this string followed by the string argument. */ SAL_WARN_UNUSED_RESULT OUString concat( const OUString & str ) const SAL_THROW(()) { rtl_uString* pNew = 0; rtl_uString_newConcat( &pNew, pData, str.pData ); return OUString( pNew, (DO_NOT_ACQUIRE*)0 ); } #ifndef RTL_FAST_STRING friend OUString operator+( const OUString& rStr1, const OUString& rStr2 ) SAL_THROW(()) { return rStr1.concat( rStr2 ); } #endif /** Returns a new string resulting from replacing n = count characters from position index in this string with newStr. @param index the replacing index in str. The index must be greater than or equal to 0 and less than or equal to the length of the string. @param count the count of characters that will be replaced The count must be greater than or equal to 0 and less than or equal to the length of the string minus index. @param newStr the new substring. @return the new string. */ SAL_WARN_UNUSED_RESULT OUString replaceAt( sal_Int32 index, sal_Int32 count, const OUString& newStr ) const SAL_THROW(()) { rtl_uString* pNew = 0; rtl_uString_newReplaceStrAt( &pNew, pData, index, count, newStr.pData ); return OUString( pNew, (DO_NOT_ACQUIRE*)0 ); } /** Returns a new string resulting from replacing all occurrences of oldChar in this string with newChar. If the character oldChar does not occur in the character sequence represented by this object, then the string is assigned with str. @param oldChar the old character. @param newChar the new character. @return a string derived from this string by replacing every occurrence of oldChar with newChar. */ SAL_WARN_UNUSED_RESULT OUString replace( sal_Unicode oldChar, sal_Unicode newChar ) const SAL_THROW(()) { rtl_uString* pNew = 0; rtl_uString_newReplace( &pNew, pData, oldChar, newChar ); return OUString( pNew, (DO_NOT_ACQUIRE*)0 ); } /** Returns a new string resulting from replacing the first occurrence of a given substring with another substring. @param from the substring to be replaced @param to the replacing substring @param[in,out] index pointer to a start index; if the pointer is non-null: upon entry to the function, its value is the index into this string at which to start searching for the \p from substring, the value must be non-negative and not greater than this string's length; upon exiting the function its value is the index into this string at which the replacement took place or -1 if no replacement took place; if the pointer is null, searching always starts at index 0 @since LibreOffice 3.6 */ SAL_WARN_UNUSED_RESULT OUString replaceFirst( OUString const & from, OUString const & to, sal_Int32 * index = 0) const { rtl_uString * s = 0; sal_Int32 i = 0; rtl_uString_newReplaceFirst( &s, pData, from.pData, to.pData, index == 0 ? &i : index); return OUString(s, SAL_NO_ACQUIRE); } /** Returns a new string resulting from replacing the first occurrence of a given substring with another substring. @param from ASCII string literal, the substring to be replaced @param to the replacing substring @param[in,out] index pointer to a start index; if the pointer is non-null: upon entry to the function, its value is the index into the this string at which to start searching for the \p from substring, the value must be non-negative and not greater than this string's length; upon exiting the function its value is the index into this string at which the replacement took place or -1 if no replacement took place; if the pointer is null, searching always starts at index 0 @since LibreOffice 3.6 */ template< typename T > SAL_WARN_UNUSED_RESULT typename internal::ConstCharArrayDetector< T, OUString >::Type replaceFirst( T& from, OUString const & to, sal_Int32 * index = 0) const { rtl_uString * s = 0; sal_Int32 i = 0; assert( strlen( from ) == internal::ConstCharArrayDetector< T >::size - 1 ); rtl_uString_newReplaceFirstAsciiL( &s, pData, from, internal::ConstCharArrayDetector< T, void >::size - 1, to.pData, index == 0 ? &i : index); return OUString(s, SAL_NO_ACQUIRE); } /** Returns a new string resulting from replacing the first occurrence of a given substring with another substring. @param from ASCII string literal, the substring to be replaced @param to ASCII string literal, the substring to be replaced @param[in,out] index pointer to a start index; if the pointer is non-null: upon entry to the function, its value is the index into the this string at which to start searching for the \p from substring, the value must be non-negative and not greater than this string's length; upon exiting the function its value is the index into this string at which the replacement took place or -1 if no replacement took place; if the pointer is null, searching always starts at index 0 @since LibreOffice 3.6 */ template< typename T1, typename T2 > SAL_WARN_UNUSED_RESULT typename internal::ConstCharArrayDetector< T1, typename internal::ConstCharArrayDetector< T2, OUString >::Type >::Type replaceFirst( T1& from, T2& to, sal_Int32 * index = 0) const { rtl_uString * s = 0; sal_Int32 i = 0; assert( strlen( from ) == internal::ConstCharArrayDetector< T1 >::size - 1 ); assert( strlen( to ) == internal::ConstCharArrayDetector< T2 >::size - 1 ); rtl_uString_newReplaceFirstAsciiLAsciiL( &s, pData, from, internal::ConstCharArrayDetector< T1, void >::size - 1, to, internal::ConstCharArrayDetector< T2, void >::size - 1, index == 0 ? &i : index); return OUString(s, SAL_NO_ACQUIRE); } /** Returns a new string resulting from replacing all occurrences of a given substring with another substring. Replacing subsequent occurrences picks up only after a given replacement. That is, replacing from "xa" to "xx" in "xaa" results in "xxa", not "xxx". @param from the substring to be replaced @param to the replacing substring @param fromIndex the position in the string where we will begin searching @since LibreOffice 4.0 */ SAL_WARN_UNUSED_RESULT OUString replaceAll( OUString const & from, OUString const & to, sal_Int32 fromIndex = 0) const { rtl_uString * s = 0; rtl_uString_newReplaceAllFromIndex(&s, pData, from.pData, to.pData, fromIndex); return OUString(s, SAL_NO_ACQUIRE); } /** Returns a new string resulting from replacing all occurrences of a given substring with another substring. Replacing subsequent occurrences picks up only after a given replacement. That is, replacing from "xa" to "xx" in "xaa" results in "xxa", not "xxx". @param from ASCII string literal, the substring to be replaced @param to the replacing substring @since LibreOffice 3.6 */ template< typename T > SAL_WARN_UNUSED_RESULT typename internal::ConstCharArrayDetector< T, OUString >::Type replaceAll( T& from, OUString const & to) const { rtl_uString * s = 0; assert( strlen( from ) == internal::ConstCharArrayDetector< T >::size - 1 ); rtl_uString_newReplaceAllAsciiL(&s, pData, from, internal::ConstCharArrayDetector< T, void >::size - 1, to.pData); return OUString(s, SAL_NO_ACQUIRE); } /** Returns a new string resulting from replacing all occurrences of a given substring with another substring. Replacing subsequent occurrences picks up only after a given replacement. That is, replacing from "xa" to "xx" in "xaa" results in "xxa", not "xxx". @param from ASCII string literal, the substring to be replaced @param to ASCII string literal, the substring to be replaced @since LibreOffice 3.6 */ template< typename T1, typename T2 > SAL_WARN_UNUSED_RESULT typename internal::ConstCharArrayDetector< T1, typename internal::ConstCharArrayDetector< T2, OUString >::Type >::Type replaceAll( T1& from, T2& to ) const { rtl_uString * s = 0; assert( strlen( from ) == internal::ConstCharArrayDetector< T1 >::size - 1 ); assert( strlen( to ) == internal::ConstCharArrayDetector< T2 >::size - 1 ); rtl_uString_newReplaceAllAsciiLAsciiL( &s, pData, from, internal::ConstCharArrayDetector< T1, void >::size - 1, to, internal::ConstCharArrayDetector< T2, void >::size - 1); return OUString(s, SAL_NO_ACQUIRE); } /** Converts from this string all ASCII uppercase characters (65-90) to ASCII lowercase characters (97-122). This function can't be used for language specific conversion. If the string doesn't contain characters which must be converted, then the new string is assigned with str. @return the string, converted to ASCII lowercase. */ SAL_WARN_UNUSED_RESULT OUString toAsciiLowerCase() const SAL_THROW(()) { rtl_uString* pNew = 0; rtl_uString_newToAsciiLowerCase( &pNew, pData ); return OUString( pNew, (DO_NOT_ACQUIRE*)0 ); } /** Converts from this string all ASCII lowercase characters (97-122) to ASCII uppercase characters (65-90). This function can't be used for language specific conversion. If the string doesn't contain characters which must be converted, then the new string is assigned with str. @return the string, converted to ASCII uppercase. */ SAL_WARN_UNUSED_RESULT OUString toAsciiUpperCase() const SAL_THROW(()) { rtl_uString* pNew = 0; rtl_uString_newToAsciiUpperCase( &pNew, pData ); return OUString( pNew, (DO_NOT_ACQUIRE*)0 ); } /** Returns a new string resulting from removing white space from both ends of the string. All characters that have codes less than or equal to 32 (the space character) are considered to be white space. If the string doesn't contain white spaces at both ends, then the new string is assigned with str. @return the string, with white space removed from the front and end. */ SAL_WARN_UNUSED_RESULT OUString trim() const SAL_THROW(()) { rtl_uString* pNew = 0; rtl_uString_newTrim( &pNew, pData ); return OUString( pNew, (DO_NOT_ACQUIRE*)0 ); } /** Returns a token in the string. Example: sal_Int32 nIndex = 0; do { ... OUString aToken = aStr.getToken( 0, ';', nIndex ); ... } while ( nIndex >= 0 ); @param token the number of the token to return @param cTok the character which seperate the tokens. @param index the position at which the token is searched in the string. The index must not be greater than the length of the string. This param is set to the position of the next token or to -1, if it is the last token. @return the token; if either token or index is negative, an empty token is returned (and index is set to -1) */ OUString getToken( sal_Int32 token, sal_Unicode cTok, sal_Int32& index ) const SAL_THROW(()) { rtl_uString * pNew = 0; index = rtl_uString_getToken( &pNew, pData, token, cTok, index ); return OUString( pNew, (DO_NOT_ACQUIRE *)0 ); } /** Returns a token from the string. The same as getToken(sal_Int32, sal_Unicode, sal_Int32 &), but always passing in 0 as the start index in the third argument. @param count the number of the token to return, starting with 0 @param separator the character which separates the tokens @return the given token, or an empty string @since LibreOffice 3.6 */ OUString getToken(sal_Int32 count, sal_Unicode separator) const { sal_Int32 n = 0; return getToken(count, separator, n); } /** Returns the Boolean value from this string. This function can't be used for language specific conversion. @return sal_True, if the string is 1 or "True" in any ASCII case. sal_False in any other case. */ sal_Bool toBoolean() const SAL_THROW(()) { return rtl_ustr_toBoolean( pData->buffer ); } /** Returns the first character from this string. @return the first character from this string or 0, if this string is emptry. */ sal_Unicode toChar() const SAL_THROW(()) { return pData->buffer[0]; } /** Returns the int32 value from this string. This function can't be used for language specific conversion. @param radix the radix (between 2 and 36) @return the int32 represented from this string. 0 if this string represents no number. */ sal_Int32 toInt32( sal_Int16 radix = 10 ) const SAL_THROW(()) { return rtl_ustr_toInt32( pData->buffer, radix ); } /** Returns the int64 value from this string. This function can't be used for language specific conversion. @param radix the radix (between 2 and 36) @return the int64 represented from this string. 0 if this string represents no number. */ sal_Int64 toInt64( sal_Int16 radix = 10 ) const SAL_THROW(()) { return rtl_ustr_toInt64( pData->buffer, radix ); } /** Returns the uint64 value from this string. This function can't be used for language specific conversion. @param radix the radix (between 2 and 36) @return the uint64 represented from this string. 0 if this string represents no number. */ sal_uInt64 toUInt64( sal_Int16 radix = 10 ) const SAL_THROW(()) { return rtl_ustr_toUInt64( pData->buffer, radix ); } /** Returns the float value from this string. This function can't be used for language specific conversion. @return the float represented from this string. 0.0 if this string represents no number. */ float toFloat() const SAL_THROW(()) { return rtl_ustr_toFloat( pData->buffer ); } /** Returns the double value from this string. This function can't be used for language specific conversion. @return the double represented from this string. 0.0 if this string represents no number. */ double toDouble() const SAL_THROW(()) { return rtl_ustr_toDouble( pData->buffer ); } /** Return a canonical representation for a string. A pool of strings, initially empty is maintained privately by the string class. On invocation, if present in the pool the original string will be returned. Otherwise this string, or a copy thereof will be added to the pool and returned. @return a version of the string from the pool. @exception std::bad_alloc is thrown if an out-of-memory condition occurs @since UDK 3.2.7 */ OUString intern() const { rtl_uString * pNew = 0; rtl_uString_intern( &pNew, pData ); if (pNew == 0) { #if defined EXCEPTIONS_OFF abort(); #else throw std::bad_alloc(); #endif } return OUString( pNew, (DO_NOT_ACQUIRE *)0 ); } /** Return a canonical representation for a converted string. A pool of strings, initially empty is maintained privately by the string class. On invocation, if present in the pool the original string will be returned. Otherwise this string, or a copy thereof will be added to the pool and returned. @param value a 8-Bit character array. @param length the number of character which should be converted. The 8-Bit character array length must be greater than or equal to this value. @param encoding the text encoding from which the 8-Bit character sequence should be converted. @param convertFlags flags which controls the conversion. see RTL_TEXTTOUNICODE_FLAGS_... @param pInfo pointer to return conversion status or NULL. @return a version of the converted string from the pool. @exception std::bad_alloc is thrown if an out-of-memory condition occurs @since UDK 3.2.7 */ static OUString intern( const sal_Char * value, sal_Int32 length, rtl_TextEncoding encoding, sal_uInt32 convertFlags = OSTRING_TO_OUSTRING_CVTFLAGS, sal_uInt32 *pInfo = NULL ) { rtl_uString * pNew = 0; rtl_uString_internConvert( &pNew, value, length, encoding, convertFlags, pInfo ); if (pNew == 0) { #if defined EXCEPTIONS_OFF abort(); #else throw std::bad_alloc(); #endif } return OUString( pNew, (DO_NOT_ACQUIRE *)0 ); } /** Converts to an OString, signalling failure. @param pTarget An out parameter receiving the converted OString. Must not be null; the contents are not modified if conversion fails (convertToOString returns false). @param nEncoding The text encoding to convert into. Must be an octet encoding (i.e., rtl_isOctetTextEncoding(nEncoding) must return true). @param nFlags A combination of RTL_UNICODETOTEXT_FLAGS that detail how to do the conversion (see rtl_convertUnicodeToText). RTL_UNICODETOTEXT_FLAGS_FLUSH need not be included, it is implicitly assumed. Typical uses are either RTL_UNICODETOTEXT_FLAGS_UNDEFINED_ERROR | RTL_UNICODETOTEXT_FLAGS_INVALID_ERROR (fail if a Unicode character cannot be converted to the target nEncoding) or OUSTRING_TO_OSTRING_CVTFLAGS (make a best efforts conversion). @return True if the conversion succeeded, false otherwise. */ inline bool convertToString(OString * pTarget, rtl_TextEncoding nEncoding, sal_uInt32 nFlags) const { return rtl_convertUStringToString(&pTarget->pData, pData->buffer, pData->length, nEncoding, nFlags); } /** Iterate through this string based on code points instead of UTF-16 code units. See Chapter 3 of The Unicode Standard 5.0 (Addison--Wesley, 2006) for definitions of the various terms used in this description. This string is interpreted as a sequence of zero or more UTF-16 code units. For each index into this sequence (from zero to one less than the length of the sequence, inclusive), a code point represented starting at the given index is computed as follows: - If the UTF-16 code unit addressed by the index constitutes a well-formed UTF-16 code unit sequence, the computed code point is the scalar value encoded by that UTF-16 code unit sequence. - Otherwise, if the index is at least two UTF-16 code units away from the end of the sequence, and the sequence of two UTF-16 code units addressed by the index constitutes a well-formed UTF-16 code unit sequence, the computed code point is the scalar value encoded by that UTF-16 code unit sequence. - Otherwise, the computed code point is the UTF-16 code unit addressed by the index. (This last case catches unmatched surrogates as well as indices pointing into the middle of surrogate pairs.) @param indexUtf16 pointer to a UTF-16 based index into this string; must not be null. On entry, the index must be in the range from zero to the length of this string (in UTF-16 code units), inclusive. Upon successful return, the index will be updated to address the UTF-16 code unit that is the given incrementCodePoints away from the initial index. @param incrementCodePoints the number of code points to move the given *indexUtf16. If non-negative, moving is done after determining the code point at the index. If negative, moving is done before determining the code point at the (then updated) index. The value must be such that the resulting UTF-16 based index is in the range from zero to the length of this string (in UTF-16 code units), inclusive. @return the code point (an integer in the range from 0 to 0x10FFFF, inclusive) that is represented within this string starting at the index computed as follows: If incrementCodePoints is non-negative, the index is the initial value of *indexUtf16; if incrementCodePoints is negative, the index is the updated value of *indexUtf16. In either case, the computed index must be in the range from zero to one less than the length of this string (in UTF-16 code units), inclusive. @since UDK 3.2.7 */ inline sal_uInt32 iterateCodePoints( sal_Int32 * indexUtf16, sal_Int32 incrementCodePoints = 1) const { return rtl_uString_iterateCodePoints( pData, indexUtf16, incrementCodePoints); } /** Returns the string representation of the integer argument. This function can't be used for language specific conversion. @param i an integer value @param radix the radix (between 2 and 36) @return a string with the string representation of the argument. @since LibreOffice 4.1 */ static OUString number( int i, sal_Int16 radix = 10 ) { sal_Unicode aBuf[RTL_USTR_MAX_VALUEOFINT32]; rtl_uString* pNewData = 0; rtl_uString_newFromStr_WithLength( &pNewData, aBuf, rtl_ustr_valueOfInt32( aBuf, i, radix ) ); return OUString( pNewData, (DO_NOT_ACQUIRE*)0 ); } /// @overload /// @since LibreOffice 4.1 static OUString number( unsigned int i, sal_Int16 radix = 10 ) { return number( static_cast< unsigned long long >( i ), radix ); } /// @overload /// @since LibreOffice 4.1 static OUString number( long i, sal_Int16 radix = 10) { return number( static_cast< long long >( i ), radix ); } /// @overload /// @since LibreOffice 4.1 static OUString number( unsigned long i, sal_Int16 radix = 10 ) { return number( static_cast< unsigned long long >( i ), radix ); } /// @overload /// @since LibreOffice 4.1 static OUString number( long long ll, sal_Int16 radix = 10 ) { sal_Unicode aBuf[RTL_STR_MAX_VALUEOFINT64]; rtl_uString* pNewData = 0; rtl_uString_newFromStr_WithLength( &pNewData, aBuf, rtl_ustr_valueOfInt64( aBuf, ll, radix ) ); return OUString( pNewData, (DO_NOT_ACQUIRE*)0 ); } /// @overload /// @since LibreOffice 4.1 static OUString number( unsigned long long ll, sal_Int16 radix = 10 ) { sal_Unicode aBuf[RTL_STR_MAX_VALUEOFUINT64]; rtl_uString* pNewData = 0; rtl_uString_newFromStr_WithLength( &pNewData, aBuf, rtl_ustr_valueOfUInt64( aBuf, ll, radix ) ); return OUString( pNewData, (DO_NOT_ACQUIRE*)0 ); } /** Returns the string representation of the float argument. This function can't be used for language specific conversion. @param f a float. @return a string with the string representation of the argument. @since LibreOffice 4.1 */ static OUString number( float f ) { sal_Unicode aBuf[RTL_USTR_MAX_VALUEOFFLOAT]; rtl_uString* pNewData = 0; rtl_uString_newFromStr_WithLength( &pNewData, aBuf, rtl_ustr_valueOfFloat( aBuf, f ) ); return OUString( pNewData, (DO_NOT_ACQUIRE*)0 ); } /** Returns the string representation of the double argument. This function can't be used for language specific conversion. @param d a double. @return a string with the string representation of the argument. @since LibreOffice 4.1 */ static OUString number( double d ) { sal_Unicode aBuf[RTL_USTR_MAX_VALUEOFDOUBLE]; rtl_uString* pNewData = 0; rtl_uString_newFromStr_WithLength( &pNewData, aBuf, rtl_ustr_valueOfDouble( aBuf, d ) ); return OUString( pNewData, (DO_NOT_ACQUIRE*)0 ); } /** Returns the string representation of the sal_Bool argument. If the sal_Bool is true, the string "true" is returned. If the sal_Bool is false, the string "false" is returned. This function can't be used for language specific conversion. @param b a sal_Bool. @return a string with the string representation of the argument. @deprecated use boolean() */ SAL_DEPRECATED_INTERNAL("use boolean()") static OUString valueOf( sal_Bool b ) SAL_THROW(()) { return boolean(b); } /** Returns the string representation of the boolean argument. If the argument is true, the string "true" is returned. If the argument is false, the string "false" is returned. This function can't be used for language specific conversion. @param b a bool. @return a string with the string representation of the argument. @since LibreOffice 4.1 */ static OUString boolean( bool b ) SAL_THROW(()) { sal_Unicode aBuf[RTL_USTR_MAX_VALUEOFBOOLEAN]; rtl_uString* pNewData = 0; rtl_uString_newFromStr_WithLength( &pNewData, aBuf, rtl_ustr_valueOfBoolean( aBuf, b ) ); return OUString( pNewData, (DO_NOT_ACQUIRE*)0 ); } /** Returns the string representation of the char argument. @param c a character. @return a string with the string representation of the argument. @deprecated use operator, function or constructor taking char or sal_Unicode argument */ SAL_DEPRECATED_INTERNAL("convert to OUString or use directly") static OUString valueOf( sal_Unicode c ) SAL_THROW(()) { return OUString( &c, 1 ); } /** Returns the string representation of the int argument. This function can't be used for language specific conversion. @param i a int32. @param radix the radix (between 2 and 36) @return a string with the string representation of the argument. @deprecated use number() */ SAL_DEPRECATED_INTERNAL("use number()") static OUString valueOf( sal_Int32 i, sal_Int16 radix = 10 ) SAL_THROW(()) { return number( i, radix ); } /** Returns the string representation of the long argument. This function can't be used for language specific conversion. @param ll a int64. @param radix the radix (between 2 and 36) @return a string with the string representation of the argument. @deprecated use number() */ SAL_DEPRECATED_INTERNAL("use number()") static OUString valueOf( sal_Int64 ll, sal_Int16 radix = 10 ) SAL_THROW(()) { return number( ll, radix ); } /** Returns the string representation of the float argument. This function can't be used for language specific conversion. @param f a float. @return a string with the string representation of the argument. @deprecated use number() */ SAL_DEPRECATED_INTERNAL("use number()") static OUString valueOf( float f ) SAL_THROW(()) { return number(f); } /** Returns the string representation of the double argument. This function can't be used for language specific conversion. @param d a double. @return a string with the string representation of the argument. @deprecated use number() */ SAL_DEPRECATED_INTERNAL("use number()") static OUString valueOf( double d ) SAL_THROW(()) { return number(d); } /** Returns a OUString copied without conversion from an ASCII character string. Since this method is optimized for performance, the ASCII character values are not converted in any way. The caller has to make sure that all ASCII characters are in the allowed range between 0 and 127. The ASCII string must be NULL-terminated. Note that for string literals it is simpler and more efficient to directly use the OUString constructor. @param value the 8-Bit ASCII character string @return a string with the string representation of the argument. */ static OUString createFromAscii( const sal_Char * value ) SAL_THROW(()) { rtl_uString* pNew = 0; rtl_uString_newFromAscii( &pNew, value ); return OUString( pNew, (DO_NOT_ACQUIRE*)0 ); } }; /* ======================================================================= */ #ifdef RTL_FAST_STRING /** A simple wrapper around string literal. It is usually not necessary to use, can be mostly used to force OUString operator+ working with operands that otherwise would not trigger it. This class is not part of public API and is meant to be used only in LibreOffice code. @since LibreOffice 4.0 */ struct SAL_WARN_UNUSED OUStringLiteral { template< int N > OUStringLiteral( const char (&str)[ N ] ) : size( N - 1 ), data( str ) { assert( strlen( str ) == N - 1 ); } int size; const char* data; }; /** @internal */ template<> struct ToStringHelper< OUString > { static int length( const OUString& s ) { return s.getLength(); } static sal_Unicode* addData( sal_Unicode* buffer, const OUString& s ) { return addDataHelper( buffer, s.getStr(), s.getLength()); } static const bool allowOStringConcat = false; static const bool allowOUStringConcat = true; }; /** @internal */ template<> struct ToStringHelper< OUStringLiteral > { static int length( const OUStringLiteral& str ) { return str.size; } static sal_Unicode* addData( sal_Unicode* buffer, const OUStringLiteral& str ) { return addDataLiteral( buffer, str.data, str.size ); } static const bool allowOStringConcat = false; static const bool allowOUStringConcat = true; }; /** @internal */ template< typename charT, typename traits, typename T1, typename T2 > inline std::basic_ostream & operator <<( std::basic_ostream & stream, const OUStringConcat< T1, T2 >& concat) { return stream << OUString( concat ); } #else // non-RTL_FAST_CODE needs this to compile typedef OUString OUStringLiteral; #endif /** A helper to use OUStrings with hash maps. Instances of this class are unary function objects that can be used as hash function arguments to boost::unordered_map and similar constructs. */ struct OUStringHash { /** Compute a hash code for a string. @param rString a string. @return a hash code for the string. This hash code should not be stored persistently, as its computation may change in later revisions. */ size_t operator()(const OUString& rString) const { return (size_t)rString.hashCode(); } }; /* ======================================================================= */ /** Convert an OString to an OUString, using a specific text encoding. The lengths of the two strings may differ (e.g., for double-byte encodings, UTF-7, UTF-8). @param rStr an OString to convert. @param encoding the text encoding to use for conversion. @param convertFlags flags which control the conversion. Either use OSTRING_TO_OUSTRING_CVTFLAGS, or see for more details. */ inline OUString OStringToOUString( const OString & rStr, rtl_TextEncoding encoding, sal_uInt32 convertFlags = OSTRING_TO_OUSTRING_CVTFLAGS ) { return OUString( rStr.getStr(), rStr.getLength(), encoding, convertFlags ); } /** Convert an OUString to an OString, using a specific text encoding. The lengths of the two strings may differ (e.g., for double-byte encodings, UTF-7, UTF-8). @param rUnicode an OUString to convert. @param encoding the text encoding to use for conversion. @param convertFlags flags which control the conversion. Either use OUSTRING_TO_OSTRING_CVTFLAGS, or see for more details. */ inline OString OUStringToOString( const OUString & rUnicode, rtl_TextEncoding encoding, sal_uInt32 convertFlags = OUSTRING_TO_OSTRING_CVTFLAGS ) { return OString( rUnicode.getStr(), rUnicode.getLength(), encoding, convertFlags ); } /* ======================================================================= */ /** Support for rtl::OUString in std::ostream (and thus in CPPUNIT_ASSERT or SAL_INFO macros, for example). The rtl::OUString is converted to UTF-8. @since LibreOffice 3.5. */ template< typename charT, typename traits > inline std::basic_ostream & operator <<( std::basic_ostream & stream, OUString const & string) { return stream << OUStringToOString(string, RTL_TEXTENCODING_UTF8).getStr(); // best effort; potentially loses data due to conversion failures // (stray surrogate halves) and embedded null characters } } // namespace #ifdef RTL_STRING_UNITTEST namespace rtl { typedef rtlunittest::OUString OUString; } #endif // RTL_USING is defined by gbuild for all modules except those with stable public API // (as listed in ure/source/README). It allows to use classes like OUString without // having to explicitly refer to the rtl namespace, which is kind of superfluous // given that OUString itself is namespaced by its OU prefix. #ifdef RTL_USING using ::rtl::OUString; using ::rtl::OUStringHash; using ::rtl::OStringToOUString; using ::rtl::OUStringToOString; using ::rtl::OUStringLiteral; #endif #endif /* _RTL_USTRING_HXX */ /* vim:set shiftwidth=4 softtabstop=4 expandtab: */