cbb66e9ace
Change-Id: Iaf248ec769b82bdb22ac0620a1dc31ea90823d4a Reviewed-on: https://gerrit.libreoffice.org/c/core/+/132535 Tested-by: Julien Nabet <serval2412@yahoo.fr> Reviewed-by: Julien Nabet <serval2412@yahoo.fr>
391 lines
12 KiB
C++
391 lines
12 KiB
C++
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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/*
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* This file is part of the LibreOffice project.
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*
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/.
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*/
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/*
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* This file is part of LibreOffice published API.
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*/
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#ifndef INCLUDED_RTL_STRINGUTILS_HXX
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#define INCLUDED_RTL_STRINGUTILS_HXX
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#include "sal/config.h"
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#include <cassert>
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#include <cstddef>
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#include "sal/types.h"
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// The unittest uses slightly different code to help check that the proper
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// calls are made. The class is put into a different namespace to make
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// sure the compiler generates a different (if generating also non-inline)
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// copy of the function and does not merge them together. The class
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// is "brought" into the proper rtl namespace by a typedef below.
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#ifdef RTL_STRING_UNITTEST
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#define rtl rtlunittest
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#endif
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namespace rtl
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{
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#ifdef RTL_STRING_UNITTEST
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#undef rtl
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#endif
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#if defined LIBO_INTERNAL_ONLY
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/// @cond INTERNAL
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// A simple wrapper around a single char. Can be useful in string concatenation contexts, like in
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//
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// OString s = ...;
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// char c = ...;
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// s += OStringChar(c);
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//
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struct SAL_WARN_UNUSED OStringChar {
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constexpr OStringChar(char theC): c(theC) {}
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template<typename T> OStringChar(T &&) = delete;
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constexpr operator std::string_view() const { return {&c, 1}; }
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char const c;
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};
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/** A simple wrapper around a single sal_Unicode character.
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Can be useful to pass a sal_Unicode constant into an OUString-related
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function that is optimized for UTF-16 string literal arguments. That is,
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instead of
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sal_Unicode const WILDCARD = '%';
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...
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if (s[i] == WILDCARD) ...
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...
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if (s.endsWith(OUString(WILDCARD))) ...
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use
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sal_Unicode const WILDCARD = '%';
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...
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if (s[i] == WILDCARD) ...
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...
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if (s.endsWith(OUStringChar(WILDCARD))) ...
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to avoid creating a temporary OUString instance, and instead pick the
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endsWith overload actually designed to take an argument of type
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sal_Unicode const[N].
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(Because of the above use case,
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instances of OUStringChar need to be const, as those literal-optimized
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functions take the literal argument by non-const lvalue reference, for
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technical reasons.
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For actual arrays, it is important to distinguish string literals from other char or sal_Unicode
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arrays, which may contain junk after the first NUL character or may be non-ASCII in the case of
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char arrays. This is not so much a concern for single char and sal_Unicode values, where NUL is
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assumed to always be meant as an actual character.)
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Can also be useful in string concatenation contexts, like in
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sal_Unicode const * s = ...;
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sal_Unicode c = ...;
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OUString t = s + OUStringChar(c);
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@since LibreOffice 5.0
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*/
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struct SAL_WARN_UNUSED OUStringChar_ {
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constexpr OUStringChar_(sal_Unicode theC): c(theC) {}
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constexpr OUStringChar_(char theC): c(theC) { assert(c <= 0x7F); }
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template<typename T> OUStringChar_(T &&) = delete;
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constexpr operator std::u16string_view() const { return {&c, 1}; }
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sal_Unicode const c;
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};
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using OUStringChar = OUStringChar_ const;
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/// @endcond
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#endif
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namespace libreoffice_internal
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{
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/*
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These templates use SFINAE (Substitution failure is not an error) to help distinguish the various
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plain C string types: char*, const char*, char[N], const char[N], char[] and const char[].
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There are 2 cases:
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1) Only string literal (i.e. const char[N]) is wanted, not any of the others.
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In this case it is necessary to distinguish between const char[N] and char[N], as the latter
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would be automatically converted to the const variant, which is not wanted (not a string literal
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with known size of the content). In this case ConstCharArrayDetector is used to ensure the function
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is called only with const char[N] arguments. There's no other plain C string type overload.
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(Note that OUStringChar is also covered by ConstCharArrayDetector's TypeUtf16 check, but
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provides a pointer to a string that is not NUL-terminated, unlike the char16_t const[N] arrays
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normally covered by that check, and which are assumed to represent NUL-terminated string
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literals.)
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2) All plain C string types are wanted, and const char[N] needs to be handled differently.
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In this case const char[N] would match const char* argument type (not exactly sure why, but it's
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consistent in all of gcc, clang and msvc). Using a template with a reference to const of the type
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avoids this problem, and CharPtrDetector ensures that the function is called only with char pointer
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arguments. The const in the argument is necessary to handle the case when something is explicitly
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cast to const char*. Additionally (non-const) char[N] needs to be handled, but with the reference
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being const, it would also match const char[N], so another overload with a reference to non-const
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and NonConstCharArrayDetector are used to ensure the function is called only with (non-const) char[N].
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Additionally, char[] and const char[] (i.e. size unknown) are rather tricky. Their usage with 'T&' would
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mean it would be 'char(&)[]', which seems to be invalid. But gcc and clang somehow manage when it is
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a template. while msvc complains about no conversion from char[] to char[1]. And the reference cannot
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be avoided, because 'const char[]' as argument type would match also 'const char[N]'
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So char[] and const char[] should always be used with their contents specified (which automatically
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turns them into char[N] or const char[N]), or char* and const char* should be used.
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*/
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struct Dummy {};
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template< typename T1, typename T2 = void >
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struct CharPtrDetector
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{
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static const bool ok = false;
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};
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template< typename T >
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struct CharPtrDetector< const char*, T >
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{
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typedef T Type;
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static const bool ok = true;
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};
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template< typename T >
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struct CharPtrDetector< char*, T >
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{
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typedef T Type;
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static const bool ok = true;
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};
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#if defined LIBO_INTERNAL_ONLY
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template<typename T> struct CharPtrDetector<sal_Unicode *, T> { using TypeUtf16 = T; };
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template<typename T> struct CharPtrDetector<sal_Unicode const *, T> { using TypeUtf16 = T; };
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template<typename T> struct CharPtrDetector<sal_Unicode[], T> { using TypeUtf16 = T; };
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template<typename T> struct CharPtrDetector<sal_Unicode const[], T> { using TypeUtf16 = T; };
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#endif
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template< typename T1, typename T2 >
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struct NonConstCharArrayDetector
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{
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};
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template< typename T, int N >
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struct NonConstCharArrayDetector< char[ N ], T >
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{
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typedef T Type;
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};
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#ifdef RTL_STRING_UNITTEST
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// never use, until all compilers handle this
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template< typename T >
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struct NonConstCharArrayDetector< char[], T >
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{
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typedef T Type;
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};
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template< typename T >
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struct NonConstCharArrayDetector< const char[], T >
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{
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typedef T Type;
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};
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#endif
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#if defined LIBO_INTERNAL_ONLY
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template<typename T, std::size_t N> struct NonConstCharArrayDetector<sal_Unicode[N], T> {
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using TypeUtf16 = T;
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};
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#endif
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template< typename T1, typename T2 = void >
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struct ConstCharArrayDetector
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{
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static const bool ok = false;
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};
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template< std::size_t N, typename T >
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struct ConstCharArrayDetector< const char[ N ], T >
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{
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typedef T Type;
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static const std::size_t length = N - 1;
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static const bool ok = true;
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#if defined LIBO_INTERNAL_ONLY
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constexpr
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#endif
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static bool isValid(char const (& literal)[N]) {
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for (std::size_t i = 0; i != N - 1; ++i) {
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if (literal[i] == '\0') {
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return false;
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}
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}
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return literal[N - 1] == '\0';
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}
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#if defined LIBO_INTERNAL_ONLY
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constexpr
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#endif
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static char const * toPointer(char const (& literal)[N]) { return literal; }
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};
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#if defined(__COVERITY__)
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//to silence over zealous warnings that the loop is logically dead
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//for the single char case
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template< typename T >
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struct ConstCharArrayDetector< const char[ 1 ], T >
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{
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typedef T Type;
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static const std::size_t length = 0;
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static const bool ok = true;
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#if defined LIBO_INTERNAL_ONLY
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constexpr
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#endif
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static bool isValid(char const (& literal)[1]) {
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return literal[0] == '\0';
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}
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#if defined LIBO_INTERNAL_ONLY
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constexpr
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#endif
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static char const * toPointer(char const (& literal)[1]) { return literal; }
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};
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#endif
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#if defined LIBO_INTERNAL_ONLY && defined __cpp_char8_t
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template<std::size_t N, typename T>
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struct ConstCharArrayDetector<char8_t const [N], T> {
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using Type = T;
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static constexpr bool const ok = true;
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static constexpr std::size_t const length = N - 1;
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static constexpr bool isValid(char8_t const (& literal)[N]) {
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for (std::size_t i = 0; i != N - 1; ++i) {
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if (literal[i] == u8'\0') {
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return false;
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}
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}
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return literal[N - 1] == u8'\0';
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}
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static constexpr char const * toPointer(char8_t const (& literal)[N])
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{ return reinterpret_cast<char const *>(literal); }
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};
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#endif
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#if defined LIBO_INTERNAL_ONLY
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template<std::size_t N, typename T>
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struct ConstCharArrayDetector<sal_Unicode const [N], T> {
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using TypeUtf16 = T;
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static constexpr bool const ok = true;
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static constexpr std::size_t const length = N - 1;
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static constexpr bool isValid(sal_Unicode const (& literal)[N]) {
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for (std::size_t i = 0; i != N - 1; ++i) {
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if (literal[i] == '\0') {
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return false;
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}
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}
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return literal[N - 1] == '\0';
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}
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static constexpr sal_Unicode const * toPointer(
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sal_Unicode const (& literal)[N])
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{ return literal; }
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};
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#if defined(__COVERITY__)
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//to silence over zealous warnings that the loop is logically dead
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//for the single char case
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template<typename T>
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struct ConstCharArrayDetector<sal_Unicode const [1], T> {
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using TypeUtf16 = T;
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static constexpr bool const ok = true;
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static constexpr std::size_t const length = 0;
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static constexpr bool isValid(sal_Unicode const (& literal)[1]) {
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return literal[0] == '\0';
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}
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static constexpr sal_Unicode const * toPointer(
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sal_Unicode const (& literal)[1])
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{ return literal; }
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};
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#endif
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template<typename T> struct ConstCharArrayDetector<
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OUStringChar,
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T>
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{
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using TypeUtf16 = T;
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static constexpr bool const ok = true;
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static constexpr std::size_t const length = 1;
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static constexpr bool isValid(OUStringChar) { return true; }
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static constexpr sal_Unicode const * toPointer(
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OUStringChar_ const & literal)
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{ return &literal.c; }
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};
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#endif
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#if defined LIBO_INTERNAL_ONLY && defined RTL_STRING_UNITTEST
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// this one is used to rule out only const char[N]
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template< typename T >
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struct ExceptConstCharArrayDetector
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{
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typedef Dummy Type;
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};
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template< int N >
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struct ExceptConstCharArrayDetector< const char[ N ] >
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{
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};
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template<std::size_t N>
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struct ExceptConstCharArrayDetector<sal_Unicode const[N]> {};
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template<> struct ExceptConstCharArrayDetector<
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OUStringChar
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>
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{};
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// this one is used to rule out only const char[N]
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// (const will be brought in by 'const T&' in the function call)
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// msvc needs const char[N] here (not sure whether gcc or msvc
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// are right, it doesn't matter).
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template< typename T >
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struct ExceptCharArrayDetector
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{
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typedef Dummy Type;
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};
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template< int N >
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struct ExceptCharArrayDetector< char[ N ] >
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{
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};
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template< int N >
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struct ExceptCharArrayDetector< const char[ N ] >
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{
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};
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template<std::size_t N> struct ExceptCharArrayDetector<sal_Unicode[N]> {};
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template<std::size_t N> struct ExceptCharArrayDetector<sal_Unicode const[N]> {};
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template<> struct ExceptCharArrayDetector<OUStringChar_> {};
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#endif
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template< typename T1, typename T2 = void >
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struct SalUnicodePtrDetector
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{
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static const bool ok = false;
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};
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template< typename T >
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struct SalUnicodePtrDetector< const sal_Unicode*, T >
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{
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typedef T Type;
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static const bool ok = true;
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};
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template< typename T >
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struct SalUnicodePtrDetector< sal_Unicode*, T >
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{
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typedef T Type;
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static const bool ok = true;
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};
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// SFINAE helper class
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template< typename T, bool >
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struct Enable
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{
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};
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template< typename T >
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struct Enable< T, true >
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{
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typedef T Type;
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};
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} /* Namespace */
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} /* Namespace */
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#endif // INCLUDED_RTL_STRINGUTILS_HXX
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/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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