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/*
* Copyright (C) 2010-2018 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#pragma once
#include <cstring>
#include <wtf/CheckedArithmetic.h>
#include <wtf/text/AtomString.h>
#include <wtf/text/StringView.h>
// This macro is helpful for testing how many intermediate Strings are created while evaluating an
// expression containing operator+.
#ifndef WTF_STRINGTYPEADAPTER_COPIED_WTF_STRING
#define WTF_STRINGTYPEADAPTER_COPIED_WTF_STRING() ((void)0)
#endif
namespace WTF {
template<> class StringTypeAdapter<char, void> {
public:
StringTypeAdapter(char character)
: m_character { character }
{
}
unsigned length() { return 1; }
bool is8Bit() { return true; }
template<typename CharacterType> void writeTo(CharacterType* destination) const { *destination = m_character; }
private:
char m_character;
};
template<> class StringTypeAdapter<UChar, void> {
public:
StringTypeAdapter(UChar character)
: m_character { character }
{
}
unsigned length() const { return 1; }
bool is8Bit() const { return isLatin1(m_character); }
void writeTo(LChar* destination) const
{
ASSERT(is8Bit());
*destination = m_character;
}
void writeTo(UChar* destination) const { *destination = m_character; }
private:
UChar m_character;
};
template<> class StringTypeAdapter<const LChar*, void> {
public:
StringTypeAdapter(const LChar* characters)
: m_characters { characters }
, m_length { computeLength(characters) }
{
}
unsigned length() const { return m_length; }
bool is8Bit() const { return true; }
template<typename CharacterType> void writeTo(CharacterType* destination) const { StringImpl::copyCharacters(destination, m_characters, m_length); }
private:
static unsigned computeLength(const LChar* characters)
{
size_t length = std::strlen(reinterpret_cast<const char*>(characters));
RELEASE_ASSERT(length <= String::MaxLength);
return static_cast<unsigned>(length);
}
const LChar* m_characters;
unsigned m_length;
};
template<> class StringTypeAdapter<const UChar*, void> {
public:
StringTypeAdapter(const UChar* characters)
: m_characters { characters }
, m_length { computeLength(characters) }
{
}
unsigned length() const { return m_length; }
bool is8Bit() const { return !m_length; }
void writeTo(LChar*) const { ASSERT(!m_length); }
void writeTo(UChar* destination) const { StringImpl::copyCharacters(destination, m_characters, m_length); }
private:
static unsigned computeLength(const UChar* characters)
{
size_t length = 0;
while (characters[length])
++length;
RELEASE_ASSERT(length <= String::MaxLength);
return static_cast<unsigned>(length);
}
const UChar* m_characters;
unsigned m_length;
};
template<> class StringTypeAdapter<const char*, void> : public StringTypeAdapter<const LChar*, void> {
public:
StringTypeAdapter(const char* characters)
: StringTypeAdapter<const LChar*, void> { reinterpret_cast<const LChar*>(characters) }
{
}
};
template<> class StringTypeAdapter<char*, void> : public StringTypeAdapter<const char*, void> {
public:
StringTypeAdapter(const char* characters)
: StringTypeAdapter<const char*, void> { characters }
{
}
};
template<> class StringTypeAdapter<ASCIILiteral, void> : public StringTypeAdapter<const char*, void> {
public:
StringTypeAdapter(ASCIILiteral characters)
: StringTypeAdapter<const char*, void> { characters }
{
}
};
template<> class StringTypeAdapter<Vector<char>, void> {
public:
StringTypeAdapter(const Vector<char>& vector)
: m_vector { vector }
{
}
size_t length() const { return m_vector.size(); }
bool is8Bit() const { return true; }
template<typename CharacterType> void writeTo(CharacterType* destination) const { StringImpl::copyCharacters(destination, characters(), length()); }
private:
const LChar* characters() const
{
return reinterpret_cast<const LChar*>(m_vector.data());
}
const Vector<char>& m_vector;
};
template<> class StringTypeAdapter<String, void> {
public:
StringTypeAdapter(const String& string)
: m_string { string }
{
}
unsigned length() const { return m_string.length(); }
bool is8Bit() const { return m_string.isNull() || m_string.is8Bit(); }
template<typename CharacterType> void writeTo(CharacterType* destination) const
{
StringView { m_string }.getCharactersWithUpconvert(destination);
WTF_STRINGTYPEADAPTER_COPIED_WTF_STRING();
}
private:
const String& m_string;
};
template<> class StringTypeAdapter<AtomString, void> : public StringTypeAdapter<String, void> {
public:
StringTypeAdapter(const AtomString& string)
: StringTypeAdapter<String, void> { string.string() }
{
}
};
template<typename UnderlyingElementType> struct PaddingSpecification {
LChar character;
unsigned length;
UnderlyingElementType underlyingElement;
};
template<typename UnderlyingElementType> PaddingSpecification<UnderlyingElementType> pad(char character, unsigned length, UnderlyingElementType element)
{
return { static_cast<LChar>(character), length, element };
}
template<typename UnderlyingElementType> class StringTypeAdapter<PaddingSpecification<UnderlyingElementType>> {
public:
StringTypeAdapter(const PaddingSpecification<UnderlyingElementType>& padding)
: m_padding { padding }
, m_underlyingAdapter { m_padding.underlyingElement }
{
}
unsigned length() const { return std::max(m_padding.length, m_underlyingAdapter.length()); }
bool is8Bit() const { return m_underlyingAdapter.is8Bit(); }
template<typename CharacterType> void writeTo(CharacterType* destination) const
{
unsigned underlyingLength = m_underlyingAdapter.length();
unsigned count = 0;
if (underlyingLength < m_padding.length) {
count = m_padding.length - underlyingLength;
for (unsigned i = 0; i < count; ++i)
destination[i] = m_padding.character;
}
m_underlyingAdapter.writeTo(destination + count);
}
private:
const PaddingSpecification<UnderlyingElementType>& m_padding;
StringTypeAdapter<UnderlyingElementType> m_underlyingAdapter;
};
template<unsigned N>
struct Indentation {
unsigned operator++() { return ++value; }
unsigned operator++(int) { return value++; }
unsigned operator--() { return --value; }
unsigned operator--(int) { return value--; }
unsigned value { 0 };
};
template<unsigned N>
struct IndentationScope {
IndentationScope(Indentation<N>& indentation)
: m_indentation(indentation)
{
++m_indentation;
}
~IndentationScope()
{
--m_indentation;
}
Indentation<N>& m_indentation;
};
template<unsigned N> class StringTypeAdapter<Indentation<N>, void> {
public:
StringTypeAdapter(Indentation<N> indentation)
: m_indentation { indentation }
{
}
unsigned length()
{
return m_indentation.value * N;
}
bool is8Bit()
{
return true;
}
template<typename CharacterType> void writeTo(CharacterType* destination)
{
std::fill_n(destination, m_indentation.value * N, ' ');
}
private:
Indentation<N> m_indentation;
};
struct ASCIICaseConverter {
StringView::CaseConvertType type;
StringView string;
};
inline ASCIICaseConverter lowercase(const StringView& stringView)
{
return { StringView::CaseConvertType::Lower, stringView };
}
inline ASCIICaseConverter uppercase(const StringView& stringView)
{
return { StringView::CaseConvertType::Upper, stringView };
}
template<> class StringTypeAdapter<ASCIICaseConverter, void> {
public:
StringTypeAdapter(const ASCIICaseConverter& converter)
: m_converter { converter }
{
}
unsigned length() const { return m_converter.string.length(); }
bool is8Bit() const { return m_converter.string.is8Bit(); }
template<typename CharacterType> void writeTo(CharacterType* destination) const
{
m_converter.string.getCharactersWithASCIICase(m_converter.type, destination);
}
private:
const ASCIICaseConverter& m_converter;
};
template<typename Adapter>
inline bool are8Bit(Adapter adapter)
{
return adapter.is8Bit();
}
template<typename Adapter, typename... Adapters>
inline bool are8Bit(Adapter adapter, Adapters ...adapters)
{
return adapter.is8Bit() && are8Bit(adapters...);
}
template<typename ResultType, typename Adapter>
inline void stringTypeAdapterAccumulator(ResultType* result, Adapter adapter)
{
adapter.writeTo(result);
}
template<typename ResultType, typename Adapter, typename... Adapters>
inline void stringTypeAdapterAccumulator(ResultType* result, Adapter adapter, Adapters ...adapters)
{
adapter.writeTo(result);
stringTypeAdapterAccumulator(result + adapter.length(), adapters...);
}
template<typename StringTypeAdapter, typename... StringTypeAdapters>
String tryMakeStringFromAdapters(StringTypeAdapter adapter, StringTypeAdapters ...adapters)
{
static_assert(String::MaxLength == std::numeric_limits<int32_t>::max(), "");
auto sum = checkedSum<int32_t>(adapter.length(), adapters.length()...);
if (sum.hasOverflowed())
return String();
unsigned length = sum.unsafeGet();
ASSERT(length <= String::MaxLength);
if (are8Bit(adapter, adapters...)) {
LChar* buffer;
RefPtr<StringImpl> resultImpl = StringImpl::tryCreateUninitialized(length, buffer);
if (!resultImpl)
return String();
stringTypeAdapterAccumulator(buffer, adapter, adapters...);
return resultImpl;
}
UChar* buffer;
RefPtr<StringImpl> resultImpl = StringImpl::tryCreateUninitialized(length, buffer);
if (!resultImpl)
return String();
stringTypeAdapterAccumulator(buffer, adapter, adapters...);
return resultImpl;
}
template<typename... StringTypes>
String tryMakeString(StringTypes ...strings)
{
return tryMakeStringFromAdapters(StringTypeAdapter<StringTypes>(strings)...);
}
template<typename... StringTypes>
String makeString(StringTypes... strings)
{
String result = tryMakeString(strings...);
if (!result)
CRASH();
return result;
}
} // namespace WTF
using WTF::Indentation;
using WTF::IndentationScope;
using WTF::makeString;
using WTF::pad;
using WTF::lowercase;
using WTF::tryMakeString;
using WTF::uppercase;
#include <wtf/text/StringOperators.h>