blob: e48a76f4f6dc7023f1d150dcc05f7b14855cb770 [file] [log] [blame]
/*
* Copyright (C) 2014-2019 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. AND ITS CONTRIBUTORS ``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 ITS 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 <limits.h>
#include <unicode/utypes.h>
#include <wtf/Forward.h>
#include <wtf/Optional.h>
#include <wtf/RetainPtr.h>
#include <wtf/Vector.h>
#include <wtf/text/CString.h>
#include <wtf/text/ConversionMode.h>
#include <wtf/text/LChar.h>
#include <wtf/text/StringCommon.h>
#include <wtf/text/UTF8ConversionError.h>
// FIXME: Enabling the StringView lifetime checking causes the MSVC build to fail. Figure out why.
#if defined(NDEBUG) || COMPILER(MSVC)
#define CHECK_STRINGVIEW_LIFETIME 0
#else
#define CHECK_STRINGVIEW_LIFETIME 1
#endif
namespace WTF {
// StringView is a non-owning reference to a string, similar to the proposed std::string_view.
class StringView final {
WTF_MAKE_FAST_ALLOCATED;
public:
StringView();
#if CHECK_STRINGVIEW_LIFETIME
~StringView();
StringView(StringView&&);
StringView(const StringView&);
StringView& operator=(StringView&&);
StringView& operator=(const StringView&);
#endif
StringView(const AtomString&);
StringView(const String&);
StringView(const StringImpl&);
StringView(const StringImpl*);
StringView(const LChar*, unsigned length);
StringView(const UChar*, unsigned length);
StringView(const char*);
StringView(const char*, unsigned length);
static StringView empty();
unsigned length() const;
bool isEmpty() const;
explicit operator bool() const;
bool isNull() const;
UChar operator[](unsigned index) const;
class CodeUnits;
CodeUnits codeUnits() const;
class CodePoints;
CodePoints codePoints() const;
class GraphemeClusters;
GraphemeClusters graphemeClusters() const;
bool is8Bit() const;
const LChar* characters8() const;
const UChar* characters16() const;
bool isAllASCII() const;
String toString() const;
String toStringWithoutCopying() const;
AtomString toAtomString() const;
RefPtr<AtomStringImpl> toExistingAtomString() const;
#if USE(CF)
// These functions convert null strings to empty strings.
WTF_EXPORT_PRIVATE RetainPtr<CFStringRef> createCFString() const;
WTF_EXPORT_PRIVATE RetainPtr<CFStringRef> createCFStringWithoutCopying() const;
#endif
#ifdef __OBJC__
// These functions convert null strings to empty strings.
WTF_EXPORT_PRIVATE RetainPtr<NSString> createNSString() const;
WTF_EXPORT_PRIVATE RetainPtr<NSString> createNSStringWithoutCopying() const;
#endif
WTF_EXPORT_PRIVATE Expected<CString, UTF8ConversionError> tryGetUtf8(ConversionMode = LenientConversion) const;
WTF_EXPORT_PRIVATE CString utf8(ConversionMode = LenientConversion) const;
class UpconvertedCharacters;
UpconvertedCharacters upconvertedCharacters() const;
void getCharactersWithUpconvert(LChar*) const;
void getCharactersWithUpconvert(UChar*) const;
StringView substring(unsigned start, unsigned length = std::numeric_limits<unsigned>::max()) const;
StringView left(unsigned length) const { return substring(0, length); }
StringView right(unsigned length) const { return substring(this->length() - length, length); }
template<typename MatchedCharacterPredicate>
StringView stripLeadingAndTrailingMatchedCharacters(const MatchedCharacterPredicate&);
class SplitResult;
SplitResult split(UChar) const;
SplitResult splitAllowingEmptyEntries(UChar) const;
size_t find(UChar, unsigned start = 0) const;
size_t find(CodeUnitMatchFunction, unsigned start = 0) const;
WTF_EXPORT_PRIVATE size_t find(StringView, unsigned start) const;
size_t reverseFind(UChar, unsigned index = std::numeric_limits<unsigned>::max()) const;
WTF_EXPORT_PRIVATE size_t findIgnoringASCIICase(const StringView&) const;
WTF_EXPORT_PRIVATE size_t findIgnoringASCIICase(const StringView&, unsigned startOffset) const;
WTF_EXPORT_PRIVATE String convertToASCIILowercase() const;
WTF_EXPORT_PRIVATE String convertToASCIIUppercase() const;
bool contains(UChar) const;
bool contains(CodeUnitMatchFunction) const;
WTF_EXPORT_PRIVATE bool containsIgnoringASCIICase(const StringView&) const;
WTF_EXPORT_PRIVATE bool containsIgnoringASCIICase(const StringView&, unsigned startOffset) const;
WTF_EXPORT_PRIVATE bool startsWith(UChar) const;
WTF_EXPORT_PRIVATE bool startsWith(const StringView&) const;
WTF_EXPORT_PRIVATE bool startsWithIgnoringASCIICase(const StringView&) const;
WTF_EXPORT_PRIVATE bool endsWith(const StringView&) const;
WTF_EXPORT_PRIVATE bool endsWithIgnoringASCIICase(const StringView&) const;
int toInt() const;
int toInt(bool& isValid) const;
int toIntStrict(bool& isValid) const;
Optional<uint64_t> toUInt64Strict() const;
float toFloat(bool& isValid) const;
static void invalidate(const StringImpl&);
struct UnderlyingString;
private:
friend bool equal(StringView, StringView);
void initialize(const LChar*, unsigned length);
void initialize(const UChar*, unsigned length);
template<typename CharacterType, typename MatchedCharacterPredicate>
StringView stripLeadingAndTrailingMatchedCharacters(const CharacterType*, const MatchedCharacterPredicate&);
#if CHECK_STRINGVIEW_LIFETIME
WTF_EXPORT_PRIVATE bool underlyingStringIsValid() const;
WTF_EXPORT_PRIVATE void setUnderlyingString(const StringImpl*);
WTF_EXPORT_PRIVATE void setUnderlyingString(const StringView&);
void adoptUnderlyingString(UnderlyingString*);
#else
bool underlyingStringIsValid() const { return true; }
void setUnderlyingString(const StringImpl*) { }
void setUnderlyingString(const StringView&) { }
#endif
void clear();
const void* m_characters { nullptr };
unsigned m_length { 0 };
bool m_is8Bit { true };
#if CHECK_STRINGVIEW_LIFETIME
UnderlyingString* m_underlyingString { nullptr };
#endif
};
template<typename CharacterType, size_t inlineCapacity> void append(Vector<CharacterType, inlineCapacity>&, StringView);
bool equal(StringView, StringView);
bool equal(StringView, const LChar* b);
bool equalIgnoringASCIICase(StringView, StringView);
bool equalIgnoringASCIICase(StringView, const char*);
template<unsigned length> bool equalLettersIgnoringASCIICase(StringView, const char (&lowercaseLetters)[length]);
inline bool operator==(StringView a, StringView b) { return equal(a, b); }
inline bool operator==(StringView a, const LChar *b);
inline bool operator==(StringView a, const char *b) { return equal(a, reinterpret_cast<const LChar*>(b)); }
inline bool operator==(const char* a, StringView b) { return equal(b, a); }
inline bool operator!=(StringView a, StringView b) { return !equal(a, b); }
inline bool operator!=(StringView a, const LChar* b) { return !equal(a, b); }
inline bool operator!=(StringView a, const char* b) { return !equal(a, b); }
inline bool operator!=(const LChar*a, StringView b) { return !equal(b, a); }
inline bool operator!=(const char*a, StringView b) { return !equal(b, a); }
struct StringViewWithUnderlyingString;
// This returns a StringView of the normalized result, and a String that is either
// null, if the input was already normalized, or contains the normalized result
// and needs to be kept around so the StringView remains valid. Typically the
// easiest way to use it correctly is to put it into a local and use the StringView.
WTF_EXPORT_PRIVATE StringViewWithUnderlyingString normalizedNFC(StringView);
WTF_EXPORT_PRIVATE String normalizedNFC(const String&);
}
#include <wtf/text/AtomString.h>
#include <wtf/text/WTFString.h>
namespace WTF {
struct StringViewWithUnderlyingString {
WTF_MAKE_STRUCT_FAST_ALLOCATED;
StringView view;
String underlyingString;
};
inline StringView::StringView()
{
}
#if CHECK_STRINGVIEW_LIFETIME
inline StringView::~StringView()
{
setUnderlyingString(nullptr);
}
inline StringView::StringView(StringView&& other)
: m_characters(other.m_characters)
, m_length(other.m_length)
, m_is8Bit(other.m_is8Bit)
{
ASSERT(other.underlyingStringIsValid());
other.clear();
setUnderlyingString(other);
other.setUnderlyingString(nullptr);
}
inline StringView::StringView(const StringView& other)
: m_characters(other.m_characters)
, m_length(other.m_length)
, m_is8Bit(other.m_is8Bit)
{
ASSERT(other.underlyingStringIsValid());
setUnderlyingString(other);
}
inline StringView& StringView::operator=(StringView&& other)
{
ASSERT(other.underlyingStringIsValid());
m_characters = other.m_characters;
m_length = other.m_length;
m_is8Bit = other.m_is8Bit;
other.clear();
setUnderlyingString(other);
other.setUnderlyingString(nullptr);
return *this;
}
inline StringView& StringView::operator=(const StringView& other)
{
ASSERT(other.underlyingStringIsValid());
m_characters = other.m_characters;
m_length = other.m_length;
m_is8Bit = other.m_is8Bit;
setUnderlyingString(other);
return *this;
}
#endif // CHECK_STRINGVIEW_LIFETIME
inline void StringView::initialize(const LChar* characters, unsigned length)
{
m_characters = characters;
m_length = length;
m_is8Bit = true;
}
inline void StringView::initialize(const UChar* characters, unsigned length)
{
m_characters = characters;
m_length = length;
m_is8Bit = false;
}
inline StringView::StringView(const LChar* characters, unsigned length)
{
initialize(characters, length);
}
inline StringView::StringView(const UChar* characters, unsigned length)
{
initialize(characters, length);
}
inline StringView::StringView(const char* characters)
{
initialize(reinterpret_cast<const LChar*>(characters), strlen(characters));
}
inline StringView::StringView(const char* characters, unsigned length)
{
initialize(reinterpret_cast<const LChar*>(characters), length);
}
inline StringView::StringView(const StringImpl& string)
{
setUnderlyingString(&string);
if (string.is8Bit())
initialize(string.characters8(), string.length());
else
initialize(string.characters16(), string.length());
}
inline StringView::StringView(const StringImpl* string)
{
if (!string)
return;
setUnderlyingString(string);
if (string->is8Bit())
initialize(string->characters8(), string->length());
else
initialize(string->characters16(), string->length());
}
inline StringView::StringView(const String& string)
{
setUnderlyingString(string.impl());
if (!string.impl()) {
clear();
return;
}
if (string.is8Bit()) {
initialize(string.characters8(), string.length());
return;
}
initialize(string.characters16(), string.length());
}
inline StringView::StringView(const AtomString& atomString)
: StringView(atomString.string())
{
}
inline void StringView::clear()
{
m_characters = nullptr;
m_length = 0;
m_is8Bit = true;
}
inline StringView StringView::empty()
{
return StringView("", 0);
}
inline const LChar* StringView::characters8() const
{
ASSERT(is8Bit());
ASSERT(underlyingStringIsValid());
return static_cast<const LChar*>(m_characters);
}
inline const UChar* StringView::characters16() const
{
ASSERT(!is8Bit());
ASSERT(underlyingStringIsValid());
return static_cast<const UChar*>(m_characters);
}
inline bool StringView::isAllASCII() const
{
if (is8Bit())
return charactersAreAllASCII(characters8(), length());
return charactersAreAllASCII(characters16(), length());
}
class StringView::UpconvertedCharacters {
WTF_MAKE_FAST_ALLOCATED;
public:
explicit UpconvertedCharacters(const StringView&);
operator const UChar*() const { return m_characters; }
const UChar* get() const { return m_characters; }
private:
Vector<UChar, 32> m_upconvertedCharacters;
const UChar* m_characters;
};
inline StringView::UpconvertedCharacters StringView::upconvertedCharacters() const
{
return UpconvertedCharacters(*this);
}
inline bool StringView::isNull() const
{
return !m_characters;
}
inline bool StringView::isEmpty() const
{
return !length();
}
inline unsigned StringView::length() const
{
return m_length;
}
inline StringView::operator bool() const
{
return !isNull();
}
inline bool StringView::is8Bit() const
{
return m_is8Bit;
}
inline StringView StringView::substring(unsigned start, unsigned length) const
{
if (start >= this->length())
return empty();
unsigned maxLength = this->length() - start;
if (length >= maxLength) {
if (!start)
return *this;
length = maxLength;
}
if (is8Bit()) {
StringView result(characters8() + start, length);
result.setUnderlyingString(*this);
return result;
}
StringView result(characters16() + start, length);
result.setUnderlyingString(*this);
return result;
}
inline UChar StringView::operator[](unsigned index) const
{
ASSERT(index < length());
if (is8Bit())
return characters8()[index];
return characters16()[index];
}
inline bool StringView::contains(UChar character) const
{
return find(character) != notFound;
}
inline bool StringView::contains(CodeUnitMatchFunction function) const
{
return find(function) != notFound;
}
inline void StringView::getCharactersWithUpconvert(LChar* destination) const
{
ASSERT(is8Bit());
StringImpl::copyCharacters(destination, characters8(), m_length);
}
inline void StringView::getCharactersWithUpconvert(UChar* destination) const
{
if (is8Bit()) {
StringImpl::copyCharacters(destination, characters8(), m_length);
return;
}
StringImpl::copyCharacters(destination, characters16(), m_length);
}
inline StringView::UpconvertedCharacters::UpconvertedCharacters(const StringView& string)
{
if (!string.is8Bit()) {
m_characters = string.characters16();
return;
}
const LChar* characters8 = string.characters8();
unsigned length = string.m_length;
m_upconvertedCharacters.reserveInitialCapacity(length);
for (unsigned i = 0; i < length; ++i)
m_upconvertedCharacters.uncheckedAppend(characters8[i]);
m_characters = m_upconvertedCharacters.data();
}
inline String StringView::toString() const
{
if (is8Bit())
return String(characters8(), m_length);
return String(characters16(), m_length);
}
inline AtomString StringView::toAtomString() const
{
if (is8Bit())
return AtomString(characters8(), m_length);
return AtomString(characters16(), m_length);
}
inline RefPtr<AtomStringImpl> StringView::toExistingAtomString() const
{
if (is8Bit())
return AtomStringImpl::lookUp(characters8(), m_length);
return AtomStringImpl::lookUp(characters16(), m_length);
}
inline float StringView::toFloat(bool& isValid) const
{
if (is8Bit())
return charactersToFloat(characters8(), m_length, &isValid);
return charactersToFloat(characters16(), m_length, &isValid);
}
inline int StringView::toInt() const
{
bool isValid;
return toInt(isValid);
}
inline int StringView::toInt(bool& isValid) const
{
if (is8Bit())
return charactersToInt(characters8(), m_length, &isValid);
return charactersToInt(characters16(), m_length, &isValid);
}
inline int StringView::toIntStrict(bool& isValid) const
{
if (is8Bit())
return charactersToIntStrict(characters8(), m_length, &isValid);
return charactersToIntStrict(characters16(), m_length, &isValid);
}
inline Optional<uint64_t> StringView::toUInt64Strict() const
{
bool isValid;
uint64_t result = is8Bit() ? charactersToUInt64Strict(characters8(), m_length, &isValid) : charactersToUInt64Strict(characters16(), m_length, &isValid);
return isValid ? makeOptional(result) : WTF::nullopt;
}
inline String StringView::toStringWithoutCopying() const
{
if (is8Bit())
return StringImpl::createWithoutCopying(characters8(), m_length);
return StringImpl::createWithoutCopying(characters16(), m_length);
}
inline size_t StringView::find(UChar character, unsigned start) const
{
if (is8Bit())
return WTF::find(characters8(), m_length, character, start);
return WTF::find(characters16(), m_length, character, start);
}
inline size_t StringView::find(CodeUnitMatchFunction matchFunction, unsigned start) const
{
if (is8Bit())
return WTF::find(characters8(), m_length, matchFunction, start);
return WTF::find(characters16(), m_length, matchFunction, start);
}
inline size_t StringView::reverseFind(UChar character, unsigned index) const
{
if (is8Bit())
return WTF::reverseFind(characters8(), m_length, character, index);
return WTF::reverseFind(characters16(), m_length, character, index);
}
#if !CHECK_STRINGVIEW_LIFETIME
inline void StringView::invalidate(const StringImpl&)
{
}
#endif
template<> class StringTypeAdapter<StringView, void> {
public:
StringTypeAdapter(StringView string)
: m_string { string }
{
}
unsigned length() { return m_string.length(); }
bool is8Bit() { return m_string.is8Bit(); }
template<typename CharacterType> void writeTo(CharacterType* destination) { m_string.getCharactersWithUpconvert(destination); }
private:
StringView m_string;
};
template<typename CharacterType, size_t inlineCapacity> void append(Vector<CharacterType, inlineCapacity>& buffer, StringView string)
{
unsigned oldSize = buffer.size();
buffer.grow(oldSize + string.length());
string.getCharactersWithUpconvert(buffer.data() + oldSize);
}
inline bool equal(StringView a, StringView b)
{
if (a.m_characters == b.m_characters) {
ASSERT(a.is8Bit() == b.is8Bit());
return a.length() == b.length();
}
return equalCommon(a, b);
}
inline bool equal(StringView a, const LChar* b)
{
if (!b)
return !a.isEmpty();
if (a.isEmpty())
return !b;
unsigned aLength = a.length();
if (aLength != strlen(reinterpret_cast<const char*>(b)))
return false;
if (a.is8Bit())
return equal(a.characters8(), b, aLength);
return equal(a.characters16(), b, aLength);
}
inline bool equalIgnoringASCIICase(StringView a, StringView b)
{
return equalIgnoringASCIICaseCommon(a, b);
}
inline bool equalIgnoringASCIICase(StringView a, const char* b)
{
return equalIgnoringASCIICaseCommon(a, b);
}
class StringView::SplitResult {
WTF_MAKE_FAST_ALLOCATED;
public:
SplitResult(StringView, UChar separator, bool allowEmptyEntries);
class Iterator;
Iterator begin() const;
Iterator end() const;
private:
StringView m_string;
UChar m_separator;
bool m_allowEmptyEntries;
};
class StringView::GraphemeClusters {
WTF_MAKE_FAST_ALLOCATED;
public:
explicit GraphemeClusters(const StringView&);
class Iterator;
Iterator begin() const;
Iterator end() const;
private:
StringView m_stringView;
};
class StringView::CodePoints {
WTF_MAKE_FAST_ALLOCATED;
public:
explicit CodePoints(const StringView&);
class Iterator;
Iterator begin() const;
Iterator end() const;
private:
StringView m_stringView;
};
class StringView::CodeUnits {
WTF_MAKE_FAST_ALLOCATED;
public:
explicit CodeUnits(const StringView&);
class Iterator;
Iterator begin() const;
Iterator end() const;
private:
StringView m_stringView;
};
class StringView::SplitResult::Iterator {
WTF_MAKE_FAST_ALLOCATED;
public:
StringView operator*() const;
WTF_EXPORT_PRIVATE Iterator& operator++();
bool operator==(const Iterator&) const;
bool operator!=(const Iterator&) const;
private:
enum PositionTag { AtEnd };
Iterator(const SplitResult&);
Iterator(const SplitResult&, PositionTag);
WTF_EXPORT_PRIVATE void findNextSubstring();
friend SplitResult;
const SplitResult& m_result;
unsigned m_position { 0 };
unsigned m_length;
bool m_isDone;
};
class StringView::GraphemeClusters::Iterator {
WTF_MAKE_FAST_ALLOCATED;
public:
Iterator() = delete;
WTF_EXPORT_PRIVATE Iterator(const StringView&, unsigned index);
WTF_EXPORT_PRIVATE ~Iterator();
Iterator(const Iterator&) = delete;
WTF_EXPORT_PRIVATE Iterator(Iterator&&);
Iterator& operator=(const Iterator&) = delete;
Iterator& operator=(Iterator&&) = delete;
WTF_EXPORT_PRIVATE StringView operator*() const;
WTF_EXPORT_PRIVATE Iterator& operator++();
WTF_EXPORT_PRIVATE bool operator==(const Iterator&) const;
WTF_EXPORT_PRIVATE bool operator!=(const Iterator&) const;
private:
class Impl;
std::unique_ptr<Impl> m_impl;
};
class StringView::CodePoints::Iterator {
WTF_MAKE_FAST_ALLOCATED;
public:
Iterator(const StringView&, unsigned index);
UChar32 operator*() const;
Iterator& operator++();
bool operator==(const Iterator&) const;
bool operator!=(const Iterator&) const;
private:
std::reference_wrapper<const StringView> m_stringView;
Optional<unsigned> m_nextCodePointOffset;
UChar32 m_codePoint;
};
class StringView::CodeUnits::Iterator {
WTF_MAKE_FAST_ALLOCATED;
public:
Iterator(const StringView&, unsigned index);
UChar operator*() const;
Iterator& operator++();
bool operator==(const Iterator&) const;
bool operator!=(const Iterator&) const;
private:
const StringView& m_stringView;
unsigned m_index;
};
inline auto StringView::graphemeClusters() const -> GraphemeClusters
{
return GraphemeClusters(*this);
}
inline auto StringView::codePoints() const -> CodePoints
{
return CodePoints(*this);
}
inline auto StringView::codeUnits() const -> CodeUnits
{
return CodeUnits(*this);
}
inline StringView::GraphemeClusters::GraphemeClusters(const StringView& stringView)
: m_stringView(stringView)
{
}
inline auto StringView::GraphemeClusters::begin() const -> Iterator
{
return Iterator(m_stringView, 0);
}
inline auto StringView::GraphemeClusters::end() const -> Iterator
{
return Iterator(m_stringView, m_stringView.length());
}
inline StringView::CodePoints::CodePoints(const StringView& stringView)
: m_stringView(stringView)
{
}
inline StringView::CodePoints::Iterator::Iterator(const StringView& stringView, unsigned index)
: m_stringView(stringView)
, m_nextCodePointOffset(index)
{
operator++();
}
inline auto StringView::CodePoints::Iterator::operator++() -> Iterator&
{
ASSERT(m_nextCodePointOffset);
if (m_nextCodePointOffset.value() == m_stringView.get().length()) {
m_nextCodePointOffset = WTF::nullopt;
return *this;
}
if (m_stringView.get().is8Bit())
m_codePoint = m_stringView.get().characters8()[m_nextCodePointOffset.value()++];
else
U16_NEXT(m_stringView.get().characters16(), m_nextCodePointOffset.value(), m_stringView.get().length(), m_codePoint);
ASSERT(m_nextCodePointOffset.value() <= m_stringView.get().length());
return *this;
}
inline UChar32 StringView::CodePoints::Iterator::operator*() const
{
ASSERT(m_nextCodePointOffset);
return m_codePoint;
}
inline bool StringView::CodePoints::Iterator::operator==(const Iterator& other) const
{
ASSERT(&m_stringView.get() == &other.m_stringView.get());
return m_nextCodePointOffset == other.m_nextCodePointOffset;
}
inline bool StringView::CodePoints::Iterator::operator!=(const Iterator& other) const
{
return !(*this == other);
}
inline auto StringView::CodePoints::begin() const -> Iterator
{
return Iterator(m_stringView, 0);
}
inline auto StringView::CodePoints::end() const -> Iterator
{
return Iterator(m_stringView, m_stringView.length());
}
inline StringView::CodeUnits::CodeUnits(const StringView& stringView)
: m_stringView(stringView)
{
}
inline StringView::CodeUnits::Iterator::Iterator(const StringView& stringView, unsigned index)
: m_stringView(stringView)
, m_index(index)
{
}
inline auto StringView::CodeUnits::Iterator::operator++() -> Iterator&
{
++m_index;
return *this;
}
inline UChar StringView::CodeUnits::Iterator::operator*() const
{
return m_stringView[m_index];
}
inline bool StringView::CodeUnits::Iterator::operator==(const Iterator& other) const
{
ASSERT(&m_stringView == &other.m_stringView);
return m_index == other.m_index;
}
inline bool StringView::CodeUnits::Iterator::operator!=(const Iterator& other) const
{
return !(*this == other);
}
inline auto StringView::CodeUnits::begin() const -> Iterator
{
return Iterator(m_stringView, 0);
}
inline auto StringView::CodeUnits::end() const -> Iterator
{
return Iterator(m_stringView, m_stringView.length());
}
inline auto StringView::split(UChar separator) const -> SplitResult
{
return SplitResult { *this, separator, false };
}
inline auto StringView::splitAllowingEmptyEntries(UChar separator) const -> SplitResult
{
return SplitResult { *this, separator, true };
}
inline StringView::SplitResult::SplitResult(StringView stringView, UChar separator, bool allowEmptyEntries)
: m_string { stringView }
, m_separator { separator }
, m_allowEmptyEntries { allowEmptyEntries }
{
}
inline auto StringView::SplitResult::begin() const -> Iterator
{
return Iterator { *this };
}
inline auto StringView::SplitResult::end() const -> Iterator
{
return Iterator { *this, Iterator::AtEnd };
}
inline StringView::SplitResult::Iterator::Iterator(const SplitResult& result)
: m_result { result }
, m_isDone { result.m_string.isEmpty() && !result.m_allowEmptyEntries }
{
findNextSubstring();
}
inline StringView::SplitResult::Iterator::Iterator(const SplitResult& result, PositionTag)
: m_result { result }
, m_position { result.m_string.length() }
, m_isDone { true }
{
}
inline StringView StringView::SplitResult::Iterator::operator*() const
{
ASSERT(m_position <= m_result.m_string.length() && !m_isDone);
return m_result.m_string.substring(m_position, m_length);
}
inline bool StringView::SplitResult::Iterator::operator==(const Iterator& other) const
{
ASSERT(&m_result == &other.m_result);
return m_position == other.m_position && m_isDone == other.m_isDone;
}
inline bool StringView::SplitResult::Iterator::operator!=(const Iterator& other) const
{
return !(*this == other);
}
template<typename CharacterType, typename MatchedCharacterPredicate>
inline StringView StringView::stripLeadingAndTrailingMatchedCharacters(const CharacterType* characters, const MatchedCharacterPredicate& predicate)
{
if (!m_length)
return *this;
unsigned start = 0;
unsigned end = m_length - 1;
while (start <= end && predicate(characters[start]))
++start;
if (start > end)
return StringView::empty();
while (end && predicate(characters[end]))
--end;
if (!start && end == m_length - 1)
return *this;
StringView result(characters + start, end + 1 - start);
result.setUnderlyingString(*this);
return result;
}
template<typename MatchedCharacterPredicate>
StringView StringView::stripLeadingAndTrailingMatchedCharacters(const MatchedCharacterPredicate& predicate)
{
if (is8Bit())
return stripLeadingAndTrailingMatchedCharacters<LChar>(characters8(), predicate);
return stripLeadingAndTrailingMatchedCharacters<UChar>(characters16(), predicate);
}
template<unsigned length> inline bool equalLettersIgnoringASCIICase(StringView string, const char (&lowercaseLetters)[length])
{
return equalLettersIgnoringASCIICaseCommon(string, lowercaseLetters);
}
} // namespace WTF
using WTF::append;
using WTF::equal;
using WTF::StringView;
using WTF::StringViewWithUnderlyingString;