Source/WebCore/svg/SVGParserUtilities.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2002, 2003 The Karbon Developers
  * Copyright (C) 2006 Alexander Kellett <lypanov@kde.org>
  * Copyright (C) 2006, 2007 Rob Buis <buis@kde.org>
  * Copyright (C) 2007-2018 Apple Inc. All rights reserved.
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Library General Public
  * License as published by the Free Software Foundation; either
  * version 2 of the License, or (at your option) any later version.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Library General Public License for more details.
  *
  * You should have received a copy of the GNU Library General Public License
  * along with this library; see the file COPYING.LIB.  If not, write to
  * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  * Boston, MA 02110-1301, USA.
  */

 #include "config.h"
 #include "SVGParserUtilities.h"

 #include "Document.h"
 #include "FloatRect.h"
 #include <limits>
 #include <wtf/ASCIICType.h>
 #include <wtf/text/StringParsingBuffer.h>
 #include <wtf/text/StringView.h>

 namespace WebCore {

 template <typename FloatType> static inline bool isValidRange(const FloatType& x)
 {
     static const FloatType max = std::numeric_limits<FloatType>::max();
     return x >= -max && x <= max;
 }

 // We use this generic parseNumber function to allow the Path parsing code to work
 // at a higher precision internally, without any unnecessary runtime cost or code
 // complexity.
 // FIXME: Can this be shared/replaced with number parsing in WTF?
 template <typename CharacterType, typename FloatType = float> static std::optional<FloatType> genericParseNumber(StringParsingBuffer<CharacterType>& buffer, SuffixSkippingPolicy skip = SuffixSkippingPolicy::Skip)
 {
     FloatType number = 0;
     FloatType integer = 0;
     FloatType decimal = 0;
     FloatType frac = 1;
     FloatType exponent = 0;
     int sign = 1;
     int expsign = 1;
     auto start = buffer.position();

     // read the sign
     if (buffer.hasCharactersRemaining() && *buffer == '+')
         ++buffer;
     else if (buffer.hasCharactersRemaining() && *buffer == '-') {
         ++buffer;
         sign = -1;
     }

     if (buffer.atEnd() || (!isASCIIDigit(*buffer) && *buffer != '.'))
         return std::nullopt;

     // read the integer part, build right-to-left
     auto ptrStartIntPart = buffer.position();

     // Advance to first non-digit.
     skipWhile<isASCIIDigit>(buffer);

     if (buffer.position() != ptrStartIntPart) {
         auto ptrScanIntPart = buffer.position() - 1;
         FloatType multiplier = 1;
         while (ptrScanIntPart >= ptrStartIntPart) {
             integer += multiplier * static_cast<FloatType>(*(ptrScanIntPart--) - '0');
             multiplier *= 10;
         }
         // Bail out early if this overflows.
         if (!isValidRange(integer))
             return std::nullopt;
     }

     // read the decimals
     if (buffer.hasCharactersRemaining() && *buffer == '.') {
         ++buffer;

         // There must be a least one digit following the .
         if (buffer.atEnd() || !isASCIIDigit(*buffer))
             return std::nullopt;

         while (buffer.hasCharactersRemaining() && isASCIIDigit(*buffer))
             decimal += (*(buffer++) - '0') * (frac *= static_cast<FloatType>(0.1));
     }

     // read the exponent part
     if (buffer.position() != start && buffer.position() + 1 < buffer.end() && (*buffer == 'e' || *buffer == 'E')
         && (buffer[1] != 'x' && buffer[1] != 'm')) {
         ++buffer;

         // read the sign of the exponent
         if (*buffer == '+')
             ++buffer;
         else if (*buffer == '-') {
             ++buffer;
             expsign = -1;
         }

         // There must be an exponent
         if (buffer.atEnd() || !isASCIIDigit(*buffer))
             return std::nullopt;

         while (buffer.hasCharactersRemaining() && isASCIIDigit(*buffer)) {
             exponent *= static_cast<FloatType>(10);
             exponent += *buffer++ - '0';
         }
         // Make sure exponent is valid.
         if (!isValidRange(exponent) || exponent > std::numeric_limits<FloatType>::max_exponent)
             return std::nullopt;
     }

     number = integer + decimal;
     number *= sign;

     if (exponent)
         number *= static_cast<FloatType>(pow(10.0, expsign * static_cast<int>(exponent)));

     // Don't return Infinity() or NaN().
     if (!isValidRange(number))
         return std::nullopt;

     if (start == buffer.position())
         return std::nullopt;

     if (skip == SuffixSkippingPolicy::Skip)
         skipOptionalSVGSpacesOrDelimiter(buffer);

     return number;
 }

 std::optional<float> parseNumber(StringParsingBuffer<LChar>& buffer, SuffixSkippingPolicy skip)
 {
     return genericParseNumber(buffer, skip);
 }

 std::optional<float> parseNumber(StringParsingBuffer<UChar>& buffer, SuffixSkippingPolicy skip)
 {
     return genericParseNumber(buffer, skip);
 }

 std::optional<float> parseNumber(StringView string, SuffixSkippingPolicy skip)
 {
     return readCharactersForParsing(string, [skip](auto buffer) -> std::optional<float> {
         auto result = genericParseNumber(buffer, skip);
         if (!buffer.atEnd())
             return std::nullopt;
         return result;
     });
 }

 // only used to parse largeArcFlag and sweepFlag which must be a "0" or "1"
 // and might not have any whitespace/comma after it
 template <typename CharacterType> std::optional<bool> genericParseArcFlag(StringParsingBuffer<CharacterType>& buffer)
 {
     if (buffer.atEnd())
         return std::nullopt;

     const CharacterType flagChar = *buffer;
     ++buffer;

     bool flag;
     if (flagChar == '0')
         flag = false;
     else if (flagChar == '1')
         flag = true;
     else
         return std::nullopt;

     skipOptionalSVGSpacesOrDelimiter(buffer);

     return flag;
 }

 std::optional<bool> parseArcFlag(StringParsingBuffer<LChar>& buffer)
 {
     return genericParseArcFlag(buffer);
 }

 std::optional<bool> parseArcFlag(StringParsingBuffer<UChar>& buffer)
 {
     return genericParseArcFlag(buffer);
 }

 std::optional<std::pair<float, float>> parseNumberOptionalNumber(StringView string)
 {
     if (string.isEmpty())
         return std::nullopt;

     return readCharactersForParsing(string, [](auto buffer) -> std::optional<std::pair<float, float>> {
         auto x = parseNumber(buffer);
         if (!x)
             return std::nullopt;

         if (buffer.atEnd())
             return std::make_pair(*x, *x);

         auto y = parseNumber(buffer, SuffixSkippingPolicy::DontSkip);
         if (!y)
             return std::nullopt;

         if (!buffer.atEnd())
             return std::nullopt;

         return std::make_pair(*x, *y);
     });
 }

 std::optional<FloatPoint> parsePoint(StringView string)
 {
     if (string.isEmpty())
         return std::nullopt;

     return readCharactersForParsing(string, [](auto buffer) -> std::optional<FloatPoint> {
         if (!skipOptionalSVGSpaces(buffer))
             return std::nullopt;

         auto point = parseFloatPoint(buffer);
         if (!point)
             return std::nullopt;

         // Disallow anything except spaces at the end.
         skipOptionalSVGSpaces(buffer);

         return point;
     });
 }

 std::optional<FloatRect> parseRect(StringView string)
 {
     return readCharactersForParsing(string, [](auto buffer) -> std::optional<FloatRect> {
         skipOptionalSVGSpaces(buffer);

         auto x = parseNumber(buffer);
         if (!x)
             return std::nullopt;
         auto y = parseNumber(buffer);
         if (!y)
             return std::nullopt;
         auto width = parseNumber(buffer);
         if (!width)
             return std::nullopt;
         auto height = parseNumber(buffer, SuffixSkippingPolicy::DontSkip);
         if (!height)
             return std::nullopt;

         return FloatRect { *x, *y, *width, *height };
     });
 }

 std::optional<HashSet<String>> parseGlyphName(StringView string)
 {
     // FIXME: Parsing error detection is missing.

     return readCharactersForParsing(string, [](auto buffer) -> HashSet<String> {
         skipOptionalSVGSpaces(buffer);

         HashSet<String> values;

         while (buffer.hasCharactersRemaining()) {
             // Leading and trailing white space, and white space before and after separators, will be ignored.
             auto inputStart = buffer.position();

             skipUntil(buffer, ',');

             if (buffer.position() == inputStart)
                 break;

             // walk backwards from the ; to ignore any whitespace
             auto inputEnd = buffer.position() - 1;
             while (inputStart < inputEnd && isSVGSpace(*inputEnd))
                 --inputEnd;

             values.add(String(inputStart, inputEnd - inputStart + 1));
             skipOptionalSVGSpacesOrDelimiter(buffer, ',');
         }
         return values;
     });

 }

 template<typename CharacterType> static std::optional<UnicodeRange> parseUnicodeRange(StringParsingBuffer<CharacterType> buffer)
 {
     unsigned length = buffer.lengthRemaining();
     if (length < 2 || buffer[0] != 'U' || buffer[1] != '+')
         return std::nullopt;

     buffer += 2;

     // Parse the starting hex number (or its prefix).
     unsigned startRange = 0;
     unsigned startLength = 0;

     while (buffer.hasCharactersRemaining()) {
         if (!isASCIIHexDigit(*buffer))
             break;
         ++startLength;
         if (startLength > 6)
             return std::nullopt;
         startRange = (startRange << 4) | toASCIIHexValue(*buffer);
         ++buffer;
     }

     // Handle the case of ranges separated by "-" sign.
     if (2 + startLength < length && *buffer == '-') {
         if (!startLength)
             return std::nullopt;

         // Parse the ending hex number (or its prefix).
         unsigned endRange = 0;
         unsigned endLength = 0;
         ++buffer;
         while (buffer.hasCharactersRemaining()) {
             if (!isASCIIHexDigit(*buffer))
                 break;
             ++endLength;
             if (endLength > 6)
                 return std::nullopt;
             endRange = (endRange << 4) | toASCIIHexValue(*buffer);
             ++buffer;
         }

         if (!endLength)
             return std::nullopt;

         UnicodeRange range;
         range.first = startRange;
         range.second = endRange;
         return range;
     }

     // Handle the case of a number with some optional trailing question marks.
     unsigned endRange = startRange;
     while (buffer.hasCharactersRemaining()) {
         if (*buffer != '?')
             break;
         ++startLength;
         if (startLength > 6)
             return std::nullopt;
         startRange <<= 4;
         endRange = (endRange << 4) | 0xF;
         ++buffer;
     }

     if (!startLength)
         return std::nullopt;

     UnicodeRange range;
     range.first = startRange;
     range.second = endRange;
     return range;
 }

 std::optional<std::pair<UnicodeRanges, HashSet<String>>> parseKerningUnicodeString(StringView string)
 {
     // FIXME: Parsing error detection is missing.

     return readCharactersForParsing(string, [](auto buffer) -> std::pair<UnicodeRanges, HashSet<String>> {
         UnicodeRanges rangeList;
         HashSet<String> stringList;

         while (1) {
             auto inputStart = buffer.position();

             skipUntil(buffer, ',');

             if (buffer.position() == inputStart)
                 break;

             // Try to parse unicode range first
             if (auto range = parseUnicodeRange(StringParsingBuffer { inputStart, buffer.position() }))
                 rangeList.append(WTFMove(*range));
             else
                 stringList.add(String(inputStart, buffer.position() - inputStart));

             if (buffer.atEnd())
                 break;

             ++buffer;
         }

         return std::make_pair(WTFMove(rangeList), WTFMove(stringList));
     });
 }

 template <typename CharacterType> static std::optional<FloatPoint> genericParseFloatPoint(StringParsingBuffer<CharacterType>& buffer)
 {
     auto x = parseNumber(buffer);
     if (!x)
         return std::nullopt;

     auto y = parseNumber(buffer);
     if (!y)
         return std::nullopt;

     return FloatPoint { *x, *y };
 }

 std::optional<FloatPoint> parseFloatPoint(StringParsingBuffer<LChar>& buffer)
 {
     return genericParseFloatPoint(buffer);
 }

 std::optional<FloatPoint> parseFloatPoint(StringParsingBuffer<UChar>& buffer)
 {
     return genericParseFloatPoint(buffer);
 }

 }
	/*
	* Copyright (C) 2002, 2003 The Karbon Developers
	* Copyright (C) 2006 Alexander Kellett <lypanov@kde.org>
	* Copyright (C) 2006, 2007 Rob Buis <buis@kde.org>
	* Copyright (C) 2007-2018 Apple Inc. All rights reserved.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*/

	#include "config.h"
	#include "SVGParserUtilities.h"

	#include "Document.h"
	#include "FloatRect.h"
	#include <limits>
	#include <wtf/ASCIICType.h>
	#include <wtf/text/StringParsingBuffer.h>
	#include <wtf/text/StringView.h>

	namespace WebCore {

	template <typename FloatType> static inline bool isValidRange(const FloatType& x)
	{
	static const FloatType max = std::numeric_limits<FloatType>::max();
	return x >= -max && x <= max;
	}

	// We use this generic parseNumber function to allow the Path parsing code to work
	// at a higher precision internally, without any unnecessary runtime cost or code
	// complexity.
	// FIXME: Can this be shared/replaced with number parsing in WTF?
	template <typename CharacterType, typename FloatType = float> static std::optional<FloatType> genericParseNumber(StringParsingBuffer<CharacterType>& buffer, SuffixSkippingPolicy skip = SuffixSkippingPolicy::Skip)
	{
	FloatType number = 0;
	FloatType integer = 0;
	FloatType decimal = 0;
	FloatType frac = 1;
	FloatType exponent = 0;
	int sign = 1;
	int expsign = 1;
	auto start = buffer.position();

	// read the sign
	if (buffer.hasCharactersRemaining() && *buffer == '+')
	++buffer;
	else if (buffer.hasCharactersRemaining() && *buffer == '-') {
	++buffer;
	sign = -1;
	}

	if (buffer.atEnd() \|\| (!isASCIIDigit(buffer) && buffer != '.'))
	return std::nullopt;

	// read the integer part, build right-to-left
	auto ptrStartIntPart = buffer.position();

	// Advance to first non-digit.
	skipWhile<isASCIIDigit>(buffer);

	if (buffer.position() != ptrStartIntPart) {
	auto ptrScanIntPart = buffer.position() - 1;
	FloatType multiplier = 1;
	while (ptrScanIntPart >= ptrStartIntPart) {
	integer += multiplier * static_cast<FloatType>(*(ptrScanIntPart--) - '0');
	multiplier *= 10;
	}
	// Bail out early if this overflows.
	if (!isValidRange(integer))
	return std::nullopt;
	}

	// read the decimals
	if (buffer.hasCharactersRemaining() && *buffer == '.') {
	++buffer;

	// There must be a least one digit following the .
	if (buffer.atEnd() \|\| !isASCIIDigit(*buffer))
	return std::nullopt;

	while (buffer.hasCharactersRemaining() && isASCIIDigit(*buffer))
	decimal += ((buffer++) - '0') (frac *= static_cast<FloatType>(0.1));
	}

	// read the exponent part
	if (buffer.position() != start && buffer.position() + 1 < buffer.end() && (buffer == 'e' \|\| buffer == 'E')
	&& (buffer[1] != 'x' && buffer[1] != 'm')) {
	++buffer;

	// read the sign of the exponent
	if (*buffer == '+')
	++buffer;
	else if (*buffer == '-') {
	++buffer;
	expsign = -1;
	}

	// There must be an exponent
	if (buffer.atEnd() \|\| !isASCIIDigit(*buffer))
	return std::nullopt;

	while (buffer.hasCharactersRemaining() && isASCIIDigit(*buffer)) {
	exponent *= static_cast<FloatType>(10);
	exponent += *buffer++ - '0';
	}
	// Make sure exponent is valid.
	if (!isValidRange(exponent) \|\| exponent > std::numeric_limits<FloatType>::max_exponent)
	return std::nullopt;
	}

	number = integer + decimal;
	number *= sign;

	if (exponent)
	number = static_cast<FloatType>(pow(10.0, expsign static_cast<int>(exponent)));

	// Don't return Infinity() or NaN().
	if (!isValidRange(number))
	return std::nullopt;

	if (start == buffer.position())
	return std::nullopt;

	if (skip == SuffixSkippingPolicy::Skip)
	skipOptionalSVGSpacesOrDelimiter(buffer);

	return number;
	}

	std::optional<float> parseNumber(StringParsingBuffer<LChar>& buffer, SuffixSkippingPolicy skip)
	{
	return genericParseNumber(buffer, skip);
	}

	std::optional<float> parseNumber(StringParsingBuffer<UChar>& buffer, SuffixSkippingPolicy skip)
	{
	return genericParseNumber(buffer, skip);
	}

	std::optional<float> parseNumber(StringView string, SuffixSkippingPolicy skip)
	{
	return readCharactersForParsing(string, [skip](auto buffer) -> std::optional<float> {
	auto result = genericParseNumber(buffer, skip);
	if (!buffer.atEnd())
	return std::nullopt;
	return result;
	});
	}

	// only used to parse largeArcFlag and sweepFlag which must be a "0" or "1"
	// and might not have any whitespace/comma after it
	template <typename CharacterType> std::optional<bool> genericParseArcFlag(StringParsingBuffer<CharacterType>& buffer)
	{
	if (buffer.atEnd())
	return std::nullopt;

	const CharacterType flagChar = *buffer;
	++buffer;

	bool flag;
	if (flagChar == '0')
	flag = false;
	else if (flagChar == '1')
	flag = true;
	else
	return std::nullopt;

	skipOptionalSVGSpacesOrDelimiter(buffer);

	return flag;
	}

	std::optional<bool> parseArcFlag(StringParsingBuffer<LChar>& buffer)
	{
	return genericParseArcFlag(buffer);
	}

	std::optional<bool> parseArcFlag(StringParsingBuffer<UChar>& buffer)
	{
	return genericParseArcFlag(buffer);
	}

	std::optional<std::pair<float, float>> parseNumberOptionalNumber(StringView string)
	{
	if (string.isEmpty())
	return std::nullopt;

	return readCharactersForParsing(string, [](auto buffer) -> std::optional<std::pair<float, float>> {
	auto x = parseNumber(buffer);
	if (!x)
	return std::nullopt;

	if (buffer.atEnd())
	return std::make_pair(x, x);

	auto y = parseNumber(buffer, SuffixSkippingPolicy::DontSkip);
	if (!y)
	return std::nullopt;

	if (!buffer.atEnd())
	return std::nullopt;

	return std::make_pair(x, y);
	});
	}

	std::optional<FloatPoint> parsePoint(StringView string)
	{
	if (string.isEmpty())
	return std::nullopt;

	return readCharactersForParsing(string, [](auto buffer) -> std::optional<FloatPoint> {
	if (!skipOptionalSVGSpaces(buffer))
	return std::nullopt;

	auto point = parseFloatPoint(buffer);
	if (!point)
	return std::nullopt;

	// Disallow anything except spaces at the end.
	skipOptionalSVGSpaces(buffer);

	return point;
	});
	}

	std::optional<FloatRect> parseRect(StringView string)
	{
	return readCharactersForParsing(string, [](auto buffer) -> std::optional<FloatRect> {
	skipOptionalSVGSpaces(buffer);

	auto x = parseNumber(buffer);
	if (!x)
	return std::nullopt;
	auto y = parseNumber(buffer);
	if (!y)
	return std::nullopt;
	auto width = parseNumber(buffer);
	if (!width)
	return std::nullopt;
	auto height = parseNumber(buffer, SuffixSkippingPolicy::DontSkip);
	if (!height)
	return std::nullopt;

	return FloatRect { x, y, width, height };
	});
	}

	std::optional<HashSet<String>> parseGlyphName(StringView string)
	{
	// FIXME: Parsing error detection is missing.

	return readCharactersForParsing(string, [](auto buffer) -> HashSet<String> {
	skipOptionalSVGSpaces(buffer);

	HashSet<String> values;

	while (buffer.hasCharactersRemaining()) {
	// Leading and trailing white space, and white space before and after separators, will be ignored.
	auto inputStart = buffer.position();

	skipUntil(buffer, ',');

	if (buffer.position() == inputStart)
	break;

	// walk backwards from the ; to ignore any whitespace
	auto inputEnd = buffer.position() - 1;
	while (inputStart < inputEnd && isSVGSpace(*inputEnd))
	--inputEnd;

	values.add(String(inputStart, inputEnd - inputStart + 1));
	skipOptionalSVGSpacesOrDelimiter(buffer, ',');
	}
	return values;
	});

	}

	template<typename CharacterType> static std::optional<UnicodeRange> parseUnicodeRange(StringParsingBuffer<CharacterType> buffer)
	{
	unsigned length = buffer.lengthRemaining();
	if (length < 2 \|\| buffer[0] != 'U' \|\| buffer[1] != '+')
	return std::nullopt;

	buffer += 2;

	// Parse the starting hex number (or its prefix).
	unsigned startRange = 0;
	unsigned startLength = 0;

	while (buffer.hasCharactersRemaining()) {
	if (!isASCIIHexDigit(*buffer))
	break;
	++startLength;
	if (startLength > 6)
	return std::nullopt;
	startRange = (startRange << 4) \| toASCIIHexValue(*buffer);
	++buffer;
	}

	// Handle the case of ranges separated by "-" sign.
	if (2 + startLength < length && *buffer == '-') {
	if (!startLength)
	return std::nullopt;

	// Parse the ending hex number (or its prefix).
	unsigned endRange = 0;
	unsigned endLength = 0;
	++buffer;
	while (buffer.hasCharactersRemaining()) {
	if (!isASCIIHexDigit(*buffer))
	break;
	++endLength;
	if (endLength > 6)
	return std::nullopt;
	endRange = (endRange << 4) \| toASCIIHexValue(*buffer);
	++buffer;
	}

	if (!endLength)
	return std::nullopt;

	UnicodeRange range;
	range.first = startRange;
	range.second = endRange;
	return range;
	}

	// Handle the case of a number with some optional trailing question marks.
	unsigned endRange = startRange;
	while (buffer.hasCharactersRemaining()) {
	if (*buffer != '?')
	break;
	++startLength;
	if (startLength > 6)
	return std::nullopt;
	startRange <<= 4;
	endRange = (endRange << 4) \| 0xF;
	++buffer;
	}

	if (!startLength)
	return std::nullopt;

	UnicodeRange range;
	range.first = startRange;
	range.second = endRange;
	return range;
	}

	std::optional<std::pair<UnicodeRanges, HashSet<String>>> parseKerningUnicodeString(StringView string)
	{
	// FIXME: Parsing error detection is missing.

	return readCharactersForParsing(string, [](auto buffer) -> std::pair<UnicodeRanges, HashSet<String>> {
	UnicodeRanges rangeList;
	HashSet<String> stringList;

	while (1) {
	auto inputStart = buffer.position();

	skipUntil(buffer, ',');

	if (buffer.position() == inputStart)
	break;

	// Try to parse unicode range first
	if (auto range = parseUnicodeRange(StringParsingBuffer { inputStart, buffer.position() }))
	rangeList.append(WTFMove(*range));
	else
	stringList.add(String(inputStart, buffer.position() - inputStart));

	if (buffer.atEnd())
	break;

	++buffer;
	}

	return std::make_pair(WTFMove(rangeList), WTFMove(stringList));
	});
	}

	template <typename CharacterType> static std::optional<FloatPoint> genericParseFloatPoint(StringParsingBuffer<CharacterType>& buffer)
	{
	auto x = parseNumber(buffer);
	if (!x)
	return std::nullopt;

	auto y = parseNumber(buffer);
	if (!y)
	return std::nullopt;

	return FloatPoint { x, y };
	}

	std::optional<FloatPoint> parseFloatPoint(StringParsingBuffer<LChar>& buffer)
	{
	return genericParseFloatPoint(buffer);
	}

	std::optional<FloatPoint> parseFloatPoint(StringParsingBuffer<UChar>& buffer)
	{
	return genericParseFloatPoint(buffer);
	}

	}