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// *****************************************************************************
// * This file is part of the FreeFileSync project. It is distributed under *
// * GNU General Public License: https://www.gnu.org/licenses/gpl-3.0 *
// * Copyright (C) Zenju (zenju AT freefilesync DOT org) - All Rights Reserved *
// *****************************************************************************
#ifndef PARSER_H_81248670213764583021432
#define PARSER_H_81248670213764583021432
#include <cstdio>
#include <cstddef> //ptrdiff_t; req. on Linux
#include <zen/string_tools.h>
#include "dom.h"
namespace zen
{
/**
\file
\brief Convert an XML document object model (class XmlDoc) to and from a byte stream representation.
*/
///Save XML document as a byte stream
/**
\param doc Input XML document
\param lineBreak Line break, default: carriage return + new line
\param indent Indentation, default: four space characters
\return Output byte stream
*/
std::string serializeXml(const XmlDoc& doc,
const std::string& lineBreak = "\r\n",
const std::string& indent = " "); //noexcept
///Exception thrown due to an XML parsing error
struct XmlParsingError
{
XmlParsingError(size_t rowNo, size_t colNo) : row(rowNo), col(colNo) {}
///Input file row where the parsing error occured (zero-based)
const size_t row; //beginning with 0
///Input file column where the parsing error occured (zero-based)
const size_t col; //
};
///Load XML document from a byte stream
/**
\param stream Input byte stream
\returns Output XML document
\throw XmlParsingError
*/
XmlDoc parseXml(const std::string& stream); //throw XmlParsingError
//---------------------------- implementation ----------------------------
//see: https://www.w3.org/TR/xml/
namespace xml_impl
{
template <class Predicate> inline
std::string normalize(const std::string& str, Predicate pred) //pred: unary function taking a char, return true if value shall be encoded as hex
{
std::string output;
for (const char c : str)
switch (c)
{
//*INDENT-OFF*
case '&': output += "&"; break; //
case '<': output += "<"; break; //normalization mandatory: https://www.w3.org/TR/xml/#syntax
case '>': output += ">"; break; //
default:
if (pred(c))
{
if (c == '\'') output += "'";
else if (c == '"') output += """;
else
{
output += "&#x";
const auto [high, low] = hexify(c);
output += high;
output += low;
output += ';';
}
}
else
output += c;
break;
//*INDENT-ON*
}
return output;
}
inline
std::string normalizeName(const std::string& str)
{
const std::string nameFmt = normalize(str, [](char c) { return isWhiteSpace(c) || c == '=' || c == '/' || c == '\'' || c == '"'; });
assert(!nameFmt.empty());
return nameFmt;
}
inline
std::string normalizeElementValue(const std::string& str)
{
return normalize(str, [](char c) { return static_cast<unsigned char>(c) < 32; });
}
inline
std::string normalizeAttribValue(const std::string& str)
{
return normalize(str, [](char c) { return static_cast<unsigned char>(c) < 32 || c == '\'' || c == '"'; });
}
template <class CharIterator, size_t N> inline
bool checkEntity(CharIterator& first, CharIterator last, const char (&placeholder)[N])
{
assert(placeholder[N - 1] == 0);
const ptrdiff_t strLen = N - 1; //don't count null-terminator
if (last - first >= strLen && std::equal(first, first + strLen, placeholder))
{
first += strLen - 1;
return true;
}
return false;
}
namespace
{
std::string denormalize(const std::string& str)
{
std::string output;
for (auto it = str.begin(); it != str.end(); ++it)
{
const char c = *it;
if (c == '&')
{
if (checkEntity(it, str.end(), "&"))
output += '&';
else if (checkEntity(it, str.end(), "<"))
output += '<';
else if (checkEntity(it, str.end(), ">"))
output += '>';
else if (checkEntity(it, str.end(), "'"))
output += '\'';
else if (checkEntity(it, str.end(), """))
output += '"';
else if (str.end() - it >= 6 &&
it[1] == '#' &&
it[2] == 'x' &&
isHexDigit(it[3]) &&
isHexDigit(it[4]) &&
it[5] == ';')
{
output += unhexify(it[3], it[4]);
it += 5;
}
else
output += c; //unexpected char!
}
else if (c == '\r') //map all end-of-line characters to \n https://www.w3.org/TR/xml/#sec-line-ends
{
auto itNext = it + 1;
if (itNext != str.end() && *itNext == '\n')
++it;
output += '\n';
}
else
output += c;
}
return output;
}
void serialize(const XmlElement& element, std::string& stream,
const std::string& lineBreak,
const std::string& indent,
size_t indentLevel)
{
const std::string& nameFmt = normalizeName(element.getNameAs<std::string>());
for (size_t i = 0; i < indentLevel; ++i)
stream += indent;
stream += '<' + nameFmt;
auto attr = element.getAttributes();
for (auto it = attr.first; it != attr.second; ++it)
stream += ' ' + normalizeName(it->name) + "=\"" + normalizeAttribValue(it->value) + '"';
auto iterPair = element.getChildren();
if (iterPair.first != iterPair.second) //structured element
{
//no support for mixed-mode content
stream += '>' + lineBreak;
std::for_each(iterPair.first, iterPair.second,
[&](const XmlElement& el) { serialize(el, stream, lineBreak, indent, indentLevel + 1); });
for (size_t i = 0; i < indentLevel; ++i)
stream += indent;
stream += "</" + nameFmt + '>' + lineBreak;
}
else
{
std::string value;
element.getValue(value);
if (!value.empty()) //value element
stream += '>' + normalizeElementValue(value) + "</" + nameFmt + '>' + lineBreak;
else //empty element
stream += "/>" + lineBreak;
}
}
}
}
inline
std::string serializeXml(const XmlDoc& doc,
const std::string& lineBreak,
const std::string& indent)
{
std::string version = doc.getVersionAs<std::string>();
if (!version.empty())
version = " version=\"" + xml_impl::normalizeAttribValue(version) + '"';
std::string encoding = doc.getEncodingAs<std::string>();
if (!encoding.empty())
encoding = " encoding=\"" + xml_impl::normalizeAttribValue(encoding) + '"';
std::string standalone = doc.getStandaloneAs<std::string>();
if (!standalone.empty())
standalone = " standalone=\"" + xml_impl::normalizeAttribValue(standalone) + '"';
std::string output = "<?xml" + version + encoding + standalone + "?>" + lineBreak;
xml_impl::serialize(doc.root(), output, lineBreak, indent, 0);
return output;
}
/*
Grammar for XML parser
-------------------------------
document-expression:
<?xml version="1.0" encoding="utf-8" standalone="yes"?>
element-expression:
element-expression:
<string attributes-expression/>
<string attributes-expression> pm-expression </string>
element-list-expression:
<empty>
element-expression element-list-expression
attributes-expression:
<empty>
string="string" attributes-expression
pm-expression:
string
element-list-expression
*/
namespace xml_impl
{
struct Token
{
enum Type
{
TK_LESS,
TK_GREATER,
TK_LESS_SLASH,
TK_SLASH_GREATER,
TK_EQUAL,
TK_QUOTE,
TK_DECL_BEGIN,
TK_DECL_END,
TK_NAME,
TK_END
};
Token(Type t) : type(t) {}
Token(const std::string& txt) : type(TK_NAME), name(txt) {}
Type type;
std::string name; //filled if type == TK_NAME
};
class Scanner
{
public:
Scanner(const std::string& stream) : stream_(stream), pos_(stream_.begin())
{
if (zen::startsWith(stream_, BYTE_ORDER_MARK_UTF8))
pos_ += strLength(BYTE_ORDER_MARK_UTF8);
}
Token getNextToken() //throw XmlParsingError
{
//skip whitespace
pos_ = std::find_if_not(pos_, stream_.end(), isWhiteSpace<char>);
if (pos_ == stream_.end())
return Token::TK_END;
//skip XML comments
if (startsWith(xmlCommentBegin_))
{
auto it = std::search(pos_ + xmlCommentBegin_.size(), stream_.end(), xmlCommentEnd_.begin(), xmlCommentEnd_.end());
if (it != stream_.end())
{
pos_ = it + xmlCommentEnd_.size();
return getNextToken(); //throw XmlParsingError
}
}
for (auto it = tokens_.begin(); it != tokens_.end(); ++it)
if (startsWith(it->first))
{
pos_ += it->first.size();
return it->second;
}
const auto itNameEnd = std::find_if(pos_, stream_.end(), [](char c)
{
return c == '<' ||
c == '>' ||
c == '=' ||
c == '/' ||
c == '\'' ||
c == '"' ||
isWhiteSpace(c);
});
if (itNameEnd != pos_)
{
std::string name(pos_, itNameEnd);
pos_ = itNameEnd;
return denormalize(name);
}
//unknown token
throw XmlParsingError(posRow(), posCol());
}
std::string extractElementValue()
{
auto it = std::find_if(pos_, stream_.end(), [](char c)
{
return c == '<' ||
c == '>';
});
std::string output(pos_, it);
pos_ = it;
return denormalize(output);
}
std::string extractAttributeValue()
{
auto it = std::find_if(pos_, stream_.end(), [](char c)
{
return c == '<' ||
c == '>' ||
c == '\'' ||
c == '"';
});
std::string output(pos_, it);
pos_ = it;
return denormalize(output);
}
size_t posRow() const //current row beginning with 0
{
const size_t crSum = std::count(stream_.begin(), pos_, '\r'); //carriage returns
const size_t nlSum = std::count(stream_.begin(), pos_, '\n'); //new lines
assert(crSum == 0 || nlSum == 0 || crSum == nlSum);
return std::max(crSum, nlSum); //be compatible with Linux/Mac/Win
}
size_t posCol() const //current col beginning with 0
{
//seek beginning of line
for (auto it = pos_; it != stream_.begin(); )
{
--it;
if (*it == '\r' || *it == '\n')
return pos_ - it - 1;
}
return pos_ - stream_.begin();
}
private:
Scanner (const Scanner&) = delete;
Scanner& operator=(const Scanner&) = delete;
bool startsWith(const std::string& prefix) const
{
return zen::startsWith(StringRef<const char>(pos_, stream_.end()), prefix);
}
using TokenList = std::vector<std::pair<std::string, Token::Type>>;
const TokenList tokens_
{
{ "<?xml", Token::TK_DECL_BEGIN },
{ "?>", Token::TK_DECL_END },
{ "</", Token::TK_LESS_SLASH },
{ "/>", Token::TK_SLASH_GREATER },
{ "<", Token::TK_LESS }, //evaluate after TK_DECL_BEGIN!
{ ">", Token::TK_GREATER },
{ "=", Token::TK_EQUAL },
{ "\"", Token::TK_QUOTE },
{ "\'", Token::TK_QUOTE },
};
const std::string xmlCommentBegin_ = "<!--";
const std::string xmlCommentEnd_ = "-->";
const std::string stream_;
std::string::const_iterator pos_;
};
class XmlParser
{
public:
XmlParser(const std::string& stream) :
scn_(stream),
tk_(scn_.getNextToken()) {} //throw XmlParsingError
XmlDoc parse() //throw XmlParsingError
{
XmlDoc doc;
//declaration (optional)
if (token().type == Token::TK_DECL_BEGIN)
{
nextToken(); //throw XmlParsingError
while (token().type == Token::TK_NAME)
{
std::string attribName = token().name;
nextToken(); //throw XmlParsingError
consumeToken(Token::TK_EQUAL); //throw XmlParsingError
expectToken (Token::TK_QUOTE); //
std::string attribValue = scn_.extractAttributeValue();
nextToken(); //throw XmlParsingError
consumeToken(Token::TK_QUOTE); //throw XmlParsingError
if (attribName == "version")
doc.setVersion(attribValue);
else if (attribName == "encoding")
doc.setEncoding(attribValue);
else if (attribName == "standalone")
doc.setStandalone(attribValue);
}
consumeToken(Token::TK_DECL_END); //throw XmlParsingError
}
XmlElement dummy;
parseChildElements(dummy);
auto itPair = dummy.getChildren();
if (itPair.first != itPair.second)
doc.root().swapSubtree(*itPair.first);
expectToken(Token::TK_END); //throw XmlParsingError
return doc;
}
private:
XmlParser (const XmlParser&) = delete;
XmlParser& operator=(const XmlParser&) = delete;
void parseChildElements(XmlElement& parent)
{
while (token().type == Token::TK_LESS)
{
nextToken(); //throw XmlParsingError
expectToken(Token::TK_NAME); //throw XmlParsingError
std::string elementName = token().name;
nextToken(); //throw XmlParsingError
XmlElement& newElement = parent.addChild(elementName);
parseAttributes(newElement);
if (token().type == Token::TK_SLASH_GREATER) //empty element
{
nextToken(); //throw XmlParsingError
continue;
}
expectToken(Token::TK_GREATER); //throw XmlParsingError
std::string elementValue = scn_.extractElementValue();
nextToken(); //throw XmlParsingError
//no support for mixed-mode content
if (token().type == Token::TK_LESS) //structure-element
parseChildElements(newElement);
else //value-element
newElement.setValue(elementValue);
consumeToken(Token::TK_LESS_SLASH); //throw XmlParsingError
expectToken(Token::TK_NAME); //throw XmlParsingError
if (token().name != elementName)
throw XmlParsingError(scn_.posRow(), scn_.posCol());
nextToken(); //throw XmlParsingError
consumeToken(Token::TK_GREATER); //throw XmlParsingError
}
}
void parseAttributes(XmlElement& element)
{
while (token().type == Token::TK_NAME)
{
std::string attribName = token().name;
nextToken(); //throw XmlParsingError
consumeToken(Token::TK_EQUAL); //throw XmlParsingError
expectToken (Token::TK_QUOTE); //
std::string attribValue = scn_.extractAttributeValue();
nextToken(); //throw XmlParsingError
consumeToken(Token::TK_QUOTE); //throw XmlParsingError
element.setAttribute(attribName, attribValue);
}
}
const Token& token() const { return tk_; }
void nextToken() { tk_ = scn_.getNextToken(); } //throw XmlParsingError
void expectToken(Token::Type t) //throw XmlParsingError
{
if (token().type != t)
throw XmlParsingError(scn_.posRow(), scn_.posCol());
}
void consumeToken(Token::Type t) //throw XmlParsingError
{
expectToken(t); //throw XmlParsingError
nextToken(); //
}
Scanner scn_;
Token tk_;
};
}
inline
XmlDoc parseXml(const std::string& stream) //throw XmlParsingError
{
return xml_impl::XmlParser(stream).parse(); //throw XmlParsingError
}
}
#endif //PARSER_H_81248670213764583021432
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