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/******************************************************************************
Copyright (c) 2009-2010, Terry Caton
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* 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.
* Neither the name of the projecct nor the names of its contributors
may be used to endorse or promote products derived from this software
without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND 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 THE COPYRIGHT OWNER 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.
******************************************************************************/
#include <cassert>
#include <set>
#include <sstream>
#include <ctype.h>
#include <vector>
#include "utf8.h"
/*
TODO:
* better documentation
* unicode character decoding
*/
namespace json
{
inline std::istream& operator >> (std::istream& istr, UnknownElement& elementRoot) {
Reader::Read(elementRoot, istr);
return istr;
}
inline Reader::Location::Location() :
m_nLine(0),
m_nLineOffset(0),
m_nDocOffset(0)
{}
//////////////////////
// Reader::InputStream
class Reader::InputStream // would be cool if we could inherit from std::istream & override "get"
{
public:
InputStream(std::istream& iStr) :
m_iStr(iStr) {}
// protect access to the input stream, so we can keeep track of document/line offsets
char Get(); // big, define outside
char Peek() {
assert(m_iStr.eof() == false); // enforce reading of only valid stream data
return m_iStr.peek();
}
bool EOS() {
m_iStr.peek(); // apparently eof flag isn't set until a character read is attempted. whatever.
return m_iStr.eof();
}
const Location& GetLocation() const { return m_Location; }
std::istream& GetStream() {
return m_iStr;
}
private:
std::istream& m_iStr;
Location m_Location;
};
inline char Reader::InputStream::Get()
{
assert(m_iStr.eof() == false); // enforce reading of only valid stream data
char c = m_iStr.get();
++m_Location.m_nDocOffset;
if (c == '\n') {
++m_Location.m_nLine;
m_Location.m_nLineOffset = 0;
}
else {
++m_Location.m_nLineOffset;
}
return c;
}
//////////////////////
// Reader::TokenStream
class Reader::TokenStream
{
public:
TokenStream(const Tokens& tokens);
const Token& Peek();
const Token& Get();
bool EOS() const;
private:
const Tokens& m_Tokens;
Tokens::const_iterator m_itCurrent;
};
inline Reader::TokenStream::TokenStream(const Tokens& tokens) :
m_Tokens(tokens),
m_itCurrent(tokens.begin())
{}
inline const Reader::Token& Reader::TokenStream::Peek() {
if (EOS())
{
const Token& lastToken = *m_Tokens.rbegin();
std::string sMessage = "Unexpected end of token stream";
throw ParseException(sMessage, lastToken.locBegin, lastToken.locEnd); // nowhere to point to
}
return *(m_itCurrent);
}
inline const Reader::Token& Reader::TokenStream::Get() {
const Token& token = Peek();
++m_itCurrent;
return token;
}
inline bool Reader::TokenStream::EOS() const {
return m_itCurrent == m_Tokens.end();
}
///////////////////
// Reader (finally)
inline void Reader::Read(Object& object, std::istream& istr) { Read_i(object, istr); }
inline void Reader::Read(Array& array, std::istream& istr) { Read_i(array, istr); }
inline void Reader::Read(String& string, std::istream& istr) { Read_i(string, istr); }
inline void Reader::Read(Number& number, std::istream& istr) { Read_i(number, istr); }
inline void Reader::Read(Boolean& boolean, std::istream& istr) { Read_i(boolean, istr); }
inline void Reader::Read(Null& null, std::istream& istr) { Read_i(null, istr); }
inline void Reader::Read(UnknownElement& unknown, std::istream& istr) { Read_i(unknown, istr); }
template <typename ElementTypeT>
void Reader::Read_i(ElementTypeT& element, std::istream& istr)
{
Reader reader;
Tokens tokens;
InputStream inputStream(istr);
reader.Scan(tokens, inputStream);
TokenStream tokenStream(tokens);
reader.Parse(element, tokenStream);
if (tokenStream.EOS() == false)
{
const Token& token = tokenStream.Peek();
std::string sMessage = std::string("Expected End of token stream; found ") + token.sValue;
throw ParseException(sMessage, token.locBegin, token.locEnd);
}
}
inline void Reader::Scan(Tokens& tokens, InputStream& inputStream)
{
while (EatWhiteSpace(inputStream), // ignore any leading white space...
inputStream.EOS() == false) // ...before checking for EOS
{
// if all goes well, we'll create a token each pass
Token token;
token.locBegin = inputStream.GetLocation();
// gives us null-terminated string
char sChar = inputStream.Peek();
switch (sChar)
{
case '{':
token.sValue = MatchExpectedString(inputStream, "{");
token.nType = Token::TOKEN_OBJECT_BEGIN;
break;
case '}':
token.sValue = MatchExpectedString(inputStream, "}");
token.nType = Token::TOKEN_OBJECT_END;
break;
case '[':
token.sValue = MatchExpectedString(inputStream, "[");
token.nType = Token::TOKEN_ARRAY_BEGIN;
break;
case ']':
token.sValue = MatchExpectedString(inputStream, "]");
token.nType = Token::TOKEN_ARRAY_END;
break;
case ',':
token.sValue = MatchExpectedString(inputStream, ",");
token.nType = Token::TOKEN_NEXT_ELEMENT;
break;
case ':':
token.sValue = MatchExpectedString(inputStream, ":");
token.nType = Token::TOKEN_MEMBER_ASSIGN;
break;
case '"':
token.sValue = MatchString(inputStream);
token.nType = Token::TOKEN_STRING;
break;
case '-':
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
token.sValue = MatchNumber(inputStream);
token.nType = Token::TOKEN_NUMBER;
break;
case 't':
token.sValue = MatchExpectedString(inputStream, "true");
token.nType = Token::TOKEN_BOOLEAN;
break;
case 'f':
token.sValue = MatchExpectedString(inputStream, "false");
token.nType = Token::TOKEN_BOOLEAN;
break;
case 'n':
token.sValue = MatchExpectedString(inputStream, "null");
token.nType = Token::TOKEN_NULL;
break;
default:
{
std::string sErrorMessage = std::string("Unexpected character in stream: ") + sChar;
throw ScanException(sErrorMessage, inputStream.GetLocation());
}
}
token.locEnd = inputStream.GetLocation();
tokens.push_back(token);
}
}
inline void Reader::EatWhiteSpace(InputStream& inputStream)
{
while (inputStream.EOS() == false &&
::isspace(inputStream.Peek()))
inputStream.Get();
}
inline std::string Reader::MatchExpectedString(InputStream& inputStream, const std::string& sExpected)
{
std::string::const_iterator it(sExpected.begin()),
itEnd(sExpected.end());
for ( ; it != itEnd; ++it) {
if (inputStream.EOS() || // did we reach the end before finding what we're looking for...
inputStream.Get() != *it) // ...or did we find something different?
{
std::string sMessage = std::string("Expected string: ") + sExpected;
throw ScanException(sMessage, inputStream.GetLocation());
}
}
// all's well if we made it here
return sExpected;
}
static void ConsumeUnicode(std::istream& str, std::vector<utf8::uint16_t>& uni16) {
char bytes[4] = { '\0' };
str.get(bytes[0]);
str.get(bytes[1]);
str.get(bytes[2]);
str.get(bytes[3]);
utf8::uint16_t cp = (bytes[0] - '0') << 12 | (bytes[1] - '0') << 8 | (bytes[2] - '0') << 4 | (bytes[3] - '0');
uni16.push_back(cp);
}
static inline void FinalizeUnicode(std::string& uni8, std::vector<utf8::uint16_t>& uni16) {
utf8::utf16to8(uni16.begin(), uni16.end(), std::back_inserter(uni8));
uni16.clear();
}
inline std::string Reader::MatchString(InputStream& inputStream)
{
MatchExpectedString(inputStream, "\"");
std::string string;
std::vector<utf8::uint16_t> uni;
while (inputStream.EOS() == false &&
inputStream.Peek() != '"')
{
char c = inputStream.Get();
// escape?
if (c == '\\' &&
inputStream.EOS() == false) // shouldn't have reached the end yet
{
c = inputStream.Get();
switch (c) {
case '/': string.push_back('/'); FinalizeUnicode(string, uni); break;
case '"': string.push_back('"'); FinalizeUnicode(string, uni); break;
case '\\': string.append("\\\\"); FinalizeUnicode(string, uni); break;
case 'b': string.push_back('\b'); FinalizeUnicode(string, uni); break;
case 'f': string.push_back('\f'); FinalizeUnicode(string, uni); break;
case 'n': string.push_back('\n'); FinalizeUnicode(string, uni); break;
case 'r': string.push_back('\r'); FinalizeUnicode(string, uni); break;
case 't': string.push_back('\t'); FinalizeUnicode(string, uni); break;
case 'u': ConsumeUnicode(inputStream.GetStream(), uni); break;
default: {
std::string sMessage = std::string("Unrecognized escape sequence found in string: \\") + c;
throw ScanException(sMessage, inputStream.GetLocation());
}
}
}
else {
FinalizeUnicode(string, uni);
string.push_back(c);
}
}
if (!uni.empty()) FinalizeUnicode(string, uni);
// eat the last '"' that we just peeked
MatchExpectedString(inputStream, "\"");
// all's well if we made it here
return string;
}
inline std::string Reader::MatchNumber(InputStream& inputStream)
{
const char sNumericChars[] = "0123456789.eE-+";
std::set<char> numericChars;
numericChars.insert(sNumericChars, sNumericChars + sizeof(sNumericChars));
std::string sNumber;
while (inputStream.EOS() == false &&
numericChars.find(inputStream.Peek()) != numericChars.end())
{
sNumber.push_back(inputStream.Get());
}
return sNumber;
}
inline void Reader::Parse(UnknownElement& element, Reader::TokenStream& tokenStream)
{
const Token& token = tokenStream.Peek();
switch (token.nType) {
case Token::TOKEN_OBJECT_BEGIN:
{
// implicit non-const cast will perform conversion for us (if necessary)
Object& object = element;
Parse(object, tokenStream);
break;
}
case Token::TOKEN_ARRAY_BEGIN:
{
Array& array = element;
Parse(array, tokenStream);
break;
}
case Token::TOKEN_STRING:
{
String& string = element;
Parse(string, tokenStream);
break;
}
case Token::TOKEN_NUMBER:
{
Number& number = element;
Parse(number, tokenStream);
break;
}
case Token::TOKEN_BOOLEAN:
{
Boolean& boolean = element;
Parse(boolean, tokenStream);
break;
}
case Token::TOKEN_NULL:
{
Null& null = element;
Parse(null, tokenStream);
break;
}
default:
{
std::string sMessage = std::string("Unexpected token: ") + token.sValue;
throw ParseException(sMessage, token.locBegin, token.locEnd);
}
}
}
inline void Reader::Parse(Object& object, Reader::TokenStream& tokenStream)
{
MatchExpectedToken(Token::TOKEN_OBJECT_BEGIN, tokenStream);
bool bContinue = (tokenStream.EOS() == false &&
tokenStream.Peek().nType != Token::TOKEN_OBJECT_END);
while (bContinue)
{
Object::Member member;
// first the member name. save the token in case we have to throw an exception
const Token& tokenName = tokenStream.Peek();
member.name = MatchExpectedToken(Token::TOKEN_STRING, tokenStream);
// ...then the key/value separator...
MatchExpectedToken(Token::TOKEN_MEMBER_ASSIGN, tokenStream);
// ...then the value itself (can be anything).
Parse(member.element, tokenStream);
// try adding it to the object (this could throw)
try
{
object.Insert(member);
}
catch (Exception&)
{
// must be a duplicate name
std::string sMessage = std::string("Duplicate object member token: ") + member.name;
throw ParseException(sMessage, tokenName.locBegin, tokenName.locEnd);
}
bContinue = (tokenStream.EOS() == false &&
tokenStream.Peek().nType == Token::TOKEN_NEXT_ELEMENT);
if (bContinue)
MatchExpectedToken(Token::TOKEN_NEXT_ELEMENT, tokenStream);
}
MatchExpectedToken(Token::TOKEN_OBJECT_END, tokenStream);
}
inline void Reader::Parse(Array& array, Reader::TokenStream& tokenStream)
{
MatchExpectedToken(Token::TOKEN_ARRAY_BEGIN, tokenStream);
bool bContinue = (tokenStream.EOS() == false &&
tokenStream.Peek().nType != Token::TOKEN_ARRAY_END);
while (bContinue)
{
// ...what's next? could be anything
Array::iterator itElement = array.Insert(UnknownElement());
UnknownElement& element = *itElement;
Parse(element, tokenStream);
bContinue = (tokenStream.EOS() == false &&
tokenStream.Peek().nType == Token::TOKEN_NEXT_ELEMENT);
if (bContinue)
MatchExpectedToken(Token::TOKEN_NEXT_ELEMENT, tokenStream);
}
MatchExpectedToken(Token::TOKEN_ARRAY_END, tokenStream);
}
inline void Reader::Parse(String& string, Reader::TokenStream& tokenStream)
{
string = MatchExpectedToken(Token::TOKEN_STRING, tokenStream);
}
inline void Reader::Parse(Number& number, Reader::TokenStream& tokenStream)
{
const Token& currentToken = tokenStream.Peek(); // might need this later for throwing exception
const std::string& sValue = MatchExpectedToken(Token::TOKEN_NUMBER, tokenStream);
std::istringstream iStr(sValue);
double dValue;
iStr >> dValue;
// did we consume all characters in the token?
if (iStr.eof() == false)
{
char c = iStr.peek();
std::string sMessage = std::string("Unexpected character in NUMBER token: ") + c;
throw ParseException(sMessage, currentToken.locBegin, currentToken.locEnd);
}
number = dValue;
}
inline void Reader::Parse(Boolean& boolean, Reader::TokenStream& tokenStream)
{
const std::string& sValue = MatchExpectedToken(Token::TOKEN_BOOLEAN, tokenStream);
boolean = (sValue == "true" ? true : false);
}
inline void Reader::Parse(Null&, Reader::TokenStream& tokenStream)
{
MatchExpectedToken(Token::TOKEN_NULL, tokenStream);
}
inline const std::string& Reader::MatchExpectedToken(Token::Type nExpected, Reader::TokenStream& tokenStream)
{
const Token& token = tokenStream.Get();
if (token.nType != nExpected)
{
std::string sMessage = std::string("Unexpected token: ") + token.sValue;
throw ParseException(sMessage, token.locBegin, token.locEnd);
}
return token.sValue;
}
} // End namespace