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/// Json-cpp amalgated source (http://jsoncpp.sourceforge.net/).
/// It is intended to be used with #include "json/json.h"
// //////////////////////////////////////////////////////////////////////
// Beginning of content of file: LICENSE
// //////////////////////////////////////////////////////////////////////
/*
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The JsonCpp library ' s source code , including accompanying documentation ,
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tests and demonstration applications , are licensed under the following
conditions . . .
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Baptiste Lepilleur and The JsonCpp Authors explicitly disclaim copyright in all
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jurisdictions which recognize such a disclaimer . In such jurisdictions ,
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this software is released into the Public Domain .
In jurisdictions which do not recognize Public Domain property ( e . g . Germany as of
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2010 ) , this software is Copyright ( c ) 2007 - 2010 by Baptiste Lepilleur and
The JsonCpp Authors , and is released under the terms of the MIT License ( see below ) .
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In jurisdictions which recognize Public Domain property , the user of this
software may choose to accept it either as 1 ) Public Domain , 2 ) under the
conditions of the MIT License ( see below ) , or 3 ) under the terms of dual
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Public Domain / MIT License conditions described here , as they choose .
The MIT License is about as close to Public Domain as a license can get , and is
described in clear , concise terms at :
http : //en.wikipedia.org/wiki/MIT_License
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The full text of the MIT License follows :
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
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Copyright ( c ) 2007 - 2010 Baptiste Lepilleur and The JsonCpp Authors
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Permission is hereby granted , free of charge , to any person
obtaining a copy of this software and associated documentation
files ( the " Software " ) , to deal in the Software without
restriction , including without limitation the rights to use , copy ,
modify , merge , publish , distribute , sublicense , and / or sell copies
of the Software , and to permit persons to whom the Software is
furnished to do so , subject to the following conditions :
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software .
THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND ,
EXPRESS OR IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY , FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT . IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER LIABILITY , WHETHER IN AN
ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM , OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE .
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
( END LICENSE TEXT )
The MIT license is compatible with both the GPL and commercial
software , affording one all of the rights of Public Domain with the
minor nuisance of being required to keep the above copyright notice
and license text in the source code . Note also that by accepting the
Public Domain " license " you can re - license your copy using whatever
license you like .
*/
// //////////////////////////////////////////////////////////////////////
// End of content of file: LICENSE
// //////////////////////////////////////////////////////////////////////
# include "json/json.h"
# ifndef JSON_IS_AMALGAMATION
# error "Compile with -I PATH_TO_JSON_DIRECTORY"
# endif
// //////////////////////////////////////////////////////////////////////
// Beginning of content of file: src/lib_json/json_tool.h
// //////////////////////////////////////////////////////////////////////
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// Copyright 2007-2010 Baptiste Lepilleur and The JsonCpp Authors
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// Distributed under MIT license, or public domain if desired and
// recognized in your jurisdiction.
// See file LICENSE for detail or copy at http://jsoncpp.sourceforge.net/LICENSE
# ifndef LIB_JSONCPP_JSON_TOOL_H_INCLUDED
# define LIB_JSONCPP_JSON_TOOL_H_INCLUDED
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// Also support old flag NO_LOCALE_SUPPORT
# ifdef NO_LOCALE_SUPPORT
# define JSONCPP_NO_LOCALE_SUPPORT
# endif
# ifndef JSONCPP_NO_LOCALE_SUPPORT
# include <clocale>
# endif
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/* This header provides common string manipulation support, such as UTF-8,
* portable conversion from / to string . . .
*
* It is an internal header that must not be exposed .
*/
namespace Json {
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static char getDecimalPoint ( ) {
# ifdef JSONCPP_NO_LOCALE_SUPPORT
return ' \0 ' ;
# else
struct lconv * lc = localeconv ( ) ;
return lc ? * ( lc - > decimal_point ) : ' \0 ' ;
# endif
}
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/// Converts a unicode code-point to UTF-8.
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static inline JSONCPP_STRING codePointToUTF8 ( unsigned int cp ) {
JSONCPP_STRING result ;
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// based on description from http://en.wikipedia.org/wiki/UTF-8
if ( cp < = 0x7f ) {
result . resize ( 1 ) ;
result [ 0 ] = static_cast < char > ( cp ) ;
} else if ( cp < = 0x7FF ) {
result . resize ( 2 ) ;
result [ 1 ] = static_cast < char > ( 0x80 | ( 0x3f & cp ) ) ;
result [ 0 ] = static_cast < char > ( 0xC0 | ( 0x1f & ( cp > > 6 ) ) ) ;
} else if ( cp < = 0xFFFF ) {
result . resize ( 3 ) ;
result [ 2 ] = static_cast < char > ( 0x80 | ( 0x3f & cp ) ) ;
result [ 1 ] = static_cast < char > ( 0x80 | ( 0x3f & ( cp > > 6 ) ) ) ;
result [ 0 ] = static_cast < char > ( 0xE0 | ( 0xf & ( cp > > 12 ) ) ) ;
} else if ( cp < = 0x10FFFF ) {
result . resize ( 4 ) ;
result [ 3 ] = static_cast < char > ( 0x80 | ( 0x3f & cp ) ) ;
result [ 2 ] = static_cast < char > ( 0x80 | ( 0x3f & ( cp > > 6 ) ) ) ;
result [ 1 ] = static_cast < char > ( 0x80 | ( 0x3f & ( cp > > 12 ) ) ) ;
result [ 0 ] = static_cast < char > ( 0xF0 | ( 0x7 & ( cp > > 18 ) ) ) ;
}
return result ;
}
/// Returns true if ch is a control character (in range [1,31]).
static inline bool isControlCharacter ( char ch ) { return ch > 0 & & ch < = 0x1F ; }
enum {
/// Constant that specify the size of the buffer that must be passed to
/// uintToString.
uintToStringBufferSize = 3 * sizeof ( LargestUInt ) + 1
} ;
// Defines a char buffer for use with uintToString().
typedef char UIntToStringBuffer [ uintToStringBufferSize ] ;
/** Converts an unsigned integer to string.
* @ param value Unsigned interger to convert to string
* @ param current Input / Output string buffer .
* Must have at least uintToStringBufferSize chars free .
*/
static inline void uintToString ( LargestUInt value , char * & current ) {
* - - current = 0 ;
do {
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* - - current = static_cast < char > ( value % 10U + static_cast < unsigned > ( ' 0 ' ) ) ;
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value / = 10 ;
} while ( value ! = 0 ) ;
}
/** Change ',' to '.' everywhere in buffer.
*
* We had a sophisticated way , but it did not work in WinCE .
* @ see https : //github.com/open-source-parsers/jsoncpp/pull/9
*/
static inline void fixNumericLocale ( char * begin , char * end ) {
while ( begin < end ) {
if ( * begin = = ' , ' ) {
* begin = ' . ' ;
}
+ + begin ;
}
}
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static inline void fixNumericLocaleInput ( char * begin , char * end ) {
char decimalPoint = getDecimalPoint ( ) ;
if ( decimalPoint ! = ' \0 ' & & decimalPoint ! = ' . ' ) {
while ( begin < end ) {
if ( * begin = = ' . ' ) {
* begin = decimalPoint ;
}
+ + begin ;
}
}
}
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} // namespace Json {
# endif // LIB_JSONCPP_JSON_TOOL_H_INCLUDED
// //////////////////////////////////////////////////////////////////////
// End of content of file: src/lib_json/json_tool.h
// //////////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////////
// Beginning of content of file: src/lib_json/json_reader.cpp
// //////////////////////////////////////////////////////////////////////
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// Copyright 2007-2011 Baptiste Lepilleur and The JsonCpp Authors
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// Copyright (C) 2016 InfoTeCS JSC. All rights reserved.
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// Distributed under MIT license, or public domain if desired and
// recognized in your jurisdiction.
// See file LICENSE for detail or copy at http://jsoncpp.sourceforge.net/LICENSE
# if !defined(JSON_IS_AMALGAMATION)
# include <json/assertions.h>
# include <json/reader.h>
# include <json/value.h>
# include "json_tool.h"
# endif // if !defined(JSON_IS_AMALGAMATION)
# include <utility>
# include <cstdio>
# include <cassert>
# include <cstring>
# include <istream>
# include <sstream>
# include <memory>
# include <set>
# include <limits>
# if defined(_MSC_VER)
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# if !defined(WINCE) && defined(__STDC_SECURE_LIB__) && _MSC_VER >= 1500 // VC++ 9.0 and above
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# define snprintf sprintf_s
# elif _MSC_VER >= 1900 // VC++ 14.0 and above
# define snprintf std::snprintf
# else
# define snprintf _snprintf
# endif
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# elif defined(__ANDROID__) || defined(__QNXNTO__)
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# define snprintf snprintf
# elif __cplusplus >= 201103L
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# if !defined(__MINGW32__) && !defined(__CYGWIN__)
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# define snprintf std::snprintf
# endif
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# endif
# if defined(__QNXNTO__)
# define sscanf std::sscanf
# endif
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# if defined(_MSC_VER) && _MSC_VER >= 1400 // VC++ 8.0
// Disable warning about strdup being deprecated.
# pragma warning(disable : 4996)
# endif
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// Define JSONCPP_DEPRECATED_STACK_LIMIT as an appropriate integer at compile time to change the stack limit
# if !defined(JSONCPP_DEPRECATED_STACK_LIMIT)
# define JSONCPP_DEPRECATED_STACK_LIMIT 1000
# endif
static size_t const stackLimit_g = JSONCPP_DEPRECATED_STACK_LIMIT ; // see readValue()
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namespace Json {
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# if __cplusplus >= 201103L || (defined(_CPPLIB_VER) && _CPPLIB_VER >= 520)
typedef std : : unique_ptr < CharReader > CharReaderPtr ;
# else
typedef std : : auto_ptr < CharReader > CharReaderPtr ;
# endif
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// Implementation of class Features
// ////////////////////////////////
Features : : Features ( )
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: allowComments_ ( true ) , strictRoot_ ( false ) ,
allowDroppedNullPlaceholders_ ( false ) , allowNumericKeys_ ( false ) { }
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Features Features : : all ( ) { return Features ( ) ; }
Features Features : : strictMode ( ) {
Features features ;
features . allowComments_ = false ;
features . strictRoot_ = true ;
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features . allowDroppedNullPlaceholders_ = false ;
features . allowNumericKeys_ = false ;
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return features ;
}
// Implementation of class Reader
// ////////////////////////////////
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bool Reader : : containsNewLine ( Reader : : Location begin , Reader : : Location end ) {
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for ( ; begin < end ; + + begin )
if ( * begin = = ' \n ' | | * begin = = ' \r ' )
return true ;
return false ;
}
// Class Reader
// //////////////////////////////////////////////////////////////////
Reader : : Reader ( )
: errors_ ( ) , document_ ( ) , begin_ ( ) , end_ ( ) , current_ ( ) , lastValueEnd_ ( ) ,
lastValue_ ( ) , commentsBefore_ ( ) , features_ ( Features : : all ( ) ) ,
collectComments_ ( ) { }
Reader : : Reader ( const Features & features )
: errors_ ( ) , document_ ( ) , begin_ ( ) , end_ ( ) , current_ ( ) , lastValueEnd_ ( ) ,
lastValue_ ( ) , commentsBefore_ ( ) , features_ ( features ) , collectComments_ ( ) {
}
bool
Reader : : parse ( const std : : string & document , Value & root , bool collectComments ) {
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document_ . assign ( document . begin ( ) , document . end ( ) ) ;
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const char * begin = document_ . c_str ( ) ;
const char * end = begin + document_ . length ( ) ;
return parse ( begin , end , root , collectComments ) ;
}
bool Reader : : parse ( std : : istream & sin , Value & root , bool collectComments ) {
// std::istream_iterator<char> begin(sin);
// std::istream_iterator<char> end;
// Those would allow streamed input from a file, if parse() were a
// template function.
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// Since JSONCPP_STRING is reference-counted, this at least does not
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// create an extra copy.
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JSONCPP_STRING doc ;
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std : : getline ( sin , doc , ( char ) EOF ) ;
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return parse ( doc . data ( ) , doc . data ( ) + doc . size ( ) , root , collectComments ) ;
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}
bool Reader : : parse ( const char * beginDoc ,
const char * endDoc ,
Value & root ,
bool collectComments ) {
if ( ! features_ . allowComments_ ) {
collectComments = false ;
}
begin_ = beginDoc ;
end_ = endDoc ;
collectComments_ = collectComments ;
current_ = begin_ ;
lastValueEnd_ = 0 ;
lastValue_ = 0 ;
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commentsBefore_ . clear ( ) ;
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errors_ . clear ( ) ;
while ( ! nodes_ . empty ( ) )
nodes_ . pop ( ) ;
nodes_ . push ( & root ) ;
bool successful = readValue ( ) ;
Token token ;
skipCommentTokens ( token ) ;
if ( collectComments_ & & ! commentsBefore_ . empty ( ) )
root . setComment ( commentsBefore_ , commentAfter ) ;
if ( features_ . strictRoot_ ) {
if ( ! root . isArray ( ) & & ! root . isObject ( ) ) {
// Set error location to start of doc, ideally should be first token found
// in doc
token . type_ = tokenError ;
token . start_ = beginDoc ;
token . end_ = endDoc ;
addError (
" A valid JSON document must be either an array or an object value. " ,
token ) ;
return false ;
}
}
return successful ;
}
bool Reader : : readValue ( ) {
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// readValue() may call itself only if it calls readObject() or ReadArray().
// These methods execute nodes_.push() just before and nodes_.pop)() just after calling readValue().
// parse() executes one nodes_.push(), so > instead of >=.
if ( nodes_ . size ( ) > stackLimit_g ) throwRuntimeError ( " Exceeded stackLimit in readValue(). " ) ;
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Token token ;
skipCommentTokens ( token ) ;
bool successful = true ;
if ( collectComments_ & & ! commentsBefore_ . empty ( ) ) {
currentValue ( ) . setComment ( commentsBefore_ , commentBefore ) ;
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commentsBefore_ . clear ( ) ;
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}
switch ( token . type_ ) {
case tokenObjectBegin :
successful = readObject ( token ) ;
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currentValue ( ) . setOffsetLimit ( current_ - begin_ ) ;
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break ;
case tokenArrayBegin :
successful = readArray ( token ) ;
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currentValue ( ) . setOffsetLimit ( current_ - begin_ ) ;
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break ;
case tokenNumber :
successful = decodeNumber ( token ) ;
break ;
case tokenString :
successful = decodeString ( token ) ;
break ;
case tokenTrue :
{
Value v ( true ) ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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}
break ;
case tokenFalse :
{
Value v ( false ) ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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}
break ;
case tokenNull :
{
Value v ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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}
break ;
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case tokenArraySeparator :
case tokenObjectEnd :
case tokenArrayEnd :
if ( features_ . allowDroppedNullPlaceholders_ ) {
// "Un-read" the current token and mark the current value as a null
// token.
current_ - - ;
Value v ;
currentValue ( ) . swapPayload ( v ) ;
currentValue ( ) . setOffsetStart ( current_ - begin_ - 1 ) ;
currentValue ( ) . setOffsetLimit ( current_ - begin_ ) ;
break ;
} // Else, fall through...
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default :
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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return addError ( " Syntax error: value, object or array expected. " , token ) ;
}
if ( collectComments_ ) {
lastValueEnd_ = current_ ;
lastValue_ = & currentValue ( ) ;
}
return successful ;
}
void Reader : : skipCommentTokens ( Token & token ) {
if ( features_ . allowComments_ ) {
do {
readToken ( token ) ;
} while ( token . type_ = = tokenComment ) ;
} else {
readToken ( token ) ;
}
}
bool Reader : : readToken ( Token & token ) {
skipSpaces ( ) ;
token . start_ = current_ ;
Char c = getNextChar ( ) ;
bool ok = true ;
switch ( c ) {
case ' { ' :
token . type_ = tokenObjectBegin ;
break ;
case ' } ' :
token . type_ = tokenObjectEnd ;
break ;
case ' [ ' :
token . type_ = tokenArrayBegin ;
break ;
case ' ] ' :
token . type_ = tokenArrayEnd ;
break ;
case ' " ' :
token . type_ = tokenString ;
ok = readString ( ) ;
break ;
case ' / ' :
token . type_ = tokenComment ;
ok = readComment ( ) ;
break ;
case ' 0 ' :
case ' 1 ' :
case ' 2 ' :
case ' 3 ' :
case ' 4 ' :
case ' 5 ' :
case ' 6 ' :
case ' 7 ' :
case ' 8 ' :
case ' 9 ' :
case ' - ' :
token . type_ = tokenNumber ;
readNumber ( ) ;
break ;
case ' t ' :
token . type_ = tokenTrue ;
ok = match ( " rue " , 3 ) ;
break ;
case ' f ' :
token . type_ = tokenFalse ;
ok = match ( " alse " , 4 ) ;
break ;
case ' n ' :
token . type_ = tokenNull ;
ok = match ( " ull " , 3 ) ;
break ;
case ' , ' :
token . type_ = tokenArraySeparator ;
break ;
case ' : ' :
token . type_ = tokenMemberSeparator ;
break ;
case 0 :
token . type_ = tokenEndOfStream ;
break ;
default :
ok = false ;
break ;
}
if ( ! ok )
token . type_ = tokenError ;
token . end_ = current_ ;
return true ;
}
void Reader : : skipSpaces ( ) {
while ( current_ ! = end_ ) {
Char c = * current_ ;
if ( c = = ' ' | | c = = ' \t ' | | c = = ' \r ' | | c = = ' \n ' )
+ + current_ ;
else
break ;
}
}
bool Reader : : match ( Location pattern , int patternLength ) {
if ( end_ - current_ < patternLength )
return false ;
int index = patternLength ;
while ( index - - )
if ( current_ [ index ] ! = pattern [ index ] )
return false ;
current_ + = patternLength ;
return true ;
}
bool Reader : : readComment ( ) {
Location commentBegin = current_ - 1 ;
Char c = getNextChar ( ) ;
bool successful = false ;
if ( c = = ' * ' )
successful = readCStyleComment ( ) ;
else if ( c = = ' / ' )
successful = readCppStyleComment ( ) ;
if ( ! successful )
return false ;
if ( collectComments_ ) {
CommentPlacement placement = commentBefore ;
if ( lastValueEnd_ & & ! containsNewLine ( lastValueEnd_ , commentBegin ) ) {
if ( c ! = ' * ' | | ! containsNewLine ( commentBegin , current_ ) )
placement = commentAfterOnSameLine ;
}
addComment ( commentBegin , current_ , placement ) ;
}
return true ;
}
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JSONCPP_STRING Reader : : normalizeEOL ( Reader : : Location begin , Reader : : Location end ) {
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JSONCPP_STRING normalized ;
normalized . reserve ( static_cast < size_t > ( end - begin ) ) ;
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Reader : : Location current = begin ;
while ( current ! = end ) {
char c = * current + + ;
if ( c = = ' \r ' ) {
if ( current ! = end & & * current = = ' \n ' )
// convert dos EOL
+ + current ;
// convert Mac EOL
normalized + = ' \n ' ;
} else {
normalized + = c ;
}
}
return normalized ;
}
void
Reader : : addComment ( Location begin , Location end , CommentPlacement placement ) {
assert ( collectComments_ ) ;
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const JSONCPP_STRING & normalized = normalizeEOL ( begin , end ) ;
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if ( placement = = commentAfterOnSameLine ) {
assert ( lastValue_ ! = 0 ) ;
lastValue_ - > setComment ( normalized , placement ) ;
} else {
commentsBefore_ + = normalized ;
}
}
bool Reader : : readCStyleComment ( ) {
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while ( ( current_ + 1 ) < end_ ) {
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Char c = getNextChar ( ) ;
if ( c = = ' * ' & & * current_ = = ' / ' )
break ;
}
return getNextChar ( ) = = ' / ' ;
}
bool Reader : : readCppStyleComment ( ) {
while ( current_ ! = end_ ) {
Char c = getNextChar ( ) ;
if ( c = = ' \n ' )
break ;
if ( c = = ' \r ' ) {
// Consume DOS EOL. It will be normalized in addComment.
if ( current_ ! = end_ & & * current_ = = ' \n ' )
getNextChar ( ) ;
// Break on Moc OS 9 EOL.
break ;
}
}
return true ;
}
void Reader : : readNumber ( ) {
const char * p = current_ ;
char c = ' 0 ' ; // stopgap for already consumed character
// integral part
while ( c > = ' 0 ' & & c < = ' 9 ' )
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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// fractional part
if ( c = = ' . ' ) {
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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while ( c > = ' 0 ' & & c < = ' 9 ' )
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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}
// exponential part
if ( c = = ' e ' | | c = = ' E ' ) {
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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if ( c = = ' + ' | | c = = ' - ' )
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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while ( c > = ' 0 ' & & c < = ' 9 ' )
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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}
}
bool Reader : : readString ( ) {
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Char c = ' \0 ' ;
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while ( current_ ! = end_ ) {
c = getNextChar ( ) ;
if ( c = = ' \\ ' )
getNextChar ( ) ;
else if ( c = = ' " ' )
break ;
}
return c = = ' " ' ;
}
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bool Reader : : readObject ( Token & tokenStart ) {
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Token tokenName ;
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JSONCPP_STRING name ;
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Value init ( objectValue ) ;
currentValue ( ) . swapPayload ( init ) ;
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currentValue ( ) . setOffsetStart ( tokenStart . start_ - begin_ ) ;
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while ( readToken ( tokenName ) ) {
bool initialTokenOk = true ;
while ( tokenName . type_ = = tokenComment & & initialTokenOk )
initialTokenOk = readToken ( tokenName ) ;
if ( ! initialTokenOk )
break ;
if ( tokenName . type_ = = tokenObjectEnd & & name . empty ( ) ) // empty object
return true ;
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name . clear ( ) ;
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if ( tokenName . type_ = = tokenString ) {
if ( ! decodeString ( tokenName , name ) )
return recoverFromError ( tokenObjectEnd ) ;
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} else if ( tokenName . type_ = = tokenNumber & & features_ . allowNumericKeys_ ) {
Value numberName ;
if ( ! decodeNumber ( tokenName , numberName ) )
return recoverFromError ( tokenObjectEnd ) ;
name = JSONCPP_STRING ( numberName . asCString ( ) ) ;
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} else {
break ;
}
Token colon ;
if ( ! readToken ( colon ) | | colon . type_ ! = tokenMemberSeparator ) {
return addErrorAndRecover (
" Missing ':' after object member name " , colon , tokenObjectEnd ) ;
}
Value & value = currentValue ( ) [ name ] ;
nodes_ . push ( & value ) ;
bool ok = readValue ( ) ;
nodes_ . pop ( ) ;
if ( ! ok ) // error already set
return recoverFromError ( tokenObjectEnd ) ;
Token comma ;
if ( ! readToken ( comma ) | |
( comma . type_ ! = tokenObjectEnd & & comma . type_ ! = tokenArraySeparator & &
comma . type_ ! = tokenComment ) ) {
return addErrorAndRecover (
" Missing ',' or '}' in object declaration " , comma , tokenObjectEnd ) ;
}
bool finalizeTokenOk = true ;
while ( comma . type_ = = tokenComment & & finalizeTokenOk )
finalizeTokenOk = readToken ( comma ) ;
if ( comma . type_ = = tokenObjectEnd )
return true ;
}
return addErrorAndRecover (
" Missing '}' or object member name " , tokenName , tokenObjectEnd ) ;
}
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bool Reader : : readArray ( Token & tokenStart ) {
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Value init ( arrayValue ) ;
currentValue ( ) . swapPayload ( init ) ;
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currentValue ( ) . setOffsetStart ( tokenStart . start_ - begin_ ) ;
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skipSpaces ( ) ;
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if ( current_ ! = end_ & & * current_ = = ' ] ' ) // empty array
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{
Token endArray ;
readToken ( endArray ) ;
return true ;
}
int index = 0 ;
for ( ; ; ) {
Value & value = currentValue ( ) [ index + + ] ;
nodes_ . push ( & value ) ;
bool ok = readValue ( ) ;
nodes_ . pop ( ) ;
if ( ! ok ) // error already set
return recoverFromError ( tokenArrayEnd ) ;
Token token ;
// Accept Comment after last item in the array.
ok = readToken ( token ) ;
while ( token . type_ = = tokenComment & & ok ) {
ok = readToken ( token ) ;
}
bool badTokenType =
( token . type_ ! = tokenArraySeparator & & token . type_ ! = tokenArrayEnd ) ;
if ( ! ok | | badTokenType ) {
return addErrorAndRecover (
" Missing ',' or ']' in array declaration " , token , tokenArrayEnd ) ;
}
if ( token . type_ = = tokenArrayEnd )
break ;
}
return true ;
}
bool Reader : : decodeNumber ( Token & token ) {
Value decoded ;
if ( ! decodeNumber ( token , decoded ) )
return false ;
currentValue ( ) . swapPayload ( decoded ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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return true ;
}
bool Reader : : decodeNumber ( Token & token , Value & decoded ) {
// Attempts to parse the number as an integer. If the number is
// larger than the maximum supported value of an integer then
// we decode the number as a double.
Location current = token . start_ ;
bool isNegative = * current = = ' - ' ;
if ( isNegative )
+ + current ;
// TODO: Help the compiler do the div and mod at compile time or get rid of them.
Value : : LargestUInt maxIntegerValue =
isNegative ? Value : : LargestUInt ( Value : : maxLargestInt ) + 1
: Value : : maxLargestUInt ;
Value : : LargestUInt threshold = maxIntegerValue / 10 ;
Value : : LargestUInt value = 0 ;
while ( current < token . end_ ) {
Char c = * current + + ;
if ( c < ' 0 ' | | c > ' 9 ' )
return decodeDouble ( token , decoded ) ;
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Value : : UInt digit ( static_cast < Value : : UInt > ( c - ' 0 ' ) ) ;
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if ( value > = threshold ) {
// We've hit or exceeded the max value divided by 10 (rounded down). If
// a) we've only just touched the limit, b) this is the last digit, and
// c) it's small enough to fit in that rounding delta, we're okay.
// Otherwise treat this number as a double to avoid overflow.
if ( value > threshold | | current ! = token . end_ | |
digit > maxIntegerValue % 10 ) {
return decodeDouble ( token , decoded ) ;
}
}
value = value * 10 + digit ;
}
if ( isNegative & & value = = maxIntegerValue )
decoded = Value : : minLargestInt ;
else if ( isNegative )
decoded = - Value : : LargestInt ( value ) ;
else if ( value < = Value : : LargestUInt ( Value : : maxInt ) )
decoded = Value : : LargestInt ( value ) ;
else
decoded = value ;
return true ;
}
bool Reader : : decodeDouble ( Token & token ) {
Value decoded ;
if ( ! decodeDouble ( token , decoded ) )
return false ;
currentValue ( ) . swapPayload ( decoded ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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return true ;
}
bool Reader : : decodeDouble ( Token & token , Value & decoded ) {
double value = 0 ;
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JSONCPP_STRING buffer ( token . start_ , token . end_ ) ;
JSONCPP_ISTRINGSTREAM is ( buffer ) ;
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if ( ! ( is > > value ) )
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return addError ( " ' " + JSONCPP_STRING ( token . start_ , token . end_ ) +
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" ' is not a number. " ,
token ) ;
decoded = value ;
return true ;
}
bool Reader : : decodeString ( Token & token ) {
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JSONCPP_STRING decoded_string ;
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if ( ! decodeString ( token , decoded_string ) )
return false ;
Value decoded ( decoded_string ) ;
currentValue ( ) . swapPayload ( decoded ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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return true ;
}
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bool Reader : : decodeString ( Token & token , JSONCPP_STRING & decoded ) {
decoded . reserve ( static_cast < size_t > ( token . end_ - token . start_ - 2 ) ) ;
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Location current = token . start_ + 1 ; // skip '"'
Location end = token . end_ - 1 ; // do not include '"'
while ( current ! = end ) {
Char c = * current + + ;
if ( c = = ' " ' )
break ;
else if ( c = = ' \\ ' ) {
if ( current = = end )
return addError ( " Empty escape sequence in string " , token , current ) ;
Char escape = * current + + ;
switch ( escape ) {
case ' " ' :
decoded + = ' " ' ;
break ;
case ' / ' :
decoded + = ' / ' ;
break ;
case ' \\ ' :
decoded + = ' \\ ' ;
break ;
case ' b ' :
decoded + = ' \b ' ;
break ;
case ' f ' :
decoded + = ' \f ' ;
break ;
case ' n ' :
decoded + = ' \n ' ;
break ;
case ' r ' :
decoded + = ' \r ' ;
break ;
case ' t ' :
decoded + = ' \t ' ;
break ;
case ' u ' : {
unsigned int unicode ;
if ( ! decodeUnicodeCodePoint ( token , current , end , unicode ) )
return false ;
decoded + = codePointToUTF8 ( unicode ) ;
} break ;
default :
return addError ( " Bad escape sequence in string " , token , current ) ;
}
} else {
decoded + = c ;
}
}
return true ;
}
bool Reader : : decodeUnicodeCodePoint ( Token & token ,
Location & current ,
Location end ,
unsigned int & unicode ) {
if ( ! decodeUnicodeEscapeSequence ( token , current , end , unicode ) )
return false ;
if ( unicode > = 0xD800 & & unicode < = 0xDBFF ) {
// surrogate pairs
if ( end - current < 6 )
return addError (
" additional six characters expected to parse unicode surrogate pair. " ,
token ,
current ) ;
unsigned int surrogatePair ;
if ( * ( current + + ) = = ' \\ ' & & * ( current + + ) = = ' u ' ) {
if ( decodeUnicodeEscapeSequence ( token , current , end , surrogatePair ) ) {
unicode = 0x10000 + ( ( unicode & 0x3FF ) < < 10 ) + ( surrogatePair & 0x3FF ) ;
} else
return false ;
} else
return addError ( " expecting another \\ u token to begin the second half of "
" a unicode surrogate pair " ,
token ,
current ) ;
}
return true ;
}
bool Reader : : decodeUnicodeEscapeSequence ( Token & token ,
Location & current ,
Location end ,
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unsigned int & ret_unicode ) {
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if ( end - current < 4 )
return addError (
" Bad unicode escape sequence in string: four digits expected. " ,
token ,
current ) ;
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int unicode = 0 ;
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for ( int index = 0 ; index < 4 ; + + index ) {
Char c = * current + + ;
unicode * = 16 ;
if ( c > = ' 0 ' & & c < = ' 9 ' )
unicode + = c - ' 0 ' ;
else if ( c > = ' a ' & & c < = ' f ' )
unicode + = c - ' a ' + 10 ;
else if ( c > = ' A ' & & c < = ' F ' )
unicode + = c - ' A ' + 10 ;
else
return addError (
" Bad unicode escape sequence in string: hexadecimal digit expected. " ,
token ,
current ) ;
}
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ret_unicode = static_cast < unsigned int > ( unicode ) ;
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return true ;
}
bool
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Reader : : addError ( const JSONCPP_STRING & message , Token & token , Location extra ) {
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ErrorInfo info ;
info . token_ = token ;
info . message_ = message ;
info . extra_ = extra ;
errors_ . push_back ( info ) ;
return false ;
}
bool Reader : : recoverFromError ( TokenType skipUntilToken ) {
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size_t const errorCount = errors_ . size ( ) ;
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Token skip ;
for ( ; ; ) {
if ( ! readToken ( skip ) )
errors_ . resize ( errorCount ) ; // discard errors caused by recovery
if ( skip . type_ = = skipUntilToken | | skip . type_ = = tokenEndOfStream )
break ;
}
errors_ . resize ( errorCount ) ;
return false ;
}
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bool Reader : : addErrorAndRecover ( const JSONCPP_STRING & message ,
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Token & token ,
TokenType skipUntilToken ) {
addError ( message , token ) ;
return recoverFromError ( skipUntilToken ) ;
}
Value & Reader : : currentValue ( ) { return * ( nodes_ . top ( ) ) ; }
Reader : : Char Reader : : getNextChar ( ) {
if ( current_ = = end_ )
return 0 ;
return * current_ + + ;
}
void Reader : : getLocationLineAndColumn ( Location location ,
int & line ,
int & column ) const {
Location current = begin_ ;
Location lastLineStart = current ;
line = 0 ;
while ( current < location & & current ! = end_ ) {
Char c = * current + + ;
if ( c = = ' \r ' ) {
if ( * current = = ' \n ' )
+ + current ;
lastLineStart = current ;
+ + line ;
} else if ( c = = ' \n ' ) {
lastLineStart = current ;
+ + line ;
}
}
// column & line start at 1
column = int ( location - lastLineStart ) + 1 ;
+ + line ;
}
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JSONCPP_STRING Reader : : getLocationLineAndColumn ( Location location ) const {
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int line , column ;
getLocationLineAndColumn ( location , line , column ) ;
char buffer [ 18 + 16 + 16 + 1 ] ;
snprintf ( buffer , sizeof ( buffer ) , " Line %d, Column %d " , line , column ) ;
return buffer ;
}
// Deprecated. Preserved for backward compatibility
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JSONCPP_STRING Reader : : getFormatedErrorMessages ( ) const {
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return getFormattedErrorMessages ( ) ;
}
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JSONCPP_STRING Reader : : getFormattedErrorMessages ( ) const {
JSONCPP_STRING formattedMessage ;
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for ( Errors : : const_iterator itError = errors_ . begin ( ) ;
itError ! = errors_ . end ( ) ;
+ + itError ) {
const ErrorInfo & error = * itError ;
formattedMessage + =
" * " + getLocationLineAndColumn ( error . token_ . start_ ) + " \n " ;
formattedMessage + = " " + error . message_ + " \n " ;
if ( error . extra_ )
formattedMessage + =
" See " + getLocationLineAndColumn ( error . extra_ ) + " for detail. \n " ;
}
return formattedMessage ;
}
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std : : vector < Reader : : StructuredError > Reader : : getStructuredErrors ( ) const {
std : : vector < Reader : : StructuredError > allErrors ;
for ( Errors : : const_iterator itError = errors_ . begin ( ) ;
itError ! = errors_ . end ( ) ;
+ + itError ) {
const ErrorInfo & error = * itError ;
Reader : : StructuredError structured ;
structured . offset_start = error . token_ . start_ - begin_ ;
structured . offset_limit = error . token_ . end_ - begin_ ;
structured . message = error . message_ ;
allErrors . push_back ( structured ) ;
}
return allErrors ;
}
bool Reader : : pushError ( const Value & value , const JSONCPP_STRING & message ) {
ptrdiff_t const length = end_ - begin_ ;
if ( value . getOffsetStart ( ) > length
| | value . getOffsetLimit ( ) > length )
return false ;
Token token ;
token . type_ = tokenError ;
token . start_ = begin_ + value . getOffsetStart ( ) ;
token . end_ = end_ + value . getOffsetLimit ( ) ;
ErrorInfo info ;
info . token_ = token ;
info . message_ = message ;
info . extra_ = 0 ;
errors_ . push_back ( info ) ;
return true ;
}
bool Reader : : pushError ( const Value & value , const JSONCPP_STRING & message , const Value & extra ) {
ptrdiff_t const length = end_ - begin_ ;
if ( value . getOffsetStart ( ) > length
| | value . getOffsetLimit ( ) > length
| | extra . getOffsetLimit ( ) > length )
return false ;
Token token ;
token . type_ = tokenError ;
token . start_ = begin_ + value . getOffsetStart ( ) ;
token . end_ = begin_ + value . getOffsetLimit ( ) ;
ErrorInfo info ;
info . token_ = token ;
info . message_ = message ;
info . extra_ = begin_ + extra . getOffsetStart ( ) ;
errors_ . push_back ( info ) ;
return true ;
}
bool Reader : : good ( ) const {
return ! errors_ . size ( ) ;
}
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// exact copy of Features
class OurFeatures {
public :
static OurFeatures all ( ) ;
bool allowComments_ ;
bool strictRoot_ ;
bool allowDroppedNullPlaceholders_ ;
bool allowNumericKeys_ ;
bool allowSingleQuotes_ ;
bool failIfExtra_ ;
bool rejectDupKeys_ ;
bool allowSpecialFloats_ ;
int stackLimit_ ;
} ; // OurFeatures
// exact copy of Implementation of class Features
// ////////////////////////////////
OurFeatures OurFeatures : : all ( ) { return OurFeatures ( ) ; }
// Implementation of class Reader
// ////////////////////////////////
// exact copy of Reader, renamed to OurReader
class OurReader {
public :
typedef char Char ;
typedef const Char * Location ;
struct StructuredError {
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ptrdiff_t offset_start ;
ptrdiff_t offset_limit ;
JSONCPP_STRING message ;
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} ;
OurReader ( OurFeatures const & features ) ;
bool parse ( const char * beginDoc ,
const char * endDoc ,
Value & root ,
bool collectComments = true ) ;
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JSONCPP_STRING getFormattedErrorMessages ( ) const ;
std : : vector < StructuredError > getStructuredErrors ( ) const ;
bool pushError ( const Value & value , const JSONCPP_STRING & message ) ;
bool pushError ( const Value & value , const JSONCPP_STRING & message , const Value & extra ) ;
bool good ( ) const ;
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private :
OurReader ( OurReader const & ) ; // no impl
void operator = ( OurReader const & ) ; // no impl
enum TokenType {
tokenEndOfStream = 0 ,
tokenObjectBegin ,
tokenObjectEnd ,
tokenArrayBegin ,
tokenArrayEnd ,
tokenString ,
tokenNumber ,
tokenTrue ,
tokenFalse ,
tokenNull ,
tokenNaN ,
tokenPosInf ,
tokenNegInf ,
tokenArraySeparator ,
tokenMemberSeparator ,
tokenComment ,
tokenError
} ;
class Token {
public :
TokenType type_ ;
Location start_ ;
Location end_ ;
} ;
class ErrorInfo {
public :
Token token_ ;
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JSONCPP_STRING message_ ;
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Location extra_ ;
} ;
typedef std : : deque < ErrorInfo > Errors ;
bool readToken ( Token & token ) ;
void skipSpaces ( ) ;
bool match ( Location pattern , int patternLength ) ;
bool readComment ( ) ;
bool readCStyleComment ( ) ;
bool readCppStyleComment ( ) ;
bool readString ( ) ;
bool readStringSingleQuote ( ) ;
bool readNumber ( bool checkInf ) ;
bool readValue ( ) ;
bool readObject ( Token & token ) ;
bool readArray ( Token & token ) ;
bool decodeNumber ( Token & token ) ;
bool decodeNumber ( Token & token , Value & decoded ) ;
bool decodeString ( Token & token ) ;
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bool decodeString ( Token & token , JSONCPP_STRING & decoded ) ;
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bool decodeDouble ( Token & token ) ;
bool decodeDouble ( Token & token , Value & decoded ) ;
bool decodeUnicodeCodePoint ( Token & token ,
Location & current ,
Location end ,
unsigned int & unicode ) ;
bool decodeUnicodeEscapeSequence ( Token & token ,
Location & current ,
Location end ,
unsigned int & unicode ) ;
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bool addError ( const JSONCPP_STRING & message , Token & token , Location extra = 0 ) ;
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bool recoverFromError ( TokenType skipUntilToken ) ;
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bool addErrorAndRecover ( const JSONCPP_STRING & message ,
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Token & token ,
TokenType skipUntilToken ) ;
void skipUntilSpace ( ) ;
Value & currentValue ( ) ;
Char getNextChar ( ) ;
void
getLocationLineAndColumn ( Location location , int & line , int & column ) const ;
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JSONCPP_STRING getLocationLineAndColumn ( Location location ) const ;
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void addComment ( Location begin , Location end , CommentPlacement placement ) ;
void skipCommentTokens ( Token & token ) ;
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static JSONCPP_STRING normalizeEOL ( Location begin , Location end ) ;
static bool containsNewLine ( Location begin , Location end ) ;
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typedef std : : stack < Value * > Nodes ;
Nodes nodes_ ;
Errors errors_ ;
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JSONCPP_STRING document_ ;
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Location begin_ ;
Location end_ ;
Location current_ ;
Location lastValueEnd_ ;
Value * lastValue_ ;
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JSONCPP_STRING commentsBefore_ ;
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OurFeatures const features_ ;
bool collectComments_ ;
} ; // OurReader
// complete copy of Read impl, for OurReader
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bool OurReader : : containsNewLine ( OurReader : : Location begin , OurReader : : Location end ) {
for ( ; begin < end ; + + begin )
if ( * begin = = ' \n ' | | * begin = = ' \r ' )
return true ;
return false ;
}
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OurReader : : OurReader ( OurFeatures const & features )
: errors_ ( ) , document_ ( ) , begin_ ( ) , end_ ( ) , current_ ( ) , lastValueEnd_ ( ) ,
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lastValue_ ( ) , commentsBefore_ ( ) ,
features_ ( features ) , collectComments_ ( ) {
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}
bool OurReader : : parse ( const char * beginDoc ,
const char * endDoc ,
Value & root ,
bool collectComments ) {
if ( ! features_ . allowComments_ ) {
collectComments = false ;
}
begin_ = beginDoc ;
end_ = endDoc ;
collectComments_ = collectComments ;
current_ = begin_ ;
lastValueEnd_ = 0 ;
lastValue_ = 0 ;
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commentsBefore_ . clear ( ) ;
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errors_ . clear ( ) ;
while ( ! nodes_ . empty ( ) )
nodes_ . pop ( ) ;
nodes_ . push ( & root ) ;
bool successful = readValue ( ) ;
Token token ;
skipCommentTokens ( token ) ;
if ( features_ . failIfExtra_ ) {
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if ( ( features_ . strictRoot_ | | token . type_ ! = tokenError ) & & token . type_ ! = tokenEndOfStream ) {
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addError ( " Extra non-whitespace after JSON value. " , token ) ;
return false ;
}
}
if ( collectComments_ & & ! commentsBefore_ . empty ( ) )
root . setComment ( commentsBefore_ , commentAfter ) ;
if ( features_ . strictRoot_ ) {
if ( ! root . isArray ( ) & & ! root . isObject ( ) ) {
// Set error location to start of doc, ideally should be first token found
// in doc
token . type_ = tokenError ;
token . start_ = beginDoc ;
token . end_ = endDoc ;
addError (
" A valid JSON document must be either an array or an object value. " ,
token ) ;
return false ;
}
}
return successful ;
}
bool OurReader : : readValue ( ) {
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// To preserve the old behaviour we cast size_t to int.
if ( static_cast < int > ( nodes_ . size ( ) ) > features_ . stackLimit_ ) throwRuntimeError ( " Exceeded stackLimit in readValue(). " ) ;
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Token token ;
skipCommentTokens ( token ) ;
bool successful = true ;
if ( collectComments_ & & ! commentsBefore_ . empty ( ) ) {
currentValue ( ) . setComment ( commentsBefore_ , commentBefore ) ;
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commentsBefore_ . clear ( ) ;
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}
switch ( token . type_ ) {
case tokenObjectBegin :
successful = readObject ( token ) ;
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currentValue ( ) . setOffsetLimit ( current_ - begin_ ) ;
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break ;
case tokenArrayBegin :
successful = readArray ( token ) ;
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currentValue ( ) . setOffsetLimit ( current_ - begin_ ) ;
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break ;
case tokenNumber :
successful = decodeNumber ( token ) ;
break ;
case tokenString :
successful = decodeString ( token ) ;
break ;
case tokenTrue :
{
Value v ( true ) ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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}
break ;
case tokenFalse :
{
Value v ( false ) ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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}
break ;
case tokenNull :
{
Value v ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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}
break ;
case tokenNaN :
{
Value v ( std : : numeric_limits < double > : : quiet_NaN ( ) ) ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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}
break ;
case tokenPosInf :
{
Value v ( std : : numeric_limits < double > : : infinity ( ) ) ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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}
break ;
case tokenNegInf :
{
Value v ( - std : : numeric_limits < double > : : infinity ( ) ) ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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}
break ;
case tokenArraySeparator :
case tokenObjectEnd :
case tokenArrayEnd :
if ( features_ . allowDroppedNullPlaceholders_ ) {
// "Un-read" the current token and mark the current value as a null
// token.
current_ - - ;
Value v ;
currentValue ( ) . swapPayload ( v ) ;
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currentValue ( ) . setOffsetStart ( current_ - begin_ - 1 ) ;
currentValue ( ) . setOffsetLimit ( current_ - begin_ ) ;
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break ;
} // else, fall through ...
default :
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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return addError ( " Syntax error: value, object or array expected. " , token ) ;
}
if ( collectComments_ ) {
lastValueEnd_ = current_ ;
lastValue_ = & currentValue ( ) ;
}
return successful ;
}
void OurReader : : skipCommentTokens ( Token & token ) {
if ( features_ . allowComments_ ) {
do {
readToken ( token ) ;
} while ( token . type_ = = tokenComment ) ;
} else {
readToken ( token ) ;
}
}
bool OurReader : : readToken ( Token & token ) {
skipSpaces ( ) ;
token . start_ = current_ ;
Char c = getNextChar ( ) ;
bool ok = true ;
switch ( c ) {
case ' { ' :
token . type_ = tokenObjectBegin ;
break ;
case ' } ' :
token . type_ = tokenObjectEnd ;
break ;
case ' [ ' :
token . type_ = tokenArrayBegin ;
break ;
case ' ] ' :
token . type_ = tokenArrayEnd ;
break ;
case ' " ' :
token . type_ = tokenString ;
ok = readString ( ) ;
break ;
case ' \' ' :
if ( features_ . allowSingleQuotes_ ) {
token . type_ = tokenString ;
ok = readStringSingleQuote ( ) ;
break ;
} // else continue
case ' / ' :
token . type_ = tokenComment ;
ok = readComment ( ) ;
break ;
case ' 0 ' :
case ' 1 ' :
case ' 2 ' :
case ' 3 ' :
case ' 4 ' :
case ' 5 ' :
case ' 6 ' :
case ' 7 ' :
case ' 8 ' :
case ' 9 ' :
token . type_ = tokenNumber ;
readNumber ( false ) ;
break ;
case ' - ' :
if ( readNumber ( true ) ) {
token . type_ = tokenNumber ;
} else {
token . type_ = tokenNegInf ;
ok = features_ . allowSpecialFloats_ & & match ( " nfinity " , 7 ) ;
}
break ;
case ' t ' :
token . type_ = tokenTrue ;
ok = match ( " rue " , 3 ) ;
break ;
case ' f ' :
token . type_ = tokenFalse ;
ok = match ( " alse " , 4 ) ;
break ;
case ' n ' :
token . type_ = tokenNull ;
ok = match ( " ull " , 3 ) ;
break ;
case ' N ' :
if ( features_ . allowSpecialFloats_ ) {
token . type_ = tokenNaN ;
ok = match ( " aN " , 2 ) ;
} else {
ok = false ;
}
break ;
case ' I ' :
if ( features_ . allowSpecialFloats_ ) {
token . type_ = tokenPosInf ;
ok = match ( " nfinity " , 7 ) ;
} else {
ok = false ;
}
break ;
case ' , ' :
token . type_ = tokenArraySeparator ;
break ;
case ' : ' :
token . type_ = tokenMemberSeparator ;
break ;
case 0 :
token . type_ = tokenEndOfStream ;
break ;
default :
ok = false ;
break ;
}
if ( ! ok )
token . type_ = tokenError ;
token . end_ = current_ ;
return true ;
}
void OurReader : : skipSpaces ( ) {
while ( current_ ! = end_ ) {
Char c = * current_ ;
if ( c = = ' ' | | c = = ' \t ' | | c = = ' \r ' | | c = = ' \n ' )
+ + current_ ;
else
break ;
}
}
bool OurReader : : match ( Location pattern , int patternLength ) {
if ( end_ - current_ < patternLength )
return false ;
int index = patternLength ;
while ( index - - )
if ( current_ [ index ] ! = pattern [ index ] )
return false ;
current_ + = patternLength ;
return true ;
}
bool OurReader : : readComment ( ) {
Location commentBegin = current_ - 1 ;
Char c = getNextChar ( ) ;
bool successful = false ;
if ( c = = ' * ' )
successful = readCStyleComment ( ) ;
else if ( c = = ' / ' )
successful = readCppStyleComment ( ) ;
if ( ! successful )
return false ;
if ( collectComments_ ) {
CommentPlacement placement = commentBefore ;
if ( lastValueEnd_ & & ! containsNewLine ( lastValueEnd_ , commentBegin ) ) {
if ( c ! = ' * ' | | ! containsNewLine ( commentBegin , current_ ) )
placement = commentAfterOnSameLine ;
}
addComment ( commentBegin , current_ , placement ) ;
}
return true ;
}
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JSONCPP_STRING OurReader : : normalizeEOL ( OurReader : : Location begin , OurReader : : Location end ) {
JSONCPP_STRING normalized ;
normalized . reserve ( static_cast < size_t > ( end - begin ) ) ;
OurReader : : Location current = begin ;
while ( current ! = end ) {
char c = * current + + ;
if ( c = = ' \r ' ) {
if ( current ! = end & & * current = = ' \n ' )
// convert dos EOL
+ + current ;
// convert Mac EOL
normalized + = ' \n ' ;
} else {
normalized + = c ;
}
}
return normalized ;
}
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void
OurReader : : addComment ( Location begin , Location end , CommentPlacement placement ) {
assert ( collectComments_ ) ;
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const JSONCPP_STRING & normalized = normalizeEOL ( begin , end ) ;
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if ( placement = = commentAfterOnSameLine ) {
assert ( lastValue_ ! = 0 ) ;
lastValue_ - > setComment ( normalized , placement ) ;
} else {
commentsBefore_ + = normalized ;
}
}
bool OurReader : : readCStyleComment ( ) {
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while ( ( current_ + 1 ) < end_ ) {
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Char c = getNextChar ( ) ;
if ( c = = ' * ' & & * current_ = = ' / ' )
break ;
}
return getNextChar ( ) = = ' / ' ;
}
bool OurReader : : readCppStyleComment ( ) {
while ( current_ ! = end_ ) {
Char c = getNextChar ( ) ;
if ( c = = ' \n ' )
break ;
if ( c = = ' \r ' ) {
// Consume DOS EOL. It will be normalized in addComment.
if ( current_ ! = end_ & & * current_ = = ' \n ' )
getNextChar ( ) ;
// Break on Moc OS 9 EOL.
break ;
}
}
return true ;
}
bool OurReader : : readNumber ( bool checkInf ) {
const char * p = current_ ;
if ( checkInf & & p ! = end_ & & * p = = ' I ' ) {
current_ = + + p ;
return false ;
}
char c = ' 0 ' ; // stopgap for already consumed character
// integral part
while ( c > = ' 0 ' & & c < = ' 9 ' )
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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// fractional part
if ( c = = ' . ' ) {
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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while ( c > = ' 0 ' & & c < = ' 9 ' )
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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}
// exponential part
if ( c = = ' e ' | | c = = ' E ' ) {
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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if ( c = = ' + ' | | c = = ' - ' )
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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while ( c > = ' 0 ' & & c < = ' 9 ' )
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c = ( current_ = p ) < end_ ? * p + + : ' \0 ' ;
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}
return true ;
}
bool OurReader : : readString ( ) {
Char c = 0 ;
while ( current_ ! = end_ ) {
c = getNextChar ( ) ;
if ( c = = ' \\ ' )
getNextChar ( ) ;
else if ( c = = ' " ' )
break ;
}
return c = = ' " ' ;
}
bool OurReader : : readStringSingleQuote ( ) {
Char c = 0 ;
while ( current_ ! = end_ ) {
c = getNextChar ( ) ;
if ( c = = ' \\ ' )
getNextChar ( ) ;
else if ( c = = ' \' ' )
break ;
}
return c = = ' \' ' ;
}
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bool OurReader : : readObject ( Token & tokenStart ) {
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Token tokenName ;
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JSONCPP_STRING name ;
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Value init ( objectValue ) ;
currentValue ( ) . swapPayload ( init ) ;
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currentValue ( ) . setOffsetStart ( tokenStart . start_ - begin_ ) ;
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while ( readToken ( tokenName ) ) {
bool initialTokenOk = true ;
while ( tokenName . type_ = = tokenComment & & initialTokenOk )
initialTokenOk = readToken ( tokenName ) ;
if ( ! initialTokenOk )
break ;
if ( tokenName . type_ = = tokenObjectEnd & & name . empty ( ) ) // empty object
return true ;
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name . clear ( ) ;
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if ( tokenName . type_ = = tokenString ) {
if ( ! decodeString ( tokenName , name ) )
return recoverFromError ( tokenObjectEnd ) ;
} else if ( tokenName . type_ = = tokenNumber & & features_ . allowNumericKeys_ ) {
Value numberName ;
if ( ! decodeNumber ( tokenName , numberName ) )
return recoverFromError ( tokenObjectEnd ) ;
name = numberName . asString ( ) ;
} else {
break ;
}
Token colon ;
if ( ! readToken ( colon ) | | colon . type_ ! = tokenMemberSeparator ) {
return addErrorAndRecover (
" Missing ':' after object member name " , colon , tokenObjectEnd ) ;
}
if ( name . length ( ) > = ( 1U < < 30 ) ) throwRuntimeError ( " keylength >= 2^30 " ) ;
if ( features_ . rejectDupKeys_ & & currentValue ( ) . isMember ( name ) ) {
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JSONCPP_STRING msg = " Duplicate key: ' " + name + " ' " ;
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return addErrorAndRecover (
msg , tokenName , tokenObjectEnd ) ;
}
Value & value = currentValue ( ) [ name ] ;
nodes_ . push ( & value ) ;
bool ok = readValue ( ) ;
nodes_ . pop ( ) ;
if ( ! ok ) // error already set
return recoverFromError ( tokenObjectEnd ) ;
Token comma ;
if ( ! readToken ( comma ) | |
( comma . type_ ! = tokenObjectEnd & & comma . type_ ! = tokenArraySeparator & &
comma . type_ ! = tokenComment ) ) {
return addErrorAndRecover (
" Missing ',' or '}' in object declaration " , comma , tokenObjectEnd ) ;
}
bool finalizeTokenOk = true ;
while ( comma . type_ = = tokenComment & & finalizeTokenOk )
finalizeTokenOk = readToken ( comma ) ;
if ( comma . type_ = = tokenObjectEnd )
return true ;
}
return addErrorAndRecover (
" Missing '}' or object member name " , tokenName , tokenObjectEnd ) ;
}
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bool OurReader : : readArray ( Token & tokenStart ) {
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Value init ( arrayValue ) ;
currentValue ( ) . swapPayload ( init ) ;
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currentValue ( ) . setOffsetStart ( tokenStart . start_ - begin_ ) ;
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skipSpaces ( ) ;
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if ( current_ ! = end_ & & * current_ = = ' ] ' ) // empty array
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{
Token endArray ;
readToken ( endArray ) ;
return true ;
}
int index = 0 ;
for ( ; ; ) {
Value & value = currentValue ( ) [ index + + ] ;
nodes_ . push ( & value ) ;
bool ok = readValue ( ) ;
nodes_ . pop ( ) ;
if ( ! ok ) // error already set
return recoverFromError ( tokenArrayEnd ) ;
Token token ;
// Accept Comment after last item in the array.
ok = readToken ( token ) ;
while ( token . type_ = = tokenComment & & ok ) {
ok = readToken ( token ) ;
}
bool badTokenType =
( token . type_ ! = tokenArraySeparator & & token . type_ ! = tokenArrayEnd ) ;
if ( ! ok | | badTokenType ) {
return addErrorAndRecover (
" Missing ',' or ']' in array declaration " , token , tokenArrayEnd ) ;
}
if ( token . type_ = = tokenArrayEnd )
break ;
}
return true ;
}
bool OurReader : : decodeNumber ( Token & token ) {
Value decoded ;
if ( ! decodeNumber ( token , decoded ) )
return false ;
currentValue ( ) . swapPayload ( decoded ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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return true ;
}
bool OurReader : : decodeNumber ( Token & token , Value & decoded ) {
// Attempts to parse the number as an integer. If the number is
// larger than the maximum supported value of an integer then
// we decode the number as a double.
Location current = token . start_ ;
bool isNegative = * current = = ' - ' ;
if ( isNegative )
+ + current ;
// TODO: Help the compiler do the div and mod at compile time or get rid of them.
Value : : LargestUInt maxIntegerValue =
isNegative ? Value : : LargestUInt ( - Value : : minLargestInt )
: Value : : maxLargestUInt ;
Value : : LargestUInt threshold = maxIntegerValue / 10 ;
Value : : LargestUInt value = 0 ;
while ( current < token . end_ ) {
Char c = * current + + ;
if ( c < ' 0 ' | | c > ' 9 ' )
return decodeDouble ( token , decoded ) ;
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Value : : UInt digit ( static_cast < Value : : UInt > ( c - ' 0 ' ) ) ;
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if ( value > = threshold ) {
// We've hit or exceeded the max value divided by 10 (rounded down). If
// a) we've only just touched the limit, b) this is the last digit, and
// c) it's small enough to fit in that rounding delta, we're okay.
// Otherwise treat this number as a double to avoid overflow.
if ( value > threshold | | current ! = token . end_ | |
digit > maxIntegerValue % 10 ) {
return decodeDouble ( token , decoded ) ;
}
}
value = value * 10 + digit ;
}
if ( isNegative )
decoded = - Value : : LargestInt ( value ) ;
else if ( value < = Value : : LargestUInt ( Value : : maxInt ) )
decoded = Value : : LargestInt ( value ) ;
else
decoded = value ;
return true ;
}
bool OurReader : : decodeDouble ( Token & token ) {
Value decoded ;
if ( ! decodeDouble ( token , decoded ) )
return false ;
currentValue ( ) . swapPayload ( decoded ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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return true ;
}
bool OurReader : : decodeDouble ( Token & token , Value & decoded ) {
double value = 0 ;
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const int bufferSize = 32 ;
int count ;
ptrdiff_t const length = token . end_ - token . start_ ;
// Sanity check to avoid buffer overflow exploits.
if ( length < 0 ) {
return addError ( " Unable to parse token length " , token ) ;
}
size_t const ulength = static_cast < size_t > ( length ) ;
// Avoid using a string constant for the format control string given to
// sscanf, as this can cause hard to debug crashes on OS X. See here for more
// info:
//
// http://developer.apple.com/library/mac/#DOCUMENTATION/DeveloperTools/gcc-4.0.1/gcc/Incompatibilities.html
char format [ ] = " %lf " ;
if ( length < = bufferSize ) {
Char buffer [ bufferSize + 1 ] ;
memcpy ( buffer , token . start_ , ulength ) ;
buffer [ length ] = 0 ;
fixNumericLocaleInput ( buffer , buffer + length ) ;
count = sscanf ( buffer , format , & value ) ;
} else {
JSONCPP_STRING buffer ( token . start_ , token . end_ ) ;
count = sscanf ( buffer . c_str ( ) , format , & value ) ;
}
if ( count ! = 1 )
return addError ( " ' " + JSONCPP_STRING ( token . start_ , token . end_ ) +
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" ' is not a number. " ,
token ) ;
decoded = value ;
return true ;
}
bool OurReader : : decodeString ( Token & token ) {
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JSONCPP_STRING decoded_string ;
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if ( ! decodeString ( token , decoded_string ) )
return false ;
Value decoded ( decoded_string ) ;
currentValue ( ) . swapPayload ( decoded ) ;
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currentValue ( ) . setOffsetStart ( token . start_ - begin_ ) ;
currentValue ( ) . setOffsetLimit ( token . end_ - begin_ ) ;
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return true ;
}
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bool OurReader : : decodeString ( Token & token , JSONCPP_STRING & decoded ) {
decoded . reserve ( static_cast < size_t > ( token . end_ - token . start_ - 2 ) ) ;
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Location current = token . start_ + 1 ; // skip '"'
Location end = token . end_ - 1 ; // do not include '"'
while ( current ! = end ) {
Char c = * current + + ;
if ( c = = ' " ' )
break ;
else if ( c = = ' \\ ' ) {
if ( current = = end )
return addError ( " Empty escape sequence in string " , token , current ) ;
Char escape = * current + + ;
switch ( escape ) {
case ' " ' :
decoded + = ' " ' ;
break ;
case ' / ' :
decoded + = ' / ' ;
break ;
case ' \\ ' :
decoded + = ' \\ ' ;
break ;
case ' b ' :
decoded + = ' \b ' ;
break ;
case ' f ' :
decoded + = ' \f ' ;
break ;
case ' n ' :
decoded + = ' \n ' ;
break ;
case ' r ' :
decoded + = ' \r ' ;
break ;
case ' t ' :
decoded + = ' \t ' ;
break ;
case ' u ' : {
unsigned int unicode ;
if ( ! decodeUnicodeCodePoint ( token , current , end , unicode ) )
return false ;
decoded + = codePointToUTF8 ( unicode ) ;
} break ;
default :
return addError ( " Bad escape sequence in string " , token , current ) ;
}
} else {
decoded + = c ;
}
}
return true ;
}
bool OurReader : : decodeUnicodeCodePoint ( Token & token ,
Location & current ,
Location end ,
unsigned int & unicode ) {
if ( ! decodeUnicodeEscapeSequence ( token , current , end , unicode ) )
return false ;
if ( unicode > = 0xD800 & & unicode < = 0xDBFF ) {
// surrogate pairs
if ( end - current < 6 )
return addError (
" additional six characters expected to parse unicode surrogate pair. " ,
token ,
current ) ;
unsigned int surrogatePair ;
if ( * ( current + + ) = = ' \\ ' & & * ( current + + ) = = ' u ' ) {
if ( decodeUnicodeEscapeSequence ( token , current , end , surrogatePair ) ) {
unicode = 0x10000 + ( ( unicode & 0x3FF ) < < 10 ) + ( surrogatePair & 0x3FF ) ;
} else
return false ;
} else
return addError ( " expecting another \\ u token to begin the second half of "
" a unicode surrogate pair " ,
token ,
current ) ;
}
return true ;
}
bool OurReader : : decodeUnicodeEscapeSequence ( Token & token ,
Location & current ,
Location end ,
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unsigned int & ret_unicode ) {
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if ( end - current < 4 )
return addError (
" Bad unicode escape sequence in string: four digits expected. " ,
token ,
current ) ;
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int unicode = 0 ;
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for ( int index = 0 ; index < 4 ; + + index ) {
Char c = * current + + ;
unicode * = 16 ;
if ( c > = ' 0 ' & & c < = ' 9 ' )
unicode + = c - ' 0 ' ;
else if ( c > = ' a ' & & c < = ' f ' )
unicode + = c - ' a ' + 10 ;
else if ( c > = ' A ' & & c < = ' F ' )
unicode + = c - ' A ' + 10 ;
else
return addError (
" Bad unicode escape sequence in string: hexadecimal digit expected. " ,
token ,
current ) ;
}
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ret_unicode = static_cast < unsigned int > ( unicode ) ;
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return true ;
}
bool
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OurReader : : addError ( const JSONCPP_STRING & message , Token & token , Location extra ) {
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ErrorInfo info ;
info . token_ = token ;
info . message_ = message ;
info . extra_ = extra ;
errors_ . push_back ( info ) ;
return false ;
}
bool OurReader : : recoverFromError ( TokenType skipUntilToken ) {
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size_t errorCount = errors_ . size ( ) ;
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Token skip ;
for ( ; ; ) {
if ( ! readToken ( skip ) )
errors_ . resize ( errorCount ) ; // discard errors caused by recovery
if ( skip . type_ = = skipUntilToken | | skip . type_ = = tokenEndOfStream )
break ;
}
errors_ . resize ( errorCount ) ;
return false ;
}
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bool OurReader : : addErrorAndRecover ( const JSONCPP_STRING & message ,
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Token & token ,
TokenType skipUntilToken ) {
addError ( message , token ) ;
return recoverFromError ( skipUntilToken ) ;
}
Value & OurReader : : currentValue ( ) { return * ( nodes_ . top ( ) ) ; }
OurReader : : Char OurReader : : getNextChar ( ) {
if ( current_ = = end_ )
return 0 ;
return * current_ + + ;
}
void OurReader : : getLocationLineAndColumn ( Location location ,
int & line ,
int & column ) const {
Location current = begin_ ;
Location lastLineStart = current ;
line = 0 ;
while ( current < location & & current ! = end_ ) {
Char c = * current + + ;
if ( c = = ' \r ' ) {
if ( * current = = ' \n ' )
+ + current ;
lastLineStart = current ;
+ + line ;
} else if ( c = = ' \n ' ) {
lastLineStart = current ;
+ + line ;
}
}
// column & line start at 1
column = int ( location - lastLineStart ) + 1 ;
+ + line ;
}
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JSONCPP_STRING OurReader : : getLocationLineAndColumn ( Location location ) const {
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int line , column ;
getLocationLineAndColumn ( location , line , column ) ;
char buffer [ 18 + 16 + 16 + 1 ] ;
snprintf ( buffer , sizeof ( buffer ) , " Line %d, Column %d " , line , column ) ;
return buffer ;
}
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JSONCPP_STRING OurReader : : getFormattedErrorMessages ( ) const {
JSONCPP_STRING formattedMessage ;
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for ( Errors : : const_iterator itError = errors_ . begin ( ) ;
itError ! = errors_ . end ( ) ;
+ + itError ) {
const ErrorInfo & error = * itError ;
formattedMessage + =
" * " + getLocationLineAndColumn ( error . token_ . start_ ) + " \n " ;
formattedMessage + = " " + error . message_ + " \n " ;
if ( error . extra_ )
formattedMessage + =
" See " + getLocationLineAndColumn ( error . extra_ ) + " for detail. \n " ;
}
return formattedMessage ;
}
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std : : vector < OurReader : : StructuredError > OurReader : : getStructuredErrors ( ) const {
std : : vector < OurReader : : StructuredError > allErrors ;
for ( Errors : : const_iterator itError = errors_ . begin ( ) ;
itError ! = errors_ . end ( ) ;
+ + itError ) {
const ErrorInfo & error = * itError ;
OurReader : : StructuredError structured ;
structured . offset_start = error . token_ . start_ - begin_ ;
structured . offset_limit = error . token_ . end_ - begin_ ;
structured . message = error . message_ ;
allErrors . push_back ( structured ) ;
}
return allErrors ;
}
bool OurReader : : pushError ( const Value & value , const JSONCPP_STRING & message ) {
ptrdiff_t length = end_ - begin_ ;
if ( value . getOffsetStart ( ) > length
| | value . getOffsetLimit ( ) > length )
return false ;
Token token ;
token . type_ = tokenError ;
token . start_ = begin_ + value . getOffsetStart ( ) ;
token . end_ = end_ + value . getOffsetLimit ( ) ;
ErrorInfo info ;
info . token_ = token ;
info . message_ = message ;
info . extra_ = 0 ;
errors_ . push_back ( info ) ;
return true ;
}
bool OurReader : : pushError ( const Value & value , const JSONCPP_STRING & message , const Value & extra ) {
ptrdiff_t length = end_ - begin_ ;
if ( value . getOffsetStart ( ) > length
| | value . getOffsetLimit ( ) > length
| | extra . getOffsetLimit ( ) > length )
return false ;
Token token ;
token . type_ = tokenError ;
token . start_ = begin_ + value . getOffsetStart ( ) ;
token . end_ = begin_ + value . getOffsetLimit ( ) ;
ErrorInfo info ;
info . token_ = token ;
info . message_ = message ;
info . extra_ = begin_ + extra . getOffsetStart ( ) ;
errors_ . push_back ( info ) ;
return true ;
}
bool OurReader : : good ( ) const {
return ! errors_ . size ( ) ;
}
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class OurCharReader : public CharReader {
bool const collectComments_ ;
OurReader reader_ ;
public :
OurCharReader (
bool collectComments ,
OurFeatures const & features )
: collectComments_ ( collectComments )
, reader_ ( features )
{ }
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bool parse (
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char const * beginDoc , char const * endDoc ,
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Value * root , JSONCPP_STRING * errs ) JSONCPP_OVERRIDE {
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bool ok = reader_ . parse ( beginDoc , endDoc , * root , collectComments_ ) ;
if ( errs ) {
* errs = reader_ . getFormattedErrorMessages ( ) ;
}
return ok ;
}
} ;
CharReaderBuilder : : CharReaderBuilder ( )
{
setDefaults ( & settings_ ) ;
}
CharReaderBuilder : : ~ CharReaderBuilder ( )
{ }
CharReader * CharReaderBuilder : : newCharReader ( ) const
{
bool collectComments = settings_ [ " collectComments " ] . asBool ( ) ;
OurFeatures features = OurFeatures : : all ( ) ;
features . allowComments_ = settings_ [ " allowComments " ] . asBool ( ) ;
features . strictRoot_ = settings_ [ " strictRoot " ] . asBool ( ) ;
features . allowDroppedNullPlaceholders_ = settings_ [ " allowDroppedNullPlaceholders " ] . asBool ( ) ;
features . allowNumericKeys_ = settings_ [ " allowNumericKeys " ] . asBool ( ) ;
features . allowSingleQuotes_ = settings_ [ " allowSingleQuotes " ] . asBool ( ) ;
features . stackLimit_ = settings_ [ " stackLimit " ] . asInt ( ) ;
features . failIfExtra_ = settings_ [ " failIfExtra " ] . asBool ( ) ;
features . rejectDupKeys_ = settings_ [ " rejectDupKeys " ] . asBool ( ) ;
features . allowSpecialFloats_ = settings_ [ " allowSpecialFloats " ] . asBool ( ) ;
return new OurCharReader ( collectComments , features ) ;
}
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static void getValidReaderKeys ( std : : set < JSONCPP_STRING > * valid_keys )
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{
valid_keys - > clear ( ) ;
valid_keys - > insert ( " collectComments " ) ;
valid_keys - > insert ( " allowComments " ) ;
valid_keys - > insert ( " strictRoot " ) ;
valid_keys - > insert ( " allowDroppedNullPlaceholders " ) ;
valid_keys - > insert ( " allowNumericKeys " ) ;
valid_keys - > insert ( " allowSingleQuotes " ) ;
valid_keys - > insert ( " stackLimit " ) ;
valid_keys - > insert ( " failIfExtra " ) ;
valid_keys - > insert ( " rejectDupKeys " ) ;
valid_keys - > insert ( " allowSpecialFloats " ) ;
}
bool CharReaderBuilder : : validate ( Json : : Value * invalid ) const
{
Json : : Value my_invalid ;
if ( ! invalid ) invalid = & my_invalid ; // so we do not need to test for NULL
Json : : Value & inv = * invalid ;
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std : : set < JSONCPP_STRING > valid_keys ;
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getValidReaderKeys ( & valid_keys ) ;
Value : : Members keys = settings_ . getMemberNames ( ) ;
size_t n = keys . size ( ) ;
for ( size_t i = 0 ; i < n ; + + i ) {
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JSONCPP_STRING const & key = keys [ i ] ;
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if ( valid_keys . find ( key ) = = valid_keys . end ( ) ) {
inv [ key ] = settings_ [ key ] ;
}
}
return 0u = = inv . size ( ) ;
}
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Value & CharReaderBuilder : : operator [ ] ( JSONCPP_STRING key )
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{
return settings_ [ key ] ;
}
// static
void CharReaderBuilder : : strictMode ( Json : : Value * settings )
{
//! [CharReaderBuilderStrictMode]
( * settings ) [ " allowComments " ] = false ;
( * settings ) [ " strictRoot " ] = true ;
( * settings ) [ " allowDroppedNullPlaceholders " ] = false ;
( * settings ) [ " allowNumericKeys " ] = false ;
( * settings ) [ " allowSingleQuotes " ] = false ;
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( * settings ) [ " stackLimit " ] = 1000 ;
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( * settings ) [ " failIfExtra " ] = true ;
( * settings ) [ " rejectDupKeys " ] = true ;
( * settings ) [ " allowSpecialFloats " ] = false ;
//! [CharReaderBuilderStrictMode]
}
// static
void CharReaderBuilder : : setDefaults ( Json : : Value * settings )
{
//! [CharReaderBuilderDefaults]
( * settings ) [ " collectComments " ] = true ;
( * settings ) [ " allowComments " ] = true ;
( * settings ) [ " strictRoot " ] = false ;
( * settings ) [ " allowDroppedNullPlaceholders " ] = false ;
( * settings ) [ " allowNumericKeys " ] = false ;
( * settings ) [ " allowSingleQuotes " ] = false ;
( * settings ) [ " stackLimit " ] = 1000 ;
( * settings ) [ " failIfExtra " ] = false ;
( * settings ) [ " rejectDupKeys " ] = false ;
( * settings ) [ " allowSpecialFloats " ] = false ;
//! [CharReaderBuilderDefaults]
}
//////////////////////////////////
// global functions
bool parseFromStream (
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CharReader : : Factory const & fact , JSONCPP_ISTREAM & sin ,
Value * root , JSONCPP_STRING * errs )
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{
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JSONCPP_OSTRINGSTREAM ssin ;
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ssin < < sin . rdbuf ( ) ;
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JSONCPP_STRING doc = ssin . str ( ) ;
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char const * begin = doc . data ( ) ;
char const * end = begin + doc . size ( ) ;
// Note that we do not actually need a null-terminator.
CharReaderPtr const reader ( fact . newCharReader ( ) ) ;
return reader - > parse ( begin , end , root , errs ) ;
}
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JSONCPP_ISTREAM & operator > > ( JSONCPP_ISTREAM & sin , Value & root ) {
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CharReaderBuilder b ;
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JSONCPP_STRING errs ;
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bool ok = parseFromStream ( b , sin , & root , & errs ) ;
if ( ! ok ) {
fprintf ( stderr ,
" Error from reader: %s " ,
errs . c_str ( ) ) ;
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throwRuntimeError ( errs ) ;
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}
return sin ;
}
} // namespace Json
// //////////////////////////////////////////////////////////////////////
// End of content of file: src/lib_json/json_reader.cpp
// //////////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////////
// Beginning of content of file: src/lib_json/json_valueiterator.inl
// //////////////////////////////////////////////////////////////////////
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// Copyright 2007-2010 Baptiste Lepilleur and The JsonCpp Authors
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// Distributed under MIT license, or public domain if desired and
// recognized in your jurisdiction.
// See file LICENSE for detail or copy at http://jsoncpp.sourceforge.net/LICENSE
// included by json_value.cpp
namespace Json {
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// class ValueIteratorBase
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
ValueIteratorBase : : ValueIteratorBase ( )
: current_ ( ) , isNull_ ( true ) {
}
ValueIteratorBase : : ValueIteratorBase (
const Value : : ObjectValues : : iterator & current )
: current_ ( current ) , isNull_ ( false ) { }
Value & ValueIteratorBase : : deref ( ) const {
return current_ - > second ;
}
void ValueIteratorBase : : increment ( ) {
+ + current_ ;
}
void ValueIteratorBase : : decrement ( ) {
- - current_ ;
}
ValueIteratorBase : : difference_type
ValueIteratorBase : : computeDistance ( const SelfType & other ) const {
# ifdef JSON_USE_CPPTL_SMALLMAP
return other . current_ - current_ ;
# else
// Iterator for null value are initialized using the default
// constructor, which initialize current_ to the default
// std::map::iterator. As begin() and end() are two instance
// of the default std::map::iterator, they can not be compared.
// To allow this, we handle this comparison specifically.
if ( isNull_ & & other . isNull_ ) {
return 0 ;
}
// Usage of std::distance is not portable (does not compile with Sun Studio 12
// RogueWave STL,
// which is the one used by default).
// Using a portable hand-made version for non random iterator instead:
// return difference_type( std::distance( current_, other.current_ ) );
difference_type myDistance = 0 ;
for ( Value : : ObjectValues : : iterator it = current_ ; it ! = other . current_ ;
+ + it ) {
+ + myDistance ;
}
return myDistance ;
# endif
}
bool ValueIteratorBase : : isEqual ( const SelfType & other ) const {
if ( isNull_ ) {
return other . isNull_ ;
}
return current_ = = other . current_ ;
}
void ValueIteratorBase : : copy ( const SelfType & other ) {
current_ = other . current_ ;
isNull_ = other . isNull_ ;
}
Value ValueIteratorBase : : key ( ) const {
const Value : : CZString czstring = ( * current_ ) . first ;
if ( czstring . data ( ) ) {
if ( czstring . isStaticString ( ) )
return Value ( StaticString ( czstring . data ( ) ) ) ;
return Value ( czstring . data ( ) , czstring . data ( ) + czstring . length ( ) ) ;
}
return Value ( czstring . index ( ) ) ;
}
UInt ValueIteratorBase : : index ( ) const {
const Value : : CZString czstring = ( * current_ ) . first ;
if ( ! czstring . data ( ) )
return czstring . index ( ) ;
return Value : : UInt ( - 1 ) ;
}
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JSONCPP_STRING ValueIteratorBase : : name ( ) const {
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char const * keey ;
char const * end ;
keey = memberName ( & end ) ;
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if ( ! keey ) return JSONCPP_STRING ( ) ;
return JSONCPP_STRING ( keey , end ) ;
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}
char const * ValueIteratorBase : : memberName ( ) const {
const char * cname = ( * current_ ) . first . data ( ) ;
return cname ? cname : " " ;
}
char const * ValueIteratorBase : : memberName ( char const * * end ) const {
const char * cname = ( * current_ ) . first . data ( ) ;
if ( ! cname ) {
* end = NULL ;
return NULL ;
}
* end = cname + ( * current_ ) . first . length ( ) ;
return cname ;
}
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// class ValueConstIterator
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
ValueConstIterator : : ValueConstIterator ( ) { }
ValueConstIterator : : ValueConstIterator (
const Value : : ObjectValues : : iterator & current )
: ValueIteratorBase ( current ) { }
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ValueConstIterator : : ValueConstIterator ( ValueIterator const & other )
: ValueIteratorBase ( other ) { }
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ValueConstIterator & ValueConstIterator : :
operator = ( const ValueIteratorBase & other ) {
copy ( other ) ;
return * this ;
}
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// class ValueIterator
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
ValueIterator : : ValueIterator ( ) { }
ValueIterator : : ValueIterator ( const Value : : ObjectValues : : iterator & current )
: ValueIteratorBase ( current ) { }
ValueIterator : : ValueIterator ( const ValueConstIterator & other )
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: ValueIteratorBase ( other ) {
throwRuntimeError ( " ConstIterator to Iterator should never be allowed. " ) ;
}
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ValueIterator : : ValueIterator ( const ValueIterator & other )
: ValueIteratorBase ( other ) { }
ValueIterator & ValueIterator : : operator = ( const SelfType & other ) {
copy ( other ) ;
return * this ;
}
} // namespace Json
// //////////////////////////////////////////////////////////////////////
// End of content of file: src/lib_json/json_valueiterator.inl
// //////////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////////
// Beginning of content of file: src/lib_json/json_value.cpp
// //////////////////////////////////////////////////////////////////////
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// Copyright 2011 Baptiste Lepilleur and The JsonCpp Authors
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// Distributed under MIT license, or public domain if desired and
// recognized in your jurisdiction.
// See file LICENSE for detail or copy at http://jsoncpp.sourceforge.net/LICENSE
# if !defined(JSON_IS_AMALGAMATION)
# include <json/assertions.h>
# include <json/value.h>
# include <json/writer.h>
# endif // if !defined(JSON_IS_AMALGAMATION)
# include <math.h>
# include <sstream>
# include <utility>
# include <cstring>
# include <cassert>
# ifdef JSON_USE_CPPTL
# include <cpptl/conststring.h>
# endif
# include <cstddef> // size_t
# include <algorithm> // min()
# define JSON_ASSERT_UNREACHABLE assert(false)
namespace Json {
// This is a walkaround to avoid the static initialization of Value::null.
// kNull must be word-aligned to avoid crashing on ARM. We use an alignment of
// 8 (instead of 4) as a bit of future-proofing.
# if defined(__ARMEL__)
# define ALIGNAS(byte_alignment) __attribute__((aligned(byte_alignment)))
# else
# define ALIGNAS(byte_alignment)
# endif
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//static const unsigned char ALIGNAS(8) kNull[sizeof(Value)] = { 0 };
//const unsigned char& kNullRef = kNull[0];
//const Value& Value::null = reinterpret_cast<const Value&>(kNullRef);
//const Value& Value::nullRef = null;
// static
Value const & Value : : nullSingleton ( )
{
static Value const nullStatic ;
return nullStatic ;
}
// for backwards compatibility, we'll leave these global references around, but DO NOT
// use them in JSONCPP library code any more!
Value const & Value : : null = Value : : nullSingleton ( ) ;
Value const & Value : : nullRef = Value : : nullSingleton ( ) ;
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const Int Value : : minInt = Int ( ~ ( UInt ( - 1 ) / 2 ) ) ;
const Int Value : : maxInt = Int ( UInt ( - 1 ) / 2 ) ;
const UInt Value : : maxUInt = UInt ( - 1 ) ;
# if defined(JSON_HAS_INT64)
const Int64 Value : : minInt64 = Int64 ( ~ ( UInt64 ( - 1 ) / 2 ) ) ;
const Int64 Value : : maxInt64 = Int64 ( UInt64 ( - 1 ) / 2 ) ;
const UInt64 Value : : maxUInt64 = UInt64 ( - 1 ) ;
// The constant is hard-coded because some compiler have trouble
// converting Value::maxUInt64 to a double correctly (AIX/xlC).
// Assumes that UInt64 is a 64 bits integer.
static const double maxUInt64AsDouble = 18446744073709551615.0 ;
# endif // defined(JSON_HAS_INT64)
const LargestInt Value : : minLargestInt = LargestInt ( ~ ( LargestUInt ( - 1 ) / 2 ) ) ;
const LargestInt Value : : maxLargestInt = LargestInt ( LargestUInt ( - 1 ) / 2 ) ;
const LargestUInt Value : : maxLargestUInt = LargestUInt ( - 1 ) ;
# if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
template < typename T , typename U >
static inline bool InRange ( double d , T min , U max ) {
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// The casts can lose precision, but we are looking only for
// an approximate range. Might fail on edge cases though. ~cdunn
//return d >= static_cast<double>(min) && d <= static_cast<double>(max);
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return d > = min & & d < = max ;
}
# else // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
static inline double integerToDouble ( Json : : UInt64 value ) {
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return static_cast < double > ( Int64 ( value / 2 ) ) * 2.0 + static_cast < double > ( Int64 ( value & 1 ) ) ;
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}
template < typename T > static inline double integerToDouble ( T value ) {
return static_cast < double > ( value ) ;
}
template < typename T , typename U >
static inline bool InRange ( double d , T min , U max ) {
return d > = integerToDouble ( min ) & & d < = integerToDouble ( max ) ;
}
# endif // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
/** Duplicates the specified string value.
* @ param value Pointer to the string to duplicate . Must be zero - terminated if
* length is " unknown " .
* @ param length Length of the value . if equals to unknown , then it will be
* computed using strlen ( value ) .
* @ return Pointer on the duplicate instance of string .
*/
static inline char * duplicateStringValue ( const char * value ,
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size_t length )
{
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// Avoid an integer overflow in the call to malloc below by limiting length
// to a sane value.
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if ( length > = static_cast < size_t > ( Value : : maxInt ) )
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length = Value : : maxInt - 1 ;
char * newString = static_cast < char * > ( malloc ( length + 1 ) ) ;
if ( newString = = NULL ) {
throwRuntimeError (
" in Json::Value::duplicateStringValue(): "
" Failed to allocate string value buffer " ) ;
}
memcpy ( newString , value , length ) ;
newString [ length ] = 0 ;
return newString ;
}
/* Record the length as a prefix.
*/
static inline char * duplicateAndPrefixStringValue (
const char * value ,
unsigned int length )
{
// Avoid an integer overflow in the call to malloc below by limiting length
// to a sane value.
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JSON_ASSERT_MESSAGE ( length < = static_cast < unsigned > ( Value : : maxInt ) - sizeof ( unsigned ) - 1U ,
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" in Json::Value::duplicateAndPrefixStringValue(): "
" length too big for prefixing " ) ;
unsigned actualLength = length + static_cast < unsigned > ( sizeof ( unsigned ) ) + 1U ;
char * newString = static_cast < char * > ( malloc ( actualLength ) ) ;
if ( newString = = 0 ) {
throwRuntimeError (
" in Json::Value::duplicateAndPrefixStringValue(): "
" Failed to allocate string value buffer " ) ;
}
* reinterpret_cast < unsigned * > ( newString ) = length ;
memcpy ( newString + sizeof ( unsigned ) , value , length ) ;
newString [ actualLength - 1U ] = 0 ; // to avoid buffer over-run accidents by users later
return newString ;
}
inline static void decodePrefixedString (
bool isPrefixed , char const * prefixed ,
unsigned * length , char const * * value )
{
if ( ! isPrefixed ) {
* length = static_cast < unsigned > ( strlen ( prefixed ) ) ;
* value = prefixed ;
} else {
* length = * reinterpret_cast < unsigned const * > ( prefixed ) ;
* value = prefixed + sizeof ( unsigned ) ;
}
}
/** Free the string duplicated by duplicateStringValue()/duplicateAndPrefixStringValue().
*/
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# if JSONCPP_USING_SECURE_MEMORY
static inline void releasePrefixedStringValue ( char * value ) {
unsigned length = 0 ;
char const * valueDecoded ;
decodePrefixedString ( true , value , & length , & valueDecoded ) ;
size_t const size = sizeof ( unsigned ) + length + 1U ;
memset ( value , 0 , size ) ;
free ( value ) ;
}
static inline void releaseStringValue ( char * value , unsigned length ) {
// length==0 => we allocated the strings memory
size_t size = ( length = = 0 ) ? strlen ( value ) : length ;
memset ( value , 0 , size ) ;
free ( value ) ;
}
# else // !JSONCPP_USING_SECURE_MEMORY
static inline void releasePrefixedStringValue ( char * value ) {
free ( value ) ;
}
static inline void releaseStringValue ( char * value , unsigned ) {
free ( value ) ;
}
# endif // JSONCPP_USING_SECURE_MEMORY
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} // namespace Json
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// ValueInternals...
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
# if !defined(JSON_IS_AMALGAMATION)
# include "json_valueiterator.inl"
# endif // if !defined(JSON_IS_AMALGAMATION)
namespace Json {
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Exception : : Exception ( JSONCPP_STRING const & msg )
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: msg_ ( msg )
{ }
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Exception : : ~ Exception ( ) JSONCPP_NOEXCEPT
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{ }
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char const * Exception : : what ( ) const JSONCPP_NOEXCEPT
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{
return msg_ . c_str ( ) ;
}
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RuntimeError : : RuntimeError ( JSONCPP_STRING const & msg )
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: Exception ( msg )
{ }
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LogicError : : LogicError ( JSONCPP_STRING const & msg )
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: Exception ( msg )
{ }
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JSONCPP_NORETURN void throwRuntimeError ( JSONCPP_STRING const & msg )
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{
throw RuntimeError ( msg ) ;
}
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JSONCPP_NORETURN void throwLogicError ( JSONCPP_STRING const & msg )
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{
throw LogicError ( msg ) ;
}
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// class Value::CommentInfo
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
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Value : : CommentInfo : : CommentInfo ( ) : comment_ ( 0 )
{ }
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Value : : CommentInfo : : ~ CommentInfo ( ) {
if ( comment_ )
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releaseStringValue ( comment_ , 0u ) ;
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}
void Value : : CommentInfo : : setComment ( const char * text , size_t len ) {
if ( comment_ ) {
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releaseStringValue ( comment_ , 0u ) ;
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comment_ = 0 ;
}
JSON_ASSERT ( text ! = 0 ) ;
JSON_ASSERT_MESSAGE (
text [ 0 ] = = ' \0 ' | | text [ 0 ] = = ' / ' ,
" in Json::Value::setComment(): Comments must start with / " ) ;
// It seems that /**/ style comments are acceptable as well.
comment_ = duplicateStringValue ( text , len ) ;
}
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// class Value::CZString
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// Notes: policy_ indicates if the string was allocated when
// a string is stored.
Value : : CZString : : CZString ( ArrayIndex aindex ) : cstr_ ( 0 ) , index_ ( aindex ) { }
Value : : CZString : : CZString ( char const * str , unsigned ulength , DuplicationPolicy allocate )
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: cstr_ ( str ) {
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// allocate != duplicate
storage_ . policy_ = allocate & 0x3 ;
storage_ . length_ = ulength & 0x3FFFFFFF ;
}
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Value : : CZString : : CZString ( const CZString & other ) {
cstr_ = ( other . storage_ . policy_ ! = noDuplication & & other . cstr_ ! = 0
? duplicateStringValue ( other . cstr_ , other . storage_ . length_ )
: other . cstr_ ) ;
storage_ . policy_ = static_cast < unsigned > ( other . cstr_
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? ( static_cast < DuplicationPolicy > ( other . storage_ . policy_ ) = = noDuplication
? noDuplication : duplicate )
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: static_cast < DuplicationPolicy > ( other . storage_ . policy_ ) ) & 3U ;
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storage_ . length_ = other . storage_ . length_ ;
}
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# if JSON_HAS_RVALUE_REFERENCES
Value : : CZString : : CZString ( CZString & & other )
: cstr_ ( other . cstr_ ) , index_ ( other . index_ ) {
other . cstr_ = nullptr ;
}
# endif
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Value : : CZString : : ~ CZString ( ) {
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if ( cstr_ & & storage_ . policy_ = = duplicate ) {
releaseStringValue ( const_cast < char * > ( cstr_ ) , storage_ . length_ + 1u ) ; //+1 for null terminating character for sake of completeness but not actually necessary
}
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}
void Value : : CZString : : swap ( CZString & other ) {
std : : swap ( cstr_ , other . cstr_ ) ;
std : : swap ( index_ , other . index_ ) ;
}
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Value : : CZString & Value : : CZString : : operator = ( const CZString & other ) {
cstr_ = other . cstr_ ;
index_ = other . index_ ;
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return * this ;
}
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# if JSON_HAS_RVALUE_REFERENCES
Value : : CZString & Value : : CZString : : operator = ( CZString & & other ) {
cstr_ = other . cstr_ ;
index_ = other . index_ ;
other . cstr_ = nullptr ;
return * this ;
}
# endif
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bool Value : : CZString : : operator < ( const CZString & other ) const {
if ( ! cstr_ ) return index_ < other . index_ ;
//return strcmp(cstr_, other.cstr_) < 0;
// Assume both are strings.
unsigned this_len = this - > storage_ . length_ ;
unsigned other_len = other . storage_ . length_ ;
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unsigned min_len = std : : min < unsigned > ( this_len , other_len ) ;
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JSON_ASSERT ( this - > cstr_ & & other . cstr_ ) ;
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int comp = memcmp ( this - > cstr_ , other . cstr_ , min_len ) ;
if ( comp < 0 ) return true ;
if ( comp > 0 ) return false ;
return ( this_len < other_len ) ;
}
bool Value : : CZString : : operator = = ( const CZString & other ) const {
if ( ! cstr_ ) return index_ = = other . index_ ;
//return strcmp(cstr_, other.cstr_) == 0;
// Assume both are strings.
unsigned this_len = this - > storage_ . length_ ;
unsigned other_len = other . storage_ . length_ ;
if ( this_len ! = other_len ) return false ;
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JSON_ASSERT ( this - > cstr_ & & other . cstr_ ) ;
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int comp = memcmp ( this - > cstr_ , other . cstr_ , this_len ) ;
return comp = = 0 ;
}
ArrayIndex Value : : CZString : : index ( ) const { return index_ ; }
//const char* Value::CZString::c_str() const { return cstr_; }
const char * Value : : CZString : : data ( ) const { return cstr_ ; }
unsigned Value : : CZString : : length ( ) const { return storage_ . length_ ; }
bool Value : : CZString : : isStaticString ( ) const { return storage_ . policy_ = = noDuplication ; }
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// class Value::Value
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////
/*! \internal Default constructor initialization must be equivalent to:
* memset ( this , 0 , sizeof ( Value ) )
* This optimization is used in ValueInternalMap fast allocator .
*/
Value : : Value ( ValueType vtype ) {
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static char const emptyString [ ] = " " ;
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initBasic ( vtype ) ;
switch ( vtype ) {
case nullValue :
break ;
case intValue :
case uintValue :
value_ . int_ = 0 ;
break ;
case realValue :
value_ . real_ = 0.0 ;
break ;
case stringValue :
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// allocated_ == false, so this is safe.
value_ . string_ = const_cast < char * > ( static_cast < char const * > ( emptyString ) ) ;
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break ;
case arrayValue :
case objectValue :
value_ . map_ = new ObjectValues ( ) ;
break ;
case booleanValue :
value_ . bool_ = false ;
break ;
default :
JSON_ASSERT_UNREACHABLE ;
}
}
Value : : Value ( Int value ) {
initBasic ( intValue ) ;
value_ . int_ = value ;
}
Value : : Value ( UInt value ) {
initBasic ( uintValue ) ;
value_ . uint_ = value ;
}
# if defined(JSON_HAS_INT64)
Value : : Value ( Int64 value ) {
initBasic ( intValue ) ;
value_ . int_ = value ;
}
Value : : Value ( UInt64 value ) {
initBasic ( uintValue ) ;
value_ . uint_ = value ;
}
# endif // defined(JSON_HAS_INT64)
Value : : Value ( double value ) {
initBasic ( realValue ) ;
value_ . real_ = value ;
}
Value : : Value ( const char * value ) {
initBasic ( stringValue , true ) ;
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JSON_ASSERT_MESSAGE ( value ! = NULL , " Null Value Passed to Value Constructor " ) ;
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value_ . string_ = duplicateAndPrefixStringValue ( value , static_cast < unsigned > ( strlen ( value ) ) ) ;
}
Value : : Value ( const char * beginValue , const char * endValue ) {
initBasic ( stringValue , true ) ;
value_ . string_ =
duplicateAndPrefixStringValue ( beginValue , static_cast < unsigned > ( endValue - beginValue ) ) ;
}
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Value : : Value ( const JSONCPP_STRING & value ) {
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initBasic ( stringValue , true ) ;
value_ . string_ =
duplicateAndPrefixStringValue ( value . data ( ) , static_cast < unsigned > ( value . length ( ) ) ) ;
}
Value : : Value ( const StaticString & value ) {
initBasic ( stringValue ) ;
value_ . string_ = const_cast < char * > ( value . c_str ( ) ) ;
}
# ifdef JSON_USE_CPPTL
Value : : Value ( const CppTL : : ConstString & value ) {
initBasic ( stringValue , true ) ;
value_ . string_ = duplicateAndPrefixStringValue ( value , static_cast < unsigned > ( value . length ( ) ) ) ;
}
# endif
Value : : Value ( bool value ) {
initBasic ( booleanValue ) ;
value_ . bool_ = value ;
}
Value : : Value ( Value const & other )
: type_ ( other . type_ ) , allocated_ ( false )
,
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comments_ ( 0 ) , start_ ( other . start_ ) , limit_ ( other . limit_ )
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{
switch ( type_ ) {
case nullValue :
case intValue :
case uintValue :
case realValue :
case booleanValue :
value_ = other . value_ ;
break ;
case stringValue :
if ( other . value_ . string_ & & other . allocated_ ) {
unsigned len ;
char const * str ;
decodePrefixedString ( other . allocated_ , other . value_ . string_ ,
& len , & str ) ;
value_ . string_ = duplicateAndPrefixStringValue ( str , len ) ;
allocated_ = true ;
} else {
value_ . string_ = other . value_ . string_ ;
allocated_ = false ;
}
break ;
case arrayValue :
case objectValue :
value_ . map_ = new ObjectValues ( * other . value_ . map_ ) ;
break ;
default :
JSON_ASSERT_UNREACHABLE ;
}
if ( other . comments_ ) {
comments_ = new CommentInfo [ numberOfCommentPlacement ] ;
for ( int comment = 0 ; comment < numberOfCommentPlacement ; + + comment ) {
const CommentInfo & otherComment = other . comments_ [ comment ] ;
if ( otherComment . comment_ )
comments_ [ comment ] . setComment (
otherComment . comment_ , strlen ( otherComment . comment_ ) ) ;
}
}
}
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# if JSON_HAS_RVALUE_REFERENCES
// Move constructor
Value : : Value ( Value & & other ) {
initBasic ( nullValue ) ;
swap ( other ) ;
}
# endif
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Value : : ~ Value ( ) {
switch ( type_ ) {
case nullValue :
case intValue :
case uintValue :
case realValue :
case booleanValue :
break ;
case stringValue :
if ( allocated_ )
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releasePrefixedStringValue ( value_ . string_ ) ;
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break ;
case arrayValue :
case objectValue :
delete value_ . map_ ;
break ;
default :
JSON_ASSERT_UNREACHABLE ;
}
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delete [ ] comments_ ;
value_ . uint_ = 0 ;
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}
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Value & Value : : operator = ( Value other ) {
swap ( other ) ;
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return * this ;
}
void Value : : swapPayload ( Value & other ) {
ValueType temp = type_ ;
type_ = other . type_ ;
other . type_ = temp ;
std : : swap ( value_ , other . value_ ) ;
int temp2 = allocated_ ;
allocated_ = other . allocated_ ;
other . allocated_ = temp2 & 0x1 ;
}
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void Value : : copyPayload ( const Value & other ) {
type_ = other . type_ ;
value_ = other . value_ ;
allocated_ = other . allocated_ ;
}
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void Value : : swap ( Value & other ) {
swapPayload ( other ) ;
std : : swap ( comments_ , other . comments_ ) ;
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std : : swap ( start_ , other . start_ ) ;
std : : swap ( limit_ , other . limit_ ) ;
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}
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void Value : : copy ( const Value & other ) {
copyPayload ( other ) ;
comments_ = other . comments_ ;
start_ = other . start_ ;
limit_ = other . limit_ ;
}
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ValueType Value : : type ( ) const { return type_ ; }
int Value : : compare ( const Value & other ) const {
if ( * this < other )
return - 1 ;
if ( * this > other )
return 1 ;
return 0 ;
}
bool Value : : operator < ( const Value & other ) const {
int typeDelta = type_ - other . type_ ;
if ( typeDelta )
return typeDelta < 0 ? true : false ;
switch ( type_ ) {
case nullValue :
return false ;
case intValue :
return value_ . int_ < other . value_ . int_ ;
case uintValue :
return value_ . uint_ < other . value_ . uint_ ;
case realValue :
return value_ . real_ < other . value_ . real_ ;
case booleanValue :
return value_ . bool_ < other . value_ . bool_ ;
case stringValue :
{
if ( ( value_ . string_ = = 0 ) | | ( other . value_ . string_ = = 0 ) ) {
if ( other . value_ . string_ ) return true ;
else return false ;
}
unsigned this_len ;
unsigned other_len ;
char const * this_str ;
char const * other_str ;
decodePrefixedString ( this - > allocated_ , this - > value_ . string_ , & this_len , & this_str ) ;
decodePrefixedString ( other . allocated_ , other . value_ . string_ , & other_len , & other_str ) ;
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unsigned min_len = std : : min < unsigned > ( this_len , other_len ) ;
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JSON_ASSERT ( this_str & & other_str ) ;
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int comp = memcmp ( this_str , other_str , min_len ) ;
if ( comp < 0 ) return true ;
if ( comp > 0 ) return false ;
return ( this_len < other_len ) ;
}
case arrayValue :
case objectValue : {
int delta = int ( value_ . map_ - > size ( ) - other . value_ . map_ - > size ( ) ) ;
if ( delta )
return delta < 0 ;
return ( * value_ . map_ ) < ( * other . value_ . map_ ) ;
}
default :
JSON_ASSERT_UNREACHABLE ;
}
return false ; // unreachable
}
bool Value : : operator < = ( const Value & other ) const { return ! ( other < * this ) ; }
bool Value : : operator > = ( const Value & other ) const { return ! ( * this < other ) ; }
bool Value : : operator > ( const Value & other ) const { return other < * this ; }
bool Value : : operator = = ( const Value & other ) const {
// if ( type_ != other.type_ )
// GCC 2.95.3 says:
// attempt to take address of bit-field structure member `Json::Value::type_'
// Beats me, but a temp solves the problem.
int temp = other . type_ ;
if ( type_ ! = temp )
return false ;
switch ( type_ ) {
case nullValue :
return true ;
case intValue :
return value_ . int_ = = other . value_ . int_ ;
case uintValue :
return value_ . uint_ = = other . value_ . uint_ ;
case realValue :
return value_ . real_ = = other . value_ . real_ ;
case booleanValue :
return value_ . bool_ = = other . value_ . bool_ ;
case stringValue :
{
if ( ( value_ . string_ = = 0 ) | | ( other . value_ . string_ = = 0 ) ) {
return ( value_ . string_ = = other . value_ . string_ ) ;
}
unsigned this_len ;
unsigned other_len ;
char const * this_str ;
char const * other_str ;
decodePrefixedString ( this - > allocated_ , this - > value_ . string_ , & this_len , & this_str ) ;
decodePrefixedString ( other . allocated_ , other . value_ . string_ , & other_len , & other_str ) ;
if ( this_len ! = other_len ) return false ;
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JSON_ASSERT ( this_str & & other_str ) ;
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int comp = memcmp ( this_str , other_str , this_len ) ;
return comp = = 0 ;
}
case arrayValue :
case objectValue :
return value_ . map_ - > size ( ) = = other . value_ . map_ - > size ( ) & &
( * value_ . map_ ) = = ( * other . value_ . map_ ) ;
default :
JSON_ASSERT_UNREACHABLE ;
}
return false ; // unreachable
}
bool Value : : operator ! = ( const Value & other ) const { return ! ( * this = = other ) ; }
const char * Value : : asCString ( ) const {
JSON_ASSERT_MESSAGE ( type_ = = stringValue ,
" in Json::Value::asCString(): requires stringValue " ) ;
if ( value_ . string_ = = 0 ) return 0 ;
unsigned this_len ;
char const * this_str ;
decodePrefixedString ( this - > allocated_ , this - > value_ . string_ , & this_len , & this_str ) ;
return this_str ;
}
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# if JSONCPP_USING_SECURE_MEMORY
unsigned Value : : getCStringLength ( ) const {
JSON_ASSERT_MESSAGE ( type_ = = stringValue ,
" in Json::Value::asCString(): requires stringValue " ) ;
if ( value_ . string_ = = 0 ) return 0 ;
unsigned this_len ;
char const * this_str ;
decodePrefixedString ( this - > allocated_ , this - > value_ . string_ , & this_len , & this_str ) ;
return this_len ;
}
# endif
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bool Value : : getString ( char const * * str , char const * * cend ) const {
if ( type_ ! = stringValue ) return false ;
if ( value_ . string_ = = 0 ) return false ;
unsigned length ;
decodePrefixedString ( this - > allocated_ , this - > value_ . string_ , & length , str ) ;
* cend = * str + length ;
return true ;
}
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JSONCPP_STRING Value : : asString ( ) const {
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switch ( type_ ) {
case nullValue :
return " " ;
case stringValue :
{
if ( value_ . string_ = = 0 ) return " " ;
unsigned this_len ;
char const * this_str ;
decodePrefixedString ( this - > allocated_ , this - > value_ . string_ , & this_len , & this_str ) ;
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return JSONCPP_STRING ( this_str , this_len ) ;
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}
case booleanValue :
return value_ . bool_ ? " true " : " false " ;
case intValue :
return valueToString ( value_ . int_ ) ;
case uintValue :
return valueToString ( value_ . uint_ ) ;
case realValue :
return valueToString ( value_ . real_ ) ;
default :
JSON_FAIL_MESSAGE ( " Type is not convertible to string " ) ;
}
}
# ifdef JSON_USE_CPPTL
CppTL : : ConstString Value : : asConstString ( ) const {
unsigned len ;
char const * str ;
decodePrefixedString ( allocated_ , value_ . string_ ,
& len , & str ) ;
return CppTL : : ConstString ( str , len ) ;
}
# endif
Value : : Int Value : : asInt ( ) const {
switch ( type_ ) {
case intValue :
JSON_ASSERT_MESSAGE ( isInt ( ) , " LargestInt out of Int range " ) ;
return Int ( value_ . int_ ) ;
case uintValue :
JSON_ASSERT_MESSAGE ( isInt ( ) , " LargestUInt out of Int range " ) ;
return Int ( value_ . uint_ ) ;
case realValue :
JSON_ASSERT_MESSAGE ( InRange ( value_ . real_ , minInt , maxInt ) ,
" double out of Int range " ) ;
return Int ( value_ . real_ ) ;
case nullValue :
return 0 ;
case booleanValue :
return value_ . bool_ ? 1 : 0 ;
default :
break ;
}
JSON_FAIL_MESSAGE ( " Value is not convertible to Int. " ) ;
}
Value : : UInt Value : : asUInt ( ) const {
switch ( type_ ) {
case intValue :
JSON_ASSERT_MESSAGE ( isUInt ( ) , " LargestInt out of UInt range " ) ;
return UInt ( value_ . int_ ) ;
case uintValue :
JSON_ASSERT_MESSAGE ( isUInt ( ) , " LargestUInt out of UInt range " ) ;
return UInt ( value_ . uint_ ) ;
case realValue :
JSON_ASSERT_MESSAGE ( InRange ( value_ . real_ , 0 , maxUInt ) ,
" double out of UInt range " ) ;
return UInt ( value_ . real_ ) ;
case nullValue :
return 0 ;
case booleanValue :
return value_ . bool_ ? 1 : 0 ;
default :
break ;
}
JSON_FAIL_MESSAGE ( " Value is not convertible to UInt. " ) ;
}
# if defined(JSON_HAS_INT64)
Value : : Int64 Value : : asInt64 ( ) const {
switch ( type_ ) {
case intValue :
return Int64 ( value_ . int_ ) ;
case uintValue :
JSON_ASSERT_MESSAGE ( isInt64 ( ) , " LargestUInt out of Int64 range " ) ;
return Int64 ( value_ . uint_ ) ;
case realValue :
JSON_ASSERT_MESSAGE ( InRange ( value_ . real_ , minInt64 , maxInt64 ) ,
" double out of Int64 range " ) ;
return Int64 ( value_ . real_ ) ;
case nullValue :
return 0 ;
case booleanValue :
return value_ . bool_ ? 1 : 0 ;
default :
break ;
}
JSON_FAIL_MESSAGE ( " Value is not convertible to Int64. " ) ;
}
Value : : UInt64 Value : : asUInt64 ( ) const {
switch ( type_ ) {
case intValue :
JSON_ASSERT_MESSAGE ( isUInt64 ( ) , " LargestInt out of UInt64 range " ) ;
return UInt64 ( value_ . int_ ) ;
case uintValue :
return UInt64 ( value_ . uint_ ) ;
case realValue :
JSON_ASSERT_MESSAGE ( InRange ( value_ . real_ , 0 , maxUInt64 ) ,
" double out of UInt64 range " ) ;
return UInt64 ( value_ . real_ ) ;
case nullValue :
return 0 ;
case booleanValue :
return value_ . bool_ ? 1 : 0 ;
default :
break ;
}
JSON_FAIL_MESSAGE ( " Value is not convertible to UInt64. " ) ;
}
# endif // if defined(JSON_HAS_INT64)
LargestInt Value : : asLargestInt ( ) const {
# if defined(JSON_NO_INT64)
return asInt ( ) ;
# else
return asInt64 ( ) ;
# endif
}
LargestUInt Value : : asLargestUInt ( ) const {
# if defined(JSON_NO_INT64)
return asUInt ( ) ;
# else
return asUInt64 ( ) ;
# endif
}
double Value : : asDouble ( ) const {
switch ( type_ ) {
case intValue :
return static_cast < double > ( value_ . int_ ) ;
case uintValue :
# if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
return static_cast < double > ( value_ . uint_ ) ;
# else // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
return integerToDouble ( value_ . uint_ ) ;
# endif // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
case realValue :
return value_ . real_ ;
case nullValue :
return 0.0 ;
case booleanValue :
return value_ . bool_ ? 1.0 : 0.0 ;
default :
break ;
}
JSON_FAIL_MESSAGE ( " Value is not convertible to double. " ) ;
}
float Value : : asFloat ( ) const {
switch ( type_ ) {
case intValue :
return static_cast < float > ( value_ . int_ ) ;
case uintValue :
# if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
return static_cast < float > ( value_ . uint_ ) ;
# else // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
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// This can fail (silently?) if the value is bigger than MAX_FLOAT.
return static_cast < float > ( integerToDouble ( value_ . uint_ ) ) ;
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# endif // if !defined(JSON_USE_INT64_DOUBLE_CONVERSION)
case realValue :
return static_cast < float > ( value_ . real_ ) ;
case nullValue :
return 0.0 ;
case booleanValue :
return value_ . bool_ ? 1.0f : 0.0f ;
default :
break ;
}
JSON_FAIL_MESSAGE ( " Value is not convertible to float. " ) ;
}
bool Value : : asBool ( ) const {
switch ( type_ ) {
case booleanValue :
return value_ . bool_ ;
case nullValue :
return false ;
case intValue :
return value_ . int_ ? true : false ;
case uintValue :
return value_ . uint_ ? true : false ;
case realValue :
// This is kind of strange. Not recommended.
return ( value_ . real_ ! = 0.0 ) ? true : false ;
default :
break ;
}
JSON_FAIL_MESSAGE ( " Value is not convertible to bool. " ) ;
}
bool Value : : isConvertibleTo ( ValueType other ) const {
switch ( other ) {
case nullValue :
return ( isNumeric ( ) & & asDouble ( ) = = 0.0 ) | |
( type_ = = booleanValue & & value_ . bool_ = = false ) | |
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( type_ = = stringValue & & asString ( ) . empty ( ) ) | |
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( type_ = = arrayValue & & value_ . map_ - > size ( ) = = 0 ) | |
( type_ = = objectValue & & value_ . map_ - > size ( ) = = 0 ) | |
type_ = = nullValue ;
case intValue :
return isInt ( ) | |
( type_ = = realValue & & InRange ( value_ . real_ , minInt , maxInt ) ) | |
type_ = = booleanValue | | type_ = = nullValue ;
case uintValue :
return isUInt ( ) | |
( type_ = = realValue & & InRange ( value_ . real_ , 0 , maxUInt ) ) | |
type_ = = booleanValue | | type_ = = nullValue ;
case realValue :
return isNumeric ( ) | | type_ = = booleanValue | | type_ = = nullValue ;
case booleanValue :
return isNumeric ( ) | | type_ = = booleanValue | | type_ = = nullValue ;
case stringValue :
return isNumeric ( ) | | type_ = = booleanValue | | type_ = = stringValue | |
type_ = = nullValue ;
case arrayValue :
return type_ = = arrayValue | | type_ = = nullValue ;
case objectValue :
return type_ = = objectValue | | type_ = = nullValue ;
}
JSON_ASSERT_UNREACHABLE ;
return false ;
}
/// Number of values in array or object
ArrayIndex Value : : size ( ) const {
switch ( type_ ) {
case nullValue :
case intValue :
case uintValue :
case realValue :
case booleanValue :
case stringValue :
return 0 ;
case arrayValue : // size of the array is highest index + 1
if ( ! value_ . map_ - > empty ( ) ) {
ObjectValues : : const_iterator itLast = value_ . map_ - > end ( ) ;
- - itLast ;
return ( * itLast ) . first . index ( ) + 1 ;
}
return 0 ;
case objectValue :
return ArrayIndex ( value_ . map_ - > size ( ) ) ;
}
JSON_ASSERT_UNREACHABLE ;
return 0 ; // unreachable;
}
bool Value : : empty ( ) const {
if ( isNull ( ) | | isArray ( ) | | isObject ( ) )
return size ( ) = = 0u ;
else
return false ;
}
bool Value : : operator ! ( ) const { return isNull ( ) ; }
void Value : : clear ( ) {
JSON_ASSERT_MESSAGE ( type_ = = nullValue | | type_ = = arrayValue | |
type_ = = objectValue ,
" in Json::Value::clear(): requires complex value " ) ;
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start_ = 0 ;
limit_ = 0 ;
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switch ( type_ ) {
case arrayValue :
case objectValue :
value_ . map_ - > clear ( ) ;
break ;
default :
break ;
}
}
void Value : : resize ( ArrayIndex newSize ) {
JSON_ASSERT_MESSAGE ( type_ = = nullValue | | type_ = = arrayValue ,
" in Json::Value::resize(): requires arrayValue " ) ;
if ( type_ = = nullValue )
* this = Value ( arrayValue ) ;
ArrayIndex oldSize = size ( ) ;
if ( newSize = = 0 )
clear ( ) ;
else if ( newSize > oldSize )
( * this ) [ newSize - 1 ] ;
else {
for ( ArrayIndex index = newSize ; index < oldSize ; + + index ) {
value_ . map_ - > erase ( index ) ;
}
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JSON_ASSERT ( size ( ) = = newSize ) ;
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}
}
Value & Value : : operator [ ] ( ArrayIndex index ) {
JSON_ASSERT_MESSAGE (
type_ = = nullValue | | type_ = = arrayValue ,
" in Json::Value::operator[](ArrayIndex): requires arrayValue " ) ;
if ( type_ = = nullValue )
* this = Value ( arrayValue ) ;
CZString key ( index ) ;
ObjectValues : : iterator it = value_ . map_ - > lower_bound ( key ) ;
if ( it ! = value_ . map_ - > end ( ) & & ( * it ) . first = = key )
return ( * it ) . second ;
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ObjectValues : : value_type defaultValue ( key , nullSingleton ( ) ) ;
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it = value_ . map_ - > insert ( it , defaultValue ) ;
return ( * it ) . second ;
}
Value & Value : : operator [ ] ( int index ) {
JSON_ASSERT_MESSAGE (
index > = 0 ,
" in Json::Value::operator[](int index): index cannot be negative " ) ;
return ( * this ) [ ArrayIndex ( index ) ] ;
}
const Value & Value : : operator [ ] ( ArrayIndex index ) const {
JSON_ASSERT_MESSAGE (
type_ = = nullValue | | type_ = = arrayValue ,
" in Json::Value::operator[](ArrayIndex)const: requires arrayValue " ) ;
if ( type_ = = nullValue )
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return nullSingleton ( ) ;
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CZString key ( index ) ;
ObjectValues : : const_iterator it = value_ . map_ - > find ( key ) ;
if ( it = = value_ . map_ - > end ( ) )
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return nullSingleton ( ) ;
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return ( * it ) . second ;
}
const Value & Value : : operator [ ] ( int index ) const {
JSON_ASSERT_MESSAGE (
index > = 0 ,
" in Json::Value::operator[](int index) const: index cannot be negative " ) ;
return ( * this ) [ ArrayIndex ( index ) ] ;
}
void Value : : initBasic ( ValueType vtype , bool allocated ) {
type_ = vtype ;
allocated_ = allocated ;
comments_ = 0 ;
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start_ = 0 ;
limit_ = 0 ;
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}
// Access an object value by name, create a null member if it does not exist.
// @pre Type of '*this' is object or null.
// @param key is null-terminated.
Value & Value : : resolveReference ( const char * key ) {
JSON_ASSERT_MESSAGE (
type_ = = nullValue | | type_ = = objectValue ,
" in Json::Value::resolveReference(): requires objectValue " ) ;
if ( type_ = = nullValue )
* this = Value ( objectValue ) ;
CZString actualKey (
key , static_cast < unsigned > ( strlen ( key ) ) , CZString : : noDuplication ) ; // NOTE!
ObjectValues : : iterator it = value_ . map_ - > lower_bound ( actualKey ) ;
if ( it ! = value_ . map_ - > end ( ) & & ( * it ) . first = = actualKey )
return ( * it ) . second ;
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ObjectValues : : value_type defaultValue ( actualKey , nullSingleton ( ) ) ;
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it = value_ . map_ - > insert ( it , defaultValue ) ;
Value & value = ( * it ) . second ;
return value ;
}
// @param key is not null-terminated.
Value & Value : : resolveReference ( char const * key , char const * cend )
{
JSON_ASSERT_MESSAGE (
type_ = = nullValue | | type_ = = objectValue ,
" in Json::Value::resolveReference(key, end): requires objectValue " ) ;
if ( type_ = = nullValue )
* this = Value ( objectValue ) ;
CZString actualKey (
key , static_cast < unsigned > ( cend - key ) , CZString : : duplicateOnCopy ) ;
ObjectValues : : iterator it = value_ . map_ - > lower_bound ( actualKey ) ;
if ( it ! = value_ . map_ - > end ( ) & & ( * it ) . first = = actualKey )
return ( * it ) . second ;
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ObjectValues : : value_type defaultValue ( actualKey , nullSingleton ( ) ) ;
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it = value_ . map_ - > insert ( it , defaultValue ) ;
Value & value = ( * it ) . second ;
return value ;
}
Value Value : : get ( ArrayIndex index , const Value & defaultValue ) const {
const Value * value = & ( ( * this ) [ index ] ) ;
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return value = = & nullSingleton ( ) ? defaultValue : * value ;
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}
bool Value : : isValidIndex ( ArrayIndex index ) const { return index < size ( ) ; }
Value const * Value : : find ( char const * key , char const * cend ) const
{
JSON_ASSERT_MESSAGE (
type_ = = nullValue | | type_ = = objectValue ,
" in Json::Value::find(key, end, found): requires objectValue or nullValue " ) ;
if ( type_ = = nullValue ) return NULL ;
CZString actualKey ( key , static_cast < unsigned > ( cend - key ) , CZString : : noDuplication ) ;
ObjectValues : : const_iterator it = value_ . map_ - > find ( actualKey ) ;
if ( it = = value_ . map_ - > end ( ) ) return NULL ;
return & ( * it ) . second ;
}
const Value & Value : : operator [ ] ( const char * key ) const
{
Value const * found = find ( key , key + strlen ( key ) ) ;
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if ( ! found ) return nullSingleton ( ) ;
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return * found ;
}
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Value const & Value : : operator [ ] ( JSONCPP_STRING const & key ) const
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{
Value const * found = find ( key . data ( ) , key . data ( ) + key . length ( ) ) ;
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if ( ! found ) return nullSingleton ( ) ;
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return * found ;
}
Value & Value : : operator [ ] ( const char * key ) {
return resolveReference ( key , key + strlen ( key ) ) ;
}
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Value & Value : : operator [ ] ( const JSONCPP_STRING & key ) {
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return resolveReference ( key . data ( ) , key . data ( ) + key . length ( ) ) ;
}
Value & Value : : operator [ ] ( const StaticString & key ) {
return resolveReference ( key . c_str ( ) ) ;
}
# ifdef JSON_USE_CPPTL
Value & Value : : operator [ ] ( const CppTL : : ConstString & key ) {
return resolveReference ( key . c_str ( ) , key . end_c_str ( ) ) ;
}
Value const & Value : : operator [ ] ( CppTL : : ConstString const & key ) const
{
Value const * found = find ( key . c_str ( ) , key . end_c_str ( ) ) ;
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if ( ! found ) return nullSingleton ( ) ;
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return * found ;
}
# endif
Value & Value : : append ( const Value & value ) { return ( * this ) [ size ( ) ] = value ; }
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# if JSON_HAS_RVALUE_REFERENCES
Value & Value : : append ( Value & & value ) { return ( * this ) [ size ( ) ] = value ; }
# endif
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Value Value : : get ( char const * key , char const * cend , Value const & defaultValue ) const
{
Value const * found = find ( key , cend ) ;
return ! found ? defaultValue : * found ;
}
Value Value : : get ( char const * key , Value const & defaultValue ) const
{
return get ( key , key + strlen ( key ) , defaultValue ) ;
}
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Value Value : : get ( JSONCPP_STRING const & key , Value const & defaultValue ) const
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{
return get ( key . data ( ) , key . data ( ) + key . length ( ) , defaultValue ) ;
}
bool Value : : removeMember ( const char * key , const char * cend , Value * removed )
{
if ( type_ ! = objectValue ) {
return false ;
}
CZString actualKey ( key , static_cast < unsigned > ( cend - key ) , CZString : : noDuplication ) ;
ObjectValues : : iterator it = value_ . map_ - > find ( actualKey ) ;
if ( it = = value_ . map_ - > end ( ) )
return false ;
* removed = it - > second ;
value_ . map_ - > erase ( it ) ;
return true ;
}
bool Value : : removeMember ( const char * key , Value * removed )
{
return removeMember ( key , key + strlen ( key ) , removed ) ;
}
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bool Value : : removeMember ( JSONCPP_STRING const & key , Value * removed )
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{
return removeMember ( key . data ( ) , key . data ( ) + key . length ( ) , removed ) ;
}
Value Value : : removeMember ( const char * key )
{
JSON_ASSERT_MESSAGE ( type_ = = nullValue | | type_ = = objectValue ,
" in Json::Value::removeMember(): requires objectValue " ) ;
if ( type_ = = nullValue )
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return nullSingleton ( ) ;
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Value removed ; // null
removeMember ( key , key + strlen ( key ) , & removed ) ;
return removed ; // still null if removeMember() did nothing
}
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Value Value : : removeMember ( const JSONCPP_STRING & key )
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{
return removeMember ( key . c_str ( ) ) ;
}
bool Value : : removeIndex ( ArrayIndex index , Value * removed ) {
if ( type_ ! = arrayValue ) {
return false ;
}
CZString key ( index ) ;
ObjectValues : : iterator it = value_ . map_ - > find ( key ) ;
if ( it = = value_ . map_ - > end ( ) ) {
return false ;
}
* removed = it - > second ;
ArrayIndex oldSize = size ( ) ;
// shift left all items left, into the place of the "removed"
for ( ArrayIndex i = index ; i < ( oldSize - 1 ) ; + + i ) {
CZString keey ( i ) ;
( * value_ . map_ ) [ keey ] = ( * this ) [ i + 1 ] ;
}
// erase the last one ("leftover")
CZString keyLast ( oldSize - 1 ) ;
ObjectValues : : iterator itLast = value_ . map_ - > find ( keyLast ) ;
value_ . map_ - > erase ( itLast ) ;
return true ;
}
# ifdef JSON_USE_CPPTL
Value Value : : get ( const CppTL : : ConstString & key ,
const Value & defaultValue ) const {
return get ( key . c_str ( ) , key . end_c_str ( ) , defaultValue ) ;
}
# endif
bool Value : : isMember ( char const * key , char const * cend ) const
{
Value const * value = find ( key , cend ) ;
return NULL ! = value ;
}
bool Value : : isMember ( char const * key ) const
{
return isMember ( key , key + strlen ( key ) ) ;
}
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bool Value : : isMember ( JSONCPP_STRING const & key ) const
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{
return isMember ( key . data ( ) , key . data ( ) + key . length ( ) ) ;
}
# ifdef JSON_USE_CPPTL
bool Value : : isMember ( const CppTL : : ConstString & key ) const {
return isMember ( key . c_str ( ) , key . end_c_str ( ) ) ;
}
# endif
Value : : Members Value : : getMemberNames ( ) const {
JSON_ASSERT_MESSAGE (
type_ = = nullValue | | type_ = = objectValue ,
" in Json::Value::getMemberNames(), value must be objectValue " ) ;
if ( type_ = = nullValue )
return Value : : Members ( ) ;
Members members ;
members . reserve ( value_ . map_ - > size ( ) ) ;
ObjectValues : : const_iterator it = value_ . map_ - > begin ( ) ;
ObjectValues : : const_iterator itEnd = value_ . map_ - > end ( ) ;
for ( ; it ! = itEnd ; + + it ) {
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members . push_back ( JSONCPP_STRING ( ( * it ) . first . data ( ) ,
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( * it ) . first . length ( ) ) ) ;
}
return members ;
}
//
//# ifdef JSON_USE_CPPTL
// EnumMemberNames
// Value::enumMemberNames() const
//{
// if ( type_ == objectValue )
// {
// return CppTL::Enum::any( CppTL::Enum::transform(
// CppTL::Enum::keys( *(value_.map_), CppTL::Type<const CZString &>() ),
// MemberNamesTransform() ) );
// }
// return EnumMemberNames();
//}
//
//
// EnumValues
// Value::enumValues() const
//{
// if ( type_ == objectValue || type_ == arrayValue )
// return CppTL::Enum::anyValues( *(value_.map_),
// CppTL::Type<const Value &>() );
// return EnumValues();
//}
//
//# endif
static bool IsIntegral ( double d ) {
double integral_part ;
return modf ( d , & integral_part ) = = 0.0 ;
}
bool Value : : isNull ( ) const { return type_ = = nullValue ; }
bool Value : : isBool ( ) const { return type_ = = booleanValue ; }
bool Value : : isInt ( ) const {
switch ( type_ ) {
case intValue :
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# if defined(JSON_HAS_INT64)
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return value_ . int_ > = minInt & & value_ . int_ < = maxInt ;
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# else
return true ;
# endif
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case uintValue :
return value_ . uint_ < = UInt ( maxInt ) ;
case realValue :
return value_ . real_ > = minInt & & value_ . real_ < = maxInt & &
IsIntegral ( value_ . real_ ) ;
default :
break ;
}
return false ;
}
bool Value : : isUInt ( ) const {
switch ( type_ ) {
case intValue :
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# if defined(JSON_HAS_INT64)
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return value_ . int_ > = 0 & & LargestUInt ( value_ . int_ ) < = LargestUInt ( maxUInt ) ;
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# else
return value_ . int_ > = 0 ;
# endif
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case uintValue :
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# if defined(JSON_HAS_INT64)
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return value_ . uint_ < = maxUInt ;
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# else
return true ;
# endif
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case realValue :
return value_ . real_ > = 0 & & value_ . real_ < = maxUInt & &
IsIntegral ( value_ . real_ ) ;
default :
break ;
}
return false ;
}
bool Value : : isInt64 ( ) const {
# if defined(JSON_HAS_INT64)
switch ( type_ ) {
case intValue :
return true ;
case uintValue :
return value_ . uint_ < = UInt64 ( maxInt64 ) ;
case realValue :
// Note that maxInt64 (= 2^63 - 1) is not exactly representable as a
// double, so double(maxInt64) will be rounded up to 2^63. Therefore we
// require the value to be strictly less than the limit.
return value_ . real_ > = double ( minInt64 ) & &
value_ . real_ < double ( maxInt64 ) & & IsIntegral ( value_ . real_ ) ;
default :
break ;
}
# endif // JSON_HAS_INT64
return false ;
}
bool Value : : isUInt64 ( ) const {
# if defined(JSON_HAS_INT64)
switch ( type_ ) {
case intValue :
return value_ . int_ > = 0 ;
case uintValue :
return true ;
case realValue :
// Note that maxUInt64 (= 2^64 - 1) is not exactly representable as a
// double, so double(maxUInt64) will be rounded up to 2^64. Therefore we
// require the value to be strictly less than the limit.
return value_ . real_ > = 0 & & value_ . real_ < maxUInt64AsDouble & &
IsIntegral ( value_ . real_ ) ;
default :
break ;
}
# endif // JSON_HAS_INT64
return false ;
}
bool Value : : isIntegral ( ) const {
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switch ( type_ ) {
case intValue :
case uintValue :
return true ;
case realValue :
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# if defined(JSON_HAS_INT64)
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// Note that maxUInt64 (= 2^64 - 1) is not exactly representable as a
// double, so double(maxUInt64) will be rounded up to 2^64. Therefore we
// require the value to be strictly less than the limit.
return value_ . real_ > = double ( minInt64 ) & & value_ . real_ < maxUInt64AsDouble & & IsIntegral ( value_ . real_ ) ;
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# else
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return value_ . real_ > = minInt & & value_ . real_ < = maxUInt & & IsIntegral ( value_ . real_ ) ;
# endif // JSON_HAS_INT64
default :
break ;
}
return false ;
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}
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bool Value : : isDouble ( ) const { return type_ = = intValue | | type_ = = uintValue | | type_ = = realValue ; }
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bool Value : : isNumeric ( ) const { return isDouble ( ) ; }
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bool Value : : isString ( ) const { return type_ = = stringValue ; }
bool Value : : isArray ( ) const { return type_ = = arrayValue ; }
bool Value : : isObject ( ) const { return type_ = = objectValue ; }
void Value : : setComment ( const char * comment , size_t len , CommentPlacement placement ) {
if ( ! comments_ )
comments_ = new CommentInfo [ numberOfCommentPlacement ] ;
if ( ( len > 0 ) & & ( comment [ len - 1 ] = = ' \n ' ) ) {
// Always discard trailing newline, to aid indentation.
len - = 1 ;
}
comments_ [ placement ] . setComment ( comment , len ) ;
}
void Value : : setComment ( const char * comment , CommentPlacement placement ) {
setComment ( comment , strlen ( comment ) , placement ) ;
}
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void Value : : setComment ( const JSONCPP_STRING & comment , CommentPlacement placement ) {
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setComment ( comment . c_str ( ) , comment . length ( ) , placement ) ;
}
bool Value : : hasComment ( CommentPlacement placement ) const {
return comments_ ! = 0 & & comments_ [ placement ] . comment_ ! = 0 ;
}
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JSONCPP_STRING Value : : getComment ( CommentPlacement placement ) const {
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if ( hasComment ( placement ) )
return comments_ [ placement ] . comment_ ;
return " " ;
}
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void Value : : setOffsetStart ( ptrdiff_t start ) { start_ = start ; }
void Value : : setOffsetLimit ( ptrdiff_t limit ) { limit_ = limit ; }
ptrdiff_t Value : : getOffsetStart ( ) const { return start_ ; }
ptrdiff_t Value : : getOffsetLimit ( ) const { return limit_ ; }
JSONCPP_STRING Value : : toStyledString ( ) const {
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StreamWriterBuilder builder ;
JSONCPP_STRING out = this - > hasComment ( commentBefore ) ? " \n " : " " ;
out + = Json : : writeString ( builder , * this ) ;
out + = " \n " ;
return out ;
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}
Value : : const_iterator Value : : begin ( ) const {
switch ( type_ ) {
case arrayValue :
case objectValue :
if ( value_ . map_ )
return const_iterator ( value_ . map_ - > begin ( ) ) ;
break ;
default :
break ;
}
return const_iterator ( ) ;
}
Value : : const_iterator Value : : end ( ) const {
switch ( type_ ) {
case arrayValue :
case objectValue :
if ( value_ . map_ )
return const_iterator ( value_ . map_ - > end ( ) ) ;
break ;
default :
break ;
}
return const_iterator ( ) ;
}
Value : : iterator Value : : begin ( ) {
switch ( type_ ) {
case arrayValue :
case objectValue :
if ( value_ . map_ )
return iterator ( value_ . map_ - > begin ( ) ) ;
break ;
default :
break ;
}
return iterator ( ) ;
}
Value : : iterator Value : : end ( ) {
switch ( type_ ) {
case arrayValue :
case objectValue :
if ( value_ . map_ )
return iterator ( value_ . map_ - > end ( ) ) ;
break ;
default :
break ;
}
return iterator ( ) ;
}
// class PathArgument
// //////////////////////////////////////////////////////////////////
PathArgument : : PathArgument ( ) : key_ ( ) , index_ ( ) , kind_ ( kindNone ) { }
PathArgument : : PathArgument ( ArrayIndex index )
: key_ ( ) , index_ ( index ) , kind_ ( kindIndex ) { }
PathArgument : : PathArgument ( const char * key )
: key_ ( key ) , index_ ( ) , kind_ ( kindKey ) { }
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PathArgument : : PathArgument ( const JSONCPP_STRING & key )
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: key_ ( key . c_str ( ) ) , index_ ( ) , kind_ ( kindKey ) { }
// class Path
// //////////////////////////////////////////////////////////////////
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Path : : Path ( const JSONCPP_STRING & path ,
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const PathArgument & a1 ,
const PathArgument & a2 ,
const PathArgument & a3 ,
const PathArgument & a4 ,
const PathArgument & a5 ) {
InArgs in ;
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in . reserve ( 5 ) ;
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in . push_back ( & a1 ) ;
in . push_back ( & a2 ) ;
in . push_back ( & a3 ) ;
in . push_back ( & a4 ) ;
in . push_back ( & a5 ) ;
makePath ( path , in ) ;
}
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void Path : : makePath ( const JSONCPP_STRING & path , const InArgs & in ) {
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const char * current = path . c_str ( ) ;
const char * end = current + path . length ( ) ;
InArgs : : const_iterator itInArg = in . begin ( ) ;
while ( current ! = end ) {
if ( * current = = ' [ ' ) {
+ + current ;
if ( * current = = ' % ' )
addPathInArg ( path , in , itInArg , PathArgument : : kindIndex ) ;
else {
ArrayIndex index = 0 ;
for ( ; current ! = end & & * current > = ' 0 ' & & * current < = ' 9 ' ; + + current )
index = index * 10 + ArrayIndex ( * current - ' 0 ' ) ;
args_ . push_back ( index ) ;
}
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if ( current = = end | | * + + current ! = ' ] ' )
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invalidPath ( path , int ( current - path . c_str ( ) ) ) ;
} else if ( * current = = ' % ' ) {
addPathInArg ( path , in , itInArg , PathArgument : : kindKey ) ;
+ + current ;
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} else if ( * current = = ' . ' | | * current = = ' ] ' ) {
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+ + current ;
} else {
const char * beginName = current ;
while ( current ! = end & & ! strchr ( " [. " , * current ) )
+ + current ;
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args_ . push_back ( JSONCPP_STRING ( beginName , current ) ) ;
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}
}
}
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void Path : : addPathInArg ( const JSONCPP_STRING & /*path*/ ,
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const InArgs & in ,
InArgs : : const_iterator & itInArg ,
PathArgument : : Kind kind ) {
if ( itInArg = = in . end ( ) ) {
// Error: missing argument %d
} else if ( ( * itInArg ) - > kind_ ! = kind ) {
// Error: bad argument type
} else {
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args_ . push_back ( * * itInArg + + ) ;
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}
}
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void Path : : invalidPath ( const JSONCPP_STRING & /*path*/ , int /*location*/ ) {
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// Error: invalid path.
}
const Value & Path : : resolve ( const Value & root ) const {
const Value * node = & root ;
for ( Args : : const_iterator it = args_ . begin ( ) ; it ! = args_ . end ( ) ; + + it ) {
const PathArgument & arg = * it ;
if ( arg . kind_ = = PathArgument : : kindIndex ) {
if ( ! node - > isArray ( ) | | ! node - > isValidIndex ( arg . index_ ) ) {
// Error: unable to resolve path (array value expected at position...
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return Value : : null ;
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}
node = & ( ( * node ) [ arg . index_ ] ) ;
} else if ( arg . kind_ = = PathArgument : : kindKey ) {
if ( ! node - > isObject ( ) ) {
// Error: unable to resolve path (object value expected at position...)
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return Value : : null ;
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}
node = & ( ( * node ) [ arg . key_ ] ) ;
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if ( node = = & Value : : nullSingleton ( ) ) {
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// Error: unable to resolve path (object has no member named '' at
// position...)
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return Value : : null ;
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}
}
}
return * node ;
}
Value Path : : resolve ( const Value & root , const Value & defaultValue ) const {
const Value * node = & root ;
for ( Args : : const_iterator it = args_ . begin ( ) ; it ! = args_ . end ( ) ; + + it ) {
const PathArgument & arg = * it ;
if ( arg . kind_ = = PathArgument : : kindIndex ) {
if ( ! node - > isArray ( ) | | ! node - > isValidIndex ( arg . index_ ) )
return defaultValue ;
node = & ( ( * node ) [ arg . index_ ] ) ;
} else if ( arg . kind_ = = PathArgument : : kindKey ) {
if ( ! node - > isObject ( ) )
return defaultValue ;
node = & ( ( * node ) [ arg . key_ ] ) ;
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if ( node = = & Value : : nullSingleton ( ) )
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return defaultValue ;
}
}
return * node ;
}
Value & Path : : make ( Value & root ) const {
Value * node = & root ;
for ( Args : : const_iterator it = args_ . begin ( ) ; it ! = args_ . end ( ) ; + + it ) {
const PathArgument & arg = * it ;
if ( arg . kind_ = = PathArgument : : kindIndex ) {
if ( ! node - > isArray ( ) ) {
// Error: node is not an array at position ...
}
node = & ( ( * node ) [ arg . index_ ] ) ;
} else if ( arg . kind_ = = PathArgument : : kindKey ) {
if ( ! node - > isObject ( ) ) {
// Error: node is not an object at position...
}
node = & ( ( * node ) [ arg . key_ ] ) ;
}
}
return * node ;
}
} // namespace Json
// //////////////////////////////////////////////////////////////////////
// End of content of file: src/lib_json/json_value.cpp
// //////////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////////
// Beginning of content of file: src/lib_json/json_writer.cpp
// //////////////////////////////////////////////////////////////////////
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// Copyright 2011 Baptiste Lepilleur and The JsonCpp Authors
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// Distributed under MIT license, or public domain if desired and
// recognized in your jurisdiction.
// See file LICENSE for detail or copy at http://jsoncpp.sourceforge.net/LICENSE
# if !defined(JSON_IS_AMALGAMATION)
# include <json/writer.h>
# include "json_tool.h"
# endif // if !defined(JSON_IS_AMALGAMATION)
# include <iomanip>
# include <memory>
# include <sstream>
# include <utility>
# include <set>
# include <cassert>
# include <cstring>
# include <cstdio>
# if defined(_MSC_VER) && _MSC_VER >= 1200 && _MSC_VER < 1800 // Between VC++ 6.0 and VC++ 11.0
# include <float.h>
# define isfinite _finite
# elif defined(__sun) && defined(__SVR4) //Solaris
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# if !defined(isfinite)
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# include <ieeefp.h>
# define isfinite finite
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# endif
# elif defined(_AIX)
# if !defined(isfinite)
# include <math.h>
# define isfinite finite
# endif
# elif defined(__hpux)
# if !defined(isfinite)
# if defined(__ia64) && !defined(finite)
# define isfinite(x) ((sizeof(x) == sizeof(float) ? \
_Isfinitef ( x ) : _IsFinite ( x ) ) )
# else
# include <math.h>
# define isfinite finite
# endif
# endif
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# else
# include <cmath>
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# if !(defined(__QNXNTO__)) // QNX already defines isfinite
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# define isfinite std::isfinite
# endif
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# endif
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# if defined(_MSC_VER)
# if !defined(WINCE) && defined(__STDC_SECURE_LIB__) && _MSC_VER >= 1500 // VC++ 9.0 and above
# define snprintf sprintf_s
# elif _MSC_VER >= 1900 // VC++ 14.0 and above
# define snprintf std::snprintf
# else
# define snprintf _snprintf
# endif
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# elif defined(__ANDROID__) || defined(__QNXNTO__)
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# define snprintf snprintf
# elif __cplusplus >= 201103L
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# if !defined(__MINGW32__) && !defined(__CYGWIN__)
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# define snprintf std::snprintf
# endif
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# endif
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# if defined(__BORLANDC__)
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# include <float.h>
# define isfinite _finite
# define snprintf _snprintf
# endif
# if defined(_MSC_VER) && _MSC_VER >= 1400 // VC++ 8.0
// Disable warning about strdup being deprecated.
# pragma warning(disable : 4996)
# endif
namespace Json {
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# if __cplusplus >= 201103L || (defined(_CPPLIB_VER) && _CPPLIB_VER >= 520)
typedef std : : unique_ptr < StreamWriter > StreamWriterPtr ;
# else
typedef std : : auto_ptr < StreamWriter > StreamWriterPtr ;
# endif
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static bool containsControlCharacter ( const char * str ) {
while ( * str ) {
if ( isControlCharacter ( * ( str + + ) ) )
return true ;
}
return false ;
}
static bool containsControlCharacter0 ( const char * str , unsigned len ) {
char const * end = str + len ;
while ( end ! = str ) {
if ( isControlCharacter ( * str ) | | 0 = = * str )
return true ;
+ + str ;
}
return false ;
}
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JSONCPP_STRING valueToString ( LargestInt value ) {
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UIntToStringBuffer buffer ;
char * current = buffer + sizeof ( buffer ) ;
if ( value = = Value : : minLargestInt ) {
uintToString ( LargestUInt ( Value : : maxLargestInt ) + 1 , current ) ;
* - - current = ' - ' ;
} else if ( value < 0 ) {
uintToString ( LargestUInt ( - value ) , current ) ;
* - - current = ' - ' ;
} else {
uintToString ( LargestUInt ( value ) , current ) ;
}
assert ( current > = buffer ) ;
return current ;
}
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JSONCPP_STRING valueToString ( LargestUInt value ) {
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UIntToStringBuffer buffer ;
char * current = buffer + sizeof ( buffer ) ;
uintToString ( value , current ) ;
assert ( current > = buffer ) ;
return current ;
}
# if defined(JSON_HAS_INT64)
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JSONCPP_STRING valueToString ( Int value ) {
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return valueToString ( LargestInt ( value ) ) ;
}
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JSONCPP_STRING valueToString ( UInt value ) {
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return valueToString ( LargestUInt ( value ) ) ;
}
# endif // # if defined(JSON_HAS_INT64)
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namespace {
JSONCPP_STRING valueToString ( double value , bool useSpecialFloats , unsigned int precision ) {
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// Allocate a buffer that is more than large enough to store the 16 digits of
// precision requested below.
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char buffer [ 36 ] ;
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int len = - 1 ;
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char formatString [ 15 ] ;
snprintf ( formatString , sizeof ( formatString ) , " %%.%dg " , precision ) ;
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// Print into the buffer. We need not request the alternative representation
// that always has a decimal point because JSON doesn't distingish the
// concepts of reals and integers.
if ( isfinite ( value ) ) {
len = snprintf ( buffer , sizeof ( buffer ) , formatString , value ) ;
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fixNumericLocale ( buffer , buffer + len ) ;
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// try to ensure we preserve the fact that this was given to us as a double on input
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if ( ! strchr ( buffer , ' . ' ) & & ! strchr ( buffer , ' e ' ) ) {
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strcat ( buffer , " .0 " ) ;
}
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} else {
// IEEE standard states that NaN values will not compare to themselves
if ( value ! = value ) {
len = snprintf ( buffer , sizeof ( buffer ) , useSpecialFloats ? " NaN " : " null " ) ;
} else if ( value < 0 ) {
len = snprintf ( buffer , sizeof ( buffer ) , useSpecialFloats ? " -Infinity " : " -1e+9999 " ) ;
} else {
len = snprintf ( buffer , sizeof ( buffer ) , useSpecialFloats ? " Infinity " : " 1e+9999 " ) ;
}
}
assert ( len > = 0 ) ;
return buffer ;
}
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}
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JSONCPP_STRING valueToString ( double value ) { return valueToString ( value , false , 17 ) ; }
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JSONCPP_STRING valueToString ( bool value ) { return value ? " true " : " false " ; }
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JSONCPP_STRING valueToQuotedString ( const char * value ) {
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if ( value = = NULL )
return " " ;
// Not sure how to handle unicode...
if ( strpbrk ( value , " \" \\ \b \f \n \r \t " ) = = NULL & &
! containsControlCharacter ( value ) )
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return JSONCPP_STRING ( " \" " ) + value + " \" " ;
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// We have to walk value and escape any special characters.
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// Appending to JSONCPP_STRING is not efficient, but this should be rare.
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// (Note: forward slashes are *not* rare, but I am not escaping them.)
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JSONCPP_STRING : : size_type maxsize =
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strlen ( value ) * 2 + 3 ; // allescaped+quotes+NULL
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JSONCPP_STRING result ;
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result . reserve ( maxsize ) ; // to avoid lots of mallocs
result + = " \" " ;
for ( const char * c = value ; * c ! = 0 ; + + c ) {
switch ( * c ) {
case ' \" ' :
result + = " \\ \" " ;
break ;
case ' \\ ' :
result + = " \\ \\ " ;
break ;
case ' \b ' :
result + = " \\ b " ;
break ;
case ' \f ' :
result + = " \\ f " ;
break ;
case ' \n ' :
result + = " \\ n " ;
break ;
case ' \r ' :
result + = " \\ r " ;
break ;
case ' \t ' :
result + = " \\ t " ;
break ;
// case '/':
// Even though \/ is considered a legal escape in JSON, a bare
// slash is also legal, so I see no reason to escape it.
// (I hope I am not misunderstanding something.
// blep notes: actually escaping \/ may be useful in javascript to avoid </
// sequence.
// Should add a flag to allow this compatibility mode and prevent this
// sequence from occurring.
default :
if ( isControlCharacter ( * c ) ) {
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JSONCPP_OSTRINGSTREAM oss ;
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oss < < " \\ u " < < std : : hex < < std : : uppercase < < std : : setfill ( ' 0 ' )
< < std : : setw ( 4 ) < < static_cast < int > ( * c ) ;
result + = oss . str ( ) ;
} else {
result + = * c ;
}
break ;
}
}
result + = " \" " ;
return result ;
}
// https://github.com/upcaste/upcaste/blob/master/src/upcore/src/cstring/strnpbrk.cpp
static char const * strnpbrk ( char const * s , char const * accept , size_t n ) {
assert ( ( s | | ! n ) & & accept ) ;
char const * const end = s + n ;
for ( char const * cur = s ; cur < end ; + + cur ) {
int const c = * cur ;
for ( char const * a = accept ; * a ; + + a ) {
if ( * a = = c ) {
return cur ;
}
}
}
return NULL ;
}
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static JSONCPP_STRING valueToQuotedStringN ( const char * value , unsigned length ) {
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if ( value = = NULL )
return " " ;
// Not sure how to handle unicode...
if ( strnpbrk ( value , " \" \\ \b \f \n \r \t " , length ) = = NULL & &
! containsControlCharacter0 ( value , length ) )
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return JSONCPP_STRING ( " \" " ) + value + " \" " ;
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// We have to walk value and escape any special characters.
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// Appending to JSONCPP_STRING is not efficient, but this should be rare.
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// (Note: forward slashes are *not* rare, but I am not escaping them.)
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JSONCPP_STRING : : size_type maxsize =
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length * 2 + 3 ; // allescaped+quotes+NULL
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JSONCPP_STRING result ;
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result . reserve ( maxsize ) ; // to avoid lots of mallocs
result + = " \" " ;
char const * end = value + length ;
for ( const char * c = value ; c ! = end ; + + c ) {
switch ( * c ) {
case ' \" ' :
result + = " \\ \" " ;
break ;
case ' \\ ' :
result + = " \\ \\ " ;
break ;
case ' \b ' :
result + = " \\ b " ;
break ;
case ' \f ' :
result + = " \\ f " ;
break ;
case ' \n ' :
result + = " \\ n " ;
break ;
case ' \r ' :
result + = " \\ r " ;
break ;
case ' \t ' :
result + = " \\ t " ;
break ;
// case '/':
// Even though \/ is considered a legal escape in JSON, a bare
// slash is also legal, so I see no reason to escape it.
// (I hope I am not misunderstanding something.)
// blep notes: actually escaping \/ may be useful in javascript to avoid </
// sequence.
// Should add a flag to allow this compatibility mode and prevent this
// sequence from occurring.
default :
if ( ( isControlCharacter ( * c ) ) | | ( * c = = 0 ) ) {
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JSONCPP_OSTRINGSTREAM oss ;
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oss < < " \\ u " < < std : : hex < < std : : uppercase < < std : : setfill ( ' 0 ' )
< < std : : setw ( 4 ) < < static_cast < int > ( * c ) ;
result + = oss . str ( ) ;
} else {
result + = * c ;
}
break ;
}
}
result + = " \" " ;
return result ;
}
// Class Writer
// //////////////////////////////////////////////////////////////////
Writer : : ~ Writer ( ) { }
// Class FastWriter
// //////////////////////////////////////////////////////////////////
FastWriter : : FastWriter ( )
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: yamlCompatiblityEnabled_ ( false ) , dropNullPlaceholders_ ( false ) ,
omitEndingLineFeed_ ( false ) { }
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void FastWriter : : enableYAMLCompatibility ( ) { yamlCompatiblityEnabled_ = true ; }
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void FastWriter : : dropNullPlaceholders ( ) { dropNullPlaceholders_ = true ; }
void FastWriter : : omitEndingLineFeed ( ) { omitEndingLineFeed_ = true ; }
JSONCPP_STRING FastWriter : : write ( const Value & root ) {
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document_ . clear ( ) ;
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writeValue ( root ) ;
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if ( ! omitEndingLineFeed_ )
document_ + = " \n " ;
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return document_ ;
}
void FastWriter : : writeValue ( const Value & value ) {
switch ( value . type ( ) ) {
case nullValue :
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if ( ! dropNullPlaceholders_ )
document_ + = " null " ;
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break ;
case intValue :
document_ + = valueToString ( value . asLargestInt ( ) ) ;
break ;
case uintValue :
document_ + = valueToString ( value . asLargestUInt ( ) ) ;
break ;
case realValue :
document_ + = valueToString ( value . asDouble ( ) ) ;
break ;
case stringValue :
{
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// Is NULL possible for value.string_? No.
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char const * str ;
char const * end ;
bool ok = value . getString ( & str , & end ) ;
if ( ok ) document_ + = valueToQuotedStringN ( str , static_cast < unsigned > ( end - str ) ) ;
break ;
}
case booleanValue :
document_ + = valueToString ( value . asBool ( ) ) ;
break ;
case arrayValue : {
document_ + = ' [ ' ;
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ArrayIndex size = value . size ( ) ;
for ( ArrayIndex index = 0 ; index < size ; + + index ) {
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if ( index > 0 )
document_ + = ' , ' ;
writeValue ( value [ index ] ) ;
}
document_ + = ' ] ' ;
} break ;
case objectValue : {
Value : : Members members ( value . getMemberNames ( ) ) ;
document_ + = ' { ' ;
for ( Value : : Members : : iterator it = members . begin ( ) ; it ! = members . end ( ) ;
+ + it ) {
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const JSONCPP_STRING & name = * it ;
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if ( it ! = members . begin ( ) )
document_ + = ' , ' ;
document_ + = valueToQuotedStringN ( name . data ( ) , static_cast < unsigned > ( name . length ( ) ) ) ;
document_ + = yamlCompatiblityEnabled_ ? " : " : " : " ;
writeValue ( value [ name ] ) ;
}
document_ + = ' } ' ;
} break ;
}
}
// Class StyledWriter
// //////////////////////////////////////////////////////////////////
StyledWriter : : StyledWriter ( )
: rightMargin_ ( 74 ) , indentSize_ ( 3 ) , addChildValues_ ( ) { }
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JSONCPP_STRING StyledWriter : : write ( const Value & root ) {
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document_ . clear ( ) ;
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addChildValues_ = false ;
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indentString_ . clear ( ) ;
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writeCommentBeforeValue ( root ) ;
writeValue ( root ) ;
writeCommentAfterValueOnSameLine ( root ) ;
document_ + = " \n " ;
return document_ ;
}
void StyledWriter : : writeValue ( const Value & value ) {
switch ( value . type ( ) ) {
case nullValue :
pushValue ( " null " ) ;
break ;
case intValue :
pushValue ( valueToString ( value . asLargestInt ( ) ) ) ;
break ;
case uintValue :
pushValue ( valueToString ( value . asLargestUInt ( ) ) ) ;
break ;
case realValue :
pushValue ( valueToString ( value . asDouble ( ) ) ) ;
break ;
case stringValue :
{
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// Is NULL possible for value.string_? No.
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char const * str ;
char const * end ;
bool ok = value . getString ( & str , & end ) ;
if ( ok ) pushValue ( valueToQuotedStringN ( str , static_cast < unsigned > ( end - str ) ) ) ;
else pushValue ( " " ) ;
break ;
}
case booleanValue :
pushValue ( valueToString ( value . asBool ( ) ) ) ;
break ;
case arrayValue :
writeArrayValue ( value ) ;
break ;
case objectValue : {
Value : : Members members ( value . getMemberNames ( ) ) ;
if ( members . empty ( ) )
pushValue ( " {} " ) ;
else {
writeWithIndent ( " { " ) ;
indent ( ) ;
Value : : Members : : iterator it = members . begin ( ) ;
for ( ; ; ) {
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const JSONCPP_STRING & name = * it ;
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const Value & childValue = value [ name ] ;
writeCommentBeforeValue ( childValue ) ;
writeWithIndent ( valueToQuotedString ( name . c_str ( ) ) ) ;
document_ + = " : " ;
writeValue ( childValue ) ;
if ( + + it = = members . end ( ) ) {
writeCommentAfterValueOnSameLine ( childValue ) ;
break ;
}
document_ + = ' , ' ;
writeCommentAfterValueOnSameLine ( childValue ) ;
}
unindent ( ) ;
writeWithIndent ( " } " ) ;
}
} break ;
}
}
void StyledWriter : : writeArrayValue ( const Value & value ) {
unsigned size = value . size ( ) ;
if ( size = = 0 )
pushValue ( " [] " ) ;
else {
bool isArrayMultiLine = isMultineArray ( value ) ;
if ( isArrayMultiLine ) {
writeWithIndent ( " [ " ) ;
indent ( ) ;
bool hasChildValue = ! childValues_ . empty ( ) ;
unsigned index = 0 ;
for ( ; ; ) {
const Value & childValue = value [ index ] ;
writeCommentBeforeValue ( childValue ) ;
if ( hasChildValue )
writeWithIndent ( childValues_ [ index ] ) ;
else {
writeIndent ( ) ;
writeValue ( childValue ) ;
}
if ( + + index = = size ) {
writeCommentAfterValueOnSameLine ( childValue ) ;
break ;
}
document_ + = ' , ' ;
writeCommentAfterValueOnSameLine ( childValue ) ;
}
unindent ( ) ;
writeWithIndent ( " ] " ) ;
} else // output on a single line
{
assert ( childValues_ . size ( ) = = size ) ;
document_ + = " [ " ;
for ( unsigned index = 0 ; index < size ; + + index ) {
if ( index > 0 )
document_ + = " , " ;
document_ + = childValues_ [ index ] ;
}
document_ + = " ] " ;
}
}
}
bool StyledWriter : : isMultineArray ( const Value & value ) {
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ArrayIndex const size = value . size ( ) ;
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bool isMultiLine = size * 3 > = rightMargin_ ;
childValues_ . clear ( ) ;
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for ( ArrayIndex index = 0 ; index < size & & ! isMultiLine ; + + index ) {
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const Value & childValue = value [ index ] ;
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isMultiLine = ( ( childValue . isArray ( ) | | childValue . isObject ( ) ) & &
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childValue . size ( ) > 0 ) ;
}
if ( ! isMultiLine ) // check if line length > max line length
{
childValues_ . reserve ( size ) ;
addChildValues_ = true ;
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ArrayIndex lineLength = 4 + ( size - 1 ) * 2 ; // '[ ' + ', '*n + ' ]'
for ( ArrayIndex index = 0 ; index < size ; + + index ) {
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if ( hasCommentForValue ( value [ index ] ) ) {
isMultiLine = true ;
}
writeValue ( value [ index ] ) ;
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lineLength + = static_cast < ArrayIndex > ( childValues_ [ index ] . length ( ) ) ;
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}
addChildValues_ = false ;
isMultiLine = isMultiLine | | lineLength > = rightMargin_ ;
}
return isMultiLine ;
}
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void StyledWriter : : pushValue ( const JSONCPP_STRING & value ) {
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if ( addChildValues_ )
childValues_ . push_back ( value ) ;
else
document_ + = value ;
}
void StyledWriter : : writeIndent ( ) {
if ( ! document_ . empty ( ) ) {
char last = document_ [ document_ . length ( ) - 1 ] ;
if ( last = = ' ' ) // already indented
return ;
if ( last ! = ' \n ' ) // Comments may add new-line
document_ + = ' \n ' ;
}
document_ + = indentString_ ;
}
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void StyledWriter : : writeWithIndent ( const JSONCPP_STRING & value ) {
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writeIndent ( ) ;
document_ + = value ;
}
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void StyledWriter : : indent ( ) { indentString_ + = JSONCPP_STRING ( indentSize_ , ' ' ) ; }
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void StyledWriter : : unindent ( ) {
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assert ( indentString_ . size ( ) > = indentSize_ ) ;
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indentString_ . resize ( indentString_ . size ( ) - indentSize_ ) ;
}
void StyledWriter : : writeCommentBeforeValue ( const Value & root ) {
if ( ! root . hasComment ( commentBefore ) )
return ;
document_ + = " \n " ;
writeIndent ( ) ;
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const JSONCPP_STRING & comment = root . getComment ( commentBefore ) ;
JSONCPP_STRING : : const_iterator iter = comment . begin ( ) ;
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while ( iter ! = comment . end ( ) ) {
document_ + = * iter ;
if ( * iter = = ' \n ' & &
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( ( iter + 1 ) ! = comment . end ( ) & & * ( iter + 1 ) = = ' / ' ) )
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writeIndent ( ) ;
+ + iter ;
}
// Comments are stripped of trailing newlines, so add one here
document_ + = " \n " ;
}
void StyledWriter : : writeCommentAfterValueOnSameLine ( const Value & root ) {
if ( root . hasComment ( commentAfterOnSameLine ) )
document_ + = " " + root . getComment ( commentAfterOnSameLine ) ;
if ( root . hasComment ( commentAfter ) ) {
document_ + = " \n " ;
document_ + = root . getComment ( commentAfter ) ;
document_ + = " \n " ;
}
}
bool StyledWriter : : hasCommentForValue ( const Value & value ) {
return value . hasComment ( commentBefore ) | |
value . hasComment ( commentAfterOnSameLine ) | |
value . hasComment ( commentAfter ) ;
}
// Class StyledStreamWriter
// //////////////////////////////////////////////////////////////////
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StyledStreamWriter : : StyledStreamWriter ( JSONCPP_STRING indentation )
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: document_ ( NULL ) , rightMargin_ ( 74 ) , indentation_ ( indentation ) ,
addChildValues_ ( ) { }
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void StyledStreamWriter : : write ( JSONCPP_OSTREAM & out , const Value & root ) {
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document_ = & out ;
addChildValues_ = false ;
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indentString_ . clear ( ) ;
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indented_ = true ;
writeCommentBeforeValue ( root ) ;
if ( ! indented_ ) writeIndent ( ) ;
indented_ = true ;
writeValue ( root ) ;
writeCommentAfterValueOnSameLine ( root ) ;
* document_ < < " \n " ;
document_ = NULL ; // Forget the stream, for safety.
}
void StyledStreamWriter : : writeValue ( const Value & value ) {
switch ( value . type ( ) ) {
case nullValue :
pushValue ( " null " ) ;
break ;
case intValue :
pushValue ( valueToString ( value . asLargestInt ( ) ) ) ;
break ;
case uintValue :
pushValue ( valueToString ( value . asLargestUInt ( ) ) ) ;
break ;
case realValue :
pushValue ( valueToString ( value . asDouble ( ) ) ) ;
break ;
case stringValue :
{
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// Is NULL possible for value.string_? No.
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char const * str ;
char const * end ;
bool ok = value . getString ( & str , & end ) ;
if ( ok ) pushValue ( valueToQuotedStringN ( str , static_cast < unsigned > ( end - str ) ) ) ;
else pushValue ( " " ) ;
break ;
}
case booleanValue :
pushValue ( valueToString ( value . asBool ( ) ) ) ;
break ;
case arrayValue :
writeArrayValue ( value ) ;
break ;
case objectValue : {
Value : : Members members ( value . getMemberNames ( ) ) ;
if ( members . empty ( ) )
pushValue ( " {} " ) ;
else {
writeWithIndent ( " { " ) ;
indent ( ) ;
Value : : Members : : iterator it = members . begin ( ) ;
for ( ; ; ) {
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const JSONCPP_STRING & name = * it ;
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const Value & childValue = value [ name ] ;
writeCommentBeforeValue ( childValue ) ;
writeWithIndent ( valueToQuotedString ( name . c_str ( ) ) ) ;
* document_ < < " : " ;
writeValue ( childValue ) ;
if ( + + it = = members . end ( ) ) {
writeCommentAfterValueOnSameLine ( childValue ) ;
break ;
}
* document_ < < " , " ;
writeCommentAfterValueOnSameLine ( childValue ) ;
}
unindent ( ) ;
writeWithIndent ( " } " ) ;
}
} break ;
}
}
void StyledStreamWriter : : writeArrayValue ( const Value & value ) {
unsigned size = value . size ( ) ;
if ( size = = 0 )
pushValue ( " [] " ) ;
else {
bool isArrayMultiLine = isMultineArray ( value ) ;
if ( isArrayMultiLine ) {
writeWithIndent ( " [ " ) ;
indent ( ) ;
bool hasChildValue = ! childValues_ . empty ( ) ;
unsigned index = 0 ;
for ( ; ; ) {
const Value & childValue = value [ index ] ;
writeCommentBeforeValue ( childValue ) ;
if ( hasChildValue )
writeWithIndent ( childValues_ [ index ] ) ;
else {
if ( ! indented_ ) writeIndent ( ) ;
indented_ = true ;
writeValue ( childValue ) ;
indented_ = false ;
}
if ( + + index = = size ) {
writeCommentAfterValueOnSameLine ( childValue ) ;
break ;
}
* document_ < < " , " ;
writeCommentAfterValueOnSameLine ( childValue ) ;
}
unindent ( ) ;
writeWithIndent ( " ] " ) ;
} else // output on a single line
{
assert ( childValues_ . size ( ) = = size ) ;
* document_ < < " [ " ;
for ( unsigned index = 0 ; index < size ; + + index ) {
if ( index > 0 )
* document_ < < " , " ;
* document_ < < childValues_ [ index ] ;
}
* document_ < < " ] " ;
}
}
}
bool StyledStreamWriter : : isMultineArray ( const Value & value ) {
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ArrayIndex const size = value . size ( ) ;
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bool isMultiLine = size * 3 > = rightMargin_ ;
childValues_ . clear ( ) ;
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for ( ArrayIndex index = 0 ; index < size & & ! isMultiLine ; + + index ) {
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const Value & childValue = value [ index ] ;
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isMultiLine = ( ( childValue . isArray ( ) | | childValue . isObject ( ) ) & &
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childValue . size ( ) > 0 ) ;
}
if ( ! isMultiLine ) // check if line length > max line length
{
childValues_ . reserve ( size ) ;
addChildValues_ = true ;
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ArrayIndex lineLength = 4 + ( size - 1 ) * 2 ; // '[ ' + ', '*n + ' ]'
for ( ArrayIndex index = 0 ; index < size ; + + index ) {
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if ( hasCommentForValue ( value [ index ] ) ) {
isMultiLine = true ;
}
writeValue ( value [ index ] ) ;
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lineLength + = static_cast < ArrayIndex > ( childValues_ [ index ] . length ( ) ) ;
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}
addChildValues_ = false ;
isMultiLine = isMultiLine | | lineLength > = rightMargin_ ;
}
return isMultiLine ;
}
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void StyledStreamWriter : : pushValue ( const JSONCPP_STRING & value ) {
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if ( addChildValues_ )
childValues_ . push_back ( value ) ;
else
* document_ < < value ;
}
void StyledStreamWriter : : writeIndent ( ) {
// blep intended this to look at the so-far-written string
// to determine whether we are already indented, but
// with a stream we cannot do that. So we rely on some saved state.
// The caller checks indented_.
* document_ < < ' \n ' < < indentString_ ;
}
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void StyledStreamWriter : : writeWithIndent ( const JSONCPP_STRING & value ) {
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if ( ! indented_ ) writeIndent ( ) ;
* document_ < < value ;
indented_ = false ;
}
void StyledStreamWriter : : indent ( ) { indentString_ + = indentation_ ; }
void StyledStreamWriter : : unindent ( ) {
assert ( indentString_ . size ( ) > = indentation_ . size ( ) ) ;
indentString_ . resize ( indentString_ . size ( ) - indentation_ . size ( ) ) ;
}
void StyledStreamWriter : : writeCommentBeforeValue ( const Value & root ) {
if ( ! root . hasComment ( commentBefore ) )
return ;
if ( ! indented_ ) writeIndent ( ) ;
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const JSONCPP_STRING & comment = root . getComment ( commentBefore ) ;
JSONCPP_STRING : : const_iterator iter = comment . begin ( ) ;
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while ( iter ! = comment . end ( ) ) {
* document_ < < * iter ;
if ( * iter = = ' \n ' & &
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( ( iter + 1 ) ! = comment . end ( ) & & * ( iter + 1 ) = = ' / ' ) )
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// writeIndent(); // would include newline
* document_ < < indentString_ ;
+ + iter ;
}
indented_ = false ;
}
void StyledStreamWriter : : writeCommentAfterValueOnSameLine ( const Value & root ) {
if ( root . hasComment ( commentAfterOnSameLine ) )
* document_ < < ' ' < < root . getComment ( commentAfterOnSameLine ) ;
if ( root . hasComment ( commentAfter ) ) {
writeIndent ( ) ;
* document_ < < root . getComment ( commentAfter ) ;
}
indented_ = false ;
}
bool StyledStreamWriter : : hasCommentForValue ( const Value & value ) {
return value . hasComment ( commentBefore ) | |
value . hasComment ( commentAfterOnSameLine ) | |
value . hasComment ( commentAfter ) ;
}
//////////////////////////
// BuiltStyledStreamWriter
/// Scoped enums are not available until C++11.
struct CommentStyle {
/// Decide whether to write comments.
enum Enum {
None , ///< Drop all comments.
Most , ///< Recover odd behavior of previous versions (not implemented yet).
All ///< Keep all comments.
} ;
} ;
struct BuiltStyledStreamWriter : public StreamWriter
{
BuiltStyledStreamWriter (
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JSONCPP_STRING const & indentation ,
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CommentStyle : : Enum cs ,
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JSONCPP_STRING const & colonSymbol ,
JSONCPP_STRING const & nullSymbol ,
JSONCPP_STRING const & endingLineFeedSymbol ,
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bool useSpecialFloats ,
unsigned int precision ) ;
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int write ( Value const & root , JSONCPP_OSTREAM * sout ) JSONCPP_OVERRIDE ;
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private :
void writeValue ( Value const & value ) ;
void writeArrayValue ( Value const & value ) ;
bool isMultineArray ( Value const & value ) ;
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void pushValue ( JSONCPP_STRING const & value ) ;
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void writeIndent ( ) ;
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void writeWithIndent ( JSONCPP_STRING const & value ) ;
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void indent ( ) ;
void unindent ( ) ;
void writeCommentBeforeValue ( Value const & root ) ;
void writeCommentAfterValueOnSameLine ( Value const & root ) ;
static bool hasCommentForValue ( const Value & value ) ;
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typedef std : : vector < JSONCPP_STRING > ChildValues ;
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ChildValues childValues_ ;
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JSONCPP_STRING indentString_ ;
unsigned int rightMargin_ ;
JSONCPP_STRING indentation_ ;
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CommentStyle : : Enum cs_ ;
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JSONCPP_STRING colonSymbol_ ;
JSONCPP_STRING nullSymbol_ ;
JSONCPP_STRING endingLineFeedSymbol_ ;
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bool addChildValues_ : 1 ;
bool indented_ : 1 ;
bool useSpecialFloats_ : 1 ;
unsigned int precision_ ;
} ;
BuiltStyledStreamWriter : : BuiltStyledStreamWriter (
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JSONCPP_STRING const & indentation ,
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CommentStyle : : Enum cs ,
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JSONCPP_STRING const & colonSymbol ,
JSONCPP_STRING const & nullSymbol ,
JSONCPP_STRING const & endingLineFeedSymbol ,
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bool useSpecialFloats ,
unsigned int precision )
: rightMargin_ ( 74 )
, indentation_ ( indentation )
, cs_ ( cs )
, colonSymbol_ ( colonSymbol )
, nullSymbol_ ( nullSymbol )
, endingLineFeedSymbol_ ( endingLineFeedSymbol )
, addChildValues_ ( false )
, indented_ ( false )
, useSpecialFloats_ ( useSpecialFloats )
, precision_ ( precision )
{
}
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int BuiltStyledStreamWriter : : write ( Value const & root , JSONCPP_OSTREAM * sout )
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{
sout_ = sout ;
addChildValues_ = false ;
indented_ = true ;
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indentString_ . clear ( ) ;
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writeCommentBeforeValue ( root ) ;
if ( ! indented_ ) writeIndent ( ) ;
indented_ = true ;
writeValue ( root ) ;
writeCommentAfterValueOnSameLine ( root ) ;
* sout_ < < endingLineFeedSymbol_ ;
sout_ = NULL ;
return 0 ;
}
void BuiltStyledStreamWriter : : writeValue ( Value const & value ) {
switch ( value . type ( ) ) {
case nullValue :
pushValue ( nullSymbol_ ) ;
break ;
case intValue :
pushValue ( valueToString ( value . asLargestInt ( ) ) ) ;
break ;
case uintValue :
pushValue ( valueToString ( value . asLargestUInt ( ) ) ) ;
break ;
case realValue :
pushValue ( valueToString ( value . asDouble ( ) , useSpecialFloats_ , precision_ ) ) ;
break ;
case stringValue :
{
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// Is NULL is possible for value.string_? No.
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char const * str ;
char const * end ;
bool ok = value . getString ( & str , & end ) ;
if ( ok ) pushValue ( valueToQuotedStringN ( str , static_cast < unsigned > ( end - str ) ) ) ;
else pushValue ( " " ) ;
break ;
}
case booleanValue :
pushValue ( valueToString ( value . asBool ( ) ) ) ;
break ;
case arrayValue :
writeArrayValue ( value ) ;
break ;
case objectValue : {
Value : : Members members ( value . getMemberNames ( ) ) ;
if ( members . empty ( ) )
pushValue ( " {} " ) ;
else {
writeWithIndent ( " { " ) ;
indent ( ) ;
Value : : Members : : iterator it = members . begin ( ) ;
for ( ; ; ) {
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JSONCPP_STRING const & name = * it ;
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Value const & childValue = value [ name ] ;
writeCommentBeforeValue ( childValue ) ;
writeWithIndent ( valueToQuotedStringN ( name . data ( ) , static_cast < unsigned > ( name . length ( ) ) ) ) ;
* sout_ < < colonSymbol_ ;
writeValue ( childValue ) ;
if ( + + it = = members . end ( ) ) {
writeCommentAfterValueOnSameLine ( childValue ) ;
break ;
}
* sout_ < < " , " ;
writeCommentAfterValueOnSameLine ( childValue ) ;
}
unindent ( ) ;
writeWithIndent ( " } " ) ;
}
} break ;
}
}
void BuiltStyledStreamWriter : : writeArrayValue ( Value const & value ) {
unsigned size = value . size ( ) ;
if ( size = = 0 )
pushValue ( " [] " ) ;
else {
bool isMultiLine = ( cs_ = = CommentStyle : : All ) | | isMultineArray ( value ) ;
if ( isMultiLine ) {
writeWithIndent ( " [ " ) ;
indent ( ) ;
bool hasChildValue = ! childValues_ . empty ( ) ;
unsigned index = 0 ;
for ( ; ; ) {
Value const & childValue = value [ index ] ;
writeCommentBeforeValue ( childValue ) ;
if ( hasChildValue )
writeWithIndent ( childValues_ [ index ] ) ;
else {
if ( ! indented_ ) writeIndent ( ) ;
indented_ = true ;
writeValue ( childValue ) ;
indented_ = false ;
}
if ( + + index = = size ) {
writeCommentAfterValueOnSameLine ( childValue ) ;
break ;
}
* sout_ < < " , " ;
writeCommentAfterValueOnSameLine ( childValue ) ;
}
unindent ( ) ;
writeWithIndent ( " ] " ) ;
} else // output on a single line
{
assert ( childValues_ . size ( ) = = size ) ;
* sout_ < < " [ " ;
if ( ! indentation_ . empty ( ) ) * sout_ < < " " ;
for ( unsigned index = 0 ; index < size ; + + index ) {
if ( index > 0 )
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* sout_ < < ( ( ! indentation_ . empty ( ) ) ? " , " : " , " ) ;
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* sout_ < < childValues_ [ index ] ;
}
if ( ! indentation_ . empty ( ) ) * sout_ < < " " ;
* sout_ < < " ] " ;
}
}
}
bool BuiltStyledStreamWriter : : isMultineArray ( Value const & value ) {
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ArrayIndex const size = value . size ( ) ;
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bool isMultiLine = size * 3 > = rightMargin_ ;
childValues_ . clear ( ) ;
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for ( ArrayIndex index = 0 ; index < size & & ! isMultiLine ; + + index ) {
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Value const & childValue = value [ index ] ;
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isMultiLine = ( ( childValue . isArray ( ) | | childValue . isObject ( ) ) & &
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childValue . size ( ) > 0 ) ;
}
if ( ! isMultiLine ) // check if line length > max line length
{
childValues_ . reserve ( size ) ;
addChildValues_ = true ;
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ArrayIndex lineLength = 4 + ( size - 1 ) * 2 ; // '[ ' + ', '*n + ' ]'
for ( ArrayIndex index = 0 ; index < size ; + + index ) {
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if ( hasCommentForValue ( value [ index ] ) ) {
isMultiLine = true ;
}
writeValue ( value [ index ] ) ;
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lineLength + = static_cast < ArrayIndex > ( childValues_ [ index ] . length ( ) ) ;
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}
addChildValues_ = false ;
isMultiLine = isMultiLine | | lineLength > = rightMargin_ ;
}
return isMultiLine ;
}
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void BuiltStyledStreamWriter : : pushValue ( JSONCPP_STRING const & value ) {
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if ( addChildValues_ )
childValues_ . push_back ( value ) ;
else
* sout_ < < value ;
}
void BuiltStyledStreamWriter : : writeIndent ( ) {
// blep intended this to look at the so-far-written string
// to determine whether we are already indented, but
// with a stream we cannot do that. So we rely on some saved state.
// The caller checks indented_.
if ( ! indentation_ . empty ( ) ) {
// In this case, drop newlines too.
* sout_ < < ' \n ' < < indentString_ ;
}
}
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void BuiltStyledStreamWriter : : writeWithIndent ( JSONCPP_STRING const & value ) {
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if ( ! indented_ ) writeIndent ( ) ;
* sout_ < < value ;
indented_ = false ;
}
void BuiltStyledStreamWriter : : indent ( ) { indentString_ + = indentation_ ; }
void BuiltStyledStreamWriter : : unindent ( ) {
assert ( indentString_ . size ( ) > = indentation_ . size ( ) ) ;
indentString_ . resize ( indentString_ . size ( ) - indentation_ . size ( ) ) ;
}
void BuiltStyledStreamWriter : : writeCommentBeforeValue ( Value const & root ) {
if ( cs_ = = CommentStyle : : None ) return ;
if ( ! root . hasComment ( commentBefore ) )
return ;
if ( ! indented_ ) writeIndent ( ) ;
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const JSONCPP_STRING & comment = root . getComment ( commentBefore ) ;
JSONCPP_STRING : : const_iterator iter = comment . begin ( ) ;
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while ( iter ! = comment . end ( ) ) {
* sout_ < < * iter ;
if ( * iter = = ' \n ' & &
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( ( iter + 1 ) ! = comment . end ( ) & & * ( iter + 1 ) = = ' / ' ) )
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// writeIndent(); // would write extra newline
* sout_ < < indentString_ ;
+ + iter ;
}
indented_ = false ;
}
void BuiltStyledStreamWriter : : writeCommentAfterValueOnSameLine ( Value const & root ) {
if ( cs_ = = CommentStyle : : None ) return ;
if ( root . hasComment ( commentAfterOnSameLine ) )
* sout_ < < " " + root . getComment ( commentAfterOnSameLine ) ;
if ( root . hasComment ( commentAfter ) ) {
writeIndent ( ) ;
* sout_ < < root . getComment ( commentAfter ) ;
}
}
// static
bool BuiltStyledStreamWriter : : hasCommentForValue ( const Value & value ) {
return value . hasComment ( commentBefore ) | |
value . hasComment ( commentAfterOnSameLine ) | |
value . hasComment ( commentAfter ) ;
}
///////////////
// StreamWriter
StreamWriter : : StreamWriter ( )
: sout_ ( NULL )
{
}
StreamWriter : : ~ StreamWriter ( )
{
}
StreamWriter : : Factory : : ~ Factory ( )
{ }
StreamWriterBuilder : : StreamWriterBuilder ( )
{
setDefaults ( & settings_ ) ;
}
StreamWriterBuilder : : ~ StreamWriterBuilder ( )
{ }
StreamWriter * StreamWriterBuilder : : newStreamWriter ( ) const
{
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JSONCPP_STRING indentation = settings_ [ " indentation " ] . asString ( ) ;
JSONCPP_STRING cs_str = settings_ [ " commentStyle " ] . asString ( ) ;
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bool eyc = settings_ [ " enableYAMLCompatibility " ] . asBool ( ) ;
bool dnp = settings_ [ " dropNullPlaceholders " ] . asBool ( ) ;
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bool usf = settings_ [ " useSpecialFloats " ] . asBool ( ) ;
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unsigned int pre = settings_ [ " precision " ] . asUInt ( ) ;
CommentStyle : : Enum cs = CommentStyle : : All ;
if ( cs_str = = " All " ) {
cs = CommentStyle : : All ;
} else if ( cs_str = = " None " ) {
cs = CommentStyle : : None ;
} else {
throwRuntimeError ( " commentStyle must be 'All' or 'None' " ) ;
}
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JSONCPP_STRING colonSymbol = " : " ;
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if ( eyc ) {
colonSymbol = " : " ;
} else if ( indentation . empty ( ) ) {
colonSymbol = " : " ;
}
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JSONCPP_STRING nullSymbol = " null " ;
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if ( dnp ) {
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nullSymbol . clear ( ) ;
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}
if ( pre > 17 ) pre = 17 ;
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JSONCPP_STRING endingLineFeedSymbol ;
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return new BuiltStyledStreamWriter (
indentation , cs ,
colonSymbol , nullSymbol , endingLineFeedSymbol , usf , pre ) ;
}
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static void getValidWriterKeys ( std : : set < JSONCPP_STRING > * valid_keys )
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{
valid_keys - > clear ( ) ;
valid_keys - > insert ( " indentation " ) ;
valid_keys - > insert ( " commentStyle " ) ;
valid_keys - > insert ( " enableYAMLCompatibility " ) ;
valid_keys - > insert ( " dropNullPlaceholders " ) ;
valid_keys - > insert ( " useSpecialFloats " ) ;
valid_keys - > insert ( " precision " ) ;
}
bool StreamWriterBuilder : : validate ( Json : : Value * invalid ) const
{
Json : : Value my_invalid ;
if ( ! invalid ) invalid = & my_invalid ; // so we do not need to test for NULL
Json : : Value & inv = * invalid ;
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std : : set < JSONCPP_STRING > valid_keys ;
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getValidWriterKeys ( & valid_keys ) ;
Value : : Members keys = settings_ . getMemberNames ( ) ;
size_t n = keys . size ( ) ;
for ( size_t i = 0 ; i < n ; + + i ) {
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JSONCPP_STRING const & key = keys [ i ] ;
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if ( valid_keys . find ( key ) = = valid_keys . end ( ) ) {
inv [ key ] = settings_ [ key ] ;
}
}
return 0u = = inv . size ( ) ;
}
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Value & StreamWriterBuilder : : operator [ ] ( JSONCPP_STRING key )
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{
return settings_ [ key ] ;
}
// static
void StreamWriterBuilder : : setDefaults ( Json : : Value * settings )
{
//! [StreamWriterBuilderDefaults]
( * settings ) [ " commentStyle " ] = " All " ;
( * settings ) [ " indentation " ] = " \t " ;
( * settings ) [ " enableYAMLCompatibility " ] = false ;
( * settings ) [ " dropNullPlaceholders " ] = false ;
( * settings ) [ " useSpecialFloats " ] = false ;
( * settings ) [ " precision " ] = 17 ;
//! [StreamWriterBuilderDefaults]
}
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JSONCPP_STRING writeString ( StreamWriter : : Factory const & builder , Value const & root ) {
JSONCPP_OSTRINGSTREAM sout ;
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StreamWriterPtr const writer ( builder . newStreamWriter ( ) ) ;
writer - > write ( root , & sout ) ;
return sout . str ( ) ;
}
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JSONCPP_OSTREAM & operator < < ( JSONCPP_OSTREAM & sout , Value const & root ) {
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StreamWriterBuilder builder ;
StreamWriterPtr const writer ( builder . newStreamWriter ( ) ) ;
writer - > write ( root , & sout ) ;
return sout ;
}
} // namespace Json
// //////////////////////////////////////////////////////////////////////
// End of content of file: src/lib_json/json_writer.cpp
// //////////////////////////////////////////////////////////////////////