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|
/**
****************************************************************************
* <P> XML.c - implementation file for basic XML parser written in ANSI C++
* for portability. It works by using recursion and a node tree for breaking
* down the elements of an XML document. </P>
*
* @version V2.39
* @author Frank Vanden Berghen
*
* NOTE:
*
* If you add "#define STRICT_PARSING", on the first line of this file
* the parser will see the following XML-stream:
* <a><b>some text</b><b>other text </a>
* as an error. Otherwise, this tring will be equivalent to:
* <a><b>some text</b><b>other text</b></a>
*
* NOTE:
*
* If you add "#define APPROXIMATE_PARSING" on the first line of this file
* the parser will see the following XML-stream:
* <data name="n1">
* <data name="n2">
* <data name="n3" />
* as equivalent to the following XML-stream:
* <data name="n1" />
* <data name="n2" />
* <data name="n3" />
* This can be useful for badly-formed XML-streams but prevent the use
* of the following XML-stream (problem is: tags at contiguous levels
* have the same names):
* <data name="n1">
* <data name="n2">
* <data name="n3" />
* </data>
* </data>
*
* NOTE:
*
* If you add "#define _XMLPARSER_NO_MESSAGEBOX_" on the first line of this file
* the "openFileHelper" function will always display error messages inside the
* console instead of inside a message-box-window. Message-box-windows are
* available on windows 9x/NT/2000/XP/Vista only.
*
* Copyright (c) 2002, Frank Vanden Berghen
* All rights reserved.
*
* The following license terms apply to projects that are in some way related to
* the "ZeroMQ project", including applications
* using "ZeroMQ project" and tools developed
* for enhancing "ZeroMQ project". All other projects
* (not related to "ZeroMQ project") have to use this
* code under the Aladdin Free Public License (AFPL)
* See the file "AFPL-license.txt" for more informations about the AFPL license.
* (see http://www.artifex.com/downloads/doc/Public.htm for detailed AFPL terms)
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Frank Vanden Berghen nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY Frank Vanden Berghen ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL <copyright holder> BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
****************************************************************************
*/
#if defined _MSC_VER
#pragma warning (push)
#pragma warning (disable:4996)
#endif
#ifndef _CRT_SECURE_NO_DEPRECATE
#define _CRT_SECURE_NO_DEPRECATE
#endif
#include "xmlParser.hpp"
#ifdef _XMLWINDOWS
//#ifdef _DEBUG
//#define _CRTDBG_MAP_ALLOC
//#include <crtdbg.h>
//#endif
#define WIN32_LEAN_AND_MEAN
#include <windows.h> // to have IsTextUnicode, MultiByteToWideChar, WideCharToMultiByte to handle unicode files
// to have "MessageBoxA" to display error messages for openFilHelper
#endif
#include <memory.h>
#include <assert.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
XMLCSTR XMLNode::getVersion() { return _CXML("v2.39"); }
void freeXMLString(XMLSTR t){if(t)free(t);}
static XMLNode::XMLCharEncoding characterEncoding=XMLNode::char_encoding_UTF8;
static char guessWideCharChars=1, dropWhiteSpace=1, removeCommentsInMiddleOfText=1;
inline int mmin( const int t1, const int t2 ) { return t1 < t2 ? t1 : t2; }
// You can modify the initialization of the variable "XMLClearTags" below
// to change the clearTags that are currently recognized by the library.
// The number on the second columns is the length of the string inside the
// first column. The "<!DOCTYPE" declaration must be the second in the list.
// The "<!--" declaration must be the third in the list.
typedef struct { XMLCSTR lpszOpen; int openTagLen; XMLCSTR lpszClose;} ALLXMLClearTag;
static ALLXMLClearTag XMLClearTags[] =
{
{ _CXML("<![CDATA["),9, _CXML("]]>") },
{ _CXML("<!DOCTYPE"),9, _CXML(">") },
{ _CXML("<!--") ,4, _CXML("-->") },
{ _CXML("<PRE>") ,5, _CXML("</PRE>") },
// { _CXML("<Script>") ,8, _CXML("</Script>")},
{ NULL ,0, NULL }
};
// You can modify the initialization of the variable "XMLEntities" below
// to change the character entities that are currently recognized by the library.
// The number on the second columns is the length of the string inside the
// first column. Additionally, the syntaxes " " and " " are recognized.
typedef struct { XMLCSTR s; int l; XMLCHAR c;} XMLCharacterEntity;
static XMLCharacterEntity XMLEntities[] =
{
{ _CXML("&" ), 5, _CXML('&' )},
{ _CXML("<" ), 4, _CXML('<' )},
{ _CXML(">" ), 4, _CXML('>' )},
{ _CXML("""), 6, _CXML('\"')},
{ _CXML("'"), 6, _CXML('\'')},
{ NULL , 0, '\0' }
};
// When rendering the XMLNode to a string (using the "createXMLString" function),
// you can ask for a beautiful formatting. This formatting is using the
// following indentation character:
#define INDENTCHAR _CXML('\t')
// The following function parses the XML errors into a user friendly string.
// You can edit this to change the output language of the library to something else.
XMLCSTR XMLNode::getError(XMLError xerror)
{
switch (xerror)
{
case eXMLErrorNone: return _CXML("No error");
case eXMLErrorMissingEndTag: return _CXML("Warning: Unmatched end tag");
case eXMLErrorNoXMLTagFound: return _CXML("Warning: No XML tag found");
case eXMLErrorEmpty: return _CXML("Error: No XML data");
case eXMLErrorMissingTagName: return _CXML("Error: Missing start tag name");
case eXMLErrorMissingEndTagName: return _CXML("Error: Missing end tag name");
case eXMLErrorUnmatchedEndTag: return _CXML("Error: Unmatched end tag");
case eXMLErrorUnmatchedEndClearTag: return _CXML("Error: Unmatched clear tag end");
case eXMLErrorUnexpectedToken: return _CXML("Error: Unexpected token found");
case eXMLErrorNoElements: return _CXML("Error: No elements found");
case eXMLErrorFileNotFound: return _CXML("Error: File not found");
case eXMLErrorFirstTagNotFound: return _CXML("Error: First Tag not found");
case eXMLErrorUnknownCharacterEntity:return _CXML("Error: Unknown character entity");
case eXMLErrorCharacterCodeAbove255: return _CXML("Error: Character code above 255 is forbidden in MultiByte char mode.");
case eXMLErrorCharConversionError: return _CXML("Error: unable to convert between WideChar and MultiByte chars");
case eXMLErrorCannotOpenWriteFile: return _CXML("Error: unable to open file for writing");
case eXMLErrorCannotWriteFile: return _CXML("Error: cannot write into file");
case eXMLErrorBase64DataSizeIsNotMultipleOf4: return _CXML("Warning: Base64-string length is not a multiple of 4");
case eXMLErrorBase64DecodeTruncatedData: return _CXML("Warning: Base64-string is truncated");
case eXMLErrorBase64DecodeIllegalCharacter: return _CXML("Error: Base64-string contains an illegal character");
case eXMLErrorBase64DecodeBufferTooSmall: return _CXML("Error: Base64 decode output buffer is too small");
};
return _CXML("Unknown");
}
/////////////////////////////////////////////////////////////////////////
// Here start the abstraction layer to be OS-independent //
/////////////////////////////////////////////////////////////////////////
// Here is an abstraction layer to access some common string manipulation functions.
// The abstraction layer is currently working for gcc, Microsoft Visual Studio 6.0,
// Microsoft Visual Studio .NET, CC (sun compiler) and Borland C++.
// If you plan to "port" the library to a new system/compiler, all you have to do is
// to edit the following lines.
#ifdef XML_NO_WIDE_CHAR
char myIsTextWideChar(const void *b, int len) { return FALSE; }
#else
#if defined (UNDER_CE) || !defined(_XMLWINDOWS)
char myIsTextWideChar(const void *b, int len) // inspired by the Wine API: RtlIsTextUnicode
{
#ifdef sun
// for SPARC processors: wchar_t* buffers must always be alligned, otherwise it's a char* buffer.
if ((((unsigned long)b)%sizeof(wchar_t))!=0) return FALSE;
#endif
const wchar_t *s=(const wchar_t*)b;
// buffer too small:
if (len<(int)sizeof(wchar_t)) return FALSE;
// odd length test
if (len&1) return FALSE;
/* only checks the first 256 characters */
len=mmin(256,len/sizeof(wchar_t));
// Check for the special byte order:
if (*((unsigned short*)s) == 0xFFFE) return TRUE; // IS_TEXT_UNICODE_REVERSE_SIGNATURE;
if (*((unsigned short*)s) == 0xFEFF) return TRUE; // IS_TEXT_UNICODE_SIGNATURE
// checks for ASCII characters in the UNICODE stream
int i,stats=0;
for (i=0; i<len; i++) if (s[i]<=(unsigned short)255) stats++;
if (stats>len/2) return TRUE;
// Check for UNICODE NULL chars
for (i=0; i<len; i++) if (!s[i]) return TRUE;
return FALSE;
}
#else
char myIsTextWideChar(const void *b,int l) { return (char)IsTextUnicode((CONST LPVOID)b,l,NULL); }
#endif
#endif
#ifdef _XMLWINDOWS
// for Microsoft Visual Studio 6.0 and Microsoft Visual Studio .NET and Borland C++ Builder 6.0
#ifdef _XMLWIDECHAR
wchar_t *myMultiByteToWideChar(const char *s, XMLNode::XMLCharEncoding ce)
{
int i;
if (ce==XMLNode::char_encoding_UTF8) i=(int)MultiByteToWideChar(CP_UTF8,0 ,s,-1,NULL,0);
else i=(int)MultiByteToWideChar(CP_ACP ,MB_PRECOMPOSED,s,-1,NULL,0);
if (i<0) return NULL;
wchar_t *d=(wchar_t *)malloc((i+1)*sizeof(XMLCHAR));
if (ce==XMLNode::char_encoding_UTF8) i=(int)MultiByteToWideChar(CP_UTF8,0 ,s,-1,d,i);
else i=(int)MultiByteToWideChar(CP_ACP ,MB_PRECOMPOSED,s,-1,d,i);
d[i]=0;
return d;
}
static inline FILE *xfopen(XMLCSTR filename,XMLCSTR mode) { return _wfopen(filename,mode); }
static inline int xstrlen(XMLCSTR c) { return (int)wcslen(c); }
static inline int xstrnicmp(XMLCSTR c1, XMLCSTR c2, int l) { return _wcsnicmp(c1,c2,l);}
static inline int xstrncmp(XMLCSTR c1, XMLCSTR c2, int l) { return wcsncmp(c1,c2,l);}
static inline int xstricmp(XMLCSTR c1, XMLCSTR c2) { return _wcsicmp(c1,c2); }
static inline XMLSTR xstrstr(XMLCSTR c1, XMLCSTR c2) { return (XMLSTR)wcsstr(c1,c2); }
static inline XMLSTR xstrcpy(XMLSTR c1, XMLCSTR c2) { return (XMLSTR)wcscpy(c1,c2); }
#else
char *myWideCharToMultiByte(const wchar_t *s)
{
UINT codePage=CP_ACP; if (characterEncoding==XMLNode::char_encoding_UTF8) codePage=CP_UTF8;
int i=(int)WideCharToMultiByte(codePage, // code page
0, // performance and mapping flags
s, // wide-character string
-1, // number of chars in string
NULL, // buffer for new string
0, // size of buffer
NULL, // default for unmappable chars
NULL // set when default char used
);
if (i<0) return NULL;
char *d=(char*)malloc(i+1);
WideCharToMultiByte(codePage, // code page
0, // performance and mapping flags
s, // wide-character string
-1, // number of chars in string
d, // buffer for new string
i, // size of buffer
NULL, // default for unmappable chars
NULL // set when default char used
);
d[i]=0;
return d;
}
static inline FILE *xfopen(XMLCSTR filename,XMLCSTR mode) { return fopen(filename,mode); }
static inline int xstrlen(XMLCSTR c) { return (int)strlen(c); }
#ifdef __BORLANDC__
static inline int xstrnicmp(XMLCSTR c1, XMLCSTR c2, int l) { return strnicmp(c1,c2,l);}
static inline int xstricmp(XMLCSTR c1, XMLCSTR c2) { return stricmp(c1,c2); }
#else
static inline int xstrnicmp(XMLCSTR c1, XMLCSTR c2, int l) { return _strnicmp(c1,c2,l);}
static inline int xstricmp(XMLCSTR c1, XMLCSTR c2) { return _stricmp(c1,c2); }
#endif
static inline int xstrncmp(XMLCSTR c1, XMLCSTR c2, int l) { return strncmp(c1,c2,l);}
static inline XMLSTR xstrstr(XMLCSTR c1, XMLCSTR c2) { return (XMLSTR)strstr(c1,c2); }
static inline XMLSTR xstrcpy(XMLSTR c1, XMLCSTR c2) { return (XMLSTR)strcpy(c1,c2); }
#endif
#else
// for gcc and CC
#ifdef XML_NO_WIDE_CHAR
char *myWideCharToMultiByte(const wchar_t *s) { return NULL; }
#else
char *myWideCharToMultiByte(const wchar_t *s)
{
const wchar_t *ss=s;
int i=(int)wcsrtombs(NULL,&ss,0,NULL);
if (i<0) return NULL;
char *d=(char *)malloc(i+1);
wcsrtombs(d,&s,i,NULL);
d[i]=0;
return d;
}
#endif
#ifdef _XMLWIDECHAR
wchar_t *myMultiByteToWideChar(const char *s, XMLNode::XMLCharEncoding ce)
{
const char *ss=s;
int i=(int)mbsrtowcs(NULL,&ss,0,NULL);
if (i<0) return NULL;
wchar_t *d=(wchar_t *)malloc((i+1)*sizeof(wchar_t));
mbsrtowcs(d,&s,i,NULL);
d[i]=0;
return d;
}
int xstrlen(XMLCSTR c) { return wcslen(c); }
#ifdef sun
// for CC
#include <widec.h>
static inline int xstrnicmp(XMLCSTR c1, XMLCSTR c2, int l) { return wsncasecmp(c1,c2,l);}
static inline int xstrncmp(XMLCSTR c1, XMLCSTR c2, int l) { return wsncmp(c1,c2,l);}
static inline int xstricmp(XMLCSTR c1, XMLCSTR c2) { return wscasecmp(c1,c2); }
#else
// for gcc
static inline int xstrnicmp(XMLCSTR c1, XMLCSTR c2, int l) { return wcsncasecmp(c1,c2,l);}
static inline int xstrncmp(XMLCSTR c1, XMLCSTR c2, int l) { return wcsncmp(c1,c2,l);}
static inline int xstricmp(XMLCSTR c1, XMLCSTR c2) { return wcscasecmp(c1,c2); }
#endif
static inline XMLSTR xstrstr(XMLCSTR c1, XMLCSTR c2) { return (XMLSTR)wcsstr(c1,c2); }
static inline XMLSTR xstrcpy(XMLSTR c1, XMLCSTR c2) { return (XMLSTR)wcscpy(c1,c2); }
static inline FILE *xfopen(XMLCSTR filename,XMLCSTR mode)
{
char *filenameAscii=myWideCharToMultiByte(filename);
FILE *f;
if (mode[0]==_CXML('r')) f=fopen(filenameAscii,"rb");
else f=fopen(filenameAscii,"wb");
free(filenameAscii);
return f;
}
#else
static inline FILE *xfopen(XMLCSTR filename,XMLCSTR mode) { return fopen(filename,mode); }
static inline int xstrlen(XMLCSTR c) { return strlen(c); }
static inline int xstrnicmp(XMLCSTR c1, XMLCSTR c2, int l) { return strncasecmp(c1,c2,l);}
static inline int xstrncmp(XMLCSTR c1, XMLCSTR c2, int l) { return strncmp(c1,c2,l);}
static inline int xstricmp(XMLCSTR c1, XMLCSTR c2) { return strcasecmp(c1,c2); }
static inline XMLSTR xstrstr(XMLCSTR c1, XMLCSTR c2) { return (XMLSTR)strstr(c1,c2); }
static inline XMLSTR xstrcpy(XMLSTR c1, XMLCSTR c2) { return (XMLSTR)strcpy(c1,c2); }
#endif
static inline int _strnicmp(const char *c1,const char *c2, int l) { return strncasecmp(c1,c2,l);}
#endif
///////////////////////////////////////////////////////////////////////////////
// the "xmltoc,xmltob,xmltoi,xmltol,xmltof,xmltoa" functions //
///////////////////////////////////////////////////////////////////////////////
// These 6 functions are not used inside the XMLparser.
// There are only here as "convenience" functions for the user.
// If you don't need them, you can delete them without any trouble.
#ifdef _XMLWIDECHAR
#ifdef _XMLWINDOWS
// for Microsoft Visual Studio 6.0 and Microsoft Visual Studio .NET and Borland C++ Builder 6.0
char xmltob(XMLCSTR t,int v){ if (t&&(*t)) return (char)_wtoi(t); return v; }
int xmltoi(XMLCSTR t,int v){ if (t&&(*t)) return _wtoi(t); return v; }
long xmltol(XMLCSTR t,long v){ if (t&&(*t)) return _wtol(t); return v; }
double xmltof(XMLCSTR t,double v){ if (t&&(*t)) wscanf(t, "%f", &v); /*v=_wtof(t);*/ return v; }
#else
#ifdef sun
// for CC
#include <widec.h>
char xmltob(XMLCSTR t,int v){ if (t) return (char)wstol(t,NULL,10); return v; }
int xmltoi(XMLCSTR t,int v){ if (t) return (int)wstol(t,NULL,10); return v; }
long xmltol(XMLCSTR t,long v){ if (t) return wstol(t,NULL,10); return v; }
#else
// for gcc
char xmltob(XMLCSTR t,int v){ if (t) return (char)wcstol(t,NULL,10); return v; }
int xmltoi(XMLCSTR t,int v){ if (t) return (int)wcstol(t,NULL,10); return v; }
long xmltol(XMLCSTR t,long v){ if (t) return wcstol(t,NULL,10); return v; }
#endif
double xmltof(XMLCSTR t,double v){ if (t&&(*t)) wscanf(t, "%f", &v); /*v=_wtof(t);*/ return v; }
#endif
#else
char xmltob(XMLCSTR t,char v){ if (t&&(*t)) return (char)atoi(t); return v; }
int xmltoi(XMLCSTR t,int v){ if (t&&(*t)) return atoi(t); return v; }
long xmltol(XMLCSTR t,long v){ if (t&&(*t)) return atol(t); return v; }
double xmltof(XMLCSTR t,double v){ if (t&&(*t)) return atof(t); return v; }
#endif
XMLCSTR xmltoa(XMLCSTR t,XMLCSTR v){ if (t) return t; return v; }
XMLCHAR xmltoc(XMLCSTR t,XMLCHAR v){ if (t&&(*t)) return *t; return v; }
/////////////////////////////////////////////////////////////////////////
// the "openFileHelper" function //
/////////////////////////////////////////////////////////////////////////
// Since each application has its own way to report and deal with errors, you should modify & rewrite
// the following "openFileHelper" function to get an "error reporting mechanism" tailored to your needs.
XMLNode XMLNode::openFileHelper(XMLCSTR filename, XMLCSTR tag)
{
// guess the value of the global parameter "characterEncoding"
// (the guess is based on the first 200 bytes of the file).
FILE *f=xfopen(filename,_CXML("rb"));
if (f)
{
char bb[205];
int l=(int)fread(bb,1,200,f);
setGlobalOptions(guessCharEncoding(bb,l),guessWideCharChars,dropWhiteSpace,removeCommentsInMiddleOfText);
fclose(f);
}
// parse the file
XMLResults pResults;
XMLNode xnode=XMLNode::parseFile(filename,tag,&pResults);
// display error message (if any)
if (pResults.error != eXMLErrorNone)
{
// create message
char message[2000],*s1=(char*)"",*s3=(char*)""; XMLCSTR s2=_CXML("");
if (pResults.error==eXMLErrorFirstTagNotFound) { s1=(char*)"First Tag should be '"; s2=tag; s3=(char*)"'.\n"; }
sprintf(message,
#ifdef _XMLWIDECHAR
"XML Parsing error inside file '%S'.\n%S\nAt line %i, column %i.\n%s%S%s"
#else
"XML Parsing error inside file '%s'.\n%s\nAt line %i, column %i.\n%s%s%s"
#endif
,filename,XMLNode::getError(pResults.error),pResults.nLine,pResults.nColumn,s1,s2,s3);
// display message
#if defined(_XMLWINDOWS) && !defined(UNDER_CE) && !defined(_XMLPARSER_NO_MESSAGEBOX_)
MessageBoxA(NULL,message,"XML Parsing error",MB_OK|MB_ICONERROR|MB_TOPMOST);
#else
printf("%s",message);
#endif
exit(255);
}
return xnode;
}
/////////////////////////////////////////////////////////////////////////
// Here start the core implementation of the XMLParser library //
/////////////////////////////////////////////////////////////////////////
// You should normally not change anything below this point.
#ifndef _XMLWIDECHAR
// If "characterEncoding=ascii" then we assume that all characters have the same length of 1 byte.
// If "characterEncoding=UTF8" then the characters have different lengths (from 1 byte to 4 bytes).
// If "characterEncoding=ShiftJIS" then the characters have different lengths (from 1 byte to 2 bytes).
// This table is used as lookup-table to know the length of a character (in byte) based on the
// content of the first byte of the character.
// (note: if you modify this, you must always have XML_utf8ByteTable[0]=0 ).
static const char XML_utf8ByteTable[256] =
{
// 0 1 2 3 4 5 6 7 8 9 a b c d e f
0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x00
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x10
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x20
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x30
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x40
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x50
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x60
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x70 End of ASCII range
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x80 0x80 to 0xc1 invalid
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x90
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0xa0
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0xb0
1,1,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xc0 0xc2 to 0xdf 2 byte
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xd0
3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,// 0xe0 0xe0 to 0xef 3 byte
4,4,4,4,4,1,1,1,1,1,1,1,1,1,1,1 // 0xf0 0xf0 to 0xf4 4 byte, 0xf5 and higher invalid
};
static const char XML_legacyByteTable[256] =
{
0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1
};
static const char XML_sjisByteTable[256] =
{
// 0 1 2 3 4 5 6 7 8 9 a b c d e f
0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x00
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x10
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x20
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x30
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x40
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x50
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x60
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x70
1,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0x80 0x81 to 0x9F 2 bytes
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0x90
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0xa0
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0xb0
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0xc0
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0xd0
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xe0 0xe0 to 0xef 2 bytes
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1 // 0xf0
};
static const char XML_gb2312ByteTable[256] =
{
// 0 1 2 3 4 5 6 7 8 9 a b c d e f
0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x00
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x10
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x20
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x30
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x40
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x50
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x60
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x70
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x80
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x90
1,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xa0 0xa1 to 0xf7 2 bytes
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xb0
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xc0
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xd0
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xe0
2,2,2,2,2,2,2,2,1,1,1,1,1,1,1,1 // 0xf0
};
static const char XML_gbk_big5_ByteTable[256] =
{
// 0 1 2 3 4 5 6 7 8 9 a b c d e f
0,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x00
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x10
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x20
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x30
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x40
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x50
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x60
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,// 0x70
1,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0x80 0x81 to 0xfe 2 bytes
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0x90
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xa0
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xb0
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xc0
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xd0
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,// 0xe0
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,1 // 0xf0
};
static const char *XML_ByteTable=(const char *)XML_utf8ByteTable; // the default is "characterEncoding=XMLNode::encoding_UTF8"
#endif
XMLNode XMLNode::emptyXMLNode;
XMLClear XMLNode::emptyXMLClear={ NULL, NULL, NULL};
XMLAttribute XMLNode::emptyXMLAttribute={ NULL, NULL};
// Enumeration used to decipher what type a token is
typedef enum XMLTokenTypeTag
{
eTokenText = 0,
eTokenQuotedText,
eTokenTagStart, /* "<" */
eTokenTagEnd, /* "</" */
eTokenCloseTag, /* ">" */
eTokenEquals, /* "=" */
eTokenDeclaration, /* "<?" */
eTokenShortHandClose, /* "/>" */
eTokenClear,
eTokenError
} XMLTokenType;
// Main structure used for parsing XML
typedef struct XML
{
XMLCSTR lpXML;
XMLCSTR lpszText;
int nIndex,nIndexMissigEndTag;
enum XMLError error;
XMLCSTR lpEndTag;
int cbEndTag;
XMLCSTR lpNewElement;
int cbNewElement;
int nFirst;
} XML;
typedef struct
{
ALLXMLClearTag *pClr;
XMLCSTR pStr;
} NextToken;
// Enumeration used when parsing attributes
typedef enum Attrib
{
eAttribName = 0,
eAttribEquals,
eAttribValue
} Attrib;
// Enumeration used when parsing elements to dictate whether we are currently
// inside a tag
typedef enum Status
{
eInsideTag = 0,
eOutsideTag
} Status;
XMLError XMLNode::writeToFile(XMLCSTR filename, const char *encoding, char nFormat) const
{
if (!d) return eXMLErrorNone;
FILE *f=xfopen(filename,_CXML("wb"));
if (!f) return eXMLErrorCannotOpenWriteFile;
#ifdef _XMLWIDECHAR
unsigned char h[2]={ 0xFF, 0xFE };
if (!fwrite(h,2,1,f))
{
fclose(f);
return eXMLErrorCannotWriteFile;
}
if ((!isDeclaration())&&((d->lpszName)||(!getChildNode().isDeclaration())))
{
if (!fwrite(L"<?xml version=\"1.0\" encoding=\"utf-16\"?>\n",sizeof(wchar_t)*40,1,f))
{
fclose(f);
return eXMLErrorCannotWriteFile;
}
}
#else
if ((!isDeclaration())&&((d->lpszName)||(!getChildNode().isDeclaration())))
{
if (characterEncoding==char_encoding_UTF8)
{
// header so that windows recognize the file as UTF-8:
unsigned char h[3]={0xEF,0xBB,0xBF};
if (!fwrite(h,3,1,f))
{
fclose(f);
return eXMLErrorCannotWriteFile;
}
encoding="utf-8";
} else if (characterEncoding==char_encoding_ShiftJIS) encoding="SHIFT-JIS";
if (!encoding) encoding="ISO-8859-1";
if (fprintf(f,"<?xml version=\"1.0\" encoding=\"%s\"?>\n",encoding)<0)
{
fclose(f);
return eXMLErrorCannotWriteFile;
}
} else
{
if (characterEncoding==char_encoding_UTF8)
{
unsigned char h[3]={0xEF,0xBB,0xBF};
if (!fwrite(h,3,1,f))
{
fclose(f);
return eXMLErrorCannotWriteFile;
}
}
}
#endif
int i;
XMLSTR t=createXMLString(nFormat,&i);
if (!fwrite(t,sizeof(XMLCHAR)*i,1,f))
{
fclose(f);
return eXMLErrorCannotWriteFile;
}
if (fclose(f)!=0) return eXMLErrorCannotWriteFile;
free(t);
return eXMLErrorNone;
}
// Duplicate a given string.
XMLSTR stringDup(XMLCSTR lpszData, int cbData)
{
if (lpszData==NULL) return NULL;
XMLSTR lpszNew;
if (cbData==-1) cbData=(int)xstrlen(lpszData);
lpszNew = (XMLSTR)malloc((cbData+1) * sizeof(XMLCHAR));
if (lpszNew)
{
memcpy(lpszNew, lpszData, (cbData) * sizeof(XMLCHAR));
lpszNew[cbData] = (XMLCHAR)NULL;
}
return lpszNew;
}
XMLSTR ToXMLStringTool::toXMLUnSafe(XMLSTR dest,XMLCSTR source)
{
XMLSTR dd=dest;
XMLCHAR ch;
XMLCharacterEntity *entity;
while ((ch=*source))
{
entity=XMLEntities;
do
{
if (ch==entity->c) {xstrcpy(dest,entity->s); dest+=entity->l; source++; goto out_of_loop1; }
entity++;
} while(entity->s);
#ifdef _XMLWIDECHAR
*(dest++)=*(source++);
#else
switch(XML_ByteTable[(unsigned char)ch])
{
case 4: *(dest++)=*(source++);
case 3: *(dest++)=*(source++);
case 2: *(dest++)=*(source++);
case 1: *(dest++)=*(source++);
}
#endif
out_of_loop1:
;
}
*dest=0;
return dd;
}
// private (used while rendering):
int ToXMLStringTool::lengthXMLString(XMLCSTR source)
{
int r=0;
XMLCharacterEntity *entity;
XMLCHAR ch;
while ((ch=*source))
{
entity=XMLEntities;
do
{
if (ch==entity->c) { r+=entity->l; source++; goto out_of_loop1; }
entity++;
} while(entity->s);
#ifdef _XMLWIDECHAR
r++; source++;
#else
ch=XML_ByteTable[(unsigned char)ch]; r+=ch; source+=ch;
#endif
out_of_loop1:
;
}
return r;
}
ToXMLStringTool::~ToXMLStringTool(){ freeBuffer(); }
void ToXMLStringTool::freeBuffer(){ if (buf) free(buf); buf=NULL; buflen=0; }
XMLSTR ToXMLStringTool::toXML(XMLCSTR source)
{
int l=lengthXMLString(source)+1;
if (l>buflen) { buflen=l; buf=(XMLSTR)realloc(buf,l*sizeof(XMLCHAR)); }
return toXMLUnSafe(buf,source);
}
// private:
XMLSTR fromXMLString(XMLCSTR s, int lo, XML *pXML)
{
// This function is the opposite of the function "toXMLString". It decodes the escape
// sequences &, ", ', <, > and replace them by the characters
// &,",',<,>. This function is used internally by the XML Parser. All the calls to
// the XML library will always gives you back "decoded" strings.
//
// in: string (s) and length (lo) of string
// out: new allocated string converted from xml
if (!s) return NULL;
int ll=0,j;
XMLSTR d;
XMLCSTR ss=s;
XMLCharacterEntity *entity;
while ((lo>0)&&(*s))
{
if (*s==_CXML('&'))
{
if ((lo>2)&&(s[1]==_CXML('#')))
{
s+=2; lo-=2;
if ((*s==_CXML('X'))||(*s==_CXML('x'))) { s++; lo--; }
while ((*s)&&(*s!=_CXML(';'))&&((lo--)>0)) s++;
if (*s!=_CXML(';'))
{
pXML->error=eXMLErrorUnknownCharacterEntity;
return NULL;
}
s++; lo--;
} else
{
entity=XMLEntities;
do
{
if ((lo>=entity->l)&&(xstrnicmp(s,entity->s,entity->l)==0)) { s+=entity->l; lo-=entity->l; break; }
entity++;
} while(entity->s);
if (!entity->s)
{
pXML->error=eXMLErrorUnknownCharacterEntity;
return NULL;
}
}
} else
{
#ifdef _XMLWIDECHAR
s++; lo--;
#else
j=XML_ByteTable[(unsigned char)*s]; s+=j; lo-=j; ll+=j-1;
#endif
}
ll++;
}
d=(XMLSTR)malloc((ll+1)*sizeof(XMLCHAR));
s=d;
while (ll-->0)
{
if (*ss==_CXML('&'))
{
if (ss[1]==_CXML('#'))
{
ss+=2; j=0;
if ((*ss==_CXML('X'))||(*ss==_CXML('x')))
{
ss++;
while (*ss!=_CXML(';'))
{
if ((*ss>=_CXML('0'))&&(*ss<=_CXML('9'))) j=(j<<4)+*ss-_CXML('0');
else if ((*ss>=_CXML('A'))&&(*ss<=_CXML('F'))) j=(j<<4)+*ss-_CXML('A')+10;
else if ((*ss>=_CXML('a'))&&(*ss<=_CXML('f'))) j=(j<<4)+*ss-_CXML('a')+10;
else { free((void*)s); pXML->error=eXMLErrorUnknownCharacterEntity;return NULL;}
ss++;
}
} else
{
while (*ss!=_CXML(';'))
{
if ((*ss>=_CXML('0'))&&(*ss<=_CXML('9'))) j=(j*10)+*ss-_CXML('0');
else { free((void*)s); pXML->error=eXMLErrorUnknownCharacterEntity;return NULL;}
ss++;
}
}
#ifndef _XMLWIDECHAR
if (j>255) { free((void*)s); pXML->error=eXMLErrorCharacterCodeAbove255;return NULL;}
#endif
(*d++)=(XMLCHAR)j; ss++;
} else
{
entity=XMLEntities;
do
{
if (xstrnicmp(ss,entity->s,entity->l)==0) { *(d++)=entity->c; ss+=entity->l; break; }
entity++;
} while(entity->s);
}
} else
{
#ifdef _XMLWIDECHAR
*(d++)=*(ss++);
#else
switch(XML_ByteTable[(unsigned char)*ss])
{
case 4: *(d++)=*(ss++); ll--;
case 3: *(d++)=*(ss++); ll--;
case 2: *(d++)=*(ss++); ll--;
case 1: *(d++)=*(ss++);
}
#endif
}
}
*d=0;
return (XMLSTR)s;
}
#define XML_isSPACECHAR(ch) ((ch==_CXML('\n'))||(ch==_CXML(' '))||(ch== _CXML('\t'))||(ch==_CXML('\r')))
// private:
char myTagCompare(XMLCSTR cclose, XMLCSTR copen)
// !!!! WARNING strange convention&:
// return 0 if equals
// return 1 if different
{
if (!cclose) return 1;
int l=(int)xstrlen(cclose);
if (xstrnicmp(cclose, copen, l)!=0) return 1;
const XMLCHAR c=copen[l];
if (XML_isSPACECHAR(c)||
(c==_CXML('/' ))||
(c==_CXML('<' ))||
(c==_CXML('>' ))||
(c==_CXML('=' ))) return 0;
return 1;
}
// Obtain the next character from the string.
static inline XMLCHAR getNextChar(XML *pXML)
{
XMLCHAR ch = pXML->lpXML[pXML->nIndex];
#ifdef _XMLWIDECHAR
if (ch!=0) pXML->nIndex++;
#else
pXML->nIndex+=XML_ByteTable[(unsigned char)ch];
#endif
return ch;
}
// Find the next token in a string.
// pcbToken contains the number of characters that have been read.
static NextToken GetNextToken(XML *pXML, int *pcbToken, enum XMLTokenTypeTag *pType)
{
NextToken result;
XMLCHAR ch;
XMLCHAR chTemp;
int indexStart,nFoundMatch,nIsText=FALSE;
result.pClr=NULL; // prevent warning
// Find next non-white space character
do { indexStart=pXML->nIndex; ch=getNextChar(pXML); } while XML_isSPACECHAR(ch);
if (ch)
{
// Cache the current string pointer
result.pStr = &pXML->lpXML[indexStart];
// First check whether the token is in the clear tag list (meaning it
// does not need formatting).
ALLXMLClearTag *ctag=XMLClearTags;
do
{
if (xstrncmp(ctag->lpszOpen, result.pStr, ctag->openTagLen)==0)
{
result.pClr=ctag;
pXML->nIndex+=ctag->openTagLen-1;
*pType=eTokenClear;
return result;
}
ctag++;
} while(ctag->lpszOpen);
// If we didn't find a clear tag then check for standard tokens
switch(ch)
{
// Check for quotes
case _CXML('\''):
case _CXML('\"'):
// Type of token
*pType = eTokenQuotedText;
chTemp = ch;
// Set the size
nFoundMatch = FALSE;
// Search through the string to find a matching quote
while((ch = getNextChar(pXML)))
{
if (ch==chTemp) { nFoundMatch = TRUE; break; }
if (ch==_CXML('<')) break;
}
// If we failed to find a matching quote
if (nFoundMatch == FALSE)
{
pXML->nIndex=indexStart+1;
nIsText=TRUE;
break;
}
// 4.02.2002
// if (FindNonWhiteSpace(pXML)) pXML->nIndex--;
break;
// Equals (used with attribute values)
case _CXML('='):
*pType = eTokenEquals;
break;
// Close tag
case _CXML('>'):
*pType = eTokenCloseTag;
break;
// Check for tag start and tag end
case _CXML('<'):
// Peek at the next character to see if we have an end tag '</',
// or an xml declaration '<?'
chTemp = pXML->lpXML[pXML->nIndex];
// If we have a tag end...
if (chTemp == _CXML('/'))
{
// Set the type and ensure we point at the next character
getNextChar(pXML);
*pType = eTokenTagEnd;
}
// If we have an XML declaration tag
else if (chTemp == _CXML('?'))
{
// Set the type and ensure we point at the next character
getNextChar(pXML);
*pType = eTokenDeclaration;
}
// Otherwise we must have a start tag
else
{
*pType = eTokenTagStart;
}
break;
// Check to see if we have a short hand type end tag ('/>').
case _CXML('/'):
// Peek at the next character to see if we have a short end tag '/>'
chTemp = pXML->lpXML[pXML->nIndex];
// If we have a short hand end tag...
if (chTemp == _CXML('>'))
{
// Set the type and ensure we point at the next character
getNextChar(pXML);
*pType = eTokenShortHandClose;
break;
}
// If we haven't found a short hand closing tag then drop into the
// text process
// Other characters
default:
nIsText = TRUE;
}
// If this is a TEXT node
if (nIsText)
{
// Indicate we are dealing with text
*pType = eTokenText;
while((ch = getNextChar(pXML)))
{
if XML_isSPACECHAR(ch)
{
indexStart++; break;
} else if (ch==_CXML('/'))
{
// If we find a slash then this maybe text or a short hand end tag
// Peek at the next character to see it we have short hand end tag
ch=pXML->lpXML[pXML->nIndex];
// If we found a short hand end tag then we need to exit the loop
if (ch==_CXML('>')) { pXML->nIndex--; break; }
} else if ((ch==_CXML('<'))||(ch==_CXML('>'))||(ch==_CXML('=')))
{
pXML->nIndex--; break;
}
}
}
*pcbToken = pXML->nIndex-indexStart;
} else
{
// If we failed to obtain a valid character
*pcbToken = 0;
*pType = eTokenError;
result.pStr=NULL;
}
return result;
}
XMLCSTR XMLNode::updateName_WOSD(XMLSTR lpszName)
{
if (!d) { free(lpszName); return NULL; }
if (d->lpszName&&(lpszName!=d->lpszName)) free((void*)d->lpszName);
d->lpszName=lpszName;
return lpszName;
}
// private:
XMLNode::XMLNode(struct XMLNodeDataTag *p){ d=p; (p->ref_count)++; }
XMLNode::XMLNode(XMLNodeData *pParent, XMLSTR lpszName, char isDeclaration)
{
d=(XMLNodeData*)malloc(sizeof(XMLNodeData));
d->ref_count=1;
d->lpszName=NULL;
d->nChild= 0;
d->nText = 0;
d->nClear = 0;
d->nAttribute = 0;
d->isDeclaration = isDeclaration;
d->pParent = pParent;
d->pChild= NULL;
d->pText= NULL;
d->pClear= NULL;
d->pAttribute= NULL;
d->pOrder= NULL;
updateName_WOSD(lpszName);
}
XMLNode XMLNode::createXMLTopNode_WOSD(XMLSTR lpszName, char isDeclaration) { return XMLNode(NULL,lpszName,isDeclaration); }
XMLNode XMLNode::createXMLTopNode(XMLCSTR lpszName, char isDeclaration) { return XMLNode(NULL,stringDup(lpszName),isDeclaration); }
#define MEMORYINCREASE 50
static inline void myFree(void *p) { if (p) free(p); }
static inline void *myRealloc(void *p, int newsize, int memInc, int sizeofElem)
{
if (p==NULL) { if (memInc) return malloc(memInc*sizeofElem); return malloc(sizeofElem); }
if ((memInc==0)||((newsize%memInc)==0)) p=realloc(p,(newsize+memInc)*sizeofElem);
// if (!p)
// {
// printf("XMLParser Error: Not enough memory! Aborting...\n"); exit(220);
// }
return p;
}
// private:
XMLElementPosition XMLNode::findPosition(XMLNodeData *d, int index, XMLElementType xxtype)
{
if (index<0) return -1;
int i=0,j=(int)((index<<2)+xxtype),*o=d->pOrder; while (o[i]!=j) i++; return i;
}
// private:
// update "order" information when deleting a content of a XMLNode
int XMLNode::removeOrderElement(XMLNodeData *d, XMLElementType t, int index)
{
int n=d->nChild+d->nText+d->nClear, *o=d->pOrder,i=findPosition(d,index,t);
memmove(o+i, o+i+1, (n-i)*sizeof(int));
for (;i<n;i++)
if ((o[i]&3)==(int)t) o[i]-=4;
// We should normally do:
// d->pOrder=(int)realloc(d->pOrder,n*sizeof(int));
// but we skip reallocation because it's too time consuming.
// Anyway, at the end, it will be free'd completely at once.
return i;
}
void *XMLNode::addToOrder(int memoryIncrease,int *_pos, int nc, void *p, int size, XMLElementType xtype)
{
// in: *_pos is the position inside d->pOrder ("-1" means "EndOf")
// out: *_pos is the index inside p
p=myRealloc(p,(nc+1),memoryIncrease,size);
int n=d->nChild+d->nText+d->nClear;
d->pOrder=(int*)myRealloc(d->pOrder,n+1,memoryIncrease*3,sizeof(int));
int pos=*_pos,*o=d->pOrder;
if ((pos<0)||(pos>=n)) { *_pos=nc; o[n]=(int)((nc<<2)+xtype); return p; }
int i=pos;
memmove(o+i+1, o+i, (n-i)*sizeof(int));
while ((pos<n)&&((o[pos]&3)!=(int)xtype)) pos++;
if (pos==n) { *_pos=nc; o[n]=(int)((nc<<2)+xtype); return p; }
o[i]=o[pos];
for (i=pos+1;i<=n;i++) if ((o[i]&3)==(int)xtype) o[i]+=4;
*_pos=pos=o[pos]>>2;
memmove(((char*)p)+(pos+1)*size,((char*)p)+pos*size,(nc-pos)*size);
return p;
}
// Add a child node to the given element.
XMLNode XMLNode::addChild_priv(int memoryIncrease, XMLSTR lpszName, char isDeclaration, int pos)
{
if (!lpszName) return emptyXMLNode;
d->pChild=(XMLNode*)addToOrder(memoryIncrease,&pos,d->nChild,d->pChild,sizeof(XMLNode),eNodeChild);
d->pChild[pos].d=NULL;
d->pChild[pos]=XMLNode(d,lpszName,isDeclaration);
d->nChild++;
return d->pChild[pos];
}
// Add an attribute to an element.
XMLAttribute *XMLNode::addAttribute_priv(int memoryIncrease,XMLSTR lpszName, XMLSTR lpszValuev)
{
if (!lpszName) return &emptyXMLAttribute;
if (!d) { myFree(lpszName); myFree(lpszValuev); return &emptyXMLAttribute; }
int nc=d->nAttribute;
d->pAttribute=(XMLAttribute*)myRealloc(d->pAttribute,(nc+1),memoryIncrease,sizeof(XMLAttribute));
XMLAttribute *pAttr=d->pAttribute+nc;
pAttr->lpszName = lpszName;
pAttr->lpszValue = lpszValuev;
d->nAttribute++;
return pAttr;
}
// Add text to the element.
XMLCSTR XMLNode::addText_priv(int memoryIncrease, XMLSTR lpszValue, int pos)
{
if (!lpszValue) return NULL;
if (!d) { myFree(lpszValue); return NULL; }
d->pText=(XMLCSTR*)addToOrder(memoryIncrease,&pos,d->nText,d->pText,sizeof(XMLSTR),eNodeText);
d->pText[pos]=lpszValue;
d->nText++;
return lpszValue;
}
// Add clear (unformatted) text to the element.
XMLClear *XMLNode::addClear_priv(int memoryIncrease, XMLSTR lpszValue, XMLCSTR lpszOpen, XMLCSTR lpszClose, int pos)
{
if (!lpszValue) return &emptyXMLClear;
if (!d) { myFree(lpszValue); return &emptyXMLClear; }
d->pClear=(XMLClear *)addToOrder(memoryIncrease,&pos,d->nClear,d->pClear,sizeof(XMLClear),eNodeClear);
XMLClear *pNewClear=d->pClear+pos;
pNewClear->lpszValue = lpszValue;
if (!lpszOpen) lpszOpen=XMLClearTags->lpszOpen;
if (!lpszClose) lpszClose=XMLClearTags->lpszClose;
pNewClear->lpszOpenTag = lpszOpen;
pNewClear->lpszCloseTag = lpszClose;
d->nClear++;
return pNewClear;
}
// private:
// Parse a clear (unformatted) type node.
char XMLNode::parseClearTag(void *px, void *_pClear)
{
XML *pXML=(XML *)px;
ALLXMLClearTag pClear=*((ALLXMLClearTag*)_pClear);
int cbTemp=0;
XMLCSTR lpszTemp=NULL;
XMLCSTR lpXML=&pXML->lpXML[pXML->nIndex];
static XMLCSTR docTypeEnd=_CXML("]>");
// Find the closing tag
// Seems the <!DOCTYPE need a better treatment so lets handle it
if (pClear.lpszOpen==XMLClearTags[1].lpszOpen)
{
XMLCSTR pCh=lpXML;
while (*pCh)
{
if (*pCh==_CXML('<')) { pClear.lpszClose=docTypeEnd; lpszTemp=xstrstr(lpXML,docTypeEnd); break; }
else if (*pCh==_CXML('>')) { lpszTemp=pCh; break; }
#ifdef _XMLWIDECHAR
pCh++;
#else
pCh+=XML_ByteTable[(unsigned char)(*pCh)];
#endif
}
} else lpszTemp=xstrstr(lpXML, pClear.lpszClose);
if (lpszTemp)
{
// Cache the size and increment the index
cbTemp = (int)(lpszTemp - lpXML);
pXML->nIndex += cbTemp+(int)xstrlen(pClear.lpszClose);
// Add the clear node to the current element
addClear_priv(MEMORYINCREASE,stringDup(lpXML,cbTemp), pClear.lpszOpen, pClear.lpszClose,-1);
return 0;
}
// If we failed to find the end tag
pXML->error = eXMLErrorUnmatchedEndClearTag;
return 1;
}
void XMLNode::exactMemory(XMLNodeData *d)
{
if (d->pOrder) d->pOrder=(int*)realloc(d->pOrder,(d->nChild+d->nText+d->nClear)*sizeof(int));
if (d->pChild) d->pChild=(XMLNode*)realloc(d->pChild,d->nChild*sizeof(XMLNode));
if (d->pAttribute) d->pAttribute=(XMLAttribute*)realloc(d->pAttribute,d->nAttribute*sizeof(XMLAttribute));
if (d->pText) d->pText=(XMLCSTR*)realloc(d->pText,d->nText*sizeof(XMLSTR));
if (d->pClear) d->pClear=(XMLClear *)realloc(d->pClear,d->nClear*sizeof(XMLClear));
}
char XMLNode::maybeAddTxT(void *pa, XMLCSTR tokenPStr)
{
XML *pXML=(XML *)pa;
XMLCSTR lpszText=pXML->lpszText;
if (!lpszText) return 0;
if (dropWhiteSpace) while (XML_isSPACECHAR(*lpszText)&&(lpszText!=tokenPStr)) lpszText++;
int cbText = (int)(tokenPStr - lpszText);
if (!cbText) { pXML->lpszText=NULL; return 0; }
if (dropWhiteSpace) { cbText--; while ((cbText)&&XML_isSPACECHAR(lpszText[cbText])) cbText--; cbText++; }
if (!cbText) { pXML->lpszText=NULL; return 0; }
XMLSTR lpt=fromXMLString(lpszText,cbText,pXML);
if (!lpt) return 1;
pXML->lpszText=NULL;
if (removeCommentsInMiddleOfText && d->nText && d->nClear)
{
// if the previous insertion was a comment (<!-- -->) AND
// if the previous previous insertion was a text then, delete the comment and append the text
int n=d->nChild+d->nText+d->nClear-1,*o=d->pOrder;
if (((o[n]&3)==eNodeClear)&&((o[n-1]&3)==eNodeText))
{
int i=o[n]>>2;
if (d->pClear[i].lpszOpenTag==XMLClearTags[2].lpszOpen)
{
deleteClear(i);
i=o[n-1]>>2;
n=xstrlen(d->pText[i]);
int n2=xstrlen(lpt)+1;
d->pText[i]=(XMLSTR)realloc((void*)d->pText[i],(n+n2)*sizeof(XMLCHAR));
if (!d->pText[i]) return 1;
memcpy((void*)(d->pText[i]+n),lpt,n2*sizeof(XMLCHAR));
free(lpt);
return 0;
}
}
}
addText_priv(MEMORYINCREASE,lpt,-1);
return 0;
}
// private:
// Recursively parse an XML element.
int XMLNode::ParseXMLElement(void *pa)
{
XML *pXML=(XML *)pa;
int cbToken;
enum XMLTokenTypeTag xtype;
NextToken token;
XMLCSTR lpszTemp=NULL;
int cbTemp=0;
char nDeclaration;
XMLNode pNew;
enum Status status; // inside or outside a tag
enum Attrib attrib = eAttribName;
assert(pXML);
// If this is the first call to the function
if (pXML->nFirst)
{
// Assume we are outside of a tag definition
pXML->nFirst = FALSE;
status = eOutsideTag;
} else
{
// If this is not the first call then we should only be called when inside a tag.
status = eInsideTag;
}
// Iterate through the tokens in the document
for(;;)
{
// Obtain the next token
token = GetNextToken(pXML, &cbToken, &xtype);
if (xtype != eTokenError)
{
// Check the current status
switch(status)
{
// If we are outside of a tag definition
case eOutsideTag:
// Check what type of token we obtained
switch(xtype)
{
// If we have found text or quoted text
case eTokenText:
case eTokenCloseTag: /* '>' */
case eTokenShortHandClose: /* '/>' */
case eTokenQuotedText:
case eTokenEquals:
break;
// If we found a start tag '<' and declarations '<?'
case eTokenTagStart:
case eTokenDeclaration:
// Cache whether this new element is a declaration or not
nDeclaration = (xtype == eTokenDeclaration);
// If we have node text then add this to the element
if (maybeAddTxT(pXML,token.pStr)) return FALSE;
// Find the name of the tag
token = GetNextToken(pXML, &cbToken, &xtype);
// Return an error if we couldn't obtain the next token or
// it wasnt text
if (xtype != eTokenText)
{
pXML->error = eXMLErrorMissingTagName;
return FALSE;
}
// If we found a new element which is the same as this
// element then we need to pass this back to the caller..
#ifdef APPROXIMATE_PARSING
if (d->lpszName &&
myTagCompare(d->lpszName, token.pStr) == 0)
{
// Indicate to the caller that it needs to create a
// new element.
pXML->lpNewElement = token.pStr;
pXML->cbNewElement = cbToken;
return TRUE;
} else
#endif
{
// If the name of the new element differs from the name of
// the current element we need to add the new element to
// the current one and recurse
pNew = addChild_priv(MEMORYINCREASE,stringDup(token.pStr,cbToken), nDeclaration,-1);
while (!pNew.isEmpty())
{
// Callself to process the new node. If we return
// FALSE this means we dont have any more
// processing to do...
if (!pNew.ParseXMLElement(pXML)) return FALSE;
else
{
// If the call to recurse this function
// evented in a end tag specified in XML then
// we need to unwind the calls to this
// function until we find the appropriate node
// (the element name and end tag name must
// match)
if (pXML->cbEndTag)
{
// If we are back at the root node then we
// have an unmatched end tag
if (!d->lpszName)
{
pXML->error=eXMLErrorUnmatchedEndTag;
return FALSE;
}
// If the end tag matches the name of this
// element then we only need to unwind
// once more...
if (myTagCompare(d->lpszName, pXML->lpEndTag)==0)
{
pXML->cbEndTag = 0;
}
return TRUE;
} else
if (pXML->cbNewElement)
{
// If the call indicated a new element is to
// be created on THIS element.
// If the name of this element matches the
// name of the element we need to create
// then we need to return to the caller
// and let it process the element.
if (myTagCompare(d->lpszName, pXML->lpNewElement)==0)
{
return TRUE;
}
// Add the new element and recurse
pNew = addChild_priv(MEMORYINCREASE,stringDup(pXML->lpNewElement,pXML->cbNewElement),0,-1);
pXML->cbNewElement = 0;
}
else
{
// If we didn't have a new element to create
pNew = emptyXMLNode;
}
}
}
}
break;
// If we found an end tag
case eTokenTagEnd:
// If we have node text then add this to the element
if (maybeAddTxT(pXML,token.pStr)) return FALSE;
// Find the name of the end tag
token = GetNextToken(pXML, &cbTemp, &xtype);
// The end tag should be text
if (xtype != eTokenText)
{
pXML->error = eXMLErrorMissingEndTagName;
return FALSE;
}
lpszTemp = token.pStr;
// After the end tag we should find a closing tag
token = GetNextToken(pXML, &cbToken, &xtype);
if (xtype != eTokenCloseTag)
{
pXML->error = eXMLErrorMissingEndTagName;
return FALSE;
}
pXML->lpszText=pXML->lpXML+pXML->nIndex;
// We need to return to the previous caller. If the name
// of the tag cannot be found we need to keep returning to
// caller until we find a match
if (myTagCompare(d->lpszName, lpszTemp) != 0)
#ifdef STRICT_PARSING
{
pXML->error=eXMLErrorUnmatchedEndTag;
pXML->nIndexMissigEndTag=pXML->nIndex;
return FALSE;
}
#else
{
pXML->error=eXMLErrorMissingEndTag;
pXML->nIndexMissigEndTag=pXML->nIndex;
pXML->lpEndTag = lpszTemp;
pXML->cbEndTag = cbTemp;
}
#endif
// Return to the caller
exactMemory(d);
return TRUE;
// If we found a clear (unformatted) token
case eTokenClear:
// If we have node text then add this to the element
if (maybeAddTxT(pXML,token.pStr)) return FALSE;
if (parseClearTag(pXML, token.pClr)) return FALSE;
pXML->lpszText=pXML->lpXML+pXML->nIndex;
break;
default:
break;
}
break;
// If we are inside a tag definition we need to search for attributes
case eInsideTag:
// Check what part of the attribute (name, equals, value) we
// are looking for.
switch(attrib)
{
// If we are looking for a new attribute
case eAttribName:
// Check what the current token type is
switch(xtype)
{
// If the current type is text...
// Eg. 'attribute'
case eTokenText:
// Cache the token then indicate that we are next to
// look for the equals
lpszTemp = token.pStr;
cbTemp = cbToken;
attrib = eAttribEquals;
break;
// If we found a closing tag...
// Eg. '>'
case eTokenCloseTag:
// We are now outside the tag
status = eOutsideTag;
pXML->lpszText=pXML->lpXML+pXML->nIndex;
break;
// If we found a short hand '/>' closing tag then we can
// return to the caller
case eTokenShortHandClose:
exactMemory(d);
pXML->lpszText=pXML->lpXML+pXML->nIndex;
return TRUE;
// Errors...
case eTokenQuotedText: /* '"SomeText"' */
case eTokenTagStart: /* '<' */
case eTokenTagEnd: /* '</' */
case eTokenEquals: /* '=' */
case eTokenDeclaration: /* '<?' */
case eTokenClear:
pXML->error = eXMLErrorUnexpectedToken;
return FALSE;
default: break;
}
break;
// If we are looking for an equals
case eAttribEquals:
// Check what the current token type is
switch(xtype)
{
// If the current type is text...
// Eg. 'Attribute AnotherAttribute'
case eTokenText:
// Add the unvalued attribute to the list
addAttribute_priv(MEMORYINCREASE,stringDup(lpszTemp,cbTemp), NULL);
// Cache the token then indicate. We are next to
// look for the equals attribute
lpszTemp = token.pStr;
cbTemp = cbToken;
break;
// If we found a closing tag 'Attribute >' or a short hand
// closing tag 'Attribute />'
case eTokenShortHandClose:
case eTokenCloseTag:
// If we are a declaration element '<?' then we need
// to remove extra closing '?' if it exists
pXML->lpszText=pXML->lpXML+pXML->nIndex;
if (d->isDeclaration &&
(lpszTemp[cbTemp-1]) == _CXML('?'))
{
cbTemp--;
if (d->pParent && d->pParent->pParent) xtype = eTokenShortHandClose;
}
if (cbTemp)
{
// Add the unvalued attribute to the list
addAttribute_priv(MEMORYINCREASE,stringDup(lpszTemp,cbTemp), NULL);
}
// If this is the end of the tag then return to the caller
if (xtype == eTokenShortHandClose)
{
exactMemory(d);
return TRUE;
}
// We are now outside the tag
status = eOutsideTag;
break;
// If we found the equals token...
// Eg. 'Attribute ='
case eTokenEquals:
// Indicate that we next need to search for the value
// for the attribute
attrib = eAttribValue;
break;
// Errors...
case eTokenQuotedText: /* 'Attribute "InvalidAttr"'*/
case eTokenTagStart: /* 'Attribute <' */
case eTokenTagEnd: /* 'Attribute </' */
case eTokenDeclaration: /* 'Attribute <?' */
case eTokenClear:
pXML->error = eXMLErrorUnexpectedToken;
return FALSE;
default: break;
}
break;
// If we are looking for an attribute value
case eAttribValue:
// Check what the current token type is
switch(xtype)
{
// If the current type is text or quoted text...
// Eg. 'Attribute = "Value"' or 'Attribute = Value' or
// 'Attribute = 'Value''.
case eTokenText:
case eTokenQuotedText:
// If we are a declaration element '<?' then we need
// to remove extra closing '?' if it exists
if (d->isDeclaration &&
(token.pStr[cbToken-1]) == _CXML('?'))
{
cbToken--;
}
if (cbTemp)
{
// Add the valued attribute to the list
if (xtype==eTokenQuotedText) { token.pStr++; cbToken-=2; }
XMLSTR attrVal=(XMLSTR)token.pStr;
if (attrVal)
{
attrVal=fromXMLString(attrVal,cbToken,pXML);
if (!attrVal) return FALSE;
}
addAttribute_priv(MEMORYINCREASE,stringDup(lpszTemp,cbTemp),attrVal);
}
// Indicate we are searching for a new attribute
attrib = eAttribName;
break;
// Errors...
case eTokenTagStart: /* 'Attr = <' */
case eTokenTagEnd: /* 'Attr = </' */
case eTokenCloseTag: /* 'Attr = >' */
case eTokenShortHandClose: /* "Attr = />" */
case eTokenEquals: /* 'Attr = =' */
case eTokenDeclaration: /* 'Attr = <?' */
case eTokenClear:
pXML->error = eXMLErrorUnexpectedToken;
return FALSE;
break;
default: break;
}
}
}
}
// If we failed to obtain the next token
else
{
if ((!d->isDeclaration)&&(d->pParent))
{
#ifdef STRICT_PARSING
pXML->error=eXMLErrorUnmatchedEndTag;
#else
pXML->error=eXMLErrorMissingEndTag;
#endif
pXML->nIndexMissigEndTag=pXML->nIndex;
}
maybeAddTxT(pXML,pXML->lpXML+pXML->nIndex);
return FALSE;
}
}
}
// Count the number of lines and columns in an XML string.
static void CountLinesAndColumns(XMLCSTR lpXML, int nUpto, XMLResults *pResults)
{
XMLCHAR ch;
assert(lpXML);
assert(pResults);
struct XML xml={ lpXML,lpXML, 0, 0, eXMLErrorNone, NULL, 0, NULL, 0, TRUE };
pResults->nLine = 1;
pResults->nColumn = 1;
while (xml.nIndex<nUpto)
{
ch = getNextChar(&xml);
if (ch != _CXML('\n')) pResults->nColumn++;
else
{
pResults->nLine++;
pResults->nColumn=1;
}
}
}
// Parse XML and return the root element.
XMLNode XMLNode::parseString(XMLCSTR lpszXML, XMLCSTR tag, XMLResults *pResults)
{
if (!lpszXML)
{
if (pResults)
{
pResults->error=eXMLErrorNoElements;
pResults->nLine=0;
pResults->nColumn=0;
}
return emptyXMLNode;
}
XMLNode xnode(NULL,NULL,FALSE);
struct XML xml={ lpszXML, lpszXML, 0, 0, eXMLErrorNone, NULL, 0, NULL, 0, TRUE };
// Create header element
xnode.ParseXMLElement(&xml);
enum XMLError error = xml.error;
if (!xnode.nChildNode()) error=eXMLErrorNoXMLTagFound;
if ((xnode.nChildNode()==1)&&(xnode.nElement()==1)) xnode=xnode.getChildNode(); // skip the empty node
// If no error occurred
if ((error==eXMLErrorNone)||(error==eXMLErrorMissingEndTag)||(error==eXMLErrorNoXMLTagFound))
{
XMLCSTR name=xnode.getName();
if (tag&&(*tag)&&((!name)||(xstricmp(name,tag))))
{
xnode=xnode.getChildNode(tag);
if (xnode.isEmpty())
{
if (pResults)
{
pResults->error=eXMLErrorFirstTagNotFound;
pResults->nLine=0;
pResults->nColumn=0;
}
return emptyXMLNode;
}
}
} else
{
// Cleanup: this will destroy all the nodes
xnode = emptyXMLNode;
}
// If we have been given somewhere to place results
if (pResults)
{
pResults->error = error;
// If we have an error
if (error!=eXMLErrorNone)
{
if (error==eXMLErrorMissingEndTag) xml.nIndex=xml.nIndexMissigEndTag;
// Find which line and column it starts on.
CountLinesAndColumns(xml.lpXML, xml.nIndex, pResults);
}
}
return xnode;
}
XMLNode XMLNode::parseFile(XMLCSTR filename, XMLCSTR tag, XMLResults *pResults)
{
if (pResults) { pResults->nLine=0; pResults->nColumn=0; }
FILE *f=xfopen(filename,_CXML("rb"));
if (f==NULL) { if (pResults) pResults->error=eXMLErrorFileNotFound; return emptyXMLNode; }
fseek(f,0,SEEK_END);
int l=ftell(f),headerSz=0;
if (!l) { if (pResults) pResults->error=eXMLErrorEmpty; fclose(f); return emptyXMLNode; }
fseek(f,0,SEEK_SET);
unsigned char *buf=(unsigned char*)malloc(l+4);
l=fread(buf,1,l,f);
fclose(f);
buf[l]=0;buf[l+1]=0;buf[l+2]=0;buf[l+3]=0;
#ifdef _XMLWIDECHAR
if (guessWideCharChars)
{
if (!myIsTextWideChar(buf,l))
{
XMLNode::XMLCharEncoding ce=XMLNode::char_encoding_legacy;
if ((buf[0]==0xef)&&(buf[1]==0xbb)&&(buf[2]==0xbf)) { headerSz=3; ce=XMLNode::char_encoding_UTF8; }
XMLSTR b2=myMultiByteToWideChar((const char*)(buf+headerSz),ce);
free(buf); buf=(unsigned char*)b2; headerSz=0;
} else
{
if ((buf[0]==0xef)&&(buf[1]==0xff)) headerSz=2;
if ((buf[0]==0xff)&&(buf[1]==0xfe)) headerSz=2;
}
}
#else
if (guessWideCharChars)
{
if (myIsTextWideChar(buf,l))
{
if ((buf[0]==0xef)&&(buf[1]==0xff)) headerSz=2;
if ((buf[0]==0xff)&&(buf[1]==0xfe)) headerSz=2;
char *b2=myWideCharToMultiByte((const wchar_t*)(buf+headerSz));
free(buf); buf=(unsigned char*)b2; headerSz=0;
} else
{
if ((buf[0]==0xef)&&(buf[1]==0xbb)&&(buf[2]==0xbf)) headerSz=3;
}
}
#endif
if (!buf) { if (pResults) pResults->error=eXMLErrorCharConversionError; return emptyXMLNode; }
XMLNode x=parseString((XMLSTR)(buf+headerSz),tag,pResults);
free(buf);
return x;
}
static inline void charmemset(XMLSTR dest,XMLCHAR c,int l) { while (l--) *(dest++)=c; }
// private:
// Creates an user friendly XML string from a given element with
// appropriate white space and carriage returns.
//
// This recurses through all subnodes then adds contents of the nodes to the
// string.
int XMLNode::CreateXMLStringR(XMLNodeData *pEntry, XMLSTR lpszMarker, int nFormat)
{
int nResult = 0;
int cb=nFormat<0?0:nFormat;
int cbElement;
int nChildFormat=-1;
int nElementI=pEntry->nChild+pEntry->nText+pEntry->nClear;
int i,j;
if ((nFormat>=0)&&(nElementI==1)&&(pEntry->nText==1)&&(!pEntry->isDeclaration)) nFormat=-2;
assert(pEntry);
#define LENSTR(lpsz) (lpsz ? xstrlen(lpsz) : 0)
// If the element has no name then assume this is the head node.
cbElement = (int)LENSTR(pEntry->lpszName);
if (cbElement)
{
// "<elementname "
if (lpszMarker)
{
if (cb) charmemset(lpszMarker, INDENTCHAR, cb);
nResult = cb;
lpszMarker[nResult++]=_CXML('<');
if (pEntry->isDeclaration) lpszMarker[nResult++]=_CXML('?');
xstrcpy(&lpszMarker[nResult], pEntry->lpszName);
nResult+=cbElement;
lpszMarker[nResult++]=_CXML(' ');
} else
{
nResult+=cbElement+2+cb;
if (pEntry->isDeclaration) nResult++;
}
// Enumerate attributes and add them to the string
XMLAttribute *pAttr=pEntry->pAttribute;
for (i=0; i<pEntry->nAttribute; i++)
{
// "Attrib
cb = (int)LENSTR(pAttr->lpszName);
if (cb)
{
if (lpszMarker) xstrcpy(&lpszMarker[nResult], pAttr->lpszName);
nResult += cb;
// "Attrib=Value "
if (pAttr->lpszValue)
{
cb=(int)ToXMLStringTool::lengthXMLString(pAttr->lpszValue);
if (lpszMarker)
{
lpszMarker[nResult]=_CXML('=');
lpszMarker[nResult+1]=_CXML('"');
if (cb) ToXMLStringTool::toXMLUnSafe(&lpszMarker[nResult+2],pAttr->lpszValue);
lpszMarker[nResult+cb+2]=_CXML('"');
}
nResult+=cb+3;
}
if (lpszMarker) lpszMarker[nResult] = _CXML(' ');
nResult++;
}
pAttr++;
}
if (pEntry->isDeclaration)
{
if (lpszMarker)
{
lpszMarker[nResult-1]=_CXML('?');
lpszMarker[nResult]=_CXML('>');
}
nResult++;
if (nFormat!=-1)
{
if (lpszMarker) lpszMarker[nResult]=_CXML('\n');
nResult++;
}
} else
// If there are child nodes we need to terminate the start tag
if (nElementI)
{
if (lpszMarker) lpszMarker[nResult-1]=_CXML('>');
if (nFormat>=0)
{
if (lpszMarker) lpszMarker[nResult]=_CXML('\n');
nResult++;
}
} else nResult--;
}
// Calculate the child format for when we recurse. This is used to
// determine the number of spaces used for prefixes.
if (nFormat!=-1)
{
if (cbElement&&(!pEntry->isDeclaration)) nChildFormat=nFormat+1;
else nChildFormat=nFormat;
}
// Enumerate through remaining children
for (i=0; i<nElementI; i++)
{
j=pEntry->pOrder[i];
switch((XMLElementType)(j&3))
{
// Text nodes
case eNodeText:
{
// "Text"
XMLCSTR pChild=pEntry->pText[j>>2];
cb = (int)ToXMLStringTool::lengthXMLString(pChild);
if (cb)
{
if (nFormat>=0)
{
if (lpszMarker)
{
charmemset(&lpszMarker[nResult],INDENTCHAR,nFormat+1);
ToXMLStringTool::toXMLUnSafe(&lpszMarker[nResult+nFormat+1],pChild);
lpszMarker[nResult+nFormat+1+cb]=_CXML('\n');
}
nResult+=cb+nFormat+2;
} else
{
if (lpszMarker) ToXMLStringTool::toXMLUnSafe(&lpszMarker[nResult], pChild);
nResult += cb;
}
}
break;
}
// Clear type nodes
case eNodeClear:
{
XMLClear *pChild=pEntry->pClear+(j>>2);
// "OpenTag"
cb = (int)LENSTR(pChild->lpszOpenTag);
if (cb)
{
if (nFormat!=-1)
{
if (lpszMarker)
{
charmemset(&lpszMarker[nResult], INDENTCHAR, nFormat+1);
xstrcpy(&lpszMarker[nResult+nFormat+1], pChild->lpszOpenTag);
}
nResult+=cb+nFormat+1;
}
else
{
if (lpszMarker)xstrcpy(&lpszMarker[nResult], pChild->lpszOpenTag);
nResult += cb;
}
}
// "OpenTag Value"
cb = (int)LENSTR(pChild->lpszValue);
if (cb)
{
if (lpszMarker) xstrcpy(&lpszMarker[nResult], pChild->lpszValue);
nResult += cb;
}
// "OpenTag Value CloseTag"
cb = (int)LENSTR(pChild->lpszCloseTag);
if (cb)
{
if (lpszMarker) xstrcpy(&lpszMarker[nResult], pChild->lpszCloseTag);
nResult += cb;
}
if (nFormat!=-1)
{
if (lpszMarker) lpszMarker[nResult] = _CXML('\n');
nResult++;
}
break;
}
// Element nodes
case eNodeChild:
{
// Recursively add child nodes
nResult += CreateXMLStringR(pEntry->pChild[j>>2].d, lpszMarker ? lpszMarker + nResult : 0, nChildFormat);
break;
}
default: break;
}
}
if ((cbElement)&&(!pEntry->isDeclaration))
{
// If we have child entries we need to use long XML notation for
// closing the element - "<elementname>blah blah blah</elementname>"
if (nElementI)
{
// "</elementname>\0"
if (lpszMarker)
{
if (nFormat >=0)
{
charmemset(&lpszMarker[nResult], INDENTCHAR,nFormat);
nResult+=nFormat;
}
lpszMarker[nResult]=_CXML('<'); lpszMarker[nResult+1]=_CXML('/');
nResult += 2;
xstrcpy(&lpszMarker[nResult], pEntry->lpszName);
nResult += cbElement;
lpszMarker[nResult]=_CXML('>');
if (nFormat == -1) nResult++;
else
{
lpszMarker[nResult+1]=_CXML('\n');
nResult+=2;
}
} else
{
if (nFormat>=0) nResult+=cbElement+4+nFormat;
else if (nFormat==-1) nResult+=cbElement+3;
else nResult+=cbElement+4;
}
} else
{
// If there are no children we can use shorthand XML notation -
// "<elementname/>"
// "/>\0"
if (lpszMarker)
{
lpszMarker[nResult]=_CXML('/'); lpszMarker[nResult+1]=_CXML('>');
if (nFormat != -1) lpszMarker[nResult+2]=_CXML('\n');
}
nResult += nFormat == -1 ? 2 : 3;
}
}
return nResult;
}
#undef LENSTR
// Create an XML string
// @param int nFormat - 0 if no formatting is required
// otherwise nonzero for formatted text
// with carriage returns and indentation.
// @param int *pnSize - [out] pointer to the size of the
// returned string not including the
// NULL terminator.
// @return XMLSTR - Allocated XML string, you must free
// this with free().
XMLSTR XMLNode::createXMLString(int nFormat, int *pnSize) const
{
if (!d) { if (pnSize) *pnSize=0; return NULL; }
XMLSTR lpszResult = NULL;
int cbStr;
// Recursively Calculate the size of the XML string
if (!dropWhiteSpace) nFormat=0;
nFormat = nFormat ? 0 : -1;
cbStr = CreateXMLStringR(d, 0, nFormat);
// Alllocate memory for the XML string + the NULL terminator and
// create the recursively XML string.
lpszResult=(XMLSTR)malloc((cbStr+1)*sizeof(XMLCHAR));
CreateXMLStringR(d, lpszResult, nFormat);
lpszResult[cbStr]=_CXML('\0');
if (pnSize) *pnSize = cbStr;
return lpszResult;
}
int XMLNode::detachFromParent(XMLNodeData *d)
{
XMLNode *pa=d->pParent->pChild;
int i=0;
while (((void*)(pa[i].d))!=((void*)d)) i++;
d->pParent->nChild--;
if (d->pParent->nChild) memmove(pa+i,pa+i+1,(d->pParent->nChild-i)*sizeof(XMLNode));
else { free(pa); d->pParent->pChild=NULL; }
return removeOrderElement(d->pParent,eNodeChild,i);
}
XMLNode::~XMLNode()
{
if (!d) return;
d->ref_count--;
emptyTheNode(0);
}
void XMLNode::deleteNodeContent()
{
if (!d) return;
if (d->pParent) { detachFromParent(d); d->pParent=NULL; d->ref_count--; }
emptyTheNode(1);
}
void XMLNode::emptyTheNode(char force)
{
XMLNodeData *dd=d; // warning: must stay this way!
if ((dd->ref_count==0)||force)
{
if (d->pParent) detachFromParent(d);
int i;
XMLNode *pc;
for(i=0; i<dd->nChild; i++)
{
pc=dd->pChild+i;
pc->d->pParent=NULL;
pc->d->ref_count--;
pc->emptyTheNode(force);
}
myFree(dd->pChild);
for(i=0; i<dd->nText; i++) free((void*)dd->pText[i]);
myFree(dd->pText);
for(i=0; i<dd->nClear; i++) free((void*)dd->pClear[i].lpszValue);
myFree(dd->pClear);
for(i=0; i<dd->nAttribute; i++)
{
free((void*)dd->pAttribute[i].lpszName);
if (dd->pAttribute[i].lpszValue) free((void*)dd->pAttribute[i].lpszValue);
}
myFree(dd->pAttribute);
myFree(dd->pOrder);
myFree((void*)dd->lpszName);
dd->nChild=0; dd->nText=0; dd->nClear=0; dd->nAttribute=0;
dd->pChild=NULL; dd->pText=NULL; dd->pClear=NULL; dd->pAttribute=NULL;
dd->pOrder=NULL; dd->lpszName=NULL; dd->pParent=NULL;
}
if (dd->ref_count==0)
{
free(dd);
d=NULL;
}
}
XMLNode& XMLNode::operator=( const XMLNode& A )
{
// shallow copy
if (this != &A)
{
if (d) { d->ref_count--; emptyTheNode(0); }
d=A.d;
if (d) (d->ref_count) ++ ;
}
return *this;
}
XMLNode::XMLNode(const XMLNode &A)
{
// shallow copy
d=A.d;
if (d) (d->ref_count)++ ;
}
XMLNode XMLNode::deepCopy() const
{
if (!d) return XMLNode::emptyXMLNode;
XMLNode x(NULL,stringDup(d->lpszName),d->isDeclaration);
XMLNodeData *p=x.d;
int n=d->nAttribute;
if (n)
{
p->nAttribute=n; p->pAttribute=(XMLAttribute*)malloc(n*sizeof(XMLAttribute));
while (n--)
{
p->pAttribute[n].lpszName=stringDup(d->pAttribute[n].lpszName);
p->pAttribute[n].lpszValue=stringDup(d->pAttribute[n].lpszValue);
}
}
if (d->pOrder)
{
n=(d->nChild+d->nText+d->nClear)*sizeof(int); p->pOrder=(int*)malloc(n); memcpy(p->pOrder,d->pOrder,n);
}
n=d->nText;
if (n)
{
p->nText=n; p->pText=(XMLCSTR*)malloc(n*sizeof(XMLCSTR));
while(n--) p->pText[n]=stringDup(d->pText[n]);
}
n=d->nClear;
if (n)
{
p->nClear=n; p->pClear=(XMLClear*)malloc(n*sizeof(XMLClear));
while (n--)
{
p->pClear[n].lpszCloseTag=d->pClear[n].lpszCloseTag;
p->pClear[n].lpszOpenTag=d->pClear[n].lpszOpenTag;
p->pClear[n].lpszValue=stringDup(d->pClear[n].lpszValue);
}
}
n=d->nChild;
if (n)
{
p->nChild=n; p->pChild=(XMLNode*)malloc(n*sizeof(XMLNode));
while (n--)
{
p->pChild[n].d=NULL;
p->pChild[n]=d->pChild[n].deepCopy();
p->pChild[n].d->pParent=p;
}
}
return x;
}
XMLNode XMLNode::addChild(XMLNode childNode, int pos)
{
XMLNodeData *dc=childNode.d;
if ((!dc)||(!d)) return childNode;
if (!dc->lpszName)
{
// this is a root node: todo: correct fix
int j=pos;
while (dc->nChild)
{
addChild(dc->pChild[0],j);
if (pos>=0) j++;
}
return childNode;
}
if (dc->pParent) { if ((detachFromParent(dc)<=pos)&&(dc->pParent==d)) pos--; } else dc->ref_count++;
dc->pParent=d;
// int nc=d->nChild;
// d->pChild=(XMLNode*)myRealloc(d->pChild,(nc+1),memoryIncrease,sizeof(XMLNode));
d->pChild=(XMLNode*)addToOrder(0,&pos,d->nChild,d->pChild,sizeof(XMLNode),eNodeChild);
d->pChild[pos].d=dc;
d->nChild++;
return childNode;
}
void XMLNode::deleteAttribute(int i)
{
if ((!d)||(i<0)||(i>=d->nAttribute)) return;
d->nAttribute--;
XMLAttribute *p=d->pAttribute+i;
free((void*)p->lpszName);
if (p->lpszValue) free((void*)p->lpszValue);
if (d->nAttribute) memmove(p,p+1,(d->nAttribute-i)*sizeof(XMLAttribute)); else { free(p); d->pAttribute=NULL; }
}
void XMLNode::deleteAttribute(XMLAttribute *a){ if (a) deleteAttribute(a->lpszName); }
void XMLNode::deleteAttribute(XMLCSTR lpszName)
{
int j=0;
getAttribute(lpszName,&j);
if (j) deleteAttribute(j-1);
}
XMLAttribute *XMLNode::updateAttribute_WOSD(XMLSTR lpszNewValue, XMLSTR lpszNewName,int i)
{
if (!d) { if (lpszNewValue) free(lpszNewValue); if (lpszNewName) free(lpszNewName); return NULL; }
if (i>=d->nAttribute)
{
if (lpszNewName) return addAttribute_WOSD(lpszNewName,lpszNewValue);
return NULL;
}
XMLAttribute *p=d->pAttribute+i;
if (p->lpszValue&&p->lpszValue!=lpszNewValue) free((void*)p->lpszValue);
p->lpszValue=lpszNewValue;
if (lpszNewName&&p->lpszName!=lpszNewName) { free((void*)p->lpszName); p->lpszName=lpszNewName; };
return p;
}
XMLAttribute *XMLNode::updateAttribute_WOSD(XMLAttribute *newAttribute, XMLAttribute *oldAttribute)
{
if (oldAttribute) return updateAttribute_WOSD((XMLSTR)newAttribute->lpszValue,(XMLSTR)newAttribute->lpszName,oldAttribute->lpszName);
return addAttribute_WOSD((XMLSTR)newAttribute->lpszName,(XMLSTR)newAttribute->lpszValue);
}
XMLAttribute *XMLNode::updateAttribute_WOSD(XMLSTR lpszNewValue, XMLSTR lpszNewName,XMLCSTR lpszOldName)
{
int j=0;
getAttribute(lpszOldName,&j);
if (j) return updateAttribute_WOSD(lpszNewValue,lpszNewName,j-1);
else
{
if (lpszNewName) return addAttribute_WOSD(lpszNewName,lpszNewValue);
else return addAttribute_WOSD(stringDup(lpszOldName),lpszNewValue);
}
}
int XMLNode::indexText(XMLCSTR lpszValue) const
{
if (!d) return -1;
int i,l=d->nText;
if (!lpszValue) { if (l) return 0; return -1; }
XMLCSTR *p=d->pText;
for (i=0; i<l; i++) if (lpszValue==p[i]) return i;
return -1;
}
void XMLNode::deleteText(int i)
{
if ((!d)||(i<0)||(i>=d->nText)) return;
d->nText--;
XMLCSTR *p=d->pText+i;
free((void*)*p);
if (d->nText) memmove(p,p+1,(d->nText-i)*sizeof(XMLCSTR)); else { free(p); d->pText=NULL; }
removeOrderElement(d,eNodeText,i);
}
void XMLNode::deleteText(XMLCSTR lpszValue) { deleteText(indexText(lpszValue)); }
XMLCSTR XMLNode::updateText_WOSD(XMLSTR lpszNewValue, int i)
{
if (!d) { if (lpszNewValue) free(lpszNewValue); return NULL; }
if (i>=d->nText) return addText_WOSD(lpszNewValue);
XMLCSTR *p=d->pText+i;
if (*p!=lpszNewValue) { free((void*)*p); *p=lpszNewValue; }
return lpszNewValue;
}
XMLCSTR XMLNode::updateText_WOSD(XMLSTR lpszNewValue, XMLCSTR lpszOldValue)
{
if (!d) { if (lpszNewValue) free(lpszNewValue); return NULL; }
int i=indexText(lpszOldValue);
if (i>=0) return updateText_WOSD(lpszNewValue,i);
return addText_WOSD(lpszNewValue);
}
void XMLNode::deleteClear(int i)
{
if ((!d)||(i<0)||(i>=d->nClear)) return;
d->nClear--;
XMLClear *p=d->pClear+i;
free((void*)p->lpszValue);
if (d->nClear) memmove(p,p+1,(d->nClear-i)*sizeof(XMLClear)); else { free(p); d->pClear=NULL; }
removeOrderElement(d,eNodeClear,i);
}
int XMLNode::indexClear(XMLCSTR lpszValue) const
{
if (!d) return -1;
int i,l=d->nClear;
if (!lpszValue) { if (l) return 0; return -1; }
XMLClear *p=d->pClear;
for (i=0; i<l; i++) if (lpszValue==p[i].lpszValue) return i;
return -1;
}
void XMLNode::deleteClear(XMLCSTR lpszValue) { deleteClear(indexClear(lpszValue)); }
void XMLNode::deleteClear(XMLClear *a) { if (a) deleteClear(a->lpszValue); }
XMLClear *XMLNode::updateClear_WOSD(XMLSTR lpszNewContent, int i)
{
if (!d) { if (lpszNewContent) free(lpszNewContent); return NULL; }
if (i>=d->nClear) return addClear_WOSD(lpszNewContent);
XMLClear *p=d->pClear+i;
if (lpszNewContent!=p->lpszValue) { free((void*)p->lpszValue); p->lpszValue=lpszNewContent; }
return p;
}
XMLClear *XMLNode::updateClear_WOSD(XMLSTR lpszNewContent, XMLCSTR lpszOldValue)
{
if (!d) { if (lpszNewContent) free(lpszNewContent); return NULL; }
int i=indexClear(lpszOldValue);
if (i>=0) return updateClear_WOSD(lpszNewContent,i);
return addClear_WOSD(lpszNewContent);
}
XMLClear *XMLNode::updateClear_WOSD(XMLClear *newP,XMLClear *oldP)
{
if (oldP) return updateClear_WOSD((XMLSTR)newP->lpszValue,(XMLSTR)oldP->lpszValue);
return NULL;
}
int XMLNode::nChildNode(XMLCSTR name) const
{
if (!d) return 0;
int i,j=0,n=d->nChild;
XMLNode *pc=d->pChild;
for (i=0; i<n; i++)
{
if (xstricmp(pc->d->lpszName, name)==0) j++;
pc++;
}
return j;
}
XMLNode XMLNode::getChildNode(XMLCSTR name, int *j) const
{
if (!d) return emptyXMLNode;
int i=0,n=d->nChild;
if (j) i=*j;
XMLNode *pc=d->pChild+i;
for (; i<n; i++)
{
if (!xstricmp(pc->d->lpszName, name))
{
if (j) *j=i+1;
return *pc;
}
pc++;
}
return emptyXMLNode;
}
XMLNode XMLNode::getChildNode(XMLCSTR name, int j) const
{
if (!d) return emptyXMLNode;
if (j>=0)
{
int i=0;
while (j-->0) getChildNode(name,&i);
return getChildNode(name,&i);
}
int i=d->nChild;
while (i--) if (!xstricmp(name,d->pChild[i].d->lpszName)) break;
if (i<0) return emptyXMLNode;
return getChildNode(i);
}
XMLNode XMLNode::getChildNodeByPath(XMLCSTR _path, char createMissing, XMLCHAR sep)
{
XMLSTR path=stringDup(_path);
XMLNode x=getChildNodeByPathNonConst(path,createMissing,sep);
if (path) free(path);
return x;
}
XMLNode XMLNode::getChildNodeByPathNonConst(XMLSTR path, char createIfMissing, XMLCHAR sep)
{
if ((!path)||(!(*path))) return *this;
XMLNode xn,xbase=*this;
XMLCHAR *tend1,sepString[2]; sepString[0]=sep; sepString[1]=0;
tend1=xstrstr(path,sepString);
while(tend1)
{
*tend1=0;
xn=xbase.getChildNode(path);
*tend1=sep;
if (xn.isEmpty())
{
if (createIfMissing) xn=xbase.addChild(path);
else return XMLNode::emptyXMLNode;
}
xbase=xn;
path=tend1+1;
tend1=xstrstr(path,sepString);
}
xn=xbase.getChildNode(path);
if (xn.isEmpty()&&createIfMissing) xn=xbase.addChild(path);
return xn;
}
XMLElementPosition XMLNode::positionOfText (int i) const { if (i>=d->nText ) i=d->nText-1; return findPosition(d,i,eNodeText ); }
XMLElementPosition XMLNode::positionOfClear (int i) const { if (i>=d->nClear) i=d->nClear-1; return findPosition(d,i,eNodeClear); }
XMLElementPosition XMLNode::positionOfChildNode(int i) const { if (i>=d->nChild) i=d->nChild-1; return findPosition(d,i,eNodeChild); }
XMLElementPosition XMLNode::positionOfText (XMLCSTR lpszValue) const { return positionOfText (indexText (lpszValue)); }
XMLElementPosition XMLNode::positionOfClear(XMLCSTR lpszValue) const { return positionOfClear(indexClear(lpszValue)); }
XMLElementPosition XMLNode::positionOfClear(XMLClear *a) const { if (a) return positionOfClear(a->lpszValue); return positionOfClear(); }
XMLElementPosition XMLNode::positionOfChildNode(XMLNode x) const
{
if ((!d)||(!x.d)) return -1;
XMLNodeData *dd=x.d;
XMLNode *pc=d->pChild;
int i=d->nChild;
while (i--) if (pc[i].d==dd) return findPosition(d,i,eNodeChild);
return -1;
}
XMLElementPosition XMLNode::positionOfChildNode(XMLCSTR name, int count) const
{
if (!name) return positionOfChildNode(count);
int j=0;
do { getChildNode(name,&j); if (j<0) return -1; } while (count--);
return findPosition(d,j-1,eNodeChild);
}
XMLNode XMLNode::getChildNodeWithAttribute(XMLCSTR name,XMLCSTR attributeName,XMLCSTR attributeValue, int *k) const
{
int i=0,j;
if (k) i=*k;
XMLNode x;
XMLCSTR t;
do
{
x=getChildNode(name,&i);
if (!x.isEmpty())
{
if (attributeValue)
{
j=0;
do
{
t=x.getAttribute(attributeName,&j);
if (t&&(xstricmp(attributeValue,t)==0)) { if (k) *k=i; return x; }
} while (t);
} else
{
if (x.isAttributeSet(attributeName)) { if (k) *k=i; return x; }
}
}
} while (!x.isEmpty());
return emptyXMLNode;
}
// Find an attribute on an node.
XMLCSTR XMLNode::getAttribute(XMLCSTR lpszAttrib, int *j) const
{
if (!d) return NULL;
int i=0,n=d->nAttribute;
if (j) i=*j;
XMLAttribute *pAttr=d->pAttribute+i;
for (; i<n; i++)
{
if (xstricmp(pAttr->lpszName, lpszAttrib)==0)
{
if (j) *j=i+1;
return pAttr->lpszValue;
}
pAttr++;
}
return NULL;
}
char XMLNode::isAttributeSet(XMLCSTR lpszAttrib) const
{
if (!d) return FALSE;
int i,n=d->nAttribute;
XMLAttribute *pAttr=d->pAttribute;
for (i=0; i<n; i++)
{
if (xstricmp(pAttr->lpszName, lpszAttrib)==0)
{
return TRUE;
}
pAttr++;
}
return FALSE;
}
XMLCSTR XMLNode::getAttribute(XMLCSTR name, int j) const
{
if (!d) return NULL;
int i=0;
while (j-->0) getAttribute(name,&i);
return getAttribute(name,&i);
}
XMLNodeContents XMLNode::enumContents(int i) const
{
XMLNodeContents c;
if (!d) { c.etype=eNodeNULL; return c; }
if (i<d->nAttribute)
{
c.etype=eNodeAttribute;
c.attrib=d->pAttribute[i];
return c;
}
i-=d->nAttribute;
c.etype=(XMLElementType)(d->pOrder[i]&3);
i=(d->pOrder[i])>>2;
switch (c.etype)
{
case eNodeChild: c.child = d->pChild[i]; break;
case eNodeText: c.text = d->pText[i]; break;
case eNodeClear: c.clear = d->pClear[i]; break;
default: break;
}
return c;
}
XMLCSTR XMLNode::getName() const { if (!d) return NULL; return d->lpszName; }
int XMLNode::nText() const { if (!d) return 0; return d->nText; }
int XMLNode::nChildNode() const { if (!d) return 0; return d->nChild; }
int XMLNode::nAttribute() const { if (!d) return 0; return d->nAttribute; }
int XMLNode::nClear() const { if (!d) return 0; return d->nClear; }
int XMLNode::nElement() const { if (!d) return 0; return d->nAttribute+d->nChild+d->nText+d->nClear; }
XMLClear XMLNode::getClear (int i) const { if ((!d)||(i>=d->nClear )) return emptyXMLClear; return d->pClear[i]; }
XMLAttribute XMLNode::getAttribute (int i) const { if ((!d)||(i>=d->nAttribute)) return emptyXMLAttribute; return d->pAttribute[i]; }
XMLCSTR XMLNode::getAttributeName (int i) const { if ((!d)||(i>=d->nAttribute)) return NULL; return d->pAttribute[i].lpszName; }
XMLCSTR XMLNode::getAttributeValue(int i) const { if ((!d)||(i>=d->nAttribute)) return NULL; return d->pAttribute[i].lpszValue; }
XMLCSTR XMLNode::getText (int i) const { if ((!d)||(i>=d->nText )) return NULL; return d->pText[i]; }
XMLNode XMLNode::getChildNode (int i) const { if ((!d)||(i>=d->nChild )) return emptyXMLNode; return d->pChild[i]; }
XMLNode XMLNode::getParentNode ( ) const { if ((!d)||(!d->pParent )) return emptyXMLNode; return XMLNode(d->pParent); }
char XMLNode::isDeclaration ( ) const { if (!d) return 0; return d->isDeclaration; }
char XMLNode::isEmpty ( ) const { return (d==NULL); }
XMLNode XMLNode::emptyNode ( ) { return XMLNode::emptyXMLNode; }
XMLNode XMLNode::addChild(XMLCSTR lpszName, char isDeclaration, XMLElementPosition pos)
{ return addChild_priv(0,stringDup(lpszName),isDeclaration,pos); }
XMLNode XMLNode::addChild_WOSD(XMLSTR lpszName, char isDeclaration, XMLElementPosition pos)
{ return addChild_priv(0,lpszName,isDeclaration,pos); }
XMLAttribute *XMLNode::addAttribute(XMLCSTR lpszName, XMLCSTR lpszValue)
{ return addAttribute_priv(0,stringDup(lpszName),stringDup(lpszValue)); }
XMLAttribute *XMLNode::addAttribute_WOSD(XMLSTR lpszName, XMLSTR lpszValuev)
{ return addAttribute_priv(0,lpszName,lpszValuev); }
XMLCSTR XMLNode::addText(XMLCSTR lpszValue, XMLElementPosition pos)
{ return addText_priv(0,stringDup(lpszValue),pos); }
XMLCSTR XMLNode::addText_WOSD(XMLSTR lpszValue, XMLElementPosition pos)
{ return addText_priv(0,lpszValue,pos); }
XMLClear *XMLNode::addClear(XMLCSTR lpszValue, XMLCSTR lpszOpen, XMLCSTR lpszClose, XMLElementPosition pos)
{ return addClear_priv(0,stringDup(lpszValue),lpszOpen,lpszClose,pos); }
XMLClear *XMLNode::addClear_WOSD(XMLSTR lpszValue, XMLCSTR lpszOpen, XMLCSTR lpszClose, XMLElementPosition pos)
{ return addClear_priv(0,lpszValue,lpszOpen,lpszClose,pos); }
XMLCSTR XMLNode::updateName(XMLCSTR lpszName)
{ return updateName_WOSD(stringDup(lpszName)); }
XMLAttribute *XMLNode::updateAttribute(XMLAttribute *newAttribute, XMLAttribute *oldAttribute)
{ return updateAttribute_WOSD(stringDup(newAttribute->lpszValue),stringDup(newAttribute->lpszName),oldAttribute->lpszName); }
XMLAttribute *XMLNode::updateAttribute(XMLCSTR lpszNewValue, XMLCSTR lpszNewName,int i)
{ return updateAttribute_WOSD(stringDup(lpszNewValue),stringDup(lpszNewName),i); }
XMLAttribute *XMLNode::updateAttribute(XMLCSTR lpszNewValue, XMLCSTR lpszNewName,XMLCSTR lpszOldName)
{ return updateAttribute_WOSD(stringDup(lpszNewValue),stringDup(lpszNewName),lpszOldName); }
XMLCSTR XMLNode::updateText(XMLCSTR lpszNewValue, int i)
{ return updateText_WOSD(stringDup(lpszNewValue),i); }
XMLCSTR XMLNode::updateText(XMLCSTR lpszNewValue, XMLCSTR lpszOldValue)
{ return updateText_WOSD(stringDup(lpszNewValue),lpszOldValue); }
XMLClear *XMLNode::updateClear(XMLCSTR lpszNewContent, int i)
{ return updateClear_WOSD(stringDup(lpszNewContent),i); }
XMLClear *XMLNode::updateClear(XMLCSTR lpszNewValue, XMLCSTR lpszOldValue)
{ return updateClear_WOSD(stringDup(lpszNewValue),lpszOldValue); }
XMLClear *XMLNode::updateClear(XMLClear *newP,XMLClear *oldP)
{ return updateClear_WOSD(stringDup(newP->lpszValue),oldP->lpszValue); }
char XMLNode::setGlobalOptions(XMLCharEncoding _characterEncoding, char _guessWideCharChars,
char _dropWhiteSpace, char _removeCommentsInMiddleOfText)
{
guessWideCharChars=_guessWideCharChars; dropWhiteSpace=_dropWhiteSpace; removeCommentsInMiddleOfText=_removeCommentsInMiddleOfText;
#ifdef _XMLWIDECHAR
if (_characterEncoding) characterEncoding=_characterEncoding;
#else
switch(_characterEncoding)
{
case char_encoding_UTF8: characterEncoding=_characterEncoding; XML_ByteTable=XML_utf8ByteTable; break;
case char_encoding_legacy: characterEncoding=_characterEncoding; XML_ByteTable=XML_legacyByteTable; break;
case char_encoding_ShiftJIS: characterEncoding=_characterEncoding; XML_ByteTable=XML_sjisByteTable; break;
case char_encoding_GB2312: characterEncoding=_characterEncoding; XML_ByteTable=XML_gb2312ByteTable; break;
case char_encoding_Big5:
case char_encoding_GBK: characterEncoding=_characterEncoding; XML_ByteTable=XML_gbk_big5_ByteTable; break;
default: return 1;
}
#endif
return 0;
}
XMLNode::XMLCharEncoding XMLNode::guessCharEncoding(void *buf,int l, char useXMLEncodingAttribute)
{
#ifdef _XMLWIDECHAR
return (XMLCharEncoding)0;
#else
if (l<25) return (XMLCharEncoding)0;
if (guessWideCharChars&&(myIsTextWideChar(buf,l))) return (XMLCharEncoding)0;
unsigned char *b=(unsigned char*)buf;
if ((b[0]==0xef)&&(b[1]==0xbb)&&(b[2]==0xbf)) return char_encoding_UTF8;
// Match utf-8 model ?
XMLCharEncoding bestGuess=char_encoding_UTF8;
int i=0;
while (i<l)
switch (XML_utf8ByteTable[b[i]])
{
case 4: i++; if ((i<l)&&(b[i]& 0xC0)!=0x80) { bestGuess=char_encoding_legacy; i=l; } // 10bbbbbb ?
case 3: i++; if ((i<l)&&(b[i]& 0xC0)!=0x80) { bestGuess=char_encoding_legacy; i=l; } // 10bbbbbb ?
case 2: i++; if ((i<l)&&(b[i]& 0xC0)!=0x80) { bestGuess=char_encoding_legacy; i=l; } // 10bbbbbb ?
case 1: i++; break;
case 0: i=l;
}
if (!useXMLEncodingAttribute) return bestGuess;
// if encoding is specified and different from utf-8 than it's non-utf8
// otherwise it's utf-8
char bb[201];
l=mmin(l,200);
memcpy(bb,buf,l); // copy buf into bb to be able to do "bb[l]=0"
bb[l]=0;
b=(unsigned char*)strstr(bb,"encoding");
if (!b) return bestGuess;
b+=8; while XML_isSPACECHAR(*b) b++; if (*b!='=') return bestGuess;
b++; while XML_isSPACECHAR(*b) b++; if ((*b!='\'')&&(*b!='"')) return bestGuess;
b++; while XML_isSPACECHAR(*b) b++;
if ((xstrnicmp((char*)b,"utf-8",5)==0)||
(xstrnicmp((char*)b,"utf8",4)==0))
{
if (bestGuess==char_encoding_legacy) return char_encoding_error;
return char_encoding_UTF8;
}
if ((xstrnicmp((char*)b,"shiftjis",8)==0)||
(xstrnicmp((char*)b,"shift-jis",9)==0)||
(xstrnicmp((char*)b,"sjis",4)==0)) return char_encoding_ShiftJIS;
if (xstrnicmp((char*)b,"GB2312",6)==0) return char_encoding_GB2312;
if (xstrnicmp((char*)b,"Big5",4)==0) return char_encoding_Big5;
if (xstrnicmp((char*)b,"GBK",3)==0) return char_encoding_GBK;
return char_encoding_legacy;
#endif
}
#undef XML_isSPACECHAR
//////////////////////////////////////////////////////////
// Here starts the base64 conversion functions. //
//////////////////////////////////////////////////////////
static const char base64Fillchar = _CXML('='); // used to mark partial words at the end
// this lookup table defines the base64 encoding
XMLCSTR base64EncodeTable=_CXML("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/");
// Decode Table gives the index of any valid base64 character in the Base64 table]
// 96: '=' - 97: space char - 98: illegal char - 99: end of string
const unsigned char base64DecodeTable[] = {
99,98,98,98,98,98,98,98,98,97, 97,98,98,97,98,98,98,98,98,98, 98,98,98,98,98,98,98,98,98,98, //00 -29
98,98,97,98,98,98,98,98,98,98, 98,98,98,62,98,98,98,63,52,53, 54,55,56,57,58,59,60,61,98,98, //30 -59
98,96,98,98,98, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14, 15,16,17,18,19,20,21,22,23,24, //60 -89
25,98,98,98,98,98,98,26,27,28, 29,30,31,32,33,34,35,36,37,38, 39,40,41,42,43,44,45,46,47,48, //90 -119
49,50,51,98,98,98,98,98,98,98, 98,98,98,98,98,98,98,98,98,98, 98,98,98,98,98,98,98,98,98,98, //120 -149
98,98,98,98,98,98,98,98,98,98, 98,98,98,98,98,98,98,98,98,98, 98,98,98,98,98,98,98,98,98,98, //150 -179
98,98,98,98,98,98,98,98,98,98, 98,98,98,98,98,98,98,98,98,98, 98,98,98,98,98,98,98,98,98,98, //180 -209
98,98,98,98,98,98,98,98,98,98, 98,98,98,98,98,98,98,98,98,98, 98,98,98,98,98,98,98,98,98,98, //210 -239
98,98,98,98,98,98,98,98,98,98, 98,98,98,98,98,98 //240 -255
};
XMLParserBase64Tool::~XMLParserBase64Tool(){ freeBuffer(); }
void XMLParserBase64Tool::freeBuffer(){ if (buf) free(buf); buf=NULL; buflen=0; }
int XMLParserBase64Tool::encodeLength(int inlen, char formatted)
{
unsigned int i=((inlen-1)/3*4+4+1);
if (formatted) i+=inlen/54;
return i;
}
XMLSTR XMLParserBase64Tool::encode(unsigned char *inbuf, unsigned int inlen, char formatted)
{
int i=encodeLength(inlen,formatted),k=17,eLen=inlen/3,j;
alloc(i*sizeof(XMLCHAR));
XMLSTR curr=(XMLSTR)buf;
for(i=0;i<eLen;i++)
{
// Copy next three bytes into lower 24 bits of int, paying attention to sign.
j=(inbuf[0]<<16)|(inbuf[1]<<8)|inbuf[2]; inbuf+=3;
// Encode the int into four chars
*(curr++)=base64EncodeTable[ j>>18 ];
*(curr++)=base64EncodeTable[(j>>12)&0x3f];
*(curr++)=base64EncodeTable[(j>> 6)&0x3f];
*(curr++)=base64EncodeTable[(j )&0x3f];
if (formatted) { if (!k) { *(curr++)=_CXML('\n'); k=18; } k--; }
}
eLen=inlen-eLen*3; // 0 - 2.
if (eLen==1)
{
*(curr++)=base64EncodeTable[ inbuf[0]>>2 ];
*(curr++)=base64EncodeTable[(inbuf[0]<<4)&0x3F];
*(curr++)=base64Fillchar;
*(curr++)=base64Fillchar;
} else if (eLen==2)
{
j=(inbuf[0]<<8)|inbuf[1];
*(curr++)=base64EncodeTable[ j>>10 ];
*(curr++)=base64EncodeTable[(j>> 4)&0x3f];
*(curr++)=base64EncodeTable[(j<< 2)&0x3f];
*(curr++)=base64Fillchar;
}
*(curr++)=0;
return (XMLSTR)buf;
}
unsigned int XMLParserBase64Tool::decodeSize(XMLCSTR data,XMLError *xe)
{
if (xe) *xe=eXMLErrorNone;
int size=0;
unsigned char c;
//skip any extra characters (e.g. newlines or spaces)
while (*data)
{
#ifdef _XMLWIDECHAR
if (*data>255) { if (xe) *xe=eXMLErrorBase64DecodeIllegalCharacter; return 0; }
#endif
c=base64DecodeTable[(unsigned char)(*data)];
if (c<97) size++;
else if (c==98) { if (xe) *xe=eXMLErrorBase64DecodeIllegalCharacter; return 0; }
data++;
}
if (xe&&(size%4!=0)) *xe=eXMLErrorBase64DataSizeIsNotMultipleOf4;
if (size==0) return 0;
do { data--; size--; } while(*data==base64Fillchar); size++;
return (unsigned int)((size*3)/4);
}
unsigned char XMLParserBase64Tool::decode(XMLCSTR data, unsigned char *buf, int len, XMLError *xe)
{
if (xe) *xe=eXMLErrorNone;
int i=0,p=0;
unsigned char d,c;
for(;;)
{
#ifdef _XMLWIDECHAR
#define BASE64DECODE_READ_NEXT_CHAR(c) \
do { \
if (data[i]>255){ c=98; break; } \
c=base64DecodeTable[(unsigned char)data[i++]]; \
}while (c==97); \
if(c==98){ if(xe)*xe=eXMLErrorBase64DecodeIllegalCharacter; return 0; }
#else
#define BASE64DECODE_READ_NEXT_CHAR(c) \
do { c=base64DecodeTable[(unsigned char)data[i++]]; }while (c==97); \
if(c==98){ if(xe)*xe=eXMLErrorBase64DecodeIllegalCharacter; return 0; }
#endif
BASE64DECODE_READ_NEXT_CHAR(c)
if (c==99) { return 2; }
if (c==96)
{
if (p==(int)len) return 2;
if (xe) *xe=eXMLErrorBase64DecodeTruncatedData;
return 1;
}
BASE64DECODE_READ_NEXT_CHAR(d)
if ((d==99)||(d==96)) { if (xe) *xe=eXMLErrorBase64DecodeTruncatedData; return 1; }
if (p==(int)len) { if (xe) *xe=eXMLErrorBase64DecodeBufferTooSmall; return 0; }
buf[p++]=(unsigned char)((c<<2)|((d>>4)&0x3));
BASE64DECODE_READ_NEXT_CHAR(c)
if (c==99) { if (xe) *xe=eXMLErrorBase64DecodeTruncatedData; return 1; }
if (p==(int)len)
{
if (c==96) return 2;
if (xe) *xe=eXMLErrorBase64DecodeBufferTooSmall;
return 0;
}
if (c==96) { if (xe) *xe=eXMLErrorBase64DecodeTruncatedData; return 1; }
buf[p++]=(unsigned char)(((d<<4)&0xf0)|((c>>2)&0xf));
BASE64DECODE_READ_NEXT_CHAR(d)
if (d==99 ) { if (xe) *xe=eXMLErrorBase64DecodeTruncatedData; return 1; }
if (p==(int)len)
{
if (d==96) return 2;
if (xe) *xe=eXMLErrorBase64DecodeBufferTooSmall;
return 0;
}
if (d==96) { if (xe) *xe=eXMLErrorBase64DecodeTruncatedData; return 1; }
buf[p++]=(unsigned char)(((c<<6)&0xc0)|d);
}
}
#undef BASE64DECODE_READ_NEXT_CHAR
void XMLParserBase64Tool::alloc(int newsize)
{
if ((!buf)&&(newsize)) { buf=malloc(newsize); buflen=newsize; return; }
if (newsize>buflen) { buf=realloc(buf,newsize); buflen=newsize; }
}
unsigned char *XMLParserBase64Tool::decode(XMLCSTR data, int *outlen, XMLError *xe)
{
if (xe) *xe=eXMLErrorNone;
unsigned int len=decodeSize(data,xe);
if (outlen) *outlen=len;
if (!len) return NULL;
alloc(len+1);
if(!decode(data,(unsigned char*)buf,len,xe)){ return NULL; }
return (unsigned char*)buf;
}
#if defined _MSC_VER
#pragma warning (pop)
#endif
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