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cuberite-2a/src/XMLParser.h

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// XMLParser.h
// Interfaces to the CXMLParser class representing the base class for XML parsing
// To use, derive a class from this base and override its OnStartElement(), OnEndElement() and OnCharacters() functions
#pragma once
#include "expat/expat.h"
class CXMLParser
{
public:
CXMLParser(void);
virtual ~CXMLParser();
// The actual parsing, may be called several times; the last time needs iIsFinal == true (-> flush)
int Parse(const char * iData, size_t iLength, bool iIsFinal = false);
private:
// LibExpat stuff:
XML_Parser mParser;
static void StartElementHandler(void * iContext, const XML_Char * iElement, const XML_Char ** iAttributes)
{
((CXMLParser *)iContext)->OnStartElement(iElement, iAttributes);
}
static void EndElementHandler (void * iContext, const XML_Char * iElement)
{
((CXMLParser *)iContext)->OnEndElement(iElement);
}
static void CharacterDataHandler (void * iContext, const XML_Char * iData, int iLength)
{
((CXMLParser *)iContext)->OnCharacters(iData, iLength);
}
protected:
virtual void OnStartElement(const XML_Char * iElement, const XML_Char ** iAttributes) = 0;
virtual void OnEndElement (const XML_Char * iElement) = 0;
virtual void OnCharacters (const XML_Char * iCharacters, int iLength) = 0;
} ;
////////////////////////////////////////////////////////////////////////////////
// The following template has been modified from code available at
// http://www.codeproject.com/Articles/1847/C-Wrappers-for-the-Expat-XML-Parser
// It uses templates to remove the virtual function call penalty (both size and speed) for each callback
/* Usage:
1, Declare a subclass:
class CMyParser : public CExpatImpl<CMyParser>
2, Declare handlers that you want in that subclass:
void CMyParser::OnEndElement(const XML_Char * iTagName);
3, Create an instance of your class:
CMyParser Parser;
4, Call Create():
Parser.Create(NULL, NULL);
4, Call Parse(), repeatedly:
Parser.Parse(Buffer, Length);
*/
template <class _T>
class CExpatImpl
{
// @access Constructors and destructors
public:
// @cmember General constructor
CExpatImpl ()
{
m_p = NULL;
}
// @cmember Destructor
~CExpatImpl ()
{
Destroy ();
}
// @access Parser creation and deletion methods
public:
// @cmember Create a parser
bool Create (const XML_Char * pszEncoding = NULL, const XML_Char * pszSep = NULL)
{
// Destroy the old parser
Destroy ();
// If the encoding or seperator are empty, then NULL
if (pszEncoding != NULL && pszEncoding [0] == 0)
{
pszEncoding = NULL;
}
if (pszSep != NULL && pszSep [0] == 0)
{
pszSep = NULL;
}
// Create the new parser
m_p = XML_ParserCreate_MM (pszEncoding, NULL, pszSep);
if (m_p == NULL)
{
return false;
}
// Invoke the post create routine
_T * pThis = static_cast <_T *> (this);
pThis ->OnPostCreate ();
// Set the user data used in callbacks
XML_SetUserData (m_p, (void *) this);
return true;
}
// @cmember Destroy the parser
void Destroy (void)
{
if (m_p != NULL)
{
XML_ParserFree (m_p);
}
m_p = NULL;
}
// @cmember Parse a block of data
bool Parse (const char *pszBuffer, int nLength, bool fIsFinal = true)
{
assert (m_p != NULL);
return XML_Parse (m_p, pszBuffer, nLength, fIsFinal) != 0;
}
// @cmember Parse internal buffer
bool ParseBuffer (int nLength, bool fIsFinal = true)
{
assert (m_p != NULL);
return XML_ParseBuffer (m_p, nLength, fIsFinal) != 0;
}
// @cmember Get the internal buffer
void *GetBuffer (int nLength)
{
assert (m_p != NULL);
return XML_GetBuffer (m_p, nLength);
}
protected:
// Parser callback enable/disable methods:
// @cmember Enable/Disable the start element handler
void EnableStartElementHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetStartElementHandler (m_p, fEnable ? StartElementHandler : NULL);
}
// @cmember Enable/Disable the end element handler
void EnableEndElementHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetEndElementHandler (m_p, fEnable ? EndElementHandler : NULL);
}
// @cmember Enable/Disable the element handlers
void EnableElementHandler (bool fEnable = true)
{
assert (m_p != NULL);
EnableStartElementHandler (fEnable);
EnableEndElementHandler (fEnable);
}
// @cmember Enable/Disable the character data handler
void EnableCharacterDataHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetCharacterDataHandler (m_p, fEnable ? CharacterDataHandler : NULL);
}
// @cmember Enable/Disable the processing instruction handler
void EnableProcessingInstructionHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetProcessingInstructionHandler (m_p, fEnable ? ProcessingInstructionHandler : NULL);
}
// @cmember Enable/Disable the comment handler
void EnableCommentHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetCommentHandler (m_p, fEnable ? CommentHandler : NULL);
}
// @cmember Enable/Disable the start CDATA section handler
void EnableStartCdataSectionHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetStartCdataSectionHandler (m_p, fEnable ? StartCdataSectionHandler : NULL);
}
// @cmember Enable/Disable the end CDATA section handler
void EnableEndCdataSectionHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetEndCdataSectionHandler (m_p, fEnable ? EndCdataSectionHandler : NULL);
}
// @cmember Enable/Disable the CDATA section handlers
void EnableCdataSectionHandler (bool fEnable = true)
{
assert (m_p != NULL);
EnableStartCdataSectionHandler (fEnable);
EnableEndCdataSectionHandler (fEnable);
}
// @cmember Enable/Disable default handler
void EnableDefaultHandler (bool fEnable = true, bool fExpand = true)
{
assert (m_p != NULL);
if (fExpand)
{
XML_SetDefaultHandlerExpand (m_p, fEnable ? DefaultHandler : NULL);
}
else
XML_SetDefaultHandler (m_p, fEnable ? DefaultHandler : NULL);
}
// @cmember Enable/Disable external entity ref handler
void EnableExternalEntityRefHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetExternalEntityRefHandler (m_p, fEnable ? ExternalEntityRefHandler : NULL);
}
// @cmember Enable/Disable unknown encoding handler
void EnableUnknownEncodingHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetUnknownEncodingHandler (m_p, fEnable ? UnknownEncodingHandler : NULL);
}
// @cmember Enable/Disable start namespace handler
void EnableStartNamespaceDeclHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetStartNamespaceDeclHandler (m_p, fEnable ? StartNamespaceDeclHandler : NULL);
}
// @cmember Enable/Disable end namespace handler
void EnableEndNamespaceDeclHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetEndNamespaceDeclHandler (m_p, fEnable ? EndNamespaceDeclHandler : NULL);
}
// @cmember Enable/Disable namespace handlers
void EnableNamespaceDeclHandler (bool fEnable = true)
{
EnableStartNamespaceDeclHandler (fEnable);
EnableEndNamespaceDeclHandler (fEnable);
}
// @cmember Enable/Disable the XML declaration handler
void EnableXmlDeclHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetXmlDeclHandler (m_p, fEnable ? XmlDeclHandler : NULL);
}
// @cmember Enable/Disable the start DOCTYPE declaration handler
void EnableStartDoctypeDeclHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetStartDoctypeDeclHandler (m_p, fEnable ? StartDoctypeDeclHandler : NULL);
}
// @cmember Enable/Disable the end DOCTYPE declaration handler
void EnableEndDoctypeDeclHandler (bool fEnable = true)
{
assert (m_p != NULL);
XML_SetEndDoctypeDeclHandler (m_p,
fEnable ? EndDoctypeDeclHandler : NULL);
}
// @cmember Enable/Disable the DOCTYPE declaration handler
void EnableDoctypeDeclHandler (bool fEnable = true)
{
assert (m_p != NULL);
EnableStartDoctypeDeclHandler (fEnable);
EnableEndDoctypeDeclHandler (fEnable);
}
public:
// Parser error reporting methods
// @cmember Get last error
enum XML_Error GetErrorCode ()
{
assert (m_p != NULL);
return XML_GetErrorCode (m_p);
}
// @cmember Get the current byte index
long GetCurrentByteIndex ()
{
assert (m_p != NULL);
return XML_GetCurrentByteIndex (m_p);
}
// @cmember Get the current line number
int GetCurrentLineNumber ()
{
assert (m_p != NULL);
return XML_GetCurrentLineNumber (m_p);
}
// @cmember Get the current column number
int GetCurrentColumnNumber ()
{
assert (m_p != NULL);
return XML_GetCurrentColumnNumber (m_p);
}
// @cmember Get the current byte count
int GetCurrentByteCount ()
{
assert (m_p != NULL);
return XML_GetCurrentByteCount (m_p);
}
// @cmember Get the input context
const char *GetInputContext (int *pnOffset, int *pnSize)
{
assert (m_p != NULL);
return XML_GetInputContext (m_p, pnOffset, pnSize);
}
// @cmember Get last error string
const XML_LChar *GetErrorString ()
{
return XML_ErrorString (GetErrorCode ());
}
// @cmember Return the version string
static const XML_LChar *GetExpatVersion ()
{
return XML_ExpatVersion ();
}
// @cmember Get the version information
static void GetExpatVersion (int *pnMajor, int *pnMinor, int *pnMicro)
{
XML_expat_version v = XML_ExpatVersionInfo ();
if (pnMajor)
*pnMajor = v .major;
if (pnMinor)
*pnMinor = v .minor;
if (pnMicro)
*pnMicro = v .micro;
}
// @cmember Get last error string
static const XML_LChar *GetErrorString (enum XML_Error nError)
{
return XML_ErrorString (nError);
}
// Public handler methods:
// The template parameter should provide their own implementation for those handlers that they want
// @cmember Start element handler
void OnStartElement (const XML_Char *pszName, const XML_Char **papszAttrs)
{
return;
}
// @cmember End element handler
void OnEndElement (const XML_Char *pszName)
{
return;
}
// @cmember Character data handler
void OnCharacterData (const XML_Char *pszData, int nLength)
{
return;
}
// @cmember Processing instruction handler
void OnProcessingInstruction (const XML_Char *pszTarget,
const XML_Char *pszData)
{
return;
}
// @cmember Comment handler
void OnComment (const XML_Char *pszData)
{
return;
}
// @cmember Start CDATA section handler
void OnStartCdataSection ()
{
return;
}
// @cmember End CDATA section handler
void OnEndCdataSection ()
{
return;
}
// @cmember Default handler
void OnDefault (const XML_Char *pszData, int nLength)
{
return;
}
// @cmember External entity ref handler
bool OnExternalEntityRef (const XML_Char *pszContext,
const XML_Char *pszBase, const XML_Char *pszSystemID,
const XML_Char *pszPublicID)
{
return false;
}
// @cmember Unknown encoding handler
bool OnUnknownEncoding (const XML_Char *pszName, XML_Encoding *pInfo)
{
return false;
}
// @cmember Start namespace declaration handler
void OnStartNamespaceDecl (const XML_Char *pszPrefix,
const XML_Char *pszURI)
{
return;
}
// @cmember End namespace declaration handler
void OnEndNamespaceDecl (const XML_Char *pszPrefix)
{
return;
}
// @cmember XML declaration handler
void OnXmlDecl (const XML_Char *pszVersion, const XML_Char *pszEncoding,
bool fStandalone)
{
return;
}
// @cmember Start DOCTYPE declaration handler
void OnStartDoctypeDecl (const XML_Char *pszDoctypeName,
const XML_Char *pszSysID, const XML_Char *pszPubID,
bool fHasInternalSubset)
{
return;
}
// @cmember End DOCTYPE declaration handler
void OnEndDoctypeDecl ()
{
return;
}
// @access Protected methods
protected:
// @cmember Handle any post creation
void OnPostCreate ()
{
}
// @access Protected static methods
protected:
// @cmember Start element handler wrapper
static void __cdecl StartElementHandler (void *pUserData,
const XML_Char *pszName, const XML_Char **papszAttrs)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnStartElement (pszName, papszAttrs);
}
// @cmember End element handler wrapper
static void __cdecl EndElementHandler (void *pUserData,
const XML_Char *pszName)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnEndElement (pszName);
}
// @cmember Character data handler wrapper
static void __cdecl CharacterDataHandler (void *pUserData,
const XML_Char *pszData, int nLength)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnCharacterData (pszData, nLength);
}
// @cmember Processing instruction handler wrapper
static void __cdecl ProcessingInstructionHandler (void *pUserData,
const XML_Char *pszTarget, const XML_Char *pszData)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnProcessingInstruction (pszTarget, pszData);
}
// @cmember Comment handler wrapper
static void __cdecl CommentHandler (void *pUserData,
const XML_Char *pszData)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnComment (pszData);
}
// @cmember Start CDATA section wrapper
static void __cdecl StartCdataSectionHandler (void *pUserData)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnStartCdataSection ();
}
// @cmember End CDATA section wrapper
static void __cdecl EndCdataSectionHandler (void *pUserData)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnEndCdataSection ();
}
// @cmember Default wrapper
static void __cdecl DefaultHandler (void *pUserData,
const XML_Char *pszData, int nLength)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnDefault (pszData, nLength);
}
// @cmember External entity ref wrapper
static int __cdecl ExternalEntityRefHandler (void *pUserData,
const XML_Char *pszContext, const XML_Char *pszBase,
const XML_Char *pszSystemID, const XML_Char *pszPublicID)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
return pThis ->OnExternalEntityRef (pszContext,
pszBase, pszSystemID, pszPublicID) ? 1 : 0;
}
// @cmember Unknown encoding wrapper
static int __cdecl UnknownEncodingHandler (void * pUserData, const XML_Char * pszName, XML_Encoding * pInfo)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
return pThis ->OnUnknownEncoding (pszName, pInfo) ? 1 : 0;
}
// @cmember Start namespace decl wrapper
static void __cdecl StartNamespaceDeclHandler (void * pUserData, const XML_Char * pszPrefix, const XML_Char * pszURI)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnStartNamespaceDecl (pszPrefix, pszURI);
}
// @cmember End namespace decl wrapper
static void __cdecl EndNamespaceDeclHandler (void * pUserData, const XML_Char * pszPrefix)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnEndNamespaceDecl (pszPrefix);
}
// @cmember XML declaration wrapper
static void __cdecl XmlDeclHandler (void *pUserData, const XML_Char *pszVersion, const XML_Char *pszEncoding, int nStandalone)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnXmlDecl (pszVersion, pszEncoding, nStandalone != 0);
}
// @cmember Start Doctype declaration wrapper
static void __cdecl StartDoctypeDeclHandler (
void *pUserData, const XML_Char *pszDoctypeName, const XML_Char *pszSysID,
const XML_Char *pszPubID, int nHasInternalSubset
)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnStartDoctypeDecl (pszDoctypeName, pszSysID,
pszPubID, nHasInternalSubset != 0);
}
// @cmember End Doctype declaration wrapper
static void __cdecl EndDoctypeDeclHandler (void *pUserData)
{
_T *pThis = static_cast <_T *> ((CExpatImpl <_T> *) pUserData);
pThis ->OnEndDoctypeDecl ();
}
protected:
XML_Parser m_p;
/// Returns the value of the specified attribute, if found; NULL otherwise
static const XML_Char * FindAttr(const XML_Char ** iAttrs, const XML_Char * iAttrToFind)
{
for (const XML_Char ** Attr = iAttrs; *Attr != NULL; Attr += 2)
{
if (strcmp(*Attr, iAttrToFind) == 0)
{
return *(Attr + 1);
}
} // for Attr - iAttrs[]
return NULL;
}
} ;