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//========= Copyright � 1996-2005, Valve Corporation, All rights reserved. ============//
//
// Purpose: Controls the loading, parsing and creation of the entities from the BSP.
//
//=============================================================================//
#include "cbase.h"
#include "mapentities_shared.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
#if !defined(_STATIC_LINKED) || defined(CLIENT_DLL)
static const char *s_BraceChars = "{}()\'";static bool s_BraceCharacters[256];static bool s_BuildReverseMap = true;
bool MapEntity_ExtractValue( const char *pEntData, const char *keyName, char Value[MAPKEY_MAXLENGTH] ){ char token[MAPKEY_MAXLENGTH]; const char *inputData = pEntData;
while ( inputData ) { inputData = MapEntity_ParseToken( inputData, token ); // get keyname
if ( token[0] == '}' ) // end of entity?
break; // must not have seen the classname
// is this the right key?
if ( !strcmp(token, keyName) ) { inputData = MapEntity_ParseToken( inputData, token ); // get value and return it
Q_strncpy( Value, token, MAPKEY_MAXLENGTH ); return true; }
inputData = MapEntity_ParseToken( inputData, token ); // skip over value
}
return false;}
int MapEntity_GetNumKeysInEntity( const char *pEntData ){ char token[MAPKEY_MAXLENGTH]; const char *inputData = pEntData; int iNumKeys = 0;
while ( inputData ) { inputData = MapEntity_ParseToken( inputData, token ); // get keyname
if ( token[0] == '}' ) // end of entity?
break; // must not have seen the classname
iNumKeys++;
inputData = MapEntity_ParseToken( inputData, token ); // skip over value
}
return iNumKeys;}
// skips to the beginning of the next entity in the data block
// returns NULL if no more entities
const char *MapEntity_SkipToNextEntity( const char *pMapData, char *pWorkBuffer ){ if ( !pMapData ) return NULL;
// search through the map string for the next matching '{'
int openBraceCount = 1; while ( pMapData != NULL ) { pMapData = MapEntity_ParseToken( pMapData, pWorkBuffer );
if ( FStrEq(pWorkBuffer, "{") ) { openBraceCount++; } else if ( FStrEq(pWorkBuffer, "}") ) { if ( --openBraceCount == 0 ) { // we've found the closing brace, so return the next character
return pMapData; } } }
// eof hit
return NULL;}
//-----------------------------------------------------------------------------
// Purpose: parses a token out of a char data block
// the token gets fully read no matter what the length, but only MAPKEY_MAXLENGTH
// characters are written into newToken
// Input : char *data - the data to parse
// char *newToken - the buffer into which the new token is written
// char *braceChars - a string of characters that constitute braces. this pointer needs to be
// distince for each set of braceChars, since the usage is cached.
// Output : const char * - returns a pointer to the position in the data following the newToken
//-----------------------------------------------------------------------------
const char *MapEntity_ParseToken( const char *data, char *newToken ){ int c; int len; len = 0; newToken[0] = 0; if (!data) return NULL;
// build the new table if we have to
if ( s_BuildReverseMap ) { s_BuildReverseMap = false;
Q_memset( s_BraceCharacters, 0, sizeof(s_BraceCharacters) );
for ( const char *c = s_BraceChars; *c; c++ ) { s_BraceCharacters[*c] = true; } } // skip whitespace
skipwhite: while ( (c = *data) <= ' ') { if (c == 0) return NULL; // end of file;
data++; } // skip // comments
if (c=='/' && data[1] == '/') { while (*data && *data != '\n') data++; goto skipwhite; }
// handle quoted strings specially
if (c == '\"') { data++; while ( len < MAPKEY_MAXLENGTH ) { c = *data++; if (c=='\"' || !c) { newToken[len] = 0; return data; } newToken[len] = c; len++; }
if ( len >= MAPKEY_MAXLENGTH ) { len--; newToken[len] = 0; } }
// parse single characters
if ( s_BraceCharacters[c]/*c=='{' || c=='}'|| c==')'|| c=='(' || c=='\''*/ ) { newToken[len] = c; len++; newToken[len] = 0; return data+1; }
// parse a regular word
do { newToken[len] = c; data++; len++; c = *data; if ( s_BraceCharacters[c] /*c=='{' || c=='}'|| c==')'|| c=='(' || c=='\''*/ ) break;
if ( len >= MAPKEY_MAXLENGTH ) { len--; newToken[len] = 0; }
} while (c>32); newToken[len] = 0; return data;}
#endif // !STATIC_LINKED || CLIENT_DLL
/* ================= CEntityMapData definition ================ */
bool CEntityMapData::ExtractValue( const char *keyName, char *value ){ return MapEntity_ExtractValue( m_pEntData, keyName, value );}
bool CEntityMapData::GetFirstKey( char *keyName, char *value ){ m_pCurrentKey = m_pEntData; // reset the status pointer
return GetNextKey( keyName, value );}
const char *CEntityMapData::CurrentBufferPosition( void ){ return m_pCurrentKey;}
bool CEntityMapData::GetNextKey( char *keyName, char *value ){ char token[MAPKEY_MAXLENGTH];
// parse key
char *pPrevKey = m_pCurrentKey; m_pCurrentKey = (char*)MapEntity_ParseToken( m_pCurrentKey, token ); if ( token[0] == '}' ) { // step back
m_pCurrentKey = pPrevKey; return false; }
if ( !m_pCurrentKey ) { Warning( "CEntityMapData::GetNextKey: EOF without closing brace\n" ); Assert(0); return false; } Q_strncpy( keyName, token, MAPKEY_MAXLENGTH );
// fix up keynames with trailing spaces
int n = strlen(keyName); while (n && keyName[n-1] == ' ') { keyName[n-1] = 0; n--; }
// parse value
m_pCurrentKey = (char*)MapEntity_ParseToken( m_pCurrentKey, token ); if ( !m_pCurrentKey ) { Warning( "CEntityMapData::GetNextKey: EOF without closing brace\n" ); Assert(0); return false; } if ( token[0] == '}' ) { Warning( "CEntityMapData::GetNextKey: closing brace without data\n" ); Assert(0); return false; }
// value successfully found
Q_strncpy( value, token, MAPKEY_MAXLENGTH ); return true;}
//-----------------------------------------------------------------------------
// Purpose: find the keyName in the endata and change its value to specified one
//-----------------------------------------------------------------------------
bool CEntityMapData::SetValue( const char *keyName, char *NewValue, int nKeyInstance ){ // If this is -1, the size of the string is unknown and cannot be safely modified!
Assert( m_nEntDataSize != -1 ); if ( m_nEntDataSize == -1 ) return false;
char token[MAPKEY_MAXLENGTH]; char *inputData = m_pEntData; char *prevData;
char newvaluebuf[ 1024 ]; int nCurrKeyInstance = 0;
while ( inputData ) { inputData = (char*)MapEntity_ParseToken( inputData, token ); // get keyname
if ( token[0] == '}' ) // end of entity?
break; // must not have seen the classname
// is this the right key?
if ( !strcmp(token, keyName) ) { ++nCurrKeyInstance; if ( nCurrKeyInstance > nKeyInstance ) { // Find the start & end of the token we're going to replace
int entLen = strlen(m_pEntData); char *postData = new char[entLen]; prevData = inputData; inputData = (char*)MapEntity_ParseToken( inputData, token ); // get keyname
Q_strncpy( postData, inputData, entLen );
// Insert quotes if caller didn't
if ( NewValue[0] != '\"' ) { Q_snprintf( newvaluebuf, sizeof( newvaluebuf ), "\"%s\"", NewValue ); } else { Q_strncpy( newvaluebuf, NewValue, sizeof( newvaluebuf ) ); }
int iNewValueLen = Q_strlen(newvaluebuf); int iPadding = iNewValueLen - Q_strlen( token ) - 2; // -2 for the quotes (token doesn't have them)
// prevData has a space at the start, seperating the value from the key.
// Add 1 to prevData when pasting in the new Value, to account for the space.
Q_strncpy( prevData+1, newvaluebuf, iNewValueLen+1 ); // +1 for the null terminator
Q_strcat( prevData, postData, m_nEntDataSize - ((prevData-m_pEntData)+1) );
m_pCurrentKey += iPadding; delete [] postData; return true; } }
inputData = (char*)MapEntity_ParseToken( inputData, token ); // skip over value
}
return false;}
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