ef2gamesource/dlls/game/script.cpp
Walter Julius Hennecke 5bbf27cabd Initial code commit ...
2012-12-30 17:37:54 +01:00

1104 lines
18 KiB
C++

//-----------------------------------------------------------------------------
//
// $Logfile:: /Code/DLLs/game/script.cpp $
// $Revision:: 18 $
// $Author:: Steven $
// $Date:: 10/13/03 9:11a $
//
// Copyright (C) 1997 by Ritual Entertainment, Inc.
// All rights reserved.
//
// This source is may not be distributed and/or modified without
// expressly written permission by Ritual Entertainment, Inc.
//
//
// DESCRIPTION:
// C++ implementaion of tokenizing text interpretation. Class accepts filename
// to load or pointer to preloaded text data. Standard tokenizing operations
// such as skip white-space, get string, get integer, get float, get token,
// and skip line are implemented.
//
// Note: all '//', '#', and ';' are treated as comments. Probably should
// make this behaviour toggleable.
//
#include "_pch_cpp.h"
#include "script.h"
#include <qcommon/gameplaymanager.h>
#define TOKENCOMMENT (';')
#define TOKENCOMMENT2 ('#')
#define TOKENEOL ('\n')
//#define TOKENNULL ('\0')
#define TOKENSPACE (' ')
#define TOKENSPECIAL ('$')
CLASS_DECLARATION( Class, Script, NULL )
{
{ NULL, NULL }
};
Script::~Script()
{
Close();
}
Script::Script(const char* filename /*= 0*/)
{
buffer = NULL;
script_p = NULL;
end_p = NULL;
line = 0;
length = 0;
releaseBuffer = false;
tokenready = false;
memset( token, 0, sizeof( token ) );
if ( filename != 0 )
LoadFile(filename);
}
void Script::Close( void )
{
if ( releaseBuffer && buffer )
{
gi.Free( ( void * )buffer );
}
buffer = NULL;
script_p = NULL;
end_p = NULL;
line = 0;
releaseBuffer = false;
tokenready = false;
memset( token, 0, sizeof( token ) );
//Loop Through the macro container and delete (del33t -hehe) them all
for( int i = 1; i <= macrolist.NumObjects(); i++)
{
if (macrolist.ObjectAt( i ) )
{
delete macrolist.ObjectAt( i );
macrolist.ObjectAt( i ) = 0;
}
}
}
/*
==============
=
= Filename
=
==============
*/
const char *Script::Filename( void )
{
return filename.c_str();
}
/*
==============
=
= GetLineNumber
=
==============
*/
int Script::GetLineNumber( void )
{
return line;
}
/*
==============
=
= Reset
=
==============
*/
void Script::Reset( void )
{
script_p = buffer;
line = 1;
tokenready = false;
}
/*
==============
=
= MarkPosition
=
==============
*/
void Script::MarkPosition( scriptmarker_t *mark )
{
assert( mark );
mark->tokenready = tokenready;
mark->offset = script_p - buffer;
mark->line = line;
strcpy( mark->token, token );
}
/*
==============
=
= RestorePosition
=
==============
*/
void Script::RestorePosition( const scriptmarker_t *mark )
{
assert( mark );
tokenready = mark->tokenready;
script_p = buffer + mark->offset;
line = mark->line;
strcpy( token, mark->token );
assert( script_p <= end_p );
if ( script_p > end_p )
{
script_p = end_p;
}
}
/*
==============
=
= SkipToEOL
=
==============
*/
qboolean Script::SkipToEOL( void )
{
if ( script_p >= end_p )
{
return true;
}
while( *script_p != TOKENEOL )
{
if ( script_p >= end_p )
{
return true;
}
script_p++;
}
return false;
}
/*
==============
=
= CheckOverflow
=
==============
*/
void Script::CheckOverflow( void )
{
if ( script_p >= end_p )
{
gi.Error( ERR_DROP, "End of token file reached prematurely reading %s\n", filename.c_str() );
}
}
/*
==============
=
= SkipWhiteSpace
=
==============
*/
void Script::SkipWhiteSpace( qboolean crossline )
{
//
// skip space
//
CheckOverflow();
while( *script_p <= TOKENSPACE )
{
if ( *script_p++ == TOKENEOL )
{
if ( !crossline )
{
gi.Error( ERR_DROP, "Line %i is incomplete in file %s\n", line, filename.c_str() );
}
line++;
}
CheckOverflow();
}
}
qboolean Script::AtComment( void )
{
if ( script_p >= end_p )
{
return false;
}
if ( *script_p == TOKENCOMMENT )
{
return true;
}
if ( *script_p == TOKENCOMMENT2 )
{
return true;
}
// Two or more character comment specifiers
if ( ( script_p + 1 ) >= end_p )
{
return false;
}
if ( ( *script_p == '/' ) && ( *( script_p + 1 ) == '/' ) )
{
return true;
}
return false;
}
/*
==============
=
= SkipNonToken
=
==============
*/
void Script::SkipNonToken( qboolean crossline )
{
//
// skip space and comments
//
SkipWhiteSpace( crossline );
while( AtComment() )
{
SkipToEOL();
SkipWhiteSpace( crossline );
}
}
/*
=============================================================================
=
= Token section
=
=============================================================================
*/
/*
==============
=
= TokenAvailable
=
==============
*/
qboolean Script::TokenAvailable( qboolean crossline )
{
if ( script_p >= end_p )
{
return false;
}
while ( 1 )
{
while ( *script_p <= TOKENSPACE )
{
if ( *script_p == TOKENEOL )
{
if ( !crossline )
{
return( false );
}
line++;
}
script_p++;
if ( script_p >= end_p )
{
return false;
}
}
if ( AtComment() )
{
qboolean done;
done = SkipToEOL();
if ( done )
{
return false;
}
}
else
{
break;
}
}
return true;
}
/*
==============
=
= CommentAvailable
=
==============
*/
qboolean Script::CommentAvailable( qboolean crossline )
{
const char *searchptr;
searchptr = script_p;
if ( searchptr >= end_p )
{
return false;
}
while ( *searchptr <= TOKENSPACE )
{
if ( ( *searchptr == TOKENEOL ) && ( !crossline ) )
{
return false;
}
searchptr++;
if ( searchptr >= end_p )
{
return false;
}
}
return true;
}
/*
==============
=
= UnGet
=
= Signals that the current token was not used, and should be reported
= for the next GetToken. Note that
GetToken (true);
UnGetToken ();
GetToken (false);
= could cross a line boundary.
=
==============
*/
void Script::UnGetToken( void )
{
tokenready = true;
}
/*
==============
=
= Get
=
==============
*/
qboolean Script::AtString( qboolean crossline )
{
//
// skip space
//
SkipNonToken( crossline );
return ( *script_p == '"' );
}
qboolean Script::AtOpenParen( qboolean crossline )
{
//
// skip space
//
SkipNonToken( crossline );
return ( *script_p == '(' );
}
qboolean Script::AtCloseParen( qboolean crossline )
{
//
// skip space
//
SkipNonToken( crossline );
return ( *script_p == ')' );
}
/*
==============
=
= Get
=
==============
*/
const char *Script::GetToken( qboolean crossline )
{
str token_p = token;
qboolean is_Macro = false;
// is a token already waiting?
if ( tokenready )
{
tokenready = false;
return token;
}
is_Macro = isMacro();
token_p = GrabNextToken(crossline);
if ( is_Macro && ( token_p != "$include" ) )
{
//Check to see if we need to add any definitions
while ( ( token_p == "$define" ) || ( token_p == "$Define" ) )
{
AddMacroDefinition(crossline);
is_Macro = isMacro();
//if ( !is_Macro )
// return "";
token_p = GrabNextToken(crossline);
}
//Check to see if we need return any defines strings
if( is_Macro && ( token_p != "$include" ) && ( token_p[token_p.length() - 1] == '$' ) )
{
return GetMacroString(token_p);
}
}
return token;
}
/*
==============
=
= GrabNextToken
=
==============
*/
const char *Script::GrabNextToken( qboolean crossline )
{
char *token_p;
//
// skip space
//
SkipNonToken( crossline );
//
// copy token
//
if ( *script_p == '"' )
{
return GetString( crossline );
}
token_p = token;
while( ( *script_p > TOKENSPACE ) && !AtComment() )
{
if ( ( *script_p == '\\' ) && ( script_p < ( end_p - 1 ) ) )
{
script_p++;
switch( *script_p )
{
case 'n' : *token_p++ = '\n'; break;
case 'r' : *token_p++ = '\n'; break;
case '\'' : *token_p++ = '\''; break;
case '\"' : *token_p++ = '\"'; break;
case '\\' : *token_p++ = '\\'; break;
default: *token_p++ = *script_p; break;
}
script_p++;
}
else
{
*token_p++ = *script_p++;
}
if ( token_p == &token[ MAXTOKEN ] )
{
gi.Error( ERR_DROP, "Token too large on line %i in file %s\n", line, filename.c_str() );
}
if ( script_p == end_p )
{
break;
}
}
*token_p = 0;
return token;
}
/*
==============
=
= AddMacroDefinition
=
==============
*/
void Script::AddMacroDefinition( qboolean crossline )
{
macro *theMacro;
//Create a new macro structure. This new macro will be deleted in the script close()
theMacro = new macro;
//Grab the macro name
theMacro->macroName = '$';
theMacro->macroName.append(GrabNextToken(crossline));
theMacro->macroName.append('$'); //<-- Adding closing ($) to keep formatting consistant
//Grab the macro string
str tmpstr;
tmpstr = GrabNextToken(crossline);
//Check to see if we need return any defines strings
if( ( tmpstr != "$include" ) && ( tmpstr[tmpstr.length() - 1] == '$' ) )
theMacro->macroText = GetMacroString(tmpstr);
else
theMacro->macroText = tmpstr;
macrolist.AddObject( theMacro );
}
/*
==============
=
= GetMacroString
=
==============
*/
const char *Script::GetMacroString( const char *theMacroName )
{
macro *theMacro =0; //Initialize this puppy
for( int i = 1; i <= macrolist.NumObjects(); i++)
{
theMacro = macrolist.ObjectAt( i );
if(!theMacro->macroName.cmp(theMacro->macroName.c_str(), theMacroName))
{
const char *text = theMacro->macroText.c_str();
// If our define value is another define...
if( text[0] == '$' )
return EvaluateMacroString(text);
else
return text;
}
}
char tmpstr[255], *sptr = tmpstr;
strcpy(tmpstr, theMacroName);
tmpstr[strlen(tmpstr)-1] = 0;
sptr++;
GameplayManager *gpm = GameplayManager::getTheGameplayManager();
if ( gpm->isDefined(sptr) )
return gpm->getDefine(sptr).c_str();
// We didn't find what we were looking for
gi.Error( ERR_DROP, "No Macro Text found for %s in file %s\n", theMacroName, filename.c_str() );
return 0;
}
//================================================================
// Name: AddMacro
// Class: Script
//
// Description: Adds a macro to the definitions list.
//
// Parameters: const char *name -- Name of the macro
// const char *value -- Value
//
// Returns: None
//
//================================================================
void Script::AddMacro(const char *name, const char *value)
{
}
/*
==============
=
= EvaluateMacroString
=
==============
*/
char *Script::EvaluateMacroString( const char *theMacroString )
{
static char evalText[255];
char buffer[255], *bufferptr = buffer, oper = '+', newoper = '+';
bool haveoper = false;
int i;
float value = 0.0f, val = 0.0f;
memset(buffer, 0, 255);
for ( i=0;i<=strlen(theMacroString);i++ )
{
if ( theMacroString[i] == '+' ) { haveoper = true; newoper = '+'; }
if ( theMacroString[i] == '-' ) { haveoper = true; newoper = '-'; }
if ( theMacroString[i] == '*' ) { haveoper = true; newoper = '*'; }
if ( theMacroString[i] == '/' ) { haveoper = true; newoper = '/'; }
if ( theMacroString[i] == 0 ) haveoper = true;
if ( haveoper )
{
if ( buffer[0] == '$' )
val = atof(GetMacroString(buffer));
else
val = atof(buffer);
value = EvaluateMacroMath(value, val, oper);
oper = newoper;
// Reset everything
haveoper = false;
memset(buffer, 0, 255);
bufferptr = buffer;
continue;
}
*bufferptr = theMacroString[i];
bufferptr++;
}
sprintf(evalText,"%f",value);
return evalText;
}
/*
==============
=
= EvaluateMacroMath
=
==============
*/
float Script::EvaluateMacroMath(float value, float newval, char oper)
{
switch ( oper )
{
case '+' : value += newval; break;
case '-' : value -= newval; break;
case '*' : value *= newval; break;
case '/' : value /= newval; break;
}
return value;
}
/*
==============
=
= isMacro
=
==============
*/
qboolean Script::isMacro( void )
{
if ( !TokenAvailable( true ) )
return false;
SkipNonToken( true );
if ( *script_p == TOKENSPECIAL )
{
return true;
}
return false;
}
/*
==============
=
= GetLine
=
==============
*/
const char *Script::GetLine( qboolean crossline )
{
const char *start;
int size;
// is a token already waiting?
if ( tokenready )
{
tokenready = false;
return token;
}
//
// skip space
//
SkipNonToken( crossline );
//
// copy token
//
start = script_p;
SkipToEOL();
size = script_p - start;
if ( size < ( MAXTOKEN - 1 ) )
{
memcpy( token, start, size );
token[ size ] = '\0';
}
else
{
gi.Error( ERR_DROP, "Token too large on line %i in file %s\n", line, filename.c_str() );
}
return token;
}
/*
==============
=
= GetRaw
=
==============
*/
const char *Script::GetRaw( void )
{
const char *start;
int size;
//
// skip white space
//
SkipWhiteSpace( true );
//
// copy token
//
start = script_p;
SkipToEOL();
size = script_p - start;
if ( size < ( MAXTOKEN - 1 ) )
{
memset( token, 0, sizeof( token ) );
memcpy( token, start, size );
}
else
{
gi.Error( ERR_DROP, "Token too large on line %i in file %s\n", line, filename.c_str() );
}
return token;
}
/*
==============
=
= GetString
=
==============
*/
const char *Script::GetString( qboolean crossline )
{
int startline;
char *token_p;
// is a token already waiting?
if ( tokenready )
{
tokenready = false;
return token;
}
//
// skip space
//
SkipNonToken( crossline );
if ( *script_p != '"' )
{
gi.Error( ERR_DROP, "Expecting string on line %i in file %s\n", line, filename.c_str() );
}
script_p++;
startline = line;
token_p = token;
while( *script_p != '"' )
{
if ( *script_p == TOKENEOL )
{
gi.Error( ERR_DROP, "Line %i is incomplete while reading string in file %s\n", line, filename.c_str() );
}
if ( ( *script_p == '\\' ) && ( script_p < ( end_p - 1 ) ) )
{
script_p++;
switch( *script_p )
{
case 'n' : *token_p++ = '\n'; break;
case 'r' : *token_p++ = '\n'; break;
case '\'' : *token_p++ = '\''; break;
case '\"' : *token_p++ = '\"'; break;
case '\\' : *token_p++ = '\\'; break;
default: *token_p++ = *script_p; break;
}
script_p++;
}
else
{
*token_p++ = *script_p++;
}
if ( script_p >= end_p )
{
gi.Error( ERR_DROP, "End of token file reached prematurely while reading string on\n"
"line %d in file %s\n", startline, filename.c_str() );
}
if ( token_p == &token[ MAXTOKEN ] )
{
gi.Error( ERR_DROP, "String too large on line %i in file %s\n", line, filename.c_str() );
}
}
*token_p = 0;
// skip last quote
script_p++;
return token;
}
/*
==============
=
= GetSpecific
=
==============
*/
qboolean Script::GetSpecific( const char *string )
{
do
{
if ( !TokenAvailable( true ) )
{
return false;
}
GetToken( true );
}
while( strcmp( token, string ) );
return true;
}
//===============================================================
// Name: GetBoolean
// Class: Script
//
// Description: Retrieves the next boolean value in the token
// stream. If the next token is either "true"
// or "1", then it returns true. Otherwise, it
// returns false.
//
// Parameters: qboolean -- determines if token parsing can cross newlines
//
// Returns: qboolean -- true if next token was "true" (or "1")
//
//===============================================================
qboolean Script::GetBoolean( qboolean crossline )
{
GetToken( crossline );
if ( stricmp( token, "true" ) == 0 )
return qtrue ;
else if ( stricmp( token, "1" ) == 0 )
return qtrue ;
return qfalse ;
}
/*
==============
=
= GetInteger
=
==============
*/
int Script::GetInteger( qboolean crossline )
{
GetToken( crossline );
return atoi( token );
}
/*
==============
=
= GetDouble
=
==============
*/
double Script::GetDouble( qboolean crossline )
{
GetToken( crossline );
return atof( token );
}
/*
==============
=
= GetFloat
=
==============
*/
float Script::GetFloat( qboolean crossline )
{
return ( float )GetDouble( crossline );
}
/*
==============
=
= GetVector
=
==============
*/
Vector Script::GetVector( qboolean crossline )
{
float x = GetFloat( crossline );
float y = GetFloat( crossline );
float z = GetFloat( crossline );
return Vector( x, y, z );
}
/*
===================
=
= LinesInFile
=
===================
*/
int Script::LinesInFile( void )
{
qboolean temp_tokenready;
const char *temp_script_p;
int temp_line;
char temp_token[ MAXTOKEN ];
int numentries;
temp_tokenready = tokenready;
temp_script_p = script_p;
temp_line = line;
strcpy( temp_token, token );
numentries = 0;
Reset();
while( TokenAvailable( true ) )
{
GetLine( true );
numentries++;
}
tokenready = temp_tokenready;
script_p = temp_script_p;
line = temp_line;
strcpy( token, temp_token );
return numentries;
}
/*
==============
=
= Parse
=
==============
*/
void Script::Parse( const char *data, int length, const char *name )
{
Close();
buffer = data;
Reset();
end_p = script_p + length;
this->length = length;
filename = name;
}
/*
==============
=
= Load
=
==============
*/
void Script::LoadFile( const char *name )
{
int length;
byte *buffer;
byte *tempbuf;
const char *const_buffer;
Close();
length = gi.FS_ReadFile( name, ( void ** )&tempbuf, true );
if ( length < 0 )
{
error( "LoadFile", "Couldn't load %s\n", name );
}
// create our own space
buffer = ( byte * )gi.Malloc( length );
// copy the file over to our space
memcpy( buffer, tempbuf, length );
// free the file
gi.FS_FreeFile( tempbuf );
const_buffer = ( char * )buffer;
Parse( const_buffer, length, name );
releaseBuffer = true;
}
const char *Script::Token( void )
{
return token;
}