doom3-bfg/neo/framework/CVarSystem.h

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2012-11-26 18:58:24 +00:00
/*
===========================================================================
Doom 3 BFG Edition GPL Source Code
Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company.
This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").
Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Doom 3 BFG Edition Source Code is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Doom 3 BFG Edition Source Code. If not, see <http://www.gnu.org/licenses/>.
In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code. If not, please request a copy in writing from id Software at the address below.
If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
===========================================================================
*/
#ifndef __CVARSYSTEM_H__
#define __CVARSYSTEM_H__
/*
===============================================================================
Console Variables (CVars) are used to hold scalar or string variables
that can be changed or displayed at the console as well as accessed
directly in code.
CVars are mostly used to hold settings that can be changed from the
console or saved to and loaded from configuration files. CVars are also
occasionally used to communicate information between different modules
of the program.
CVars are restricted from having the same names as console commands to
keep the console interface from being ambiguous.
CVars can be accessed from the console in three ways:
cvarName prints the current value
cvarName X sets the value to X if the variable exists
set cvarName X as above, but creates the CVar if not present
CVars may be declared in the global namespace, in classes and in functions.
However declarations in classes and functions should always be static to
save space and time. Making CVars static does not change their
functionality due to their global nature.
CVars should be contructed only through one of the constructors with name,
value, flags and description. The name, value and description parameters
to the constructor have to be static strings, do not use va() or the like
functions returning a string.
CVars may be declared multiple times using the same name string. However,
they will all reference the same value and changing the value of one CVar
changes the value of all CVars with the same name.
CVars should always be declared with the correct type flag: CVAR_BOOL,
CVAR_INTEGER or CVAR_FLOAT. If no such flag is specified the CVar
defaults to type string. If the CVAR_BOOL flag is used there is no need
to specify an argument auto-completion function because the CVar gets
one assigned automatically.
CVars are automatically range checked based on their type and any min/max
or valid string set specified in the constructor.
CVars are always considered cheats except when CVAR_NOCHEAT, CVAR_INIT,
CVAR_ROM, CVAR_ARCHIVE, CVAR_SERVERINFO, CVAR_NETWORKSYNC
is set.
===============================================================================
*/
typedef enum {
CVAR_ALL = -1, // all flags
CVAR_BOOL = BIT(0), // variable is a boolean
CVAR_INTEGER = BIT(1), // variable is an integer
CVAR_FLOAT = BIT(2), // variable is a float
CVAR_SYSTEM = BIT(3), // system variable
CVAR_RENDERER = BIT(4), // renderer variable
CVAR_SOUND = BIT(5), // sound variable
CVAR_GUI = BIT(6), // gui variable
CVAR_GAME = BIT(7), // game variable
CVAR_TOOL = BIT(8), // tool variable
CVAR_SERVERINFO = BIT(10), // sent from servers, available to menu
CVAR_NETWORKSYNC = BIT(11), // cvar is synced from the server to clients
CVAR_STATIC = BIT(12), // statically declared, not user created
CVAR_CHEAT = BIT(13), // variable is considered a cheat
CVAR_NOCHEAT = BIT(14), // variable is not considered a cheat
CVAR_INIT = BIT(15), // can only be set from the command-line
CVAR_ROM = BIT(16), // display only, cannot be set by user at all
CVAR_ARCHIVE = BIT(17), // set to cause it to be saved to a config file
CVAR_MODIFIED = BIT(18) // set when the variable is modified
} cvarFlags_t;
/*
===============================================================================
idCVar
===============================================================================
*/
class idCVar {
public:
// Never use the default constructor.
idCVar() { assert( typeid( this ) != typeid( idCVar ) ); }
// Always use one of the following constructors.
idCVar( const char *name, const char *value, int flags, const char *description,
argCompletion_t valueCompletion = NULL );
idCVar( const char *name, const char *value, int flags, const char *description,
float valueMin, float valueMax, argCompletion_t valueCompletion = NULL );
idCVar( const char *name, const char *value, int flags, const char *description,
const char **valueStrings, argCompletion_t valueCompletion = NULL );
virtual ~idCVar() {}
const char * GetName() const { return internalVar->name; }
int GetFlags() const { return internalVar->flags; }
const char * GetDescription() const { return internalVar->description; }
float GetMinValue() const { return internalVar->valueMin; }
float GetMaxValue() const { return internalVar->valueMax; }
const char ** GetValueStrings() const { return valueStrings; }
argCompletion_t GetValueCompletion() const { return valueCompletion; }
bool IsModified() const { return ( internalVar->flags & CVAR_MODIFIED ) != 0; }
void SetModified() { internalVar->flags |= CVAR_MODIFIED; }
void ClearModified() { internalVar->flags &= ~CVAR_MODIFIED; }
const char * GetDefaultString() const { return internalVar->InternalGetResetString(); }
const char * GetString() const { return internalVar->value; }
bool GetBool() const { return ( internalVar->integerValue != 0 ); }
int GetInteger() const { return internalVar->integerValue; }
float GetFloat() const { return internalVar->floatValue; }
void SetString( const char *value ) { internalVar->InternalSetString( value ); }
void SetBool( const bool value ) { internalVar->InternalSetBool( value ); }
void SetInteger( const int value ) { internalVar->InternalSetInteger( value ); }
void SetFloat( const float value ) { internalVar->InternalSetFloat( value ); }
void SetInternalVar( idCVar *cvar ) { internalVar = cvar; }
static void RegisterStaticVars();
protected:
const char * name; // name
const char * value; // value
const char * description; // description
int flags; // CVAR_? flags
float valueMin; // minimum value
float valueMax; // maximum value
const char ** valueStrings; // valid value strings
argCompletion_t valueCompletion; // value auto-completion function
int integerValue; // atoi( string )
float floatValue; // atof( value )
idCVar * internalVar; // internal cvar
idCVar * next; // next statically declared cvar
private:
void Init( const char *name, const char *value, int flags, const char *description,
float valueMin, float valueMax, const char **valueStrings, argCompletion_t valueCompletion );
virtual void InternalSetString( const char *newValue ) {}
virtual void InternalSetBool( const bool newValue ) {}
virtual void InternalSetInteger( const int newValue ) {}
virtual void InternalSetFloat( const float newValue ) {}
virtual const char * InternalGetResetString() const { return value; }
static idCVar * staticVars;
};
ID_INLINE idCVar::idCVar( const char *name, const char *value, int flags, const char *description,
argCompletion_t valueCompletion ) {
if ( !valueCompletion && ( flags & CVAR_BOOL ) ) {
valueCompletion = idCmdSystem::ArgCompletion_Boolean;
}
Init( name, value, flags, description, 1, -1, NULL, valueCompletion );
}
ID_INLINE idCVar::idCVar( const char *name, const char *value, int flags, const char *description,
float valueMin, float valueMax, argCompletion_t valueCompletion ) {
Init( name, value, flags, description, valueMin, valueMax, NULL, valueCompletion );
}
ID_INLINE idCVar::idCVar( const char *name, const char *value, int flags, const char *description,
const char **valueStrings, argCompletion_t valueCompletion ) {
Init( name, value, flags, description, 1, -1, valueStrings, valueCompletion );
}
/*
===============================================================================
idCVarSystem
===============================================================================
*/
class idCVarSystem {
public:
virtual ~idCVarSystem() {}
virtual void Init() = 0;
virtual void Shutdown() = 0;
virtual bool IsInitialized() const = 0;
// Registers a CVar.
virtual void Register( idCVar *cvar ) = 0;
// Finds the CVar with the given name.
// Returns NULL if there is no CVar with the given name.
virtual idCVar * Find( const char *name ) = 0;
// Sets the value of a CVar by name.
virtual void SetCVarString( const char *name, const char *value, int flags = 0 ) = 0;
virtual void SetCVarBool( const char *name, const bool value, int flags = 0 ) = 0;
virtual void SetCVarInteger( const char *name, const int value, int flags = 0 ) = 0;
virtual void SetCVarFloat( const char *name, const float value, int flags = 0 ) = 0;
// Gets the value of a CVar by name.
virtual const char * GetCVarString( const char *name ) const = 0;
virtual bool GetCVarBool( const char *name ) const = 0;
virtual int GetCVarInteger( const char *name ) const = 0;
virtual float GetCVarFloat( const char *name ) const = 0;
// Called by the command system when argv(0) doesn't match a known command.
// Returns true if argv(0) is a variable reference and prints or changes the CVar.
virtual bool Command( const idCmdArgs &args ) = 0;
// Command and argument completion using callback for each valid string.
virtual void CommandCompletion( void(*callback)( const char *s ) ) = 0;
virtual void ArgCompletion( const char *cmdString, void(*callback)( const char *s ) ) = 0;
// Sets/gets/clears modified flags that tell what kind of CVars have changed.
virtual void SetModifiedFlags( int flags ) = 0;
virtual int GetModifiedFlags() const = 0;
virtual void ClearModifiedFlags( int flags ) = 0;
// Resets variables with one of the given flags set.
virtual void ResetFlaggedVariables( int flags ) = 0;
// Removes auto-completion from the flagged variables.
virtual void RemoveFlaggedAutoCompletion( int flags ) = 0;
// Writes variables with one of the given flags set to the given file.
virtual void WriteFlaggedVariables( int flags, const char *setCmd, idFile *f ) const = 0;
// Moves CVars to and from dictionaries.
virtual void MoveCVarsToDict( int flags, idDict & dict, bool onlyModified = false ) const = 0;
virtual void SetCVarsFromDict( const idDict &dict ) = 0;
};
extern idCVarSystem * cvarSystem;
/*
===============================================================================
CVar Registration
Each DLL using CVars has to declare a private copy of the static variable
idCVar::staticVars like this: idCVar * idCVar::staticVars = NULL;
Furthermore idCVar::RegisterStaticVars() has to be called after the
cvarSystem pointer is set when the DLL is first initialized.
===============================================================================
*/
ID_INLINE void idCVar::Init( const char *name, const char *value, int flags, const char *description,
float valueMin, float valueMax, const char **valueStrings, argCompletion_t valueCompletion ) {
this->name = name;
this->value = value;
this->flags = flags;
this->description = description;
this->flags = flags | CVAR_STATIC;
this->valueMin = valueMin;
this->valueMax = valueMax;
this->valueStrings = valueStrings;
this->valueCompletion = valueCompletion;
this->integerValue = 0;
this->floatValue = 0.0f;
this->internalVar = this;
if ( staticVars != (idCVar *)0xFFFFFFFF ) {
this->next = staticVars;
staticVars = this;
} else {
cvarSystem->Register( this );
}
}
ID_INLINE void idCVar::RegisterStaticVars() {
if ( staticVars != (idCVar *)0xFFFFFFFF ) {
for ( idCVar *cvar = staticVars; cvar; cvar = cvar->next ) {
cvarSystem->Register( cvar );
}
staticVars = (idCVar *)0xFFFFFFFF;
}
}
#endif /* !__CVARSYSTEM_H__ */