quake2-zaero/game.h


// game.h -- game dll information visible to server

#define	GAME_API_VERSION	3

// edict->svflags

#define	SVF_NOCLIENT			0x00000001	// don't send entity to clients, even if it has effects
#define	SVF_DEADMONSTER			0x00000002	// treat as CONTENTS_DEADMONSTER for collision
#define	SVF_MONSTER				0x00000004	// treat as CONTENTS_MONSTER for collision

// edict->solid values

typedef enum
{
SOLID_NOT,			// no interaction with other objects
SOLID_TRIGGER,		// only touch when inside, after moving
SOLID_BBOX,			// touch on edge
SOLID_BSP			// bsp clip, touch on edge
} solid_t;

//===============================================================

// link_t is only used for entity area links now
typedef struct link_s
{
	struct link_s	*prev, *next;
} link_t;

#define	MAX_ENT_CLUSTERS	16


typedef struct edict_s edict_t;
typedef struct gclient_s gclient_t;


#ifndef GAME_INCLUDE

struct gclient_s
{
	player_state_t	ps;		// communicated by server to clients
	int				ping;
	// the game dll can add anything it wants after
	// this point in the structure
};


struct edict_s
{
	entity_state_t	s;
	struct gclient_s	*client;
	qboolean	inuse;
	int			linkcount;

	// FIXME: move these fields to a server private sv_entity_t
	link_t		area;				// linked to a division node or leaf
	
	int			num_clusters;		// if -1, use headnode instead
	int			clusternums[MAX_ENT_CLUSTERS];
	int			headnode;			// unused if num_clusters != -1
	int			areanum, areanum2;

	//================================

	int			svflags;			// SVF_NOCLIENT, SVF_DEADMONSTER, SVF_MONSTER, etc
	vec3_t		mins, maxs;
	vec3_t		absmin, absmax, size;
	solid_t		solid;
	int			clipmask;
	edict_t		*owner;

	// the game dll can add anything it wants after
	// this point in the structure
};

#endif		// GAME_INCLUDE

//===============================================================

//
// functions provided by the main engine
//
typedef struct
{
	// special messages
	void	(*bprintf) (int printlevel, char *fmt, ...);
	void	(*dprintf) (char *fmt, ...);
	void	(*cprintf) (edict_t *ent, int printlevel, char *fmt, ...);
	void	(*centerprintf) (edict_t *ent, char *fmt, ...);
	void	(*sound) (edict_t *ent, int channel, int soundindex, float volume, float attenuation, float timeofs);
	void	(*positioned_sound) (vec3_t origin, edict_t *ent, int channel, int soundinedex, float volume, float attenuation, float timeofs);

	// config strings hold all the index strings, the lightstyles,
	// and misc data like the sky definition and cdtrack.
	// All of the current configstrings are sent to clients when
	// they connect, and changes are sent to all connected clients.
	void	(*configstring) (int num, char *string);

	void	(*error) (char *fmt, ...);

	// the *index functions create configstrings and some internal server state
	int		(*modelindex) (char *name);
	int		(*soundindex) (char *name);
	int		(*imageindex) (char *name);

	void	(*setmodel) (edict_t *ent, char *name);

	// collision detection
	trace_t	(*trace) (vec3_t start, vec3_t mins, vec3_t maxs, vec3_t end, edict_t *passent, int contentmask);
	int		(*pointcontents) (vec3_t point);
	qboolean	(*inPVS) (vec3_t p1, vec3_t p2);
	qboolean	(*inPHS) (vec3_t p1, vec3_t p2);
	void		(*SetAreaPortalState) (int portalnum, qboolean open);
	qboolean	(*AreasConnected) (int area1, int area2);

	// an entity will never be sent to a client or used for collision
	// if it is not passed to linkentity.  If the size, position, or
	// solidity changes, it must be relinked.
	void	(*linkentity) (edict_t *ent);
	void	(*unlinkentity) (edict_t *ent);		// call before removing an interactive edict
	int		(*BoxEdicts) (vec3_t mins, vec3_t maxs, edict_t **list,	int maxcount, int areatype);
	void	(*Pmove) (pmove_t *pmove);		// player movement code common with client prediction

	// network messaging
	void	(*multicast) (vec3_t origin, multicast_t to);
	void	(*unicast) (edict_t *ent, qboolean reliable);
	void	(*WriteChar) (int c);
	void	(*WriteByte) (int c);
	void	(*WriteShort) (int c);
	void	(*WriteLong) (int c);
	void	(*WriteFloat) (float f);
	void	(*WriteString) (char *s);
	void	(*WritePosition) (vec3_t pos);	// some fractional bits
	void	(*WriteDir) (vec3_t pos);		// single byte encoded, very coarse
	void	(*WriteAngle) (float f);

	// managed memory allocation
	void	*(*TagMalloc) (int size, int tag);
	void	(*TagFree) (void *block);
	void	(*FreeTags) (int tag);

	// console variable interaction
	cvar_t	*(*cvar) (char *var_name, char *value, int flags);
	cvar_t	*(*cvar_set) (char *var_name, char *value);
	cvar_t	*(*cvar_forceset) (char *var_name, char *value);

	// ClientCommand and ServerCommand parameter access
	int		(*argc) (void);
	char	*(*argv) (int n);
	char	*(*args) (void);	// concatenation of all argv >= 1

	// add commands to the server console as if they were typed in
	// for map changing, etc
	void	(*AddCommandString) (char *text);

	void	(*DebugGraph) (float value, int color);
} game_import_t;

//
// functions exported by the game subsystem
//
typedef struct
{
	int			apiversion;

	// the init function will only be called when a game starts,
	// not each time a level is loaded.  Persistant data for clients
	// and the server can be allocated in init
	void		(*Init) (void);
	void		(*Shutdown) (void);

	// each new level entered will cause a call to SpawnEntities
	void		(*SpawnEntities) (char *mapname, char *entstring, char *spawnpoint);

	// Read/Write Game is for storing persistant cross level information
	// about the world state and the clients.
	// WriteGame is called every time a level is exited.
	// ReadGame is called on a loadgame.
	void		(*WriteGame) (char *filename, qboolean autosave);
	void		(*ReadGame) (char *filename);

	// ReadLevel is called after the default map information has been
	// loaded with SpawnEntities
	void		(*WriteLevel) (char *filename);
	void		(*ReadLevel) (char *filename);

	qboolean	(*ClientConnect) (edict_t *ent, char *userinfo);
	void		(*ClientBegin) (edict_t *ent);
	void		(*ClientUserinfoChanged) (edict_t *ent, char *userinfo);
	void		(*ClientDisconnect) (edict_t *ent);
	void		(*ClientCommand) (edict_t *ent);
	void		(*ClientThink) (edict_t *ent, usercmd_t *cmd);

	void		(*RunFrame) (void);

	// ServerCommand will be called when an "sv <command>" command is issued on the
	// server console.
	// The game can issue gi.argc() / gi.argv() commands to get the rest
	// of the parameters
	void		(*ServerCommand) (void);

	//
	// global variables shared between game and server
	//

	// The edict array is allocated in the game dll so it
	// can vary in size from one game to another.
	// 
	// The size will be fixed when ge->Init() is called
	struct edict_s	*edicts;
	int			edict_size;
	int			num_edicts;		// current number, <= max_edicts
	int			max_edicts;
} game_export_t;

game_export_t *GetGameApi (game_import_t *import);
as released 1998-12-06 1998-12-06 00:00:00 +00:00
			`// game.h -- game dll information visible to server`

			`#define GAME_API_VERSION 3`

			`// edict->svflags`

			`#define SVF_NOCLIENT 0x00000001 // don't send entity to clients, even if it has effects`
			`#define SVF_DEADMONSTER 0x00000002 // treat as CONTENTS_DEADMONSTER for collision`
			`#define SVF_MONSTER 0x00000004 // treat as CONTENTS_MONSTER for collision`

			`// edict->solid values`

			`typedef enum`
			`{`
			`SOLID_NOT, // no interaction with other objects`
			`SOLID_TRIGGER, // only touch when inside, after moving`
			`SOLID_BBOX, // touch on edge`
			`SOLID_BSP // bsp clip, touch on edge`
			`} solid_t;`

			`//===============================================================`

			`// link_t is only used for entity area links now`
			`typedef struct link_s`
			`{`
			`struct link_s prev, next;`
			`} link_t;`

			`#define MAX_ENT_CLUSTERS 16`


			`typedef struct edict_s edict_t;`
			`typedef struct gclient_s gclient_t;`


			`#ifndef GAME_INCLUDE`

			`struct gclient_s`
			`{`
			`player_state_t ps; // communicated by server to clients`
			`int ping;`
			`// the game dll can add anything it wants after`
			`// this point in the structure`
			`};`


			`struct edict_s`
			`{`
			`entity_state_t s;`
			`struct gclient_s *client;`
			`qboolean inuse;`
			`int linkcount;`

			`// FIXME: move these fields to a server private sv_entity_t`
			`link_t area; // linked to a division node or leaf`

			`int num_clusters; // if -1, use headnode instead`
			`int clusternums[MAX_ENT_CLUSTERS];`
			`int headnode; // unused if num_clusters != -1`
			`int areanum, areanum2;`

			`//================================`

			`int svflags; // SVF_NOCLIENT, SVF_DEADMONSTER, SVF_MONSTER, etc`
			`vec3_t mins, maxs;`
			`vec3_t absmin, absmax, size;`
			`solid_t solid;`
			`int clipmask;`
			`edict_t *owner;`

			`// the game dll can add anything it wants after`
			`// this point in the structure`
			`};`

			`#endif // GAME_INCLUDE`

			`//===============================================================`

			`//`
			`// functions provided by the main engine`
			`//`
			`typedef struct`
			`{`
			`// special messages`
			`void (bprintf) (int printlevel, char fmt, ...);`
			`void (dprintf) (char fmt, ...);`
			`void (cprintf) (edict_t ent, int printlevel, char *fmt, ...);`
			`void (centerprintf) (edict_t ent, char *fmt, ...);`
			`void (sound) (edict_t ent, int channel, int soundindex, float volume, float attenuation, float timeofs);`
			`void (positioned_sound) (vec3_t origin, edict_t ent, int channel, int soundinedex, float volume, float attenuation, float timeofs);`

			`// config strings hold all the index strings, the lightstyles,`
			`// and misc data like the sky definition and cdtrack.`
			`// All of the current configstrings are sent to clients when`
			`// they connect, and changes are sent to all connected clients.`
			`void (configstring) (int num, char string);`

			`void (error) (char fmt, ...);`

			`// the *index functions create configstrings and some internal server state`
			`int (modelindex) (char name);`
			`int (soundindex) (char name);`
			`int (imageindex) (char name);`

			`void (setmodel) (edict_t ent, char *name);`

			`// collision detection`
			`trace_t (trace) (vec3_t start, vec3_t mins, vec3_t maxs, vec3_t end, edict_t passent, int contentmask);`
			`int (*pointcontents) (vec3_t point);`
			`qboolean (*inPVS) (vec3_t p1, vec3_t p2);`
			`qboolean (*inPHS) (vec3_t p1, vec3_t p2);`
			`void (*SetAreaPortalState) (int portalnum, qboolean open);`
			`qboolean (*AreasConnected) (int area1, int area2);`

			`// an entity will never be sent to a client or used for collision`
			`// if it is not passed to linkentity. If the size, position, or`
			`// solidity changes, it must be relinked.`
			`void (linkentity) (edict_t ent);`
			`void (unlinkentity) (edict_t ent); // call before removing an interactive edict`
			`int (BoxEdicts) (vec3_t mins, vec3_t maxs, edict_t *list, int maxcount, int areatype);`
			`void (Pmove) (pmove_t pmove); // player movement code common with client prediction`

			`// network messaging`
			`void (*multicast) (vec3_t origin, multicast_t to);`
			`void (unicast) (edict_t ent, qboolean reliable);`
			`void (*WriteChar) (int c);`
			`void (*WriteByte) (int c);`
			`void (*WriteShort) (int c);`
			`void (*WriteLong) (int c);`
			`void (*WriteFloat) (float f);`
			`void (WriteString) (char s);`
			`void (*WritePosition) (vec3_t pos); // some fractional bits`
			`void (*WriteDir) (vec3_t pos); // single byte encoded, very coarse`
			`void (*WriteAngle) (float f);`

			`// managed memory allocation`
			`void (TagMalloc) (int size, int tag);`
			`void (TagFree) (void block);`
			`void (*FreeTags) (int tag);`

			`// console variable interaction`
			`cvar_t (cvar) (char var_name, char value, int flags);`
			`cvar_t (cvar_set) (char var_name, char value);`
			`cvar_t (cvar_forceset) (char var_name, char value);`

			`// ClientCommand and ServerCommand parameter access`
			`int (*argc) (void);`
			`char (argv) (int n);`
			`char (args) (void); // concatenation of all argv >= 1`

			`// add commands to the server console as if they were typed in`
			`// for map changing, etc`
			`void (AddCommandString) (char text);`

			`void (*DebugGraph) (float value, int color);`
			`} game_import_t;`

			`//`
			`// functions exported by the game subsystem`
			`//`
			`typedef struct`
			`{`
			`int apiversion;`

			`// the init function will only be called when a game starts,`
			`// not each time a level is loaded. Persistant data for clients`
			`// and the server can be allocated in init`
			`void (*Init) (void);`
			`void (*Shutdown) (void);`

			`// each new level entered will cause a call to SpawnEntities`
			`void (SpawnEntities) (char mapname, char entstring, char spawnpoint);`

			`// Read/Write Game is for storing persistant cross level information`
			`// about the world state and the clients.`
			`// WriteGame is called every time a level is exited.`
			`// ReadGame is called on a loadgame.`
			`void (WriteGame) (char filename, qboolean autosave);`
			`void (ReadGame) (char filename);`

			`// ReadLevel is called after the default map information has been`
			`// loaded with SpawnEntities`
			`void (WriteLevel) (char filename);`
			`void (ReadLevel) (char filename);`

			`qboolean (ClientConnect) (edict_t ent, char *userinfo);`
			`void (ClientBegin) (edict_t ent);`
			`void (ClientUserinfoChanged) (edict_t ent, char *userinfo);`
			`void (ClientDisconnect) (edict_t ent);`
			`void (ClientCommand) (edict_t ent);`
			`void (ClientThink) (edict_t ent, usercmd_t *cmd);`

			`void (*RunFrame) (void);`

			`// ServerCommand will be called when an "sv <command>" command is issued on the`
			`// server console.`
			`// The game can issue gi.argc() / gi.argv() commands to get the rest`
			`// of the parameters`
			`void (*ServerCommand) (void);`

			`//`
			`// global variables shared between game and server`
			`//`

			`// The edict array is allocated in the game dll so it`
			`// can vary in size from one game to another.`
			`//`
			`// The size will be fixed when ge->Init() is called`
			`struct edict_s *edicts;`
			`int edict_size;`
			`int num_edicts; // current number, <= max_edicts`
			`int max_edicts;`
			`} game_export_t;`

			`game_export_t GetGameApi (game_import_t import);`