quakeforge/qw/source/sv_pr_cmds.c

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/*
sv_pr_cmds.c
(description)
Copyright (C) 1996-1997 Id Software, Inc.
This program 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 2
of the License, or (at your option) any later version.
This program 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 this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
static __attribute__ ((unused)) const char rcsid[] =
"$Id$";
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include <ctype.h>
#include "QF/cbuf.h"
#include "QF/clip_hull.h"
#include "QF/cmd.h"
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#include "QF/cvar.h"
#include "QF/msg.h"
#include "QF/sys.h"
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#include "QF/va.h"
#include "compat.h"
#include "crudefile.h"
#include "server.h"
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#include "sv_demo.h"
#include "sv_gib.h"
#include "sv_pr_cmds.h"
#include "sv_progs.h"
#include "world.h"
/* BUILT-IN FUNCTIONS */
/*
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PF_error
This is a TERMINAL error, which will kill off the entire server.
Dumps self.
error (value)
*/
void
PF_error (progs_t *pr)
{
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const char *s;
edict_t *ed;
s = PF_VarString (pr, 0);
SV_Printf ("======SERVER ERROR in %s:\n%s\n",
PR_GetString (pr, pr->pr_xfunction->s_name), s);
ed = PROG_TO_EDICT (pr, *sv_globals.self);
ED_Print (pr, ed);
Sys_Error ("Program error");
}
/*
PF_objerror
Dumps out self, then an error message. The program is aborted and self is
removed, but the level can continue.
objerror (value)
*/
void
PF_objerror (progs_t *pr)
{
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const char *s;
edict_t *ed;
s = PF_VarString (pr, 0);
SV_Printf ("======OBJECT ERROR in %s:\n%s\n",
PR_GetString (pr, pr->pr_xfunction->s_name), s);
ed = PROG_TO_EDICT (pr, *sv_globals.self);
ED_Print (pr, ed);
ED_Free (pr, ed);
Sys_Error ("Program error");
}
/*
PF_makevectors
Writes new values for v_forward, v_up, and v_right based on angles
makevectors (vector)
*/
void
PF_makevectors (progs_t *pr)
{
AngleVectors (P_VECTOR (pr, 0), *sv_globals.v_forward,
*sv_globals.v_right, *sv_globals.v_up);
}
/*
PF_setorigin
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This is the only valid way to move an object without using the physics of
the world (setting velocity and waiting). Directly changing origin will
not set internal links correctly, so clipping would be messed up. This
should be called when an object is spawned, and then only if it is
teleported.
setorigin (entity, origin)
*/
void
PF_setorigin (progs_t *pr)
{
edict_t *e;
float *org;
e = P_EDICT (pr, 0);
org = P_VECTOR (pr, 1);
VectorCopy (org, SVvector (e, origin));
SV_LinkEdict (e, false);
}
/*
PF_setsize
the size box is rotated by the current angle
setsize (entity, minvector, maxvector)
*/
void
PF_setsize (progs_t *pr)
{
edict_t *e;
float *min, *max;
e = P_EDICT (pr, 0);
min = P_VECTOR (pr, 1);
max = P_VECTOR (pr, 2);
VectorCopy (min, SVvector (e, mins));
VectorCopy (max, SVvector (e, maxs));
VectorSubtract (max, min, SVvector (e, size));
SV_LinkEdict (e, false);
}
/*
PF_setmodel
setmodel(entity, model)
Also sets size, mins, and maxs for inline bmodels
*/
void
PF_setmodel (progs_t *pr)
{
edict_t *e;
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const char *m, **check;
int i;
model_t *mod;
e = P_EDICT (pr, 0);
m = P_GSTRING (pr, 1);
// check to see if model was properly precached
for (i = 0, check = sv.model_precache; *check; i++, check++)
if (!strcmp (*check, m))
break;
if (!*check)
PR_RunError (pr, "no precache: %s\n", m);
SVstring (e, model) = PR_SetString (pr, m);
SVfloat (e, modelindex) = i;
// if it is an inline model, get the size information for it
if (m[0] == '*') {
mod = Mod_ForName (m, true);
VectorCopy (mod->mins, SVvector (e, mins));
VectorCopy (mod->maxs, SVvector (e, maxs));
VectorSubtract (mod->maxs, mod->mins, SVvector (e, size));
SV_LinkEdict (e, false);
}
}
/*
PF_bprint
broadcast print to everyone on server
bprint (value)
*/
void
PF_bprint (progs_t *pr)
{
const char *s;
int level;
level = P_FLOAT (pr, 0);
s = PF_VarString (pr, 1);
SV_BroadcastPrintf (level, "%s", s);
}
/*
PF_sprint
single print to a specific client
sprint (clientent, value)
*/
void
PF_sprint (progs_t *pr)
{
const char *s;
client_t *client;
int entnum, level;
entnum = P_EDICTNUM (pr, 0);
level = P_FLOAT (pr, 1);
if (entnum < 1 || entnum > MAX_CLIENTS) {
SV_Printf ("tried to sprint to a non-client\n");
return;
}
client = &svs.clients[entnum - 1];
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if (client->state == cs_server)
return;
s = PF_VarString (pr, 2);
SV_ClientPrintf (1, client, level, "%s", s);
}
/*
PF_centerprint
single print to a specific client
centerprint (clientent, value)
*/
void
PF_centerprint (progs_t *pr)
{
const char *s;
client_t *cl;
int entnum;
entnum = P_EDICTNUM (pr, 0);
if (entnum < 1 || entnum > MAX_CLIENTS) {
SV_Printf ("tried to sprint to a non-client\n");
return;
}
cl = &svs.clients[entnum - 1];
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if (cl->state == cs_server)
return;
s = PF_VarString (pr, 1);
ClientReliableWrite_Begin (cl, svc_centerprint, 2 + strlen (s));
ClientReliableWrite_String (cl, s);
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, entnum - 1, 2 + strlen (s));
MSG_WriteByte (&demo.dbuf->sz, svc_centerprint);
MSG_WriteString (&demo.dbuf->sz, s);
}
}
/*
PF_ambientsound
*/
void
PF_ambientsound (progs_t *pr)
{
const char **check;
const char *samp;
float *pos;
float vol, attenuation;
int soundnum;
pos = P_VECTOR (pr, 0);
samp = P_GSTRING (pr, 1);
vol = P_FLOAT (pr, 2);
attenuation = P_FLOAT (pr, 3);
// check to see if samp was properly precached
for (soundnum = 0, check = sv.sound_precache; *check; check++, soundnum++)
if (!strcmp (*check, samp))
break;
if (!*check) {
SV_Printf ("no precache: %s\n", samp);
return;
}
// add an svc_spawnambient command to the level signon packet
MSG_WriteByte (&sv.signon, svc_spawnstaticsound);
MSG_WriteCoordV (&sv.signon, pos);
MSG_WriteByte (&sv.signon, soundnum);
MSG_WriteByte (&sv.signon, vol * 255);
MSG_WriteByte (&sv.signon, attenuation * 64);
}
/*
PF_sound
Each entity can have eight independant sound sources, like voice,
weapon, feet, etc.
Channel 0 is an auto-allocate channel, the others override anything
already running on that entity/channel pair.
An attenuation of 0 will play full volume everywhere in the level.
Larger attenuations will drop off.
*/
void
PF_sound (progs_t *pr)
{
const char *sample;
edict_t *entity;
float attenuation;
int channel, volume;
entity = P_EDICT (pr, 0);
channel = P_FLOAT (pr, 1);
sample = P_GSTRING (pr, 2);
volume = P_FLOAT (pr, 3) * 255;
attenuation = P_FLOAT (pr, 4);
SV_StartSound (entity, channel, sample, volume, attenuation);
}
/*
PF_traceline
Used for use tracing and shot targeting.
Traces are blocked by bbox and exact bsp entityes, and also slide box
entities if the tryents flag is set.
traceline (vector1, vector2, tryents)
*/
void
PF_traceline (progs_t *pr)
{
float *v1, *v2;
edict_t *ent;
int nomonsters;
trace_t trace;
v1 = P_VECTOR (pr, 0);
v2 = P_VECTOR (pr, 1);
nomonsters = P_FLOAT (pr, 2);
ent = P_EDICT (pr, 3);
trace = SV_Move (v1, vec3_origin, vec3_origin, v2, nomonsters, ent);
*sv_globals.trace_allsolid = trace.allsolid;
*sv_globals.trace_startsolid = trace.startsolid;
*sv_globals.trace_fraction = trace.fraction;
*sv_globals.trace_inwater = trace.inwater;
*sv_globals.trace_inopen = trace.inopen;
VectorCopy (trace.endpos, *sv_globals.trace_endpos);
VectorCopy (trace.plane.normal, *sv_globals.trace_plane_normal);
*sv_globals.trace_plane_dist = trace.plane.dist;
if (trace.ent)
*sv_globals.trace_ent = EDICT_TO_PROG (pr, trace.ent);
else
*sv_globals.trace_ent = EDICT_TO_PROG (pr, sv.edicts);
}
/*
PF_checkmove
Wrapper around SV_Move, this makes PF_movetoground and PF_traceline
redundant.
*/
static void
PF_checkmove (progs_t *pr)
{
edict_t *ent;
float *start, *end, *mins, *maxs;
int type;
trace_t trace;
start = P_VECTOR (pr, 0);
mins = P_VECTOR (pr, 1);
maxs = P_VECTOR (pr, 2);
end = P_VECTOR (pr, 3);
type = P_FLOAT (pr, 4);
ent = P_EDICT (pr, 5);
trace = SV_Move (start, mins, maxs, end, type, ent);
*sv_globals.trace_allsolid = trace.allsolid;
*sv_globals.trace_startsolid = trace.startsolid;
*sv_globals.trace_fraction = trace.fraction;
*sv_globals.trace_inwater = trace.inwater;
*sv_globals.trace_inopen = trace.inopen;
VectorCopy (trace.endpos, *sv_globals.trace_endpos);
VectorCopy (trace.plane.normal, *sv_globals.trace_plane_normal);
*sv_globals.trace_plane_dist = trace.plane.dist;
if (trace.ent)
*sv_globals.trace_ent = EDICT_TO_PROG (pr, trace.ent);
else
*sv_globals.trace_ent = EDICT_TO_PROG (pr, sv.edicts);
}
/*
PF_checkpos
Returns true if the given entity can move to the given position from it's
current position by walking or rolling.
FIXME: make work...
scalar checkpos (entity, vector)
*/
void
PF_checkpos (progs_t *pr)
{
}
byte checkpvs[MAX_MAP_LEAFS / 8];
int
PF_newcheckclient (progs_t *pr, int check)
{
byte *pvs;
edict_t *ent;
int i;
mleaf_t *leaf;
vec3_t org;
// cycle to the next one
if (check < 1)
check = 1;
if (check > MAX_CLIENTS)
check = MAX_CLIENTS;
if (check == MAX_CLIENTS)
i = 1;
else
i = check + 1;
for (;; i++) {
if (i == MAX_CLIENTS + 1)
i = 1;
ent = EDICT_NUM (pr, i);
if (i == check)
break; // didn't find anything else
if (ent->free)
continue;
if (SVfloat (ent, health) <= 0)
continue;
if ((int) SVfloat (ent, flags) & FL_NOTARGET)
continue;
// anything that is a client, or has a client as an enemy
break;
}
// get the PVS for the entity
VectorAdd (SVvector (ent, origin), SVvector (ent, view_ofs), org);
leaf = Mod_PointInLeaf (org, sv.worldmodel);
pvs = Mod_LeafPVS (leaf, sv.worldmodel);
memcpy (checkpvs, pvs, (sv.worldmodel->numleafs + 7) >> 3);
return i;
}
#define MAX_CHECK 16
int c_invis, c_notvis;
/*
PF_checkclient
Returns a client (or object that has a client enemy) that would be a
valid target.
If there are more than one valid options, they are cycled each frame
If (self.origin + self.viewofs) is not in the PVS of the current target, it
is not returned at all.
*/
void
PF_checkclient (progs_t *pr)
{
edict_t *ent, *self;
int l;
mleaf_t *leaf;
vec3_t view;
// find a new check if on a new frame
if (sv.time - sv.lastchecktime >= 0.1) {
sv.lastcheck = PF_newcheckclient (pr, sv.lastcheck);
sv.lastchecktime = sv.time;
}
// return check if it might be visible
ent = EDICT_NUM (pr, sv.lastcheck);
if (ent->free || SVfloat (ent, health) <= 0) {
RETURN_EDICT (pr, sv.edicts);
return;
}
// if current entity can't possibly see the check entity, return 0
self = PROG_TO_EDICT (pr, *sv_globals.self);
VectorAdd (SVvector (self, origin), SVvector (self, view_ofs), view);
leaf = Mod_PointInLeaf (view, sv.worldmodel);
l = (leaf - sv.worldmodel->leafs) - 1;
if ((l < 0) || !(checkpvs[l >> 3] & (1 << (l & 7)))) {
c_notvis++;
RETURN_EDICT (pr, sv.edicts);
return;
}
// might be able to see it
c_invis++;
RETURN_EDICT (pr, ent);
}
/*
PF_stuffcmd
Sends text over to the client's execution buffer
stuffcmd (clientent, value)
*/
void
PF_stuffcmd (progs_t *pr)
{
const char *str;
char *buf, *p;
client_t *cl;
int entnum;
entnum = P_EDICTNUM (pr, 0);
if (entnum < 1 || entnum > MAX_CLIENTS)
PR_RunError (pr, "Parm 0 not a client");
cl = &svs.clients[entnum - 1];
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if (cl->state == cs_server)
return;
str = P_GSTRING (pr, 1);
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buf = cl->stufftext_buf;
if (strlen (buf) + strlen (str) >= MAX_STUFFTEXT)
PR_RunError (pr, "stufftext buffer overflow");
strcat (buf, str);
if (!strcmp (buf, "disconnect\n")) {
// so long and thanks for all the fish
cl->drop = true;
buf[0] = 0;
return;
}
p = strrchr (buf, '\n');
if (p) {
char t = p[1];
p[1] = 0;
ClientReliableWrite_Begin (cl, svc_stufftext, 2 + p - buf);
ClientReliableWrite_String (cl, buf);
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 2 + strlen (buf));
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MSG_WriteByte (&demo.dbuf->sz, svc_stufftext);
MSG_WriteString (&demo.dbuf->sz, buf);
}
p[1] = t;
strcpy (buf, p + 1); // safe because this is a downward, in
// buffer move
}
}
/*
PF_localcmd
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Inserts text into the server console's execution buffer
localcmd (string)
*/
void
PF_localcmd (progs_t *pr)
{
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const char *str;
str = P_GSTRING (pr, 0);
Cbuf_AddText (sv_cbuf, str);
}
/*
PF_findradius
Returns a chain of entities that have origins within a spherical area
findradius (origin, radius)
*/
void
PF_findradius (progs_t *pr)
{
edict_t *ent, *chain;
float rad;
float *eorigin, *emins, *emaxs, *org;
int i, j;
vec3_t eorg;
chain = (edict_t *) sv.edicts;
org = P_VECTOR (pr, 0);
rad = P_FLOAT (pr, 1);
rad *= rad; // Square early, sqrt never
ent = NEXT_EDICT (pr, sv.edicts);
for (i = 1; i < sv.num_edicts; i++, ent = NEXT_EDICT (pr, ent)) {
if (ent->free)
continue;
if (SVfloat (ent, solid) == SOLID_NOT)
continue;
eorigin = SVvector (ent, origin);
emins = SVvector (ent, mins);
emaxs = SVvector (ent, maxs);
for (j = 0; j < 3; j++)
eorg[j] = org[j] - eorigin[j] - 0.5 * (emins[j] - emaxs[j]);
if (DotProduct (eorg, eorg) > rad)
continue;
SVentity (ent, chain) = EDICT_TO_PROG (pr, chain);
chain = ent;
}
RETURN_EDICT (pr, chain);
}
void
PF_Spawn (progs_t *pr)
{
edict_t *ed;
ed = ED_Alloc (pr);
RETURN_EDICT (pr, ed);
}
cvar_t *pr_double_remove;
void
PF_Remove (progs_t *pr)
{
edict_t *ed;
ed = P_EDICT (pr, 0);
if (ed->free && pr_double_remove->int_val) {
if (pr_double_remove->int_val == 1) {
PR_DumpState (pr);
SV_Printf ("Double entity remove\n");
} else // == 2
PR_RunError (pr, "Double entity remove\n");
}
ED_Free (pr, ed);
}
void
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PR_CheckEmptyString (progs_t *pr, const char *s)
{
if (s[0] <= ' ')
PR_RunError (pr, "Bad string");
}
static void
do_precache (progs_t *pr, const char **cache, int max, const char *name,
const char *func)
{
int i;
char *s;
if (sv.state != ss_loading)
PR_RunError (pr, "%s: Precache can only be done in spawn functions",
func);
PR_CheckEmptyString (pr, name);
s = Hunk_TempAlloc (strlen (name) + 1);
for (i = 0; *name; i++, name++) {
int c = (byte) *name;
s[i] = tolower (c);
}
s[i] = 0;
for (i = 0; i < MAX_SOUNDS; i++) {
if (!cache[i]) {
char *c = Hunk_Alloc (strlen (s) + 1);
strcpy (c, s);
cache[i] = c; // blah, const
Con_DPrintf ("%s: %3d %s\n", func, i, s);
return;
}
if (!strcmp (cache[i], s))
return;
}
PR_RunError (pr, "%s: overflow", func);
}
void
PF_precache_file (progs_t *pr)
{ // precache_file is only used to copy
// files with qcc, it does nothing
R_INT (pr) = P_INT (pr, 0);
}
void
PF_precache_sound (progs_t *pr)
{
do_precache (pr, sv.sound_precache, MAX_SOUNDS, P_GSTRING (pr, 0),
"precache_sound");
R_INT (pr) = P_INT (pr, 0);
}
void
PF_precache_model (progs_t *pr)
{
R_INT (pr) = P_INT (pr, 0);
do_precache (pr, sv.model_precache, MAX_MODELS, P_GSTRING (pr, 0),
"precache_model");
}
/*
PF_walkmove
float (float yaw, float dist) walkmove
*/
void
PF_walkmove (progs_t *pr)
{
dfunction_t *oldf;
edict_t *ent;
float yaw, dist;
int oldself;
vec3_t move;
ent = PROG_TO_EDICT (pr, *sv_globals.self);
yaw = P_FLOAT (pr, 0);
dist = P_FLOAT (pr, 1);
if (!((int) SVfloat (ent, flags) & (FL_ONGROUND | FL_FLY | FL_SWIM))) {
R_FLOAT (pr) = 0;
return;
}
yaw = yaw * M_PI * 2 / 360;
move[0] = cos (yaw) * dist;
move[1] = sin (yaw) * dist;
move[2] = 0;
// save program state, because SV_movestep may call other progs
oldf = pr->pr_xfunction;
oldself = *sv_globals.self;
R_FLOAT (pr) = SV_movestep (ent, move, true);
// restore program state
pr->pr_xfunction = oldf;
*sv_globals.self = oldself;
}
/*
PF_droptofloor
void () droptofloor
*/
void
PF_droptofloor (progs_t *pr)
{
edict_t *ent;
trace_t trace;
vec3_t end;
ent = PROG_TO_EDICT (pr, *sv_globals.self);
VectorCopy (SVvector (ent, origin), end);
end[2] -= 256;
trace = SV_Move (SVvector (ent, origin), SVvector (ent, mins),
SVvector (ent, maxs), end, false, ent);
if (trace.fraction == 1 || trace.allsolid) {
R_FLOAT (pr) = 0;
} else {
VectorCopy (trace.endpos, SVvector (ent, origin));
SV_LinkEdict (ent, false);
SVfloat (ent, flags) = (int) SVfloat (ent, flags) | FL_ONGROUND;
SVentity (ent, groundentity) = EDICT_TO_PROG (pr, trace.ent);
R_FLOAT (pr) = 1;
}
}
/*
PF_lightstyle
void (float style, string value) lightstyle
*/
void
PF_lightstyle (progs_t *pr)
{
const char *val;
client_t *client;
int style, j;
style = P_FLOAT (pr, 0);
val = P_GSTRING (pr, 1);
// change the string in sv
sv.lightstyles[style] = val;
// send message to all clients on this server
if (sv.state != ss_active)
return;
for (j = 0, client = svs.clients; j < MAX_CLIENTS; j++, client++)
if (client->state == cs_spawned) {
ClientReliableWrite_Begin (client, svc_lightstyle,
strlen (val) + 3);
ClientReliableWrite_Char (client, style);
ClientReliableWrite_String (client, val);
}
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if (sv.demorecording) {
DemoWrite_Begin (dem_all, 0, strlen (val) + 3);
MSG_WriteByte (&demo.dbuf->sz, svc_lightstyle);
MSG_WriteByte (&demo.dbuf->sz, style);
MSG_WriteString (&demo.dbuf->sz, val);
}
}
void
PF_checkbottom (progs_t *pr)
{
edict_t *ent;
ent = P_EDICT (pr, 0);
R_FLOAT (pr) = SV_CheckBottom (ent);
}
void
PF_pointcontents (progs_t *pr)
{
float *v;
v = P_VECTOR (pr, 0);
R_FLOAT (pr) = SV_PointContents (v);
}
cvar_t *sv_aim;
/*
PF_aim
Pick a vector for the player to shoot along
vector aim (entity, missilespeed)
*/
void
PF_aim (progs_t *pr)
{
const char *noaim;
edict_t *ent, *check, *bestent;
float dist, bestdist, speed;
float *mins, *maxs, *org;
int i, j;
trace_t tr;
vec3_t start, dir, end, bestdir;
if (sv_aim->value >= 1.0) {
VectorCopy (*sv_globals.v_forward, R_VECTOR (pr));
return;
}
ent = P_EDICT (pr, 0);
// noaim option
i = NUM_FOR_EDICT (pr, ent);
if (i > 0 && i < MAX_CLIENTS) {
noaim = Info_ValueForKey (svs.clients[i - 1].userinfo, "noaim");
if (atoi (noaim) > 0) {
VectorCopy (*sv_globals.v_forward, R_VECTOR (pr));
return;
}
}
speed = P_FLOAT (pr, 1);
VectorCopy (SVvector (ent, origin), start);
start[2] += 20;
// try sending a trace straight
VectorCopy (*sv_globals.v_forward, dir);
VectorMA (start, 2048, dir, end);
tr = SV_Move (start, vec3_origin, vec3_origin, end, false, ent);
if (tr.ent && SVfloat (tr.ent, takedamage) == DAMAGE_AIM
&& (!teamplay->int_val || SVfloat (ent, team) <= 0
|| SVfloat (ent, team) != SVfloat (tr.ent, team))) {
VectorCopy (*sv_globals.v_forward, R_VECTOR (pr));
return;
}
// try all possible entities
VectorCopy (dir, bestdir);
bestdist = sv_aim->value;
bestent = NULL;
check = NEXT_EDICT (pr, sv.edicts);
for (i = 1; i < sv.num_edicts; i++, check = NEXT_EDICT (pr, check)) {
if (SVfloat (check, takedamage) != DAMAGE_AIM)
continue;
if (check == ent)
continue;
if (teamplay->int_val && SVfloat (ent, team) > 0
&& SVfloat (ent, team) == SVfloat (check, team))
continue; // don't aim at teammate
mins = SVvector (check, mins);
maxs = SVvector (check, maxs);
org = SVvector (check, origin);
for (j = 0; j < 3; j++)
end[j] = org[j] + 0.5 * (mins[j] + maxs[j]);
VectorSubtract (end, start, dir);
VectorNormalize (dir);
dist = DotProduct (dir, *sv_globals.v_forward);
if (dist < bestdist)
continue; // to far to turn
tr = SV_Move (start, vec3_origin, vec3_origin, end, false, ent);
if (tr.ent == check) { // can shoot at this one
bestdist = dist;
bestent = check;
}
}
if (bestent) {
VectorSubtract (SVvector (bestent, origin), SVvector (ent, origin),
dir);
dist = DotProduct (dir, *sv_globals.v_forward);
VectorScale (*sv_globals.v_forward, dist, end);
end[2] = dir[2];
VectorNormalize (end);
VectorCopy (end, R_VECTOR (pr));
} else {
VectorCopy (bestdir, R_VECTOR (pr));
}
}
/*
PF_changeyaw
This was a major timewaster in progs, so it was converted to C
*/
void
PF_changeyaw (progs_t *pr)
{
edict_t *ent;
float ideal, current, move, speed;
ent = PROG_TO_EDICT (pr, *sv_globals.self);
current = anglemod (SVvector (ent, angles)[1]);
ideal = SVfloat (ent, ideal_yaw);
speed = SVfloat (ent, yaw_speed);
if (current == ideal)
return;
move = ideal - current;
if (ideal > current) {
if (move >= 180)
move = move - 360;
} else {
if (move <= -180)
move = move + 360;
}
if (move > 0) {
if (move > speed)
move = speed;
} else {
if (move < -speed)
move = -speed;
}
SVvector (ent, angles)[1] = anglemod (current + move);
}
/* MESSAGE WRITING */
#define MSG_BROADCAST 0 // unreliable to all
#define MSG_ONE 1 // reliable to one (msg_entity)
#define MSG_ALL 2 // reliable to all
#define MSG_INIT 3 // write to the init string
#define MSG_MULTICAST 4 // for multicast ()
static sizebuf_t *
WriteDest (progs_t *pr)
{
int dest;
dest = P_FLOAT (pr, 0);
switch (dest) {
case MSG_BROADCAST:
return &sv.datagram;
case MSG_ONE:
Sys_Error ("Shouldn't be at MSG_ONE");
case MSG_ALL:
return &sv.reliable_datagram;
case MSG_INIT:
if (sv.state != ss_loading)
PR_RunError (pr, "PF_Write_*: MSG_INIT can only be written in "
"spawn functions");
return &sv.signon;
case MSG_MULTICAST:
return &sv.multicast;
default:
PR_RunError (pr, "WriteDest: bad destination");
break;
}
return NULL;
}
static client_t *
Write_GetClient (progs_t *pr)
{
edict_t *ent;
int entnum;
ent = PROG_TO_EDICT (pr, *sv_globals.msg_entity);
entnum = NUM_FOR_EDICT (pr, ent);
if (entnum < 1 || entnum > MAX_CLIENTS)
PR_RunError (pr, "Write_GetClient: not a client");
return &svs.clients[entnum - 1];
}
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void
PF_WriteBytes (progs_t *pr)
{
int i, p;
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server)
ClientReliableCheckBlock (cl, pr->pr_argc);
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if (sv.demorecording)
DemoWrite_Begin (dem_single, cl - svs.clients, pr->pr_argc);
for (i = 1; i < pr->pr_argc; i++) {
p = P_FLOAT (pr, i);
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if (cl->state != cs_server)
ClientReliableWrite_Byte (cl, p);
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if (sv.demorecording)
MSG_WriteByte (&demo.dbuf->sz, p);
}
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} else {
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sizebuf_t *msg = WriteDest (pr);
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for (i = 1; i < pr->pr_argc; i++) {
p = P_FLOAT (pr, i);
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MSG_WriteByte (msg, p);
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}
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}
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}
void
PF_WriteByte (progs_t *pr)
{
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 1);
ClientReliableWrite_Byte (cl, P_FLOAT (pr, 1));
}
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 1);
MSG_WriteByte (&demo.dbuf->sz, P_FLOAT (pr, 1));
}
} else
MSG_WriteByte (WriteDest (pr), P_FLOAT (pr, 1));
}
void
PF_WriteChar (progs_t *pr)
{
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 1);
ClientReliableWrite_Char (cl, P_FLOAT (pr, 1));
}
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 1);
MSG_WriteByte (&demo.dbuf->sz, P_FLOAT (pr, 1));
}
} else
MSG_WriteByte (WriteDest (pr), P_FLOAT (pr, 1));
}
void
PF_WriteShort (progs_t *pr)
{
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 2);
ClientReliableWrite_Short (cl, P_FLOAT (pr, 1));
}
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 2);
MSG_WriteShort (&demo.dbuf->sz, P_FLOAT (pr, 1));
}
} else
MSG_WriteShort (WriteDest (pr), P_FLOAT (pr, 1));
}
void
PF_WriteLong (progs_t *pr)
{
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 4);
ClientReliableWrite_Long (cl, P_FLOAT (pr, 1));
}
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 4);
MSG_WriteLong (&demo.dbuf->sz, P_FLOAT (pr, 1));
}
} else
MSG_WriteLong (WriteDest (pr), P_FLOAT (pr, 1));
}
void
PF_WriteAngle (progs_t *pr)
{
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 1);
ClientReliableWrite_Angle (cl, P_FLOAT (pr, 1));
}
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 1);
MSG_WriteAngle (&demo.dbuf->sz, P_FLOAT (pr, 1));
}
} else
MSG_WriteAngle (WriteDest (pr), P_FLOAT (pr, 1));
}
void
PF_WriteCoord (progs_t *pr)
{
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 2);
ClientReliableWrite_Coord (cl, P_FLOAT (pr, 1));
}
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 2);
MSG_WriteCoord (&demo.dbuf->sz, P_FLOAT (pr, 1));
}
} else
MSG_WriteCoord (WriteDest (pr), P_FLOAT (pr, 1));
}
void
PF_WriteAngleV (progs_t *pr)
{
float *ang = P_VECTOR (pr, 1);
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 1);
ClientReliableWrite_AngleV (cl, ang);
}
if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 1);
MSG_WriteAngleV (&demo.dbuf->sz, ang);
}
} else
MSG_WriteAngleV (WriteDest (pr), ang);
}
void
PF_WriteCoordV (progs_t *pr)
{
float *coord = P_VECTOR (pr, 1);
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 2);
ClientReliableWrite_CoordV (cl, coord);
}
if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 2);
MSG_WriteCoordV (&demo.dbuf->sz, coord);
}
} else
MSG_WriteCoordV (WriteDest (pr), coord);
}
void
PF_WriteString (progs_t *pr)
{
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 1 + strlen (P_GSTRING (pr, 1)));
ClientReliableWrite_String (cl, P_GSTRING (pr, 1));
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}
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients,
1 + strlen (P_GSTRING (pr, 1)));
MSG_WriteString (&demo.dbuf->sz, P_GSTRING (pr, 1));
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}
} else
MSG_WriteString (WriteDest (pr), P_GSTRING (pr, 1));
}
void
PF_WriteEntity (progs_t *pr)
{
if (P_FLOAT (pr, 0) == MSG_ONE) {
client_t *cl = Write_GetClient (pr);
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if (cl->state != cs_server) {
ClientReliableCheckBlock (cl, 2);
ClientReliableWrite_Short (cl, P_EDICTNUM (pr, 1));
}
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if (sv.demorecording) {
DemoWrite_Begin (dem_single, cl - svs.clients, 2);
MSG_WriteShort (&demo.dbuf->sz, P_EDICTNUM (pr, 1));
}
} else
MSG_WriteShort (WriteDest (pr), P_EDICTNUM (pr, 1));
}
void
PF_makestatic (progs_t *pr)
{
const char *model;
edict_t *ent;
ent = P_EDICT (pr, 0);
// flush the signon message out to a separate buffer if nearly full
SV_FlushSignon ();
MSG_WriteByte (&sv.signon, svc_spawnstatic);
model = PR_GetString (pr, SVstring (ent, model));
MSG_WriteByte (&sv.signon, SV_ModelIndex (model));
MSG_WriteByte (&sv.signon, SVfloat (ent, frame));
MSG_WriteByte (&sv.signon, SVfloat (ent, colormap));
MSG_WriteByte (&sv.signon, SVfloat (ent, skin));
MSG_WriteCoordAngleV (&sv.signon, SVvector (ent, origin),
SVvector (ent, angles));
// throw the entity away now
ED_Free (pr, ent);
}
void
PF_setspawnparms (progs_t *pr)
{
client_t *client;
edict_t *ent;
int i;
ent = P_EDICT (pr, 0);
i = NUM_FOR_EDICT (pr, ent);
if (i < 1 || i > MAX_CLIENTS)
PR_RunError (pr, "Entity is not a client");
// copy spawn parms out of the client_t
client = svs.clients + (i - 1);
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if (client->state == cs_server)
return;
for (i = 0; i < NUM_SPAWN_PARMS; i++)
sv_globals.parms[i] = client->spawn_parms[i];
}
void
PF_changelevel (progs_t *pr)
{
const char *s;
static int last_spawncount;
// make sure we don't issue two changelevels
if (svs.spawncount == last_spawncount)
return;
last_spawncount = svs.spawncount;
s = P_GSTRING (pr, 0);
Cbuf_AddText (sv_cbuf, va ("map %s\n", s));
}
/*
PF_logfrag
logfrag (killer, killee)
*/
void
PF_logfrag (progs_t *pr)
{
const char *s;
edict_t *ent1, *ent2;
int e1, e2;
ent1 = P_EDICT (pr, 0);
ent2 = P_EDICT (pr, 1);
e1 = NUM_FOR_EDICT (pr, ent1);
e2 = NUM_FOR_EDICT (pr, ent2);
// do gib event callback
if (sv_frag_e->func) {
char buf[16]; //FIXME: overflow
char type1[2], type2[2]; //FIXME: overflow
int u1, u2;
type1[1] = type2[1] = 0;
if (e1 < 1 || e1 > MAX_CLIENTS) {
type1[0] = 'e';
u1 = e1;
} else {
type1[0] = 'c';
u1 = svs.clients[e1 - 1].userid;
}
if (e2 < 1 || e2 > MAX_CLIENTS) {
type2[0] = 'e';
u2 = e2;
} else {
type2[0] = 'c';
u2 = svs.clients[e2 - 1].userid;
}
snprintf(buf, sizeof(buf), "%d", u2);
GIB_Event_Callback (sv_frag_e, 4, type1, va ("%d", u1), type2, buf);
}
if (e1 < 1 || e1 > MAX_CLIENTS || e2 < 1 || e2 > MAX_CLIENTS)
return;
s = va ("\\%s\\%s\\\n", svs.clients[e1 - 1].name,
svs.clients[e2 - 1].name);
SZ_Print (&svs.log[svs.logsequence & 1], s);
if (sv_fraglogfile) {
Qprintf (sv_fraglogfile, s);
Qflush (sv_fraglogfile);
}
}
/*
PF_infokey
string (entity e, string key) infokey
*/
void
PF_infokey (progs_t *pr)
{
const char *key, *value;
edict_t *e;
int e1;
e = P_EDICT (pr, 0);
e1 = NUM_FOR_EDICT (pr, e);
key = P_GSTRING (pr, 1);
if (sv_hide_version_info->int_val
&& (strequal (key, "*qf_version")
|| strequal (key, "*qsg_version")
|| strequal (key, "no_pogo_stick"))) {
e1 = -1;
}
if (e1 == 0) {
if ((value = Info_ValueForKey (svs.info, key)) == NULL || !*value)
value = Info_ValueForKey (localinfo, key);
} else if (e1 > 0 && e1 <= MAX_CLIENTS
&& svs.clients[e1 - 1].userinfo) {
if (!strcmp (key, "ip"))
value = NET_BaseAdrToString (svs.clients[e1 - 1].netchan.
remote_address);
else if (!strcmp (key, "ping")) {
int ping = SV_CalcPing (&svs.clients[e1 - 1]);
value = va ("%d", ping);
} else
value = Info_ValueForKey (svs.clients[e1 - 1].userinfo, key);
} else
value = "";
RETURN_STRING (pr, value);
}
/*
PF_multicast
void (vector where, float set) multicast
*/
void
PF_multicast (progs_t *pr)
{
float *o;
int to;
o = P_VECTOR (pr, 0);
to = P_FLOAT (pr, 1);
SV_Multicast (o, to);
}
/*
PF_cfopen
float (string path, string mode) cfopen
*/
static void
PF_cfopen (progs_t *pr)
{
R_FLOAT (pr) = CF_Open (P_GSTRING (pr, 0),
P_GSTRING (pr, 1));
}
/*
PF_cfclose
void (float desc) cfclose
*/
static void
PF_cfclose (progs_t *pr)
{
CF_Close ((int) P_FLOAT (pr, 0));
}
/*
PF_cfread
string (float desc) cfread
*/
static void
PF_cfread (progs_t *pr)
{
RETURN_STRING (pr, CF_Read ((int) P_FLOAT (pr, 0)));
}
/*
PF_cfwrite
float (float desc, string buf) cfwrite
*/
static void
PF_cfwrite (progs_t *pr)
{
R_FLOAT (pr) = CF_Write ((int) P_FLOAT (pr, 0), P_GSTRING (pr, 1));
}
/*
PF_cfeof
float () cfeof
*/
static void
PF_cfeof (progs_t *pr)
{
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R_FLOAT (pr) = CF_EOF ((int) P_FLOAT (pr, 0));
}
/*
PF_cfquota
float () cfquota
*/
static void
PF_cfquota (progs_t *pr)
{
R_FLOAT (pr) = CF_Quota ();
}
static void
PF_setinfokey (progs_t *pr)
{
edict_t *edict = P_EDICT (pr, 0);
int e1 = NUM_FOR_EDICT (pr, edict);
const char *key = P_GSTRING (pr, 1);
const char *value = P_GSTRING (pr, 2);
char *oldval = 0;
if (e1 == 0) {
if (*value)
Info_SetValueForKey (localinfo, key, value,
!sv_highchars->int_val);
else
Info_RemoveKey (localinfo, key);
} else if (e1 <= MAX_CLIENTS) {
if (sv_setinfo_e->func)
oldval = strdup (Info_ValueForKey (svs.clients[e1 - 1].userinfo,
key));
Info_SetValueForKey (svs.clients[e1 - 1].userinfo, key, value,
!sv_highchars->int_val);
SV_ExtractFromUserinfo (&svs.clients[e1 - 1]);
// trigger a GIB event
if (sv_setinfo_e->func)
GIB_Event_Callback (sv_setinfo_e, 4,
va("%d", svs.clients[e1 - 1].userid),
key, oldval,
Info_ValueForKey (svs.clients[e1 - 1].userinfo,
key));
if (oldval)
free (oldval);
if (Info_FilterForKey (key, client_info_filters)) {
MSG_WriteByte (&sv.reliable_datagram, svc_setinfo);
MSG_WriteByte (&sv.reliable_datagram, e1 - 1);
MSG_WriteString (&sv.reliable_datagram, key);
MSG_WriteString (&sv.reliable_datagram,
Info_ValueForKey (svs.clients[e1 - 1].userinfo,
key));
}
}
}
static void
PF_testentitypos (progs_t *pr)
{
edict_t *ent = P_EDICT (pr, 0);
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ent = SV_TestEntityPosition (ent);
RETURN_EDICT (pr, ent ? ent : sv.edicts);
}
#define MAX_PF_HULLS 64 // FIXME make dynamic?
clip_hull_t *pf_hull_list[MAX_PF_HULLS];
static void
PF_hullpointcontents (progs_t *pr)
{
edict_t *edict = P_EDICT (pr, 0);
float *mins = P_VECTOR (pr, 1);
float *maxs = P_VECTOR (pr, 2);
float *point = P_VECTOR (pr, 3);
hull_t *hull;
vec3_t offset;
hull = SV_HullForEntity (edict, mins, maxs, offset);
VectorSubtract (point, offset, offset);
R_INT (pr) = SV_HullPointContents (hull, 0, offset);
}
static void
PF_getboxbounds (progs_t *pr)
{
clip_hull_t *ch;
int h = P_INT (pr, 0) - 1;
if (h < 0 || h > MAX_PF_HULLS - 1 || !(ch = pf_hull_list[h]))
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PR_RunError (pr, "PF_getboxbounds: invalid box hull handle\n");
if (P_INT (pr, 1)) {
VectorCopy (ch->maxs, R_VECTOR (pr));
} else {
VectorCopy (ch->mins, R_VECTOR (pr));
}
}
static void
PF_getboxhull (progs_t *pr)
{
clip_hull_t *ch = 0;
int i;
for (i = 0; i < MAX_PF_HULLS; i++) {
if (!pf_hull_list[i]) {
ch = MOD_Alloc_Hull (6, 6);
break;
}
}
if (ch) {
pf_hull_list[i] = ch;
R_INT (pr) = i + 1;
for (i = 0; i < MAX_MAP_HULLS; i++)
SV_InitHull (ch->hulls[i], ch->hulls[i]->clipnodes,
ch->hulls[i]->planes);
} else {
R_INT (pr) = 0;
}
}
static void
PF_freeboxhull (progs_t *pr)
{
int h = P_INT (pr, 0) - 1;
clip_hull_t *ch;
if (h < 0 || h > MAX_PF_HULLS - 1 || !(ch = pf_hull_list[h]))
PR_RunError (pr, "PF_freeboxhull: invalid box hull handle\n");
pf_hull_list[h] = 0;
MOD_Free_Hull (ch);
}
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static vec_t
calc_dist (vec3_t p, vec3_t n, vec3_t *offsets)
{
int i;
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vec_t d = DotProduct (p, n);
vec3_t s, v;
VectorScale (n, d, s);
for (i = 0; i < 3; i++)
if (s[i] < 0)
v[i] = offsets[0][i];
else
v[i] = offsets[1][i];
VectorAdd (p, v, v);
return DotProduct (v, n);
}
static void
PF_rotate_bbox (progs_t *pr)
{
clip_hull_t *ch;
float l;
float *mi = P_VECTOR (pr, 4);
float *ma = P_VECTOR (pr, 5);
float *dir[3] = {
P_VECTOR (pr, 1),
P_VECTOR (pr, 2),
P_VECTOR (pr, 3),
};
hull_t *hull;
int i, j;
int h = P_INT (pr, 0) - 1;
vec3_t mins, maxs, d;
float *verts[6] = {maxs, mins, maxs, mins, maxs, mins};
vec3_t v[8];
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vec3_t offsets[3][2] = {
{ { 0, 0, 0 }, { 0, 0, 0} },
{ { -16, -16, -32 }, { 16, 16, 24} },
{ { -32, -32, -64 }, { 32, 32, 24} },
};
if (h < 0 || h > MAX_PF_HULLS - 1 || !(ch = pf_hull_list[h]))
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PR_RunError (pr, "PF_rotate_bbox: invalid box hull handle\n");
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// set up the rotation matrix. the three orientation vectors form the
// columns of the rotation matrix
for (i = 0; i < 3; i++) {
for (j = 0; j < 3; j++) {
ch->axis[i][j] = dir[j][i];
}
}
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// rotate the bounding box points
for (i = 0; i < 3; i++) {
mins[i] = DotProduct (ch->axis[i], mi);
maxs[i] = DotProduct (ch->axis[i], ma);
}
// find all 8 corners of the rotated box
VectorCopy (mins, v[0]);
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VectorCopy (maxs, v[1]);
VectorSubtract (maxs, mins, d);
for (i = 0; i < 3; i++) {
vec3_t x;
l = DotProduct (d, dir[i]);
VectorScale (dir[i], l, x);
VectorAdd (mins, x, v[2 + i * 2]);
VectorSubtract (maxs, x, v[3 + i * 2]);
}
// now find the aligned bounding box
VectorCopy (v[0], ch->mins);
VectorCopy (v[0], ch->maxs);
for (i = 0; i < 8; i++) {
for (j = 0; j < 3; j++) {
ch->mins[j] = min (ch->mins[j], v[i][j]);
ch->maxs[j] = max (ch->maxs[j], v[i][j]);
}
}
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// set up the 3 size based hulls
for (j = 0; j < 3; j++) {
hull = ch->hulls[j];
VectorScale (offsets[j][1], -1, hull->clip_mins);
VectorScale (offsets[j][0], -1, hull->clip_maxs);
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// set up the clip planes
for (i = 0; i < 6; i++) {
hull->planes[i].dist = calc_dist (verts[i], dir[i / 2],
offsets[j]);
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hull->planes[i].type = 4;
VectorCopy (dir[i / 2], hull->planes[i].normal);
}
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}
}
void
PF_Fixme (progs_t *pr)
{
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PR_RunError (pr, "Unimplemented builtin function called");
}
static void
PF_checkextension (progs_t *pr)
{
R_FLOAT (pr) = 0; // FIXME: make this function actually useful :P
}
static void
PF_sv_cvar (progs_t *pr)
{
const char *str;
str = P_GSTRING (pr, 0);
if (sv_hide_version_info->int_val
&& strequal (str, "sv_hide_version_info")) {
R_FLOAT (pr) = 0;
} else {
R_FLOAT (pr) = Cvar_VariableValue (str);
}
}
static void
PF_SV_AllocClient (progs_t *pr)
{
client_t *cl = SV_AllocClient (0, 1);
if (!cl) {
R_var (pr, entity) = 0;
return;
}
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//XXX netchan? Netchan_Setup (&newcl->netchan, adr, qport);
cl->state = cs_server;
cl->spectator = 0;
cl->connection_started = realtime;
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RETURN_EDICT (pr, cl->edict);
}
static void
PF_SV_FreeClient (progs_t *pr)
{
int entnum = P_EDICTNUM (pr, 0);
client_t *cl = svs.clients + entnum - 1;
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if (entnum < 1 || entnum > MAX_CLIENTS || cl->state != cs_server)
PR_RunError (pr, "not a server client");
if (cl->userinfo)
Info_Destroy (cl->userinfo);
cl->userinfo = 0;
SV_FullClientUpdate (cl, &sv.reliable_datagram);
cl->state = cs_free;
//if (sv_client_disconnect_e->func)
// GIB_Event_Callback (sv_client_disconnect_e, 2, va ("%u", cl->userid),
// "server");
}
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static void
PF_SV_SetUserinfo (progs_t *pr)
{
int entnum = P_EDICTNUM (pr, 0);
client_t *cl = svs.clients + entnum - 1;
const char *str = P_GSTRING (pr, 1);
if (entnum < 1 || entnum > MAX_CLIENTS || cl->state != cs_server)
PR_RunError (pr, "not a server client");
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cl->userinfo = Info_ParseString (str, 1023, !sv_highchars->int_val);
cl->sendinfo = true;
SV_ExtractFromUserinfo (cl);
}
static void
PR_SV_SetPing (progs_t *pr)
{
int entnum = P_EDICTNUM (pr, 0);
client_t *cl = svs.clients + entnum - 1;
if (entnum < 1 || entnum > MAX_CLIENTS || cl->state != cs_server)
PR_RunError (pr, "not a server client");
cl->ping = P_INT (pr, 1);
}
static void
PR_SV_UserCmd (progs_t *pr)
{
usercmd_t ucmd;
int entnum = P_EDICTNUM (pr, 0);
client_t *cl = svs.clients + entnum - 1;
if (entnum < 1 || entnum > MAX_CLIENTS || cl->state != cs_server)
PR_RunError (pr, "not a server client");
host_client = cl;
sv_player = host_client->edict;
ucmd.msec = 1000 * P_FLOAT (pr, 1);
VectorCopy (P_VECTOR (pr, 2), ucmd.angles);
VectorCopy (P_VECTOR (pr, 3), &ucmd.forwardmove); //FIXME right order?
ucmd.buttons = P_INT (pr, 4);
ucmd.impulse = P_INT (pr, 5);
SV_PreRunCmd ();
SV_RunCmd (&ucmd, 0);
SV_PostRunCmd ();
};
void
SV_PR_Cmds_Init ()
{
PR_Cmds_Init (&sv_pr_state);
PR_Obj_Progs_Init (&sv_pr_state);
// (override standard builtin)
sv_pr_state.builtins[45] = 0;
// float (string s) cvar
PR_AddBuiltin (&sv_pr_state, "cvar", PF_sv_cvar, 45);
// void (entity e) makevectors
PR_AddBuiltin (&sv_pr_state, "makevectors", PF_makevectors, 1);
// void (entity e, vector o) setorigin
PR_AddBuiltin (&sv_pr_state, "setorigin", PF_setorigin, 2);
// void (entity e, string m) setmodel
PR_AddBuiltin (&sv_pr_state, "setmodel", PF_setmodel, 3);
// void (entity e, vector min, vector max) setsize
PR_AddBuiltin (&sv_pr_state, "setsize", PF_setsize, 4);
// void (entity e, vector min, vector max) setabssize
PR_AddBuiltin (&sv_pr_state, "fixme", PF_Fixme, 5);
// void (entity e, float chan, string samp) sound
PR_AddBuiltin (&sv_pr_state, "sound", PF_sound, 8);
// void (string e) error
PR_AddBuiltin (&sv_pr_state, "error", PF_error, 10);
// void (string e) objerror
PR_AddBuiltin (&sv_pr_state, "objerror", PF_objerror, 11);
// entity () spawn
PR_AddBuiltin (&sv_pr_state, "spawn", PF_Spawn, 14);
// void (entity e) remove
PR_AddBuiltin (&sv_pr_state, "remove", PF_Remove, 15);
// float (vector v1, vector v2, float tryents) traceline
PR_AddBuiltin (&sv_pr_state, "traceline", PF_traceline, 16);
// entity () clientlist
PR_AddBuiltin (&sv_pr_state, "checkclient", PF_checkclient, 17);
// void (string s) precache_sound
PR_AddBuiltin (&sv_pr_state, "precache_sound", PF_precache_sound, 19);
// void (string s) precache_model
PR_AddBuiltin (&sv_pr_state, "precache_model", PF_precache_model, 20);
// void (entity client, string s) stuffcmd
PR_AddBuiltin (&sv_pr_state, "stuffcmd", PF_stuffcmd, 21);
// entity (vector org, float rad) findradius
PR_AddBuiltin (&sv_pr_state, "findradius", PF_findradius, 22);
// void (string s) bprint
PR_AddBuiltin (&sv_pr_state, "bprint", PF_bprint, 23);
// void (entity client, string s) sprint
PR_AddBuiltin (&sv_pr_state, "sprint", PF_sprint, 24);
// float (float yaw, float dist) walkmove
PR_AddBuiltin (&sv_pr_state, "walkmove", PF_walkmove, 32);
// float () droptofloor
PR_AddBuiltin (&sv_pr_state, "droptofloor", PF_droptofloor, 34);
// void (float style, string value) lightstyle
PR_AddBuiltin (&sv_pr_state, "lightstyle", PF_lightstyle, 35);
// float (entity e) checkbottom
PR_AddBuiltin (&sv_pr_state, "checkbottom", PF_checkbottom, 40);
// float (vector v) pointcontents
PR_AddBuiltin (&sv_pr_state, "pointcontents", PF_pointcontents, 41);
// vector (entity e, float speed) aim
PR_AddBuiltin (&sv_pr_state, "aim", PF_aim, 44);
// void (string s) localcmd
PR_AddBuiltin (&sv_pr_state, "localcmd", PF_localcmd, 46);
// void () ChangeYaw
PR_AddBuiltin (&sv_pr_state, "changeyaw", PF_changeyaw, 49);
// void (float to, float f) WriteByte
PR_AddBuiltin (&sv_pr_state, "writebyte", PF_WriteByte, 52);
// void (float to, ...) WriteBytes
PR_AddBuiltin (&sv_pr_state, "WriteBytes", PF_WriteBytes, -1);
// void (float to, float f) WriteChar
PR_AddBuiltin (&sv_pr_state, "writechar", PF_WriteChar, 53);
// void (float to, float f) WriteShort
PR_AddBuiltin (&sv_pr_state, "writeshort", PF_WriteShort, 54);
// void (float to, float f) WriteLong
PR_AddBuiltin (&sv_pr_state, "writelong", PF_WriteLong, 55);
// void (float to, float f) WriteCoord
PR_AddBuiltin (&sv_pr_state, "writecoord", PF_WriteCoord, 56);
// void (float to, float f) WriteAngle
PR_AddBuiltin (&sv_pr_state, "writeangle", PF_WriteAngle, 57);
// void (float to, vector v) WriteCoordV
PR_AddBuiltin (&sv_pr_state, "WriteCoordV", PF_WriteCoordV, -1);
// void (float to, vector v) WriteAngleV
PR_AddBuiltin (&sv_pr_state, "WriteAngleV", PF_WriteAngleV, -1);
// void (float to, string s) WriteString
PR_AddBuiltin (&sv_pr_state, "writestring", PF_WriteString, 58);
// void (float to, entity s) WriteEntity
PR_AddBuiltin (&sv_pr_state, "writeentity", PF_WriteEntity, 59);
// void (float step) movetogoal
PR_AddBuiltin (&sv_pr_state, "movetogoal", SV_MoveToGoal, 67);
// string (string s) precache_file
PR_AddBuiltin (&sv_pr_state, "precache_file", PF_precache_file, 68);
// void (entity e) makestatic
PR_AddBuiltin (&sv_pr_state, "makestatic", PF_makestatic, 69);
// void (string s) changelevel
PR_AddBuiltin (&sv_pr_state, "changelevel", PF_changelevel, 70);
// void (...) centerprint
PR_AddBuiltin (&sv_pr_state, "centerprint", PF_centerprint, 73);
// void (vector pos, string samp, float vol, float atten) ambientsound
PR_AddBuiltin (&sv_pr_state, "ambientsound", PF_ambientsound, 74);
// string (string s) precache_model2
PR_AddBuiltin (&sv_pr_state, "precache_model2", PF_precache_model, 75);
// string (string s) precache_sound2
PR_AddBuiltin (&sv_pr_state, "precache_sound2", PF_precache_sound, 76);
// string (string s) precache_file2
PR_AddBuiltin (&sv_pr_state, "precache_file2", PF_precache_file, 77);
// void (entity e) setspawnparms
PR_AddBuiltin (&sv_pr_state, "setspawnparms", PF_setspawnparms, 78);
// void (entity killer, entity killee) logfrag
PR_AddBuiltin (&sv_pr_state, "logfrag", PF_logfrag, 79);
// string (entity e, string key) infokey
PR_AddBuiltin (&sv_pr_state, "infokey", PF_infokey, 80);
// void (vector where, float set) multicast
PR_AddBuiltin (&sv_pr_state, "multicast", PF_multicast, 82);
// entity (entity ent) testentitypos
PR_AddBuiltin (&sv_pr_state, "testentitypos", PF_testentitypos, 92);
// integer (entity ent, vector point) hullpointcontents
PR_AddBuiltin (&sv_pr_state, "hullpointcontents", PF_hullpointcontents,
93);
// vector (integer hull, integer max) getboxbounds
PR_AddBuiltin (&sv_pr_state, "getboxbounds", PF_getboxbounds, 94);
// integer () getboxhull
PR_AddBuiltin (&sv_pr_state, "getboxhull", PF_getboxhull, 95);
// void (integer hull) freeboxhull
PR_AddBuiltin (&sv_pr_state, "freeboxhull", PF_freeboxhull, 96);
// void (integer hull, vector right, vector forward, vector up, vector mins, vector maxs) rotate_bbox
PR_AddBuiltin (&sv_pr_state, "rotate_bbox", PF_rotate_bbox, 97);
// void (vector start, vector mins, vector maxs, vector end, float type, entity passent) checkmove
PR_AddBuiltin (&sv_pr_state, "checkmove", PF_checkmove, 98);
// float () checkextension
PR_AddBuiltin (&sv_pr_state, "checkextension", PF_checkextension, 99);
// void (entity ent, string key, string value) setinfokey
PR_AddBuiltin (&sv_pr_state, "setinfokey", PF_setinfokey, 102);
// float (string path, string mode) cfopen
PR_AddBuiltin (&sv_pr_state, "cfopen", PF_cfopen, 103);
// void (float desc) cfclose
PR_AddBuiltin (&sv_pr_state, "cfclose", PF_cfclose, 104);
// string (float desc) cfread
PR_AddBuiltin (&sv_pr_state, "cfread", PF_cfread, 105);
// float (float desc, string buf) cfwrite
PR_AddBuiltin (&sv_pr_state, "cfwrite", PF_cfwrite, 106);
// float (float desc) cfeof
PR_AddBuiltin (&sv_pr_state, "cfeof", PF_cfeof, 107);
// float () cfquota
PR_AddBuiltin (&sv_pr_state, "cfquota", PF_cfquota, 108);
// entity () SV_AllocClient
PR_AddBuiltin (&sv_pr_state, "SV_AllocClient", PF_SV_AllocClient, -1);
// void (entity cl) SV_FreeClient
PR_AddBuiltin (&sv_pr_state, "SV_FreeClient", PF_SV_FreeClient, -1);
// void (entity cl, string userinfo) SV_SetUserinfo
PR_AddBuiltin (&sv_pr_state, "SV_SetUserinfo", PF_SV_SetUserinfo, -1);
// void (entity cl, integer ping) SV_SetPing
PR_AddBuiltin (&sv_pr_state, "SV_SetPing", PR_SV_SetPing, -1);
// void (entity cl, float secs, vector angles, vector move, integer buttons, integer impulse) SV_UserCmd
PR_AddBuiltin (&sv_pr_state, "SV_UserCmd", PR_SV_UserCmd, -1);
};