jedioutcast/code/game/g_target.cpp
2013-04-04 13:24:26 -05:00

1077 lines
27 KiB
C++

// leave this line at the top for all g_xxxx.cpp files...
#include "g_headers.h"
#include "g_local.h"
#include "g_functions.h"
#include "g_icarus.h"
//#include "Q3_Interface.h"
extern void Q3_DebugPrint( int level, const char *format, ... );
extern void G_SetEnemy( gentity_t *self, gentity_t *enemy );
//==========================================================
/*QUAKED target_give (1 0 0) (-8 -8 -8) (8 8 8)
Gives the activator all the items pointed to.
*/
void Use_Target_Give( gentity_t *ent, gentity_t *other, gentity_t *activator ) {
gentity_t *t;
trace_t trace;
if ( !activator->client ) {
return;
}
if ( !ent->target ) {
return;
}
G_ActivateBehavior(ent,BSET_USE);
memset( &trace, 0, sizeof( trace ) );
t = NULL;
while ( (t = G_Find (t, FOFS(targetname), ent->target)) != NULL ) {
if ( !t->item ) {
continue;
}
Touch_Item( t, activator, &trace );
// make sure it isn't going to respawn or show any events
t->nextthink = 0;
gi.unlinkentity( t );
}
}
void SP_target_give( gentity_t *ent ) {
ent->e_UseFunc = useF_Use_Target_Give;
}
//==========================================================
/*QUAKED target_delay (1 0 0) (-8 -8 -8) (8 8 8)
"wait" seconds to pause before firing targets.
"random" delay variance, total delay = delay +/- random seconds
*/
void Think_Target_Delay( gentity_t *ent )
{
G_UseTargets( ent, ent->activator );
}
void Use_Target_Delay( gentity_t *ent, gentity_t *other, gentity_t *activator )
{
G_ActivateBehavior(ent,BSET_USE);
ent->nextthink = level.time + ( ent->wait + ent->random * crandom() ) * 1000;
ent->e_ThinkFunc = thinkF_Think_Target_Delay;
ent->activator = activator;
}
void SP_target_delay( gentity_t *ent )
{
// check delay for backwards compatability
if ( !G_SpawnFloat( "delay", "0", &ent->wait ) )
{
G_SpawnFloat( "wait", "1", &ent->wait );
}
if ( !ent->wait )
{
ent->wait = 1;
}
ent->e_UseFunc = useF_Use_Target_Delay;
}
//==========================================================
/*QUAKED target_score (1 0 0) (-8 -8 -8) (8 8 8)
"count" number of points to add, default 1
The activator is given this many points.
*/
void Use_Target_Score (gentity_t *ent, gentity_t *other, gentity_t *activator)
{
G_ActivateBehavior(ent,BSET_USE);
AddScore( activator, ent->count );
}
void SP_target_score( gentity_t *ent ) {
if ( !ent->count ) {
ent->count = 1;
}
ent->e_UseFunc = useF_Use_Target_Score;
}
//==========================================================
/*QUAKED target_print (1 0 0) (-8 -8 -8) (8 8 8)
"message" text to print
If "private", only the activator gets the message. If no checks, all clients get the message.
*/
void Use_Target_Print (gentity_t *ent, gentity_t *other, gentity_t *activator)
{
G_ActivateBehavior(ent,BSET_USE);
if ( activator->client ) {
gi.SendServerCommand( activator-g_entities, "cp \"%s\"", ent->message );
}
}
void SP_target_print( gentity_t *ent ) {
ent->e_UseFunc = useF_Use_Target_Print;
}
//==========================================================
/*QUAKED target_speaker (1 0 0) (-8 -8 -8) (8 8 8) looped-on looped-off global activator
"noise" wav file to play
"sounds" va() min max, so if your sound string is borgtalk%d.wav, and you set a "sounds" value of 4, it will randomly play borgtalk1.wav - borgtalk4.wav when triggered
to use this, you must store the wav name in "soundGroup", NOT "noise"
A global sound will play full volume throughout the level.
Activator sounds will play on the player that activated the target.
Global and activator sounds can't be combined with looping.
Normal sounds play each time the target is used.
Looped sounds will be toggled by use functions.
Multiple identical looping sounds will just increase volume without any speed cost.
"wait" : Seconds between triggerings, 0 = don't auto trigger
"random" wait variance, default is 0
*/
void Use_Target_Speaker (gentity_t *ent, gentity_t *other, gentity_t *activator) {
if(ent->painDebounceTime > level.time)
{
return;
}
G_ActivateBehavior(ent,BSET_USE);
if ( ent->sounds )
{
ent->noise_index = G_SoundIndex( va( ent->paintarget, Q_irand(1, ent->sounds ) ) );
}
if (ent->spawnflags & 3) { // looping sound toggles
gentity_t *looper = ent;
if ( ent->spawnflags & 8 ) {
looper = activator;
}
if (looper->s.loopSound)
looper->s.loopSound = 0; // turn it off
else
looper->s.loopSound = ent->noise_index; // start it
}else { // normal sound
if ( ent->spawnflags & 8 ) {
G_AddEvent( activator, EV_GENERAL_SOUND, ent->noise_index );
} else if (ent->spawnflags & 4) {
G_AddEvent( ent, EV_GLOBAL_SOUND, ent->noise_index );
} else {
G_AddEvent( ent, EV_GENERAL_SOUND, ent->noise_index );
}
}
if(ent->wait < 0)
{//BYE!
ent->e_UseFunc = useF_NULL;
}
else
{
ent->painDebounceTime = level.time + ent->wait;
}
}
void SP_target_speaker( gentity_t *ent ) {
char buffer[MAX_QPATH];
char *s;
int i;
if ( VALIDSTRING( ent->soundSet ) )
{
VectorCopy( ent->s.origin, ent->s.pos.trBase );
gi.linkentity (ent);
return;
}
G_SpawnFloat( "wait", "0", &ent->wait );
G_SpawnFloat( "random", "0", &ent->random );
if(!ent->sounds)
{
if ( !G_SpawnString( "noise", "*NOSOUND*", &s ) ) {
G_Error( "target_speaker without a noise key at %s", vtos( ent->s.origin ) );
}
Q_strncpyz( buffer, s, sizeof(buffer) );
COM_DefaultExtension( buffer, sizeof(buffer), ".wav");
ent->noise_index = G_SoundIndex(buffer);
}
else
{//Precache all possible sounds
for( i = 0; i < ent->sounds; i++ )
{
ent->noise_index = G_SoundIndex( va( ent->paintarget, i+1 ) );
}
}
// a repeating speaker can be done completely client side
ent->s.eType = ET_SPEAKER;
ent->s.eventParm = ent->noise_index;
ent->s.frame = ent->wait * 10;
ent->s.clientNum = ent->random * 10;
ent->wait *= 1000;
// check for prestarted looping sound
if ( ent->spawnflags & 1 ) {
ent->s.loopSound = ent->noise_index;
}
ent->e_UseFunc = useF_Use_Target_Speaker;
if (ent->spawnflags & 4) {
ent->svFlags |= SVF_BROADCAST;
}
VectorCopy( ent->s.origin, ent->s.pos.trBase );
// must link the entity so we get areas and clusters so
// the server can determine who to send updates to
gi.linkentity (ent);
}
//==========================================================
/*QUAKED target_laser (0 .5 .8) (-8 -8 -8) (8 8 8) START_ON
When triggered, fires a laser. You can either set a target or a direction.
*/
void target_laser_think (gentity_t *self) {
vec3_t end;
trace_t tr;
vec3_t point;
// if pointed at another entity, set movedir to point at it
if ( self->enemy ) {
VectorMA (self->enemy->s.origin, 0.5, self->enemy->mins, point);
VectorMA (point, 0.5, self->enemy->maxs, point);
VectorSubtract (point, self->s.origin, self->movedir);
VectorNormalize (self->movedir);
}
// fire forward and see what we hit
VectorMA (self->s.origin, 2048, self->movedir, end);
gi.trace( &tr, self->s.origin, NULL, NULL, end, self->s.number, CONTENTS_SOLID|CONTENTS_BODY|CONTENTS_CORPSE);
if ( tr.entityNum ) {
// hurt it if we can
G_Damage ( &g_entities[tr.entityNum], self, self->activator, self->movedir,
tr.endpos, self->damage, DAMAGE_NO_KNOCKBACK, MOD_ENERGY );
}
VectorCopy (tr.endpos, self->s.origin2);
gi.linkentity( self );
self->nextthink = level.time + FRAMETIME;
}
void target_laser_on (gentity_t *self)
{
if (!self->activator)
self->activator = self;
target_laser_think (self);
}
void target_laser_off (gentity_t *self)
{
gi.unlinkentity( self );
self->nextthink = 0;
}
void target_laser_use (gentity_t *self, gentity_t *other, gentity_t *activator)
{
G_ActivateBehavior(self,BSET_USE);
self->activator = activator;
if ( self->nextthink > 0 )
target_laser_off (self);
else
target_laser_on (self);
}
void target_laser_start (gentity_t *self)
{
gentity_t *ent;
self->s.eType = ET_BEAM;
if (self->target) {
ent = G_Find (NULL, FOFS(targetname), self->target);
if (!ent) {
gi.Printf ("%s at %s: %s is a bad target\n", self->classname, vtos(self->s.origin), self->target);
}
G_SetEnemy( self, ent );
} else {
G_SetMovedir (self->s.angles, self->movedir);
}
self->e_UseFunc = useF_target_laser_use;
self->e_ThinkFunc = thinkF_target_laser_think;
if ( !self->damage ) {
self->damage = 1;
}
if (self->spawnflags & 1)
target_laser_on (self);
else
target_laser_off (self);
}
void SP_target_laser (gentity_t *self)
{
// let everything else get spawned before we start firing
self->e_ThinkFunc = thinkF_target_laser_start;
self->nextthink = level.time + START_TIME_LINK_ENTS;
}
//==========================================================
void target_teleporter_use( gentity_t *self, gentity_t *other, gentity_t *activator ) {
gentity_t *dest;
if (!activator->client)
return;
G_ActivateBehavior(self,BSET_USE);
dest = G_PickTarget( self->target );
if (!dest) {
gi.Printf ("Couldn't find teleporter destination\n");
return;
}
TeleportPlayer( activator, dest->s.origin, dest->s.angles );
}
/*QUAK-ED target_teleporter (1 0 0) (-8 -8 -8) (8 8 8)
The activator will be teleported away.
*/
void SP_target_teleporter( gentity_t *self ) {
if (!self->targetname)
gi.Printf("untargeted %s at %s\n", self->classname, vtos(self->s.origin));
self->e_UseFunc = useF_target_teleporter_use;
}
//==========================================================
/*QUAKED target_relay (.5 .5 .5) (-8 -8 -8) (8 8 8) RED_ONLY BLUE_ONLY RANDOM x x x x INACTIVE
This doesn't perform any actions except fire its targets.
The activator can be forced to be from a certain team.
if RANDOM is checked, only one of the targets will be fired, not all of them
INACTIVE Can't be used until activated
"delay" - Will actually fire this many seconds after being used
"wait" - Cannot be fired again until this many seconds after the last time it was used
*/
void target_relay_use_go (gentity_t *self )
{
G_ActivateBehavior( self, BSET_USE );
if ( self->spawnflags & 4 )
{
gentity_t *ent;
ent = G_PickTarget( self->target );
if ( ent && (ent->e_UseFunc != useF_NULL) )
{ // e_UseFunc check can be omitted
GEntity_UseFunc( ent, self, self->activator );
}
return;
}
G_UseTargets( self, self->activator );
}
void target_relay_use (gentity_t *self, gentity_t *other, gentity_t *activator)
{
if ( ( self->spawnflags & 1 ) && activator->client )
{//&& activator->client->ps.persistant[PERS_TEAM] != TEAM_RED ) {
return;
}
if ( ( self->spawnflags & 2 ) && activator->client )
{//&& activator->client->ps.persistant[PERS_TEAM] != TEAM_BLUE ) {
return;
}
if ( self->svFlags & SVF_INACTIVE )
{//set by target_deactivate
return;
}
if ( self->painDebounceTime > level.time )
{
return;
}
G_SetEnemy( self, other );
self->activator = activator;
if ( self->delay )
{
self->e_ThinkFunc = thinkF_target_relay_use_go;
self->nextthink = level.time + self->delay;
return;
}
target_relay_use_go( self );
if ( self->wait < 0 )
{
self->e_UseFunc = useF_NULL;
}
else
{
self->painDebounceTime = level.time + self->wait;
}
}
void SP_target_relay (gentity_t *self)
{
self->e_UseFunc = useF_target_relay_use;
self->wait *= 1000;
self->delay *= 1000;
if ( self->spawnflags&128 )
{
self->svFlags |= SVF_INACTIVE;
}
}
//==========================================================
/*QUAKED target_kill (.5 .5 .5) (-8 -8 -8) (8 8 8) FALLING ELECTRICAL
Kills the activator.
*/
void target_kill_use( gentity_t *self, gentity_t *other, gentity_t *activator ) {
G_ActivateBehavior(self,BSET_USE);
if ( self->spawnflags & 1 )
{//falling death
G_Damage ( activator, NULL, NULL, NULL, NULL, 100000, DAMAGE_NO_PROTECTION, MOD_FALLING );
if ( !activator->s.number && activator->health <= 0 && 1 )
{
extern void CGCam_Fade( vec4_t source, vec4_t dest, float duration );
float src[4] = {0,0,0,0},dst[4]={0,0,0,1};
CGCam_Fade( src, dst, 10000 );
}
}
else if ( self->spawnflags & 2 ) // electrical
{
G_Damage ( activator, NULL, NULL, NULL, NULL, 100000, DAMAGE_NO_PROTECTION, MOD_ELECTROCUTE );
if ( activator->client )
{
activator->s.powerups |= ( 1 << PW_SHOCKED );
activator->client->ps.powerups[PW_SHOCKED] = level.time + 4000;
}
}
else
{
G_Damage ( activator, NULL, NULL, NULL, NULL, 100000, DAMAGE_NO_PROTECTION, MOD_UNKNOWN);
}
}
void SP_target_kill( gentity_t *self )
{
self->e_UseFunc = useF_target_kill_use;
}
/*QUAKED target_position (0 0.5 0) (-4 -4 -4) (4 4 4)
Used as a positional target for in-game calculation, like jumppad targets.
info_notnull does the same thing
*/
void SP_target_position( gentity_t *self ){
G_SetOrigin( self, self->s.origin );
}
//static -slc
void target_location_linkup(gentity_t *ent)
{
int i;
if (level.locationLinked)
return;
level.locationLinked = qtrue;
level.locationHead = NULL;
for (i = 0, ent = g_entities; i < globals.num_entities; i++, ent++) {
if (ent->classname && !Q_stricmp(ent->classname, "target_location")) {
ent->nextTrain = level.locationHead;
level.locationHead = ent;
}
}
// All linked together now
}
/*QUAKED target_location (0 0.5 0) (-8 -8 -8) (8 8 8)
Set "message" to the name of this location.
Set "count" to 0-7 for color.
0:white 1:red 2:green 3:yellow 4:blue 5:cyan 6:magenta 7:white
Closest target_location in sight used for the location, if none
in site, closest in distance
*/
void SP_target_location( gentity_t *self ){
self->e_ThinkFunc = thinkF_target_location_linkup;
self->nextthink = level.time + 1000; // Let them all spawn first
G_SetOrigin( self, self->s.origin );
}
//===NEW===================================================================
/*QUAKED target_counter (1.0 0 0) (-4 -4 -4) (4 4 4) x x x x x x x INACTIVE
Acts as an intermediary for an action that takes multiple inputs.
INACTIVE cannot be used until used by a target_activate
target2 - what the counter should fire each time it's incremented and does NOT reach it's count
After the counter has been triggered "count" times (default 2), it will fire all of it's targets and remove itself.
bounceCount - number of times the counter should reset to it's full count when it's done
*/
void target_counter_use( gentity_t *self, gentity_t *other, gentity_t *activator )
{
if ( self->count == 0 )
{
return;
}
//gi.Printf("target_counter %s used by %s, entnum %d\n", self->targetname, activator->targetname, activator->s.number );
self->count--;
if ( activator )
{
Q3_DebugPrint( WL_VERBOSE, "target_counter %s used by %s (%d/%d)\n", self->targetname, activator->targetname, (self->max_health-self->count), self->max_health );
}
if ( self->count )
{
if ( self->target2 )
{
//gi.Printf("target_counter %s firing target2 from %s, entnum %d\n", self->targetname, activator->targetname, activator->s.number );
G_UseTargets2( self, activator, self->target2 );
}
return;
}
G_ActivateBehavior( self,BSET_USE );
if ( self->spawnflags & 128 )
{
self->svFlags |= SVF_INACTIVE;
}
self->activator = activator;
G_UseTargets( self, activator );
if ( self->count == 0 )
{
if ( self->bounceCount == 0 )
{
return;
}
self->count = self->max_health;
if ( self->bounceCount > 0 )
{//-1 means bounce back forever
self->bounceCount--;
}
}
}
void SP_target_counter (gentity_t *self)
{
self->wait = -1;
if (!self->count)
{
self->count = 2;
}
//if ( self->bounceCount > 0 )//let's always set this anyway
{//we will reset when we use up our count, remember our initial count
self->max_health = self->count;
}
self->e_UseFunc = useF_target_counter_use;
}
/*QUAKED target_random (.5 .5 .5) (-4 -4 -4) (4 4 4) USEONCE
Randomly fires off only one of it's targets each time used
USEONCE set to never fire again
*/
void target_random_use(gentity_t *self, gentity_t *other, gentity_t *activator)
{
int t_count = 0, pick;
gentity_t *t = NULL;
//gi.Printf("target_random %s used by %s (entnum %d)\n", self->targetname, activator->targetname, activator->s.number );
G_ActivateBehavior(self,BSET_USE);
if(self->spawnflags & 1)
{
self->e_UseFunc = useF_NULL;
}
while ( (t = G_Find (t, FOFS(targetname), self->target)) != NULL )
{
if (t != self)
{
t_count++;
}
}
if(!t_count)
{
return;
}
if(t_count == 1)
{
G_UseTargets (self, activator);
return;
}
//FIXME: need a seed
pick = Q_irand(1, t_count);
t_count = 0;
while ( (t = G_Find (t, FOFS(targetname), self->target)) != NULL )
{
if (t != self)
{
t_count++;
}
else
{
continue;
}
if (t == self)
{
// gi.Printf ("WARNING: Entity used itself.\n");
}
else if(t_count == pick)
{
if (t->e_UseFunc != useF_NULL) // check can be omitted
{
GEntity_UseFunc(t, self, activator);
return;
}
}
if (!self->inuse)
{
gi.Printf("entity was removed while using targets\n");
return;
}
}
}
void SP_target_random (gentity_t *self)
{
self->e_UseFunc = useF_target_random_use;
}
int numNewICARUSEnts = 0;
void scriptrunner_run (gentity_t *self)
{
/*
if (self->behaviorSet[BSET_USE])
{
char newname[MAX_FILENAME_LENGTH];
sprintf((char *) &newname, "%s/%s", Q3_SCRIPT_DIR, self->behaviorSet[BSET_USE] );
ICARUS_RunScript( self, newname );
}
*/
if ( self->count != -1 )
{
if ( self->count <= 0 )
{
self->e_UseFunc = useF_NULL;
self->behaviorSet[BSET_USE] = NULL;
return;
}
else
{
--self->count;
}
}
if (self->behaviorSet[BSET_USE])
{
if ( self->spawnflags & 1 )
{
if ( !self->activator )
{
Q3_DebugPrint( WL_ERROR, "target_scriptrunner tried to run on invalid entity!\n");
return;
}
if ( !self->activator->sequencer || !self->activator->taskManager )
{//Need to be initialized through ICARUS
if ( !self->activator->script_targetname || !self->activator->script_targetname[0] )
{
//We don't have a script_targetname, so create a new one
self->activator->script_targetname = va( "newICARUSEnt%d", numNewICARUSEnts++ );
}
if ( ICARUS_ValidEnt( self->activator ) )
{
ICARUS_InitEnt( self->activator );
}
else
{
Q3_DebugPrint( WL_ERROR, "target_scriptrunner tried to run on invalid ICARUS activator!\n");
return;
}
}
Q3_DebugPrint( WL_VERBOSE, "target_scriptrunner running %s on activator %s\n", self->behaviorSet[BSET_USE], self->activator->targetname );
ICARUS_RunScript( self->activator, va( "%s/%s", Q3_SCRIPT_DIR, self->behaviorSet[BSET_USE] ) );
}
else
{
if ( self->activator )
{
Q3_DebugPrint( WL_VERBOSE, "target_scriptrunner %s used by %s\n", self->targetname, self->activator->targetname );
}
G_ActivateBehavior( self, BSET_USE );
}
}
if ( self->wait )
{
self->nextthink = level.time + self->wait;
}
}
void target_scriptrunner_use(gentity_t *self, gentity_t *other, gentity_t *activator)
{
if ( self->nextthink > level.time )
{
return;
}
self->activator = activator;
G_SetEnemy( self, other );
if ( self->delay )
{//delay before firing scriptrunner
self->e_ThinkFunc = thinkF_scriptrunner_run;
self->nextthink = level.time + self->delay;
}
else
{
scriptrunner_run (self);
}
}
/*QUAKED target_scriptrunner (1 0 0) (-4 -4 -4) (4 4 4) runonactivator x x x x x x INACTIVE
--- SPAWNFLAGS ---
runonactivator - Will run the script on the entity that used this or tripped the trigger that used this
INACTIVE - start off
----- KEYS ------
Usescript - Script to run when used
count - how many times to run, -1 = infinite. Default is once
wait - can't be used again in this amount of seconds (Default is 1 second if it's multiple-use)
delay - how long to wait after use to run script
*/
void SP_target_scriptrunner( gentity_t *self )
{
if ( self->spawnflags & 128 )
{
self->svFlags |= SVF_INACTIVE;
}
if ( !self->count )
{
self->count = 1;//default 1 use only
}
/*
else if ( !self->wait )
{
self->wait = 1;//default wait of 1 sec
}
*/
// FIXME: this is a hack... because delay is read in as an int, so I'm bypassing that because it's too late in the project to change it and I want to be able to set less than a second delays
// no one should be setting a radius on a scriptrunner, if they are this would be bad, take this out for the next project
self->radius = 0.0f;
G_SpawnFloat( "delay", "0", &self->radius );
self->delay = self->radius * 1000;//sec to ms
self->wait *= 1000;//sec to ms
G_SetOrigin( self, self->s.origin );
self->e_UseFunc = useF_target_scriptrunner_use;
}
void target_gravity_change_use(gentity_t *self, gentity_t *other, gentity_t *activator)
{
G_ActivateBehavior(self,BSET_USE);
if ( self->spawnflags & 1 )
{
gi.cvar_set("g_gravity", va("%f", self->speed));
}
else if ( activator->client )
{
int grav = floor(self->speed);
/*
if ( activator->client->ps.gravity != grav )
{
gi.Printf("%s gravity changed to %d\n", activator->targetname, grav );
}
*/
activator->client->ps.gravity = grav;
activator->svFlags |= SVF_CUSTOM_GRAVITY;
//FIXME: need a way to set this back to normal?
}
}
/*QUAKED target_gravity_change (1 0 0) (-4 -4 -4) (4 4 4) GLOBAL
"gravity" - Normal = 800, Valid range: any
GLOBAL - Apply to entire world, not just the activator
*/
void SP_target_gravity_change( gentity_t *self )
{
G_SetOrigin( self, self->s.origin );
G_SpawnFloat( "gravity", "0", &self->speed );
self->e_UseFunc = useF_target_gravity_change_use;
}
void target_friction_change_use(gentity_t *self, gentity_t *other, gentity_t *activator)
{
G_ActivateBehavior(self,BSET_USE);
if(self->spawnflags & 1)
{//FIXME - make a global?
//gi.Cvar_Set("g_friction", va("%d", self->health));
}
else if(activator->client)
{
activator->client->ps.friction = self->health;
}
}
/*QUAKED target_friction_change (1 0 0) (-4 -4 -4) (4 4 4)
"friction" Normal = 6, Valid range 0 - 10
*/
void SP_target_friction_change( gentity_t *self )
{
G_SetOrigin( self, self->s.origin );
self->e_UseFunc = useF_target_friction_change_use;
}
extern void G_ChangeMap (const char *mapname, const char *spawntarget, qboolean hub); //g_utils
void target_level_change_use(gentity_t *self, gentity_t *other, gentity_t *activator)
{
G_ActivateBehavior(self,BSET_USE);
G_ChangeMap( self->message, self->target, (self->spawnflags&1) );
if (self->spawnflags&2) //HIDEINFO
{
gi.cvar_set("cg_missionstatusscreen", "0");
}
else
{
gi.cvar_set("cg_missionstatusscreen", "1"); //turn it on!
}
}
/*QUAKED target_level_change (1 0 0) (-4 -4 -4) (4 4 4) HUB HIDEINFO
HUB - Will save the current map's status and load the next map with any saved status it may have
"mapname" - Name of map to change to
"target" - Name of spawnpoint to start at in the new map
*/
void SP_target_level_change( gentity_t *self )
{
if ( !self->message )
{
G_Error( "target_level_change with no mapname!\n");
return;
}
G_SetOrigin( self, self->s.origin );
self->e_UseFunc = useF_target_level_change_use;
}
/*QUAKED target_change_parm (1 0 0) (-4 -4 -4) (4 4 4)
Copies any parms set on this ent to the entity that fired the trigger/button/whatever that uses this
parm1
parm2
parm3
parm4
parm5
parm6
parm7
parm8
parm9
parm10
parm11
parm12
parm13
parm14
parm15
parm16
*/
void Q3_SetParm (int entID, int parmNum, const char *parmValue);
void target_change_parm_use(gentity_t *self, gentity_t *other, gentity_t *activator)
{
if ( !activator || !self )
{
return;
}
//FIXME: call capyparms
if ( self->parms )
{
for ( int parmNum = 0; parmNum < MAX_PARMS; parmNum++ )
{
if ( self->parms->parm[parmNum] && self->parms->parm[parmNum][0] )
{
Q3_SetParm( activator->s.number, parmNum, self->parms->parm[parmNum] );
}
}
}
}
void SP_target_change_parm( gentity_t *self )
{
if ( !self->parms )
{//ERROR!
return;
}
G_SetOrigin( self, self->s.origin );
self->e_UseFunc = useF_target_change_parm_use;
}
void target_play_music_use(gentity_t *self, gentity_t *other, gentity_t *activator)
{
G_ActivateBehavior(self,BSET_USE);
gi.SetConfigstring( CS_MUSIC, self->message );
}
/*QUAKED target_play_music (1 0 0) (-4 -4 -4) (4 4 4)
target_play_music
Plays the requested music files when this target is used.
"targetname"
"music" music WAV or MP3 file ( music/introfile.mp3 [optional] music/loopfile.mp3 )
If an intro file and loop file are specified, the intro plays first, then the looping
portion will start and loop indefinetly. If no introfile is entered, only the loopfile
will play.
*/
void SP_target_play_music( gentity_t *self )
{
char *s;
G_SetOrigin( self, self->s.origin );
if (!G_SpawnString( "music", "", &s )) {
G_Error( "target_play_music without a music key at %s", vtos( self->s.origin ) );
}
self->message = G_NewString (s);
self->e_UseFunc = useF_target_play_music_use;
extern cvar_t *com_buildScript;
//Precache!
if (com_buildScript->integer) {//copy this puppy over
char buffer[MAX_QPATH];
fileHandle_t hFile;
Q_strncpyz( buffer, s, sizeof(buffer) );
COM_DefaultExtension( buffer, sizeof(buffer), ".mp3");
gi.FS_FOpenFile(buffer, &hFile, FS_READ);
if (hFile) {
gi.FS_FCloseFile( hFile );
}
}
}
void target_autosave_use(gentity_t *self, gentity_t *other, gentity_t *activator)
{
G_ActivateBehavior(self,BSET_USE);
//gi.SendServerCommand( NULL, "cp @INGAME_CHECKPOINT" );
CG_CenterPrint( "@INGAME_CHECKPOINT", SCREEN_HEIGHT * 0.25 ); //jump the network
// if (self->spawnflags & 1)
gi.SendConsoleCommand( "wait 2;save auto*\n" );
}
/*QUAKED target_autosave (1 0 0) (-4 -4 -4) (4 4 4)
Auto save the game right now. Might be a slight chug to capture the thumbnail.
Make sure it won't trigger during dialogue or cinematic or it will stutter!
*/
void SP_target_autosave( gentity_t *self )
{
G_SetOrigin( self, self->s.origin );
self->e_UseFunc = useF_target_autosave_use;
}
void target_secret_use(gentity_t *self, gentity_t *other, gentity_t *activator)
{
//we'll assume that the activator is the player
gclient_t* const client = &level.clients[0];
client->sess.missionStats.secretsFound++;
if ( activator )
{
G_Sound( activator, self->noise_index );
}
else
{
G_Sound( self, self->noise_index );
}
gi.SendServerCommand( NULL, "cp @INGAME_SECRET_AREA" );
assert(client->sess.missionStats.totalSecrets);
}
/*QUAKED target_secret (1 0 1) (-4 -4 -4) (4 4 4)
You found a Secret!
"count" - how many secrets on this level,
if more than one on a level, be sure they all have the same count!
*/
void SP_target_secret( gentity_t *self )
{
G_SetOrigin( self, self->s.origin );
self->e_UseFunc = useF_target_secret_use;
self->noise_index = G_SoundIndex("sound/interface/secret_area");
if (self->count)
{
gi.cvar_set("newTotalSecrets", va("%i",self->count));
}
}