jedioutcast/CODE-mp/game/g_object.c
2013-04-04 13:01:17 -05:00

372 lines
11 KiB
C

// leave this line at the top for all g_xxxx.cpp files...
#include "g_local.h"
extern void G_MoverTouchPushTriggers( gentity_t *ent, vec3_t oldOrg );
void G_StopObjectMoving( gentity_t *object );
/*
====================================================================
void pitch_roll_for_slope (edict_t *forwhom, vec3_t *slope)
MG
This will adjust the pitch and roll of a monster to match
a given slope - if a non-'0 0 0' slope is passed, it will
use that value, otherwise it will use the ground underneath
the monster. If it doesn't find a surface, it does nothinh\g
and returns.
====================================================================
*/
void pitch_roll_for_slope( gentity_t *forwhom, vec3_t pass_slope )
{
vec3_t slope;
vec3_t nvf, ovf, ovr, startspot, endspot, new_angles = { 0, 0, 0 };
float pitch, mod, dot;
float oldmins2;
//if we don't have a slope, get one
if( !pass_slope || VectorCompare( vec3_origin, pass_slope ) )
{
trace_t trace;
VectorCopy( forwhom->r.currentOrigin, startspot );
startspot[2] += forwhom->r.mins[2] + 4;
VectorCopy( startspot, endspot );
endspot[2] -= 300;
trap_Trace( &trace, forwhom->r.currentOrigin, vec3_origin, vec3_origin, endspot, forwhom->s.number, MASK_SOLID );
// if(trace_fraction>0.05&&forwhom.movetype==MOVETYPE_STEP)
// forwhom.flags(-)FL_ONGROUND;
if ( trace.fraction >= 1.0 )
return;
if( !( &trace.plane ) )
return;
if ( VectorCompare( vec3_origin, trace.plane.normal ) )
return;
VectorCopy( trace.plane.normal, slope );
}
else
{
VectorCopy( pass_slope, slope );
}
AngleVectors( forwhom->r.currentAngles, ovf, ovr, NULL );
vectoangles( slope, new_angles );
pitch = new_angles[PITCH] + 90;
new_angles[ROLL] = new_angles[PITCH] = 0;
AngleVectors( new_angles, nvf, NULL, NULL );
mod = DotProduct( nvf, ovr );
if ( mod<0 )
mod = -1;
else
mod = 1;
dot = DotProduct( nvf, ovf );
if ( forwhom->client )
{
forwhom->client->ps.viewangles[PITCH] = dot * pitch;
forwhom->client->ps.viewangles[ROLL] = ((1-Q_fabs(dot)) * pitch * mod);
oldmins2 = forwhom->r.mins[2];
forwhom->r.mins[2] = -24 + 12 * fabs(forwhom->client->ps.viewangles[PITCH])/180.0f;
//FIXME: if it gets bigger, move up
if ( oldmins2 > forwhom->r.mins[2] )
{//our mins is now lower, need to move up
//FIXME: trace?
forwhom->client->ps.origin[2] += (oldmins2 - forwhom->r.mins[2]);
forwhom->r.currentOrigin[2] = forwhom->client->ps.origin[2];
trap_LinkEntity( forwhom );
}
}
else
{
forwhom->r.currentAngles[PITCH] = dot * pitch;
forwhom->r.currentAngles[ROLL] = ((1-Q_fabs(dot)) * pitch * mod);
}
}
/*
================
G_BounceObject
================
*/
void G_BounceObject( gentity_t *ent, trace_t *trace )
{
vec3_t velocity;
float dot, bounceFactor;
int hitTime;
// reflect the velocity on the trace plane
hitTime = level.previousTime + ( level.time - level.previousTime ) * trace->fraction;
BG_EvaluateTrajectoryDelta( &ent->s.pos, hitTime, velocity );
dot = DotProduct( velocity, trace->plane.normal );
// bounceFactor = 60/ent->mass; // NOTENOTE Mass is not yet implemented
bounceFactor = 1.0f;
if ( bounceFactor > 1.0f )
{
bounceFactor = 1.0f;
}
VectorMA( velocity, -2*dot*bounceFactor, trace->plane.normal, ent->s.pos.trDelta );
//FIXME: customized or material-based impact/bounce sounds
if ( ent->s.eFlags & EF_BOUNCE_HALF )
{
VectorScale( ent->s.pos.trDelta, 0.5, ent->s.pos.trDelta );
// check for stop
if ( ((trace->plane.normal[2] > 0.7&&g_gravity.value>0) || (trace->plane.normal[2]<-0.7&&g_gravity.value<0)) && ((ent->s.pos.trDelta[2]<40&&g_gravity.value>0)||(ent->s.pos.trDelta[2]>-40&&g_gravity.value<0)) ) //this can happen even on very slightly sloped walls, so changed it from > 0 to > 0.7
{
//G_SetOrigin( ent, trace->endpos );
//ent->nextthink = level.time + 500;
ent->s.apos.trType = TR_STATIONARY;
VectorCopy( ent->r.currentAngles, ent->s.apos.trBase );
VectorCopy( trace->endpos, ent->r.currentOrigin );
VectorCopy( trace->endpos, ent->s.pos.trBase );
ent->s.pos.trTime = level.time;
return;
}
}
// NEW--It would seem that we want to set our trBase to the trace endpos
// and set the trTime to the actual time of impact....
// FIXME: Should we still consider adding the normal though??
VectorCopy( trace->endpos, ent->r.currentOrigin );
ent->s.pos.trTime = hitTime;
VectorCopy( ent->r.currentOrigin, ent->s.pos.trBase );
VectorCopy( trace->plane.normal, ent->pos1 );//???
}
/*
================
G_RunObject
TODO: When transition to 0 grav, push away from surface you were resting on
TODO: When free-floating in air, apply some friction to your trDelta (based on mass?)
================
*/
extern void DoImpact( gentity_t *self, gentity_t *other, qboolean damageSelf );
extern void pitch_roll_for_slope( gentity_t *forwhom, vec3_t pass_slope );
void G_RunObject( gentity_t *ent )
{
vec3_t origin, oldOrg;
trace_t tr;
gentity_t *traceEnt = NULL;
//FIXME: floaters need to stop floating up after a while, even if gravity stays negative?
if ( ent->s.pos.trType == TR_STATIONARY )//g_gravity.value <= 0 &&
{
ent->s.pos.trType = TR_GRAVITY;
VectorCopy( ent->r.currentOrigin, ent->s.pos.trBase );
ent->s.pos.trTime = level.previousTime;//?necc?
if ( !g_gravity.value )
{
ent->s.pos.trDelta[2] += 100;
}
}
ent->nextthink = level.time + FRAMETIME;
VectorCopy( ent->r.currentOrigin, oldOrg );
// get current position
BG_EvaluateTrajectory( &ent->s.pos, level.time, origin );
//Get current angles?
BG_EvaluateTrajectory( &ent->s.apos, level.time, ent->r.currentAngles );
if ( VectorCompare( ent->r.currentOrigin, origin ) )
{//error - didn't move at all!
return;
}
// trace a line from the previous position to the current position,
// ignoring interactions with the missile owner
trap_Trace( &tr, ent->r.currentOrigin, ent->r.mins, ent->r.maxs, origin,
ent->parent ? ent->parent->s.number : ent->s.number, ent->clipmask );
if ( !tr.startsolid && !tr.allsolid && tr.fraction )
{
VectorCopy( tr.endpos, ent->r.currentOrigin );
trap_LinkEntity( ent );
}
else
//if ( tr.startsolid )
{
tr.fraction = 0;
}
G_MoverTouchPushTriggers( ent, oldOrg );
/*
if ( !(ent->s.eFlags & EF_TELEPORT_BIT) && !(ent->svFlags & SVF_NO_TELEPORT) )
{
G_MoverTouchTeleportTriggers( ent, oldOrg );
if ( ent->s.eFlags & EF_TELEPORT_BIT )
{//was teleported
return;
}
}
else
{
ent->s.eFlags &= ~EF_TELEPORT_BIT;
}
*/
if ( tr.fraction == 1 )
{
if ( g_gravity.value <= 0 )
{
if ( ent->s.apos.trType == TR_STATIONARY )
{
VectorCopy( ent->r.currentAngles, ent->s.apos.trBase );
ent->s.apos.trType = TR_LINEAR;
ent->s.apos.trDelta[1] = flrand( -300, 300 );
ent->s.apos.trDelta[0] = flrand( -10, 10 );
ent->s.apos.trDelta[2] = flrand( -10, 10 );
ent->s.apos.trTime = level.time;
}
}
//friction in zero-G
if ( !g_gravity.value )
{
float friction = 0.975f;
//friction -= ent->mass/1000.0f;
if ( friction < 0.1 )
{
friction = 0.1f;
}
VectorScale( ent->s.pos.trDelta, friction, ent->s.pos.trDelta );
VectorCopy( ent->r.currentOrigin, ent->s.pos.trBase );
ent->s.pos.trTime = level.time;
}
return;
}
//hit something
//Do impact damage
traceEnt = &g_entities[tr.entityNum];
if ( tr.fraction || (traceEnt && traceEnt->takedamage) )
{
if ( !VectorCompare( ent->r.currentOrigin, oldOrg ) )
{//moved and impacted
if ( (traceEnt && traceEnt->takedamage) )
{//hurt someone
// G_Sound( ent, G_SoundIndex( "sound/movers/objects/objectHurt.wav" ) );
}
// G_Sound( ent, G_SoundIndex( "sound/movers/objects/objectHit.wav" ) );
}
DoImpact( ent, traceEnt, qtrue );
}
if ( !ent || (ent->takedamage&&ent->health <= 0) )
{//been destroyed by impact
//chunks?
// G_Sound( ent, G_SoundIndex( "sound/movers/objects/objectBreak.wav" ) );
return;
}
//do impact physics
if ( ent->s.pos.trType == TR_GRAVITY )//tr.fraction < 1.0 &&
{//FIXME: only do this if no trDelta
if ( g_gravity.value <= 0 || tr.plane.normal[2] < 0.7 )
{
if ( ent->s.eFlags&(EF_BOUNCE|EF_BOUNCE_HALF) )
{
if ( tr.fraction <= 0.0f )
{
VectorCopy( tr.endpos, ent->r.currentOrigin );
VectorCopy( tr.endpos, ent->s.pos.trBase );
VectorClear( ent->s.pos.trDelta );
ent->s.pos.trTime = level.time;
}
else
{
G_BounceObject( ent, &tr );
}
}
else
{//slide down?
//FIXME: slide off the slope
}
}
else
{
ent->s.apos.trType = TR_STATIONARY;
pitch_roll_for_slope( ent, tr.plane.normal );
//ent->r.currentAngles[0] = 0;//FIXME: match to slope
//ent->r.currentAngles[2] = 0;//FIXME: match to slope
VectorCopy( ent->r.currentAngles, ent->s.apos.trBase );
//okay, we hit the floor, might as well stop or prediction will
//make us go through the floor!
//FIXME: this means we can't fall if something is pulled out from under us...
G_StopObjectMoving( ent );
}
}
else
{
ent->s.apos.trType = TR_STATIONARY;
pitch_roll_for_slope( ent, tr.plane.normal );
//ent->r.currentAngles[0] = 0;//FIXME: match to slope
//ent->r.currentAngles[2] = 0;//FIXME: match to slope
VectorCopy( ent->r.currentAngles, ent->s.apos.trBase );
}
//call touch func
ent->touch( ent, &g_entities[tr.entityNum], &tr );
}
void G_StopObjectMoving( gentity_t *object )
{
object->s.pos.trType = TR_STATIONARY;
VectorCopy( object->r.currentOrigin, object->s.origin );
VectorCopy( object->r.currentOrigin, object->s.pos.trBase );
VectorClear( object->s.pos.trDelta );
/*
//Stop spinning
VectorClear( self->s.apos.trDelta );
vectoangles(trace->plane.normal, self->s.angles);
VectorCopy(self->s.angles, self->r.currentAngles );
VectorCopy(self->s.angles, self->s.apos.trBase);
*/
}
void G_StartObjectMoving( gentity_t *object, vec3_t dir, float speed, trType_t trType )
{
VectorNormalize (dir);
//object->s.eType = ET_GENERAL;
object->s.pos.trType = trType;
VectorCopy( object->r.currentOrigin, object->s.pos.trBase );
VectorScale(dir, speed, object->s.pos.trDelta );
object->s.pos.trTime = level.time;
/*
//FIXME: incorporate spin?
vectoangles(dir, object->s.angles);
VectorCopy(object->s.angles, object->s.apos.trBase);
VectorSet(object->s.apos.trDelta, 300, 0, 0 );
object->s.apos.trTime = level.time;
*/
//FIXME: make these objects go through G_RunObject automatically, like missiles do
if ( object->think == NULL )
{
object->nextthink = level.time + FRAMETIME;
object->think = G_RunObject;
}
else
{//You're responsible for calling RunObject
}
}