static void gravity_stretch_policy(int szplcy, WRegion *reg,
const WRectangle *rq_geom, WFitParams *fp,
bool ws, bool hs)
{
WRectangle max_geom=fp->g;
int w, h;
fp->g=*rq_geom;
w=(ws ? max_geom.w : minof(rq_geom->w, max_geom.w));
h=(hs ? max_geom.h : minof(rq_geom->h, max_geom.h));
if(reg!=NULL)
region_size_hints_correct(reg, &w, &h, FALSE);
fp->g.w=w;
fp->g.h=h;
do_gravity(&max_geom, szplcy, &(fp->g));
}
// -----------------------------------------------------------------------------------------------------------
//Simulate a physics object for this frame
void do_physics_sim(object *obj)
{
int ignore_obj_list[MAX_IGNORE_OBJS],n_ignore_objs;
int iseg;
int try_again;
int fate=0;
vms_vector frame_vec; //movement in this frame
vms_vector new_pos,ipos; //position after this frame
int count=0;
int objnum;
int WallHitSeg, WallHitSide;
fvi_info hit_info;
fvi_query fq;
vms_vector save_pos;
int save_seg;
fix drag;
fix sim_time,old_sim_time;
vms_vector start_pos;
int obj_stopped=0;
fix moved_time; //how long objected moved before hit something
physics_info *pi;
int orig_segnum = obj->segnum;
int bounced=0;
fix PhysTime = (FrameTime<F1_0/30?F1_0/30:FrameTime);
Assert(obj->movement_type == MT_PHYSICS);
#ifndef NDEBUG
if (Dont_move_ai_objects)
if (obj->control_type == CT_AI)
return;
#endif
pi = &obj->mtype.phys_info;
do_physics_sim_rot(obj);
do_gravity(obj); // jinx 02-16-13 gravity
if (!(pi->velocity.x || pi->velocity.y || pi->velocity.z || pi->thrust.x || pi->thrust.y || pi->thrust.z))
return;
objnum = obj-Objects;
n_phys_segs = 0;
/* As this engine was not designed for that high FPS as we intend, we use F1_0/30 max. for sim_time to ensure
scaling and dot products stay accurate and reliable. The object position intended for this frame will be scaled down later,
after the main collision-loop is done.
This won't make collision results be equal in all FPS settings, but hopefully more accurate, the higher our FPS are.
*/
sim_time = PhysTime; //FrameTime;
//debug_obj = obj;
#ifdef EXTRA_DEBUG
//check for correct object segment
if(!get_seg_masks(&obj->pos, obj->segnum, 0, __FILE__, __LINE__).centermask == 0)
{
if (!update_object_seg(obj)) {
if (!(Game_mode & GM_MULTI))
Int3();
compute_segment_center(&obj->pos,&Segments[obj->segnum]);
obj->pos.x += objnum;
}
}
#endif
start_pos = obj->pos;
n_ignore_objs = 0;
Assert(obj->mtype.phys_info.brakes==0); //brakes not used anymore?
//if uses thrust, cannot have zero drag
Assert(!(obj->mtype.phys_info.flags&PF_USES_THRUST) || obj->mtype.phys_info.drag!=0);
//do thrust & drag
// NOTE: this always must be dependent on FrameTime, if sim_time differs!
if ((drag = obj->mtype.phys_info.drag) != 0) {
int count;
vms_vector accel;
fix r,k,have_accel;
count = FrameTime / FT;
r = FrameTime % FT;
k = fixdiv(r,FT);
if (obj->mtype.phys_info.flags & PF_USES_THRUST) {
vm_vec_copy_scale(&accel,&obj->mtype.phys_info.thrust,fixdiv(f1_0,obj->mtype.phys_info.mass));
have_accel = (accel.x || accel.y || accel.z);
while (count--) {
if (have_accel)
vm_vec_add2(&obj->mtype.phys_info.velocity,&accel);
vm_vec_scale(&obj->mtype.phys_info.velocity,f1_0-drag);
}
//do linear scale on remaining bit of time
vm_vec_scale_add2(&obj->mtype.phys_info.velocity,&accel,k);
if (drag)
vm_vec_scale(&obj->mtype.phys_info.velocity,f1_0-fixmul(k,drag));
}
else if (drag)
{
fix total_drag=f1_0;
while (count--)
total_drag = fixmul(total_drag,f1_0-drag);
//do linear scale on remaining bit of time
total_drag = fixmul(total_drag,f1_0-fixmul(k,drag));
vm_vec_scale(&obj->mtype.phys_info.velocity,total_drag);
}
}
do {
try_again = 0;
//Move the object
vm_vec_copy_scale(&frame_vec, &obj->mtype.phys_info.velocity, sim_time);
if ( (frame_vec.x==0) && (frame_vec.y==0) && (frame_vec.z==0) )
break;
count++;
// If retry count is getting large, then we are trying to do something stupid.
if (count > 8) break; // in original code this was 3 for all non-player objects. still leave us some limit in case fvi goes apeshit.
vm_vec_add(&new_pos,&obj->pos,&frame_vec);
ignore_obj_list[n_ignore_objs] = -1;
fq.p0 = &obj->pos;
fq.startseg = obj->segnum;
fq.p1 = &new_pos;
fq.rad = obj->size;
fq.thisobjnum = objnum;
fq.ignore_obj_list = ignore_obj_list;
fq.flags = FQ_CHECK_OBJS;
if (obj->type == OBJ_WEAPON)
fq.flags |= FQ_TRANSPOINT;
if (obj->type == OBJ_PLAYER)
fq.flags |= FQ_GET_SEGLIST;
fate = find_vector_intersection(&fq,&hit_info);
// Matt: Mike's hack.
if (fate == HIT_OBJECT) {
object *objp = &Objects[hit_info.hit_object];
if (((objp->type == OBJ_WEAPON) && ((objp->id == PROXIMITY_ID) || (objp->id == SUPERPROX_ID))) || objp->type == OBJ_POWERUP) // do not increase count for powerups since they *should* not change our movement
count--;
}
#ifndef NDEBUG
if (fate == HIT_BAD_P0) {
Int3();
}
#endif
if (obj->type == OBJ_PLAYER) {
int i;
if (n_phys_segs && phys_seglist[n_phys_segs-1]==hit_info.seglist[0])
n_phys_segs--;
for (i=0;(i<hit_info.n_segs) && (n_phys_segs<MAX_FVI_SEGS-1); )
phys_seglist[n_phys_segs++] = hit_info.seglist[i++];
}
ipos = hit_info.hit_pnt;
iseg = hit_info.hit_seg;
WallHitSide = hit_info.hit_side;
WallHitSeg = hit_info.hit_side_seg;
if (iseg==-1) { //some sort of horrible error
if (obj->type == OBJ_WEAPON)
obj->flags |= OF_SHOULD_BE_DEAD;
break;
}
Assert(!((fate==HIT_WALL) && ((WallHitSeg == -1) || (WallHitSeg > Highest_segment_index))));
//if(!get_seg_masks(&hit_info.hit_pnt, hit_info.hit_seg, 0, __FILE__, __LINE__).centermask == 0)
// Int3();
save_pos = obj->pos; //save the object's position
save_seg = obj->segnum;
// update object's position and segment number
obj->pos = ipos;
if ( iseg != obj->segnum )
obj_relink(objnum, iseg );
//if start point not in segment, move object to center of segment
if (get_seg_masks(&obj->pos, obj->segnum, 0, __FILE__, __LINE__).centermask !=0 )
{
int n;
if ((n=find_object_seg(obj))==-1) {
//Int3();
if (obj->type==OBJ_PLAYER && (n=find_point_seg(&obj->last_pos,obj->segnum))!=-1) {
obj->pos = obj->last_pos;
obj_relink(objnum, n );
}
else {
compute_segment_center(&obj->pos,&Segments[obj->segnum]);
obj->pos.x += objnum;
}
if (obj->type == OBJ_WEAPON)
obj->flags |= OF_SHOULD_BE_DEAD;
}
return;
}
//calulate new sim time
{
//vms_vector moved_vec;
vms_vector moved_vec_n;
fix attempted_dist,actual_dist;
old_sim_time = sim_time;
actual_dist = vm_vec_normalized_dir(&moved_vec_n,&obj->pos,&save_pos);
if (fate==HIT_WALL && vm_vec_dot(&moved_vec_n,&frame_vec) < 0) { //moved backwards
//don't change position or sim_time
obj->pos = save_pos;
//iseg = obj->segnum; //don't change segment
obj_relink(objnum, save_seg );
moved_time = 0;
}
else {
attempted_dist = vm_vec_mag(&frame_vec);
sim_time = fixmuldiv(sim_time,attempted_dist-actual_dist,attempted_dist);
moved_time = old_sim_time - sim_time;
if (sim_time < 0 || sim_time>old_sim_time) {
sim_time = old_sim_time;
//WHY DOES THIS HAPPEN??
moved_time = 0;
}
}
}
switch( fate ) {
case HIT_WALL: {
vms_vector moved_v;
//@@fix total_d,moved_d;
fix hit_speed=0,wall_part=0;
// Find hit speed
vm_vec_sub(&moved_v,&obj->pos,&save_pos);
wall_part = vm_vec_dot(&moved_v,&hit_info.hit_wallnorm);
if ((wall_part != 0 && moved_time>0 && (hit_speed=-fixdiv(wall_part,moved_time))>0) || obj->type == OBJ_WEAPON || obj->type == OBJ_DEBRIS)
collide_object_with_wall( obj, hit_speed, WallHitSeg, WallHitSide, &hit_info.hit_pnt );
if (obj->type == OBJ_PLAYER)
scrape_player_on_wall(obj, WallHitSeg, WallHitSide, &hit_info.hit_pnt );
Assert( WallHitSeg > -1 );
Assert( WallHitSide > -1 );
if ( !(obj->flags&OF_SHOULD_BE_DEAD) ) {
int forcefield_bounce; //bounce off a forcefield
Assert(cheats.bouncyfire || !(obj->mtype.phys_info.flags & PF_STICK && obj->mtype.phys_info.flags & PF_BOUNCE)); //can't be bounce and stick
forcefield_bounce = (TmapInfo[Segments[WallHitSeg].sides[WallHitSide].tmap_num].flags & TMI_FORCE_FIELD);
if (!forcefield_bounce && (obj->mtype.phys_info.flags & PF_STICK)) { //stop moving
add_stuck_object(obj, WallHitSeg, WallHitSide);
vm_vec_zero(&obj->mtype.phys_info.velocity);
obj_stopped = 1;
try_again = 0;
}
else { // Slide object along wall
int check_vel=0;
wall_part = vm_vec_dot(&hit_info.hit_wallnorm,&obj->mtype.phys_info.velocity);
// if wall_part, make sure the value is sane enough to get usable velocity computed
if (wall_part < 0 && wall_part > -f1_0) wall_part = -f1_0;
if (wall_part > 0 && wall_part < f1_0) wall_part = f1_0;
if (forcefield_bounce || (obj->mtype.phys_info.flags & PF_BOUNCE)) { //bounce off wall
wall_part *= 2; //Subtract out wall part twice to achieve bounce
if (forcefield_bounce) {
check_vel = 1; //check for max velocity
if (obj->type == OBJ_PLAYER)
wall_part *= 2; //player bounce twice as much
}
if ( obj->mtype.phys_info.flags & PF_BOUNCES_TWICE)
{
Assert(obj->mtype.phys_info.flags & PF_BOUNCE);
if (obj->mtype.phys_info.flags & PF_BOUNCED_ONCE)
obj->mtype.phys_info.flags &= ~(PF_BOUNCE+PF_BOUNCED_ONCE+PF_BOUNCES_TWICE);
else
obj->mtype.phys_info.flags |= PF_BOUNCED_ONCE;
if (promod) // jinx 02-14-13 promod
obj->lifeleft /= PHOENIX_LIFE_DIVISOR;
}
bounced = 1; //this object bounced
}
vm_vec_scale_add2(&obj->mtype.phys_info.velocity,&hit_info.hit_wallnorm,-wall_part);
if (check_vel) {
fix vel = vm_vec_mag_quick(&obj->mtype.phys_info.velocity);
if (vel > MAX_OBJECT_VEL)
vm_vec_scale(&obj->mtype.phys_info.velocity,fixdiv(MAX_OBJECT_VEL,vel));
}
if (bounced && obj->type == OBJ_WEAPON)
vm_vector_2_matrix(&obj->orient,&obj->mtype.phys_info.velocity,&obj->orient.uvec,NULL);
try_again = 1;
}
}
break;
}
case HIT_OBJECT: {
vms_vector old_vel;
// Mark the hit object so that on a retry the fvi code
// ignores this object.
Assert(hit_info.hit_object != -1);
// Calculcate the hit point between the two objects.
{ vms_vector *ppos0, *ppos1, pos_hit;
fix size0, size1;
ppos0 = &Objects[hit_info.hit_object].pos;
ppos1 = &obj->pos;
size0 = Objects[hit_info.hit_object].size;
size1 = obj->size;
Assert(size0+size1 != 0); // Error, both sizes are 0, so how did they collide, anyway?!?
//vm_vec_scale(vm_vec_sub(&pos_hit, ppos1, ppos0), fixdiv(size0, size0 + size1));
//vm_vec_add2(&pos_hit, ppos0);
vm_vec_sub(&pos_hit, ppos1, ppos0);
vm_vec_scale_add(&pos_hit,ppos0,&pos_hit,fixdiv(size0, size0 + size1));
old_vel = obj->mtype.phys_info.velocity;
collide_two_objects( obj, &Objects[hit_info.hit_object], &pos_hit);
}
// Let object continue its movement
if ( !(obj->flags&OF_SHOULD_BE_DEAD) ) {
//obj->pos = save_pos;
if (obj->mtype.phys_info.flags&PF_PERSISTENT || (old_vel.x == obj->mtype.phys_info.velocity.x && old_vel.y == obj->mtype.phys_info.velocity.y && old_vel.z == obj->mtype.phys_info.velocity.z)) {
//if (Objects[hit_info.hit_object].type == OBJ_POWERUP)
ignore_obj_list[n_ignore_objs++] = hit_info.hit_object;
try_again = 1;
}
}
break;
}
case HIT_NONE:
break;
#ifndef NDEBUG
case HIT_BAD_P0:
Int3(); // Unexpected collision type: start point not in specified segment.
break;
default:
// Unknown collision type returned from find_vector_intersection!!
Int3();
break;
#endif
}
} while ( try_again );
// Pass retry count info to AI.
if (obj->control_type == CT_AI) {
if (count > 0) {
Ai_local_info[objnum].retry_count = count-1;
#ifndef NDEBUG
Total_retries += count-1;
Total_sims++;
#endif
}
}
// As sim_time may not base on FrameTime, scale actual object position to get accurate movement
if (PhysTime/FrameTime > 0)
{
vms_vector md;
vm_vec_sub(&md, &obj->pos, &start_pos);
vm_vec_scale(&md, F1_0/((float)PhysTime/FrameTime));
vm_vec_add(&obj->pos,&start_pos, &md);
//check for and update correct object segment
if(!get_seg_masks(&obj->pos, obj->segnum, 0, __FILE__, __LINE__).centermask == 0)
{
if (!update_object_seg(obj)) {
if (!(Game_mode & GM_MULTI))
Int3();
compute_segment_center(&obj->pos,&Segments[obj->segnum]);
obj->pos.x += objnum;
}
}
}
// After collision with objects and walls, set velocity from actual movement
if (!obj_stopped && !bounced
&& ((obj->type == OBJ_PLAYER) || (obj->type == OBJ_ROBOT) || (obj->type == OBJ_DEBRIS))
&& ((fate == HIT_WALL) || (fate == HIT_OBJECT) || (fate == HIT_BAD_P0))
)
{
vms_vector moved_vec;
vm_vec_sub(&moved_vec,&obj->pos,&start_pos);
vm_vec_copy_scale(&obj->mtype.phys_info.velocity,&moved_vec,fixdiv(f1_0,FrameTime));
}
fix_illegal_wall_intersection(obj, &start_pos);
//Assert(check_point_in_seg(&obj->pos,obj->segnum,0).centermask==0);
//if (obj->control_type == CT_FLYING)
if (obj->mtype.phys_info.flags & PF_LEVELLING)
do_physics_align_object( obj );
//hack to keep player from going through closed doors
if (obj->type==OBJ_PLAYER && obj->segnum!=orig_segnum && (!cheats.ghostphysics) ) {
int sidenum;
sidenum = find_connect_side(&Segments[obj->segnum],&Segments[orig_segnum]);
if (sidenum != -1) {
if (! (WALL_IS_DOORWAY(&Segments[orig_segnum],sidenum) & WID_FLY_FLAG)) {
side *s;
int vertnum,num_faces,i;
fix dist;
int vertex_list[6];
//bump object back
s = &Segments[orig_segnum].sides[sidenum];
if (orig_segnum==-1)
Error("orig_segnum == -1 in physics");
create_abs_vertex_lists(&num_faces, vertex_list, orig_segnum, sidenum, __FILE__, __LINE__);
//let's pretend this wall is not triangulated
vertnum = vertex_list[0];
for (i=1;i<4;i++)
if (vertex_list[i] < vertnum)
vertnum = vertex_list[i];
#ifdef COMPACT_SEGS
{
vms_vector _vn;
get_side_normal(&Segments[orig_segnum], sidenum, 0, &_vn );
dist = vm_dist_to_plane(&start_pos, &_vn, &Vertices[vertnum]);
vm_vec_scale_add(&obj->pos,&start_pos,&_vn,obj->size-dist);
}
#else
dist = vm_dist_to_plane(&start_pos, &s->normals[0], &Vertices[vertnum]);
vm_vec_scale_add(&obj->pos,&start_pos,&s->normals[0],obj->size-dist);
#endif
update_object_seg(obj);
}
}
}
//--WE ALWYS WANT THIS IN, MATT AND MIKE DECISION ON 12/10/94, TWO MONTHS AFTER FINAL #ifndef NDEBUG
//if end point not in segment, move object to last pos, or segment center
if (get_seg_masks(&obj->pos, obj->segnum, 0, __FILE__, __LINE__).centermask != 0)
{
if (find_object_seg(obj)==-1) {
int n;
//Int3();
if (obj->type==OBJ_PLAYER && (n=find_point_seg(&obj->last_pos,obj->segnum))!=-1) {
obj->pos = obj->last_pos;
obj_relink(objnum, n );
}
else {
compute_segment_center(&obj->pos,&Segments[obj->segnum]);
obj->pos.x += objnum;
}
if (obj->type == OBJ_WEAPON)
obj->flags |= OF_SHOULD_BE_DEAD;
}
}
//--WE ALWYS WANT THIS IN, MATT AND MIKE DECISION ON 12/10/94, TWO MONTHS AFTER FINAL #endif
}
