swwmgz_m/zscript/swwm_common_fx.zsc

1277 lines
27 KiB
Text

// basic effects
// imitates UE1 light type LT_TexturePaletteOnce/LT_TexturePaletteLoop
Class PaletteLight : PointLight
{
Color pal[256];
bool IsLooping;
int InitialReactionTime;
Default
{
Tag "Explosion";
Args 0,0,0,80;
ReactionTime 15;
}
private void UpdateLight()
{
int index = clamp(255-((255*ReactionTime)/abs(InitialReactionTime)),0,255);
args[LIGHT_RED] = pal[index].r;
args[LIGHT_GREEN] = pal[index].g;
args[LIGHT_BLUE] = pal[index].b;
}
override void PostBeginPlay()
{
Super.PostBeginPlay();
InitialReactionTime = ReactionTime;
String palname = GetTag();
int sep = palname.IndexOf(",");
int palnum = 0;
if ( sep != -1 )
{
String palnumstr = palname.Mid(sep+1);
palnum = palnumstr.ToInt()*768;
palname.Truncate(sep);
}
int lump = Wads.CheckNumForFullname(String.Format("palettes/%s.pal",palname));
String paldat = Wads.ReadLump(lump);
for ( int i=0; i<256; i++ )
{
pal[i].r = paldat.ByteAt(palnum++);
pal[i].g = paldat.ByteAt(palnum++);
pal[i].b = paldat.ByteAt(palnum++);
}
if ( ReactionTime < 0 )
{
ReactionTime = -ReactionTime;
IsLooping = true;
}
UpdateLight();
}
override void Tick()
{
Super.Tick();
if ( isFrozen() ) return;
ReactionTime--;
if ( ReactionTime < 0 )
{
if ( !IsLooping )
{
Destroy();
return;
}
else ReactionTime = abs(InitialReactionTime);
}
if ( target ) SetOrigin(target.pos,true);
UpdateLight();
}
}
// Generic smoke, lightweight tick
Class SWWMSmoke : Actor
{
Default
{
RenderStyle "Shaded";
StencilColor "FFFFFF";
Radius 2;
Height 2;
Speed 1;
+NOBLOCKMAP;
+NOGRAVITY;
+DONTSPLASH;
+FORCEXYBILLBOARD;
+ROLLSPRITE;
+ROLLCENTER;
+THRUACTORS;
+NOTELEPORT;
+NOINTERACTION;
Scale .3;
FloatBobPhase 0;
}
override void PostBeginPlay()
{
double ang, pt;
scale *= FRandom[Puff](.5,1.5);
alpha = min(1.,alpha*FRandom[Puff](.5,1.5));
ang = FRandom[Puff](0,360);
pt = FRandom[Puff](-90,90);
vel += (cos(pt)*cos(ang),cos(pt)*sin(ang),-sin(pt))*FRandom[Puff](.2,.8)*speed;
roll = Frandom[Puff](0,360);
scale.x *= RandomPick[Puff](-1,1);
scale.y *= RandomPick[Puff](-1,1);
}
override void Tick()
{
prev = pos; // for interpolation
if ( isFrozen() ) return;
vel *= .96;
vel.z += .01;
// linetrace-based movement (hopefully more reliable than traditional methods)
Vector3 dir = vel;
double spd = vel.length();
dir /= spd;
double dist = spd;
FLineTraceData d;
Vector3 newpos = pos;
newpos.z = clamp(newpos.z,floorz,ceilingz);
int nstep = 0;
while ( dist > 0 )
{
// safeguard, too many bounces
if ( nstep > MAXBOUNCEPERTIC )
{
Destroy();
return;
}
double ang = atan2(dir.y,dir.x);
double pt = asin(-dir.z);
LineTrace(ang,dist,pt,TRF_THRUACTORS|TRF_THRUHITSCAN|TRF_ABSPOSITION,newpos.z,newpos.x,newpos.y,d);
Vector3 hitnormal = -d.HitDir;
if ( d.HitType == TRACE_HitFloor )
{
if ( d.Hit3DFloor ) hitnormal = -d.Hit3DFloor.top.Normal;
else hitnormal = d.HitSector.floorplane.Normal;
}
else if ( d.HitType == TRACE_HitCeiling )
{
if ( d.Hit3DFloor ) hitnormal = -d.Hit3DFloor.bottom.Normal;
else hitnormal = d.HitSector.ceilingplane.Normal;
}
else if ( d.HitType == TRACE_HitWall )
{
hitnormal = (-d.HitLine.delta.y,d.HitLine.delta.x,0).unit();
if ( !d.LineSide ) hitnormal *= -1;
}
if ( d.HitType != TRACE_HitNone )
{
dist -= d.Distance;
// should only happen if we bounced
dir = d.HitDir-(FRandom[Puff](1.,1.2)*hitnormal*(d.HitDir dot hitnormal));
vel = dir*spd;
newpos = d.HitLocation+dir;
}
else
{
dist = 0.;
newpos = level.Vec3Offset(newpos,dir*spd);
}
nstep++;
}
newpos.z = clamp(newpos.z,floorz,ceilingz);
SetOrigin(newpos,true);
UpdateWaterLevel();
if ( (waterlevel > 0) && !bAMBUSH )
{
let b = Spawn("SWWMBubble",pos);
b.scale *= abs(scale.x);
b.vel = vel;
Destroy();
return;
}
if ( tics > 0 ) tics--;
while ( !tics )
{
if ( !SetState(CurState.NextState) )
return;
}
}
States
{
Spawn:
XSMK ABCDEFGHIJKLMNOPQRST 1 A_SetTics(1+special1);
Stop;
}
}
// strictly non-interacting smoke, much lighter tick, used for heavier effects
Class SWWMHalfSmoke : Actor
{
Default
{
RenderStyle "Shaded";
StencilColor "FFFFFF";
Radius 0.1;
Height 0;
Speed 1;
+NOBLOCKMAP;
+NOGRAVITY;
+DONTSPLASH;
+FORCEXYBILLBOARD;
+ROLLSPRITE;
+ROLLCENTER;
+NOTELEPORT;
+NOINTERACTION;
Scale 0.3;
FloatBobPhase 0;
}
override void PostBeginPlay()
{
double ang, pt;
scale *= FRandom[Puff](0.5,1.5);
alpha *= FRandom[Puff](0.5,1.5);
ang = FRandom[Puff](0,360);
pt = FRandom[Puff](-90,90);
vel += (cos(pt)*cos(ang),cos(pt)*sin(ang),-sin(pt))*FRandom[Puff](0.2,0.8)*speed;
roll = Frandom[Puff](0,360);
scale.x *= RandomPick[Puff](-1,1);
scale.y *= RandomPick[Puff](-1,1);
}
override void Tick()
{
prev = pos; // for interpolation
if ( isFrozen() ) return;
vel *= 0.96;
vel.z += 0.01;
SetOrigin(level.Vec3Offset(pos,vel),true);
UpdateWaterLevel();
if ( (waterlevel > 0) && !bAMBUSH )
{
let b = Spawn("SWWMBubble",pos);
b.scale *= abs(scale.x);
b.vel = vel;
Destroy();
return;
}
if ( tics > 0 ) tics--;
while ( !tics )
{
if ( !SetState(CurState.NextState) )
return;
}
}
States
{
Spawn:
XSMK ABCDEFGHIJKLMNOPQRST 1 A_SetTics(1+special1);
Stop;
}
}
Class SWWMSmallSmoke : SWWMHalfSmoke
{
override void PostBeginPlay()
{
double ang, pt;
scale *= FRandom[Puff](0.1,0.3);
alpha *= FRandom[Puff](0.5,1.5);
ang = FRandom[Puff](0,360);
pt = FRandom[Puff](-90,90);
vel += (cos(pt)*cos(ang),cos(pt)*sin(ang),-sin(pt))*FRandom[Puff](0.04,0.16);
roll = Frandom[Puff](0,360);
scale.x *= RandomPick[Puff](-1,1);
scale.y *= RandomPick[Puff](-1,1);
}
States
{
Spawn:
QSM6 ABCDEFGHIJKLMNOPQR 1 A_SetTics(1+special1);
Stop;
}
}
Class SWWMBubble : Actor
{
Default
{
RenderStyle "Add";
Radius 2;
Height 2;
+NOBLOCKMAP;
+NOGRAVITY;
+DONTSPLASH;
+FORCEXYBILLBOARD;
+NOTELEPORT;
+THRUACTORS;
+NOINTERACTION;
Scale 0.5;
FloatBobPhase 0;
}
override void PostBeginPlay()
{
double ang, pt;
scale *= FRandom[Puff](0.5,1.5);
ang = FRandom[Puff](0,360);
pt = FRandom[Puff](-90,90);
vel += (cos(pt)*cos(ang),cos(pt)*sin(ang),-sin(pt))*FRandom[Puff](0.2,0.8);
if ( waterlevel <= 0 ) Destroy();
SetState(ResolveState("Spawn")+Random[Puff](0,19));
}
override void Tick()
{
prev = pos;
if ( isFrozen() ) return;
vel *= 0.96;
vel.z += 0.05;
// linetrace-based movement (hopefully more reliable than traditional methods)
Vector3 dir = vel;
double spd = vel.length();
dir /= spd;
double dist = spd;
FLineTraceData d;
Vector3 newpos = pos;
newpos.z = clamp(newpos.z,floorz,ceilingz);
int nstep = 0;
while ( dist > 0 )
{
// safeguard, too many bounces
if ( nstep > MAXBOUNCEPERTIC )
{
Destroy();
return;
}
double ang = atan2(dir.y,dir.x);
double pt = asin(-dir.z);
LineTrace(ang,dist,pt,TRF_THRUACTORS|TRF_THRUHITSCAN|TRF_ABSPOSITION,newpos.z,newpos.x,newpos.y,d);
Vector3 hitnormal = -d.HitDir;
if ( d.HitType == TRACE_HitFloor )
{
if ( d.Hit3DFloor ) hitnormal = -d.Hit3DFloor.top.Normal;
else hitnormal = d.HitSector.floorplane.Normal;
}
else if ( d.HitType == TRACE_HitCeiling )
{
if ( d.Hit3DFloor ) hitnormal = -d.Hit3DFloor.bottom.Normal;
else hitnormal = d.HitSector.ceilingplane.Normal;
}
else if ( d.HitType == TRACE_HitWall )
{
hitnormal = (-d.HitLine.delta.y,d.HitLine.delta.x,0).unit();
if ( !d.LineSide ) hitnormal *= -1;
}
if ( d.HitType != TRACE_HitNone )
{
dist -= d.Distance;
// should only happen if we bounced
dir = d.HitDir-(FRandom[Puff](1.,1.2)*hitnormal*(d.HitDir dot hitnormal));
vel = dir*spd;
newpos = d.HitLocation+dir;
}
else
{
dist = 0.;
newpos = level.Vec3Offset(newpos,dir*spd);
}
nstep++;
}
newpos.z = clamp(newpos.z,floorz,ceilingz);
SetOrigin(newpos,true);
UpdateWaterLevel();
if ( (waterlevel <= 0) || !Random[Puff](0,100) ) Destroy();
if ( tics > 0 ) tics--;
while ( !tics )
{
if ( !SetState(CurState.NextState) )
return;
}
}
States
{
Spawn:
XBUB ABCDEFGHIJKLMNOPQRST 1;
Loop;
}
}
Class SWWMSparkTrail : Actor
{
Default
{
RenderStyle "Add";
Radius .1;
Height 0.;
+FORCEXYBILLBOARD;
+NOGRAVITY;
+NOBLOCKMAP;
+NOINTERACTION;
+DONTSPLASH;
+NOTELEPORT;
}
override void Tick()
{
if ( isFrozen() ) return;
A_SetScale(scale.x*.9,scale.y);
A_FadeOut(.06);
}
States
{
Spawn:
XZW1 A -1 Bright;
Stop;
}
}
Class SWWMSpark : Actor
{
bool dead;
Sector tracksector;
int trackplane;
Default
{
RenderStyle "Add";
Radius 2;
Height 2;
+NOBLOCKMAP;
+FORCEXYBILLBOARD;
+THRUACTORS;
+NOTELEPORT;
+DONTSPLASH;
+NOINTERACTION;
Gravity 0.2;
Scale 0.05;
FloatBobPhase 0;
}
override void Tick()
{
prev = pos;
if ( isFrozen() ) return;
if ( dead )
{
// do nothing but follow floor movement
if ( tracksector )
{
double trackz;
if ( trackplane ) trackz = tracksector.ceilingplane.ZAtPoint(pos.xy);
else trackz = tracksector.floorplane.ZAtPoint(pos.xy);
if ( trackz != pos.z ) SetZ(trackz);
}
}
else
{
vel.z -= GetGravity();
// linetrace-based movement (hopefully more reliable than traditional methods)
Vector3 dir = vel;
double spd = vel.length();
dir /= spd;
double dist = spd;
FLineTraceData d;
Vector3 newpos = pos;
newpos.z = clamp(newpos.z,floorz,ceilingz);
int nstep = 0;
while ( dist > 0 )
{
Vector3 oldpos = newpos;
// safeguard, too many bounces
if ( nstep > MAXBOUNCEPERTIC )
{
Destroy();
return;
}
double ang = atan2(dir.y,dir.x);
double pt = asin(-dir.z);
LineTrace(ang,dist,pt,TRF_THRUACTORS|TRF_THRUHITSCAN|TRF_ABSPOSITION,newpos.z,newpos.x,newpos.y,d);
Vector3 hitnormal = -d.HitDir;
if ( d.HitType == TRACE_HitFloor )
{
if ( d.Hit3DFloor ) hitnormal = -d.Hit3DFloor.top.Normal;
else hitnormal = d.HitSector.floorplane.Normal;
}
else if ( d.HitType == TRACE_HitCeiling )
{
if ( d.Hit3DFloor ) hitnormal = -d.Hit3DFloor.bottom.Normal;
else hitnormal = d.HitSector.ceilingplane.Normal;
}
else if ( d.HitType == TRACE_HitWall )
{
hitnormal = (-d.HitLine.delta.y,d.HitLine.delta.x,0).unit();
if ( !d.LineSide ) hitnormal *= -1;
}
if ( d.HitType != TRACE_HitNone )
{
dist -= d.Distance;
// should only happen if we bounced
dir = d.HitDir-(2*hitnormal*(d.HitDir dot hitnormal));
spd *= .4;
dist *= .4;
vel = dir*spd;
newpos = d.HitLocation+dir;
}
else
{
dist = 0.;
newpos = level.Vec3Offset(newpos,dir*spd);
}
if ( ((spd < 1.) || (dir.z <= 0.)) && ((d.HitType == TRACE_HitFloor) || (newpos.z <= floorz)) )
{
// lose speed and die
if ( d.Hit3DFloor )
{
newpos.z = d.Hit3DFloor.top.ZAtPoint(newpos.xy);
tracksector = d.Hit3DFloor.model;
trackplane = 1;
}
else
{
// hacky workaround
if ( !d.HitSector ) d.HitSector = floorsector;
newpos.z = d.HitSector.floorplane.ZAtPoint(newpos.xy);
tracksector = d.HitSector;
trackplane = 0;
}
vel = (0,0,0);
pitch = 0;
roll = 0;
dead = true;
SetStateLabel("Death");
break;
}
nstep++;
}
newpos.z = clamp(newpos.z,floorz,ceilingz);
Vector3 taildir = level.Vec3Diff(newpos,pos);
double taillen = taildir.length();
if ( (taillen > 0.) && (alpha > .3) && (waterlevel <= 0) )
{
taildir /= taillen;
let t = Spawn("SWWMSparkTrail",newpos);
t.alpha = alpha*.3;
t.scale.y = taillen;
t.angle = atan2(taildir.y,taildir.x);
t.pitch = asin(-taildir.z)+90;
}
SetOrigin(newpos,true);
if ( (pos.z <= floorz) && GetFloorTerrain().IsLiquid )
{
Destroy();
return;
}
}
UpdateWaterLevel();
if ( waterlevel > 0 )
{
let b = Spawn("SWWMBubble",pos);
b.vel = vel;
b.scale *= 0.3;
Destroy();
return;
}
if ( tics > 0 ) tics--;
while ( !tics )
{
if ( !SetState(CurState.NextState) )
return;
}
}
States
{
Spawn:
BLPF A 1 Bright A_FadeOut(0.01);
Wait;
Death:
BLPF A 1 Bright A_FadeOut(0.05);
Wait;
}
}
Class SWWMChip : Actor
{
SWWMChip prevchip, nextchip;
bool killme;
double anglevel, pitchvel, rollvel;
bool dead;
Sector tracksector;
int trackplane;
Default
{
Radius 1;
Height 1;
+NOBLOCKMAP;
+THRUACTORS;
+NOTELEPORT;
+DONTSPLASH;
+INTERPOLATEANGLES;
+ROLLSPRITE;
+ROLLCENTER;
+FORCEXYBILLBOARD;
+NOINTERACTION;
Gravity 0.35;
Scale 0.2;
FloatBobPhase 0;
}
override void PostBeginPlay()
{
anglevel = FRandom[Junk](10,30)*RandomPick[Junk](-1,1);
pitchvel = FRandom[Junk](10,30)*RandomPick[Junk](-1,1);
rollvel = FRandom[Junk](10,30)*RandomPick[Junk](-1,1);
frame = Random[Junk](0,7);
scale *= Frandom[Junk](0.8,1.2);
SWWMHandler.QueueChip(self);
}
override void OnDestroy()
{
SWWMHandler.DeQueueChip(self);
Super.OnDestroy();
}
override void Tick()
{
prev = pos; // for interpolation
if ( isFrozen() ) return;
if ( dead )
{
// do nothing but follow floor movement
if ( tracksector )
{
double trackz;
if ( trackplane ) trackz = tracksector.ceilingplane.ZAtPoint(pos.xy);
else trackz = tracksector.floorplane.ZAtPoint(pos.xy);
if ( trackz != pos.z )
{
SetZ(trackz);
UpdateWaterLevel(false);
}
}
}
else
{
if ( waterlevel <= 0 ) vel.z -= GetGravity();
// linetrace-based movement (hopefully more reliable than traditional methods)
Vector3 dir = vel;
double spd = vel.length();
dir /= spd;
double dist = spd;
FLineTraceData d;
Vector3 newpos = pos;
newpos.z = clamp(newpos.z,floorz,ceilingz);
int nstep = 0;
while ( dist > 0 )
{
// safeguard, too many bounces
if ( nstep > MAXBOUNCEPERTIC )
{
Destroy();
return;
}
double ang = atan2(dir.y,dir.x);
double pt = asin(-dir.z);
LineTrace(ang,dist,pt,TRF_THRUACTORS|TRF_THRUHITSCAN|TRF_ABSPOSITION,newpos.z,newpos.x,newpos.y,d);
Vector3 hitnormal = -d.HitDir;
if ( d.HitType == TRACE_HitFloor )
{
if ( d.Hit3DFloor ) hitnormal = -d.Hit3DFloor.top.Normal;
else hitnormal = d.HitSector.floorplane.Normal;
}
else if ( d.HitType == TRACE_HitCeiling )
{
if ( d.Hit3DFloor ) hitnormal = -d.Hit3DFloor.bottom.Normal;
else hitnormal = d.HitSector.ceilingplane.Normal;
}
else if ( d.HitType == TRACE_HitWall )
{
hitnormal = (-d.HitLine.delta.y,d.HitLine.delta.x,0).unit();
if ( !d.LineSide ) hitnormal *= -1;
}
if ( d.HitType != TRACE_HitNone )
{
dist -= d.Distance;
// should only happen if we bounced
dir = d.HitDir-(2*hitnormal*(d.HitDir dot hitnormal));
spd *= .3;
dist *= .3;
vel = dir*spd;
newpos = d.HitLocation+dir;
SetStateLabel("Bounce");
}
else
{
dist = 0.;
newpos = level.Vec3Offset(newpos,dir*spd);
}
newpos.z = clamp(newpos.z,floorz,ceilingz);
if ( ((spd < 1.) || (dir.z <= 0.)) && ((d.HitType == TRACE_HitFloor) || (newpos.z <= floorz)) )
{
// lose speed and die
if ( d.Hit3DFloor )
{
newpos.z = d.Hit3DFloor.top.ZAtPoint(newpos.xy);
tracksector = d.Hit3DFloor.model;
trackplane = 1;
}
else
{
// hacky workaround
if ( !d.HitSector ) d.HitSector = floorsector;
newpos.z = d.HitSector.floorplane.ZAtPoint(newpos.xy);
tracksector = d.HitSector;
trackplane = 0;
}
vel = (0,0,0);
pitch = 0;
roll = 0;
dead = true;
SetStateLabel("Death");
break;
}
nstep++;
}
SetOrigin(newpos,true);
UpdateWaterLevel();
if ( (pos.z <= floorz) && GetFloorTerrain().IsLiquid )
{
Destroy();
return;
}
}
if ( killme ) A_FadeOut(.01);
if ( waterlevel > 0 )
{
vel *= .98;
anglevel *= .98;
pitchvel *= .98;
rollvel *= .98;
}
if ( !CheckNoDelay() || (tics == -1) ) return;
if ( tics > 0 ) tics--;
while ( !tics )
{
if ( !SetState(CurState.NextState) )
return;
}
}
States
{
Spawn:
XZW1 # 1
{
angle += anglevel;
pitch += pitchvel;
roll += rollvel;
}
Loop;
Bounce:
XZW1 # 0
{
anglevel = FRandom[Junk](10,30)*RandomPick[Junk](-1,1);
pitchvel = FRandom[Junk](10,30)*RandomPick[Junk](-1,1);
rollvel = FRandom[Junk](10,30)*RandomPick[Junk](-1,1);
}
Goto Spawn;
Death:
XZW2 # -1;
Stop;
}
}
Class PoofLight : PaletteLight
{
Default
{
Tag "Yellow";
ReactionTime 5;
Args 0,0,0,60;
}
}
Class PoofLight2 : PaletteLight
{
Default
{
Tag "Yellow";
ReactionTime 20;
Args 0,0,0,90;
}
}
Class SWWMItemFog : Actor
{
Default
{
RenderStyle "Add";
+NOGRAVITY;
+NOBLOCKMAP;
+DONTSPLASH;
+ROLLSPRITE;
+ROLLCENTER;
+NOINTERACTION;
+FORCEXYBILLBOARD;
FloatBobPhase 0;
}
States
{
Spawn:
BLPF A 2 Bright NoDelay
{
// offset up
SetOrigin(Vec3Offset(0,0,16),false);
roll = FRandom[ExploS](0,360);
scale *= FRandom[ExploS](0.9,1.1);
scale.x *= RandomPick[ExploS](-1,1);
scale.y *= RandomPick[ExploS](-1,1);
int numpt = Random[ExploS](8,12);
if ( bAMBUSH ) numpt *= 2;
for ( int i=0; i<numpt; i++ )
{
Vector3 pvel = (FRandom[ExploS](-1,1),FRandom[ExploS](-1,1),FRandom[ExploS](-1,1)).unit()*FRandom[ExploS](.3,8);
let s = Spawn(bAMBUSH?"SWWMSmoke":"SWWMSmallSmoke",pos);
s.vel = pvel;
s.SetShade(Color(3,2,1)*Random[ExploS](64,85));
s.A_SetRenderStyle(s.alpha,STYLE_AddShaded);
s.scale *= 3.;
s.alpha *= bAMBUSH?.4:.2;
}
Spawn(bAMBUSH?"PoofLight2":"PoofLight",pos);
}
BLPF A 1 Bright A_FadeOut(.3);
Wait;
}
}
Class TeleLight : PaletteLight
{
Default
{
Tag "ImpactWav";
ReactionTime 10;
Args 0,0,0,150;
}
}
Class SWWMTeleportSparkle : Actor
{
Default
{
RenderStyle "Add";
Scale 0.3;
Radius 0.1;
Height 0;
+NOGRAVITY;
+NOBLOCKMAP;
+DONTSPLASH;
+ROLLSPRITE;
+ROLLCENTER;
+FORCEXYBILLBOARD;
+NOINTERACTION;
FloatBobPhase 0;
}
override void Tick()
{
if ( isFrozen() ) return;
A_SetScale(scale.x*specialf1);
A_FadeOut(specialf2);
if ( vel != (0,0,0) )
{
SetOrigin(level.Vec3Offset(pos,vel),true);
vel *= .98;
}
}
States
{
Spawn:
BLPF C -1 Bright;
Stop;
}
}
Class SWWMTeleportDest : Actor
{
Default
{
+NOGRAVITY;
+NOBLOCKMAP;
+DONTSPLASH;
+NOINTERACTION;
Radius .1;
Height 0.;
}
override void PostBeginPlay()
{
special1 = Random[ExploS](0,10);
}
override void Tick()
{
if ( isFrozen() ) return;
if ( (level.maptime+special1)%10 ) return;
int numpt = Random[ExploS](0,2);
for ( int i=0; i<numpt; i++ )
{
double ang = FRandom[ExploS](0,360);
double pt = FRandom[ExploS](-90,90);
A_SpawnParticle("88 AA FF",SPF_FULLBRIGHT,Random[ExploS](120,240),FRandom[ExploS](2.,4.),0,0,0,28,FRandom[ExploS](-.8,.8),FRandom[ExploS](-.8,.8),FRandom[ExploS](-.8,.8),0,0,0,FRandom[ExploS](.15,.3),-1,FRandom[ExploS](-.02,-.01));
}
}
}
Class SWWMTeleportLine : Actor
{
Line tline;
Default
{
+NOGRAVITY;
+NOBLOCKMAP;
+DONTSPLASH;
+NOINTERACTION;
Radius .1;
Height 0.;
}
override void PostBeginPlay()
{
special1 = Random[ExploS](0,5);
}
override void Tick()
{
if ( !tline )
{
Destroy();
return;
}
if ( isFrozen() ) return;
if ( (level.maptime+special1)%5 ) return;
Vector3 apos, bpos;
apos.xy = tline.v1.p;
bpos.xy = tline.v2.p;
apos.z = max(tline.frontsector.floorplane.ZAtPoint(apos.xy),tline.backsector.floorplane.ZAtPoint(apos.xy));
bpos.z = max(tline.frontsector.floorplane.ZAtPoint(bpos.xy),tline.backsector.floorplane.ZAtPoint(bpos.xy));
int numpt = Random[ExploS](0,2);
numpt *= int(clamp((apos-bpos).length()/32,1,8));
for ( int i=0; i<numpt; i++ )
{
double ang = FRandom[ExploS](0,360);
double pt = FRandom[ExploS](-90,90);
double d = FRandom[ExploS](0.,1.);
Vector3 ppos = bpos*d+apos*(1.-d)+(0,0,FRandom[ExploS](1,4));
Vector3 rpos = ppos-pos;
A_SpawnParticle("88 AA FF",SPF_FULLBRIGHT,Random[ExploS](120,240),FRandom[ExploS](2.,4.),0,rpos.x,rpos.y,rpos.z,FRandom[ExploS](-.3,.3),FRandom[ExploS](-.3,.3),FRandom[ExploS](-.3,.3),0,0,FRandom[ExploS](.05,.1),FRandom[ExploS](.15,.3),-1,FRandom[ExploS](-.02,-.01));
}
}
}
Class SWWMTeleportFog : Actor
{
Default
{
RenderStyle "Add";
+NOGRAVITY;
+NOBLOCKMAP;
+DONTSPLASH;
+NOINTERACTION;
+FORCEXYBILLBOARD;
Radius .1;
Height 0.;
FloatBobPhase 0;
}
override void PostBeginPlay()
{
Super.PostBeginPlay();
A_StartSound("misc/teleport",CHAN_VOICE);
Spawn("TeleLight",pos);
if ( swwm_simplefog ) SetStateLabel("Simple");
}
States
{
Spawn:
TNT1 A 1
{
int numpt = int(Random[ExploS](6,12)*alpha);
for ( int i=0; i<numpt; i++ )
{
Vector3 pvel = (FRandom[ExploS](-1,1),FRandom[ExploS](-1,1),FRandom[ExploS](-1,1)).unit()*FRandom[ExploS](.3,8)*alpha;
let s = Spawn("SWWMSmallSmoke",pos);
s.vel = pvel;
s.SetShade(Color(1,2,3)*int(Random[ExploS](64,85)*alpha));
s.A_SetRenderStyle(s.alpha,STYLE_AddShaded);
s.scale *= 3.*alpha;
s.alpha *= alpha;
}
numpt = int(Random[ExploS](4,8));
for ( int i=0; i<numpt; i++ )
{
double ang = FRandom[ExploS](0,360);
double pt = FRandom[ExploS](-90,90);
double dist = (FRandom[ExploS](5,10)+60*(1.-alpha));
if ( LineTrace(ang,dist,pt,TRF_THRUACTORS|TRF_THRUHITSCAN) ) continue;
Vector3 ofs = (cos(ang)*cos(pt),sin(ang)*cos(pt),-sin(pt))*dist;
Vector3 spos = level.Vec3Offset(pos,ofs);
let s = Spawn("SWWMTeleportSparkle",spos);
s.scale *= FRandom[ExploS](.8,1.2);
s.specialf1 = FRandom[ExploS](.93,.97);
s.specialf2 = FRandom[ExploS](.02,.04);
s.roll = FRandom[ExploS](0,360);
}
A_FadeOut(.07);
}
Wait;
Simple:
SPEX ABCDEFGHIJKLMNOPQRSTUVWXYZ[\] 1 Bright;
Stop;
}
}
Class SWWMPickupFlash : Actor
{
Default
{
RenderStyle "Add";
Args 0,3,2,1;
+NOGRAVITY;
+NOBLOCKMAP;
+DONTSPLASH;
+ROLLSPRITE;
+ROLLCENTER;
+NOINTERACTION;
+FORCEXYBILLBOARD;
FloatBobPhase 0;
}
override void PostBeginPlay()
{
Super.PostBeginPlay();
frame = Args[0];
}
States
{
Spawn:
BLPF # 1 Bright NoDelay
{
// offset up
SetOrigin(Vec3Offset(0,0,16),false);
roll = FRandom[ExploS](0,360);
scale *= FRandom[ExploS](0.9,1.1);
scale.x *= RandomPick[ExploS](-1,1);
scale.y *= RandomPick[ExploS](-1,1);
int numpt = Random[ExploS](8,10);
for ( int i=0; i<numpt; i++ )
{
Vector3 pvel = (FRandom[ExploS](-1,1),FRandom[ExploS](-1,1),FRandom[ExploS](-1,1)).unit()*FRandom[ExploS](.3,8);
let s = Spawn("SWWMSmallSmoke",pos);
s.vel = pvel;
s.SetShade(Color(Args[1],Args[2],Args[3])*Random[ExploS](64,85));
s.A_SetRenderStyle(s.alpha,STYLE_AddShaded);
s.scale *= 3.;
s.alpha *= .5;
}
}
BLPF # 1 Bright A_FadeOut(.2);
Wait;
}
}
Class SWWMPinkPickupFlash : SWWMPickupFlash
{
Default
{
Args 1,3,1,2;
}
}
Class SWWMCyanPickupFlash : SWWMPickupFlash
{
Default
{
Args 2,1,2,3;
}
}
Class SWWMGreenPickupFlash : SWWMPickupFlash
{
Default
{
Args 3,1,3,1;
}
}
Class SWWMBluePickupFlash : SWWMPickupFlash
{
Default
{
Args 4,1,1,3;
}
}
Class SWWMPurplePickupFlash : SWWMPickupFlash
{
Default
{
Args 5,2,1,3;
}
}
Class SWWMRedPickupFlash : SWWMPickupFlash
{
Default
{
Args 6,3,1,1;
}
}
Class SWWMWhitePickupFlash : SWWMPickupFlash
{
Default
{
Args 7,3,3,3;
}
}
// Bullet trails from DT
Class WaterHit
{
Sector sect;
Vector3 hitpos;
}
Class InvisibleSplasher : Actor
{
Default
{
Mass 100;
VSpeed -2;
Radius 2;
Height 2;
+NOBLOCKMAP; // needed to prevent infinite loops with some 3D floor water (yes, you read that right)
FloatBobPhase 0;
}
States
{
Spawn:
TNT1 A 2;
Stop;
}
}
Class SmolInvisibleSplasher : InvisibleSplasher
{
Default
{
Mass 5;
}
}
Class SWWMBulletTrail : LineTracer
{
Array<WaterHit> WaterHitList;
Array<Line> ShootThroughList;
Actor ignoreme;
static play void DoTrail( Actor target, Vector3 pos, Vector3 dir, double dist, int bubblechance, bool smoky = false )
{
let t = new("SWWMBulletTrail");
t.ignoreme = target;
t.WaterHitList.Clear();
t.ShootThroughList.Clear();
t.Trace(pos,level.PointInSector(pos.xy),dir,dist,0);
for ( int i=0; i<t.ShootThroughList.Size(); i++ )
{
// have to do both because WOW, HOW THE FUCK IS THIS INTENTIONAL???
t.ShootThroughList[i].Activate(target,0,SPAC_PCross);
t.ShootThroughList[i].Activate(target,0,SPAC_Impact);
}
for ( int i=0; i<t.WaterHitList.Size(); i++ )
{
let b = Actor.Spawn("InvisibleSplasher",t.WaterHitList[i].hitpos);
b.A_CheckTerrain();
}
for ( int i=5; i<t.Results.Distance; i+=10 )
{
if ( !Random[Boolet](0,bubblechance) ) continue;
let b = Actor.Spawn(smoky?"SWWMSmallSmoke":"SWWMBubble",level.Vec3Offset(pos,dir*i));
b.Scale *= FRandom[Boolet](.4,.6);
}
t.Destroy();
}
override ETraceStatus TraceCallback()
{
// liquid splashes
if ( Results.CrossedWater )
{
let hl = new("WaterHit");
hl.sect = Results.CrossedWater;
hl.hitpos = Results.CrossedWaterPos;
WaterHitList.Push(hl);
}
else if ( Results.Crossed3DWater )
{
let hl = new("WaterHit");
hl.sect = Results.Crossed3DWater;
hl.hitpos = Results.Crossed3DWaterPos;
WaterHitList.Push(hl);
}
if ( Results.HitType == TRACE_HitActor )
{
if ( Results.HitActor == ignoreme ) return TRACE_Skip;
if ( Results.HitActor.bSHOOTABLE ) return TRACE_Stop;
return TRACE_Skip;
}
else if ( (Results.HitType == TRACE_HitWall) && (Results.Tier == TIER_Middle) )
{
if ( !Results.HitLine.sidedef[1] || (Results.HitLine.Flags&(Line.ML_BlockHitscan|Line.ML_BlockEverything)) )
return TRACE_Stop;
ShootThroughList.Push(Results.HitLine);
return TRACE_Skip;
}
return TRACE_Stop;
}
}
// Blob shadows
Class SWWMShadow : Actor
{
Sector oldfloor;
static void Track( Actor other )
{
// prevent infinite recursion
if ( other is 'SWWMShadow' ) return;
// no shadows for overlay actors
if ( other is 'GhostArtifactX' ) return;
let s = SWWMShadow(Spawn("SWWMShadow",other.pos));
s.target = other;
s.Update(true);
}
private void Update( bool nointerpolate = false )
{
// update scale / alpha
if ( ((target is 'Inventory') && Inventory(target).Owner) || target.bKILLED || target.bINVISIBLE || (target.sprite == target.GetSpriteIndex('TNT1')) || (target.sprite == target.GetSpriteIndex('ACLO')) || (target.CurSector.GetTexture(0) == skyflatnum) )
alpha = 0.;
else
{
alpha = 1.-min(1.,.006*abs(target.pos.z-pos.z));
alpha *= target.alpha;
double relz = target.pos.z-pos.z;
if ( target.bFLOATBOB ) relz += target.GetBobOffset();
double bscale = (target.radius/16.)*(1.-min(1.,.003*relz));
// hax
if ( target is 'CompanionLamp' ) bscale *= 2.;
A_SetScale(bscale);
}
// update position
double curz = target.CurSector.NextLowestFloorAt(target.pos.x,target.pos.y,target.pos.z);
if ( (target.pos.xy == pos.xy) && (pos.z == curz) ) return;
SetOrigin((target.pos.x,target.pos.y,curz),true);
if ( nointerpolate )
prev = pos;
else if ( oldfloor != target.CurSector )
prev.z = pos.z; // prevent interpolation of steep height changes
// update slope alignment
if ( !oldfloor || (oldfloor != target.CurSector) )
SWWMUtility.SetToSlope(self,0);
oldfloor = target.CurSector;
}
override void Tick()
{
if ( !target )
{
Destroy();
return;
}
Update();
}
default
{
RenderStyle "Shaded";
StencilColor "000000";
DistanceCheck 'swwm_shadowdist';
Radius .1;
Height 0.;
+NOBLOCKMAP;
+NOINTERACTION;
+DONTSPLASH;
+NOTELEPORT;
FloatBobPhase 0;
}
States
{
Spawn:
XZW1 A -1;
Stop;
}
}