(*
* Hedgewars, a worms-like game
* Copyright (c) 2004, 2005 Andrey Korotaev <unC0Rr@gmail.com>
*
* Distributed under the terms of the BSD-modified licence:
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* with the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*)
procedure doStepDrowningGear(Gear: PGear); forward;
function CheckGearDrowning(Gear: PGear): boolean;
begin
Result:= Gear.Y + Gear.HalfHeight >= cWaterLine;
if Result then
begin
Gear.State:= gstDrowning;
Gear.doStep:= doStepDrowningGear;
PlaySound(sndSplash)
end
end;
procedure CheckCollision(Gear: PGear);
begin
if TestCollisionXwithGear(Gear, Sign(Gear.X)) or TestCollisionYwithGear(Gear, Sign(Gear.Y))
then Gear.State:= Gear.State or gstCollision
else Gear.State:= Gear.State and not gstCollision
end;
procedure CheckHHDamage(Gear: PGear);
begin
if Gear.dY > 0.35 then Gear.Damage:= Gear.Damage + round(25 * (abs(Gear.dY) - 0.35));
end;
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
procedure CalcRotationDirAngle(Gear: PGear);
var dAngle: real;
begin
dAngle:= (abs(Gear.dX) + abs(Gear.dY))*0.1;
if Gear.dX >= 0 then Gear.DirAngle:= Gear.DirAngle + dAngle
else Gear.DirAngle:= Gear.DirAngle - dAngle;
if Gear.DirAngle < 0 then Gear.DirAngle:= Gear.DirAngle + 16
else if Gear.DirAngle >= 16 then Gear.DirAngle:= Gear.DirAngle - 16
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepDrowningGear(Gear: PGear);
begin
AllInactive:= false;
Gear.Y:= Gear.Y + cDrownSpeed;
if round(Gear.Y) > Gear.HalfHeight + cWaterLine + 48 + cVisibleWater then DeleteGear(Gear)
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepFallingGear(Gear: PGear);
var b: boolean;
begin
if TestCollisionYwithGear(Gear, Sign(Gear.dY)) then
begin
Gear.dX:= Gear.dX * Gear.Friction;
Gear.dY:= - Gear.dY * Gear.Elasticity;
b:= false
end else b:= true;
if TestCollisionXwithGear(Gear, Sign(Gear.dX)) then
begin
Gear.dX:= - Gear.dX * Gear.Elasticity;
// Gear.dY:= Gear.dY;
b:= false
end;
if b then
begin
Gear.dY:= Gear.dY + cGravity;
Gear.State:= Gear.State and not gstCollision
end else
begin
if sqr(Gear.dX) + sqr(Gear.dY) < 0.00001 then
if (Gear.Timer = 0) then Gear.Active:= false
else begin
Gear.dX:= 0;
Gear.dY:= 0
end;
Gear.State:= Gear.State or gstCollision
end;
Gear.X:= Gear.X + Gear.dX;
Gear.Y:= Gear.Y + Gear.dY;
CheckGearDrowning(Gear);
if (sqr(Gear.dX) + sqr(Gear.dY) < 0.003) then Gear.State:= Gear.State and not gstMoving
else Gear.State:= Gear.State or gstMoving
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepCloud(Gear: PGear);
begin
Gear.X:= Gear.X + cWindSpeed * 200 + Gear.dX;
if Gear.X < -cScreenWidth-256 then Gear.X:= cScreenWidth + 2048 else
if Gear.X > cScreenWidth + 2048 then Gear.X:= -cScreenWidth - 256
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepBomb(Gear: PGear);
begin
AllInactive:= false;
doStepFallingGear(Gear);
dec(Gear.Timer);
if Gear.Timer = 0 then
begin
doMakeExplosion(round(Gear.X), round(Gear.Y), 50, EXPLAutoSound);
DeleteGear(Gear);
SetAllToActive;
exit
end;
CalcRotationDirAngle(Gear);
if (Gear.State and (gstCollision or gstMoving)) = (gstCollision or gstMoving) then PlaySound(sndGrenadeImpact)
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepGrenade(Gear: PGear);
begin
AllInactive:= false;
Gear.dX:= Gear.dX + cWindSpeed;
doStepFallingGear(Gear);
if (Gear.State and gstCollision) <> 0 then
begin
doMakeExplosion(round(Gear.X), round(Gear.Y), 50, EXPLAutoSound);
DeleteGear(Gear);
SetAllToActive;
exit
end;
if (GameTicks and $3F) = 0 then
AddGear(round(Gear.X), round(Gear.Y), gtSmokeTrace, 0)
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepHealthTag(Gear: PGear);
begin
AllInactive:= false;
dec(Gear.Timer);
Gear.Y:= Gear.Y - 0.07;
if Gear.Timer = 0 then
begin
PHedgehog(Gear.Hedgehog).Gear.Active:= true;
DeleteGear(Gear)
end
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepGrave(Gear: PGear);
begin
AllInactive:= false;
if Gear.dY < 0 then
if TestCollisionY(Gear, -1) then Gear.dY:= 0;
if Gear.dY >=0 then
if TestCollisionY(Gear, 1) then
begin
Gear.dY:= - Gear.dY * Gear.Elasticity;
if Gear.dY > - 0.001 then
begin
Gear.Active:= false;
exit
end else if Gear.dY < - 0.03 then PlaySound(sndGraveImpact)
end;
Gear.Y:= Gear.Y + Gear.dY;
CheckGearDrowning(Gear);
Gear.dY:= Gear.dY + cGravity
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepUFOWork(Gear: PGear);
var t: real;
begin
AllInactive:= false;
t:= sqrt(sqr(Gear.dX) + sqr(Gear.dY));
Gear.dX:= Gear.Elasticity * (Gear.dX + 0.000004 * (TargetPoint.X - trunc(Gear.X)));
Gear.dY:= Gear.Elasticity * (Gear.dY + 0.000004 * (TargetPoint.Y - trunc(Gear.Y)));
t:= t / (sqrt(sqr(Gear.dX) + sqr(Gear.dY)));
Gear.dX:= Gear.dX * t;
Gear.dY:= Gear.dY * t;
Gear.X:= Gear.X + Gear.dX;
Gear.Y:= Gear.Y + Gear.dY;
CheckCollision(Gear);
dec(Gear.Timer);
if ((Gear.State and gstCollision) <> 0) or (Gear.Timer = 0) then
begin
doMakeExplosion(round(Gear.X), round(Gear.Y), 50, EXPLAutoSound);
DeleteGear(Gear);
SetAllToActive
end;
end;
procedure doStepUFO(Gear: PGear);
begin
AllInactive:= false;
Gear.X:= Gear.X + Gear.dX;
Gear.Y:= Gear.Y + Gear.dY;
Gear.dY:= Gear.dY + cGravity;
CheckCollision(Gear);
if (Gear.State and gstCollision) <> 0 then
begin
doMakeExplosion(round(Gear.X), round(Gear.Y), 50, EXPLAutoSound);
DeleteGear(Gear);
SetAllToActive;
exit
end;
dec(Gear.Timer);
if Gear.Timer = 0 then
begin
Gear.Timer:= 5000;
Gear.doStep:= doStepUFOWork
end;
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepShotgunShot(Gear: PGear);
var i: LongWord;
begin
AllInactive:= false;
if Gear.Timer > 0 then
begin
dec(Gear.Timer);
if Gear.Timer = 1 then PlaySound(sndShotgunFire);
exit
end;
i:= 200;
repeat
Gear.X:= Gear.X + Gear.dX;
Gear.Y:= Gear.Y + Gear.dY;
CheckCollision(Gear);
if (Gear.State and gstCollision) <> 0 then
begin
doMakeExplosion(round(Gear.X), round(Gear.Y), 25, EXPLAllDamageInRadius);
DeleteGear(Gear);
SetAllToActive;
exit
end;
dec(i)
until i = 0;
if (Gear.X < 0) or (Gear.Y < 0) or (Gear.X > 2048) or (Gear.Y > 1024) then
DeleteGear(Gear)
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepActionTimer(Gear: PGear);
begin
case Gear.State of
gtsStartGame: begin
dec(Gear.Timer);
AllInactive:= false;
if Gear.Timer > 0 then exit;
AddCaption('Let''s fight!', $FFFFFF, capgrpStartGame);
DeleteGear(Gear)
end;
gtsSmoothWindCh: begin
if Gear.Timer = 0 then
begin
Gear.Timer:= 10;
if WindBarWidth < Gear.Tag then inc(WindBarWidth)
else if WindBarWidth > Gear.Tag then dec(WindBarWidth)
else DeleteGear(Gear)
end else dec(Gear.Timer)
end;
end;
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepPickHammerWork(Gear: PGear);
var i, ei: integer;
HHGear: PGear;
begin
Allinactive:= false;
dec(Gear.Timer);
if (Gear.Timer = 0)or((Gear.Message and gm_Destroy) <> 0) then
begin
DeleteGear(Gear);
AfterAttack;
SetAllToActive;
exit
end;
HHGear:= PHedgehog(Gear.Hedgehog).Gear;
if (Gear.Timer and $3F) = 0 then
begin
i:= round(Gear.X) - Gear.HalfWidth - GetRandom(2);
ei:= round(Gear.X) + Gear.HalfWidth + GetRandom(2);
while i <= ei do
begin
doMakeExplosion(i, round(Gear.Y) + 3, 3, 0);
inc(i, 1)
end;
SetAllToActive;
Gear.X:= Gear.X + Gear.dX;
Gear.Y:= Gear.Y + 1.9
end;
if TestCollisionYwithGear(Gear, 1) then
begin
Gear.dY:= 0;
HHGear.dX:= 0.0000001 * Sign(PGear(Gear.Hedgehog).dX);
HHGear.dY:= 0;
end else
begin
Gear.dY:= Gear.dY + cGravity;
Gear.Y:= Gear.Y + Gear.dY;
if Gear.Y > 1024 then Gear.Timer:= 1
end;
Gear.X:= Gear.X + HHGear.dX;
HHGear.X:= Gear.X;
HHGear.Y:= Gear.Y - cHHHalfHeight;
if (Gear.Message and gm_Attack) <> 0 then
if (Gear.State and gsttmpFlag) <> 0 then Gear.Timer:= 1 else else
if (Gear.State and gsttmpFlag) = 0 then Gear.State:= Gear.State or gsttmpFlag;
if ((Gear.Message and gm_Left) <> 0) then Gear.dX:= -0.3 else
if ((Gear.Message and gm_Right) <> 0) then Gear.dX:= 0.3
else Gear.dX:= 0;
end;
procedure doStepPickHammer(Gear: PGear);
var i, y: integer;
ar: TRangeArray;
begin
i:= 0;
y:= round(Gear.Y) - cHHHalfHeight*2;
while y < round(Gear.Y) do
begin
ar[i].Left := round(Gear.X) - Gear.HalfWidth - GetRandom(2);
ar[i].Right:= round(Gear.X) + Gear.HalfWidth + GetRandom(2);
inc(y, 2);
inc(i)
end;
DrawLineExplosions(@ar, 3, round(Gear.Y) - cHHHalfHeight*2, 2, Pred(i));
Gear.dY:= PHedgehog(Gear.Hedgehog).Gear.dY;
doStepPickHammerWork(Gear);
Gear.doStep:= doStepPickHammerWork
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepRopeWork(Gear: PGear);
const pidiv2: real = pi/2;
flCheck: boolean = false;
var HHGear: PGear;
len, cs, cc, tx, ty: real;
lx, ly: integer;
procedure DeleteMe;
begin
with HHGear^ do
begin
Message:= Message and not gm_Attack;
State:= State or gstFalling;
end;
DeleteGear(Gear);
OnUsedAmmo(PHedgehog(Gear.Hedgehog)^.Ammo);
ApplyAmmoChanges(PHedgehog(Gear.Hedgehog))
end;
begin
HHGear:= PHedgehog(Gear.Hedgehog).Gear;
if (HHGear.State and gstHHDriven) = 0 then
begin
DeleteMe;
exit
end;
Gear.dX:= HHGear.X - Gear.X;
Gear.dY:= HHGear.Y - Gear.Y;
if (Gear.Message and gm_Left <> 0) then HHGear.dX:= HHGear.dX - 0.0002 else
if (Gear.Message and gm_Right <> 0) then HHGear.dX:= HHGear.dX + 0.0002;
if not TestCollisionYwithGear(HHGear, 1) then HHGear.dY:= HHGear.dY + cGravity;
HHGear.DirAngle:= arctan(Gear.dY + HHGear.dY, Gear.dX + HHGear.dX);
cs:= sin(HHGear.DirAngle);
cc:= cos(HHGear.DirAngle);
flCheck:= not flCheck;
if flCheck then // check whether rope needs dividing
begin
len:= Gear.Elasticity - 20;
while len > 5 do
begin
tx:= cc*len;
ty:= cs*len;
// if TestCollisionXwithXYShift(Gear, round(tx), round(ty), Sign(HHGear.dX))
/// or TestCollisionYwithXYShift(Gear, round(tx), round(ty), Sign(HHGear.dY)) then
lx:= round(Gear.X + tx) + sign(HHGear.dX);
ly:= round(Gear.Y + ty) + sign(HHGear.dY);
if ((ly and $FFFFFC00) = 0) and ((lx and $FFFFF800) = 0)and (Land[ly, lx] <> 0) then
begin
with RopePoints.ar[RopePoints.Count] do
begin
X:= Gear.X;
Y:= Gear.Y;
if RopePoints.Count = 0 then RopePoints.HookAngle:= DxDy2Angle32(Gear.dY, Gear.dX);
b:= (cc * HHGear.dY) > (cs * HHGear.dX);
dLen:= len
end;
Gear.X:= Gear.X + tx;
Gear.Y:= Gear.Y + ty;
inc(RopePoints.Count);
Gear.Elasticity:= Gear.Elasticity - len;
Gear.Friction:= Gear.Friction - len;
break
end;
len:= len - 3
end;
end else
if RopePoints.Count > 0 then // check whether the last dividing point could be removed
begin
tx:= RopePoints.ar[Pred(RopePoints.Count)].X;
ty:= RopePoints.ar[Pred(RopePoints.Count)].Y;
if RopePoints.ar[Pred(RopePoints.Count)].b xor ((tx - Gear.X) * (ty - HHGear.Y) > (tx - HHGear.X) * (ty - Gear.Y)) then
begin
dec(RopePoints.Count);
Gear.X:=RopePoints.ar[RopePoints.Count].X;
Gear.Y:=RopePoints.ar[RopePoints.Count].Y;
Gear.Elasticity:= Gear.Elasticity + RopePoints.ar[RopePoints.Count].dLen;
Gear.Friction:= Gear.Friction + RopePoints.ar[RopePoints.Count].dLen
end
end;
Gear.dX:= HHGear.X - Gear.X;
Gear.dY:= HHGear.Y - Gear.Y;
HHGear.DirAngle:= arctan(Gear.dY + HHGear.dY, Gear.dX + HHGear.dX);
cs:= sin(HHGear.DirAngle);
cc:= cos(HHGear.DirAngle);
HHGear.dX:= HHGear.X;
HHGear.dY:= HHGear.Y;
if ((Gear.Message and gm_Down) <> 0) and (Gear.Elasticity < Gear.Friction) then
if not (TestCollisionXwithGear(HHGear, Sign(Gear.dX))
or TestCollisionYwithGear(HHGear, Sign(Gear.dY))) then Gear.Elasticity:= Gear.Elasticity + 0.3;
if ((Gear.Message and gm_Up) <> 0) and (Gear.Elasticity > 30) then
if not (TestCollisionXwithGear(HHGear, -Sign(Gear.dX))
or TestCollisionYwithGear(HHGear, -Sign(Gear.dY))) then Gear.Elasticity:= Gear.Elasticity - 0.3;
HHGear.X:= Gear.X + cc*Gear.Elasticity;
HHGear.Y:= Gear.Y + cs*Gear.Elasticity;
HHGear.dX:= HHGear.X - HHGear.dX;
HHGear.dY:= HHGear.Y - HHGear.dY;
if TestCollisionXwithGear(HHGear, Sign(HHGear.dX)) then
HHGear.dX:= -0.9 * HHGear.dX;
if TestCollisionYwithGear(HHGear, Sign(HHGear.dY)) then
HHGear.dY:= -0.9 * HHGear.dY;
if (Gear.Message and gm_Attack) <> 0 then
if (Gear.State and gsttmpFlag) <> 0 then DeleteMe else
else if (Gear.State and gsttmpFlag) = 0 then Gear.State:= Gear.State or gsttmpFlag;
end;
procedure doStepRopeAttach(Gear: PGear);
var HHGear: PGear;
tx, ty, tt: real;
begin
Gear.X:= Gear.X + Gear.dX;
Gear.Y:= Gear.Y + Gear.dY;
Gear.Elasticity:= Gear.Elasticity + 1.0;
HHGear:= PHedgehog(Gear.Hedgehog)^.Gear;
if (HHGear.State and gstFalling) <> 0 then
if HHTestCollisionYwithGear(HHGear, 1) then
begin
HHGear.dY:= 0;
CheckHHDamage(HHGear);
HHGear.State:= HHGear.State and not (gstFalling or gstHHJumping);
end else
begin
if TestCollisionXwithGear(HHGear, Sign(HHGear.dX)) then HHGear.dX:= 0.0000001 * Sign(HHGear.dX);
HHGear.X:= HHGear.X + HHGear.dX;
HHGear.Y:= HHGear.Y + HHGear.dY;
Gear.X:= Gear.X + HHGear.dX;
Gear.Y:= Gear.Y + HHGear.dY;
HHGear.dY:= HHGear.dY + cGravity;
tt:= Gear.Elasticity;
tx:= 0;
ty:= 0;
while tt > 20 do
begin
if TestCollisionXwithXYShift(Gear, round(tx), round(ty), Sign(Gear.dX))
or TestCollisionYwithXYShift(Gear, round(tx), round(ty), Sign(Gear.dY)) then
begin
Gear.X:= Gear.X + tx;
Gear.Y:= Gear.Y + ty;
Gear.Elasticity:= tt;
Gear.doStep:= doStepRopeWork;
with HHGear^ do State:= State and not gstAttacking;
tt:= 0
end;
tx:= tx - Gear.dX - Gear.dX;
ty:= ty - Gear.dY - Gear.dY;
tt:= tt - 2.0;
end;
end;
CheckCollision(Gear);
if (Gear.State and gstCollision) <> 0 then
begin
Gear.doStep:= doStepRopeWork;
with HHGear^ do State:= State and not gstAttacking;
if Gear.Elasticity < 10 then
Gear.Elasticity:= 10000;
end;
if (Gear.Elasticity >= Gear.Friction) or ((Gear.Message and gm_Attack) = 0) then
begin
with PHedgehog(Gear.Hedgehog).Gear^ do
begin
State:= State and not gstAttacking;
Message:= Message and not gm_Attack
end;
DeleteGear(Gear)
end
end;
procedure doStepRope(Gear: PGear);
begin
Gear.doStep:= doStepRopeAttach
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepSmokeTrace(Gear: PGear);
begin
inc(Gear.Timer);
if Gear.Timer > 64 then
begin
Gear.Timer:= 0;
dec(Gear.State)
end;
Gear.dX:= Gear.dX + cWindSpeed;
Gear.X:= Gear.X + Gear.dX;
if Gear.State = 0 then DeleteGear(Gear)
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepExplosion(Gear: PGear);
begin
inc(Gear.Timer);
if Gear.Timer > 75 then
begin
inc(Gear.State);
Gear.Timer:= 0;
if Gear.State > 5 then DeleteGear(Gear)
end;
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepMine(Gear: PGear);
begin
if (Gear.dX <> 0) or (Gear.dY <> 0) then
begin
doStepFallingGear(Gear);
if Gear.Active = false then
begin
Gear.dX:= 0;
Gear.dY:= 0
end;
CalcRotationDirAngle(Gear);
AllInactive:= false
end;
if ((Gear.State and gsttmpFlag) <> 0) then
if ((Gear.State and gstAttacking) = 0) then
begin
if (Gear.Tag = 0) then
begin
Gear.Tag:= 10;
if CheckGearNear(Gear, gtHedgehog, 46, 32) <> nil then Gear.State:= Gear.State or gstAttacking
end else dec(Gear.Tag)
end else // gstAttacking <> 0
begin
AllInactive:= false;
if (Gear.Timer and $1FF) = 0 then PlaySound(sndMineTick);
if Gear.Timer = 0 then
begin
doMakeExplosion(round(Gear.X), round(Gear.Y), 50, EXPLAutoSound);
SetAllToActive;
DeleteGear(Gear)
end;
dec(Gear.Timer);
end else // gsttmpFlag = 0
if TurnTimeLeft = 0 then Gear.State:= Gear.State or gsttmpFlag;
end;
////////////////////////////////////////////////////////////////////////////////
procedure doStepCase(Gear: PGear);
begin
if (Gear.Message and gm_Destroy) > 0 then
begin
DeleteGear(Gear);
exit
end;
if (Gear.dY <> 0) or (not TestCollisionY(Gear, 1)) then
begin
AllInactive:= false;
Gear.dY:= Gear.dY + cGravity;
Gear.Y:= Gear.Y + Gear.dY;
if (Gear.dY < 0) and TestCollisionY(Gear, -1) then Gear.dY:= 0 else
if (Gear.dY >= 0) and TestCollisionY(Gear, 1) then
begin
Gear.dY:= - Gear.dY * Gear.Elasticity;
if Gear.dY > - 0.001 then Gear.dY:= 0
else if Gear.dY < - 0.03 then PlaySound(sndGraveImpact);
end;
CheckGearDrowning(Gear);
end;
if (Gear.CollIndex = High(Longword)) and (Gear.dY = 0) then AddGearCR(Gear)
else if (Gear.CollIndex < High(Longword)) and (Gear.dY <> 0) then DeleteCR(Gear);
if Gear.Damage > 0 then
begin
DeleteGear(Gear);
doMakeExplosion(round(Gear.X), round(Gear.Y), 50, EXPLAutoSound)
end
end;