hide complete IP of other users, when non-admin requests player info. showing the first two parts of the IP was kinda pointless to begin with (what for?) and has recently lead to increased abuse and lobby flooding due to bots collecting/posting IP tracking information
(*
* Hedgewars, a free turn based strategy game
* Copyright (c) 2004-2014 Andrey Korotaev <unC0Rr@gmail.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*)
{$INCLUDE "options.inc"}
unit uGearsHandlersRope;
interface
uses uTypes;
procedure doStepRope(Gear: PGear);
implementation
uses uConsts, uFloat, uCollisions, uVariables, uGearsList, uSound, uGearsUtils,
uAmmos, uDebug, uUtils, uGearsHedgehog, uGearsRender;
procedure doStepRopeAfterAttack(Gear: PGear);
var
HHGear: PGear;
tX: hwFloat;
begin
HHGear := Gear^.Hedgehog^.Gear;
tX:= HHGear^.X;
if WorldWrap(HHGear) and (WorldEdge = weWrap) and
((TestCollisionXwithGear(HHGear, 1) <> 0) or (TestCollisionXwithGear(HHGear, -1) <> 0)) then
begin
HHGear^.X:= tX;
HHGear^.dX.isNegative:= hwRound(tX) > LongInt(leftX) + HHGear^.Radius * 2
end;
if (HHGear^.Hedgehog^.CurAmmoType = amParachute) and (HHGear^.dY > _0_39) then
begin
DeleteGear(Gear);
ApplyAmmoChanges(HHGear^.Hedgehog^);
HHGear^.Message:= HHGear^.Message or gmLJump;
exit
end;
if ((HHGear^.State and gstHHDriven) = 0)
or (CheckGearDrowning(HHGear))
or (TestCollisionYwithGear(HHGear, 1) <> 0) then
begin
DeleteGear(Gear);
isCursorVisible := false;
ApplyAmmoChanges(HHGear^.Hedgehog^);
exit
end;
HedgehogChAngle(HHGear);
if TestCollisionXwithGear(HHGear, hwSign(HHGear^.dX)) <> 0 then
SetLittle(HHGear^.dX);
if HHGear^.dY.isNegative and (TestCollisionYwithGear(HHGear, -1) <> 0) then
HHGear^.dY := _0;
HHGear^.X := HHGear^.X + HHGear^.dX;
HHGear^.Y := HHGear^.Y + HHGear^.dY;
HHGear^.dY := HHGear^.dY + cGravity;
if (GameFlags and gfMoreWind) <> 0 then
HHGear^.dX := HHGear^.dX + cWindSpeed / HHGear^.Density;
if (Gear^.Message and gmAttack) <> 0 then
begin
Gear^.X := HHGear^.X;
Gear^.Y := HHGear^.Y;
ApplyAngleBounds(Gear^.Hedgehog^, amRope);
Gear^.dX := SignAs(AngleSin(HHGear^.Angle), HHGear^.dX);
Gear^.dY := -AngleCos(HHGear^.Angle);
Gear^.Friction := _4_5 * cRopePercent;
Gear^.Elasticity := _0;
Gear^.State := Gear^.State and (not gsttmpflag);
Gear^.doStep := @doStepRope;
end
end;
procedure RopeDeleteMe(Gear, HHGear: PGear);
begin
with HHGear^ do
begin
Message := Message and (not gmAttack);
State := (State or gstMoving) and (not gstWinner);
end;
DeleteGear(Gear)
end;
procedure RopeWaitCollision(Gear, HHGear: PGear);
begin
with HHGear^ do
begin
Message := Message and (not gmAttack);
State := State or gstMoving;
end;
RopePoints.Count := 0;
Gear^.Elasticity := _0;
Gear^.doStep := @doStepRopeAfterAttack
end;
procedure doStepRopeWork(Gear: PGear);
var
HHGear: PGear;
len, tx, ty, nx, ny, ropeDx, ropeDy, mdX, mdY: hwFloat;
lx, ly, cd: LongInt;
haveCollision,
haveDivided: boolean;
wrongSide: boolean;
begin
if GameTicks mod 4 <> 0 then exit;
HHGear := Gear^.Hedgehog^.Gear;
tX:= HHGear^.X;
if WorldWrap(HHGear) and (WorldEdge = weWrap) and
((TestCollisionXwithGear(HHGear, 1) <> 0) or (TestCollisionXwithGear(HHGear, -1) <> 0)) then
begin
PlaySound(sndRopeRelease);
RopeDeleteMe(Gear, HHGear);
HHGear^.X:= tX;
HHGear^.dX.isNegative:= hwRound(tX) > LongInt(leftX) + HHGear^.Radius * 2;
exit
end;
tX:= HHGear^.X;
if ((HHGear^.State and gstHHDriven) = 0) or
(CheckGearDrowning(HHGear)) or (Gear^.PortalCounter <> 0) then
begin
PlaySound(sndRopeRelease);
RopeDeleteMe(Gear, HHGear);
exit
end;
HHGear^.dX.QWordValue:= HHGear^.dX.QWordValue shl 2;
HHGear^.dY.QWordValue:= HHGear^.dY.QWordValue shl 2;
if (Gear^.Message and gmLeft <> 0) and (TestCollisionXwithGear(HHGear, -1) = 0) then
HHGear^.dX := HHGear^.dX - _0_0032;
if (Gear^.Message and gmRight <> 0) and (TestCollisionXwithGear(HHGear, 1) = 0) then
HHGear^.dX := HHGear^.dX + _0_0032;
// vector between hedgehog and rope attaching point
ropeDx := HHGear^.X - Gear^.X;
ropeDy := HHGear^.Y - Gear^.Y;
if TestCollisionYwithXYShift(HHGear, 0, 1, 1) = 0 then
begin
// depending on the rope vector we know which X-side to check for collision
// in order to find out if the hog can still be moved by gravity
if ropeDx.isNegative = RopeDy.IsNegative then
cd:= -1
else
cd:= 1;
// apply gravity if there is no obstacle
if TestCollisionXwithXYShift(HHGear, _2*cd, 0, cd, true) = 0 then
HHGear^.dY := HHGear^.dY + cGravity * 16;
if (GameFlags and gfMoreWind) <> 0 then
// apply wind if there's no obstacle
if TestCollisionXwithGear(HHGear, hwSign(cWindSpeed)) = 0 then
HHGear^.dX := HHGear^.dX + cWindSpeed * 16 / HHGear^.Density;
end;
mdX := ropeDx + HHGear^.dX;
mdY := ropeDy + HHGear^.dY;
len := _1 / Distance(mdX, mdY);
// rope vector plus hedgehog direction vector normalized
mdX := mdX * len;
mdY := mdY * len;
// for visual purposes only
Gear^.dX := mdX;
Gear^.dY := mdY;
/////
tx := HHGear^.X;
ty := HHGear^.Y;
if ((Gear^.Message and gmDown) <> 0) and (Gear^.Elasticity < Gear^.Friction) then
if not ((TestCollisionXwithXYShift(HHGear, _2*hwSign(ropeDx), 0, hwSign(ropeDx), true) <> 0)
or ((ropeDy.QWordValue <> 0) and (TestCollisionYwithXYShift(HHGear, 0, 1*hwSign(ropeDy), hwSign(ropeDy)) <> 0))) then
Gear^.Elasticity := Gear^.Elasticity + _1_2;
if ((Gear^.Message and gmUp) <> 0) and (Gear^.Elasticity > _30) then
if not ((TestCollisionXwithXYShift(HHGear, -_2*hwSign(ropeDx), 0, -hwSign(ropeDx), true) <> 0)
or ((ropeDy.QWordValue <> 0) and (TestCollisionYwithXYShift(HHGear, 0, 1*-hwSign(ropeDy), -hwSign(ropeDy)) <> 0))) then
Gear^.Elasticity := Gear^.Elasticity - _1_2;
HHGear^.X := Gear^.X + mdX * Gear^.Elasticity;
HHGear^.Y := Gear^.Y + mdY * Gear^.Elasticity;
HHGear^.dX := HHGear^.X - tx;
HHGear^.dY := HHGear^.Y - ty;
////
haveDivided := false;
// check whether rope needs dividing
len := Gear^.Elasticity - _5;
nx := Gear^.X + mdX * len;
ny := Gear^.Y + mdY * len;
tx := mdX * _1_2; // should be the same as increase step
ty := mdY * _1_2;
while len > _3 do
begin
lx := hwRound(nx);
ly := hwRound(ny);
if ((ly and LAND_HEIGHT_MASK) = 0) and ((lx and LAND_WIDTH_MASK) = 0) and (Land[ly, lx] > lfAllObjMask) then
begin
tx := _1 / Distance(ropeDx, ropeDy);
// old rope pos
nx := ropeDx * tx;
ny := ropeDy * tx;
with RopePoints.ar[RopePoints.Count] do
begin
X := Gear^.X;
Y := Gear^.Y;
if RopePoints.Count = 0 then
RopePoints.HookAngle := DxDy2Angle(Gear^.dY, Gear^.dX);
b := (nx * HHGear^.dY) > (ny * HHGear^.dX);
sx:= Gear^.dX.isNegative;
sy:= Gear^.dY.isNegative;
sb:= Gear^.dX.QWordValue < Gear^.dY.QWordValue;
dLen := len
end;
with RopePoints.rounded[RopePoints.Count] do
begin
X := hwRound(Gear^.X);
Y := hwRound(Gear^.Y);
end;
Gear^.X := Gear^.X + nx * len;
Gear^.Y := Gear^.Y + ny * len;
inc(RopePoints.Count);
TryDo(RopePoints.Count <= MAXROPEPOINTS, 'Rope points overflow', true);
Gear^.Elasticity := Gear^.Elasticity - len;
Gear^.Friction := Gear^.Friction - len;
haveDivided := true;
break
end;
nx := nx - tx;
ny := ny - ty;
// len := len - _1_2 // should be the same as increase step
len.QWordValue := len.QWordValue - _1_2.QWordValue;
end;
if not haveDivided then
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;
mdX := tx - Gear^.X;
mdY := ty - Gear^.Y;
ropeDx:= tx - HHGear^.X;
ropeDy:= ty - HHGear^.Y;
if RopePoints.ar[Pred(RopePoints.Count)].b xor (mdX * ropeDy > ropeDx * mdY) then
begin
dec(RopePoints.Count);
Gear^.X := tx;
Gear^.Y := ty;
// oops, opposite quadrant, don't restore hog position in such case, just remove the point
wrongSide:= (ropeDx.isNegative = RopePoints.ar[RopePoints.Count].sx)
and (ropeDy.isNegative = RopePoints.ar[RopePoints.Count].sy);
// previous check could be inaccurate in vertical/horizontal rope positions,
// so perform this check also, even though odds are 1 to 415927 to hit this
if (not wrongSide)
and ((ropeDx.isNegative = RopePoints.ar[RopePoints.Count].sx)
<> (ropeDy.isNegative = RopePoints.ar[RopePoints.Count].sy)) then
if RopePoints.ar[RopePoints.Count].sb then
wrongSide:= ropeDy.isNegative = RopePoints.ar[RopePoints.Count].sy
else
wrongSide:= ropeDx.isNegative = RopePoints.ar[RopePoints.Count].sx;
if wrongSide then
begin
Gear^.Elasticity := Gear^.Elasticity - RopePoints.ar[RopePoints.Count].dLen;
Gear^.Friction := Gear^.Friction - RopePoints.ar[RopePoints.Count].dLen;
end else
begin
Gear^.Elasticity := Gear^.Elasticity + RopePoints.ar[RopePoints.Count].dLen;
Gear^.Friction := Gear^.Friction + RopePoints.ar[RopePoints.Count].dLen;
// restore hog position
len := _1 / Distance(mdX, mdY);
mdX := mdX * len;
mdY := mdY * len;
HHGear^.X := Gear^.X - mdX * Gear^.Elasticity;
HHGear^.Y := Gear^.Y - mdY * Gear^.Elasticity;
end;
end
end;
haveCollision := false;
if TestCollisionXwithXYShift(HHGear, _2*hwSign(HHGear^.dX), 0, hwSign(HHGear^.dX), true) <> 0 then
begin
HHGear^.dX := -_0_6 * HHGear^.dX;
haveCollision := true
end;
if TestCollisionYwithXYShift(HHGear, 0, 1*hwSign(HHGear^.dY), hwSign(HHGear^.dY)) <> 0 then
begin
HHGear^.dY := -_0_6 * HHGear^.dY;
haveCollision := true
end;
if haveCollision and (Gear^.Message and (gmLeft or gmRight) <> 0) and (Gear^.Message and (gmUp or gmDown) <> 0) then
begin
HHGear^.dX := SignAs(hwAbs(HHGear^.dX) + _0_8, HHGear^.dX);
HHGear^.dY := SignAs(hwAbs(HHGear^.dY) + _0_8, HHGear^.dY)
end;
len := hwSqr(HHGear^.dX) + hwSqr(HHGear^.dY);
if len > _10 then
begin
len := _3_2 / hwSqrt(len);
HHGear^.dX := HHGear^.dX * len;
HHGear^.dY := HHGear^.dY * len;
end;
haveCollision:= ((hwRound(Gear^.Y) and LAND_HEIGHT_MASK) = 0) and ((hwRound(Gear^.X) and LAND_WIDTH_MASK) = 0) and ((Land[hwRound(Gear^.Y), hwRound(Gear^.X)]) <> 0);
if not haveCollision then
begin
// backup gear location
tx:= Gear^.X;
ty:= Gear^.Y;
if RopePoints.Count > 0 then
begin
// set gear location to the remote end of the rope, the attachment point
Gear^.X:= RopePoints.ar[0].X;
Gear^.Y:= RopePoints.ar[0].Y;
end;
CheckCollision(Gear);
// if we haven't found any collision yet then check the other side too
if (Gear^.State and gstCollision) = 0 then
begin
Gear^.dX.isNegative:= not Gear^.dX.isNegative;
Gear^.dY.isNegative:= not Gear^.dY.isNegative;
CheckCollision(Gear);
Gear^.dX.isNegative:= not Gear^.dX.isNegative;
Gear^.dY.isNegative:= not Gear^.dY.isNegative;
end;
haveCollision:= (Gear^.State and gstCollision) <> 0;
// restore gear location
Gear^.X:= tx;
Gear^.Y:= ty;
end;
// if the attack key is pressed, lose rope contact as well
if (Gear^.Message and gmAttack) <> 0 then
haveCollision:= false;
HHGear^.dX.QWordValue:= HHGear^.dX.QWordValue shr 2;
HHGear^.dY.QWordValue:= HHGear^.dY.QWordValue shr 2;
if (not haveCollision) and ((Gear^.State and gsttmpFlag) <> 0) then
begin
begin
PlaySound(sndRopeRelease);
if Gear^.Hedgehog^.CurAmmoType <> amParachute then
RopeWaitCollision(Gear, HHGear)
else
RopeDeleteMe(Gear, HHGear)
end
end
else
if (Gear^.State and gsttmpFlag) = 0 then
Gear^.State := Gear^.State or gsttmpFlag;
end;
procedure RopeRemoveFromAmmo(Gear, HHGear: PGear);
begin
if (Gear^.State and gstAttacked) = 0 then
begin
OnUsedAmmo(HHGear^.Hedgehog^);
Gear^.State := Gear^.State or gstAttacked
end;
ApplyAmmoChanges(HHGear^.Hedgehog^)
end;
procedure doStepRopeAttach(Gear: PGear);
var
HHGear: PGear;
tx, ty, tt: hwFloat;
begin
Gear^.X := Gear^.X - Gear^.dX;
Gear^.Y := Gear^.Y - Gear^.dY;
Gear^.Elasticity := Gear^.Elasticity + _1;
HHGear := Gear^.Hedgehog^.Gear;
DeleteCI(HHGear);
if (HHGear^.State and gstMoving) <> 0 then
begin
if TestCollisionXwithGear(HHGear, hwSign(HHGear^.dX)) <> 0 then
SetLittle(HHGear^.dX);
if HHGear^.dY.isNegative and (TestCollisionYwithGear(HHGear, -1) <> 0) then
HHGear^.dY := _0;
HHGear^.X := HHGear^.X + HHGear^.dX;
Gear^.X := Gear^.X + HHGear^.dX;
if TestCollisionYwithGear(HHGear, 1) <> 0 then
begin
CheckHHDamage(HHGear);
HHGear^.dY := _0
//HHGear^.State:= HHGear^.State and (not (gstHHJumping or gstHHHJump));
end
else
begin
HHGear^.Y := HHGear^.Y + HHGear^.dY;
Gear^.Y := Gear^.Y + HHGear^.dY;
HHGear^.dY := HHGear^.dY + cGravity;
if (GameFlags and gfMoreWind) <> 0 then
HHGear^.dX := HHGear^.dX + cWindSpeed / HHGear^.Density
end;
tt := Gear^.Elasticity;
tx := _0;
ty := _0;
while tt > _20 do
begin
if ((hwRound(Gear^.Y+ty) and LAND_HEIGHT_MASK) = 0) and ((hwRound(Gear^.X+tx) and LAND_WIDTH_MASK) = 0) and (Land[hwRound(Gear^.Y+ty), hwRound(Gear^.X+tx)] > lfAllObjMask) then
begin
Gear^.X := Gear^.X + tx;
Gear^.Y := Gear^.Y + ty;
Gear^.Elasticity := tt;
Gear^.doStep := @doStepRopeWork;
PlaySound(sndRopeAttach);
with HHGear^ do
begin
State := State and (not (gstAttacking or gstHHJumping or gstHHHJump));
Message := Message and (not gmAttack)
end;
RopeRemoveFromAmmo(Gear, HHGear);
tt := _0;
exit
end;
tx := tx + Gear^.dX + Gear^.dX;
ty := ty + Gear^.dY + Gear^.dY;
tt := tt - _2;
end;
end;
if Gear^.Elasticity < _20 then Gear^.CollisionMask:= lfLandMask
else Gear^.CollisionMask:= lfNotCurrentMask;
CheckCollision(Gear);
if (Gear^.State and gstCollision) <> 0 then
if Gear^.Elasticity < _10 then
Gear^.Elasticity := _10000
else
begin
Gear^.doStep := @doStepRopeWork;
PlaySound(sndRopeAttach);
with HHGear^ do
begin
State := State and (not (gstAttacking or gstHHJumping or gstHHHJump));
Message := Message and (not gmAttack)
end;
RopeRemoveFromAmmo(Gear, HHGear);
exit
end;
if (Gear^.Elasticity > Gear^.Friction)
or ((Gear^.Message and gmAttack) = 0)
or ((HHGear^.State and gstHHDriven) = 0)
or (HHGear^.Damage > 0) then
begin
with Gear^.Hedgehog^.Gear^ do
begin
State := State and (not gstAttacking);
Message := Message and (not gmAttack)
end;
DeleteGear(Gear);
exit;
end;
if CheckGearDrowning(HHGear) then DeleteGear(Gear)
end;
procedure doStepRope(Gear: PGear);
begin
Gear^.dX := - Gear^.dX;
Gear^.dY := - Gear^.dY;
Gear^.doStep := @doStepRopeAttach;
PlaySound(sndRopeShot)
end;
end.