Make hogs thaw only on enemy turns, make timebox counter decrement only on your turn, adjust knock for frozen hogs, increase damage on frozen hogs, make freezer fuel only reduce when not adjusting angle.
(*
* Hedgewars, a free turn based strategy game
* Copyright (c) 2004-2012 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 uGearsUtils;
interface
uses uTypes;
procedure doMakeExplosion(X, Y, Radius: LongInt; AttackingHog: PHedgehog; Mask: Longword); inline;
procedure doMakeExplosion(X, Y, Radius: LongInt; AttackingHog: PHedgehog; Mask: Longword; const Tint: LongWord);
function ModifyDamage(dmg: Longword; Gear: PGear): Longword;
procedure ApplyDamage(Gear: PGear; AttackerHog: PHedgehog; Damage: Longword; Source: TDamageSource);
procedure spawnHealthTagForHH(HHGear: PGear; dmg: Longword);
procedure HHHurt(Hedgehog: PHedgehog; Source: TDamageSource);
procedure CheckHHDamage(Gear: PGear);
procedure CalcRotationDirAngle(Gear: PGear);
procedure ResurrectHedgehog(gear: PGear);
procedure FindPlace(var Gear: PGear; withFall: boolean; Left, Right: LongInt); inline;
procedure FindPlace(var Gear: PGear; withFall: boolean; Left, Right: LongInt; skipProximity: boolean);
function CheckGearNear(Gear: PGear; Kind: TGearType; rX, rY: LongInt): PGear;
function CheckGearDrowning(Gear: PGear): boolean;
procedure CheckCollision(Gear: PGear); inline;
procedure CheckCollisionWithLand(Gear: PGear); inline;
function MakeHedgehogsStep(Gear: PGear) : boolean;
var doStepHandlers: array[TGearType] of TGearStepProcedure;
implementation
uses uFloat, uSound, uCollisions, uUtils, uConsts, uVisualGears, uAIMisc,
uVariables, uLandGraphics, uScript, uStats, uCaptions, uTeams, uStore,
uLocale, uTextures, uRenderUtils, uRandom, SDLh, uDebug, uGears,
uGearsList, Math;
procedure doMakeExplosion(X, Y, Radius: LongInt; AttackingHog: PHedgehog; Mask: Longword); inline;
begin
doMakeExplosion(X, Y, Radius, AttackingHog, Mask, $FFFFFFFF);
end;
procedure doMakeExplosion(X, Y, Radius: LongInt; AttackingHog: PHedgehog; Mask: Longword; const Tint: LongWord);
var Gear: PGear;
dmg, dmgBase: LongInt;
fX, fY, tdX, tdY: hwFloat;
vg: PVisualGear;
i, cnt: LongInt;
begin
if Radius > 4 then AddFileLog('Explosion: at (' + inttostr(x) + ',' + inttostr(y) + ')');
if Radius > 25 then KickFlakes(Radius, X, Y);
if ((Mask and EXPLNoGfx) = 0) then
begin
vg:= nil;
if Radius > 50 then vg:= AddVisualGear(X, Y, vgtBigExplosion)
else if Radius > 10 then vg:= AddVisualGear(X, Y, vgtExplosion);
if vg <> nil then
vg^.Tint:= Tint;
end;
if (Mask and EXPLAutoSound) <> 0 then PlaySound(sndExplosion);
(*if (Mask and EXPLAllDamageInRadius) = 0 then
dmgRadius:= Radius shl 1
else
dmgRadius:= Radius;
dmgBase:= dmgRadius + cHHRadius div 2;*)
dmgBase:= Radius shl 1 + cHHRadius div 2;
fX:= int2hwFloat(X);
fY:= int2hwFloat(Y);
Gear:= GearsList;
while Gear <> nil do
begin
dmg:= 0;
//dmg:= dmgRadius + cHHRadius div 2 - hwRound(Distance(Gear^.X - int2hwFloat(X), Gear^.Y - int2hwFloat(Y)));
//if (dmg > 1) and
if (Gear^.State and gstNoDamage) = 0 then
begin
case Gear^.Kind of
gtHedgehog,
gtMine,
gtBall,
gtMelonPiece,
gtGrenade,
gtClusterBomb,
// gtCluster, too game breaking I think
gtSMine,
gtCase,
gtTarget,
gtFlame,
gtKnife,
gtExplosives: begin //,
//gtStructure: begin
// Run the calcs only once we know we have a type that will need damage
tdX:= Gear^.X-fX;
tdY:= Gear^.Y-fY;
if LongInt(tdX.Round + tdY.Round + 2) < dmgBase then
dmg:= dmgBase - hwRound(Distance(tdX, tdY));
if dmg > 1 then
begin
dmg:= ModifyDamage(min(dmg div 2, Radius), Gear);
//AddFileLog('Damage: ' + inttostr(dmg));
if (Mask and EXPLNoDamage) = 0 then
begin
if not Gear^.Invulnerable then
ApplyDamage(Gear, AttackingHog, dmg, dsExplosion)
else
Gear^.State:= Gear^.State or gstWinner;
end;
if ((Mask and EXPLDoNotTouchAny) = 0) and (((Mask and EXPLDoNotTouchHH) = 0) or (Gear^.Kind <> gtHedgehog)) then
begin
DeleteCI(Gear);
Gear^.dX:= Gear^.dX + SignAs(_0_005 * dmg + cHHKick, tdX)/(Gear^.Density/_3);
Gear^.dY:= Gear^.dY + SignAs(_0_005 * dmg + cHHKick, tdY)/(Gear^.Density/_3);
Gear^.State:= (Gear^.State or gstMoving) and (not gstLoser);
if Gear^.Kind = gtKnife then Gear^.State:= Gear^.State and (not gstCollision);
if not Gear^.Invulnerable then
Gear^.State:= (Gear^.State or gstMoving) and (not gstWinner);
Gear^.Active:= true;
if Gear^.Kind <> gtFlame then FollowGear:= Gear
end;
if ((Mask and EXPLPoisoned) <> 0) and (Gear^.Kind = gtHedgehog) and (not Gear^.Invulnerable) then
Gear^.Hedgehog^.Effects[hePoisoned] := 1;
end;
end;
gtGrave: begin
// Run the calcs only once we know we have a type that will need damage
tdX:= Gear^.X-fX;
tdY:= Gear^.Y-fY;
if LongInt(tdX.Round + tdY.Round + 2) < dmgBase then
dmg:= dmgBase - hwRound(Distance(tdX, tdY));
if dmg > 1 then
begin
dmg:= ModifyDamage(min(dmg div 2, Radius), Gear);
Gear^.dY:= - _0_004 * dmg;
Gear^.Active:= true
end
end;
end;
end;
Gear:= Gear^.NextGear
end;
if (Mask and EXPLDontDraw) = 0 then
if (GameFlags and gfSolidLand) = 0 then
begin
cnt:= DrawExplosion(X, Y, Radius) div 1608; // approx 2 16x16 circles to erase per chunk
if (cnt > 0) and (SpritesData[sprChunk].Texture <> nil) then
for i:= 0 to cnt do
AddVisualGear(X, Y, vgtChunk)
end;
uAIMisc.AwareOfExplosion(0, 0, 0)
end;
function ModifyDamage(dmg: Longword; Gear: PGear): Longword;
var i: hwFloat;
begin
(* Invulnerability cannot be placed in here due to still needing kicks
Not without a new damage machine.
King check should be in here instead of ApplyDamage since Tiy wants them kicked less
*)
i:= _1;
if (CurrentHedgehog <> nil) and CurrentHedgehog^.King then
i:= _1_5;
if (Gear^.Hedgehog <> nil) and (Gear^.Hedgehog^.King or (Gear^.Hedgehog^.Effects[heFrozen] > 0)) then
ModifyDamage:= hwRound(_0_01 * cDamageModifier * dmg * i * cDamagePercent * _0_5)
else
ModifyDamage:= hwRound(_0_01 * cDamageModifier * dmg * i * cDamagePercent)
end;
procedure ApplyDamage(Gear: PGear; AttackerHog: PHedgehog; Damage: Longword; Source: TDamageSource);
var s: shortstring;
vampDmg, tmpDmg, i: Longword;
vg: PVisualGear;
begin
if Damage = 0 then
exit; // nothing to apply
if (Gear^.Kind = gtHedgehog) then
begin
Gear^.LastDamage := AttackerHog;
Gear^.Hedgehog^.Team^.Clan^.Flawless:= false;
HHHurt(Gear^.Hedgehog, Source);
AddDamageTag(hwRound(Gear^.X), hwRound(Gear^.Y), Damage, Gear^.Hedgehog^.Team^.Clan^.Color);
tmpDmg:= min(Damage, max(0,Gear^.Health-Gear^.Damage));
if (Gear <> CurrentHedgehog^.Gear) and (CurrentHedgehog^.Gear <> nil) and (tmpDmg >= 1) then
begin
if cVampiric then
begin
vampDmg:= hwRound(int2hwFloat(tmpDmg)*_0_8);
if vampDmg >= 1 then
begin
// was considering pulsing on attack, Tiy thinks it should be permanent while in play
//CurrentHedgehog^.Gear^.State:= CurrentHedgehog^.Gear^.State or gstVampiric;
inc(CurrentHedgehog^.Gear^.Health,vampDmg);
str(vampDmg, s);
s:= '+' + s;
AddCaption(s, CurrentHedgehog^.Team^.Clan^.Color, capgrpAmmoinfo);
RenderHealth(CurrentHedgehog^);
RecountTeamHealth(CurrentHedgehog^.Team);
i:= 0;
while i < vampDmg do
begin
vg:= AddVisualGear(hwRound(CurrentHedgehog^.Gear^.X), hwRound(CurrentHedgehog^.Gear^.Y), vgtStraightShot);
if vg <> nil then
with vg^ do
begin
Tint:= $FF0000FF;
State:= ord(sprHealth)
end;
inc(i, 5);
end;
end
end;
if ((GameFlags and gfKarma) <> 0) and
((GameFlags and gfInvulnerable) = 0)
and (not CurrentHedgehog^.Gear^.Invulnerable) then
begin // this cannot just use Damage or it interrupts shotgun and gets you called stupid
inc(CurrentHedgehog^.Gear^.Karma, tmpDmg);
CurrentHedgehog^.Gear^.LastDamage := CurrentHedgehog;
spawnHealthTagForHH(CurrentHedgehog^.Gear, tmpDmg);
end;
uStats.HedgehogDamaged(Gear, AttackerHog, Damage, false);
end;
end else
//else if Gear^.Kind <> gtStructure then // not gtHedgehog nor gtStructure
Gear^.Hedgehog:= AttackerHog;
inc(Gear^.Damage, Damage);
ScriptCall('onGearDamage', Gear^.UID, Damage);
end;
procedure spawnHealthTagForHH(HHGear: PGear; dmg: Longword);
var tag: PVisualGear;
begin
tag:= AddVisualGear(hwRound(HHGear^.X), hwRound(HHGear^.Y), vgtHealthTag, dmg);
if (tag <> nil) then
tag^.Hedgehog:= HHGear^.Hedgehog; // the tag needs the tag to determine the text color
AllInactive:= false;
HHGear^.Active:= true;
end;
procedure HHHurt(Hedgehog: PHedgehog; Source: TDamageSource);
begin
if (Source = dsFall) or (Source = dsExplosion) then
case random(3) of
0: PlaySoundV(sndOoff1, Hedgehog^.Team^.voicepack);
1: PlaySoundV(sndOoff2, Hedgehog^.Team^.voicepack);
2: PlaySoundV(sndOoff3, Hedgehog^.Team^.voicepack);
end
else if (Source = dsPoison) then
case random(2) of
0: PlaySoundV(sndPoisonCough, Hedgehog^.Team^.voicepack);
1: PlaySoundV(sndPoisonMoan, Hedgehog^.Team^.voicepack);
end
else
case random(4) of
0: PlaySoundV(sndOw1, Hedgehog^.Team^.voicepack);
1: PlaySoundV(sndOw2, Hedgehog^.Team^.voicepack);
2: PlaySoundV(sndOw3, Hedgehog^.Team^.voicepack);
3: PlaySoundV(sndOw4, Hedgehog^.Team^.voicepack);
end
end;
procedure CheckHHDamage(Gear: PGear);
var
dmg: Longword;
i: LongWord;
particle: PVisualGear;
begin
if _0_4 < Gear^.dY then
begin
dmg := ModifyDamage(1 + hwRound((hwAbs(Gear^.dY) - _0_4) * 70), Gear);
PlaySound(sndBump);
if dmg < 1 then
exit;
for i:= min(12, (3 + dmg div 10)) downto 0 do
begin
particle := AddVisualGear(hwRound(Gear^.X) - 5 + Random(10), hwRound(Gear^.Y) + 12, vgtDust);
if particle <> nil then
particle^.dX := particle^.dX + (Gear^.dX.QWordValue / 21474836480);
end;
if (Gear^.Invulnerable) then
exit;
//if _0_6 < Gear^.dY then
// PlaySound(sndOw4, Gear^.Hedgehog^.Team^.voicepack)
//else
// PlaySound(sndOw1, Gear^.Hedgehog^.Team^.voicepack);
if Gear^.LastDamage <> nil then
ApplyDamage(Gear, Gear^.LastDamage, dmg, dsFall)
else
ApplyDamage(Gear, CurrentHedgehog, dmg, dsFall);
end
end;
procedure CalcRotationDirAngle(Gear: PGear);
var
dAngle: real;
begin
// Frac/Round to be kind to JS as of 2012-08-27 where there is yet no int64/uint64
//dAngle := (Gear^.dX.QWordValue + Gear^.dY.QWordValue) / $80000000;
dAngle := (Gear^.dX.Round + Gear^.dY.Round) / 2 + (Gear^.dX.Frac/$100000000+Gear^.dY.Frac/$100000000);
if not Gear^.dX.isNegative then
Gear^.DirAngle := Gear^.DirAngle + dAngle
else
Gear^.DirAngle := Gear^.DirAngle - dAngle;
if Gear^.DirAngle < 0 then
Gear^.DirAngle := Gear^.DirAngle + 360
else if 360 < Gear^.DirAngle then
Gear^.DirAngle := Gear^.DirAngle - 360
end;
function CheckGearDrowning(Gear: PGear): boolean;
var
skipSpeed, skipAngle, skipDecay: hwFloat;
i, maxDrops, X, Y: LongInt;
vdX, vdY: real;
particle, splash: PVisualGear;
isSubmersible: boolean;
begin
// probably needs tweaking. might need to be in a case statement based upon gear type
Y:= hwRound(Gear^.Y);
if cWaterLine < Y + Gear^.Radius then
begin
if Gear^.State and gstInvisible <> 0 then
begin
if Gear^.Kind = gtGenericFaller then
begin
Gear^.X:= int2hwFloat(GetRandom(rightX-leftX)+leftX);
Gear^.Y:= int2hwFloat(GetRandom(LAND_HEIGHT-topY)+topY);
Gear^.dX:= _90-(GetRandomf*_360);
Gear^.dY:= _90-(GetRandomf*_360)
end
else DeleteGear(Gear);
exit
end;
isSubmersible:= (Gear = CurrentHedgehog^.Gear) and (CurAmmoGear <> nil) and (CurAmmoGear^.AmmoType = amJetpack);
skipSpeed := _0_25;
skipAngle := _1_9;
skipDecay := _0_87;
X:= hwRound(Gear^.X);
vdX:= hwFloat2Float(Gear^.dX);
vdY:= hwFloat2Float(Gear^.dY);
// this could perhaps be a tiny bit higher.
if (hwSqr(Gear^.dX) + hwSqr(Gear^.dY) > skipSpeed)
and (hwAbs(Gear^.dX) > skipAngle * hwAbs(Gear^.dY)) then
begin
Gear^.dY.isNegative := true;
Gear^.dY := Gear^.dY * skipDecay;
Gear^.dX := Gear^.dX * skipDecay;
CheckGearDrowning := false;
PlaySound(sndSkip)
end
else
begin
if not isSubmersible then
begin
CheckGearDrowning := true;
Gear^.State := gstDrowning;
Gear^.RenderTimer := false;
if (Gear^.Kind <> gtSniperRifleShot) and (Gear^.Kind <> gtShotgunShot)
and (Gear^.Kind <> gtDEagleShot) and (Gear^.Kind <> gtSineGunShot) then
if Gear^.Kind = gtHedgehog then
begin
if Gear^.Hedgehog^.Effects[heResurrectable] <> 0 then
ResurrectHedgehog(Gear)
else
begin
Gear^.doStep := @doStepDrowningGear;
Gear^.State := Gear^.State and (not gstHHDriven);
AddCaption(Format(GetEventString(eidDrowned), Gear^.Hedgehog^.Name), cWhiteColor, capgrpMessage);
end
end
else
Gear^.doStep := @doStepDrowningGear;
if Gear^.Kind = gtFlake then
exit // skip splashes
end;
if ((not isSubmersible) and (Y < cWaterLine + 64 + Gear^.Radius))
or (isSubmersible and (Y < cWaterLine + 2 + Gear^.Radius) and ((CurAmmoGear^.Pos = 0)
and (CurAmmoGear^.dY < _0_01))) then
if Gear^.Density * Gear^.dY > _1 then
PlaySound(sndSplash)
else if Gear^.Density * Gear^.dY > _0_5 then
PlaySound(sndSkip)
else
PlaySound(sndDroplet2);
end;
if ((cReducedQuality and rqPlainSplash) = 0)
and (((not isSubmersible) and (Y < cWaterLine + 64 + Gear^.Radius))
or (isSubmersible and (Y < cWaterLine + 2 + Gear^.Radius) and ((CurAmmoGear^.Pos = 0)
and (CurAmmoGear^.dY < _0_01)))) then
begin
splash:= AddVisualGear(X, cWaterLine, vgtSplash);
if splash <> nil then
with splash^ do
begin
Scale:= hwFloat2Float(Gear^.Density / _3 * Gear^.dY);
if Scale > 1 then Scale:= power(Scale,0.3333)
else Scale:= Scale + ((1-Scale) / 2);
if Scale > 1 then Timer:= round(min(Scale*0.0005/cGravityf,4))
else Timer:= 1;
// Low Gravity
FrameTicks:= FrameTicks*Timer;
end;
maxDrops := (hwRound(Gear^.Density) * 3) div 2 + round(vdX * hwRound(Gear^.Density) * 6) + round(vdY * hwRound(Gear^.Density) * 6);
for i:= max(maxDrops div 3, min(32, Random(maxDrops))) downto 0 do
begin
particle := AddVisualGear(X - 3 + Random(7), cWaterLine, vgtDroplet);
if particle <> nil then
with particle^ do
begin
dX := dX - vdX / 10;
dY := dY - vdY / 5;
if splash <> nil then
begin
if splash^.Scale > 1 then
begin
dX:= dX * power(splash^.Scale,0.3333); // tone down the droplet height further
dY:= dY * power(splash^.Scale, 0.3333)
end
else
begin
dX:= dX * splash^.Scale;
dY:= dY * splash^.Scale
end
end
end
end
end;
if isSubmersible and (CurAmmoGear^.Pos = 0) then
CurAmmoGear^.Pos := 1000
end
else
CheckGearDrowning := false;
end;
procedure ResurrectHedgehog(gear: PGear);
var tempTeam : PTeam;
sparkles: PVisualGear;
gX, gY: LongInt;
begin
if (Gear^.LastDamage <> nil) then
uStats.HedgehogDamaged(Gear, Gear^.LastDamage, 0, true)
else
uStats.HedgehogDamaged(Gear, CurrentHedgehog, 0, true);
AttackBar:= 0;
gear^.dX := _0;
gear^.dY := _0;
gear^.Damage := 0;
gear^.Health := gear^.Hedgehog^.InitialHealth;
gear^.Hedgehog^.Effects[hePoisoned] := 0;
if (CurrentHedgehog^.Effects[heResurrectable] = 0) or ((CurrentHedgehog^.Effects[heResurrectable] <> 0)
and (Gear^.Hedgehog^.Team^.Clan <> CurrentHedgehog^.Team^.Clan)) then
with CurrentHedgehog^ do
begin
inc(Team^.stats.AIKills);
FreeTexture(Team^.AIKillsTex);
Team^.AIKillsTex := RenderStringTex(inttostr(Team^.stats.AIKills), Team^.Clan^.Color, fnt16);
end;
tempTeam := gear^.Hedgehog^.Team;
DeleteCI(gear);
gX := hwRound(gear^.X);
gY := hwRound(gear^.Y);
// might need more sparkles for a column
sparkles:= AddVisualGear(gX, gY, vgtDust, 1);
if sparkles <> nil then
begin
sparkles^.Tint:= tempTeam^.Clan^.Color shl 8 or $FF;
//sparkles^.Angle:= random(360);
end;
FindPlace(gear, false, 0, LAND_WIDTH, true);
if gear <> nil then
begin
AddVisualGear(hwRound(gear^.X), hwRound(gear^.Y), vgtExplosion);
PlaySound(sndWarp);
RenderHealth(gear^.Hedgehog^);
ScriptCall('onGearResurrect', gear^.uid);
gear^.State := gstWait;
end;
RecountTeamHealth(tempTeam);
end;
function CountNonZeroz(x, y, r, c: LongInt; mask: LongWord): LongInt;
var i: LongInt;
count: LongInt = 0;
begin
if (y and LAND_HEIGHT_MASK) = 0 then
for i:= max(x - r, 0) to min(x + r, LAND_WIDTH - 4) do
if Land[y, i] and mask <> 0 then
begin
inc(count);
if count = c then
begin
CountNonZeroz:= count;
exit
end;
end;
CountNonZeroz:= count;
end;
function NoGearsToAvoid(mX, mY: LongInt; rX, rY: LongInt): boolean;
var t: PGear;
begin
NoGearsToAvoid:= false;
t:= GearsList;
rX:= sqr(rX);
rY:= sqr(rY);
while t <> nil do
begin
if t^.Kind <= gtExplosives then
if not (hwSqr(int2hwFloat(mX) - t^.X) / rX + hwSqr(int2hwFloat(mY) - t^.Y) / rY > _1) then
exit;
t:= t^.NextGear
end;
NoGearsToAvoid:= true
end;
procedure FindPlace(var Gear: PGear; withFall: boolean; Left, Right: LongInt); inline;
begin
FindPlace(Gear, withFall, Left, Right, false);
end;
procedure FindPlace(var Gear: PGear; withFall: boolean; Left, Right: LongInt; skipProximity: boolean);
var x: LongInt;
y, sy: LongInt;
ar: array[0..1023] of TPoint;
ar2: array[0..2047] of TPoint;
cnt, cnt2: Longword;
delta: LongInt;
ignoreNearObjects, ignoreOverlap, tryAgain: boolean;
begin
ignoreNearObjects:= false; // try not skipping proximity at first
ignoreOverlap:= false; // this not only skips proximity, but allows overlapping objects (barrels, mines, hogs, crates). Saving it for a 3rd pass. With this active, winning AI Survival goes back to virtual impossibility
tryAgain:= true;
while tryAgain do
begin
delta:= LAND_WIDTH div 16;
cnt2:= 0;
repeat
x:= Left + max(LAND_WIDTH div 2048, LongInt(GetRandom(Delta)));
repeat
inc(x, Delta);
cnt:= 0;
y:= min(1024, topY) - 2 * Gear^.Radius;
while y < cWaterLine do
begin
repeat
inc(y, 2);
until (y >= cWaterLine) or
(not ignoreOverlap and (CountNonZeroz(x, y, Gear^.Radius - 1, 1, $FFFF) = 0)) or
(ignoreOverlap and (CountNonZeroz(x, y, Gear^.Radius - 1, 1, $FF00) = 0));
sy:= y;
repeat
inc(y);
until (y >= cWaterLine) or
(not ignoreOverlap and (CountNonZeroz(x, y, Gear^.Radius - 1, 1, $FFFF) <> 0)) or
(ignoreOverlap and (CountNonZeroz(x, y, Gear^.Radius - 1, 1, $FF00) <> 0));
if (y - sy > Gear^.Radius * 2)
and (((Gear^.Kind = gtExplosives)
and (y < cWaterLine)
and (ignoreNearObjects or NoGearsToAvoid(x, y - Gear^.Radius, 60, 60))
and (CountNonZeroz(x, y+1, Gear^.Radius - 1, Gear^.Radius+1, $FFFF) > Gear^.Radius))
or
((Gear^.Kind <> gtExplosives)
and (y < cWaterLine)
and (ignoreNearObjects or NoGearsToAvoid(x, y - Gear^.Radius, 110, 110))
)) then
begin
ar[cnt].X:= x;
if withFall then
ar[cnt].Y:= sy + Gear^.Radius
else
ar[cnt].Y:= y - Gear^.Radius;
inc(cnt)
end;
inc(y, 10)
end;
if cnt > 0 then
with ar[GetRandom(cnt)] do
begin
ar2[cnt2].x:= x;
ar2[cnt2].y:= y;
inc(cnt2)
end
until (x + Delta > Right);
dec(Delta, 60)
until (cnt2 > 0) or (Delta < 70);
// if either of these has not been tried, do another pass
if (cnt2 = 0) and skipProximity and (not ignoreOverlap) then
tryAgain:= true
else tryAgain:= false;
if ignoreNearObjects then ignoreOverlap:= true;
ignoreNearObjects:= true;
end;
if cnt2 > 0 then
with ar2[GetRandom(cnt2)] do
begin
Gear^.X:= int2hwFloat(x);
Gear^.Y:= int2hwFloat(y);
AddFileLog('Assigned Gear coordinates (' + inttostr(x) + ',' + inttostr(y) + ')');
end
else
begin
OutError('Can''t find place for Gear', false);
if Gear^.Kind = gtHedgehog then
Gear^.Hedgehog^.Effects[heResurrectable] := 0;
DeleteGear(Gear);
Gear:= nil
end
end;
function CheckGearNear(Gear: PGear; Kind: TGearType; rX, rY: LongInt): PGear;
var t: PGear;
begin
t:= GearsList;
rX:= sqr(rX);
rY:= sqr(rY);
while t <> nil do
begin
if (t <> Gear) and (t^.Kind = Kind) then
if not((hwSqr(Gear^.X - t^.X) / rX + hwSqr(Gear^.Y - t^.Y) / rY) > _1) then
begin
CheckGearNear:= t;
exit;
end;
t:= t^.NextGear
end;
CheckGearNear:= nil
end;
procedure CheckCollision(Gear: PGear); inline;
begin
if TestCollisionXwithGear(Gear, hwSign(Gear^.dX))
or (TestCollisionYwithGear(Gear, hwSign(Gear^.dY)) <> 0) then
Gear^.State := Gear^.State or gstCollision
else
Gear^.State := Gear^.State and (not gstCollision)
end;
procedure CheckCollisionWithLand(Gear: PGear); inline;
begin
if TestCollisionX(Gear, hwSign(Gear^.dX))
or TestCollisionY(Gear, hwSign(Gear^.dY)) then
Gear^.State := Gear^.State or gstCollision
else
Gear^.State := Gear^.State and (not gstCollision)
end;
function MakeHedgehogsStep(Gear: PGear) : boolean;
begin
if TestCollisionXwithGear(Gear, hwSign(Gear^.dX)) then if (TestCollisionYwithGear(Gear, -1) = 0) then
begin
Gear^.Y:= Gear^.Y - _1;
if TestCollisionXwithGear(Gear, hwSign(Gear^.dX)) then if (TestCollisionYwithGear(Gear, -1) = 0) then
begin
Gear^.Y:= Gear^.Y - _1;
if TestCollisionXwithGear(Gear, hwSign(Gear^.dX)) then if (TestCollisionYwithGear(Gear, -1) = 0) then
begin
Gear^.Y:= Gear^.Y - _1;
if TestCollisionXwithGear(Gear, hwSign(Gear^.dX)) then if (TestCollisionYwithGear(Gear, -1) = 0) then
begin
Gear^.Y:= Gear^.Y - _1;
if TestCollisionXwithGear(Gear, hwSign(Gear^.dX)) then if (TestCollisionYwithGear(Gear, -1) = 0) then
begin
Gear^.Y:= Gear^.Y - _1;
if TestCollisionXwithGear(Gear, hwSign(Gear^.dX)) then if (TestCollisionYwithGear(Gear, -1) = 0) then
begin
Gear^.Y:= Gear^.Y - _1;
if TestCollisionXwithGear(Gear, hwSign(Gear^.dX)) then
Gear^.Y:= Gear^.Y + _6
end else Gear^.Y:= Gear^.Y + _5 else
end else Gear^.Y:= Gear^.Y + _4 else
end else Gear^.Y:= Gear^.Y + _3 else
end else Gear^.Y:= Gear^.Y + _2 else
end else Gear^.Y:= Gear^.Y + _1
end;
if not TestCollisionXwithGear(Gear, hwSign(Gear^.dX)) then
begin
Gear^.X:= Gear^.X + SignAs(_1, Gear^.dX);
MakeHedgehogsStep:= true
end else
MakeHedgehogsStep:= false;
if TestCollisionYwithGear(Gear, 1) = 0 then
begin
Gear^.Y:= Gear^.Y + _1;
if TestCollisionYwithGear(Gear, 1) = 0 then
begin
Gear^.Y:= Gear^.Y + _1;
if TestCollisionYwithGear(Gear, 1) = 0 then
begin
Gear^.Y:= Gear^.Y + _1;
if TestCollisionYwithGear(Gear, 1) = 0 then
begin
Gear^.Y:= Gear^.Y + _1;
if TestCollisionYwithGear(Gear, 1) = 0 then
begin
Gear^.Y:= Gear^.Y + _1;
if TestCollisionYwithGear(Gear, 1) = 0 then
begin
Gear^.Y:= Gear^.Y + _1;
if TestCollisionYwithGear(Gear, 1) = 0 then
begin
Gear^.Y:= Gear^.Y - _6;
Gear^.dY:= _0;
Gear^.State:= Gear^.State or gstMoving;
exit
end;
end
end
end
end
end
end;
end;
end.