205 lines
4.7 KiB
Plaintext
205 lines
4.7 KiB
Plaintext
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{ Copyright (c) 1989,90 by Borland International, Inc. }
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unit Walls;
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{ Turbo Pascal 6.0 object-oriented example.
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See BREAKOUT.PAS.
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This unit defines the Wall object type.
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It's a fairly complex object, because it plays such a
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pivotal role in the game.
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}
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interface
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uses Screen, Bricks, Bounds, Crt;
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type
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BrickPtr = ^Brick;
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BW = array[1..1000] of Brick;
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WallPtr = ^BW;
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Wall = object(Obstacle)
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BrickWall : WallPtr;
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Height : Integer;
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NumLeft : Integer;
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Value : Integer;
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NCells : Integer;
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constructor Init(InitX, InitY, InitWidth, InitHeight : Integer);
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destructor Done; virtual;
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procedure Show; virtual;
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procedure Hide; virtual;
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function Collide(var B : Ball) : Boolean; virtual;
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function GetValue : Integer; virtual;
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procedure Reset;
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end;
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implementation
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function RandomColor(MaxColors : Integer) : Integer;
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var
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C : Integer;
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begin
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C := Random(MaxColors);
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while C = (TextAttr SHR 4) do
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C := Random(MaxColors);
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RandomColor := C;
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end;
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procedure Beep;
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begin
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Sound(100);
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Delay(20);
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NoSound;
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end;
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{ A wall is an array of bricks. Its constructor actually builds a
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conformant array, so we don't have to hardcode the size of the
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wall. }
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constructor Wall.Init(InitX, InitY, InitWidth, InitHeight : Integer);
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begin
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Obstacle.Init(InitX, InitY, InitWidth, False);
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Height := InitHeight;
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NCells := Width*5;
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GetMem(BrickWall, Width*Height*SizeOf(Brick));
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Reset;
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end;
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destructor Wall.Done;
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begin
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FreeMem(BrickWall, Width*Height*SizeOf(Block));
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end;
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{ This procedure could be made simpler, but you wouldn't get the slick
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effect you see when the wall is built. }
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procedure Wall.Show;
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var
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CurCol : Integer;
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Count : Integer;
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CurBlock : Integer;
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begin
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Visible := True;
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NumLeft := Width*Height;
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for CurCol := 1 to Width + Height - 1 do
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for Count := 0 to Height - 1 do
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begin
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CurBlock := CurCol + Count*(Width-1);
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if (CurCol - Count >= 1) and (CurCol - Count <= Width) then
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begin
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BrickWall^[CurBlock].Show;
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Delay(5);
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end;
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end;
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GoToXY(X + (5*Width DIV 2) - 7, Y);
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TextColor(WHITE);
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Write('Turbo Breakout');
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end;
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procedure Wall.Hide;
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var
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CurCol : Integer;
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Count : Integer;
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CurBlock : Integer;
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begin
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Visible := False;
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for CurCol := 1 to Width + Height - 1 do
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for Count := 0 to Height - 1 do
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begin
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CurBlock := CurCol + Count*(Width-1);
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if (CurCol - Count >= 1) and (CurCol - Count <= Width) then
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begin
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if BrickWall^[CurBlock].IsVisible then
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begin
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BrickWall^[CurBlock].Hide;
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Delay(5);
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end;
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end;
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end;
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end;
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function Wall.Collide(var B : Ball) : Boolean;
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var
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CollideV, CollideH : Boolean;
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{ To check for a collision with a brick, first we check if the ball is in
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the area where the wall is located, then we see if there's a brick that's
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still visible at the ball's position. If so, we destroy the brick, grab
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its value, and beep. }
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function CheckCollide(XPos, YPos : Integer) : Boolean;
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var
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ThisBrick : BrickPtr;
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begin
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CheckCollide := False;
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if (YPos < Y) or (YPos > Y + Height - 1) or
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(XPos < X) or (XPos > X + NCells - 1) then
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Exit;
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ThisBrick := @BrickWall^[1 + ((XPos-1) DIV 5) + Width*(YPos - 1)];
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if ThisBrick^.IsVisible then
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begin
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CheckCollide := True;
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Inc(Value, ThisBrick^.GetValue);
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ThisBrick^.Hide;
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Dec(NumLeft);
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Beep;
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if NumLeft = 0 then
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Show;
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end
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end;
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{ When checking for a collision with the wall, we have to watch out
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for special cases involving corners. }
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begin
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Collide := False;
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Value := 0;
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CollideV := CheckCollide(B.X, B.NextY);
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CollideH := CheckCollide(B.NextX, B.Y);
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if CollideV then
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begin
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Collide := True;
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B.ReverseY;
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end;
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if CollideH then
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begin
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Collide := True;
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B.ReverseX;
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end;
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if not CollideV and not CollideH then
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if CheckCollide(B.NextX, B.NextY) then
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begin
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Collide := True;
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B.ReverseX;
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B.ReverseY;
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end;
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end;
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function Wall.GetValue : Integer;
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begin
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GetValue := Value;
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end;
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procedure Wall.Reset;
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var
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CurRow : Integer;
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CurCol : Integer;
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MaxColors : Integer;
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begin
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if LastMode = Mono then
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MaxColors := 4
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else
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MaxColors := 16;
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NumLeft := Width*Height;
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for CurRow := 0 to Height - 1 do
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for CurCol := 0 to Width - 1 do
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BrickWall^[CurRow*Width+CurCol+1].Init(X + CurCol*5,
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Y + CurRow,
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RandomColor(MaxColors),
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Height - Y - CurRow + 1);
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if Visible then
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Show;
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end;
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end.
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