一些关于点的函数
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unit Functs;
interface
uses
WinTypes, Classes, Graphics, SysUtils;
type
TPoint2D = record
X, Y: Real;
end;
TPoint3D = record
X, Y, Z: Real;
end;
function Point2D(X, Y: Real): TPoint2D;
function RoundPoint(P: TPoint2D): TPoint;
function FloatPoint(P: TPoint): TPoint2D;
function Point3D(X, Y, Z: Real): TPoint3D;
function Angle2D(P: TPoint2D): Real;
function Dist2D(P: TPoint2D): Real;
function Dist3D(P: TPoint3D): Real;
function RelAngle2D(PA, PB: TPoint2D): Real;
function RelDist2D(PA, PB: TPoint2D): Real;
function RelDist3D(PA, PB: TPoint3D): Real;
procedure Rotate2D(var P: TPoint2D; Angle2D: Real);
procedure RelRotate2D(var P: TPoint2D; PCentr: TPoint2D; Angle2D: Real);
procedure Move2D(var P: TPoint2D; Angle2D, Distance: Real);
function Between(PA, PB: TPoint2D; Preference: Real): TPoint2D;
function DistLine(A, B, C: Real; P: TPoint2D): Real;
function Dist2P(P, P1, P2: TPoint2D): Real;
function DistD1P(DX, DY: Real; P1, P: TPoint2D): Real;
function NearLine2P(P, P1, P2: TPoint2D; D: Real): Boolean;
function AddPoints(P1, P2: TPoint2D): TPoint2D;
function SubPoints(P1, P2: TPoint2D): TPoint2D;
function Invert(Col: TColor): TColor;
function Dark(Col: TColor; Percentage: Byte): TColor;
function Light(Col: TColor; Percentage: Byte): TColor;
function Mix(Col1, Col2: TColor; Percentage: Byte): TColor;
function MMix(Cols: array of TColor): TColor;
function Log(Base, Value: Real): Real;
function Modulator(Val, Max: Real): Real;
function M(I, J: Integer): Integer;
function Tan(Angle2D: Real): Real;
procedure Limit(var Value: Integer; Min, Max: Integer);
function Exp2(Exponent: Byte): Word;
function GetSysDir: String;
function GetWinDir: String;
implementation
function Point2D(X, Y: Real): TPoint2D;
begin
Point2D.X := X;
Point2D.Y := Y;
end;
function RoundPoint(P: TPoint2D): TPoint;
begin
RoundPoint.X := Round(P.X);
RoundPoint.Y := Round(P.Y);
end;
function FloatPoint(P: TPoint): TPoint2D;
begin
FloatPoint.X := P.X;
FloatPoint.Y := P.Y;
end;
function Point3D(X, Y, Z: Real): TPoint3D;
begin
Point3D.X := X;
Point3D.Y := Y;
Point3D.Z := Z;
end;
function Angle2D(P: TPoint2D): Real;
begin
if P.X = 0 then
begin
if P.Y > 0 then Result := Pi / 2;
if P.Y = 0 then Result := 0;
if P.Y < 0 then Result := Pi / -2;
end
else
Result := Arctan(P.Y / P.X);
if P.X < 0 then
begin
if P.Y < 0 then Result := Result + Pi;
if P.Y >= 0 then Result := Result - Pi;
end;
If Result < 0 then Result := Result + 2 * Pi;
end;
function Dist2D(P: TPoint2D): Real;
begin
Result := Sqrt(P.X * P.X + P.Y * P.Y);
end;
function Dist3D(P: TPoint3D): Real;
begin
Dist3d := Sqrt(P.X * P.X + P.Y * P.Y + P.Z * P.Z);
end;
function RelAngle2D(PA, PB: TPoint2D): Real;
begin
RelAngle2D := Angle2D(Point2D(PB.X - PA.X, PB.Y - PA.Y));
end;
function RelDist2D(PA, PB: TPoint2D): Real;
begin
Result := Dist2D(Point2D(PB.X - PA.X, PB.Y - PA.Y));
end;
function RelDist3D(PA, PB: TPoint3D): Real;
begin
RelDist3D := Dist3D(Point3D(PB.X - PA.X, PB.Y - PA.Y, PB.Z - PA.Z));
end;
procedure Rotate2D(var P: TPoint2D; Angle2D: Real);
var
Temp: TPoint2D;
begin
Temp.X := P.X * Cos(Angle2D) - P.Y * Sin(Angle2D);
Temp.Y := P.X * Sin(Angle2D) + P.Y * Cos(Angle2D);
P := Temp;
end;
procedure RelRotate2D(var P: TPoint2D; PCentr: TPoint2D; Angle2D: Real);
var
Temp: TPoint2D;
begin
Temp := SubPoints(P, PCentr);
Rotate2D(Temp, Angle2D);
P := AddPoints(Temp, PCentr);
end;
procedure Move2D(var P: TPoint2D; Angle2D, Distance: Real);
var
Temp: TPoint2D;
begin
Temp.X := P.X + (Cos(Angle2D) * Distance);
Temp.Y := P.Y + (Sin(Angle2D) * Distance);
P := Temp;
end;
function Between(PA, PB: TPoint2D; Preference: Real): TPoint2D;
begin
Between.X := PA.X * Preference + PB.X * (1 - Preference);
Between.Y := PA.Y * Preference + PB.Y * (1 - Preference);
end;
function DistLine(A, B, C: Real; P: TPoint2D): Real;
begin
Result := (A * P.X + B * P.Y + C) / Sqrt(Sqr(A) + Sqr(B));
end;
function Dist2P(P, P1, P2: TPoint2D): Real;
begin
Result := DistLine(P1.Y - P2.Y, P2.X - P1.X, -P1.Y * P2.X + P1.X * P2.Y, P);
end;
function DistD1P(DX, DY: Real; P1, P: TPoint2D): Real;
begin
Result := DistLine(DY, -DX, -DY * P1.X + DX * P1.Y, P);
end;
function NearLine2P(P, P1, P2: TPoint2D; D: Real): Boolean;
begin
Result := False;
if DistD1P(-(P2.Y - P1.Y), P2.X - P1.X, P1, P) * DistD1P(-(P2.Y - P1.Y), P2.X - P1.X, P2, P) <= 0 then
if Abs(Dist2P(P, P1, P2)) < D then Result := True;
end;
function AddPoints(P1, P2: TPoint2D): TPoint2D;
begin
AddPoints := Point2D(P1.X + P2.X, P1.Y + P2.Y);
end;
function SubPoints(P1, P2: TPoint2D): TPoint2D;
begin
SubPoints := Point2D(P1.X - P2.X, P1.Y - P2.Y);
end;
function Invert(Col: TColor): TColor;
begin
Invert := not Col;
end;
function Dark(Col: TColor; Percentage: Byte): TColor;
var
R, G, B: Byte;
begin
R := GetRValue(Col); G := GetGValue(Col); B := GetBValue(Col);
R := Round(R * Percentage / 100);
G := Round(G * Percentage / 100);
B := Round(B * Percentage / 100);
Dark := RGB(R, G, B);
end;
function Light(Col: TColor; Percentage: Byte): TColor;
var
R, G, B: Byte;
begin
R := GetRValue(Col); G := GetGValue(Col); B := GetBValue(Col);
R := Round(R * Percentage / 100) + Round(255 - Percentage / 100 * 255);
G := Round(G * Percentage / 100) + Round(255 - Percentage / 100 * 255);
B := Round(B * Percentage / 100) + Round(255 - Percentage / 100 * 255);
Light := RGB(R, G, B);
end;
function Mix(Col1, Col2: TColor; Percentage: Byte): TColor;
var
R, G, B: Byte;
begin
R := Round((GetRValue(Col1) * Percentage / 100) + (GetRValue(Col2) * (100 - Percentage) / 100));
G := Round((GetGValue(Col1) * Percentage / 100) + (GetGValue(Col2) * (100 - Percentage) / 100));
B := Round((GetBValue(Col1) * Percentage / 100) + (GetBValue(Col2) * (100 - Percentage) / 100));
Mix := RGB(R, G, B);
end;
function MMix(Cols: array of TColor): TColor;
var
I, R, G, B, Length: Integer;
begin
Length := High(Cols) - Low(Cols) + 1;
R := 0; G := 0; B := 0;
for I := Low(Cols) to High(Cols) do
begin
R := R + GetRValue(Cols[I]);
G := G + GetGValue(Cols[I]);
B := B + GetBValue(Cols[I]);
end;
R := R div Length;
G := G div Length;
B := B div Length;
MMix := RGB(R, G, B);
end;
function Log(Base, Value: Real): Real;
begin
Log := Ln(Value) / Ln(Base);
end;
function Power(Base, Exponent: Real): Real;
begin
Power := Ln(Base) * Exp(Exponent);
end;
function Modulator(Val, Max: Real): Real;
begin
Modulator := (Val / Max - Round(Val / Max)) * Max;
end;
function M(I, J: Integer): Integer;
begin
M := ((I mod J) + J) mod J;
end;
function Tan(Angle2D: Real): Real;
begin
Tan := Sin(Angle2D) / Cos(Angle2D);
end;
procedure Limit(var Value: Integer; Min, Max: Integer);
begin
if Value < Min then Value := Min;
if Value > Max then Value := Max;
end;
function Exp2(Exponent: Byte): Word;
var
Temp, I: Word;
begin
Temp := 1;
for I := 1 to Exponent do
Temp := Temp * 2;
Result := Temp;
end;
function GetSysDir: String;
var
Temp: array[0..255] of Char;
begin
GetSystemDirectory(Temp, 256);
Result := StrPas(Temp);
end;
function GetWinDir: String;
var
Temp: array[0..255] of Char;
begin
GetWindowsDirectory(Temp, 256);
Result := StrPas(Temp);
end;
end.
interface
uses
WinTypes, Classes, Graphics, SysUtils;
type
TPoint2D = record
X, Y: Real;
end;
TPoint3D = record
X, Y, Z: Real;
end;
function Point2D(X, Y: Real): TPoint2D;
function RoundPoint(P: TPoint2D): TPoint;
function FloatPoint(P: TPoint): TPoint2D;
function Point3D(X, Y, Z: Real): TPoint3D;
function Angle2D(P: TPoint2D): Real;
function Dist2D(P: TPoint2D): Real;
function Dist3D(P: TPoint3D): Real;
function RelAngle2D(PA, PB: TPoint2D): Real;
function RelDist2D(PA, PB: TPoint2D): Real;
function RelDist3D(PA, PB: TPoint3D): Real;
procedure Rotate2D(var P: TPoint2D; Angle2D: Real);
procedure RelRotate2D(var P: TPoint2D; PCentr: TPoint2D; Angle2D: Real);
procedure Move2D(var P: TPoint2D; Angle2D, Distance: Real);
function Between(PA, PB: TPoint2D; Preference: Real): TPoint2D;
function DistLine(A, B, C: Real; P: TPoint2D): Real;
function Dist2P(P, P1, P2: TPoint2D): Real;
function DistD1P(DX, DY: Real; P1, P: TPoint2D): Real;
function NearLine2P(P, P1, P2: TPoint2D; D: Real): Boolean;
function AddPoints(P1, P2: TPoint2D): TPoint2D;
function SubPoints(P1, P2: TPoint2D): TPoint2D;
function Invert(Col: TColor): TColor;
function Dark(Col: TColor; Percentage: Byte): TColor;
function Light(Col: TColor; Percentage: Byte): TColor;
function Mix(Col1, Col2: TColor; Percentage: Byte): TColor;
function MMix(Cols: array of TColor): TColor;
function Log(Base, Value: Real): Real;
function Modulator(Val, Max: Real): Real;
function M(I, J: Integer): Integer;
function Tan(Angle2D: Real): Real;
procedure Limit(var Value: Integer; Min, Max: Integer);
function Exp2(Exponent: Byte): Word;
function GetSysDir: String;
function GetWinDir: String;
implementation
function Point2D(X, Y: Real): TPoint2D;
begin
Point2D.X := X;
Point2D.Y := Y;
end;
function RoundPoint(P: TPoint2D): TPoint;
begin
RoundPoint.X := Round(P.X);
RoundPoint.Y := Round(P.Y);
end;
function FloatPoint(P: TPoint): TPoint2D;
begin
FloatPoint.X := P.X;
FloatPoint.Y := P.Y;
end;
function Point3D(X, Y, Z: Real): TPoint3D;
begin
Point3D.X := X;
Point3D.Y := Y;
Point3D.Z := Z;
end;
function Angle2D(P: TPoint2D): Real;
begin
if P.X = 0 then
begin
if P.Y > 0 then Result := Pi / 2;
if P.Y = 0 then Result := 0;
if P.Y < 0 then Result := Pi / -2;
end
else
Result := Arctan(P.Y / P.X);
if P.X < 0 then
begin
if P.Y < 0 then Result := Result + Pi;
if P.Y >= 0 then Result := Result - Pi;
end;
If Result < 0 then Result := Result + 2 * Pi;
end;
function Dist2D(P: TPoint2D): Real;
begin
Result := Sqrt(P.X * P.X + P.Y * P.Y);
end;
function Dist3D(P: TPoint3D): Real;
begin
Dist3d := Sqrt(P.X * P.X + P.Y * P.Y + P.Z * P.Z);
end;
function RelAngle2D(PA, PB: TPoint2D): Real;
begin
RelAngle2D := Angle2D(Point2D(PB.X - PA.X, PB.Y - PA.Y));
end;
function RelDist2D(PA, PB: TPoint2D): Real;
begin
Result := Dist2D(Point2D(PB.X - PA.X, PB.Y - PA.Y));
end;
function RelDist3D(PA, PB: TPoint3D): Real;
begin
RelDist3D := Dist3D(Point3D(PB.X - PA.X, PB.Y - PA.Y, PB.Z - PA.Z));
end;
procedure Rotate2D(var P: TPoint2D; Angle2D: Real);
var
Temp: TPoint2D;
begin
Temp.X := P.X * Cos(Angle2D) - P.Y * Sin(Angle2D);
Temp.Y := P.X * Sin(Angle2D) + P.Y * Cos(Angle2D);
P := Temp;
end;
procedure RelRotate2D(var P: TPoint2D; PCentr: TPoint2D; Angle2D: Real);
var
Temp: TPoint2D;
begin
Temp := SubPoints(P, PCentr);
Rotate2D(Temp, Angle2D);
P := AddPoints(Temp, PCentr);
end;
procedure Move2D(var P: TPoint2D; Angle2D, Distance: Real);
var
Temp: TPoint2D;
begin
Temp.X := P.X + (Cos(Angle2D) * Distance);
Temp.Y := P.Y + (Sin(Angle2D) * Distance);
P := Temp;
end;
function Between(PA, PB: TPoint2D; Preference: Real): TPoint2D;
begin
Between.X := PA.X * Preference + PB.X * (1 - Preference);
Between.Y := PA.Y * Preference + PB.Y * (1 - Preference);
end;
function DistLine(A, B, C: Real; P: TPoint2D): Real;
begin
Result := (A * P.X + B * P.Y + C) / Sqrt(Sqr(A) + Sqr(B));
end;
function Dist2P(P, P1, P2: TPoint2D): Real;
begin
Result := DistLine(P1.Y - P2.Y, P2.X - P1.X, -P1.Y * P2.X + P1.X * P2.Y, P);
end;
function DistD1P(DX, DY: Real; P1, P: TPoint2D): Real;
begin
Result := DistLine(DY, -DX, -DY * P1.X + DX * P1.Y, P);
end;
function NearLine2P(P, P1, P2: TPoint2D; D: Real): Boolean;
begin
Result := False;
if DistD1P(-(P2.Y - P1.Y), P2.X - P1.X, P1, P) * DistD1P(-(P2.Y - P1.Y), P2.X - P1.X, P2, P) <= 0 then
if Abs(Dist2P(P, P1, P2)) < D then Result := True;
end;
function AddPoints(P1, P2: TPoint2D): TPoint2D;
begin
AddPoints := Point2D(P1.X + P2.X, P1.Y + P2.Y);
end;
function SubPoints(P1, P2: TPoint2D): TPoint2D;
begin
SubPoints := Point2D(P1.X - P2.X, P1.Y - P2.Y);
end;
function Invert(Col: TColor): TColor;
begin
Invert := not Col;
end;
function Dark(Col: TColor; Percentage: Byte): TColor;
var
R, G, B: Byte;
begin
R := GetRValue(Col); G := GetGValue(Col); B := GetBValue(Col);
R := Round(R * Percentage / 100);
G := Round(G * Percentage / 100);
B := Round(B * Percentage / 100);
Dark := RGB(R, G, B);
end;
function Light(Col: TColor; Percentage: Byte): TColor;
var
R, G, B: Byte;
begin
R := GetRValue(Col); G := GetGValue(Col); B := GetBValue(Col);
R := Round(R * Percentage / 100) + Round(255 - Percentage / 100 * 255);
G := Round(G * Percentage / 100) + Round(255 - Percentage / 100 * 255);
B := Round(B * Percentage / 100) + Round(255 - Percentage / 100 * 255);
Light := RGB(R, G, B);
end;
function Mix(Col1, Col2: TColor; Percentage: Byte): TColor;
var
R, G, B: Byte;
begin
R := Round((GetRValue(Col1) * Percentage / 100) + (GetRValue(Col2) * (100 - Percentage) / 100));
G := Round((GetGValue(Col1) * Percentage / 100) + (GetGValue(Col2) * (100 - Percentage) / 100));
B := Round((GetBValue(Col1) * Percentage / 100) + (GetBValue(Col2) * (100 - Percentage) / 100));
Mix := RGB(R, G, B);
end;
function MMix(Cols: array of TColor): TColor;
var
I, R, G, B, Length: Integer;
begin
Length := High(Cols) - Low(Cols) + 1;
R := 0; G := 0; B := 0;
for I := Low(Cols) to High(Cols) do
begin
R := R + GetRValue(Cols[I]);
G := G + GetGValue(Cols[I]);
B := B + GetBValue(Cols[I]);
end;
R := R div Length;
G := G div Length;
B := B div Length;
MMix := RGB(R, G, B);
end;
function Log(Base, Value: Real): Real;
begin
Log := Ln(Value) / Ln(Base);
end;
function Power(Base, Exponent: Real): Real;
begin
Power := Ln(Base) * Exp(Exponent);
end;
function Modulator(Val, Max: Real): Real;
begin
Modulator := (Val / Max - Round(Val / Max)) * Max;
end;
function M(I, J: Integer): Integer;
begin
M := ((I mod J) + J) mod J;
end;
function Tan(Angle2D: Real): Real;
begin
Tan := Sin(Angle2D) / Cos(Angle2D);
end;
procedure Limit(var Value: Integer; Min, Max: Integer);
begin
if Value < Min then Value := Min;
if Value > Max then Value := Max;
end;
function Exp2(Exponent: Byte): Word;
var
Temp, I: Word;
begin
Temp := 1;
for I := 1 to Exponent do
Temp := Temp * 2;
Result := Temp;
end;
function GetSysDir: String;
var
Temp: array[0..255] of Char;
begin
GetSystemDirectory(Temp, 256);
Result := StrPas(Temp);
end;
function GetWinDir: String;
var
Temp: array[0..255] of Char;
begin
GetWindowsDirectory(Temp, 256);
Result := StrPas(Temp);
end;
end.
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