📄 jvqfullcolorrotate.pas
字号:
{******************************************************************************}
{* WARNING: JEDI VCL To CLX Converter generated unit. *}
{* Manual modifications will be lost on next release. *}
{******************************************************************************}
{-----------------------------------------------------------------------------
The contents of this file are subject to the Mozilla Public License
Version 1.1 (the "License"); you may not use this file except in compliance
with the License. You may obtain a copy of the License at
http://www.mozilla.org/MPL/MPL-1.1.html
Software distributed under the License is distributed on an "AS IS" basis,
WITHOUT WARRANTY OF ANY KIND, either expressed or implied. See the License for
the specific language governing rights and limitations under the License.
The Original Code is: ColorRotate.pas, released on 2004-09-11.
The Initial Developer of the Original Code is Florent Ouchet [ouchet dott florent att laposte dott net]
Portions created by Florent Ouchet are Copyright (C) 2004 Florent Ouchet.
All Rights Reserved.
Contributor(s): -
You may retrieve the latest version of this file at the Project JEDI's JVCL home page,
located at http://jvcl.sourceforge.net
Known Issues:
-----------------------------------------------------------------------------}
// $Id: JvQFullColorRotate.pas,v 1.2 2005/02/06 14:06:12 asnepvangers Exp $
unit JvQFullColorRotate;
{$I jvcl.inc}
interface
uses
QWindows, Classes, QGraphics,
JvQFullColorSpaces;
type
TJvRotateColor = (rcCommon, rcRed, rcGreen, rcBlue);
TJvSaturationMethod = (smRange, smLoop);
TJvRotateValueType = -255..255;
TJvRotateValue = class(TPersistent)
private
FValue: TJvRotateValueType;
FSaturationMethod: TJvSaturationMethod;
public
constructor Create; reintroduce;
property Value: TJvRotateValueType read FValue write FValue default 0;
property SaturationMethod: TJvSaturationMethod read FSaturationMethod write FSaturationMethod default smRange;
procedure Assign(Value: TJvRotateValue); reintroduce;
end;
TJvAxisDelta = class(TPersistent)
private
FConstituents: array [TJvAxisIndex] of TJvRotateValue;
function GetConstituents(Index: TJvAxisIndex): TJvRotateValue;
procedure SetConstituents(Index: TJvAxisIndex; const Value: TJvRotateValue);
public
constructor Create;
destructor Destroy; override;
procedure Assign(Value: TJvAxisDelta); reintroduce;
property Constituents[Index: TJvAxisIndex]: TJvRotateValue read GetConstituents write SetConstituents; default;
end;
TJvColorDelta = class(TPersistent)
private
FColorID: TJvFullColorSpaceID;
FAxisRed: TJvAxisDelta;
FAxisGreen: TJvAxisDelta;
FAxisBlue: TJvAxisDelta;
procedure SetAxisBlue(const Value: TJvAxisDelta);
procedure SetAxisGreen(const Value: TJvAxisDelta);
procedure SetAxisRed(const Value: TJvAxisDelta);
public
constructor Create;
destructor Destroy; override;
procedure Assign(Value: TJvColorDelta); reintroduce;
property ColorID: TJvFullColorSpaceID read FColorID write FColorID default csRGB;
property AxisRed: TJvAxisDelta read FAxisRed write SetAxisRed;
property AxisGreen: TJvAxisDelta read FAxisGreen write SetAxisGreen;
property AxisBlue: TJvAxisDelta read FAxisBlue write SetAxisBlue;
end;
function RotateColor(AColor: TJvFullColor;
AColorDelta: TJvColorDelta): TJvFullColor;
procedure RotateBitmap(SourceBitmap, DestBitmap: TBitmap;
AColorDelta: TJvColorDelta);
implementation
{$IFDEF UNITVERSIONING}
uses
JclUnitVersioning;
{$ENDIF UNITVERSIONING}
// (rom) reworked for loops
function RotateColor(AColor: TJvFullColor; AColorDelta: TJvColorDelta): TJvFullColor;
var
I: TJvAxisIndex;
MinAxis: array [TJvAxisIndex] of Byte;
MaxAxis: array [TJvAxisIndex] of Byte;
ValueAxis: array [TJvAxisIndex] of SmallInt;
ColorRed, ColorGreen, ColorBlue: TColor;
MaxColorAxis:Integer;
SourceColorSpace, DeltaColorSpace: TJvColorSpace;
LColor: TColor;
function DoRotate(AValue: TJvFullColor; AAxisDelta: TJvAxisDelta): TColor;
var
I: TJvAxisIndex;
Range: Integer;
begin
for I := Low(TJvAxisIndex) to High(TJvAxisIndex) do
begin
ValueAxis[I] := Integer(GetAxisValue(AValue, I)) + AAxisDelta[I].Value;
if AAxisDelta[I].SaturationMethod = smRange then
begin
if ValueAxis[I] > MaxAxis[I] then
ValueAxis[I] := MaxAxis[I];
if ValueAxis[I] < MinAxis[I] then
ValueAxis[I] := MinAxis[I];
end
else
begin
Range := MaxAxis[I] - MinAxis[I] + 1;
while ValueAxis[I] < MinAxis[I] do
Inc(ValueAxis[I], Range);
while ValueAxis[I] > MaxAxis[I] do
Dec(ValueAxis[I], Range);
end;
end;
Result :=
(ValueAxis[axIndex0]) or (ValueAxis[axIndex1] shl 8) or (ValueAxis[axIndex2] shl 16);
end;
begin
with ColorSpaceManager do
begin
SourceColorSpace := ColorSpace[GetColorSpaceID(AColor)];
LColor := SourceColorSpace.ConvertToColor(AColor);
DeltaColorSpace := ColorSpace[AColorDelta.ColorID];
with DeltaColorSpace do
begin
for I := Low(TJvAxisIndex) to High(TJvAxisIndex) do
begin
MinAxis[I] := AxisMin[I];
MaxAxis[I] := AxisMax[I];
end;
ColorRed := ConvertToColor(DoRotate(ConvertFromColor(LColor and $000000FF), AColorDelta.AxisRed));
ColorGreen := ConvertToColor(DoRotate(ConvertFromColor(LColor and $0000FF00), AColorDelta.AxisGreen));
ColorBlue := ConvertToColor(DoRotate(ConvertFromColor(LColor and $00FF0000), AColorDelta.AxisBlue));
MaxColorAxis:=255;
for I := Low(TJvAxisIndex) to High(TJvAxisIndex) do
begin
ValueAxis[I] := (ColorRed and $FF) + (ColorGreen and $FF) + (ColorBlue and $FF);
if ValueAxis[I] > MaxColorAxis then
MaxColorAxis := ValueAxis[I];
ColorRed:=ColorRed shr 8;
ColorGreen:=ColorGreen shr 8;
ColorBlue:=ColorBlue shr 8;
end;
for I := Low(TJvAxisIndex) to High(TJvAxisIndex) do
begin
ValueAxis[I] := ValueAxis[I] + 255 - MaxColorAxis;
if ValueAxis[I] < 0 then
ValueAxis[I] := 0;
end;
LColor := ValueAxis[axIndex0] or (ValueAxis[axIndex1] shl 8) or (ValueAxis[axIndex2] shl 16);
end;
Result := SourceColorSpace.ConvertFromColor(LColor);
end;
end;
procedure RotateBitmap(SourceBitmap, DestBitmap: TBitmap; AColorDelta: TJvColorDelta);
type
TFullColorValue = array [TJvAxisIndex] of SmallInt;
PFullColorValue = ^TFullColorValue;
var
OriginalPixelFormat: TPixelFormat;
Colors: array [TJvAxisIndex,Byte] of TFullColorValue;
ColorR, ColorB, ColorG, ColorFusion: TFullColorValue;
I: TJvAxisIndex;
J: Byte;
X, Y: Integer;
MinAxis: array [TJvAxisIndex] of SmallInt;
MaxAxis: array [TJvAxisIndex] of SmallInt;
MaxColorAxis: SmallInt;
DeltaColorSpace: TJvColorSpace;
DestLine, SourceLine: PCardinal;
procedure DoRotate(Color: TColor; AAxisDelta: TJvAxisDelta; out DestColor: TFullColorValue);
var
I: TJvAxisIndex;
Range: Integer;
FullColor: TJvFullColor;
ColorValue: TFullColorValue;
begin
FullColor := DeltaColorSpace.ConvertFromColor(Color);
for I := Low(TJvAxisIndex) to High(TJvAxisIndex) do
begin
ColorValue[I] := Integer(GetAxisValue(FullColor, I)) + AAxisDelta[I].Value;
if AAxisDelta[I].SaturationMethod = smRange then
begin
if ColorValue[I] > MaxAxis[I] then
ColorValue[I] := MaxAxis[I];
if ColorValue[I] < MinAxis[I] then
ColorValue[I] := MinAxis[I];
end
else
begin
Range := MaxAxis[I] - MinAxis[I] + 1;
while ColorValue[I] < MinAxis[I] do
Inc(ColorValue[I], Range);
while ColorValue[I] > MaxAxis[I] do
Dec(ColorValue[I], Range);
end;
end;
Color := DeltaColorSpace.ConvertToColor(ColorValue[axIndex0] or
(ColorValue[axIndex1] shl 8) or (ColorValue[axIndex2] shl 16));
DestColor[axIndex0] := Color and $FF;
DestColor[axIndex1] := (Color shr 8) and $FF;
DestColor[axIndex2] := (Color shr 16) and $FF;
end;
begin
DestBitmap.Width := SourceBitmap.Width;
DestBitmap.Height := SourceBitmap.Height;
OriginalPixelFormat := SourceBitmap.PixelFormat;
SourceBitmap.PixelFormat := pf32bit;
DestBitmap.PixelFormat := pf32bit;
with ColorSpaceManager do
begin
DeltaColorSpace := ColorSpace[AColorDelta.ColorID];
with DeltaColorSpace do
begin
for I := Low(TJvAxisIndex) to High(TJvAxisIndex) do
begin
MinAxis[I] := AxisMin[I];
MaxAxis[I] := AxisMax[I];
end;
for J := Low(Byte) to High(Byte) do
begin
DoRotate(TColor(J),AColorDelta.AxisRed,Colors[axIndex0,J]);
DoRotate(TColor(J shl 8),AColorDelta.AxisGreen,Colors[axIndex1,J]);
DoRotate(TColor(J shl 16),AColorDelta.AxisBlue,Colors[axIndex2,J]);
end;
for Y := 0 to DestBitmap.Height-1 do
begin
SourceLine := SourceBitmap.ScanLine[Y];
DestLine := DestBitmap.ScanLine[Y];
for X := 0 to DestBitmap.Width-1 do
begin
ColorR := Colors[axIndex0,(SourceLine^ shr 16) and $FF]; //
ColorG := Colors[axIndex1,(SourceLine^ shr 8) and $FF]; // Bitmap Color Format is
ColorB := Colors[axIndex2,(SourceLine^) and $FF]; // (MSB)0RGB(LSB)
ColorFusion[axIndex0] := ColorR[axIndex0] + ColorG[axIndex0] + ColorB[axIndex0];
ColorFusion[axIndex1] := ColorR[axIndex1] + ColorG[axIndex1] + ColorB[axIndex1];
ColorFusion[axIndex2] := ColorR[axIndex2] + ColorG[axIndex2] + ColorB[axIndex2];
MaxColorAxis := 255;
if ColorFusion[axIndex0] > MaxColorAxis then
MaxColorAxis := ColorFusion[axIndex0];
if ColorFusion[axIndex1] > MaxColorAxis then
MaxColorAxis := ColorFusion[axIndex1];
if ColorFusion[axIndex2] > MaxColorAxis then
MaxColorAxis := ColorFusion[axIndex2];
ColorFusion[axIndex0] := ColorFusion[axIndex0] + 255 - MaxColorAxis;
if ColorFusion[axIndex0] < 0 then
ColorFusion[axIndex0] := 0;
ColorFusion[axIndex1] := ColorFusion[axIndex1] + 255 - MaxColorAxis;
if ColorFusion[axIndex1] < 0 then
ColorFusion[axIndex1] := 0;
ColorFusion[axIndex2] := ColorFusion[axIndex2] + 255 - MaxColorAxis;
if ColorFusion[axIndex2] < 0 then
ColorFusion[axIndex2] := 0;
DestLine^ := // Bitmap Color Format is (MSB)0RGB(LSB)
(ColorFusion[axIndex0] shl 16) or (ColorFusion[axIndex1] shl 8) or (ColorFusion[axIndex2]);
Inc(SourceLine);
Inc(DestLine);
end;
end;
end;
end;
SourceBitmap.PixelFormat := OriginalPixelFormat;
DestBitmap.PixelFormat := OriginalPixelFormat;
end;
//=== { TJvAxisDelta } =======================================================
constructor TJvAxisDelta.Create;
var
Index: TJvAxisIndex;
begin
inherited Create;
for Index := Low(TJvAxisIndex) to High(TJvAxisIndex) do
FConstituents[Index] := TJvRotateValue.Create;
end;
destructor TJvAxisDelta.Destroy;
var
Index: TJvAxisIndex;
begin
for Index := Low(TJvAxisIndex) to High(TJvAxisIndex) do
FConstituents[Index].Free;
inherited Destroy;
end;
procedure TJvAxisDelta.Assign(Value: TJvAxisDelta);
var
Index: TJvAxisIndex;
begin
for Index := Low(TJvAxisIndex) to High(TJvAxisIndex) do
FConstituents[Index].Assign(Value[Index]);
end;
function TJvAxisDelta.GetConstituents(Index: TJvAxisIndex): TJvRotateValue;
begin
Result := FConstituents[Index];
end;
procedure TJvAxisDelta.SetConstituents(Index: TJvAxisIndex;
const Value: TJvRotateValue);
begin
FConstituents[Index].Assign(Value);
end;
//=== { TJvColorDelta } ======================================================
constructor TJvColorDelta.Create;
begin
inherited Create;
FColorID := csRGB;
FAxisRed := TJvAxisDelta.Create;
FAxisGreen := TJvAxisDelta.Create;
FAxisBlue := TJvAxisDelta.Create;
end;
destructor TJvColorDelta.Destroy;
begin
FAxisRed.Free;
FAxisGreen.Free;
FAxisBlue.Free;
inherited Destroy;
end;
procedure TJvColorDelta.Assign(Value: TJvColorDelta);
begin
AxisRed.Assign(Value.AxisRed);
AxisGreen.Assign(Value.AxisGreen);
AxisBlue.Assign(Value.AxisBlue);
ColorID := Value.ColorID;
end;
procedure TJvColorDelta.SetAxisBlue(const Value: TJvAxisDelta);
begin
FAxisBlue.Assign(Value);
end;
procedure TJvColorDelta.SetAxisGreen(const Value: TJvAxisDelta);
begin
FAxisGreen.Assign(Value);
end;
procedure TJvColorDelta.SetAxisRed(const Value: TJvAxisDelta);
begin
FAxisRed.Assign(Value);
end;
//=== { TJvRotateValue } =====================================================
constructor TJvRotateValue.Create;
begin
FValue := 0;
FSaturationMethod := smLoop;
end;
procedure TJvRotateValue.Assign(Value: TJvRotateValue);
begin
FValue := Value.Value;
FSaturationMethod := Value.SaturationMethod;
end;
{$IFDEF UNITVERSIONING}
const
UnitVersioning: TUnitVersionInfo = (
RCSfile: '$RCSfile: JvQFullColorRotate.pas,v $';
Revision: '$Revision: 1.2 $';
Date: '$Date: 2005/02/06 14:06:12 $';
LogPath: 'JVCL\run'
);
initialization
RegisterUnitVersion(HInstance, UnitVersioning);
finalization
UnregisterUnitVersion(HInstance);
{$ENDIF UNITVERSIONING}
end.
⌨️ 快捷键说明
复制代码
Ctrl + C
搜索代码
Ctrl + F
全屏模式
F11
切换主题
Ctrl + Shift + D
显示快捷键
?
增大字号
Ctrl + =
减小字号
Ctrl + -