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bgraknob.pas
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bgraknob.pas
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// SPDX-License-Identifier: LGPL-3.0-linking-exception
{
Initially written by Circular.
}
{******************************* CONTRIBUTOR(S) ******************************
- Edivando S. Santos Brasil | mailedivando@gmail.com
(Compatibility with delphi VCL 11/2018)
- Sandy Ganz | sganz@pacbell.net
(added range, sector, and other features)
***************************** END CONTRIBUTOR(S) *****************************}
unit BGRAKnob;
{$I bgracontrols.inc}
interface
uses
Classes, SysUtils, {$IFDEF FPC}LResources,{$ENDIF} Forms, Controls, Graphics,
{$IFNDEF FPC}BGRAGraphics, GraphType, FPImage, {$ENDIF}
BCBaseCtrls, BGRAGradients, BGRABitmap, BGRABitmapTypes;
type
TBGRAKnobPositionType = (kptLineSquareCap, kptLineRoundCap, kptFilledCircle,
kptHollowCircle);
TKnobType = (ktRange, ktSector);
TBGRAKnobValueChangedEvent = procedure(Sender: TObject; Value: single) of object;
{ TBGRAKnob }
TBGRAKnob = class(TBGRAGraphicCtrl)
private
{ Private declarations }
FPhong: TPhongShading;
FCurveExponent: single;
FKnobBmp: TBGRABitmap;
FKnobColor: TColor;
FAngularPos: single; // In RADIANS
FPositionColor: TColor;
FPositionMargin: single;
FPositionOpacity: byte;
FPositionType: TBGRAKnobPositionType;
FPositionWidth: single;
FSettingAngularPos: boolean;
FUsePhongLighting: boolean;
FMinValue, FMaxValue: single; // Knob Values
FStartAngle, FEndAngle: single; // Knob Angles
FKnobType: TKnobType;
FOnKnobValueChange: TBGRAKnobValueChangedEvent;
FStartFromBottom: boolean;
FWheelSpeed: byte; // 0 : no wheel, 1 slowest, 255 fastest
FWheelWrap: boolean;
FSlowSnap: boolean;
FReverseScale: boolean;
FSectorDivisions: integer; // Computed internally from FMinValue/FMaxValue
procedure CreateKnobBmp;
function GetLightIntensity: integer;
function GetValue: single;
function AngularPosToDeg(RadPos: single): single;
function DegPosToAngular(DegPos: single): single;
procedure SetCurveExponent(const AValue: single);
procedure SetLightIntensity(const AValue: integer);
procedure SetStartFromBottom(const AValue: boolean);
procedure SetValue(AValue: single);
procedure SetMaxValue(AValue: single);
procedure SetMinValue(AValue: single);
procedure SetStartAngle(AValue: single);
procedure SetEndAngle(AValue: single);
procedure SetKnobType(const AValue: TKnobType);
procedure SetPositionColor(const AValue: TColor);
procedure SetPositionMargin(AValue: single);
procedure SetPositionOpacity(const AValue: byte);
procedure SetPositionType(const AValue: TBGRAKnobPositionType);
procedure SetPositionWidth(const AValue: single);
procedure SetUsePhongLighting(const AValue: boolean);
procedure UpdateAngularPos(X, Y: integer);
procedure SetKnobColor(const AValue: TColor);
procedure SetWheelSpeed(AValue: byte);
procedure SetReverseScale(AValue: boolean);
protected
{ Protected declarations }
class function GetControlClassDefaultSize: TSize; override;
procedure MouseDown(Button: TMouseButton; Shift: TShiftState; X, Y: integer); override;
procedure MouseUp(Button: TMouseButton; Shift: TShiftState; X, Y: integer); override;
procedure MouseMove(Shift: TShiftState; X, Y: integer); override;
procedure Paint; override;
procedure Resize; override;
function ValueCorrection(var AValue: single): boolean; overload; virtual;
function ValueCorrection: boolean; overload; virtual;
function DoMouseWheel(Shift: TShiftState; WheelDelta: integer; MousePos: TPoint): boolean; override;
procedure MouseWheelPos({%H-}Shift: TShiftState; WheelDelta: integer); virtual;
function RemapRange(OldValue: single; OldMin, OldMax, NewMin, NewMax: single): single;
function AngularPosSector(AValue: single): single;
public
{ Public declarations }
constructor Create(AOwner: TComponent); override;
destructor Destroy; override;
public
{ Streaming }
{$IFDEF FPC}
procedure SaveToFile(AFileName: string);
procedure LoadFromFile(AFileName: string);
{$ENDIF}
procedure OnFindClass({%H-}Reader: TReader; const AClassName: string;
var ComponentClass: TComponentClass);
published
{ Published declarations }
property Anchors;
property CurveExponent: single read FCurveExponent write SetCurveExponent nodefault;
property KnobColor: TColor read FKnobColor write SetKnobColor default clBtnFace;
property LightIntensity: integer read GetLightIntensity write SetLightIntensity default 300;
property PositionColor: TColor read FPositionColor write SetPositionColor default clBtnText;
property PositionWidth: single read FPositionWidth write SetPositionWidth default 4;
property PositionOpacity: byte read FPositionOpacity write SetPositionOpacity default 192;
property PositionMargin: single read FPositionMargin write SetPositionMargin default 4;
property PositionType: TBGRAKnobPositionType
read FPositionType write SetPositionType default kptLineSquareCap;
property UsePhongLighting: boolean read FUsePhongLighting write SetUsePhongLighting default true;
property MinValue: single read FMinValue write SetMinValue nodefault;
property MaxValue: single read FMaxValue write SetMaxValue nodefault;
property StartFromBottom: boolean read FStartFromBottom write SetStartFromBottom default true;
property StartAngle: single read FStartAngle write SetStartAngle default 30;
property EndAngle: single read FEndAngle write SetEndAngle default 330;
property KnobType: TKnobType read FKnobType write SetKnobType default ktRange;
property Value: single read GetValue write SetValue nodefault;
property OnValueChanged: TBGRAKnobValueChangedEvent
read FOnKnobValueChange write FOnKnobValueChange;
property WheelSpeed: byte read FWheelSpeed write SetWheelSpeed default 0;
property WheelWrap: boolean read FWheelWrap write FWheelWrap default false;
property SlowSnap: boolean read FSlowSnap write FSlowSnap default false;
property ReverseScale: boolean read FReverseScale write SetReverseScale default false;
property OnMouseWheel;
property OnClick;
property OnDblClick;
property OnMouseDown;
property OnMouseUp;
property OnMouseMove;
property OnMouseEnter;
property OnMouseLeave;
end;
{$IFDEF FPC}
procedure Register;
{$ENDIF}
const
VERSIONSTR = '2.11'; // knob version
implementation
uses Math;
const
WHEELSPEEDFACTOR = 20.0; // used to calculate mouse wheel speed
WHEELSPEEDBASE = 300;
{$IFDEF FPC}
procedure Register;
begin
RegisterComponents('BGRA Controls', [TBGRAKnob]);
end;
{$ENDIF}
{ TBGRAKnob }
// Override the base class which has a rectangular dimension, odd for a knob
class function TBGRAKnob.GetControlClassDefaultSize: TSize;
begin
Result.CX := 50;
Result.CY := 50;
end;
procedure TBGRAKnob.CreateKnobBmp;
var
tx, ty: integer;
h: single;
d2: single;
v: TPointF;
p: PBGRAPixel;
center: TPointF;
yb: integer;
xb: integer;
mask: TBGRABitmap;
Map: TBGRABitmap;
BGRAKnobColor: TBGRAPixel;
begin
tx := ClientWidth;
ty := ClientHeight;
if (tx = 0) or (ty = 0) then
exit;
FreeAndNil(FKnobBmp);
FKnobBmp := TBGRABitmap.Create(tx, ty);
center := PointF((tx - 1) / 2, (ty - 1) / 2);
BGRAKnobColor := KnobColor;
if UsePhongLighting then
begin
//compute knob height map
Map := TBGRABitmap.Create(tx, ty);
for yb := 0 to ty - 1 do
begin
p := map.ScanLine[yb];
for xb := 0 to tx - 1 do
begin
//compute vector between center and current pixel
v := PointF(xb, yb) - center;
//scale down to unit circle (with 1 pixel margin for soft border)
v.x := v.x / (tx / 2 + 1);
v.y := v.y / (ty / 2 + 1);
//compute squared distance with scalar product
d2 := v {$if FPC_FULLVERSION < 30203}*{$ELSE}**{$ENDIF} v;
//interpolate as quadratic curve and apply power function
if d2 > 1 then
h := 0
else
h := power(1 - d2, FCurveExponent);
p^ := MapHeightToBGRA(h, 255);
Inc(p);
end;
end;
//antialiased border
mask := TBGRABitmap.Create(tx, ty, BGRABlack);
Mask.FillEllipseAntialias(center.x, center.y, tx / 2, ty / 2, BGRAWhite);
map.ApplyMask(mask);
Mask.Free;
FPhong.Draw(FKnobBmp, Map, 30, 0, 0, BGRAKnobColor);
Map.Free;
end
else
begin
FKnobBmp.FillEllipseAntialias(center.x, center.y, tx / 2, ty / 2, BGRAKnobColor);
end;
end;
function TBGRAKnob.GetLightIntensity: integer;
begin
Result := round(FPhong.LightSourceIntensity);
end;
function TBGRAKnob.GetValue: single;
begin
// Maintains the correct value range based on knobtype, result in terms of
// FMinValue and FMaxValue
Result := RemapRange(AngularPosToDeg(FAngularPos), FStartAngle,
FEndAngle, FMinValue, FMaxValue);
// Check to Reverse the scale and fix value
if FReverseScale then
Result := FMaxValue + FMinValue - Result;
if FKnobType = ktSector then
Result := Round(Result);
end;
function TBGRAKnob.AngularPosToDeg(RadPos: single): single;
begin
// helper to convert AnglePos in radians to degrees, wraps as needed
Result := RadPos * 180 / Pi;
if Result < 0 then
Result := Result + 360;
Result := 270 - Result;
if Result < 0 then
Result := Result + 360;
end;
function TBGRAKnob.DegPosToAngular(DegPos: single): single;
begin
// helper to convert Angle in degrees to radians
Result := 3 * Pi / 2 - DegPos * Pi / 180;
if Result > Pi then
Result := Result - (2 * Pi);
if Result < -Pi then
Result := Result + (2 * Pi);
end;
function TBGRAKnob.AngularPosSector(AValue: single): single;
var
sector: integer;
begin
// AValue is the degree angle of FAngularPos of where the mouse is
// typically. So no restrictions on values, 0 to < 360
if AValue > FEndAngle then
Avalue := FEndAngle;
if AValue < FStartAngle then
Avalue := FStartAngle;
// from the current angular pos get the value
sector := Round(RemapRange(AValue, FStartAngle, FEndAngle, FMinValue, FMaxValue));
// now get back the FAngularPos after mapping
Result := DegPosToAngular(RemapRange(sector, FMinValue, FMaxValue, FStartAngle, FEndAngle));
end;
function TBGRAKnob.ValueCorrection(var AValue: single): boolean;
begin
if AValue < FStartAngle then
begin
AValue := FStartAngle;
Result := True;
end
else
if AValue > FEndAngle then
begin
AValue := FEndAngle;
Result := True;
end
else
Result := False;
end;
function TBGRAKnob.ValueCorrection: boolean;
var
LValue: single;
begin
LValue := AngularPosToDeg(FAngularPos);
// this always needs to be in Degrees of position (NOT VALUE)
Result := ValueCorrection(LValue); // LValue modified by call
if Result then
FAngularPos := DegPosToAngular(LValue); // Back to Radians
end;
function TBGRAKnob.RemapRange(OldValue: single;
OldMin, OldMax, NewMin, NewMax: single): single;
begin
// Generic mapping of ranges. Value is the number to remap, returns number
// in the new range. Looks for odd div by 0 condition and fixes
if OldMin = OldMax then
begin
if OldValue <= OldMin then
exit(NewMin)
else
exit(NewMax);
end;
Result := (((OldValue - OldMin) * (NewMax - NewMin)) / (OldMax - OldMin)) + NewMin;
end;
procedure TBGRAKnob.SetCurveExponent(const AValue: single);
begin
if FCurveExponent = AValue then
exit;
FCurveExponent := AValue;
FreeAndNil(FKnobBmp);
Invalidate;
end;
procedure TBGRAKnob.SetKnobColor(const AValue: TColor);
begin
if FKnobColor = AValue then
exit;
FKnobColor := AValue;
FreeAndNil(FKnobBmp);
Invalidate;
end;
procedure TBGRAKnob.SetWheelSpeed(AValue: byte);
begin
// Sets the mouse wheel speed
FWheelSpeed := AValue;
end;
procedure TBGRAKnob.SetReverseScale(AValue: boolean);
var
oldVal: single;
begin
// Sets the direction of the scale
if FReverseScale = AValue then
exit;
oldVal := GetValue;
FReverseScale := AValue;
SetValue(oldVal);
end;
procedure TBGRAKnob.SetLightIntensity(const AValue: integer);
begin
if AValue <> FPhong.LightSourceIntensity then
begin
FPhong.LightSourceIntensity := AValue;
FreeAndNil(FKnobBmp);
Invalidate;
end;
end;
procedure TBGRAKnob.SetStartFromBottom(const AValue: boolean);
begin
if FStartFromBottom = AValue then
exit;
FStartFromBottom := AValue;
Invalidate;
end;
procedure TBGRAKnob.SetValue(AValue: single);
var
NewAngularPos: single;
begin
// AValue in the range of FStartAngle and FEndAngles after the mapping
if AValue > FMaxValue then
AValue := FMaxValue;
if AValue < FMinValue then
AValue := FMinValue;
// Get the integeral value from given sector,
if FKnobType = ktSector then
AValue := Round(AValue); // Round to sector
AValue := RemapRange(AValue, FMinValue, FMaxValue, FStartAngle, FEndAngle);
// Reverse the scale if needed
if FReverseScale then
AValue := FEndAngle + FStartAngle - AValue;
ValueCorrection(AValue);
NewAngularPos := 3 * Pi / 2 - AValue * Pi / 180;
if NewAngularPos > Pi then
NewAngularPos := NewAngularPos - (2 * Pi);
if NewAngularPos < -Pi then
NewAngularPos := NewAngularPos + (2 * Pi);
if NewAngularPos <> FAngularPos then
begin
FAngularPos := NewAngularPos;
Invalidate;
end;
end;
procedure TBGRAKnob.SetEndAngle(AValue: single);
var
oldValue: single;
begin
// degrees for position of start position
if (FEndAngle = AValue) or (FStartAngle >= AValue) or (AValue < 0) or
(AValue >= 360) then
exit;
// If we are going to change the angle, we need to save off the current value
// as it will change it if we don't reset it
oldValue := GetValue;
FEndAngle := AValue;
if FStartAngle > FEndAngle then
FStartAngle := FEndAngle;
SetValue(oldValue); // Invalidate the hard way, preserve Value for user
end;
procedure TBGRAKnob.SetStartAngle(AValue: single);
var
oldValue: single;
begin
// Start angle in degrees
if (FStartAngle = AValue) or (FEndAngle <= AValue) or (AValue < 0) or
(AValue >= 360) then
exit;
oldValue := GetValue;
FStartAngle := AValue;
if FEndAngle < FStartAngle then
FEndAngle := FStartAngle;
SetValue(oldValue); // Invalidate the hard way, preserve Value for user
end;
procedure TBGRAKnob.SetMaxValue(AValue: single);
var
oldValue: single;
IntMinVal, IntMaxVal: integer;
begin
// Note : MinValue and MaxValue can span negative ranges and be increasing
// decreasing
// If sector mode do some math, set number of sector divisions
if FKnobType = ktSector then
begin
IntMinVal := Round(FMinValue);
IntMaxVal := Round(AValue);
FSectorDivisions := IntMaxVal - IntMinVal;
// Just to be safe, ensure at least 1 sector division
if FSectorDivisions < 1 then
FSectorDivisions := 1;
FMinValue := IntMinVal; // force to an integeral value if in sector mode
AValue := IntMaxVal;
end;
// Min and Max Can't be the same in any case
if (FMinValue >= AValue) then
exit;
oldValue := GetValue;
FMaxValue := AValue;
SetValue(oldValue);
end;
procedure TBGRAKnob.SetMinValue(AValue: single);
var
oldValue: single;
IntMinVal, IntMaxVal: integer;
begin
// Note : MinValue and MaxValue can span negative ranges and be increasing
// decreasing
// If sector mode do some math, set number of sector divisions
if FKnobType = ktSector then
begin
IntMinVal := Round(AValue);
IntMaxVal := Round(FMaxValue);
FSectorDivisions := IntMaxVal - IntMinVal;
// Just to be safe, ensure at least 1 sector division
if FSectorDivisions < 1 then
FSectorDivisions := 1;
FMaxValue := IntMaxVal; // force to an integeral value if in sector mode
AValue := IntMinVal;
end;
// Min and Max Can't be the same in any case, rounding can also cause this
if (FMaxValue <= AValue) then
exit;
// Save and refresh with proper value
oldValue := GetValue;
FMinValue := AValue;
SetValue(oldValue);
end;
procedure TBGRAKnob.SetKnobType(const AValue: TKnobType);
var
IntMinVal, IntMaxVal: integer;
begin
// Set the knobtype, if ktRange nothing really needed,
// if ktSector then calc and check value for divisions.
FKnobType := AValue;
if FKnobType = ktSector then
begin
IntMinVal := Round(FMinValue);
IntMaxVal := Round(FMaxValue);
FSectorDivisions := IntMaxVal - IntMinVal;
if FSectorDivisions < 1 then
FSectorDivisions := 1;
end;
// No other changes for ktRange mode
end;
procedure TBGRAKnob.SetPositionColor(const AValue: TColor);
begin
if FPositionColor = AValue then
exit;
FPositionColor := AValue;
Invalidate;
end;
procedure TBGRAKnob.SetPositionMargin(AValue: single);
begin
if FPositionMargin = AValue then
exit;
FPositionMargin := AValue;
Invalidate;
end;
procedure TBGRAKnob.SetPositionOpacity(const AValue: byte);
begin
if FPositionOpacity = AValue then
exit;
FPositionOpacity := AValue;
Invalidate;
end;
procedure TBGRAKnob.SetPositionType(const AValue: TBGRAKnobPositionType);
begin
if FPositionType = AValue then
exit;
FPositionType := AValue;
Invalidate;
end;
procedure TBGRAKnob.SetPositionWidth(const AValue: single);
begin
if FPositionWidth = AValue then
exit;
FPositionWidth := AValue;
Invalidate;
end;
procedure TBGRAKnob.SetUsePhongLighting(const AValue: boolean);
begin
if FUsePhongLighting = AValue then
exit;
FUsePhongLighting := AValue;
FreeAndNil(FKnobBmp);
Invalidate;
end;
procedure TBGRAKnob.UpdateAngularPos(X, Y: integer);
var
FPreviousPos, Sign: single;
prevAngle, currAngle: single;
begin
// Saves a previous position for the SlowSnap functionality.
// Uses that to see how far we have moved to see if we should move
FPreviousPos := FAngularPos;
prevAngle := AngularPosToDeg(FAngularPos); // Need these in degrees!
if FStartFromBottom then
Sign := 1
else
Sign := -1;
FAngularPos := ArcTan2((-Sign) * (Y - ClientHeight / 2) / ClientHeight,
Sign * (X - ClientWidth / 2) / ClientWidth);
currAngle := AngularPosToDeg(FAngularPos);
// If sector mode then we need to translate angle to sector and back to simulate each sector
if FKnobType = ktSector then
FAngularPos := AngularPosSector(currAngle);
ValueCorrection;
// If SlowSnap mode make sure past the Min/Max angles before snapping.
// This is less twitchy behavior near endpoints. This may not make sense
// when in ktSector mode so skip if that
if FSlowSnap and (FKnobType <> ktSector) then
if ((currAngle <= FStartAngle) and (prevAngle = FEndAngle)) or
((CurrAngle >= FEndAngle) and (PrevAngle = FStartAngle)) then
FAngularPos := FPreviousPos;
Invalidate;
if (FPreviousPos <> FAngularPos) and Assigned(FOnKnobValueChange) then
FOnKnobValueChange(Self, Value); // Value passes back with data based on knobtype
end;
procedure TBGRAKnob.MouseDown(Button: TMouseButton; Shift: TShiftState; X, Y: integer);
begin
inherited MouseDown(Button, Shift, X, Y);
if Button = mbLeft then
begin
FSettingAngularPos := True;
UpdateAngularPos(X, Y);
end;
end;
procedure TBGRAKnob.MouseUp(Button: TMouseButton; Shift: TShiftState; X, Y: integer);
begin
inherited MouseUp(Button, Shift, X, Y);
if Button = mbLeft then
FSettingAngularPos := False;
end;
procedure TBGRAKnob.MouseMove(Shift: TShiftState; X, Y: integer);
begin
inherited MouseMove(Shift, X, Y);
if FSettingAngularPos then
UpdateAngularPos(X, Y);
end;
procedure TBGRAKnob.Paint;
var
Bmp: TBGRABitmap;
Center, Pos: TPointF;
PosColor: TBGRAPixel;
PosLen: single;
begin
if (ClientWidth = 0) or (ClientHeight = 0) then
exit;
if FKnobBmp = nil then
begin
CreateKnobBmp;
if FKnobBmp = nil then
Exit;
end;
Bmp := TBGRABitmap.Create(ClientWidth, ClientHeight);
Bmp.BlendImage(0, 0, FKnobBmp, boLinearBlend);
// draw current position
PosColor := ColorToBGRA(ColorToRGB(FPositionColor), FPositionOpacity);
Center := PointF(ClientWidth / 2, ClientHeight / 2);
Pos.X := Cos(FAngularPos) * (ClientWidth / 2);
Pos.Y := -Sin(FAngularPos) * (ClientHeight / 2);
if not FStartFromBottom then
Pos := -Pos;
PosLen := VectLen(Pos);
Pos := Pos * ((PosLen - PositionMargin - FPositionWidth) / PosLen);
Pos := Center + Pos;
case PositionType of
kptLineSquareCap:
begin
Bmp.LineCap := pecSquare;
Bmp.DrawLineAntialias(Center.X, Center.Y, Pos.X, Pos.Y,
PosColor, FPositionWidth);
end;
kptLineRoundCap:
begin
Bmp.LineCap := pecRound;
Bmp.DrawLineAntialias(Center.X, Center.Y, Pos.X, Pos.Y,
PosColor, FPositionWidth);
end;
kptFilledCircle:
begin
Bmp.FillEllipseAntialias(Pos.X, Pos.Y, FPositionWidth,
FPositionWidth, PosColor);
end;
kptHollowCircle:
begin
Bmp.EllipseAntialias(Pos.X, Pos.Y, FPositionWidth * 2 / 3,
FPositionWidth * 2 / 3, PosColor, FPositionWidth / 3);
end;
end;
Bmp.Draw(Canvas, 0, 0, False);
Bmp.Free;
end;
procedure TBGRAKnob.Resize;
begin
inherited Resize;
if (FKnobBmp <> nil) and ((ClientWidth <> FKnobBmp.Width) or
(ClientHeight <> FKnobBmp.Height)) then
FreeAndNil(FKnobBmp);
end;
constructor TBGRAKnob.Create(AOwner: TComponent);
begin
inherited Create(AOwner);
with GetControlClassDefaultSize do
SetInitialBounds(0, 0, CX, CY);
FPhong := TPhongShading.Create;
FPhong.LightPositionZ := 100;
FPhong.LightSourceIntensity := 300;
FPhong.NegativeDiffusionFactor := 0.8;
FPhong.AmbientFactor := 0.5;
FPhong.DiffusionFactor := 0.6;
FKnobBmp := nil;
FCurveExponent := 0.2;
FKnobColor := clBtnFace;
FPositionColor := clBtnText;
FPositionOpacity := 192;
FPositionWidth := 4;
FPositionMargin := 4;
FPositionType := kptLineSquareCap;
FUsePhongLighting := True;
FOnKnobValueChange := nil;
FStartFromBottom := True;
FWheelSpeed := 0; // 0, no wheel, 1 slowest, 255 fastest
FWheelWrap := False; // don't allow the mouse wheel to wrap around
FSlowSnap := False; // True : less snap around on min/max
FReverseScale := False; // Flips direction around if True
FSectorDivisions := 1; // Number of divisions for sector knob, computed
FKnobType := ktRange; // Defaults ranges to match orig knob
FStartAngle := 30;
FEndAngle := 330;
FMinValue := 30;
FMaxValue := 330;
SetValue(30);
end;
destructor TBGRAKnob.Destroy;
begin
FPhong.Free;
FKnobBmp.Free;
inherited Destroy;
end;
{$IFDEF FPC}
procedure TBGRAKnob.SaveToFile(AFileName: string);
var
AStream: TMemoryStream;
begin
AStream := TMemoryStream.Create;
try
WriteComponentAsTextToStream(AStream, Self);
AStream.SaveToFile(AFileName);
finally
AStream.Free;
end;
end;
procedure TBGRAKnob.LoadFromFile(AFileName: string);
var
AStream: TMemoryStream;
begin
AStream := TMemoryStream.Create;
try
AStream.LoadFromFile(AFileName);
ReadComponentFromTextStream(AStream, TComponent(Self), OnFindClass);
finally
AStream.Free;
end;
end;
{$ENDIF}
procedure TBGRAKnob.OnFindClass(Reader: TReader; const AClassName: string;
var ComponentClass: TComponentClass);
begin
if CompareText(AClassName, 'TBGRAKnob') = 0 then
ComponentClass := TBGRAKnob;
end;
function TBGRAKnob.DoMouseWheel(Shift: TShiftState; WheelDelta: integer;
MousePos: TPoint): boolean;
begin
Result := inherited DoMouseWheel(Shift, WheelDelta, MousePos);
MouseWheelPos(Shift, WheelDelta);
end;
procedure TBGRAKnob.MouseWheelPos(Shift: TShiftState; WheelDelta: integer);
var
newValue: single;
begin
// WheelSpeed is a Base Value and a factor to slow or speed up the wheel affect.
// FWheelSpeed = 0 then no wheel, 1 slowest movement, 255 fastest movement
if FWheelSpeed > 0 then
begin
if FKnobType = ktRange then
begin
newValue := Value + (FMaxValue - FMinValue) * WheelDelta /
((WHEELSPEEDBASE - FWheelSpeed) * WHEELSPEEDFACTOR);
// Check for wrap in either direction
if FWheelWrap then
begin
if newValue > FMaxValue then
newValue := FMinValue
else
if newValue < FMinValue then
newValue := FMaxValue;
end;
end
else
begin
// ktSector
// Jumps are now always 1 or -1, in terms of sectors, note wheel speed
// does not make any difference in ktSector mode since we can only bump 1/-1
// value or it will rounded back to an integral value an not move
if WheelDelta < 0 then
begin
// Move Backwards, check for wrap
newValue := Value - 1.0;
if newValue < FMinValue then
begin
if FWheelWrap then
newValue := FMaxValue
else
newValue := FMinValue;
end;
end
else
begin
// Move Forward, check for wrap
newValue := Value + 1.0;
if newValue >= FMaxValue then
begin
if FWheelWrap then
newValue := FMinValue
else
newValue := FMaxValue;
end;
end;
end;
SetValue(newValue);
end;
if Assigned(FOnKnobValueChange) then
FOnKnobValueChange(Self, Value);
end;
end.