/usr/src/castle-game-engine-5.2.0/x3d/x3d_interpolation.inc is in castle-game-engine-src 5.2.0-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright 2002-2014 Michalis Kamburelis.
This file is part of "Castle Game Engine".
"Castle Game Engine" is free software; see the file COPYING.txt,
included in this distribution, for details about the copyright.
"Castle Game Engine" 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.
----------------------------------------------------------------------------
}
{$ifdef read_interface}
{ }
TAbstractInterpolatorNode = class(TAbstractChildNode)
protected
function KeyRange(const Fraction: Single; out T: Single): Integer;
public
procedure CreateNode; override;
{ Event in } { }
private FEventSet_fraction: TSFFloatEvent;
public property EventSet_fraction: TSFFloatEvent read FEventSet_fraction;
private FFdKey: TMFFloat;
public property FdKey: TMFFloat read FFdKey;
end;
TColorInterpolatorNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFColor;
public property FdKeyValue: TMFColor read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TSFColorEvent;
public property EventValue_changed: TSFColorEvent read FEventValue_changed;
end;
TColorSetInterpolatorNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFColor;
public property FdKeyValue: TMFColor read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TMFColorEvent;
public property EventValue_changed: TMFColorEvent read FEventValue_changed;
end;
TCoordinateInterpolatorNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFVec3f;
public property FdKeyValue: TMFVec3f read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TMFVec3fEvent;
public property EventValue_changed: TMFVec3fEvent read FEventValue_changed;
end;
TCoordinateInterpolator2DNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFVec2f;
public property FdKeyValue: TMFVec2f read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TMFVec2fEvent;
public property EventValue_changed: TMFVec2fEvent read FEventValue_changed;
end;
TEaseInEaseOutNode = class(TAbstractNode)
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
{ Event in } { }
private FEventSet_fraction: TSFFloatEvent;
public property EventSet_fraction: TSFFloatEvent read FEventSet_fraction;
private FFdEaseInEaseOut: TMFVec2f;
public property FdEaseInEaseOut: TMFVec2f read FFdEaseInEaseOut;
private FFdKey: TMFFloat;
public property FdKey: TMFFloat read FFdKey;
{ Event out } { }
private FEventModifiedFraction_changed: TSFFloatEvent;
public property EventModifiedFraction_changed: TSFFloatEvent read FEventModifiedFraction_changed;
end;
TNormalInterpolatorNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFVec3f;
public property FdKeyValue: TMFVec3f read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TMFVec3fEvent;
public property EventValue_changed: TMFVec3fEvent read FEventValue_changed;
end;
TOrientationInterpolatorNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFRotation;
public property FdKeyValue: TMFRotation read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TSFRotationEvent;
public property EventValue_changed: TSFRotationEvent read FEventValue_changed;
end;
TPositionInterpolatorNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFVec3f;
public property FdKeyValue: TMFVec3f read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TSFVec3fEvent;
public property EventValue_changed: TSFVec3fEvent read FEventValue_changed;
end;
TPositionInterpolator2DNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFVec2f;
public property FdKeyValue: TMFVec2f read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TSFVec2fEvent;
public property EventValue_changed: TSFVec2fEvent read FEventValue_changed;
end;
TScalarInterpolatorNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFFloat;
public property FdKeyValue: TMFFloat read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TSFFloatEvent;
public property EventValue_changed: TSFFloatEvent read FEventValue_changed;
end;
TSplinePositionInterpolatorNode = class(TAbstractInterpolatorNode)
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdClosed: TSFBool;
public property FdClosed: TSFBool read FFdClosed;
private FFdKeyValue: TMFVec3f;
public property FdKeyValue: TMFVec3f read FFdKeyValue;
private FFdKeyVelocity: TMFVec3f;
public property FdKeyVelocity: TMFVec3f read FFdKeyVelocity;
private FFdNormalizeVelocity: TSFBool;
public property FdNormalizeVelocity: TSFBool read FFdNormalizeVelocity;
{ Event out } { }
private FEventValue_changed: TSFVec3fEvent;
public property EventValue_changed: TSFVec3fEvent read FEventValue_changed;
end;
TSplinePositionInterpolator2DNode = class(TAbstractInterpolatorNode)
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdClosed: TSFBool;
public property FdClosed: TSFBool read FFdClosed;
private FFdKeyValue: TMFVec2f;
public property FdKeyValue: TMFVec2f read FFdKeyValue;
private FFdKeyVelocity: TMFVec2f;
public property FdKeyVelocity: TMFVec2f read FFdKeyVelocity;
private FFdNormalizeVelocity: TSFBool;
public property FdNormalizeVelocity: TSFBool read FFdNormalizeVelocity;
{ Event out } { }
private FEventValue_changed: TSFVec2fEvent;
public property EventValue_changed: TSFVec2fEvent read FEventValue_changed;
end;
TSplineScalarInterpolatorNode = class(TAbstractInterpolatorNode)
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdClosed: TSFBool;
public property FdClosed: TSFBool read FFdClosed;
private FFdKeyValue: TMFFloat;
public property FdKeyValue: TMFFloat read FFdKeyValue;
private FFdKeyVelocity: TMFFloat;
public property FdKeyVelocity: TMFFloat read FFdKeyVelocity;
private FFdNormalizeVelocity: TSFBool;
public property FdNormalizeVelocity: TSFBool read FFdNormalizeVelocity;
{ Event out } { }
private FEventValue_changed: TSFFloatEvent;
public property EventValue_changed: TSFFloatEvent read FEventValue_changed;
end;
TSquadOrientationInterpolatorNode = class(TAbstractInterpolatorNode)
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFRotation;
public property FdKeyValue: TMFRotation read FFdKeyValue;
private FFdNormalizeVelocity: TSFBool;
public property FdNormalizeVelocity: TSFBool read FFdNormalizeVelocity;
{ Event out } { }
private FEventValue_changed: TSFRotationEvent;
public property EventValue_changed: TSFRotationEvent read FEventValue_changed;
end;
TVectorInterpolatorNode = class(TAbstractInterpolatorNode)
private
procedure EventSet_FractionReceive(Event: TX3DEvent; Value: TX3DField;
const Time: TX3DTime);
public
procedure CreateNode; override;
class function ClassNodeTypeName: string; override;
class function URNMatching(const URN: string): boolean; override;
private FFdKeyValue: TMFFloat;
public property FdKeyValue: TMFFloat read FFdKeyValue;
{ Event out } { }
private FEventValue_changed: TMFFloatEvent;
public property EventValue_changed: TMFFloatEvent read FEventValue_changed;
end;
{$endif read_interface}
{$ifdef read_implementation}
{$define SingleInterpolator :=
function KeyValue(Index: Integer): SingleInterpolatorType;
begin
if Index < FdKeyValue.Items.Count then
Result := FdKeyValue.Items.L[Index] else
Result := SingleInterpolatorDefault;
end;
var
T: Single;
OutputValue: SingleInterpolatorType;
KeyCount, Range: Integer;
begin
if not EventValue_Changed.SendNeeded then Exit;
KeyCount := FdKey.Items.Count;
if KeyCount = 0 then
begin
// Interpolator nodes containing no keys in the key field
// shall not produce any events.
Exit;
end else
begin
Range := KeyRange((Value as TSFFloat).Value, T);
if Range = 0 then
OutputValue := KeyValue(0) else
if Range = KeyCount then
OutputValue := KeyValue(KeyCount - 1) else
OutputValue := SingleInterpolatorLerp(T, KeyValue(Range - 1), KeyValue(Range));
end;
EventValue_Changed.Send(OutputValue, Time);
end;}
{$define MultipleInterpolator :=
var
KeyCount: Integer;
// We pass Self as ParentNode to
// MultipleInterpolatorFieldType.CreateUndefined.
// This is not required, ParentNode could be @nil and everything
// will work Ok, but setting ParentNode allows Avalon Logger node
// to display "sending node" information, useful for debugging.
function KeyValue(Index: Integer): MultipleInterpolatorFieldType;
var
FrameValues: Integer;
begin
FrameValues := FdKeyValue.Items.Count div KeyCount;
Result := MultipleInterpolatorFieldType.CreateUndefined(Self, '', false);
if (Index + 1) * FrameValues <= FdKeyValue.Items.Count then
begin
Result.Items.AddListRange(FdKeyValue.Items, Index * FrameValues, FrameValues);
end else
OnWarning(wtMajor, 'VRML/X3D', Format('Not enough keyValue items for %s interpolator',
[NodeTypeName]));
end;
// This actually knows that Index2 = Index1 + 1, but assumes only
// Index2 > Index1
function KeyValueLerp(const T: Single;
Index1, Index2: Integer): MultipleInterpolatorFieldType;
var
FrameValues: Integer;
begin
FrameValues := FdKeyValue.Items.Count div KeyCount;
Result := MultipleInterpolatorFieldType.CreateUndefined(Self, '', false);
if (Index2 + 1) * FrameValues <= FdKeyValue.Items.Count then
begin
Result.Items.MultipleInterpolatorAssignLerp(
T, FdKeyValue.Items, FdKeyValue.Items,
Index1 * FrameValues, Index2 * FrameValues, FrameValues);
end else
OnWarning(wtMajor, 'VRML/X3D', Format('Not enough keyValue items for %s interpolator',
[NodeTypeName]));
end;
var
T: Single;
OutputValue: MultipleInterpolatorFieldType;
Range: Integer;
begin
if not EventValue_Changed.SendNeeded then Exit;
KeyCount := FdKey.Items.Count;
if KeyCount = 0 then
begin
// Interpolator nodes containing no keys in the key field
// shall not produce any events.
// Moreover, "div KeyCount" would cause errors if we would try
// to get some KeyValue or KeyValueLerp.
Exit;
end else
begin
Range := KeyRange((Value as TSFFloat).Value, T);
if Range = 0 then
OutputValue := KeyValue(0) else
if Range = KeyCount then
OutputValue := KeyValue(KeyCount - 1) else
OutputValue := KeyValueLerp(T, Range - 1, Range);
end;
try
EventValue_Changed.Send(OutputValue, Time);
finally
FreeAndNil(OutputValue);
end;
end;}
procedure TAbstractInterpolatorNode.CreateNode;
begin
inherited;
FEventSet_fraction := TSFFloatEvent.Create(Self, 'set_fraction', true);
Events.Add(FEventSet_fraction);
FFdKey := TMFFloat.Create(Self, 'key', []);
Fields.Add(FFdKey);
{ X3D specification comment: (-Inf,Inf) }
DefaultContainerField := 'children';
end;
function TAbstractInterpolatorNode.KeyRange(
const Fraction: Single; out T: Single): Integer;
begin
Result := X3DNodes.KeyRange(FdKey.Items, Fraction, T);
end;
procedure TColorInterpolatorNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFColor.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: [0,1] }
FEventValue_changed := TSFColorEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TColorInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'ColorInterpolator';
end;
class function TColorInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNVRML97Nodes + ClassNodeTypeName) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TColorInterpolatorNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define SingleInterpolatorType := TVector3Single}
{$define SingleInterpolatorDefault := ZeroVector3Single}
{$define SingleInterpolatorLerp := LerpRgbInHsv}
SingleInterpolator
procedure TColorSetInterpolatorNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFColor.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FEventValue_changed := TMFColorEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TColorSetInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'ColorSetInterpolator';
end;
class function TColorSetInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNVRML97Nodes + ClassNodeTypeName) or
(URN = URNX3DNodes + ClassNodeTypeName) or
(URN = URNKambiNodes + ClassNodeTypeName) or
(URN = URNKambiNodes2 + ClassNodeTypeName);
end;
procedure TColorSetInterpolatorNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define MultipleInterpolatorFieldType := TMFColor}
{$define MultipleInterpolatorAssignLerp := AssignLerpRgbInHsv}
MultipleInterpolator
procedure TCoordinateInterpolatorNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFVec3f.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FEventValue_changed := TMFVec3fEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TCoordinateInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'CoordinateInterpolator';
end;
class function TCoordinateInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNVRML97Nodes + ClassNodeTypeName) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TCoordinateInterpolatorNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define MultipleInterpolatorFieldType := TMFVec3f}
{$define MultipleInterpolatorAssignLerp := AssignLerp}
MultipleInterpolator
procedure TCoordinateInterpolator2DNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFVec2f.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FEventValue_changed := TMFVec2fEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TCoordinateInterpolator2DNode.ClassNodeTypeName: string;
begin
Result := 'CoordinateInterpolator2D';
end;
class function TCoordinateInterpolator2DNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TCoordinateInterpolator2DNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define MultipleInterpolatorFieldType := TMFVec2f}
{$define MultipleInterpolatorAssignLerp := AssignLerp}
MultipleInterpolator
procedure TEaseInEaseOutNode.CreateNode;
begin
inherited;
FEventSet_fraction := TSFFloatEvent.Create(Self, 'set_fraction', true);
Events.Add(FEventSet_fraction);
FFdEaseInEaseOut := TMFVec2f.Create(Self, 'easeInEaseOut', []);
Fields.Add(FFdEaseInEaseOut);
{ X3D specification comment: (-Inf,Inf) }
FFdKey := TMFFloat.Create(Self, 'key', []);
Fields.Add(FFdKey);
{ X3D specification comment: (-Inf,Inf) }
FEventModifiedFraction_changed := TSFFloatEvent.Create(Self, 'modifiedFraction_changed', false);
Events.Add(FEventModifiedFraction_changed);
DefaultContainerField := 'children';
end;
class function TEaseInEaseOutNode.ClassNodeTypeName: string;
begin
Result := 'EaseInEaseOut';
end;
class function TEaseInEaseOutNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TNormalInterpolatorNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFVec3f.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FEventValue_changed := TMFVec3fEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TNormalInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'NormalInterpolator';
end;
class function TNormalInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNVRML97Nodes + ClassNodeTypeName) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TNormalInterpolatorNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define MultipleInterpolatorFieldType := TMFVec3f}
{$define MultipleInterpolatorAssignLerp := AssignLerpNormalize}
MultipleInterpolator
procedure TOrientationInterpolatorNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFRotation.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: [-1,1] or (-Inf,Inf) }
FEventValue_changed := TSFRotationEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TOrientationInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'OrientationInterpolator';
end;
class function TOrientationInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNVRML97Nodes + ClassNodeTypeName) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TOrientationInterpolatorNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define SingleInterpolatorType := TVector4Single}
{$define SingleInterpolatorDefault := ZeroVector4Single}
{ In my tests, NLerp works as good as SLerp here.
Although NLerp doesn't guarantee constant velocity, and should be
faster --- neither of these qualities seem to be noticeable
in practice. }
{$define SingleInterpolatorLerp := SLerp}
SingleInterpolator
procedure TPositionInterpolatorNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFVec3f.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FEventValue_changed := TSFVec3fEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TPositionInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'PositionInterpolator';
end;
class function TPositionInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNVRML97Nodes + ClassNodeTypeName) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TPositionInterpolatorNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define SingleInterpolatorType := TVector3Single}
{$define SingleInterpolatorDefault := ZeroVector3Single}
{$define SingleInterpolatorLerp := Lerp}
SingleInterpolator
procedure TPositionInterpolator2DNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFVec2f.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FEventValue_changed := TSFVec2fEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TPositionInterpolator2DNode.ClassNodeTypeName: string;
begin
Result := 'PositionInterpolator2D';
end;
class function TPositionInterpolator2DNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TPositionInterpolator2DNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define SingleInterpolatorType := TVector2Single}
{$define SingleInterpolatorDefault := ZeroVector2Single}
{$define SingleInterpolatorLerp := Lerp}
SingleInterpolator
procedure TScalarInterpolatorNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFFloat.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FEventValue_changed := TSFFloatEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TScalarInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'ScalarInterpolator';
end;
class function TScalarInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNVRML97Nodes + ClassNodeTypeName) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TScalarInterpolatorNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define SingleInterpolatorType := Single}
{$define SingleInterpolatorDefault := 0}
{$define SingleInterpolatorLerp := Lerp}
SingleInterpolator
procedure TSplinePositionInterpolatorNode.CreateNode;
begin
inherited;
FFdClosed := TSFBool.Create(Self, 'closed', false);
Fields.Add(FFdClosed);
FFdKeyValue := TMFVec3f.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FFdKeyVelocity := TMFVec3f.Create(Self, 'keyVelocity', []);
Fields.Add(FFdKeyVelocity);
{ X3D specification comment: (-Inf,Inf) }
FFdNormalizeVelocity := TSFBool.Create(Self, 'normalizeVelocity', false);
Fields.Add(FFdNormalizeVelocity);
FEventValue_changed := TSFVec3fEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
end;
class function TSplinePositionInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'SplinePositionInterpolator';
end;
class function TSplinePositionInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TSplinePositionInterpolator2DNode.CreateNode;
begin
inherited;
FFdClosed := TSFBool.Create(Self, 'closed', false);
Fields.Add(FFdClosed);
FFdKeyValue := TMFVec2f.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FFdKeyVelocity := TMFVec2f.Create(Self, 'keyVelocity', []);
Fields.Add(FFdKeyVelocity);
{ X3D specification comment: (-Inf,Inf) }
FFdNormalizeVelocity := TSFBool.Create(Self, 'normalizeVelocity', false);
Fields.Add(FFdNormalizeVelocity);
FEventValue_changed := TSFVec2fEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
end;
class function TSplinePositionInterpolator2DNode.ClassNodeTypeName: string;
begin
Result := 'SplinePositionInterpolator2D';
end;
class function TSplinePositionInterpolator2DNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TSplineScalarInterpolatorNode.CreateNode;
begin
inherited;
FFdClosed := TSFBool.Create(Self, 'closed', false);
Fields.Add(FFdClosed);
FFdKeyValue := TMFFloat.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FFdKeyVelocity := TMFFloat.Create(Self, 'keyVelocity', []);
Fields.Add(FFdKeyVelocity);
{ X3D specification comment: (-Inf,Inf) }
FFdNormalizeVelocity := TSFBool.Create(Self, 'normalizeVelocity', false);
Fields.Add(FFdNormalizeVelocity);
FEventValue_changed := TSFFloatEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
end;
class function TSplineScalarInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'SplineScalarInterpolator';
end;
class function TSplineScalarInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TSquadOrientationInterpolatorNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFRotation.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FFdNormalizeVelocity := TSFBool.Create(Self, 'normalizeVelocity', false);
Fields.Add(FFdNormalizeVelocity);
FEventValue_changed := TSFRotationEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
end;
class function TSquadOrientationInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'SquadOrientationInterpolator';
end;
class function TSquadOrientationInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNX3DNodes + ClassNodeTypeName);
end;
procedure TVectorInterpolatorNode.CreateNode;
begin
inherited;
FFdKeyValue := TMFFloat.Create(Self, 'keyValue', []);
Fields.Add(FFdKeyValue);
{ X3D specification comment: (-Inf,Inf) }
FEventValue_changed := TMFFloatEvent.Create(Self, 'value_changed', false);
Events.Add(FEventValue_changed);
DefaultContainerField := 'children';
EventSet_Fraction.OnReceive.Add(@EventSet_FractionReceive);
end;
class function TVectorInterpolatorNode.ClassNodeTypeName: string;
begin
Result := 'VectorInterpolator';
end;
class function TVectorInterpolatorNode.URNMatching(const URN: string): boolean;
begin
Result := (inherited URNMatching(URN)) or
(URN = URNVRML97Nodes + ClassNodeTypeName) or
(URN = URNX3DNodes + ClassNodeTypeName) or
(URN = URNKambiNodes + ClassNodeTypeName) or
(URN = URNKambiNodes2 + ClassNodeTypeName);
end;
procedure TVectorInterpolatorNode.EventSet_FractionReceive(
Event: TX3DEvent; Value: TX3DField; const Time: TX3DTime);
{$define MultipleInterpolatorFieldType := TMFFloat}
{$define MultipleInterpolatorAssignLerp := AssignLerp}
MultipleInterpolator
procedure RegisterInterpolationNodes;
begin
NodesManager.RegisterNodeClasses([
TColorInterpolatorNode,
TColorSetInterpolatorNode,
TCoordinateInterpolatorNode,
TCoordinateInterpolator2DNode,
TEaseInEaseOutNode,
TNormalInterpolatorNode,
TOrientationInterpolatorNode,
TPositionInterpolatorNode,
TPositionInterpolator2DNode,
TScalarInterpolatorNode,
TSplinePositionInterpolatorNode,
TSplinePositionInterpolator2DNode,
TSplineScalarInterpolatorNode,
TSquadOrientationInterpolatorNode,
TVectorInterpolatorNode
]);
end;
{$endif read_implementation}
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