KF2-Dev-Scripts/Engine/Classes/SkelControlLimb.uc

class SkelControlLimb extends SkelControlBase
	native(Anim);

/**
 * Copyright 1998-2013 Epic Games, Inc. All Rights Reserved.
 *
 *	Controller Specifically designed for 2-bone limbs with an elbow-like joint in the middle.
 *	Should be set up to act on the bone at the end of the limb - ie the hand in the case of an arm.
 */

cpptext
{
	// USkelControlBase interface
	virtual void GetAffectedBones(INT BoneIndex, USkeletalMeshComponent* SkelComp, TArray<INT>& OutBoneIndices);
	virtual void CalculateNewBoneTransforms(INT BoneIndex, USkeletalMeshComponent* SkelComp, TArray<FBoneAtom>& OutBoneTransforms);

	virtual INT GetWidgetCount();
	virtual FBoneAtom GetWidgetTM(INT WidgetIndex, USkeletalMeshComponent* SkelComp, INT BoneIndex);
	virtual void HandleWidgetDrag(INT WidgetIndex, const FVector& DragVec);
	virtual void DrawSkelControl3D(const FSceneView* View, FPrimitiveDrawInterface* PDI, USkeletalMeshComponent* SkelComp, INT BoneIndex);
}

/** Where you want the controlled bone to be. Will be placed as close as possible within the constraints of the limb. */
var(Effector)	vector					EffectorLocation;

/** Reference frame that the DesiredLocation is defined in. */
var(Effector)	EBoneControlSpace		EffectorLocationSpace;

/** Name of bone used if DesiredLocationSpace is BCS_OtherBoneSpace or BCS_BaseMeshSpace. */
var(Effector)	name					EffectorSpaceBoneName;

/** Point in space where the joint should move towards as it bends. */
var(Joint)		vector					JointTargetLocation;

/** Reference frame in which JointTargetLocation is defined. */
var(Joint)		EBoneControlSpace		JointTargetLocationSpace;
/** Name of bone used if JointTargetLocationSpace is BCS_OtherBoneSpace. */
var(Joint)		name					JointTargetSpaceBoneName;
/** Apply an Offset to the Joint (Elbow) bone. This will create stretching! */
var(Joint)      Vector                  JointOffset;
/** Space this offset is in */
var(Joint)      EBoneControlSpace       JointOffsetSpace;
/** Optional bone name to be used by JoinOffsetSpace */
var(Joint)      name                    JointOffsetBoneName;

/** Axis of graphical bone to align along the length of the bone. */
var(Limb)		EAxis					BoneAxis;

/** Axis of graphical bone to align along the hinge axis of the joint. */
var(Limb)		EAxis					JointAxis;

/** If we want to invert BoneAxis when constructing the transform for the bones. */
var(Limb)		bool					bInvertBoneAxis;

/** If we want to invert JointAxis when constructing the transform for the bones. */
var(Limb)		bool					bInvertJointAxis;
/** Experiment to Rotate Joint Bone, rather than creating a new Matrix for it. */
var(Limb)       bool                    bRotateJoint;

/**
 *	If true, modify the relative rotation between the end 'effector' bone and its parent bone. If false,
 *	the rotation of the end bone will not be modified by this controller.
 */
var(Limb)		bool					bMaintainEffectorRelRot;

/** If true, rotation of effector bone is copied from the bone specified by EffectorSpaceBoneName. */
var(Limb)		bool					bTakeRotationFromEffectorSpace;

/** Is Limb allowed to stretch to reach its target? */
var()	bool		bAllowStretching;
/**
 * Stretching limits.
 * X represents the relative length of the limb at which it will start stretching.
 * Y represents the maximum stretch factor allowed.
 * For example (X=0.5,Y=2.f) will mean that the limb is allowed to stretch up to twice its length.
 * And it will start stretching when shoulder to effector distance is half of the full arm length.
 */
var()	Vector2D	StretchLimits;
/** Name of Roll Bone to stretch as well. */
var()	Name		StretchRollBoneName;

defaultproperties
{
	EffectorLocationSpace=BCS_WorldSpace
	JointTargetLocationSpace=BCS_WorldSpace

	BoneAxis=AXIS_X
	JointAxis=AXIS_Y

	StretchLimits=(X=0.71f,Y=1.2f)

	CategoryDesc = "Limb"

	bIgnoreWhenNotRendered=TRUE // IK Controllers can typically be skipped when mesh is not rendered.
}
upload 2020-12-13 15:01:13 +00:00			`class SkelControlLimb extends SkelControlBase`
			`native(Anim);`

			`/**`
			`* Copyright 1998-2013 Epic Games, Inc. All Rights Reserved.`
			`*`
			`* Controller Specifically designed for 2-bone limbs with an elbow-like joint in the middle.`
			`* Should be set up to act on the bone at the end of the limb - ie the hand in the case of an arm.`
			`*/`

			`cpptext`
			`{`
			`// USkelControlBase interface`
			`virtual void GetAffectedBones(INT BoneIndex, USkeletalMeshComponent* SkelComp, TArray<INT>& OutBoneIndices);`
			`virtual void CalculateNewBoneTransforms(INT BoneIndex, USkeletalMeshComponent* SkelComp, TArray<FBoneAtom>& OutBoneTransforms);`

			`virtual INT GetWidgetCount();`
			`virtual FBoneAtom GetWidgetTM(INT WidgetIndex, USkeletalMeshComponent* SkelComp, INT BoneIndex);`
			`virtual void HandleWidgetDrag(INT WidgetIndex, const FVector& DragVec);`
			`virtual void DrawSkelControl3D(const FSceneView* View, FPrimitiveDrawInterface* PDI, USkeletalMeshComponent* SkelComp, INT BoneIndex);`
			`}`

			`/** Where you want the controlled bone to be. Will be placed as close as possible within the constraints of the limb. */`
			`var(Effector) vector EffectorLocation;`

			`/** Reference frame that the DesiredLocation is defined in. */`
			`var(Effector) EBoneControlSpace EffectorLocationSpace;`

			`/** Name of bone used if DesiredLocationSpace is BCS_OtherBoneSpace or BCS_BaseMeshSpace. */`
			`var(Effector) name EffectorSpaceBoneName;`

			`/** Point in space where the joint should move towards as it bends. */`
			`var(Joint) vector JointTargetLocation;`

			`/** Reference frame in which JointTargetLocation is defined. */`
			`var(Joint) EBoneControlSpace JointTargetLocationSpace;`
			`/** Name of bone used if JointTargetLocationSpace is BCS_OtherBoneSpace. */`
			`var(Joint) name JointTargetSpaceBoneName;`
			`/** Apply an Offset to the Joint (Elbow) bone. This will create stretching! */`
			`var(Joint) Vector JointOffset;`
			`/** Space this offset is in */`
			`var(Joint) EBoneControlSpace JointOffsetSpace;`
			`/** Optional bone name to be used by JoinOffsetSpace */`
			`var(Joint) name JointOffsetBoneName;`

			`/** Axis of graphical bone to align along the length of the bone. */`
			`var(Limb) EAxis BoneAxis;`

			`/** Axis of graphical bone to align along the hinge axis of the joint. */`
			`var(Limb) EAxis JointAxis;`

			`/** If we want to invert BoneAxis when constructing the transform for the bones. */`
			`var(Limb) bool bInvertBoneAxis;`

			`/** If we want to invert JointAxis when constructing the transform for the bones. */`
			`var(Limb) bool bInvertJointAxis;`
			`/** Experiment to Rotate Joint Bone, rather than creating a new Matrix for it. */`
			`var(Limb) bool bRotateJoint;`

			`/**`
			`* If true, modify the relative rotation between the end 'effector' bone and its parent bone. If false,`
			`* the rotation of the end bone will not be modified by this controller.`
			`*/`
			`var(Limb) bool bMaintainEffectorRelRot;`

			`/** If true, rotation of effector bone is copied from the bone specified by EffectorSpaceBoneName. */`
			`var(Limb) bool bTakeRotationFromEffectorSpace;`

			`/** Is Limb allowed to stretch to reach its target? */`
			`var() bool bAllowStretching;`
			`/**`
			`* Stretching limits.`
			`* X represents the relative length of the limb at which it will start stretching.`
			`* Y represents the maximum stretch factor allowed.`
			`* For example (X=0.5,Y=2.f) will mean that the limb is allowed to stretch up to twice its length.`
			`* And it will start stretching when shoulder to effector distance is half of the full arm length.`
			`*/`
			`var() Vector2D StretchLimits;`
			`/** Name of Roll Bone to stretch as well. */`
			`var() Name StretchRollBoneName;`

			`defaultproperties`
			`{`
			`EffectorLocationSpace=BCS_WorldSpace`
			`JointTargetLocationSpace=BCS_WorldSpace`

			`BoneAxis=AXIS_X`
			`JointAxis=AXIS_Y`

			`StretchLimits=(X=0.71f,Y=1.2f)`

			`CategoryDesc = "Limb"`

			`bIgnoreWhenNotRendered=TRUE // IK Controllers can typically be skipped when mesh is not rendered.`
			`}`