477 lines
18 KiB
Ucode
477 lines
18 KiB
Ucode
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/**
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* Copyright 1998-2013 Epic Games, Inc. All Rights Reserved.
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*/
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class GameThirdPersonCameraMode extends Object
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config(Camera)
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native(Camera);
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/**
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* Contains all the information needed to define a camera
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* mode.
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*/
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/** Ref to the camera object that owns this mode object. */
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var transient GameThirdPersonCamera ThirdPersonCam;
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/** FOV for camera to use */
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var() const config float FOVAngle;
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/** Blend Time to and from this view mode */
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var() float BlendTime;
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/**
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* True if, while in this mode, the camera should be tied to the viewtarget rotation.
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* This is typical for the normal walking-around camera, since the controls rotate the controller
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* and the camera follows. This can be false if you want free control of the camera, independent
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* of the viewtarget's orient -- we use this for vehicles. Note that if this is false,
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*/
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var() const protected bool bLockedToViewTarget;
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/**
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* True if, while in this mode, looking around should be directly mapped to stick position
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* as opposed to relative to previous camera positions.
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*/
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var() const protected bool bDirectLook;
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/**
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* True if, while in this mode, the camera should interpolate towards a following position
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* in relation to the target and it's motion. Ignored if bLockedToViewTarget is set to true.
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*/
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var() const protected bool bFollowTarget;
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/*
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* How fast the camera should track to follow behind the viewtarget. 0.f for no following.
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* Only used if bLockedToViewTarget is FALSE
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*/
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var() const protected float FollowingInterpSpeed_Pitch;
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var() const protected float FollowingInterpSpeed_Yaw;
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var() const protected float FollowingInterpSpeed_Roll;
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/** Actual following interp speed gets scaled from FollowingInterpSpeed to zero between velocities of this value and zero. */
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var() const protected float FollowingCameraVelThreshold;
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/** True means camera will attempt to smoothly interpolate to its new position. False will snap it to it's new position. */
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var() bool bInterpLocation;
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/** Controls interpolation speed of location for camera origin. Ignored if bInterpLocation is false. */
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var() protected float OriginLocInterpSpeed;
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/**
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* This is a special case of origin location interpolation. If true, interpolaton will be done on each axis independently, with the specified speeds.
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* Ignored if bInterpLocation is false.
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*/
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var() protected bool bUsePerAxisOriginLocInterp;
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var() protected vector PerAxisOriginLocInterpSpeed;
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/** True means camera will attempt to smoothly interpolate to its new rotation. False will snap it to it's new rotation. */
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var() bool bInterpRotation;
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/** Controls interpolation speed of rotation for the camera origin. Ignored if bInterpRotation is false. */
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var() protected float OriginRotInterpSpeed;
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/** Whether rotation interpolation happens at constant speed or not */
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var() bool bRotInterpSpeedConstant;
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/** Adjustment vector to apply to camera view offset when target is strafing to the left */
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var() const protected vector StrafeLeftAdjustment;
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/** Adjustment vector to apply to camera view offset when target is strafing to the right */
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var() const protected vector StrafeRightAdjustment;
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/** Velocity at (and above) which the full adjustment should be applied. */
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var() const protected float StrafeOffsetScalingThreshold;
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/** Interpolation speed for interpolating to a NONZERO strafe offsets. Higher is faster/tighter interpolation. */
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var() const protected float StrafeOffsetInterpSpeedIn;
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/** Interpolation speed for interpolating to a ZERO strafe offset. Higher is faster/tighter interpolation. */
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var() const protected float StrafeOffsetInterpSpeedOut;
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/** Strafe offset last tick, used for interpolation. */
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var protected transient vector LastStrafeOffset;
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/** Adjustment vector to apply to camera view offset when target is moving forward */
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var() const protected vector RunFwdAdjustment;
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/** Adjustment vector to apply to camera view offset when target is moving backward */
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var() const protected vector RunBackAdjustment;
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/** Velocity at (and above) which the full adjustment should be applied. */
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var() const protected float RunOffsetScalingThreshold;
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/** Interpolation speed for interpolating to a NONZERO offset. Higher is faster/tighter interpolation. */
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var() const protected float RunOffsetInterpSpeedIn;
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/** Interpolation speed for interpolating to a ZERO offset. Higher is faster/tighter interpolation. */
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var() const protected float RunOffsetInterpSpeedOut;
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/** Run offset last tick, used for interpolation. */
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var protected transient vector LastRunOffset;
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/**
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* An offset from the location of the viewtarget, in the viewtarget's local space.
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* Used to calculate the "worst case" camera location, which is where the camera should retreat to
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* if tightly obstructed.
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*/
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var() protected vector WorstLocOffset;
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/** True to turn do predictive camera avoidance, false otherwise */
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var() const bool bDoPredictiveAvoidance;
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/** TRUE to do a raytrace from camera base loc to worst loc, just to be sure it's cool. False to skip it */
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var() const bool bValidateWorstLoc;
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/** If TRUE, all camera collision is disabled */
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var() bool bSkipCameraCollision;
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/** Offset, in the camera target's local space, from the camera target to the camera's origin. */
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var() const protected vector TargetRelativeCameraOriginOffset;
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/** Supported viewport configurations. */
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enum ECameraViewportTypes
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{
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CVT_16to9_Full,
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CVT_16to9_VertSplit,
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CVT_16to9_HorizSplit,
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CVT_4to3_Full,
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CVT_4to3_HorizSplit,
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CVT_4to3_VertSplit,
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};
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struct native ViewOffsetData
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{
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/** View point offset for high player view pitch */
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var() vector OffsetHigh;
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/** View point offset for medium (horizon) player view pitch */
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var() vector OffsetMid;
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/** View point offset for low player view pitch */
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var() vector OffsetLow;
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};
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/** contains offsets from camera target to camera loc */
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var() const protected ViewOffsetData ViewOffset;
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/** TRUE to smooth the interp between high/mid/low, false to blend linearly between high <-> mid <-> low */
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var() const protected bool bSmoothViewOffsetPitchChanges;
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/** viewoffset adjustment vectors for each possible viewport type, so the game looks close to the same in each */
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var() const protected ViewOffsetData ViewOffset_ViewportAdjustments[ECameraViewportTypes.EnumCount];
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/** whether delta or actual view offset should be applied to the camera location */
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var() bool bApplyDeltaViewOffset;
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/** Optional parameters for DOF adjustments. */
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var(DepthOfField) const protected bool bAdjustDOF;
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var(DepthOfField) const protected float DOF_FalloffExponent;
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var(DepthOfField) const protected float DOF_BlurKernelSize;
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var(DepthOfField) const protected float DOF_FocusInnerRadius;
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var(DepthOfField) const protected float DOF_MaxNearBlurAmount;
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var(DepthOfField) const protected float DOF_MaxFarBlurAmount;
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var transient protected bool bDOFUpdated;
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var protected transient float LastDOFRadius;
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var protected transient float LastDOFDistance;
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var(DepthOfField) protected const float DOFDistanceInterpSpeed;
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var(DepthOfField) protected const vector DOFTraceExtent;
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/** Maps out how the DOF inner radius changes over distance. */
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var(DepthOfField) protected const float DOF_RadiusFalloff;
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var(DepthOfField) protected const vector2d DOF_RadiusRange;
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var(DepthOfField) protected const vector2d DOF_RadiusDistRange;
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/** Whether camera anims and other post processing should change the FOV */
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var bool bNoFOVPostProcess;
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/** If TRUE ViewOffset will only be interpolated between camera mode transitions, and then be instantaneous */
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var() bool bInterpViewOffsetOnlyForCamTransition;
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/** Keep track of our ViewOffset Interpolation factor */
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var float ViewOffsetInterp;
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/** We optionally interpolate the results of AdjustViewOffset() to prevent pops when a cameramode changes its adjustment suddenly. */
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var() protected float OffsetAdjustmentInterpSpeed;
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/** Keep track of the current viewport type as computed by GetViewOffset() */
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var protected transient ECameraViewportTypes CurrentViewportType;
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cpptext
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{
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// GearThirdPersonCameraMode interface
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/**
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* Calculates and returns the ideal view offset for the specified camera mode.
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* The offset is relative to the Camera's pos/rot and calculated by interpolating
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* 2 ideal view points based on the player view pitch.
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*
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* @param ViewedPawn Camera target pawn
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* @param DeltaTime Delta time since last frame.
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* @param ViewRotation Rot of the camera
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*/
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virtual FVector GetViewOffset(class APawn* ViewedPawn, FLOAT DeltaTime, const FVector& ViewOrigin, const FRotator& ViewRotation);
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FLOAT GetViewOffsetInterpSpeed(class APawn* ViewedPawn, FLOAT DeltaTime);
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virtual FRotator GetViewOffsetRotBase( class APawn* ViewedPawn, const FTViewTarget& VT );
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/** Returns View relative offsets */
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virtual void GetBaseViewOffsets(class APawn* ViewedPawn, BYTE ViewportConfig, FLOAT DeltaTime, FVector& out_Low, FVector& out_Mid, FVector& out_High);
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/** Returns true if mode should be using direct-look mode, false otherwise */
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virtual UBOOL UseDirectLookMode(class APawn* CameraTarget);
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/** Returns true if mode should lock camera to view target, false otherwise */
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virtual UBOOL LockedToViewTarget(class APawn* CameraTarget);
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/**
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* Returns true if this mode should do target following. If true is returned, interp speeds are filled in.
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* If false is returned, interp speeds are not altered.
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*/
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virtual UBOOL ShouldFollowTarget(class APawn* CameraTarget, FLOAT& PitchInterpSpeed, FLOAT& YawInterpSpeed, FLOAT& RollInterpSpeed);
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/** Returns an offset, in pawn-local space, to be applied to the camera origin. */
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virtual FVector GetTargetRelativeOriginOffset(class APawn* TargetPawn);
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/**
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* Returns location and rotation, in world space, of the camera's basis point. The camera will rotate
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* around this point, offsets are applied from here, etc.
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*/
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virtual void GetCameraOrigin(class APawn* TargetPawn, FVector& OriginLoc, FRotator& OriginRot);
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/**
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* Interpolates from previous location/rotation toward desired location/rotation
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*/
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virtual void InterpolateCameraOrigin( class APawn* TargetPawn, FLOAT DeltaTime, FVector& out_ActualCameraOrigin, FVector const& IdealCameraOrigin, FRotator& out_ActualCameraOriginRot, FRotator const& IdealCameraOriginRot );
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/** Returns time to interpolate location/rotation changes. */
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virtual FLOAT GetBlendTime(class APawn* Pawn);
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/** Returns time to interpolate FOV changes. */
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virtual FLOAT GetFOVBlendTime(class APawn* Pawn);
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/*
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* Interpolates a camera's origin from the last location to a new ideal location
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* @CameraTargetRot - Rotation of the camera target, used to create a reference frame for interpolation
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* @LastLoc - Last location of the camera
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* @IdealLoc - Ideal location for the camera this frame
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* @DeltaTime - time step
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* @return if bInterpLocation is false, returns IdealLoc, otherwise if bUsePerAxisOriginLocInterp is TRUE it interpolates relative to the target axis via PerAxisOriginLocInterpSpeed, else via constant OriginLocInterpSpeed
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*/
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virtual FVector InterpolateCameraOriginLoc(class APawn* TargetPawn, FRotator const& CameraTargetRot, FVector const& LastLoc, FVector const& IdealLoc, FLOAT DeltaTime);
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virtual FRotator InterpolateCameraOriginRot(class APawn* TargetPawn, FRotator const& LastRot, FRotator const& IdealRot, FLOAT DeltaTime);
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virtual FVector ApplyViewOffset( class APawn* ViewedPawn, const FVector& CameraOrigin, const FVector& ActualViewOffset, const FVector& DeltaViewOffset, const FTViewTarget& OutVT );
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protected:
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virtual FLOAT GetViewPitch(APawn* TargetPawn, FRotator const& ViewRotation) const;
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public:
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};
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/** Called when this mode is initially created/new'd */
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function Init();
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/** Called when Camera mode becomes active */
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function OnBecomeActive(Pawn TargetPawn, GameThirdPersonCameraMode PrevMode)
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{
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// Setup BlendTime for ViewOffsets
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if( BlendTime > 0.f )
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{
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ViewOffsetInterp = 1 / BlendTime;
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}
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else
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{
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ViewOffsetInterp = 0;
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}
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}
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/** Called when camera mode becomes inactive */
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function OnBecomeInActive(Pawn TargetPawn, GameThirdPersonCameraMode NewMode);
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/**
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* Allows mode to make any final situational adjustments to the base view offset.
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*/
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event vector AdjustViewOffset( Pawn P, vector Offset )
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{
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// no adjustment by default
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return Offset;
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}
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/** Returns FOV that this camera mode desires. */
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function float GetDesiredFOV( Pawn ViewedPawn )
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{
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return FOVAngle;
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}
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/**
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* Returns the "worst case" camera location for this camera mode.
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* This is the position that the camera penetration avoidance is based off of,
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* so it should be a guaranteed safe place to put the camera.
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* @param TargetPawn Pawn being viewed.
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* @param CurrentViewTarget current desired camera POV. Minus penetration checks.
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*/
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simulated event vector GetCameraWorstCaseLoc(Pawn TargetPawn, TViewTarget CurrentViewTarget)
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{
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return TargetPawn.Location + (WorstLocOffset >> TargetPawn.Rotation);
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}
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/**
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* Camera mode has a chance to set a focus point, if it so chooses.
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* Return true if setting one, false if not.
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*/
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simulated function bool SetFocusPoint(Pawn ViewedPawn)
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{
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// no focus point by default
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return FALSE;
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}
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simulated function ProcessViewRotation( float DeltaTime, Actor ViewTarget, out Rotator out_ViewRotation, out Rotator out_DeltaRot );
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simulated protected function vector GetDOFFocusLoc(Actor TraceOwner, vector StartTrace, vector EndTrace)
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{
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return DOFTrace(TraceOwner, StartTrace, EndTrace);
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}
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/** Modeled after CalcWeaponFire to avoid triggers. Consider moving to native code and using a single line check call? */
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simulated protected function vector DOFTrace(Actor TraceOwner, vector StartTrace, vector EndTrace)
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{
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local vector HitLocation, HitNormal;
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local Actor HitActor;
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// Perform trace to retrieve hit info
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HitActor = TraceOwner.Trace(HitLocation, HitNormal, EndTrace, StartTrace, TRUE, DOFTraceExtent,, TraceOwner.TRACEFLAG_Bullet);
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// If we didn't hit anything, then set the HitLocation as being the EndTrace location
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if( HitActor == None )
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{
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HitLocation = EndTrace;
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}
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// `log("DOF trace hit"@HitActor);
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// check to see if we've hit a trigger.
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// In this case, we want to add this actor to the list so we can give it damage, and then continue tracing through.
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if( HitActor != None )
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{
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if ( !HitActor.bBlockActors &&
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( HitActor.IsA('Trigger') || HitActor.IsA('TriggerVolume') ) )
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{
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// disable collision temporarily for the trigger so that we can catch anything inside the trigger
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HitActor.bProjTarget = false;
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// recurse another trace
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// `log("... recursing!");
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HitLocation = DOFTrace(TraceOwner, HitLocation, EndTrace);
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// and reenable collision for the trigger
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HitActor.bProjTarget = true;
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}
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}
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return HitLocation;
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}
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/** Gives mode a chance to adjust/override postprocess as desired. */
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simulated function UpdatePostProcess(const out TViewTarget VT, float DeltaTime)
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{
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local vector FocusLoc, StartTrace, EndTrace, CamDir;
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local float FocusDist, SubjectDist, Pct;
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bDOFUpdated = FALSE;
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if (bAdjustDOF)
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{
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// nudge forward a little, in case camera gets itself in a wierd place.
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CamDir = vector(VT.POV.Rotation);
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StartTrace = VT.POV.Location + CamDir * 10;
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EndTrace = StartTrace + CamDir * 50000;
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FocusLoc = GetDOFFocusLoc(VT.Target, StartTrace, EndTrace);
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SubjectDist = VSize(FocusLoc - StartTrace);
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if (!ThirdPersonCam.bResetCameraInterpolation)
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{
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FocusDist = FInterpTo(LastDOFDistance, SubjectDist, DeltaTime, DOFDistanceInterpSpeed);
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}
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else
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{
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FocusDist = SubjectDist;
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}
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LastDOFDistance = FocusDist;
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// find focus radius
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// simpler method, with better-feeling results than actual optics math
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Pct = GetRangePctByValue(DOF_RadiusDistRange, FocusDist);
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LastDOFRadius = GetRangeValueByPct(DOF_RadiusRange, FClamp(Pct, 0.f, 1.f)**DOF_RadiusFalloff);
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bDOFUpdated = TRUE;
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}
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}
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simulated function ModifyPostProcessSettings(out PostProcessSettings PP)
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{
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if (bDOFUpdated)
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{
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PP.bEnableDOF = TRUE;
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`if(`__TW_POSTPROCESS_)
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PP.LegacySettings.DOF_FalloffExponent = DOF_FalloffExponent;
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PP.LegacySettings.DOF_BlurKernelSize = DOF_BlurKernelSize;
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PP.LegacySettings.DOF_MaxNearBlurAmount = DOF_MaxNearBlurAmount;
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PP.LegacySettings.DOF_MaxFarBlurAmount = DOF_MaxFarBlurAmount;
|
||
|
PP.LegacySettings.DOF_FocusType = FOCUS_Distance;
|
||
|
PP.LegacySettings.DOF_FocusInnerRadius = DOF_FocusInnerRadius;
|
||
|
|
||
|
PP.LegacySettings.DOF_FocusDistance = LastDOFDistance;
|
||
|
PP.LegacySettings.DOF_FocusInnerRadius = LastDOFRadius;
|
||
|
`else
|
||
|
PP.DOF_FalloffExponent = DOF_FalloffExponent;
|
||
|
PP.DOF_BlurKernelSize = DOF_BlurKernelSize;
|
||
|
PP.DOF_MaxNearBlurAmount = DOF_MaxNearBlurAmount;
|
||
|
PP.DOF_MaxFarBlurAmount = DOF_MaxFarBlurAmount;
|
||
|
PP.DOF_FocusType = FOCUS_Distance;
|
||
|
PP.DOF_FocusInnerRadius = DOF_FocusInnerRadius;
|
||
|
|
||
|
PP.DOF_FocusDistance = LastDOFDistance;
|
||
|
PP.DOF_FocusInnerRadius = LastDOFRadius;
|
||
|
`endif
|
||
|
|
||
|
bDOFUpdated = FALSE;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
native final function SetViewOffset(const out ViewOffsetData NewViewOffset);
|
||
|
|
||
|
defaultproperties
|
||
|
{
|
||
|
BlendTime=0.67
|
||
|
|
||
|
bLockedToViewTarget=TRUE
|
||
|
bDoPredictiveAvoidance=TRUE
|
||
|
bValidateWorstLoc=TRUE
|
||
|
|
||
|
bInterpLocation=TRUE
|
||
|
OriginLocInterpSpeed=8
|
||
|
|
||
|
StrafeLeftAdjustment=(X=0,Y=0,Z=0)
|
||
|
StrafeRightAdjustment=(X=0,Y=0,Z=0)
|
||
|
StrafeOffsetInterpSpeedIn=12.f
|
||
|
StrafeOffsetInterpSpeedOut=20.f
|
||
|
RunFwdAdjustment=(X=0,Y=0,Z=0)
|
||
|
RunBackAdjustment=(X=0,Y=0,Z=0)
|
||
|
RunOffsetInterpSpeedIn=6.f
|
||
|
RunOffsetInterpSpeedOut=12.f
|
||
|
|
||
|
WorstLocOffset=(X=-8,Y=1,Z=90)
|
||
|
|
||
|
bInterpViewOffsetOnlyForCamTransition=TRUE
|
||
|
/** all offsets are hand-crafted for this mode, so they should theoretically be all zeroes for all modes */
|
||
|
ViewOffset_ViewportAdjustments(CVT_16to9_Full)={(
|
||
|
OffsetHigh=(X=0,Y=0,Z=0),
|
||
|
OffsetLow=(X=0,Y=0,Z=0),
|
||
|
OffsetMid=(X=0,Y=0,Z=0),
|
||
|
)}
|
||
|
|
||
|
bAdjustDOF=FALSE
|
||
|
DOF_FalloffExponent=1.f
|
||
|
DOF_BlurKernelSize=3.f
|
||
|
// DOF_FocusInnerRadius=2500.f
|
||
|
DOF_MaxNearBlurAmount=0.6f
|
||
|
DOF_MaxFarBlurAmount=1.f
|
||
|
DOFDistanceInterpSpeed=10.f
|
||
|
DOFTraceExtent=(X=0.f,Y=0.f,Z=0.f)
|
||
|
|
||
|
DOF_RadiusFalloff=1.f
|
||
|
DOF_RadiusRange=(X=2500,Y=60000)
|
||
|
DOF_RadiusDistRange=(X=1000,Y=50000)
|
||
|
|
||
|
OffsetAdjustmentInterpSpeed=12.f
|
||
|
}
|
||
|
|
||
|
|
||
|
|
||
|
|
||
|
|