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39a92c1fa201281cd9bbed38480c9c915406b47a
UnrealEngineUWP/Engine/Source/Developer/LogVisualizer/Private/VisualLoggerTimeSliderController.cpp
Max Chen 39a92c1fa2 Copying //UE4/Dev-Sequencer to //UE4/Main 
==========================
MAJOR FEATURES + CHANGES
==========================

Change 2859626 on 2016/02/08 by Max.Preussner

	Editor: Added SaveAs functionality to content asset editors

Change 2859666 on 2016/02/08 by Max.Chen

	Sequencer: Fix crash in CheckForWorldGCLeaks when loading a new map because spawnables are left behind.

	#jira  UE-25616

Change 2859685 on 2016/02/08 by Max.Chen

	Sequencer: Add prompt to save sub level sequences if they are dirty

	#jira UE-26510

Change 2859715 on 2016/02/08 by Thomas.Sarkanen

	Adding actor spawning recording

	Actors are queued for record on spawn then added to the list like manually-specifed ones.
	Changed almost everything about UActorRecording. We now record on a per-component basis, with property tracks encapsulated in each actor recording. Much effort is expended to make sure that the correct components are owned by their respective actors, as we can add and remove components at runtime, but they must be created up-front in the UMovieScene Blueprints. We go as far as to add our own SCS nodes to make sure components are correctly spawned.
	Fixed infinite loop in FSequencer::AddSpawnable.
	Fixed visibility track instance to work with scene components as well as actors.
	Fixed particle track instance to work on UParticleSystemComponent rather than just AEmitters.
	Added particle recorder.
	Moved animation recording into an animation property recorder rather than having it as a special case. This still uses the animation recorder under the hood.
	Moved old-style Matinee animation control into FMovieSceneSkeletalAnimationTrackInstance & made this work on USkeletalMeshComponents directly, rather than via the old interface.
	Exposed SetMatineeAnimPositionInner and PreviewMatineeSetAnimPositionInner in FAnimMontageInstance so those utility functions can be used externally to Engine.
	Added a predicate version of UMovieScene::FindPossessable.
	Exposed UMovieSceneParticleSection::AddKey externally via MOVIESCENETRACKS_API so I can programmatically add keys.
	Fixed a crash in FScalableFloatDetails::CustomizeHeader when selecting PIE projectiles in Orion.
	Moved all recorders over to recording Actors or Components & store UObjects instead of AActors.
	Allowed skeletal animation tracks on components as well as actors.

Change 2862675 on 2016/02/10 by Max.Chen

	Sequencer: Add option to link the sequencer curve editor with the sequencer timeline.

	Under General Options->Link Curve Editor Time Range. The default is false, so the sequencer and curve editor have separate time ranges.

	#jira UE-25933

Change 2862699 on 2016/02/11 by Max.Chen

	Sequencer: Added a playback status of jumping which the AudioTrack and Skeletal Mesh Track (anim notifies) ignores for updates. This is used to updating thumbnail at certain times.

	#jira UE-26447, UE-26671

Change 2862712 on 2016/02/11 by Max.Chen

	Sequencer: Fix spawnables firing off their particles. Disable auto activate on spawnable components

	#jira UE-26390

Change 2862719 on 2016/02/11 by Max.Preussner

	Editor: Refactored detail customizations for colors, rotators, vectors

	- broke color and rotator customizations out into their own files
	- added vector customizations (placeholder)
	- cleaned up localization namespaces, forward declarations

Change 2866454 on 2016/02/14 by Max.Preussner

	Sequencer: Removed ULevelEditorSequencerSettings; moved default settings into INI

Change 2866455 on 2016/02/14 by Thomas.Sarkanen

	Sequence recorder can now record replays

	Added extra edtior-only UI to the replay playback controls to record sequences. Curretnly very placeholder: only records the entire sequence and provides no feedback in the UI if it is recording.
	Fixed bindings to recorded objects not working in various circumstances. Added the ability to manually create a binding.
	Recompiled actor blueprints post-record if we added components.
	Fixed a null ptr dereference in FOrionTeamUIInfo::Update.
	Removed tolerances when reducing tracks - they are now 'very small'.
	Added actor filter so actors of certain classes can be recorded.

Change 2866458 on 2016/02/14 by Max.Chen

	Sequencer: Fix anim notifies that fire at shot cuts. Anim notifies are fired from the last position to the current position. When jumping cuts, we want the delta to be 0 so that the anim notifies before the shot are not fired off.

	#jira UE-26390, UE-26671

Change 2866459 on 2016/02/14 by Max.Chen

	Sequencer: Add option to toggle visibility of combined keys

Change 2866466 on 2016/02/14 by Frank.Fella

	Sequencer - Add a track for controlling streamed level visibilty and remove visibility code from the master level blueprint.

Change 2866470 on 2016/02/14 by Max.Chen

	Sequencer: Add return value to indicate data has changed when a section has been added. This fixes a bug where creating a new section doesn't seem to add a key.

	#jira UE-26837

Change 2866481 on 2016/02/14 by Max.Preussner

	Sequencer: Implemented Presets for adding tracks automatically based on actor type (UE-24513)

	#Jira: UE-24513

Change 2866482 on 2016/02/14 by Max.Chen

	Sequencer: Allow for any actor that has a camera component to be a camera cut.

	#jira UE-26777

Change 2866484 on 2016/02/14 by Thomas.Sarkanen

	Added in/out times to sequence recording

	Also added the optional ability to record different actor types (heroes, projectiles, minions).

Change 2866495 on 2016/02/14 by Max.Chen

	Sequencer: Need to limit camera control to the section bounds of the camera cut otherwise, control won't be relinquished back to player at the end of the playback.

	#jira UE-26886

[CL 2874647 by Max Chen in Main branch]
2016-02-19 21:36:27 -05:00

698 lines
24 KiB
C++
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// Copyright 1998-2016 Epic Games, Inc. All Rights Reserved.
#include "LogVisualizer.h"
#define LOCTEXT_NAMESPACE "TimeSlider"
namespace ScrubConstants
{
/** The minimum amount of pixels between each major ticks on the widget */
const int32 MinPixelsPerDisplayTick = 5;
/**The smallest number of units between between major tick marks */
const float MinDisplayTickSpacing = 0.001f;
}
/** Utility struct for converting between scrub range space and local/absolute screen space */
struct FScrubRangeToScreen
{
FVector2D WidgetSize;
TRange<float> ViewInput;
float ViewInputRange;
float PixelsPerInput;
FScrubRangeToScreen(TRange<float> InViewInput, const FVector2D& InWidgetSize )
{
WidgetSize = InWidgetSize;
ViewInput = InViewInput;
ViewInputRange = ViewInput.Size<float>();
PixelsPerInput = ViewInputRange > 0 ? ( WidgetSize.X / ViewInputRange ) : 0;
}
/** Local Widget Space -> Curve Input domain. */
float LocalXToInput(float ScreenX) const
{
float LocalX = ScreenX;
return (LocalX/PixelsPerInput) + ViewInput.GetLowerBoundValue();
}
/** Curve Input domain -> local Widget Space */
float InputToLocalX(float Input) const
{
return (Input - ViewInput.GetLowerBoundValue()) * PixelsPerInput;
}
};
/**
* Gets the the next spacing value in the series
* to determine a good spacing value
* E.g, .001,.005,.010,.050,.100,.500,1.000,etc
*/
static float GetNextSpacing( uint32 CurrentStep )
{
if(CurrentStep & 0x01)
{
// Odd numbers
return FMath::Pow( 10.f, 0.5f*((float)(CurrentStep-1)) + 1.f );
}
else
{
// Even numbers
return 0.5f * FMath::Pow( 10.f, 0.5f*((float)(CurrentStep)) + 1.f );
}
}
/**
* Determines the optimal spacing between tick marks in the slider for a given pixel density
* Increments until a minimum amount of slate units specified by MinTick is reached
*
* @param InPixelsPerInput The density of pixels between each input
* @param MinTick The minimum slate units per tick allowed
* @param MinTickSpacing The minimum tick spacing in time units allowed
* @return the optimal spacing in time units
*/
float DetermineOptimalSpacing( float InPixelsPerInput, uint32 MinTick, float MinTickSpacing )
{
uint32 CurStep = 0;
// Start with the smallest spacing
float Spacing = MinTickSpacing;
while( Spacing * InPixelsPerInput < MinTick )
{
Spacing = MinTickSpacing * GetNextSpacing( CurStep );
CurStep++;
}
return Spacing;
}
FVisualLoggerTimeSliderController::FVisualLoggerTimeSliderController(const FVisualLoggerTimeSliderArgs& InArgs)
: TimeSliderArgs( InArgs )
, DistanceDragged( 0.0f )
, bDraggingScrubber( false )
, bPanning( false )
{
ScrubHandleUp = FEditorStyle::GetBrush( TEXT( "Sequencer.Timeline.ScrubHandleUp" ) );
ScrubHandleDown = FEditorStyle::GetBrush( TEXT( "Sequencer.Timeline.ScrubHandleDown" ) );
CursorBackground = FEditorStyle::GetBrush("Sequencer.SectionArea.Background");
}
void FVisualLoggerTimeSliderController::SetTimesliderArgs(const FVisualLoggerTimeSliderArgs& InArgs)
{
TimeSliderArgs = InArgs;
}
struct FDrawTickArgs
{
/** Geometry of the area */
FGeometry AllottedGeometry;
/** Clipping rect of the area */
FSlateRect ClippingRect;
/** Color of each tick */
FLinearColor TickColor;
/** Offset in Y where to start the tick */
float TickOffset;
/** Height in of major ticks */
float MajorTickHeight;
/** Start layer for elements */
int32 StartLayer;
/** Draw effects to apply */
ESlateDrawEffect::Type DrawEffects;
/** Whether or not to only draw major ticks */
bool bOnlyDrawMajorTicks;
/** Whether or not to mirror labels */
bool bMirrorLabels;
};
void FVisualLoggerTimeSliderController::DrawTicks( FSlateWindowElementList& OutDrawElements, const struct FScrubRangeToScreen& RangeToScreen, FDrawTickArgs& InArgs ) const
{
const float Spacing = DetermineOptimalSpacing( RangeToScreen.PixelsPerInput, ScrubConstants::MinPixelsPerDisplayTick, ScrubConstants::MinDisplayTickSpacing );
// Sub divisions
// @todo Sequencer may need more robust calculation
const int32 Divider = 10;
// For slightly larger halfway tick mark
const int32 HalfDivider = Divider / 2;
// Find out where to start from
int32 OffsetNum = FMath::FloorToInt(RangeToScreen.ViewInput.GetLowerBoundValue() / Spacing);
FSlateFontInfo SmallLayoutFont( FPaths::EngineContentDir() / TEXT("Slate/Fonts/Roboto-Regular.ttf"), 8 );
TArray<FVector2D> LinePoints;
LinePoints.AddUninitialized(2);
float Seconds = 0;
while( (Seconds = OffsetNum*Spacing) < RangeToScreen.ViewInput.GetUpperBoundValue() )
{
// X position local to start of the widget area
float XPos = RangeToScreen.InputToLocalX( Seconds );
uint32 AbsOffsetNum = FMath::Abs(OffsetNum);
if ( AbsOffsetNum % Divider == 0 )
{
FVector2D Offset( XPos, InArgs.TickOffset );
FVector2D TickSize( 1.0f, InArgs.MajorTickHeight );
LinePoints[0] = FVector2D(1.0f,1.0f);
LinePoints[1] = TickSize;
// lines should not need anti-aliasing
const bool bAntiAliasLines = false;
// Draw each tick mark
FSlateDrawElement::MakeLines(
OutDrawElements,
InArgs.StartLayer,
InArgs.AllottedGeometry.ToPaintGeometry( Offset, TickSize ),
LinePoints,
InArgs.ClippingRect,
InArgs.DrawEffects,
InArgs.TickColor,
false
);
if( !InArgs.bOnlyDrawMajorTicks )
{
FString FrameString = Spacing == ScrubConstants::MinDisplayTickSpacing ? FString::Printf( TEXT("%.3f"), Seconds ) : FString::Printf( TEXT("%.2f"), Seconds );
// Space the text between the tick mark but slightly above
const TSharedRef< FSlateFontMeasure > FontMeasureService = FSlateApplication::Get().GetRenderer()->GetFontMeasureService();
FVector2D TextSize = FontMeasureService->Measure(FrameString, SmallLayoutFont);
FVector2D TextOffset( XPos-(TextSize.X*0.5f), InArgs.bMirrorLabels ? TextSize.Y : FMath::Abs( InArgs.AllottedGeometry.Size.Y - (InArgs.MajorTickHeight+TextSize.Y) ) );
FSlateDrawElement::MakeText(
OutDrawElements,
InArgs.StartLayer+1,
InArgs.AllottedGeometry.ToPaintGeometry( TextOffset, TextSize ),
FrameString,
SmallLayoutFont,
InArgs.ClippingRect,
InArgs.DrawEffects,
InArgs.TickColor
);
}
}
else if( !InArgs.bOnlyDrawMajorTicks )
{
// Compute the size of each tick mark. If we are half way between to visible values display a slightly larger tick mark
const float MinorTickHeight = AbsOffsetNum % HalfDivider == 0 ? 7.0f : 4.0f;
FVector2D Offset(XPos, InArgs.bMirrorLabels ? 0.0f : FMath::Abs( InArgs.AllottedGeometry.Size.Y - MinorTickHeight ) );
FVector2D TickSize(1, MinorTickHeight);
LinePoints[0] = FVector2D(1.0f,1.0f);
LinePoints[1] = TickSize;
const bool bAntiAlias = false;
// Draw each sub mark
FSlateDrawElement::MakeLines(
OutDrawElements,
InArgs.StartLayer,
InArgs.AllottedGeometry.ToPaintGeometry( Offset, TickSize ),
LinePoints,
InArgs.ClippingRect,
InArgs.DrawEffects,
InArgs.TickColor,
bAntiAlias
);
}
// Advance to next tick mark
++OffsetNum;
}
}
int32 FVisualLoggerTimeSliderController::OnPaintTimeSlider( bool bMirrorLabels, const FGeometry& AllottedGeometry, const FSlateRect& MyClippingRect, FSlateWindowElementList& OutDrawElements, int32 LayerId, const FWidgetStyle& InWidgetStyle, bool bParentEnabled ) const
{
const bool bEnabled = bParentEnabled;
const ESlateDrawEffect::Type DrawEffects = bEnabled ? ESlateDrawEffect::None : ESlateDrawEffect::DisabledEffect;
TRange<float> LocalViewRange = TimeSliderArgs.ViewRange.Get();
const float LocalViewRangeMin = LocalViewRange.GetLowerBoundValue();
const float LocalViewRangeMax = LocalViewRange.GetUpperBoundValue();
const float LocalSequenceLength = LocalViewRangeMax-LocalViewRangeMin;
FVector2D Scale = FVector2D(1.0f,1.0f);
if ( LocalSequenceLength > 0)
{
FScrubRangeToScreen RangeToScreen( LocalViewRange, AllottedGeometry.Size );
const float MajorTickHeight = 9.0f;
FDrawTickArgs Args;
Args.AllottedGeometry = AllottedGeometry;
Args.bMirrorLabels = bMirrorLabels;
Args.bOnlyDrawMajorTicks = false;
Args.TickColor = FLinearColor::White;
Args.ClippingRect = MyClippingRect;
Args.DrawEffects = DrawEffects;
Args.StartLayer = LayerId;
Args.TickOffset = bMirrorLabels ? 0.0f : FMath::Abs( AllottedGeometry.Size.Y - MajorTickHeight );
Args.MajorTickHeight = MajorTickHeight;
DrawTicks( OutDrawElements, RangeToScreen, Args );
const float HandleSize = 13.0f;
float HalfSize = FMath::TruncToFloat(HandleSize/2.0f);
// Draw the scrub handle
const float XPos = RangeToScreen.InputToLocalX( TimeSliderArgs.ScrubPosition.Get() );
// Draw cursor size
const float CursorHalfSize = TimeSliderArgs.CursorSize.Get() * 0.5f;
const int32 CursorLayer = LayerId + 2;
const float CursorHalfLength = AllottedGeometry.Size.X * CursorHalfSize;
FPaintGeometry CursorGeometry = AllottedGeometry.ToPaintGeometry(FVector2D(XPos - CursorHalfLength, 0), FVector2D(2 * CursorHalfLength, AllottedGeometry.Size.Y));
FLinearColor CursorColor = InWidgetStyle.GetColorAndOpacityTint();
CursorColor.A = CursorColor.A*0.08f;
CursorColor.B *= 0.1f;
CursorColor.G *= 0.2f;
FSlateDrawElement::MakeBox(
OutDrawElements,
CursorLayer,
CursorGeometry,
CursorBackground,
MyClippingRect,
DrawEffects,
CursorColor
);
// Should draw above the text
const int32 ArrowLayer = LayerId + 3;
FPaintGeometry MyGeometry = AllottedGeometry.ToPaintGeometry( FVector2D( XPos-HalfSize, 0 ), FVector2D( HandleSize, AllottedGeometry.Size.Y ) );
FLinearColor ScrubColor = InWidgetStyle.GetColorAndOpacityTint();
// @todo Sequencer this color should be specified in the style
ScrubColor.A = ScrubColor.A*0.5f;
ScrubColor.B *= 0.1f;
ScrubColor.G *= 0.2f;
FSlateDrawElement::MakeBox(
OutDrawElements,
ArrowLayer,
MyGeometry,
bMirrorLabels ? ScrubHandleUp : ScrubHandleDown,
MyClippingRect,
DrawEffects,
ScrubColor
);
return ArrowLayer;
}
return LayerId;
}
FReply FVisualLoggerTimeSliderController::OnMouseButtonDown( SWidget& WidgetOwner, const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
bool bHandleLeftMouseButton = MouseEvent.GetEffectingButton() == EKeys::LeftMouseButton;
bool bHandleRightMouseButton = MouseEvent.GetEffectingButton() == EKeys::RightMouseButton && TimeSliderArgs.AllowZoom;
DistanceDragged = 0;
if ( bHandleLeftMouseButton )
{
// Always capture mouse if we left or right click on the widget
FScrubRangeToScreen RangeToScreen(TimeSliderArgs.ViewRange.Get(), MyGeometry.Size);
FVector2D CursorPos = MyGeometry.AbsoluteToLocal(MouseEvent.GetLastScreenSpacePosition());
float NewValue = RangeToScreen.LocalXToInput(CursorPos.X);
CommitScrubPosition(NewValue, /*bIsScrubbing=*/false);
return FReply::Handled().CaptureMouse( WidgetOwner.AsShared() ).PreventThrottling();
}
else if ( bHandleRightMouseButton )
{
return FReply::Handled().CaptureMouse(WidgetOwner.AsShared());
}
return FReply::Unhandled();
}
FReply FVisualLoggerTimeSliderController::OnMouseButtonUp( SWidget& WidgetOwner, const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
bool bHandleLeftMouseButton = MouseEvent.GetEffectingButton() == EKeys::LeftMouseButton && WidgetOwner.HasMouseCapture();
bool bHandleRightMouseButton = MouseEvent.GetEffectingButton() == EKeys::RightMouseButton && WidgetOwner.HasMouseCapture() && TimeSliderArgs.AllowZoom ;
if ( bHandleRightMouseButton )
{
if (!bPanning)
{
// return unhandled in case our parent wants to use our right mouse button to open a context menu
return FReply::Unhandled().ReleaseMouseCapture();
}
bPanning = false;
FReply::Handled().CaptureMouse(WidgetOwner.AsShared()).UseHighPrecisionMouseMovement(WidgetOwner.AsShared());
return FReply::Handled().ReleaseMouseCapture();
}
else if ( bHandleLeftMouseButton )
{
if( bDraggingScrubber )
{
TimeSliderArgs.OnEndScrubberMovement.ExecuteIfBound();
}
else
{
FScrubRangeToScreen RangeToScreen( TimeSliderArgs.ViewRange.Get(), MyGeometry.Size );
FVector2D CursorPos = MyGeometry.AbsoluteToLocal(MouseEvent.GetLastScreenSpacePosition());
float NewValue = RangeToScreen.LocalXToInput(CursorPos.X);
CommitScrubPosition( NewValue, /*bIsScrubbing=*/false );
}
bDraggingScrubber = false;
return FReply::Handled().ReleaseMouseCapture();
}
return FReply::Unhandled();
}
FReply FVisualLoggerTimeSliderController::OnMouseMove( SWidget& WidgetOwner, const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
if ( WidgetOwner.HasMouseCapture() )
{
if (MouseEvent.IsMouseButtonDown(EKeys::RightMouseButton))
{
if (!bPanning)
{
DistanceDragged += FMath::Abs( MouseEvent.GetCursorDelta().X );
if ( DistanceDragged > FSlateApplication::Get().GetDragTriggerDistance() )
{
FReply::Handled().CaptureMouse(WidgetOwner.AsShared()).UseHighPrecisionMouseMovement(WidgetOwner.AsShared());
SoftwareCursorPosition = MyGeometry.AbsoluteToLocal(MouseEvent.GetLastScreenSpacePosition());
bPanning = true;
}
}
else
{
SoftwareCursorPosition = MyGeometry.AbsoluteToLocal(MouseEvent.GetLastScreenSpacePosition());
TRange<float> LocalViewRange = TimeSliderArgs.ViewRange.Get();
float LocalViewRangeMin = LocalViewRange.GetLowerBoundValue();
float LocalViewRangeMax = LocalViewRange.GetUpperBoundValue();
FScrubRangeToScreen ScaleInfo( LocalViewRange, MyGeometry.Size );
FVector2D ScreenDelta = MouseEvent.GetCursorDelta();
FVector2D InputDelta;
InputDelta.X = ScreenDelta.X/ScaleInfo.PixelsPerInput;
float NewViewOutputMin = LocalViewRangeMin - InputDelta.X;
float NewViewOutputMax = LocalViewRangeMax - InputDelta.X;
float LocalClampMin = TimeSliderArgs.ClampRange.Get().GetLowerBoundValue();
float LocalClampMax = TimeSliderArgs.ClampRange.Get().GetUpperBoundValue();
// Clamp the range
if ( NewViewOutputMin < LocalClampMin )
{
NewViewOutputMin = LocalClampMin;
}
if ( NewViewOutputMax > LocalClampMax )
{
NewViewOutputMax = LocalClampMax;
}
TimeSliderArgs.OnViewRangeChanged.ExecuteIfBound(TRange<float>(NewViewOutputMin, NewViewOutputMax), EViewRangeInterpolation::Immediate);
if (Scrollbar.IsValid())
{
float InOffsetFraction = (NewViewOutputMin - LocalClampMin) / (LocalClampMax - LocalClampMin);
float InThumbSizeFraction = (NewViewOutputMax - NewViewOutputMin) / (LocalClampMax - LocalClampMin);
Scrollbar->SetState(InOffsetFraction, InThumbSizeFraction);
}
if( !TimeSliderArgs.ViewRange.IsBound() )
{
// The output is not bound to a delegate so we'll manage the value ourselves
TimeSliderArgs.ViewRange.Set( TRange<float>( NewViewOutputMin, NewViewOutputMax ) );
}
}
}
else if (MouseEvent.IsMouseButtonDown( EKeys::LeftMouseButton ))
{
if ( !bDraggingScrubber )
{
DistanceDragged += FMath::Abs( MouseEvent.GetCursorDelta().X );
if ( DistanceDragged > 0/*FSlateApplication::Get().GetDragTriggerDistance()*/ )
{
bDraggingScrubber = true;
TimeSliderArgs.OnBeginScrubberMovement.ExecuteIfBound();
}
}
else
{
FScrubRangeToScreen RangeToScreen( TimeSliderArgs.ViewRange.Get(), MyGeometry.Size );
FVector2D CursorPos = MyGeometry.AbsoluteToLocal( MouseEvent.GetLastScreenSpacePosition() );
float NewValue = RangeToScreen.LocalXToInput( CursorPos.X );
float LocalClampMin = TimeSliderArgs.ClampRange.Get().GetLowerBoundValue();
float LocalClampMax = TimeSliderArgs.ClampRange.Get().GetUpperBoundValue();
if (NewValue < LocalClampMin)
{
NewValue = LocalClampMin;
}
if (NewValue > LocalClampMax)
{
NewValue = LocalClampMax;
}
CommitScrubPosition(NewValue, /*bIsScrubbing=*/true);
}
}
return FReply::Handled();
}
return FReply::Unhandled();
}
void FVisualLoggerTimeSliderController::CommitScrubPosition( float NewValue, bool bIsScrubbing )
{
// Manage the scrub position ourselves if its not bound to a delegate
if ( !TimeSliderArgs.ScrubPosition.IsBound() )
{
TimeSliderArgs.ScrubPosition.Set( NewValue );
}
TRange<float> LocalViewRange = TimeSliderArgs.ViewRange.Get();
const float RangeSize = LocalViewRange.Size<float>();
if (NewValue < LocalViewRange.GetLowerBoundValue())
{
SetTimeRange(NewValue, NewValue + RangeSize);
}
else if (NewValue > LocalViewRange.GetUpperBoundValue())
{
SetTimeRange(NewValue - RangeSize, NewValue);
}
TimeSliderArgs.OnScrubPositionChanged.ExecuteIfBound( NewValue, bIsScrubbing );
}
void FVisualLoggerTimeSliderController::SetExternalScrollbar(TSharedRef<SScrollBar> InScrollbar)
{
Scrollbar = InScrollbar;
Scrollbar->SetOnUserScrolled(FOnUserScrolled::CreateRaw(this, &FVisualLoggerTimeSliderController::HorizontalScrollBar_OnUserScrolled));
};
void FVisualLoggerTimeSliderController::HorizontalScrollBar_OnUserScrolled(float ScrollOffset)
{
if (!TimeSliderArgs.ViewRange.IsBound())
{
TRange<float> LocalViewRange = TimeSliderArgs.ViewRange.Get();
float LocalViewRangeMin = LocalViewRange.GetLowerBoundValue();
float LocalViewRangeMax = LocalViewRange.GetUpperBoundValue();
float LocalClampMin = TimeSliderArgs.ClampRange.Get().GetLowerBoundValue();
float LocalClampMax = TimeSliderArgs.ClampRange.Get().GetUpperBoundValue();
float InThumbSizeFraction = (LocalViewRangeMax - LocalViewRangeMin) / (LocalClampMax - LocalClampMin);
float NewViewOutputMin = LocalClampMin + ScrollOffset * (LocalClampMax - LocalClampMin);
// The output is not bound to a delegate so we'll manage the value ourselves
float NewViewOutputMax = FMath::Min<float>(NewViewOutputMin + (LocalViewRangeMax - LocalViewRangeMin), LocalClampMax);
NewViewOutputMin = NewViewOutputMax - (LocalViewRangeMax - LocalViewRangeMin);
float InOffsetFraction = (NewViewOutputMin - LocalClampMin) / (LocalClampMax - LocalClampMin);
//if (InOffsetFraction + InThumbSizeFraction <= 1)
{
TimeSliderArgs.ViewRange.Set(TRange<float>(NewViewOutputMin, NewViewOutputMax));
Scrollbar->SetState(InOffsetFraction, InThumbSizeFraction);
}
}
}
void FVisualLoggerTimeSliderController::SetTimeRange(float NewViewOutputMin, float NewViewOutputMax)
{
TimeSliderArgs.ViewRange.Set(TRange<float>(NewViewOutputMin, NewViewOutputMax));
float LocalClampMin = TimeSliderArgs.ClampRange.Get().GetLowerBoundValue();
float LocalClampMax = TimeSliderArgs.ClampRange.Get().GetUpperBoundValue();
const float InOffsetFraction = (NewViewOutputMin - LocalClampMin) / (LocalClampMax - LocalClampMin);
const float InThumbSizeFraction = (NewViewOutputMax - NewViewOutputMin) / (LocalClampMax - LocalClampMin);
Scrollbar->SetState(InOffsetFraction, InThumbSizeFraction);
}
void FVisualLoggerTimeSliderController::SetClampRange(float MinValue, float MaxValue)
{
TRange<float> LocalViewRange = TimeSliderArgs.ViewRange.Get();
float LocalClampMin = TimeSliderArgs.ClampRange.Get().GetLowerBoundValue();
float LocalClampMax = TimeSliderArgs.ClampRange.Get().GetUpperBoundValue();
const float CurrentDistance = LocalClampMax - LocalClampMin;
const float ZoomDelta = (LocalViewRange.GetUpperBoundValue() - LocalViewRange.GetLowerBoundValue()) / CurrentDistance;
MaxValue = MinValue + (MaxValue - MinValue < 2 ? CurrentDistance : MaxValue - MinValue);
TimeSliderArgs.ClampRange = TRange<float>(MinValue, MaxValue);
const float LocalViewRangeMin = FMath::Clamp(LocalViewRange.GetLowerBoundValue(), MinValue, MaxValue);
const float LocalViewRangeMax = FMath::Clamp(LocalViewRange.GetUpperBoundValue(), MinValue, MaxValue);
SetTimeRange(ZoomDelta >= 1 ? MinValue : LocalViewRangeMin, ZoomDelta >= 1 ? MaxValue : LocalViewRangeMax);
}
FReply FVisualLoggerTimeSliderController::OnMouseWheel( SWidget& WidgetOwner, const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
FReply ReturnValue = FReply::Unhandled();;
if (MouseEvent.IsLeftShiftDown())
{
const float ZoomDelta = 0.025f * MouseEvent.GetWheelDelta();
TimeSliderArgs.CursorSize.Set(FMath::Clamp(TimeSliderArgs.CursorSize.Get() + ZoomDelta, 0.0f, 1.0f));
ReturnValue = FReply::Handled();
}
else if ( TimeSliderArgs.AllowZoom )
{
const float ZoomDelta = -0.1f * MouseEvent.GetWheelDelta();
{
TRange<float> LocalViewRange = TimeSliderArgs.ViewRange.Get();
float LocalViewRangeMax = LocalViewRange.GetUpperBoundValue();
float LocalViewRangeMin = LocalViewRange.GetLowerBoundValue();
const float OutputViewSize = LocalViewRangeMax - LocalViewRangeMin;
const float OutputChange = OutputViewSize * ZoomDelta;
float NewViewOutputMin = LocalViewRangeMin - (OutputChange * 0.5f);
float NewViewOutputMax = LocalViewRangeMax + (OutputChange * 0.5f);
if( FMath::Abs( OutputChange ) > 0.01f && NewViewOutputMin < NewViewOutputMax )
{
float LocalClampMin = TimeSliderArgs.ClampRange.Get().GetLowerBoundValue();
float LocalClampMax = TimeSliderArgs.ClampRange.Get().GetUpperBoundValue();
// Clamp the range if clamp values are set
if ( NewViewOutputMin < LocalClampMin )
{
NewViewOutputMin = LocalClampMin;
}
if ( NewViewOutputMax > LocalClampMax )
{
NewViewOutputMax = LocalClampMax;
}
TimeSliderArgs.OnViewRangeChanged.ExecuteIfBound(TRange<float>(NewViewOutputMin, NewViewOutputMax), EViewRangeInterpolation::Immediate);
if (Scrollbar.IsValid())
{
float InOffsetFraction = (NewViewOutputMin - LocalClampMin) / (LocalClampMax - LocalClampMin);
float InThumbSizeFraction = (NewViewOutputMax - NewViewOutputMin) / (LocalClampMax - LocalClampMin);
Scrollbar->SetState(InOffsetFraction, InThumbSizeFraction);
}
if( !TimeSliderArgs.ViewRange.IsBound() )
{
// The output is not bound to a delegate so we'll manage the value ourselves
TimeSliderArgs.ViewRange.Set( TRange<float>( NewViewOutputMin, NewViewOutputMax ) );
}
}
}
ReturnValue = FReply::Handled();
}
return ReturnValue;
}
int32 FVisualLoggerTimeSliderController::OnPaintSectionView( const FGeometry& AllottedGeometry, const FSlateRect& MyClippingRect, FSlateWindowElementList& OutDrawElements, int32 LayerId, bool bEnabled, bool bDisplayTickLines, bool bDisplayScrubPosition ) const
{
const ESlateDrawEffect::Type DrawEffects = bEnabled ? ESlateDrawEffect::None : ESlateDrawEffect::DisabledEffect;
TRange<float> LocalViewRange = TimeSliderArgs.ViewRange.Get();
float LocalScrubPosition = TimeSliderArgs.ScrubPosition.Get();
float ViewRange = LocalViewRange.Size<float>();
float PixelsPerInput = ViewRange > 0 ? AllottedGeometry.Size.X / ViewRange : 0;
float LinePos = (LocalScrubPosition - LocalViewRange.GetLowerBoundValue()) * PixelsPerInput;
FScrubRangeToScreen RangeToScreen( LocalViewRange, AllottedGeometry.Size );
if( bDisplayTickLines )
{
// Draw major tick lines in the section area
FDrawTickArgs Args;
Args.AllottedGeometry = AllottedGeometry;
Args.bMirrorLabels = false;
Args.bOnlyDrawMajorTicks = true;
Args.TickColor = FLinearColor( 0.3f, 0.3f, 0.3f, 0.3f );
Args.ClippingRect = MyClippingRect;
Args.DrawEffects = DrawEffects;
// Draw major ticks under sections
Args.StartLayer = LayerId-1;
// Draw the tick the entire height of the section area
Args.TickOffset = 0.0f;
Args.MajorTickHeight = AllottedGeometry.Size.Y;
DrawTicks( OutDrawElements, RangeToScreen, Args );
}
if( bDisplayScrubPosition )
{
// Draw cursor size
const float CursorHalfSize = TimeSliderArgs.CursorSize.Get() * 0.5f;
const float CursorHalfLength = AllottedGeometry.Size.X * CursorHalfSize;
FPaintGeometry CursorGeometry = AllottedGeometry.ToPaintGeometry(FVector2D(LinePos - CursorHalfLength, 0), FVector2D(2 * CursorHalfLength, AllottedGeometry.Size.Y));
FSlateDrawElement::MakeBox(
OutDrawElements,
++LayerId,
CursorGeometry,
CursorBackground,
MyClippingRect,
DrawEffects,
FLinearColor::White.CopyWithNewOpacity(0.08f)
);
// Draw a line for the scrub position
TArray<FVector2D> LinePoints;
LinePoints.AddUninitialized(2);
LinePoints[0] = FVector2D( 1.0f, 0.0f );
LinePoints[1] = FVector2D( 1.0f, FMath::RoundToFloat( AllottedGeometry.Size.Y ) );
FSlateDrawElement::MakeLines(
OutDrawElements,
++LayerId,
AllottedGeometry.ToPaintGeometry( FVector2D(LinePos, 0.0f ), FVector2D(1.0f,1.0f) ),
LinePoints,
MyClippingRect,
DrawEffects,
FLinearColor::White.CopyWithNewOpacity(0.39f),
false
);
}
return LayerId;
}
#undef LOCTEXT_NAMESPACE
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