Exemplo n.º 1
0
FReply SPaperEditorViewport::OnMouseWheel(const FGeometry& MyGeometry, const FPointerEvent& MouseEvent)
{
	// We want to zoom into this point; i.e. keep it the same fraction offset into the panel
	const FVector2D WidgetSpaceCursorPos = MyGeometry.AbsoluteToLocal( MouseEvent.GetScreenSpacePosition() );
	FVector2D PointToMaintainGraphSpace = PanelCoordToGraphCoord( WidgetSpaceCursorPos );


	const int32 ZoomLevelDelta = FMath::FloorToInt(MouseEvent.GetWheelDelta());

	const bool bAllowFullZoomRange = true;
	const float OldZoomLevel = ZoomLevel;

	if (bAllowFullZoomRange)
	{
		ZoomLevel = FMath::Clamp( ZoomLevel + ZoomLevelDelta, 0, NumZoomLevels-1 );
	}
	else
	{
		// Without control, we do not allow zooming out past 1:1.
		ZoomLevel = FMath::Clamp( ZoomLevel + ZoomLevelDelta, 0, DefaultZoomLevel );
	}

	ZoomLevelFade.Play(this->AsShared());


	// Re-center the screen so that it feels like zooming around the cursor.
	ViewOffset = PointToMaintainGraphSpace - WidgetSpaceCursorPos / GetZoomAmount();

	return FReply::Handled();
}
Exemplo n.º 2
0
FReply SFlareKeyBind::OnMouseWheel(const FGeometry& MyGeometry, const FPointerEvent& MouseEvent)
{
	if (bWaitingForKey)
	{
		SetKey(MouseEvent.GetWheelDelta() > 0 ? EKeys::MouseScrollUp : EKeys::MouseScrollDown);
		return FReply::Handled();
	}

	return FReply::Unhandled();
}
FReply SPythonEditableText::OnMouseWheel(const FGeometry& MyGeometry, const FPointerEvent& InPointerEvent)
{
	if (FSlateApplication::Get().GetModifierKeys().IsControlDown())
	{
		if (InPointerEvent.GetWheelDelta() > 0)
		{
			CurrentScale += 0.1;
		}
		else if (InPointerEvent.GetWheelDelta() < 0)
		{
			CurrentScale -= 0.1;
		}

		if (CurrentScale < 1)
			CurrentScale = 1;
		SetRenderTransform(FSlateRenderTransform(CurrentScale));
		return FReply::Handled();
	}
	return SMultiLineEditableText::OnMouseWheel(MyGeometry, InPointerEvent);
}
FReply FSequencerTimeSliderController::OnMouseWheel( SWidget& WidgetOwner, const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
	TOptional<TRange<float>> NewTargetRange;

	float MouseFractionX = MyGeometry.AbsoluteToLocal(MouseEvent.GetScreenSpacePosition()).X / MyGeometry.GetLocalSize().X;
	if ( TimeSliderArgs.AllowZoom && MouseEvent.IsControlDown() )
	{
		const float ZoomDelta = -0.2f * MouseEvent.GetWheelDelta();
		if (ZoomByDelta(ZoomDelta, MouseFractionX))
		{
			return FReply::Handled();
		}
	}
	else if (MouseEvent.IsShiftDown())
	{
		PanByDelta(-MouseEvent.GetWheelDelta());
		return FReply::Handled();
	}
	
	return FReply::Unhandled();
}
Exemplo n.º 5
0
FReply FScrollyZoomy::OnMouseWheel( const FPointerEvent& MouseEvent, IScrollableZoomable& ScrollableZoomable )
{
	// @todo: Inertial zoom support!
	const bool DidZoom = ScrollableZoomable.ZoomBy(MouseEvent.GetWheelDelta());

	if (DidZoom)
	{
		return FReply::Handled();
	}

	return FReply::Unhandled();
}
FReply FCEFWebBrowserWindow::OnMouseWheel(const FGeometry& MyGeometry, const FPointerEvent& MouseEvent, bool bIsPopup)
{
	FReply Reply = FReply::Unhandled();
	if(IsValid())
	{
		// The original delta is reduced so this should bring it back to what CEF expects
		const float SpinFactor = 50.0f;
		const float TrueDelta = MouseEvent.GetWheelDelta() * SpinFactor;
		CefMouseEvent Event = GetCefMouseEvent(MyGeometry, MouseEvent, bIsPopup);
		InternalCefBrowser->GetHost()->SendMouseWheelEvent(Event,
															MouseEvent.IsShiftDown() ? TrueDelta : 0,
															!MouseEvent.IsShiftDown() ? TrueDelta : 0);
		Reply = FReply::Handled();
	}
	return Reply;
}
Exemplo n.º 7
0
FReply SProfilerThreadView::OnMouseWheel( const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
	FReply Reply = FReply::Unhandled();
	
	const bool bZoomIn = MouseEvent.GetWheelDelta() < 0.0f;
	const double Center = PositionXMS + RangeXMS*0.5f;

	const double MinVisibleRangeMS = 1.0f / INV_MIN_VISIBLE_RANGE_X;
	const double NewUnclampedRange = bZoomIn ? RangeXMS*1.25f : RangeXMS / 1.25f;
	const double NewRange = FMath::Clamp( NewUnclampedRange, MinVisibleRangeMS, FMath::Min( TotalRangeXMS, (double)MAX_VISIBLE_RANGE_X ) );

	const double NewPositionX = FMath::Clamp( Center, NewRange*0.5f, TotalRangeXMS - NewRange*0.5f ) - NewRange*0.5f;
	SetTimeRange( NewPositionX, NewPositionX + NewRange );

	return Reply;
}
Exemplo n.º 8
0
FReply FSequencerTimeSliderController::OnMouseWheel( TSharedRef<SWidget> WidgetOwner, const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
	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 )
			{
				TOptional<float> LocalClampMin = TimeSliderArgs.ClampMin.Get();
				TOptional<float> LocalClampMax = TimeSliderArgs.ClampMax.Get();

				// Clamp the range if clamp values are set
				if ( LocalClampMin.IsSet() && NewViewOutputMin < LocalClampMin.GetValue() )
				{
					NewViewOutputMin = LocalClampMin.GetValue();
				}
				
				if ( LocalClampMax.IsSet() && NewViewOutputMax > LocalClampMax.GetValue() )
				{
					NewViewOutputMax = LocalClampMax.GetValue();
				}

				TimeSliderArgs.OnViewRangeChanged.ExecuteIfBound(TRange<float>(NewViewOutputMin, NewViewOutputMax));

				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 ) );
				}
			}
		}

		return FReply::Handled();
	}

	return FReply::Unhandled();
}
Exemplo n.º 9
0
void FWebBrowserWindow::OnMouseWheel(const FGeometry& MyGeometry, const FPointerEvent& MouseEvent)
{
	if(IsValid())
	{
		// The original delta is reduced so this should bring it back to what CEF expects
		const float SpinFactor = 120.0f;
		const float TrueDelta = MouseEvent.GetWheelDelta() * SpinFactor;
		CefMouseEvent Event;
		FVector2D LocalPos = MyGeometry.AbsoluteToLocal(MouseEvent.GetScreenSpacePosition());
		Event.x = LocalPos.X;
		Event.y = LocalPos.Y;
		Event.modifiers = GetCefMouseModifiers(MouseEvent);
		
		InternalCefBrowser->GetHost()->SendMouseWheelEvent(Event,
															MouseEvent.IsShiftDown() ? TrueDelta : 0,
															!MouseEvent.IsShiftDown() ? TrueDelta : 0);
	}
}
Exemplo n.º 10
0
FReply SAnimTrackPanel::OnMouseWheel( const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
	const float ZoomDelta = -0.1f * MouseEvent.GetWheelDelta();

	const FVector2D MouseWidgetPos = MyGeometry.AbsoluteToLocal(MouseEvent.GetScreenSpacePosition());
	const float ZoomRatio = FMath::Clamp((MouseWidgetPos.X / (MyGeometry.Size.X - WidgetWidth)), 0.f, 1.f);

	{
		const float InputViewSize = ViewInputMax.Get() - ViewInputMin.Get();
		const float InputChange = InputViewSize * ZoomDelta;

		float ViewMinInput = ViewInputMin.Get() - (InputChange * ZoomRatio);
		float ViewMaxInput = ViewInputMax.Get() + (InputChange * (1.f - ZoomRatio));
		
		OnSetInputViewRange.Execute(ViewMinInput, ViewMaxInput);
	}

	return FReply::Handled();
}
FReply SFlipbookTimeline::OnMouseWheel(const FGeometry& MyGeometry, const FPointerEvent& MouseEvent)
{
	if (MouseEvent.IsControlDown())
	{
		const float DirectionScale = 0.08f;
		const float MinFrameSize = 16.0f;
		const float Direction = MouseEvent.GetWheelDelta();
		const float NewUnitsPerFrame = FMath::Max(MinFrameSize, SlateUnitsPerFrame * (1.0f + Direction * DirectionScale));
		SlateUnitsPerFrame = NewUnitsPerFrame;
		
		CheckForRebuild(/*bRebuildAll=*/ true);

		return FReply::Handled();
	}
	else
	{
		return FReply::Unhandled();
	}
}
Exemplo n.º 12
0
FReply SAnimCurveEd::OnMouseWheel(const FGeometry& MyGeometry, const FPointerEvent& MouseEvent)
{
	const float ZoomDelta = -0.1f * MouseEvent.GetWheelDelta();

	const FVector2D WidgetSpace = MyGeometry.AbsoluteToLocal(MouseEvent.GetScreenSpacePosition());
	const float ZoomRatio = FMath::Clamp((WidgetSpace.X / MyGeometry.Size.X), 0.f, 1.f);

	{
		const float InputViewSize = ViewMaxInput.Get() - ViewMinInput.Get();
		const float InputChange = InputViewSize * ZoomDelta;

		float NewViewMinInput = ViewMinInput.Get() - (InputChange * ZoomRatio);
		float NewViewMaxInput = ViewMaxInput.Get() + (InputChange * (1.f - ZoomRatio));

		SetInputMinMax(NewViewMinInput, NewViewMaxInput);
	}

	return FReply::Handled();
}
Exemplo n.º 13
0
FReply SScrubWidget::OnMouseWheel( const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
	if ( bAllowZoom && OnSetInputViewRange.IsBound() )
	{
		const float ZoomDelta = -0.1f * MouseEvent.GetWheelDelta();

		{
			const float InputViewSize = ViewInputMax.Get() - ViewInputMin.Get();
			const float InputChange = InputViewSize * ZoomDelta;

			float ViewMinInput = ViewInputMin.Get() - (InputChange * 0.5f);
			float ViewMaxInput = ViewInputMax.Get() + (InputChange * 0.5f);

			OnSetInputViewRange.Execute(ViewMinInput, ViewMaxInput);
		}

		return FReply::Handled();
	}

	return FReply::Unhandled();
}
Exemplo n.º 14
0
FReply FSceneViewport::OnMouseWheel( const FGeometry& InGeometry, const FPointerEvent& InMouseEvent )
{
	// Start a new reply state
	CurrentReplyState = FReply::Handled();

	UpdateCachedMousePos( InGeometry, InMouseEvent );
	UpdateCachedGeometry(InGeometry);

	if( ViewportClient  && GetSizeXY() != FIntPoint::ZeroValue  )
	{
		// Switch to the viewport clients world before processing input
		FScopedConditionalWorldSwitcher WorldSwitcher( ViewportClient );

		// The viewport client accepts two different keys depending on the direction of scroll.  
		FKey const ViewportClientKey = InMouseEvent.GetWheelDelta() < 0 ? EKeys::MouseScrollDown : EKeys::MouseScrollUp;

		// Pressed and released should be sent
		ViewportClient->InputKey( this, 0, ViewportClientKey, IE_Pressed );
		ViewportClient->InputKey( this, 0, ViewportClientKey, IE_Released );
	}
	return CurrentReplyState;
}
Exemplo n.º 15
0
FReply STableViewBase::OnMouseWheel( const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
	if( !MouseEvent.IsControlDown() )
	{
		// Make sure scroll velocity is cleared so it doesn't fight with the mouse wheel input
		this->InertialScrollManager.ClearScrollVelocity();

		const float AmountScrolledInItems = this->ScrollBy( MyGeometry, -MouseEvent.GetWheelDelta()*WheelScrollAmount, EAllowOverscroll::No );

		switch ( ConsumeMouseWheel )
		{
		case EConsumeMouseWheel::Always:
			return FReply::Handled();
		case EConsumeMouseWheel::WhenScrollingPossible: //default behavior
		default:
			if ( FMath::Abs( AmountScrolledInItems ) > 0.0f )
			{
				return FReply::Handled();
			}
		}
		
	}
	return FReply::Unhandled();
}
Exemplo n.º 16
0
FReply SSequencerTrackArea::OnMouseWheel( const FGeometry& MyGeometry, const FPointerEvent& MouseEvent )
{
	// First try the edit tool
	auto SequencerPin = SequencerWidget.Pin();
	if (SequencerPin.IsValid())
	{
		FReply Reply = SequencerPin->GetEditTool().OnMouseWheel(*this, MyGeometry, MouseEvent);
		if (Reply.IsEventHandled())
		{
			return Reply;
		}
	}

	// Then the time slider
	FReply Reply = TimeSliderController->OnMouseWheel( SharedThis(this), MyGeometry, MouseEvent );
	if (Reply.IsEventHandled())
	{
		return Reply;
	}

	// Failing that, we'll just scroll vertically
	TreeView.Pin()->ScrollByDelta(WheelScrollAmount * -MouseEvent.GetWheelDelta());
	return FReply::Handled();
}
float UKismetInputLibrary::PointerEvent_GetWheelDelta(const FPointerEvent& Input)
{
	return Input.GetWheelDelta();
}
Exemplo n.º 18
0
FReply FVisualLoggerTimeSliderController::OnMouseWheel( TSharedRef<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, false);
				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;
}