internal static Quaternion DoRotationHandle(RotationHandleIds ids, Quaternion rotation, Vector3 position, RotationHandleParam param)
{
var evt = Event.current;
var camForward = Handles.inverseMatrix.MultiplyVector(Camera.current != null ? Camera.current.transform.forward : Vector3.forward);
var size = HandleUtility.GetHandleSize(position);
var temp = color;
bool isDisabled = !GUI.enabled;
var isHot = ids.Has(GUIUtility.hotControl);
VertexSnapping.HandleMouseMove(ids.xyz);
// Draw free rotation first to give it the lowest priority
if (!isDisabled &&
param.ShouldShow(RotationHandleParam.Handle.XYZ) &&
(ids.xyz == GUIUtility.hotControl || !isHot))
{
color = new Color(0, 0, 0, 0.3f);
rotation = UnityEditorInternal.FreeRotate.Do(ids.xyz, rotation, position, size * param.xyzSize, param.displayXYZCircle);
}
for (var i = 0; i < 3; ++i)
{
if (!param.ShouldShow(i))
{
continue;
}
var axisColor = GetColorByAxis(i);
color = isDisabled ? Color.Lerp(axisColor, staticColor, staticBlend) : axisColor;
color = ToActiveColorSpace(color);
var axisDir = GetAxisVector(i);
var radius = size * param.axisSize[i];
rotation = UnityEditorInternal.Disc.Do(ids[i], rotation, position, rotation * axisDir, radius, true, EditorSnapSettings.rotate, param.enableRayDrag, true, k_RotationPieColor);
}
// while dragging any rotation handles, draw a gray disc outline
if (isHot && evt.type == EventType.Repaint)
{
color = ToActiveColorSpace(s_DisabledHandleColor);
Handles.DrawWireDisc(position, camForward, size * param.axisSize[0], Handles.lineThickness);
}
if (!isDisabled &&
param.ShouldShow(RotationHandleParam.Handle.CameraAxis) &&
(ids.cameraAxis == GUIUtility.hotControl || !isHot))
{
color = ToActiveColorSpace(centerColor);
rotation = UnityEditorInternal.Disc.Do(ids.cameraAxis, rotation, position, camForward, size * param.cameraAxisSize, false, 0, param.enableRayDrag, true, k_RotationPieColor);
}
color = temp;
return(rotation);
}
static Vector3 DoPositionHandle_Internal(PositionHandleIds ids, Vector3 position, Quaternion rotation, PositionHandleParam param)
{
Color temp = color;
bool isDisabled = !GUI.enabled;
// Calculate the camera view vector in Handle draw space
// this handle the case where the matrix is skewed
var handlePosition = matrix.MultiplyPoint3x4(position);
var drawToWorldMatrix = matrix * Matrix4x4.TRS(position, rotation, Vector3.one);
var invDrawToWorldMatrix = drawToWorldMatrix.inverse;
var viewVectorDrawSpace = GetCameraViewFrom(handlePosition, invDrawToWorldMatrix);
var size = HandleUtility.GetHandleSize(position);
// Calculate per axis camera lerp
for (var i = 0; i < 3; ++i)
{
s_DoPositionHandle_Internal_CameraViewLerp[i] = ids[i] == GUIUtility.hotControl ? 0 : GetCameraViewLerpForWorldAxis(viewVectorDrawSpace, GetAxisVector(i));
}
// Calculate per plane camera lerp (xy, yz, xz)
for (var i = 0; i < 3; ++i)
{
s_DoPositionHandle_Internal_CameraViewLerp[3 + i] = Mathf.Max(s_DoPositionHandle_Internal_CameraViewLerp[i], s_DoPositionHandle_Internal_CameraViewLerp[(i + 1) % 3]);
}
var isHot = ids.Has(GUIUtility.hotControl);
var axisOffset = param.axisOffset;
var planeOffset = param.planeOffset;
if (isHot)
{
axisOffset = Vector3.zero;
planeOffset = Vector3.zero;
}
// Draw plane handles (xy, yz, xz)
var planeSize = isHot ? param.planeSize + param.planeOffset : param.planeSize;
for (var i = 0; i < 3; ++i)
{
if (!param.ShouldShow(3 + i) || isHot && ids[3 + i] != GUIUtility.hotControl)
{
continue;
}
var cameraLerp = isHot ? 0 : s_DoPositionHandle_Internal_CameraViewLerp[3 + i];
if (cameraLerp <= kCameraViewThreshold)
{
var offset = planeOffset * size;
offset[s_DoPositionHandle_Internal_PrevIndex[i]] = 0;
var planarSize = Mathf.Max(planeSize[i], planeSize[s_DoPositionHandle_Internal_NextIndex[i]]);
position = DoPlanarHandle(ids[3 + i], i, position, offset, rotation, size * planarSize, cameraLerp, viewVectorDrawSpace, param.planeOrientation);
}
}
// Draw axis sliders
// Draw last to have priority over the planes
for (var i = 0; i < 3; ++i)
{
if (!param.ShouldShow(i))
{
continue;
}
if (!currentlyDragging)
{
switch (param.axesOrientation)
{
case PositionHandleParam.Orientation.Camera:
s_DoPositionHandle_AxisHandlesOctant[i] = viewVectorDrawSpace[i] > 0.01f ? -1 : 1;
break;
case PositionHandleParam.Orientation.Signed:
s_DoPositionHandle_AxisHandlesOctant[i] = 1;
break;
}
}
var isThisAxisHot = isHot && ids[i] == GUIUtility.hotControl;
var axisColor = GetColorByAxis(i);
color = isDisabled ? Color.Lerp(axisColor, staticColor, staticBlend) : axisColor;
GUI.SetNextControlName(s_DoPositionHandle_Internal_AxisNames[i]);
// if we are hot here, the hot handle must be opaque
var cameraLerp = isThisAxisHot ? 0 : s_DoPositionHandle_Internal_CameraViewLerp[i];
if (cameraLerp <= kCameraViewThreshold)
{
color = Color.Lerp(color, Color.clear, cameraLerp);
var axisVector = GetAxisVector(i);
var dir = rotation * axisVector;
var offset = dir * axisOffset[i] * size;
dir *= s_DoPositionHandle_AxisHandlesOctant[i];
offset *= s_DoPositionHandle_AxisHandlesOctant[i];
if (isHot && !isThisAxisHot)
{
color = s_DisabledHandleColor;
}
// A plane with this axis is hot
if (isHot && (ids[s_DoPositionHandle_Internal_PrevPlaneIndex[i]] == GUIUtility.hotControl || ids[i + 3] == GUIUtility.hotControl))
{
color = selectedColor;
}
color = ToActiveColorSpace(color);
s_DoPositionHandle_ArrowCapConeOffset = isHot
? rotation * Vector3.Scale(Vector3.Scale(axisVector, param.axisOffset), s_DoPositionHandle_AxisHandlesOctant)
: Vector3.zero;
position = Slider(ids[i], position, offset, dir, size * param.axisSize[i], DoPositionHandle_ArrowCap, GridSnapping.active ? 0f : EditorSnapSettings.move[i]);
}
}
VertexSnapping.HandleMouseMove(ids.xyz);
if (param.ShouldShow(PositionHandleParam.Handle.XYZ) && (isHot && ids.xyz == GUIUtility.hotControl || !isHot))
{
color = ToActiveColorSpace(centerColor);
GUI.SetNextControlName("FreeMoveAxis");
position = FreeMoveHandle(ids.xyz, position, rotation, size * kFreeMoveHandleSizeFactor, GridSnapping.active ? Vector3.zero : EditorSnapSettings.move, RectangleHandleCap);
}
if (GridSnapping.active)
{
position = GridSnapping.Snap(position);
}
color = temp;
return(position);
}
static Vector3 MoveHandlesGUI(Rect rect, Vector3 pivot, Quaternion rotation)
{
int id = GUIUtility.GetControlID(s_MoveHandleHash, FocusType.Passive);
Vector3 newPos = pivot;
float discSize = HandleUtility.GetHandleSize(pivot) * 0.2f;
float discOpacity = (1 - GUI.color.a);
Vector3[] corners = new Vector3[4];
corners[0] = rotation * new Vector2(rect.x, rect.y) + pivot;
corners[1] = rotation * new Vector2(rect.xMax, rect.y) + pivot;
corners[2] = rotation * new Vector2(rect.xMax, rect.yMax) + pivot;
corners[3] = rotation * new Vector2(rect.x, rect.yMax) + pivot;
VertexSnapping.HandleMouseMove(id);
bool supportsRectSnapping = Selection.transforms.Length == 1 &&
UnityEditorInternal.InternalEditorUtility.SupportsRectLayout(Selection.activeTransform) &&
Selection.activeTransform.parent.rotation == rotation;
Event evt = Event.current;
EventType eventType = evt.GetTypeForControl(id);
Plane guiPlane = new Plane(corners[0], corners[1], corners[2]);
switch (eventType)
{
case EventType.MouseDown:
{
bool acceptClick = false;
if (Tools.vertexDragging)
{
acceptClick = true;
}
else
{
acceptClick =
evt.button == 0 &&
evt.modifiers == 0 &&
RectHandles.RaycastGUIPointToWorldHit(evt.mousePosition, guiPlane, out s_StartMouseWorldPos) &&
(
SceneViewDistanceToRectangle(corners, evt.mousePosition) == 0f ||
(discOpacity > 0 && SceneViewDistanceToDisc(pivot, rotation * Vector3.forward, discSize, evt.mousePosition) == 0f)
);
}
if (acceptClick)
{
s_StartPosition = pivot;
s_StartMousePos = s_CurrentMousePos = evt.mousePosition;
s_Moving = false;
s_LockAxis = -1;
GUIUtility.hotControl = GUIUtility.keyboardControl = id;
EditorGUIUtility.SetWantsMouseJumping(1);
HandleUtility.ignoreRaySnapObjects = null;
evt.Use();
// Calculate snapping values if applicable
if (supportsRectSnapping)
{
Transform transform = Selection.activeTransform;
RectTransform rectTransform = transform.GetComponent <RectTransform>();
Transform transformParent = transform.parent;
RectTransform rectTransformParent = transformParent.GetComponent <RectTransform>();
s_StartRectPosition = rectTransform.anchoredPosition;
RectTransformSnapping.CalculatePositionSnapValues(transformParent, transform, rectTransformParent, rectTransform);
}
}
break;
}
case EventType.MouseDrag:
{
if (GUIUtility.hotControl == id)
{
s_CurrentMousePos += evt.delta;
if (!s_Moving && (s_CurrentMousePos - s_StartMousePos).magnitude > 3f)
{
s_Moving = true;
// Re-raycast to get start mouse pos when effective dragging starts.
// This prevents a sudden unsnap when the dragging is enabled.
RectHandles.RaycastGUIPointToWorldHit(s_CurrentMousePos, guiPlane, out s_StartMouseWorldPos);
}
if (s_Moving)
{
if (Tools.vertexDragging)
{
if (HandleUtility.ignoreRaySnapObjects == null)
{
Handles.SetupIgnoreRaySnapObjects();
}
Vector3 near;
if (HandleUtility.FindNearestVertex(s_CurrentMousePos, null, out near))
{
// Snap position based on found near vertex
newPos = near;
GUI.changed = true;
}
ManipulationToolUtility.minDragDifference = Vector2.zero;
}
else
{
ManipulationToolUtility.SetMinDragDifferenceForPos(pivot);
Vector3 pos;
if (RectHandles.RaycastGUIPointToWorldHit(s_CurrentMousePos, guiPlane, out pos))
{
Vector3 offset = pos - s_StartMouseWorldPos;
// Snap to axis
if (evt.shift)
{
// Get offset in rect handles space
offset = Quaternion.Inverse(rotation) * offset;
// Determine lock axis if not already set
if (s_LockAxis == -1)
{
s_LockAxis = Mathf.Abs(offset.x) > Mathf.Abs(offset.y) ? 0 : 1;
}
// Cancel mocement on other axis
offset[1 - s_LockAxis] = 0;
// Put offset back in world space
offset = rotation * offset;
}
else
{
s_LockAxis = -1;
}
if (supportsRectSnapping)
{
Transform transformParent = Selection.activeTransform.parent;
Vector3 rectPosition = s_StartRectPosition + transformParent.InverseTransformVector(offset);
rectPosition.z = 0;
Quaternion inverseRotation = Quaternion.Inverse(rotation);
Vector2 snapSize = Vector2.one * HandleUtility.GetHandleSize(newPos) * RectTransformSnapping.kSnapThreshold;
snapSize.x /= (inverseRotation * transformParent.TransformVector(Vector3.right)).x;
snapSize.y /= (inverseRotation * transformParent.TransformVector(Vector3.up)).y;
Vector3 newRectPosition = RectTransformSnapping.SnapToGuides(rectPosition, snapSize);
ManipulationToolUtility.DisableMinDragDifferenceBasedOnSnapping(rectPosition, newRectPosition);
offset = transformParent.TransformVector(newRectPosition - s_StartRectPosition);
}
newPos = s_StartPosition + offset;
GUI.changed = true;
}
}
}
evt.Use();
}
break;
}
case EventType.MouseUp:
{
if (GUIUtility.hotControl == id)
{
if (!s_Moving)
{
Selection.activeGameObject = SceneViewPicking.PickGameObject(evt.mousePosition);
}
GUIUtility.hotControl = 0;
EditorGUIUtility.SetWantsMouseJumping(0);
HandleUtility.ignoreRaySnapObjects = null;
evt.Use();
}
break;
}
case EventType.Repaint:
{
if (Tools.vertexDragging)
{
RectHandles.RectScalingHandleCap(id, pivot, rotation, 1, EventType.Repaint);
}
else
{
Handles.color = Handles.secondaryColor * new Color(1, 1, 1, 1.5f * discOpacity);
Handles.CircleHandleCap(id, pivot, rotation, discSize, EventType.Repaint);
Handles.color = Handles.secondaryColor * new Color(1, 1, 1, 0.3f * discOpacity);
Handles.DrawSolidDisc(pivot, rotation * Vector3.forward, discSize);
}
break;
}
}
ManipulationToolUtility.DetectDraggingBasedOnMouseDownUp(kChangingPosX, eventType);
ManipulationToolUtility.DetectDraggingBasedOnMouseDownUp(kChangingLeft, eventType);
ManipulationToolUtility.DetectDraggingBasedOnMouseDownUp(kChangingRight, eventType);
ManipulationToolUtility.DetectDraggingBasedOnMouseDownUp(kChangingPosY, eventType);
ManipulationToolUtility.DetectDraggingBasedOnMouseDownUp(kChangingTop, eventType);
ManipulationToolUtility.DetectDraggingBasedOnMouseDownUp(kChangingBottom, eventType);
return(newPos);
}
internal static Vector3 DoScaleHandle(ScaleHandleIds ids, Vector3 scale, Vector3 position, Quaternion rotation, float handleSize, ScaleHandleParam param, bool isProportionalScale = false)
{
// Calculate the camera view vector in Handle draw space
// this handle the case where the matrix is skewed
var handlePosition = matrix.MultiplyPoint3x4(position);
var drawToWorldMatrix = matrix * Matrix4x4.TRS(position, rotation, Vector3.one);
var invDrawToWorldMatrix = drawToWorldMatrix.inverse;
var viewVectorDrawSpace = GetCameraViewFrom(handlePosition, invDrawToWorldMatrix);
var isDisabled = !GUI.enabled;
var isHot = ids.Has(GUIUtility.hotControl);
var axisOffset = param.axisOffset;
var axisLineScale = param.axisLineScale;
// When an axis is hot, draw the line from the center to the handle
// So ignore the offset
if (isHot)
{
axisLineScale += axisOffset;
axisOffset = Vector3.zero;
}
var isCenterIsHot = ids.xyz == GUIUtility.hotControl;
VertexSnapping.HandleMouseMove(ids.xyz);
switch (Event.current.type)
{
case EventType.MouseDown:
s_InitialScale = scale == Vector3.zero ? Vector3.one : scale;
s_CurrentMultiplier = 1.0f;
break;
case EventType.MouseDrag:
if (isProportionalScale)
{
proportionalScale = true;
}
break;
case EventType.MouseUp:
proportionalScale = false;
break;
}
CalcDrawOrder(viewVectorDrawSpace, s_DoScaleHandle_AxisDrawOrder);
for (var ii = 0; ii < 3; ++ii)
{
int i = s_DoScaleHandle_AxisDrawOrder[ii];
int axisIndex = i;
if (!param.ShouldShow(i))
{
continue;
}
if (!currentlyDragging)
{
switch (param.orientation)
{
case ScaleHandleParam.Orientation.Signed:
s_DoScaleHandle_AxisHandlesOctant[i] = 1;
break;
case ScaleHandleParam.Orientation.Camera:
s_DoScaleHandle_AxisHandlesOctant[i] = viewVectorDrawSpace[i] > 0.01f ? -1 : 1;
break;
}
}
var id = ids[i];
var isThisAxisHot = isHot && id == GUIUtility.hotControl;
var axisDir = GetAxisVector(i);
var axisColor = isProportionalScale ? constrainProportionsScaleHandleColor : GetColorByAxis(i);
var offset = axisOffset[i];
var cameraLerp = id == GUIUtility.hotControl ? 0 : GetCameraViewLerpForWorldAxis(viewVectorDrawSpace, axisDir);
// If we are here and is hot, then this axis is hot and must be opaque
cameraLerp = isHot ? 0 : cameraLerp;
color = isDisabled ? Color.Lerp(axisColor, staticColor, staticBlend) : axisColor;
axisDir *= s_DoScaleHandle_AxisHandlesOctant[i];
if (cameraLerp <= kCameraViewThreshold)
{
color = GetFadedAxisColor(color, cameraLerp, id);
if (isHot && !isThisAxisHot)
{
color = isProportionalScale ? selectedColor : s_DisabledHandleColor;
}
if (isCenterIsHot)
{
color = selectedColor;
}
color = ToActiveColorSpace(color);
if (isProportionalScale)
{
axisIndex = 0;
}
scale = UnityEditorInternal.SliderScale.DoAxis(
id,
scale,
axisIndex,
position,
rotation * axisDir,
rotation,
handleSize * param.axisSize[axisIndex],
EditorSnapSettings.scale,
offset,
axisLineScale[axisIndex],
s_InitialScale,
isProportionalScale);
}
}
if (param.ShouldShow(ScaleHandleParam.Handle.XYZ) && (ids.xyz == GUIUtility.hotControl || !isHot))
{
color = isProportionalScale ? constrainProportionsScaleHandleColor : ToActiveColorSpace(centerColor);
proportionalScale = false;
EditorGUI.BeginChangeCheck();
s_CurrentMultiplier = ScaleValueHandle(ids.xyz, s_CurrentMultiplier, position, rotation, handleSize * param.xyzSize, CubeHandleCap, EditorSnapSettings.scale);
if (EditorGUI.EndChangeCheck())
{
scale = s_InitialScale * s_CurrentMultiplier;
}
}
return(scale);
}
