/// <summary>
/// It is currently active only when Notch Simulator tab is present.
/// </summary>
void OnGUI()
{
win = this;
//Sometimes even with flag I can see it in hierarchy until I move a mouse over it??
EditorApplication.RepaintHierarchyWindow();
bool enableSimulation = NotchSimulatorUtility.enableSimulation;
EditorGUI.BeginChangeCheck();
string shortcut = ShortcutManager.instance.GetShortcutBinding(NotchSolutionShortcuts.toggleSimulationShortcut).ToString();
if (string.IsNullOrEmpty(shortcut))
{
shortcut = "None";
}
NotchSimulatorUtility.enableSimulation = EditorGUILayout.BeginToggleGroup($"Simulate ({shortcut})", NotchSimulatorUtility.enableSimulation);
EditorGUI.indentLevel++;
NotchSimulatorUtility.selectedDevice = (SimulationDevice)EditorGUILayout.EnumPopup(NotchSimulatorUtility.selectedDevice);
NotchSimulatorUtility.flipOrientation = EditorGUILayout.Toggle("Flip Orientation", NotchSimulatorUtility.flipOrientation);
var simulationDevice = SimulationDatabase.db[NotchSimulatorUtility.selectedDevice];
//Draw warning about wrong aspect ratio
if (enableSimulation)
{
ScreenOrientation gameViewOrientation = NotchSimulatorUtility.GetGameViewOrientation();
Vector2 simSize = gameViewOrientation == ScreenOrientation.Portrait ?
simulationDevice.screenSize : new Vector2(simulationDevice.screenSize.y, simulationDevice.screenSize.x);
Vector2 gameViewSize = NotchSimulatorUtility.GetMainGameViewSize();
if (gameViewOrientation == ScreenOrientation.Landscape)
{
var flip = gameViewSize.x;
gameViewSize.x = gameViewSize.y;
gameViewSize.y = flip;
}
var simAspect = NotchSolutionUtility.ScreenRatio(simulationDevice.screenSize);
var gameViewAspect = NotchSolutionUtility.ScreenRatio(gameViewSize);
var aspectDiff = Math.Abs((simAspect.x / simAspect.y) - (gameViewAspect.x / gameViewAspect.y));
if (aspectDiff > 0.01f)
{
EditorGUILayout.HelpBox($"The selected simulation device has an aspect ratio of {simAspect.y}:{simAspect.x} ({simulationDevice.screenSize.y}x{simulationDevice.screenSize.x}) but your game view is currently in aspect {gameViewAspect.y}:{gameViewAspect.x} ({gameViewSize.y}x{gameViewSize.x}). The overlay mockup will be stretched from its intended ratio.", MessageType.Warning);
}
}
EditorGUI.indentLevel--;
EditorGUILayout.EndToggleGroup();
bool changed = EditorGUI.EndChangeCheck();
if (changed)
{
UpdateAllMockups();
}
UpdateSimulatorTargets();
}
public override void OnInspectorGUI()
{
var orientationType = serializedObject.FindProperty("orientationType");
var portrait = serializedObject.FindProperty("portraitOrDefaultPaddings");
var landscape = serializedObject.FindProperty("landscapePaddings");
var influence = serializedObject.FindProperty("influence");
var flipPadding = serializedObject.FindProperty("flipPadding");
(bool landscapeCompatible, bool portraitCompatible) = NotchSolutionUtility.GetOrientationCompatibility();
if (portraitCompatible && landscapeCompatible)
{
EditorGUILayout.PropertyField(orientationType);
EditorGUILayout.Separator();
}
bool dual = orientationType.enumValueIndex == (int)SupportedOrientations.Dual;
if (dual)
{
EditorGUILayout.LabelField("Portrait Orientation", EditorStyles.boldLabel);
}
if (portraitCompatible && landscapeCompatible)
{
EditorGUI.indentLevel++;
}
for (int i = 0; i < 4; i++)
{
portrait.Next(enterChildren: true);
EditorGUILayout.PropertyField(portrait);
}
if (portraitCompatible && landscapeCompatible)
{
EditorGUI.indentLevel--;
}
if (dual)
{
EditorGUILayout.Separator();
EditorGUILayout.LabelField("Landscape Orientation", EditorStyles.boldLabel);
EditorGUI.indentLevel++;
for (int i = 0; i < 4; i++)
{
landscape.Next(enterChildren: true);
EditorGUILayout.PropertyField(landscape);
}
EditorGUI.indentLevel--;
}
EditorGUILayout.Separator();
EditorGUILayout.PropertyField(influence);
EditorGUILayout.PropertyField(flipPadding);
serializedObject.ApplyModifiedProperties();
}
/// <summary>
/// Draw the part of fields in <see cref="AdaptationBase">.
/// </summary>
//public static void Draw(SerializedObject serializedObject)
public override void OnInspectorGUI()
{
AdaptationBase adaptation = (AdaptationBase)target;
var supportedProp = serializedObject.FindProperty("supportedOrientations");
var portraitProp = serializedObject.FindProperty("portraitOrDefaultAdaptation");
var landscapeProp = serializedObject.FindProperty("landscapeAdaptation");
(bool landscapeCompatible, bool portraitCompatible) = NotchSolutionUtility.GetOrientationCompatibility();
if (portraitCompatible && landscapeCompatible)
{
EditorGUILayout.PropertyField(supportedProp);
EditorGUILayout.Separator();
}
bool dual = supportedProp.enumValueIndex == (int)SupportedOrientations.Dual;
if (dual)
{
EditorGUILayout.LabelField("Portrait Orientation", EditorStyles.boldLabel);
}
portraitProp.Next(enterChildren: true);
if (portraitCompatible && landscapeCompatible)
{
EditorGUI.indentLevel++;
}
DrawGenButton(adaptation, forPortrait: true);
for (int i = 0; i < 3; i++)
{
EditorGUILayout.PropertyField(portraitProp);
portraitProp.Next(enterChildren: false);
}
if (portraitCompatible && landscapeCompatible)
{
EditorGUI.indentLevel--;
}
if (dual)
{
EditorGUILayout.Separator();
EditorGUILayout.LabelField("Landscape Orientation", EditorStyles.boldLabel);
landscapeProp.Next(enterChildren: true);
EditorGUI.indentLevel++;
DrawGenButton(adaptation, forPortrait: false);
for (int i = 0; i < 3; i++)
{
EditorGUILayout.PropertyField(landscapeProp);
landscapeProp.Next(enterChildren: false);
}
EditorGUI.indentLevel--;
}
serializedObject.ApplyModifiedProperties();
}
private void UpdateRect()
{
if (!IsActive())
{
return;
}
SafeAreaPaddingSides selectedOrientation =
orientationType == SafeAreaPaddingOrientationType.DualOrientation ?
NotchSolutionUtility.GetCurrentOrientation() == ScreenOrientation.Landscape ?
landscapePaddings : portraitOrDefaultPaddings
: portraitOrDefaultPaddings;
m_Tracker.Clear();
m_Tracker.Add(this, rectTransform,
(LockSide(selectedOrientation.left) ? DrivenTransformProperties.AnchorMinX : 0) |
(LockSide(selectedOrientation.right) ? DrivenTransformProperties.AnchorMaxX : 0) |
(LockSide(selectedOrientation.bottom) ? DrivenTransformProperties.AnchorMinY : 0) |
(LockSide(selectedOrientation.top) ? DrivenTransformProperties.AnchorMaxY : 0) |
(LockSide(selectedOrientation.left) && LockSide(selectedOrientation.right) ? (DrivenTransformProperties.SizeDeltaX | DrivenTransformProperties.AnchoredPositionX) : 0) |
(LockSide(selectedOrientation.top) && LockSide(selectedOrientation.bottom) ? (DrivenTransformProperties.SizeDeltaY | DrivenTransformProperties.AnchoredPositionY) : 0)
);
bool LockSide(SafeAreaPaddingMode sapm)
{
switch (sapm)
{
case SafeAreaPaddingMode.Safe:
case SafeAreaPaddingMode.SafeBalanced:
case SafeAreaPaddingMode.Zero:
return(true);
//When "Unlocked" is supported, it will be false.
default:
return(false);
}
}
//Lock the anchor mode to full stretch first.
rectTransform.anchorMin = Vector2.zero;
rectTransform.anchorMax = Vector2.one;
var topRect = GetTopLevelRect();
var safeAreaRelative = GetScreenSafeAreaRelative();
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"Top {topRect} safe {safeAreaRelative} min {safeAreaRelative.xMin} {safeAreaRelative.yMin}");
#endif
var safeAreaPaddingsRelativeLDUR = new float[4]
{
safeAreaRelative.xMin,
safeAreaRelative.yMin,
1 - (safeAreaRelative.yMin + safeAreaRelative.height),
1 - (safeAreaRelative.xMin + safeAreaRelative.width),
};
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"SafeLDUR {string.Join(" ", safeAreaPaddingsRelativeLDUR.Select(x => x.ToString()))}");
#endif
var currentRect = rectTransform.rect;
//TODO : Calculate the current padding relative, to enable "Unlocked" mode. (Not forcing zero padding)
var finalPaddingsLDUR = new float[4]
{
0, 0, 0, 0
};
switch (selectedOrientation.left)
{
case SafeAreaPaddingMode.Safe:
finalPaddingsLDUR[0] = topRect.width * safeAreaPaddingsRelativeLDUR[0];
break;
case SafeAreaPaddingMode.SafeBalanced:
finalPaddingsLDUR[0] = safeAreaPaddingsRelativeLDUR[3] > safeAreaPaddingsRelativeLDUR[0] ?
topRect.width * safeAreaPaddingsRelativeLDUR[3] :
topRect.width * safeAreaPaddingsRelativeLDUR[0];
break;
}
switch (selectedOrientation.right)
{
case SafeAreaPaddingMode.Safe:
finalPaddingsLDUR[3] = topRect.width * safeAreaPaddingsRelativeLDUR[3];
break;
case SafeAreaPaddingMode.SafeBalanced:
finalPaddingsLDUR[3] = safeAreaPaddingsRelativeLDUR[0] > safeAreaPaddingsRelativeLDUR[3] ?
topRect.width * safeAreaPaddingsRelativeLDUR[0] :
topRect.width * safeAreaPaddingsRelativeLDUR[3];
break;
}
switch (selectedOrientation.bottom)
{
case SafeAreaPaddingMode.Safe:
finalPaddingsLDUR[1] = topRect.height * safeAreaPaddingsRelativeLDUR[1];
break;
case SafeAreaPaddingMode.SafeBalanced:
finalPaddingsLDUR[1] = safeAreaPaddingsRelativeLDUR[2] > safeAreaPaddingsRelativeLDUR[1] ?
topRect.height * safeAreaPaddingsRelativeLDUR[2] :
topRect.height * safeAreaPaddingsRelativeLDUR[1];
break;
}
switch (selectedOrientation.top)
{
case SafeAreaPaddingMode.Safe:
finalPaddingsLDUR[2] = topRect.height * safeAreaPaddingsRelativeLDUR[2];
break;
case SafeAreaPaddingMode.SafeBalanced:
finalPaddingsLDUR[2] = safeAreaPaddingsRelativeLDUR[1] > safeAreaPaddingsRelativeLDUR[2] ?
topRect.height * safeAreaPaddingsRelativeLDUR[1] :
topRect.height * safeAreaPaddingsRelativeLDUR[2];
break;
}
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"FinalLDUR {string.Join(" ", finalPaddingsLDUR.Select(x => x.ToString()))}");
#endif
//Combined padding becomes size delta.
var sizeDelta = rectTransform.sizeDelta;
sizeDelta.x = -(finalPaddingsLDUR[0] + finalPaddingsLDUR[3]);
sizeDelta.y = -(finalPaddingsLDUR[1] + finalPaddingsLDUR[2]);
rectTransform.sizeDelta = sizeDelta;
//The rect remaining after subtracted the size delta.
Vector2 rectWidthHeight = new Vector2(topRect.width + sizeDelta.x, topRect.height + sizeDelta.y);
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"RectWidthHeight {rectWidthHeight}");
#endif
//Anchor position's answer is depending on pivot too. Where the pivot point is defines where 0 anchor point is.
Vector2 zeroPosition = new Vector2(rectTransform.pivot.x * topRect.width, rectTransform.pivot.y * topRect.height);
Vector2 pivotInRect = new Vector2(rectTransform.pivot.x * rectWidthHeight.x, rectTransform.pivot.y * rectWidthHeight.y);
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"zeroPosition {zeroPosition}");
#endif
//Calculate like zero position is at bottom left first, then diff with the real zero position.
rectTransform.anchoredPosition3D = new Vector3(
finalPaddingsLDUR[0] + pivotInRect.x - zeroPosition.x,
finalPaddingsLDUR[1] + pivotInRect.y - zeroPosition.y,
rectTransform.anchoredPosition3D.z);
}
#pragma warning restore 0649
protected override void UpdateRect()
{
PerEdgeEvaluationModes selectedOrientation =
orientationType == SupportedOrientations.Dual ?
NotchSolutionUtility.GetCurrentOrientation() == ScreenOrientation.Landscape ?
landscapePaddings : portraitOrDefaultPaddings
: portraitOrDefaultPaddings;
m_Tracker.Clear();
m_Tracker.Add(this, rectTransform,
(LockSide(selectedOrientation.left) ? DrivenTransformProperties.AnchorMinX : 0) |
(LockSide(selectedOrientation.right) ? DrivenTransformProperties.AnchorMaxX : 0) |
(LockSide(selectedOrientation.bottom) ? DrivenTransformProperties.AnchorMinY : 0) |
(LockSide(selectedOrientation.top) ? DrivenTransformProperties.AnchorMaxY : 0) |
(LockSide(selectedOrientation.left) && LockSide(selectedOrientation.right) ? (DrivenTransformProperties.SizeDeltaX | DrivenTransformProperties.AnchoredPositionX) : 0) |
(LockSide(selectedOrientation.top) && LockSide(selectedOrientation.bottom) ? (DrivenTransformProperties.SizeDeltaY | DrivenTransformProperties.AnchoredPositionY) : 0)
);
bool LockSide(EdgeEvaluationMode saem)
{
switch (saem)
{
case EdgeEvaluationMode.On:
case EdgeEvaluationMode.Balanced:
case EdgeEvaluationMode.Off:
return(true);
//When "Unlocked" is supported, it will be false.
default:
return(false);
}
}
//Lock the anchor mode to full stretch first.
rectTransform.anchorMin = Vector2.zero;
rectTransform.anchorMax = Vector2.one;
var topRect = GetCanvasRect();
var safeAreaRelative = SafeAreaRelative;
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"Top {topRect} safe {safeAreaRelative} min {safeAreaRelative.xMin} {safeAreaRelative.yMin}");
#endif
var relativeLDUR = new float[4]
{
safeAreaRelative.xMin,
safeAreaRelative.yMin,
1 - (safeAreaRelative.yMin + safeAreaRelative.height),
1 - (safeAreaRelative.xMin + safeAreaRelative.width),
};
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"SafeLDUR {string.Join(" ", relativeLDUR.Select(x => x.ToString()))}");
#endif
// fixed: sometimes relativeLDUR will be NAN when start at some android devices.
// if relativeLDUR is NAN then sizeDelta will be NAN, the safe area will be wrong.
if (float.IsNaN(relativeLDUR[0]))
{
relativeLDUR[0] = 0;
}
if (float.IsNaN(relativeLDUR[1]))
{
relativeLDUR[1] = 0;
}
if (float.IsNaN(relativeLDUR[2]))
{
relativeLDUR[2] = 0;
}
if (float.IsNaN(relativeLDUR[3]))
{
relativeLDUR[3] = 0;
}
var currentRect = rectTransform.rect;
//TODO : Calculate the current padding relative, to enable "Unlocked" mode. (Not forcing zero padding)
var finalPaddingsLDUR = new float[4]
{
0, 0, 0, 0
};
switch (selectedOrientation.left)
{
case EdgeEvaluationMode.On:
finalPaddingsLDUR[0] = topRect.width * relativeLDUR[0];
break;
case EdgeEvaluationMode.Balanced:
finalPaddingsLDUR[0] = relativeLDUR[3] > relativeLDUR[0] ?
topRect.width * relativeLDUR[3] :
topRect.width * relativeLDUR[0];
break;
}
switch (selectedOrientation.right)
{
case EdgeEvaluationMode.On:
finalPaddingsLDUR[3] = topRect.width * relativeLDUR[3];
break;
case EdgeEvaluationMode.Balanced:
finalPaddingsLDUR[3] = relativeLDUR[0] > relativeLDUR[3] ?
topRect.width * relativeLDUR[0] :
topRect.width * relativeLDUR[3];
break;
}
switch (selectedOrientation.bottom)
{
case EdgeEvaluationMode.On:
finalPaddingsLDUR[1] = topRect.height * relativeLDUR[1];
break;
case EdgeEvaluationMode.Balanced:
finalPaddingsLDUR[1] = relativeLDUR[2] > relativeLDUR[1] ?
topRect.height * relativeLDUR[2] :
topRect.height * relativeLDUR[1];
break;
}
switch (selectedOrientation.top)
{
case EdgeEvaluationMode.On:
finalPaddingsLDUR[2] = topRect.height * relativeLDUR[2];
break;
case EdgeEvaluationMode.Balanced:
finalPaddingsLDUR[2] = relativeLDUR[1] > relativeLDUR[2] ?
topRect.height * relativeLDUR[1] :
topRect.height * relativeLDUR[2];
break;
}
//Apply influence to the calculated padding
finalPaddingsLDUR[0] *= influence;
finalPaddingsLDUR[1] *= influence;
finalPaddingsLDUR[2] *= influence;
finalPaddingsLDUR[3] *= influence;
if (flipPadding)
{
float remember = 0;
finalPaddingsLDUR[0] = remember;
finalPaddingsLDUR[0] = finalPaddingsLDUR[3];
finalPaddingsLDUR[3] = remember;
finalPaddingsLDUR[1] = remember;
finalPaddingsLDUR[1] = finalPaddingsLDUR[2];
finalPaddingsLDUR[2] = remember;
}
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"FinalLDUR {string.Join(" ", finalPaddingsLDUR.Select(x => x.ToString()))}");
#endif
//Combined padding becomes size delta.
var sizeDelta = rectTransform.sizeDelta;
sizeDelta.x = -(finalPaddingsLDUR[0] + finalPaddingsLDUR[3]);
sizeDelta.y = -(finalPaddingsLDUR[1] + finalPaddingsLDUR[2]);
rectTransform.sizeDelta = sizeDelta;
//The rect remaining after subtracted the size delta.
Vector2 rectWidthHeight = new Vector2(topRect.width + sizeDelta.x, topRect.height + sizeDelta.y);
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"RectWidthHeight {rectWidthHeight}");
#endif
//Anchor position's answer is depending on pivot too. Where the pivot point is defines where 0 anchor point is.
Vector2 zeroPosition = new Vector2(rectTransform.pivot.x * topRect.width, rectTransform.pivot.y * topRect.height);
Vector2 pivotInRect = new Vector2(rectTransform.pivot.x * rectWidthHeight.x, rectTransform.pivot.y * rectWidthHeight.y);
#if DEBUG_NOTCH_SOLUTION
Debug.Log($"zeroPosition {zeroPosition}");
#endif
//Calculate like zero position is at bottom left first, then diff with the real zero position.
rectTransform.anchoredPosition3D = new Vector3(
finalPaddingsLDUR[0] + pivotInRect.x - zeroPosition.x,
finalPaddingsLDUR[1] + pivotInRect.y - zeroPosition.y,
rectTransform.anchoredPosition3D.z);
}
