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DisplayCutout
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TAG: String
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BOTTOM_MARKER: String
-
DP_MARKER: String
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RIGHT_MARKER: String
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EMULATION_OVERLAY_CATEGORY: String
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ZERO_RECT: Rect
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EMPTY_REGION: Region
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NO_CUTOUT: DisplayCutout
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NULL_PAIR: Pair<Path, DisplayCutout>
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CACHE_LOCK: Object
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sCachedSpec: String
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sCachedDisplayWidth: int
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sCachedDisplayHeight: int
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sCachedDensity: float
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sCachedCutout: Pair<Path, DisplayCutout>
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mSafeInsets: Rect
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mBounds: Region
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DisplayCutout(Rect, List<Rect>): void
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DisplayCutout(Rect, Region, boolean): void
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isEmpty(): boolean
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isBoundsEmpty(): boolean
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getSafeInsetTop(): int
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getSafeInsetBottom(): int
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getSafeInsetLeft(): int
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getSafeInsetRight(): int
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getSafeInsets(): Rect
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getBounds(): Region
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getBoundingRects(): List<Rect>
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hashCode(): int
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equals(Object): boolean
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toString(): String
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writeToProto(ProtoOutputStream, long): void
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inset(int, int, int, int): DisplayCutout
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replaceSafeInsets(Rect): DisplayCutout
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atLeastZero(int): int
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fromBoundingRect(int, int, int, int): DisplayCutout
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fromBounds(Region): DisplayCutout
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fromResourcesRectApproximation(Resources, int, int): DisplayCutout
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pathFromResources(Resources, int, int): Path
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fromSpec(String, int, int, float): DisplayCutout
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pathAndDisplayCutoutFromSpec(String, int, int, float): Pair<Path, DisplayCutout>
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toRectAndAddToRegion(Path, Region, Rect): void
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boundingRectsToRegion(List<Rect>): Region
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ParcelableWrapper
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mInner: DisplayCutout
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ParcelableWrapper(): void
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ParcelableWrapper(DisplayCutout): void
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describeContents(): int
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writeToParcel(Parcel, int): void
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writeCutoutToParcel(DisplayCutout, Parcel, int): void
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readFromParcel(Parcel): void
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CREATOR: Creator<ParcelableWrapper>
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readCutoutFromParcel(Parcel): DisplayCutout
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get(): DisplayCutout
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set(ParcelableWrapper): void
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set(DisplayCutout): void
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hashCode(): int
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equals(Object): boolean
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toString(): String
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/*
* Copyright 2017 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.view;
import static android.util.DisplayMetrics.DENSITY_DEFAULT;
import static android.util.DisplayMetrics.DENSITY_DEVICE_STABLE;
import static android.view.DisplayCutoutProto.BOUNDS;
import static android.view.DisplayCutoutProto.INSETS;
import static com.android.internal.annotations.VisibleForTesting.Visibility.PRIVATE;
import android.content.res.Resources;
import android.graphics.Matrix;
import android.graphics.Path;
import android.graphics.Rect;
import android.graphics.RectF;
import android.graphics.Region;
import android.graphics.Region.Op;
import android.os.Parcel;
import android.os.Parcelable;
import android.text.TextUtils;
import android.util.Log;
import android.util.Pair;
import android.util.PathParser;
import android.util.proto.ProtoOutputStream;
import com.android.internal.R;
import com.android.internal.annotations.GuardedBy;
import com.android.internal.annotations.VisibleForTesting;
import java.util.ArrayList;
import java.util.List;
Represents the area of the display that is not functional for displaying content.
DisplayCutout is immutable.
/**
* Represents the area of the display that is not functional for displaying content.
*
* <p>{@code DisplayCutout} is immutable.
*/
public final class DisplayCutout {
private static final String TAG = "DisplayCutout";
private static final String BOTTOM_MARKER = "@bottom";
private static final String DP_MARKER = "@dp";
private static final String RIGHT_MARKER = "@right";
Category for overlays that allow emulating a display cutout on devices that don't have
one.
See Also: - IOverlayManager
@hide
/**
* Category for overlays that allow emulating a display cutout on devices that don't have
* one.
*
* @see android.content.om.IOverlayManager
* @hide
*/
public static final String EMULATION_OVERLAY_CATEGORY =
"com.android.internal.display_cutout_emulation";
private static final Rect ZERO_RECT = new Rect();
private static final Region EMPTY_REGION = new Region();
An instance where isEmpty() returns true. @hide
/**
* An instance where {@link #isEmpty()} returns {@code true}.
*
* @hide
*/
public static final DisplayCutout NO_CUTOUT = new DisplayCutout(ZERO_RECT, EMPTY_REGION,
false /* copyArguments */);
private static final Pair<Path, DisplayCutout> NULL_PAIR = new Pair<>(null, null);
private static final Object CACHE_LOCK = new Object();
@GuardedBy("CACHE_LOCK")
private static String sCachedSpec;
@GuardedBy("CACHE_LOCK")
private static int sCachedDisplayWidth;
@GuardedBy("CACHE_LOCK")
private static int sCachedDisplayHeight;
@GuardedBy("CACHE_LOCK")
private static float sCachedDensity;
@GuardedBy("CACHE_LOCK")
private static Pair<Path, DisplayCutout> sCachedCutout = NULL_PAIR;
private final Rect mSafeInsets;
private final Region mBounds;
Creates a DisplayCutout instance.
Params: - safeInsets – the insets from each edge which avoid the display cutout as returned by
getSafeInsetTop() etc. - boundingRects – the bounding rects of the display cutouts as returned by
getBoundingRects() ()}.
/**
* Creates a DisplayCutout instance.
*
* @param safeInsets the insets from each edge which avoid the display cutout as returned by
* {@link #getSafeInsetTop()} etc.
* @param boundingRects the bounding rects of the display cutouts as returned by
* {@link #getBoundingRects()} ()}.
*/
// TODO(b/73953958): @VisibleForTesting(visibility = PRIVATE)
public DisplayCutout(Rect safeInsets, List<Rect> boundingRects) {
this(safeInsets != null ? new Rect(safeInsets) : ZERO_RECT,
boundingRectsToRegion(boundingRects),
true /* copyArguments */);
}
Creates a DisplayCutout instance.
Params: - copyArguments – if true, create a copy of the arguments. If false, the passed arguments
are not copied and MUST remain unchanged forever.
/**
* Creates a DisplayCutout instance.
*
* @param copyArguments if true, create a copy of the arguments. If false, the passed arguments
* are not copied and MUST remain unchanged forever.
*/
private DisplayCutout(Rect safeInsets, Region bounds, boolean copyArguments) {
mSafeInsets = safeInsets == null ? ZERO_RECT :
(copyArguments ? new Rect(safeInsets) : safeInsets);
mBounds = bounds == null ? Region.obtain() :
(copyArguments ? Region.obtain(bounds) : bounds);
}
Returns true if the safe insets are empty (and therefore the current view does not
overlap with the cutout or cutout area).
@hide
/**
* Returns true if the safe insets are empty (and therefore the current view does not
* overlap with the cutout or cutout area).
*
* @hide
*/
public boolean isEmpty() {
return mSafeInsets.equals(ZERO_RECT);
}
Returns true if there is no cutout, i.e. the bounds are empty.
@hide
/**
* Returns true if there is no cutout, i.e. the bounds are empty.
*
* @hide
*/
public boolean isBoundsEmpty() {
return mBounds.isEmpty();
}
Returns the inset from the top which avoids the display cutout in pixels. /** Returns the inset from the top which avoids the display cutout in pixels. */
public int getSafeInsetTop() {
return mSafeInsets.top;
}
Returns the inset from the bottom which avoids the display cutout in pixels. /** Returns the inset from the bottom which avoids the display cutout in pixels. */
public int getSafeInsetBottom() {
return mSafeInsets.bottom;
}
Returns the inset from the left which avoids the display cutout in pixels. /** Returns the inset from the left which avoids the display cutout in pixels. */
public int getSafeInsetLeft() {
return mSafeInsets.left;
}
Returns the inset from the right which avoids the display cutout in pixels. /** Returns the inset from the right which avoids the display cutout in pixels. */
public int getSafeInsetRight() {
return mSafeInsets.right;
}
Returns the safe insets in a rect in pixel units.
Returns: a rect which is set to the safe insets. @hide
/**
* Returns the safe insets in a rect in pixel units.
*
* @return a rect which is set to the safe insets.
* @hide
*/
public Rect getSafeInsets() {
return new Rect(mSafeInsets);
}
Returns the bounding region of the cutout.
Note: There may be more than one cutout, in which case the returned Region will be non-contiguous and its bounding rect will be meaningless without intersecting it first. Example:
// Getting the bounding rectangle of the top display cutout
Region bounds = displayCutout.getBounds();
bounds.op(0, 0, Integer.MAX_VALUE, displayCutout.getSafeInsetTop(), Region.Op.INTERSECT);
Rect topDisplayCutout = bounds.getBoundingRect();
Returns: the bounding region of the cutout. Coordinates are relative
to the top-left corner of the content view and in pixel units. @hide
/**
* Returns the bounding region of the cutout.
*
* <p>
* <strong>Note:</strong> There may be more than one cutout, in which case the returned
* {@code Region} will be non-contiguous and its bounding rect will be meaningless without
* intersecting it first.
*
* Example:
* <pre>
* // Getting the bounding rectangle of the top display cutout
* Region bounds = displayCutout.getBounds();
* bounds.op(0, 0, Integer.MAX_VALUE, displayCutout.getSafeInsetTop(), Region.Op.INTERSECT);
* Rect topDisplayCutout = bounds.getBoundingRect();
* </pre>
*
* @return the bounding region of the cutout. Coordinates are relative
* to the top-left corner of the content view and in pixel units.
* @hide
*/
public Region getBounds() {
return Region.obtain(mBounds);
}
Returns a list of Rects, each of which is the bounding rectangle for a non-functional area on the display. There will be at most one non-functional area per short edge of the device, and none on the long edges. Returns: a list of bounding Rects, one for each display cutout area.
/**
* Returns a list of {@code Rect}s, each of which is the bounding rectangle for a non-functional
* area on the display.
*
* There will be at most one non-functional area per short edge of the device, and none on
* the long edges.
*
* @return a list of bounding {@code Rect}s, one for each display cutout area.
*/
public List<Rect> getBoundingRects() {
List<Rect> result = new ArrayList<>();
Region bounds = Region.obtain();
// top
bounds.set(mBounds);
bounds.op(0, 0, Integer.MAX_VALUE, getSafeInsetTop(), Region.Op.INTERSECT);
if (!bounds.isEmpty()) {
result.add(bounds.getBounds());
}
// left
bounds.set(mBounds);
bounds.op(0, 0, getSafeInsetLeft(), Integer.MAX_VALUE, Region.Op.INTERSECT);
if (!bounds.isEmpty()) {
result.add(bounds.getBounds());
}
// right & bottom
bounds.set(mBounds);
bounds.op(getSafeInsetLeft() + 1, getSafeInsetTop() + 1,
Integer.MAX_VALUE, Integer.MAX_VALUE, Region.Op.INTERSECT);
if (!bounds.isEmpty()) {
result.add(bounds.getBounds());
}
bounds.recycle();
return result;
}
@Override
public int hashCode() {
int result = mSafeInsets.hashCode();
result = result * 31 + mBounds.getBounds().hashCode();
return result;
}
@Override
public boolean equals(Object o) {
if (o == this) {
return true;
}
if (o instanceof DisplayCutout) {
DisplayCutout c = (DisplayCutout) o;
return mSafeInsets.equals(c.mSafeInsets)
&& mBounds.equals(c.mBounds);
}
return false;
}
@Override
public String toString() {
return "DisplayCutout{insets=" + mSafeInsets
+ " boundingRect=" + mBounds.getBounds()
+ "}";
}
@hide
/**
* @hide
*/
public void writeToProto(ProtoOutputStream proto, long fieldId) {
final long token = proto.start(fieldId);
mSafeInsets.writeToProto(proto, INSETS);
mBounds.getBounds().writeToProto(proto, BOUNDS);
proto.end(token);
}
Insets the reference frame of the cutout in the given directions.
Returns: a copy of this instance which has been inset @hide
/**
* Insets the reference frame of the cutout in the given directions.
*
* @return a copy of this instance which has been inset
* @hide
*/
public DisplayCutout inset(int insetLeft, int insetTop, int insetRight, int insetBottom) {
if (mBounds.isEmpty()
|| insetLeft == 0 && insetTop == 0 && insetRight == 0 && insetBottom == 0) {
return this;
}
Rect safeInsets = new Rect(mSafeInsets);
Region bounds = Region.obtain(mBounds);
// Note: it's not really well defined what happens when the inset is negative, because we
// don't know if the safe inset needs to expand in general.
if (insetTop > 0 || safeInsets.top > 0) {
safeInsets.top = atLeastZero(safeInsets.top - insetTop);
}
if (insetBottom > 0 || safeInsets.bottom > 0) {
safeInsets.bottom = atLeastZero(safeInsets.bottom - insetBottom);
}
if (insetLeft > 0 || safeInsets.left > 0) {
safeInsets.left = atLeastZero(safeInsets.left - insetLeft);
}
if (insetRight > 0 || safeInsets.right > 0) {
safeInsets.right = atLeastZero(safeInsets.right - insetRight);
}
bounds.translate(-insetLeft, -insetTop);
return new DisplayCutout(safeInsets, bounds, false /* copyArguments */);
}
Returns a copy of this instance with the safe insets replaced with the parameter.
Params: - safeInsets – the new safe insets in pixels
Returns: a copy of this instance with the safe insets replaced with the argument. @hide
/**
* Returns a copy of this instance with the safe insets replaced with the parameter.
*
* @param safeInsets the new safe insets in pixels
* @return a copy of this instance with the safe insets replaced with the argument.
*
* @hide
*/
public DisplayCutout replaceSafeInsets(Rect safeInsets) {
return new DisplayCutout(new Rect(safeInsets), mBounds, false /* copyArguments */);
}
private static int atLeastZero(int value) {
return value < 0 ? 0 : value;
}
Creates an instance from a bounding rect.
@hide
/**
* Creates an instance from a bounding rect.
*
* @hide
*/
@VisibleForTesting
public static DisplayCutout fromBoundingRect(int left, int top, int right, int bottom) {
Region r = Region.obtain();
r.set(left, top, right, bottom);
return fromBounds(r);
}
Creates an instance from a bounding Path. @hide
/**
* Creates an instance from a bounding {@link Path}.
*
* @hide
*/
public static DisplayCutout fromBounds(Region region) {
return new DisplayCutout(ZERO_RECT, region, false /* copyArguments */);
}
Creates the display cutout according to
@android :string/config_mainBuiltInDisplayCutoutRectApproximation, which is the closest
rectangle-base approximation of the cutout. @hide
/**
* Creates the display cutout according to
* @android:string/config_mainBuiltInDisplayCutoutRectApproximation, which is the closest
* rectangle-base approximation of the cutout.
*
* @hide
*/
public static DisplayCutout fromResourcesRectApproximation(Resources res, int displayWidth, int displayHeight) {
return fromSpec(res.getString(R.string.config_mainBuiltInDisplayCutoutRectApproximation),
displayWidth, displayHeight, DENSITY_DEVICE_STABLE / (float) DENSITY_DEFAULT);
}
Creates an instance according to @android:string/config_mainBuiltInDisplayCutout.
@hide
/**
* Creates an instance according to @android:string/config_mainBuiltInDisplayCutout.
*
* @hide
*/
public static Path pathFromResources(Resources res, int displayWidth, int displayHeight) {
return pathAndDisplayCutoutFromSpec(
res.getString(R.string.config_mainBuiltInDisplayCutout),
displayWidth, displayHeight, DENSITY_DEVICE_STABLE / (float) DENSITY_DEFAULT).first;
}
Creates an instance according to the supplied PathData spec. @hide
/**
* Creates an instance according to the supplied {@link android.util.PathParser.PathData} spec.
*
* @hide
*/
@VisibleForTesting(visibility = PRIVATE)
public static DisplayCutout fromSpec(String spec, int displayWidth, int displayHeight,
float density) {
return pathAndDisplayCutoutFromSpec(spec, displayWidth, displayHeight, density).second;
}
private static Pair<Path, DisplayCutout> pathAndDisplayCutoutFromSpec(String spec,
int displayWidth, int displayHeight, float density) {
if (TextUtils.isEmpty(spec)) {
return NULL_PAIR;
}
synchronized (CACHE_LOCK) {
if (spec.equals(sCachedSpec) && sCachedDisplayWidth == displayWidth
&& sCachedDisplayHeight == displayHeight
&& sCachedDensity == density) {
return sCachedCutout;
}
}
spec = spec.trim();
final float offsetX;
if (spec.endsWith(RIGHT_MARKER)) {
offsetX = displayWidth;
spec = spec.substring(0, spec.length() - RIGHT_MARKER.length()).trim();
} else {
offsetX = displayWidth / 2f;
}
final boolean inDp = spec.endsWith(DP_MARKER);
if (inDp) {
spec = spec.substring(0, spec.length() - DP_MARKER.length());
}
String bottomSpec = null;
if (spec.contains(BOTTOM_MARKER)) {
String[] splits = spec.split(BOTTOM_MARKER, 2);
spec = splits[0].trim();
bottomSpec = splits[1].trim();
}
final Path p;
final Region r = Region.obtain();
try {
p = PathParser.createPathFromPathData(spec);
} catch (Throwable e) {
Log.wtf(TAG, "Could not inflate cutout: ", e);
return NULL_PAIR;
}
final Matrix m = new Matrix();
if (inDp) {
m.postScale(density, density);
}
m.postTranslate(offsetX, 0);
p.transform(m);
final Rect tmpRect = new Rect();
toRectAndAddToRegion(p, r, tmpRect);
final int topInset = tmpRect.bottom;
final int bottomInset;
if (bottomSpec != null) {
final Path bottomPath;
try {
bottomPath = PathParser.createPathFromPathData(bottomSpec);
} catch (Throwable e) {
Log.wtf(TAG, "Could not inflate bottom cutout: ", e);
return NULL_PAIR;
}
// Keep top transform
m.postTranslate(0, displayHeight);
bottomPath.transform(m);
p.addPath(bottomPath);
toRectAndAddToRegion(bottomPath, r, tmpRect);
bottomInset = displayHeight - tmpRect.top;
} else {
bottomInset = 0;
}
// Reuse tmpRect as the inset rect we store into the DisplayCutout instance.
tmpRect.set(0, topInset, 0, bottomInset);
final DisplayCutout cutout = new DisplayCutout(tmpRect, r, false /* copyArguments */);
final Pair<Path, DisplayCutout> result = new Pair<>(p, cutout);
synchronized (CACHE_LOCK) {
sCachedSpec = spec;
sCachedDisplayWidth = displayWidth;
sCachedDisplayHeight = displayHeight;
sCachedDensity = density;
sCachedCutout = result;
}
return result;
}
private static void toRectAndAddToRegion(Path p, Region inoutRegion, Rect inoutRect) {
final RectF rectF = new RectF();
p.computeBounds(rectF, false /* unused */);
rectF.round(inoutRect);
inoutRegion.op(inoutRect, Op.UNION);
}
private static Region boundingRectsToRegion(List<Rect> rects) {
Region result = Region.obtain();
if (rects != null) {
for (Rect r : rects) {
result.op(r, Region.Op.UNION);
}
}
return result;
}
Helper class for passing DisplayCutout through binder. Needed, because readFromParcel cannot be used with immutable classes. @hide
/**
* Helper class for passing {@link DisplayCutout} through binder.
*
* Needed, because {@code readFromParcel} cannot be used with immutable classes.
*
* @hide
*/
public static final class ParcelableWrapper implements Parcelable {
private DisplayCutout mInner;
public ParcelableWrapper() {
this(NO_CUTOUT);
}
public ParcelableWrapper(DisplayCutout cutout) {
mInner = cutout;
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel out, int flags) {
writeCutoutToParcel(mInner, out, flags);
}
Writes a DisplayCutout to a Parcel. See Also:
/**
* Writes a DisplayCutout to a {@link Parcel}.
*
* @see #readCutoutFromParcel(Parcel)
*/
public static void writeCutoutToParcel(DisplayCutout cutout, Parcel out, int flags) {
if (cutout == null) {
out.writeInt(-1);
} else if (cutout == NO_CUTOUT) {
out.writeInt(0);
} else {
out.writeInt(1);
out.writeTypedObject(cutout.mSafeInsets, flags);
out.writeTypedObject(cutout.mBounds, flags);
}
}
Similar to Creator.createFromParcel(Parcel), but reads into an existing instance. Needed for AIDL out parameters. /**
* Similar to {@link Creator#createFromParcel(Parcel)}, but reads into an existing
* instance.
*
* Needed for AIDL out parameters.
*/
public void readFromParcel(Parcel in) {
mInner = readCutoutFromParcel(in);
}
public static final Creator<ParcelableWrapper> CREATOR = new Creator<ParcelableWrapper>() {
@Override
public ParcelableWrapper createFromParcel(Parcel in) {
return new ParcelableWrapper(readCutoutFromParcel(in));
}
@Override
public ParcelableWrapper[] newArray(int size) {
return new ParcelableWrapper[size];
}
};
Reads a DisplayCutout from a Parcel. See Also:
/**
* Reads a DisplayCutout from a {@link Parcel}.
*
* @see #writeCutoutToParcel(DisplayCutout, Parcel, int)
*/
public static DisplayCutout readCutoutFromParcel(Parcel in) {
int variant = in.readInt();
if (variant == -1) {
return null;
}
if (variant == 0) {
return NO_CUTOUT;
}
Rect safeInsets = in.readTypedObject(Rect.CREATOR);
Region bounds = in.readTypedObject(Region.CREATOR);
return new DisplayCutout(safeInsets, bounds, false /* copyArguments */);
}
public DisplayCutout get() {
return mInner;
}
public void set(ParcelableWrapper cutout) {
mInner = cutout.get();
}
public void set(DisplayCutout cutout) {
mInner = cutout;
}
@Override
public int hashCode() {
return mInner.hashCode();
}
@Override
public boolean equals(Object o) {
return o instanceof ParcelableWrapper
&& mInner.equals(((ParcelableWrapper) o).mInner);
}
@Override
public String toString() {
return String.valueOf(mInner);
}
}
}