field public static final java.lang.String LOGIN_ACCOUNTS_CHANGED_ACTION = "android.accounts.LOGIN_ACCOUNTS_CHANGED";
}
- public abstract interface AccountManagerCallback {
+ public abstract interface AccountManagerCallback<V> {
method public abstract void run(android.accounts.AccountManagerFuture<V>);
}
- public abstract interface AccountManagerFuture {
+ public abstract interface AccountManagerFuture<V> {
method public abstract boolean cancel(boolean);
method public abstract V getResult() throws android.accounts.AuthenticatorException, java.io.IOException, android.accounts.OperationCanceledException;
method public abstract V getResult(long, java.util.concurrent.TimeUnit) throws android.accounts.AuthenticatorException, java.io.IOException, android.accounts.OperationCanceledException;
method public java.lang.Object evaluate(float, java.lang.Object, java.lang.Object);
}
- public abstract class BidirectionalTypeConverter extends android.animation.TypeConverter {
+ public abstract class BidirectionalTypeConverter<T, V> extends android.animation.TypeConverter {
ctor public BidirectionalTypeConverter(java.lang.Class<T>, java.lang.Class<V>);
method public abstract T convertBack(V);
method public android.animation.BidirectionalTypeConverter<V, T> invert();
method public java.lang.String getPropertyName();
method public java.lang.Object getTarget();
method public static android.animation.ObjectAnimator ofArgb(java.lang.Object, java.lang.String, int...);
- method public static android.animation.ObjectAnimator ofArgb(T, android.util.Property<T, java.lang.Integer>, int...);
+ method public static <T> android.animation.ObjectAnimator ofArgb(T, android.util.Property<T, java.lang.Integer>, int...);
method public static android.animation.ObjectAnimator ofFloat(java.lang.Object, java.lang.String, float...);
method public static android.animation.ObjectAnimator ofFloat(java.lang.Object, java.lang.String, java.lang.String, android.graphics.Path);
- method public static android.animation.ObjectAnimator ofFloat(T, android.util.Property<T, java.lang.Float>, float...);
- method public static android.animation.ObjectAnimator ofFloat(T, android.util.Property<T, java.lang.Float>, android.util.Property<T, java.lang.Float>, android.graphics.Path);
+ method public static <T> android.animation.ObjectAnimator ofFloat(T, android.util.Property<T, java.lang.Float>, float...);
+ method public static <T> android.animation.ObjectAnimator ofFloat(T, android.util.Property<T, java.lang.Float>, android.util.Property<T, java.lang.Float>, android.graphics.Path);
method public static android.animation.ObjectAnimator ofInt(java.lang.Object, java.lang.String, int...);
method public static android.animation.ObjectAnimator ofInt(java.lang.Object, java.lang.String, java.lang.String, android.graphics.Path);
- method public static android.animation.ObjectAnimator ofInt(T, android.util.Property<T, java.lang.Integer>, int...);
- method public static android.animation.ObjectAnimator ofInt(T, android.util.Property<T, java.lang.Integer>, android.util.Property<T, java.lang.Integer>, android.graphics.Path);
+ method public static <T> android.animation.ObjectAnimator ofInt(T, android.util.Property<T, java.lang.Integer>, int...);
+ method public static <T> android.animation.ObjectAnimator ofInt(T, android.util.Property<T, java.lang.Integer>, android.util.Property<T, java.lang.Integer>, android.graphics.Path);
method public static android.animation.ObjectAnimator ofMultiFloat(java.lang.Object, java.lang.String, float[][]);
method public static android.animation.ObjectAnimator ofMultiFloat(java.lang.Object, java.lang.String, android.graphics.Path);
- method public static android.animation.ObjectAnimator ofMultiFloat(java.lang.Object, java.lang.String, android.animation.TypeConverter<T, float[]>, android.animation.TypeEvaluator<T>, T...);
+ method public static <T> android.animation.ObjectAnimator ofMultiFloat(java.lang.Object, java.lang.String, android.animation.TypeConverter<T, float[]>, android.animation.TypeEvaluator<T>, T...);
method public static android.animation.ObjectAnimator ofMultiInt(java.lang.Object, java.lang.String, int[][]);
method public static android.animation.ObjectAnimator ofMultiInt(java.lang.Object, java.lang.String, android.graphics.Path);
- method public static android.animation.ObjectAnimator ofMultiInt(java.lang.Object, java.lang.String, android.animation.TypeConverter<T, int[]>, android.animation.TypeEvaluator<T>, T...);
+ method public static <T> android.animation.ObjectAnimator ofMultiInt(java.lang.Object, java.lang.String, android.animation.TypeConverter<T, int[]>, android.animation.TypeEvaluator<T>, T...);
method public static android.animation.ObjectAnimator ofObject(java.lang.Object, java.lang.String, android.animation.TypeEvaluator, java.lang.Object...);
method public static android.animation.ObjectAnimator ofObject(java.lang.Object, java.lang.String, android.animation.TypeConverter<android.graphics.PointF, ?>, android.graphics.Path);
- method public static android.animation.ObjectAnimator ofObject(T, android.util.Property<T, V>, android.animation.TypeEvaluator<V>, V...);
- method public static android.animation.ObjectAnimator ofObject(T, android.util.Property<T, P>, android.animation.TypeConverter<V, P>, android.animation.TypeEvaluator<V>, V...);
- method public static android.animation.ObjectAnimator ofObject(T, android.util.Property<T, V>, android.animation.TypeConverter<android.graphics.PointF, V>, android.graphics.Path);
+ method public static <T, V> android.animation.ObjectAnimator ofObject(T, android.util.Property<T, V>, android.animation.TypeEvaluator<V>, V...);
+ method public static <T, V, P> android.animation.ObjectAnimator ofObject(T, android.util.Property<T, P>, android.animation.TypeConverter<V, P>, android.animation.TypeEvaluator<V>, V...);
+ method public static <T, V> android.animation.ObjectAnimator ofObject(T, android.util.Property<T, V>, android.animation.TypeConverter<android.graphics.PointF, V>, android.graphics.Path);
method public static android.animation.ObjectAnimator ofPropertyValuesHolder(java.lang.Object, android.animation.PropertyValuesHolder...);
method public void setAutoCancel(boolean);
method public void setProperty(android.util.Property);
method public static android.animation.PropertyValuesHolder ofKeyframe(android.util.Property, android.animation.Keyframe...);
method public static android.animation.PropertyValuesHolder ofMultiFloat(java.lang.String, float[][]);
method public static android.animation.PropertyValuesHolder ofMultiFloat(java.lang.String, android.graphics.Path);
- method public static android.animation.PropertyValuesHolder ofMultiFloat(java.lang.String, android.animation.TypeConverter<V, float[]>, android.animation.TypeEvaluator<V>, V...);
- method public static android.animation.PropertyValuesHolder ofMultiFloat(java.lang.String, android.animation.TypeConverter<T, float[]>, android.animation.TypeEvaluator<T>, android.animation.Keyframe...);
+ method public static <V> android.animation.PropertyValuesHolder ofMultiFloat(java.lang.String, android.animation.TypeConverter<V, float[]>, android.animation.TypeEvaluator<V>, V...);
+ method public static <T> android.animation.PropertyValuesHolder ofMultiFloat(java.lang.String, android.animation.TypeConverter<T, float[]>, android.animation.TypeEvaluator<T>, android.animation.Keyframe...);
method public static android.animation.PropertyValuesHolder ofMultiInt(java.lang.String, int[][]);
method public static android.animation.PropertyValuesHolder ofMultiInt(java.lang.String, android.graphics.Path);
- method public static android.animation.PropertyValuesHolder ofMultiInt(java.lang.String, android.animation.TypeConverter<V, int[]>, android.animation.TypeEvaluator<V>, V...);
- method public static android.animation.PropertyValuesHolder ofMultiInt(java.lang.String, android.animation.TypeConverter<T, int[]>, android.animation.TypeEvaluator<T>, android.animation.Keyframe...);
+ method public static <V> android.animation.PropertyValuesHolder ofMultiInt(java.lang.String, android.animation.TypeConverter<V, int[]>, android.animation.TypeEvaluator<V>, V...);
+ method public static <T> android.animation.PropertyValuesHolder ofMultiInt(java.lang.String, android.animation.TypeConverter<T, int[]>, android.animation.TypeEvaluator<T>, android.animation.Keyframe...);
method public static android.animation.PropertyValuesHolder ofObject(java.lang.String, android.animation.TypeEvaluator, java.lang.Object...);
method public static android.animation.PropertyValuesHolder ofObject(java.lang.String, android.animation.TypeConverter<android.graphics.PointF, ?>, android.graphics.Path);
- method public static android.animation.PropertyValuesHolder ofObject(android.util.Property, android.animation.TypeEvaluator<V>, V...);
- method public static android.animation.PropertyValuesHolder ofObject(android.util.Property<?, V>, android.animation.TypeConverter<T, V>, android.animation.TypeEvaluator<T>, T...);
- method public static android.animation.PropertyValuesHolder ofObject(android.util.Property<?, V>, android.animation.TypeConverter<android.graphics.PointF, V>, android.graphics.Path);
+ method public static <V> android.animation.PropertyValuesHolder ofObject(android.util.Property, android.animation.TypeEvaluator<V>, V...);
+ method public static <T, V> android.animation.PropertyValuesHolder ofObject(android.util.Property<?, V>, android.animation.TypeConverter<T, V>, android.animation.TypeEvaluator<T>, T...);
+ method public static <V> android.animation.PropertyValuesHolder ofObject(android.util.Property<?, V>, android.animation.TypeConverter<android.graphics.PointF, V>, android.graphics.Path);
method public void setConverter(android.animation.TypeConverter);
method public void setEvaluator(android.animation.TypeEvaluator);
method public void setFloatValues(float...);
method public abstract float getInterpolation(float);
}
- public abstract class TypeConverter {
+ public abstract class TypeConverter<T, V> {
ctor public TypeConverter(java.lang.Class<T>, java.lang.Class<V>);
method public abstract V convert(T);
}
- public abstract interface TypeEvaluator {
+ public abstract interface TypeEvaluator<T> {
method public abstract T evaluate(float, T, T);
}
method public android.os.Parcelable saveAllState();
}
- public abstract class FragmentHostCallback extends android.app.FragmentContainer {
+ public abstract class FragmentHostCallback<E> extends android.app.FragmentContainer {
ctor public FragmentHostCallback(android.content.Context, android.os.Handler, int);
method public void onAttachFragment(android.app.Fragment);
method public void onDump(java.lang.String, java.io.FileDescriptor, java.io.PrintWriter, java.lang.String[]);
method public abstract void destroyLoader(int);
method public abstract void dump(java.lang.String, java.io.FileDescriptor, java.io.PrintWriter, java.lang.String[]);
method public static void enableDebugLogging(boolean);
- method public abstract android.content.Loader<D> getLoader(int);
- method public abstract android.content.Loader<D> initLoader(int, android.os.Bundle, android.app.LoaderManager.LoaderCallbacks<D>);
- method public abstract android.content.Loader<D> restartLoader(int, android.os.Bundle, android.app.LoaderManager.LoaderCallbacks<D>);
+ method public abstract <D> android.content.Loader<D> getLoader(int);
+ method public abstract <D> android.content.Loader<D> initLoader(int, android.os.Bundle, android.app.LoaderManager.LoaderCallbacks<D>);
+ method public abstract <D> android.content.Loader<D> restartLoader(int, android.os.Bundle, android.app.LoaderManager.LoaderCallbacks<D>);
}
- public static abstract interface LoaderManager.LoaderCallbacks {
+ public static abstract interface LoaderManager.LoaderCallbacks<D> {
method public abstract android.content.Loader<D> onCreateLoader(int, android.os.Bundle);
method public abstract void onLoadFinished(android.content.Loader<D>, D);
method public abstract void onLoaderReset(android.content.Loader<D>);
ctor public AsyncQueryHandler.WorkerHandler(android.os.Looper);
}
- public abstract class AsyncTaskLoader extends android.content.Loader {
+ public abstract class AsyncTaskLoader<D> extends android.content.Loader {
ctor public AsyncTaskLoader(android.content.Context);
method public void cancelLoadInBackground();
method public boolean isLoadInBackgroundCanceled();
method public android.os.ParcelFileDescriptor openFile(android.net.Uri, java.lang.String) throws java.io.FileNotFoundException;
method public android.os.ParcelFileDescriptor openFile(android.net.Uri, java.lang.String, android.os.CancellationSignal) throws java.io.FileNotFoundException;
method protected final android.os.ParcelFileDescriptor openFileHelper(android.net.Uri, java.lang.String) throws java.io.FileNotFoundException;
- method public android.os.ParcelFileDescriptor openPipeHelper(android.net.Uri, java.lang.String, android.os.Bundle, T, android.content.ContentProvider.PipeDataWriter<T>) throws java.io.FileNotFoundException;
+ method public <T> android.os.ParcelFileDescriptor openPipeHelper(android.net.Uri, java.lang.String, android.os.Bundle, T, android.content.ContentProvider.PipeDataWriter<T>) throws java.io.FileNotFoundException;
method public android.content.res.AssetFileDescriptor openTypedAssetFile(android.net.Uri, java.lang.String, android.os.Bundle) throws java.io.FileNotFoundException;
method public android.content.res.AssetFileDescriptor openTypedAssetFile(android.net.Uri, java.lang.String, android.os.Bundle, android.os.CancellationSignal) throws java.io.FileNotFoundException;
method public abstract android.database.Cursor query(android.net.Uri, java.lang.String[], java.lang.String, java.lang.String[], java.lang.String);
method public abstract int update(android.net.Uri, android.content.ContentValues, java.lang.String, java.lang.String[]);
}
- public static abstract interface ContentProvider.PipeDataWriter {
+ public static abstract interface ContentProvider.PipeDataWriter<T> {
method public abstract void writeDataToPipe(android.os.ParcelFileDescriptor, android.net.Uri, java.lang.String, android.os.Bundle, T);
}
method public final java.lang.String getString(int);
method public final java.lang.String getString(int, java.lang.Object...);
method public abstract java.lang.Object getSystemService(java.lang.String);
- method public final T getSystemService(java.lang.Class<T>);
+ method public final <T> T getSystemService(java.lang.Class<T>);
method public abstract java.lang.String getSystemServiceName(java.lang.Class<?>);
method public final java.lang.CharSequence getText(int);
method public abstract android.content.res.Resources.Theme getTheme();
method public long getLongExtra(java.lang.String, long);
method public java.lang.String getPackage();
method public android.os.Parcelable[] getParcelableArrayExtra(java.lang.String);
- method public java.util.ArrayList<T> getParcelableArrayListExtra(java.lang.String);
- method public T getParcelableExtra(java.lang.String);
+ method public <T extends android.os.Parcelable> java.util.ArrayList<T> getParcelableArrayListExtra(java.lang.String);
+ method public <T extends android.os.Parcelable> T getParcelableExtra(java.lang.String);
method public java.lang.String getScheme();
method public android.content.Intent getSelector();
method public java.io.Serializable getSerializableExtra(java.lang.String);
ctor public IntentSender.SendIntentException(java.lang.Exception);
}
- public class Loader {
+ public class Loader<D> {
ctor public Loader(android.content.Context);
method public void abandon();
method public boolean cancelLoad();
ctor public Loader.ForceLoadContentObserver();
}
- public static abstract interface Loader.OnLoadCanceledListener {
+ public static abstract interface Loader.OnLoadCanceledListener<D> {
method public abstract void onLoadCanceled(android.content.Loader<D>);
}
- public static abstract interface Loader.OnLoadCompleteListener {
+ public static abstract interface Loader.OnLoadCompleteListener<D> {
method public abstract void onLoadComplete(android.content.Loader<D>, D);
}
method public boolean isNull(int);
}
- public abstract class Observable {
+ public abstract class Observable<T> {
ctor public Observable();
method public void registerObserver(T);
method public void unregisterAll();
public class AnimatedStateListDrawable extends android.graphics.drawable.StateListDrawable {
ctor public AnimatedStateListDrawable();
method public void addState(int[], android.graphics.drawable.Drawable, int);
- method public void addTransition(int, int, T, boolean);
+ method public <T extends android.graphics.drawable.Drawable & android.graphics.drawable.Animatable> void addTransition(int, int, T, boolean);
}
public class AnimatedVectorDrawable extends android.graphics.drawable.Drawable implements android.graphics.drawable.Animatable2 {
}
public final class CameraCharacteristics extends android.hardware.camera2.CameraMetadata {
- method public T get(android.hardware.camera2.CameraCharacteristics.Key<T>);
+ method public <T> T get(android.hardware.camera2.CameraCharacteristics.Key<T>);
method public java.util.List<android.hardware.camera2.CaptureRequest.Key<?>> getAvailableCaptureRequestKeys();
method public java.util.List<android.hardware.camera2.CaptureResult.Key<?>> getAvailableCaptureResultKeys();
field public static final android.hardware.camera2.CameraCharacteristics.Key<int[]> COLOR_CORRECTION_AVAILABLE_ABERRATION_MODES;
field public static final android.hardware.camera2.CameraCharacteristics.Key<java.lang.Integer> TONEMAP_MAX_CURVE_POINTS;
}
- public static final class CameraCharacteristics.Key {
+ public static final class CameraCharacteristics.Key<T> {
method public final boolean equals(java.lang.Object);
method public java.lang.String getName();
method public final int hashCode();
method public void onTorchModeUnavailable(java.lang.String);
}
- public abstract class CameraMetadata {
+ public abstract class CameraMetadata<TKey> {
method public java.util.List<TKey> getKeys();
field public static final int COLOR_CORRECTION_ABERRATION_MODE_FAST = 1; // 0x1
field public static final int COLOR_CORRECTION_ABERRATION_MODE_HIGH_QUALITY = 2; // 0x2
public final class CaptureRequest extends android.hardware.camera2.CameraMetadata implements android.os.Parcelable {
method public int describeContents();
- method public T get(android.hardware.camera2.CaptureRequest.Key<T>);
+ method public <T> T get(android.hardware.camera2.CaptureRequest.Key<T>);
method public java.lang.Object getTag();
method public boolean isReprocess();
method public void writeToParcel(android.os.Parcel, int);
public static final class CaptureRequest.Builder {
method public void addTarget(android.view.Surface);
method public android.hardware.camera2.CaptureRequest build();
- method public T get(android.hardware.camera2.CaptureRequest.Key<T>);
+ method public <T> T get(android.hardware.camera2.CaptureRequest.Key<T>);
method public void removeTarget(android.view.Surface);
- method public void set(android.hardware.camera2.CaptureRequest.Key<T>, T);
+ method public <T> void set(android.hardware.camera2.CaptureRequest.Key<T>, T);
method public void setTag(java.lang.Object);
}
- public static final class CaptureRequest.Key {
+ public static final class CaptureRequest.Key<T> {
method public final boolean equals(java.lang.Object);
method public java.lang.String getName();
method public final int hashCode();
}
public class CaptureResult extends android.hardware.camera2.CameraMetadata {
- method public T get(android.hardware.camera2.CaptureResult.Key<T>);
+ method public <T> T get(android.hardware.camera2.CaptureResult.Key<T>);
method public long getFrameNumber();
method public android.hardware.camera2.CaptureRequest getRequest();
method public int getSequenceId();
field public static final android.hardware.camera2.CaptureResult.Key<java.lang.Integer> TONEMAP_PRESET_CURVE;
}
- public static final class CaptureResult.Key {
+ public static final class CaptureResult.Key<T> {
method public final boolean equals(java.lang.Object);
method public java.lang.String getName();
method public final int hashCode();
method public android.util.Size[] getInputSizes(int);
method public final int[] getOutputFormats();
method public long getOutputMinFrameDuration(int, android.util.Size);
- method public long getOutputMinFrameDuration(java.lang.Class<T>, android.util.Size);
- method public android.util.Size[] getOutputSizes(java.lang.Class<T>);
+ method public <T> long getOutputMinFrameDuration(java.lang.Class<T>, android.util.Size);
+ method public <T> android.util.Size[] getOutputSizes(java.lang.Class<T>);
method public android.util.Size[] getOutputSizes(int);
method public long getOutputStallDuration(int, android.util.Size);
- method public long getOutputStallDuration(java.lang.Class<T>, android.util.Size);
+ method public <T> long getOutputStallDuration(java.lang.Class<T>, android.util.Size);
method public final int[] getValidOutputFormatsForInput(int);
method public boolean isOutputSupportedFor(int);
- method public static boolean isOutputSupportedFor(java.lang.Class<T>);
+ method public static <T> boolean isOutputSupportedFor(java.lang.Class<T>);
method public boolean isOutputSupportedFor(android.view.Surface);
}
package android.icu.text {
- public final class AlphabeticIndex implements java.lang.Iterable {
+ public final class AlphabeticIndex<V> implements java.lang.Iterable {
ctor public AlphabeticIndex(android.icu.util.ULocale);
ctor public AlphabeticIndex(java.util.Locale);
ctor public AlphabeticIndex(android.icu.text.RuleBasedCollator);
method public android.icu.text.AlphabeticIndex<V> setUnderflowLabel(java.lang.String);
}
- public static class AlphabeticIndex.Bucket implements java.lang.Iterable {
+ public static class AlphabeticIndex.Bucket<V> implements java.lang.Iterable {
method public java.lang.String getLabel();
method public android.icu.text.AlphabeticIndex.Bucket.LabelType getLabelType();
method public java.util.Iterator<android.icu.text.AlphabeticIndex.Record<V>> iterator();
enum_constant public static final android.icu.text.AlphabeticIndex.Bucket.LabelType UNDERFLOW;
}
- public static final class AlphabeticIndex.ImmutableIndex implements java.lang.Iterable {
+ public static final class AlphabeticIndex.ImmutableIndex<V> implements java.lang.Iterable {
method public android.icu.text.AlphabeticIndex.Bucket<V> getBucket(int);
method public int getBucketCount();
method public int getBucketIndex(java.lang.CharSequence);
method public java.util.Iterator<android.icu.text.AlphabeticIndex.Bucket<V>> iterator();
}
- public static class AlphabeticIndex.Record {
+ public static class AlphabeticIndex.Record<V> {
method public V getData();
method public java.lang.CharSequence getName();
}
method public final android.icu.text.UnicodeSet addAll(java.lang.CharSequence);
method public android.icu.text.UnicodeSet addAll(android.icu.text.UnicodeSet);
method public android.icu.text.UnicodeSet addAll(java.lang.Iterable<?>);
- method public android.icu.text.UnicodeSet addAll(T...);
- method public T addAllTo(T);
+ method public <T extends java.lang.CharSequence> android.icu.text.UnicodeSet addAll(T...);
+ method public <T extends java.util.Collection<java.lang.String>> T addAllTo(T);
method public void addMatchSetTo(android.icu.text.UnicodeSet);
method public android.icu.text.UnicodeSet applyIntPropertyValue(int, int);
method public final android.icu.text.UnicodeSet applyPattern(java.lang.String);
method public final boolean contains(java.lang.CharSequence);
method public boolean containsAll(android.icu.text.UnicodeSet);
method public boolean containsAll(java.lang.String);
- method public boolean containsAll(java.lang.Iterable<T>);
+ method public <T extends java.lang.CharSequence> boolean containsAll(java.lang.Iterable<T>);
method public boolean containsNone(int, int);
method public boolean containsNone(android.icu.text.UnicodeSet);
method public boolean containsNone(java.lang.CharSequence);
- method public boolean containsNone(java.lang.Iterable<T>);
+ method public <T extends java.lang.CharSequence> boolean containsNone(java.lang.Iterable<T>);
method public final boolean containsSome(int, int);
method public final boolean containsSome(android.icu.text.UnicodeSet);
method public final boolean containsSome(java.lang.CharSequence);
- method public final boolean containsSome(java.lang.Iterable<T>);
+ method public final <T extends java.lang.CharSequence> boolean containsSome(java.lang.Iterable<T>);
method public android.icu.text.UnicodeSet freeze();
method public static android.icu.text.UnicodeSet from(java.lang.CharSequence);
method public static android.icu.text.UnicodeSet fromAll(java.lang.CharSequence);
method public final android.icu.text.UnicodeSet remove(java.lang.CharSequence);
method public final android.icu.text.UnicodeSet removeAll(java.lang.CharSequence);
method public android.icu.text.UnicodeSet removeAll(android.icu.text.UnicodeSet);
- method public android.icu.text.UnicodeSet removeAll(java.lang.Iterable<T>);
+ method public <T extends java.lang.CharSequence> android.icu.text.UnicodeSet removeAll(java.lang.Iterable<T>);
method public final android.icu.text.UnicodeSet removeAllStrings();
method public android.icu.text.UnicodeSet retain(int, int);
method public final android.icu.text.UnicodeSet retain(int);
method public final android.icu.text.UnicodeSet retain(java.lang.CharSequence);
method public final android.icu.text.UnicodeSet retainAll(java.lang.CharSequence);
method public android.icu.text.UnicodeSet retainAll(android.icu.text.UnicodeSet);
- method public android.icu.text.UnicodeSet retainAll(java.lang.Iterable<T>);
+ method public <T extends java.lang.CharSequence> android.icu.text.UnicodeSet retainAll(java.lang.Iterable<T>);
method public android.icu.text.UnicodeSet set(int, int);
method public android.icu.text.UnicodeSet set(android.icu.text.UnicodeSet);
method public int size();
method public long getToDate();
}
- public abstract interface Freezable implements java.lang.Cloneable {
+ public abstract interface Freezable<T> implements java.lang.Cloneable {
method public abstract T cloneAsThawed();
method public abstract T freeze();
method public abstract boolean isFrozen();
field public static final android.icu.util.TimeUnit YEAR;
}
- public class Output {
+ public class Output<T> {
ctor public Output();
ctor public Output(T);
field public T value;
package android.os {
- public abstract class AsyncTask {
+ public abstract class AsyncTask<Params, Progress, Result> {
ctor public AsyncTask();
method public final boolean cancel(boolean);
method protected abstract Result doInBackground(Params...);
method public float getFloat(java.lang.String, float);
method public float[] getFloatArray(java.lang.String);
method public java.util.ArrayList<java.lang.Integer> getIntegerArrayList(java.lang.String);
- method public T getParcelable(java.lang.String);
+ method public <T extends android.os.Parcelable> T getParcelable(java.lang.String);
method public android.os.Parcelable[] getParcelableArray(java.lang.String);
- method public java.util.ArrayList<T> getParcelableArrayList(java.lang.String);
+ method public <T extends android.os.Parcelable> java.util.ArrayList<T> getParcelableArrayList(java.lang.String);
method public java.io.Serializable getSerializable(java.lang.String);
method public short getShort(java.lang.String);
method public short getShort(java.lang.String, short);
method public short[] getShortArray(java.lang.String);
method public android.util.Size getSize(java.lang.String);
method public android.util.SizeF getSizeF(java.lang.String);
- method public android.util.SparseArray<T> getSparseParcelableArray(java.lang.String);
+ method public <T extends android.os.Parcelable> android.util.SparseArray<T> getSparseParcelableArray(java.lang.String);
method public java.util.ArrayList<java.lang.String> getStringArrayList(java.lang.String);
method public boolean hasFileDescriptors();
method public void putAll(android.os.Bundle);
method public final long[] createLongArray();
method public final java.lang.String[] createStringArray();
method public final java.util.ArrayList<java.lang.String> createStringArrayList();
- method public final T[] createTypedArray(android.os.Parcelable.Creator<T>);
- method public final java.util.ArrayList<T> createTypedArrayList(android.os.Parcelable.Creator<T>);
+ method public final <T> T[] createTypedArray(android.os.Parcelable.Creator<T>);
+ method public final <T> java.util.ArrayList<T> createTypedArrayList(android.os.Parcelable.Creator<T>);
method public final int dataAvail();
method public final int dataCapacity();
method public final int dataPosition();
method public final long readLong();
method public final void readLongArray(long[]);
method public final void readMap(java.util.Map, java.lang.ClassLoader);
- method public final T readParcelable(java.lang.ClassLoader);
+ method public final <T extends android.os.Parcelable> T readParcelable(java.lang.ClassLoader);
method public final android.os.Parcelable[] readParcelableArray(java.lang.ClassLoader);
method public final android.os.PersistableBundle readPersistableBundle();
method public final android.os.PersistableBundle readPersistableBundle(java.lang.ClassLoader);
method public final void readStringArray(java.lang.String[]);
method public final void readStringList(java.util.List<java.lang.String>);
method public final android.os.IBinder readStrongBinder();
- method public final void readTypedArray(T[], android.os.Parcelable.Creator<T>);
- method public final void readTypedList(java.util.List<T>, android.os.Parcelable.Creator<T>);
- method public final T readTypedObject(android.os.Parcelable.Creator<T>);
+ method public final <T> void readTypedArray(T[], android.os.Parcelable.Creator<T>);
+ method public final <T> void readTypedList(java.util.List<T>, android.os.Parcelable.Creator<T>);
+ method public final <T> T readTypedObject(android.os.Parcelable.Creator<T>);
method public final java.lang.Object readValue(java.lang.ClassLoader);
method public final void recycle();
method public final void setDataCapacity(int);
method public final void writeMap(java.util.Map);
method public final void writeNoException();
method public final void writeParcelable(android.os.Parcelable, int);
- method public final void writeParcelableArray(T[], int);
+ method public final <T extends android.os.Parcelable> void writeParcelableArray(T[], int);
method public final void writePersistableBundle(android.os.PersistableBundle);
method public final void writeSerializable(java.io.Serializable);
method public final void writeSize(android.util.Size);
method public final void writeStringList(java.util.List<java.lang.String>);
method public final void writeStrongBinder(android.os.IBinder);
method public final void writeStrongInterface(android.os.IInterface);
- method public final void writeTypedArray(T[], int);
- method public final void writeTypedList(java.util.List<T>);
- method public final void writeTypedObject(T, int);
+ method public final <T extends android.os.Parcelable> void writeTypedArray(T[], int);
+ method public final <T extends android.os.Parcelable> void writeTypedList(java.util.List<T>);
+ method public final <T extends android.os.Parcelable> void writeTypedObject(T, int);
method public final void writeValue(java.lang.Object);
field public static final android.os.Parcelable.Creator<java.lang.String> STRING_CREATOR;
}
field public static final int PARCELABLE_WRITE_RETURN_VALUE = 1; // 0x1
}
- public static abstract interface Parcelable.ClassLoaderCreator implements android.os.Parcelable.Creator {
+ public static abstract interface Parcelable.ClassLoaderCreator<T> implements android.os.Parcelable.Creator {
method public abstract T createFromParcel(android.os.Parcel, java.lang.ClassLoader);
}
- public static abstract interface Parcelable.Creator {
+ public static abstract interface Parcelable.Creator<T> {
method public abstract T createFromParcel(android.os.Parcel);
method public abstract T[] newArray(int);
}
method public abstract void onResult(android.os.Bundle);
}
- public class RemoteCallbackList {
+ public class RemoteCallbackList<E extends android.os.IInterface> {
ctor public RemoteCallbackList();
method public int beginBroadcast();
method public void finishBroadcast();
field public static final java.lang.String RADIO_CELL = "cell";
field public static final java.lang.String RADIO_NFC = "nfc";
field public static final java.lang.String RADIO_WIFI = "wifi";
- field public static final java.lang.String SHOW_PROCESSES = "show_processes";
+ field public static final deprecated java.lang.String SHOW_PROCESSES = "show_processes";
field public static final java.lang.String STAY_ON_WHILE_PLUGGED_IN = "stay_on_while_plugged_in";
field public static final java.lang.String THEATER_MODE_ON = "theater_mode_on";
field public static final java.lang.String TRANSITION_ANIMATION_SCALE = "transition_animation_scale";
field public static final java.lang.String SERVICE_INTERFACE = "android.service.carrier.CarrierMessagingService";
}
- public static abstract interface CarrierMessagingService.ResultCallback {
+ public static abstract interface CarrierMessagingService.ResultCallback<T> {
method public abstract void onReceiveResult(T) throws android.os.RemoteException;
}
field public static final java.lang.String EXTRA_SUGGESTED = "android.service.media.extra.SUGGESTED";
}
- public class MediaBrowserService.Result {
+ public class MediaBrowserService.Result<T> {
method public void detach();
method public void sendResult(T);
}
package android.test {
- public abstract deprecated class ActivityInstrumentationTestCase extends android.test.ActivityTestCase {
+ public abstract deprecated class ActivityInstrumentationTestCase<T extends android.app.Activity> extends android.test.ActivityTestCase {
ctor public ActivityInstrumentationTestCase(java.lang.String, java.lang.Class<T>);
ctor public ActivityInstrumentationTestCase(java.lang.String, java.lang.Class<T>, boolean);
method public T getActivity();
method public void testActivityTestCaseSetUpProperly() throws java.lang.Exception;
}
- public abstract deprecated class ActivityInstrumentationTestCase2 extends android.test.ActivityTestCase {
+ public abstract deprecated class ActivityInstrumentationTestCase2<T extends android.app.Activity> extends android.test.ActivityTestCase {
ctor public deprecated ActivityInstrumentationTestCase2(java.lang.String, java.lang.Class<T>);
ctor public ActivityInstrumentationTestCase2(java.lang.Class<T>);
method public T getActivity();
method protected void setActivity(android.app.Activity);
}
- public abstract deprecated class ActivityUnitTestCase extends android.test.ActivityTestCase {
+ public abstract deprecated class ActivityUnitTestCase<T extends android.app.Activity> extends android.test.ActivityTestCase {
ctor public ActivityUnitTestCase(java.lang.Class<T>);
method public T getActivity();
method public int getFinishedActivityRequest();
method public void testStarted(java.lang.String);
}
- public abstract deprecated class ApplicationTestCase extends android.test.AndroidTestCase {
+ public abstract deprecated class ApplicationTestCase<T extends android.app.Application> extends android.test.AndroidTestCase {
ctor public ApplicationTestCase(java.lang.Class<T>);
method protected final void createApplication();
method public T getApplication();
method public android.app.Instrumentation getInstrumentation();
method public deprecated void injectInsrumentation(android.app.Instrumentation);
method public void injectInstrumentation(android.app.Instrumentation);
- method public final T launchActivity(java.lang.String, java.lang.Class<T>, android.os.Bundle);
- method public final T launchActivityWithIntent(java.lang.String, java.lang.Class<T>, android.content.Intent);
+ method public final <T extends android.app.Activity> T launchActivity(java.lang.String, java.lang.Class<T>, android.os.Bundle);
+ method public final <T extends android.app.Activity> T launchActivityWithIntent(java.lang.String, java.lang.Class<T>, android.content.Intent);
method public void runTestOnUiThread(java.lang.Runnable) throws java.lang.Throwable;
method public void sendKeys(java.lang.String);
method public void sendKeys(int...);
public class LoaderTestCase extends android.test.AndroidTestCase {
ctor public LoaderTestCase();
- method public T getLoaderResultSynchronously(android.content.Loader<T>);
+ method public <T> T getLoaderResultSynchronously(android.content.Loader<T>);
}
public final deprecated class MoreAsserts {
method public abstract void startTiming(boolean);
}
- public abstract deprecated class ProviderTestCase extends android.test.InstrumentationTestCase {
+ public abstract deprecated class ProviderTestCase<T extends android.content.ContentProvider> extends android.test.InstrumentationTestCase {
ctor public ProviderTestCase(java.lang.Class<T>, java.lang.String);
method public android.test.mock.MockContentResolver getMockContentResolver();
method public android.test.IsolatedContext getMockContext();
method public T getProvider();
- method public static android.content.ContentResolver newResolverWithContentProviderFromSql(android.content.Context, java.lang.Class<T>, java.lang.String, java.lang.String, int, java.lang.String) throws java.lang.IllegalAccessException, java.lang.InstantiationException;
+ method public static <T extends android.content.ContentProvider> android.content.ContentResolver newResolverWithContentProviderFromSql(android.content.Context, java.lang.Class<T>, java.lang.String, java.lang.String, int, java.lang.String) throws java.lang.IllegalAccessException, java.lang.InstantiationException;
}
- public abstract class ProviderTestCase2 extends android.test.AndroidTestCase {
+ public abstract class ProviderTestCase2<T extends android.content.ContentProvider> extends android.test.AndroidTestCase {
ctor public ProviderTestCase2(java.lang.Class<T>, java.lang.String);
method public android.test.mock.MockContentResolver getMockContentResolver();
method public android.test.IsolatedContext getMockContext();
method public T getProvider();
- method public static android.content.ContentResolver newResolverWithContentProviderFromSql(android.content.Context, java.lang.String, java.lang.Class<T>, java.lang.String, java.lang.String, int, java.lang.String) throws java.lang.IllegalAccessException, java.lang.InstantiationException;
+ method public static <T extends android.content.ContentProvider> android.content.ContentResolver newResolverWithContentProviderFromSql(android.content.Context, java.lang.String, java.lang.Class<T>, java.lang.String, java.lang.String, int, java.lang.String) throws java.lang.IllegalAccessException, java.lang.InstantiationException;
}
public deprecated class RenamingDelegatingContext extends android.content.ContextWrapper {
ctor public RenamingDelegatingContext(android.content.Context, android.content.Context, java.lang.String);
method public java.lang.String getDatabasePrefix();
method public void makeExistingFilesAndDbsAccessible();
- method public static T providerWithRenamedContext(java.lang.Class<T>, android.content.Context, java.lang.String) throws java.lang.IllegalAccessException, java.lang.InstantiationException;
- method public static T providerWithRenamedContext(java.lang.Class<T>, android.content.Context, java.lang.String, boolean) throws java.lang.IllegalAccessException, java.lang.InstantiationException;
+ method public static <T extends android.content.ContentProvider> T providerWithRenamedContext(java.lang.Class<T>, android.content.Context, java.lang.String) throws java.lang.IllegalAccessException, java.lang.InstantiationException;
+ method public static <T extends android.content.ContentProvider> T providerWithRenamedContext(java.lang.Class<T>, android.content.Context, java.lang.String, boolean) throws java.lang.IllegalAccessException, java.lang.InstantiationException;
}
- public abstract deprecated class ServiceTestCase extends android.test.AndroidTestCase {
+ public abstract deprecated class ServiceTestCase<T extends android.app.Service> extends android.test.AndroidTestCase {
ctor public ServiceTestCase(java.lang.Class<T>);
method protected android.os.IBinder bindService(android.content.Intent);
method public android.app.Application getApplication();
method public void testServiceTestCaseSetUpProperly() throws java.lang.Exception;
}
- public abstract deprecated class SingleLaunchActivityTestCase extends android.test.InstrumentationTestCase {
+ public abstract deprecated class SingleLaunchActivityTestCase<T extends android.app.Activity> extends android.test.InstrumentationTestCase {
ctor public SingleLaunchActivityTestCase(java.lang.String, java.lang.Class<T>);
method public T getActivity();
method public void testActivityTestCaseSetUpProperly() throws java.lang.Exception;
ctor public TestMethod(java.lang.String, java.lang.Class<? extends junit.framework.TestCase>);
ctor public TestMethod(junit.framework.TestCase);
method public junit.framework.TestCase createTest() throws java.lang.IllegalAccessException, java.lang.InstantiationException, java.lang.reflect.InvocationTargetException;
- method public T getAnnotation(java.lang.Class<T>);
+ method public <T extends java.lang.annotation.Annotation> T getAnnotation(java.lang.Class<T>);
method public java.lang.Class<? extends junit.framework.TestCase> getEnclosingClass();
method public java.lang.String getEnclosingClassname();
method public java.lang.String getName();
method public int getSpanEnd(java.lang.Object);
method public int getSpanFlags(java.lang.Object);
method public int getSpanStart(java.lang.Object);
- method public T[] getSpans(int, int, java.lang.Class<T>);
+ method public <T> T[] getSpans(int, int, java.lang.Class<T>);
method public deprecated int getTextRunCursor(int, int, int, int, int, android.graphics.Paint);
method public int getTextWatcherDepth();
method public android.text.SpannableStringBuilder insert(int, java.lang.CharSequence, int, int);
method public int getSpanEnd(java.lang.Object);
method public int getSpanFlags(java.lang.Object);
method public int getSpanStart(java.lang.Object);
- method public T[] getSpans(int, int, java.lang.Class<T>);
+ method public <T> T[] getSpans(int, int, java.lang.Class<T>);
method public final int length();
method public int nextSpanTransition(int, int, java.lang.Class);
method public final java.lang.String toString();
method public abstract int getSpanEnd(java.lang.Object);
method public abstract int getSpanFlags(java.lang.Object);
method public abstract int getSpanStart(java.lang.Object);
- method public abstract T[] getSpans(int, int, java.lang.Class<T>);
+ method public abstract <T> T[] getSpans(int, int, java.lang.Class<T>);
method public abstract int nextSpanTransition(int, int, java.lang.Class);
field public static final int SPAN_COMPOSING = 256; // 0x100
field public static final int SPAN_EXCLUSIVE_EXCLUSIVE = 33; // 0x21
field public static final int WEEKDAY_WEDNESDAY = 4; // 0x4
}
- public static class TtsSpan.Builder {
+ public static class TtsSpan.Builder<C extends android.text.style.TtsSpan.Builder<?>> {
ctor public TtsSpan.Builder(java.lang.String);
method public android.text.style.TtsSpan build();
method public C setIntArgument(java.lang.String, int);
method public android.text.style.TtsSpan.OrdinalBuilder setNumber(java.lang.String);
}
- public static class TtsSpan.SemioticClassBuilder extends android.text.style.TtsSpan.Builder {
+ public static class TtsSpan.SemioticClassBuilder<C extends android.text.style.TtsSpan.SemioticClassBuilder<?>> extends android.text.style.TtsSpan.Builder {
ctor public TtsSpan.SemioticClassBuilder(java.lang.String);
method public C setAnimacy(java.lang.String);
method public C setCase(java.lang.String);
ctor public AndroidRuntimeException(java.lang.Exception);
}
- public final class ArrayMap implements java.util.Map {
+ public final class ArrayMap<K, V> implements java.util.Map {
ctor public ArrayMap();
ctor public ArrayMap(int);
ctor public ArrayMap(android.util.ArrayMap<K, V>);
method public java.util.Collection<V> values();
}
- public final class ArraySet implements java.util.Collection java.util.Set {
+ public final class ArraySet<E> implements java.util.Collection java.util.Set {
ctor public ArraySet();
ctor public ArraySet(int);
ctor public ArraySet(android.util.ArraySet<E>);
method public boolean retainAll(java.util.Collection<?>);
method public int size();
method public java.lang.Object[] toArray();
- method public T[] toArray(T[]);
+ method public <T> T[] toArray(T[]);
method public E valueAt(int);
}
public deprecated class FloatMath {
}
- public abstract class FloatProperty extends android.util.Property {
+ public abstract class FloatProperty<T> extends android.util.Property {
ctor public FloatProperty(java.lang.String);
method public final void set(T, java.lang.Float);
method public abstract void setValue(T, float);
}
- public abstract class IntProperty extends android.util.Property {
+ public abstract class IntProperty<T> extends android.util.Property {
ctor public IntProperty(java.lang.String);
method public final void set(T, java.lang.Integer);
method public abstract void setValue(T, int);
method public void println(java.lang.String);
}
- public class LongSparseArray implements java.lang.Cloneable {
+ public class LongSparseArray<E> implements java.lang.Cloneable {
ctor public LongSparseArray();
ctor public LongSparseArray(int);
method public void append(long, E);
method public E valueAt(int);
}
- public class LruCache {
+ public class LruCache<K, V> {
ctor public LruCache(int);
method protected V create(K);
method public final synchronized int createCount();
ctor public NoSuchPropertyException(java.lang.String);
}
- public class Pair {
+ public class Pair<F, S> {
ctor public Pair(F, S);
- method public static android.util.Pair<A, B> create(A, B);
+ method public static <A, B> android.util.Pair<A, B> create(A, B);
field public final F first;
field public final S second;
}
method public abstract void println(java.lang.String);
}
- public abstract class Property {
+ public abstract class Property<T, V> {
ctor public Property(java.lang.Class<V>, java.lang.String);
method public abstract V get(T);
method public java.lang.String getName();
method public java.lang.Class<V> getType();
method public boolean isReadOnly();
- method public static android.util.Property<T, V> of(java.lang.Class<T>, java.lang.Class<V>, java.lang.String);
+ method public static <T, V> android.util.Property<T, V> of(java.lang.Class<T>, java.lang.Class<V>, java.lang.String);
method public void set(T, V);
}
- public final class Range {
+ public final class Range<T extends java.lang.Comparable<? super T>> {
ctor public Range(T, T);
method public T clamp(T);
method public boolean contains(T);
method public boolean contains(android.util.Range<T>);
- method public static android.util.Range<T> create(T, T);
+ method public static <T extends java.lang.Comparable<? super T>> android.util.Range<T> create(T, T);
method public android.util.Range<T> extend(android.util.Range<T>);
method public android.util.Range<T> extend(T, T);
method public android.util.Range<T> extend(T);
method public static android.util.SizeF parseSizeF(java.lang.String) throws java.lang.NumberFormatException;
}
- public class SparseArray implements java.lang.Cloneable {
+ public class SparseArray<E> implements java.lang.Cloneable {
ctor public SparseArray();
ctor public SparseArray(int);
method public void append(int, E);
method public static java.lang.String stripAnchor(java.lang.String);
}
- public abstract interface ValueCallback {
+ public abstract interface ValueCallback<T> {
method public abstract void onReceiveValue(T);
}
field public static final int NO_SELECTION = -2147483648; // 0x80000000
}
- public abstract class AdapterView extends android.view.ViewGroup {
+ public abstract class AdapterView<T extends android.widget.Adapter> extends android.view.ViewGroup {
ctor public AdapterView(android.content.Context);
ctor public AdapterView(android.content.Context, android.util.AttributeSet);
ctor public AdapterView(android.content.Context, android.util.AttributeSet, int);
ctor public AnalogClock(android.content.Context, android.util.AttributeSet, int, int);
}
- public class ArrayAdapter extends android.widget.BaseAdapter implements android.widget.Filterable android.widget.ThemedSpinnerAdapter {
+ public class ArrayAdapter<T> extends android.widget.BaseAdapter implements android.widget.Filterable android.widget.ThemedSpinnerAdapter {
ctor public ArrayAdapter(android.content.Context, int);
ctor public ArrayAdapter(android.content.Context, int, int);
ctor public ArrayAdapter(android.content.Context, int, T[]);
method protected void performFiltering(java.lang.CharSequence, int);
method public void performValidation();
method protected void replaceText(java.lang.CharSequence);
- method public void setAdapter(T);
+ method public <T extends android.widget.ListAdapter & android.widget.Filterable> void setAdapter(T);
method public void setCompletionHint(java.lang.CharSequence);
method public void setDropDownAnchor(int);
method public void setDropDownBackgroundDrawable(android.graphics.drawable.Drawable);
package com.android.internal.util {
- public abstract interface Predicate {
+ public abstract interface Predicate<T> {
method public abstract boolean apply(T);
}
enum_constant public static final java.lang.Character.UnicodeScript YI;
}
- public final class Class implements java.lang.reflect.AnnotatedElement java.lang.reflect.GenericDeclaration java.io.Serializable java.lang.reflect.Type {
- method public java.lang.Class<? extends U> asSubclass(java.lang.Class<U>);
+ public final class Class<T> implements java.lang.reflect.AnnotatedElement java.lang.reflect.GenericDeclaration java.io.Serializable java.lang.reflect.Type {
+ method public <U> java.lang.Class<? extends U> asSubclass(java.lang.Class<U>);
method public T cast(java.lang.Object);
method public boolean desiredAssertionStatus();
method public static java.lang.Class<?> forName(java.lang.String) throws java.lang.ClassNotFoundException;
method public static java.lang.Class<?> forName(java.lang.String, boolean, java.lang.ClassLoader) throws java.lang.ClassNotFoundException;
- method public A getAnnotation(java.lang.Class<A>);
+ method public <A extends java.lang.annotation.Annotation> A getAnnotation(java.lang.Class<A>);
method public java.lang.annotation.Annotation[] getAnnotations();
method public java.lang.String getCanonicalName();
method public java.lang.ClassLoader getClassLoader();
public abstract interface Cloneable {
}
- public abstract interface Comparable {
+ public abstract interface Comparable<T> {
method public abstract int compareTo(T);
}
field public static final java.lang.Class<java.lang.Double> TYPE;
}
- public abstract class Enum implements java.lang.Comparable java.io.Serializable {
+ public abstract class Enum<E extends java.lang.Enum<E>> implements java.lang.Comparable java.io.Serializable {
ctor protected Enum(java.lang.String, int);
method protected final java.lang.Object clone() throws java.lang.CloneNotSupportedException;
method public final int compareTo(E);
method public final int hashCode();
method public final java.lang.String name();
method public final int ordinal();
- method public static T valueOf(java.lang.Class<T>, java.lang.String);
+ method public static <T extends java.lang.Enum<T>> T valueOf(java.lang.Class<T>, java.lang.String);
}
public class EnumConstantNotPresentException extends java.lang.RuntimeException {
ctor public IndexOutOfBoundsException(java.lang.String);
}
- public class InheritableThreadLocal extends java.lang.ThreadLocal {
+ public class InheritableThreadLocal<T> extends java.lang.ThreadLocal {
ctor public InheritableThreadLocal();
method protected T childValue(T);
}
ctor public InterruptedException(java.lang.String);
}
- public abstract interface Iterable {
+ public abstract interface Iterable<T> {
method public default void forEach(java.util.function.Consumer<? super T>);
method public abstract java.util.Iterator<T> iterator();
method public default java.util.Spliterator<T> spliterator();
}
public class Package implements java.lang.reflect.AnnotatedElement {
- method public A getAnnotation(java.lang.Class<A>);
+ method public <A extends java.lang.annotation.Annotation> A getAnnotation(java.lang.Class<A>);
method public java.lang.annotation.Annotation[] getAnnotations();
- method public A[] getAnnotationsByType(java.lang.Class<A>);
- method public A getDeclaredAnnotation(java.lang.Class<A>);
+ method public <A extends java.lang.annotation.Annotation> A[] getAnnotationsByType(java.lang.Class<A>);
+ method public <A extends java.lang.annotation.Annotation> A getDeclaredAnnotation(java.lang.Class<A>);
method public java.lang.annotation.Annotation[] getDeclaredAnnotations();
- method public A[] getDeclaredAnnotationsByType(java.lang.Class<A>);
+ method public <A extends java.lang.annotation.Annotation> A[] getDeclaredAnnotationsByType(java.lang.Class<A>);
method public java.lang.String getImplementationTitle();
method public java.lang.String getImplementationVendor();
method public java.lang.String getImplementationVersion();
method public void uncaughtException(java.lang.Thread, java.lang.Throwable);
}
- public class ThreadLocal {
+ public class ThreadLocal<T> {
ctor public ThreadLocal();
method public T get();
method protected T initialValue();
package java.lang.ref {
- public class PhantomReference extends java.lang.ref.Reference {
+ public class PhantomReference<T> extends java.lang.ref.Reference {
ctor public PhantomReference(T, java.lang.ref.ReferenceQueue<? super T>);
}
- public abstract class Reference {
+ public abstract class Reference<T> {
method public void clear();
method public boolean enqueue();
method public T get();
method public boolean isEnqueued();
}
- public class ReferenceQueue {
+ public class ReferenceQueue<T> {
ctor public ReferenceQueue();
method public java.lang.ref.Reference<? extends T> poll();
method public java.lang.ref.Reference<? extends T> remove(long) throws java.lang.IllegalArgumentException, java.lang.InterruptedException;
method public java.lang.ref.Reference<? extends T> remove() throws java.lang.InterruptedException;
}
- public class SoftReference extends java.lang.ref.Reference {
+ public class SoftReference<T> extends java.lang.ref.Reference {
ctor public SoftReference(T);
ctor public SoftReference(T, java.lang.ref.ReferenceQueue<? super T>);
}
- public class WeakReference extends java.lang.ref.Reference {
+ public class WeakReference<T> extends java.lang.ref.Reference {
ctor public WeakReference(T);
ctor public WeakReference(T, java.lang.ref.ReferenceQueue<? super T>);
}
public class AccessibleObject implements java.lang.reflect.AnnotatedElement {
ctor protected AccessibleObject();
- method public T getAnnotation(java.lang.Class<T>);
+ method public <T extends java.lang.annotation.Annotation> T getAnnotation(java.lang.Class<T>);
method public java.lang.annotation.Annotation[] getAnnotations();
method public java.lang.annotation.Annotation[] getDeclaredAnnotations();
method public boolean isAccessible();
}
public abstract interface AnnotatedElement {
- method public abstract T getAnnotation(java.lang.Class<T>);
+ method public abstract <T extends java.lang.annotation.Annotation> T getAnnotation(java.lang.Class<T>);
method public abstract java.lang.annotation.Annotation[] getAnnotations();
- method public default T[] getAnnotationsByType(java.lang.Class<T>);
- method public default java.lang.annotation.Annotation getDeclaredAnnotation(java.lang.Class<T>);
+ method public default <T extends java.lang.annotation.Annotation> T[] getAnnotationsByType(java.lang.Class<T>);
+ method public default <T extends java.lang.annotation.Annotation> java.lang.annotation.Annotation getDeclaredAnnotation(java.lang.Class<T>);
method public abstract java.lang.annotation.Annotation[] getDeclaredAnnotations();
- method public default T[] getDeclaredAnnotationsByType(java.lang.Class<T>);
+ method public default <T extends java.lang.annotation.Annotation> T[] getDeclaredAnnotationsByType(java.lang.Class<T>);
method public default boolean isAnnotationPresent(java.lang.Class<? extends java.lang.annotation.Annotation>);
}
method public static void setShort(java.lang.Object, int, short) throws java.lang.ArrayIndexOutOfBoundsException, java.lang.IllegalArgumentException;
}
- public final class Constructor extends java.lang.reflect.AccessibleObject implements java.lang.reflect.GenericDeclaration java.lang.reflect.Member {
- method public A getAnnotation(java.lang.Class<A>);
+ public final class Constructor<T> extends java.lang.reflect.AccessibleObject implements java.lang.reflect.GenericDeclaration java.lang.reflect.Member {
+ method public <A extends java.lang.annotation.Annotation> A getAnnotation(java.lang.Class<A>);
method public java.lang.Class<T> getDeclaringClass();
method public java.lang.Class<?>[] getExceptionTypes();
method public java.lang.reflect.Type[] getGenericExceptionTypes();
public final class Field extends java.lang.reflect.AccessibleObject implements java.lang.reflect.Member {
method public java.lang.Object get(java.lang.Object) throws java.lang.IllegalAccessException, java.lang.IllegalArgumentException;
- method public A getAnnotation(java.lang.Class<A>);
+ method public <A extends java.lang.annotation.Annotation> A getAnnotation(java.lang.Class<A>);
method public boolean getBoolean(java.lang.Object) throws java.lang.IllegalAccessException, java.lang.IllegalArgumentException;
method public byte getByte(java.lang.Object) throws java.lang.IllegalAccessException, java.lang.IllegalArgumentException;
method public char getChar(java.lang.Object) throws java.lang.IllegalAccessException, java.lang.IllegalArgumentException;
}
public final class Method extends java.lang.reflect.AccessibleObject implements java.lang.reflect.GenericDeclaration java.lang.reflect.Member {
- method public A getAnnotation(java.lang.Class<A>);
+ method public <A extends java.lang.annotation.Annotation> A getAnnotation(java.lang.Class<A>);
method public java.lang.Class<?> getDeclaringClass();
method public java.lang.Object getDefaultValue();
method public java.lang.Class<?>[] getExceptionTypes();
public abstract interface Type {
}
- public abstract interface TypeVariable implements java.lang.reflect.Type {
+ public abstract interface TypeVariable<D extends java.lang.reflect.GenericDeclaration> implements java.lang.reflect.Type {
method public abstract java.lang.reflect.Type[] getBounds();
method public abstract D getGenericDeclaration();
method public abstract java.lang.String getName();
method public abstract java.net.SocketImpl createSocketImpl();
}
- public abstract interface SocketOption {
+ public abstract interface SocketOption<T> {
method public abstract java.lang.String name();
method public abstract java.lang.Class<T> type();
}
method public final long read(java.nio.ByteBuffer[]) throws java.io.IOException;
method public abstract java.net.SocketAddress receive(java.nio.ByteBuffer) throws java.io.IOException;
method public abstract int send(java.nio.ByteBuffer, java.net.SocketAddress) throws java.io.IOException;
- method public abstract java.nio.channels.DatagramChannel setOption(java.net.SocketOption<T>, T) throws java.io.IOException;
+ method public abstract <T> java.nio.channels.DatagramChannel setOption(java.net.SocketOption<T>, T) throws java.io.IOException;
method public abstract java.net.DatagramSocket socket();
method public final int validOps();
method public abstract int write(java.nio.ByteBuffer) throws java.io.IOException;
public abstract interface NetworkChannel implements java.nio.channels.Channel {
method public abstract java.nio.channels.NetworkChannel bind(java.net.SocketAddress) throws java.io.IOException;
method public abstract java.net.SocketAddress getLocalAddress() throws java.io.IOException;
- method public abstract T getOption(java.net.SocketOption<T>) throws java.io.IOException;
- method public abstract java.nio.channels.NetworkChannel setOption(java.net.SocketOption<T>, T) throws java.io.IOException;
+ method public abstract <T> T getOption(java.net.SocketOption<T>) throws java.io.IOException;
+ method public abstract <T> java.nio.channels.NetworkChannel setOption(java.net.SocketOption<T>, T) throws java.io.IOException;
method public abstract java.util.Set<java.net.SocketOption<?>> supportedOptions();
}
method public final java.nio.channels.ServerSocketChannel bind(java.net.SocketAddress) throws java.io.IOException;
method public abstract java.nio.channels.ServerSocketChannel bind(java.net.SocketAddress, int) throws java.io.IOException;
method public static java.nio.channels.ServerSocketChannel open() throws java.io.IOException;
- method public abstract java.nio.channels.ServerSocketChannel setOption(java.net.SocketOption<T>, T) throws java.io.IOException;
+ method public abstract <T> java.nio.channels.ServerSocketChannel setOption(java.net.SocketOption<T>, T) throws java.io.IOException;
method public abstract java.net.ServerSocket socket();
method public final int validOps();
}
method public abstract int read(java.nio.ByteBuffer) throws java.io.IOException;
method public abstract long read(java.nio.ByteBuffer[], int, int) throws java.io.IOException;
method public final long read(java.nio.ByteBuffer[]) throws java.io.IOException;
- method public abstract java.nio.channels.SocketChannel setOption(java.net.SocketOption<T>, T) throws java.io.IOException;
+ method public abstract <T> java.nio.channels.SocketChannel setOption(java.net.SocketOption<T>, T) throws java.io.IOException;
method public abstract java.nio.channels.SocketChannel shutdownInput() throws java.io.IOException;
method public abstract java.nio.channels.SocketChannel shutdownOutput() throws java.io.IOException;
method public abstract java.net.Socket socket();
public final class AccessController {
method public static void checkPermission(java.security.Permission) throws java.security.AccessControlException;
- method public static T doPrivileged(java.security.PrivilegedAction<T>);
- method public static T doPrivileged(java.security.PrivilegedAction<T>, java.security.AccessControlContext);
- method public static T doPrivileged(java.security.PrivilegedExceptionAction<T>) throws java.security.PrivilegedActionException;
- method public static T doPrivileged(java.security.PrivilegedExceptionAction<T>, java.security.AccessControlContext) throws java.security.PrivilegedActionException;
- method public static T doPrivilegedWithCombiner(java.security.PrivilegedAction<T>);
- method public static T doPrivilegedWithCombiner(java.security.PrivilegedExceptionAction<T>) throws java.security.PrivilegedActionException;
+ method public static <T> T doPrivileged(java.security.PrivilegedAction<T>);
+ method public static <T> T doPrivileged(java.security.PrivilegedAction<T>, java.security.AccessControlContext);
+ method public static <T> T doPrivileged(java.security.PrivilegedExceptionAction<T>) throws java.security.PrivilegedActionException;
+ method public static <T> T doPrivileged(java.security.PrivilegedExceptionAction<T>, java.security.AccessControlContext) throws java.security.PrivilegedActionException;
+ method public static <T> T doPrivilegedWithCombiner(java.security.PrivilegedAction<T>);
+ method public static <T> T doPrivilegedWithCombiner(java.security.PrivilegedExceptionAction<T>) throws java.security.PrivilegedActionException;
method public static java.security.AccessControlContext getContext();
}
method public static java.security.AlgorithmParameters getInstance(java.lang.String) throws java.security.NoSuchAlgorithmException;
method public static java.security.AlgorithmParameters getInstance(java.lang.String, java.lang.String) throws java.security.NoSuchAlgorithmException, java.security.NoSuchProviderException;
method public static java.security.AlgorithmParameters getInstance(java.lang.String, java.security.Provider) throws java.security.NoSuchAlgorithmException;
- method public final T getParameterSpec(java.lang.Class<T>) throws java.security.spec.InvalidParameterSpecException;
+ method public final <T extends java.security.spec.AlgorithmParameterSpec> T getParameterSpec(java.lang.Class<T>) throws java.security.spec.InvalidParameterSpecException;
method public final java.security.Provider getProvider();
method public final void init(java.security.spec.AlgorithmParameterSpec) throws java.security.spec.InvalidParameterSpecException;
method public final void init(byte[]) throws java.io.IOException;
ctor public AlgorithmParametersSpi();
method protected abstract byte[] engineGetEncoded() throws java.io.IOException;
method protected abstract byte[] engineGetEncoded(java.lang.String) throws java.io.IOException;
- method protected abstract T engineGetParameterSpec(java.lang.Class<T>) throws java.security.spec.InvalidParameterSpecException;
+ method protected abstract <T extends java.security.spec.AlgorithmParameterSpec> T engineGetParameterSpec(java.lang.Class<T>) throws java.security.spec.InvalidParameterSpecException;
method protected abstract void engineInit(java.security.spec.AlgorithmParameterSpec) throws java.security.spec.InvalidParameterSpecException;
method protected abstract void engineInit(byte[]) throws java.io.IOException;
method protected abstract void engineInit(byte[], java.lang.String) throws java.io.IOException;
method public static java.security.KeyFactory getInstance(java.lang.String) throws java.security.NoSuchAlgorithmException;
method public static java.security.KeyFactory getInstance(java.lang.String, java.lang.String) throws java.security.NoSuchAlgorithmException, java.security.NoSuchProviderException;
method public static java.security.KeyFactory getInstance(java.lang.String, java.security.Provider) throws java.security.NoSuchAlgorithmException;
- method public final T getKeySpec(java.security.Key, java.lang.Class<T>) throws java.security.spec.InvalidKeySpecException;
+ method public final <T extends java.security.spec.KeySpec> T getKeySpec(java.security.Key, java.lang.Class<T>) throws java.security.spec.InvalidKeySpecException;
method public final java.security.Provider getProvider();
method public final java.security.Key translateKey(java.security.Key) throws java.security.InvalidKeyException;
}
ctor public KeyFactorySpi();
method protected abstract java.security.PrivateKey engineGeneratePrivate(java.security.spec.KeySpec) throws java.security.spec.InvalidKeySpecException;
method protected abstract java.security.PublicKey engineGeneratePublic(java.security.spec.KeySpec) throws java.security.spec.InvalidKeySpecException;
- method protected abstract T engineGetKeySpec(java.security.Key, java.lang.Class<T>) throws java.security.spec.InvalidKeySpecException;
+ method protected abstract <T extends java.security.spec.KeySpec> T engineGetKeySpec(java.security.Key, java.lang.Class<T>) throws java.security.spec.InvalidKeySpecException;
method protected abstract java.security.Key engineTranslateKey(java.security.Key) throws java.security.InvalidKeyException;
}
field public static final long serialVersionUID = 6034044314589513430L; // 0x53bd3b559a12c6d6L
}
- public abstract interface PrivilegedAction {
+ public abstract interface PrivilegedAction<T> {
method public abstract T run();
}
method public java.lang.Exception getException();
}
- public abstract interface PrivilegedExceptionAction {
+ public abstract interface PrivilegedExceptionAction<T> {
method public abstract T run() throws java.lang.Exception;
}
method public abstract void free() throws java.sql.SQLException;
method public abstract java.io.InputStream getBinaryStream() throws java.sql.SQLException;
method public abstract java.io.Reader getCharacterStream() throws java.sql.SQLException;
- method public abstract T getSource(java.lang.Class<T>) throws java.sql.SQLException;
+ method public abstract <T extends javax.xml.transform.Source> T getSource(java.lang.Class<T>) throws java.sql.SQLException;
method public abstract java.lang.String getString() throws java.sql.SQLException;
method public abstract java.io.OutputStream setBinaryStream() throws java.sql.SQLException;
method public abstract java.io.Writer setCharacterStream() throws java.sql.SQLException;
- method public abstract T setResult(java.lang.Class<T>) throws java.sql.SQLException;
+ method public abstract <T extends javax.xml.transform.Result> T setResult(java.lang.Class<T>) throws java.sql.SQLException;
method public abstract void setString(java.lang.String) throws java.sql.SQLException;
}
public abstract interface Wrapper {
method public abstract boolean isWrapperFor(java.lang.Class<?>) throws java.sql.SQLException;
- method public abstract T unwrap(java.lang.Class<T>) throws java.sql.SQLException;
+ method public abstract <T> T unwrap(java.lang.Class<T>) throws java.sql.SQLException;
}
}
package java.util {
- public abstract class AbstractCollection implements java.util.Collection {
+ public abstract class AbstractCollection<E> implements java.util.Collection {
ctor protected AbstractCollection();
method public boolean add(E);
method public boolean addAll(java.util.Collection<? extends E>);
method public boolean retainAll(java.util.Collection<?>);
method public abstract int size();
method public java.lang.Object[] toArray();
- method public T[] toArray(T[]);
+ method public <T> T[] toArray(T[]);
}
- public abstract class AbstractList extends java.util.AbstractCollection implements java.util.List {
+ public abstract class AbstractList<E> extends java.util.AbstractCollection implements java.util.List {
ctor protected AbstractList();
method public void add(int, E);
method public boolean addAll(int, java.util.Collection<? extends E>);
field protected transient int modCount;
}
- public abstract class AbstractMap implements java.util.Map {
+ public abstract class AbstractMap<K, V> implements java.util.Map {
ctor protected AbstractMap();
method public void clear();
method public boolean containsKey(java.lang.Object);
method public java.util.Collection<V> values();
}
- public static class AbstractMap.SimpleEntry implements java.util.Map.Entry java.io.Serializable {
+ public static class AbstractMap.SimpleEntry<K, V> implements java.util.Map.Entry java.io.Serializable {
ctor public AbstractMap.SimpleEntry(K, V);
ctor public AbstractMap.SimpleEntry(java.util.Map.Entry<? extends K, ? extends V>);
method public K getKey();
method public V setValue(V);
}
- public static class AbstractMap.SimpleImmutableEntry implements java.util.Map.Entry java.io.Serializable {
+ public static class AbstractMap.SimpleImmutableEntry<K, V> implements java.util.Map.Entry java.io.Serializable {
ctor public AbstractMap.SimpleImmutableEntry(K, V);
ctor public AbstractMap.SimpleImmutableEntry(java.util.Map.Entry<? extends K, ? extends V>);
method public K getKey();
method public V setValue(V);
}
- public abstract class AbstractQueue extends java.util.AbstractCollection implements java.util.Queue {
+ public abstract class AbstractQueue<E> extends java.util.AbstractCollection implements java.util.Queue {
ctor protected AbstractQueue();
method public E element();
method public E remove();
}
- public abstract class AbstractSequentialList extends java.util.AbstractList {
+ public abstract class AbstractSequentialList<E> extends java.util.AbstractList {
ctor protected AbstractSequentialList();
method public E get(int);
method public abstract java.util.ListIterator<E> listIterator(int);
}
- public abstract class AbstractSet extends java.util.AbstractCollection implements java.util.Set {
+ public abstract class AbstractSet<E> extends java.util.AbstractCollection implements java.util.Set {
ctor protected AbstractSet();
}
- public class ArrayDeque extends java.util.AbstractCollection implements java.lang.Cloneable java.util.Deque java.io.Serializable {
+ public class ArrayDeque<E> extends java.util.AbstractCollection implements java.lang.Cloneable java.util.Deque java.io.Serializable {
ctor public ArrayDeque();
ctor public ArrayDeque(int);
ctor public ArrayDeque(java.util.Collection<? extends E>);
method public java.util.Spliterator<E> spliterator();
}
- public class ArrayList extends java.util.AbstractList implements java.lang.Cloneable java.util.List java.util.RandomAccess java.io.Serializable {
+ public class ArrayList<E> extends java.util.AbstractList implements java.lang.Cloneable java.util.List java.util.RandomAccess java.io.Serializable {
ctor public ArrayList(int);
ctor public ArrayList();
ctor public ArrayList(java.util.Collection<? extends E>);
}
public class Arrays {
- method public static java.util.List<T> asList(T...);
+ method public static <T> java.util.List<T> asList(T...);
method public static int binarySearch(long[], long);
method public static int binarySearch(long[], int, int, long);
method public static int binarySearch(int[], int);
method public static int binarySearch(float[], int, int, float);
method public static int binarySearch(java.lang.Object[], java.lang.Object);
method public static int binarySearch(java.lang.Object[], int, int, java.lang.Object);
- method public static int binarySearch(T[], T, java.util.Comparator<? super T>);
- method public static int binarySearch(T[], int, int, T, java.util.Comparator<? super T>);
- method public static T[] copyOf(T[], int);
- method public static T[] copyOf(U[], int, java.lang.Class<? extends T[]>);
+ method public static <T> int binarySearch(T[], T, java.util.Comparator<? super T>);
+ method public static <T> int binarySearch(T[], int, int, T, java.util.Comparator<? super T>);
+ method public static <T> T[] copyOf(T[], int);
+ method public static <T, U> T[] copyOf(U[], int, java.lang.Class<? extends T[]>);
method public static byte[] copyOf(byte[], int);
method public static short[] copyOf(short[], int);
method public static int[] copyOf(int[], int);
method public static float[] copyOf(float[], int);
method public static double[] copyOf(double[], int);
method public static boolean[] copyOf(boolean[], int);
- method public static T[] copyOfRange(T[], int, int);
- method public static T[] copyOfRange(U[], int, int, java.lang.Class<? extends T[]>);
+ method public static <T> T[] copyOfRange(T[], int, int);
+ method public static <T, U> T[] copyOfRange(U[], int, int, java.lang.Class<? extends T[]>);
method public static byte[] copyOfRange(byte[], int, int);
method public static short[] copyOfRange(short[], int, int);
method public static int[] copyOfRange(int[], int, int);
method public static int hashCode(float[]);
method public static int hashCode(double[]);
method public static int hashCode(java.lang.Object[]);
- method public static void parallelPrefix(T[], java.util.function.BinaryOperator<T>);
- method public static void parallelPrefix(T[], int, int, java.util.function.BinaryOperator<T>);
+ method public static <T> void parallelPrefix(T[], java.util.function.BinaryOperator<T>);
+ method public static <T> void parallelPrefix(T[], int, int, java.util.function.BinaryOperator<T>);
method public static void parallelPrefix(long[], java.util.function.LongBinaryOperator);
method public static void parallelPrefix(long[], int, int, java.util.function.LongBinaryOperator);
method public static void parallelPrefix(double[], java.util.function.DoubleBinaryOperator);
method public static void parallelPrefix(double[], int, int, java.util.function.DoubleBinaryOperator);
method public static void parallelPrefix(int[], java.util.function.IntBinaryOperator);
method public static void parallelPrefix(int[], int, int, java.util.function.IntBinaryOperator);
- method public static void parallelSetAll(T[], java.util.function.IntFunction<? extends T>);
+ method public static <T> void parallelSetAll(T[], java.util.function.IntFunction<? extends T>);
method public static void parallelSetAll(int[], java.util.function.IntUnaryOperator);
method public static void parallelSetAll(long[], java.util.function.IntToLongFunction);
method public static void parallelSetAll(double[], java.util.function.IntToDoubleFunction);
method public static void parallelSort(float[], int, int);
method public static void parallelSort(double[]);
method public static void parallelSort(double[], int, int);
- method public static void parallelSort(T[]);
- method public static void parallelSort(T[], int, int);
- method public static void parallelSort(T[], java.util.Comparator<? super T>);
- method public static void parallelSort(T[], int, int, java.util.Comparator<? super T>);
- method public static void setAll(T[], java.util.function.IntFunction<? extends T>);
+ method public static <T extends java.lang.Comparable<? super T>> void parallelSort(T[]);
+ method public static <T extends java.lang.Comparable<? super T>> void parallelSort(T[], int, int);
+ method public static <T> void parallelSort(T[], java.util.Comparator<? super T>);
+ method public static <T> void parallelSort(T[], int, int, java.util.Comparator<? super T>);
+ method public static <T> void setAll(T[], java.util.function.IntFunction<? extends T>);
method public static void setAll(int[], java.util.function.IntUnaryOperator);
method public static void setAll(long[], java.util.function.IntToLongFunction);
method public static void setAll(double[], java.util.function.IntToDoubleFunction);
method public static void sort(double[], int, int);
method public static void sort(java.lang.Object[]);
method public static void sort(java.lang.Object[], int, int);
- method public static void sort(T[], java.util.Comparator<? super T>);
- method public static void sort(T[], int, int, java.util.Comparator<? super T>);
- method public static java.util.Spliterator<T> spliterator(T[]);
- method public static java.util.Spliterator<T> spliterator(T[], int, int);
+ method public static <T> void sort(T[], java.util.Comparator<? super T>);
+ method public static <T> void sort(T[], int, int, java.util.Comparator<? super T>);
+ method public static <T> java.util.Spliterator<T> spliterator(T[]);
+ method public static <T> java.util.Spliterator<T> spliterator(T[], int, int);
method public static java.util.Spliterator.OfInt spliterator(int[]);
method public static java.util.Spliterator.OfInt spliterator(int[], int, int);
method public static java.util.Spliterator.OfLong spliterator(long[]);
method public static java.util.Spliterator.OfLong spliterator(long[], int, int);
method public static java.util.Spliterator.OfDouble spliterator(double[]);
method public static java.util.Spliterator.OfDouble spliterator(double[], int, int);
- method public static java.util.stream.Stream<T> stream(T[]);
- method public static java.util.stream.Stream<T> stream(T[], int, int);
+ method public static <T> java.util.stream.Stream<T> stream(T[]);
+ method public static <T> java.util.stream.Stream<T> stream(T[], int, int);
method public static java.util.stream.IntStream stream(int[]);
method public static java.util.stream.IntStream stream(int[], int, int);
method public static java.util.stream.LongStream stream(long[]);
field protected long time;
}
- public abstract interface Collection implements java.lang.Iterable {
+ public abstract interface Collection<E> implements java.lang.Iterable {
method public abstract boolean add(E);
method public abstract boolean addAll(java.util.Collection<? extends E>);
method public abstract void clear();
method public abstract int size();
method public default java.util.stream.Stream<E> stream();
method public abstract java.lang.Object[] toArray();
- method public abstract T[] toArray(T[]);
+ method public abstract <T> T[] toArray(T[]);
}
public class Collections {
- method public static boolean addAll(java.util.Collection<? super T>, T...);
- method public static java.util.Queue<T> asLifoQueue(java.util.Deque<T>);
- method public static int binarySearch(java.util.List<? extends java.lang.Comparable<? super T>>, T);
- method public static int binarySearch(java.util.List<? extends T>, T, java.util.Comparator<? super T>);
- method public static java.util.Collection<E> checkedCollection(java.util.Collection<E>, java.lang.Class<E>);
- method public static java.util.List<E> checkedList(java.util.List<E>, java.lang.Class<E>);
- method public static java.util.Map<K, V> checkedMap(java.util.Map<K, V>, java.lang.Class<K>, java.lang.Class<V>);
- method public static java.util.Set<E> checkedSet(java.util.Set<E>, java.lang.Class<E>);
- method public static java.util.SortedMap<K, V> checkedSortedMap(java.util.SortedMap<K, V>, java.lang.Class<K>, java.lang.Class<V>);
- method public static java.util.SortedSet<E> checkedSortedSet(java.util.SortedSet<E>, java.lang.Class<E>);
- method public static void copy(java.util.List<? super T>, java.util.List<? extends T>);
+ method public static <T> boolean addAll(java.util.Collection<? super T>, T...);
+ method public static <T> java.util.Queue<T> asLifoQueue(java.util.Deque<T>);
+ method public static <T> int binarySearch(java.util.List<? extends java.lang.Comparable<? super T>>, T);
+ method public static <T> int binarySearch(java.util.List<? extends T>, T, java.util.Comparator<? super T>);
+ method public static <E> java.util.Collection<E> checkedCollection(java.util.Collection<E>, java.lang.Class<E>);
+ method public static <E> java.util.List<E> checkedList(java.util.List<E>, java.lang.Class<E>);
+ method public static <K, V> java.util.Map<K, V> checkedMap(java.util.Map<K, V>, java.lang.Class<K>, java.lang.Class<V>);
+ method public static <E> java.util.Set<E> checkedSet(java.util.Set<E>, java.lang.Class<E>);
+ method public static <K, V> java.util.SortedMap<K, V> checkedSortedMap(java.util.SortedMap<K, V>, java.lang.Class<K>, java.lang.Class<V>);
+ method public static <E> java.util.SortedSet<E> checkedSortedSet(java.util.SortedSet<E>, java.lang.Class<E>);
+ method public static <T> void copy(java.util.List<? super T>, java.util.List<? extends T>);
method public static boolean disjoint(java.util.Collection<?>, java.util.Collection<?>);
- method public static java.util.Enumeration<T> emptyEnumeration();
- method public static java.util.Iterator<T> emptyIterator();
- method public static final java.util.List<T> emptyList();
- method public static java.util.ListIterator<T> emptyListIterator();
- method public static final java.util.Map<K, V> emptyMap();
- method public static final java.util.Set<T> emptySet();
- method public static java.util.Enumeration<T> enumeration(java.util.Collection<T>);
- method public static void fill(java.util.List<? super T>, T);
+ method public static <T> java.util.Enumeration<T> emptyEnumeration();
+ method public static <T> java.util.Iterator<T> emptyIterator();
+ method public static final <T> java.util.List<T> emptyList();
+ method public static <T> java.util.ListIterator<T> emptyListIterator();
+ method public static final <K, V> java.util.Map<K, V> emptyMap();
+ method public static final <T> java.util.Set<T> emptySet();
+ method public static <T> java.util.Enumeration<T> enumeration(java.util.Collection<T>);
+ method public static <T> void fill(java.util.List<? super T>, T);
method public static int frequency(java.util.Collection<?>, java.lang.Object);
method public static int indexOfSubList(java.util.List<?>, java.util.List<?>);
method public static int lastIndexOfSubList(java.util.List<?>, java.util.List<?>);
- method public static java.util.ArrayList<T> list(java.util.Enumeration<T>);
- method public static T max(java.util.Collection<? extends T>);
- method public static T max(java.util.Collection<? extends T>, java.util.Comparator<? super T>);
- method public static T min(java.util.Collection<? extends T>);
- method public static T min(java.util.Collection<? extends T>, java.util.Comparator<? super T>);
- method public static java.util.List<T> nCopies(int, T);
- method public static java.util.Set<E> newSetFromMap(java.util.Map<E, java.lang.Boolean>);
- method public static boolean replaceAll(java.util.List<T>, T, T);
+ method public static <T> java.util.ArrayList<T> list(java.util.Enumeration<T>);
+ method public static <T extends java.lang.Object & java.lang.Comparable<? super T>> T max(java.util.Collection<? extends T>);
+ method public static <T> T max(java.util.Collection<? extends T>, java.util.Comparator<? super T>);
+ method public static <T extends java.lang.Object & java.lang.Comparable<? super T>> T min(java.util.Collection<? extends T>);
+ method public static <T> T min(java.util.Collection<? extends T>, java.util.Comparator<? super T>);
+ method public static <T> java.util.List<T> nCopies(int, T);
+ method public static <E> java.util.Set<E> newSetFromMap(java.util.Map<E, java.lang.Boolean>);
+ method public static <T> boolean replaceAll(java.util.List<T>, T, T);
method public static void reverse(java.util.List<?>);
- method public static java.util.Comparator<T> reverseOrder();
- method public static java.util.Comparator<T> reverseOrder(java.util.Comparator<T>);
+ method public static <T> java.util.Comparator<T> reverseOrder();
+ method public static <T> java.util.Comparator<T> reverseOrder(java.util.Comparator<T>);
method public static void rotate(java.util.List<?>, int);
method public static void shuffle(java.util.List<?>);
method public static void shuffle(java.util.List<?>, java.util.Random);
- method public static java.util.Set<E> singleton(E);
- method public static java.util.List<E> singletonList(E);
- method public static java.util.Map<K, V> singletonMap(K, V);
- method public static void sort(java.util.List<T>);
- method public static void sort(java.util.List<T>, java.util.Comparator<? super T>);
+ method public static <E> java.util.Set<E> singleton(E);
+ method public static <E> java.util.List<E> singletonList(E);
+ method public static <K, V> java.util.Map<K, V> singletonMap(K, V);
+ method public static <T extends java.lang.Comparable<? super T>> void sort(java.util.List<T>);
+ method public static <T> void sort(java.util.List<T>, java.util.Comparator<? super T>);
method public static void swap(java.util.List<?>, int, int);
- method public static java.util.Collection<T> synchronizedCollection(java.util.Collection<T>);
- method public static java.util.List<T> synchronizedList(java.util.List<T>);
- method public static java.util.Map<K, V> synchronizedMap(java.util.Map<K, V>);
- method public static java.util.Set<T> synchronizedSet(java.util.Set<T>);
- method public static java.util.SortedMap<K, V> synchronizedSortedMap(java.util.SortedMap<K, V>);
- method public static java.util.SortedSet<T> synchronizedSortedSet(java.util.SortedSet<T>);
- method public static java.util.Collection<T> unmodifiableCollection(java.util.Collection<? extends T>);
- method public static java.util.List<T> unmodifiableList(java.util.List<? extends T>);
- method public static java.util.Map<K, V> unmodifiableMap(java.util.Map<? extends K, ? extends V>);
- method public static java.util.Set<T> unmodifiableSet(java.util.Set<? extends T>);
- method public static java.util.SortedMap<K, V> unmodifiableSortedMap(java.util.SortedMap<K, ? extends V>);
- method public static java.util.SortedSet<T> unmodifiableSortedSet(java.util.SortedSet<T>);
+ method public static <T> java.util.Collection<T> synchronizedCollection(java.util.Collection<T>);
+ method public static <T> java.util.List<T> synchronizedList(java.util.List<T>);
+ method public static <K, V> java.util.Map<K, V> synchronizedMap(java.util.Map<K, V>);
+ method public static <T> java.util.Set<T> synchronizedSet(java.util.Set<T>);
+ method public static <K, V> java.util.SortedMap<K, V> synchronizedSortedMap(java.util.SortedMap<K, V>);
+ method public static <T> java.util.SortedSet<T> synchronizedSortedSet(java.util.SortedSet<T>);
+ method public static <T> java.util.Collection<T> unmodifiableCollection(java.util.Collection<? extends T>);
+ method public static <T> java.util.List<T> unmodifiableList(java.util.List<? extends T>);
+ method public static <K, V> java.util.Map<K, V> unmodifiableMap(java.util.Map<? extends K, ? extends V>);
+ method public static <T> java.util.Set<T> unmodifiableSet(java.util.Set<? extends T>);
+ method public static <K, V> java.util.SortedMap<K, V> unmodifiableSortedMap(java.util.SortedMap<K, ? extends V>);
+ method public static <T> java.util.SortedSet<T> unmodifiableSortedSet(java.util.SortedSet<T>);
field public static final java.util.List EMPTY_LIST;
field public static final java.util.Map EMPTY_MAP;
field public static final java.util.Set EMPTY_SET;
}
- public abstract interface Comparator {
+ public abstract interface Comparator<T> {
method public abstract int compare(T, T);
- method public static java.util.Comparator<T> comparing(java.util.function.Function<? super T, ? extends U>, java.util.Comparator<? super U>);
- method public static java.util.Comparator<T> comparing(java.util.function.Function<? super T, ? extends U>);
- method public static java.util.Comparator<T> comparingDouble(java.util.function.ToDoubleFunction<? super T>);
- method public static java.util.Comparator<T> comparingInt(java.util.function.ToIntFunction<? super T>);
- method public static java.util.Comparator<T> comparingLong(java.util.function.ToLongFunction<? super T>);
+ method public static <T, U> java.util.Comparator<T> comparing(java.util.function.Function<? super T, ? extends U>, java.util.Comparator<? super U>);
+ method public static <T, U extends java.lang.Comparable<? super U>> java.util.Comparator<T> comparing(java.util.function.Function<? super T, ? extends U>);
+ method public static <T> java.util.Comparator<T> comparingDouble(java.util.function.ToDoubleFunction<? super T>);
+ method public static <T> java.util.Comparator<T> comparingInt(java.util.function.ToIntFunction<? super T>);
+ method public static <T> java.util.Comparator<T> comparingLong(java.util.function.ToLongFunction<? super T>);
method public abstract boolean equals(java.lang.Object);
- method public static java.util.Comparator<T> naturalOrder();
- method public static java.util.Comparator<T> nullsFirst(java.util.Comparator<? super T>);
- method public static java.util.Comparator<T> nullsLast(java.util.Comparator<? super T>);
- method public static java.util.Comparator<T> reverseOrder();
+ method public static <T extends java.lang.Comparable<? super T>> java.util.Comparator<T> naturalOrder();
+ method public static <T> java.util.Comparator<T> nullsFirst(java.util.Comparator<? super T>);
+ method public static <T> java.util.Comparator<T> nullsLast(java.util.Comparator<? super T>);
+ method public static <T extends java.lang.Comparable<? super T>> java.util.Comparator<T> reverseOrder();
method public default java.util.Comparator<T> reversed();
method public default java.util.Comparator<T> thenComparing(java.util.Comparator<? super T>);
- method public default java.util.Comparator<T> thenComparing(java.util.function.Function<? super T, ? extends U>, java.util.Comparator<? super U>);
- method public default java.util.Comparator<T> thenComparing(java.util.function.Function<? super T, ? extends U>);
+ method public default <U> java.util.Comparator<T> thenComparing(java.util.function.Function<? super T, ? extends U>, java.util.Comparator<? super U>);
+ method public default <U extends java.lang.Comparable<? super U>> java.util.Comparator<T> thenComparing(java.util.function.Function<? super T, ? extends U>);
method public default java.util.Comparator<T> thenComparingDouble(java.util.function.ToDoubleFunction<? super T>);
method public default java.util.Comparator<T> thenComparingInt(java.util.function.ToIntFunction<? super T>);
method public default java.util.Comparator<T> thenComparingLong(java.util.function.ToLongFunction<? super T>);
method public deprecated java.lang.String toLocaleString();
}
- public abstract interface Deque implements java.util.Queue {
+ public abstract interface Deque<E> implements java.util.Queue {
method public abstract boolean add(E);
method public abstract void addFirst(E);
method public abstract void addLast(E);
method public abstract int size();
}
- public abstract class Dictionary {
+ public abstract class Dictionary<K, V> {
ctor public Dictionary();
method public abstract java.util.Enumeration<V> elements();
method public abstract V get(java.lang.Object);
ctor public EmptyStackException();
}
- public class EnumMap extends java.util.AbstractMap implements java.lang.Cloneable java.io.Serializable {
+ public class EnumMap<K extends java.lang.Enum<K>, V> extends java.util.AbstractMap implements java.lang.Cloneable java.io.Serializable {
ctor public EnumMap(java.lang.Class<K>);
ctor public EnumMap(java.util.EnumMap<K, ? extends V>);
ctor public EnumMap(java.util.Map<K, ? extends V>);
method public java.util.Set<java.util.Map.Entry<K, V>> entrySet();
}
- public abstract class EnumSet extends java.util.AbstractSet implements java.lang.Cloneable java.io.Serializable {
- method public static java.util.EnumSet<E> allOf(java.lang.Class<E>);
+ public abstract class EnumSet<E extends java.lang.Enum<E>> extends java.util.AbstractSet implements java.lang.Cloneable java.io.Serializable {
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> allOf(java.lang.Class<E>);
method public java.util.EnumSet<E> clone();
- method public static java.util.EnumSet<E> complementOf(java.util.EnumSet<E>);
- method public static java.util.EnumSet<E> copyOf(java.util.EnumSet<E>);
- method public static java.util.EnumSet<E> copyOf(java.util.Collection<E>);
- method public static java.util.EnumSet<E> noneOf(java.lang.Class<E>);
- method public static java.util.EnumSet<E> of(E);
- method public static java.util.EnumSet<E> of(E, E);
- method public static java.util.EnumSet<E> of(E, E, E);
- method public static java.util.EnumSet<E> of(E, E, E, E);
- method public static java.util.EnumSet<E> of(E, E, E, E, E);
- method public static java.util.EnumSet<E> of(E, E...);
- method public static java.util.EnumSet<E> range(E, E);
- }
-
- public abstract interface Enumeration {
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> complementOf(java.util.EnumSet<E>);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> copyOf(java.util.EnumSet<E>);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> copyOf(java.util.Collection<E>);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> noneOf(java.lang.Class<E>);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> of(E);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> of(E, E);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> of(E, E, E);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> of(E, E, E, E);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> of(E, E, E, E, E);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> of(E, E...);
+ method public static <E extends java.lang.Enum<E>> java.util.EnumSet<E> range(E, E);
+ }
+
+ public abstract interface Enumeration<E> {
method public abstract boolean hasMoreElements();
method public abstract E nextElement();
}
public abstract interface EventListener {
}
- public abstract class EventListenerProxy implements java.util.EventListener {
+ public abstract class EventListenerProxy<T extends java.util.EventListener> implements java.util.EventListener {
ctor public EventListenerProxy(T);
method public T getListener();
}
field public static final int BC = 0; // 0x0
}
- public class HashMap extends java.util.AbstractMap implements java.lang.Cloneable java.util.Map java.io.Serializable {
+ public class HashMap<K, V> extends java.util.AbstractMap implements java.lang.Cloneable java.util.Map java.io.Serializable {
ctor public HashMap(int, float);
ctor public HashMap(int);
ctor public HashMap();
method public void replaceAll(java.util.function.BiFunction<? super K, ? super V, ? extends V>);
}
- public class HashSet extends java.util.AbstractSet implements java.lang.Cloneable java.io.Serializable java.util.Set {
+ public class HashSet<E> extends java.util.AbstractSet implements java.lang.Cloneable java.io.Serializable java.util.Set {
ctor public HashSet();
ctor public HashSet(java.util.Collection<? extends E>);
ctor public HashSet(int, float);
method public java.util.Spliterator<E> spliterator();
}
- public class Hashtable extends java.util.Dictionary implements java.lang.Cloneable java.util.Map java.io.Serializable {
+ public class Hashtable<K, V> extends java.util.Dictionary implements java.lang.Cloneable java.util.Map java.io.Serializable {
ctor public Hashtable(int, float);
ctor public Hashtable(int);
ctor public Hashtable();
method public java.util.Collection<V> values();
}
- public class IdentityHashMap extends java.util.AbstractMap implements java.lang.Cloneable java.util.Map java.io.Serializable {
+ public class IdentityHashMap<K, V> extends java.util.AbstractMap implements java.lang.Cloneable java.util.Map java.io.Serializable {
ctor public IdentityHashMap();
ctor public IdentityHashMap(int);
ctor public IdentityHashMap(java.util.Map<? extends K, ? extends V>);
ctor public InvalidPropertiesFormatException(java.lang.String);
}
- public abstract interface Iterator {
+ public abstract interface Iterator<E> {
method public default void forEachRemaining(java.util.function.Consumer<? super E>);
method public abstract boolean hasNext();
method public abstract E next();
method public default void remove();
}
- public class LinkedHashMap extends java.util.HashMap implements java.util.Map {
+ public class LinkedHashMap<K, V> extends java.util.HashMap implements java.util.Map {
ctor public LinkedHashMap(int, float);
ctor public LinkedHashMap(int);
ctor public LinkedHashMap();
method protected boolean removeEldestEntry(java.util.Map.Entry<K, V>);
}
- public class LinkedHashSet extends java.util.HashSet implements java.lang.Cloneable java.io.Serializable java.util.Set {
+ public class LinkedHashSet<E> extends java.util.HashSet implements java.lang.Cloneable java.io.Serializable java.util.Set {
ctor public LinkedHashSet(int, float);
ctor public LinkedHashSet(int);
ctor public LinkedHashSet();
ctor public LinkedHashSet(java.util.Collection<? extends E>);
}
- public class LinkedList extends java.util.AbstractSequentialList implements java.lang.Cloneable java.util.Deque java.util.List java.io.Serializable {
+ public class LinkedList<E> extends java.util.AbstractSequentialList implements java.lang.Cloneable java.util.Deque java.util.List java.io.Serializable {
ctor public LinkedList();
ctor public LinkedList(java.util.Collection<? extends E>);
method public void addFirst(E);
method public java.util.Spliterator<E> spliterator();
}
- public abstract interface List implements java.util.Collection {
+ public abstract interface List<E> implements java.util.Collection {
method public abstract boolean add(E);
method public abstract void add(int, E);
method public abstract boolean addAll(java.util.Collection<? extends E>);
method public default void sort(java.util.Comparator<? super E>);
method public abstract java.util.List<E> subList(int, int);
method public abstract java.lang.Object[] toArray();
- method public abstract T[] toArray(T[]);
+ method public abstract <T> T[] toArray(T[]);
}
- public abstract interface ListIterator implements java.util.Iterator {
+ public abstract interface ListIterator<E> implements java.util.Iterator {
method public abstract void add(E);
method public abstract boolean hasNext();
method public abstract boolean hasPrevious();
method public final long getSum();
}
- public abstract interface Map {
+ public abstract interface Map<K, V> {
method public abstract void clear();
method public default V compute(K, java.util.function.BiFunction<? super K, ? super V, ? extends V>);
method public default V computeIfAbsent(K, java.util.function.Function<? super K, ? extends V>);
method public abstract java.util.Collection<V> values();
}
- public static abstract interface Map.Entry {
- method public static java.util.Comparator<java.util.Map.Entry<K, V>> comparingByKey();
- method public static java.util.Comparator<java.util.Map.Entry<K, V>> comparingByKey(java.util.Comparator<? super K>);
- method public static java.util.Comparator<java.util.Map.Entry<K, V>> comparingByValue();
- method public static java.util.Comparator<java.util.Map.Entry<K, V>> comparingByValue(java.util.Comparator<? super V>);
+ public static abstract interface Map.Entry<K, V> {
+ method public static <K extends java.lang.Comparable<? super K>, V> java.util.Comparator<java.util.Map.Entry<K, V>> comparingByKey();
+ method public static <K, V> java.util.Comparator<java.util.Map.Entry<K, V>> comparingByKey(java.util.Comparator<? super K>);
+ method public static <K, V extends java.lang.Comparable<? super V>> java.util.Comparator<java.util.Map.Entry<K, V>> comparingByValue();
+ method public static <K, V> java.util.Comparator<java.util.Map.Entry<K, V>> comparingByValue(java.util.Comparator<? super V>);
method public abstract boolean equals(java.lang.Object);
method public abstract K getKey();
method public abstract V getValue();
method public java.lang.String getKey();
}
- public abstract interface NavigableMap implements java.util.SortedMap {
+ public abstract interface NavigableMap<K, V> implements java.util.SortedMap {
method public abstract java.util.Map.Entry<K, V> ceilingEntry(K);
method public abstract K ceilingKey(K);
method public abstract java.util.NavigableSet<K> descendingKeySet();
method public abstract java.util.SortedMap<K, V> tailMap(K);
}
- public abstract interface NavigableSet implements java.util.SortedSet {
+ public abstract interface NavigableSet<E> implements java.util.SortedSet {
method public abstract E ceiling(E);
method public abstract java.util.Iterator<E> descendingIterator();
method public abstract java.util.NavigableSet<E> descendingSet();
}
public final class Objects {
- method public static int compare(T, T, java.util.Comparator<? super T>);
+ method public static <T> int compare(T, T, java.util.Comparator<? super T>);
method public static boolean deepEquals(java.lang.Object, java.lang.Object);
method public static boolean equals(java.lang.Object, java.lang.Object);
method public static int hash(java.lang.Object...);
method public static int hashCode(java.lang.Object);
method public static boolean isNull(java.lang.Object);
method public static boolean nonNull(java.lang.Object);
- method public static T requireNonNull(T);
- method public static T requireNonNull(T, java.lang.String);
- method public static T requireNonNull(T, java.util.function.Supplier<java.lang.String>);
+ method public static <T> T requireNonNull(T);
+ method public static <T> T requireNonNull(T, java.lang.String);
+ method public static <T> T requireNonNull(T, java.util.function.Supplier<java.lang.String>);
method public static java.lang.String toString(java.lang.Object);
method public static java.lang.String toString(java.lang.Object, java.lang.String);
}
method public abstract void update(java.util.Observable, java.lang.Object);
}
- public final class Optional {
- method public static java.util.Optional<T> empty();
+ public final class Optional<T> {
+ method public static <T> java.util.Optional<T> empty();
method public java.util.Optional<T> filter(java.util.function.Predicate<? super T>);
- method public java.util.Optional<U> flatMap(java.util.function.Function<? super T, java.util.Optional<U>>);
+ method public <U> java.util.Optional<U> flatMap(java.util.function.Function<? super T, java.util.Optional<U>>);
method public T get();
method public void ifPresent(java.util.function.Consumer<? super T>);
method public boolean isPresent();
- method public java.util.Optional<U> map(java.util.function.Function<? super T, ? extends U>);
- method public static java.util.Optional<T> of(T);
- method public static java.util.Optional<T> ofNullable(T);
+ method public <U> java.util.Optional<U> map(java.util.function.Function<? super T, ? extends U>);
+ method public static <T> java.util.Optional<T> of(T);
+ method public static <T> java.util.Optional<T> ofNullable(T);
method public T orElse(T);
method public T orElseGet(java.util.function.Supplier<? extends T>);
- method public T orElseThrow(java.util.function.Supplier<? extends X>) throws java.lang.Throwable;
+ method public <X extends java.lang.Throwable> T orElseThrow(java.util.function.Supplier<? extends X>) throws java.lang.Throwable;
}
public final class OptionalDouble {
method public static java.util.OptionalDouble of(double);
method public double orElse(double);
method public double orElseGet(java.util.function.DoubleSupplier);
- method public double orElseThrow(java.util.function.Supplier<X>) throws java.lang.Throwable;
+ method public <X extends java.lang.Throwable> double orElseThrow(java.util.function.Supplier<X>) throws java.lang.Throwable;
}
public final class OptionalInt {
method public static java.util.OptionalInt of(int);
method public int orElse(int);
method public int orElseGet(java.util.function.IntSupplier);
- method public int orElseThrow(java.util.function.Supplier<X>) throws java.lang.Throwable;
+ method public <X extends java.lang.Throwable> int orElseThrow(java.util.function.Supplier<X>) throws java.lang.Throwable;
}
public final class OptionalLong {
method public static java.util.OptionalLong of(long);
method public long orElse(long);
method public long orElseGet(java.util.function.LongSupplier);
- method public long orElseThrow(java.util.function.Supplier<X>) throws java.lang.Throwable;
+ method public <X extends java.lang.Throwable> long orElseThrow(java.util.function.Supplier<X>) throws java.lang.Throwable;
}
- public abstract interface PrimitiveIterator implements java.util.Iterator {
+ public abstract interface PrimitiveIterator<T, T_CONS> implements java.util.Iterator {
method public abstract void forEachRemaining(T_CONS);
}
method public abstract long nextLong();
}
- public class PriorityQueue extends java.util.AbstractQueue implements java.io.Serializable {
+ public class PriorityQueue<E> extends java.util.AbstractQueue implements java.io.Serializable {
ctor public PriorityQueue();
ctor public PriorityQueue(int);
ctor public PriorityQueue(java.util.Comparator<? super E>);
method public java.lang.Object handleGetObject(java.lang.String);
}
- public abstract interface Queue implements java.util.Collection {
+ public abstract interface Queue<E> implements java.util.Collection {
method public abstract boolean add(E);
method public abstract E element();
method public abstract boolean offer(E);
ctor public ServiceConfigurationError(java.lang.String, java.lang.Throwable);
}
- public final class ServiceLoader implements java.lang.Iterable {
+ public final class ServiceLoader<S> implements java.lang.Iterable {
method public java.util.Iterator<S> iterator();
- method public static java.util.ServiceLoader<S> load(java.lang.Class<S>, java.lang.ClassLoader);
- method public static java.util.ServiceLoader<S> load(java.lang.Class<S>);
- method public static java.util.ServiceLoader<S> loadInstalled(java.lang.Class<S>);
+ method public static <S> java.util.ServiceLoader<S> load(java.lang.Class<S>, java.lang.ClassLoader);
+ method public static <S> java.util.ServiceLoader<S> load(java.lang.Class<S>);
+ method public static <S> java.util.ServiceLoader<S> loadInstalled(java.lang.Class<S>);
method public void reload();
}
- public abstract interface Set implements java.util.Collection {
+ public abstract interface Set<E> implements java.util.Collection {
method public abstract boolean add(E);
method public abstract boolean addAll(java.util.Collection<? extends E>);
method public abstract void clear();
method public abstract boolean retainAll(java.util.Collection<?>);
method public abstract int size();
method public abstract java.lang.Object[] toArray();
- method public abstract T[] toArray(T[]);
+ method public abstract <T> T[] toArray(T[]);
}
public class SimpleTimeZone extends java.util.TimeZone {
field public static final int WALL_TIME = 0; // 0x0
}
- public abstract interface SortedMap implements java.util.Map {
+ public abstract interface SortedMap<K, V> implements java.util.Map {
method public abstract java.util.Comparator<? super K> comparator();
method public abstract java.util.Set<java.util.Map.Entry<K, V>> entrySet();
method public abstract K firstKey();
method public abstract java.util.Collection<V> values();
}
- public abstract interface SortedSet implements java.util.Set {
+ public abstract interface SortedSet<E> implements java.util.Set {
method public abstract java.util.Comparator<? super E> comparator();
method public abstract E first();
method public abstract java.util.SortedSet<E> headSet(E);
method public abstract java.util.SortedSet<E> tailSet(E);
}
- public abstract interface Spliterator {
+ public abstract interface Spliterator<T> {
method public abstract int characteristics();
method public abstract long estimateSize();
method public default void forEachRemaining(java.util.function.Consumer<? super T>);
method public abstract java.util.Spliterator.OfLong trySplit();
}
- public static abstract interface Spliterator.OfPrimitive implements java.util.Spliterator {
+ public static abstract interface Spliterator.OfPrimitive<T, T_CONS, T_SPLITR extends java.util.Spliterator.OfPrimitive<T, T_CONS, T_SPLITR>> implements java.util.Spliterator {
method public default void forEachRemaining(T_CONS);
method public abstract boolean tryAdvance(T_CONS);
method public abstract T_SPLITR trySplit();
method public static java.util.Spliterator.OfDouble emptyDoubleSpliterator();
method public static java.util.Spliterator.OfInt emptyIntSpliterator();
method public static java.util.Spliterator.OfLong emptyLongSpliterator();
- method public static java.util.Spliterator<T> emptySpliterator();
- method public static java.util.Iterator<T> iterator(java.util.Spliterator<? extends T>);
+ method public static <T> java.util.Spliterator<T> emptySpliterator();
+ method public static <T> java.util.Iterator<T> iterator(java.util.Spliterator<? extends T>);
method public static java.util.PrimitiveIterator.OfInt iterator(java.util.Spliterator.OfInt);
method public static java.util.PrimitiveIterator.OfLong iterator(java.util.Spliterator.OfLong);
method public static java.util.PrimitiveIterator.OfDouble iterator(java.util.Spliterator.OfDouble);
- method public static java.util.Spliterator<T> spliterator(java.lang.Object[], int);
- method public static java.util.Spliterator<T> spliterator(java.lang.Object[], int, int, int);
+ method public static <T> java.util.Spliterator<T> spliterator(java.lang.Object[], int);
+ method public static <T> java.util.Spliterator<T> spliterator(java.lang.Object[], int, int, int);
method public static java.util.Spliterator.OfInt spliterator(int[], int);
method public static java.util.Spliterator.OfInt spliterator(int[], int, int, int);
method public static java.util.Spliterator.OfLong spliterator(long[], int);
method public static java.util.Spliterator.OfLong spliterator(long[], int, int, int);
method public static java.util.Spliterator.OfDouble spliterator(double[], int);
method public static java.util.Spliterator.OfDouble spliterator(double[], int, int, int);
- method public static java.util.Spliterator<T> spliterator(java.util.Collection<? extends T>, int);
- method public static java.util.Spliterator<T> spliterator(java.util.Iterator<? extends T>, long, int);
+ method public static <T> java.util.Spliterator<T> spliterator(java.util.Collection<? extends T>, int);
+ method public static <T> java.util.Spliterator<T> spliterator(java.util.Iterator<? extends T>, long, int);
method public static java.util.Spliterator.OfInt spliterator(java.util.PrimitiveIterator.OfInt, long, int);
method public static java.util.Spliterator.OfLong spliterator(java.util.PrimitiveIterator.OfLong, long, int);
method public static java.util.Spliterator.OfDouble spliterator(java.util.PrimitiveIterator.OfDouble, long, int);
- method public static java.util.Spliterator<T> spliteratorUnknownSize(java.util.Iterator<? extends T>, int);
+ method public static <T> java.util.Spliterator<T> spliteratorUnknownSize(java.util.Iterator<? extends T>, int);
method public static java.util.Spliterator.OfInt spliteratorUnknownSize(java.util.PrimitiveIterator.OfInt, int);
method public static java.util.Spliterator.OfLong spliteratorUnknownSize(java.util.PrimitiveIterator.OfLong, int);
method public static java.util.Spliterator.OfDouble spliteratorUnknownSize(java.util.PrimitiveIterator.OfDouble, int);
method public java.util.Spliterator.OfLong trySplit();
}
- public static abstract class Spliterators.AbstractSpliterator implements java.util.Spliterator {
+ public static abstract class Spliterators.AbstractSpliterator<T> implements java.util.Spliterator {
ctor protected Spliterators.AbstractSpliterator(long, int);
method public int characteristics();
method public long estimateSize();
method public java.util.SplittableRandom split();
}
- public class Stack extends java.util.Vector {
+ public class Stack<E> extends java.util.Vector {
ctor public Stack();
method public boolean empty();
method public synchronized E peek();
ctor public TooManyListenersException(java.lang.String);
}
- public class TreeMap extends java.util.AbstractMap implements java.lang.Cloneable java.util.NavigableMap java.io.Serializable {
+ public class TreeMap<K, V> extends java.util.AbstractMap implements java.lang.Cloneable java.util.NavigableMap java.io.Serializable {
ctor public TreeMap();
ctor public TreeMap(java.util.Comparator<? super K>);
ctor public TreeMap(java.util.Map<? extends K, ? extends V>);
method public java.util.SortedMap<K, V> tailMap(K);
}
- public class TreeSet extends java.util.AbstractSet implements java.lang.Cloneable java.util.NavigableSet java.io.Serializable {
+ public class TreeSet<E> extends java.util.AbstractSet implements java.lang.Cloneable java.util.NavigableSet java.io.Serializable {
ctor public TreeSet();
ctor public TreeSet(java.util.Comparator<? super E>);
ctor public TreeSet(java.util.Collection<? extends E>);
method public java.lang.String getFlags();
}
- public class Vector extends java.util.AbstractList implements java.lang.Cloneable java.util.List java.util.RandomAccess java.io.Serializable {
+ public class Vector<E> extends java.util.AbstractList implements java.lang.Cloneable java.util.List java.util.RandomAccess java.io.Serializable {
ctor public Vector(int, int);
ctor public Vector(int);
ctor public Vector();
field protected java.lang.Object[] elementData;
}
- public class WeakHashMap extends java.util.AbstractMap implements java.util.Map {
+ public class WeakHashMap<K, V> extends java.util.AbstractMap implements java.util.Map {
ctor public WeakHashMap(int, float);
ctor public WeakHashMap(int);
ctor public WeakHashMap();
public abstract class AbstractExecutorService implements java.util.concurrent.ExecutorService {
ctor public AbstractExecutorService();
- method public java.util.List<java.util.concurrent.Future<T>> invokeAll(java.util.Collection<? extends java.util.concurrent.Callable<T>>) throws java.lang.InterruptedException;
- method public java.util.List<java.util.concurrent.Future<T>> invokeAll(java.util.Collection<? extends java.util.concurrent.Callable<T>>, long, java.util.concurrent.TimeUnit) throws java.lang.InterruptedException;
- method public T invokeAny(java.util.Collection<? extends java.util.concurrent.Callable<T>>) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException;
- method public T invokeAny(java.util.Collection<? extends java.util.concurrent.Callable<T>>, long, java.util.concurrent.TimeUnit) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException, java.util.concurrent.TimeoutException;
- method protected java.util.concurrent.RunnableFuture<T> newTaskFor(java.lang.Runnable, T);
- method protected java.util.concurrent.RunnableFuture<T> newTaskFor(java.util.concurrent.Callable<T>);
+ method public <T> java.util.List<java.util.concurrent.Future<T>> invokeAll(java.util.Collection<? extends java.util.concurrent.Callable<T>>) throws java.lang.InterruptedException;
+ method public <T> java.util.List<java.util.concurrent.Future<T>> invokeAll(java.util.Collection<? extends java.util.concurrent.Callable<T>>, long, java.util.concurrent.TimeUnit) throws java.lang.InterruptedException;
+ method public <T> T invokeAny(java.util.Collection<? extends java.util.concurrent.Callable<T>>) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException;
+ method public <T> T invokeAny(java.util.Collection<? extends java.util.concurrent.Callable<T>>, long, java.util.concurrent.TimeUnit) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException, java.util.concurrent.TimeoutException;
+ method protected <T> java.util.concurrent.RunnableFuture<T> newTaskFor(java.lang.Runnable, T);
+ method protected <T> java.util.concurrent.RunnableFuture<T> newTaskFor(java.util.concurrent.Callable<T>);
method public java.util.concurrent.Future<?> submit(java.lang.Runnable);
- method public java.util.concurrent.Future<T> submit(java.lang.Runnable, T);
- method public java.util.concurrent.Future<T> submit(java.util.concurrent.Callable<T>);
+ method public <T> java.util.concurrent.Future<T> submit(java.lang.Runnable, T);
+ method public <T> java.util.concurrent.Future<T> submit(java.util.concurrent.Callable<T>);
}
- public class ArrayBlockingQueue extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue java.io.Serializable {
+ public class ArrayBlockingQueue<E> extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue java.io.Serializable {
ctor public ArrayBlockingQueue(int);
ctor public ArrayBlockingQueue(int, boolean);
ctor public ArrayBlockingQueue(int, boolean, java.util.Collection<? extends E>);
method public E take() throws java.lang.InterruptedException;
}
- public abstract interface BlockingDeque implements java.util.concurrent.BlockingQueue java.util.Deque {
+ public abstract interface BlockingDeque<E> implements java.util.concurrent.BlockingQueue java.util.Deque {
method public abstract boolean add(E);
method public abstract void addFirst(E);
method public abstract void addLast(E);
method public abstract E takeLast() throws java.lang.InterruptedException;
}
- public abstract interface BlockingQueue implements java.util.Queue {
+ public abstract interface BlockingQueue<E> implements java.util.Queue {
method public abstract boolean add(E);
method public abstract boolean contains(java.lang.Object);
method public abstract int drainTo(java.util.Collection<? super E>);
ctor public BrokenBarrierException(java.lang.String);
}
- public abstract interface Callable {
+ public abstract interface Callable<V> {
method public abstract V call() throws java.lang.Exception;
}
ctor public CancellationException(java.lang.String);
}
- public class CompletableFuture implements java.util.concurrent.CompletionStage java.util.concurrent.Future {
+ public class CompletableFuture<T> implements java.util.concurrent.CompletionStage java.util.concurrent.Future {
ctor public CompletableFuture();
method public java.util.concurrent.CompletableFuture<java.lang.Void> acceptEither(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Consumer<? super T>);
method public java.util.concurrent.CompletableFuture<java.lang.Void> acceptEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Consumer<? super T>);
method public java.util.concurrent.CompletableFuture<java.lang.Void> acceptEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Consumer<? super T>, java.util.concurrent.Executor);
method public static java.util.concurrent.CompletableFuture<java.lang.Void> allOf(java.util.concurrent.CompletableFuture<?>...);
method public static java.util.concurrent.CompletableFuture<java.lang.Object> anyOf(java.util.concurrent.CompletableFuture<?>...);
- method public java.util.concurrent.CompletableFuture<U> applyToEither(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>);
- method public java.util.concurrent.CompletableFuture<U> applyToEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>);
- method public java.util.concurrent.CompletableFuture<U> applyToEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>, java.util.concurrent.Executor);
+ method public <U> java.util.concurrent.CompletableFuture<U> applyToEither(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>);
+ method public <U> java.util.concurrent.CompletableFuture<U> applyToEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>);
+ method public <U> java.util.concurrent.CompletableFuture<U> applyToEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>, java.util.concurrent.Executor);
method public boolean cancel(boolean);
method public boolean complete(T);
method public boolean completeExceptionally(java.lang.Throwable);
- method public static java.util.concurrent.CompletableFuture<U> completedFuture(U);
+ method public static <U> java.util.concurrent.CompletableFuture<U> completedFuture(U);
method public java.util.concurrent.CompletableFuture<T> exceptionally(java.util.function.Function<java.lang.Throwable, ? extends T>);
method public T get() throws java.util.concurrent.ExecutionException, java.lang.InterruptedException;
method public T get(long, java.util.concurrent.TimeUnit) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException, java.util.concurrent.TimeoutException;
method public T getNow(T);
method public int getNumberOfDependents();
- method public java.util.concurrent.CompletableFuture<U> handle(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>);
- method public java.util.concurrent.CompletableFuture<U> handleAsync(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>);
- method public java.util.concurrent.CompletableFuture<U> handleAsync(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>, java.util.concurrent.Executor);
+ method public <U> java.util.concurrent.CompletableFuture<U> handle(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>);
+ method public <U> java.util.concurrent.CompletableFuture<U> handleAsync(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>);
+ method public <U> java.util.concurrent.CompletableFuture<U> handleAsync(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>, java.util.concurrent.Executor);
method public boolean isCancelled();
method public boolean isCompletedExceptionally();
method public boolean isDone();
method public java.util.concurrent.CompletableFuture<java.lang.Void> runAfterEitherAsync(java.util.concurrent.CompletionStage<?>, java.lang.Runnable, java.util.concurrent.Executor);
method public static java.util.concurrent.CompletableFuture<java.lang.Void> runAsync(java.lang.Runnable);
method public static java.util.concurrent.CompletableFuture<java.lang.Void> runAsync(java.lang.Runnable, java.util.concurrent.Executor);
- method public static java.util.concurrent.CompletableFuture<U> supplyAsync(java.util.function.Supplier<U>);
- method public static java.util.concurrent.CompletableFuture<U> supplyAsync(java.util.function.Supplier<U>, java.util.concurrent.Executor);
+ method public static <U> java.util.concurrent.CompletableFuture<U> supplyAsync(java.util.function.Supplier<U>);
+ method public static <U> java.util.concurrent.CompletableFuture<U> supplyAsync(java.util.function.Supplier<U>, java.util.concurrent.Executor);
method public java.util.concurrent.CompletableFuture<java.lang.Void> thenAccept(java.util.function.Consumer<? super T>);
method public java.util.concurrent.CompletableFuture<java.lang.Void> thenAcceptAsync(java.util.function.Consumer<? super T>);
method public java.util.concurrent.CompletableFuture<java.lang.Void> thenAcceptAsync(java.util.function.Consumer<? super T>, java.util.concurrent.Executor);
- method public java.util.concurrent.CompletableFuture<java.lang.Void> thenAcceptBoth(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>);
- method public java.util.concurrent.CompletableFuture<java.lang.Void> thenAcceptBothAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>);
- method public java.util.concurrent.CompletableFuture<java.lang.Void> thenAcceptBothAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>, java.util.concurrent.Executor);
- method public java.util.concurrent.CompletableFuture<U> thenApply(java.util.function.Function<? super T, ? extends U>);
- method public java.util.concurrent.CompletableFuture<U> thenApplyAsync(java.util.function.Function<? super T, ? extends U>);
- method public java.util.concurrent.CompletableFuture<U> thenApplyAsync(java.util.function.Function<? super T, ? extends U>, java.util.concurrent.Executor);
- method public java.util.concurrent.CompletableFuture<V> thenCombine(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>);
- method public java.util.concurrent.CompletableFuture<V> thenCombineAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>);
- method public java.util.concurrent.CompletableFuture<V> thenCombineAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>, java.util.concurrent.Executor);
- method public java.util.concurrent.CompletableFuture<U> thenCompose(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>);
- method public java.util.concurrent.CompletableFuture<U> thenComposeAsync(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>);
- method public java.util.concurrent.CompletableFuture<U> thenComposeAsync(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>, java.util.concurrent.Executor);
+ method public <U> java.util.concurrent.CompletableFuture<java.lang.Void> thenAcceptBoth(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>);
+ method public <U> java.util.concurrent.CompletableFuture<java.lang.Void> thenAcceptBothAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>);
+ method public <U> java.util.concurrent.CompletableFuture<java.lang.Void> thenAcceptBothAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>, java.util.concurrent.Executor);
+ method public <U> java.util.concurrent.CompletableFuture<U> thenApply(java.util.function.Function<? super T, ? extends U>);
+ method public <U> java.util.concurrent.CompletableFuture<U> thenApplyAsync(java.util.function.Function<? super T, ? extends U>);
+ method public <U> java.util.concurrent.CompletableFuture<U> thenApplyAsync(java.util.function.Function<? super T, ? extends U>, java.util.concurrent.Executor);
+ method public <U, V> java.util.concurrent.CompletableFuture<V> thenCombine(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>);
+ method public <U, V> java.util.concurrent.CompletableFuture<V> thenCombineAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>);
+ method public <U, V> java.util.concurrent.CompletableFuture<V> thenCombineAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>, java.util.concurrent.Executor);
+ method public <U> java.util.concurrent.CompletableFuture<U> thenCompose(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>);
+ method public <U> java.util.concurrent.CompletableFuture<U> thenComposeAsync(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>);
+ method public <U> java.util.concurrent.CompletableFuture<U> thenComposeAsync(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>, java.util.concurrent.Executor);
method public java.util.concurrent.CompletableFuture<java.lang.Void> thenRun(java.lang.Runnable);
method public java.util.concurrent.CompletableFuture<java.lang.Void> thenRunAsync(java.lang.Runnable);
method public java.util.concurrent.CompletableFuture<java.lang.Void> thenRunAsync(java.lang.Runnable, java.util.concurrent.Executor);
ctor public CompletionException(java.lang.Throwable);
}
- public abstract interface CompletionService {
+ public abstract interface CompletionService<V> {
method public abstract java.util.concurrent.Future<V> poll();
method public abstract java.util.concurrent.Future<V> poll(long, java.util.concurrent.TimeUnit) throws java.lang.InterruptedException;
method public abstract java.util.concurrent.Future<V> submit(java.util.concurrent.Callable<V>);
method public abstract java.util.concurrent.Future<V> take() throws java.lang.InterruptedException;
}
- public abstract interface CompletionStage {
+ public abstract interface CompletionStage<T> {
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> acceptEither(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Consumer<? super T>);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> acceptEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Consumer<? super T>);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> acceptEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Consumer<? super T>, java.util.concurrent.Executor);
- method public abstract java.util.concurrent.CompletionStage<U> applyToEither(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>);
- method public abstract java.util.concurrent.CompletionStage<U> applyToEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>);
- method public abstract java.util.concurrent.CompletionStage<U> applyToEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>, java.util.concurrent.Executor);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> applyToEither(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> applyToEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> applyToEitherAsync(java.util.concurrent.CompletionStage<? extends T>, java.util.function.Function<? super T, U>, java.util.concurrent.Executor);
method public abstract java.util.concurrent.CompletionStage<T> exceptionally(java.util.function.Function<java.lang.Throwable, ? extends T>);
- method public abstract java.util.concurrent.CompletionStage<U> handle(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>);
- method public abstract java.util.concurrent.CompletionStage<U> handleAsync(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>);
- method public abstract java.util.concurrent.CompletionStage<U> handleAsync(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>, java.util.concurrent.Executor);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> handle(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> handleAsync(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> handleAsync(java.util.function.BiFunction<? super T, java.lang.Throwable, ? extends U>, java.util.concurrent.Executor);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> runAfterBoth(java.util.concurrent.CompletionStage<?>, java.lang.Runnable);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> runAfterBothAsync(java.util.concurrent.CompletionStage<?>, java.lang.Runnable);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> runAfterBothAsync(java.util.concurrent.CompletionStage<?>, java.lang.Runnable, java.util.concurrent.Executor);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> thenAccept(java.util.function.Consumer<? super T>);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> thenAcceptAsync(java.util.function.Consumer<? super T>);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> thenAcceptAsync(java.util.function.Consumer<? super T>, java.util.concurrent.Executor);
- method public abstract java.util.concurrent.CompletionStage<java.lang.Void> thenAcceptBoth(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>);
- method public abstract java.util.concurrent.CompletionStage<java.lang.Void> thenAcceptBothAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>);
- method public abstract java.util.concurrent.CompletionStage<java.lang.Void> thenAcceptBothAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>, java.util.concurrent.Executor);
- method public abstract java.util.concurrent.CompletionStage<U> thenApply(java.util.function.Function<? super T, ? extends U>);
- method public abstract java.util.concurrent.CompletionStage<U> thenApplyAsync(java.util.function.Function<? super T, ? extends U>);
- method public abstract java.util.concurrent.CompletionStage<U> thenApplyAsync(java.util.function.Function<? super T, ? extends U>, java.util.concurrent.Executor);
- method public abstract java.util.concurrent.CompletionStage<V> thenCombine(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>);
- method public abstract java.util.concurrent.CompletionStage<V> thenCombineAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>);
- method public abstract java.util.concurrent.CompletionStage<V> thenCombineAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>, java.util.concurrent.Executor);
- method public abstract java.util.concurrent.CompletionStage<U> thenCompose(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>);
- method public abstract java.util.concurrent.CompletionStage<U> thenComposeAsync(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>);
- method public abstract java.util.concurrent.CompletionStage<U> thenComposeAsync(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>, java.util.concurrent.Executor);
+ method public abstract <U> java.util.concurrent.CompletionStage<java.lang.Void> thenAcceptBoth(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>);
+ method public abstract <U> java.util.concurrent.CompletionStage<java.lang.Void> thenAcceptBothAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>);
+ method public abstract <U> java.util.concurrent.CompletionStage<java.lang.Void> thenAcceptBothAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiConsumer<? super T, ? super U>, java.util.concurrent.Executor);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> thenApply(java.util.function.Function<? super T, ? extends U>);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> thenApplyAsync(java.util.function.Function<? super T, ? extends U>);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> thenApplyAsync(java.util.function.Function<? super T, ? extends U>, java.util.concurrent.Executor);
+ method public abstract <U, V> java.util.concurrent.CompletionStage<V> thenCombine(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>);
+ method public abstract <U, V> java.util.concurrent.CompletionStage<V> thenCombineAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>);
+ method public abstract <U, V> java.util.concurrent.CompletionStage<V> thenCombineAsync(java.util.concurrent.CompletionStage<? extends U>, java.util.function.BiFunction<? super T, ? super U, ? extends V>, java.util.concurrent.Executor);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> thenCompose(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> thenComposeAsync(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>);
+ method public abstract <U> java.util.concurrent.CompletionStage<U> thenComposeAsync(java.util.function.Function<? super T, ? extends java.util.concurrent.CompletionStage<U>>, java.util.concurrent.Executor);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> thenRun(java.lang.Runnable);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> thenRunAsync(java.lang.Runnable);
method public abstract java.util.concurrent.CompletionStage<java.lang.Void> thenRunAsync(java.lang.Runnable, java.util.concurrent.Executor);
method public abstract java.util.concurrent.CompletionStage<T> whenCompleteAsync(java.util.function.BiConsumer<? super T, ? super java.lang.Throwable>, java.util.concurrent.Executor);
}
- public class ConcurrentHashMap extends java.util.AbstractMap implements java.util.concurrent.ConcurrentMap java.io.Serializable {
+ public class ConcurrentHashMap<K, V> extends java.util.AbstractMap implements java.util.concurrent.ConcurrentMap java.io.Serializable {
ctor public ConcurrentHashMap();
ctor public ConcurrentHashMap(int);
ctor public ConcurrentHashMap(java.util.Map<? extends K, ? extends V>);
method public java.util.Set<java.util.Map.Entry<K, V>> entrySet();
method public void forEach(java.util.function.BiConsumer<? super K, ? super V>);
method public void forEach(long, java.util.function.BiConsumer<? super K, ? super V>);
- method public void forEach(long, java.util.function.BiFunction<? super K, ? super V, ? extends U>, java.util.function.Consumer<? super U>);
+ method public <U> void forEach(long, java.util.function.BiFunction<? super K, ? super V, ? extends U>, java.util.function.Consumer<? super U>);
method public void forEachEntry(long, java.util.function.Consumer<? super java.util.Map.Entry<K, V>>);
- method public void forEachEntry(long, java.util.function.Function<java.util.Map.Entry<K, V>, ? extends U>, java.util.function.Consumer<? super U>);
+ method public <U> void forEachEntry(long, java.util.function.Function<java.util.Map.Entry<K, V>, ? extends U>, java.util.function.Consumer<? super U>);
method public void forEachKey(long, java.util.function.Consumer<? super K>);
- method public void forEachKey(long, java.util.function.Function<? super K, ? extends U>, java.util.function.Consumer<? super U>);
+ method public <U> void forEachKey(long, java.util.function.Function<? super K, ? extends U>, java.util.function.Consumer<? super U>);
method public void forEachValue(long, java.util.function.Consumer<? super V>);
- method public void forEachValue(long, java.util.function.Function<? super V, ? extends U>, java.util.function.Consumer<? super U>);
+ method public <U> void forEachValue(long, java.util.function.Function<? super V, ? extends U>, java.util.function.Consumer<? super U>);
method public V getOrDefault(java.lang.Object, V);
method public java.util.concurrent.ConcurrentHashMap.KeySetView<K, V> keySet(V);
method public java.util.Enumeration<K> keys();
method public long mappingCount();
method public V merge(K, V, java.util.function.BiFunction<? super V, ? super V, ? extends V>);
- method public static java.util.concurrent.ConcurrentHashMap.KeySetView<K, java.lang.Boolean> newKeySet();
- method public static java.util.concurrent.ConcurrentHashMap.KeySetView<K, java.lang.Boolean> newKeySet(int);
+ method public static <K> java.util.concurrent.ConcurrentHashMap.KeySetView<K, java.lang.Boolean> newKeySet();
+ method public static <K> java.util.concurrent.ConcurrentHashMap.KeySetView<K, java.lang.Boolean> newKeySet(int);
method public V putIfAbsent(K, V);
- method public U reduce(long, java.util.function.BiFunction<? super K, ? super V, ? extends U>, java.util.function.BiFunction<? super U, ? super U, ? extends U>);
+ method public <U> U reduce(long, java.util.function.BiFunction<? super K, ? super V, ? extends U>, java.util.function.BiFunction<? super U, ? super U, ? extends U>);
method public java.util.Map.Entry<K, V> reduceEntries(long, java.util.function.BiFunction<java.util.Map.Entry<K, V>, java.util.Map.Entry<K, V>, ? extends java.util.Map.Entry<K, V>>);
- method public U reduceEntries(long, java.util.function.Function<java.util.Map.Entry<K, V>, ? extends U>, java.util.function.BiFunction<? super U, ? super U, ? extends U>);
+ method public <U> U reduceEntries(long, java.util.function.Function<java.util.Map.Entry<K, V>, ? extends U>, java.util.function.BiFunction<? super U, ? super U, ? extends U>);
method public double reduceEntriesToDouble(long, java.util.function.ToDoubleFunction<java.util.Map.Entry<K, V>>, double, java.util.function.DoubleBinaryOperator);
method public int reduceEntriesToInt(long, java.util.function.ToIntFunction<java.util.Map.Entry<K, V>>, int, java.util.function.IntBinaryOperator);
method public long reduceEntriesToLong(long, java.util.function.ToLongFunction<java.util.Map.Entry<K, V>>, long, java.util.function.LongBinaryOperator);
method public K reduceKeys(long, java.util.function.BiFunction<? super K, ? super K, ? extends K>);
- method public U reduceKeys(long, java.util.function.Function<? super K, ? extends U>, java.util.function.BiFunction<? super U, ? super U, ? extends U>);
+ method public <U> U reduceKeys(long, java.util.function.Function<? super K, ? extends U>, java.util.function.BiFunction<? super U, ? super U, ? extends U>);
method public double reduceKeysToDouble(long, java.util.function.ToDoubleFunction<? super K>, double, java.util.function.DoubleBinaryOperator);
method public int reduceKeysToInt(long, java.util.function.ToIntFunction<? super K>, int, java.util.function.IntBinaryOperator);
method public long reduceKeysToLong(long, java.util.function.ToLongFunction<? super K>, long, java.util.function.LongBinaryOperator);
method public int reduceToInt(long, java.util.function.ToIntBiFunction<? super K, ? super V>, int, java.util.function.IntBinaryOperator);
method public long reduceToLong(long, java.util.function.ToLongBiFunction<? super K, ? super V>, long, java.util.function.LongBinaryOperator);
method public V reduceValues(long, java.util.function.BiFunction<? super V, ? super V, ? extends V>);
- method public U reduceValues(long, java.util.function.Function<? super V, ? extends U>, java.util.function.BiFunction<? super U, ? super U, ? extends U>);
+ method public <U> U reduceValues(long, java.util.function.Function<? super V, ? extends U>, java.util.function.BiFunction<? super U, ? super U, ? extends U>);
method public double reduceValuesToDouble(long, java.util.function.ToDoubleFunction<? super V>, double, java.util.function.DoubleBinaryOperator);
method public int reduceValuesToInt(long, java.util.function.ToIntFunction<? super V>, int, java.util.function.IntBinaryOperator);
method public long reduceValuesToLong(long, java.util.function.ToLongFunction<? super V>, long, java.util.function.LongBinaryOperator);
method public boolean replace(K, V, V);
method public V replace(K, V);
method public void replaceAll(java.util.function.BiFunction<? super K, ? super V, ? extends V>);
- method public U search(long, java.util.function.BiFunction<? super K, ? super V, ? extends U>);
- method public U searchEntries(long, java.util.function.Function<java.util.Map.Entry<K, V>, ? extends U>);
- method public U searchKeys(long, java.util.function.Function<? super K, ? extends U>);
- method public U searchValues(long, java.util.function.Function<? super V, ? extends U>);
+ method public <U> U search(long, java.util.function.BiFunction<? super K, ? super V, ? extends U>);
+ method public <U> U searchEntries(long, java.util.function.Function<java.util.Map.Entry<K, V>, ? extends U>);
+ method public <U> U searchKeys(long, java.util.function.Function<? super K, ? extends U>);
+ method public <U> U searchValues(long, java.util.function.Function<? super V, ? extends U>);
}
- static abstract class ConcurrentHashMap.CollectionView implements java.util.Collection java.io.Serializable {
+ static abstract class ConcurrentHashMap.CollectionView<K, V, E> implements java.util.Collection java.io.Serializable {
method public final void clear();
method public abstract boolean contains(java.lang.Object);
method public final boolean containsAll(java.util.Collection<?>);
method public final boolean retainAll(java.util.Collection<?>);
method public final int size();
method public final java.lang.Object[] toArray();
- method public final T[] toArray(T[]);
+ method public final <T> T[] toArray(T[]);
method public final java.lang.String toString();
}
- public static class ConcurrentHashMap.KeySetView extends java.util.concurrent.ConcurrentHashMap.CollectionView implements java.io.Serializable java.util.Set {
+ public static class ConcurrentHashMap.KeySetView<K, V> extends java.util.concurrent.ConcurrentHashMap.CollectionView implements java.io.Serializable java.util.Set {
method public boolean add(K);
method public boolean addAll(java.util.Collection<? extends K>);
method public boolean contains(java.lang.Object);
method public java.util.Spliterator<K> spliterator();
}
- public class ConcurrentLinkedDeque extends java.util.AbstractCollection implements java.util.Deque java.io.Serializable {
+ public class ConcurrentLinkedDeque<E> extends java.util.AbstractCollection implements java.util.Deque java.io.Serializable {
ctor public ConcurrentLinkedDeque();
ctor public ConcurrentLinkedDeque(java.util.Collection<? extends E>);
method public void addFirst(E);
method public java.util.Spliterator<E> spliterator();
}
- public class ConcurrentLinkedQueue extends java.util.AbstractQueue implements java.util.Queue java.io.Serializable {
+ public class ConcurrentLinkedQueue<E> extends java.util.AbstractQueue implements java.util.Queue java.io.Serializable {
ctor public ConcurrentLinkedQueue();
ctor public ConcurrentLinkedQueue(java.util.Collection<? extends E>);
method public java.util.Iterator<E> iterator();
method public java.util.Spliterator<E> spliterator();
}
- public abstract interface ConcurrentMap implements java.util.Map {
+ public abstract interface ConcurrentMap<K, V> implements java.util.Map {
method public abstract V putIfAbsent(K, V);
method public abstract boolean remove(java.lang.Object, java.lang.Object);
method public abstract boolean replace(K, V, V);
method public abstract V replace(K, V);
}
- public abstract interface ConcurrentNavigableMap implements java.util.concurrent.ConcurrentMap java.util.NavigableMap {
+ public abstract interface ConcurrentNavigableMap<K, V> implements java.util.concurrent.ConcurrentMap java.util.NavigableMap {
method public abstract java.util.NavigableSet<K> descendingKeySet();
method public abstract java.util.concurrent.ConcurrentNavigableMap<K, V> descendingMap();
method public abstract java.util.concurrent.ConcurrentNavigableMap<K, V> headMap(K, boolean);
method public abstract java.util.concurrent.ConcurrentNavigableMap<K, V> tailMap(K);
}
- public class ConcurrentSkipListMap extends java.util.AbstractMap implements java.lang.Cloneable java.util.concurrent.ConcurrentNavigableMap java.io.Serializable {
+ public class ConcurrentSkipListMap<K, V> extends java.util.AbstractMap implements java.lang.Cloneable java.util.concurrent.ConcurrentNavigableMap java.io.Serializable {
ctor public ConcurrentSkipListMap();
ctor public ConcurrentSkipListMap(java.util.Comparator<? super K>);
ctor public ConcurrentSkipListMap(java.util.Map<? extends K, ? extends V>);
method public java.util.concurrent.ConcurrentNavigableMap<K, V> tailMap(K);
}
- public class ConcurrentSkipListSet extends java.util.AbstractSet implements java.lang.Cloneable java.util.NavigableSet java.io.Serializable {
+ public class ConcurrentSkipListSet<E> extends java.util.AbstractSet implements java.lang.Cloneable java.util.NavigableSet java.io.Serializable {
ctor public ConcurrentSkipListSet();
ctor public ConcurrentSkipListSet(java.util.Comparator<? super E>);
ctor public ConcurrentSkipListSet(java.util.Collection<? extends E>);
method public java.util.NavigableSet<E> tailSet(E);
}
- public class CopyOnWriteArrayList implements java.lang.Cloneable java.util.List java.util.RandomAccess java.io.Serializable {
+ public class CopyOnWriteArrayList<E> implements java.lang.Cloneable java.util.List java.util.RandomAccess java.io.Serializable {
ctor public CopyOnWriteArrayList();
ctor public CopyOnWriteArrayList(java.util.Collection<? extends E>);
ctor public CopyOnWriteArrayList(E[]);
method public int size();
method public java.util.List<E> subList(int, int);
method public java.lang.Object[] toArray();
- method public T[] toArray(T[]);
+ method public <T> T[] toArray(T[]);
}
- public class CopyOnWriteArraySet extends java.util.AbstractSet implements java.io.Serializable {
+ public class CopyOnWriteArraySet<E> extends java.util.AbstractSet implements java.io.Serializable {
ctor public CopyOnWriteArraySet();
ctor public CopyOnWriteArraySet(java.util.Collection<? extends E>);
method public void forEach(java.util.function.Consumer<? super E>);
method public long getCount();
}
- public abstract class CountedCompleter extends java.util.concurrent.ForkJoinTask {
+ public abstract class CountedCompleter<T> extends java.util.concurrent.ForkJoinTask {
ctor protected CountedCompleter(java.util.concurrent.CountedCompleter<?>, int);
ctor protected CountedCompleter(java.util.concurrent.CountedCompleter<?>);
ctor protected CountedCompleter();
method public void reset();
}
- public class DelayQueue extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue {
+ public class DelayQueue<E extends java.util.concurrent.Delayed> extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue {
ctor public DelayQueue();
ctor public DelayQueue(java.util.Collection<? extends E>);
method public int drainTo(java.util.Collection<? super E>);
method public abstract long getDelay(java.util.concurrent.TimeUnit);
}
- public class Exchanger {
+ public class Exchanger<V> {
ctor public Exchanger();
method public V exchange(V) throws java.lang.InterruptedException;
method public V exchange(V, long, java.util.concurrent.TimeUnit) throws java.lang.InterruptedException, java.util.concurrent.TimeoutException;
method public abstract void execute(java.lang.Runnable);
}
- public class ExecutorCompletionService implements java.util.concurrent.CompletionService {
+ public class ExecutorCompletionService<V> implements java.util.concurrent.CompletionService {
ctor public ExecutorCompletionService(java.util.concurrent.Executor);
ctor public ExecutorCompletionService(java.util.concurrent.Executor, java.util.concurrent.BlockingQueue<java.util.concurrent.Future<V>>);
method public java.util.concurrent.Future<V> poll();
public abstract interface ExecutorService implements java.util.concurrent.Executor {
method public abstract boolean awaitTermination(long, java.util.concurrent.TimeUnit) throws java.lang.InterruptedException;
- method public abstract java.util.List<java.util.concurrent.Future<T>> invokeAll(java.util.Collection<? extends java.util.concurrent.Callable<T>>) throws java.lang.InterruptedException;
- method public abstract java.util.List<java.util.concurrent.Future<T>> invokeAll(java.util.Collection<? extends java.util.concurrent.Callable<T>>, long, java.util.concurrent.TimeUnit) throws java.lang.InterruptedException;
- method public abstract T invokeAny(java.util.Collection<? extends java.util.concurrent.Callable<T>>) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException;
- method public abstract T invokeAny(java.util.Collection<? extends java.util.concurrent.Callable<T>>, long, java.util.concurrent.TimeUnit) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException, java.util.concurrent.TimeoutException;
+ method public abstract <T> java.util.List<java.util.concurrent.Future<T>> invokeAll(java.util.Collection<? extends java.util.concurrent.Callable<T>>) throws java.lang.InterruptedException;
+ method public abstract <T> java.util.List<java.util.concurrent.Future<T>> invokeAll(java.util.Collection<? extends java.util.concurrent.Callable<T>>, long, java.util.concurrent.TimeUnit) throws java.lang.InterruptedException;
+ method public abstract <T> T invokeAny(java.util.Collection<? extends java.util.concurrent.Callable<T>>) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException;
+ method public abstract <T> T invokeAny(java.util.Collection<? extends java.util.concurrent.Callable<T>>, long, java.util.concurrent.TimeUnit) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException, java.util.concurrent.TimeoutException;
method public abstract boolean isShutdown();
method public abstract boolean isTerminated();
method public abstract void shutdown();
method public abstract java.util.List<java.lang.Runnable> shutdownNow();
- method public abstract java.util.concurrent.Future<T> submit(java.util.concurrent.Callable<T>);
- method public abstract java.util.concurrent.Future<T> submit(java.lang.Runnable, T);
+ method public abstract <T> java.util.concurrent.Future<T> submit(java.util.concurrent.Callable<T>);
+ method public abstract <T> java.util.concurrent.Future<T> submit(java.lang.Runnable, T);
method public abstract java.util.concurrent.Future<?> submit(java.lang.Runnable);
}
public class Executors {
- method public static java.util.concurrent.Callable<T> callable(java.lang.Runnable, T);
+ method public static <T> java.util.concurrent.Callable<T> callable(java.lang.Runnable, T);
method public static java.util.concurrent.Callable<java.lang.Object> callable(java.lang.Runnable);
method public static java.util.concurrent.Callable<java.lang.Object> callable(java.security.PrivilegedAction<?>);
method public static java.util.concurrent.Callable<java.lang.Object> callable(java.security.PrivilegedExceptionAction<?>);
method public static java.util.concurrent.ScheduledExecutorService newSingleThreadScheduledExecutor(java.util.concurrent.ThreadFactory);
method public static java.util.concurrent.ExecutorService newWorkStealingPool(int);
method public static java.util.concurrent.ExecutorService newWorkStealingPool();
- method public static java.util.concurrent.Callable<T> privilegedCallable(java.util.concurrent.Callable<T>);
- method public static java.util.concurrent.Callable<T> privilegedCallableUsingCurrentClassLoader(java.util.concurrent.Callable<T>);
+ method public static <T> java.util.concurrent.Callable<T> privilegedCallable(java.util.concurrent.Callable<T>);
+ method public static <T> java.util.concurrent.Callable<T> privilegedCallableUsingCurrentClassLoader(java.util.concurrent.Callable<T>);
method public static java.util.concurrent.ThreadFactory privilegedThreadFactory();
method public static java.util.concurrent.ExecutorService unconfigurableExecutorService(java.util.concurrent.ExecutorService);
method public static java.util.concurrent.ScheduledExecutorService unconfigurableScheduledExecutorService(java.util.concurrent.ScheduledExecutorService);
method public long getStealCount();
method public java.lang.Thread.UncaughtExceptionHandler getUncaughtExceptionHandler();
method public boolean hasQueuedSubmissions();
- method public T invoke(java.util.concurrent.ForkJoinTask<T>);
+ method public <T> T invoke(java.util.concurrent.ForkJoinTask<T>);
method public boolean isQuiescent();
method public boolean isShutdown();
method public boolean isTerminated();
method protected java.util.concurrent.ForkJoinTask<?> pollSubmission();
method public void shutdown();
method public java.util.List<java.lang.Runnable> shutdownNow();
- method public java.util.concurrent.ForkJoinTask<T> submit(java.util.concurrent.ForkJoinTask<T>);
+ method public <T> java.util.concurrent.ForkJoinTask<T> submit(java.util.concurrent.ForkJoinTask<T>);
field public static final java.util.concurrent.ForkJoinPool.ForkJoinWorkerThreadFactory defaultForkJoinWorkerThreadFactory;
}
method public abstract boolean isReleasable();
}
- public abstract class ForkJoinTask implements java.util.concurrent.Future java.io.Serializable {
+ public abstract class ForkJoinTask<V> implements java.util.concurrent.Future java.io.Serializable {
ctor public ForkJoinTask();
method public static java.util.concurrent.ForkJoinTask<?> adapt(java.lang.Runnable);
- method public static java.util.concurrent.ForkJoinTask<T> adapt(java.lang.Runnable, T);
- method public static java.util.concurrent.ForkJoinTask<T> adapt(java.util.concurrent.Callable<? extends T>);
+ method public static <T> java.util.concurrent.ForkJoinTask<T> adapt(java.lang.Runnable, T);
+ method public static <T> java.util.concurrent.ForkJoinTask<T> adapt(java.util.concurrent.Callable<? extends T>);
method public boolean cancel(boolean);
method public final boolean compareAndSetForkJoinTaskTag(short, short);
method public void complete(V);
method public final V invoke();
method public static void invokeAll(java.util.concurrent.ForkJoinTask<?>, java.util.concurrent.ForkJoinTask<?>);
method public static void invokeAll(java.util.concurrent.ForkJoinTask<?>...);
- method public static java.util.Collection<T> invokeAll(java.util.Collection<T>);
+ method public static <T extends java.util.concurrent.ForkJoinTask<?>> java.util.Collection<T> invokeAll(java.util.Collection<T>);
method public final boolean isCancelled();
method public final boolean isCompletedAbnormally();
method public final boolean isCompletedNormally();
method protected void onTermination(java.lang.Throwable);
}
- public abstract interface Future {
+ public abstract interface Future<V> {
method public abstract boolean cancel(boolean);
method public abstract V get() throws java.util.concurrent.ExecutionException, java.lang.InterruptedException;
method public abstract V get(long, java.util.concurrent.TimeUnit) throws java.util.concurrent.ExecutionException, java.lang.InterruptedException, java.util.concurrent.TimeoutException;
method public abstract boolean isDone();
}
- public class FutureTask implements java.util.concurrent.RunnableFuture {
+ public class FutureTask<V> implements java.util.concurrent.RunnableFuture {
ctor public FutureTask(java.util.concurrent.Callable<V>);
ctor public FutureTask(java.lang.Runnable, V);
method public boolean cancel(boolean);
method protected void setException(java.lang.Throwable);
}
- public class LinkedBlockingDeque extends java.util.AbstractQueue implements java.util.concurrent.BlockingDeque java.io.Serializable {
+ public class LinkedBlockingDeque<E> extends java.util.AbstractQueue implements java.util.concurrent.BlockingDeque java.io.Serializable {
ctor public LinkedBlockingDeque();
ctor public LinkedBlockingDeque(int);
ctor public LinkedBlockingDeque(java.util.Collection<? extends E>);
method public E takeLast() throws java.lang.InterruptedException;
}
- public class LinkedBlockingQueue extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue java.io.Serializable {
+ public class LinkedBlockingQueue<E> extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue java.io.Serializable {
ctor public LinkedBlockingQueue();
ctor public LinkedBlockingQueue(int);
ctor public LinkedBlockingQueue(java.util.Collection<? extends E>);
method public E take() throws java.lang.InterruptedException;
}
- public class LinkedTransferQueue extends java.util.AbstractQueue implements java.io.Serializable java.util.concurrent.TransferQueue {
+ public class LinkedTransferQueue<E> extends java.util.AbstractQueue implements java.io.Serializable java.util.concurrent.TransferQueue {
ctor public LinkedTransferQueue();
ctor public LinkedTransferQueue(java.util.Collection<? extends E>);
method public int drainTo(java.util.Collection<? super E>);
method public int register();
}
- public class PriorityBlockingQueue extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue java.io.Serializable {
+ public class PriorityBlockingQueue<E> extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue java.io.Serializable {
ctor public PriorityBlockingQueue();
ctor public PriorityBlockingQueue(int);
ctor public PriorityBlockingQueue(int, java.util.Comparator<? super E>);
method protected final void setRawResult(java.lang.Void);
}
- public abstract class RecursiveTask extends java.util.concurrent.ForkJoinTask {
+ public abstract class RecursiveTask<V> extends java.util.concurrent.ForkJoinTask {
ctor public RecursiveTask();
method protected abstract V compute();
method protected final boolean exec();
method public abstract void rejectedExecution(java.lang.Runnable, java.util.concurrent.ThreadPoolExecutor);
}
- public abstract interface RunnableFuture implements java.util.concurrent.Future java.lang.Runnable {
+ public abstract interface RunnableFuture<V> implements java.util.concurrent.Future java.lang.Runnable {
method public abstract void run();
}
- public abstract interface RunnableScheduledFuture implements java.util.concurrent.RunnableFuture java.util.concurrent.ScheduledFuture {
+ public abstract interface RunnableScheduledFuture<V> implements java.util.concurrent.RunnableFuture java.util.concurrent.ScheduledFuture {
method public abstract boolean isPeriodic();
}
public abstract interface ScheduledExecutorService implements java.util.concurrent.ExecutorService {
method public abstract java.util.concurrent.ScheduledFuture<?> schedule(java.lang.Runnable, long, java.util.concurrent.TimeUnit);
- method public abstract java.util.concurrent.ScheduledFuture<V> schedule(java.util.concurrent.Callable<V>, long, java.util.concurrent.TimeUnit);
+ method public abstract <V> java.util.concurrent.ScheduledFuture<V> schedule(java.util.concurrent.Callable<V>, long, java.util.concurrent.TimeUnit);
method public abstract java.util.concurrent.ScheduledFuture<?> scheduleAtFixedRate(java.lang.Runnable, long, long, java.util.concurrent.TimeUnit);
method public abstract java.util.concurrent.ScheduledFuture<?> scheduleWithFixedDelay(java.lang.Runnable, long, long, java.util.concurrent.TimeUnit);
}
- public abstract interface ScheduledFuture implements java.util.concurrent.Delayed java.util.concurrent.Future {
+ public abstract interface ScheduledFuture<V> implements java.util.concurrent.Delayed java.util.concurrent.Future {
}
public class ScheduledThreadPoolExecutor extends java.util.concurrent.ThreadPoolExecutor implements java.util.concurrent.ScheduledExecutorService {
ctor public ScheduledThreadPoolExecutor(int, java.util.concurrent.ThreadFactory);
ctor public ScheduledThreadPoolExecutor(int, java.util.concurrent.RejectedExecutionHandler);
ctor public ScheduledThreadPoolExecutor(int, java.util.concurrent.ThreadFactory, java.util.concurrent.RejectedExecutionHandler);
- method protected java.util.concurrent.RunnableScheduledFuture<V> decorateTask(java.lang.Runnable, java.util.concurrent.RunnableScheduledFuture<V>);
- method protected java.util.concurrent.RunnableScheduledFuture<V> decorateTask(java.util.concurrent.Callable<V>, java.util.concurrent.RunnableScheduledFuture<V>);
+ method protected <V> java.util.concurrent.RunnableScheduledFuture<V> decorateTask(java.lang.Runnable, java.util.concurrent.RunnableScheduledFuture<V>);
+ method protected <V> java.util.concurrent.RunnableScheduledFuture<V> decorateTask(java.util.concurrent.Callable<V>, java.util.concurrent.RunnableScheduledFuture<V>);
method public boolean getContinueExistingPeriodicTasksAfterShutdownPolicy();
method public boolean getExecuteExistingDelayedTasksAfterShutdownPolicy();
method public boolean getRemoveOnCancelPolicy();
method public java.util.concurrent.ScheduledFuture<?> schedule(java.lang.Runnable, long, java.util.concurrent.TimeUnit);
- method public java.util.concurrent.ScheduledFuture<V> schedule(java.util.concurrent.Callable<V>, long, java.util.concurrent.TimeUnit);
+ method public <V> java.util.concurrent.ScheduledFuture<V> schedule(java.util.concurrent.Callable<V>, long, java.util.concurrent.TimeUnit);
method public java.util.concurrent.ScheduledFuture<?> scheduleAtFixedRate(java.lang.Runnable, long, long, java.util.concurrent.TimeUnit);
method public java.util.concurrent.ScheduledFuture<?> scheduleWithFixedDelay(java.lang.Runnable, long, long, java.util.concurrent.TimeUnit);
method public void setContinueExistingPeriodicTasksAfterShutdownPolicy(boolean);
method public boolean tryAcquire(int, long, java.util.concurrent.TimeUnit) throws java.lang.InterruptedException;
}
- public class SynchronousQueue extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue java.io.Serializable {
+ public class SynchronousQueue<E> extends java.util.AbstractQueue implements java.util.concurrent.BlockingQueue java.io.Serializable {
ctor public SynchronousQueue();
ctor public SynchronousQueue(boolean);
method public int drainTo(java.util.Collection<? super E>);
ctor public TimeoutException(java.lang.String);
}
- public abstract interface TransferQueue implements java.util.concurrent.BlockingQueue {
+ public abstract interface TransferQueue<E> implements java.util.concurrent.BlockingQueue {
method public abstract int getWaitingConsumerCount();
method public abstract boolean hasWaitingConsumer();
method public abstract void transfer(E) throws java.lang.InterruptedException;
method public final boolean weakCompareAndSet(int, int, int);
}
- public abstract class AtomicIntegerFieldUpdater {
+ public abstract class AtomicIntegerFieldUpdater<T> {
ctor protected AtomicIntegerFieldUpdater();
method public final int accumulateAndGet(T, int, java.util.function.IntBinaryOperator);
method public int addAndGet(T, int);
method public final int getAndUpdate(T, java.util.function.IntUnaryOperator);
method public int incrementAndGet(T);
method public abstract void lazySet(T, int);
- method public static java.util.concurrent.atomic.AtomicIntegerFieldUpdater<U> newUpdater(java.lang.Class<U>, java.lang.String);
+ method public static <U> java.util.concurrent.atomic.AtomicIntegerFieldUpdater<U> newUpdater(java.lang.Class<U>, java.lang.String);
method public abstract void set(T, int);
method public final int updateAndGet(T, java.util.function.IntUnaryOperator);
method public abstract boolean weakCompareAndSet(T, int, int);
method public final boolean weakCompareAndSet(int, long, long);
}
- public abstract class AtomicLongFieldUpdater {
+ public abstract class AtomicLongFieldUpdater<T> {
ctor protected AtomicLongFieldUpdater();
method public final long accumulateAndGet(T, long, java.util.function.LongBinaryOperator);
method public long addAndGet(T, long);
method public final long getAndUpdate(T, java.util.function.LongUnaryOperator);
method public long incrementAndGet(T);
method public abstract void lazySet(T, long);
- method public static java.util.concurrent.atomic.AtomicLongFieldUpdater<U> newUpdater(java.lang.Class<U>, java.lang.String);
+ method public static <U> java.util.concurrent.atomic.AtomicLongFieldUpdater<U> newUpdater(java.lang.Class<U>, java.lang.String);
method public abstract void set(T, long);
method public final long updateAndGet(T, java.util.function.LongUnaryOperator);
method public abstract boolean weakCompareAndSet(T, long, long);
}
- public class AtomicMarkableReference {
+ public class AtomicMarkableReference<V> {
ctor public AtomicMarkableReference(V, boolean);
method public boolean attemptMark(V, boolean);
method public boolean compareAndSet(V, V, boolean, boolean);
method public boolean weakCompareAndSet(V, V, boolean, boolean);
}
- public class AtomicReference implements java.io.Serializable {
+ public class AtomicReference<V> implements java.io.Serializable {
ctor public AtomicReference(V);
ctor public AtomicReference();
method public final V accumulateAndGet(V, java.util.function.BinaryOperator<V>);
method public final boolean weakCompareAndSet(V, V);
}
- public class AtomicReferenceArray implements java.io.Serializable {
+ public class AtomicReferenceArray<E> implements java.io.Serializable {
ctor public AtomicReferenceArray(int);
ctor public AtomicReferenceArray(E[]);
method public final E accumulateAndGet(int, E, java.util.function.BinaryOperator<E>);
method public final boolean weakCompareAndSet(int, E, E);
}
- public abstract class AtomicReferenceFieldUpdater {
+ public abstract class AtomicReferenceFieldUpdater<T, V> {
ctor protected AtomicReferenceFieldUpdater();
method public final V accumulateAndGet(T, V, java.util.function.BinaryOperator<V>);
method public abstract boolean compareAndSet(T, V, V);
method public V getAndSet(T, V);
method public final V getAndUpdate(T, java.util.function.UnaryOperator<V>);
method public abstract void lazySet(T, V);
- method public static java.util.concurrent.atomic.AtomicReferenceFieldUpdater<U, W> newUpdater(java.lang.Class<U>, java.lang.Class<W>, java.lang.String);
+ method public static <U, W> java.util.concurrent.atomic.AtomicReferenceFieldUpdater<U, W> newUpdater(java.lang.Class<U>, java.lang.Class<W>, java.lang.String);
method public abstract void set(T, V);
method public final V updateAndGet(T, java.util.function.UnaryOperator<V>);
method public abstract boolean weakCompareAndSet(T, V, V);
}
- public class AtomicStampedReference {
+ public class AtomicStampedReference<V> {
ctor public AtomicStampedReference(V, int);
method public boolean attemptStamp(V, int);
method public boolean compareAndSet(V, V, int, int);
package java.util.function {
- public abstract interface BiConsumer {
+ public abstract interface BiConsumer<T, U> {
method public abstract void accept(T, U);
method public default java.util.function.BiConsumer<T, U> andThen(java.util.function.BiConsumer<? super T, ? super U>);
}
- public abstract interface BiFunction {
- method public default java.util.function.BiFunction<T, U, V> andThen(java.util.function.Function<? super R, ? extends V>);
+ public abstract interface BiFunction<T, U, R> {
+ method public default <V> java.util.function.BiFunction<T, U, V> andThen(java.util.function.Function<? super R, ? extends V>);
method public abstract R apply(T, U);
}
- public abstract interface BiPredicate {
+ public abstract interface BiPredicate<T, U> {
method public default java.util.function.BiPredicate<T, U> and(java.util.function.BiPredicate<? super T, ? super U>);
method public default java.util.function.BiPredicate<T, U> negate();
method public default java.util.function.BiPredicate<T, U> or(java.util.function.BiPredicate<? super T, ? super U>);
method public abstract boolean test(T, U);
}
- public abstract interface BinaryOperator implements java.util.function.BiFunction {
- method public static java.util.function.BinaryOperator<T> maxBy(java.util.Comparator<? super T>);
- method public static java.util.function.BinaryOperator<T> minBy(java.util.Comparator<? super T>);
+ public abstract interface BinaryOperator<T> implements java.util.function.BiFunction {
+ method public static <T> java.util.function.BinaryOperator<T> maxBy(java.util.Comparator<? super T>);
+ method public static <T> java.util.function.BinaryOperator<T> minBy(java.util.Comparator<? super T>);
}
public abstract interface BooleanSupplier {
method public abstract boolean getAsBoolean();
}
- public abstract interface Consumer {
+ public abstract interface Consumer<T> {
method public abstract void accept(T);
method public default java.util.function.Consumer<T> andThen(java.util.function.Consumer<? super T>);
}
method public default java.util.function.DoubleConsumer andThen(java.util.function.DoubleConsumer);
}
- public abstract interface DoubleFunction {
+ public abstract interface DoubleFunction<R> {
method public abstract R apply(double);
}
method public static java.util.function.DoubleUnaryOperator identity();
}
- public abstract interface Function {
- method public default java.util.function.Function<T, V> andThen(java.util.function.Function<? super R, ? extends V>);
+ public abstract interface Function<T, R> {
+ method public default <V> java.util.function.Function<T, V> andThen(java.util.function.Function<? super R, ? extends V>);
method public abstract R apply(T);
- method public default java.util.function.Function<V, R> compose(java.util.function.Function<? super V, ? extends T>);
- method public static java.util.function.Function<T, T> identity();
+ method public default <V> java.util.function.Function<V, R> compose(java.util.function.Function<? super V, ? extends T>);
+ method public static <T> java.util.function.Function<T, T> identity();
}
public abstract interface IntBinaryOperator {
method public default java.util.function.IntConsumer andThen(java.util.function.IntConsumer);
}
- public abstract interface IntFunction {
+ public abstract interface IntFunction<R> {
method public abstract R apply(int);
}
method public default java.util.function.LongConsumer andThen(java.util.function.LongConsumer);
}
- public abstract interface LongFunction {
+ public abstract interface LongFunction<R> {
method public abstract R apply(long);
}
method public static java.util.function.LongUnaryOperator identity();
}
- public abstract interface ObjDoubleConsumer {
+ public abstract interface ObjDoubleConsumer<T> {
method public abstract void accept(T, double);
}
- public abstract interface ObjIntConsumer {
+ public abstract interface ObjIntConsumer<T> {
method public abstract void accept(T, int);
}
- public abstract interface ObjLongConsumer {
+ public abstract interface ObjLongConsumer<T> {
method public abstract void accept(T, long);
}
- public abstract interface Predicate {
+ public abstract interface Predicate<T> {
method public default java.util.function.Predicate<T> and(java.util.function.Predicate<? super T>);
- method public static java.util.function.Predicate<T> isEqual(java.lang.Object);
+ method public static <T> java.util.function.Predicate<T> isEqual(java.lang.Object);
method public default java.util.function.Predicate<T> negate();
method public default java.util.function.Predicate<T> or(java.util.function.Predicate<? super T>);
method public abstract boolean test(T);
}
- public abstract interface Supplier {
+ public abstract interface Supplier<T> {
method public abstract T get();
}
- public abstract interface ToDoubleBiFunction {
+ public abstract interface ToDoubleBiFunction<T, U> {
method public abstract double applyAsDouble(T, U);
}
- public abstract interface ToDoubleFunction {
+ public abstract interface ToDoubleFunction<T> {
method public abstract double applyAsDouble(T);
}
- public abstract interface ToIntBiFunction {
+ public abstract interface ToIntBiFunction<T, U> {
method public abstract int applyAsInt(T, U);
}
- public abstract interface ToIntFunction {
+ public abstract interface ToIntFunction<T> {
method public abstract int applyAsInt(T);
}
- public abstract interface ToLongBiFunction {
+ public abstract interface ToLongBiFunction<T, U> {
method public abstract long applyAsLong(T, U);
}
- public abstract interface ToLongFunction {
+ public abstract interface ToLongFunction<T> {
method public abstract long applyAsLong(T);
}
- public abstract interface UnaryOperator implements java.util.function.Function {
- method public static java.util.function.UnaryOperator<T> identity();
+ public abstract interface UnaryOperator<T> implements java.util.function.Function {
+ method public static <T> java.util.function.UnaryOperator<T> identity();
}
}
package java.util.stream {
- public abstract interface BaseStream implements java.lang.AutoCloseable {
+ public abstract interface BaseStream<T, S extends java.util.stream.BaseStream<T, S>> implements java.lang.AutoCloseable {
method public abstract void close();
method public abstract boolean isParallel();
method public abstract java.util.Iterator<T> iterator();
method public abstract S unordered();
}
- public abstract interface Collector {
+ public abstract interface Collector<T, A, R> {
method public abstract java.util.function.BiConsumer<A, T> accumulator();
method public abstract java.util.Set<java.util.stream.Collector.Characteristics> characteristics();
method public abstract java.util.function.BinaryOperator<A> combiner();
method public abstract java.util.function.Function<A, R> finisher();
- method public static java.util.stream.Collector<T, R, R> of(java.util.function.Supplier<R>, java.util.function.BiConsumer<R, T>, java.util.function.BinaryOperator<R>, java.util.stream.Collector.Characteristics...);
- method public static java.util.stream.Collector<T, A, R> of(java.util.function.Supplier<A>, java.util.function.BiConsumer<A, T>, java.util.function.BinaryOperator<A>, java.util.function.Function<A, R>, java.util.stream.Collector.Characteristics...);
+ method public static <T, R> java.util.stream.Collector<T, R, R> of(java.util.function.Supplier<R>, java.util.function.BiConsumer<R, T>, java.util.function.BinaryOperator<R>, java.util.stream.Collector.Characteristics...);
+ method public static <T, A, R> java.util.stream.Collector<T, A, R> of(java.util.function.Supplier<A>, java.util.function.BiConsumer<A, T>, java.util.function.BinaryOperator<A>, java.util.function.Function<A, R>, java.util.stream.Collector.Characteristics...);
method public abstract java.util.function.Supplier<A> supplier();
}
}
public final class Collectors {
- method public static java.util.stream.Collector<T, ?, java.lang.Double> averagingDouble(java.util.function.ToDoubleFunction<? super T>);
- method public static java.util.stream.Collector<T, ?, java.lang.Double> averagingInt(java.util.function.ToIntFunction<? super T>);
- method public static java.util.stream.Collector<T, ?, java.lang.Double> averagingLong(java.util.function.ToLongFunction<? super T>);
- method public static java.util.stream.Collector<T, A, RR> collectingAndThen(java.util.stream.Collector<T, A, R>, java.util.function.Function<R, RR>);
- method public static java.util.stream.Collector<T, ?, java.lang.Long> counting();
- method public static java.util.stream.Collector<T, ?, java.util.Map<K, java.util.List<T>>> groupingBy(java.util.function.Function<? super T, ? extends K>);
- method public static java.util.stream.Collector<T, ?, java.util.Map<K, D>> groupingBy(java.util.function.Function<? super T, ? extends K>, java.util.stream.Collector<? super T, A, D>);
- method public static java.util.stream.Collector<T, ?, M> groupingBy(java.util.function.Function<? super T, ? extends K>, java.util.function.Supplier<M>, java.util.stream.Collector<? super T, A, D>);
- method public static java.util.stream.Collector<T, ?, java.util.concurrent.ConcurrentMap<K, java.util.List<T>>> groupingByConcurrent(java.util.function.Function<? super T, ? extends K>);
- method public static java.util.stream.Collector<T, ?, java.util.concurrent.ConcurrentMap<K, D>> groupingByConcurrent(java.util.function.Function<? super T, ? extends K>, java.util.stream.Collector<? super T, A, D>);
- method public static java.util.stream.Collector<T, ?, M> groupingByConcurrent(java.util.function.Function<? super T, ? extends K>, java.util.function.Supplier<M>, java.util.stream.Collector<? super T, A, D>);
+ method public static <T> java.util.stream.Collector<T, ?, java.lang.Double> averagingDouble(java.util.function.ToDoubleFunction<? super T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.lang.Double> averagingInt(java.util.function.ToIntFunction<? super T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.lang.Double> averagingLong(java.util.function.ToLongFunction<? super T>);
+ method public static <T, A, R, RR> java.util.stream.Collector<T, A, RR> collectingAndThen(java.util.stream.Collector<T, A, R>, java.util.function.Function<R, RR>);
+ method public static <T> java.util.stream.Collector<T, ?, java.lang.Long> counting();
+ method public static <T, K> java.util.stream.Collector<T, ?, java.util.Map<K, java.util.List<T>>> groupingBy(java.util.function.Function<? super T, ? extends K>);
+ method public static <T, K, A, D> java.util.stream.Collector<T, ?, java.util.Map<K, D>> groupingBy(java.util.function.Function<? super T, ? extends K>, java.util.stream.Collector<? super T, A, D>);
+ method public static <T, K, D, A, M extends java.util.Map<K, D>> java.util.stream.Collector<T, ?, M> groupingBy(java.util.function.Function<? super T, ? extends K>, java.util.function.Supplier<M>, java.util.stream.Collector<? super T, A, D>);
+ method public static <T, K> java.util.stream.Collector<T, ?, java.util.concurrent.ConcurrentMap<K, java.util.List<T>>> groupingByConcurrent(java.util.function.Function<? super T, ? extends K>);
+ method public static <T, K, A, D> java.util.stream.Collector<T, ?, java.util.concurrent.ConcurrentMap<K, D>> groupingByConcurrent(java.util.function.Function<? super T, ? extends K>, java.util.stream.Collector<? super T, A, D>);
+ method public static <T, K, A, D, M extends java.util.concurrent.ConcurrentMap<K, D>> java.util.stream.Collector<T, ?, M> groupingByConcurrent(java.util.function.Function<? super T, ? extends K>, java.util.function.Supplier<M>, java.util.stream.Collector<? super T, A, D>);
method public static java.util.stream.Collector<java.lang.CharSequence, ?, java.lang.String> joining();
method public static java.util.stream.Collector<java.lang.CharSequence, ?, java.lang.String> joining(java.lang.CharSequence);
method public static java.util.stream.Collector<java.lang.CharSequence, ?, java.lang.String> joining(java.lang.CharSequence, java.lang.CharSequence, java.lang.CharSequence);
- method public static java.util.stream.Collector<T, ?, R> mapping(java.util.function.Function<? super T, ? extends U>, java.util.stream.Collector<? super U, A, R>);
- method public static java.util.stream.Collector<T, ?, java.util.Optional<T>> maxBy(java.util.Comparator<? super T>);
- method public static java.util.stream.Collector<T, ?, java.util.Optional<T>> minBy(java.util.Comparator<? super T>);
- method public static java.util.stream.Collector<T, ?, java.util.Map<java.lang.Boolean, java.util.List<T>>> partitioningBy(java.util.function.Predicate<? super T>);
- method public static java.util.stream.Collector<T, ?, java.util.Map<java.lang.Boolean, D>> partitioningBy(java.util.function.Predicate<? super T>, java.util.stream.Collector<? super T, A, D>);
- method public static java.util.stream.Collector<T, ?, T> reducing(T, java.util.function.BinaryOperator<T>);
- method public static java.util.stream.Collector<T, ?, java.util.Optional<T>> reducing(java.util.function.BinaryOperator<T>);
- method public static java.util.stream.Collector<T, ?, U> reducing(U, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>);
- method public static java.util.stream.Collector<T, ?, java.util.DoubleSummaryStatistics> summarizingDouble(java.util.function.ToDoubleFunction<? super T>);
- method public static java.util.stream.Collector<T, ?, java.util.IntSummaryStatistics> summarizingInt(java.util.function.ToIntFunction<? super T>);
- method public static java.util.stream.Collector<T, ?, java.util.LongSummaryStatistics> summarizingLong(java.util.function.ToLongFunction<? super T>);
- method public static java.util.stream.Collector<T, ?, java.lang.Double> summingDouble(java.util.function.ToDoubleFunction<? super T>);
- method public static java.util.stream.Collector<T, ?, java.lang.Integer> summingInt(java.util.function.ToIntFunction<? super T>);
- method public static java.util.stream.Collector<T, ?, java.lang.Long> summingLong(java.util.function.ToLongFunction<? super T>);
- method public static java.util.stream.Collector<T, ?, C> toCollection(java.util.function.Supplier<C>);
- method public static java.util.stream.Collector<T, ?, java.util.concurrent.ConcurrentMap<K, U>> toConcurrentMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>);
- method public static java.util.stream.Collector<T, ?, java.util.concurrent.ConcurrentMap<K, U>> toConcurrentMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>);
- method public static java.util.stream.Collector<T, ?, M> toConcurrentMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>, java.util.function.Supplier<M>);
- method public static java.util.stream.Collector<T, ?, java.util.List<T>> toList();
- method public static java.util.stream.Collector<T, ?, java.util.Map<K, U>> toMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>);
- method public static java.util.stream.Collector<T, ?, java.util.Map<K, U>> toMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>);
- method public static java.util.stream.Collector<T, ?, M> toMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>, java.util.function.Supplier<M>);
- method public static java.util.stream.Collector<T, ?, java.util.Set<T>> toSet();
+ method public static <T, U, A, R> java.util.stream.Collector<T, ?, R> mapping(java.util.function.Function<? super T, ? extends U>, java.util.stream.Collector<? super U, A, R>);
+ method public static <T> java.util.stream.Collector<T, ?, java.util.Optional<T>> maxBy(java.util.Comparator<? super T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.util.Optional<T>> minBy(java.util.Comparator<? super T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.util.Map<java.lang.Boolean, java.util.List<T>>> partitioningBy(java.util.function.Predicate<? super T>);
+ method public static <T, D, A> java.util.stream.Collector<T, ?, java.util.Map<java.lang.Boolean, D>> partitioningBy(java.util.function.Predicate<? super T>, java.util.stream.Collector<? super T, A, D>);
+ method public static <T> java.util.stream.Collector<T, ?, T> reducing(T, java.util.function.BinaryOperator<T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.util.Optional<T>> reducing(java.util.function.BinaryOperator<T>);
+ method public static <T, U> java.util.stream.Collector<T, ?, U> reducing(U, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>);
+ method public static <T> java.util.stream.Collector<T, ?, java.util.DoubleSummaryStatistics> summarizingDouble(java.util.function.ToDoubleFunction<? super T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.util.IntSummaryStatistics> summarizingInt(java.util.function.ToIntFunction<? super T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.util.LongSummaryStatistics> summarizingLong(java.util.function.ToLongFunction<? super T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.lang.Double> summingDouble(java.util.function.ToDoubleFunction<? super T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.lang.Integer> summingInt(java.util.function.ToIntFunction<? super T>);
+ method public static <T> java.util.stream.Collector<T, ?, java.lang.Long> summingLong(java.util.function.ToLongFunction<? super T>);
+ method public static <T, C extends java.util.Collection<T>> java.util.stream.Collector<T, ?, C> toCollection(java.util.function.Supplier<C>);
+ method public static <T, K, U> java.util.stream.Collector<T, ?, java.util.concurrent.ConcurrentMap<K, U>> toConcurrentMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>);
+ method public static <T, K, U> java.util.stream.Collector<T, ?, java.util.concurrent.ConcurrentMap<K, U>> toConcurrentMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>);
+ method public static <T, K, U, M extends java.util.concurrent.ConcurrentMap<K, U>> java.util.stream.Collector<T, ?, M> toConcurrentMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>, java.util.function.Supplier<M>);
+ method public static <T> java.util.stream.Collector<T, ?, java.util.List<T>> toList();
+ method public static <T, K, U> java.util.stream.Collector<T, ?, java.util.Map<K, U>> toMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>);
+ method public static <T, K, U> java.util.stream.Collector<T, ?, java.util.Map<K, U>> toMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>);
+ method public static <T, K, U, M extends java.util.Map<K, U>> java.util.stream.Collector<T, ?, M> toMap(java.util.function.Function<? super T, ? extends K>, java.util.function.Function<? super T, ? extends U>, java.util.function.BinaryOperator<U>, java.util.function.Supplier<M>);
+ method public static <T> java.util.stream.Collector<T, ?, java.util.Set<T>> toSet();
}
public abstract interface DoubleStream implements java.util.stream.BaseStream {
method public abstract java.util.OptionalDouble average();
method public abstract java.util.stream.Stream<java.lang.Double> boxed();
method public static java.util.stream.DoubleStream.Builder builder();
- method public abstract R collect(java.util.function.Supplier<R>, java.util.function.ObjDoubleConsumer<R>, java.util.function.BiConsumer<R, R>);
+ method public abstract <R> R collect(java.util.function.Supplier<R>, java.util.function.ObjDoubleConsumer<R>, java.util.function.BiConsumer<R, R>);
method public static java.util.stream.DoubleStream concat(java.util.stream.DoubleStream, java.util.stream.DoubleStream);
method public abstract long count();
method public abstract java.util.stream.DoubleStream distinct();
method public abstract java.util.stream.DoubleStream map(java.util.function.DoubleUnaryOperator);
method public abstract java.util.stream.IntStream mapToInt(java.util.function.DoubleToIntFunction);
method public abstract java.util.stream.LongStream mapToLong(java.util.function.DoubleToLongFunction);
- method public abstract java.util.stream.Stream<U> mapToObj(java.util.function.DoubleFunction<? extends U>);
+ method public abstract <U> java.util.stream.Stream<U> mapToObj(java.util.function.DoubleFunction<? extends U>);
method public abstract java.util.OptionalDouble max();
method public abstract java.util.OptionalDouble min();
method public abstract boolean noneMatch(java.util.function.DoublePredicate);
method public abstract java.util.OptionalDouble average();
method public abstract java.util.stream.Stream<java.lang.Integer> boxed();
method public static java.util.stream.IntStream.Builder builder();
- method public abstract R collect(java.util.function.Supplier<R>, java.util.function.ObjIntConsumer<R>, java.util.function.BiConsumer<R, R>);
+ method public abstract <R> R collect(java.util.function.Supplier<R>, java.util.function.ObjIntConsumer<R>, java.util.function.BiConsumer<R, R>);
method public static java.util.stream.IntStream concat(java.util.stream.IntStream, java.util.stream.IntStream);
method public abstract long count();
method public abstract java.util.stream.IntStream distinct();
method public abstract java.util.stream.IntStream map(java.util.function.IntUnaryOperator);
method public abstract java.util.stream.DoubleStream mapToDouble(java.util.function.IntToDoubleFunction);
method public abstract java.util.stream.LongStream mapToLong(java.util.function.IntToLongFunction);
- method public abstract java.util.stream.Stream<U> mapToObj(java.util.function.IntFunction<? extends U>);
+ method public abstract <U> java.util.stream.Stream<U> mapToObj(java.util.function.IntFunction<? extends U>);
method public abstract java.util.OptionalInt max();
method public abstract java.util.OptionalInt min();
method public abstract boolean noneMatch(java.util.function.IntPredicate);
method public abstract java.util.OptionalDouble average();
method public abstract java.util.stream.Stream<java.lang.Long> boxed();
method public static java.util.stream.LongStream.Builder builder();
- method public abstract R collect(java.util.function.Supplier<R>, java.util.function.ObjLongConsumer<R>, java.util.function.BiConsumer<R, R>);
+ method public abstract <R> R collect(java.util.function.Supplier<R>, java.util.function.ObjLongConsumer<R>, java.util.function.BiConsumer<R, R>);
method public static java.util.stream.LongStream concat(java.util.stream.LongStream, java.util.stream.LongStream);
method public abstract long count();
method public abstract java.util.stream.LongStream distinct();
method public abstract java.util.stream.LongStream map(java.util.function.LongUnaryOperator);
method public abstract java.util.stream.DoubleStream mapToDouble(java.util.function.LongToDoubleFunction);
method public abstract java.util.stream.IntStream mapToInt(java.util.function.LongToIntFunction);
- method public abstract java.util.stream.Stream<U> mapToObj(java.util.function.LongFunction<? extends U>);
+ method public abstract <U> java.util.stream.Stream<U> mapToObj(java.util.function.LongFunction<? extends U>);
method public abstract java.util.OptionalLong max();
method public abstract java.util.OptionalLong min();
method public abstract boolean noneMatch(java.util.function.LongPredicate);
method public abstract java.util.stream.LongStream build();
}
- public abstract interface Stream implements java.util.stream.BaseStream {
+ public abstract interface Stream<T> implements java.util.stream.BaseStream {
method public abstract boolean allMatch(java.util.function.Predicate<? super T>);
method public abstract boolean anyMatch(java.util.function.Predicate<? super T>);
- method public static java.util.stream.Stream.Builder<T> builder();
- method public abstract R collect(java.util.function.Supplier<R>, java.util.function.BiConsumer<R, ? super T>, java.util.function.BiConsumer<R, R>);
- method public abstract R collect(java.util.stream.Collector<? super T, A, R>);
- method public static java.util.stream.Stream<T> concat(java.util.stream.Stream<? extends T>, java.util.stream.Stream<? extends T>);
+ method public static <T> java.util.stream.Stream.Builder<T> builder();
+ method public abstract <R> R collect(java.util.function.Supplier<R>, java.util.function.BiConsumer<R, ? super T>, java.util.function.BiConsumer<R, R>);
+ method public abstract <R, A> R collect(java.util.stream.Collector<? super T, A, R>);
+ method public static <T> java.util.stream.Stream<T> concat(java.util.stream.Stream<? extends T>, java.util.stream.Stream<? extends T>);
method public abstract long count();
method public abstract java.util.stream.Stream<T> distinct();
- method public static java.util.stream.Stream<T> empty();
+ method public static <T> java.util.stream.Stream<T> empty();
method public abstract java.util.stream.Stream<T> filter(java.util.function.Predicate<? super T>);
method public abstract java.util.Optional<T> findAny();
method public abstract java.util.Optional<T> findFirst();
- method public abstract java.util.stream.Stream<R> flatMap(java.util.function.Function<? super T, ? extends java.util.stream.Stream<? extends R>>);
+ method public abstract <R> java.util.stream.Stream<R> flatMap(java.util.function.Function<? super T, ? extends java.util.stream.Stream<? extends R>>);
method public abstract java.util.stream.DoubleStream flatMapToDouble(java.util.function.Function<? super T, ? extends java.util.stream.DoubleStream>);
method public abstract java.util.stream.IntStream flatMapToInt(java.util.function.Function<? super T, ? extends java.util.stream.IntStream>);
method public abstract java.util.stream.LongStream flatMapToLong(java.util.function.Function<? super T, ? extends java.util.stream.LongStream>);
method public abstract void forEach(java.util.function.Consumer<? super T>);
method public abstract void forEachOrdered(java.util.function.Consumer<? super T>);
- method public static java.util.stream.Stream<T> generate(java.util.function.Supplier<T>);
- method public static java.util.stream.Stream<T> iterate(T, java.util.function.UnaryOperator<T>);
+ method public static <T> java.util.stream.Stream<T> generate(java.util.function.Supplier<T>);
+ method public static <T> java.util.stream.Stream<T> iterate(T, java.util.function.UnaryOperator<T>);
method public abstract java.util.stream.Stream<T> limit(long);
- method public abstract java.util.stream.Stream<R> map(java.util.function.Function<? super T, ? extends R>);
+ method public abstract <R> java.util.stream.Stream<R> map(java.util.function.Function<? super T, ? extends R>);
method public abstract java.util.stream.DoubleStream mapToDouble(java.util.function.ToDoubleFunction<? super T>);
method public abstract java.util.stream.IntStream mapToInt(java.util.function.ToIntFunction<? super T>);
method public abstract java.util.stream.LongStream mapToLong(java.util.function.ToLongFunction<? super T>);
method public abstract java.util.Optional<T> max(java.util.Comparator<? super T>);
method public abstract java.util.Optional<T> min(java.util.Comparator<? super T>);
method public abstract boolean noneMatch(java.util.function.Predicate<? super T>);
- method public static java.util.stream.Stream<T> of(T);
- method public static java.util.stream.Stream<T> of(T...);
+ method public static <T> java.util.stream.Stream<T> of(T);
+ method public static <T> java.util.stream.Stream<T> of(T...);
method public abstract java.util.stream.Stream<T> peek(java.util.function.Consumer<? super T>);
method public abstract T reduce(T, java.util.function.BinaryOperator<T>);
method public abstract java.util.Optional<T> reduce(java.util.function.BinaryOperator<T>);
- method public abstract U reduce(U, java.util.function.BiFunction<U, ? super T, U>, java.util.function.BinaryOperator<U>);
+ method public abstract <U> U reduce(U, java.util.function.BiFunction<U, ? super T, U>, java.util.function.BinaryOperator<U>);
method public abstract java.util.stream.Stream<T> skip(long);
method public abstract java.util.stream.Stream<T> sorted();
method public abstract java.util.stream.Stream<T> sorted(java.util.Comparator<? super T>);
method public abstract java.lang.Object[] toArray();
- method public abstract A[] toArray(java.util.function.IntFunction<A[]>);
+ method public abstract <A> A[] toArray(java.util.function.IntFunction<A[]>);
}
- public static abstract interface Stream.Builder implements java.util.function.Consumer {
+ public static abstract interface Stream.Builder<T> implements java.util.function.Consumer {
method public abstract void accept(T);
method public default java.util.stream.Stream.Builder<T> add(T);
method public abstract java.util.stream.Stream<T> build();
method public static java.util.stream.IntStream intStream(java.util.function.Supplier<? extends java.util.Spliterator.OfInt>, int, boolean);
method public static java.util.stream.LongStream longStream(java.util.Spliterator.OfLong, boolean);
method public static java.util.stream.LongStream longStream(java.util.function.Supplier<? extends java.util.Spliterator.OfLong>, int, boolean);
- method public static java.util.stream.Stream<T> stream(java.util.Spliterator<T>, boolean);
- method public static java.util.stream.Stream<T> stream(java.util.function.Supplier<? extends java.util.Spliterator<T>>, int, boolean);
+ method public static <T> java.util.stream.Stream<T> stream(java.util.Spliterator<T>, boolean);
+ method public static <T> java.util.stream.Stream<T> stream(java.util.function.Supplier<? extends java.util.Spliterator<T>>, int, boolean);
}
}
public final class Subject implements java.io.Serializable {
ctor public Subject();
ctor public Subject(boolean, java.util.Set<? extends java.security.Principal>, java.util.Set<?>, java.util.Set<?>);
- method public static T doAs(javax.security.auth.Subject, java.security.PrivilegedAction<T>);
- method public static T doAs(javax.security.auth.Subject, java.security.PrivilegedExceptionAction<T>) throws java.security.PrivilegedActionException;
- method public static T doAsPrivileged(javax.security.auth.Subject, java.security.PrivilegedAction<T>, java.security.AccessControlContext);
- method public static T doAsPrivileged(javax.security.auth.Subject, java.security.PrivilegedExceptionAction<T>, java.security.AccessControlContext) throws java.security.PrivilegedActionException;
+ method public static <T> T doAs(javax.security.auth.Subject, java.security.PrivilegedAction<T>);
+ method public static <T> T doAs(javax.security.auth.Subject, java.security.PrivilegedExceptionAction<T>) throws java.security.PrivilegedActionException;
+ method public static <T> T doAsPrivileged(javax.security.auth.Subject, java.security.PrivilegedAction<T>, java.security.AccessControlContext);
+ method public static <T> T doAsPrivileged(javax.security.auth.Subject, java.security.PrivilegedExceptionAction<T>, java.security.AccessControlContext) throws java.security.PrivilegedActionException;
method public java.util.Set<java.security.Principal> getPrincipals();
- method public java.util.Set<T> getPrincipals(java.lang.Class<T>);
+ method public <T extends java.security.Principal> java.util.Set<T> getPrincipals(java.lang.Class<T>);
method public java.util.Set<java.lang.Object> getPrivateCredentials();
- method public java.util.Set<T> getPrivateCredentials(java.lang.Class<T>);
+ method public <T> java.util.Set<T> getPrivateCredentials(java.lang.Class<T>);
method public java.util.Set<java.lang.Object> getPublicCredentials();
- method public java.util.Set<T> getPublicCredentials(java.lang.Class<T>);
+ method public <T> java.util.Set<T> getPublicCredentials(java.lang.Class<T>);
method public static javax.security.auth.Subject getSubject(java.security.AccessControlContext);
method public boolean isReadOnly();
method public void setReadOnly();