android/app/FragmentTransaction.java - platform/prebuilts/fullsdk/sources/android-30 - Git at Google

 package android.app;

 import android.annotation.AnimatorRes;
 import android.annotation.IdRes;
 import android.annotation.IntDef;
 import android.annotation.Nullable;
 import android.annotation.StringRes;
 import android.annotation.StyleRes;
 import android.os.Bundle;
 import android.view.View;

 import java.lang.annotation.Retention;
 import java.lang.annotation.RetentionPolicy;

 /**
  * API for performing a set of Fragment operations.
  *
  * <div class="special reference">
  * <h3>Developer Guides</h3>
  * <p>For more information about using fragments, read the
  * <a href="{@docRoot}guide/components/fragments.html">Fragments</a> developer
  * guide.</p>
  * </div>
  *
  * @deprecated Use the <a href="{@docRoot}tools/extras/support-library.html">Support Library</a>
  *      {@link android.support.v4.app.FragmentTransaction}
  */
 @Deprecated
 public abstract class FragmentTransaction {
     /**
      * Calls {@link #add(int, Fragment, String)} with a 0 containerViewId.
      */
     public abstract FragmentTransaction add(Fragment fragment, String tag);

     /**
      * Calls {@link #add(int, Fragment, String)} with a null tag.
      */
     public abstract FragmentTransaction add(@IdRes int containerViewId, Fragment fragment);

     /**
      * Add a fragment to the activity state.  This fragment may optionally
      * also have its view (if {@link Fragment#onCreateView Fragment.onCreateView}
      * returns non-null) inserted into a container view of the activity.
      *
      * @param containerViewId Optional identifier of the container this fragment is
      * to be placed in.  If 0, it will not be placed in a container.
      * @param fragment The fragment to be added.  This fragment must not already
      * be added to the activity.
      * @param tag Optional tag name for the fragment, to later retrieve the
      * fragment with {@link FragmentManager#findFragmentByTag(String)
      * FragmentManager.findFragmentByTag(String)}.
      *
      * @return Returns the same FragmentTransaction instance.
      */
     public abstract FragmentTransaction add(@IdRes int containerViewId, Fragment fragment,
             String tag);

     /**
      * Calls {@link #replace(int, Fragment, String)} with a null tag.
      */
     public abstract FragmentTransaction replace(@IdRes int containerViewId, Fragment fragment);

     /**
      * Replace an existing fragment that was added to a container.  This is
      * essentially the same as calling {@link #remove(Fragment)} for all
      * currently added fragments that were added with the same containerViewId
      * and then {@link #add(int, Fragment, String)} with the same arguments
      * given here.
      *
      * @param containerViewId Identifier of the container whose fragment(s) are
      * to be replaced.
      * @param fragment The new fragment to place in the container.
      * @param tag Optional tag name for the fragment, to later retrieve the
      * fragment with {@link FragmentManager#findFragmentByTag(String)
      * FragmentManager.findFragmentByTag(String)}.
      *
      * @return Returns the same FragmentTransaction instance.
      */
     public abstract FragmentTransaction replace(@IdRes int containerViewId, Fragment fragment,
             String tag);

     /**
      * Remove an existing fragment.  If it was added to a container, its view
      * is also removed from that container.
      *
      * @param fragment The fragment to be removed.
      *
      * @return Returns the same FragmentTransaction instance.
      */
     public abstract FragmentTransaction remove(Fragment fragment);

     /**
      * Hides an existing fragment.  This is only relevant for fragments whose
      * views have been added to a container, as this will cause the view to
      * be hidden.
      *
      * @param fragment The fragment to be hidden.
      *
      * @return Returns the same FragmentTransaction instance.
      */
     public abstract FragmentTransaction hide(Fragment fragment);

     /**
      * Shows a previously hidden fragment.  This is only relevant for fragments whose
      * views have been added to a container, as this will cause the view to
      * be shown.
      *
      * @param fragment The fragment to be shown.
      *
      * @return Returns the same FragmentTransaction instance.
      */
     public abstract FragmentTransaction show(Fragment fragment);

     /**
      * Detach the given fragment from the UI.  This is the same state as
      * when it is put on the back stack: the fragment is removed from
      * the UI, however its state is still being actively managed by the
      * fragment manager.  When going into this state its view hierarchy
      * is destroyed.
      *
      * @param fragment The fragment to be detached.
      *
      * @return Returns the same FragmentTransaction instance.
      */
     public abstract FragmentTransaction detach(Fragment fragment);

     /**
      * Re-attach a fragment after it had previously been detached from
      * the UI with {@link #detach(Fragment)}.  This
      * causes its view hierarchy to be re-created, attached to the UI,
      * and displayed.
      *
      * @param fragment The fragment to be attached.
      *
      * @return Returns the same FragmentTransaction instance.
      */
     public abstract FragmentTransaction attach(Fragment fragment);

     /**
      * Set a currently active fragment in this FragmentManager as the primary navigation fragment.
      *
      * <p>The primary navigation fragment's
      * {@link Fragment#getChildFragmentManager() child FragmentManager} will be called first
      * to process delegated navigation actions such as {@link FragmentManager#popBackStack()}
      * if no ID or transaction name is provided to pop to. Navigation operations outside of the
      * fragment system may choose to delegate those actions to the primary navigation fragment
      * as returned by {@link FragmentManager#getPrimaryNavigationFragment()}.</p>
      *
      * <p>The fragment provided must currently be added to the FragmentManager to be set as
      * a primary navigation fragment, or previously added as part of this transaction.</p>
      *
      * @param fragment the fragment to set as the primary navigation fragment
      * @return the same FragmentTransaction instance
      */
     public abstract FragmentTransaction setPrimaryNavigationFragment(Fragment fragment);

     /**
      * @return <code>true</code> if this transaction contains no operations,
      * <code>false</code> otherwise.
      */
     public abstract boolean isEmpty();

     /**
      * Bit mask that is set for all enter transitions.
      */
     public static final int TRANSIT_ENTER_MASK = 0x1000;

     /**
      * Bit mask that is set for all exit transitions.
      */
     public static final int TRANSIT_EXIT_MASK = 0x2000;

     /** Not set up for a transition. */
     public static final int TRANSIT_UNSET = -1;
     /** No animation for transition. */
     public static final int TRANSIT_NONE = 0;
     /** Fragment is being added onto the stack */
     public static final int TRANSIT_FRAGMENT_OPEN = 1 | TRANSIT_ENTER_MASK;
     /** Fragment is being removed from the stack */
     public static final int TRANSIT_FRAGMENT_CLOSE = 2 | TRANSIT_EXIT_MASK;
     /** Fragment should simply fade in or out; that is, no strong navigation associated
      * with it except that it is appearing or disappearing for some reason. */
     public static final int TRANSIT_FRAGMENT_FADE = 3 | TRANSIT_ENTER_MASK;

     /** @hide */
     @IntDef(prefix = { "TRANSIT_" }, value = {
             TRANSIT_NONE,
             TRANSIT_FRAGMENT_OPEN,
             TRANSIT_FRAGMENT_CLOSE,
             TRANSIT_FRAGMENT_FADE
     })
     @Retention(RetentionPolicy.SOURCE)
     public @interface Transit {}

     /**
      * Set specific animation resources to run for the fragments that are
      * entering and exiting in this transaction. These animations will not be
      * played when popping the back stack.
      */
     public abstract FragmentTransaction setCustomAnimations(@AnimatorRes int enter,
             @AnimatorRes int exit);

     /**
      * Set specific animation resources to run for the fragments that are
      * entering and exiting in this transaction. The <code>popEnter</code>
      * and <code>popExit</code> animations will be played for enter/exit
      * operations specifically when popping the back stack.
      */
     public abstract FragmentTransaction setCustomAnimations(@AnimatorRes int enter,
             @AnimatorRes int exit, @AnimatorRes int popEnter, @AnimatorRes int popExit);

     /**
      * Select a standard transition animation for this transaction.  May be
      * one of {@link #TRANSIT_NONE}, {@link #TRANSIT_FRAGMENT_OPEN},
      * {@link #TRANSIT_FRAGMENT_CLOSE}, or {@link #TRANSIT_FRAGMENT_FADE}.
      */
     public abstract FragmentTransaction setTransition(@Transit int transit);

     /**
      * Used with to map a View from a removed or hidden Fragment to a View from a shown
      * or added Fragment.
      * @param sharedElement A View in a disappearing Fragment to match with a View in an
      *                      appearing Fragment.
      * @param name The transitionName for a View in an appearing Fragment to match to the shared
      *             element.
      */
     public abstract FragmentTransaction addSharedElement(View sharedElement, String name);

     /**
      * Set a custom style resource that will be used for resolving transit
      * animations.
      */
     public abstract FragmentTransaction setTransitionStyle(@StyleRes int styleRes);

     /**
      * Add this transaction to the back stack.  This means that the transaction
      * will be remembered after it is committed, and will reverse its operation
      * when later popped off the stack.
      *
      * @param name An optional name for this back stack state, or null.
      */
     public abstract FragmentTransaction addToBackStack(@Nullable String name);

     /**
      * Returns true if this FragmentTransaction is allowed to be added to the back
      * stack. If this method would return false, {@link #addToBackStack(String)}
      * will throw {@link IllegalStateException}.
      *
      * @return True if {@link #addToBackStack(String)} is permitted on this transaction.
      */
     public abstract boolean isAddToBackStackAllowed();

     /**
      * Disallow calls to {@link #addToBackStack(String)}. Any future calls to
      * addToBackStack will throw {@link IllegalStateException}. If addToBackStack
      * has already been called, this method will throw IllegalStateException.
      */
     public abstract FragmentTransaction disallowAddToBackStack();

     /**
      * Set the full title to show as a bread crumb when this transaction
      * is on the back stack, as used by {@link FragmentBreadCrumbs}.
      *
      * @param res A string resource containing the title.
      */
     public abstract FragmentTransaction setBreadCrumbTitle(@StringRes int res);

     /**
      * Like {@link #setBreadCrumbTitle(int)} but taking a raw string; this
      * method is <em>not</em> recommended, as the string can not be changed
      * later if the locale changes.
      */
     public abstract FragmentTransaction setBreadCrumbTitle(CharSequence text);

     /**
      * Set the short title to show as a bread crumb when this transaction
      * is on the back stack, as used by {@link FragmentBreadCrumbs}.
      *
      * @param res A string resource containing the title.
      */
     public abstract FragmentTransaction setBreadCrumbShortTitle(@StringRes int res);

     /**
      * Like {@link #setBreadCrumbShortTitle(int)} but taking a raw string; this
      * method is <em>not</em> recommended, as the string can not be changed
      * later if the locale changes.
      */
     public abstract FragmentTransaction setBreadCrumbShortTitle(CharSequence text);

     /**
      * Sets whether or not to allow optimizing operations within and across
      * transactions. This will remove redundant operations, eliminating
      * operations that cancel. For example, if two transactions are executed
      * together, one that adds a fragment A and the next replaces it with fragment B,
      * the operations will cancel and only fragment B will be added. That means that
      * fragment A may not go through the creation/destruction lifecycle.
      * <p>
      * The side effect of removing redundant operations is that fragments may have state changes
      * out of the expected order. For example, one transaction adds fragment A,
      * a second adds fragment B, then a third removes fragment A. Without removing the redundant
      * operations, fragment B could expect that while it is being created, fragment A will also
      * exist because fragment A will be removed after fragment B was added.
      * With removing redundant operations, fragment B cannot expect fragment A to exist when
      * it has been created because fragment A's add/remove will be optimized out.
      * <p>
      * It can also reorder the state changes of Fragments to allow for better Transitions.
      * Added Fragments may have {@link Fragment#onCreate(Bundle)} called before replaced
      * Fragments have {@link Fragment#onDestroy()} called.
      * <p>
      * The default is {@code false} for applications targeting version
      * versions prior to O and {@code true} for applications targeting O and
      * later.
      *
      * @param reorderingAllowed {@code true} to enable optimizing out redundant operations
      *                          or {@code false} to disable optimizing out redundant
      *                          operations on this transaction.
      */
     public abstract FragmentTransaction setReorderingAllowed(boolean reorderingAllowed);

     /**
      * Add a Runnable to this transaction that will be run after this transaction has
      * been committed. If fragment transactions are {@link #setReorderingAllowed(boolean) optimized}
      * this may be after other subsequent fragment operations have also taken place, or operations
      * in this transaction may have been optimized out due to the presence of a subsequent
      * fragment transaction in the batch.
      *
      *
      * <p>If a transaction is committed using {@link #commitAllowingStateLoss()} this runnable
      * may be executed when the FragmentManager is in a state where new transactions may not
      * be committed without allowing state loss.</p>
      *
      * <p><code>runOnCommit</code> may not be used with transactions
      * {@link #addToBackStack(String) added to the back stack} as Runnables cannot be persisted
      * with back stack state. {@link IllegalStateException} will be thrown if
      * {@link #addToBackStack(String)} has been previously called for this transaction
      * or if it is called after a call to <code>runOnCommit</code>.</p>
      *
      * @param runnable Runnable to add
      * @return this FragmentTransaction
      * @throws IllegalStateException if {@link #addToBackStack(String)} has been called
      */
     public abstract FragmentTransaction runOnCommit(Runnable runnable);

     /**
      * Schedules a commit of this transaction.  The commit does
      * not happen immediately; it will be scheduled as work on the main thread
      * to be done the next time that thread is ready.
      *
      * <p class="note">A transaction can only be committed with this method
      * prior to its containing activity saving its state.  If the commit is
      * attempted after that point, an exception will be thrown.  This is
      * because the state after the commit can be lost if the activity needs to
      * be restored from its state.  See {@link #commitAllowingStateLoss()} for
      * situations where it may be okay to lose the commit.</p>
      *
      * @return Returns the identifier of this transaction's back stack entry,
      * if {@link #addToBackStack(String)} had been called.  Otherwise, returns
      * a negative number.
      */
     public abstract int commit();

     /**
      * Like {@link #commit} but allows the commit to be executed after an
      * activity's state is saved.  This is dangerous because the commit can
      * be lost if the activity needs to later be restored from its state, so
      * this should only be used for cases where it is okay for the UI state
      * to change unexpectedly on the user.
      */
     public abstract int commitAllowingStateLoss();

     /**
      * Commits this transaction synchronously. Any added fragments will be
      * initialized and brought completely to the lifecycle state of their host
      * and any removed fragments will be torn down accordingly before this
      * call returns. Committing a transaction in this way allows fragments
      * to be added as dedicated, encapsulated components that monitor the
      * lifecycle state of their host while providing firmer ordering guarantees
      * around when those fragments are fully initialized and ready. Fragments
      * that manage views will have those views created and attached.
      *
      * <p>Calling <code>commitNow</code> is preferable to calling
      * {@link #commit()} followed by {@link FragmentManager#executePendingTransactions()}
      * as the latter will have the side effect of attempting to commit <em>all</em>
      * currently pending transactions whether that is the desired behavior
      * or not.</p>
      *
      * <p>Transactions committed in this way may not be added to the
      * FragmentManager's back stack, as doing so would break other expected
      * ordering guarantees for other asynchronously committed transactions.
      * This method will throw {@link IllegalStateException} if the transaction
      * previously requested to be added to the back stack with
      * {@link #addToBackStack(String)}.</p>
      *
      * <p class="note">A transaction can only be committed with this method
      * prior to its containing activity saving its state.  If the commit is
      * attempted after that point, an exception will be thrown.  This is
      * because the state after the commit can be lost if the activity needs to
      * be restored from its state.  See {@link #commitAllowingStateLoss()} for
      * situations where it may be okay to lose the commit.</p>
      */
     public abstract void commitNow();

     /**
      * Like {@link #commitNow} but allows the commit to be executed after an
      * activity's state is saved.  This is dangerous because the commit can
      * be lost if the activity needs to later be restored from its state, so
      * this should only be used for cases where it is okay for the UI state
      * to change unexpectedly on the user.
      */
     public abstract void commitNowAllowingStateLoss();
 }
	package android.app;

	import android.annotation.AnimatorRes;
	import android.annotation.IdRes;
	import android.annotation.IntDef;
	import android.annotation.Nullable;
	import android.annotation.StringRes;
	import android.annotation.StyleRes;
	import android.os.Bundle;
	import android.view.View;

	import java.lang.annotation.Retention;
	import java.lang.annotation.RetentionPolicy;

	/**
	* API for performing a set of Fragment operations.
	*
	* <div class="special reference">
	* <h3>Developer Guides</h3>
	* <p>For more information about using fragments, read the
	* <a href="{@docRoot}guide/components/fragments.html">Fragments</a> developer
	* guide.</p>
	* </div>
	*
	* @deprecated Use the <a href="{@docRoot}tools/extras/support-library.html">Support Library</a>
	* {@link android.support.v4.app.FragmentTransaction}
	*/
	@Deprecated
	public abstract class FragmentTransaction {
	/**
	* Calls {@link #add(int, Fragment, String)} with a 0 containerViewId.
	*/
	public abstract FragmentTransaction add(Fragment fragment, String tag);

	/**
	* Calls {@link #add(int, Fragment, String)} with a null tag.
	*/
	public abstract FragmentTransaction add(@IdRes int containerViewId, Fragment fragment);

	/**
	* Add a fragment to the activity state. This fragment may optionally
	* also have its view (if {@link Fragment#onCreateView Fragment.onCreateView}
	* returns non-null) inserted into a container view of the activity.
	*
	* @param containerViewId Optional identifier of the container this fragment is
	* to be placed in. If 0, it will not be placed in a container.
	* @param fragment The fragment to be added. This fragment must not already
	* be added to the activity.
	* @param tag Optional tag name for the fragment, to later retrieve the
	* fragment with {@link FragmentManager#findFragmentByTag(String)
	* FragmentManager.findFragmentByTag(String)}.
	*
	* @return Returns the same FragmentTransaction instance.
	*/
	public abstract FragmentTransaction add(@IdRes int containerViewId, Fragment fragment,
	String tag);

	/**
	* Calls {@link #replace(int, Fragment, String)} with a null tag.
	*/
	public abstract FragmentTransaction replace(@IdRes int containerViewId, Fragment fragment);

	/**
	* Replace an existing fragment that was added to a container. This is
	* essentially the same as calling {@link #remove(Fragment)} for all
	* currently added fragments that were added with the same containerViewId
	* and then {@link #add(int, Fragment, String)} with the same arguments
	* given here.
	*
	* @param containerViewId Identifier of the container whose fragment(s) are
	* to be replaced.
	* @param fragment The new fragment to place in the container.
	* @param tag Optional tag name for the fragment, to later retrieve the
	* fragment with {@link FragmentManager#findFragmentByTag(String)
	* FragmentManager.findFragmentByTag(String)}.
	*
	* @return Returns the same FragmentTransaction instance.
	*/
	public abstract FragmentTransaction replace(@IdRes int containerViewId, Fragment fragment,
	String tag);

	/**
	* Remove an existing fragment. If it was added to a container, its view
	* is also removed from that container.
	*
	* @param fragment The fragment to be removed.
	*
	* @return Returns the same FragmentTransaction instance.
	*/
	public abstract FragmentTransaction remove(Fragment fragment);

	/**
	* Hides an existing fragment. This is only relevant for fragments whose
	* views have been added to a container, as this will cause the view to
	* be hidden.
	*
	* @param fragment The fragment to be hidden.
	*
	* @return Returns the same FragmentTransaction instance.
	*/
	public abstract FragmentTransaction hide(Fragment fragment);

	/**
	* Shows a previously hidden fragment. This is only relevant for fragments whose
	* views have been added to a container, as this will cause the view to
	* be shown.
	*
	* @param fragment The fragment to be shown.
	*
	* @return Returns the same FragmentTransaction instance.
	*/
	public abstract FragmentTransaction show(Fragment fragment);

	/**
	* Detach the given fragment from the UI. This is the same state as
	* when it is put on the back stack: the fragment is removed from
	* the UI, however its state is still being actively managed by the
	* fragment manager. When going into this state its view hierarchy
	* is destroyed.
	*
	* @param fragment The fragment to be detached.
	*
	* @return Returns the same FragmentTransaction instance.
	*/
	public abstract FragmentTransaction detach(Fragment fragment);

	/**
	* Re-attach a fragment after it had previously been detached from
	* the UI with {@link #detach(Fragment)}. This
	* causes its view hierarchy to be re-created, attached to the UI,
	* and displayed.
	*
	* @param fragment The fragment to be attached.
	*
	* @return Returns the same FragmentTransaction instance.
	*/
	public abstract FragmentTransaction attach(Fragment fragment);

	/**
	* Set a currently active fragment in this FragmentManager as the primary navigation fragment.
	*
	* <p>The primary navigation fragment's
	* {@link Fragment#getChildFragmentManager() child FragmentManager} will be called first
	* to process delegated navigation actions such as {@link FragmentManager#popBackStack()}
	* if no ID or transaction name is provided to pop to. Navigation operations outside of the
	* fragment system may choose to delegate those actions to the primary navigation fragment
	* as returned by {@link FragmentManager#getPrimaryNavigationFragment()}.</p>
	*
	* <p>The fragment provided must currently be added to the FragmentManager to be set as
	* a primary navigation fragment, or previously added as part of this transaction.</p>
	*
	* @param fragment the fragment to set as the primary navigation fragment
	* @return the same FragmentTransaction instance
	*/
	public abstract FragmentTransaction setPrimaryNavigationFragment(Fragment fragment);

	/**
	* @return <code>true</code> if this transaction contains no operations,
	* <code>false</code> otherwise.
	*/
	public abstract boolean isEmpty();

	/**
	* Bit mask that is set for all enter transitions.
	*/
	public static final int TRANSIT_ENTER_MASK = 0x1000;

	/**
	* Bit mask that is set for all exit transitions.
	*/
	public static final int TRANSIT_EXIT_MASK = 0x2000;

	/** Not set up for a transition. */
	public static final int TRANSIT_UNSET = -1;
	/** No animation for transition. */
	public static final int TRANSIT_NONE = 0;
	/** Fragment is being added onto the stack */
	public static final int TRANSIT_FRAGMENT_OPEN = 1 \| TRANSIT_ENTER_MASK;
	/** Fragment is being removed from the stack */
	public static final int TRANSIT_FRAGMENT_CLOSE = 2 \| TRANSIT_EXIT_MASK;
	/** Fragment should simply fade in or out; that is, no strong navigation associated
	* with it except that it is appearing or disappearing for some reason. */
	public static final int TRANSIT_FRAGMENT_FADE = 3 \| TRANSIT_ENTER_MASK;

	/** @hide */
	@IntDef(prefix = { "TRANSIT_" }, value = {
	TRANSIT_NONE,
	TRANSIT_FRAGMENT_OPEN,
	TRANSIT_FRAGMENT_CLOSE,
	TRANSIT_FRAGMENT_FADE
	})
	@Retention(RetentionPolicy.SOURCE)
	public @interface Transit {}

	/**
	* Set specific animation resources to run for the fragments that are
	* entering and exiting in this transaction. These animations will not be
	* played when popping the back stack.
	*/
	public abstract FragmentTransaction setCustomAnimations(@AnimatorRes int enter,
	@AnimatorRes int exit);

	/**
	* Set specific animation resources to run for the fragments that are
	* entering and exiting in this transaction. The <code>popEnter</code>
	* and <code>popExit</code> animations will be played for enter/exit
	* operations specifically when popping the back stack.
	*/
	public abstract FragmentTransaction setCustomAnimations(@AnimatorRes int enter,
	@AnimatorRes int exit, @AnimatorRes int popEnter, @AnimatorRes int popExit);

	/**
	* Select a standard transition animation for this transaction. May be
	* one of {@link #TRANSIT_NONE}, {@link #TRANSIT_FRAGMENT_OPEN},
	* {@link #TRANSIT_FRAGMENT_CLOSE}, or {@link #TRANSIT_FRAGMENT_FADE}.
	*/
	public abstract FragmentTransaction setTransition(@Transit int transit);

	/**
	* Used with to map a View from a removed or hidden Fragment to a View from a shown
	* or added Fragment.
	* @param sharedElement A View in a disappearing Fragment to match with a View in an
	* appearing Fragment.
	* @param name The transitionName for a View in an appearing Fragment to match to the shared
	* element.
	*/
	public abstract FragmentTransaction addSharedElement(View sharedElement, String name);

	/**
	* Set a custom style resource that will be used for resolving transit
	* animations.
	*/
	public abstract FragmentTransaction setTransitionStyle(@StyleRes int styleRes);

	/**
	* Add this transaction to the back stack. This means that the transaction
	* will be remembered after it is committed, and will reverse its operation
	* when later popped off the stack.
	*
	* @param name An optional name for this back stack state, or null.
	*/
	public abstract FragmentTransaction addToBackStack(@Nullable String name);

	/**
	* Returns true if this FragmentTransaction is allowed to be added to the back
	* stack. If this method would return false, {@link #addToBackStack(String)}
	* will throw {@link IllegalStateException}.
	*
	* @return True if {@link #addToBackStack(String)} is permitted on this transaction.
	*/
	public abstract boolean isAddToBackStackAllowed();

	/**
	* Disallow calls to {@link #addToBackStack(String)}. Any future calls to
	* addToBackStack will throw {@link IllegalStateException}. If addToBackStack
	* has already been called, this method will throw IllegalStateException.
	*/
	public abstract FragmentTransaction disallowAddToBackStack();

	/**
	* Set the full title to show as a bread crumb when this transaction
	* is on the back stack, as used by {@link FragmentBreadCrumbs}.
	*
	* @param res A string resource containing the title.
	*/
	public abstract FragmentTransaction setBreadCrumbTitle(@StringRes int res);

	/**
	* Like {@link #setBreadCrumbTitle(int)} but taking a raw string; this
	* method is <em>not</em> recommended, as the string can not be changed
	* later if the locale changes.
	*/
	public abstract FragmentTransaction setBreadCrumbTitle(CharSequence text);

	/**
	* Set the short title to show as a bread crumb when this transaction
	* is on the back stack, as used by {@link FragmentBreadCrumbs}.
	*
	* @param res A string resource containing the title.
	*/
	public abstract FragmentTransaction setBreadCrumbShortTitle(@StringRes int res);

	/**
	* Like {@link #setBreadCrumbShortTitle(int)} but taking a raw string; this
	* method is <em>not</em> recommended, as the string can not be changed
	* later if the locale changes.
	*/
	public abstract FragmentTransaction setBreadCrumbShortTitle(CharSequence text);

	/**
	* Sets whether or not to allow optimizing operations within and across
	* transactions. This will remove redundant operations, eliminating
	* operations that cancel. For example, if two transactions are executed
	* together, one that adds a fragment A and the next replaces it with fragment B,
	* the operations will cancel and only fragment B will be added. That means that
	* fragment A may not go through the creation/destruction lifecycle.
	* <p>
	* The side effect of removing redundant operations is that fragments may have state changes
	* out of the expected order. For example, one transaction adds fragment A,
	* a second adds fragment B, then a third removes fragment A. Without removing the redundant
	* operations, fragment B could expect that while it is being created, fragment A will also
	* exist because fragment A will be removed after fragment B was added.
	* With removing redundant operations, fragment B cannot expect fragment A to exist when
	* it has been created because fragment A's add/remove will be optimized out.
	* <p>
	* It can also reorder the state changes of Fragments to allow for better Transitions.
	* Added Fragments may have {@link Fragment#onCreate(Bundle)} called before replaced
	* Fragments have {@link Fragment#onDestroy()} called.
	* <p>
	* The default is {@code false} for applications targeting version
	* versions prior to O and {@code true} for applications targeting O and
	* later.
	*
	* @param reorderingAllowed {@code true} to enable optimizing out redundant operations
	* or {@code false} to disable optimizing out redundant
	* operations on this transaction.
	*/
	public abstract FragmentTransaction setReorderingAllowed(boolean reorderingAllowed);

	/**
	* Add a Runnable to this transaction that will be run after this transaction has
	* been committed. If fragment transactions are {@link #setReorderingAllowed(boolean) optimized}
	* this may be after other subsequent fragment operations have also taken place, or operations
	* in this transaction may have been optimized out due to the presence of a subsequent
	* fragment transaction in the batch.
	*
	*
	* <p>If a transaction is committed using {@link #commitAllowingStateLoss()} this runnable
	* may be executed when the FragmentManager is in a state where new transactions may not
	* be committed without allowing state loss.</p>
	*
	* <p><code>runOnCommit</code> may not be used with transactions
	* {@link #addToBackStack(String) added to the back stack} as Runnables cannot be persisted
	* with back stack state. {@link IllegalStateException} will be thrown if
	* {@link #addToBackStack(String)} has been previously called for this transaction
	* or if it is called after a call to <code>runOnCommit</code>.</p>
	*
	* @param runnable Runnable to add
	* @return this FragmentTransaction
	* @throws IllegalStateException if {@link #addToBackStack(String)} has been called
	*/
	public abstract FragmentTransaction runOnCommit(Runnable runnable);

	/**
	* Schedules a commit of this transaction. The commit does
	* not happen immediately; it will be scheduled as work on the main thread
	* to be done the next time that thread is ready.
	*
	* <p class="note">A transaction can only be committed with this method
	* prior to its containing activity saving its state. If the commit is
	* attempted after that point, an exception will be thrown. This is
	* because the state after the commit can be lost if the activity needs to
	* be restored from its state. See {@link #commitAllowingStateLoss()} for
	* situations where it may be okay to lose the commit.</p>
	*
	* @return Returns the identifier of this transaction's back stack entry,
	* if {@link #addToBackStack(String)} had been called. Otherwise, returns
	* a negative number.
	*/
	public abstract int commit();

	/**
	* Like {@link #commit} but allows the commit to be executed after an
	* activity's state is saved. This is dangerous because the commit can
	* be lost if the activity needs to later be restored from its state, so
	* this should only be used for cases where it is okay for the UI state
	* to change unexpectedly on the user.
	*/
	public abstract int commitAllowingStateLoss();

	/**
	* Commits this transaction synchronously. Any added fragments will be
	* initialized and brought completely to the lifecycle state of their host
	* and any removed fragments will be torn down accordingly before this
	* call returns. Committing a transaction in this way allows fragments
	* to be added as dedicated, encapsulated components that monitor the
	* lifecycle state of their host while providing firmer ordering guarantees
	* around when those fragments are fully initialized and ready. Fragments
	* that manage views will have those views created and attached.
	*
	* <p>Calling <code>commitNow</code> is preferable to calling
	* {@link #commit()} followed by {@link FragmentManager#executePendingTransactions()}
	* as the latter will have the side effect of attempting to commit <em>all</em>
	* currently pending transactions whether that is the desired behavior
	* or not.</p>
	*
	* <p>Transactions committed in this way may not be added to the
	* FragmentManager's back stack, as doing so would break other expected
	* ordering guarantees for other asynchronously committed transactions.
	* This method will throw {@link IllegalStateException} if the transaction
	* previously requested to be added to the back stack with
	* {@link #addToBackStack(String)}.</p>
	*
	* <p class="note">A transaction can only be committed with this method
	* prior to its containing activity saving its state. If the commit is
	* attempted after that point, an exception will be thrown. This is
	* because the state after the commit can be lost if the activity needs to
	* be restored from its state. See {@link #commitAllowingStateLoss()} for
	* situations where it may be okay to lose the commit.</p>
	*/
	public abstract void commitNow();

	/**
	* Like {@link #commitNow} but allows the commit to be executed after an
	* activity's state is saved. This is dangerous because the commit can
	* be lost if the activity needs to later be restored from its state, so
	* this should only be used for cases where it is okay for the UI state
	* to change unexpectedly on the user.
	*/
	public abstract void commitNowAllowingStateLoss();
	}