/*
* Copyright (C) 2006 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.widget;
import com.android.internal.R;
import android.content.Context;
import android.content.res.TypedArray;
import android.graphics.Canvas;
import android.graphics.Rect;
import android.graphics.drawable.Drawable;
import android.os.Parcel;
import android.os.Parcelable;
import android.util.AttributeSet;
import android.view.ContextMenu;
import android.view.SoundEffectConstants;
import android.view.View;
import android.view.ContextMenu.ContextMenuInfo;
import android.widget.ExpandableListConnector.PositionMetadata;
import java.util.ArrayList;
import static android.os.Build.VERSION_CODES.JELLY_BEAN_MR1;
/**
* A view that shows items in a vertically scrolling two-level list. This
* differs from the {@link ListView} by allowing two levels: groups which can
* individually be expanded to show its children. The items come from the
* {@link ExpandableListAdapter} associated with this view.
* <p>
* Expandable lists are able to show an indicator beside each item to display
* the item's current state (the states are usually one of expanded group,
* collapsed group, child, or last child). Use
* {@link #setChildIndicator(Drawable)} or {@link #setGroupIndicator(Drawable)}
* (or the corresponding XML attributes) to set these indicators (see the docs
* for each method to see additional state that each Drawable can have). The
* default style for an {@link ExpandableListView} provides indicators which
* will be shown next to Views given to the {@link ExpandableListView}. The
* layouts android.R.layout.simple_expandable_list_item_1 and
* android.R.layout.simple_expandable_list_item_2 (which should be used with
* {@link SimpleCursorTreeAdapter}) contain the preferred position information
* for indicators.
* <p>
* The context menu information set by an {@link ExpandableListView} will be a
* {@link ExpandableListContextMenuInfo} object with
* {@link ExpandableListContextMenuInfo#packedPosition} being a packed position
* that can be used with {@link #getPackedPositionType(long)} and the other
* similar methods.
* <p>
* <em><b>Note:</b></em> You cannot use the value <code>wrap_content</code>
* for the <code>android:layout_height</code> attribute of a
* ExpandableListView in XML if the parent's size is also not strictly specified
* (for example, if the parent were ScrollView you could not specify
* wrap_content since it also can be any length. However, you can use
* wrap_content if the ExpandableListView parent has a specific size, such as
* 100 pixels.
*
* @attr ref android.R.styleable#ExpandableListView_groupIndicator
* @attr ref android.R.styleable#ExpandableListView_indicatorLeft
* @attr ref android.R.styleable#ExpandableListView_indicatorRight
* @attr ref android.R.styleable#ExpandableListView_childIndicator
* @attr ref android.R.styleable#ExpandableListView_childIndicatorLeft
* @attr ref android.R.styleable#ExpandableListView_childIndicatorRight
* @attr ref android.R.styleable#ExpandableListView_childDivider
* @attr ref android.R.styleable#ExpandableListView_indicatorStart
* @attr ref android.R.styleable#ExpandableListView_indicatorEnd
* @attr ref android.R.styleable#ExpandableListView_childIndicatorStart
* @attr ref android.R.styleable#ExpandableListView_childIndicatorEnd
*/
public class ExpandableListView extends ListView {
/**
* The packed position represents a group.
*/
public static final int PACKED_POSITION_TYPE_GROUP = 0;
/**
* The packed position represents a child.
*/
public static final int PACKED_POSITION_TYPE_CHILD = 1;
/**
* The packed position represents a neither/null/no preference.
*/
public static final int PACKED_POSITION_TYPE_NULL = 2;
/**
* The value for a packed position that represents neither/null/no
* preference. This value is not otherwise possible since a group type
* (first bit 0) should not have a child position filled.
*/
public static final long PACKED_POSITION_VALUE_NULL = 0x00000000FFFFFFFFL;
/** The mask (in packed position representation) for the child */
private static final long PACKED_POSITION_MASK_CHILD = 0x00000000FFFFFFFFL;
/** The mask (in packed position representation) for the group */
private static final long PACKED_POSITION_MASK_GROUP = 0x7FFFFFFF00000000L;
/** The mask (in packed position representation) for the type */
private static final long PACKED_POSITION_MASK_TYPE = 0x8000000000000000L;
/** The shift amount (in packed position representation) for the group */
private static final long PACKED_POSITION_SHIFT_GROUP = 32;
/** The shift amount (in packed position representation) for the type */
private static final long PACKED_POSITION_SHIFT_TYPE = 63;
/** The mask (in integer child position representation) for the child */
private static final long PACKED_POSITION_INT_MASK_CHILD = 0xFFFFFFFF;
/** The mask (in integer group position representation) for the group */
private static final long PACKED_POSITION_INT_MASK_GROUP = 0x7FFFFFFF;
/** Serves as the glue/translator between a ListView and an ExpandableListView */
private ExpandableListConnector mConnector;
/** Gives us Views through group+child positions */
private ExpandableListAdapter mAdapter;
/** Left bound for drawing the indicator. */
private int mIndicatorLeft;
/** Right bound for drawing the indicator. */
private int mIndicatorRight;
/** Start bound for drawing the indicator. */
private int mIndicatorStart;
/** End bound for drawing the indicator. */
private int mIndicatorEnd;
/**
* Left bound for drawing the indicator of a child. Value of
* {@link #CHILD_INDICATOR_INHERIT} means use mIndicatorLeft.
*/
private int mChildIndicatorLeft;
/**
* Right bound for drawing the indicator of a child. Value of
* {@link #CHILD_INDICATOR_INHERIT} means use mIndicatorRight.
*/
private int mChildIndicatorRight;
/**
* Start bound for drawing the indicator of a child. Value of
* {@link #CHILD_INDICATOR_INHERIT} means use mIndicatorStart.
*/
private int mChildIndicatorStart;
/**
* End bound for drawing the indicator of a child. Value of
* {@link #CHILD_INDICATOR_INHERIT} means use mIndicatorEnd.
*/
private int mChildIndicatorEnd;
/**
* Denotes when a child indicator should inherit this bound from the generic
* indicator bounds
*/
public static final int CHILD_INDICATOR_INHERIT = -1;
/**
* Denotes an undefined value for an indicator
*/
private static final int INDICATOR_UNDEFINED = -2;
/** The indicator drawn next to a group. */
private Drawable mGroupIndicator;
/** The indicator drawn next to a child. */
private Drawable mChildIndicator;
private static final int[] EMPTY_STATE_SET = {};
/** State indicating the group is expanded. */
private static final int[] GROUP_EXPANDED_STATE_SET =
{R.attr.state_expanded};
/** State indicating the group is empty (has no children). */
private static final int[] GROUP_EMPTY_STATE_SET =
{R.attr.state_empty};
/** State indicating the group is expanded and empty (has no children). */
private static final int[] GROUP_EXPANDED_EMPTY_STATE_SET =
{R.attr.state_expanded, R.attr.state_empty};
/** States for the group where the 0th bit is expanded and 1st bit is empty. */
private static final int[][] GROUP_STATE_SETS = {
EMPTY_STATE_SET, // 00
GROUP_EXPANDED_STATE_SET, // 01
GROUP_EMPTY_STATE_SET, // 10
GROUP_EXPANDED_EMPTY_STATE_SET // 11
};
/** State indicating the child is the last within its group. */
private static final int[] CHILD_LAST_STATE_SET =
{R.attr.state_last};
/** Drawable to be used as a divider when it is adjacent to any children */
private Drawable mChildDivider;
// Bounds of the indicator to be drawn
private final Rect mIndicatorRect = new Rect();
public ExpandableListView(Context context) {
this(context, null);
}
public ExpandableListView(Context context, AttributeSet attrs) {
this(context, attrs, com.android.internal.R.attr.expandableListViewStyle);
}
public ExpandableListView(Context context, AttributeSet attrs, int defStyleAttr) {
this(context, attrs, defStyleAttr, 0);
}
public ExpandableListView(
Context context, AttributeSet attrs, int defStyleAttr, int defStyleRes) {
super(context, attrs, defStyleAttr, defStyleRes);
final TypedArray a = context.obtainStyledAttributes(attrs,
com.android.internal.R.styleable.ExpandableListView, defStyleAttr, defStyleRes);
mGroupIndicator = a.getDrawable(
com.android.internal.R.styleable.ExpandableListView_groupIndicator);
mChildIndicator = a.getDrawable(
com.android.internal.R.styleable.ExpandableListView_childIndicator);
mIndicatorLeft = a.getDimensionPixelSize(
com.android.internal.R.styleable.ExpandableListView_indicatorLeft, 0);
mIndicatorRight = a.getDimensionPixelSize(
com.android.internal.R.styleable.ExpandableListView_indicatorRight, 0);
if (mIndicatorRight == 0 && mGroupIndicator != null) {
mIndicatorRight = mIndicatorLeft + mGroupIndicator.getIntrinsicWidth();
}
mChildIndicatorLeft = a.getDimensionPixelSize(
com.android.internal.R.styleable.ExpandableListView_childIndicatorLeft,
CHILD_INDICATOR_INHERIT);
mChildIndicatorRight = a.getDimensionPixelSize(
com.android.internal.R.styleable.ExpandableListView_childIndicatorRight,
CHILD_INDICATOR_INHERIT);
mChildDivider = a.getDrawable(
com.android.internal.R.styleable.ExpandableListView_childDivider);
if (!isRtlCompatibilityMode()) {
mIndicatorStart = a.getDimensionPixelSize(
com.android.internal.R.styleable.ExpandableListView_indicatorStart,
INDICATOR_UNDEFINED);
mIndicatorEnd = a.getDimensionPixelSize(
com.android.internal.R.styleable.ExpandableListView_indicatorEnd,
INDICATOR_UNDEFINED);
mChildIndicatorStart = a.getDimensionPixelSize(
com.android.internal.R.styleable.ExpandableListView_childIndicatorStart,
CHILD_INDICATOR_INHERIT);
mChildIndicatorEnd = a.getDimensionPixelSize(
com.android.internal.R.styleable.ExpandableListView_childIndicatorEnd,
CHILD_INDICATOR_INHERIT);
}
a.recycle();
}
/**
* Return true if we are in RTL compatibility mode (either before Jelly Bean MR1 or
* RTL not supported)
*/
private boolean isRtlCompatibilityMode() {
final int targetSdkVersion = mContext.getApplicationInfo().targetSdkVersion;
return targetSdkVersion < JELLY_BEAN_MR1 || !hasRtlSupport();
}
/**
* Return true if the application tag in the AndroidManifest has set "supportRtl" to true
*/
private boolean hasRtlSupport() {
return mContext.getApplicationInfo().hasRtlSupport();
}
public void onRtlPropertiesChanged(int layoutDirection) {
resolveIndicator();
resolveChildIndicator();
}
/**
* Resolve start/end indicator. start/end indicator always takes precedence over left/right
* indicator when defined.
*/
private void resolveIndicator() {
final boolean isLayoutRtl = isLayoutRtl();
if (isLayoutRtl) {
if (mIndicatorStart >= 0) {
mIndicatorRight = mIndicatorStart;
}
if (mIndicatorEnd >= 0) {
mIndicatorLeft = mIndicatorEnd;
}
} else {
if (mIndicatorStart >= 0) {
mIndicatorLeft = mIndicatorStart;
}
if (mIndicatorEnd >= 0) {
mIndicatorRight = mIndicatorEnd;
}
}
if (mIndicatorRight == 0 && mGroupIndicator != null) {
mIndicatorRight = mIndicatorLeft + mGroupIndicator.getIntrinsicWidth();
}
}
/**
* Resolve start/end child indicator. start/end child indicator always takes precedence over
* left/right child indicator when defined.
*/
private void resolveChildIndicator() {
final boolean isLayoutRtl = isLayoutRtl();
if (isLayoutRtl) {
if (mChildIndicatorStart >= CHILD_INDICATOR_INHERIT) {
mChildIndicatorRight = mChildIndicatorStart;
}
if (mChildIndicatorEnd >= CHILD_INDICATOR_INHERIT) {
mChildIndicatorLeft = mChildIndicatorEnd;
}
} else {
if (mChildIndicatorStart >= CHILD_INDICATOR_INHERIT) {
mChildIndicatorLeft = mChildIndicatorStart;
}
if (mChildIndicatorEnd >= CHILD_INDICATOR_INHERIT) {
mChildIndicatorRight = mChildIndicatorEnd;
}
}
}
@Override
protected void dispatchDraw(Canvas canvas) {
// Draw children, etc.
super.dispatchDraw(canvas);
// If we have any indicators to draw, we do it here
if ((mChildIndicator == null) && (mGroupIndicator == null)) {
return;
}
int saveCount = 0;
final boolean clipToPadding = (mGroupFlags & CLIP_TO_PADDING_MASK) == CLIP_TO_PADDING_MASK;
if (clipToPadding) {
saveCount = canvas.save();
final int scrollX = mScrollX;
final int scrollY = mScrollY;
canvas.clipRect(scrollX + mPaddingLeft, scrollY + mPaddingTop,
scrollX + mRight - mLeft - mPaddingRight,
scrollY + mBottom - mTop - mPaddingBottom);
}
final int headerViewsCount = getHeaderViewsCount();
final int lastChildFlPos = mItemCount - getFooterViewsCount() - headerViewsCount - 1;
final int myB = mBottom;
PositionMetadata pos;
View item;
Drawable indicator;
int t, b;
// Start at a value that is neither child nor group
int lastItemType = ~(ExpandableListPosition.CHILD | ExpandableListPosition.GROUP);
final Rect indicatorRect = mIndicatorRect;
// The "child" mentioned in the following two lines is this
// View's child, not referring to an expandable list's
// notion of a child (as opposed to a group)
final int childCount = getChildCount();
for (int i = 0, childFlPos = mFirstPosition - headerViewsCount; i < childCount;
i++, childFlPos++) {
if (childFlPos < 0) {
// This child is header
continue;
} else if (childFlPos > lastChildFlPos) {
// This child is footer, so are all subsequent children
break;
}
item = getChildAt(i);
t = item.getTop();
b = item.getBottom();
// This item isn't on the screen
if ((b < 0) || (t > myB)) continue;
// Get more expandable list-related info for this item
pos = mConnector.getUnflattenedPos(childFlPos);
final boolean isLayoutRtl = isLayoutRtl();
final int width = getWidth();
// If this item type and the previous item type are different, then we need to change
// the left & right bounds
if (pos.position.type != lastItemType) {
if (pos.position.type == ExpandableListPosition.CHILD) {
indicatorRect.left = (mChildIndicatorLeft == CHILD_INDICATOR_INHERIT) ?
mIndicatorLeft : mChildIndicatorLeft;
indicatorRect.right = (mChildIndicatorRight == CHILD_INDICATOR_INHERIT) ?
mIndicatorRight : mChildIndicatorRight;
} else {
indicatorRect.left = mIndicatorLeft;
indicatorRect.right = mIndicatorRight;
}
if (isLayoutRtl) {
final int temp = indicatorRect.left;
indicatorRect.left = width - indicatorRect.right;
indicatorRect.right = width - temp;
indicatorRect.left -= mPaddingRight;
indicatorRect.right -= mPaddingRight;
} else {
indicatorRect.left += mPaddingLeft;
indicatorRect.right += mPaddingLeft;
}
lastItemType = pos.position.type;
}
if (indicatorRect.left != indicatorRect.right) {
// Use item's full height + the divider height
if (mStackFromBottom) {
// See ListView#dispatchDraw
indicatorRect.top = t;// - mDividerHeight;
indicatorRect.bottom = b;
} else {
indicatorRect.top = t;
indicatorRect.bottom = b;// + mDividerHeight;
}
// Get the indicator (with its state set to the item's state)
indicator = getIndicator(pos);
if (indicator != null) {
// Draw the indicator
indicator.setBounds(indicatorRect);
indicator.draw(canvas);
}
}
pos.recycle();
}
if (clipToPadding) {
canvas.restoreToCount(saveCount);
}
}
/**
* Gets the indicator for the item at the given position. If the indicator
* is stateful, the state will be given to the indicator.
*
* @param pos The flat list position of the item whose indicator
* should be returned.
* @return The indicator in the proper state.
*/
private Drawable getIndicator(PositionMetadata pos) {
Drawable indicator;
if (pos.position.type == ExpandableListPosition.GROUP) {
indicator = mGroupIndicator;
if (indicator != null && indicator.isStateful()) {
// Empty check based on availability of data. If the groupMetadata isn't null,
// we do a check on it. Otherwise, the group is collapsed so we consider it
// empty for performance reasons.
boolean isEmpty = (pos.groupMetadata == null) ||
(pos.groupMetadata.lastChildFlPos == pos.groupMetadata.flPos);
final int stateSetIndex =
(pos.isExpanded() ? 1 : 0) | // Expanded?
(isEmpty ? 2 : 0); // Empty?
indicator.setState(GROUP_STATE_SETS[stateSetIndex]);
}
} else {
indicator = mChildIndicator;
if (indicator != null && indicator.isStateful()) {
// No need for a state sets array for the child since it only has two states
final int stateSet[] = pos.position.flatListPos == pos.groupMetadata.lastChildFlPos
? CHILD_LAST_STATE_SET
: EMPTY_STATE_SET;
indicator.setState(stateSet);
}
}
return indicator;
}
/**
* Sets the drawable that will be drawn adjacent to every child in the list. This will
* be drawn using the same height as the normal divider ({@link #setDivider(Drawable)}) or
* if it does not have an intrinsic height, the height set by {@link #setDividerHeight(int)}.
*
* @param childDivider The drawable to use.
*/
public void setChildDivider(Drawable childDivider) {
mChildDivider = childDivider;
}
@Override
void drawDivider(Canvas canvas, Rect bounds, int childIndex) {
int flatListPosition = childIndex + mFirstPosition;
// Only proceed as possible child if the divider isn't above all items (if it is above
// all items, then the item below it has to be a group)
if (flatListPosition >= 0) {
final int adjustedPosition = getFlatPositionForConnector(flatListPosition);
PositionMetadata pos = mConnector.getUnflattenedPos(adjustedPosition);
// If this item is a child, or it is a non-empty group that is expanded
if ((pos.position.type == ExpandableListPosition.CHILD) || (pos.isExpanded() &&
pos.groupMetadata.lastChildFlPos != pos.groupMetadata.flPos)) {
// These are the cases where we draw the child divider
final Drawable divider = mChildDivider;
divider.setBounds(bounds);
divider.draw(canvas);
pos.recycle();
return;
}
pos.recycle();
}
// Otherwise draw the default divider
super.drawDivider(canvas, bounds, flatListPosition);
}
/**
* This overloaded method should not be used, instead use
* {@link #setAdapter(ExpandableListAdapter)}.
* <p>
* {@inheritDoc}
*/
@Override
public void setAdapter(ListAdapter adapter) {
throw new RuntimeException(
"For ExpandableListView, use setAdapter(ExpandableListAdapter) instead of " +
"setAdapter(ListAdapter)");
}
/**
* This method should not be used, use {@link #getExpandableListAdapter()}.
*/
@Override
public ListAdapter getAdapter() {
/*
* The developer should never really call this method on an
* ExpandableListView, so it would be nice to throw a RuntimeException,
* but AdapterView calls this
*/
return super.getAdapter();
}
/**
* Register a callback to be invoked when an item has been clicked and the
* caller prefers to receive a ListView-style position instead of a group
* and/or child position. In most cases, the caller should use
* {@link #setOnGroupClickListener} and/or {@link #setOnChildClickListener}.
* <p />
* {@inheritDoc}
*/
@Override
public void setOnItemClickListener(OnItemClickListener l) {
super.setOnItemClickListener(l);
}
/**
* Sets the adapter that provides data to this view.
* @param adapter The adapter that provides data to this view.
*/
public void setAdapter(ExpandableListAdapter adapter) {
// Set member variable
mAdapter = adapter;
if (adapter != null) {
// Create the connector
mConnector = new ExpandableListConnector(adapter);
} else {
mConnector = null;
}
// Link the ListView (superclass) to the expandable list data through the connector
super.setAdapter(mConnector);
}
/**
* Gets the adapter that provides data to this view.
* @return The adapter that provides data to this view.
*/
public ExpandableListAdapter getExpandableListAdapter() {
return mAdapter;
}
/**
* @param position An absolute (including header and footer) flat list position.
* @return true if the position corresponds to a header or a footer item.
*/
private boolean isHeaderOrFooterPosition(int position) {
final int footerViewsStart = mItemCount - getFooterViewsCount();
return (position < getHeaderViewsCount() || position >= footerViewsStart);
}
/**
* Converts an absolute item flat position into a group/child flat position, shifting according
* to the number of header items.
*
* @param flatListPosition The absolute flat position
* @return A group/child flat position as expected by the connector.
*/
private int getFlatPositionForConnector(int flatListPosition) {
return flatListPosition - getHeaderViewsCount();
}
/**
* Converts a group/child flat position into an absolute flat position, that takes into account
* the possible headers.
*
* @param flatListPosition The child/group flat position
* @return An absolute flat position.
*/
private int getAbsoluteFlatPosition(int flatListPosition) {
return flatListPosition + getHeaderViewsCount();
}
@Override
public boolean performItemClick(View v, int position, long id) {
// Ignore clicks in header/footers
if (isHeaderOrFooterPosition(position)) {
// Clicked on a header/footer, so ignore pass it on to super
return super.performItemClick(v, position, id);
}
// Internally handle the item click
final int adjustedPosition = getFlatPositionForConnector(position);
return handleItemClick(v, adjustedPosition, id);
}
/**
* This will either expand/collapse groups (if a group was clicked) or pass
* on the click to the proper child (if a child was clicked)
*
* @param position The flat list position. This has already been factored to
* remove the header/footer.
* @param id The ListAdapter ID, not the group or child ID.
*/
boolean handleItemClick(View v, int position, long id) {
final PositionMetadata posMetadata = mConnector.getUnflattenedPos(position);
id = getChildOrGroupId(posMetadata.position);
boolean returnValue;
if (posMetadata.position.type == ExpandableListPosition.GROUP) {
/* It's a group, so handle collapsing/expanding */
/* It's a group click, so pass on event */
if (mOnGroupClickListener != null) {
if (mOnGroupClickListener.onGroupClick(this, v,
posMetadata.position.groupPos, id)) {
posMetadata.recycle();
return true;
}
}
if (posMetadata.isExpanded()) {
/* Collapse it */
mConnector.collapseGroup(posMetadata);
playSoundEffect(SoundEffectConstants.CLICK);
if (mOnGroupCollapseListener != null) {
mOnGroupCollapseListener.onGroupCollapse(posMetadata.position.groupPos);
}
} else {
/* Expand it */
mConnector.expandGroup(posMetadata);
playSoundEffect(SoundEffectConstants.CLICK);
if (mOnGroupExpandListener != null) {
mOnGroupExpandListener.onGroupExpand(posMetadata.position.groupPos);
}
final int groupPos = posMetadata.position.groupPos;
final int groupFlatPos = posMetadata.position.flatListPos;
final int shiftedGroupPosition = groupFlatPos + getHeaderViewsCount();
smoothScrollToPosition(shiftedGroupPosition + mAdapter.getChildrenCount(groupPos),
shiftedGroupPosition);
}
returnValue = true;
} else {
/* It's a child, so pass on event */
if (mOnChildClickListener != null) {
playSoundEffect(SoundEffectConstants.CLICK);
return mOnChildClickListener.onChildClick(this, v, posMetadata.position.groupPos,
posMetadata.position.childPos, id);
}
returnValue = false;
}
posMetadata.recycle();
return returnValue;
}
/**
* Expand a group in the grouped list view
*
* @param groupPos the group to be expanded
* @return True if the group was expanded, false otherwise (if the group
* was already expanded, this will return false)
*/
public boolean expandGroup(int groupPos) {
return expandGroup(groupPos, false);
}
/**
* Expand a group in the grouped list view
*
* @param groupPos the group to be expanded
* @param animate true if the expanding group should be animated in
* @return True if the group was expanded, false otherwise (if the group
* was already expanded, this will return false)
*/
public boolean expandGroup(int groupPos, boolean animate) {
ExpandableListPosition elGroupPos = ExpandableListPosition.obtain(
ExpandableListPosition.GROUP, groupPos, -1, -1);
PositionMetadata pm = mConnector.getFlattenedPos(elGroupPos);
elGroupPos.recycle();
boolean retValue = mConnector.expandGroup(pm);
if (mOnGroupExpandListener != null) {
mOnGroupExpandListener.onGroupExpand(groupPos);
}
if (animate) {
final int groupFlatPos = pm.position.flatListPos;
final int shiftedGroupPosition = groupFlatPos + getHeaderViewsCount();
smoothScrollToPosition(shiftedGroupPosition + mAdapter.getChildrenCount(groupPos),
shiftedGroupPosition);
}
pm.recycle();
return retValue;
}
/**
* Collapse a group in the grouped list view
*
* @param groupPos position of the group to collapse
* @return True if the group was collapsed, false otherwise (if the group
* was already collapsed, this will return false)
*/
public boolean collapseGroup(int groupPos) {
boolean retValue = mConnector.collapseGroup(groupPos);
if (mOnGroupCollapseListener != null) {
mOnGroupCollapseListener.onGroupCollapse(groupPos);
}
return retValue;
}
/** Used for being notified when a group is collapsed */
public interface OnGroupCollapseListener {
/**
* Callback method to be invoked when a group in this expandable list has
* been collapsed.
*
* @param groupPosition The group position that was collapsed
*/
void onGroupCollapse(int groupPosition);
}
private OnGroupCollapseListener mOnGroupCollapseListener;
public void setOnGroupCollapseListener(
OnGroupCollapseListener onGroupCollapseListener) {
mOnGroupCollapseListener = onGroupCollapseListener;
}
/** Used for being notified when a group is expanded */
public interface OnGroupExpandListener {
/**
* Callback method to be invoked when a group in this expandable list has
* been expanded.
*
* @param groupPosition The group position that was expanded
*/
void onGroupExpand(int groupPosition);
}
private OnGroupExpandListener mOnGroupExpandListener;
public void setOnGroupExpandListener(
OnGroupExpandListener onGroupExpandListener) {
mOnGroupExpandListener = onGroupExpandListener;
}
/**
* Interface definition for a callback to be invoked when a group in this
* expandable list has been clicked.
*/
public interface OnGroupClickListener {
/**
* Callback method to be invoked when a group in this expandable list has
* been clicked.
*
* @param parent The ExpandableListConnector where the click happened
* @param v The view within the expandable list/ListView that was clicked
* @param groupPosition The group position that was clicked
* @param id The row id of the group that was clicked
* @return True if the click was handled
*/
boolean onGroupClick(ExpandableListView parent, View v, int groupPosition,
long id);
}
private OnGroupClickListener mOnGroupClickListener;
public void setOnGroupClickListener(OnGroupClickListener onGroupClickListener) {
mOnGroupClickListener = onGroupClickListener;
}
/**
* Interface definition for a callback to be invoked when a child in this
* expandable list has been clicked.
*/
public interface OnChildClickListener {
/**
* Callback method to be invoked when a child in this expandable list has
* been clicked.
*
* @param parent The ExpandableListView where the click happened
* @param v The view within the expandable list/ListView that was clicked
* @param groupPosition The group position that contains the child that
* was clicked
* @param childPosition The child position within the group
* @param id The row id of the child that was clicked
* @return True if the click was handled
*/
boolean onChildClick(ExpandableListView parent, View v, int groupPosition,
int childPosition, long id);
}
private OnChildClickListener mOnChildClickListener;
public void setOnChildClickListener(OnChildClickListener onChildClickListener) {
mOnChildClickListener = onChildClickListener;
}
/**
* Converts a flat list position (the raw position of an item (child or group)
* in the list) to a group and/or child position (represented in a
* packed position). This is useful in situations where the caller needs to
* use the underlying {@link ListView}'s methods. Use
* {@link ExpandableListView#getPackedPositionType} ,
* {@link ExpandableListView#getPackedPositionChild},
* {@link ExpandableListView#getPackedPositionGroup} to unpack.
*
* @param flatListPosition The flat list position to be converted.
* @return The group and/or child position for the given flat list position
* in packed position representation. #PACKED_POSITION_VALUE_NULL if
* the position corresponds to a header or a footer item.
*/
public long getExpandableListPosition(int flatListPosition) {
if (isHeaderOrFooterPosition(flatListPosition)) {
return PACKED_POSITION_VALUE_NULL;
}
final int adjustedPosition = getFlatPositionForConnector(flatListPosition);
PositionMetadata pm = mConnector.getUnflattenedPos(adjustedPosition);
long packedPos = pm.position.getPackedPosition();
pm.recycle();
return packedPos;
}
/**
* Converts a group and/or child position to a flat list position. This is
* useful in situations where the caller needs to use the underlying
* {@link ListView}'s methods.
*
* @param packedPosition The group and/or child positions to be converted in
* packed position representation. Use
* {@link #getPackedPositionForChild(int, int)} or
* {@link #getPackedPositionForGroup(int)}.
* @return The flat list position for the given child or group.
*/
public int getFlatListPosition(long packedPosition) {
ExpandableListPosition elPackedPos = ExpandableListPosition
.obtainPosition(packedPosition);
PositionMetadata pm = mConnector.getFlattenedPos(elPackedPos);
elPackedPos.recycle();
final int flatListPosition = pm.position.flatListPos;
pm.recycle();
return getAbsoluteFlatPosition(flatListPosition);
}
/**
* Gets the position of the currently selected group or child (along with
* its type). Can return {@link #PACKED_POSITION_VALUE_NULL} if no selection.
*
* @return A packed position containing the currently selected group or
* child's position and type. #PACKED_POSITION_VALUE_NULL if no selection
* or if selection is on a header or a footer item.
*/
public long getSelectedPosition() {
final int selectedPos = getSelectedItemPosition();
// The case where there is no selection (selectedPos == -1) is also handled here.
return getExpandableListPosition(selectedPos);
}
/**
* Gets the ID of the currently selected group or child. Can return -1 if no
* selection.
*
* @return The ID of the currently selected group or child. -1 if no
* selection.
*/
public long getSelectedId() {
long packedPos = getSelectedPosition();
if (packedPos == PACKED_POSITION_VALUE_NULL) return -1;
int groupPos = getPackedPositionGroup(packedPos);
if (getPackedPositionType(packedPos) == PACKED_POSITION_TYPE_GROUP) {
// It's a group
return mAdapter.getGroupId(groupPos);
} else {
// It's a child
return mAdapter.getChildId(groupPos, getPackedPositionChild(packedPos));
}
}
/**
* Sets the selection to the specified group.
* @param groupPosition The position of the group that should be selected.
*/
public void setSelectedGroup(int groupPosition) {
ExpandableListPosition elGroupPos = ExpandableListPosition
.obtainGroupPosition(groupPosition);
PositionMetadata pm = mConnector.getFlattenedPos(elGroupPos);
elGroupPos.recycle();
final int absoluteFlatPosition = getAbsoluteFlatPosition(pm.position.flatListPos);
super.setSelection(absoluteFlatPosition);
pm.recycle();
}
/**
* Sets the selection to the specified child. If the child is in a collapsed
* group, the group will only be expanded and child subsequently selected if
* shouldExpandGroup is set to true, otherwise the method will return false.
*
* @param groupPosition The position of the group that contains the child.
* @param childPosition The position of the child within the group.
* @param shouldExpandGroup Whether the child's group should be expanded if
* it is collapsed.
* @return Whether the selection was successfully set on the child.
*/
public boolean setSelectedChild(int groupPosition, int childPosition, boolean shouldExpandGroup) {
ExpandableListPosition elChildPos = ExpandableListPosition.obtainChildPosition(
groupPosition, childPosition);
PositionMetadata flatChildPos = mConnector.getFlattenedPos(elChildPos);
if (flatChildPos == null) {
// The child's group isn't expanded
// Shouldn't expand the group, so return false for we didn't set the selection
if (!shouldExpandGroup) return false;
expandGroup(groupPosition);
flatChildPos = mConnector.getFlattenedPos(elChildPos);
// Sanity check
if (flatChildPos == null) {
throw new IllegalStateException("Could not find child");
}
}
int absoluteFlatPosition = getAbsoluteFlatPosition(flatChildPos.position.flatListPos);
super.setSelection(absoluteFlatPosition);
elChildPos.recycle();
flatChildPos.recycle();
return true;
}
/**
* Whether the given group is currently expanded.
*
* @param groupPosition The group to check.
* @return Whether the group is currently expanded.
*/
public boolean isGroupExpanded(int groupPosition) {
return mConnector.isGroupExpanded(groupPosition);
}
/**
* Gets the type of a packed position. See
* {@link #getPackedPositionForChild(int, int)}.
*
* @param packedPosition The packed position for which to return the type.
* @return The type of the position contained within the packed position,
* either {@link #PACKED_POSITION_TYPE_CHILD}, {@link #PACKED_POSITION_TYPE_GROUP}, or
* {@link #PACKED_POSITION_TYPE_NULL}.
*/
public static int getPackedPositionType(long packedPosition) {
if (packedPosition == PACKED_POSITION_VALUE_NULL) {
return PACKED_POSITION_TYPE_NULL;
}
return (packedPosition & PACKED_POSITION_MASK_TYPE) == PACKED_POSITION_MASK_TYPE
? PACKED_POSITION_TYPE_CHILD
: PACKED_POSITION_TYPE_GROUP;
}
/**
* Gets the group position from a packed position. See
* {@link #getPackedPositionForChild(int, int)}.
*
* @param packedPosition The packed position from which the group position
* will be returned.
* @return The group position portion of the packed position. If this does
* not contain a group, returns -1.
*/
public static int getPackedPositionGroup(long packedPosition) {
// Null
if (packedPosition == PACKED_POSITION_VALUE_NULL) return -1;
return (int) ((packedPosition & PACKED_POSITION_MASK_GROUP) >> PACKED_POSITION_SHIFT_GROUP);
}
/**
* Gets the child position from a packed position that is of
* {@link #PACKED_POSITION_TYPE_CHILD} type (use {@link #getPackedPositionType(long)}).
* To get the group that this child belongs to, use
* {@link #getPackedPositionGroup(long)}. See
* {@link #getPackedPositionForChild(int, int)}.
*
* @param packedPosition The packed position from which the child position
* will be returned.
* @return The child position portion of the packed position. If this does
* not contain a child, returns -1.
*/
public static int getPackedPositionChild(long packedPosition) {
// Null
if (packedPosition == PACKED_POSITION_VALUE_NULL) return -1;
// Group since a group type clears this bit
if ((packedPosition & PACKED_POSITION_MASK_TYPE) != PACKED_POSITION_MASK_TYPE) return -1;
return (int) (packedPosition & PACKED_POSITION_MASK_CHILD);
}
/**
* Returns the packed position representation of a child's position.
* <p>
* In general, a packed position should be used in
* situations where the position given to/returned from an
* {@link ExpandableListAdapter} or {@link ExpandableListView} method can
* either be a child or group. The two positions are packed into a single
* long which can be unpacked using
* {@link #getPackedPositionChild(long)},
* {@link #getPackedPositionGroup(long)}, and
* {@link #getPackedPositionType(long)}.
*
* @param groupPosition The child's parent group's position.
* @param childPosition The child position within the group.
* @return The packed position representation of the child (and parent group).
*/
public static long getPackedPositionForChild(int groupPosition, int childPosition) {
return (((long)PACKED_POSITION_TYPE_CHILD) << PACKED_POSITION_SHIFT_TYPE)
| ((((long)groupPosition) & PACKED_POSITION_INT_MASK_GROUP)
<< PACKED_POSITION_SHIFT_GROUP)
| (childPosition & PACKED_POSITION_INT_MASK_CHILD);
}
/**
* Returns the packed position representation of a group's position. See
* {@link #getPackedPositionForChild(int, int)}.
*
* @param groupPosition The child's parent group's position.
* @return The packed position representation of the group.
*/
public static long getPackedPositionForGroup(int groupPosition) {
// No need to OR a type in because PACKED_POSITION_GROUP == 0
return ((((long)groupPosition) & PACKED_POSITION_INT_MASK_GROUP)
<< PACKED_POSITION_SHIFT_GROUP);
}
@Override
ContextMenuInfo createContextMenuInfo(View view, int flatListPosition, long id) {
if (isHeaderOrFooterPosition(flatListPosition)) {
// Return normal info for header/footer view context menus
return new AdapterContextMenuInfo(view, flatListPosition, id);
}
final int adjustedPosition = getFlatPositionForConnector(flatListPosition);
PositionMetadata pm = mConnector.getUnflattenedPos(adjustedPosition);
ExpandableListPosition pos = pm.position;
id = getChildOrGroupId(pos);
long packedPosition = pos.getPackedPosition();
pm.recycle();
return new ExpandableListContextMenuInfo(view, packedPosition, id);
}
/**
* Gets the ID of the group or child at the given <code>position</code>.
* This is useful since there is no ListAdapter ID -> ExpandableListAdapter
* ID conversion mechanism (in some cases, it isn't possible).
*
* @param position The position of the child or group whose ID should be
* returned.
*/
private long getChildOrGroupId(ExpandableListPosition position) {
if (position.type == ExpandableListPosition.CHILD) {
return mAdapter.getChildId(position.groupPos, position.childPos);
} else {
return mAdapter.getGroupId(position.groupPos);
}
}
/**
* Sets the indicator to be drawn next to a child.
*
* @param childIndicator The drawable to be used as an indicator. If the
* child is the last child for a group, the state
* {@link android.R.attr#state_last} will be set.
*/
public void setChildIndicator(Drawable childIndicator) {
mChildIndicator = childIndicator;
}
/**
* Sets the drawing bounds for the child indicator. For either, you can
* specify {@link #CHILD_INDICATOR_INHERIT} to use inherit from the general
* indicator's bounds.
*
* @see #setIndicatorBounds(int, int)
* @param left The left position (relative to the left bounds of this View)
* to start drawing the indicator.
* @param right The right position (relative to the left bounds of this
* View) to end the drawing of the indicator.
*/
public void setChildIndicatorBounds(int left, int right) {
mChildIndicatorLeft = left;
mChildIndicatorRight = right;
resolveChildIndicator();
}
/**
* Sets the relative drawing bounds for the child indicator. For either, you can
* specify {@link #CHILD_INDICATOR_INHERIT} to use inherit from the general
* indicator's bounds.
*
* @see #setIndicatorBounds(int, int)
* @param start The start position (relative to the start bounds of this View)
* to start drawing the indicator.
* @param end The end position (relative to the end bounds of this
* View) to end the drawing of the indicator.
*/
public void setChildIndicatorBoundsRelative(int start, int end) {
mChildIndicatorStart = start;
mChildIndicatorEnd = end;
resolveChildIndicator();
}
/**
* Sets the indicator to be drawn next to a group.
*
* @param groupIndicator The drawable to be used as an indicator. If the
* group is empty, the state {@link android.R.attr#state_empty} will be
* set. If the group is expanded, the state
* {@link android.R.attr#state_expanded} will be set.
*/
public void setGroupIndicator(Drawable groupIndicator) {
mGroupIndicator = groupIndicator;
if (mIndicatorRight == 0 && mGroupIndicator != null) {
mIndicatorRight = mIndicatorLeft + mGroupIndicator.getIntrinsicWidth();
}
}
/**
* Sets the drawing bounds for the indicators (at minimum, the group indicator
* is affected by this; the child indicator is affected by this if the
* child indicator bounds are set to inherit).
*
* @see #setChildIndicatorBounds(int, int)
* @param left The left position (relative to the left bounds of this View)
* to start drawing the indicator.
* @param right The right position (relative to the left bounds of this
* View) to end the drawing of the indicator.
*/
public void setIndicatorBounds(int left, int right) {
mIndicatorLeft = left;
mIndicatorRight = right;
resolveIndicator();
}
/**
* Sets the relative drawing bounds for the indicators (at minimum, the group indicator
* is affected by this; the child indicator is affected by this if the
* child indicator bounds are set to inherit).
*
* @see #setChildIndicatorBounds(int, int)
* @param start The start position (relative to the start bounds of this View)
* to start drawing the indicator.
* @param end The end position (relative to the end bounds of this
* View) to end the drawing of the indicator.
*/
public void setIndicatorBoundsRelative(int start, int end) {
mIndicatorStart = start;
mIndicatorEnd = end;
resolveIndicator();
}
/**
* Extra menu information specific to an {@link ExpandableListView} provided
* to the
* {@link android.view.View.OnCreateContextMenuListener#onCreateContextMenu(ContextMenu, View, ContextMenuInfo) }
* callback when a context menu is brought up for this AdapterView.
*/
public static class ExpandableListContextMenuInfo implements ContextMenu.ContextMenuInfo {
public ExpandableListContextMenuInfo(View targetView, long packedPosition, long id) {
this.targetView = targetView;
this.packedPosition = packedPosition;
this.id = id;
}
/**
* The view for which the context menu is being displayed. This
* will be one of the children Views of this {@link ExpandableListView}.
*/
public View targetView;
/**
* The packed position in the list represented by the adapter for which
* the context menu is being displayed. Use the methods
* {@link ExpandableListView#getPackedPositionType},
* {@link ExpandableListView#getPackedPositionChild}, and
* {@link ExpandableListView#getPackedPositionGroup} to unpack this.
*/
public long packedPosition;
/**
* The ID of the item (group or child) for which the context menu is
* being displayed.
*/
public long id;
}
static class SavedState extends BaseSavedState {
ArrayList<ExpandableListConnector.GroupMetadata> expandedGroupMetadataList;
/**
* Constructor called from {@link ExpandableListView#onSaveInstanceState()}
*/
SavedState(
Parcelable superState,
ArrayList<ExpandableListConnector.GroupMetadata> expandedGroupMetadataList) {
super(superState);
this.expandedGroupMetadataList = expandedGroupMetadataList;
}
/**
* Constructor called from {@link #CREATOR}
*/
private SavedState(Parcel in) {
super(in);
expandedGroupMetadataList = new ArrayList<ExpandableListConnector.GroupMetadata>();
in.readList(expandedGroupMetadataList, ExpandableListConnector.class.getClassLoader());
}
@Override
public void writeToParcel(Parcel out, int flags) {
super.writeToParcel(out, flags);
out.writeList(expandedGroupMetadataList);
}
public static final Parcelable.Creator<SavedState> CREATOR
= new Parcelable.Creator<SavedState>() {
public SavedState createFromParcel(Parcel in) {
return new SavedState(in);
}
public SavedState[] newArray(int size) {
return new SavedState[size];
}
};
}
@Override
public Parcelable onSaveInstanceState() {
Parcelable superState = super.onSaveInstanceState();
return new SavedState(superState,
mConnector != null ? mConnector.getExpandedGroupMetadataList() : null);
}
@Override
public void onRestoreInstanceState(Parcelable state) {
if (!(state instanceof SavedState)) {
super.onRestoreInstanceState(state);
return;
}
SavedState ss = (SavedState) state;
super.onRestoreInstanceState(ss.getSuperState());
if (mConnector != null && ss.expandedGroupMetadataList != null) {
mConnector.setExpandedGroupMetadataList(ss.expandedGroupMetadataList);
}
}
@Override
public CharSequence getAccessibilityClassName() {
return ExpandableListView.class.getName();
}
}