private void changeViewLayout() {
LayoutInflater inflater = LayoutInflater.from(getActivity());
ViewGroup viewGroup = (ViewGroup) getView();
viewGroup.removeAllViewsInLayout();
View view = onCreateView(inflater, viewGroup, null);
viewGroup.addView(view);
onViewCreated(this.getView(), null);
}
@Override
public View onCreateView(
LayoutInflater inflater, ViewGroup container, Bundle savedInstanceState) {
ViewGroup p = (ViewGroup) mainView.getParent();
if (p != null) {
p.removeAllViewsInLayout();
}
return mainView;
}
@Override
public View onCreateView(
LayoutInflater inflater, ViewGroup container, Bundle savedInstanceState) {
// TODO Auto-generated method stub
ViewGroup p = (ViewGroup) mRootView.getParent();
if (p != null) {
p.removeAllViewsInLayout();
}
return mRootView;
}
/**
* remove all views
*
* @param viewGroup
*/
public static void removeAllViews(ViewGroup viewGroup) {
if (viewGroup != null) {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.JELLY_BEAN_MR2) {
if (viewGroup.isInLayout()) {
viewGroup.removeAllViewsInLayout();
} else {
viewGroup.removeAllViews();
}
} else {
viewGroup.removeAllViews();
}
}
}
/**
* Shows only the specified child. The other displays Views exit the screen,
* optionally with the with the {@link #getOutAnimation() out animation} and
* the specified child enters the screen, optionally with the
* {@link #getInAnimation() in animation}.
*
* @param childIndex The index of the child to be shown.
* @param animate Whether or not to use the in and out animations, defaults
* to true.
*/
void showOnly(int childIndex, boolean animate) {
if (mAdapter == null) return;
final int adapterCount = getCount();
if (adapterCount == 0) return;
for (int i = 0; i < mPreviousViews.size(); i++) {
View viewToRemove = mViewsMap.get(mPreviousViews.get(i)).view;
mViewsMap.remove(mPreviousViews.get(i));
viewToRemove.clearAnimation();
if (viewToRemove instanceof ViewGroup) {
ViewGroup vg = (ViewGroup) viewToRemove;
vg.removeAllViewsInLayout();
}
// applyTransformForChildAtIndex here just allows for any cleanup
// associated with this view that may need to be done by a subclass
applyTransformForChildAtIndex(viewToRemove, -1);
removeViewInLayout(viewToRemove);
}
mPreviousViews.clear();
int newWindowStartUnbounded = childIndex - mActiveOffset;
int newWindowEndUnbounded = newWindowStartUnbounded + getNumActiveViews() - 1;
int newWindowStart = Math.max(0, newWindowStartUnbounded);
int newWindowEnd = Math.min(adapterCount - 1, newWindowEndUnbounded);
if (mLoopViews) {
newWindowStart = newWindowStartUnbounded;
newWindowEnd = newWindowEndUnbounded;
}
int rangeStart = modulo(newWindowStart, getWindowSize());
int rangeEnd = modulo(newWindowEnd, getWindowSize());
boolean wrap = false;
if (rangeStart > rangeEnd) {
wrap = true;
}
// This section clears out any items that are in our active views list
// but are outside the effective bounds of our window (this is becomes an issue
// at the extremities of the list, eg. where newWindowStartUnbounded < 0 or
// newWindowEndUnbounded > adapterCount - 1
for (Integer index : mViewsMap.keySet()) {
boolean remove = false;
if (!wrap && (index < rangeStart || index > rangeEnd)) {
remove = true;
} else if (wrap && (index > rangeEnd && index < rangeStart)) {
remove = true;
}
if (remove) {
View previousView = mViewsMap.get(index).view;
int oldRelativeIndex = mViewsMap.get(index).relativeIndex;
mPreviousViews.add(index);
transformViewForTransition(oldRelativeIndex, -1, previousView, animate);
}
}
// If the window has changed
if (!(newWindowStart == mCurrentWindowStart && newWindowEnd == mCurrentWindowEnd &&
newWindowStartUnbounded == mCurrentWindowStartUnbounded)) {
// Run through the indices in the new range
for (int i = newWindowStart; i <= newWindowEnd; i++) {
int index = modulo(i, getWindowSize());
int oldRelativeIndex;
if (mViewsMap.containsKey(index)) {
oldRelativeIndex = mViewsMap.get(index).relativeIndex;
} else {
oldRelativeIndex = -1;
}
int newRelativeIndex = i - newWindowStartUnbounded;
// If this item is in the current window, great, we just need to apply
// the transform for it's new relative position in the window, and animate
// between it's current and new relative positions
boolean inOldRange = mViewsMap.containsKey(index) && !mPreviousViews.contains(index);
if (inOldRange) {
View view = mViewsMap.get(index).view;
mViewsMap.get(index).relativeIndex = newRelativeIndex;
applyTransformForChildAtIndex(view, newRelativeIndex);
transformViewForTransition(oldRelativeIndex, newRelativeIndex, view, animate);
// Otherwise this view is new to the window
} else {
// Get the new view from the adapter, add it and apply any transform / animation
final int adapterPosition = modulo(i, adapterCount);
View newView = mAdapter.getView(adapterPosition, null, this);
long itemId = mAdapter.getItemId(adapterPosition);
// We wrap the new view in a FrameLayout so as to respect the contract
// with the adapter, that is, that we don't modify this view directly
FrameLayout fl = getFrameForChild();
// If the view from the adapter is null, we still keep an empty frame in place
if (newView != null) {
fl.addView(newView);
}
mViewsMap.put(index, new ViewAndMetaData(fl, newRelativeIndex,
adapterPosition, itemId));
addChild(fl);
applyTransformForChildAtIndex(fl, newRelativeIndex);
transformViewForTransition(-1, newRelativeIndex, fl, animate);
}
mViewsMap.get(index).view.bringToFront();
}
mCurrentWindowStart = newWindowStart;
mCurrentWindowEnd = newWindowEnd;
mCurrentWindowStartUnbounded = newWindowStartUnbounded;
if (mRemoteViewsAdapter != null) {
int adapterStart = modulo(mCurrentWindowStart, adapterCount);
int adapterEnd = modulo(mCurrentWindowEnd, adapterCount);
mRemoteViewsAdapter.setVisibleRangeHint(adapterStart, adapterEnd);
}
}
requestLayout();
invalidate();
}
