Easy way to bind collections to listviews and recyclerviews with the new Android Data Binding framework.
compile 'me.tatarka.bindingcollectionadapter2:bindingcollectionadapter:2.0.1'
compile 'me.tatarka.bindingcollectionadapter2:bindingcollectionadapter-recyclerview:2.0.1'
requires at least android gradle plugin 2.3.0
.
You need to provide your items and an ItemBinding
to bind to the layout. You should use an
ObservableList
to automatically update your view based on list changes. However, you can
use any List
if you don't need that functionality.
public class ViewModel {
public final ObservableList<String> items = new ObservableArrayList<>();
public final ItemBinding<String> itemBinding = ItemBinding.of(BR.item, R.layout.item);
}
Then bind it to the collection view with app:items
and app:itemBinding
. There are also some
convenience factories to attach a LayoutManager
to a RecyclerView
with app:layoutManager
.
<!-- layout.xml -->
<layout xmlns:android="http://schemas.android.com/apk/res/android"
xmlns:app="http://schemas.android.com/apk/res-auto">
<data>
<import type="com.example.R" />
<import type="me.tatarka.bindingcollectionadapter2.LayoutManagers" />
<variable name="viewModel" type="com.example.ViewModel"/>
</data>
<ListView
android:layout_width="match_parent"
android:layout_height="match_parent"
app:items="@{viewModel.items}"
app:itemBinding="@{viewModel.itemBinding}"/>
<android.support.v7.widget.RecyclerView
android:layout_width="match_parent"
android:layout_height="match_parent"
app:layoutManager="@{LayoutManagers.linear()}"
app:items="@{viewModel.items}"
app:itemBinding="@{viewModel.itemBinding}"/>
<android.support.v4.view.ViewPager
android:layout_width="match_parent"
android:layout_height="match_parent"
app:items="@{viewModel.items}"
app:itemBinding="@{viewModel.itemBinding}"/>
<Spinner
android:layout_width="match_parent"
android:layout_height="match_parent"
app:items="@{viewModel.items}"
app:itemBinding="@{viewModel.itemBinding}"
app:itemDropDownLayout="@{R.layout.item_dropdown}"/>
</layout>
In your item layout, the collection item will be bound to the variable with the
name you passed into the ItemBinding
.
<!-- item.xml -->
<layout xmlns:android="http://schemas.android.com/apk/res/android"
xmlns:app="http://schemas.android.com/apk/res-auto">
<data>
<variable name="item" type="String"/>
</data>
<TextView
android:id="@+id/text"
android:layout_width="match_parent"
android:layout_height="wrap_content"
android:text="@{item}"/>
</layout>
You can use multiple view types by using OnItemBind
instead. You can still bind
it to the view with app:itemBinding
.
public final OnItemBind<String> onItemBind = new OnItemBind<String>() {
@Override
public void onItemBind(ItemBinding itemBinding, int position, String item) {
itemBinding.set(BR.item, position == 0 ? R.layout.item_header : R.layout.item);
}
};
If you are binding to a ListView, you must also provide the number of item types you have with
app:itemTypeCount="@{2}
.
Note that onItemBind
is called many times so you should not do any complex processing in there. If
you don't need to bind an item at a specific position (a static footer for example) you can use
ItemBinding.VAR_NONE
as the variable id.
You can bind additional variables to items in the list with itemBinding.bindExtra(BR.extra, value)
.
This is useful for components that you don't want the items themselves to care about. For example,
you can implement an item click listener as such
public interface OnItemClickListener {
void onItemClick(String item);
}
OnItemClickListener listener = ...;
ItemBinding<Item> itemBinding = ItemBinding.<Item>of(BR.item, R.layout.item)
.bindExtra(BR.listener, listener);
<layout xmlns:android="http://schemas.android.com/apk/res/android"
xmlns:app="http://schemas.android.com/apk/res-auto">
<data>
<variable name="item" type="String"/>
<variable name="listener" type="OnItemClickListener"/>
</data>
<TextView
android:id="@+id/text"
android:layout_width="match_parent"
android:layout_height="wrap_content"
android:onClick="@{() -> listener.onItemClick(item)}"
android:text="@{item}"/>
</layout>
You can set a callback to give an id for each item in the list with
adapter.setItemIds(new BindingListViewAdapter.ItemIds<T>() {
@Override
public long getItemId(int position, T item) {
return // Calculate item id.
}
});
or by defining app:itemIds="@{itemIds}"
in the ListView
in your layout file.
Setting this will make hasStableIds
return true which can increase performance of data changes.
You can set a callback for isEnabled()
as well with
adapter.setItemEnabled(new BindingListViewAdapter.ItemEnabled<T>() {
@Override
public boolean isEnabled(int position, T item) {
return // Calculate if item is enabled.
}
});
or by defining app:itemEnabled="@{itemEnabled}"
in the ListView
in you layout file.
You can set a callback to give a page title for each item in the list with
adapter.setPageTitles(new PageTitles<T>() {
@Override
public CharSequence getPageTitle(int position, T item) {
return "Page Title";
}
});
or by defining app:pageTitles="@{pageTitles}"
in the ViewPager
in your layout file.
You can construct custom view holders with
adapter.setViewHolderFactory(new ViewHolderFactory() {
@Override
public RecyclerView.ViewHolder createViewHolder(ViewDataBinding binding) {
return new MyCustomViewHolder(binding.getRoot());
}
});
or by defining app:viewHolder="@{viewHolderFactory}"
in the RecyclerView
in your layout file.
Data binding is awesome and all, but you may run into a case where you simply need to manipulate the
views directly. You can do this without throwing away the whole of databinding by subclassing an
existing BindingCollectionAdapter
. You can then bind adapter
in your layout to your subclass's
class name to have it use that instead. Instead of overriding the normal adapter methods, you should
override onCreateBinding()
or onBindBinding()
and call super
allowing you to run code before
and after those events and get access to the item view's binding.
public class MyRecyclerViewAdapter<T> extends BindingRecyclerViewAdapter<T> {
@Override
public ViewDataBinding onCreateBinding(LayoutInflater inflater, @LayoutRes int layoutId, ViewGroup viewGroup) {
ViewDataBinding binding = super.onCreateBinding(inflater, layoutId, viewGroup);
Log.d(TAG, "created binding: " + binding);
return binding;
}
@Override
public void onBindBinding(ViewDataBinding binding, int bindingVariable, @LayoutRes int layoutId, int position, T item) {
super.onBindBinding(binding, bindingVariable, layoutId, position, item);
Log.d(TAG, "bound binding: " + binding + " at position: " + position);
}
}
<android.support.v7.widget.RecyclerView
android:layout_width="match_parent"
android:layout_height="match_parent"
app:layoutManager="@{LayoutManagers.linear()}"
app:items="@{viewModel.items}"
app:itemBinding="@{viewModel.itemBinding}"
app:adapter="@{viewModel.adapter}"/>
Note: databinding will re-evaluate expressions in your layout each time there is a data source change. If you are using a custom adapter you should ensure you are returning the same instance each time or your scroll position etc will not be preserved.
There are a few classes to help with common implementations of OnItemBind
.
OnItemBindClass
binds an item based on the class of the item in the list.
itemBind = new OnItemBindClass<>()
.map(String.class, BR.name, R.layout.item_name)
.map(Footer.class, ItemBinding.VAR_NONE, R.layout.item_footer);
OnItemBindModel
delegates to the items in the list themselves to determine the binding.
itemBind = new OnItemBindModel<Model>();
public class Model implements ItemBindingModel {
@Override
public void onItemBind(ItemBinding itemBinding) {
itemBinding.set(BR.name, R.layout.item_name);
}
}
There are many times you want to merge multiple data sources together. This can be as simple as adding headers and footers or as complex as concatenating multiple data sources. It is hard to manage these lists yourself since you have to take into account all items when updating a subset.
MergeObservableList
solves this by giving you a "merged" view of your data sources.
ObservableList<String> data = new ObservableArrayList<>();
MergeObservableList<String> list = new MergeObservableList<>()
.insertItem("Header")
.insertList(data)
.insertItem("Footer");
data.addAll(Arrays.asList("One", "Two"));
// list => ["Header", "One", "Two", "Footer"]
data.remove("One");
// list => ["Header", "Two", "Footer"]
Say you want to update list 'a' to list 'b' and you don't want to calculate what has changed between the two manually.
DiffObservableList
builds off of DiffUtil
to automatically calculate the changes between two lists.
DiffObservableList<Item> list = new DiffObservableList(new DiffObservableList.Callback<Item>() {
@Override
public boolean areItemsTheSame(Item oldItem, Item newItem) {
return oldItem.id.equals(newItem.id);
}
@Override
public boolean areContentsTheSame(Item oldItem, Item newItem) {
return oldItem.value.equals(newItem.value);
}
});
list.update(Arrays.asList(new Item("1", "a"), new Item("2", "b1")));
list.update(Arrays.asList(new Item("2", "b2"), new Item("3", "c"), new Item("4", "d"));
With large lists diffing might be too costly to run on the main thread. In that case you can calculate the diff on a background thread.
DiffObservableList<Item> list = new DiffObservableList(...);
// On background thread:
DiffUtil.DiffResult diffResult = list.calculateDiff(newItems);
// On main thread:
list.update(newItems, diffResult);
This is likely because you are using the android-apt
plugin which broke
this in previous versions. Update to 1.6+
to fix it.
If you attempt to retrieve an adapter from a view right after binding it you may find it is null.
This is because databinding waits for the next draw pass to run to batch up changes. You can force
it to run immediately by calling binding.executePendingBindings()
.
Copyright 2015 Evan Tatarka
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.