Adding a 2" Filter to a 3" Visual Back
Introduction
Since it is not really clear from your question what exactly you are having trouble with, I wrote up this quick walkthrough about how to implement this feature; if you still have questions feel free to ask.
I have a working example of everything I am talking about here in this GitHub Repository.
In any case the result should looks something like this:
If you first want to play around with the demo app you can install it from the Play Store:
Anyway lets get started.
Setting up the SearchView
In the folder res/menu
create a new file called main_menu.xml
. In it add an item and set the actionViewClass
to android.support.v7.widget.SearchView
. Since you are using the support library you have to use the namespace of the support library to set the actionViewClass
attribute. Your xml file should look something like this:
<menu xmlns:android="http://schemas.android.com/apk/res/android" xmlns:app="http://schemas.android.com/apk/res-auto"> <item android:id="@+id/action_search" android:title="@string/action_search" app:actionViewClass="android.support.v7.widget.SearchView" app:showAsAction="always"/> </menu>
In your Fragment
or Activity
you have to inflate this menu xml like usual, then you can look for the MenuItem
which contains the SearchView
and implement the OnQueryTextListener
which we are going to use to listen for changes to the text entered into the SearchView
:
@Override public boolean onCreateOptionsMenu(Menu menu) { getMenuInflater().inflate(R.menu.menu_main, menu); final MenuItem searchItem = menu.findItem(R.id.action_search); final SearchView searchView = (SearchView) searchItem.getActionView(); searchView.setOnQueryTextListener(this); return true; } @Override public boolean onQueryTextChange(String query) { // Here is where we are going to implement the filter logic return false; } @Override public boolean onQueryTextSubmit(String query) { return false; }
And now the SearchView
is ready to be used. We will implement the filter logic later on in onQueryTextChange()
once we are finished implementing the Adapter
.
Setting up the Adapter
First and foremost this is the model class I am going to use for this example:
public class ExampleModel { private final long mId; private final String mText; public ExampleModel(long id, String text) { mId = id; mText = text; } public long getId() { return mId; } public String getText() { return mText; } }
It's just your basic model which will display a text in the RecyclerView
. This is the layout I am going to use to display the text:
<?xml version="1.0" encoding="utf-8"?> <layout xmlns:android="http://schemas.android.com/apk/res/android"> <data> <variable name="model" type="com.github.wrdlbrnft.searchablerecyclerviewdemo.ui.models.ExampleModel"/> </data> <FrameLayout android:layout_width="match_parent" android:layout_height="wrap_content" android:background="?attr/selectableItemBackground" android:clickable="true"> <TextView android:layout_width="match_parent" android:layout_height="wrap_content" android:padding="8dp" android:text="@{model.text}"/> </FrameLayout> </layout>
As you can see I use Data Binding. If you have never worked with data binding before don't be discouraged! It's very simple and powerful, however I can't explain how it works in the scope of this answer.
This is the ViewHolder
for the ExampleModel
class:
public class ExampleViewHolder extends RecyclerView.ViewHolder { private final ItemExampleBinding mBinding; public ExampleViewHolder(ItemExampleBinding binding) { super(binding.getRoot()); mBinding = binding; } public void bind(ExampleModel item) { mBinding.setModel(item); } }
Again nothing special. It just uses data binding to bind the model class to this layout as we have defined in the layout xml above.
Now we can finally come to the really interesting part: Writing the Adapter. I am going to skip over the basic implementation of the Adapter
and am instead going to concentrate on the parts which are relevant for this answer.
But first there is one thing we have to talk about: The SortedList
class.
SortedList
The SortedList
is a completely amazing tool which is part of the RecyclerView
library. It takes care of notifying the Adapter
about changes to the data set and does so it a very efficient way. The only thing it requires you to do is specify an order of the elements. You need to do that by implementing a compare()
method which compares two elements in the SortedList
just like a Comparator
. But instead of sorting a List
it is used to sort the items in the RecyclerView
!
The SortedList
interacts with the Adapter
through a Callback
class which you have to implement:
private final SortedList.Callback<ExampleModel> mCallback = new SortedList.Callback<ExampleModel>() { @Override public void onInserted(int position, int count) { mAdapter.notifyItemRangeInserted(position, count); } @Override public void onRemoved(int position, int count) { mAdapter.notifyItemRangeRemoved(position, count); } @Override public void onMoved(int fromPosition, int toPosition) { mAdapter.notifyItemMoved(fromPosition, toPosition); } @Override public void onChanged(int position, int count) { mAdapter.notifyItemRangeChanged(position, count); } @Override public int compare(ExampleModel a, ExampleModel b) { return mComparator.compare(a, b); } @Override public boolean areContentsTheSame(ExampleModel oldItem, ExampleModel newItem) { return oldItem.equals(newItem); } @Override public boolean areItemsTheSame(ExampleModel item1, ExampleModel item2) { return item1.getId() == item2.getId(); } }
In the methods at the top of the callback like onMoved
, onInserted
, etc. you have to call the equivalent notify method of your Adapter
. The three methods at the bottom compare
, areContentsTheSame
and areItemsTheSame
you have to implement according to what kind of objects you want to display and in what order these objects should appear on the screen.
Let's go through these methods one by one:
@Override public int compare(ExampleModel a, ExampleModel b) { return mComparator.compare(a, b); }
This is the compare()
method I talked about earlier. In this example I am just passing the call to a Comparator
which compares the two models. If you want the items to appear in alphabetical order on the screen. This comparator might look like this:
private static final Comparator<ExampleModel> ALPHABETICAL_COMPARATOR = new Comparator<ExampleModel>() { @Override public int compare(ExampleModel a, ExampleModel b) { return a.getText().compareTo(b.getText()); } };
Now let's take a look at the next method:
@Override public boolean areContentsTheSame(ExampleModel oldItem, ExampleModel newItem) { return oldItem.equals(newItem); }
The purpose of this method is to determine if the content of a model has changed. The SortedList
uses this to determine if a change event needs to be invoked - in other words if the RecyclerView
should crossfade the old and new version. If you model classes have a correct equals()
and hashCode()
implementation you can usually just implement it like above. If we add an equals()
and hashCode()
implementation to the ExampleModel
class it should look something like this:
public class ExampleModel implements SortedListAdapter.ViewModel { private final long mId; private final String mText; public ExampleModel(long id, String text) { mId = id; mText = text; } public long getId() { return mId; } public String getText() { return mText; } @Override public boolean equals(Object o) { if (this == o) return true; if (o == null || getClass() != o.getClass()) return false; ExampleModel model = (ExampleModel) o; if (mId != model.mId) return false; return mText != null ? mText.equals(model.mText) : model.mText == null; } @Override public int hashCode() { int result = (int) (mId ^ (mId >>> 32)); result = 31 * result + (mText != null ? mText.hashCode() : 0); return result; } }
Quick side note: Most IDE's like Android Studio, IntelliJ and Eclipse have functionality to generate equals()
and hashCode()
implementations for you at the press of a button! So you don't have to implement them yourself. Look up on the internet how it works in your IDE!
Now let's take a look at the last method:
@Override public boolean areItemsTheSame(ExampleModel item1, ExampleModel item2) { return item1.getId() == item2.getId(); }
The SortedList
uses this method to check if two items refer to the same thing. In simplest terms (without explaining how the SortedList
works) this is used to determine if an object is already contained in the List
and if either an add, move or change animation needs to be played. If your models have an id you would usually compare just the id in this method. If they don't you need to figure out some other way to check this, but however you end up implementing this depends on your specific app. Usually it is the simplest option to give all models an id - that could for example be the primary key field if you are querying the data from a database.
With the SortedList.Callback
correctly implemented we can create an instance of the SortedList
:
final SortedList<ExampleModel> list = new SortedList<>(ExampleModel.class, mCallback);
As the first parameter in the constructor of the SortedList
you need to pass the class of your models. The other parameter is just the SortedList.Callback
we defined above.
Now let's get down to business: If we implement the Adapter
with a SortedList
it should look something like this:
public class ExampleAdapter extends RecyclerView.Adapter<ExampleViewHolder> { private final SortedList<ExampleModel> mSortedList = new SortedList<>(ExampleModel.class, new SortedList.Callback<ExampleModel>() { @Override public int compare(ExampleModel a, ExampleModel b) { return mComparator.compare(a, b); } @Override public void onInserted(int position, int count) { notifyItemRangeInserted(position, count); } @Override public void onRemoved(int position, int count) { notifyItemRangeRemoved(position, count); } @Override public void onMoved(int fromPosition, int toPosition) { notifyItemMoved(fromPosition, toPosition); } @Override public void onChanged(int position, int count) { notifyItemRangeChanged(position, count); } @Override public boolean areContentsTheSame(ExampleModel oldItem, ExampleModel newItem) { return oldItem.equals(newItem); } @Override public boolean areItemsTheSame(ExampleModel item1, ExampleModel item2) { return item1.getId() == item2.getId(); } }); private final LayoutInflater mInflater; private final Comparator<ExampleModel> mComparator; public ExampleAdapter(Context context, Comparator<ExampleModel> comparator) { mInflater = LayoutInflater.from(context); mComparator = comparator; } @Override public ExampleViewHolder onCreateViewHolder(ViewGroup parent, int viewType) { final ItemExampleBinding binding = ItemExampleBinding.inflate(inflater, parent, false); return new ExampleViewHolder(binding); } @Override public void onBindViewHolder(ExampleViewHolder holder, int position) { final ExampleModel model = mSortedList.get(position); holder.bind(model); } @Override public int getItemCount() { return mSortedList.size(); } }
The Comparator
used to sort the item is passed in through the constructor so we can use the same Adapter
even if the items are supposed to be displayed in a different order.
Now we are almost done! But we first need a way to add or remove items to the Adapter
. For this purpose we can add methods to the Adapter
which allow us to add and remove items to the SortedList
:
public void add(ExampleModel model) { mSortedList.add(model); } public void remove(ExampleModel model) { mSortedList.remove(model); } public void add(List<ExampleModel> models) { mSortedList.addAll(models); } public void remove(List<ExampleModel> models) { mSortedList.beginBatchedUpdates(); for (ExampleModel model : models) { mSortedList.remove(model); } mSortedList.endBatchedUpdates(); }
We don't need to call any notify methods here because the SortedList
already does this for through the SortedList.Callback
! Aside from that the implementation of these methods is pretty straight forward with one exception: the remove method which removes a List
of models. Since the SortedList
has only one remove method which can remove a single object we need to loop over the list and remove the models one by one. Calling beginBatchedUpdates()
at the beginning batches all the changes we are going to make to the SortedList
together and improves performance. When we call endBatchedUpdates()
the RecyclerView
is notified about all the changes at once.
Additionally what you have to understand is that if you add an object to the SortedList
and it is already in the SortedList
it won't be added again. Instead the SortedList
uses the areContentsTheSame()
method to figure out if the object has changed - and if it has the item in the RecyclerView
will be updated.
Anyway, what I usually prefer is one method which allows me to replace all items in the RecyclerView
at once. Remove everything which is not in the List
and add all items which are missing from the SortedList
:
public void replaceAll(List<ExampleModel> models) { mSortedList.beginBatchedUpdates(); for (int i = mSortedList.size() - 1; i >= 0; i--) { final ExampleModel model = mSortedList.get(i); if (!models.contains(model)) { mSortedList.remove(model); } } mSortedList.addAll(models); mSortedList.endBatchedUpdates(); }
This method again batches all updates together to increase performance. The first loop is in reverse since removing an item at the start would mess up the indexes of all items that come up after it and this can lead in some instances to problems like data inconsistencies. After that we just add the List
to the SortedList
using addAll()
to add all items which are not already in the SortedList
and - just like I described above - update all items that are already in the SortedList
but have changed.
And with that the Adapter
is complete. The whole thing should look something like this:
public class ExampleAdapter extends RecyclerView.Adapter<ExampleViewHolder> { private final SortedList<ExampleModel> mSortedList = new SortedList<>(ExampleModel.class, new SortedList.Callback<ExampleModel>() { @Override public int compare(ExampleModel a, ExampleModel b) { return mComparator.compare(a, b); } @Override public void onInserted(int position, int count) { notifyItemRangeInserted(position, count); } @Override public void onRemoved(int position, int count) { notifyItemRangeRemoved(position, count); } @Override public void onMoved(int fromPosition, int toPosition) { notifyItemMoved(fromPosition, toPosition); } @Override public void onChanged(int position, int count) { notifyItemRangeChanged(position, count); } @Override public boolean areContentsTheSame(ExampleModel oldItem, ExampleModel newItem) { return oldItem.equals(newItem); } @Override public boolean areItemsTheSame(ExampleModel item1, ExampleModel item2) { return item1 == item2; } }); private final Comparator<ExampleModel> mComparator; private final LayoutInflater mInflater; public ExampleAdapter(Context context, Comparator<ExampleModel> comparator) { mInflater = LayoutInflater.from(context); mComparator = comparator; } @Override public ExampleViewHolder onCreateViewHolder(ViewGroup parent, int viewType) { final ItemExampleBinding binding = ItemExampleBinding.inflate(mInflater, parent, false); return new ExampleViewHolder(binding); } @Override public void onBindViewHolder(ExampleViewHolder holder, int position) { final ExampleModel model = mSortedList.get(position); holder.bind(model); } public void add(ExampleModel model) { mSortedList.add(model); } public void remove(ExampleModel model) { mSortedList.remove(model); } public void add(List<ExampleModel> models) { mSortedList.addAll(models); } public void remove(List<ExampleModel> models) { mSortedList.beginBatchedUpdates(); for (ExampleModel model : models) { mSortedList.remove(model); } mSortedList.endBatchedUpdates(); } public void replaceAll(List<ExampleModel> models) { mSortedList.beginBatchedUpdates(); for (int i = mSortedList.size() - 1; i >= 0; i--) { final ExampleModel model = mSortedList.get(i); if (!models.contains(model)) { mSortedList.remove(model); } } mSortedList.addAll(models); mSortedList.endBatchedUpdates(); } @Override public int getItemCount() { return mSortedList.size(); } }
The only thing missing now is to implement the filtering!
Implementing the filter logic
To implement the filter logic we first have to define a List
of all possible models. For this example I create a List
of ExampleModel
instances from an array of movies:
private static final String[] MOVIES = new String[]{ ... }; private static final Comparator<ExampleModel> ALPHABETICAL_COMPARATOR = new Comparator<ExampleModel>() { @Override public int compare(ExampleModel a, ExampleModel b) { return a.getText().compareTo(b.getText()); } }; private ExampleAdapter mAdapter; private List<ExampleModel> mModels; private RecyclerView mRecyclerView; @Override protected void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); mBinding = DataBindingUtil.setContentView(this, R.layout.activity_main); mAdapter = new ExampleAdapter(this, ALPHABETICAL_COMPARATOR); mBinding.recyclerView.setLayoutManager(new LinearLayoutManager(this)); mBinding.recyclerView.setAdapter(mAdapter); mModels = new ArrayList<>(); for (String movie : MOVIES) { mModels.add(new ExampleModel(movie)); } mAdapter.add(mModels); }
Nothing special going on here, we just instantiate the Adapter
and set it to the RecyclerView
. After that we create a List
of models from the movie names in the MOVIES
array. Then we add all the models to the SortedList
.
Now we can go back to onQueryTextChange()
which we defined earlier and start implementing the filter logic:
@Override public boolean onQueryTextChange(String query) { final List<ExampleModel> filteredModelList = filter(mModels, query); mAdapter.replaceAll(filteredModelList); mBinding.recyclerView.scrollToPosition(0); return true; }
This is again pretty straight forward. We call the method filter()
and pass in the List
of ExampleModel
s as well as the query string. We then call replaceAll()
on the Adapter
and pass in the filtered List
returned by filter()
. We also have to call scrollToPosition(0)
on the RecyclerView
to ensure that the user can always see all items when searching for something. Otherwise the RecyclerView
might stay in a scrolled down position while filtering and subsequently hide a few items. Scrolling to the top ensures a better user experience while searching.
The only thing left to do now is to implement filter()
itself:
private static List<ExampleModel> filter(List<ExampleModel> models, String query) { final String lowerCaseQuery = query.toLowerCase(); final List<ExampleModel> filteredModelList = new ArrayList<>(); for (ExampleModel model : models) { final String text = model.getText().toLowerCase(); if (text.contains(lowerCaseQuery)) { filteredModelList.add(model); } } return filteredModelList; }
The first thing we do here is call toLowerCase()
on the query string. We don't want our search function to be case sensitive and by calling toLowerCase()
on all strings we compare we can ensure that we return the same results regardless of case. It then just iterates through all the models in the List
we passed into it and checks if the query string is contained in the text of the model. If it is then the model is added to the filtered List
.
And that's it! The above code will run on API level 7 and above and starting with API level 11 you get item animations for free!
I realize that this is a very detailed description which probably makes this whole thing seem more complicated than it really is, but there is a way we can generalize this whole problem and make implementing an Adapter
based on a SortedList
much simpler.
Generalizing the problem and simplifying the Adapter
In this section I am not going to go into much detail - partly because I am running up against the character limit for answers on Stack Overflow but also because most of it already explained above - but to summarize the changes: We can implemented a base Adapter
class which already takes care of dealing with the SortedList
as well as binding models to ViewHolder
instances and provides a convenient way to implement an Adapter
based on a SortedList
. For that we have to do two things:
- We need to create a
ViewModel
interface which all model classes have to implement - We need to create a
ViewHolder
subclass which defines abind()
method theAdapter
can use to bind models automatically.
This allows us to just focus on the content which is supposed to be displayed in the RecyclerView
by just implementing the models and there corresponding ViewHolder
implementations. Using this base class we don't have to worry about the intricate details of the Adapter
and its SortedList
.
SortedListAdapter
Because of the character limit for answers on StackOverflow I can't go through each step of implementing this base class or even add the full source code here, but you can find the full source code of this base class - I called it SortedListAdapter
- in this GitHub Gist.
To make your life simple I have published a library on jCenter which contains the SortedListAdapter
! If you want to use it then all you need to do is add this dependency to your app's build.gradle file:
compile 'com.github.wrdlbrnft:sorted-list-adapter:0.2.0.1'
You can find more information about this library on the library homepage.
Using the SortedListAdapter
To use the SortedListAdapter
we have to make two changes:
-
Change the
ViewHolder
so that it extendsSortedListAdapter.ViewHolder
. The type parameter should be the model which should be bound to thisViewHolder
- in this caseExampleModel
. You have to bind data to your models inperformBind()
instead ofbind()
.public class ExampleViewHolder extends SortedListAdapter.ViewHolder<ExampleModel> { private final ItemExampleBinding mBinding; public ExampleViewHolder(ItemExampleBinding binding) { super(binding.getRoot()); mBinding = binding; } @Override protected void performBind(ExampleModel item) { mBinding.setModel(item); } }
-
Make sure that all your models implement the
ViewModel
interface:public class ExampleModel implements SortedListAdapter.ViewModel { ... }
After that we just have to update the ExampleAdapter
to extend SortedListAdapter
and remove everything we don't need anymore. The type parameter should be the type of model you are working with - in this case ExampleModel
. But if you are working with different types of models then set the type parameter to ViewModel
.
public class ExampleAdapter extends SortedListAdapter<ExampleModel> { public ExampleAdapter(Context context, Comparator<ExampleModel> comparator) { super(context, ExampleModel.class, comparator); } @Override protected ViewHolder<? extends ExampleModel> onCreateViewHolder(LayoutInflater inflater, ViewGroup parent, int viewType) { final ItemExampleBinding binding = ItemExampleBinding.inflate(inflater, parent, false); return new ExampleViewHolder(binding); } @Override protected boolean areItemsTheSame(ExampleModel item1, ExampleModel item2) { return item1.getId() == item2.getId(); } @Override protected boolean areItemContentsTheSame(ExampleModel oldItem, ExampleModel newItem) { return oldItem.equals(newItem); } }
After that we are done! However one last thing to mention: The SortedListAdapter
does not have the same add()
, remove()
or replaceAll()
methods our original ExampleAdapter
had. It uses a separate Editor
object to modify the items in the list which can be accessed through the edit()
method. So if you want to remove or add items you have to call edit()
then add and remove the items on this Editor
instance and once you are done, call commit()
on it to apply the changes to the SortedList
:
mAdapter.edit() .remove(modelToRemove) .add(listOfModelsToAdd) .commit();
All changes you make this way are batched together to increase performance. The replaceAll()
method we implemented in the chapters above is also present on this Editor
object:
mAdapter.edit() .replaceAll(mModels) .commit();
If you forget to call commit()
then none of your changes will be applied!
Adding a 2" Filter to a 3" Visual Back
Source: https://stackoverflow.com/questions/30398247/how-to-filter-a-recyclerview-with-a-searchview
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