I learn the use of ViewHolder from an offical sample named UserViewHolder.

public class UserViewHolder extends RecyclerView.ViewHolder {

static UserViewHolder create(LayoutInflater inflater, ViewGroup parent) {
    UserItemBinding binding = UserItemBinding
        .inflate(inflater, parent, false);
    return new UserViewHolder(binding);

  private UserItemBinding mBinding;

  private UserViewHolder(UserItemBinding binding) {
    mBinding = binding;

  public void bindTo(User user) {


I'm going to write many ViewHolder classes, so I hope I can write an abstract class. In Java, it looks like:

public abstract  static class BaseViewHolder {

abstract static BaseViewHolder create()

abstract void bindTo()


I try to write it using Kotlin , but finally I find that it's not as simple as it in Java.

abstract class BaseViewHolder(itemView: View):RecyclerView.ViewHolder(itemView) {

abstract fun bindTo(viewModel: BaseViewModel)


In Kotlin, if I want a static function, I need to write the function in "companion objects". But it can't be a "abstract".

In Java, a abstract class with abstract classes is common.

But how can I write it in Kotlin?


I have wrote my own SleepViewHolder. I'm going to write lots of ViewHolder, such as AppleViewHolder, BananaViewHolder and so on. So I want to build a BaseViewHolder as a pattern. My question is that, in that case, what's the best way to write the pattern BaseViewHolder? Should I change the constrcuter of it, or make the create function public?

open class SleepViewHolder private constructor(private val binding: ItemSleepBinding)
: RecyclerView.ViewHolder(binding.root) {

companion object {
    fun create(inflater: LayoutInflater, parent: ViewGroup): SleepViewHolder {

        val binding: ItemSleepBinding
                = DataBindingUtil.inflate(inflater, R.layout.fragment_base, parent, false)

        return SleepViewHolder(binding)

open fun bindTo(viewmodel: SleepViewModel) {
    binding.vm = viewmodel



In Kotlin, unlike Java or C#, classes do not have static methods. In most cases, it's recommended to simply use package-level functions instead.

If you need to write a function that can be called without having a class instance but needs access to the internals of a class (for example, a factory method), you can write it as a member of an object declaration inside that class.

Even more specifically, if you declare a companion object inside your class, you'll be able to call its members with the same syntax as calling static methods in Java/C#, using only the class name as a qualifier.

This is how you can write a companion class

class MyClass {
   companion object { } // will be called "Companion"
fun MyClass.Companion.foo() { // ...

this is how you call foo() function...


By default, nested classes are static in Kotlin. So you don't have to add any modifier before your class name. You can refer to the example I presented below as a starting point.

Note: ItemFruit is superclass of both ItemApple and ItemBanana

class ExampleAdapter: RecyclerView.Adapter<ExampleAdapter.BaseViewHolder<ItemFruit>>(){

    override fun onCreateViewHolder(parent: ViewGroup, viewType: Int): DynamicSpinnerAdapter.ViewHolder {
            VIEW_TYPE_BANANA -> BananaViewHolder(....)  // Inflate your view Banana layout here
            VIEW_TYPE_APPLE  -> AppleViewHolder(....)   // Inflate your view Banana layout here
            else             ->                         // Do something for default case

    override fun onBindViewHolder(holder: BaseViewHolder<ItemFruit>, position: Int){
        holder.bind(itemAppleOrBanana)      // binds your item to corresponding view

    override fun getItemViewType(position: Int): Int {
        return when (position){
            condition_banana -> VIEW_TYPE_BANANA
            condition_apple  -> VIEW_TYPE_BANANA
            else             -> VIEW_TYPE_NONE

    inner class BananaViewHolder(itemView: View): BaseViewHolder<ItemBanana>(itemView) {
        override fun bind(item: ItemBanana) {
            // Implement your logic

    inner class AppleViewHolder(itemView: View): BaseViewHolder<ItemApple>(itemView) {
        override fun bind(item: ItemApple) {
            // Implement your logic

    inner abstract class BaseViewHolder<T>(itemView: View) : RecyclerView.ViewHolder(itemView){

        internal abstract fun bind(item: T)

    internal abstract inner class GenericViewHolder<T>(itemView: View) :
        RecyclerView.ViewHolder(itemView) {

        internal abstract fun bind(item: T, position: Int)

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