I came across PECS (short for Producer extends and Consumer super) while reading up on generics.

Can someone explain to me how to use PECS to resolve confusion between extends and super?

up vote 639 down vote accepted

tl;dr: "PECS" is from the collection's point of view. If you are only pulling items from a generic collection, it is a producer and you should use extends; if you are only stuffing items in, it is a consumer and you should use super. If you do both with the same collection, you shouldn't use either extends or super.

Suppose you have a method that takes as its parameter a collection of things, but you want it to be more flexible than just accepting a Collection<Thing>.

Case 1: You want to go through the collection and do things with each item.
Then the list is a producer, so you should use a Collection<? extends Thing>.

The reasoning is that a Collection<? extends Thing> could hold any subtype of Thing, and thus each element will behave as a Thing when you perform your operation. (You actually cannot add anything to a Collection<? extends Thing>, because you cannot know at runtime which specific subtype of Thing the collection holds.)

Case 2: You want to add things to the collection.
Then the list is a consumer, so you should use a Collection<? super Thing>.

The reasoning here is that unlike Collection<? extends Thing>, Collection<? super Thing> can always hold a Thing no matter what the actual parameterized type is. Here you don't care what is already in the list as long as it will allow a Thing to be added; this is what ? super Thing guarantees.

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    I'm always trying to think about it this way: A producer is allowed to produce something more specific, hence extends, a consumer is allowed to accept something more general, hence super. – Feuermurmel May 7 '13 at 13:11
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    Another way to remember the producer/consumer distinction is to think of a method signature. If you have a method doSomethingWithList(List list), you are consuming the list and so will need covariance / extends (or an invariant List). On the other hand if your method is List doSomethingProvidingList, then you are producing the List and will need contravariance / super (or an invariant List). – Raman Jan 24 '14 at 19:20
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    @MichaelMyers: Why can't we simply use a parameterized type for both these cases? Is there any specific advantage of using wildcards here, or is it just a means of improving readability similar to, say, using references to const as method parameters in C++ to signify that the method does not modify the arguments? – Chatterjee May 24 '14 at 6:27
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    @Raman, I think you just confused it. In doSthWithList( you can have List<? super Thing> ), since you are a consumer, you can use super (remember, CS). However, it's List<? extends Thing> getList() since you are allowed to return something more specific when producing (PE). – masterxilo May 27 '14 at 19:08
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    @EricZhang: When you are adding to a collection, it does not matter whether or not the collection is iterable. – Michael Myers Jun 1 '17 at 0:20

The principles behind this in Computer Science is named after

  • Covariance - ? extends MyClass,
  • Contravariance - ? super MyClass and
  • Invariance/non-Variance - MyClass

The picture below should explain the concept.

Picture courtesy : Andrey Tyukin

Covariance vs Contravariance

  • 102
    Hey everyone. I'm Andrey Tyukin, I just wanted to confirm that anoopelias & DaoWen contacted me and obtained my permission to use the sketch, it's licensed under (CC)-BY-SA. Thx @ Anoop for giving it a second life^^ @Brian Agnew: (on "few votes"): That's because it's a sketch for Scala, it uses Scala syntax and assumes declaration-site variance, which is quite different to Java's weird call-site variance... Maybe I should write a more detailed answer that clearly shows how this sketch applies to Java... – Andrey Tyukin Jun 15 '14 at 23:11
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    This is one of the simplest and clearest explanations for Covariance and Contravariance that I have ever found! – cs4r May 1 '17 at 12:35
  • @Andrey Tyukin Hi, I also want to use this image. How can I contact you? – slouc Jun 2 '17 at 8:06
  • If you have any questions about this illustration, we can discuss them in the chatroom: chat.stackoverflow.com/rooms/145734/… – Andrey Tyukin Jun 2 '17 at 17:16
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PECS (short for "Producer extends and Consumer super") can be explained by : Get and Put Principle

Get And Put Principle (From Java Generics and Collections)

It states,

  1. use an extends wildcard when you only get values out of a structure
  2. use a super wildcard when you only put values into a structure
  3. and don’t use a wildcard when you both get and put.

Let's understand it by example:

1. For Extends Wildcard(get values i.e Producer extends)

Here is a method, that takes a collection of numbers, converts each to a double, and sums them up

public static double sum(Collection<? extends Number> nums) {
   double s = 0.0;
   for (Number num : nums) 
      s += num.doubleValue();
   return s;

Let's call the method :

List<Integer>ints = Arrays.asList(1,2,3);
assert sum(ints) == 6.0;
List<Double>doubles = Arrays.asList(2.78,3.14);
assert sum(doubles) == 5.92;
List<Number>nums = Arrays.<Number>asList(1,2,2.78,3.14);
assert sum(nums) == 8.92;

Since, sum() method uses extends, all of the following calls are legal. The first two calls would not be legal if extends was not used.

EXCEPTION : You cannot put anything into a type declared with an extends wildcard—except for the value null, which belongs to every reference type:

List<Integer> ints = new ArrayList<Integer>();
List<? extends Number> nums = ints;
nums.add(null);  // ok
assert nums.toString().equals("[1, 2, null]");

2. For Super Wildcard(put values i.e Consumer super)

Here is a method, that takes a collection of numbers and an int n, and puts the first n integers, starting from zero, into the collection:

public static void count(Collection<? super Integer> ints, int n) {
    for (int i = 0; i < n; i++) ints.add(i);

Let's call the method :

List<Integer>ints = new ArrayList<Integer>();
count(ints, 5);
assert ints.toString().equals("[0, 1, 2, 3, 4]");
List<Number>nums = new ArrayList<Number>();
count(nums, 5); nums.add(5.0);
assert nums.toString().equals("[0, 1, 2, 3, 4, 5.0]");
List<Object>objs = new ArrayList<Object>();
count(objs, 5); objs.add("five");
assert objs.toString().equals("[0, 1, 2, 3, 4, five]");

Since, count() method uses super, all of the following calls are legal: The last two calls would not be legal if super was not used.

EXCEPTION : you cannot get anything out from a type declared with a super wildcard—except for a value of type Object, which is a supertype of every reference type:

List<Object> objs = Arrays.<Object>asList(1,"two");
List<? super Integer> ints = objs;
String str = "";
for (Object obj : ints) str += obj.toString();
assert str.equals("1two");

3. When both Get and Put, don't Use wildcard

Whenever you both put values into and get values out of the same structure, you should not use a wildcard.

public static double sumCount(Collection<Number> nums, int n) {
   count(nums, n);
   return sum(nums);
public class Test {

    public class A {}

    public class B extends A {}

    public class C extends B {}

    public void testCoVariance(List<? extends B> myBlist) {
        B b = new B();
        C c = new C();
        myBlist.add(b); // does not compile
        myBlist.add(c); // does not compile
        A a = myBlist.get(0); 

    public void testContraVariance(List<? super B> myBlist) {
        B b = new B();
        C c = new C();
        A a = myBlist.get(0); // does not compile
  • So "? extends B" should be interpreted as "? B extends". It's something that B extends so that would include all the super classes of B up to Object, excluding B itself. Thanks for the code! – Saurabh Patil May 30 '16 at 3:47
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    @SaurabhPatil No, ? extends B means B and anything extending B. – asgs Sep 28 '16 at 6:16

PECS (Producer extends and Consumer super)

mnemonic → Get and Put principle.

This principle states that:

  • Use an extends wildcard when you only get values out of a structure.
  • Use a super wildcard when you only put values into a structure.
  • And don’t use a wildcard when you both get and put.

In Java, parameters and generic type parameters does not support inheritance as follows.

class Super {
    void testCoVariance(Object parameter){} // method Consumes the Object
    Object testContraVariance(){ return null;} //method Produces the Object

class Sub extends Super {
    void testCoVariance(String parameter){} //doesn't support eventhough String is subtype of Object

    String testContraVariance(){ return null;} //compiles successfully i.e. return type is don't care 

Liskov substitution principle: Arrays are covariant(unsafe) but Generics are not i.e. invarient(safe). i.e. Substitution Principle does not work with the parameterized types, meaning that it is illegal to write.
Covariant simply means if X is subtype of Y then X[] will also be sub type of Y[].

Object name= new String("prem"); //works
List<Number> numbers = new ArrayList<Integer>();//gets compile time error

Integer[] myInts = {1,2,3,4};
Number[] myNumber = myInts;
myNumber[0] = 3.14; //attempt of heap pollution i.e. at runtime gets java.lang.ArrayStoreException: java.lang.Double(we can fool compiler but not run-time)

List<String> list=new ArrayList<>();
List<Object> listObject=list; //Type mismatch: cannot convert from List<String> to List<Object> at Compiletime  

more examples

bounded(i.e. heading toward somewhere) wildcard : There are 3 different flavours of wildcards:

  • In-variance/Non-variance: ? or ? extends Object - Unbounded Wildcard. It stands for the family of all types. Use when you both get and put.
  • Co-variance: ? extends T (the family of all types that are subtypes of T) - a wildcard with an upper bound. T is the upper-most class in the inheritance hierarchy. Use an extends wildcard when you only Get values out of a structure.
  • Contra-variance: ? super T ( the family of all types that are supertypes of T) - a wildcard with a lower bound. T is the lower-most class in the inheritance hierarchy. Use a super wildcard when you only Put values into a structure.

Note: wildcard ? means zero or one time, represents an unknown type. The wildcard can be used as the type of a parameter, never used as a type argument for a generic method invocation, a generic class instance creation.(i.e. when used wildcard that reference not used in elsewhere in program like we use T)

enter image description here

class Shape { void draw() {}}

class Circle extends Shape {void draw() {}}

class Square extends Shape {void draw() {}}

class Rectangle extends Shape {void draw() {}}

public class TestContraVariance {
   * Example for an upper bound wildcard (Get values i.e Producer `extends`)
   * */  

    public void testCoVariance(List<? extends Shape> list) {
        list.add(new Shape()); // Error:  is not applicable for the arguments (Shape) i.e. inheritance is not supporting
        list.add(new Circle()); // Error:  is not applicable for the arguments (Circle) i.e. inheritance is not supporting
        list.add(new Square()); // Error:  is not applicable for the arguments (Square) i.e. inheritance is not supporting
        list.add(new Rectangle()); // Error:  is not applicable for the arguments (Rectangle) i.e. inheritance is not supporting
        Shape shape= list.get(0);//compiles so list act as produces only

        /*You can't add a Shape,Circle,Square,Rectangle to a List<? extends Shape> 
         * You can get an object and know that it will be an Shape
* Example for  a lower bound wildcard (Put values i.e Consumer`super`)
* */
    public void testContraVariance(List<? super Shape> list) {
        list.add(new Shape());//compiles i.e. inheritance is supporting
        list.add(new Circle());//compiles i.e. inheritance is  supporting
        list.add(new Square());//compiles i.e. inheritance is supporting
        list.add(new Rectangle());//compiles i.e. inheritance is supporting
        Shape shape= list.get(0); // Error: Type mismatch, so list acts only as consumer
        Object object= list.get(0); // gets an object, but we don't know what kind of Object it is.

        /*You can add a Shape,Circle,Square,Rectangle to a List<? extends Shape> 
        * You can't get an Shape(but can get Object) and don't know what kind of Shape it is.

generics and examples

  • Hey, I just wanted to know what you meant with the last sentense: "If you think my analogy is wrong please update". Do you mean if it is ethically wrong (which is subjective) or if it is wrong in the context of programming (which is objective: no, it's not wrong)? I would like to replace it with a more neutral example which is universally acceptable independent of cultural norms and ethical believes; If that is OK with you. – Lonely Neuron Apr 29 at 6:12

As I explain in my answer to another question, PECS is a mnemonic device created by Josh Bloch to help remember Producer extends, Consumer super.

This means that when a parameterized type being passed to a method will produce instances of T (they will be retrieved from it in some way), ? extends T should be used, since any instance of a subclass of T is also a T.

When a parameterized type being passed to a method will consume instances of T (they will be passed to it to do something), ? super T should be used because an instance of T can legally be passed to any method that accepts some supertype of T. A Comparator<Number> could be used on a Collection<Integer>, for example. ? extends T would not work, because a Comparator<Integer> could not operate on a Collection<Number>.

Note that generally you should only be using ? extends T and ? super T for the parameters of some method. Methods should just use T as the type parameter on a generic return type.

In nutshell easy to remember PECS

  1. Use the <? extends T> wildcard if you need to retrieve object of type T from a collection.
  2. Use the <? super T> wildcard if you need to put objects of type T in a collection.
  3. If you need to satisfy both things, well, don’t use any wildcard. As simple as it is.

(adding an answer because never enough examples with Generics wildcards)

       // Source 
       List<Integer> intList = Arrays.asList(1,2,3);
       List<Double> doubleList = Arrays.asList(2.78,3.14);
       List<Number> numList = Arrays.asList(1,2,2.78,3.14,5);

       // Destination
       List<Integer> intList2 = new ArrayList<>();
       List<Double> doublesList2 = new ArrayList<>();
       List<Number> numList2 = new ArrayList<>();

        // Works
        copyElements1(intList,intList2);         // from int to int
        copyElements1(doubleList,doublesList2);  // from double to double

     static <T> void copyElements1(Collection<T> src, Collection<T> dest) {
        for(T n : src){

     // Let's try to copy intList to its supertype
     copyElements1(intList,numList2); // error, method signature just says "T"
                                      // and here the compiler is given 
                                      // two types: Integer and Number, 
                                      // so which one shall it be?

     // PECS to the rescue!
     copyElements2(intList,numList2);  // possible

    // copy Integer (? extends T) to its supertype (Number is super of Integer)
    private static <T> void copyElements2(Collection<? extends T> src, 
                                          Collection<? super T> dest) {
        for(T n : src){

Remember this:

Consumer eat supper(super); Producer extends his parent's factory

protected by Andy Thomas Jun 16 '15 at 16:34

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