What is the use of the yield keyword in Python? What does it do?

For example, I'm trying to understand this code1:

def _get_child_candidates(self, distance, min_dist, max_dist):
    if self._leftchild and distance - max_dist < self._median:
        yield self._leftchild
    if self._rightchild and distance + max_dist >= self._median:
        yield self._rightchild  

And this is the caller:

result, candidates = [], [self]
while candidates:
    node = candidates.pop()
    distance = node._get_dist(obj)
    if distance <= max_dist and distance >= min_dist:
    candidates.extend(node._get_child_candidates(distance, min_dist, max_dist))
return result

What happens when the method _get_child_candidates is called? Is a list returned? A single element? Is it called again? When will subsequent calls stop?

1. The code comes from Jochen Schulz (jrschulz), who made a great Python library for metric spaces. This is the link to the complete source: Module mspace.

41 Answers 41


Yet another TL;DR

Iterator on list: next() returns the next element of the list

Iterator generator: next() will compute the next element on the fly (execute code)

You can see the yield/generator as a way to manually run the control flow from outside (like continue loop one step), by calling next, however complex the flow.

Note: The generator is NOT a normal function. It remembers the previous state like local variables (stack). See other answers or articles for detailed explanation. The generator can only be iterated on once. You could do without yield, but it would not be as nice, so it can be considered 'very nice' language sugar.


yield is similar to return. The difference is:

yield makes a function iterable (in the following example primes(n = 1) function becomes iterable).
What it essentially means is the next time the function is called, it will continue from where it left (which is after the line of yield expression).

def isprime(n):
    if n == 1:
        return False
    for x in range(2, n):
        if n % x == 0:
            return False
        return True

def primes(n = 1):
       if isprime(n): yield n
       n += 1 

for n in primes():
    if n > 100: break

In the above example if isprime(n) is true it will return the prime number. In the next iteration it will continue from the next line

n += 1  

All of the answers here are great; but only one of them (the most voted one) relates to how your code works. Others are relating to generators in general, and how they work.

So I won't repeat what generators are or what yields do; I think these are covered by great existing answers. However, after spending few hours trying to understand a similar code to yours, I'll break it down how it works.

Your code traverse a binary tree structure. Let's take this tree for example:

   / \
  3   6
 / \   \
1   4   8

And another simpler implementation of a binary-search tree traversal:

class Node(object):
def __iter__(self):
    if self.has_left_child():
        for child in self.left:
            yield child

    yield self.val

    if self.has_right_child():
        for child in self.right:
            yield child

The execution code is on the Tree object, which implements __iter__ as this:

def __iter__(self):

    class EmptyIter():
        def next(self):
            raise StopIteration

    if self.root:
        return self.root.__iter__()
    return EmptyIter()

The while candidates statement can be replaced with for element in tree; Python translate this to

it = iter(TreeObj)  # returns iter(self.root) which calls self.root.__iter__()
for element in it: 
    .. process element .. 

Because Node.__iter__ function is a generator, the code inside it is executed per iteration. So the execution would look like this:

  1. root element is first; check if it has left childs and for iterate them (let's call it it1 because its the first iterator object)
  2. it has a child so the for is executed. The for child in self.left creates a new iterator from self.left, which is a Node object itself (it2)
  3. Same logic as 2, and a new iterator is created (it3)
  4. Now we reached the left end of the tree. it3 has no left childs so it continues and yield self.value
  5. On the next call to next(it3) it raises StopIteration and exists since it has no right childs (it reaches to the end of the function without yield anything)
  6. it1 and it2 are still active - they are not exhausted and calling next(it2) would yield values, not raise StopIteration
  7. Now we are back to it2 context, and call next(it2) which continues where it stopped: right after the yield child statement. Since it has no more left childs it continues and yields it's self.val.

The catch here is that every iteration creates sub-iterators to traverse the tree, and holds the state of the current iterator. Once it reaches the end it traverse back the stack, and values are returned in the correct order (smallest yields value first).

Your code example did something similar in a different technique: it populated a one-element list for every child, then on the next iteration it pops it and run the function code on the current object (hence the self).

I hope this contributed a little to this legendary topic. I spent several good hours drawing this process to understand it.


In short, the usage of yield is similar to the keyword return, except that it returns a generator.
A generator object traverses for only once.

yield has two benefits:

  1. You do not need to read these values twice;
  2. You can get many child nodes without putting them all in memory.

In Python generators (a special type of iterators) are used to generate series of values and yield keyword is just like the return keyword of generator functions.

The other fascinating thing yield keyword does is saving the state of a generator function.

So, we can set a number to a different value each time the generator yields.

Here's an instance:

def getPrimes(number):
    while True:
        if isPrime(number):
            number = yield number     # a miracle occurs here
        number += 1

def printSuccessivePrimes(iterations, base=10):
primeGenerator = getPrimes(base)
for power in range(iterations):
    print(primeGenerator.send(base ** power))


>>> def create_generator():
...    my_list = range(3)
...    for i in my_list:
...        yield i*i
>>> my_generator = create_generator() # create a generator
>>> print(my_generator) # my_generator is an object!
<generator object create_generator at 0xb7555c34>
>>> for i in my_generator:
...     print(i)

In short, you can see that the loop does not stop and continues to function even after the object or variable is sent (unlike return where the loop stops after execution).


yield Is a type of Generator that can be used in python.

here is a link to see what Yield really does, Also in generation. Generators & Yield Keyword - Python Central(PC)

Also yield works like return, But in a different way than return. Even there's a link that explains yield more, If you don't understand the other one not so well. Improve your yield skill - jeffknupp

  • While these links may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. See meta.stackexchange.com/q/8231 – Adrian W Dec 3 '18 at 19:39

In simplest words, 'yield' is similar to 'return' a value, but it works on Generator.

  • and why not just use print? – SarahData Aug 16 '18 at 14:17

In simple yield returns the generator object instead of values.

Below simple example will help !

def sim_generator():
    for i in range(3):

obj = sim_generator()
next(obj) # another way is obj.__next__()

the above code returns 0, 1, 2

or even short

for val in sim_generator():

return 0, 1, 2

Hope this helps


A simple generator function

def my_gen():
    n = 1
    print('This is printed first')
    # Generator function contains yield statements
    yield n

    n += 1
    print('This is printed second')
    yield n

    n += 1
    print('This is printed at last')
    yield n

yield statement pauses the function saving all its states and later continues from there on successive calls.



yield yields something. It's like somebody asks you to make 5 cup cakes. If you are done with at-least one cup cake, you can give it to them to eat while you make other cakes.

In [4]: def make_cake(numbers):
   ...:     for i in range(numbers):
   ...:         yield 'Cake {}'.format(i)

In [5]: factory = make_cake(5)

Here factory is called generator, which makes you cakes. If you call make_function, you get a generator instead of running that function. It is because when yield keyword is present in a function, it becomes a generator.

In [7]: next(factory)
Out[7]: 'Cake 0'

In [8]: next(factory)
Out[8]: 'Cake 1'

In [9]: next(factory)
Out[9]: 'Cake 2'

In [10]: next(factory)
Out[10]: 'Cake 3'

In [11]: next(factory)
Out[11]: 'Cake 4'

They consumed all cakes, but they ask for one again.

In [12]: next(factory)
StopIteration                             Traceback (most recent call last)
<ipython-input-12-0f5c45da9774> in <module>
----> 1 next(factory)


and they are being told to stop asking more. So once you consumed a generator you are done with it. You need call make_cake again if you want more cakes. It is like placing another order for cup cakes.

In [13]: factory = make_cake(3)

In [14]: for cake in factory:
    ...:     print(cake)
Cake 0
Cake 1
Cake 2

You can also use for loop with a generator like the one above.

One more example: Lets say you want a random password whenever you ask for it.

In [22]: import random

In [23]: import string

In [24]: def random_password_generator():
    ...:     while True:
    ...:         yield ''.join([random.choice(string.ascii_letters) for _ in range(8)])

In [25]: rpg = random_password_generator()

In [26]: for i in range(3):
    ...:     print(next(rpg))

In [27]: next(rpg)
Out[27]: 'mJbYRMNo'

Here rpg is a generator, which can generate infinite number of random passwords. So we can also say that generators are useful when we don't know the length of sequence unlike list which has finite number of elements.

protected by wim Feb 11 '13 at 1:48

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