After reading answer1 and answer2, purpose of yield still looks unclear.

In this first case, with the below function,

def createGenerator():
   mylist = range(3)
   for i in mylist:
      yield i*i

On invoking createGenerator, below,

myGenerator = createGenerator()

should return object(like (x*x for x in range(3))) of type collections.abc.Generator type, is-a collections.abc.Iterator & collections.abc.Iterable

To iterate over myGenerator object and get first value(0),


would actually make for loop of createGenerator function to internally invoke __iter__(myGenerator) and retrieve collections.abc.Iterator type object( obj(say) ) and then invoke __next__(obj) to get first value(0) followed by the pause of for loop using yield keyword

If this understanding(above) is correct, then,

then, does the below syntax(second case),

def createGenerator():
   return (x*x for x in range(3))
myGen = createGenerator() # returns collections.abc.Generator type object
next(myGen) # next() must internally  invoke __next__(__iter__(myGen)) to provide first value(0) and no need to pause

wouldn't suffice to serve the same purpose(above) and looks more readable? Aren't both syntax memory efficient? If yes, then, when should I use yield keyword? Is there a case, where yield could be a must use?

  • 1
    Generator expressions are comprehension constructs. They are much more restrictive on the types of things you can do inside of them. For example, you can't have compound statements. There are ways around this, but I consider this analogous to "When should I use a for-loop" vs "when should I use a comprehension". Use the one that is more readable at the time, or the one that makes your life easier. – juanpa.arrivillaga Jun 15 '17 at 23:09
  • 2
    What happens when you don't have uniform data to return? Yes, when your generator is just a glorified wrapper around an iterator you don't need yield, but more often than not that's not the case. – zwer Jun 15 '17 at 23:11
  • 1
    No, not at all. I find the yield syntax very clear. – juanpa.arrivillaga Jun 15 '17 at 23:11
  • 2
    Try to make the thing returned by createGenerator accept new information each time next is called and you will then understand why yield exists. In the example you gave, you knew the things you wanted to have the generator spit out when you wrote the code, but some times (often) you need to be able to pass stuff into the generator, let it compute something, and yield that new computed thing. – DanielSank Jun 15 '17 at 23:12
  • 1
    Same reason we have def instead of trying to write all our functions with lambda. Same reason we don't create every list with a list comprehension. Genexps are syntactically very limited; they can't express much. – user2357112 Jun 15 '17 at 23:15

Try doing this without yield

def func():
    x = 1
    while 1:
        y = yield x
        x += y

f = func()
f.next()  # Returns 1
f.send(3)  # returns 4
f.send(10)  # returns 14

The generator has two important features:

  1. The generator some state (the value of x). Because of this state, this generator could eventually return any number of results without using huge amounts of memory.

  2. Because of the state and the yield, we can provide the generator with information that it uses to compute its next output. That value is assigned to y when we call send.

I don't think this is possible without yield. That said, I'm pretty sure that anything you can do with a generator function can also be done with a class.

Here's an example of a class that does exactly the same thing (python 2 syntax):

class MyGenerator(object):
    def __init__(self):
        self.x = 1

    def next(self):
        return self.x

    def send(self, y):
        self.x += y
        return self.next()

I didn't implement __iter__ but it's pretty obvious how that should work.

  • So, when you invoke func(), Generator type object(say obj) gets returned. What does that object(obj) looks like? On that object, if you run next(), then __next(__iter(obj)) should be invoked internally by while. How do I visualise that Generator type object, in your answer? In my query, I know my Generator type object is (x*x for x in range(3)), in both cases. Isn't it? – overexchange Jun 15 '17 at 23:28
  • @overexchange See the most recent edit for an example of a class that behaves exactly like the generator function. Perhaps this will give you a mental model of how to visualize the generator, as you requested. – DanielSank Jun 15 '17 at 23:46
  • This answer says, each yield is replaced with list append(). So, how would I write a function replacing yield keyword? – overexchange Jun 17 '17 at 22:35
  • @overexchange The answer you linked is incomplete at best, and I'd say it's actually flat out wrong. That answer does not show how to get the effect of sending into a generator. Please read my answer again. – DanielSank Jun 17 '17 at 22:39
  • For such examples, probably replacing with append() would make sense, where there is no chance to send() – overexchange Jun 17 '17 at 23:06

Think of yield as a "lazy return". In your second example, your function does not return a "generator of values", but rather a fully evaluated list of values. This may be perfectly acceptable depending on the use case. Yield is useful when proccessing large batches of streamed data, or when dealing with data that is not immediately available (think asynchronous operations).

  • Wow Im slow. 0 replies when I started typing. – drkstr1 Jun 15 '17 at 23:23
  • 2
    No it doesn't, the second function also returns a generator - it's just that the genexpr is implicit. – zwer Jun 15 '17 at 23:24

There already is a good answer about the capability to send data into a generator with yield. Regarding just readability considerations, while certainly simple, straightforward transformations can be more readable as generator expressions:

(x + 1 for x in iterable if x%2 == 1)

Certain operations are easier to read and understand using a full generator definition. Certain cases are a headache to fit into a generator expression, try the following:

>>> x = ['arbitrarily', ['nested', ['data'], 'can', [['be'], 'hard'], 'to'], 'reach']
>>> def flatten_list_of_list(lol):
...     for l in lol:
...         if isinstance(l, list):
...             yield from flatten_list_of_list(l)
...         else:
...             yield l
>>> list(flatten_list_of_list(x))
['arbitrarily', 'nested', 'data', 'can', 'be', 'hard', 'to', 'reach']

Sure, you might be able to hack up a solution that fits on a single line using lambdas to achieve recursion, but it will be an unreadable mess. Now imagine I had some arbitrarily nested data-structure that involved list and dict, and I have logic to handle both cases... you get the point I think.

  • yield from doesn't run on Py2. It bugs me that is was needlessly added to the Py3 version of argparse (replacing a for i in x: yield i with a yield from x). – hpaulj Jun 16 '17 at 0:49
  • @hpaulj I like the yield from syntax. I think it is very Pythonic. Although I learned to love Python on Py2, I've fully embraced Py3 by now. – juanpa.arrivillaga Jun 16 '17 at 8:48

The generator function and the generator comprehension are basically same - both produce generator objects:

In [540]: def createGenerator(n):
     ...:     mylist = range(n)
     ...:     for i in mylist:
     ...:         yield i*i
In [541]: g = createGenerator(3)
In [542]: g
Out[542]: <generator object createGenerator at 0xa6b2180c>

In [545]: gl = (i*i for i in range(3))
In [546]: gl
Out[546]: <generator object <genexpr> at 0xa6bbbd7c>

In [547]: list(g)
Out[547]: [0, 1, 4]
In [548]: list(gl)
Out[548]: [0, 1, 4]

Both g and gl have the same attributes; produce the same values; run out in the same way.

Just as with a list comprehension, there are things you can do in the explicit loop that you can't with the comprehension. But if the comprehension does the job, use it. Generators were added to Python sometime around version 2.2. Generator comprehensions are newer (and probably use the same underlying mechanism).

In Py3 range, or Py2 xrange produces values one at a time, as opposed to a whole list. It's a range object, not a generator, but works in much the same way. Py3 has extended this in other ways, such as the dictionary keys and map. Sometimes that's a convenience, other times I forget to wrap them in the list().

The yield can be more elaborate, allowing 'feedback' for the caller. e.g.

In [564]: def foo(n):
     ...:     i = 0
     ...:     while i<n:
     ...:         x = yield i*i
     ...:         if x is None:
     ...:             i += 1
     ...:         else:
     ...:             i = x

In [576]: f = foo(3)
In [577]: next(f)
Out[577]: 0
In [578]: f.send(-3)    # reset the counter
Out[578]: 9
In [579]: list(f)
Out[579]: [4, 1, 0, 1, 4]

The way I think of an generator operating is that creation initializes an object with code and initial state. next() runs it up to the yield, and returns that value. The next next() lets it spin again until it hits a yield, and so on until it hits a stop iteration condition. So it's a function that maintains an internal state, and can called repeatedly with the next or for iteration. With send and yield from and so on generators can be much more sophisticated.

Normally a function runs until done, and returns. The next call to the function is independent of the first - unless you use globals or error prone defaults.

https://www.python.org/dev/peps/pep-0289/ is the PEP for generator expressions, from v 2.4.

This PEP introduces generator expressions as a high performance, memory efficient generalization of list comprehensions [1] and generators [2] .

https://www.python.org/dev/peps/pep-0255/ PEP for generators, v.2.2

  • 1
    I think it's important to note that a major feature associated with yield is that it brings data into the generator. This is in line with the distinction between an explicit loop and a comprehension because an explicit loop can have a line that waits for I/O or whatever. – DanielSank Jun 15 '17 at 23:51
  • Even I have to look up the syntax for more elaborate uses of yield - such as my new example using send to reset the counter. – hpaulj Jun 16 '17 at 0:03

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