# python list comprehension double for

``````vec = [[1,2,3], [4,5,6], [7,8,9]]
print [num for elem in vec for num in elem]      <----- this

>>> [1, 2, 3, 4, 5, 6, 7, 8, 9]
``````

This is tricking me out.
I understand elem is the lists inside of the list from `for elem in vic`
I don't quite understand the usage of `num` and `for num in elem` in the beginning and the end.

How does python interpret this?
What's the order it looks at?

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possible duplicate of Double Iteration in List Comprehension –  Inbar Rose Jul 15 '13 at 15:21
That is not that great a dupe target, @Inbar, because it fails to explain anything about how Python interprets the order of the nested loops. –  Martijn Pieters Jul 15 '13 at 15:27
Related / possible dupe: nested list comprehensions –  Martijn Pieters Jul 15 '13 at 15:28

Lets break it down.

A simple list-comprehension:

``````[x for x in collection]
``````

This is easy to understand if we break it into parts: `[A for B in C]`

• `A` is the item that will be in the resulting list
• `B` is each item in the collection `C`
• `C` is the collection itself.

In this way, one could write:

``````[x.lower() for x in words]
``````

In order to convert all words in a list to lowercase.

It is when we complicate this with another list like so:

``````[x for y in collection for x in y] # [A for B in C for D in E]
``````

Here, something special happens. We want our final list to include `A` items, and `A` items are found inside `B` items, so we have to tell the list-comprehension that.

• `A` is the item that will be in the resulting list
• `B` is each item in the collection `C`
• `C` is the collection itself
• `D` is each item in the collection `E` (in this case, also `A`)
• `E` is another collection (in this case, `B`)

This logic is similar to the normal for loop:

``````for y in collection:     #      for B in C:
for x in y:          #          for D in E: (in this case: for A in B)
``````

To expand on this, and give a great example + explanation, imagine that there is a train.

The train engine (the front) is always going to be there (the result of the list-comprehension)

Then, there are any number of train cars, each train car is in the form: `for x in y`

A list comprehension could look like this:

``````[z for b in a for c in b for d in c ... for z in y]
``````

Which would be like having this regular for-loop:

``````for b in a:
for c in b:
for d in c:
...
for z in y:
# have z
``````

In other words, instead of going down a line and indenting, in a list-comprehension you just add the next loop on to the end.

To go back to the train analogy:

`Engine` - `Car` - `Car` - `Car` ... `Tail`

What is the tail? The tail is a special thing in list-comprehensions. You don't need one, but if you have a tail, the tail is a condition, look at this example:

``````[line for line in file if not line.startswith('#')]
``````

This would give you every line in a file as long as the line didn't start with a hashtag (`#`), others are just skipped.

The trick to using the "tail" of the train is that it is checked for True/False at the same time as you have your final 'Engine' or 'result' from all the loops, the above example in a regular for-loop would look like this:

``````for line in file:
if not line.startswith('#'):
# have line
``````

please note: Though in my analogy of a train there is only a 'tail' at the end of the train, the condition or 'tail' can be after every 'car' or loop...

for example:

``````>>> z = [[1,2,3,4],[5,6,7,8],[9,10,11,12]]
>>> [x for y in z if sum(y)>10 for x in y if x < 10]
[5, 6, 7, 8, 9]
``````

In regular for-loop:

``````>>> for y in z:
if sum(y)>10:
for x in y:
if x < 10:
print x

5
6
7
8
9
``````
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Your answer implies you can only use an `if` statement at the end of a list comprehension. That is not true. You can use if statements at any level in your list comprehensions, even put several after one another (albeit that that looks a little nonsensical until you realize they are nested). You just cannot use an `if` as the first item, that has to be a `for` loop. –  Martijn Pieters Jul 15 '13 at 16:00
You are right, I did not mean to imply that, I will make it more clear. –  Inbar Rose Jul 15 '13 at 16:01
I must say that your explanation vastly overcomplicates things. Especially when you start expanding `A for B in C for D in E` into a nested loop with `for B in C:` and `for A in B`, discarding the `for D in E` part. –  Martijn Pieters Jul 15 '13 at 16:04

``````temp = []
for elem in vec:
for num in elem:
temp.append(num)
``````
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Note that the `for` statements are written in the list comprehension in the same order they'd be written if you just wrote regular `for` loops as above. –  kindall Jul 15 '13 at 15:23

From the list comprehension documentation:

When a list comprehension is supplied, it consists of a single expression followed by at least one `for` clause and zero or more `for` or `if` clauses. In this case, the elements of the new list are those that would be produced by considering each of the for or if clauses a block, nesting from left to right, and evaluating the expression to produce a list element each time the innermost block is reached.

In other words, pretend that the `for` loops are nested. Reading from left to right your list comprehension can be nested as:

``````for elem in vec:
for num in elem:
num           # the *single expression* from the spec
``````

where the list comprehension will use that last, innermost block as the values of the resulting list.

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