# What is the difference between flatten and ravel functions in numpy?

``````import numpy as np
y = np.array(((1,2,3),(4,5,6),(7,8,9)))
OUTPUT:
print(y.flatten())
[1   2   3   4   5   6   7   8   9]
print(y.ravel())
[1   2   3   4   5   6   7   8   9]
``````

Both function return the same list. Then what is the need of two different functions performing same job.

• Ravel usually returns a view into the existing array (sometimes it returns a copy). Flatten returns a new array. – Alex Mar 8 '15 at 18:55
• Possible duplicate of What is the difference between flatten and ravel in numpy? – finnw Aug 22 '16 at 2:32
• Here is a practical demonstration of subtle difference. – prosti Jan 22 '19 at 17:12
• So can someone give an example when it is better to flatten an array and when to ravel it ? – Aleksandar Mar 28 '20 at 19:00
• Thank you for asking this, I had the same question. – AndreiToroplean Oct 12 '20 at 8:31

The current API is that:

• `flatten` always returns a copy.
• `ravel` returns a view of the original array whenever possible. This isn't visible in the printed output, but if you modify the array returned by ravel, it may modify the entries in the original array. If you modify the entries in an array returned from flatten this will never happen. ravel will often be faster since no memory is copied, but you have to be more careful about modifying the array it returns.
• `reshape((-1,))` gets a view whenever the strides of the array allow it even if that means you don't always get a contiguous array.
• Any idea why NumPy developers didn't stick to one function with some parameter copy=[True,False]? – Franck Dernoncourt Nov 17 '15 at 17:49
• Backcompat guarantees sometimes cause odd things like this to happen. For example: the numpy developers recently (in 1.10) added a previously implicit guarantee that ravel would return a contiguous array (a property that is very important when writing C extensions), so now the API is `a.flatten()` to get a copy for sure, `a.ravel()` to avoid most copies but still guarantee that the array returned is contiguous, and `a.reshape((-1,))` to really get a view whenever the strides of the array allow it even if that means you don't always get a contiguous array. – IanH Nov 17 '15 at 20:59
• @Hossein IanH explained it: `ravel`guarantees a contiguous array, and so it is not guaranteed that it returns a view; `reshape` always returns a view, and so it is not guaranteed that it returns a contiguous array. – iled Feb 10 '17 at 19:49
• @Hossein That would be a whole new question. Very briefly, it is much faster to read and write to a contiguous memory space. There are several questions and answers on that here on SO (nice example here), feel free to open a new one if you have any further questions. – iled Feb 10 '17 at 20:40
• Why is it called `ravel`? What is the idea behind the name? – off99555 Jan 26 '19 at 6:49

As explained here a key difference is that:

• `flatten` is a method of an ndarray object and hence can only be called for true numpy arrays.

• `ravel` is a library-level function and hence can be called on any object that can successfully be parsed.

For example `ravel` will work on a list of ndarrays, while `flatten` is not available for that type of object.

@IanH also points out important differences with memory handling in his answer.

• thx for that info about the ravel() working on lists of `ndarray`'s – WestCoastProjects Oct 28 '18 at 2:39
• Not only lists of arrays but also lists of lists :) – timtody Jun 18 '20 at 9:51

Here is the correct namespace for the functions:

Both functions return flattened 1D arrays pointing to the new memory structures.

``````import numpy
a = numpy.array([[1,2],[3,4]])

r = numpy.ravel(a)
f = numpy.ndarray.flatten(a)

print(id(a))
print(id(r))
print(id(f))

print(r)
print(f)

print("\nbase r:", r.base)
print("\nbase f:", f.base)

---returns---
140541099429760
140541099471056
140541099473216

[1 2 3 4]
[1 2 3 4]

base r: [[1 2]
[3 4]]

base f: None
``````

In the upper example:

• the memory locations of the results are different,
• the results look the same
• flatten would return a copy
• ravel would return a view.

How we check if something is a copy? Using the `.base` attribute of the `ndarray`. If it's a view, the base will be the original array; if it is a copy, the base will be `None`.

Check if `a2` is copy of `a1`

``````import numpy
a1 = numpy.array([[1,2],[3,4]])
a2 = a1.copy()
id(a2.base), id(a1.base)
``````

Out:

``````(140735713795296, 140735713795296)
``````
• `id(a1.base)` should be the same as `id(a2.base)` – prosti Jan 29 at 12:55