# Why is range(0) == range(2, 2, 2) True in Python 3?

Why do ranges which are initialized with different values compare equal to one another in Python 3?

When I execute the following commands in my interpreter:

>>> r1 = range(0)
>>> r2 = range(2, 2, 2)
>>> r1 == r2
True

The result is True. Why is this so? Why are two different range objects with different parameter values treated as equal?

• A short but IMHO sufficient answer would also be "because both ranges are equal". Note the difference between is and ==. – Jasper Jan 26 '16 at 20:42

### The range objects are special:

Python will compare range objects as Sequences. What that essentially means is that the comparison doesn't evaluate how they represent a given sequence but rather what they represent.

The fact that the start, stop and step parameters are completely different plays no difference here because they all represent an empty list when expanded:

For example, the first range object:

list(range(0))  # []

and the second range object:

list(range(2, 2, 2)) # []

Both represent an empty list and since two empty lists compare equal (True) so will the range objects that represent them.

As a result, you can have completely different looking range objects; if they represent the same sequence they will compare equal:

range(1, 5, 100) == range(1, 30, 100)

Both represent a list with a single element [1] so these two will also compare equal.

### No, range objects are really special:

Do note, though, that even though the comparison doesn't evaluate how they represent a sequence the result of comparing can be achieved using solely the values of start, step along with the len of the range objects; this has very interesting implications with the speed of comparisons:

r0 = range(1, 1000000)
r1 = range(1, 1000000)

l0 = list(r0)
l1 = list(r1)

Ranges compares super fast:

%timeit r0 == r1
The slowest run took 28.82 times longer than the fastest. This could mean that an intermediate result is being cached
10000000 loops, best of 3: 160 ns per loop

on the other hand, the lists..

%timeit l0 == l1
10 loops, best of 3: 27.8 ms per loop

Yeah..

As @SuperBiasedMan noted, this only applies to the range objects in Python 3. Python 2 range() is a plain ol' function that returns a list while the 2.x xrange object doesn't have the comparing capabilies (and not only these..) that range objects have in Python 3.

Look at @ajcr's answer for quotes directly from the source code on Python 3 range objects. It's documented in there what the comparison between two different ranges actually entails: Simple quick operations. The range_equals function is utilized in the range_richcompare function for EQ and NE cases and assigned to the tp_richcompare slot for PyRange_Type types.

I believe the implementation of range_equals is pretty readable (because it is nice as simple) to add here:

/* r0 and r1 are pointers to rangeobjects */

/* Check if pointers point to same object, example:
>>> r1 = r2 = range(0, 10)
>>> r1 == r2
obviously returns True. */
if (r0 == r1)
return 1;

/* Compare the length of the ranges, if they are equal
the checks continue. If they are not, False is returned. */
cmp_result = PyObject_RichCompareBool(r0->length, r1->length, Py_EQ);
/* Return False or error to the caller
>>> range(0, 10) == range(0, 10, 2)
fails here */
if (cmp_result != 1)
return cmp_result;

/* See if the range has a lenght (non-empty). If the length is 0
then due to to previous check, the length of the other range is
equal to 0. They are equal. */
cmp_result = PyObject_Not(r0->length);
/* Return True or error to the caller.
>>> range(0) == range(2, 2, 2)  # True
(True) gets caught here. Lengths are both zero. */
if (cmp_result != 0)
return cmp_result;

/* Compare the start values for the ranges, if they don't match
then we're not dealing with equal ranges. */
cmp_result = PyObject_RichCompareBool(r0->start, r1->start, Py_EQ);
/* Return False or error to the caller.
lens are equal, this checks their starting values
>>> range(0, 10) == range(10, 20)  # False
Lengths are equal and non-zero, steps don't match.*/
if (cmp_result != 1)
return cmp_result;

/* Check if the length is equal to 1.
If start is the same and length is 1, they represent the same sequence:
>>> range(0, 10, 10) == range(0, 20, 20)  # True */
one = PyLong_FromLong(1);
if (!one)
return -1;
cmp_result = PyObject_RichCompareBool(r0->length, one, Py_EQ);
Py_DECREF(one);
/* Return True or error to the caller. */
if (cmp_result != 0)
return cmp_result;

/* Finally, just compare their steps */
return PyObject_RichCompareBool(r0->step, r1->step, Py_EQ);

I've also scattered some of my own comments here; look at @ajcr's answer for the Python equivalent.

• Would it also compare equal to a list with the same contents? Is this guaranteed somewhere, or just an interesting side effect of an implementation? – Mark Ransom Jan 25 '16 at 23:46
• @MarkRansom It doesn't, equality across sequence types results in inequality. I believe it is mentioned in the reference manual on comparisons, I'll try and find the relevant part and add it to the answer. – Jim Fasarakis Hilliard Jan 26 '16 at 0:00
• You might want to note that this all only applies to Python 3. In 2, range returns a normal list, and xrange returns an xrange type object, which doesn't do the intelligent comparison. xrange(0) == xrange(2, 2, 2) returns False. – SuperBiasedMan Jan 26 '16 at 16:14

Direct quote from the docs (emphasis mine):

Testing range objects for equality with == and != compares them as sequences. That is, two range objects are considered equal if they represent the same sequence of values. (Note that two range objects that compare equal might have different start, stop and step attributes, for example range(0) == range(2, 1, 3) or range(0, 3, 2) == range(0, 4, 2).)

If you compare ranges with the "same" list, you'll get inequality, as stated in the docs as well:

Objects of different types, except different numeric types, never compare equal.

Example:

>>> type(range(1))
<class 'range'>
>>> type([0])
<class 'list'>
>>> [0] == range(1)
False
>>> [0] == list(range(1))
True

Note that this explicitly only applies to Python 3. In Python 2, where range just returns a list, range(1) == [0] evaluates as True.

if r0 is r1:                 # True if r0 and r1 are same object in memory
return True
if len(r0) != len(r1):       # False if different number of elements in sequences
return False
if not len(r0):              # True if r0 has no elements
return True
if r0.start != r1.start:     # False if r0 and r1 have different start values
return False
if len(r0) == 1:             # True if r0 has just one element
return True
return r0.step == r1.step    # if we made it this far, compare step of r0 and r1

The length of a range object is easily to calculate using the start, stop and step parameters. In the case where start == stop, for example, Python can immediately know that the length is 0. In non-trivial cases, Python can just do a simple arithmetic calculation using the start, stop and step values.

So in the case of range(0) == range(2, 2, 2), Python does the following:

1. sees that range(0) and range(2, 2, 2) are different objects in memory.
2. computes the length of both objects; both lengths are 0 (because start == stop in both objects) so another test is needed.
3. sees that len(range(0)) is 0. This means that len(range(2, 2, 2)) is also 0 (the previous test for inequality failed) and so the comparison should return True.
• I just edited my answer to add exactly this, was going to also add the quote from the source but I can now link it my answer to yours. – Jim Fasarakis Hilliard Jan 26 '16 at 12:54
• Thanks for linking, @Jim. Your answer (and the others) addresses the question perfectly - mine was really just a footnote intended for people who might be curious about the CPython implementation. – Alex Riley Jan 26 '16 at 13:06
• Yup, I'm one of those interested, literally had the hg.python tab open when I noticed a new answer. No need to add it now, you got that covered :-) – Jim Fasarakis Hilliard Jan 26 '16 at 13:09
• In 2. Do you mean "both lengths are the same, so another test is needed"? – gnasher729 Jan 27 '16 at 11:57
• @gnasher729: yep, that's it. Thanks, I'll edit for clarity. – Alex Riley Jan 27 '16 at 11:59

res = range(0) == range(2, 2, 2)

Where:

range(0)

means the range from 0 to 0 - 0 steps (here step equals to default value 1), list without values.

range(2, 2, 2)

means the range from 2 to 2 with step equals to 2, list without values.

So, these ranges are really equal

range(0) returns range(0,0). You start from 0 up to 0 with step 1, which is undefined since the third argument can't be 0 [by default]. You can't reach 0 with 1. No counter's action in place, therefore 0.

range(2, 2, 2) returns range(2, 2, 2). You start from 2 up to 2 but with step of 2. Which again, is basically 0 since you don't count up to anything.

range(0) == range(2,2,2)

True and exactly the same.

• range(2,2,2) is in no way "basically 0" – Jasper Jan 26 '16 at 11:18