# Can we make 1 == 2 true? [duplicate]

Python `int`s are objects that encapsulate the actual number value. Can we mess with that value, for example setting the value of the object `1` to 2? So that `1 == 2` becomes `True`?

• Reminds me of a story about a version of Fortran where. if you passed a literal `1` to a procedure, it could set the constant `1` equal to `-1` through that reference, and thanks to the compiler merging all references to the same literal, it would then make every loop in the program run backwards. Jan 28 at 5:04
• @Davislor Passing a literal 1 sounds like a normal thing to do, and modifying an argument does as well. So, was that not even a conscious hack like mine, but could actually happen unintentionally by accident? Scary... Jan 28 at 9:30
• I tried to play a bit with github.com/clarete/forbiddenfruit but didn't manage to redefine int#__eq__ Jan 28 at 13:28
• There is a similar question with different languages in the codegolf.SE: codegolf.stackexchange.com/questions/28786/… You will find some python answers there as well. Jan 28 at 14:30

Yes, we can. But don't do this at home. Seriously, the `1` object is used in many places and I have no clue what this might break and what that might do to your computer. I reject all responsibility. But I found it interesting to learn about these things.

The `id` function gives us the memory address and the `ctypes` module lets us mess with memory:

``````import ctypes

ctypes.memmove(id(1) + 24, id(2) + 24, 4)

print(1 == 2)

x = 40
print(x + 1)
``````

Output:

``````True
42
``````

Try it online!. I tried it there because such sites have got to be protected from our hacking anyway.

More explanation / analysis:

The `memmove` copied the value from the `2` object into the `1` object. Their size is 28 bytes each, but I skipped the first 24 bytes, because that's the object's reference count, type address, and value size, as we can view/verify as well:

``````import ctypes, struct, sys

x = 1
data = ctypes.string_at(id(x), 28)
ref_count, type_address, number_of_digits, lowest_digit = \
struct.unpack('qqqi', data)

print('reference count: ', ref_count, sys.getrefcount(x))
print('number of digits:', number_of_digits, -(-x.bit_length() // 30))
print('lowest digit:    ', lowest_digit, x % 2**30)
``````

Output (Try it online!):

``````reference count:  135 138
number of digits: 1 1
lowest digit:     1 1
``````

The reference count gets increased by the `getrefcount` call, but I don't know why by 3. Anyway, ~134 things other than us reference the `1` object, and we're potentially messing all of them up, so... really don't try this at home.

The "digits" refer to how CPython stores `int`s as digits in base 230. For example, `x = 2 ** 3000` has 101 such digits. Output for `x = 123 ** 456` for a better test:

``````reference count:  1 2
number of digits: 106 106
lowest digit:     970169057 970169057
``````
• @RichardKYu I had originally used `1 + 1 == 42` as the target example, so had changed the value of `1` to 21 for that. Then when I switched to `1 == 2` as target example, I forgot to change `21` to `2` there in the code. Jan 27 at 17:03
• Obviously this works only in CPython. I'm pretty sure the Python language doesn't give any semantics to the value returned by `id` and this answer shows why using the memory address is probably not the best option... sure itis the simplest & fastest probably Jan 28 at 10:39
• For me this crashed the interpreter. Trying it with some more rarely used vales (17 and 18) did work! Jan 28 at 11:02
• @GACy20 Well, the question is tagged as being specific to CPython :-). I don't think it's obvious, though. That would require knowing it for every other implementation. How many people do? I certainly don't, I can't even name all of them. In any case, it doesn't really matter... like I said, this was just out of curiosity / for fun. I don't intend to actually use this for anything. I'm interested in how CPython works, so this was educational for me. Jan 28 at 11:45
• @Eric Duminil Ah, `range_iterator` indeed has that optimization, but it's too late! The `range` object uses the Python `1` as `step`, and then the iterator reads it's value 2. And here I was, thinking lack of that optimization might be another reason why `range` is so slow. Jan 28 at 14:03

In Python 2, there's a much simpler approach - `True` and `False` aren't protected, so you could assign things to them.

``````>>> True = False
>>> (1 == 2) is True
True
``````
• Doesn't do it the asked-about way, though. Maybe I should've kept how I phrased it in the title. Although then according to Python 2's definition of true/false, I think you could switch the values of `True` and `False` and still argue to have achieved the desired result (although still not in the requested way). Anyway, +1 from me because it at least does achieve the `(1 == 2) is True` and is interesting as well. Jan 28 at 12:16
• If `True = False` then shouldn't `False is True` be `False` (since it's `True`)? Jan 28 at 21:50
• @BlueRaja-DannyPflughoeft no, this value is distinct (resides in a different address of RAM). It's equal to the original value of `True` and compares negatively to both `True` and `False` after the reassignment. Jan 29 at 13:57
• Just some meta-thoughts: The origin of my question is that someone proposed a solution to another task where they intended to use O(1) extra memory by "marking" input numbers by negating them. I then pointed out that in Python, the negated numbers are new objects, so they took O(n) extra memory. That made me wonder whether we can modify the given int objects instead to actually achieve O(1). So what I meant was "make 1 == 2" as in "make 1 equal 2" as in "modify 1 so it equals 2". But now I'm glad I didn't express that well, as I and many others appreciate your answer to what I did express. Jan 29 at 14:01

If you'd prefer not to mess with the actual contents of cached `int` or `bool` objects, you can fake making `1 == 2` like so:

``````>>> import builtins
>>> import sys
>>>
>>> def displayhook(value):
...     if value is False:
...         value = True
...     elif value is 1:
...         value = 2
...     text = repr(value)
...     sys.stdout.write(text)
...     sys.stdout.write('\n')
...     builtins._ = value
...
<stdin>:4: SyntaxWarning: "is" with a literal. Did you mean "=="?
>>> sys.displayhook = displayhook
>>> 1
2
>>> 1 == 2
True
``````
• `'Good' if 1 == 2 else 'Bad'` will still result in `Bad` though. Jan 29 at 3:49
• For people like me, that don't know python too well, it is could be useful to know that this is an interactive interpreter session, thus `sys.displayhook()` can be used to modify the output: "this function prints repr(value) to sys.stdout". Another thing I didn't know: `_` refers to the result of the last executed statement in interactive sessions.
– void
Feb 3 at 6:52