# Counterintuitive behaviour of int() in python

It's clearly stated in the docs that int(number) is a flooring type conversion:

``````int(1.23)
1
``````

and int(string) returns an int if and only if the string is an integer literal.

``````int('1.23')
ValueError

int('1')
1
``````

Is there any special reason for that? I find it counterintuitive that the function floors in one case, but not the other.

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Maybe they thought one operation per cast is better than two operations per one cast. – tuple_cat Mar 18 at 13:13
`int(1.23)` is not a cast; it's a conversion. While `"1"` is a string representation of the integer 1, `1.23` is not a floating-point representation of `1` (that would be `1.0`). – chepner Mar 18 at 13:14
Well, it does give us a simple way to convert a numerical string to an int if it is a "pure" integer, or to a float if it isn't, as shown in this answer. Note that that technique will convert `'12.0'` to a float because it's not a pure integer. – PM 2Ring Mar 18 at 13:16
Consider the Zen of Python: "Explicit is better than implicit". If you're expecting integers, and the user inputs a float, it's better to fail (or be prepared and catch the exception) than to silently change the input without anybody being aware of this happening. – Tim Pietzcker Mar 18 at 13:23
Because it's python, not javascript ;-) – Tommy Mar 18 at 15:33

There is no special reason. Python is simply applying its general principle of not performing implicit conversions, which are well-known causes of problems, particularly for newcomers, in languages such as Perl and Javascript.

`int(some_string)` is an explicit request to convert a string to integer format; the rules for this conversion specify that the string must contain a valid integer literal representation. `int(float)` is an explicit request to convert a float to an integer; the rules for this conversion specify that the float's fractional portion will be truncated.

In order for `int("3.1459")` to return `3` the interpreter would have to implicitly convert the string to a float. Since Python doesn't support implicit conversions, it chooses to raise an exception instead.

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in both cases, I disagree with the use of the term "cast", I would rather use "conversion", or even "parsing" in the case of `int(string)` – njzk2 Mar 18 at 20:48
Please note that actually `int` is a class, not a function. When you write `int("1.23")`, the string `"1.23"` is passed to constructor (`__init__`) of int class, which is Python's class for built-in integers. – Hannes Karppila Mar 18 at 22:42
@Random832 The final version Python 2.1 was released in 2001... – Navin Mar 19 at 4:34
@HannesKarppila In Python that's pretty much irrelevant, isn't it? What matters is that it's callable, and the behaviour it has when called. (See `type`, which is another class that can be called like a function) – immibis Mar 19 at 8:59
Enough with the nitpicking, please. This answer was written for someone who simply wanted to know why they couldn't call `int()` with a string literal floating point number as an argument. I doubt the point-scoring will help. – holdenweb Mar 20 at 16:21

This is almost certainly a case of applying three of the principles from the Zen of Python:

Explicit is better implicit.

[...] practicality beats purity

Errors should never pass silently

Some percentage of the time, someone doing `int('1.23')` is calling the wrong conversion for their use case, and wants something like `float` or `decimal.Decimal` instead. In these cases, it's clearly better for them to get an immediate error that they can fix, rather than silently giving the wrong value.

In the case that you do want to truncate that to an int, it is trivial to explicitly do so by passing it through `float` first, and then calling one of `int`, `round`, `trunc`, `floor` or `ceil` as appropriate. This also makes your code more self-documenting, guarding against a later modification "correcting" a hypothetical silently-truncating `int` call to `float` by making it clear that the rounded value is what you want.

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Sometimes a thought experiment can be useful.

• Behavior A: `int('1.23')` fails with an error. This is the existing behavior.
• Behavior B: `int('1.23')` produces `1` without error. This is what you're proposing.

With behavior A, it's straightforward and trivial to get the effect of behavior B: use `int(float('1.23'))` instead.

On the other hand, with behavior B, getting the effect of behavior A is significantly more complicated:

``````def parse_pure_int(s):
if "." in s:
raise ValueError("invalid literal for integer with base 10: " + s)
return int(s)
``````

(and even with the code above, I don't have complete confidence that there isn't some corner case that it mishandles.)

Behavior A therefore is more expressive than behavior B.

Another thing to consider: `'1.23'` is a string representation of a floating-point value. Converting `'1.23'` to an integer conceptually involves two conversions (string to float to integer), but `int(1.23)` and `int('1')` each involve only one conversion.

Edit:

And indeed, there are corner cases that the above code would not handle: `1e-2` and `1E-2` are both floating point values too.

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To clarify: I would not propose to behaviour B, because that's just dangerous, as you and others stated. I'm not sure a better solution than the current one even exists. One option would be to give the functions different names, but that's just more stuff to type. The obvious solution of having int(1.23) fail and only int(float-with-no-decimal-places) returning an integer makes no sense in a dynamically typed language. – StefanS Mar 19 at 11:05
Corner case might be `int('123E-2')` or `int('1L')`. – Jared Goguen Mar 23 at 19:16
@JaredGoguen Yup. Just last night I happened to independently think of `1e2` as a corner case. – jamesdlin Mar 23 at 22:22

In simple words - they're not the same function. int( decimal ) and int( string ) are 2 different functions with the same name that return an integer.

One is a string-integer-conversion, one is performing floor on a decimal, and they're both called 'int' because it's short and makes sense for each, but there's no implication they are providing the same or combined functionality

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Then why do two 'different functions' have the same name? Sounds like a violation of some zen nonsense. – hobbs Mar 18 at 19:55
because the name makes sense to 2 different functions and is succinct. Int-ify a decimal (floor), convert a string to an int (conversion) – Timo Mar 21 at 15:57

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