# identifying objects, why does the returned value from id(…) change?

### id(object)

This is an integer (or long integer) which is guaranteed to be unique and constant for this object during its lifetime.

Can you explain this output? Why does `j`'s id change?

``````>>> i=10
>>> id(i)
6337824
>>> j=10
>>> id(j)
6337824
>>> j=j+1
>>> id(j)
6337800
>>> id(i)
6337824
``````
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Umm, what the what? –  swilliams Aug 4 '10 at 4:54
what's the question? –  Nikolaus Gradwohl Aug 4 '10 at 4:56
is it like i and j are object references to the same object initially.. but when j changes, they start referring to different objects? –  Kedar Aug 4 '10 at 5:00
For why they're initially the same, see [ Python “is” operator behaves unexpectedly with integers ](stackoverflow.com/questions/306313/…). Bascially, ints are immutable objects, but small ones are all kept interned as an optimization. –  Matthew Flaschen Aug 4 '10 at 5:02
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## 7 Answers

Because integers are immutable, each integer value is a distinct object with a unique id. The integer `10` has a different id from `11`. Doing `j=j+1` doesn't change the value of an existing integer object, rather it changes `j` to point to the object for `11`.

Check out what happens when we independently create a new variable `k` and assign it the value `11`:

``````>>> j=10
>>> id(j)
8402204
>>> j=j+1
>>> id(j)
8402192
>>> k=11
>>> id(k)
8402192
``````

Note that it is not always the case that every integer has one and only one corresponding object. This only happens for small integers that Python decides to cache. It does not happen for large integers:

``````>>> x = 123456789
>>> id(x)
8404568
>>> y = 123456789
>>> id(y)
8404604
``````

The current implementation keeps an array of integer objects for all integers between -5 and 256, when you create an int in that range you actually just get back a reference to the existing object.

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You might want to add that CPython happens to intern all ints between -5 and 256. See docs. Of course, this is implementation-defined. –  Matthew Flaschen Aug 4 '10 at 5:09
Community wiki'd this answer since I see now that the thread @Matthew linked to already covers this exact ground. My answer is nearly identical to the accepted one there, in fact. –  John Kugelman Aug 4 '10 at 5:13
Matthew, John.. Thanks! –  Kedar Aug 4 '10 at 5:19
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The same `id` for different variables is a product of how Python creates variables.

`id` is a hash of the the location of an object in memory. Python variables are references to an object, not new objects. If several variables reference the same object, they have the same `id.

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In CPython, `id` is generally derived from the `Py_Object`'s pointer value, that is its location in memory.

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Python caches immutable objects(read integers and tuples..) - which is why they are immutable and saves memory if u reference the same immutable in many places. So `small` integers, empty tuples and such are actually cached in Python runtime, so you keep getting back the same object and hence the same id.

try this for the list ,you don't get the same id.

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Python doesn't cache all immutable objects. In fact, it doesn't even cache all integers. See this answer. –  Matthew Flaschen Aug 4 '10 at 5:04
why down vote......? –  Srinivas Reddy Thatiparthy Aug 4 '10 at 5:05
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this is why `2**8 is 2**8` == True, and `2**9 is 2**9` == False value between -5 and 256 are preallocated.

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These are primitive types, so I'm guessing each value gets its own ID. Try creating a true object and I think you'll see the functionality you expect.

If you need an id for a primitive, you could create an object with just one member of that type.

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every thing is an object in python,there is no such thing as primitive types in python as in java –  Srinivas Reddy Thatiparthy Aug 4 '10 at 5:01
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`j`'s id changes because the object named by `j` changes. First you initialize `j` to 10, so when you call `id(j)` you get the id of `10`. Then you set `j` to 11, so after that when you call `id(j)` you get the id of `11`.

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