How does Python know the values already stored in its memory?
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I want to know how Python knows (if it knows) if a value-type object is already stored in its memory (and also knows where it is).
For this code, when assigning the value 1 for b, how does it know that the value 1 is already in its memory and stores its reference in b?
>>> a = 1
>>> b = 1
>>> a is b
True
python python-3.x memory
edited 15 mins ago
user11206537
149115
asked 32 mins ago
Just A LoneJust A Lone
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show 1 more comment
I want to know how Python knows (if it knows) if a value-type object is already stored in its memory (and also knows where it is).
For this code, when assigning the value 1 for b, how does it know that the value 1 is already in its memory and stores its reference in b?
>>> a = 1
>>> b = 1
>>> a is b
True
python python-3.x memory
edited 15 mins ago
user11206537
149115
asked 32 mins ago
Just A LoneJust A Lone
384
New contributor
Just A Lone is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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Useprint(hex(id(b)))to check memory address forb
– Yusufsn
28 mins ago
>>> hex(id(b))'0x7ffe705ee350' >>> hex(id(a)) '0x7ffe705ee350'
– Just A Lone
26 mins ago
the values are the same
– Just A Lone
25 mins ago
1
If two variables refer to the same value between -5 and 256 (as opposed to use) then by definition there is only one object.
– Yusufsn
25 mins ago
1
@Yusufsn No. For bigger integers (>256) it's not true.
– ajnLJA-0184
20 mins ago
|
show 1 more comment
I want to know how Python knows (if it knows) if a value-type object is already stored in its memory (and also knows where it is).
For this code, when assigning the value 1 for b, how does it know that the value 1 is already in its memory and stores its reference in b?
>>> a = 1
>>> b = 1
>>> a is b
True
python python-3.x memory
edited 15 mins ago
user11206537
149115
asked 32 mins ago
Just A LoneJust A Lone
384
New contributor
Just A Lone is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
I want to know how Python knows (if it knows) if a value-type object is already stored in its memory (and also knows where it is).
For this code, when assigning the value 1 for b, how does it know that the value 1 is already in its memory and stores its reference in b?
>>> a = 1
>>> b = 1
>>> a is b
True
python python-3.x memory
python python-3.x memory
edited 15 mins ago
user11206537
149115
asked 32 mins ago
Just A LoneJust A Lone
384
New contributor
Just A Lone is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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edited 15 mins ago
user11206537
149115
asked 32 mins ago
Just A LoneJust A Lone
384
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edited 15 mins ago
user11206537
149115
edited 15 mins ago
user11206537
149115
edited 15 mins ago
user11206537
149115
149115
asked 32 mins ago
Just A LoneJust A Lone
384
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asked 32 mins ago
Just A LoneJust A Lone
384
asked 32 mins ago
Just A LoneJust A Lone
384
384
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New contributor
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Useprint(hex(id(b)))to check memory address forb
– Yusufsn
28 mins ago
>>> hex(id(b))'0x7ffe705ee350' >>> hex(id(a)) '0x7ffe705ee350'
– Just A Lone
26 mins ago
the values are the same
– Just A Lone
25 mins ago
1
If two variables refer to the same value between -5 and 256 (as opposed to use) then by definition there is only one object.
– Yusufsn
25 mins ago
1
@Yusufsn No. For bigger integers (>256) it's not true.
– ajnLJA-0184
20 mins ago
|
show 1 more comment
Useprint(hex(id(b)))to check memory address forb
– Yusufsn
28 mins ago
>>> hex(id(b))'0x7ffe705ee350' >>> hex(id(a)) '0x7ffe705ee350'
– Just A Lone
26 mins ago
the values are the same
– Just A Lone
25 mins ago
1
If two variables refer to the same value between -5 and 256 (as opposed to use) then by definition there is only one object.
– Yusufsn
25 mins ago
1
@Yusufsn No. For bigger integers (>256) it's not true.
– ajnLJA-0184
20 mins ago
Use
print(hex(id(b))) to check memory address for b– Yusufsn
28 mins ago
Use
print(hex(id(b))) to check memory address for b– Yusufsn
28 mins ago
>>> hex(id(b))'0x7ffe705ee350' >>> hex(id(a)) '0x7ffe705ee350'
– Just A Lone
26 mins ago
>>> hex(id(b))'0x7ffe705ee350' >>> hex(id(a)) '0x7ffe705ee350'
– Just A Lone
26 mins ago
the values are the same
– Just A Lone
25 mins ago
the values are the same
– Just A Lone
25 mins ago
1
1
If two variables refer to the same value between -5 and 256 (as opposed to use) then by definition there is only one object.
– Yusufsn
25 mins ago
If two variables refer to the same value between -5 and 256 (as opposed to use) then by definition there is only one object.
– Yusufsn
25 mins ago
1
1
@Yusufsn No. For bigger integers (>256) it's not true.
– ajnLJA-0184
20 mins ago
@Yusufsn No. For bigger integers (>256) it's not true.
– ajnLJA-0184
20 mins ago
|
show 1 more comment
4 Answers
4
active
oldest
votes
Python uses shared small integers to help quick access. Integers range from [-5, 256] already exists in memory, so if you check the address, they are the same. However, for larger integers, it's not true.
a = 10e5
b = 10e5
a is b # False
Wait, what? If you check the address of the numbers, you'll find something interesting:
a = 1
b = 1
id(a) # 4463034512
id(b) # 4463034512
a = 257
b = 257
id(a) # 4642585200
id(b) # 4642585712
It's called integer cache. You can read more about the integer cache here: https://wsvincent.com/python-wat-integer-cache/
“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.”
Why? Because small integers are more frequently used by loops. Using reference to existing objects instead of creating a new object saves an overhead.
answered 27 mins ago
ajnLJA-0184ajnLJA-0184
1884
New contributor
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add a comment |
If you take a look at Objects/longobject.c, which implements the int type for CPython, you will see that the numbers between -5 (NSMALLNEGINTS) and 256 (NSMALLPOSINTS - 1) are pre-allocated and cached. This is done to avoid the penalty of allocating multiple unnecessary objects for the most commonly used integers. This works because integers are immutable: you don't need multiple references to represent the same number.
answered 21 mins ago
Mad PhysicistMad Physicist
39k1682113
add a comment |
Python doesn't know anything until you tell it. So in your code above, when you initialize a and b, you are storing those values(in the register or RAM), and calling the place to store it a and b, so that you can reference them later. If you didn't initialize the variable first, python would just give you an error.
answered 27 mins ago
Monster AR44Monster AR44
111
New contributor
Monster AR44 is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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I think you're missing the point of the question.a == bis obviously true. OP is asking whya is bis true.
– Mad Physicist
26 mins ago
add a comment |
Why?
is is kinda confusing:
@ajnLJA-0184 is correct, but additionally, strings work well too, but when you do some operations to it, but still the same strings, nope:
>>> a = 'python'
>>> b = 'python'
>>> a is b
True
>>> a = 'pytho' + 'n'
>>> b = 'pythonn'[:-1]
>>> a is b
False
>>>
But strange enough, it is different for integers:
>>> a = 1
>>> b = 1
>>> a is b
True
>>> a = 3*8
>>> b = 4*6
>>> a is b
True
>>>
But as the link he gave, there you can see that:
>>> a = 257
>>> b = 257
>>> a is b
False
>>>
How to know if it is gonna be True or not?
Well, here is when id comes in handy:
Here you go, just type in id and two parens and say your varaible...:
>>> a = 1
>>> b = 1
>>> id(a)
1935522256
>>> id(b)
1935522256
>>> a = 257 # or -6
>>> b = 257 # or -6
>>> id(a)
935705330960
>>> id(b)
935705331216
>>>
answered 17 mins ago
U9-ForwardU9-Forward
18.5k51744
1
Whyd is aequals False in the first example? That's new.
– ajnLJA-0184
9 mins ago
@ajnLJA-0 Because the strings aren't direct like'python', they do an operation to get'python', that's why.
– U9-Forward
7 mins ago
add a comment |
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4 Answers
4
active
oldest
votes
4 Answers
4
active
oldest
votes
active
oldest
votes
active
oldest
votes
Python uses shared small integers to help quick access. Integers range from [-5, 256] already exists in memory, so if you check the address, they are the same. However, for larger integers, it's not true.
a = 10e5
b = 10e5
a is b # False
Wait, what? If you check the address of the numbers, you'll find something interesting:
a = 1
b = 1
id(a) # 4463034512
id(b) # 4463034512
a = 257
b = 257
id(a) # 4642585200
id(b) # 4642585712
It's called integer cache. You can read more about the integer cache here: https://wsvincent.com/python-wat-integer-cache/
“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.”
Why? Because small integers are more frequently used by loops. Using reference to existing objects instead of creating a new object saves an overhead.
answered 27 mins ago
ajnLJA-0184ajnLJA-0184
1884
New contributor
ajnLJA-0184 is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
add a comment |
Python uses shared small integers to help quick access. Integers range from [-5, 256] already exists in memory, so if you check the address, they are the same. However, for larger integers, it's not true.
a = 10e5
b = 10e5
a is b # False
Wait, what? If you check the address of the numbers, you'll find something interesting:
a = 1
b = 1
id(a) # 4463034512
id(b) # 4463034512
a = 257
b = 257
id(a) # 4642585200
id(b) # 4642585712
It's called integer cache. You can read more about the integer cache here: https://wsvincent.com/python-wat-integer-cache/
“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.”
Why? Because small integers are more frequently used by loops. Using reference to existing objects instead of creating a new object saves an overhead.
answered 27 mins ago
ajnLJA-0184ajnLJA-0184
1884
New contributor
ajnLJA-0184 is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
add a comment |
Python uses shared small integers to help quick access. Integers range from [-5, 256] already exists in memory, so if you check the address, they are the same. However, for larger integers, it's not true.
a = 10e5
b = 10e5
a is b # False
Wait, what? If you check the address of the numbers, you'll find something interesting:
a = 1
b = 1
id(a) # 4463034512
id(b) # 4463034512
a = 257
b = 257
id(a) # 4642585200
id(b) # 4642585712
It's called integer cache. You can read more about the integer cache here: https://wsvincent.com/python-wat-integer-cache/
“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.”
Why? Because small integers are more frequently used by loops. Using reference to existing objects instead of creating a new object saves an overhead.
answered 27 mins ago
ajnLJA-0184ajnLJA-0184
1884
New contributor
ajnLJA-0184 is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
Python uses shared small integers to help quick access. Integers range from [-5, 256] already exists in memory, so if you check the address, they are the same. However, for larger integers, it's not true.
a = 10e5
b = 10e5
a is b # False
Wait, what? If you check the address of the numbers, you'll find something interesting:
a = 1
b = 1
id(a) # 4463034512
id(b) # 4463034512
a = 257
b = 257
id(a) # 4642585200
id(b) # 4642585712
It's called integer cache. You can read more about the integer cache here: https://wsvincent.com/python-wat-integer-cache/
“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.”
Why? Because small integers are more frequently used by loops. Using reference to existing objects instead of creating a new object saves an overhead.
answered 27 mins ago
ajnLJA-0184ajnLJA-0184
1884
New contributor
ajnLJA-0184 is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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edited 21 mins ago
answered 27 mins ago
ajnLJA-0184ajnLJA-0184
1884
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answered 27 mins ago
ajnLJA-0184ajnLJA-0184
1884
answered 27 mins ago
ajnLJA-0184ajnLJA-0184
1884
1884
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add a comment |
add a comment |
If you take a look at Objects/longobject.c, which implements the int type for CPython, you will see that the numbers between -5 (NSMALLNEGINTS) and 256 (NSMALLPOSINTS - 1) are pre-allocated and cached. This is done to avoid the penalty of allocating multiple unnecessary objects for the most commonly used integers. This works because integers are immutable: you don't need multiple references to represent the same number.
answered 21 mins ago
Mad PhysicistMad Physicist
39k1682113
add a comment |
If you take a look at Objects/longobject.c, which implements the int type for CPython, you will see that the numbers between -5 (NSMALLNEGINTS) and 256 (NSMALLPOSINTS - 1) are pre-allocated and cached. This is done to avoid the penalty of allocating multiple unnecessary objects for the most commonly used integers. This works because integers are immutable: you don't need multiple references to represent the same number.
answered 21 mins ago
Mad PhysicistMad Physicist
39k1682113
add a comment |
If you take a look at Objects/longobject.c, which implements the int type for CPython, you will see that the numbers between -5 (NSMALLNEGINTS) and 256 (NSMALLPOSINTS - 1) are pre-allocated and cached. This is done to avoid the penalty of allocating multiple unnecessary objects for the most commonly used integers. This works because integers are immutable: you don't need multiple references to represent the same number.
answered 21 mins ago
Mad PhysicistMad Physicist
39k1682113
If you take a look at Objects/longobject.c, which implements the int type for CPython, you will see that the numbers between -5 (NSMALLNEGINTS) and 256 (NSMALLPOSINTS - 1) are pre-allocated and cached. This is done to avoid the penalty of allocating multiple unnecessary objects for the most commonly used integers. This works because integers are immutable: you don't need multiple references to represent the same number.
answered 21 mins ago
Mad PhysicistMad Physicist
39k1682113
answered 21 mins ago
Mad PhysicistMad Physicist
39k1682113
answered 21 mins ago
Mad PhysicistMad Physicist
39k1682113
answered 21 mins ago
Mad PhysicistMad Physicist
39k1682113
39k1682113
add a comment |
add a comment |
Python doesn't know anything until you tell it. So in your code above, when you initialize a and b, you are storing those values(in the register or RAM), and calling the place to store it a and b, so that you can reference them later. If you didn't initialize the variable first, python would just give you an error.
answered 27 mins ago
Monster AR44Monster AR44
111
New contributor
Monster AR44 is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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I think you're missing the point of the question.a == bis obviously true. OP is asking whya is bis true.
– Mad Physicist
26 mins ago
add a comment |
Python doesn't know anything until you tell it. So in your code above, when you initialize a and b, you are storing those values(in the register or RAM), and calling the place to store it a and b, so that you can reference them later. If you didn't initialize the variable first, python would just give you an error.
answered 27 mins ago
Monster AR44Monster AR44
111
New contributor
Monster AR44 is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
I think you're missing the point of the question.a == bis obviously true. OP is asking whya is bis true.
– Mad Physicist
26 mins ago
add a comment |
Python doesn't know anything until you tell it. So in your code above, when you initialize a and b, you are storing those values(in the register or RAM), and calling the place to store it a and b, so that you can reference them later. If you didn't initialize the variable first, python would just give you an error.
answered 27 mins ago
Monster AR44Monster AR44
111
New contributor
Monster AR44 is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
Python doesn't know anything until you tell it. So in your code above, when you initialize a and b, you are storing those values(in the register or RAM), and calling the place to store it a and b, so that you can reference them later. If you didn't initialize the variable first, python would just give you an error.
answered 27 mins ago
Monster AR44Monster AR44
111
New contributor
Monster AR44 is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
answered 27 mins ago
Monster AR44Monster AR44
111
New contributor
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Check out our Code of Conduct.
answered 27 mins ago
Monster AR44Monster AR44
111
answered 27 mins ago
Monster AR44Monster AR44
111
111
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Check out our Code of Conduct.
I think you're missing the point of the question.a == bis obviously true. OP is asking whya is bis true.
– Mad Physicist
26 mins ago
add a comment |
I think you're missing the point of the question.a == bis obviously true. OP is asking whya is bis true.
– Mad Physicist
26 mins ago
I think you're missing the point of the question.
a == b is obviously true. OP is asking why a is b is true.– Mad Physicist
26 mins ago
I think you're missing the point of the question.
a == b is obviously true. OP is asking why a is b is true.– Mad Physicist
26 mins ago
add a comment |
Why?
is is kinda confusing:
@ajnLJA-0184 is correct, but additionally, strings work well too, but when you do some operations to it, but still the same strings, nope:
>>> a = 'python'
>>> b = 'python'
>>> a is b
True
>>> a = 'pytho' + 'n'
>>> b = 'pythonn'[:-1]
>>> a is b
False
>>>
But strange enough, it is different for integers:
>>> a = 1
>>> b = 1
>>> a is b
True
>>> a = 3*8
>>> b = 4*6
>>> a is b
True
>>>
But as the link he gave, there you can see that:
>>> a = 257
>>> b = 257
>>> a is b
False
>>>
How to know if it is gonna be True or not?
Well, here is when id comes in handy:
Here you go, just type in id and two parens and say your varaible...:
>>> a = 1
>>> b = 1
>>> id(a)
1935522256
>>> id(b)
1935522256
>>> a = 257 # or -6
>>> b = 257 # or -6
>>> id(a)
935705330960
>>> id(b)
935705331216
>>>
answered 17 mins ago
U9-ForwardU9-Forward
18.5k51744
1
Whyd is aequals False in the first example? That's new.
– ajnLJA-0184
9 mins ago
@ajnLJA-0 Because the strings aren't direct like'python', they do an operation to get'python', that's why.
– U9-Forward
7 mins ago
add a comment |
Why?
is is kinda confusing:
@ajnLJA-0184 is correct, but additionally, strings work well too, but when you do some operations to it, but still the same strings, nope:
>>> a = 'python'
>>> b = 'python'
>>> a is b
True
>>> a = 'pytho' + 'n'
>>> b = 'pythonn'[:-1]
>>> a is b
False
>>>
But strange enough, it is different for integers:
>>> a = 1
>>> b = 1
>>> a is b
True
>>> a = 3*8
>>> b = 4*6
>>> a is b
True
>>>
But as the link he gave, there you can see that:
>>> a = 257
>>> b = 257
>>> a is b
False
>>>
How to know if it is gonna be True or not?
Well, here is when id comes in handy:
Here you go, just type in id and two parens and say your varaible...:
>>> a = 1
>>> b = 1
>>> id(a)
1935522256
>>> id(b)
1935522256
>>> a = 257 # or -6
>>> b = 257 # or -6
>>> id(a)
935705330960
>>> id(b)
935705331216
>>>
answered 17 mins ago
U9-ForwardU9-Forward
18.5k51744
1
Whyd is aequals False in the first example? That's new.
– ajnLJA-0184
9 mins ago
@ajnLJA-0 Because the strings aren't direct like'python', they do an operation to get'python', that's why.
– U9-Forward
7 mins ago
add a comment |
Why?
is is kinda confusing:
@ajnLJA-0184 is correct, but additionally, strings work well too, but when you do some operations to it, but still the same strings, nope:
>>> a = 'python'
>>> b = 'python'
>>> a is b
True
>>> a = 'pytho' + 'n'
>>> b = 'pythonn'[:-1]
>>> a is b
False
>>>
But strange enough, it is different for integers:
>>> a = 1
>>> b = 1
>>> a is b
True
>>> a = 3*8
>>> b = 4*6
>>> a is b
True
>>>
But as the link he gave, there you can see that:
>>> a = 257
>>> b = 257
>>> a is b
False
>>>
How to know if it is gonna be True or not?
Well, here is when id comes in handy:
Here you go, just type in id and two parens and say your varaible...:
>>> a = 1
>>> b = 1
>>> id(a)
1935522256
>>> id(b)
1935522256
>>> a = 257 # or -6
>>> b = 257 # or -6
>>> id(a)
935705330960
>>> id(b)
935705331216
>>>
answered 17 mins ago
U9-ForwardU9-Forward
18.5k51744
Why?
is is kinda confusing:
@ajnLJA-0184 is correct, but additionally, strings work well too, but when you do some operations to it, but still the same strings, nope:
>>> a = 'python'
>>> b = 'python'
>>> a is b
True
>>> a = 'pytho' + 'n'
>>> b = 'pythonn'[:-1]
>>> a is b
False
>>>
But strange enough, it is different for integers:
>>> a = 1
>>> b = 1
>>> a is b
True
>>> a = 3*8
>>> b = 4*6
>>> a is b
True
>>>
But as the link he gave, there you can see that:
>>> a = 257
>>> b = 257
>>> a is b
False
>>>
How to know if it is gonna be True or not?
Well, here is when id comes in handy:
Here you go, just type in id and two parens and say your varaible...:
>>> a = 1
>>> b = 1
>>> id(a)
1935522256
>>> id(b)
1935522256
>>> a = 257 # or -6
>>> b = 257 # or -6
>>> id(a)
935705330960
>>> id(b)
935705331216
>>>
answered 17 mins ago
U9-ForwardU9-Forward
18.5k51744
edited 7 mins ago
answered 17 mins ago
U9-ForwardU9-Forward
18.5k51744
answered 17 mins ago
U9-ForwardU9-Forward
18.5k51744
answered 17 mins ago
U9-ForwardU9-Forward
18.5k51744
18.5k51744
1
Whyd is aequals False in the first example? That's new.
– ajnLJA-0184
9 mins ago
@ajnLJA-0 Because the strings aren't direct like'python', they do an operation to get'python', that's why.
– U9-Forward
7 mins ago
add a comment |
1
Whyd is aequals False in the first example? That's new.
– ajnLJA-0184
9 mins ago
@ajnLJA-0 Because the strings aren't direct like'python', they do an operation to get'python', that's why.
– U9-Forward
7 mins ago
1
1
Why
d is a equals False in the first example? That's new.– ajnLJA-0184
9 mins ago
Why
d is a equals False in the first example? That's new.– ajnLJA-0184
9 mins ago
@ajnLJA-0 Because the strings aren't direct like
'python', they do an operation to get 'python', that's why.– U9-Forward
7 mins ago
@ajnLJA-0 Because the strings aren't direct like
'python', they do an operation to get 'python', that's why.– U9-Forward
7 mins ago
add a comment |
Just A Lone is a new contributor. Be nice, and check out our Code of Conduct.
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Just A Lone is a new contributor. Be nice, and check out our Code of Conduct.
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Use
print(hex(id(b)))to check memory address forb– Yusufsn
28 mins ago
>>> hex(id(b))'0x7ffe705ee350' >>> hex(id(a)) '0x7ffe705ee350'
– Just A Lone
26 mins ago
the values are the same
– Just A Lone
25 mins ago
1
If two variables refer to the same value between -5 and 256 (as opposed to use) then by definition there is only one object.
– Yusufsn
25 mins ago
1
@Yusufsn No. For bigger integers (>256) it's not true.
– ajnLJA-0184
20 mins ago