# How to convert an int to a hex string?

I want to take an integer (that will be <= 255), to a hex string representation

e.g.: I want to pass in `65` and get out `'\x41'`, or `255` and get `'\xff'`.

I've tried doing this with the `struct.pack('c',`65`)`, but that chokes on anything above `9` since it wants to take in a single character string.

You are looking for the `chr` function.

You seem to be mixing decimal representations of integers and hex representations of integers, so it's not entirely clear what you need. Based on the description you gave, I think one of these snippets shows what you want.

``````>>> chr(0x65) == '\x65'
True

>>> hex(65)
'0x41'
>>> chr(65) == '\x41'
True
``````

Note that this is quite different from a string containing an integer as hex. If that is what you want, use the `hex` builtin.

• I thought chr converted integers to ascii. In which case chr(65) = 'A'. Is this a new addition? Nov 21, 2012 at 20:17
• @diedthreetimes, `chr` does not involve ASCII at all--it simply takes a number and makes a one-byte bytestring where the ordinal value of the byte is the number. ASCII and ASCII-compatible encodings come into play when you write and display bytestrings. Nov 22, 2012 at 14:08
• @diedthreetimes, For example, they come in by making `'A'` another way to write and display `'\x41'`. All `str` really cares about is the fact this is sixty-five. To make things understandable and usable by humans, it often becomes an A. Nov 22, 2012 at 14:10

This will convert an integer to a 2 digit hex string with the 0x prefix:

``````strHex = "0x%0.2X" % integerVariable
``````
• I suggest to edit the code here and change it to this: strHex = "0x%0.2X" % integerVariable. (I wasn't able to edit myself.) Apr 25, 2017 at 16:49

What about `hex()`?

``````hex(255)  # 0xff
``````

If you really want to have `\` in front you can do:

``````print '\\' + hex(255)[1:]
``````
• `repr(chr(255)) # '\xff'` also achieves this Jun 15, 2016 at 2:27

Let me add this one, because sometimes you just want the single digit representation

( `x` can be lower, 'x', or uppercase, 'X', the choice determines if the output letters are upper or lower.):

``````'{:x}'.format(15)
> f
``````

And now with the new `f''` format strings you can do:

``````f'{15:x}'
> f
``````

To add 0 padding you can use `0>n`:

``````f'{2034:0>4X}'
> 07F2
``````

NOTE: the initial 'f' in `f'{15:x}'` is to signify a format string

• For reference on this neat feature, PEP 498 -- Literal String Interpolation
– MFT
Sep 22, 2018 at 4:05
• IMHO, a bit more "readable" option can be '0x{:X}'.format(15) (notice X is in uppercase). For 2034 it will print 0x7F2 instead of 7f2 Mar 4, 2020 at 4:53

Try:

``````"0x%x" % 255 # => 0xff
``````

or

``````"0x%X" % 255 # => 0xFF
``````

Python Documentation says: "keep this under Your pillow: http://docs.python.org/library/index.html"

• `"%#x" % 255` :) Feb 27, 2021 at 18:15

For Python >= 3.6, use f-string formatting:

``````>>> x = 114514
>>> f'{x:0x}'
'1bf52'
>>> f'{x:#x}'
'0x1bf52'
``````
• This should be more upvoted. f-strings for the win :-) Apr 24, 2022 at 9:14

If you want to pack a struct with a value <255 (one byte unsigned, uint8_t) and end up with a string of one character, you're probably looking for the format B instead of c. C converts a character to a string (not too useful by itself) while B converts an integer.

``````struct.pack('B', 65)
``````

(And yes, 65 is \x41, not \x65.)

The struct class will also conveniently handle endianness for communication or other uses.

• The amount of time it has taken me to find struct.pack('B', <integer>) is staggering. Thank you. Apr 7, 2018 at 20:37

With `format()`, as per format-examples, we can do:

``````>>> # format also supports binary numbers
>>> "int: {0:d};  hex: {0:x};  oct: {0:o};  bin: {0:b}".format(42)
'int: 42;  hex: 2a;  oct: 52;  bin: 101010'
>>> # with 0x, 0o, or 0b as prefix:
>>> "int: {0:d};  hex: {0:#x};  oct: {0:#o};  bin: {0:#b}".format(42)
'int: 42;  hex: 0x2a;  oct: 0o52;  bin: 0b101010'
``````

Note that for large values, `hex()` still works (some other answers don't):

``````x = hex(349593196107334030177678842158399357)
print(x)
``````

Python 2: `0x4354467b746f6f5f736d616c6c3f7dL`
Python 3: `0x4354467b746f6f5f736d616c6c3f7d`

For a decrypted RSA message, one could do the following:

``````import binascii

``````
• Well... no. I tried `hex(hash(text))` and it produced a negative integer which resulted in a hex string with minus sign. Who did implement this?
– JPT
Apr 5, 2021 at 13:14
• @JPT I don't understand your question. If the value is negative, then obviously the hex value will have a minus sign. Why would that be different when writing in hexadecimal, binary, decimal, or any other number system? Or are you looking for the in-memory representation, where there is a bit that determines the sign by being set or unset?
– Luc
Apr 5, 2021 at 13:17
• Well, the computer scientist is expecting negative hex to be something starting with a sign flag, so for example FFFx xxxx or 8000 xxxx, not an actual sign. I've never ever seen a hex with a minus sign before. But if you put it like that... ;)
– JPT
Apr 6, 2021 at 14:03
• @JPT the hext values you usually see are just a hex representation of a binary value. It is a matter of coding (Two's complement) that it is used in computer science. In the past different way of representing negative binary numbers were also used but Two's complement has biggest advantages. May 18, 2023 at 9:44
• @Filip exactly, that's why a HEX with minus sign is not an exact representation. It's an interpretation.
– JPT
May 19, 2023 at 12:05
``````(int_variable).to_bytes(bytes_length, byteorder='big'|'little').hex()
``````

For example:

``````>>> (434).to_bytes(4, byteorder='big').hex()
'000001b2'
>>> (434).to_bytes(4, byteorder='little').hex()
'b2010000'
``````

This worked best for me

``````"0x%02X" % 5  # => 0x05
"0x%02X" % 17 # => 0x11
``````

Change the (2) if you want a number with a bigger width (2 is for 2 hex printned chars) so 3 will give you the following

``````"0x%03X" % 5  # => 0x005
"0x%03X" % 17 # => 0x011
``````

Also you can convert any number in any base to hex. Use this one line code here it's easy and simple to use:

`hex(int(n,x)).replace("0x","")`

You have a string `n` that is your number and `x` the base of that number. First, change it to integer and then to hex but hex has `0x` at the first of it so with `replace` we remove it.

• `hex(int(n,x))[2:]` - not sure which is faster :) Jul 16, 2020 at 16:20

I wanted a random integer converted into a six-digit hex string with a # at the beginning. To get this I used

``````"#%6x" % random.randint(0xFFFFFF)
``````
• I suppose you mean `"#%6x" % random.randint(0x0, 0xFFFFFF)`. (There is a missing `%` before `6` and `randint` takes 2 parameters -lower and upper bounds-) Jul 12, 2012 at 11:22
• should be %06x if you don't want spaces Dec 6, 2012 at 23:00

Use f-strings, it's easy to parse and quite flexible:

``````print(f'{255:x}')         # => 'ff'
print(f'{15:2x}')         # => ' f'
print(f'{15:02x}')        # => '0f'
print(f'\\x{15:02x}')     # => '\x0f'
``````

As an alternative representation you could use

``````[in] '%s' % hex(15)
[out]'0xf'
``````