I use python 3 I tried to write binary to file I use r+b.
for bit in binary: fileout.write(bit)
where binary is a list that contain numbers. How do I write this to file in binary?
The end file have to look like b' x07\x08\x07\
When you open a file in binary mode, then you are essentially working with the
bytes type. So when you write to the file, you need to pass a
bytes object, and when you read from it, you get a
bytes object. In contrast, when opening the file in text mode, you are working with
So, writing “binary” is really writing a bytes string:
with open(fileName, 'br+') as f: f.write(b'\x07\x08\x07')
If you have actual integers you want to write as binary, you can use the
bytes function to convert a sequence of integers into a bytes object:
>>> lst = [7, 8, 7] >>> bytes(lst) b'\x07\x08\x07'
Combining this, you can write a sequence of integers as a bytes object into a file opened in binary mode.
As Hyperboreus pointed out in the comments,
bytes will only accept a sequence of numbers that actually fit in a byte, i.e. numbers between 0 and 255. If you want to store arbitrary (positive) integers in the way they are, without having to bother about knowing their exact size (which is required for struct), then you can easily write a helper function which splits those numbers up into separate bytes:
def splitNumber (num): lst =  while num > 0: lst.append(num & 0xFF) num >>= 8 return lst[::-1] bytes(splitNumber(12345678901234567890)) # b'\xabT\xa9\x8c\xeb\x1f\n\xd2'
So if you have a list of numbers, you can easily iterate over them and write each into the file; if you want to extract the numbers individually later you probably want to add something that keeps track of which individual bytes belong to which numbers.
with open(fileName, 'br+') as f: for number in numbers: f.write(bytes(splitNumber(number)))
where binary is a list that contain numbers
A number can have one thousand and one different binary representations (endianess, width, 1-complement, 2-complement, floats of different precision, etc). So first you have to decide in which representation you want to store your numbers. Then you can use the struct module to do so.
For example the byte sequence 0x3480 can be interpreted as 32820 (little-endian unsigned short), or -32716 (little-endian signed short) or 13440 (big-endian short).
#! /usr/bin/python3 import struct binary = [1234, 5678, -9012, -3456] with open('out.bin', 'wb') as f: for b in binary: f.write(struct.pack('h', b)) #or whatever format you need with open('out.bin', 'rb') as f: content = f.read() for b in content: print(b) print(struct.unpack('hhhh', content)) #same format as above
210 4 46 22 204 220 128 242 (1234, 5678, -9012, -3456)