Difference between `open` and `io.BytesIO` in binary streams
Solution 1:
For simplicity's sake, let's consider writing instead of reading for now.
So when you use open()
like say:
with open("test.dat", "wb") as f:
f.write(b"Hello World")
f.write(b"Hello World")
f.write(b"Hello World")
After executing that a file called test.dat
will be created, containing 3x Hello World
. The data wont be kept in memory after it's written to the file (unless being kept by a name).
Now when you consider io.BytesIO()
instead:
with io.BytesIO() as f:
f.write(b"Hello World")
f.write(b"Hello World")
f.write(b"Hello World")
Which instead of writing the contents to a file, it's written to an in memory buffer. In other words a chunk of RAM. Essentially writing the following would be the equivalent:
buffer = b""
buffer += b"Hello World"
buffer += b"Hello World"
buffer += b"Hello World"
In relation to the example with the with statement, then at the end there would also be a del buffer
.
The key difference here is optimization and performance. io.BytesIO
is able to do some optimizations that makes it faster than simply concatenating all the b"Hello World"
one by one.
Just to prove it here's a small benchmark:
- Concat: 1.3529 seconds
- BytesIO: 0.0090 seconds
import io
import time
begin = time.time()
buffer = b""
for i in range(0, 50000):
buffer += b"Hello World"
end = time.time()
seconds = end - begin
print("Concat:", seconds)
begin = time.time()
buffer = io.BytesIO()
for i in range(0, 50000):
buffer.write(b"Hello World")
end = time.time()
seconds = end - begin
print("BytesIO:", seconds)
Besides the performance gain, using BytesIO
instead of concatenating has the advantage that BytesIO
can be used in place of a file object. So say you have a function that expects a file object to write to. Then you can give it that in-memory buffer instead of a file.
The difference is that open("myfile.jpg", "rb")
simply loads and returns the contents of myfile.jpg
; whereas, BytesIO
again is just a buffer containing some data.
Since BytesIO
is just a buffer - if you wanted to write the contents to a file later - you'd have to do:
buffer = io.BytesIO()
# ...
with open("test.dat", "wb") as f:
f.write(buffer.getvalue())
Also, you didn't mention a version; I'm using Python 3. Related to the examples: I'm using the with statement instead of calling f.close()
Solution 2:
Using open
opens a file on your hard drive. Depending on what mode you use, you can read or write (or both) from the disk.
A BytesIO
object isn't associated with any real file on the disk. It's just a chunk of memory that behaves like a file does. It has the same API as a file object returned from open
(with mode r+b
, allowing reading and writing of binary data).
BytesIO
(and it's close sibling StringIO
which is always in text mode) can be useful when you need to pass data to or from an API that expect to be given a file object, but where you'd prefer to pass the data directly. You can load your input data you have into the BytesIO
before giving it to the library. After it returns, you can get any data the library wrote to the file from the BytesIO
using the getvalue()
method. (Usually you'd only need to do one of those, of course.)