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What's a python bytestring?

All I can find are topics on how to encode to bytestring or decode to ascii or utf-8. I'm trying to understand how it works under the hood. In a normal ascii string, it's an array or list of characters, and each character represents an ascii value from 0-255, so that's how you know what character is represented by the number. In unicode, it's the 8 or 16 byte representation for the character that tells you what character it is.

So what is a bytestring? how does python know which characters to represent as what? how does it work under the hood? Since you can print or even return these strings and it shows you the string representation, I don't quite get it...

Ok, so my point is definitely getting missed here. I've been told that it's an immutable sequence of bytes without any particular interpretation.

A sequence of bytes.. Ok, let's say one byte:
'a'.encode() returns b'a'.

Simple enough. Why can I read the a?

Say I get the ASCII value for a, by doing this:
printf "%d" "'a"

It returns 97. Ok, good, the integer value for the ascii character a. If we interpret 97 as ascii, say in a C char, then we get the letter a. Fair enough. If we convert the byte representation to bits, we get this:


2^0 + 2^5 + 2^6 = 97. Cool.

So why is 'a'.encode() returning b'a' instead of 01100001??
If it's without a particular interpretation, shouldn't it be returning something like b'01100001'?
It seems like it's interpreting it like ASCII.

Someone mentioned that it's calling __repr__ on the bytestring, so it's displayed in human-readable form. However, even if I do something like:

with open('testbytestring.txt', 'wb') as f:

It will still insert helloworld as a regular string into the file, not as a sequence of bytes... So is a bytestring in ASCII?

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up vote 5 down vote accepted

Python does not know how to represent a bytestring. That's the point.

When you output a character with value 97 into pretty much any output window, you'll get the character 'a' but that's not part of the implementation; it's just a thing that happens to be locally true. If you want an encoding, you don't use bytestring. If you use bytestring, you don't have an encoding.

Your piece about .txt files shows a serious deficit of understanding. You see, plain text files too don't have an encoding. They're just a series of bytes. These bytes get translated into letters by the text editor but there is no guarantee at all that someone else opening your file will see the same thing as you if you stray outside the common set of ASCII characters.

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Thanks, this and Russell's answer cleared up the confusion for me. – gyeh Apr 3 '14 at 9:01

It is a common misconception that text is ascii or utf8 or cp1252, and therefore bytes are text.

Text is only text, in the way that images are only images. The matter of storing text or images to disk is a matter of encoding that data into a sequence of bytes. There are many ways to encode images into bytes: Jpeg, png, svg, and likewise many ways to encode text, ascii, utf8 or cp1252.

Once encoding has happened, bytes are just bytes. Bytes are not images anymore, they have forgotten the colors they mean; although an image format decoder can recover that information. Bytes have similarly forgotten the letters they used to be. In fact, bytes don't remember wether they were images or text at all. Only out of band knowledge (filename, media headers, etcetera) can guess what those bytes should mean, and even that can be wrong (in case of data corruption)

so, in python (py3), we have two types for things that might otherwise look similar; For text, we have str, which knows it's text; it knows which letters it's supposed to mean. It doesn't know which bytes that might be, since letters are not bytes. We also have bytestring, which doesn't know if it's text or images or any other kind of data.

The two types are superficially similar, since they are both sequences of things, but the things that they are sequences of is quite different.

Implementationally, str is stored in memory as UCS-? where the ? is implementation defined, it may be UCS4, UCS2 or UCS1, depending on compile time options and which codepoints are present in the represented string.

edit "but why"?

Some things that look like text are actually defined in other terms. A really good example of this are the many internet protocols of the world. For instance, HTTP is a "text" protocol that is in fact defined using the ABNF syntax common in RFC's. These protocols are expressed in terms of octets, not characters, although an informal encoding may also be suggested:

2.3. Terminal Values

Rules resolve into a string of terminal values, sometimes called
characters. In ABNF, a character is merely a non-negative integer.
In certain contexts, a specific mapping (encoding) of values into a
character set (such as ASCII) will be specified.

This distinction is important, because it's not possible to send text over the internet, the only thing you can do is send bytes. saying "text but in 'foo' encoding" makes the format that much more complex, since clients and servers need to now somehow figure out the encoding business on their own, hopefully in the same way, since they must ultimately pass data around as bytes anyway. This is doubly useless since these protocols are seldom about text handling anyway, and is only a convenience for implementers. Neither the server owners nor end users are ever interested in reading the words Transfer-Encoding: chunked, so long as both the server and the browser understand it correctly.

By comparison, when working with text, you don't really care how it's encoded. You can express the "Heävy Mëtal Ümlaüts" any way you like, except "Heδvy Mλtal άmlaόts"

the distinct types thus give you a way to say "this value 'means' text" or "bytes".

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It is representing text, since if I type b'Hello World' into the interpreter, it returns b'Hello World'. How does it know that it's a character? From what I read in the docs, it represents ASCII characters 0-127, and everything else has an escape sequence. Why not just call it an ascii string? is it because .encode('ascii') is extended ascii (0-255)? is it so that you can represent many escape sequences? – gyeh Apr 2 '14 at 23:04
only a human may recognize b'Hello World' as text. On the other hand, b'GIF89a\x01\x00\x01\x00\x80\x01\x00\xff\xff\xff\x00\x00\x00!\xf9\x04\x01\n\x00‌​\x01\x00,\x00\x00\x00\x00\x01\x00\x01\x00\x00\x02\x02L\x01\x00;' is not text at all. Neither can be decoded with the utf16le encoding expected by certain win32 api's. – SingleNegationElimination Apr 2 '14 at 23:17
Ok, but if you do echo "hello" | od -bc in the terminal, it will show you the integer representation for each index in the array representing the string "hello". In this case 150 145 154 154 157 012. So why is b'hello' returning b'hello' instead of something like 150 145 154 154 157 012? It seems like it's interpreting anything from 0-255* as ASCII. Am I wrong? – gyeh Apr 3 '14 at 0:06
let me repeat this, a bytestring represents an immutable sequence of bytes, without implying any particular interpretation, as text or otherwise, whereas str represents an immutable sequence of unicode codepoints, without implying any particular binary encoding. the fact that the python literals for each looks similar is only a convenience. – SingleNegationElimination Apr 3 '14 at 0:50
The interpreter calls the magic __repr__() function to give you a readable representation of the bytestring. __repr__() is defined as returning a string, so it gives a possibly-meaningful-to-humans string by treating the bytestring as ASCII or UTF-8. That doesn't mean the underlying bytestring necessarily represents ASCII or looks like a string. The map is not the territory. – Russell Borogove Apr 3 '14 at 3:39

Bytes objects are immutable sequences of single bytes. The docs have a very good explanation of what they are and how to use them.

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Ok, so it says "Only ASCII characters are permitted in bytes literals (regardless of the declared source code encoding). Any binary values over 127 must be entered into bytes literals using the appropriate escape sequence.". So what's the point of having them rather than using ASCII? is it for compatibility purposes where something can't read extended ascii (0-255)? – gyeh Apr 2 '14 at 22:58
@gyeh What exactly is extended ASCII? Especially, what does the character 252 mean in your so-called "extended ASCII"? Is it ü, as in latin1? Or is it ³ as in cp850? Or (cp437)? There are many options. So the mapping from bytes to characters depends on the encoding. And that's why both strings and bytestrings exist: strings hold characters, whose "byte representation" depends on the encoding used, and bytestrings hold bytes, whose "character meaning" depends on the encoding. – glglgl Apr 2 '14 at 23:17
I understand that extended ascii requires an encoding. I think my point is being missed here. If I do echo "hello" | od -bc, it will show the integer value for each index of the array representing hello as a string. In this case: 150 145 154 154 157 012. So why is b'hello' human readable instead of those stream of numbers? It seems like it's doing ASCII representation to me. – gyeh Apr 3 '14 at 0:04

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