Found your problem:
When passed an encoding,
codecs.open returns a
StreamReaderWriter, which is really just a wrapper around (not a subclass of; it's a "composed of" relationship, not inheritance)
StreamWriter. Problem is:
StreamReaderWriter provides a "normal"
read method (that is, it takes a
size parameter and that's it)
- It delegates to the internal
StreamReader.read method, where the
size argument is only a hint as to the number of bytes to read, but not a limit; the second argument,
chars, is a strict limiter, but
StreamReaderWriter never passes that argument along (it doesn't accept it)
size hinted, but not capped using
StreamReader has buffered data, and it's large enough to match the
StreamReader.read blindly returns the contents of the buffer, rather than limiting it in any way based on the
size hint (after all, only
chars imposes a maximum return size)
The API of
StreamReader.read and the meaning of
chars for the API is the only documented thing here; the fact that
StreamReaderWriter is not contractual, nor is the fact that
StreamReader, I just used
?? magic to read the source code of the
codecs module to verify this behavior. But documented or not, that's what it's doing (feel free to read the source code for
StreamReaderWriter, it's all Python level, so it's easy).
The best solution is to switch to
io.open, which is faster and more correct in every standard case (
codecs.open supports the weirdo codecs that don't convert between
unicode], but rather, handle
bytes encodings, but that's an incredibly limited use case; most of the time, you're converting between
str). All you need to do is import
io instead of
codecs, and change the
codecs.open line to:
f = io.open("test.py", encoding="utf-8")
The rest of your code can remain unchanged (and will likely run faster to boot).
As an alternative, you could explicitly bypass
StreamReaderWriter to get the
read method and pass the limiting argument directly, e.g. change:
c = f.read(1)
# Pass second, character limiting argument after size hint
c = f.reader.read(6, 1) # 6 is sort of arbitrary; should ensure a full char read in one go
I suspect Python Bug #8260, which covers intermingling
codecs.open created file objects, applies here, officially, it's "fixed", but if you read the comments, the fix wasn't complete (and may not be possible to complete given the documented API); arbitrarily weird combinations of
readline will be able to break it.
Again, just use
io.open; as long as you're on Python 2.6 or higher, it's available, and it's just plain better.
len(c)for me is 59 in all cases.
codecs.open. It's buggy in weird ways (as @Evert notes, it has to open files in binary mode, which has all sorts of side-effects). Try using
io.openinstead (it's the same as plain
openon Py3, and provides the same interface on Py2), and is both faster and more correct than
codecs.open(which is essentially deprecated). I suspect your problem will disappear.
codecs.openis in a weird state. It's strictly inferior to
io.openexcept in some very unusual cases (bytes<->bytes codecs like ROT13 and hex, as opposed to the standard bytes<->Unicode codecs). Because of the weirdo use cases, they've been reluctant to officially deprecate it, but if you check the Python bug tracker, it's often referred to as pseudo-deprecated. PEP 400 includes a bunch of reasons why
codecs.opencreates) are broken.