added PEP 325, Resource-Release Support for Generators, by Samuele Pedroni

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PEP: 325
Title: Resource-Release Support for Generators
Version: $Revision$
Last-Modified: $Date$
Author: Samuele Pedroni <pedronis@python.org>
Status: Draft
Type: Standards Track
Content-Type: text/plain
Created: 25-Aug-2003
Python-Version: 2.4
Post-History:
Abstract
Generators allow for natural coding and abstraction of traversal
over data. Currently if external resources needing proper timely
release are involved, generators are unfortunately not adequate.
The typical idiom for timely release is not supported, a yield
statement is not allowed in the try clause of a try-finally
statement inside a generator. The finally clause execution can be
neither guaranteed nor enforced.
This PEP proposes that the built-in generator type implement a
close method and destruction semantics, such that the restriction
on yield placement can be lifted, expanding the applicability of
generators.
Rationale
Python generators allow for natural coding of many data traversal
scenarios. Their instantiation produces iterators,
i.e. first-class objects abstracting traversal (with all the
advantages of first- classness). In this respect they match in
power and offer some advantages over the approach using iterator
methods taking a (smalltalkish) block. On the other hand, given
current limitations (no yield allowed in a try clause of a
try-finally inside a generator) the latter approach seems better
suited to encapsulating not only traversal but also exception
handling and proper resource acquisition and release.
Let's consider an example (for simplicity, files in read-mode are
used):
def all_lines(index_path):
for path in file(index_path, "r"):
for line in file(path.strip(), "r"):
yield line
this is short and to the point, but the try-finally for timely
closing of the files cannot be added. (While instead of a path, a
file, whose closing then would be responsibility of the caller,
could be passed in as argument, the same is not applicable for the
files opened depending on the contents of the index).
If we want timely release, we have to sacrifice the simplicity and
directness of the generator-only approach: (e.g.)
class AllLines:
def __init__(self,index_path):
self.index_path = index_path
self.index = None
self.document = None
def __iter__(self):
self.index = file(self.index_path,"r")
for path in self.index:
self.document = file(path.strip(),"r")
for line in self.document:
yield line
self.document.close()
self.document = None
def close(self):
if self.index:
self.index.close()
if self.document:
self.document.close()
to be used as:
all_lines = AllLines("index.txt")
try:
for line in all_lines:
...
finally:
all_lines.close()
The more convoluted solution implementing timely release, seems
to offer a precious hint. What we have done is encapsulate our
traversal in an object (iterator) with a close method.
This PEP proposes that generators should grow such a close method
with such semantics that the example could be rewritten as:
# Today this is not valid Python: yield is not allowed between
# try and finally, and generator type instances support no
# close method.
def all_lines(index_path):
index = file(index_path,"r")
try:
for path in index:
document = file(path.strip(),"r")
try:
for line in document:
yield line
finally:
document.close()
finally:
index.close()
all = all_lines("index.txt")
try:
for line in all:
...
finally:
all.close() # close on generator
Currently PEP 255 [1] disallows yield inside a try clause of a
try-finally statement, because the execution of the finally clause
cannot be guaranteed as required by try-finally semantics.
The semantics of the proposed close method should be such that
while the finally clause execution still cannot be guaranteed, it
can be enforced when required. Specifically, the close method
behavior should trigger the execution of the finally clauses
inside the generator, either by forcing a return in the generator
frame or by throwing an exception in it. In situations requiring
timely resource release, close could then be explicitly invoked.
The semantics of generator destruction on the other hand should be
extended in order to implement a best-effort policy for the
general case. Specifically, destruction should invoke close().
The best-effort limitation comes from the fact that the
destructor's execution is not guaranteed in the first place.
This seems to be a reasonable compromise, the resulting global
behavior being similar to that of files and closing.
Possible Semantics
The built-in generator type should have a close method
implemented, which can then be invoked as:
gen.close()
where gen is an instance of the built-in generator type.
Generator destruction should also invoke close method behavior.
If a generator is already terminated, close should be a no-op.
Otherwise, there are two alternative solutions, Return or
Exception Semantics:
A - Return Semantics: The generator should be resumed, generator
execution should continue as if the instruction at the re-entry
point is a return. Consequently finally clauses surrounding the
re-entry point would be executed, in the case of a then allowed
try-yield-finally pattern.
Issues: is it important to be able to distinguish forced
termination by close, normal termination, exception propagation
from generator or generator-called code? In the normal case it
seems not, finally clauses should be there to work the same in all
these cases, still this semantics could make such a distinction
hard.
Except-clauses, like by a normal return, are not executed, such
clauses in legacy generators expect to be executed for exceptions
raised by the generator or by code called from it. Not executing
them in the close case seems correct.
B - Exception Semantics: The generator should be resumed and
execution should continue as if a special-purpose exception
(e.g. CloseGenerator) has been raised at re-entry point. Close
implementation should consume and not propagate further this
exception.
Issues: should StopIteration be reused for this purpose? Probably
not. We would like close to be a harmless operation for legacy
generators, which could contain code catching StopIteration to
deal with other generators/iterators.
In general, with exception semantics, it is unclear what to do if
the generator does not terminate or we do not receive the special
exception propagated back. Other different exceptions should
probably be propagated, but consider this possible legacy
generator code:
try:
...
yield ...
...
except: # or except Exception:, etc
raise Exception("boom")
If close is invoked with the generator suspended after the yield,
the except clause would catch our special purpose exception, so we
would get a different exception propagated back, which in this
case ought to be reasonably consumed and ignored but in general
should be propagated, but separating these scenarios seems hard.
The exception approach has the advantage to let the generator
distinguish between termination cases and have more control. On
the other hand clear-cut semantics seem harder to define.
Remarks
If this proposal is accepted, it should become common practice to
document whether a generator acquires resources, so that its close
method ought to be called. If a generator is no longer used,
calling close should be harmless.
On the other hand, in the typical scenario the code that
instantiated the generator should call close if required by it.
Generic code dealing with iterators/generators instantiated
elsewhere should typically not be littered with close calls.
The rare case of code that has acquired ownership of and need to
properly deal with all of iterators, generators and generators
acquiring resources that need timely release, is easily solved:
if hasattr(iterator, 'close'):
iterator.close()
Open Issues
Definitive semantics ought to be chosen. Currently Guido favors
Exception Semantics. If the generator yields a value instead of
terminating, or propagating back the special exception, a special
exception should be raised again on the generator side.
It is still unclear whether spuriously converted special
exceptions (as discussed in Possible Semantics) are a problem and
what to do about them.
Implementation issues should be explored.
Alternative Ideas
The idea that the yield placement limitation should be removed and
that generator destruction should trigger execution of finally
clauses has been proposed more than once. Alone it cannot
guarantee that timely release of resources acquired by a generator
can be enforced.
PEP 288 [2] proposes a more general solution, allowing custom
exception passing to generators. The proposal in this PEP
addresses more directly the problem of resource release. Were PEP
288 implemented, Exceptions Semantics for close could be layered
on top of it, on the other hand PEP 288 should make a separate
case for the more general functionality.
References
[1] PEP 255 Simple Generators
http://www.python.org/peps/pep-0255.html
[2] PEP 288 Generators Attributes and Exceptions
http://www.python.org/peps/pep-0288.html
Copyright
This document has been placed in the public domain.
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