| **************************** |
| What's New in Python 2.4 |
| **************************** |
| |
| :Author: A.M. Kuchling |
| |
| .. |release| replace:: 1.02 |
| |
| .. $Id: whatsnew24.tex 54632 2007-03-31 11:59:54Z georg.brandl $ |
| .. Don't write extensive text for new sections; I'll do that. |
| .. Feel free to add commented-out reminders of things that need |
| .. to be covered. --amk |
| |
| This article explains the new features in Python 2.4.1, released on March 30, |
| 2005. |
| |
| Python 2.4 is a medium-sized release. It doesn't introduce as many changes as |
| the radical Python 2.2, but introduces more features than the conservative 2.3 |
| release. The most significant new language features are function decorators and |
| generator expressions; most other changes are to the standard library. |
| |
| According to the CVS change logs, there were 481 patches applied and 502 bugs |
| fixed between Python 2.3 and 2.4. Both figures are likely to be underestimates. |
| |
| This article doesn't attempt to provide a complete specification of every single |
| new feature, but instead provides a brief introduction to each feature. For |
| full details, you should refer to the documentation for Python 2.4, such as the |
| Python Library Reference and the Python Reference Manual. Often you will be |
| referred to the PEP for a particular new feature for explanations of the |
| implementation and design rationale. |
| |
| .. ====================================================================== |
| |
| |
| PEP 218: Built-In Set Objects |
| ============================= |
| |
| Python 2.3 introduced the :mod:`sets` module. C implementations of set data |
| types have now been added to the Python core as two new built-in types, |
| :func:`set(iterable)` and :func:`frozenset(iterable)`. They provide high speed |
| operations for membership testing, for eliminating duplicates from sequences, |
| and for mathematical operations like unions, intersections, differences, and |
| symmetric differences. :: |
| |
| >>> a = set('abracadabra') # form a set from a string |
| >>> 'z' in a # fast membership testing |
| False |
| >>> a # unique letters in a |
| set(['a', 'r', 'b', 'c', 'd']) |
| >>> ''.join(a) # convert back into a string |
| 'arbcd' |
| |
| >>> b = set('alacazam') # form a second set |
| >>> a - b # letters in a but not in b |
| set(['r', 'd', 'b']) |
| >>> a | b # letters in either a or b |
| set(['a', 'c', 'r', 'd', 'b', 'm', 'z', 'l']) |
| >>> a & b # letters in both a and b |
| set(['a', 'c']) |
| >>> a ^ b # letters in a or b but not both |
| set(['r', 'd', 'b', 'm', 'z', 'l']) |
| |
| >>> a.add('z') # add a new element |
| >>> a.update('wxy') # add multiple new elements |
| >>> a |
| set(['a', 'c', 'b', 'd', 'r', 'w', 'y', 'x', 'z']) |
| >>> a.remove('x') # take one element out |
| >>> a |
| set(['a', 'c', 'b', 'd', 'r', 'w', 'y', 'z']) |
| |
| The :func:`frozenset` type is an immutable version of :func:`set`. Since it is |
| immutable and hashable, it may be used as a dictionary key or as a member of |
| another set. |
| |
| The :mod:`sets` module remains in the standard library, and may be useful if you |
| wish to subclass the :class:`Set` or :class:`ImmutableSet` classes. There are |
| currently no plans to deprecate the module. |
| |
| |
| .. seealso:: |
| |
| :pep:`218` - Adding a Built-In Set Object Type |
| Originally proposed by Greg Wilson and ultimately implemented by Raymond |
| Hettinger. |
| |
| .. ====================================================================== |
| |
| |
| PEP 237: Unifying Long Integers and Integers |
| ============================================ |
| |
| The lengthy transition process for this PEP, begun in Python 2.2, takes another |
| step forward in Python 2.4. In 2.3, certain integer operations that would |
| behave differently after int/long unification triggered :exc:`FutureWarning` |
| warnings and returned values limited to 32 or 64 bits (depending on your |
| platform). In 2.4, these expressions no longer produce a warning and instead |
| produce a different result that's usually a long integer. |
| |
| The problematic expressions are primarily left shifts and lengthy hexadecimal |
| and octal constants. For example, ``2 << 32`` results in a warning in 2.3, |
| evaluating to 0 on 32-bit platforms. In Python 2.4, this expression now returns |
| the correct answer, 8589934592. |
| |
| |
| .. seealso:: |
| |
| :pep:`237` - Unifying Long Integers and Integers |
| Original PEP written by Moshe Zadka and GvR. The changes for 2.4 were |
| implemented by Kalle Svensson. |
| |
| .. ====================================================================== |
| |
| |
| PEP 289: Generator Expressions |
| ============================== |
| |
| The iterator feature introduced in Python 2.2 and the :mod:`itertools` module |
| make it easier to write programs that loop through large data sets without |
| having the entire data set in memory at one time. List comprehensions don't fit |
| into this picture very well because they produce a Python list object containing |
| all of the items. This unavoidably pulls all of the objects into memory, which |
| can be a problem if your data set is very large. When trying to write a |
| functionally-styled program, it would be natural to write something like:: |
| |
| links = [link for link in get_all_links() if not link.followed] |
| for link in links: |
| ... |
| |
| instead of :: |
| |
| for link in get_all_links(): |
| if link.followed: |
| continue |
| ... |
| |
| The first form is more concise and perhaps more readable, but if you're dealing |
| with a large number of link objects you'd have to write the second form to avoid |
| having all link objects in memory at the same time. |
| |
| Generator expressions work similarly to list comprehensions but don't |
| materialize the entire list; instead they create a generator that will return |
| elements one by one. The above example could be written as:: |
| |
| links = (link for link in get_all_links() if not link.followed) |
| for link in links: |
| ... |
| |
| Generator expressions always have to be written inside parentheses, as in the |
| above example. The parentheses signalling a function call also count, so if you |
| want to create an iterator that will be immediately passed to a function you |
| could write:: |
| |
| print sum(obj.count for obj in list_all_objects()) |
| |
| Generator expressions differ from list comprehensions in various small ways. |
| Most notably, the loop variable (*obj* in the above example) is not accessible |
| outside of the generator expression. List comprehensions leave the variable |
| assigned to its last value; future versions of Python will change this, making |
| list comprehensions match generator expressions in this respect. |
| |
| |
| .. seealso:: |
| |
| :pep:`289` - Generator Expressions |
| Proposed by Raymond Hettinger and implemented by Jiwon Seo with early efforts |
| steered by Hye-Shik Chang. |
| |
| .. ====================================================================== |
| |
| |
| PEP 292: Simpler String Substitutions |
| ===================================== |
| |
| Some new classes in the standard library provide an alternative mechanism for |
| substituting variables into strings; this style of substitution may be better |
| for applications where untrained users need to edit templates. |
| |
| The usual way of substituting variables by name is the ``%`` operator:: |
| |
| >>> '%(page)i: %(title)s' % {'page':2, 'title': 'The Best of Times'} |
| '2: The Best of Times' |
| |
| When writing the template string, it can be easy to forget the ``i`` or ``s`` |
| after the closing parenthesis. This isn't a big problem if the template is in a |
| Python module, because you run the code, get an "Unsupported format character" |
| :exc:`ValueError`, and fix the problem. However, consider an application such |
| as Mailman where template strings or translations are being edited by users who |
| aren't aware of the Python language. The format string's syntax is complicated |
| to explain to such users, and if they make a mistake, it's difficult to provide |
| helpful feedback to them. |
| |
| PEP 292 adds a :class:`Template` class to the :mod:`string` module that uses |
| ``$`` to indicate a substitution:: |
| |
| >>> import string |
| >>> t = string.Template('$page: $title') |
| >>> t.substitute({'page':2, 'title': 'The Best of Times'}) |
| '2: The Best of Times' |
| |
| If a key is missing from the dictionary, the :meth:`substitute` method will |
| raise a :exc:`KeyError`. There's also a :meth:`safe_substitute` method that |
| ignores missing keys:: |
| |
| >>> t = string.Template('$page: $title') |
| >>> t.safe_substitute({'page':3}) |
| '3: $title' |
| |
| |
| .. seealso:: |
| |
| :pep:`292` - Simpler String Substitutions |
| Written and implemented by Barry Warsaw. |
| |
| .. ====================================================================== |
| |
| |
| PEP 318: Decorators for Functions and Methods |
| ============================================= |
| |
| Python 2.2 extended Python's object model by adding static methods and class |
| methods, but it didn't extend Python's syntax to provide any new way of defining |
| static or class methods. Instead, you had to write a :keyword:`def` statement |
| in the usual way, and pass the resulting method to a :func:`staticmethod` or |
| :func:`classmethod` function that would wrap up the function as a method of the |
| new type. Your code would look like this:: |
| |
| class C: |
| def meth (cls): |
| ... |
| |
| meth = classmethod(meth) # Rebind name to wrapped-up class method |
| |
| If the method was very long, it would be easy to miss or forget the |
| :func:`classmethod` invocation after the function body. |
| |
| The intention was always to add some syntax to make such definitions more |
| readable, but at the time of 2.2's release a good syntax was not obvious. Today |
| a good syntax *still* isn't obvious but users are asking for easier access to |
| the feature; a new syntactic feature has been added to meet this need. |
| |
| The new feature is called "function decorators". The name comes from the idea |
| that :func:`classmethod`, :func:`staticmethod`, and friends are storing |
| additional information on a function object; they're *decorating* functions with |
| more details. |
| |
| The notation borrows from Java and uses the ``'@'`` character as an indicator. |
| Using the new syntax, the example above would be written:: |
| |
| class C: |
| |
| @classmethod |
| def meth (cls): |
| ... |
| |
| |
| The ``@classmethod`` is shorthand for the ``meth=classmethod(meth)`` assignment. |
| More generally, if you have the following:: |
| |
| @A |
| @B |
| @C |
| def f (): |
| ... |
| |
| It's equivalent to the following pre-decorator code:: |
| |
| def f(): ... |
| f = A(B(C(f))) |
| |
| Decorators must come on the line before a function definition, one decorator per |
| line, and can't be on the same line as the def statement, meaning that ``@A def |
| f(): ...`` is illegal. You can only decorate function definitions, either at |
| the module level or inside a class; you can't decorate class definitions. |
| |
| A decorator is just a function that takes the function to be decorated as an |
| argument and returns either the same function or some new object. The return |
| value of the decorator need not be callable (though it typically is), unless |
| further decorators will be applied to the result. It's easy to write your own |
| decorators. The following simple example just sets an attribute on the function |
| object:: |
| |
| >>> def deco(func): |
| ... func.attr = 'decorated' |
| ... return func |
| ... |
| >>> @deco |
| ... def f(): pass |
| ... |
| >>> f |
| <function f at 0x402ef0d4> |
| >>> f.attr |
| 'decorated' |
| >>> |
| |
| As a slightly more realistic example, the following decorator checks that the |
| supplied argument is an integer:: |
| |
| def require_int (func): |
| def wrapper (arg): |
| assert isinstance(arg, int) |
| return func(arg) |
| |
| return wrapper |
| |
| @require_int |
| def p1 (arg): |
| print arg |
| |
| @require_int |
| def p2(arg): |
| print arg*2 |
| |
| An example in :pep:`318` contains a fancier version of this idea that lets you |
| both specify the required type and check the returned type. |
| |
| Decorator functions can take arguments. If arguments are supplied, your |
| decorator function is called with only those arguments and must return a new |
| decorator function; this function must take a single function and return a |
| function, as previously described. In other words, ``@A @B @C(args)`` becomes:: |
| |
| def f(): ... |
| _deco = C(args) |
| f = A(B(_deco(f))) |
| |
| Getting this right can be slightly brain-bending, but it's not too difficult. |
| |
| A small related change makes the :attr:`func_name` attribute of functions |
| writable. This attribute is used to display function names in tracebacks, so |
| decorators should change the name of any new function that's constructed and |
| returned. |
| |
| |
| .. seealso:: |
| |
| :pep:`318` - Decorators for Functions, Methods and Classes |
| Written by Kevin D. Smith, Jim Jewett, and Skip Montanaro. Several people |
| wrote patches implementing function decorators, but the one that was actually |
| checked in was patch #979728, written by Mark Russell. |
| |
| http://www.python.org/moin/PythonDecoratorLibrary |
| This Wiki page contains several examples of decorators. |
| |
| .. ====================================================================== |
| |
| |
| PEP 322: Reverse Iteration |
| ========================== |
| |
| A new built-in function, :func:`reversed(seq)`, takes a sequence and returns an |
| iterator that loops over the elements of the sequence in reverse order. :: |
| |
| >>> for i in reversed(xrange(1,4)): |
| ... print i |
| ... |
| 3 |
| 2 |
| 1 |
| |
| Compared to extended slicing, such as ``range(1,4)[::-1]``, :func:`reversed` is |
| easier to read, runs faster, and uses substantially less memory. |
| |
| Note that :func:`reversed` only accepts sequences, not arbitrary iterators. If |
| you want to reverse an iterator, first convert it to a list with :func:`list`. |
| :: |
| |
| >>> input = open('/etc/passwd', 'r') |
| >>> for line in reversed(list(input)): |
| ... print line |
| ... |
| root:*:0:0:System Administrator:/var/root:/bin/tcsh |
| ... |
| |
| |
| .. seealso:: |
| |
| :pep:`322` - Reverse Iteration |
| Written and implemented by Raymond Hettinger. |
| |
| .. ====================================================================== |
| |
| |
| PEP 324: New subprocess Module |
| ============================== |
| |
| The standard library provides a number of ways to execute a subprocess, offering |
| different features and different levels of complexity. |
| :func:`os.system(command)` is easy to use, but slow (it runs a shell process |
| which executes the command) and dangerous (you have to be careful about escaping |
| the shell's metacharacters). The :mod:`popen2` module offers classes that can |
| capture standard output and standard error from the subprocess, but the naming |
| is confusing. The :mod:`subprocess` module cleans this up, providing a unified |
| interface that offers all the features you might need. |
| |
| Instead of :mod:`popen2`'s collection of classes, :mod:`subprocess` contains a |
| single class called :class:`Popen` whose constructor supports a number of |
| different keyword arguments. :: |
| |
| class Popen(args, bufsize=0, executable=None, |
| stdin=None, stdout=None, stderr=None, |
| preexec_fn=None, close_fds=False, shell=False, |
| cwd=None, env=None, universal_newlines=False, |
| startupinfo=None, creationflags=0): |
| |
| *args* is commonly a sequence of strings that will be the arguments to the |
| program executed as the subprocess. (If the *shell* argument is true, *args* |
| can be a string which will then be passed on to the shell for interpretation, |
| just as :func:`os.system` does.) |
| |
| *stdin*, *stdout*, and *stderr* specify what the subprocess's input, output, and |
| error streams will be. You can provide a file object or a file descriptor, or |
| you can use the constant ``subprocess.PIPE`` to create a pipe between the |
| subprocess and the parent. |
| |
| The constructor has a number of handy options: |
| |
| * *close_fds* requests that all file descriptors be closed before running the |
| subprocess. |
| |
| * *cwd* specifies the working directory in which the subprocess will be executed |
| (defaulting to whatever the parent's working directory is). |
| |
| * *env* is a dictionary specifying environment variables. |
| |
| * *preexec_fn* is a function that gets called before the child is started. |
| |
| * *universal_newlines* opens the child's input and output using Python's |
| universal newline feature. |
| |
| Once you've created the :class:`Popen` instance, you can call its :meth:`wait` |
| method to pause until the subprocess has exited, :meth:`poll` to check if it's |
| exited without pausing, or :meth:`communicate(data)` to send the string *data* |
| to the subprocess's standard input. :meth:`communicate(data)` then reads any |
| data that the subprocess has sent to its standard output or standard error, |
| returning a tuple ``(stdout_data, stderr_data)``. |
| |
| :func:`call` is a shortcut that passes its arguments along to the :class:`Popen` |
| constructor, waits for the command to complete, and returns the status code of |
| the subprocess. It can serve as a safer analog to :func:`os.system`:: |
| |
| sts = subprocess.call(['dpkg', '-i', '/tmp/new-package.deb']) |
| if sts == 0: |
| # Success |
| ... |
| else: |
| # dpkg returned an error |
| ... |
| |
| The command is invoked without use of the shell. If you really do want to use |
| the shell, you can add ``shell=True`` as a keyword argument and provide a string |
| instead of a sequence:: |
| |
| sts = subprocess.call('dpkg -i /tmp/new-package.deb', shell=True) |
| |
| The PEP takes various examples of shell and Python code and shows how they'd be |
| translated into Python code that uses :mod:`subprocess`. Reading this section |
| of the PEP is highly recommended. |
| |
| |
| .. seealso:: |
| |
| :pep:`324` - subprocess - New process module |
| Written and implemented by Peter Ă…strand, with assistance from Fredrik Lundh and |
| others. |
| |
| .. ====================================================================== |
| |
| |
| PEP 327: Decimal Data Type |
| ========================== |
| |
| Python has always supported floating-point (FP) numbers, based on the underlying |
| C :c:type:`double` type, as a data type. However, while most programming |
| languages provide a floating-point type, many people (even programmers) are |
| unaware that floating-point numbers don't represent certain decimal fractions |
| accurately. The new :class:`Decimal` type can represent these fractions |
| accurately, up to a user-specified precision limit. |
| |
| |
| Why is Decimal needed? |
| ---------------------- |
| |
| The limitations arise from the representation used for floating-point numbers. |
| FP numbers are made up of three components: |
| |
| * The sign, which is positive or negative. |
| |
| * The mantissa, which is a single-digit binary number followed by a fractional |
| part. For example, ``1.01`` in base-2 notation is ``1 + 0/2 + 1/4``, or 1.25 in |
| decimal notation. |
| |
| * The exponent, which tells where the decimal point is located in the number |
| represented. |
| |
| For example, the number 1.25 has positive sign, a mantissa value of 1.01 (in |
| binary), and an exponent of 0 (the decimal point doesn't need to be shifted). |
| The number 5 has the same sign and mantissa, but the exponent is 2 because the |
| mantissa is multiplied by 4 (2 to the power of the exponent 2); 1.25 \* 4 equals |
| 5. |
| |
| Modern systems usually provide floating-point support that conforms to a |
| standard called IEEE 754. C's :c:type:`double` type is usually implemented as a |
| 64-bit IEEE 754 number, which uses 52 bits of space for the mantissa. This |
| means that numbers can only be specified to 52 bits of precision. If you're |
| trying to represent numbers whose expansion repeats endlessly, the expansion is |
| cut off after 52 bits. Unfortunately, most software needs to produce output in |
| base 10, and common fractions in base 10 are often repeating decimals in binary. |
| For example, 1.1 decimal is binary ``1.0001100110011 ...``; .1 = 1/16 + 1/32 + |
| 1/256 plus an infinite number of additional terms. IEEE 754 has to chop off |
| that infinitely repeated decimal after 52 digits, so the representation is |
| slightly inaccurate. |
| |
| Sometimes you can see this inaccuracy when the number is printed:: |
| |
| >>> 1.1 |
| 1.1000000000000001 |
| |
| The inaccuracy isn't always visible when you print the number because the FP-to- |
| decimal-string conversion is provided by the C library, and most C libraries try |
| to produce sensible output. Even if it's not displayed, however, the inaccuracy |
| is still there and subsequent operations can magnify the error. |
| |
| For many applications this doesn't matter. If I'm plotting points and |
| displaying them on my monitor, the difference between 1.1 and 1.1000000000000001 |
| is too small to be visible. Reports often limit output to a certain number of |
| decimal places, and if you round the number to two or three or even eight |
| decimal places, the error is never apparent. However, for applications where it |
| does matter, it's a lot of work to implement your own custom arithmetic |
| routines. |
| |
| Hence, the :class:`Decimal` type was created. |
| |
| |
| The :class:`Decimal` type |
| ------------------------- |
| |
| A new module, :mod:`decimal`, was added to Python's standard library. It |
| contains two classes, :class:`Decimal` and :class:`Context`. :class:`Decimal` |
| instances represent numbers, and :class:`Context` instances are used to wrap up |
| various settings such as the precision and default rounding mode. |
| |
| :class:`Decimal` instances are immutable, like regular Python integers and FP |
| numbers; once it's been created, you can't change the value an instance |
| represents. :class:`Decimal` instances can be created from integers or |
| strings:: |
| |
| >>> import decimal |
| >>> decimal.Decimal(1972) |
| Decimal("1972") |
| >>> decimal.Decimal("1.1") |
| Decimal("1.1") |
| |
| You can also provide tuples containing the sign, the mantissa represented as a |
| tuple of decimal digits, and the exponent:: |
| |
| >>> decimal.Decimal((1, (1, 4, 7, 5), -2)) |
| Decimal("-14.75") |
| |
| Cautionary note: the sign bit is a Boolean value, so 0 is positive and 1 is |
| negative. |
| |
| Converting from floating-point numbers poses a bit of a problem: should the FP |
| number representing 1.1 turn into the decimal number for exactly 1.1, or for 1.1 |
| plus whatever inaccuracies are introduced? The decision was to dodge the issue |
| and leave such a conversion out of the API. Instead, you should convert the |
| floating-point number into a string using the desired precision and pass the |
| string to the :class:`Decimal` constructor:: |
| |
| >>> f = 1.1 |
| >>> decimal.Decimal(str(f)) |
| Decimal("1.1") |
| >>> decimal.Decimal('%.12f' % f) |
| Decimal("1.100000000000") |
| |
| Once you have :class:`Decimal` instances, you can perform the usual mathematical |
| operations on them. One limitation: exponentiation requires an integer |
| exponent:: |
| |
| >>> a = decimal.Decimal('35.72') |
| >>> b = decimal.Decimal('1.73') |
| >>> a+b |
| Decimal("37.45") |
| >>> a-b |
| Decimal("33.99") |
| >>> a*b |
| Decimal("61.7956") |
| >>> a/b |
| Decimal("20.64739884393063583815028902") |
| >>> a ** 2 |
| Decimal("1275.9184") |
| >>> a**b |
| Traceback (most recent call last): |
| ... |
| decimal.InvalidOperation: x ** (non-integer) |
| |
| You can combine :class:`Decimal` instances with integers, but not with floating- |
| point numbers:: |
| |
| >>> a + 4 |
| Decimal("39.72") |
| >>> a + 4.5 |
| Traceback (most recent call last): |
| ... |
| TypeError: You can interact Decimal only with int, long or Decimal data types. |
| >>> |
| |
| :class:`Decimal` numbers can be used with the :mod:`math` and :mod:`cmath` |
| modules, but note that they'll be immediately converted to floating-point |
| numbers before the operation is performed, resulting in a possible loss of |
| precision and accuracy. You'll also get back a regular floating-point number |
| and not a :class:`Decimal`. :: |
| |
| >>> import math, cmath |
| >>> d = decimal.Decimal('123456789012.345') |
| >>> math.sqrt(d) |
| 351364.18288201344 |
| >>> cmath.sqrt(-d) |
| 351364.18288201344j |
| |
| :class:`Decimal` instances have a :meth:`sqrt` method that returns a |
| :class:`Decimal`, but if you need other things such as trigonometric functions |
| you'll have to implement them. :: |
| |
| >>> d.sqrt() |
| Decimal("351364.1828820134592177245001") |
| |
| |
| The :class:`Context` type |
| ------------------------- |
| |
| Instances of the :class:`Context` class encapsulate several settings for |
| decimal operations: |
| |
| * :attr:`prec` is the precision, the number of decimal places. |
| |
| * :attr:`rounding` specifies the rounding mode. The :mod:`decimal` module has |
| constants for the various possibilities: :const:`ROUND_DOWN`, |
| :const:`ROUND_CEILING`, :const:`ROUND_HALF_EVEN`, and various others. |
| |
| * :attr:`traps` is a dictionary specifying what happens on encountering certain |
| error conditions: either an exception is raised or a value is returned. Some |
| examples of error conditions are division by zero, loss of precision, and |
| overflow. |
| |
| There's a thread-local default context available by calling :func:`getcontext`; |
| you can change the properties of this context to alter the default precision, |
| rounding, or trap handling. The following example shows the effect of changing |
| the precision of the default context:: |
| |
| >>> decimal.getcontext().prec |
| 28 |
| >>> decimal.Decimal(1) / decimal.Decimal(7) |
| Decimal("0.1428571428571428571428571429") |
| >>> decimal.getcontext().prec = 9 |
| >>> decimal.Decimal(1) / decimal.Decimal(7) |
| Decimal("0.142857143") |
| |
| The default action for error conditions is selectable; the module can either |
| return a special value such as infinity or not-a-number, or exceptions can be |
| raised:: |
| |
| >>> decimal.Decimal(1) / decimal.Decimal(0) |
| Traceback (most recent call last): |
| ... |
| decimal.DivisionByZero: x / 0 |
| >>> decimal.getcontext().traps[decimal.DivisionByZero] = False |
| >>> decimal.Decimal(1) / decimal.Decimal(0) |
| Decimal("Infinity") |
| >>> |
| |
| The :class:`Context` instance also has various methods for formatting numbers |
| such as :meth:`to_eng_string` and :meth:`to_sci_string`. |
| |
| For more information, see the documentation for the :mod:`decimal` module, which |
| includes a quick-start tutorial and a reference. |
| |
| |
| .. seealso:: |
| |
| :pep:`327` - Decimal Data Type |
| Written by Facundo Batista and implemented by Facundo Batista, Eric Price, |
| Raymond Hettinger, Aahz, and Tim Peters. |
| |
| http://www.lahey.com/float.htm |
| The article uses Fortran code to illustrate many of the problems that floating- |
| point inaccuracy can cause. |
| |
| http://www2.hursley.ibm.com/decimal/ |
| A description of a decimal-based representation. This representation is being |
| proposed as a standard, and underlies the new Python decimal type. Much of this |
| material was written by Mike Cowlishaw, designer of the Rexx language. |
| |
| .. ====================================================================== |
| |
| |
| PEP 328: Multi-line Imports |
| =========================== |
| |
| One language change is a small syntactic tweak aimed at making it easier to |
| import many names from a module. In a ``from module import names`` statement, |
| *names* is a sequence of names separated by commas. If the sequence is very |
| long, you can either write multiple imports from the same module, or you can use |
| backslashes to escape the line endings like this:: |
| |
| from SimpleXMLRPCServer import SimpleXMLRPCServer,\ |
| SimpleXMLRPCRequestHandler,\ |
| CGIXMLRPCRequestHandler,\ |
| resolve_dotted_attribute |
| |
| The syntactic change in Python 2.4 simply allows putting the names within |
| parentheses. Python ignores newlines within a parenthesized expression, so the |
| backslashes are no longer needed:: |
| |
| from SimpleXMLRPCServer import (SimpleXMLRPCServer, |
| SimpleXMLRPCRequestHandler, |
| CGIXMLRPCRequestHandler, |
| resolve_dotted_attribute) |
| |
| The PEP also proposes that all :keyword:`import` statements be absolute imports, |
| with a leading ``.`` character to indicate a relative import. This part of the |
| PEP was not implemented for Python 2.4, but was completed for Python 2.5. |
| |
| |
| .. seealso:: |
| |
| :pep:`328` - Imports: Multi-Line and Absolute/Relative |
| Written by Aahz. Multi-line imports were implemented by Dima Dorfman. |
| |
| .. ====================================================================== |
| |
| |
| PEP 331: Locale-Independent Float/String Conversions |
| ==================================================== |
| |
| The :mod:`locale` modules lets Python software select various conversions and |
| display conventions that are localized to a particular country or language. |
| However, the module was careful to not change the numeric locale because various |
| functions in Python's implementation required that the numeric locale remain set |
| to the ``'C'`` locale. Often this was because the code was using the C |
| library's :c:func:`atof` function. |
| |
| Not setting the numeric locale caused trouble for extensions that used third- |
| party C libraries, however, because they wouldn't have the correct locale set. |
| The motivating example was GTK+, whose user interface widgets weren't displaying |
| numbers in the current locale. |
| |
| The solution described in the PEP is to add three new functions to the Python |
| API that perform ASCII-only conversions, ignoring the locale setting: |
| |
| * :c:func:`PyOS_ascii_strtod(str, ptr)` and :c:func:`PyOS_ascii_atof(str, ptr)` |
| both convert a string to a C :c:type:`double`. |
| |
| * :c:func:`PyOS_ascii_formatd(buffer, buf_len, format, d)` converts a |
| :c:type:`double` to an ASCII string. |
| |
| The code for these functions came from the GLib library |
| (http://library.gnome.org/devel/glib/stable/), whose developers kindly |
| relicensed the relevant functions and donated them to the Python Software |
| Foundation. The :mod:`locale` module can now change the numeric locale, |
| letting extensions such as GTK+ produce the correct results. |
| |
| |
| .. seealso:: |
| |
| :pep:`331` - Locale-Independent Float/String Conversions |
| Written by Christian R. Reis, and implemented by Gustavo Carneiro. |
| |
| .. ====================================================================== |
| |
| |
| Other Language Changes |
| ====================== |
| |
| Here are all of the changes that Python 2.4 makes to the core Python language. |
| |
| * Decorators for functions and methods were added (:pep:`318`). |
| |
| * Built-in :func:`set` and :func:`frozenset` types were added (:pep:`218`). |
| Other new built-ins include the :func:`reversed(seq)` function (:pep:`322`). |
| |
| * Generator expressions were added (:pep:`289`). |
| |
| * Certain numeric expressions no longer return values restricted to 32 or 64 |
| bits (:pep:`237`). |
| |
| * You can now put parentheses around the list of names in a ``from module import |
| names`` statement (:pep:`328`). |
| |
| * The :meth:`dict.update` method now accepts the same argument forms as the |
| :class:`dict` constructor. This includes any mapping, any iterable of key/value |
| pairs, and keyword arguments. (Contributed by Raymond Hettinger.) |
| |
| * The string methods :meth:`ljust`, :meth:`rjust`, and :meth:`center` now take |
| an optional argument for specifying a fill character other than a space. |
| (Contributed by Raymond Hettinger.) |
| |
| * Strings also gained an :meth:`rsplit` method that works like the :meth:`split` |
| method but splits from the end of the string. (Contributed by Sean |
| Reifschneider.) :: |
| |
| >>> 'www.python.org'.split('.', 1) |
| ['www', 'python.org'] |
| 'www.python.org'.rsplit('.', 1) |
| ['www.python', 'org'] |
| |
| * Three keyword parameters, *cmp*, *key*, and *reverse*, were added to the |
| :meth:`sort` method of lists. These parameters make some common usages of |
| :meth:`sort` simpler. All of these parameters are optional. |
| |
| For the *cmp* parameter, the value should be a comparison function that takes |
| two parameters and returns -1, 0, or +1 depending on how the parameters compare. |
| This function will then be used to sort the list. Previously this was the only |
| parameter that could be provided to :meth:`sort`. |
| |
| *key* should be a single-parameter function that takes a list element and |
| returns a comparison key for the element. The list is then sorted using the |
| comparison keys. The following example sorts a list case-insensitively:: |
| |
| >>> L = ['A', 'b', 'c', 'D'] |
| >>> L.sort() # Case-sensitive sort |
| >>> L |
| ['A', 'D', 'b', 'c'] |
| >>> # Using 'key' parameter to sort list |
| >>> L.sort(key=lambda x: x.lower()) |
| >>> L |
| ['A', 'b', 'c', 'D'] |
| >>> # Old-fashioned way |
| >>> L.sort(cmp=lambda x,y: cmp(x.lower(), y.lower())) |
| >>> L |
| ['A', 'b', 'c', 'D'] |
| |
| The last example, which uses the *cmp* parameter, is the old way to perform a |
| case-insensitive sort. It works but is slower than using a *key* parameter. |
| Using *key* calls :meth:`lower` method once for each element in the list while |
| using *cmp* will call it twice for each comparison, so using *key* saves on |
| invocations of the :meth:`lower` method. |
| |
| For simple key functions and comparison functions, it is often possible to avoid |
| a :keyword:`lambda` expression by using an unbound method instead. For example, |
| the above case-insensitive sort is best written as:: |
| |
| >>> L.sort(key=str.lower) |
| >>> L |
| ['A', 'b', 'c', 'D'] |
| |
| Finally, the *reverse* parameter takes a Boolean value. If the value is true, |
| the list will be sorted into reverse order. Instead of ``L.sort() ; |
| L.reverse()``, you can now write ``L.sort(reverse=True)``. |
| |
| The results of sorting are now guaranteed to be stable. This means that two |
| entries with equal keys will be returned in the same order as they were input. |
| For example, you can sort a list of people by name, and then sort the list by |
| age, resulting in a list sorted by age where people with the same age are in |
| name-sorted order. |
| |
| (All changes to :meth:`sort` contributed by Raymond Hettinger.) |
| |
| * There is a new built-in function :func:`sorted(iterable)` that works like the |
| in-place :meth:`list.sort` method but can be used in expressions. The |
| differences are: |
| |
| * the input may be any iterable; |
| |
| * a newly formed copy is sorted, leaving the original intact; and |
| |
| * the expression returns the new sorted copy |
| |
| :: |
| |
| >>> L = [9,7,8,3,2,4,1,6,5] |
| >>> [10+i for i in sorted(L)] # usable in a list comprehension |
| [11, 12, 13, 14, 15, 16, 17, 18, 19] |
| >>> L # original is left unchanged |
| [9,7,8,3,2,4,1,6,5] |
| >>> sorted('Monty Python') # any iterable may be an input |
| [' ', 'M', 'P', 'h', 'n', 'n', 'o', 'o', 't', 't', 'y', 'y'] |
| |
| >>> # List the contents of a dict sorted by key values |
| >>> colormap = dict(red=1, blue=2, green=3, black=4, yellow=5) |
| >>> for k, v in sorted(colormap.iteritems()): |
| ... print k, v |
| ... |
| black 4 |
| blue 2 |
| green 3 |
| red 1 |
| yellow 5 |
| |
| (Contributed by Raymond Hettinger.) |
| |
| * Integer operations will no longer trigger an :exc:`OverflowWarning`. The |
| :exc:`OverflowWarning` warning will disappear in Python 2.5. |
| |
| * The interpreter gained a new switch, :option:`-m`, that takes a name, searches |
| for the corresponding module on ``sys.path``, and runs the module as a script. |
| For example, you can now run the Python profiler with ``python -m profile``. |
| (Contributed by Nick Coghlan.) |
| |
| * The :func:`eval(expr, globals, locals)` and :func:`execfile(filename, globals, |
| locals)` functions and the ``exec`` statement now accept any mapping type |
| for the *locals* parameter. Previously this had to be a regular Python |
| dictionary. (Contributed by Raymond Hettinger.) |
| |
| * The :func:`zip` built-in function and :func:`itertools.izip` now return an |
| empty list if called with no arguments. Previously they raised a |
| :exc:`TypeError` exception. This makes them more suitable for use with variable |
| length argument lists:: |
| |
| >>> def transpose(array): |
| ... return zip(*array) |
| ... |
| >>> transpose([(1,2,3), (4,5,6)]) |
| [(1, 4), (2, 5), (3, 6)] |
| >>> transpose([]) |
| [] |
| |
| (Contributed by Raymond Hettinger.) |
| |
| * Encountering a failure while importing a module no longer leaves a partially- |
| initialized module object in ``sys.modules``. The incomplete module object left |
| behind would fool further imports of the same module into succeeding, leading to |
| confusing errors. (Fixed by Tim Peters.) |
| |
| * :const:`None` is now a constant; code that binds a new value to the name |
| ``None`` is now a syntax error. (Contributed by Raymond Hettinger.) |
| |
| .. ====================================================================== |
| |
| |
| Optimizations |
| ------------- |
| |
| * The inner loops for list and tuple slicing were optimized and now run about |
| one-third faster. The inner loops for dictionaries were also optimized, |
| resulting in performance boosts for :meth:`keys`, :meth:`values`, :meth:`items`, |
| :meth:`iterkeys`, :meth:`itervalues`, and :meth:`iteritems`. (Contributed by |
| Raymond Hettinger.) |
| |
| * The machinery for growing and shrinking lists was optimized for speed and for |
| space efficiency. Appending and popping from lists now runs faster due to more |
| efficient code paths and less frequent use of the underlying system |
| :c:func:`realloc`. List comprehensions also benefit. :meth:`list.extend` was |
| also optimized and no longer converts its argument into a temporary list before |
| extending the base list. (Contributed by Raymond Hettinger.) |
| |
| * :func:`list`, :func:`tuple`, :func:`map`, :func:`filter`, and :func:`zip` now |
| run several times faster with non-sequence arguments that supply a |
| :meth:`__len__` method. (Contributed by Raymond Hettinger.) |
| |
| * The methods :meth:`list.__getitem__`, :meth:`dict.__getitem__`, and |
| :meth:`dict.__contains__` are now implemented as :class:`method_descriptor` |
| objects rather than :class:`wrapper_descriptor` objects. This form of access |
| doubles their performance and makes them more suitable for use as arguments to |
| functionals: ``map(mydict.__getitem__, keylist)``. (Contributed by Raymond |
| Hettinger.) |
| |
| * Added a new opcode, ``LIST_APPEND``, that simplifies the generated bytecode |
| for list comprehensions and speeds them up by about a third. (Contributed by |
| Raymond Hettinger.) |
| |
| * The peephole bytecode optimizer has been improved to produce shorter, faster |
| bytecode; remarkably, the resulting bytecode is more readable. (Enhanced by |
| Raymond Hettinger.) |
| |
| * String concatenations in statements of the form ``s = s + "abc"`` and ``s += |
| "abc"`` are now performed more efficiently in certain circumstances. This |
| optimization won't be present in other Python implementations such as Jython, so |
| you shouldn't rely on it; using the :meth:`join` method of strings is still |
| recommended when you want to efficiently glue a large number of strings |
| together. (Contributed by Armin Rigo.) |
| |
| The net result of the 2.4 optimizations is that Python 2.4 runs the pystone |
| benchmark around 5% faster than Python 2.3 and 35% faster than Python 2.2. |
| (pystone is not a particularly good benchmark, but it's the most commonly used |
| measurement of Python's performance. Your own applications may show greater or |
| smaller benefits from Python 2.4.) |
| |
| .. pystone is almost useless for comparing different versions of Python; |
| instead, it excels at predicting relative Python performance on different |
| machines. So, this section would be more informative if it used other tools |
| such as pybench and parrotbench. For a more application oriented benchmark, |
| try comparing the timings of test_decimal.py under 2.3 and 2.4. |
| |
| .. ====================================================================== |
| |
| |
| New, Improved, and Deprecated Modules |
| ===================================== |
| |
| As usual, Python's standard library received a number of enhancements and bug |
| fixes. Here's a partial list of the most notable changes, sorted alphabetically |
| by module name. Consult the :file:`Misc/NEWS` file in the source tree for a more |
| complete list of changes, or look through the CVS logs for all the details. |
| |
| * The :mod:`asyncore` module's :func:`loop` function now has a *count* parameter |
| that lets you perform a limited number of passes through the polling loop. The |
| default is still to loop forever. |
| |
| * The :mod:`base64` module now has more complete RFC 3548 support for Base64, |
| Base32, and Base16 encoding and decoding, including optional case folding and |
| optional alternative alphabets. (Contributed by Barry Warsaw.) |
| |
| * The :mod:`bisect` module now has an underlying C implementation for improved |
| performance. (Contributed by Dmitry Vasiliev.) |
| |
| * The CJKCodecs collections of East Asian codecs, maintained by Hye-Shik Chang, |
| was integrated into 2.4. The new encodings are: |
| |
| * Chinese (PRC): gb2312, gbk, gb18030, big5hkscs, hz |
| |
| * Chinese (ROC): big5, cp950 |
| |
| * Japanese: cp932, euc-jis-2004, euc-jp, euc-jisx0213, iso-2022-jp, |
| iso-2022-jp-1, iso-2022-jp-2, iso-2022-jp-3, iso-2022-jp-ext, iso-2022-jp-2004, |
| shift-jis, shift-jisx0213, shift-jis-2004 |
| |
| * Korean: cp949, euc-kr, johab, iso-2022-kr |
| |
| * Some other new encodings were added: HP Roman8, ISO_8859-11, ISO_8859-16, |
| PCTP-154, and TIS-620. |
| |
| * The UTF-8 and UTF-16 codecs now cope better with receiving partial input. |
| Previously the :class:`StreamReader` class would try to read more data, making |
| it impossible to resume decoding from the stream. The :meth:`read` method will |
| now return as much data as it can and future calls will resume decoding where |
| previous ones left off. (Implemented by Walter Dörwald.) |
| |
| * There is a new :mod:`collections` module for various specialized collection |
| datatypes. Currently it contains just one type, :class:`deque`, a double- |
| ended queue that supports efficiently adding and removing elements from either |
| end:: |
| |
| >>> from collections import deque |
| >>> d = deque('ghi') # make a new deque with three items |
| >>> d.append('j') # add a new entry to the right side |
| >>> d.appendleft('f') # add a new entry to the left side |
| >>> d # show the representation of the deque |
| deque(['f', 'g', 'h', 'i', 'j']) |
| >>> d.pop() # return and remove the rightmost item |
| 'j' |
| >>> d.popleft() # return and remove the leftmost item |
| 'f' |
| >>> list(d) # list the contents of the deque |
| ['g', 'h', 'i'] |
| >>> 'h' in d # search the deque |
| True |
| |
| Several modules, such as the :mod:`Queue` and :mod:`threading` modules, now take |
| advantage of :class:`collections.deque` for improved performance. (Contributed |
| by Raymond Hettinger.) |
| |
| * The :mod:`ConfigParser` classes have been enhanced slightly. The :meth:`read` |
| method now returns a list of the files that were successfully parsed, and the |
| :meth:`set` method raises :exc:`TypeError` if passed a *value* argument that |
| isn't a string. (Contributed by John Belmonte and David Goodger.) |
| |
| * The :mod:`curses` module now supports the ncurses extension |
| :func:`use_default_colors`. On platforms where the terminal supports |
| transparency, this makes it possible to use a transparent background. |
| (Contributed by Jörg Lehmann.) |
| |
| * The :mod:`difflib` module now includes an :class:`HtmlDiff` class that creates |
| an HTML table showing a side by side comparison of two versions of a text. |
| (Contributed by Dan Gass.) |
| |
| * The :mod:`email` package was updated to version 3.0, which dropped various |
| deprecated APIs and removes support for Python versions earlier than 2.3. The |
| 3.0 version of the package uses a new incremental parser for MIME messages, |
| available in the :mod:`email.FeedParser` module. The new parser doesn't require |
| reading the entire message into memory, and doesn't raise exceptions if a |
| message is malformed; instead it records any problems in the :attr:`defect` |
| attribute of the message. (Developed by Anthony Baxter, Barry Warsaw, Thomas |
| Wouters, and others.) |
| |
| * The :mod:`heapq` module has been converted to C. The resulting tenfold |
| improvement in speed makes the module suitable for handling high volumes of |
| data. In addition, the module has two new functions :func:`nlargest` and |
| :func:`nsmallest` that use heaps to find the N largest or smallest values in a |
| dataset without the expense of a full sort. (Contributed by Raymond Hettinger.) |
| |
| * The :mod:`httplib` module now contains constants for HTTP status codes defined |
| in various HTTP-related RFC documents. Constants have names such as |
| :const:`OK`, :const:`CREATED`, :const:`CONTINUE`, and |
| :const:`MOVED_PERMANENTLY`; use pydoc to get a full list. (Contributed by |
| Andrew Eland.) |
| |
| * The :mod:`imaplib` module now supports IMAP's THREAD command (contributed by |
| Yves Dionne) and new :meth:`deleteacl` and :meth:`myrights` methods (contributed |
| by Arnaud Mazin). |
| |
| * The :mod:`itertools` module gained a :func:`groupby(iterable[, *func*])` |
| function. *iterable* is something that can be iterated over to return a stream |
| of elements, and the optional *func* parameter is a function that takes an |
| element and returns a key value; if omitted, the key is simply the element |
| itself. :func:`groupby` then groups the elements into subsequences which have |
| matching values of the key, and returns a series of 2-tuples containing the key |
| value and an iterator over the subsequence. |
| |
| Here's an example to make this clearer. The *key* function simply returns |
| whether a number is even or odd, so the result of :func:`groupby` is to return |
| consecutive runs of odd or even numbers. :: |
| |
| >>> import itertools |
| >>> L = [2, 4, 6, 7, 8, 9, 11, 12, 14] |
| >>> for key_val, it in itertools.groupby(L, lambda x: x % 2): |
| ... print key_val, list(it) |
| ... |
| 0 [2, 4, 6] |
| 1 [7] |
| 0 [8] |
| 1 [9, 11] |
| 0 [12, 14] |
| >>> |
| |
| :func:`groupby` is typically used with sorted input. The logic for |
| :func:`groupby` is similar to the Unix ``uniq`` filter which makes it handy for |
| eliminating, counting, or identifying duplicate elements:: |
| |
| >>> word = 'abracadabra' |
| >>> letters = sorted(word) # Turn string into a sorted list of letters |
| >>> letters |
| ['a', 'a', 'a', 'a', 'a', 'b', 'b', 'c', 'd', 'r', 'r'] |
| >>> for k, g in itertools.groupby(letters): |
| ... print k, list(g) |
| ... |
| a ['a', 'a', 'a', 'a', 'a'] |
| b ['b', 'b'] |
| c ['c'] |
| d ['d'] |
| r ['r', 'r'] |
| >>> # List unique letters |
| >>> [k for k, g in groupby(letters)] |
| ['a', 'b', 'c', 'd', 'r'] |
| >>> # Count letter occurrences |
| >>> [(k, len(list(g))) for k, g in groupby(letters)] |
| [('a', 5), ('b', 2), ('c', 1), ('d', 1), ('r', 2)] |
| |
| (Contributed by Hye-Shik Chang.) |
| |
| * :mod:`itertools` also gained a function named :func:`tee(iterator, N)` that |
| returns *N* independent iterators that replicate *iterator*. If *N* is omitted, |
| the default is 2. :: |
| |
| >>> L = [1,2,3] |
| >>> i1, i2 = itertools.tee(L) |
| >>> i1,i2 |
| (<itertools.tee object at 0x402c2080>, <itertools.tee object at 0x402c2090>) |
| >>> list(i1) # Run the first iterator to exhaustion |
| [1, 2, 3] |
| >>> list(i2) # Run the second iterator to exhaustion |
| [1, 2, 3] |
| |
| Note that :func:`tee` has to keep copies of the values returned by the |
| iterator; in the worst case, it may need to keep all of them. This should |
| therefore be used carefully if the leading iterator can run far ahead of the |
| trailing iterator in a long stream of inputs. If the separation is large, then |
| you might as well use :func:`list` instead. When the iterators track closely |
| with one another, :func:`tee` is ideal. Possible applications include |
| bookmarking, windowing, or lookahead iterators. (Contributed by Raymond |
| Hettinger.) |
| |
| * A number of functions were added to the :mod:`locale` module, such as |
| :func:`bind_textdomain_codeset` to specify a particular encoding and a family of |
| :func:`l\*gettext` functions that return messages in the chosen encoding. |
| (Contributed by Gustavo Niemeyer.) |
| |
| * Some keyword arguments were added to the :mod:`logging` package's |
| :func:`basicConfig` function to simplify log configuration. The default |
| behavior is to log messages to standard error, but various keyword arguments can |
| be specified to log to a particular file, change the logging format, or set the |
| logging level. For example:: |
| |
| import logging |
| logging.basicConfig(filename='/var/log/application.log', |
| level=0, # Log all messages |
| format='%(levelname):%(process):%(thread):%(message)') |
| |
| Other additions to the :mod:`logging` package include a :meth:`log(level, msg)` |
| convenience method, as well as a :class:`TimedRotatingFileHandler` class that |
| rotates its log files at a timed interval. The module already had |
| :class:`RotatingFileHandler`, which rotated logs once the file exceeded a |
| certain size. Both classes derive from a new :class:`BaseRotatingHandler` class |
| that can be used to implement other rotating handlers. |
| |
| (Changes implemented by Vinay Sajip.) |
| |
| * The :mod:`marshal` module now shares interned strings on unpacking a data |
| structure. This may shrink the size of certain pickle strings, but the primary |
| effect is to make :file:`.pyc` files significantly smaller. (Contributed by |
| Martin von Löwis.) |
| |
| * The :mod:`nntplib` module's :class:`NNTP` class gained :meth:`description` and |
| :meth:`descriptions` methods to retrieve newsgroup descriptions for a single |
| group or for a range of groups. (Contributed by JĂĽrgen A. Erhard.) |
| |
| * Two new functions were added to the :mod:`operator` module, |
| :func:`attrgetter(attr)` and :func:`itemgetter(index)`. Both functions return |
| callables that take a single argument and return the corresponding attribute or |
| item; these callables make excellent data extractors when used with :func:`map` |
| or :func:`sorted`. For example:: |
| |
| >>> L = [('c', 2), ('d', 1), ('a', 4), ('b', 3)] |
| >>> map(operator.itemgetter(0), L) |
| ['c', 'd', 'a', 'b'] |
| >>> map(operator.itemgetter(1), L) |
| [2, 1, 4, 3] |
| >>> sorted(L, key=operator.itemgetter(1)) # Sort list by second tuple item |
| [('d', 1), ('c', 2), ('b', 3), ('a', 4)] |
| |
| (Contributed by Raymond Hettinger.) |
| |
| * The :mod:`optparse` module was updated in various ways. The module now passes |
| its messages through :func:`gettext.gettext`, making it possible to |
| internationalize Optik's help and error messages. Help messages for options can |
| now include the string ``'%default'``, which will be replaced by the option's |
| default value. (Contributed by Greg Ward.) |
| |
| * The long-term plan is to deprecate the :mod:`rfc822` module in some future |
| Python release in favor of the :mod:`email` package. To this end, the |
| :func:`email.Utils.formatdate` function has been changed to make it usable as a |
| replacement for :func:`rfc822.formatdate`. You may want to write new e-mail |
| processing code with this in mind. (Change implemented by Anthony Baxter.) |
| |
| * A new :func:`urandom(n)` function was added to the :mod:`os` module, returning |
| a string containing *n* bytes of random data. This function provides access to |
| platform-specific sources of randomness such as :file:`/dev/urandom` on Linux or |
| the Windows CryptoAPI. (Contributed by Trevor Perrin.) |
| |
| * Another new function: :func:`os.path.lexists(path)` returns true if the file |
| specified by *path* exists, whether or not it's a symbolic link. This differs |
| from the existing :func:`os.path.exists(path)` function, which returns false if |
| *path* is a symlink that points to a destination that doesn't exist. |
| (Contributed by Beni Cherniavsky.) |
| |
| * A new :func:`getsid` function was added to the :mod:`posix` module that |
| underlies the :mod:`os` module. (Contributed by J. Raynor.) |
| |
| * The :mod:`poplib` module now supports POP over SSL. (Contributed by Hector |
| Urtubia.) |
| |
| * The :mod:`profile` module can now profile C extension functions. (Contributed |
| by Nick Bastin.) |
| |
| * The :mod:`random` module has a new method called :meth:`getrandbits(N)` that |
| returns a long integer *N* bits in length. The existing :meth:`randrange` |
| method now uses :meth:`getrandbits` where appropriate, making generation of |
| arbitrarily large random numbers more efficient. (Contributed by Raymond |
| Hettinger.) |
| |
| * The regular expression language accepted by the :mod:`re` module was extended |
| with simple conditional expressions, written as ``(?(group)A|B)``. *group* is |
| either a numeric group ID or a group name defined with ``(?P<group>...)`` |
| earlier in the expression. If the specified group matched, the regular |
| expression pattern *A* will be tested against the string; if the group didn't |
| match, the pattern *B* will be used instead. (Contributed by Gustavo Niemeyer.) |
| |
| * The :mod:`re` module is also no longer recursive, thanks to a massive amount |
| of work by Gustavo Niemeyer. In a recursive regular expression engine, certain |
| patterns result in a large amount of C stack space being consumed, and it was |
| possible to overflow the stack. For example, if you matched a 30000-byte string |
| of ``a`` characters against the expression ``(a|b)+``, one stack frame was |
| consumed per character. Python 2.3 tried to check for stack overflow and raise |
| a :exc:`RuntimeError` exception, but certain patterns could sidestep the |
| checking and if you were unlucky Python could segfault. Python 2.4's regular |
| expression engine can match this pattern without problems. |
| |
| * The :mod:`signal` module now performs tighter error-checking on the parameters |
| to the :func:`signal.signal` function. For example, you can't set a handler on |
| the :const:`SIGKILL` signal; previous versions of Python would quietly accept |
| this, but 2.4 will raise a :exc:`RuntimeError` exception. |
| |
| * Two new functions were added to the :mod:`socket` module. :func:`socketpair` |
| returns a pair of connected sockets and :func:`getservbyport(port)` looks up the |
| service name for a given port number. (Contributed by Dave Cole and Barry |
| Warsaw.) |
| |
| * The :func:`sys.exitfunc` function has been deprecated. Code should be using |
| the existing :mod:`atexit` module, which correctly handles calling multiple exit |
| functions. Eventually :func:`sys.exitfunc` will become a purely internal |
| interface, accessed only by :mod:`atexit`. |
| |
| * The :mod:`tarfile` module now generates GNU-format tar files by default. |
| (Contributed by Lars Gustaebel.) |
| |
| * The :mod:`threading` module now has an elegantly simple way to support |
| thread-local data. The module contains a :class:`local` class whose attribute |
| values are local to different threads. :: |
| |
| import threading |
| |
| data = threading.local() |
| data.number = 42 |
| data.url = ('www.python.org', 80) |
| |
| Other threads can assign and retrieve their own values for the :attr:`number` |
| and :attr:`url` attributes. You can subclass :class:`local` to initialize |
| attributes or to add methods. (Contributed by Jim Fulton.) |
| |
| * The :mod:`timeit` module now automatically disables periodic garbage |
| collection during the timing loop. This change makes consecutive timings more |
| comparable. (Contributed by Raymond Hettinger.) |
| |
| * The :mod:`weakref` module now supports a wider variety of objects including |
| Python functions, class instances, sets, frozensets, deques, arrays, files, |
| sockets, and regular expression pattern objects. (Contributed by Raymond |
| Hettinger.) |
| |
| * The :mod:`xmlrpclib` module now supports a multi-call extension for |
| transmitting multiple XML-RPC calls in a single HTTP operation. (Contributed by |
| Brian Quinlan.) |
| |
| * The :mod:`mpz`, :mod:`rotor`, and :mod:`xreadlines` modules have been |
| removed. |
| |
| .. ====================================================================== |
| .. whole new modules get described in subsections here |
| .. ===================== |
| |
| |
| cookielib |
| --------- |
| |
| The :mod:`cookielib` library supports client-side handling for HTTP cookies, |
| mirroring the :mod:`Cookie` module's server-side cookie support. Cookies are |
| stored in cookie jars; the library transparently stores cookies offered by the |
| web server in the cookie jar, and fetches the cookie from the jar when |
| connecting to the server. As in web browsers, policy objects control whether |
| cookies are accepted or not. |
| |
| In order to store cookies across sessions, two implementations of cookie jars |
| are provided: one that stores cookies in the Netscape format so applications can |
| use the Mozilla or Lynx cookie files, and one that stores cookies in the same |
| format as the Perl libwww library. |
| |
| :mod:`urllib2` has been changed to interact with :mod:`cookielib`: |
| :class:`HTTPCookieProcessor` manages a cookie jar that is used when accessing |
| URLs. |
| |
| This module was contributed by John J. Lee. |
| |
| .. ================== |
| |
| |
| doctest |
| ------- |
| |
| The :mod:`doctest` module underwent considerable refactoring thanks to Edward |
| Loper and Tim Peters. Testing can still be as simple as running |
| :func:`doctest.testmod`, but the refactorings allow customizing the module's |
| operation in various ways |
| |
| The new :class:`DocTestFinder` class extracts the tests from a given object's |
| docstrings:: |
| |
| def f (x, y): |
| """>>> f(2,2) |
| 4 |
| >>> f(3,2) |
| 6 |
| """ |
| return x*y |
| |
| finder = doctest.DocTestFinder() |
| |
| # Get list of DocTest instances |
| tests = finder.find(f) |
| |
| The new :class:`DocTestRunner` class then runs individual tests and can produce |
| a summary of the results:: |
| |
| runner = doctest.DocTestRunner() |
| for t in tests: |
| tried, failed = runner.run(t) |
| |
| runner.summarize(verbose=1) |
| |
| The above example produces the following output:: |
| |
| 1 items passed all tests: |
| 2 tests in f |
| 2 tests in 1 items. |
| 2 passed and 0 failed. |
| Test passed. |
| |
| :class:`DocTestRunner` uses an instance of the :class:`OutputChecker` class to |
| compare the expected output with the actual output. This class takes a number |
| of different flags that customize its behaviour; ambitious users can also write |
| a completely new subclass of :class:`OutputChecker`. |
| |
| The default output checker provides a number of handy features. For example, |
| with the :const:`doctest.ELLIPSIS` option flag, an ellipsis (``...``) in the |
| expected output matches any substring, making it easier to accommodate outputs |
| that vary in minor ways:: |
| |
| def o (n): |
| """>>> o(1) |
| <__main__.C instance at 0x...> |
| >>> |
| """ |
| |
| Another special string, ``<BLANKLINE>``, matches a blank line:: |
| |
| def p (n): |
| """>>> p(1) |
| <BLANKLINE> |
| >>> |
| """ |
| |
| Another new capability is producing a diff-style display of the output by |
| specifying the :const:`doctest.REPORT_UDIFF` (unified diffs), |
| :const:`doctest.REPORT_CDIFF` (context diffs), or :const:`doctest.REPORT_NDIFF` |
| (delta-style) option flags. For example:: |
| |
| def g (n): |
| """>>> g(4) |
| here |
| is |
| a |
| lengthy |
| >>>""" |
| L = 'here is a rather lengthy list of words'.split() |
| for word in L[:n]: |
| print word |
| |
| Running the above function's tests with :const:`doctest.REPORT_UDIFF` specified, |
| you get the following output:: |
| |
| ********************************************************************** |
| File "t.py", line 15, in g |
| Failed example: |
| g(4) |
| Differences (unified diff with -expected +actual): |
| @@ -2,3 +2,3 @@ |
| is |
| a |
| -lengthy |
| +rather |
| ********************************************************************** |
| |
| .. ====================================================================== |
| |
| |
| Build and C API Changes |
| ======================= |
| |
| Some of the changes to Python's build process and to the C API are: |
| |
| * Three new convenience macros were added for common return values from |
| extension functions: :c:macro:`Py_RETURN_NONE`, :c:macro:`Py_RETURN_TRUE`, and |
| :c:macro:`Py_RETURN_FALSE`. (Contributed by Brett Cannon.) |
| |
| * Another new macro, :c:macro:`Py_CLEAR(obj)`, decreases the reference count of |
| *obj* and sets *obj* to the null pointer. (Contributed by Jim Fulton.) |
| |
| * A new function, :c:func:`PyTuple_Pack(N, obj1, obj2, ..., objN)`, constructs |
| tuples from a variable length argument list of Python objects. (Contributed by |
| Raymond Hettinger.) |
| |
| * A new function, :c:func:`PyDict_Contains(d, k)`, implements fast dictionary |
| lookups without masking exceptions raised during the look-up process. |
| (Contributed by Raymond Hettinger.) |
| |
| * The :c:macro:`Py_IS_NAN(X)` macro returns 1 if its float or double argument |
| *X* is a NaN. (Contributed by Tim Peters.) |
| |
| * C code can avoid unnecessary locking by using the new |
| :c:func:`PyEval_ThreadsInitialized` function to tell if any thread operations |
| have been performed. If this function returns false, no lock operations are |
| needed. (Contributed by Nick Coghlan.) |
| |
| * A new function, :c:func:`PyArg_VaParseTupleAndKeywords`, is the same as |
| :c:func:`PyArg_ParseTupleAndKeywords` but takes a :c:type:`va_list` instead of a |
| number of arguments. (Contributed by Greg Chapman.) |
| |
| * A new method flag, :const:`METH_COEXISTS`, allows a function defined in slots |
| to co-exist with a :c:type:`PyCFunction` having the same name. This can halve |
| the access time for a method such as :meth:`set.__contains__`. (Contributed by |
| Raymond Hettinger.) |
| |
| * Python can now be built with additional profiling for the interpreter itself, |
| intended as an aid to people developing the Python core. Providing |
| :option:`----enable-profiling` to the :program:`configure` script will let you |
| profile the interpreter with :program:`gprof`, and providing the |
| :option:`----with-tsc` switch enables profiling using the Pentium's Time-Stamp- |
| Counter register. Note that the :option:`----with-tsc` switch is slightly |
| misnamed, because the profiling feature also works on the PowerPC platform, |
| though that processor architecture doesn't call that register "the TSC |
| register". (Contributed by Jeremy Hylton.) |
| |
| * The :c:type:`tracebackobject` type has been renamed to |
| :c:type:`PyTracebackObject`. |
| |
| .. ====================================================================== |
| |
| |
| Port-Specific Changes |
| --------------------- |
| |
| * The Windows port now builds under MSVC++ 7.1 as well as version 6. |
| (Contributed by Martin von Löwis.) |
| |
| .. ====================================================================== |
| |
| |
| Porting to Python 2.4 |
| ===================== |
| |
| This section lists previously described changes that may require changes to your |
| code: |
| |
| * Left shifts and hexadecimal/octal constants that are too large no longer |
| trigger a :exc:`FutureWarning` and return a value limited to 32 or 64 bits; |
| instead they return a long integer. |
| |
| * Integer operations will no longer trigger an :exc:`OverflowWarning`. The |
| :exc:`OverflowWarning` warning will disappear in Python 2.5. |
| |
| * The :func:`zip` built-in function and :func:`itertools.izip` now return an |
| empty list instead of raising a :exc:`TypeError` exception if called with no |
| arguments. |
| |
| * You can no longer compare the :class:`date` and :class:`datetime` instances |
| provided by the :mod:`datetime` module. Two instances of different classes |
| will now always be unequal, and relative comparisons (``<``, ``>``) will raise |
| a :exc:`TypeError`. |
| |
| * :func:`dircache.listdir` now passes exceptions to the caller instead of |
| returning empty lists. |
| |
| * :func:`LexicalHandler.startDTD` used to receive the public and system IDs in |
| the wrong order. This has been corrected; applications relying on the wrong |
| order need to be fixed. |
| |
| * :func:`fcntl.ioctl` now warns if the *mutate* argument is omitted and |
| relevant. |
| |
| * The :mod:`tarfile` module now generates GNU-format tar files by default. |
| |
| * Encountering a failure while importing a module no longer leaves a partially- |
| initialized module object in ``sys.modules``. |
| |
| * :const:`None` is now a constant; code that binds a new value to the name |
| ``None`` is now a syntax error. |
| |
| * The :func:`signals.signal` function now raises a :exc:`RuntimeError` exception |
| for certain illegal values; previously these errors would pass silently. For |
| example, you can no longer set a handler on the :const:`SIGKILL` signal. |
| |
| .. ====================================================================== |
| |
| |
| .. _24acks: |
| |
| Acknowledgements |
| ================ |
| |
| The author would like to thank the following people for offering suggestions, |
| corrections and assistance with various drafts of this article: Koray Can, |
| Hye-Shik Chang, Michael Dyck, Raymond Hettinger, Brian Hurt, Hamish Lawson, |
| Fredrik Lundh, Sean Reifschneider, Sadruddin Rejeb. |
| |