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"{\em ...}" ==> "\emph{...}" Not at all sure what to do with "{\rm ...}". Leaving it for now.
636 lines
28 KiB
TeX
636 lines
28 KiB
TeX
\section{Built-in Functions}
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\label{built-in-funcs}
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The Python interpreter has a number of functions built into it that
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are always available. They are listed here in alphabetical order.
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\renewcommand{\indexsubitem}{(built-in function)}
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\begin{funcdesc}{__import__}{name\optional{, globals\optional{, locals\optional{, fromlist}}}}
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This function is invoked by the \code{import} statement. It
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mainly exists so that you can replace it with another
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function that has a compatible interface, in order to change the
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semantics of the \code{import} statement. For examples of why and
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how you would do this, see the standard library modules \code{ni},
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\code{ihooks} and \code{rexec}. See also the built-in module
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\code{imp}, which defines some useful operations out of which you can
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build your own \code{__import__()} function.
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\stindex{import}
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\refstmodindex{ni}
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\refstmodindex{ihooks}
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\refstmodindex{rexec}
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\refbimodindex{imp}
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For example, the statement \code{import spam} results in the following
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call:
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\code{__import__('spam', globals(), locals(), [])};
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the statement \code{from spam.ham import eggs} results in
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\code{__import__('spam.ham', globals(), locals(), ['eggs'])}.
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Note that even though \code{locals()} and \code{['eggs']} are passed
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in as arguments, the \code{__import__()} function does not set the
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local variable named \code{eggs}; this is done by subsequent code that
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is generated for the import statement. (In fact, the standard
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implementation does not use its \var{locals} argument at all, and uses
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its \var{globals} only to determine the package context of the
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\code{import} statement.)
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When the \var{name} variable is of the form \code{package.module},
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normally, the top-level package (the name up till the first dot) is
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returned, \emph{not} the module named by \var{name}. However, when a
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non-empty \var{fromlist} argument is given, the module named by
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\var{name} is returned. This is done for compatibility with the
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bytecode generated for the different kinds of import statement; when
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using \code{import spam.ham.eggs}, the top-level package \code{spam}
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must be placed in the importing namespace, but when using \code{from
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spam.ham import eggs}, the \code{spam.ham} subpackage must be used to
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find the \code{eggs} variable.
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\end{funcdesc}
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\begin{funcdesc}{abs}{x}
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Return the absolute value of a number. The argument may be a plain
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or long integer or a floating point number. If the argument is a
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complex number, its magnitude is returned.
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\end{funcdesc}
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\begin{funcdesc}{apply}{function\, args\optional{, keywords}}
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The \var{function} argument must be a callable object (a user-defined or
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built-in function or method, or a class object) and the \var{args}
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argument must be a tuple. The \var{function} is called with
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\var{args} as argument list; the number of arguments is the the length
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of the tuple. (This is different from just calling
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\code{\var{func}(\var{args})}, since in that case there is always
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exactly one argument.)
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If the optional \var{keywords} argument is present, it must be a
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dictionary whose keys are strings. It specifies keyword arguments to
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be added to the end of the the argument list.
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\end{funcdesc}
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\begin{funcdesc}{callable}{object}
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Return true if the \var{object} argument appears callable, false if
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not. If this returns true, it is still possible that a call fails,
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but if it is false, calling \var{object} will never succeed. Note
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that classes are callable (calling a class returns a new instance);
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class instances are callable if they have an attribute \code{__call__}.
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\end{funcdesc}
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\begin{funcdesc}{chr}{i}
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Return a string of one character whose \ASCII{} code is the integer
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\var{i}, e.g., \code{chr(97)} returns the string \code{'a'}. This is the
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inverse of \code{ord()}. The argument must be in the range [0..255],
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inclusive.
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\end{funcdesc}
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\begin{funcdesc}{cmp}{x\, y}
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Compare the two objects \var{x} and \var{y} and return an integer
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according to the outcome. The return value is negative if \code{\var{x}
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< \var{y}}, zero if \code{\var{x} == \var{y}} and strictly positive if
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\code{\var{x} > \var{y}}.
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\end{funcdesc}
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\begin{funcdesc}{coerce}{x\, y}
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Return a tuple consisting of the two numeric arguments converted to
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a common type, using the same rules as used by arithmetic
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operations.
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\end{funcdesc}
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\begin{funcdesc}{compile}{string\, filename\, kind}
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Compile the \var{string} into a code object. Code objects can be
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executed by an \code{exec} statement or evaluated by a call to
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\code{eval()}. The \var{filename} argument should
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give the file from which the code was read; pass e.g. \code{'<string>'}
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if it wasn't read from a file. The \var{kind} argument specifies
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what kind of code must be compiled; it can be \code{'exec'} if
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\var{string} consists of a sequence of statements, \code{'eval'}
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if it consists of a single expression, or \code{'single'} if
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it consists of a single interactive statement (in the latter case,
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expression statements that evaluate to something else than
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\code{None} will printed).
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\end{funcdesc}
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\begin{funcdesc}{complex}{real\optional{, imag}}
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Create a complex number with the value \var{real} + \var{imag}*j.
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Each argument may be any numeric type (including complex).
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If \var{imag} is omitted, it defaults to zero and the function
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serves as a numeric conversion function like \code{int}, \code{long}
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and \code{float}.
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\end{funcdesc}
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\begin{funcdesc}{delattr}{object\, name}
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This is a relative of \code{setattr}. The arguments are an
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object and a string. The string must be the name
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of one of the object's attributes. The function deletes
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the named attribute, provided the object allows it. For example,
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\code{delattr(\var{x}, '\var{foobar}')} is equivalent to
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\code{del \var{x}.\var{foobar}}.
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\end{funcdesc}
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\begin{funcdesc}{dir}{}
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Without arguments, return the list of names in the current local
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symbol table. With an argument, attempts to return a list of valid
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attribute for that object. This information is gleaned from the
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object's \code{__dict__}, \code{__methods__} and \code{__members__}
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attributes, if defined. The list is not necessarily complete; e.g.,
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for classes, attributes defined in base classes are not included,
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and for class instances, methods are not included.
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The resulting list is sorted alphabetically. For example:
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\bcode\begin{verbatim}
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>>> import sys
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>>> dir()
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['sys']
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>>> dir(sys)
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['argv', 'exit', 'modules', 'path', 'stderr', 'stdin', 'stdout']
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>>>
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\end{verbatim}\ecode
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\end{funcdesc}
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\begin{funcdesc}{divmod}{a\, b}
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Take two numbers as arguments and return a pair of numbers consisting
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of their quotient and remainder when using long division. With mixed
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operand types, the rules for binary arithmetic operators apply. For
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plain and long integers, the result is the same as
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\code{(\var{a} / \var{b}, \var{a} \%{} \var{b})}.
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For floating point numbers the result is the same as
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\code{(math.floor(\var{a} / \var{b}), \var{a} \%{} \var{b})}.
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\end{funcdesc}
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\begin{funcdesc}{eval}{expression\optional{\, globals\optional{\, locals}}}
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The arguments are a string and two optional dictionaries. The
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\var{expression} argument is parsed and evaluated as a Python
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expression (technically speaking, a condition list) using the
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\var{globals} and \var{locals} dictionaries as global and local name
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space. If the \var{locals} dictionary is omitted it defaults to
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the \var{globals} dictionary. If both dictionaries are omitted, the
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expression is executed in the environment where \code{eval} is
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called. The return value is the result of the evaluated expression.
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Syntax errors are reported as exceptions. Example:
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\bcode\begin{verbatim}
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>>> x = 1
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>>> print eval('x+1')
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2
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>>>
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\end{verbatim}\ecode
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%
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This function can also be used to execute arbitrary code objects
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(e.g.\ created by \code{compile()}). In this case pass a code
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object instead of a string. The code object must have been compiled
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passing \code{'eval'} to the \var{kind} argument.
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Hints: dynamic execution of statements is supported by the
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\code{exec} statement. Execution of statements from a file is
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supported by the \code{execfile()} function. The \code{globals()}
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and \code{locals()} functions returns the current global and local
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dictionary, respectively, which may be useful
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to pass around for use by \code{eval()} or \code{execfile()}.
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\end{funcdesc}
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\begin{funcdesc}{execfile}{file\optional{\, globals\optional{\, locals}}}
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This function is similar to the
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\code{exec} statement, but parses a file instead of a string. It is
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different from the \code{import} statement in that it does not use
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the module administration --- it reads the file unconditionally and
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does not create a new module.\footnote{It is used relatively rarely
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so does not warrant being made into a statement.}
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The arguments are a file name and two optional dictionaries. The
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file is parsed and evaluated as a sequence of Python statements
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(similarly to a module) using the \var{globals} and \var{locals}
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dictionaries as global and local name space. If the \var{locals}
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dictionary is omitted it defaults to the \var{globals} dictionary.
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If both dictionaries are omitted, the expression is executed in the
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environment where \code{execfile()} is called. The return value is
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\code{None}.
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\end{funcdesc}
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\begin{funcdesc}{filter}{function\, list}
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Construct a list from those elements of \var{list} for which
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\var{function} returns true. If \var{list} is a string or a tuple,
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the result also has that type; otherwise it is always a list. If
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\var{function} is \code{None}, the identity function is assumed,
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i.e.\ all elements of \var{list} that are false (zero or empty) are
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removed.
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\end{funcdesc}
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\begin{funcdesc}{float}{x}
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Convert a string or a number to floating point. If the argument is a
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string, it must contain a possibly singed decimal or floating point
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number, possibly embedded in whitespace;
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this behaves identical to \code{string.atof(\var{x})}.
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Otherwise, the argument may be a plain or
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long integer or a floating point number, and a floating point number
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with the same value (within Python's floating point precision) is
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returned.
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\end{funcdesc}
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\begin{funcdesc}{getattr}{object\, name}
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The arguments are an object and a string. The string must be the
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name
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of one of the object's attributes. The result is the value of that
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attribute. For example, \code{getattr(\var{x}, '\var{foobar}')} is equivalent to
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\code{\var{x}.\var{foobar}}.
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\end{funcdesc}
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\begin{funcdesc}{globals}{}
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Return a dictionary representing the current global symbol table.
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This is always the dictionary of the current module (inside a
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function or method, this is the module where it is defined, not the
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module from which it is called).
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\end{funcdesc}
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\begin{funcdesc}{hasattr}{object\, name}
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The arguments are an object and a string. The result is 1 if the
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string is the name of one of the object's attributes, 0 if not.
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(This is implemented by calling \code{getattr(object, name)} and
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seeing whether it raises an exception or not.)
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\end{funcdesc}
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\begin{funcdesc}{hash}{object}
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Return the hash value of the object (if it has one). Hash values
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are integers. They are used to quickly compare dictionary
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keys during a dictionary lookup. Numeric values that compare equal
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have the same hash value (even if they are of different types, e.g.
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1 and 1.0).
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\end{funcdesc}
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\begin{funcdesc}{hex}{x}
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Convert an integer number (of any size) to a hexadecimal string.
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The result is a valid Python expression. Note: this always yields
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an unsigned literal, e.g. on a 32-bit machine, \code{hex(-1)} yields
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\code{'0xffffffff'}. When evaluated on a machine with the same
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word size, this literal is evaluated as -1; at a different word
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size, it may turn up as a large positive number or raise an
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\code{OverflowError} exception.
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\end{funcdesc}
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\begin{funcdesc}{id}{object}
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Return the `identity' of an object. This is an integer which is
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guaranteed to be unique and constant for this object during its
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lifetime. (Two objects whose lifetimes are disjunct may have the
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same id() value.) (Implementation note: this is the address of the
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object.)
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\end{funcdesc}
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\begin{funcdesc}{input}{\optional{prompt}}
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Almost equivalent to \code{eval(raw_input(\var{prompt}))}. Like
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\code{raw_input()}, the \var{prompt} argument is optional, and the
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\code{readline} module is used when loaded. The difference
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is that a long input expression may be broken over multiple lines using
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the backslash convention.
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\end{funcdesc}
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\begin{funcdesc}{intern}{string}
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Enter \var{string} in the table of ``interned'' strings and return
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the interned string -- which is \var{string} itself or a copy.
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Interning strings is useful to gain a little performance on
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dictionary lookup -- if the keys in a dictionary are interned, and
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the lookup key is interned, the key comparisons (after hashing) can
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be done by a pointer compare instead of a string compare. Normally,
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the names used in Python programs are automatically interned, and
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the dictionaries used to hold module, class or instance attributes
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have interned keys. Interned strings are immortal (i.e. never get
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garbage collected).
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\end{funcdesc}
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\begin{funcdesc}{int}{x}
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Convert a string or number to a plain integer. If the argument is a
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string, it must contain a possibly singed decimal number
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representable as a Python integer, possibly embedded in whitespace;
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this behaves identical to \code{string.atoi(\var{x})}.
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Otherwise, the argument may be a plain or
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long integer or a floating point number. Conversion of floating
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point numbers to integers is defined by the C semantics; normally
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the conversion truncates towards zero.\footnote{This is ugly --- the
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language definition should require truncation towards zero.}
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\end{funcdesc}
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\begin{funcdesc}{isinstance}{object, class}
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Return true if the \var{object} argument is an instance of the
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\var{class} argument, or of a (direct or indirect) subclass thereof.
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Also return true if \var{class} is a type object and \var{object} is
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an object of that type. If \var{object} is not a class instance or a
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object of the given type, the function always returns false. If
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\var{class} is neither a class object nor a type object, a
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\code{TypeError} exception is raised.
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\end{funcdesc}
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\begin{funcdesc}{issubclass}{class1, class2}
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Return true if \var{class1} is a subclass (direct or indirect) of
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\var{class2}. A class is considered a subclass of itself. If either
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argument is not a class object, a \code{TypeError} exception is raised.
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\end{funcdesc}
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\begin{funcdesc}{len}{s}
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Return the length (the number of items) of an object. The argument
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may be a sequence (string, tuple or list) or a mapping (dictionary).
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\end{funcdesc}
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\begin{funcdesc}{list}{sequence}
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Return a list whose items are the same and in the same order as
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\var{sequence}'s items. If \var{sequence} is already a list,
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a copy is made and returned, similar to \code{\var{sequence}[:]}.
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For instance, \code{list('abc')} returns
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returns \code{['a', 'b', 'c']} and \code{list( (1, 2, 3) )} returns
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\code{[1, 2, 3]}.
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\end{funcdesc}
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\begin{funcdesc}{locals}{}
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Return a dictionary representing the current local symbol table.
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Inside a function, modifying this dictionary does not always have the
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desired effect.
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\end{funcdesc}
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\begin{funcdesc}{long}{x}
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Convert a string or number to a long integer. If the argument is a
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string, it must contain a possibly singed decimal number of
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arbitrary size, possibly embedded in whitespace;
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this behaves identical to \code{string.atol(\var{x})}.
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Otherwise, the argument may be a plain or
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long integer or a floating point number, and a long integer with
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the same value is returned. Conversion of floating
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point numbers to integers is defined by the C semantics;
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see the description of \code{int()}.
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\end{funcdesc}
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\begin{funcdesc}{map}{function\, list\, ...}
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Apply \var{function} to every item of \var{list} and return a list
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of the results. If additional \var{list} arguments are passed,
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\var{function} must take that many arguments and is applied to
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the items of all lists in parallel; if a list is shorter than another
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it is assumed to be extended with \code{None} items. If
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\var{function} is \code{None}, the identity function is assumed; if
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there are multiple list arguments, \code{map} returns a list
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consisting of tuples containing the corresponding items from all lists
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(i.e. a kind of transpose operation). The \var{list} arguments may be
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any kind of sequence; the result is always a list.
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\end{funcdesc}
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\begin{funcdesc}{max}{s}
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Return the largest item of a non-empty sequence (string, tuple or
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list).
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\end{funcdesc}
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\begin{funcdesc}{min}{s}
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Return the smallest item of a non-empty sequence (string, tuple or
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list).
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\end{funcdesc}
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\begin{funcdesc}{oct}{x}
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Convert an integer number (of any size) to an octal string. The
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result is a valid Python expression. Note: this always yields
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an unsigned literal, e.g. on a 32-bit machine, \code{oct(-1)} yields
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\code{'037777777777'}. When evaluated on a machine with the same
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word size, this literal is evaluated as -1; at a different word
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size, it may turn up as a large positive number or raise an
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\code{OverflowError} exception.
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\end{funcdesc}
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\begin{funcdesc}{open}{filename\optional{\, mode\optional{\, bufsize}}}
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Return a new file object (described earlier under Built-in Types).
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The first two arguments are the same as for \code{stdio}'s
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\code{fopen()}: \var{filename} is the file name to be opened,
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\var{mode} indicates how the file is to be opened: \code{'r'} for
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reading, \code{'w'} for writing (truncating an existing file), and
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\code{'a'} opens it for appending (which on \emph{some} \UNIX{}
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systems means that \emph{all} writes append to the end of the file,
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regardless of the current seek position).
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Modes \code{'r+'}, \code{'w+'} and
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\code{'a+'} open the file for updating, provided the underlying
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\code{stdio} library understands this. On systems that differentiate
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between binary and text files, \code{'b'} appended to the mode opens
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the file in binary mode. If the file cannot be opened, \code{IOError}
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is raised.
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If \var{mode} is omitted, it defaults to \code{'r'}.
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The optional \var{bufsize} argument specifies the file's desired
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buffer size: 0 means unbuffered, 1 means line buffered, any other
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positive value means use a buffer of (approximately) that size. A
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negative \var{bufsize} means to use the system default, which is
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usually line buffered for for tty devices and fully buffered for other
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files.%
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\footnote{Specifying a buffer size currently has no effect on systems
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that don't have \code{setvbuf()}. The interface to specify the buffer
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size is not done using a method that calls \code{setvbuf()}, because
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that may dump core when called after any I/O has been performed, and
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there's no reliable way to determine whether this is the case.}
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\end{funcdesc}
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|
|
|
\begin{funcdesc}{ord}{c}
|
|
Return the \ASCII{} value of a string of one character. E.g.,
|
|
\code{ord('a')} returns the integer \code{97}. This is the inverse of
|
|
\code{chr()}.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{pow}{x\, y\optional{\, z}}
|
|
Return \var{x} to the power \var{y}; if \var{z} is present, return
|
|
\var{x} to the power \var{y}, modulo \var{z} (computed more
|
|
efficiently than \code{pow(\var{x}, \var{y}) \% \var{z}}).
|
|
The arguments must have
|
|
numeric types. With mixed operand types, the rules for binary
|
|
arithmetic operators apply. The effective operand type is also the
|
|
type of the result; if the result is not expressible in this type, the
|
|
function raises an exception; e.g., \code{pow(2, -1)} or \code{pow(2,
|
|
35000)} is not allowed.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{range}{\optional{start\,} stop\optional{\, step}}
|
|
This is a versatile function to create lists containing arithmetic
|
|
progressions. It is most often used in \code{for} loops. The
|
|
arguments must be plain integers. If the \var{step} argument is
|
|
omitted, it defaults to \code{1}. If the \var{start} argument is
|
|
omitted, it defaults to \code{0}. The full form returns a list of
|
|
plain integers \code{[\var{start}, \var{start} + \var{step},
|
|
\var{start} + 2 * \var{step}, \ldots]}. If \var{step} is positive,
|
|
the last element is the largest \code{\var{start} + \var{i} *
|
|
\var{step}} less than \var{stop}; if \var{step} is negative, the last
|
|
element is the largest \code{\var{start} + \var{i} * \var{step}}
|
|
greater than \var{stop}. \var{step} must not be zero (or else an
|
|
exception is raised). Example:
|
|
|
|
\bcode\begin{verbatim}
|
|
>>> range(10)
|
|
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
|
|
>>> range(1, 11)
|
|
[1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
|
|
>>> range(0, 30, 5)
|
|
[0, 5, 10, 15, 20, 25]
|
|
>>> range(0, 10, 3)
|
|
[0, 3, 6, 9]
|
|
>>> range(0, -10, -1)
|
|
[0, -1, -2, -3, -4, -5, -6, -7, -8, -9]
|
|
>>> range(0)
|
|
[]
|
|
>>> range(1, 0)
|
|
[]
|
|
>>>
|
|
\end{verbatim}\ecode
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{raw_input}{\optional{prompt}}
|
|
If the \var{prompt} argument is present, it is written to standard output
|
|
without a trailing newline. The function then reads a line from input,
|
|
converts it to a string (stripping a trailing newline), and returns that.
|
|
When \EOF{} is read, \code{EOFError} is raised. Example:
|
|
|
|
\bcode\begin{verbatim}
|
|
>>> s = raw_input('--> ')
|
|
--> Monty Python's Flying Circus
|
|
>>> s
|
|
"Monty Python's Flying Circus"
|
|
>>>
|
|
\end{verbatim}\ecode
|
|
|
|
If the \code{readline} module was loaded, then
|
|
\code{raw_input()} will use it to provide elaborate
|
|
line editing and history features.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{reduce}{function\, list\optional{\, initializer}}
|
|
Apply the binary \var{function} to the items of \var{list} so as to
|
|
reduce the list to a single value. E.g.,
|
|
\code{reduce(lambda x, y: x*y, \var{list}, 1)} returns the product of
|
|
the elements of \var{list}. The optional \var{initializer} can be
|
|
thought of as being prepended to \var{list} so as to allow reduction
|
|
of an empty \var{list}. The \var{list} arguments may be any kind of
|
|
sequence.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{reload}{module}
|
|
Re-parse and re-initialize an already imported \var{module}. The
|
|
argument must be a module object, so it must have been successfully
|
|
imported before. This is useful if you have edited the module source
|
|
file using an external editor and want to try out the new version
|
|
without leaving the Python interpreter. The return value is the
|
|
module object (i.e.\ the same as the \var{module} argument).
|
|
|
|
There are a number of caveats:
|
|
|
|
If a module is syntactically correct but its initialization fails, the
|
|
first \code{import} statement for it does not bind its name locally,
|
|
but does store a (partially initialized) module object in
|
|
\code{sys.modules}. To reload the module you must first
|
|
\code{import} it again (this will bind the name to the partially
|
|
initialized module object) before you can \code{reload()} it.
|
|
|
|
When a module is reloaded, its dictionary (containing the module's
|
|
global variables) is retained. Redefinitions of names will override
|
|
the old definitions, so this is generally not a problem. If the new
|
|
version of a module does not define a name that was defined by the old
|
|
version, the old definition remains. This feature can be used to the
|
|
module's advantage if it maintains a global table or cache of objects
|
|
--- with a \code{try} statement it can test for the table's presence
|
|
and skip its initialization if desired.
|
|
|
|
It is legal though generally not very useful to reload built-in or
|
|
dynamically loaded modules, except for \code{sys}, \code{__main__} and
|
|
\code{__builtin__}. In certain cases, however, extension modules are
|
|
not designed to be initialized more than once, and may fail in
|
|
arbitrary ways when reloaded.
|
|
|
|
If a module imports objects from another module using \code{from}
|
|
\ldots{} \code{import} \ldots{}, calling \code{reload()} for the other
|
|
module does not redefine the objects imported from it --- one way
|
|
around this is to re-execute the \code{from} statement, another is to
|
|
use \code{import} and qualified names (\var{module}.\var{name})
|
|
instead.
|
|
|
|
If a module instantiates instances of a class, reloading the module
|
|
that defines the class does not affect the method definitions of the
|
|
instances --- they continue to use the old class definition. The same
|
|
is true for derived classes.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{repr}{object}
|
|
Return a string containing a printable representation of an object.
|
|
This is the same value yielded by conversions (reverse quotes).
|
|
It is sometimes useful to be able to access this operation as an
|
|
ordinary function. For many types, this function makes an attempt
|
|
to return a string that would yield an object with the same value
|
|
when passed to \code{eval()}.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{round}{x\, n}
|
|
Return the floating point value \var{x} rounded to \var{n} digits
|
|
after the decimal point. If \var{n} is omitted, it defaults to zero.
|
|
The result is a floating point number. Values are rounded to the
|
|
closest multiple of 10 to the power minus \var{n}; if two multiples
|
|
are equally close, rounding is done away from 0 (so e.g.
|
|
\code{round(0.5)} is \code{1.0} and \code{round(-0.5)} is \code{-1.0}).
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{setattr}{object\, name\, value}
|
|
This is the counterpart of \code{getattr}. The arguments are an
|
|
object, a string and an arbitrary value. The string must be the name
|
|
of one of the object's attributes. The function assigns the value to
|
|
the attribute, provided the object allows it. For example,
|
|
\code{setattr(\var{x}, '\var{foobar}', 123)} is equivalent to
|
|
\code{\var{x}.\var{foobar} = 123}.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{slice}{\optional{start\,} stop\optional{\, step}}
|
|
Return a slice object representing the set of indices specified by
|
|
\code{range(\var{start}, \var{stop}, \var{step})}. The \var{start}
|
|
and \var{step} arguments default to None. Slice objects have
|
|
read-only data attributes \code{start}, \code{stop} and \code{step}
|
|
which merely return the argument values (or their default). They have
|
|
no other explicit functionality; however they are used by Numerical
|
|
Python and other third party extensions. Slice objects are also
|
|
generated when extended indexing syntax is used, e.g. for
|
|
\code{a[start:stop:step]} or \code{a[start:stop, i]}.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{str}{object}
|
|
Return a string containing a nicely printable representation of an
|
|
object. For strings, this returns the string itself. The difference
|
|
with \code{repr(\var{object})} is that \code{str(\var{object})} does not
|
|
always attempt to return a string that is acceptable to \code{eval()};
|
|
its goal is to return a printable string.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{tuple}{sequence}
|
|
Return a tuple whose items are the same and in the same order as
|
|
\var{sequence}'s items. If \var{sequence} is already a tuple, it
|
|
is returned unchanged. For instance, \code{tuple('abc')} returns
|
|
returns \code{('a', 'b', 'c')} and \code{tuple([1, 2, 3])} returns
|
|
\code{(1, 2, 3)}.
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{type}{object}
|
|
Return the type of an \var{object}. The return value is a type
|
|
object. The standard module \code{types} defines names for all
|
|
built-in types.
|
|
\refstmodindex{types}
|
|
\obindex{type}
|
|
For instance:
|
|
|
|
\bcode\begin{verbatim}
|
|
>>> import types
|
|
>>> if isinstance(x, types.StringType): print "It's a string"
|
|
\end{verbatim}\ecode
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{vars}{\optional{object}}
|
|
Without arguments, return a dictionary corresponding to the current
|
|
local symbol table. With a module, class or class instance object as
|
|
argument (or anything else that has a \code{__dict__} attribute),
|
|
returns a dictionary corresponding to the object's symbol table.
|
|
The returned dictionary should not be modified: the effects on the
|
|
corresponding symbol table are undefined.%
|
|
\footnote{In the current implementation, local variable bindings
|
|
cannot normally be affected this way, but variables retrieved from
|
|
other scopes (e.g. modules) can be. This may change.}
|
|
\end{funcdesc}
|
|
|
|
\begin{funcdesc}{xrange}{\optional{start\,} stop\optional{\, step}}
|
|
This function is very similar to \code{range()}, but returns an
|
|
``xrange object'' instead of a list. This is an opaque sequence type
|
|
which yields the same values as the corresponding list, without
|
|
actually storing them all simultaneously. The advantage of
|
|
\code{xrange()} over \code{range()} is minimal (since \code{xrange()}
|
|
still has to create the values when asked for them) except when a very
|
|
large range is used on a memory-starved machine (e.g. MS-DOS) or when all
|
|
of the range's elements are never used (e.g. when the loop is usually
|
|
terminated with \code{break}).
|
|
\end{funcdesc}
|