mirror of https://github.com/python/cpython
e.g. -> e.g.,
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Guido van Rossum
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@ -71,7 +71,7 @@ In lexical definitions (as the example above), two more conventions
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are used: Two literal characters separated by three dots mean a choice
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of any single character in the given (inclusive) range of \ASCII{}
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characters. A phrase between angular brackets (\code{<...>}) gives an
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informal description of the symbol defined; e.g. this could be used
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informal description of the symbol defined; e.g., this could be used
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to describe the notion of `control character' if needed.
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\index{lexical definitions}
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\index{ASCII@\ASCII{}}
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@ -38,7 +38,7 @@ A Python program is divided into a number of \emph{logical lines}.
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The end of
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a logical line is represented by the token NEWLINE. Statements cannot
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cross logical line boundaries except where NEWLINE is allowed by the
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syntax (e.g. between statements in compound statements).
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syntax (e.g., between statements in compound statements).
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A logical line is constructed from one or more \emph{physical lines}
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by following the explicit or implicit \emph{line joining} rules.
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\index{logical line}
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@ -455,7 +455,7 @@ definitions:
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\begin{verbatim}
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floatnumber: pointfloat | exponentfloat
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pointfloat: [intpart] fraction | intpart "."
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exponentfloat: (intpart | pointfloat) exponent
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exponentfloat: (nonzerodigit digit* | pointfloat) exponent
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intpart: nonzerodigit digit* | "0"
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fraction: "." digit+
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exponent: ("e"|"E") ["+"|"-"] digit+
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@ -487,10 +487,10 @@ An imaginary literals yields a complex number with a real part of
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0.0. Complex numbers are represented as a pair of floating point
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numbers and have the same restrictions on their range. To create a
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complex number with a nonzero real part, add a floating point number
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to it, e.g. \code{(3+4j)}. Some examples of imaginary literals:
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to it, e.g., \code{(3+4j)}. Some examples of imaginary literals:
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\begin{verbatim}
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3.14j 10.j 10 j .001j 1e100j 3.14e-10j
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3.14j 10.j 10j .001j 1e100j 3.14e-10j
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\end{verbatim}
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@ -810,7 +810,8 @@ part of the instance, e.g., ``\code{BaseClass.__init__(self, [args...])}''.
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\item[{\tt __del__(self)}]
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Called when the instance is about to be destroyed. If a base class
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Called when the instance is about to be destroyed. This is also
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called a destructor\index{destructor}. If a base class
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has a \method{__del__()} method, the derived class's \method{__del__()} method
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must explicitly call it to ensure proper deletion of the base class
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part of the instance. Note that it is possible (though not recommended!)
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@ -1215,7 +1216,7 @@ the other type here).
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\strong{Coercion rules}: to evaluate \var{x} \var{op} \var{y}, the
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following steps are taken (where \method{__op__()} and
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\method{__rop__()} are the method names corresponding to \var{op},
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e.g. if var{op} is `\code{+}', \method{__add__()} and
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e.g., if var{op} is `\code{+}', \method{__add__()} and
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\method{__radd__()} are used). If an exception occurs at any point,
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the evaluation is abandoned and exception handling takes over.
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@ -12,7 +12,7 @@ body. Some code blocks (like modules) are normally executed only once, others
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(like function bodies) may be executed many times. Code blocks may
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textually contain other code blocks. Code blocks may invoke other
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code blocks (that may or may not be textually contained in them) as
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part of their execution, e.g. by invoking (calling) a function.
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part of their execution, e.g., by invoking (calling) a function.
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\index{code block}
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\indexii{code}{block}
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@ -36,7 +36,7 @@ following coercions are applied:
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is necessary.
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\end{itemize}
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Some additional rules apply for certain operators (e.g. a string left
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Some additional rules apply for certain operators (e.g., a string left
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argument to the `\%' operator). Extensions can define their own
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coercions.
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\section{Atoms}
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@ -216,7 +216,7 @@ involved).
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(In particular, converting a string adds quotes around it and converts
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``funny'' characters to escape sequences that are safe to print.)
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It is illegal to attempt to convert recursive objects (e.g. lists or
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It is illegal to attempt to convert recursive objects (e.g., lists or
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dictionaries that contain a reference to themselves, directly or
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indirectly.)
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\obindex{recursive}
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@ -248,7 +248,7 @@ attributeref: primary "." identifier
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\end{verbatim}
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The primary must evaluate to an object of a type that supports
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attribute references, e.g. a module or a list. This object is then
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attribute references, e.g., a module or a list. This object is then
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asked to produce the attribute whose name is the identifier. If this
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attribute is not available, the exception
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\exception{AttributeError}\exindex{AttributeError} is raised.
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@ -361,7 +361,7 @@ respectively, substituting \code{None} for missing expressions.
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\subsection{Calls} \label{calls}
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\index{call}
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A call calls a callable object (e.g. a function) with a possibly empty
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A call calls a callable object (e.g., a function) with a possibly empty
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series of arguments:
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\obindex{callable}
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@ -567,7 +567,7 @@ The \code{\%} (modulo) operator yields the remainder from the
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division of the first argument by the second. The numeric arguments
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are first converted to a common type. A zero right argument raises
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the \exception{ZeroDivisionError} exception. The arguments may be floating
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point numbers, e.g. \code{3.14\%0.7} equals \code{0.34} (since
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point numbers, e.g., \code{3.14\%0.7} equals \code{0.34} (since
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\code{3.14} equals \code{4*0.7 + 0.34}.) The modulo operator always
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yields a result with the same sign as its second operand (or zero);
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the absolute value of the result is strictly smaller than the second
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@ -663,7 +663,7 @@ comp_operator: "<"|">"|"=="|">="|"<="|"<>"|"!="|"is" ["not"]|["not"] "in"
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Comparisons yield integer values: \code{1} for true, \code{0} for false.
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Comparisons can be chained arbitrarily, e.g. \code{x < y <= z} is
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Comparisons can be chained arbitrarily, e.g., \code{x < y <= z} is
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equivalent to \code{x < y and y <= z}, except that \code{y} is
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evaluated only once (but in both cases \code{z} is not evaluated at all
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when \code{x < y} is found to be false).
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@ -789,7 +789,7 @@ This is sometimes useful, e.g., if \code{s} is a string that should be
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replaced by a default value if it is empty, the expression
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\code{s or 'foo'} yields the desired value. Because \keyword{not} has to
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invent a value anyway, it does not bother to return a value of the
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same type as its argument, so e.g. \code{not 'foo'} yields \code{0},
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same type as its argument, so e.g., \code{not 'foo'} yields \code{0},
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not \code{''}.)
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Lambda forms (lambda expressions) have the same syntactic position as
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