mirror of https://github.com/python/cpython.git
251 lines
11 KiB
TeX
251 lines
11 KiB
TeX
% libparser.tex
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%
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% Introductory documentation for the new parser built-in module.
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%
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% Copyright 1995 Virginia Polytechnic Institute and State University
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% and Fred L. Drake, Jr. This copyright notice must be distributed on
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% all copies, but this document otherwise may be distributed as part
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% of the Python distribution. No fee may be charged for this document
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% in any representation, either on paper or electronically. This
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% restriction does not affect other elements in a distributed package
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% in any way.
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%
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\section{Built-in Module \sectcode{parser}}
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\bimodindex{parser}
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% ==== 2. ====
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% Give a short overview of what the module does.
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% If it is platform specific, mention this.
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% Mention other important restrictions or general operating principles.
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The \code{parser} module provides an interface to Python's internal
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parser and byte-code compiler. The primary purpose for this interface
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is to allow Python code to edit the parse tree of a Python expression
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and create executable code from this. This can be better than trying
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to parse and modify an arbitrary Python code fragment as a string, and
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ensures that parsing is performed in a manner identical to the code
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forming the application. It's also faster.
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There are a few things to note about this module which are important
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to making use of the data structures created. This is not a tutorial
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on editing the parse trees for Python code.
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Most importantly, a good understanding of the Python grammar processed
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by the internal parser is required. For full information on the
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language syntax, refer to the Language Reference. The parser itself
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is created from a grammar specification defined in the file
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\code{Grammar/Grammar} in the standard Python distribution. The parse
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trees stored in the ``AST objects'' created by this module are the
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actual output from the internal parser when created by the
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\code{expr()} or \code{suite()} functions, described below. The AST
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objects created by \code{tuple2ast()} faithfully simulate those
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structures.
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Each element of the tuples returned by \code{ast2tuple()} has a simple
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form. Tuples representing non-terminal elements in the grammar always
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have a length greater than one. The first element is an integer which
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identifies a production in the grammar. These integers are given
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symbolic names in the C header file \code{Include/graminit.h} and the
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Python module \code{Lib/symbol.py}. Each additional element of the
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tuple represents a component of the production as recognized in the
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input string: these are always tuples which have the same form as the
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parent. An important aspect of this structure which should be noted
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is that keywords used to identify the parent node type, such as the
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keyword \code{if} in an \emph{if\_stmt}, are included in the node tree
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without any special treatment. For example, the \code{if} keyword is
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represented by the tuple \code{(1, 'if')}, where \code{1} is the
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numeric value associated with all \code{NAME} elements, including
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variable and function names defined by the user.
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Terminal elements are represented in much the same way, but without
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any child elements and the addition of the source text which was
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identified. The example of the \code{if} keyword above is
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representative. The various types of terminal symbols are defined in
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the C header file \code{Include/token.h} and the Python module
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\code{Lib/token.py}.
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The AST objects are not actually required to support the functionality
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of this module, but are provided for three purposes: to allow an
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application to amortize the cost of processing complex parse trees, to
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provide a parse tree representation which conserves memory space when
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compared to the Python tuple representation, and to ease the creation
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of additional modules in C which manipulate parse trees. A simple
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``wrapper'' module may be created in Python if desired to hide the use
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of AST objects.
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% ==== 3. ====
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% List the public functions defined by the module. Begin with a
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% standard phrase. You may also list the exceptions and other data
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% items defined in the module, insofar as they are important for the
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% user.
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The \code{parser} module defines the following functions:
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% ---- 3.1. ----
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% Redefine the ``indexsubitem'' macro to point to this module
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% (alternatively, you can put this at the top of the file):
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\renewcommand{\indexsubitem}{(in module parser)}
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% ---- 3.2. ----
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% For each function, use a ``funcdesc'' block. This has exactly two
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% parameters (each parameters is contained in a set of curly braces):
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% the first parameter is the function name (this automatically
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% generates an index entry); the second parameter is the function's
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% argument list. If there are no arguments, use an empty pair of
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% curly braces. If there is more than one argument, separate the
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% arguments with backslash-comma. Optional parts of the parameter
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% list are contained in \optional{...} (this generates a set of square
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% brackets around its parameter). Arguments are automatically set in
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% italics in the parameter list. Each argument should be mentioned at
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% least once in the description; each usage (even inside \code{...})
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% should be enclosed in \var{...}.
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\begin{funcdesc}{ast2tuple}{ast}
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This function accepts an AST object from the caller in
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\code{\var{ast}} and returns a Python tuple representing the
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equivelent parse tree. The resulting tuple representation can be used
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for inspection or the creation of a new parse tree in tuple form.
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This function does not fail so long as memory is available to build
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the tuple representation.
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\end{funcdesc}
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\begin{funcdesc}{compileast}{ast\optional{\, filename \code{= '<ast>'}}}
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The Python byte compiler can be invoked on an AST object to produce
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code objects which can be used as part of an \code{exec} statement or
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a call to the built-in \code{eval()} function. This function provides
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the interface to the compiler, passing the internal parse tree from
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\code{\var{ast}} to the parser, using the source file name specified
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by the \code{\var{filename}} parameter. The default value supplied
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for \code{\var{filename}} indicates that the source was an AST object.
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\end{funcdesc}
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\begin{funcdesc}{expr}{string}
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The \code{expr()} function parses the parameter \code{\var{string}}
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as if it were an input to \code{compile(\var{string}, 'eval')}. If
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the parse succeeds, an AST object is created to hold the internal
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parse tree representation, otherwise an appropriate exception is
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thrown.
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\end{funcdesc}
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\begin{funcdesc}{isexpr}{ast}
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When \code{\var{ast}} represents an \code{'eval'} form, this function
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returns a true value (\code{1}), otherwise it returns false
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(\code{0}). This is useful, since code objects normally cannot be
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queried for this information using existing built-in functions. Note
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that the code objects created by \code{compileast()} cannot be queried
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like this either, and are identical to those created by the built-in
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\code{compile()} function.
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\end{funcdesc}
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\begin{funcdesc}{issuite}{ast}
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This function mirrors \code{isexpr()} in that it reports whether an
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AST object represents a suite of statements. It is not safe to assume
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that this function is equivelent to \code{not isexpr(\var{ast})}, as
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additional syntactic fragments may be supported in the future.
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\end{funcdesc}
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\begin{funcdesc}{suite}{string}
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The \code{suite()} function parses the parameter \code{\var{string}}
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as if it were an input to \code{compile(\var{string}, 'exec')}. If
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the parse succeeds, an AST object is created to hold the internal
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parse tree representation, otherwise an appropriate exception is
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thrown.
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\end{funcdesc}
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\begin{funcdesc}{tuple2ast}{tuple}
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This function accepts a parse tree represented as a tuple and builds
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an internal representation if possible. If it can validate that the
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tree conforms to the Python syntax and all nodes are valid node types
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in the host version of Python, an AST object is created from the
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internal representation and returned to the called. If there is a
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problem creating the internal representation, or if the tree cannot be
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validated, a \code{ParserError} exception is thrown. An AST object
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created this way should not be assumed to compile correctly; normal
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exceptions thrown by compilation may still be initiated when the AST
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object is passed to \code{compileast()}. This will normally indicate
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problems not related to syntax (such as a \code{MemoryError}
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exception).
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\end{funcdesc}
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% --- 3.4. ---
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% Exceptions are described using a ``excdesc'' block. This has only
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% one parameter: the exception name.
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\subsection{Exceptions and Error Handling}
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The parser module defines a single exception, but may also pass other
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built-in exceptions from other portions of the Python runtime
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environment. See each function for information about the exceptions
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it can raise.
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\begin{excdesc}{ParserError}
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Exception raised when a failure occurs within the parser module. This
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is generally produced for validation failures rather than the built in
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\code{SyntaxError} thrown during normal parsing.
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The exception argument is either a string describing the reason of the
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failure or a tuple containing a tuple causing the failure from a parse
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tree passed to \code{tuple2ast()} and an explanatory string. Calls to
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\code{tuple2ast()} need to be able to handle either type of exception,
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while calls to other functions in the module will only need to be
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aware of the simple string values.
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\end{excdesc}
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Note that the functions \code{compileast()}, \code{expr()}, and
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\code{suite()} may throw exceptions which are normally thrown by the
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parsing and compilation process. These include the built in
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exceptions \code{MemoryError}, \code{OverflowError},
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\code{SyntaxError}, and \code{SystemError}. In these cases, these
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exceptions carry all the meaning normally associated with them. Refer
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to the descriptions of each function for detailed information.
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% ---- 3.5. ----
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% There is no standard block type for classes. I generally use
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% ``funcdesc'' blocks, since class instantiation looks very much like
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% a function call.
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% ==== 4. ====
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% Now is probably a good time for a complete example. (Alternatively,
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% an example giving the flavor of the module may be given before the
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% detailed list of functions.)
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\subsection{Example}
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A simple example:
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\begin{verbatim}
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>>> import parser
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>>> ast = parser.expr('a + 5')
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>>> code = parser.compileast(ast)
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>>> a = 5
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>>> eval(code)
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10
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\end{verbatim}
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\subsection{AST Objects}
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AST objects (returned by \code{expr()}, \code{suite()}, and
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\code{tuple2ast()}, described above) have no methods of their own.
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Some of the functions defined which accept an AST object as their
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first argument may change to object methods in the future.
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Ordered and equality comparisons are supported between AST objects.
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\renewcommand{\indexsubitem}{(ast method)}
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%\begin{funcdesc}{empty}{}
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%Empty the can into the trash.
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%\end{funcdesc}
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