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% libparser.tex
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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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\label{module-parser}
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\bimodindex{parser}
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\index{parsing!Python source code}
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The \module{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 is better than trying
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to parse and modify an arbitrary Python code fragment as a string
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because parsing is performed in a manner identical to the code
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forming the application. It is 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, but some examples of using
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the \module{parser} module are presented.
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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 \emph{Python Language Reference}. The
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parser itself is created from a grammar specification defined in the file
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\file{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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\function{expr()} or \function{suite()} functions, described below. The AST
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objects created by \function{sequence2ast()} faithfully simulate those
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structures. Be aware that the values of the sequences which are
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considered ``correct'' will vary from one version of Python to another
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as the formal grammar for the language is revised. However,
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transporting code from one Python version to another as source text
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will always allow correct parse trees to be created in the target
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version, with the only restriction being that migrating to an older
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version of the interpreter will not support more recent language
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constructs. The parse trees are not typically compatible from one
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version to another, whereas source code has always been
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forward-compatible.
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Each element of the sequences returned by \function{ast2list()} or
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\function{ast2tuple()} has a simple form. Sequences representing
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non-terminal elements in the grammar always have a length greater than
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one. The first element is an integer which identifies a production in
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the grammar. These integers are given symbolic names in the C header
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file \file{Include/graminit.h} and the Python module
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\module{symbol}. Each additional element of the sequence represents
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a component of the production as recognized in the input string: these
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are always sequences which have the same form as the parent. An
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important aspect of this structure which should be noted is that
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keywords used to identify the parent node type, such as the keyword
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\keyword{if} in an \constant{if_stmt}, are included in the node tree without
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any special treatment. For example, the \keyword{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} tokens, including
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variable and function names defined by the user. In an alternate form
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returned when line number information is requested, the same token
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might be represented as \code{(1, 'if', 12)}, where the \code{12}
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represents the line number at which the terminal symbol was found.
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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 \keyword{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 \file{Include/token.h} and the Python module
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\module{token}.
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The AST objects are not required to support the functionality of this
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module, but are provided for three purposes: to allow an application
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to amortize the cost of processing complex parse trees, to provide a
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parse tree representation which conserves memory space when compared
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to the Python list or 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'' class may be created in Python to hide the use of AST
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objects.
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The \module{parser} module defines functions for a few distinct
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purposes. The most important purposes are to create AST objects and
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to convert AST objects to other representations such as parse trees
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and compiled code objects, but there are also functions which serve to
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query the type of parse tree represented by an AST object.
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\setindexsubitem{(in module parser)}
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\subsection{Creating AST Objects}
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\label{Creating ASTs}
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AST objects may be created from source code or from a parse tree.
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When creating an AST object from source, different functions are used
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to create the \code{'eval'} and \code{'exec'} forms.
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\begin{funcdesc}{expr}{string}
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The \function{expr()} function parses the parameter \code{\var{string}}
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as if it were an input to \samp{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}{suite}{string}
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The \function{suite()} function parses the parameter \code{\var{string}}
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as if it were an input to \samp{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}{sequence2ast}{sequence}
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This function accepts a parse tree represented as a sequence and
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builds an internal representation if possible. If it can validate
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that the tree conforms to the Python grammar and all nodes are valid
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node types in the host version of Python, an AST object is created
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from the internal representation and returned to the called. If there
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is a problem creating the internal representation, or if the tree
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cannot be validated, a \exception{ParserError} exception is thrown. An AST
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object created this way should not be assumed to compile correctly;
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normal exceptions thrown by compilation may still be initiated when
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the AST object is passed to \function{compileast()}. This may indicate
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problems not related to syntax (such as a \exception{MemoryError}
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exception), but may also be due to constructs such as the result of
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parsing \code{del f(0)}, which escapes the Python parser but is
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checked by the bytecode compiler.
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Sequences representing terminal tokens may be represented as either
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two-element lists of the form \code{(1, 'name')} or as three-element
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lists of the form \code{(1, 'name', 56)}. If the third element is
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present, it is assumed to be a valid line number. The line number
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may be specified for any subset of the terminal symbols in the input
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tree.
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\end{funcdesc}
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\begin{funcdesc}{tuple2ast}{sequence}
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This is the same function as \function{sequence2ast()}. This entry point
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is maintained for backward compatibility.
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\end{funcdesc}
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\subsection{Converting AST Objects}
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\label{Converting ASTs}
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AST objects, regardless of the input used to create them, may be
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converted to parse trees represented as list- or tuple- trees, or may
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be compiled into executable code objects. Parse trees may be
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extracted with or without line numbering information.
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\begin{funcdesc}{ast2list}{ast\optional{\, line_info\code{ = 0}}}
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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 list representing the
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equivelent parse tree. The resulting list representation can be used
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for inspection or the creation of a new parse tree in list form. This
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function does not fail so long as memory is available to build the
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list representation. If the parse tree will only be used for
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inspection, \function{ast2tuple()} should be used instead to reduce memory
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consumption and fragmentation. When the list representation is
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required, this function is significantly faster than retrieving a
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tuple representation and converting that to nested lists.
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If \code{\var{line_info}} is true, line number information will be
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included for all terminal tokens as a third element of the list
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representing the token. Note that the line number provided specifies
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the line on which the token \emph{ends}. This information is
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omitted if the flag is false or omitted.
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\end{funcdesc}
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\begin{funcdesc}{ast2tuple}{ast\optional{\, line_info\code{ = 0}}}
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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. Other than returning a tuple instead of a
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list, this function is identical to \function{ast2list()}.
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If \code{\var{line_info}} is true, line number information will be
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included for all terminal tokens as a third element of the list
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representing the token. This information is omitted if the flag is
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false or omitted.
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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 \function{eval()}\bifuncindex{eval} function.
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This function provides the interface to the compiler, passing the
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internal parse tree from \code{\var{ast}} to the parser, using the
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source file name specified by the \code{\var{filename}} parameter.
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The default value supplied for \code{\var{filename}} indicates that
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the source was an AST object.
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Compiling an AST object may result in exceptions related to
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compilation; an example would be a \exception{SyntaxError} caused by the
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parse tree for \code{del f(0)}: this statement is considered legal
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within the formal grammar for Python but is not a legal language
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construct. The \exception{SyntaxError} raised for this condition is
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actually generated by the Python byte-compiler normally, which is why
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it can be raised at this point by the \module{parser} module. Most
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causes of compilation failure can be diagnosed programmatically by
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inspection of the parse tree.
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\end{funcdesc}
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\subsection{Queries on AST Objects}
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\label{Querying ASTs}
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Two functions are provided which allow an application to determine if
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an AST was create as an expression or a suite. Neither of these
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functions can be used to determine if an AST was created from source
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code via \function{expr()} or \function{suite()} or from a parse tree
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via \function{sequence2ast()}.
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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 true, otherwise it returns false. This is useful, since code
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objects normally cannot be queried for this information using existing
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built-in functions. Note that the code objects created by
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\function{compileast()} cannot be queried like this either, and are
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identical to those created by the built-in
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\function{compile()}\bifuncindex{compile} function.
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\end{funcdesc}
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\begin{funcdesc}{issuite}{ast}
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This function mirrors \function{isexpr()} in that it reports whether an
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AST object represents an \code{'exec'} form, commonly known as a
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``suite.'' It is not safe to assume that this function is equivelent
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to \samp{not isexpr(\var{ast})}, as additional syntactic fragments may
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be supported in the future.
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\end{funcdesc}
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\subsection{Exceptions and Error Handling}
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\label{AST Errors}
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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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\exception{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 sequence causing the failure from a parse
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tree passed to \function{sequence2ast()} and an explanatory string. Calls to
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\function{sequence2ast()} 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 \function{compileast()}, \function{expr()}, and
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\function{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 \exception{MemoryError}, \exception{OverflowError},
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\exception{SyntaxError}, and \exception{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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|
|
|
|
|
|
|
|
1996-08-21 14:32:37 +00:00
|
|
|
\subsection{AST Objects}
|
1998-02-20 05:49:37 +00:00
|
|
|
\label{AST Objects}
|
1996-08-21 14:32:37 +00:00
|
|
|
|
1998-02-09 20:52:48 +00:00
|
|
|
AST objects returned by \function{expr()}, \function{suite()}, and
|
|
|
|
\function{sequence2ast()} have no methods of their own.
|
1996-08-21 14:32:37 +00:00
|
|
|
Some of the functions defined which accept an AST object as their
|
1996-09-11 21:57:40 +00:00
|
|
|
first argument may change to object methods in the future. The type
|
|
|
|
of these objects is available as \code{ASTType} in the module.
|
1996-08-21 14:32:37 +00:00
|
|
|
|
|
|
|
Ordered and equality comparisons are supported between AST objects.
|
|
|
|
|
|
|
|
|
1996-08-26 00:33:29 +00:00
|
|
|
\subsection{Examples}
|
1996-12-13 22:04:31 +00:00
|
|
|
\nodename{AST Examples}
|
1995-10-11 17:30:04 +00:00
|
|
|
|
1996-08-21 14:32:37 +00:00
|
|
|
The parser modules allows operations to be performed on the parse tree
|
|
|
|
of Python source code before the bytecode is generated, and provides
|
1996-09-11 21:57:40 +00:00
|
|
|
for inspection of the parse tree for information gathering purposes.
|
|
|
|
Two examples are presented. The simple example demonstrates emulation
|
1998-02-09 20:52:48 +00:00
|
|
|
of the \function{compile()}\bifuncindex{compile} built-in function and
|
|
|
|
the complex example shows the use of a parse tree for information
|
|
|
|
discovery.
|
1996-08-26 00:33:29 +00:00
|
|
|
|
1996-09-11 21:57:40 +00:00
|
|
|
\subsubsection{Emulation of \sectcode{compile()}}
|
1996-08-26 00:33:29 +00:00
|
|
|
|
|
|
|
While many useful operations may take place between parsing and
|
1996-08-21 14:32:37 +00:00
|
|
|
bytecode generation, the simplest operation is to do nothing. For
|
1998-02-09 20:52:48 +00:00
|
|
|
this purpose, using the \module{parser} module to produce an
|
1996-08-21 14:32:37 +00:00
|
|
|
intermediate data structure is equivelent to the code
|
|
|
|
|
1998-02-13 06:58:54 +00:00
|
|
|
\begin{verbatim}
|
1996-08-21 14:32:37 +00:00
|
|
|
>>> code = compile('a + 5', 'eval')
|
|
|
|
>>> a = 5
|
|
|
|
>>> eval(code)
|
|
|
|
10
|
1998-02-13 06:58:54 +00:00
|
|
|
\end{verbatim}
|
1997-07-17 16:34:52 +00:00
|
|
|
%
|
1998-02-09 20:52:48 +00:00
|
|
|
The equivelent operation using the \module{parser} module is somewhat
|
1996-08-21 14:32:37 +00:00
|
|
|
longer, and allows the intermediate internal parse tree to be retained
|
|
|
|
as an AST object:
|
1995-10-11 17:30:04 +00:00
|
|
|
|
1998-02-13 06:58:54 +00:00
|
|
|
\begin{verbatim}
|
1995-10-11 17:30:04 +00:00
|
|
|
>>> import parser
|
|
|
|
>>> ast = parser.expr('a + 5')
|
|
|
|
>>> code = parser.compileast(ast)
|
|
|
|
>>> a = 5
|
|
|
|
>>> eval(code)
|
|
|
|
10
|
1998-02-13 06:58:54 +00:00
|
|
|
\end{verbatim}
|
1997-07-17 16:34:52 +00:00
|
|
|
%
|
1996-08-26 00:33:29 +00:00
|
|
|
An application which needs both AST and code objects can package this
|
|
|
|
code into readily available functions:
|
|
|
|
|
1998-02-13 06:58:54 +00:00
|
|
|
\begin{verbatim}
|
1996-08-26 00:33:29 +00:00
|
|
|
import parser
|
|
|
|
|
|
|
|
def load_suite(source_string):
|
|
|
|
ast = parser.suite(source_string)
|
|
|
|
code = parser.compileast(ast)
|
|
|
|
return ast, code
|
|
|
|
|
|
|
|
def load_expression(source_string):
|
|
|
|
ast = parser.expr(source_string)
|
|
|
|
code = parser.compileast(ast)
|
|
|
|
return ast, code
|
1998-02-13 06:58:54 +00:00
|
|
|
\end{verbatim}
|
1997-07-17 16:34:52 +00:00
|
|
|
%
|
1996-08-26 00:33:29 +00:00
|
|
|
\subsubsection{Information Discovery}
|
|
|
|
|
1996-09-11 21:57:40 +00:00
|
|
|
Some applications benefit from direct access to the parse tree. The
|
|
|
|
remainder of this section demonstrates how the parse tree provides
|
|
|
|
access to module documentation defined in docstrings without requiring
|
|
|
|
that the code being examined be loaded into a running interpreter via
|
1998-02-09 20:52:48 +00:00
|
|
|
\keyword{import}. This can be very useful for performing analyses of
|
1996-09-11 21:57:40 +00:00
|
|
|
untrusted code.
|
1996-08-21 14:32:37 +00:00
|
|
|
|
|
|
|
Generally, the example will demonstrate how the parse tree may be
|
|
|
|
traversed to distill interesting information. Two functions and a set
|
1996-09-11 21:57:40 +00:00
|
|
|
of classes are developed which provide programmatic access to high
|
1996-08-21 14:32:37 +00:00
|
|
|
level function and class definitions provided by a module. The
|
|
|
|
classes extract information from the parse tree and provide access to
|
|
|
|
the information at a useful semantic level, one function provides a
|
|
|
|
simple low-level pattern matching capability, and the other function
|
|
|
|
defines a high-level interface to the classes by handling file
|
|
|
|
operations on behalf of the caller. All source files mentioned here
|
|
|
|
which are not part of the Python installation are located in the
|
1996-09-11 21:57:40 +00:00
|
|
|
\file{Demo/parser/} directory of the distribution.
|
1996-08-21 14:32:37 +00:00
|
|
|
|
1996-08-26 00:33:29 +00:00
|
|
|
The dynamic nature of Python allows the programmer a great deal of
|
|
|
|
flexibility, but most modules need only a limited measure of this when
|
|
|
|
defining classes, functions, and methods. In this example, the only
|
|
|
|
definitions that will be considered are those which are defined in the
|
1998-02-09 20:52:48 +00:00
|
|
|
top level of their context, e.g., a function defined by a \keyword{def}
|
1996-08-26 00:33:29 +00:00
|
|
|
statement at column zero of a module, but not a function defined
|
1996-09-11 21:57:40 +00:00
|
|
|
within a branch of an \code{if} ... \code{else} construct, though
|
1996-08-26 00:33:29 +00:00
|
|
|
there are some good reasons for doing so in some situations. Nesting
|
|
|
|
of definitions will be handled by the code developed in the example.
|
|
|
|
|
1996-08-21 14:32:37 +00:00
|
|
|
To construct the upper-level extraction methods, we need to know what
|
|
|
|
the parse tree structure looks like and how much of it we actually
|
1996-09-11 21:57:40 +00:00
|
|
|
need to be concerned about. Python uses a moderately deep parse tree
|
1996-08-21 14:32:37 +00:00
|
|
|
so there are a large number of intermediate nodes. It is important to
|
|
|
|
read and understand the formal grammar used by Python. This is
|
|
|
|
specified in the file \file{Grammar/Grammar} in the distribution.
|
|
|
|
Consider the simplest case of interest when searching for docstrings:
|
1996-08-26 00:33:29 +00:00
|
|
|
a module consisting of a docstring and nothing else. (See file
|
|
|
|
\file{docstring.py}.)
|
1995-10-11 17:30:04 +00:00
|
|
|
|
1998-02-13 06:58:54 +00:00
|
|
|
\begin{verbatim}
|
1996-08-21 14:32:37 +00:00
|
|
|
"""Some documentation.
|
|
|
|
"""
|
1998-02-13 06:58:54 +00:00
|
|
|
\end{verbatim}
|
1997-07-17 16:34:52 +00:00
|
|
|
%
|
1996-08-21 14:32:37 +00:00
|
|
|
Using the interpreter to take a look at the parse tree, we find a
|
|
|
|
bewildering mass of numbers and parentheses, with the documentation
|
1996-09-11 21:57:40 +00:00
|
|
|
buried deep in nested tuples.
|
1995-10-11 17:30:04 +00:00
|
|
|
|
1998-02-13 06:58:54 +00:00
|
|
|
\begin{verbatim}
|
1996-08-21 14:32:37 +00:00
|
|
|
>>> import parser
|
|
|
|
>>> import pprint
|
|
|
|
>>> ast = parser.suite(open('docstring.py').read())
|
|
|
|
>>> tup = parser.ast2tuple(ast)
|
|
|
|
>>> pprint.pprint(tup)
|
|
|
|
(257,
|
|
|
|
(264,
|
|
|
|
(265,
|
|
|
|
(266,
|
|
|
|
(267,
|
|
|
|
(307,
|
|
|
|
(287,
|
|
|
|
(288,
|
|
|
|
(289,
|
|
|
|
(290,
|
|
|
|
(292,
|
|
|
|
(293,
|
|
|
|
(294,
|
|
|
|
(295,
|
|
|
|
(296,
|
|
|
|
(297,
|
|
|
|
(298,
|
|
|
|
(299,
|
|
|
|
(300, (3, '"""Some documentation.\012"""'))))))))))))))))),
|
|
|
|
(4, ''))),
|
|
|
|
(4, ''),
|
|
|
|
(0, ''))
|
1998-02-13 06:58:54 +00:00
|
|
|
\end{verbatim}
|
1997-07-17 16:34:52 +00:00
|
|
|
%
|
1996-08-21 14:32:37 +00:00
|
|
|
The numbers at the first element of each node in the tree are the node
|
|
|
|
types; they map directly to terminal and non-terminal symbols in the
|
|
|
|
grammar. Unfortunately, they are represented as integers in the
|
|
|
|
internal representation, and the Python structures generated do not
|
1998-02-09 20:52:48 +00:00
|
|
|
change that. However, the \module{symbol} and \module{token} modules
|
1996-08-21 14:32:37 +00:00
|
|
|
provide symbolic names for the node types and dictionaries which map
|
|
|
|
from the integers to the symbolic names for the node types.
|
|
|
|
|
|
|
|
In the output presented above, the outermost tuple contains four
|
|
|
|
elements: the integer \code{257} and three additional tuples. Node
|
1998-02-09 20:52:48 +00:00
|
|
|
type \code{257} has the symbolic name \constant{file_input}. Each of
|
1996-08-21 14:32:37 +00:00
|
|
|
these inner tuples contains an integer as the first element; these
|
|
|
|
integers, \code{264}, \code{4}, and \code{0}, represent the node types
|
1998-02-09 20:52:48 +00:00
|
|
|
\constant{stmt}, \constant{NEWLINE}, and \constant{ENDMARKER},
|
|
|
|
respectively.
|
1996-08-21 14:32:37 +00:00
|
|
|
Note that these values may change depending on the version of Python
|
|
|
|
you are using; consult \file{symbol.py} and \file{token.py} for
|
|
|
|
details of the mapping. It should be fairly clear that the outermost
|
|
|
|
node is related primarily to the input source rather than the contents
|
1998-02-09 20:52:48 +00:00
|
|
|
of the file, and may be disregarded for the moment. The \constant{stmt}
|
1996-08-21 14:32:37 +00:00
|
|
|
node is much more interesting. In particular, all docstrings are
|
|
|
|
found in subtrees which are formed exactly as this node is formed,
|
|
|
|
with the only difference being the string itself. The association
|
|
|
|
between the docstring in a similar tree and the defined entity (class,
|
|
|
|
function, or module) which it describes is given by the position of
|
|
|
|
the docstring subtree within the tree defining the described
|
|
|
|
structure.
|
|
|
|
|
|
|
|
By replacing the actual docstring with something to signify a variable
|
1996-09-11 21:57:40 +00:00
|
|
|
component of the tree, we allow a simple pattern matching approach to
|
|
|
|
check any given subtree for equivelence to the general pattern for
|
|
|
|
docstrings. Since the example demonstrates information extraction, we
|
|
|
|
can safely require that the tree be in tuple form rather than list
|
|
|
|
form, allowing a simple variable representation to be
|
|
|
|
\code{['variable_name']}. A simple recursive function can implement
|
1996-08-21 14:32:37 +00:00
|
|
|
the pattern matching, returning a boolean and a dictionary of variable
|
1996-08-26 00:33:29 +00:00
|
|
|
name to value mappings. (See file \file{example.py}.)
|
1996-08-21 14:32:37 +00:00
|
|
|
|
1998-02-13 06:58:54 +00:00
|
|
|
\begin{verbatim}
|
1996-08-21 14:32:37 +00:00
|
|
|
from types import ListType, TupleType
|
|
|
|
|
|
|
|
def match(pattern, data, vars=None):
|
|
|
|
if vars is None:
|
|
|
|
vars = {}
|
|
|
|
if type(pattern) is ListType:
|
|
|
|
vars[pattern[0]] = data
|
|
|
|
return 1, vars
|
|
|
|
if type(pattern) is not TupleType:
|
|
|
|
return (pattern == data), vars
|
|
|
|
if len(data) != len(pattern):
|
|
|
|
return 0, vars
|
|
|
|
for pattern, data in map(None, pattern, data):
|
|
|
|
same, vars = match(pattern, data, vars)
|
|
|
|
if not same:
|
|
|
|
break
|
|
|
|
return same, vars
|
1998-02-13 06:58:54 +00:00
|
|
|
\end{verbatim}
|
1997-07-17 16:34:52 +00:00
|
|
|
%
|
1996-09-11 21:57:40 +00:00
|
|
|
Using this simple representation for syntactic variables and the symbolic
|
1996-08-26 00:33:29 +00:00
|
|
|
node types, the pattern for the candidate docstring subtrees becomes
|
|
|
|
fairly readable. (See file \file{example.py}.)
|
1995-10-11 17:30:04 +00:00
|
|
|
|
1998-02-13 06:58:54 +00:00
|
|
|
\begin{verbatim}
|
1996-08-26 00:33:29 +00:00
|
|
|
import symbol
|
|
|
|
import token
|
|
|
|
|
|
|
|
DOCSTRING_STMT_PATTERN = (
|
|
|
|
symbol.stmt,
|
|
|
|
(symbol.simple_stmt,
|
|
|
|
(symbol.small_stmt,
|
|
|
|
(symbol.expr_stmt,
|
|
|
|
(symbol.testlist,
|
|
|
|
(symbol.test,
|
|
|
|
(symbol.and_test,
|
|
|
|
(symbol.not_test,
|
|
|
|
(symbol.comparison,
|
|
|
|
(symbol.expr,
|
|
|
|
(symbol.xor_expr,
|
|
|
|
(symbol.and_expr,
|
|
|
|
(symbol.shift_expr,
|
|
|
|
(symbol.arith_expr,
|
|
|
|
(symbol.term,
|
|
|
|
(symbol.factor,
|
|
|
|
(symbol.power,
|
|
|
|
(symbol.atom,
|
|
|
|
(token.STRING, ['docstring'])
|
|
|
|
)))))))))))))))),
|
|
|
|
(token.NEWLINE, '')
|
|
|
|
))
|
1998-02-13 06:58:54 +00:00
|
|
|
\end{verbatim}
|
1997-07-17 16:34:52 +00:00
|
|
|
%
|
1998-02-09 20:52:48 +00:00
|
|
|
Using the \function{match()} function with this pattern, extracting the
|
1996-08-21 14:32:37 +00:00
|
|
|
module docstring from the parse tree created previously is easy:
|
|
|
|
|
1998-02-13 06:58:54 +00:00
|
|
|
\begin{verbatim}
|
1996-08-21 14:32:37 +00:00
|
|
|
>>> found, vars = match(DOCSTRING_STMT_PATTERN, tup[1])
|
|
|
|
>>> found
|
|
|
|
1
|
|
|
|
>>> vars
|
|
|
|
{'docstring': '"""Some documentation.\012"""'}
|
1998-02-13 06:58:54 +00:00
|
|
|
\end{verbatim}
|
1997-07-17 16:34:52 +00:00
|
|
|
%
|
1996-08-21 14:32:37 +00:00
|
|
|
Once specific data can be extracted from a location where it is
|
|
|
|
expected, the question of where information can be expected
|
|
|
|
needs to be answered. When dealing with docstrings, the answer is
|
1998-02-09 20:52:48 +00:00
|
|
|
fairly simple: the docstring is the first \constant{stmt} node in a code
|
|
|
|
block (\constant{file_input} or \constant{suite} node types). A module
|
|
|
|
consists of a single \constant{file_input} node, and class and function
|
|
|
|
definitions each contain exactly one \constant{suite} node. Classes and
|
1996-08-21 14:32:37 +00:00
|
|
|
functions are readily identified as subtrees of code block nodes which
|
|
|
|
start with \code{(stmt, (compound_stmt, (classdef, ...} or
|
|
|
|
\code{(stmt, (compound_stmt, (funcdef, ...}. Note that these subtrees
|
1998-02-09 20:52:48 +00:00
|
|
|
cannot be matched by \function{match()} since it does not support multiple
|
1996-08-21 14:32:37 +00:00
|
|
|
sibling nodes to match without regard to number. A more elaborate
|
|
|
|
matching function could be used to overcome this limitation, but this
|
|
|
|
is sufficient for the example.
|
|
|
|
|
1996-08-26 00:33:29 +00:00
|
|
|
Given the ability to determine whether a statement might be a
|
|
|
|
docstring and extract the actual string from the statement, some work
|
|
|
|
needs to be performed to walk the parse tree for an entire module and
|
|
|
|
extract information about the names defined in each context of the
|
|
|
|
module and associate any docstrings with the names. The code to
|
|
|
|
perform this work is not complicated, but bears some explanation.
|
|
|
|
|
|
|
|
The public interface to the classes is straightforward and should
|
|
|
|
probably be somewhat more flexible. Each ``major'' block of the
|
|
|
|
module is described by an object providing several methods for inquiry
|
|
|
|
and a constructor which accepts at least the subtree of the complete
|
1998-02-18 15:59:13 +00:00
|
|
|
parse tree which it represents. The \class{ModuleInfo} constructor
|
|
|
|
accepts an optional \var{name} parameter since it cannot
|
1996-08-26 00:33:29 +00:00
|
|
|
otherwise determine the name of the module.
|
|
|
|
|
1998-02-09 20:52:48 +00:00
|
|
|
The public classes include \class{ClassInfo}, \class{FunctionInfo},
|
|
|
|
and \class{ModuleInfo}. All objects provide the
|
|
|
|
methods \method{get_name()}, \method{get_docstring()},
|
|
|
|
\method{get_class_names()}, and \method{get_class_info()}. The
|
|
|
|
\class{ClassInfo} objects support \method{get_method_names()} and
|
|
|
|
\method{get_method_info()} while the other classes provide
|
|
|
|
\method{get_function_names()} and \method{get_function_info()}.
|
1996-08-26 00:33:29 +00:00
|
|
|
|
|
|
|
Within each of the forms of code block that the public classes
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represent, most of the required information is in the same form and is
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1996-09-11 21:57:40 +00:00
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accessed in the same way, with classes having the distinction that
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1996-08-26 00:33:29 +00:00
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functions defined at the top level are referred to as ``methods.''
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Since the difference in nomenclature reflects a real semantic
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1996-09-11 21:57:40 +00:00
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distinction from functions defined outside of a class, the
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implementation needs to maintain the distinction.
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1996-08-26 00:33:29 +00:00
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Hence, most of the functionality of the public classes can be
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1998-02-09 20:52:48 +00:00
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implemented in a common base class, \class{SuiteInfoBase}, with the
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1996-08-26 00:33:29 +00:00
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accessors for function and method information provided elsewhere.
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Note that there is only one class which represents function and method
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information; this parallels the use of the \keyword{def} statement to
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define both types of elements.
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Most of the accessor functions are declared in \class{SuiteInfoBase}
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and do not need to be overriden by subclasses. More importantly, the
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extraction of most information from a parse tree is handled through a
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1998-02-09 20:52:48 +00:00
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method called by the \class{SuiteInfoBase} constructor. The example
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code for most of the classes is clear when read alongside the formal
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grammar, but the method which recursively creates new information
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objects requires further examination. Here is the relevant part of
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the \class{SuiteInfoBase} definition from \file{example.py}:
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\begin{verbatim}
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class SuiteInfoBase:
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_docstring = ''
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_name = ''
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def __init__(self, tree = None):
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self._class_info = {}
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self._function_info = {}
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if tree:
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self._extract_info(tree)
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def _extract_info(self, tree):
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# extract docstring
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if len(tree) == 2:
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found, vars = match(DOCSTRING_STMT_PATTERN[1], tree[1])
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else:
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found, vars = match(DOCSTRING_STMT_PATTERN, tree[3])
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if found:
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self._docstring = eval(vars['docstring'])
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# discover inner definitions
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for node in tree[1:]:
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found, vars = match(COMPOUND_STMT_PATTERN, node)
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if found:
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cstmt = vars['compound']
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if cstmt[0] == symbol.funcdef:
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name = cstmt[2][1]
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self._function_info[name] = FunctionInfo(cstmt)
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elif cstmt[0] == symbol.classdef:
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name = cstmt[2][1]
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self._class_info[name] = ClassInfo(cstmt)
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\end{verbatim}
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%
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After initializing some internal state, the constructor calls the
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\method{_extract_info()} method. This method performs the bulk of the
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information extraction which takes place in the entire example. The
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extraction has two distinct phases: the location of the docstring for
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the parse tree passed in, and the discovery of additional definitions
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within the code block represented by the parse tree.
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The initial \keyword{if} test determines whether the nested suite is of
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1996-08-26 00:33:29 +00:00
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the ``short form'' or the ``long form.'' The short form is used when
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the code block is on the same line as the definition of the code
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block, as in
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1998-01-09 22:24:14 +00:00
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\begin{verbatim}
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def square(x): "Square an argument."; return x ** 2
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\end{verbatim}
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%
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while the long form uses an indented block and allows nested
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definitions:
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\begin{verbatim}
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def make_power(exp):
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"Make a function that raises an argument to the exponent `exp'."
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def raiser(x, y=exp):
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return x ** y
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return raiser
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1998-02-13 06:58:54 +00:00
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\end{verbatim}
|
1997-07-17 16:34:52 +00:00
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|
%
|
1996-08-26 00:33:29 +00:00
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When the short form is used, the code block may contain a docstring as
|
1998-02-09 20:52:48 +00:00
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|
the first, and possibly only, \constant{small_stmt} element. The
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1996-08-26 00:33:29 +00:00
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extraction of such a docstring is slightly different and requires only
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a portion of the complete pattern used in the more common case. As
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1996-09-11 21:57:40 +00:00
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implemented, the docstring will only be found if there is only
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1998-02-09 20:52:48 +00:00
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|
one \constant{small_stmt} node in the \constant{simple_stmt} node.
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Since most functions and methods which use the short form do not
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provide a docstring, this may be considered sufficient. The
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|
extraction of the docstring proceeds using the \function{match()} function
|
|
|
|
as described above, and the value of the docstring is stored as an
|
|
|
|
attribute of the \class{SuiteInfoBase} object.
|
1996-08-26 00:33:29 +00:00
|
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|
1996-09-11 21:57:40 +00:00
|
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|
After docstring extraction, a simple definition discovery
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1998-02-09 20:52:48 +00:00
|
|
|
algorithm operates on the \constant{stmt} nodes of the
|
|
|
|
\constant{suite} node. The special case of the short form is not
|
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|
|
tested; since there are no \constant{stmt} nodes in the short form,
|
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|
the algorithm will silently skip the single \constant{simple_stmt}
|
|
|
|
node and correctly not discover any nested definitions.
|
1996-08-26 00:33:29 +00:00
|
|
|
|
1996-09-11 21:57:40 +00:00
|
|
|
Each statement in the code block is categorized as
|
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|
|
a class definition, function or method definition, or
|
1996-08-26 00:33:29 +00:00
|
|
|
something else. For the definition statements, the name of the
|
1996-09-11 21:57:40 +00:00
|
|
|
element defined is extracted and a representation object
|
1996-08-26 00:33:29 +00:00
|
|
|
appropriate to the definition is created with the defining subtree
|
|
|
|
passed as an argument to the constructor. The repesentation objects
|
|
|
|
are stored in instance variables and may be retrieved by name using
|
|
|
|
the appropriate accessor methods.
|
|
|
|
|
|
|
|
The public classes provide any accessors required which are more
|
1998-02-09 20:52:48 +00:00
|
|
|
specific than those provided by the \class{SuiteInfoBase} class, but
|
1996-08-26 00:33:29 +00:00
|
|
|
the real extraction algorithm remains common to all forms of code
|
|
|
|
blocks. A high-level function can be used to extract the complete set
|
1996-09-11 21:57:40 +00:00
|
|
|
of information from a source file. (See file \file{example.py}.)
|
1996-08-26 00:33:29 +00:00
|
|
|
|
1998-02-13 06:58:54 +00:00
|
|
|
\begin{verbatim}
|
1996-08-26 00:33:29 +00:00
|
|
|
def get_docs(fileName):
|
|
|
|
source = open(fileName).read()
|
|
|
|
import os
|
|
|
|
basename = os.path.basename(os.path.splitext(fileName)[0])
|
|
|
|
import parser
|
|
|
|
ast = parser.suite(source)
|
|
|
|
tup = parser.ast2tuple(ast)
|
|
|
|
return ModuleInfo(tup, basename)
|
1998-02-13 06:58:54 +00:00
|
|
|
\end{verbatim}
|
1997-07-17 16:34:52 +00:00
|
|
|
%
|
1996-08-26 00:33:29 +00:00
|
|
|
This provides an easy-to-use interface to the documentation of a
|
|
|
|
module. If information is required which is not extracted by the code
|
|
|
|
of this example, the code may be extended at clearly defined points to
|
|
|
|
provide additional capabilities.
|
1996-08-21 14:32:37 +00:00
|
|
|
|
1998-01-09 22:24:14 +00:00
|
|
|
\begin{seealso}
|
|
|
|
|
1998-02-23 21:31:24 +00:00
|
|
|
\seemodule{symbol}{
|
|
|
|
useful constants representing internal nodes of the parse tree}
|
1998-01-09 22:24:14 +00:00
|
|
|
|
1998-02-23 21:31:24 +00:00
|
|
|
\seemodule{token}{
|
|
|
|
useful constants representing leaf nodes of the parse tree and
|
|
|
|
functions for testing node values}
|
1998-01-09 22:24:14 +00:00
|
|
|
|
|
|
|
\end{seealso}
|