ref: 0e6e44b06400e320145eb5115edce054cfd26d1f
dir: /sys/src/cmd/python/Doc/lib/libpyclbr.tex/
\section{\module{pyclbr} --- Python class browser support} \declaremodule{standard}{pyclbr} \modulesynopsis{Supports information extraction for a Python class browser.} \sectionauthor{Fred L. Drake, Jr.}{fdrake@acm.org} The \module{pyclbr} can be used to determine some limited information about the classes, methods and top-level functions defined in a module. The information provided is sufficient to implement a traditional three-pane class browser. The information is extracted from the source code rather than by importing the module, so this module is safe to use with untrusted source code. This restriction makes it impossible to use this module with modules not implemented in Python, including many standard and optional extension modules. \begin{funcdesc}{readmodule}{module\optional{, path}} % The 'inpackage' parameter appears to be for internal use only.... Read a module and return a dictionary mapping class names to class descriptor objects. The parameter \var{module} should be the name of a module as a string; it may be the name of a module within a package. The \var{path} parameter should be a sequence, and is used to augment the value of \code{sys.path}, which is used to locate module source code. \end{funcdesc} \begin{funcdesc}{readmodule_ex}{module\optional{, path}} % The 'inpackage' parameter appears to be for internal use only.... Like \function{readmodule()}, but the returned dictionary, in addition to mapping class names to class descriptor objects, also maps top-level function names to function descriptor objects. Moreover, if the module being read is a package, the key \code{'__path__'} in the returned dictionary has as its value a list which contains the package search path. \end{funcdesc} \subsection{Class Descriptor Objects \label{pyclbr-class-objects}} The class descriptor objects used as values in the dictionary returned by \function{readmodule()} and \function{readmodule_ex()} provide the following data members: \begin{memberdesc}[class descriptor]{module} The name of the module defining the class described by the class descriptor. \end{memberdesc} \begin{memberdesc}[class descriptor]{name} The name of the class. \end{memberdesc} \begin{memberdesc}[class descriptor]{super} A list of class descriptors which describe the immediate base classes of the class being described. Classes which are named as superclasses but which are not discoverable by \function{readmodule()} are listed as a string with the class name instead of class descriptors. \end{memberdesc} \begin{memberdesc}[class descriptor]{methods} A dictionary mapping method names to line numbers. \end{memberdesc} \begin{memberdesc}[class descriptor]{file} Name of the file containing the \code{class} statement defining the class. \end{memberdesc} \begin{memberdesc}[class descriptor]{lineno} The line number of the \code{class} statement within the file named by \member{file}. \end{memberdesc} \subsection{Function Descriptor Objects \label{pyclbr-function-objects}} The function descriptor objects used as values in the dictionary returned by \function{readmodule_ex()} provide the following data members: \begin{memberdesc}[function descriptor]{module} The name of the module defining the function described by the function descriptor. \end{memberdesc} \begin{memberdesc}[function descriptor]{name} The name of the function. \end{memberdesc} \begin{memberdesc}[function descriptor]{file} Name of the file containing the \code{def} statement defining the function. \end{memberdesc} \begin{memberdesc}[function descriptor]{lineno} The line number of the \code{def} statement within the file named by \member{file}. \end{memberdesc}