Doc/libimp.tex - platform/external/python/cpython3 - Gitiles

 \section{Built-in module \sectcode{imp}}
 \bimodindex{imp}
 \index{import}

 This module provides an interface to the mechanisms use to implement
 the \code{import} statement.  It defines the following constants and
 functions:

 \renewcommand{\indexsubitem}{(in module struct)}

 \begin{funcdesc}{get_magic}{}
 Return the magic string used to recognize value byte-compiled code
 files (``\code{.pyc} files'').
 \end{funcdesc}

 \begin{funcdesc}{get_suffixes}{}
 Return a list of triples, each describing a particular type of file.
 Each triple has the form \code{(\var{suffix}, \var{mode},
 \var{type})}, where \var{suffix} is a string to be appended to the
 module name to form the filename to search for, \var{mode} is the mode
 string to pass to the built-in \code{open} function to open the file
 (this can be \code{'r'} for text files or \code{'rb'} for binary
 files), and \var{type} is the file type, which has one of the values
 \code{PY_SOURCE}, \code{PY_COMPILED} or \code{C_EXTENSION}, defined
 below.
 \end{funcdesc}

 \begin{funcdesc}{find_module}{name\, \optional{path}}
 Try to find the module \var{name} on the search path \var{path}.  The
 default \var{path} is \code{sys.path}.  The return value is a triple
 \code{(\var{file}, \var{pathname}, \var{description})} where
 \var{file} is an open file object positioned at the beginning
 corresponding to the file found, \var{pathname} is the pathname of the
 file found, and \var{description} is a triple as contained in the list
 returned by \code{get_suffixes} describing the kind of file found.
 \end{funcdesc}

 \begin{funcdesc}{init_builtin}{name}
 Initialize the built-in module called \var{name} and return its module
 object.  If the module was already initialized, it will be initialized
 {\em again}.  A few modules cannot be initialized twice -- attempting
 to initialize these again will raise an exception.  If there is no
 built-in module called \var{name}, \code{None} is returned.
 \end{funcdesc}

 \begin{funcdesc}{init_frozen}{name}
 Initialize the frozen module called \var{name} and return its module
 object.  If the module was already initialized, it will be initialized
 {\em again}.  If there is no frozen module called \var{name},
 \code{None} is returned.  (Frozen modules are modules written in
 Python whose compiled byte-code object is incorporated into a
 custom-built Python interpreter by Python's \code{freeze} utility.
 See \code{Demo/freeze} for now.)
 \end{funcdesc}

 \begin{funcdesc}{is_builtin}{name}
 Return \code{1} if there is a built-in module called \var{name} which can be
 initialized again.  Return \code{-1} if there is a built-in module
 called \var{name} which cannot be initialized again (see
 \code{init_builtin}).  Return \code{0} if there is no built-in module
 called \var{name}.
 \end{funcdesc}

 \begin{funcdesc}{is_frozen}{name}
 Return \code{1} if there is a frozen module (see \code{init_frozen})
 called \var{name}, \code{0} if there is no such module.
 \end{funcdesc}

 \begin{funcdesc}{load_compiled}{name\, pathname\, \optional{file}}
 Load and initialize a module implemented as a byte-compiled code file
 and return its module object.  If the module was already initialized,
 it will be initialized {\em again}.  The \var{name} argument is used
 to create or access a module object.  The \var{pathname} argument
 points to the byte-compiled code file.  The optional \var{file}
 argument is the byte-compiled code file, open for reading in binary
 mode, from the beginning -- if not given, the function opens
 \var{pathname}.  It must currently be a real file object, not a
 user-defined class emulating a file.
 \end{funcdesc}

 \begin{funcdesc}{load_dynamic}{name\, pathname\, \optional{file}}
 Load and initialize a module implemented as a dynamically loadable
 shared library and return its module object.  If the module was
 already initialized, it will be initialized {\em again}.  Some modules
 don't like that and may raise an exception.  The \var{pathname}
 argument must point to the shared library.  The \var{name} argument is
 used to construct the name of the initialization function: an external
 C function called \code{init\var{name}()} in the shared library is
 called.  The optional \var{file} argment is ignored.  (Note: using
 shared libraries is highly system dependent, and not all systems
 support it.)
 \end{funcdesc}

 \begin{funcdesc}{load_source}{name\, pathname\, \optional{file}}
 Load and initialize a module implemented as a Python source file and
 return its module object.  If the module was already initialized, it
 will be initialized {\em again}.  The \var{name} argument is used to
 create or access a module object.  The \var{pathname} argument points
 to the source file.  The optional \var{file} argument is the source
 file, open for reading as text, from the beginning -- if not given,
 the function opens \var{pathname}.  It must currently be a real file
 object, not a user-defined class emulating a file.  Note that if a
 properly matching byte-compiled file (with suffix \code{.pyc}) exists,
 it will be used instead of parsing the given source file.
 \end{funcdesc}

 \begin{funcdesc}{new_module}{name}
 Return a new empty module object called \var{name}.  This object is
 {\em not} inserted in \code{sys.modules}.
 \end{funcdesc}

 The following constants with integer values, defined in the module,
 are used to indicate the search result of \code{imp.find_module}.

 \begin{datadesc}{SEARCH_ERROR}
 The module was not found.
 \end{datadesc}

 \begin{datadesc}{PY_SOURCE}
 The module was found as a source file.
 \end{datadesc}

 \begin{datadesc}{PY_COMPILED}
 The module was found as a compiled code object file.
 \end{datadesc}

 \begin{datadesc}{C_EXTENSION}
 The module was found as dynamically loadable shared library.
 \end{datadesc}

 \subsection{Examples}
 The following function emulates the default import statement:

 \begin{verbatim}
 import imp
 from sys import modules

 def __import__(name, globals=None, locals=None, fromlist=None):
     # Fast path: let's see if it's already in sys.modules.
     # Two speed optimizations are worth mentioning:
     # - We use 'modules' instead of 'sys.modules'; this saves a
     #   dictionary look-up per call.
     # - It's also faster to use a try-except statement than
     #   to use modules.has_key(name) to check if it's there.
     try:
         return modules[name]
     except KeyError:
         pass

     # See if it's a built-in module
     m = imp.init_builtin(name)
     if m:
         return m

     # See if it's a frozen module
     m = imp.init_frozen(name)
     if m:
         return m

     # Search the default path (i.e. sys.path).
     # If this raises an exception, the module is not found --
     # let the caller handle the exception.
     fp, pathname, (suffix, mode, type) = imp.find_module(name)

     # See what we got.
     # Note that fp will be closed automatically when we return.
     if type == imp.C_EXTENSION:
         return imp.load_dynamic(name, pathname)
     if type == imp.PY_SOURCE:
         return imp.load_source(name, pathname, fp)
     if type == imp.PY_COMPILED:
         return imp.load_source(name, pathname, fp)

     # Shouldn't get here at all.
     raise ImportError, '%s: unknown module type (%d)' % (name, type)
 \end{verbatim}
	\section{Built-in module \sectcode{imp}}
	\bimodindex{imp}
	\index{import}

	This module provides an interface to the mechanisms use to implement
	the \code{import} statement. It defines the following constants and
	functions:

	\renewcommand{\indexsubitem}{(in module struct)}

	\begin{funcdesc}{get_magic}{}
	Return the magic string used to recognize value byte-compiled code
	files (``\code{.pyc} files'').
	\end{funcdesc}

	\begin{funcdesc}{get_suffixes}{}
	Return a list of triples, each describing a particular type of file.
	Each triple has the form \code{(\var{suffix}, \var{mode},
	\var{type})}, where \var{suffix} is a string to be appended to the
	module name to form the filename to search for, \var{mode} is the mode
	string to pass to the built-in \code{open} function to open the file
	(this can be \code{'r'} for text files or \code{'rb'} for binary
	files), and \var{type} is the file type, which has one of the values
	\code{PY_SOURCE}, \code{PY_COMPILED} or \code{C_EXTENSION}, defined
	below.
	\end{funcdesc}

	\begin{funcdesc}{find_module}{name\, \optional{path}}
	Try to find the module \var{name} on the search path \var{path}. The
	default \var{path} is \code{sys.path}. The return value is a triple
	\code{(\var{file}, \var{pathname}, \var{description})} where
	\var{file} is an open file object positioned at the beginning
	corresponding to the file found, \var{pathname} is the pathname of the
	file found, and \var{description} is a triple as contained in the list
	returned by \code{get_suffixes} describing the kind of file found.
	\end{funcdesc}

	\begin{funcdesc}{init_builtin}{name}
	Initialize the built-in module called \var{name} and return its module
	object. If the module was already initialized, it will be initialized
	{\em again}. A few modules cannot be initialized twice -- attempting
	to initialize these again will raise an exception. If there is no
	built-in module called \var{name}, \code{None} is returned.
	\end{funcdesc}

	\begin{funcdesc}{init_frozen}{name}
	Initialize the frozen module called \var{name} and return its module
	object. If the module was already initialized, it will be initialized
	{\em again}. If there is no frozen module called \var{name},
	\code{None} is returned. (Frozen modules are modules written in
	Python whose compiled byte-code object is incorporated into a
	custom-built Python interpreter by Python's \code{freeze} utility.
	See \code{Demo/freeze} for now.)
	\end{funcdesc}

	\begin{funcdesc}{is_builtin}{name}
	Return \code{1} if there is a built-in module called \var{name} which can be
	initialized again. Return \code{-1} if there is a built-in module
	called \var{name} which cannot be initialized again (see
	\code{init_builtin}). Return \code{0} if there is no built-in module
	called \var{name}.
	\end{funcdesc}

	\begin{funcdesc}{is_frozen}{name}
	Return \code{1} if there is a frozen module (see \code{init_frozen})
	called \var{name}, \code{0} if there is no such module.
	\end{funcdesc}

	\begin{funcdesc}{load_compiled}{name\, pathname\, \optional{file}}
	Load and initialize a module implemented as a byte-compiled code file
	and return its module object. If the module was already initialized,
	it will be initialized {\em again}. The \var{name} argument is used
	to create or access a module object. The \var{pathname} argument
	points to the byte-compiled code file. The optional \var{file}
	argument is the byte-compiled code file, open for reading in binary
	mode, from the beginning -- if not given, the function opens
	\var{pathname}. It must currently be a real file object, not a
	user-defined class emulating a file.
	\end{funcdesc}

	\begin{funcdesc}{load_dynamic}{name\, pathname\, \optional{file}}
	Load and initialize a module implemented as a dynamically loadable
	shared library and return its module object. If the module was
	already initialized, it will be initialized {\em again}. Some modules
	don't like that and may raise an exception. The \var{pathname}
	argument must point to the shared library. The \var{name} argument is
	used to construct the name of the initialization function: an external
	C function called \code{init\var{name}()} in the shared library is
	called. The optional \var{file} argment is ignored. (Note: using
	shared libraries is highly system dependent, and not all systems
	support it.)
	\end{funcdesc}

	\begin{funcdesc}{load_source}{name\, pathname\, \optional{file}}
	Load and initialize a module implemented as a Python source file and
	return its module object. If the module was already initialized, it
	will be initialized {\em again}. The \var{name} argument is used to
	create or access a module object. The \var{pathname} argument points
	to the source file. The optional \var{file} argument is the source
	file, open for reading as text, from the beginning -- if not given,
	the function opens \var{pathname}. It must currently be a real file
	object, not a user-defined class emulating a file. Note that if a
	properly matching byte-compiled file (with suffix \code{.pyc}) exists,
	it will be used instead of parsing the given source file.
	\end{funcdesc}

	\begin{funcdesc}{new_module}{name}
	Return a new empty module object called \var{name}. This object is
	{\em not} inserted in \code{sys.modules}.
	\end{funcdesc}

	The following constants with integer values, defined in the module,
	are used to indicate the search result of \code{imp.find_module}.

	\begin{datadesc}{SEARCH_ERROR}
	The module was not found.
	\end{datadesc}

	\begin{datadesc}{PY_SOURCE}
	The module was found as a source file.
	\end{datadesc}

	\begin{datadesc}{PY_COMPILED}
	The module was found as a compiled code object file.
	\end{datadesc}

	\begin{datadesc}{C_EXTENSION}
	The module was found as dynamically loadable shared library.
	\end{datadesc}

	\subsection{Examples}
	The following function emulates the default import statement:

	\begin{verbatim}
	import imp
	from sys import modules

	def __import__(name, globals=None, locals=None, fromlist=None):
	# Fast path: let's see if it's already in sys.modules.
	# Two speed optimizations are worth mentioning:
	# - We use 'modules' instead of 'sys.modules'; this saves a
	# dictionary look-up per call.
	# - It's also faster to use a try-except statement than
	# to use modules.has_key(name) to check if it's there.
	try:
	return modules[name]
	except KeyError:
	pass

	# See if it's a built-in module
	m = imp.init_builtin(name)
	if m:
	return m

	# See if it's a frozen module
	m = imp.init_frozen(name)
	if m:
	return m

	# Search the default path (i.e. sys.path).
	# If this raises an exception, the module is not found --
	# let the caller handle the exception.
	fp, pathname, (suffix, mode, type) = imp.find_module(name)

	# See what we got.
	# Note that fp will be closed automatically when we return.
	if type == imp.C_EXTENSION:
	return imp.load_dynamic(name, pathname)
	if type == imp.PY_SOURCE:
	return imp.load_source(name, pathname, fp)
	if type == imp.PY_COMPILED:
	return imp.load_source(name, pathname, fp)

	# Shouldn't get here at all.
	raise ImportError, '%s: unknown module type (%d)' % (name, type)
	\end{verbatim}