Doc/lib/emailparser.tex - platform/external/python/cpython3 - Gitiles

 \declaremodule{standard}{email.Parser}
 \modulesynopsis{Parse flat text email messages to produce a message
 	        object structure.}

 Message object structures can be created in one of two ways: they can be
 created from whole cloth by instantiating \class{Message} objects and
 stringing them together via \method{attach()} and
 \method{set_payload()} calls, or they can be created by parsing a flat text
 representation of the email message.

 The \module{email} package provides a standard parser that understands
 most email document structures, including MIME documents.  You can
 pass the parser a string or a file object, and the parser will return
 to you the root \class{Message} instance of the object structure.  For
 simple, non-MIME messages the payload of this root object will likely
 be a string containing the text of the message.  For MIME
 messages, the root object will return \code{True} from its
 \method{is_multipart()} method, and the subparts can be accessed via
 the \method{get_payload()} and \method{walk()} methods.

 Note that the parser can be extended in limited ways, and of course
 you can implement your own parser completely from scratch.  There is
 no magical connection between the \module{email} package's bundled
 parser and the \class{Message} class, so your custom parser can create
 message object trees any way it finds necessary.

 The primary parser class is \class{Parser} which parses both the
 headers and the payload of the message.  In the case of
 \mimetype{multipart} messages, it will recursively parse the body of
 the container message.  Two modes of parsing are supported,
 \emph{strict} parsing, which will usually reject any non-RFC compliant
 message, and \emph{lax} parsing, which attempts to adjust for common
 MIME formatting problems.

 The \module{email.Parser} module also provides a second class, called
 \class{HeaderParser} which can be used if you're only interested in
 the headers of the message. \class{HeaderParser} can be much faster in
 these situations, since it does not attempt to parse the message body,
 instead setting the payload to the raw body as a string.
 \class{HeaderParser} has the same API as the \class{Parser} class.

 \subsubsection{Parser class API}

 \begin{classdesc}{Parser}{\optional{_class\optional{, strict}}}
 The constructor for the \class{Parser} class takes an optional
 argument \var{_class}.  This must be a callable factory (such as a
 function or a class), and it is used whenever a sub-message object
 needs to be created.  It defaults to \class{Message} (see
 \refmodule{email.Message}).  The factory will be called without
 arguments.

 The optional \var{strict} flag specifies whether strict or lax parsing
 should be performed.  Normally, when things like MIME terminating
 boundaries are missing, or when messages contain other formatting
 problems, the \class{Parser} will raise a
 \exception{MessageParseError}.  However, when lax parsing is enabled,
 the \class{Parser} will attempt to work around such broken formatting
 to produce a usable message structure (this doesn't mean
 \exception{MessageParseError}s are never raised; some ill-formatted
 messages just can't be parsed).  The \var{strict} flag defaults to
 \code{False} since lax parsing usually provides the most convenient
 behavior.

 \versionchanged[The \var{strict} flag was added]{2.2.2}
 \end{classdesc}

 The other public \class{Parser} methods are:

 \begin{methoddesc}[Parser]{parse}{fp\optional{, headersonly}}
 Read all the data from the file-like object \var{fp}, parse the
 resulting text, and return the root message object.  \var{fp} must
 support both the \method{readline()} and the \method{read()} methods
 on file-like objects.

 The text contained in \var{fp} must be formatted as a block of \rfc{2822}
 style headers and header continuation lines, optionally preceded by a
 envelope header.  The header block is terminated either by the
 end of the data or by a blank line.  Following the header block is the
 body of the message (which may contain MIME-encoded subparts).

 Optional \var{headersonly} is as with the \method{parse()} method.

 \versionchanged[The \var{headersonly} flag was added]{2.2.2}
 \end{methoddesc}

 \begin{methoddesc}[Parser]{parsestr}{text\optional{, headersonly}}
 Similar to the \method{parse()} method, except it takes a string
 object instead of a file-like object.  Calling this method on a string
 is exactly equivalent to wrapping \var{text} in a \class{StringIO}
 instance first and calling \method{parse()}.

 Optional \var{headersonly} is a flag specifying whether to stop
 parsing after reading the headers or not.  The default is \code{False},
 meaning it parses the entire contents of the file.

 \versionchanged[The \var{headersonly} flag was added]{2.2.2}
 \end{methoddesc}

 Since creating a message object structure from a string or a file
 object is such a common task, two functions are provided as a
 convenience.  They are available in the top-level \module{email}
 package namespace.

 \begin{funcdesc}{message_from_string}{s\optional{, _class\optional{, strict}}}
 Return a message object structure from a string.  This is exactly
 equivalent to \code{Parser().parsestr(s)}.  Optional \var{_class} and
 \var{strict} are interpreted as with the \class{Parser} class constructor.

 \versionchanged[The \var{strict} flag was added]{2.2.2}
 \end{funcdesc}

 \begin{funcdesc}{message_from_file}{fp\optional{, _class\optional{, strict}}}
 Return a message object structure tree from an open file object.  This
 is exactly equivalent to \code{Parser().parse(fp)}.  Optional
 \var{_class} and \var{strict} are interpreted as with the
 \class{Parser} class constructor.

 \versionchanged[The \var{strict} flag was added]{2.2.2}
 \end{funcdesc}

 Here's an example of how you might use this at an interactive Python
 prompt:

 \begin{verbatim}
 >>> import email
 >>> msg = email.message_from_string(myString)
 \end{verbatim}

 \subsubsection{Additional notes}

 Here are some notes on the parsing semantics:

 \begin{itemize}
 \item Most non-\mimetype{multipart} type messages are parsed as a single
       message object with a string payload.  These objects will return
       \code{False} for \method{is_multipart()}.  Their
       \method{get_payload()} method will return a string object.

 \item All \mimetype{multipart} type messages will be parsed as a
       container message object with a list of sub-message objects for
       their payload.  The outer container message will return
       \code{True} for \method{is_multipart()} and their
       \method{get_payload()} method will return the list of
       \class{Message} subparts.

 \item Most messages with a content type of \mimetype{message/*}
       (e.g. \mimetype{message/delivery-status} and
       \mimetype{message/rfc822}) will also be parsed as container
       object containing a list payload of length 1.  Their
       \method{is_multipart()} method will return \code{True}.  The
       single element in the list payload will be a sub-message object.
 \end{itemize}
	\declaremodule{standard}{email.Parser}
	\modulesynopsis{Parse flat text email messages to produce a message
	object structure.}

	Message object structures can be created in one of two ways: they can be
	created from whole cloth by instantiating \class{Message} objects and
	stringing them together via \method{attach()} and
	\method{set_payload()} calls, or they can be created by parsing a flat text
	representation of the email message.

	The \module{email} package provides a standard parser that understands
	most email document structures, including MIME documents. You can
	pass the parser a string or a file object, and the parser will return
	to you the root \class{Message} instance of the object structure. For
	simple, non-MIME messages the payload of this root object will likely
	be a string containing the text of the message. For MIME
	messages, the root object will return \code{True} from its
	\method{is_multipart()} method, and the subparts can be accessed via
	the \method{get_payload()} and \method{walk()} methods.

	Note that the parser can be extended in limited ways, and of course
	you can implement your own parser completely from scratch. There is
	no magical connection between the \module{email} package's bundled
	parser and the \class{Message} class, so your custom parser can create
	message object trees any way it finds necessary.

	The primary parser class is \class{Parser} which parses both the
	headers and the payload of the message. In the case of
	\mimetype{multipart} messages, it will recursively parse the body of
	the container message. Two modes of parsing are supported,
	\emph{strict} parsing, which will usually reject any non-RFC compliant
	message, and \emph{lax} parsing, which attempts to adjust for common
	MIME formatting problems.

	The \module{email.Parser} module also provides a second class, called
	\class{HeaderParser} which can be used if you're only interested in
	the headers of the message. \class{HeaderParser} can be much faster in
	these situations, since it does not attempt to parse the message body,
	instead setting the payload to the raw body as a string.
	\class{HeaderParser} has the same API as the \class{Parser} class.

	\subsubsection{Parser class API}

	\begin{classdesc}{Parser}{\optional{_class\optional{, strict}}}
	The constructor for the \class{Parser} class takes an optional
	argument \var{_class}. This must be a callable factory (such as a
	function or a class), and it is used whenever a sub-message object
	needs to be created. It defaults to \class{Message} (see
	\refmodule{email.Message}). The factory will be called without
	arguments.

	The optional \var{strict} flag specifies whether strict or lax parsing
	should be performed. Normally, when things like MIME terminating
	boundaries are missing, or when messages contain other formatting
	problems, the \class{Parser} will raise a
	\exception{MessageParseError}. However, when lax parsing is enabled,
	the \class{Parser} will attempt to work around such broken formatting
	to produce a usable message structure (this doesn't mean
	\exception{MessageParseError}s are never raised; some ill-formatted
	messages just can't be parsed). The \var{strict} flag defaults to
	\code{False} since lax parsing usually provides the most convenient
	behavior.

	\versionchanged[The \var{strict} flag was added]{2.2.2}
	\end{classdesc}

	The other public \class{Parser} methods are:

	\begin{methoddesc}[Parser]{parse}{fp\optional{, headersonly}}
	Read all the data from the file-like object \var{fp}, parse the
	resulting text, and return the root message object. \var{fp} must
	support both the \method{readline()} and the \method{read()} methods
	on file-like objects.

	The text contained in \var{fp} must be formatted as a block of \rfc{2822}
	style headers and header continuation lines, optionally preceded by a
	envelope header. The header block is terminated either by the
	end of the data or by a blank line. Following the header block is the
	body of the message (which may contain MIME-encoded subparts).

	Optional \var{headersonly} is as with the \method{parse()} method.

	\versionchanged[The \var{headersonly} flag was added]{2.2.2}
	\end{methoddesc}

	\begin{methoddesc}[Parser]{parsestr}{text\optional{, headersonly}}
	Similar to the \method{parse()} method, except it takes a string
	object instead of a file-like object. Calling this method on a string
	is exactly equivalent to wrapping \var{text} in a \class{StringIO}
	instance first and calling \method{parse()}.

	Optional \var{headersonly} is a flag specifying whether to stop
	parsing after reading the headers or not. The default is \code{False},
	meaning it parses the entire contents of the file.

	\versionchanged[The \var{headersonly} flag was added]{2.2.2}
	\end{methoddesc}

	Since creating a message object structure from a string or a file
	object is such a common task, two functions are provided as a
	convenience. They are available in the top-level \module{email}
	package namespace.

	\begin{funcdesc}{message_from_string}{s\optional{, _class\optional{, strict}}}
	Return a message object structure from a string. This is exactly
	equivalent to \code{Parser().parsestr(s)}. Optional \var{_class} and
	\var{strict} are interpreted as with the \class{Parser} class constructor.

	\versionchanged[The \var{strict} flag was added]{2.2.2}
	\end{funcdesc}

	\begin{funcdesc}{message_from_file}{fp\optional{, _class\optional{, strict}}}
	Return a message object structure tree from an open file object. This
	is exactly equivalent to \code{Parser().parse(fp)}. Optional
	\var{_class} and \var{strict} are interpreted as with the
	\class{Parser} class constructor.

	\versionchanged[The \var{strict} flag was added]{2.2.2}
	\end{funcdesc}

	Here's an example of how you might use this at an interactive Python
	prompt:

	\begin{verbatim}
	>>> import email
	>>> msg = email.message_from_string(myString)
	\end{verbatim}

	\subsubsection{Additional notes}

	Here are some notes on the parsing semantics:

	\begin{itemize}
	\item Most non-\mimetype{multipart} type messages are parsed as a single
	message object with a string payload. These objects will return
	\code{False} for \method{is_multipart()}. Their
	\method{get_payload()} method will return a string object.

	\item All \mimetype{multipart} type messages will be parsed as a
	container message object with a list of sub-message objects for
	their payload. The outer container message will return
	\code{True} for \method{is_multipart()} and their
	\method{get_payload()} method will return the list of
	\class{Message} subparts.

	\item Most messages with a content type of \mimetype{message/*}
	(e.g. \mimetype{message/delivery-status} and
	\mimetype{message/rfc822}) will also be parsed as container
	object containing a list payload of length 1. Their
	\method{is_multipart()} method will return \code{True}. The
	single element in the list payload will be a sub-message object.
	\end{itemize}