</para>
<para>
- It is a program to decode MIME messages. The program expects one input file
-(either on the command line or on stdin) which is treated as an RFC822 message,
-and decoded to stdout. If the file is not an RFC822 message it is just piped to
-stdout as is. If the file is a simple RFC822 message it is just decoded as one
-part. If it is a MIME message with multiple parts ("attachments") all parts are
-decoded recursively. Decoding can be controlled by the command-line options.
+ This is a program to decode MIME messages. The program expects one input
+file (either on command line or on stdin) which is treated as an RFC822
+message, and decodes to stdout or an output file. If the file is not an RFC822
+message it is just copied to the output one-to-one. If the file is a simple
+RFC822 message it is decoded as one part. If it is a MIME message with multiple
+parts ("attachments") all parts are decoded. Decoding can be controlled by
+command-line options.
</para>
<para>
First, Subject and Content-Disposition headers are examined. If any of those
-exists, it is decoded according to RFC2047. Content-Disposition header is not
-decoded - only its "filename" parameter. Encoded header parameters violate
-the RFC, but widely deployed anyway, especially in the M$ Ophice GUI (often
-referred as "Windoze") world, where programmers are often ignorant lamers who
-never even heard about RFCs. Correct parameter encoding specified by RFC2231.
-This program decodes RFC2231-encoded parameters, too.
+ exists, it is decoded according to RFC2047. Content-Disposition header is
+ not decoded - only its "filename" parameter. Encoded header parameters
+ violate the RFC, but widely deployed anyway by ignorant coders who never
+ even heard about RFCs. Correct parameter encoding specified by RFC2231. This
+ program decodes RFC2231-encoded parameters, too.
</para>
<para>
Then the body of the message (or the current part) is decoded. Decoding
-starts with looking at header Content-Transfer-Encoding. If the header
-specifies non-8bit encoding (usually base64 or quoted-printable), the body
-converted to 8bit. Then, if its content type is multipart (multipart/related or
-multipart/mixed, e.g) every part is recursively decoded. If it is not
-multipart, mailcap database is consulted to find a way to convert the body to
-plain text. (I have no idea how mailcap could be configured on said M$ Ophice
-GUI, please don't ask me; real OS users can consult my example at
-<ulink url="http://phdru.name/Software/dotfiles/mailcap.html">http://phdru.name/Software/dotfiles/mailcap.html</ulink>).
-The decoding process uses first copiousoutput filter it can find. If there is
-no any filter the body just passed unconverted.
+ starts with looking at header Content-Transfer-Encoding. If the header
+ specifies non-8bit encoding (usually base64 or quoted-printable), the body
+ converted to 8bit. Then, if its content type is multipart (multipart/related
+ or multipart/mixed, e.g) every part is recursively decoded. If it is not
+ multipart, mailcap database is consulted to find a way to convert the body
+ to plain text. (I have no idea how mailcap can be configured on OSes other
+ than POSIX, please don't ask me; real OS users can consult my example at
+ <ulink url="http://phdru.name/Software/dotfiles/mailcap.html">http://phdru.name/Software/dotfiles/mailcap.html</ulink>).
+ The decoding process uses the first copiousoutput filter it can find. If
+ there is no any filter the body just passed as is.
</para>
<para>
- Then Content-Type header consulted for charset. If it is not equal to
-current default charset the body text recoded. Finally message headers and body
-flushed to stdout.
+ Then Content-Type header is consulted for charset. If it is not equal to the
+ current locale charset the body text is recoded. Finally message headers and
+ the body are flushed to stdout.
</para>
</refsect1>
</para>
<para>
- When the program decodes a message (or its part), it consults
-Content-Type header. The content type is searched in all 4 lists, in order
-"text-binary-ignore-error". If found, appropriate action performed. If not
-found, the program search the same lists for "type/*" mask (the type of
-"text/html" is just "text"). If found, appropriate action performed. If not
-found, the program search the same lists for "*/*" mask. If found,
-appropriate action performed. If not found, the program uses default
-action, which is to decode everything to text (if mailcap specifies
-a filter).
+ When the program decodes a message (non-MIME or a non-multipart subpart of a
+ MIME message), it consults Content-Type header. The content type is searched
+ in all 4 lists, in order "text-binary-ignore-error". If found, appropriate
+ action performed. If not found, the program search the same lists for
+ "type/*" mask (the type of "text/html" is just "text"). If found,
+ appropriate action performed. If not found, the program search the same
+ lists for "*/*" mask. If found, appropriate action performed. If not found,
+ the program uses default action, which is to decode everything to text (if
+ mailcap specifies a filter).
</para>
<para>
correct MIME output. The incorrect parts are obvious - decoded Subject headers
and filenames. Other than that output is correct MIME message. The program does
not try to guess whether the headers are correct. For example, if a message
-header states that charset is iso8859-5, but the body is actually in koi8-r -
+header states that charset is iso8859-5, but the body is actually in utf-8
the program will recode the message with the wrong charset.
</para>
</refsect1>