.TH MH-FORMAT 5mh "November 4, 2012" "nmh-1.6" .\" .\" THIS FILE HAS BEEN AUTOMATICALLY GENERATED. DO NOT EDIT. .\" .SH NAME mh-format \- format file for nmh message system .SH DESCRIPTION Several .B nmh commands utilize either a .I format string or a .I format file during their execution. For example, .B scan uses a format string which directs it how to generate the scan listing for each message; .B repl uses a format file which directs it how to generate the reply to a message, and so on. .PP There are a few alternate scan listing formats available in .IR nmh/etc/scan.time , .IR nmh/etc/scan.size , and .IR nmh/etc/scan.timely . Look in .I nmh/etc for other .B scan and .B repl format files which may have been written at your site. .PP It suffices to have your local .B nmh expert actually write new format commands or modify existing ones. This manual section explains how to do that. Note: familiarity with the C .B printf routine is assumed. .PP A format string consists of ordinary text, and special multi-character escape sequences which begin with `%'. When specifying a format string, the usual C backslash characters are honored: `\\b', `\\f', `\\n', `\\r', and `\\t'. Continuation lines in format files end with `\\' followed by the newline character. A literal `%' can be inserted into a format file by using the sequence `%%'. .\" TALK ABOUT SYNTAX FIRST, THEN SEMANTICS .SS SYNTAX Format strings are built around .IR "escape sequences" . There are three types of escape sequences: header .IR components , built-in .IR functions , and flow .IR control . Comments may be inserted in most places where a function argument is not expected. A comment begins with `%;' and ends with a (non-escaped) newline. .PP A .I component escape is specified as .RI `%{ component }', and exists for each header found in the message being processed. For example .RI `%{ date }' refers to the \*(lqDate:\*(rq field of the appropriate message. All component escapes have a string value. Normally, component values are compressed by converting any control characters (tab and newline included) to spaces, then eliding any leading or multiple spaces. However, commands may give different interpretations to some component escapes; be sure to refer to each command's manual entry for complete details. Some commands (such as .B ap and .BR mhl ) use a special component .RI `%{ text }' to refer to the text being processed; see their respective man pages for details and examples. .PP A .I function escape is specified as .RI `%( function )'. All functions are built-in, and most have a string or numeric value. A function escape may have an .IR argument . The argument follows the function escape: separating whitespace is discarded: .RI `%( function " " argument )'. .PP In addition to literal numbers or strings, the argument to a function escape can be another function, a component, or a control escape. When the argument is a function or a component, they are listed without a leading `%'. When control escapes are used as function arguments, they written as normally, with a leading `%'; .SS "Control escapes" .PP A .I control escape is one of: `%<', `%?', `%|', or `%>'. These are combined into the conditional execution construct: .PP .RS 5 .nf .RI "%< " condition " " "format-text" .RI "%? " condition " " "format-text" \&... .RI "%| " "format-text" %> .fi .RE .PP Extra white space is shown here only for clarity. These constructs may be nested without ambiguity. They form a general .B if\-elseif\-else\-endif block where only one of the format-texts is interpreted. In other words, `%<' is like the "if", `%?' is like the "elseif", `%|' is like "else", and `%>' is like "endif". .PP A `%<' or `%?' control escape causes its condition to be evaluated. This condition is a .I component or .IR function . For integer valued functions or components, the condition is true if the function return or component value is non-zero, and false if zero. For string valued functions or components, the condition is true if the function return or component value is a non-empty string, and false for an empty string. .PP The `%?' control escape is optional, and may there may be more than one `%?' control escape in a conditional block. The `%|' control escape is also optional, but may be included at most once. .SS "Function escapes" Functions expecting an argument generally require an argument of a particular type. In addition to the number and string types, these include: .PP .RS 5 .nf .ta +\w'Argument 'u +\w'An optional component, 'u .I "Argument Description Example Syntax" literal A literal number %(\fIfunc\fR 1234) or string %(\fIfunc\fR text string) comp Any component %(\fIfunc\fR\^{\fIin-reply-to\fR\^}) date A date component %(\fIfunc\fR\^{\fIdate\fR\^}) addr An address component %(\fIfunc\fR\^{\fIfrom\fR\^}) expr Nothing %(\fIfunc\fR) or a subexpression %(\fIfunc\fR\^(\fIfunc2\fR\^)) or control escape %(\fIfunc\fR %<{\fIreply-to\fR\^}%|%{\fIfrom\fR\^}%>) .fi .RE .PP The types .I date and .I addr have the same syntax as .IR comp , but require that the header component be a date string, or address string, respectively. .PP Most arguments not of type .IR expr are required. When escapes are nested (via expr arguments), evaluation is done from inner-most to outer-most. As noted above, for the expr argument type, functions and components are written without a leading `%'. Control escape arguments must use a leading `%', preceded by a space. .PP For example, .PP .RS 5 .nf %<(mymbox{from}) To: %{to}%> .fi .RE .PP writes the value of the header component \*(lqFrom:\*(rq to the internal register named str; then (\fImymbox\fR\^) reads str and writes its result to the internal register named .IR num ; then the control escape evaluates .IR num . If .IR num is non-zero, the string \*(lqTo:\*(rq is printed followed by the value of the header component \*(lqTo:\*(rq. .SS Evaluation The evaluation of format strings is performed by a small virtual machine. The machine is capable of evaluating nested expressions as described above, and in addition has an integer register .IR num , and a text string register .IR str . When a function escape that accepts an optional argument is processed, and the argument is not present, the current value of either .I num or .I str is used as the argument: which register is used depends on the function, as listed below. .PP Component escapes write the value of their message header in .IR str . Function escapes write their return value in .I num for functions returning integer or boolean values, and in .I str for functions returning string values. (The boolean type is a subset of integers with usual values 0=false and 1=true.) Control escapes return a boolean value, setting .I num to 1 if the last explicit condition evaluated by a `%<' or `%?' control succeeded, and 0 otherwise. .PP All component escapes, and those function escapes which return an integer or string value, evaluate to their value as well as setting .I str or .IR num . Outermost escape expressions in these forms will print their value, but outermost escapes which return a boolean value do not result in printed output. .SS Functions The function escapes may be roughly grouped into a few categories. .PP .RS 5 .nf .ta \w'Fformataddr 'u +\w'Aboolean 'u +\w'Rboolean 'u .I "Function Argument Result Description" msg integer message number cur integer message is current (0 or 1) unseen integer message is unseen (0 or 1) size integer size of message strlen integer length of \fIstr\fR width integer column width of terminal charleft integer bytes left in output buffer timenow integer seconds since the UNIX epoch me string the user's mailbox (username) myhost string the user's local hostname myname string the user's name localmbox string the complete local mailbox eq literal boolean \fInum\fR == \fIarg\fR ne literal boolean \fInum\fR != \fIarg\fR gt literal boolean \fInum\fR > \fIarg\fR match literal boolean \fIstr\fR contains \fIarg\fR amatch literal boolean \fIstr\fR starts with \fIarg\fR plus literal integer \fIarg\fR plus \fInum\fR minus literal integer \fIarg\fR minus \fInum\fR divide literal integer \fInum\fR divided by \fIarg\fR modulo literal integer \fInum\fR modulo \fIarg\fR num literal integer Set \fInum\fR to \fIarg\fR. num integer Set \fInum\fR to zero. lit literal string Set \fIstr\fR to \fIarg\fR. lit string Clear \fIstr\fR. getenv literal string Set \fIstr\fR to environment value of \fIarg\fR profile literal string Set \fIstr\fR to profile component \fIarg\fR value .\" dat literal int return value of dat[arg] nonzero expr boolean \fInum\fR is non-zero zero expr boolean \fInum\fR is zero null expr boolean \fIstr\fR is empty nonnull expr boolean \fIstr\fR is non-empty void expr Set \fIstr\fR or \fInum\fR comp comp string Set \fIstr\fR to component text compval comp integer Set \fInum\fR to \*(lq\fBatoi\fR(\fIcomp\fR\^)\*(rq .\" compflag comp integer Set \fInum\fR to component flags bits (internal) .\" decodecomp comp string Set \fIstr\fR to RFC 2047 decoded component text decode expr string decode \fIstr\fR as RFC 2047 (MIME-encoded) component unquote expr string remove RFC 2822 quotes from \fIstr\fR trim expr trim trailing whitespace from \fIstr\fR putstr expr print \fIstr\fR putstrf expr print \fIstr\fR in a fixed width putnum expr print \fInum\fR putnumf expr print \fInum\fR in a fixed width .\" addtoseq literal add msg to sequence (LBL option) putlit expr print \fIstr\fR without space compression zputlit expr print \fIstr\fR without space compression; \fIstr\fR must occupy no width on display bold string set terminal bold mode underline string set terminal underlined mode standout string set terminal standout mode resetterm string reset all terminal attributes hascolor boolean terminal supports color fgcolor literal string set terminal foreground color bgcolor literal string set terminal background color formataddr expr append \fIarg\fR to \fIstr\fR as a (comma separated) address list concataddr expr append \fIarg\fR to \fIstr\fR as a (comma separated) address list, including duplicates, see Special Handling putaddr literal print \fIstr\fR address list with \fIarg\fR as optional label; get line width from \fInum\fR .fi .RE .PP The (\fIme\fR\^) function returns the username of the current user. The (\fImyhost\fR\^) function returns the .B localname entry in .IR mts.conf , or the local hostname if .B localname is not configured. The (\fImyname\fR\^) function will return the value of the .B SIGNATURE environment variable if set, otherwise will return the passwd GECOS field (truncated at the first comma if it contains one) for the current user. The (\fIlocalmbox\fR\^) function will return the complete form of the local mailbox, suitable for use in a \*(lqFrom\*(rq header. It will return the .RI \*(lq Local-Mailbox \*(rq profile entry if it is set; if it is not, it will be equivalent to: .PP .RS 5 .nf %(myname) <%(me)@%(myhost)> .fi .RE .PP The following functions require a date component as an argument: .PP .RS 5 .nf .ta \w'Fformataddr 'u +\w'Aboolean 'u +\w'Rboolean 'u .I "Function Argument Return Description" sec date integer seconds of the minute min date integer minutes of the hour hour date integer hours of the day (0-23) wday date integer day of the week (Sun=0) day date string day of the week (abbrev.) weekday date string day of the week sday date integer day of the week known? (1=explicit,0=implicit,\-1=unknown) mday date integer day of the month yday date integer day of the year mon date integer month of the year month date string month of the year (abbrev.) lmonth date string month of the year year date integer year (may be > 100) zone date integer timezone in hours tzone date string timezone string szone date integer timezone explicit? (1=explicit,0=implicit,\-1=unknown) date2local date coerce date to local timezone date2gmt date coerce date to GMT dst date integer daylight savings in effect? (0 or 1) clock date integer seconds since the UNIX epoch rclock date integer seconds prior to current time tws date string official RFC 822 rendering pretty date string user-friendly rendering nodate date integer returns 1 if date is invalid .fi .RE .PP These functions require an address component as an argument. The return value of functions noted with `*' is computed from the first address present in the header component. .PP .RS 5 .nf .ta \w'Fformataddr 'u +\w'Aboolean 'u +\w'Rboolean 'u .I "Function Argument Return Description" proper addr string official RFC 822 rendering friendly addr string user-friendly rendering addr addr string mbox@host or host!mbox rendering* pers addr string the personal name* note addr string commentary text* mbox addr string the local mailbox* mymbox addr integer List has the user's address? (0 or 1) host addr string the host domain* nohost addr integer no host was present (0 or 1)* type addr integer host type* (0=local,1=network, \-1=uucp,2=unknown) path addr string any leading host route* ingrp addr integer address was inside a group (0 or 1)* gname addr string name of group* .fi .RE .PP (A clarification on (\fImymbox\fR\^{\fIcomp\fR\^}) is in order. This function checks each of the addresses in the header component \*(lq\fIcomp\fR\*(rq against the user's mailbox name and any .RI \*(lq Alternate-Mailboxes \*(rq. It returns true if any address matches, however, it also returns true if the \*(lq\fIcomp\fR\*(rq header is not present in the message. If needed, the (\fInull\fR\^) function can be used to explicitly test for this case.) .SS Formatting When a function or component escape is interpreted and the result will be immediately printed, an optional field width can be specified to print the field in exactly a given number of characters. For example, a numeric escape like %4(\fIsize\fR\^) will print at most 4 digits of the message size; overflow will be indicated by a `?' in the first position (like `?234'). A string escape like %4(\fIme\fR\^) will print the first 4 characters and truncate at the end. Short fields are padded at the right with the fill character (normally, a blank). If the field width argument begins with a leading zero, then the fill character is set to a zero. .PP The functions (\fIputnumf\fR\^) and (\fIputstrf\fR\^) print their result in exactly the number of characters specified by their leading field width argument. For example, %06(\fIputnumf\fR\^(\fIsize\fR\^)) will print the message size in a field six characters wide filled with leading zeros; %14(\fIputstrf\^\fR{\fIfrom\^\fR}) will print the \*(lqFrom:\*(rq header component in fourteen characters with trailing spaces added as needed. For \fIputstrf\fR, using a negative value for the field width causes right-justification of the string within the field, with padding on the left up to the field width. The functions (\fIputnum\fR\^) and (\fIputstr\fR\^) are somewhat special: they print their result in the minimum number of characters required, and ignore any leading field width argument. The (\fIputlit\fR\^) function outputs the exact contents of the str register without any changes such as duplicate space removal or control character conversion. The (\fIzputlit\fR\^) function similarly outputs the exact contents of the str register, but requires that those contents not occupy any output width. It can therefore be used for outputting terminal escape sequences. .PP There are a limited number of function escapes to output terminal escape sequences. These sequences are retrieved from the .IR terminfo (5) database according to the current terminal setting. The (\fIbold\fR\^), (\fIunderline\fR\^), and (\fIstandout\fR\^) escapes set bold mode, underline mode, and standout mode respectively. .PP (\fIhascolor\fR\^) can be used to determine if the current terminal supports color. (\fIfgcolor\fR\^) and (\fIbgcolor\fR\^) set the foreground and background colors respectively. Both of these escapes take one literal argument, the color name, which can be one of: black, red, green, yellow, blue, magenta, cyan, white. (\fIresetterm\fR\^) resets all terminal attributes back to their default setting. .PP All of these terminal escape should be used in conjunction with (\fIzputlit\fR\^) (preferred) or (\fIputlit\fR\^), as the normal (\fIputstr\fR\^) function will strip out control characters. .PP The available output width is kept in an internal register; any output past this width will be truncated. The one exception to this is (\fIzputlit\fR\^) functions will still be executed in case a terminal reset code is being placed at the end of the line. .SS Special Handling A few functions have different behavior depending on what command they are being invoked from. .PP In .BR repl the (\fIformataddr\fR\^) function stores all email addresses encountered into an internal cache and will use this cache to suppress duplicate addresses. If you need to create an address list that includes previously-seen addresses you may use the (\fIconcataddr\fR\^) function, which is identical to (\fIformataddr\fR\^) in all other respects. Note that (\fIconcataddr\fR\^) will NOT add addresses to the duplicate-suppression cache. .SS Other Hints and Tips Sometimes to format function writers it is confusing as to why output is duplicated. The general rule to remember is simple: If a function or component escape is used where it starts with a %, then it will generate text in the output file. Otherwise, it will not. .PP A good example is a simple attempt to generate a To: header based on the From: and Reply-To: headers: .PP .RS 5 .nf %(formataddr %<{reply-to}%|%{from})%(putaddr To: ) .fi .RE .PP Unfortuantely if the Reply-to: header is NOT present, the output line that is generated will be something like: .PP .RS 5 .nf My From User To: My From User .fi .RE .PP What went wrong? When performing the test for the .B if clause (%<), the component is not output because it is considered an argument to the .B if statement (hence the rule about the lack of % applies). But the component escape in our .B else statement (everything after the `%|') is NOT an argument to anything; the syntax is that it is written with a %, and thus the value of that component is output. This also has the side effect of setting the .I str register, which is later picked up by the (\fIformataddr\fR\^) function and then output by (\fIputaddr\fR\^). This format string has another bug as well; there should always be a valid width value in the .I num register when (\fIputaddr\fR\^) is called, otherwise bad formatting can take place. .PP The solution is to use the (\fIvoid\fR\^) function; this will prevent the function or component from outputting any text. With this in place (and using (\fIwidth\fR\^) to set the .I num register for the width, a better implementation would look like: .PP .RS 3 .nf %(formataddr %<{reply-to}%|%(void{from})%(void(width))%(putaddr To: ) .fi .RE .PP It should be noted here that the side-effects of functions and component escapes still are in force: as a result each component test in the .B if\-elseif\-else\-endif clause sets the .I str register. .PP As an additional note, the (\fIformataddr\fR\^) and (\fIconcataddr\fR\^) functions have special behavior when it comes to the .I str register. The starting point of the register is saved and is used to build up entries in the address list. .PP You will find the .B fmttest utility invaluable when debugging problems with format strings. .SS Examples With all this in mind, here's the default format string for .BR scan . It's been divided into several pieces for readability. The first part is: .PP .RS .nf %4(msg)%<(cur)+%| %>%<{replied}\-%?{encrypted}E%| %> .fi .RE .PP which says that the message number should be printed in four digits. If the message is the current message then a `+' else a space should be printed; if a \*(lqReplied:\*(rq field is present then a `\-' else if an \*(lqEncrypted:\*(rq field is present then an `E' otherwise a space should be printed. Next: .PP .RS .nf %02(mon{date})/%02(mday{date}) .fi .RE .PP the month and date are printed in two digits (zero filled) separated by a slash. Next, .PP .RS 5 .nf %<{date} %|*%> .fi .RE .PP If a \*(lqDate:\*(rq field was present, then a space is printed, otherwise a `*'. Next, .PP .RS 5 .nf %<(mymbox{from})%<{to}To:%14(decode(friendly{to}))%>%> .fi .RE .PP if the message is from me, and there is a \*(lqTo:\*(rq header, print \*(lqTo:\*(rq followed by a \*(lquser-friendly\*(rq rendering of the first address in the \*(lqTo:\*(rq field; any MIME-encoded characters are decoded into the actual characters. Continuing, .PP .RS 5 .nf %<(zero)%17(decode(friendly{from}))%> .fi .RE .PP if either of the above two tests failed, then the \*(lqFrom:\*(rq address is printed in a mime-decoded, \*(lquser-friendly\*(rq format. And finally, .PP .RS 5 .nf %(decode{subject})%<{body}<<%{body}>>%> .fi .RE .PP the mime-decoded subject and initial body (if any) are printed. .PP For a more complicated example, next consider a possible .I replcomps format file. .PP .RS 5 .nf %(lit)%(formataddr %<{reply-to} .fi .RE .PP This clears .I str and formats the \*(lqReply-To:\*(rq header if present. If not present, the else-if clause is executed. .PP .RS 5 .nf %?{from}%?{sender}%?{return-path}%>)\\ .fi .RE .PP This formats the \*(lqFrom:\*(rq, \*(lqSender:\*(rq and \*(lqReturn-Path:\*(rq headers, stopping as soon as one of them is present. Next: .PP .RS 5 .nf %<(nonnull)%(void(width))%(putaddr To: )\\n%>\\ .fi .RE .PP If the \fIformataddr\fR result is non-null, it is printed as an address (with line folding if needed) in a field \fIwidth\fR wide with a leading label of \*(lqTo:\*(rq. .PP .RS 5 .nf %(lit)%(formataddr{to})%(formataddr{cc})%(formataddr(me))\\ .fi .RE .PP .I str is cleared, and the \*(lqTo:\*(rq and \*(lqCc:\*(rq headers, along with the user's address (depending on what was specified with the \*(lq\-cc\*(rq switch to \fIrepl\fR\^) are formatted. .PP .RS 5 .nf %<(nonnull)%(void(width))%(putaddr cc: )\\n%>\\ .fi .RE .PP If the result is non-null, it is printed as above with a leading label of \*(lqcc:\*(rq. .PP .RS 5 .nf %<{fcc}Fcc: %{fcc}\\n%>\\ .fi .RE .PP If a .B \-fcc .I folder switch was given to .B repl (see .IR repl (1) for more details about %{\fIfcc\fR\^}), an \*(lqFcc:\*(rq header is output. .PP .RS 5 .nf %<{subject}Subject: Re: %{subject}\\n%>\\ .fi .RE .PP If a subject component was present, a suitable reply subject is output. .PP .RS 5 .nf %<{message-id}In-Reply-To: %{message-id}\\n%>\\ %<{message-id}References: %<{references} %{references}%>\\ %{message-id}\\n%> \-\-\-\-\-\-\-\- .fi .RE .PP If a message-id component was present, an \*(lqIn-Reply-To:\*(rq header is output including the message-id, followed by a \*(lqReferences:\*(rq header with references, if present, and the message-id. As with all plain-text, the row of dashes are output as-is. .PP This last part is a good example for a little more elaboration. Here's that part again in pseudo-code: .PP .RS 5 .nf .ta .5i 1i 1.5i 2i if (comp_exists(message-id)) then print (\*(lqIn-reply-to: \*(rq) print (message-id.value) print (\*(lq\\n\*(rq) endif if (comp_exists(message-id)) then print (\*(lqReferences: \*(rq) if (comp_exists(references)) then print(references.value); endif print (message-id.value) print (\*(lq\\n\*(rq) endif .fi .RE .PP .\" (Note that this pseudocode begs the question ``why not just .\" support this syntax?'' MH has been hacked on for a long time...) .\".PP One more example: Currently, .B nmh supports very large message numbers, and it is not uncommon for a folder to have far more than 10000 messages. .\" (Indeed, the original MH .\" tutorial document by Rose and Romine is entitled "How to .\" process 200 messages a day and still get some real work .\" done." The authors apparently only planned to get .\" real work done for about 50 days per folder.) Nontheless (as noted above) the various scan format strings are inherited from older MH versions, and are generally hard-coded to 4 digits of message number before formatting problems start to occur. The nmh format strings can be modified to behave more sensibly with larger message numbers: .PP .RS .nf %(void(msg))%<(gt 9999)%(msg)%|%4(msg)%> .fi .RE .PP The current message number is placed in \fInum\fP. (Note that .RI ( msg ) is an int function, not a component.) The .RI ( gt ) conditional is used to test whether the message number has 5 or more digits. If so, it is printed at full width, otherwise at 4 digits. .SH "SEE ALSO" .IR scan (1), .IR repl (1), .IR fmttest (1), .SH CONTEXT None