.TH @g@chem @MAN1EXT@ "@MDATE@" "groff @VERSION@" .SH Name @g@chem \- embed chemical structure diagrams in .I groff documents . . .\" ==================================================================== .\" Legal Terms .\" ==================================================================== .\" .\" Copyright (C) 2006-2020 Free Software Foundation, Inc. .\" .\" This file is part of chem, which is part of groff, a free software .\" project. .\" .\" You can redistribute it and/or modify it under the terms of the GNU .\" General Public License version 2 (GPL2) as published by the Free .\" Software Foundation. .\" .\" The license text for GPL2 is available in the internet at .\" . . . .\" Save and disable compatibility mode (for, e.g., Solaris 10/11). .do nr *groff_chem_1_man_C \n[.cp] .cp 0 . .\" Define fallback for groff 1.23's MR macro if the system lacks it. .nr do-fallback 0 .if !\n(.f .nr do-fallback 1 \" mandoc .if \n(.g .if !d MR .nr do-fallback 1 \" older groff .if !\n(.g .nr do-fallback 1 \" non-groff *roff .if \n[do-fallback] \{\ . de MR . ie \\n(.$=1 \ . I \%\\$1 . el \ . IR \%\\$1 (\\$2)\\$3 . . .\} .rr do-fallback . . .\" ==================================================================== .SH Synopsis .\" ==================================================================== . .SY @g@chem .RB [ \-\- ] .RI [ file\~ .\|.\|.] .YS . . .SY @g@chem .B \-h . .SY @g@chem .B \-\-help .YS . . .SY @g@chem .B \-v . .SY @g@chem .B \-\-version .YS . . .\" ==================================================================== .SH Description .\" ==================================================================== . .I chem produces chemical structure diagrams. . Today's version is best suited for organic chemistry (bonds, rings). . The .I @g@chem program is a .I groff preprocessor like .IR @g@eqn , .IR @g@pic , .IR @g@tbl , etc. . It generates .I pic output such that all .I chem parts are translated into diagrams of the .I pic language. . . .P If no operands are given, or if .I file is .RB \[lq] \- \[rq], .I @g@chem reads the standard input stream. . .B \-h and .B \-\-help display a usage message, whereas .B \-v and .B \-\-version display version information; all exit. . . .P The program .I @g@chem originates from the Perl source file .IR chem.pl . . It tells .I @g@pic to include a copy of the macro file .IR chem.pic . . Moreover the .I groff source file .I pic.tmac is loaded. . . .P In a style reminiscent of .I eqn and .IR pic , the .I chem diagrams are written in a special language. . . .P A set of .I chem lines looks like this . . .IP .EX \&.cstart .I chem data \&.cend .EE . . .P Lines containing the keywords .B .cstart and .B .cend start and end the input for .IR @g@chem , respectively. . In .I pic context, i.e., after the call of .BR .PS , .I chem input can optionally be started by the line .B \%begin\~chem and ended by the line with the single word .B end instead. . . .P Anything outside these initialization lines is copied through without modification; all data between the initialization lines is converted into .I pic commands to draw the diagram. . . .P As an example, . .IP .EX \&.cstart CH3 bond CH3 \&.cend .EE . . .P prints two .B CH3 groups with a bond between them. . . .P If you want to create just .I groff output, you must run .I @g@chem followed by .I groff with the option .B \-p for the activation of .IR @g@pic : .IP .I @g@chem .RI [ file\~ .\|.\|.\&] .BR "| groff \-p\~" .\|.\|. . . .\" ==================================================================== .SH Language .\" ==================================================================== . The .I chem input language is rather small. . It provides rings of several styles and a way to glue them together as desired, bonds of several styles, moieties (e.g., .BR C , .BR NH3 , \&.\|.\|., and strings. . . .\" ==================================================================== .SS "Setting variables" .\" ==================================================================== . There are some variables that can be set by commands. . Such commands have two possible forms, either . .RS .P .I "variable value" .RE . .P or . .RS .P .IB "variable " = " value" .RE . .P This sets the given .I variable to the argument .IR value . If more arguments are given only the last argument is taken, all other arguments are ignored. . . .P There are only a few variables to be set by these commands: . .TP .BI textht " arg" Set the height of the text to .IR arg ; default is 0.16. . .TP .BI cwid " arg" Set the character width to .IR arg ; default is 0.12. . .TP .BI db " arg" Set the bond length to .IR arg ; default is 0.2. . .TP .BI size " arg" Scale the diagram to make it look plausible at point size .IR arg ; default is 10 point. . . .\" ==================================================================== .SS Bonds .\" ==================================================================== . This . .RS .SY bond .RI [ direction ] .RI [ length\ n ] .RB [ from\ \c .IR Name | picstuff ] .YS .RE . .P draws a single bond in direction from nearest corner of .IR Name . .B bond can also be .BR "double bond" , .BR "front bond" , .BR "back bond" , etc. . (We will get back to .I Name soon.) . . .P .I direction is the angle in degrees (0\~up, positive clockwise) or a direction word like .BR up , .BR down , .B sw (=\~southwest), etc. . If no direction is specified, the bond goes in the current direction (usually that of the last bond). . . .P Normally the bond begins at the last object placed; this can be changed by naming a .B from place. . For instance, to make a simple alkyl chain: . .RS .TS tab (@); lb l. CH3 bond@(this one goes right from the CH3) C@(at the right end of the bond) double bond up@(from the C) O@(at the end of the double bond) bond right from C CH3 .TE .RE . . .P A length in inches may be specified to override the default length. . Other .I pic commands can be tacked on to the end of a bond command, to created dotted or dashed bonds or to specify a .B to place. . . .\" ==================================================================== .SS Rings .\" ==================================================================== . There are lots of rings, but only five- and six-sided rings get much support. . .B ring by itself is a six-sided ring; .B benzene is the benzene ring with a circle inside. .B aromatic puts a circle into any kind of ring. . .RS .SY ring .RB [ \%pointing\ ( up | right | left | down )] .RB [ \%aromatic ] .RB [ put\ Mol\ at\ \fIn\/\fP ] .RB [ \%double\ \c .IR i , j\ \/\c .IR k , l\ \/\c \&.\|.\|.\& .RI [ picstuff ] .YS .RE . . .P The vertices of a ring are numbered 1, 2, \&.\|.\|.\& from the vertex that points in the natural compass direction. . So for a hexagonal ring with the point at the top, the top vertex is\~1, while if the ring has a point at the east side, that is vertex\~1. . This is expressed as . .IP .EX R1: ring pointing up R2: ring pointing right .EE . . .P The ring vertices are named .BR .V1 , \&.\|.\|., .BI .V n\fR,\fP with .B .V1 in the pointing direction. . So the corners of .B R1 are .B R1.V1 (the .IR top ), .BR R1.V2 , .BR R1.V3 , .B R1.V4 (the .IR bottom ), etc., whereas for .BR R2 , .B R2.V1 is the rightmost vertex and .B R2.V4 the leftmost. . These vertex names are used for connecting bonds or other rings. . For example, . .IP .EX R1: benzene pointing right R2: benzene pointing right with .V6 at R1.V2 .EE . . .P creates two benzene rings connected along a side. . . .P Interior double bonds are specified as .B \%double .IB n1 , "n2 n3" , n4 .RB .\|.\|. ; each number pair adds an interior bond. . So the alternate form of a benzene ring is . .IP .B "ring double 1,2 3,4 5,6" . . .P Heterocycles (rings with something other than carbon at a vertex) are written as .BI put\ X\ at\ V\fR,\fP as in . .IP .B "R: ring put N at 1 put O at 2" . . .P In this heterocycle, .B R.N and .B R.O become synonyms for .B R.V1 and .BR R.V2 . . . .P There are two five-sided rings. . .B ring5 is pentagonal with a side that matches the six-sided ring; it has four natural directions. . A .B \%flatring is a five-sided ring created by chopping one corner of a six-sided ring so that it exactly matches the six-sided rings. . . .P The description of a ring has to fit on a single line. . . .\" ==================================================================== .SS "Moieties and strings" .\" ==================================================================== . A moiety is a string of characters beginning with a capital letter, such as N(C2H5)2. . Numbers are converted to subscripts (unless they appear to be fractional values, as in N2.5H). . The name of a moiety is determined from the moiety after special characters have been stripped out: e.g., N(C2H5)2) has the name NC2H52. . . .P Moieties can be specified in two kinds. . Normally a moiety is placed right after the last thing mentioned, separated by a semicolon surrounded by spaces, e.g., . .IP .B "B1: bond ; OH" . .P Here the moiety is .BR OH ; it is set after a bond. . . .P As the second kind a moiety can be positioned as the first word in a .IR pic -like command, e.g., . .IP .B "CH3 at C + (0.5,0.5)" . .P Here the moiety is .BR CH3 . It is placed at a position relative to .BR C , a moiety used earlier in the chemical structure. . . .P So moiety names can be specified as .I chem positions everywhere in the .I chem code. . Beneath their printing moieties are names for places. . . .P The moiety .B BP is special. . It is not printed but just serves as a mark to be referred to in later .I chem commands. . For example, . .IP .B "bond ; BP" . .P sets a mark at the end of the bond. . This can be used then for specifying a place. . The name .B BP is derived from .I branch point (i.e., line crossing). . . .P A string within double quotes .B \(dq is interpreted as a part of a .I chem command. . It represents a string that should be printed (without the quotes). . Text within quotes .BR \(dq .\|.\|.\& \(dq is treated more or less like a moiety except that no changes are made to the quoted part. . . .\" ==================================================================== .SS Names .\" ==================================================================== . In the alkyl chain above, notice that the carbon atom .B C was used both to draw something and as the name for a place. . A moiety always defines a name for a place; you can use your own names for places instead, and indeed, for rings you will have to. . A name is just . .IP .IB Name : \&.\|.\|. . . .P .I Name is often the name of a moiety like .BR CH3 , but it need not to be. . Any name that begins with a capital letter and which contains only letters and numbers is valid: . .RS .TP .B First: .B bond .TQ \& .B "bond 30 from First" .RE . . .\" ==================================================================== .SS Miscellaneous .\" ==================================================================== . The specific construction .RS .TP .BR bond \~.\|.\|.\&\~ "; moiety" .RE .P is equivalent to .IP .EX bond moiety .EE . . .P Otherwise, each item has to be on a separate line (and only one line). Note that there must be whitespace after the semicolon which separates the commands. . . .P A period character .B .\& or a single quote .B \[aq] in the first column of a line signals a .I troff command, which is copied through as-is. . . .P A line whose first non-blank character is a hash character .RB ( # ) is treated as a comment and thus ignored. . However, hash characters within a word are kept. . . .P A line whose first word is .B pic is copied through as-is after the word .B pic has been removed. . . .P The command .IP .B size .I n .P scales the diagram to make it look plausible at point size\~\c .I n (default is 10\~point). . . .P Anything else is assumed to be .I pic code, which is copied through with a label. . . .P Since .I @g@chem is a .I @g@pic preprocessor, it is possible to include .I pic statements in the middle of a diagram to draw things not provided for by .I chem itself. . Such .I pic statements should be included in .I chem code by adding .B pic as the first word of this line for clarity. . . .P The following .I pic commands are accepted as .I chem commands, so no .B pic command word is needed: . .IP .B define Start the definition of .I pic macro within .IR chem . . .RS .TP .B [ Start a block composite. . .TP .B ] End a block composite. . .TP .B { Start a macro definition block. . .TP .B } End a macro definition block. .RE . .P The macro names from .B define statements are stored and their call is accepted as a .I chem command as well. . . .\" ==================================================================== .SS "Wish list" .\" ==================================================================== . .P This TODO list was collected by Brian Kernighan. . . .P Error checking is minimal; errors are usually detected and reported in an oblique fashion by .IR pic . . . .P There is no library or file inclusion mechanism, and there is no shorthand for repetitive structures. . . .P The extension mechanism is to create .I pic macros, but these are tricky to get right and don't have all the properties of built-in objects. . . .P There is no in-line chemistry yet (e.g., analogous to the .BR $ .\|.\|. $ construct of .IR eqn ). . . .P There is no way to control entry point for bonds on groups. . Normally a bond connects to the carbon atom if entering from the top or bottom and otherwise to the nearest corner. . . .P Bonds from substituted atoms on heterocycles do not join at the proper place without adding a bit of .IR pic . . . .P There is no decent primitive for brackets. . . .P Text (quoted strings) doesn't work very well. . . .P A squiggle bond is needed. . . .\" ==================================================================== .SH Files .\" ==================================================================== . .TP .I @DATASUBDIR@/\:pic/\:chem\:.pic A collection of .I pic macros needed by .IR @g@chem . . .TP .I @MACRODIR@/\:pic\:.tmac A macro file which redefines .BR .PS , .BR .PE , and .B .PF to center .I pic diagrams. . .TP .IR @DOCDIR@/\:\%examples/\:chem/\: * .chem Example files for .IR chem . . .TP .IR @DOCDIR@/\:\%examples/\:chem/\:122/\: * .chem Example files from the .I chem article by its authors, \[lq]CHEM\[em]A Program for Typesetting Chemical Structure Diagrams: User Manual\[rq] (CSTR\~#122). . . .\" ==================================================================== .SH Authors .\" ==================================================================== . The GNU version of .I chem was written by .MT groff\-bernd\:.warken\-72@\:web\:.de Bernd Warken .ME . . It is based on the documentation of Brian Kernighan's original .I awk version of .IR chem . . . .\" ==================================================================== .SH "See also" .\" ==================================================================== . \[lq]CHEM\[em]A Program for Typesetting Chemical Diagrams: User Manual\[rq] by Jon L.\& Bentley, Lynn W.\& Jelinski, and Brian W.\& Kernighan, 1992, AT&T Bell Laboratories Computing Science Technical Report No.\& 122 . . .P .MR groff @MAN1EXT@ , .MR @g@pic @MAN1EXT@ . . .\" Restore compatibility mode (for, e.g., Solaris 10/11). .cp \n[*groff_chem_1_man_C] .do rr *groff_chem_1_man_C . . .\" Local Variables: .\" fill-column: 72 .\" mode: nroff .\" End: .\" vim: set filetype=groff textwidth=72: