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Copyright © ? Stephen Gilmore
Copyright © ? Torsten Martinsen
Copyright © 1988, 1994 Free Software Foundation, Inc.
Copyright © 1994 - 1996 Torsten Martinsen
Copyright © 2002, 2003 Peter Karp, Michael Wiedmann
Copyright © 2004 - 2012 Michael Wiedmann
Revision History | |
---|---|
Revision 0.4.1 | 2012-12-03 |
Removed obsolete file still referenced in Makefile (no visible changes) | |
Revision 0.2.0 | 2003-01-11 |
License changed to GNU Free Documentation License. | |
Revision 0.0.1 | 2002-06-21 |
This version was adapted from the edition 1.6 of the LaTeX2e documentation, converted to DocBook XML using texi2db, and further edited manually. |
Table of Contents
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List of Tables
\newcommand
\newenvironment
\newtheorem
tabbing
environmenttabular
environmentLaTeX2e is a document preparation system implemented as a macro package for Donald E. Knuth's TeX typesetting program.
LaTeX was originally conceived by Leslie Lamport.
This updated LaTeX reference is by no means complete, but it's a first step towards a more complete LaTeX reference! We welcome if we'll get pointed to missing commands or even better when you make additions and further improvements and send them to the authors.
TUG (TeX User Group) and DANTE (German TeX User Group) both have excellent FAQ's which answer many questions or give great pointers to additional resources both on the internet or in books. Most if not all missing packages can also be found on the CTAN servers.
This reference is not meant to replace the package documentation or the standard literature like the LaTeX handbook and the LaTeX companion. Look there for detailed descriptions of the commands and even mostly more options and examples.
The authors intend to extend this documentation to other TeX related packages (e.g. ConTeXt, MetaPost, Metafont, etc.). Contributions are very welcome!
The following people have contributed substantial parts to this documentation project or helped in some other way (listed alphabetically):
Table of Contents
For a really excellent reference of all TeX primitive control sequences see David Bausum's TeX Primitive Control Sequences.
The original file latex2e.texi
contains the following copyright and permission notice:
“Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies.”
“Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one.”
LaTeX understands the following command line options.
The LaTeX command typesets a file of text using the TeX program and the LaTeX Macro package for TeX. To be more specific, it processes an input file containing the text of a document with interspersed commands that describe how the text should be formatted. It produces at least three files as output:
A Device Independent, or
.dvi
file. This contains commands
that can be translated into commands for a variety of output
devices. You can view the output of LaTeX by using a program such
as xdvi
, which actually uses the
.dvi
file.
A transcript or
.log
file that contains summary
information and diagnostic messages for any errors discovered in
the input file.
An auxiliary or
.aux
file. This is used by LaTeX
itself, for things such as sectioning.
For a description of what goes on inside TeX, you should consult The TeXbook by Donald E. Knuth, ISBN 0-201-13448-9, published jointly by the American Mathematical Society and Addison-Wesley Publishing Company.
For a description of LaTeX, you should consult:
LaTeX: A Document Preparation System, by Leslie Lamport, Addison-Wesley Publishing Company, 2nd edition, 1994.
The LaTeX Companion, by Michel Goossens, Frank Mittelbach, and Alexander Samarin, Addison-Wesley, 1994.
A LaTeX command begins with the command name, which consists of
a \
followed by either (a) a string of
letters or (b) a single non-letter. Arguments contained in square
brackets, []
, are optional while
arguments contained in braces, {}
, are
required.
NOTE: LaTeX is case sensitive. Enter all commands in lower case unless explicitly directed to do otherwise.
Everything LaTeX numbers for you has a counter associated with
it. The name of the counter is the same as the name of the
environment or command that produces the number, except with no
\
(enumi
- enumiv
are used for the nested
enumerate environment). Below is a list of the counters used in
LaTeX's standard document classes to control numbering.
part paragraph figure enumi chapter subparagraph table enumii section page footnote enumiii subsection equation mpfootnote enumiv subsubsection
\addtocounter
The \addtocounter
command
increments the counter
by the amount
specified by the value
argument. The
value
argument can be negative.
\alph{counter}
This command causes the value of the counter
to be printed in alphabetic characters.
The \alph
command uses lower case
alphabetic alphabetic characters, i.e., a, b,
c...
while the \Alph
command
uses upper case alphabetic characters, i.e., A, B, C...
.
\arabic{counter}
The \arabic
command causes the
value of the counter
to be printed in
Arabic numbers, i.e., 3
.
\fnsymbol{counter}
The \fnsymbol
command causes the
value of the counter
to be printed in
a specific sequence of nine symbols that can be used for numbering
footnotes.
NB. counter
must have a value
between 1 and 9 inclusive.
\newcounter{foo}[counter]
The \newcounter
command defines a
new counter named foo
. The counter is
initialized to zero.
The optional argument [counter]
causes the counter foo
to be reset
whenever the counter named in the optional argument is
incremented.
\refstepcounter{counter}
The \refstepcounter
command works
like \stepcounter
. See \stepcounter, except it
also defines the current \ref
value to
be the result of \thecounter
.
\roman{counter}
This command causes the value of the counter
to be printed in Roman numerals. The
\roman
command uses lower case Roman
numerals, i.e., i, ii, iii...
, while
the \Roman
command uses upper case
Roman numerals, i.e., I, II,
III...
.
\stepcounter{counter}
The \stepcounter
command adds one
to the counter
and resets all
subsidiary counters.
\setcounter{counter}{value}
The \setcounter
command sets the
value of the counter
to that specified
by the value
argument.
\usecounter{counter}
The \usecounter
command is used in
the second argument of the list
environment to allow the counter specified to be used to number the
list items.
\value{counter}
The \value
command produces the
value of the counter
named in the
mandatory argument. It can be used where LaTeX expects an integer
or number, such as the second argument of a \setcounter
or \addtocounter
command, or in:
\hspace{\value{foo}\parindent}
It is useful for doing arithmetic with counters.
One reason for numbering things like figures and equations is to
refer the reader to them, as in See
Figure 3 for more details. A smarter version of the
cross reference commands is available in the package varioref
.
\label{key}
A \label
command appearing in
ordinary text assigns to the key
the
number of the current sectional unit; one appearing inside a
numbered environment assigns that number to the key
.
A key
can consist of any sequence
of letters, digits, or punctuation characters. Upper and lowercase
letters are different.
To avoid accidentally creating two labels with the same name, it is common to use labels consisting of a prefix and a suffix separated by a colon. The prefixes conventionally used are
cha
for
chapterssec
for
lower-level sectioning commandsfig
for
figurestab
for
tableseq
for
equationsThus, a label for a figure would look like fig:bandersnatch
.
\pageref{key}
The \pageref
command produces the
page number of the place in the text where the corresponding
\label
command appears. ie. where
\label{key}
appears. For a smart
version see \vpageref
.
\ref{key}
The \ref
command produces the
number of the sectional unit, equation number, ... of the
corresponding \label
command. For a
smart version see \vref.
\newcommand
\newcommand{cmd}[args]{definition} \newcommand{cmd}[args][default]{definition} \renewcommand{cmd}[args]{definition} \renewcommand{cmd}[args][default]{definition}
These commands define (or redefine) a command.
Table 1.1. Options for
\newcommand
cmd | A command name beginning with a \ . For \newcommand it
must not be already defined and must not begin with \end ; for \renewcommand it must already be defined. |
args | An integer from 1 to 9 denoting the number of arguments of the command being defined. The default is for the command to have no arguments. |
def | If this optional parameter is present, it means
that the command's first argument is optional. The default value of
the optional argument is def . |
definition | The text to be substituted for every occurrence
of cmd ; a parameter of the form
#n in cmd
is replaced by the text of the nth argument when this substitution
takes place. |
\newenvironment
\newenvironment{nam}[args]{begdef}{enddef} \newenvironment{nam}[args][default]{begdef}{enddef} \renewenvironment{nam}[args]{begdef}{enddef}
These commands define or redefine an environment.
Table 1.2. Options for
\newenvironment
nam | The name of the environment. For \newenvironment there must be no currently defined
environment by that name, and the command \nam must be undefined. For \renewenvironment the environment must already be
defined. |
args | An integer from 1 to 9 denoting the number of
arguments of the newly-defined environment. The default is no
arguments. Arguments can only be used in te {begdef} part. |
default | If this is specified, the first argument is
optional, and default gives the
default value for that argument. |
begdef | The text substituted for every occurrence of
\begin{nam} ; a parameter of the form
#n in cmd
is replaced by the text of the nth argument when this substitution
takes place. |
enddef | The text substituted for every occurrence of
\end{nam} . It may not contain any
argument parameters. |
\newtheorem
\newtheorem{env_name}{caption}[within] \newtheorem{env_name}[numbered_like]{caption}
This command defines a theorem-like environment.
Table 1.3. Options for
\newtheorem
env_name | The name of the environment to be defined. A string of letters. It must not be the name of an existing environment or counter. |
caption | The text printed at the beginning of the environment, right before the number. This may simply say Theorem, for example. |
within | The name of an already defined counter, usually of a sectional unit. Provides a means of resetting the new theorem counter within the sectional unit. |
numbered_like | The name of an already defined theorem-like environment. |
The \newtheorem
command may have at
most one optional argument.
\newfont
\newfont{cmd}{font_name}
Defines the command name cmd
, which
must not be currently defined, to be a declaration that selects the
font named font_name
to be the current
font.
Valid LaTeX document classes include:
Other document classes are often available. See Overview, for details. They are selected with the following command:
\documentclass [options]
{class}
All the standard classes (except slides) accept the following
options for selecting the typeface size (10pt
is default):
10pt, 11pt, 12pt
All classes accept these options for selecting the paper size (default is letter):
a4paper, a5paper, b5paper, letterpaper, legalpaper, executivepaper
Miscellaneous options:
These options are not available with the slides class:
The slides class offers the option clock
for printing the time at the bottom of each
note.
If you specify more than one option, they must be separated by a comma.
Additional packages are loaded by a
command. If you specify more than one package, they must be separated by a comma.
Any options given in the \documentclass
command that are unknown by the
selected document class are passed on to the packages loaded with
\usepackage
.
Miscellaneous commands for controlling the general layout of the page.
\flushbottom
The \flushbottom
declaration makes
all text pages the same height, adding extra vertical space when
necessary to fill out the page.
This is the standard if twocolumn mode is selected.
\onecolumn
The \onecolumn
declaration starts a
new page and produces single-column output.
\raggedbottom
The \raggedbottom
declaration makes
all pages the height of the text on that page. No extra vertical
space is added.
\twocolumn
\twocolumn[text]
The \twocolumn
declaration starts a
new page and produces two-column output. If the optional
text
argument is present, it is
typeset in one-column mode.
LaTeX provides a number of different paragraph-making environments. Each environment begins and ends in the same manner.
\begin{environment-name} . . . \end{environment-name}
\begin{array}{col1col2...coln} column 1 entry & column 2 entry ... & column n entry \\ . . . \end{array}
Math arrays are produced with the array environment. It has a
single mandatory argument describing the number of columns and the
alignment within them. Each column, coln
, is specified by a single letter that tells
how items in that row should be formatted.
c
--- for
centeredl
--- for flush
leftr
--- for flush
rightColumn entries must be separated by an &
. Column entries may include other LaTeX
commands. Each row of the array must be terminated with the string
\\
.
Note that the array
environment can
only be used in math mode, so normally it is used inside an
equation
environment.
center
\begin{center} Text on line 1 \\ Text on line 2 \\ . . . \end{center}
The center
environment allows you
to create a paragraph consisting of lines that are centered within
the left and right margins on the current page. Each line must be
terminated with the string \\
.
\centering
This declaration corresponds to the center
environment. This declaration can be used
inside an environment such as quote
or
in a parbox
. The text of a figure or
table can be centered on the page by putting a \centering
command at the beginning of the figure
or table environment.
Unlike the center
environment, the
\centering
command does not start a
new paragraph; it simply changes how LaTeX formats paragraph units.
To affect a paragraph unit's format, the scope of the declaration
must contain the blank line or \end
command (of an environment like quote) that ends the paragraph
unit.
description
\begin{description} \item [label] First item \item [label] Second item . . . \end{description}
The description
environment is used
to make labelled lists. The label
is
bold face and flushed right.
enumerate
\begin{enumerate} \item First item \item Second item . . . \end{enumerate}
The enumerate
environment produces
a numbered list. Enumerations can be nested within one another, up
to four levels deep. They can also be nested within other
paragraph-making environments.
Each item of an enumerated list begins with an \item
command. There must be at least one
\item
command within the
environment.
The enumerate
environment uses the
enumi
through enumiv
counters (see Counters). The type of
numbering can be changed by redefining \theenumi
etc.
eqnarray
\begin{eqnarray} math formula 1 \\ math formula 2 \\ . . . \end{eqnarray}
The eqnarray
environment is used to
display a sequence of equations or inequalities. It is very much
like a three-column array
environment,
with consecutive rows separated by \\
and consecutive items within a row separated by an &
.
An equation number is placed on every line unless that line has
a \nonumber
command.
The command \lefteqn
is used for
splitting long formulas across lines. It typesets its argument in
display style flush left in a box of zero width.
equation
\begin{equation} math formula \end{equation}
The equation
environment centers
your equation on the page and places the equation number in the
right margin.
figure
\begin{figure}[placement] body of the figure \caption{figure title} \end{figure}
Figures are objects that are not part of the normal text, and are usually floated to a convenient place, like the top of a page. Figures will not be split between two pages.
The optional argument [placement]
determines where LaTeX will try to place your figure. There are
four places where LaTeX can possibly put a float:
h
(Here) - at the position in the
text where the figure environment appears.
t
(Top) - at the top of a text
page.
b
(Bottom) - at the bottom of a
text page.
p
(Page of floats) - on a separate
float page, which is a page containing no text, only floats.
The standard report and article classes use the default
placement tbp
.
The body of the figure is made up of whatever text, LaTeX
commands, etc. you wish. The \caption
command allows you to title your figure.
flushleft
\begin{flushleft} Text on line 1 \\ Text on line 2 \\ . . . \end{flushleft}
The flushleft
environment allows
you to create a paragraph consisting of lines that are flushed
left, to the left-hand margin. Each line must be terminated with
the string \\
.
\raggedright
This declaration corresponds to the flushleft
environment. This declaration can be
used inside an environment such as quote
or in a parbox
.
Unlike the flushleft
environment,
the \raggedright
command does not
start a new paragraph; it simply changes how LaTeX formats
paragraph units. To affect a paragraph unit's format, the scope of
the declaration must contain the blank line or \end
command (of an environment like quote) that
ends the paragraph unit.
flushright
\begin{flushright} Text on line 1 \\ Text on line 2 \\ . . . \end{flushright}
The flushright
environment allows
you to create a paragraph consisting of lines that are flushed
right, to the right-hand margin. Each line must be terminated with
the string \\
.
\raggedleft
This declaration corresponds to the flushright
environment. This declaration can be
used inside an environment such as quote
or in a parbox
.
Unlike the flushright
environment,
the \raggedleft
command does not start
a new paragraph; it simply changes how LaTeX formats paragraph
units. To affect a paragraph unit's format, the scope of the
declaration must contain the blank line or \end
command (of an environment like quote) that
ends the paragraph unit.
itemize
\begin{itemize} \item First item \item Second item . . . \end{itemize}
The itemize
environment produces a
bulleted list. Itemizations
can be nested within one another, up to four levels deep. They can
also be nested within other paragraph-making environments.
Each item of an itemized
list
begins with an \item
command. There
must be at least one \item
command
within the environment.
The itemize
environment uses the
itemi
through itemiv
counters (see Counters). The type of
numbering can be changed by redefining \theitemi
etc.
letter
This environment is used for creating letters. See Letters.
list
The list
environment is a generic
environment which is used for defining many of the more specific
environments. It is seldom used in documents, but often in
macros.
\begin{list}{label}{spacing} \item First item \item Second item . . . \end{list}
The {label}
argument specifies how
items should be labelled. This argument is a piece of text that is
inserted in a box to form the label. This argument can and usually
does contain other LaTeX commands.
The {spacing}
argument contains
commands to change the spacing parameters for the list. This
argument will most often be null, i.e., {}
. This will select all default spacing which
should suffice for most cases.
minipage
\begin{minipage}[position][height][inner-pos]{width} text \end{minipage}
The minipage
environment is similar
to a \parbox
command. It takes the
same optional position
argument and
mandatory width
argument. You may use
other paragraph-making environments inside a minipage.
Footnotes in a minipage
environment
are handled in a way that is particularly useful for putting
footnotes in figures or tables. A \footnote
or \footnotetext
command puts the footnote at the
bottom of the minipage instead of at the bottom of the page, and it
uses the mpfootnote
counter instead of
the ordinary footnote
counter See
Counters.
NOTE: Don't put one minipage inside another if you are using footnotes; they may wind up at the bottom of the wrong minipage.
picture
\begin{picture}(width,height)(x offset,y offset) . . picture commands . . \end{picture}
The picture
environment allows you
to create just about any kind of picture you want containing text,
lines, arrows and circles. You tell LaTeX where to put things in
the picture by specifying their coordinates. A coordinate is a
number that may have a decimal point and a minus sign --- a number
like 5
, 2.3
or -3.1416
. A
coordinate specifies a length in multiples of the unit length
\unitlength
, so if \unitlength
has been set to 1cm
, then the coordinate 2.54 specifies a length
of 2.54 centimetres. You can change the value of \unitlength
anywhere you want, using the
\setlength
command, but strange things
will happen if you try changing it inside the picture
environment.
A position is a pair of coordinates, such as (2.4,-5)
, specifying the point with x-coordinate
2.4
and y-coordinate -5
. Coordinates are specified in the usual way
with respect to an origin, which is normally at the lower-left
corner of the picture. Note that when a position appears as an
argument, it is not enclosed in braces; the parentheses serve to
delimit the argument.
The picture
environment has one
mandatory argument, which is a position
. It specifies the size of the picture.
The environment produces a rectangular box with width and height
determined by this argument's x- and y-coordinates.
The picture
environment also has an
optional position
argument, following
the size
argument, that can change the
origin. (Unlike ordinary optional arguments, this argument is not
contained in square brackets.) The optional argument gives the
coordinates of the point at the lower-left corner of the picture
(thereby determining the origin). For example, if \unitlength
has been set to 1mm
, the command
\begin{picture}(100,200)(10,20)
produces a picture of width 100 millimetres and height 200 millimetres, whose lower-left corner is the point (10,20) and whose upper-right corner is therefore the point (110,220). When you first draw a picture, you will omit the optional argument, leaving the origin at the lower-left corner. If you then want to modify your picture by shifting everything, you just add the appropriate optional argument.
The environment's mandatory argument determines the nominal size of the picture. This need bear no relation to how large the picture really is; LaTeX will happily allow you to put things outside the picture, or even off the page. The picture's nominal size is used by LaTeX in determining how much room to leave for it.
Everything that appears in a picture is drawn by the
\put
command. The command
\put (11.3,-.3){...}
puts the object specified by ...
in
the picture, with its reference point at coordinates (11.3,-.3).
The reference points for various objects will be described
below.
The \put
command creates an
LR box. You can put
anything in the text argument of the \put
command that you'd put into the argument of
an \mbox
and related commands. When
you do this, the reference point will be the lower left corner of
the box.
Picture commands:
\circle{diameter},
\circle*{diameter}
The \circle
command produces a
circle with a diameter as close to the specified one as possible.
If the *
-form of the command is used,
LaTeX draws a solid circle.
Note that only circles up to 40 pt can be drawn.
\dashbox
Draws a box with a dashed line.
\dashbox{dash_length}(width,height){...}
The \dashbox
has an extra argument
which specifies the width of each dash. A dashed box looks best
when the width
and height
are multiples of the dash_length
.
\frame{...}
The \frame
command puts a
rectangular frame around the object specified in the argument. The
reference point is the bottom left corner of the frame. No extra
space is put between the frame and the object.
\framebox(width,height)[position]{...}
The \framebox
command is exactly
the same as the \makebox
command,
except that it puts a frame around the outside of the box that it
creates.
The framebox
command produces a
rule of thickness \fboxrule
, and
leaves a space \fboxsep
between the
rule and the contents of the box.
\line(x slope,y slope){length}
The \line
command draws a line of
the specified length
and slope
.
Note that LaTeX can only draw lines with slope = x/y, where x and y have integer values from -6 through 6.
\linethickness{dimension}
Declares the thickness of horizontal and vertical lines in a
picture environment to be dimension
,
which must be a positive length. It does not affect the thickness
of slanted lines and circles, or the quarter circles drawn by
\oval
to form the corners of an
oval.
\makebox(width,height)[position]{...}
The \makebox
command for the
picture environment is similar to the normal \makebox
command except that you must specify a
width
and height
in multiples of \unitlength
.
The optional argument, [position]
,
specifies the quadrant that your text appears in. You may select up
to two of the following:
t
- Moves the
item to the top of the rectangleb
- Moves the
item to the bottoml
- Moves the
item to the leftr
- Moves the
item to the rightSee \makebox.
\multiput(x coord,y
coord)(delta x,delta y){number of copies}{object}
The \multiput
command can be used
when you are putting the same object in a regular pattern across a
picture.
\oval(width,height)[portion]
The \oval
command produces a
rectangle with rounded corners. The optional argument, [portion]
, allows you to select part of the
oval.
t
- Selects the
top portionb
- Selects the
bottom portionr
- Selects the
right portionl
- Selects the
left portionNote that the corners of the oval are made with quarter circles with a maximum radius of 20 pt, so large ovals will look more like boxes with rounded corners.
\put(x coord,y coord){ ... }
The \put
command places the item
specified by the mandatory argument at the given coordinates.
\shortstack[position]{... \\ ... \\ ...}
The \shortstack
command produces a
stack of objects. The valid positions are:
r
- Moves the
objects to the right of the stackl
- Moves the
objects to the left of the stackc
- Moves the
objects to the centre of the stack (default)\vector(x slope,y
slope){length}
The \vector
command draws a line
with an arrow of the specified length and slope. The x
and y
values must
lie between -4 and +4, inclusive.
quotation
\begin{quotation} text \end{quotation}
The margins of the quotation
environment are indented on the left and the right. The text is
justified at both margins and there is paragraph indentation.
Leaving a blank line between text produces a new paragraph.
quote
\begin{quote} text \end{quote}
The margins of the quote
environment are indented on the left and the right. The text is
justified at both margins. Leaving a blank line between text
produces a new paragraph.
tabbing
\begin{tabbing} text \= more text \= still more text \= last text \\ second row \> \> more \\ . . . \end{tabbing}
The tabbing
environment provides a
way to align text in columns. It works by setting tab stops and
tabbing to them much the way you do with an ordinary
typewriter.
It is best suited for cases where the width of each column is constant and known in advance.
This environment can be broken across pages, unlike the
tabular
environment.
The following commands can be used inside a tabbing
environment:
Table 1.4. Commands in a
tabbing
environment
This example typesets a Pascal function in a traditional format:
\begin{tabbing} function \= fact(n : integer) : integer;\\ \> begin \= \+ \\ \> if \= n $>$ 1 then \+ \\ fact := n * fact(n-1) \- \\ else \+ \\ fact := 1; \-\- \\ end;\\ \end{tabbing}
table
\begin{table}[placement] body of the table \caption{table title} \end{table}
Tables are objects that are not part of the normal text, and are usually floated to a convenient place, like the top of a page. Tables will not be split between two pages.
The optional argument [placement]
determines where LaTeX will try to place your table. There are four
places where LaTeX can possibly put a float:
h
: Here - at the
position in the text where the table environment appears.t
: Top - at the
top of a text page.b
: Bottom - at
the bottom of a text page.p
: Page of
floats - on a separate float page, which is a page containing no
text, only floats.The standard report
and
article
classes use the default
placement [tbp]
.
The body of the table is made up of whatever text, LaTeX
commands, etc., you wish. The \caption
command allows you to title your table.
tabular
\begin{tabular}[pos]{cols} column 1 entry & column 2 entry ... & column n entry \\ . . . \end{tabular}
or
\begin{tabular*}{width}[pos]{cols} column 1 entry & column 2 entry ... & column n entry \\ . . . \end{tabular*}
These environments produce a box consisting of a sequence of rows of items, aligned vertically in columns. The mandatory and optional arguments consist of:
Table 1.5. Commands used inside
a tabular
environment
width | Specifies the width of the tabular* environment. There must be rubber space
between columns that can stretch to fill out the specified
width. |
pos | Specifies the vertical position; default is
alignment on the centre of the environment.
|
cols | Specifies the column formatting. It consists of
a sequence of the following specifiers, corresponding to the
sequence of columns and intercolumn material.
|
These commands can be used inside a tabular
environment:
\cline{i-j}
The \cline
command draws horizontal
lines across the columns specified, beginning in column
i
and ending in column j
, which are identified in the mandatory
argument.
\hline
The \hline
command will draw a
horizontal line the width of the table. It's most commonly used to
draw a line at the top, bottom, and between the rows of the
table.
\multicolumn
\multicolumn{cols}{pos}{text}
The \multicolumn
is used to make an
entry that spans several columns. The first mandatory argument,
cols
, specifies the number of columns
to span. The second mandatory argument, pos
, specifies the formatting of the entry;
c
for centred, l
for flushleft, r
for flushright. The third mandatory argument, text
, specifies what text is to make up the
entry.
\vline
The \vline
command will draw a
vertical line extending the full height and depth of its row. An
\hfill
command can be used to move the
line to the edge of the column. It can also be used in an
@-expression.
thebibliography
\begin{thebibliography}{widest-label} \bibitem[label]{cite_key} . . . \end{thebibliography}
The thebibliography
environment
produces a bibliography or reference list. In the article
class, this reference list is labelled
References; in the
report
class, it is labelled
Bibliography.
widest-label
:
Text that, when printed, is approximately as wide as the widest
item label produces by the \bibitem
commands.\bibitem[label]{cite_key}
The \bibitem
command generates an
entry labelled by label
. If the
label
argument is missing, a number is
generated as the label
, using the
enumi
counter. The cite_key
is any sequence of letters, numbers, and
punctuation symbols not containing a comma. This command writes an
entry on the .aux
file containing
cite_key
and the item's label
. When this .aux
file is read by the \begin{document}
command, the item's label
is associated with cite_key
, causing the reference to cite_key
by a \cite
command to produce the associated label
.
\cite[text]{key_list}
The key_list
argument is a list of
citation keys. This command generates an in-text citation to the
references associated with the keys in key_list
by entries on the .aux
file read by the \begin{document}
command.
The optional text
argument will
appear after the citation, i.e. \cite[p.~2f.]{knuth}
might produce `[Knuth, p.
2]'.
The
package cite.sty
allows a line break
in the \cite
reference and can sort
numerical entries.
overcite.sty
makes citations like
footnotes.
\nocite{key_list}
The \nocite
command produces no
text, but writes key_list
, which is a
list of one or more citation keys, on the .aux
file. \nocite{*}
uses all entries from the BibTeX
database.
If you use the BibTeX program by Oren Patashnik (highly
recommended if you need a bibliography of more than a couple of
titles) to maintain your bibliography, you don't use the
thebibliography
environment. Instead,
you include the lines
\bibliographystyle{style} \bibliography{bibfile}
where style
refers to a file
style.bst
, which defines how your
citations will look.
Table 1.6. Standard styles distributed with BibTeX
alpha | Sorted alphabetically. Labels are formed from name of author and year of publication. |
plain | Sorted alphabetically. Labels are numeric. |
unsrt | Like plain , but
entries are in order of citation. |
abbrv | Like plain , but
more compact labels. |
In addition, numerous other BibTeX style files exist tailored to the demands of various publications.
The argument to \bibliography
refers to the file bibfile.bib
, which
should contain your database in BibTeX format. Only the entries
referred to via \cite
and \nocite
will be listed in the bibliography.
theorem
\begin{theorem} theorem text \end{theorem}
The theorem
environment produces
Theorem x in boldface
followed by your theorem text.
titlepage
\begin{titlepage} text \end{titlepage}
The titlepage
environment creates a
title page, i.e. a page with no printed page number or heading. It
also causes the following page to be numbered page one. Formatting
the title page is left to you. The \today
command comes in handy for title pages.
Note that you can use the \maketitle
(see \maketitle)
command to produce a standard title page.
verbatim
\begin{verbatim} text \end{verbatim}
The verbatim
environment is a
paragraph-making environment that gets LaTeX to print exactly what
you type in. It turns LaTeX into a typewriter with carriage returns
and blanks having the same effect that they would on a
typewriter.
\verb char literal_text char
\verb*char literal_text char
Typesets literal_text
exactly as
typed, including special characters and spaces, using a typewriter
(\tt
) type style. There may be no
space between \verb
or \verb*
and char
(space is shown here only for clarity). The *-form
differs only in that spaces are printed
verse
\begin{verse} text \end{verse}
The verse
environment is designed
for poetry, though you may find other uses for it.
The margins are indented on the left and the right. Separate the
lines of each stanza with \\
, and use
one or more blank lines to separate the stanzas.
Footnotes can be produced in one of two ways. They can be
produced with one command, the \footnote
command. They can also be produced with
two commands, the \footnotemark
and
the \footnotetext
commands. See the
specific command for information on why you would use one over the
other.
\footnote[number]{text}
The \footnote
command places the
numbered footnote text
at the bottom
of the current page. The optional argument, number
, is used to change the default footnote
number. This command can only be used in outer paragraph mode;
i.e., you cannot use it in sectioning commands like \chapter
, in figures, tables or in a tabular
environment.
\footnotemark
The \footnotemark
command puts the
footnote number
in the text. This
command can be used in inner paragraph mode. The text of the
footnote is supplied by the \footnotetext
command.
This command can be used to produce several consecutive footnote markers referring to the same footnote by using
\footnotemark[\value{footnote}]
after the first \footnote
command.
\footnotetext[number]{text}
The \footnotetext
command produces
the text
to be placed at the bottom of
the page. This command can come anywhere after the \footnotemark
command. The \footnotetext
command must appear in outer
paragraph mode.
The optional argument, number
, is
used to change the default footnote number.
A length
is a measure of distance.
Many LaTeX commands take a length as an argument.
\newlength
\newlength{\gnat}
The \newlength
command defines the
mandatory argument, \gnat
, as a
length
command with a value of
0in
. An error occurs if a \gnat
command already exists.
\setlength
\setlength{\gnat}{length}
The \setlength
command is used to
set the value of a length
command. The
length
argument can be expressed in
any terms of length LaTeX understands, i.e., inches (in
), millimetres (mm
), points (pt
),
etc.
\addtolength
\addtolength{\gnat}{length}
The \addtolength
command increments
length command by the amount
specified in the length
argument. It
can be a negative amount.
\settodepth
\settodepth{\gnat}{text}
The \settodepth
command sets the
value of a length
command equal to the
depth of the text
argument.
\settoheight
\settoheight{\gnat}{text}
The \settoheight
command sets the
value of a length
command equal to the
height of the text
argument.
\settowidth
\settowidth{\gnat}{text}
The \settowidth
command sets the
value of a length
command equal to the
width of the text
argument.
Predefined
lengths
These length parameters can be used in the arguments of the
box-making commands See Spaces & Boxes. They
specify the natural width etc. of the text in the box. \totalheight
equals \height
+ \depth
. To
make a box with the text stretched to double the natural size,
e.g., say
\makebox[2\width]{Get a
stretcher}
You can use LaTeX to typeset letters, both personal and
business. The letter
document class is
designed to make a number of letters at once, although you can make
just one if you so desire.
Your .tex
source file has the same
minimum commands as the other document classes, i.e., you must have
the following commands as a minimum:
\documentclass{letter} \begin{document} ... letters ... \end{document}
Each letter is a letter
environment, whose argument is the name and address of the
recipient. For example, you might have:
\begin{letter}{Mr. Joe Smith\\ 2345 Princess St.\\ Edinburgh, EH1 1AA} ... \end{letter}
The letter itself begins with the \opening
command. The text of the letter follows.
It is typed as ordinary LaTeX input. Commands that make no sense in
a letter, like \chapter
, do not work.
The letter closes with a \closing
command.
After the closing
, you can have
additional material. The \cc
command
produces the usual cc: ....
There's also a similar \encl
command
for a list of enclosures. With both these commands, use
\\
to separate the items.
These commands are used with the letter
class:
\address{Return address}
The return address, as it should appear on the letter and the
envelope. Separate lines of the address should be separated by
\\
commands. If you do not make an
\address
declaration, then the letter
will be formatted for copying onto your organisation's standard
letterhead. (See Overview, for details
on your local implementation). If you give an \address
declaration, then the letter will be
formatted as a personal letter.
\cc{Kate Schechter\\Rob
McKenna}
Generate a list of other persons the letter was sent to. Each name is printed on a separate line.
\closing{text}
The letter closes with a \closing
command, i.e.,
\closing{Best Regards,}
\encl{CV\\Certificates}
Generate a list of enclosed material.
\location{address}
This modifies your organisation's standard address. This only
appears if the firstpage
pagestyle is
selected.
\makelabels{number}
If you issue this command in the preamble, LaTeX will create a sheet of address labels. This sheet will be output before the letters.
\name{June Davenport}
Your name, used for printing on the envelope together with the return address.
\opening{text}
The letter begins with the \opening
command. The mandatory argument, text
,
is whatever text you wish to start your letter, i.e.,
\opening{Dear Joe,}
\ps
Use this command before a postscript.
\signature{Harvey Swick}
Your name, as it should appear at the end of the letter
underneath the space for your signature. Items that should go on
separate lines should be separated by \\
commands.
\startbreaks
Used after a \stopbreaks
command to
allow page breaks again.
\stopbreaks
Inhibit page breaks until a \startbreaks
command occurs.
\telephone{number}
This is your telephone number. This only appears if the
firstpage
pagestyle is selected.
The first thing LaTeX does when processing ordinary text is to
translate your input file into a string of glyphs and spaces. To
produce a printed document, this string must be broken into lines,
and these lines must be broken into pages. In some environments,
you do the line breaking yourself with the \\
command, but LaTeX usually does it for you.
\\[extra-space],
\\*[extra-space]
The \\
command tells LaTeX to start
a new line. It has an optional argument, extra-space
, that specifies how much extra
vertical space is to be inserted before the next line. This can be
a negative amount.
The \\*
command is the same as the
ordinary \\
command except that it
tells LaTeX not to start a new page after the line.
The \-
command tells LaTeX that it
may hyphenate the word at that point. LaTeX is very good at
hyphenating, and it will usually find all correct hyphenation
points. The \-
command is used for the
exceptional cases.
Note that when you insert \-
commands in a word, the word will only be hyphenated at those
points and not at any of the hyphenation points that LaTeX might
otherwise have chosen.
The \cleardoublepage
command ends
the current page and causes all figures and tables that have so far
appeared in the input to be printed. In a two-sided printing style,
it also makes the next page a right-hand (odd-numbered) page,
producing a blank page if necessary.
The \clearpage
command ends the
current page and causes all figures and tables that have so far
appeared in the input to be printed.
\enlargethispage{size}
\enlargethispage*{size}
Enlarge the \textheight
for the
current page by the specified amount; e.g. \enlargethispage{\baselineskip}
will allow one
additional line.
The starred form tries to squeeze the material together on the
page as much as possible. This is normally used together with an
explicit \pagebreak
.
\samepage
The object in the argument {}
should be on the current page.
\fussy
This declaration (which is the default) makes TeX more fussy about line breaking. This can avoids too much space between words, but may produce overfull boxes.
This command cancels the effect of a previous \sloppy
command. \sloppy
\hyphenation{words}
The \hyphenation
command declares
allowed hyphenation points, where words
is a list of words, separated by spaces, in
which each hyphenation point is indicated by a -
character.
\linebreak[number]
The \linebreak
command tells LaTeX
to break the current line at the point of the command. With the
optional argument, number
, you can
convert the \linebreak
command from a
demand to a request. The number must be a number from 0 to 4. The
higher the number, the more insistent the request is.
The \linebreak
command causes LaTeX
to stretch the line so it extends to the right margin.
The \newline
command breaks the
line right where it is. It can only be used in paragraph mode.
The \newpage
command ends the
current page. In contrast to \pagebreak it can produce a
partly empty page, even when \flushbottom is active.
\nolinebreak[number]
The \nolinebreak
command prevents
LaTeX from breaking the current line at the point of the command.
With the optional argument, number
,
you can convert the \nolinebreak
command from a demand to a request. The number must be a number
from 0 to 4. The higher the number, the more insistent the request
is.
\nopagebreak[number]
The \nopagebreak
command prevents
LaTeX from breaking the current page at the point of the command.
With the optional argument, number
,
you can convert the \nopagebreak
command from a demand to a request. The number must be a number
from 0 to 4. The higher the number, the more insistent the request
is.
\pagebreak[number]
The \pagebreak
command tells LaTeX
to break the current page at the point of the command. With the
optional argument, number
, you can
convert the \pagebreak
command from a
demand to a request. The number must be a number from 0 to 4. The
higher the number, the more insistent the request is.
\sloppy
This declaration makes TeX less fussy about line breaking. This can prevent overfull boxes, but may leave too much space between words.
Lasts until a \fussy
command is
issued. \fussy.
A paragraph is ended by one or more completely blank lines ---
lines not containing even a %
. A blank
line should not appear where a new paragraph cannot be started,
such as in math mode or in the argument of a sectioning
command.
\indent
This produces a horizontal space whose width equals the width of the paragraph indentation. It is used to add paragraph indentation where it would otherwise be suppressed.
\noindent
When used at the beginning of the paragraph, it suppresses the paragraph indentation. It has no effect when used in the middle of a paragraph.
Equivalent to a blank line; often used to make command or environment definitions easier to read.
The command \marginpar[left]{right}
creates a note in the margin. The first line will be at the same
height as the line in the text where the \marginpar
occurs.
When you only specify the mandatory argument right
, the text will be placed
By issuing the command \reversemarginpar
, you can force the marginal
notes to go into the opposite (inside) margin.
When you specify both arguments, left
is used for the left margin, and right
is used for the right margin.
The first word will normally not be hyphenated; you can enable
hyphenation by prefixing the first word with a \hspace{0pt}
command.
Table 1.7. Three environments that put LaTeX in math mode
math | For Formulae that appear right in the text. |
displaymath | For Formulae that appear on their own line. |
equation | The same as the displaymath environment except that it adds an equation number in the right margin. |
The math
environment can be used in
both paragraph and LR mode, but the displaymath
and equation
environments can be used only in
paragraph mode. The math
and
displaymath
environments are used so
often that they have the following short forms:
\(...\) instead of \begin{math}...\end{math} \[...\] instead of \begin{displaymath}...\end{displaymath}
In fact, the math
environment is so
common that it has an even shorter form:
$ ... $ instead of \(...\)
To get an expression exp
to appear as a subscript, you just type _{
exp}
. To
get exp to appear as a
superscript, you type ^{
exp }
.
LaTeX handles superscripted superscripts and all of that stuff in
the natural way. It even does the right thing when something has
both a subscript and a superscript.
In a math
environment, LaTeX
ignores the spaces you type and puts in the spacing that it thinks
is best. LaTeX formats mathematics the way it's done in mathematics
texts. If you want different spacing, LaTeX provides the following
four commands for use in math mode:
\;
- a thick space
\:
- a medium space
\,
- a thin space
\!
- a negative thin space
Table 1.8. Math Miscellany
When LaTeX is processing your input text, it is always in one of three modes:
LaTeX changes mode only when it goes up or down a staircase to a different level, though not all level changes produce mode changes. Mode changes occur only when entering or leaving an environment, or when LaTeX is processing the argument of certain text-producing commands.
Paragraph mode is the
most common; it's the one LaTeX is in when processing ordinary
text. In that mode, LaTeX breaks your text into lines and breaks
the lines into pages. LaTeX is in math
mode when it's generating a mathematical formula. In
LR mode, as in paragraph
mode, LaTeX considers the output that it produces to be a string of
words with spaces between them. However, unlike paragraph mode,
LaTeX keeps going from left to right; it never starts a new line in
LR mode. Even if you put a hundred words into an \mbox
, LaTeX would keep typesetting them from left
to right inside a single box, and then complain because the
resulting box was too wide to fit on the line.
LaTeX is in LR mode when it starts making a box with an
\mbox
command. You can get it to enter
a different mode inside the box - for example, you can make it
enter math mode to put a formula in the box. There are also several
text-producing commands and environments for making a box that put
LaTeX in paragraph mode. The box make by one of these commands or
environments will be called a parbox
.
When LaTeX is in paragraph mode while making a box, it is said to
be in inner paragraph mode.
Its normal paragraph mode, which it starts out in, is called
outer paragraph mode.
The \documentclass
command
determines the size and position of the page's head and foot. The
page style determines what goes in them.
\maketitle
The \maketitle
command generates a
title on a separate title page. In the article
class, \maketitle
will also switch to pagestyle
plain
. See Page Styles for
commands to change page numbering.
Information used to produce the title is obtained from the following declarations:
See Page Styles for the commands to give the information.
\author{names}
The \author
command declares the
author(s), where names
is a list of
authors separated by \and
commands.
Use \\
to separate lines within a
single author's entry -- for example, to give the author's
institution or address.
\date{text}
The \date
command declares
text to be the document's
date. With no \date
command, the
current date is used.
\thanks{text}
The \thanks
command produces a
\footnote
to the title.
\title{text}
The \title
command declares
text
to be the title. Use \\
to tell LaTeX where to start a new line in a
long title.
\pagenumbering{num_style}
Specifies the style of page numbers. Possible values of
num_style
are:
arabic
- Arabic
numeralsroman
- Lowercase
Roman numeralsRoman
- Uppercase
Roman numeralsalph
- Lowercase
lettersAlph
- Uppercase
letters\pagestyle{option}
The \pagestyle
command changes the
style from the current page on throughout the remainder of your
document.
The valid options are:
plain
- Just a
plain page number.empty
- Produces
empty heads and feet - no page numbers.headings
- Puts
running headings on each page. The document style specifies what
goes in the headings.myheadings
- You
specify what is to go in the heading with the \markboth
or the \markright
commands.\markboth{left head}{right head}
The \markboth
command is used in
conjunction with the page style myheadings
for setting both the left and the right
heading. You should note that a left-hand heading is generated by the
last \markboth
command before the end
of the page, while a right-hand
heading is generated by the first \markboth
or \markright
that comes on the page if there is one,
otherwise by the last one before the page.
\markright{right head}
The \markright
command is used in
conjunction with the page style myheadings
for setting the right heading, leaving
the left heading unchanged. You should note that a left-hand heading is generated by the
last \markboth
command before the end
of the page, while a right-hand
heading is generated by the first \markboth
or \markright
that comes on the page if there is one,
otherwise by the last one before the page.
\thispagestyle{option}
The \thispagestyle
command works in
the same manner as the \pagestyle
command except that it changes the style for the current page
only.
Sectioning commands provide the means to structure your text into units.
All sectioning commands take the same general form, i.e.,
\chapter[optional]{title}
In addition to providing the heading in the text, the mandatory argument of the sectioning command can appear in two other places:
The table of contents
The running head at the top of the page
You may not want the same thing to appear in these other two
places as appears in the text heading. To handle this situation,
the sectioning commands have an optional
argument that provides the text for these
other two purposes.
All sectioning commands have *
-forms that print a title, but do not include a number and
do not make an entry in the table of contents.
The \appendix
command changes the
way sectional units are numbered. The \appendix
command generates no text and does not
affect the numbering of parts. The normal use of this command is
something like
\chapter{The First Chapter} ... \appendix \chapter{The First Appendix}
All the predefined length parameters See Predefined lengths can be used in the arguments of the box-making commands.
The \dotfill
command produces a
rubber length that produces
dots instead of just spaces.
The \hfill
fill command produces a
rubber length which can
stretch or shrink horizontally. It will be filled with spaces.
The \hrulefill
fill command
produces a rubber length
which can stretch or shrink horizontally. It will be filled with a
horizontal rule.
\hspace{length},
\hspace*{length}
The \hspace
command adds horizontal
space. The length of the space can be expressed in any terms that
LaTeX understands, i.e., points, inches, etc. You can add negative
as well as positive space with an \hspace
command. Adding negative space is like
backspacing.
LaTeX removes horizontal space that comes at the end of a line.
If you don't want LaTeX to remove this space, include the optional
*
argument. Then the space is never
removed.
\addvspace{length}
The \addvspace
command normally
adds a vertical space of height length. However, if vertical space
has already been added to the same point in the output by a
previous \addvspace
command, then this
command will not add more space than needed to make the natural
length of the total vertical space equal to length
.
The \bigskip
command is equivalent
to \vspace{bigskipamount}
where
bigskipamount
is determined by the
document class.
The \medskip
command is equivalent
to \vspace{medskipamount}
where
medskipamount
is determined by the
document class.
\smallskip
The \smallskip
command is
equivalent to \vspace{smallskipamount}
where smallskipamount
is determined by
the document class.
The \vfill
fill command produces a
rubber length which can stretch or shrink vertically.
\vspace{length},
\vspace*{length}
The \vspace
command adds vertical
space. The length of the space can be expressed in any terms that
LaTeX understands, i.e., points, inches, etc. You can add negative
as well as positive space with an \vspace
command.
LaTeX removes vertical space that comes at the end of a page. If
you don't want LaTeX to remove this space, include the optional
*
argument. Then the space is never
removed.
\fbox{text}
The \fbox
command is exactly the
same as the \mbox
command, except that
it puts a frame around the outside of the box that it creates.
\framebox[width][position]{text}
The \framebox
command is exactly
the same as the \makebox
command,
except that it puts a frame around the outside of the box that it
creates.
The framebox command produces a rule of thickness \fboxrule
, and leaves a space \fboxsep
between the rule and the contents of the
box.
\begin{lrbox}{cmd} text
\end{lrbox}
This is the environment form of \sbox
.
The text inside the environment is saved in the box cmd
, which must have been declared with
\newsavebox
.
\makebox[width][position]{text}
The \makebox
command creates a box
just wide enough to contain the text
specified. The width of the box is specified by the optional
width
argument. The position of the
text within the box is determined by the optional position
argument.
c
--- centred
(default)l
---
flushleftr
---
flushrights
--- stretch
from left to right margin. The text must contain stretchable space
for this to work.See \makebox (picture).
\mbox{text}
The \mbox
command creates a box
just wide enough to hold the text created by its argument.
Use this command to prevent text from being split across lines.
\newsavebox{cmd}
Declares cmd
, which must be a
command name that is not already defined, to be a bin for saving
boxes.
\parbox[position][height][inner-pos]{width}{text}
A parbox
is a box whose contents
are created in paragraph
mode. The
\parbox
has two mandatory
arguments:
width
- specifies
the width of the parbox, andtext
- the text
that goes inside the parbox.LaTeX will position a parbox
so its
centre lines up with the centre of the text line. The optional
position argument allows you
to line up either the top or bottom line in the parbox (default is
top).
If the height argument is not given, the box will have the natural height of the text.
The inner-pos argument controls the placement of the text inside the box. If it is not specified, position is used.
t
--- text is
placed at the top of the box.c
--- text is
centred in the box.b
--- text is
placed at the bottom of the box.s
--- stretch
vertically. The text must contain vertically stretchable space for
this to work.A \parbox
command is used for a
parbox containing a small piece of text, with nothing fancy inside.
In particular, you shouldn't use any of the paragraph-making
environments inside a \parbox
argument. For larger pieces of text, including ones containing a
paragraph-making environment, you should use a minipage
environment See minipage.
\raisebox{distance}[extend-above][extend-below]{text}
The \raisebox
command is used to
raise or lower text. The first mandatory argument specifies how
high the text is to be raised (or lowered if it is a negative
amount). The text itself is processed in LR
mode
.
Sometimes it's useful to make LaTeX think something has a
different size than it really does - or a different size than LaTeX
would normally think it has. The \raisebox
command lets you tell LaTeX how tall it
is.
The first optional argument, extend-above
, makes LaTeX think that the text
extends above the line by the amount specified. The second optional
argument, extend-below
, makes LaTeX
think that the text extends below the line by the amount
specified.
\rule[raise-height]{width}{thickness}
The \rule
command is used to
produce horizontal lines. The arguments are defined as follows:
raise-height
-
specifies how high to raise the rule (optional)width
- specifies
the length of the rule (mandatory)thickness
-
specifies the thickness of the rule (mandatory)\savebox{cmd}[width][pos]{text}
This command typeset text
in a box
just as for \makebox
. However, instead
of printing the resulting box, it saves it in bin cmd
, which must have been declared with
\newsavebox
.
\sbox{cmd}\{text}
This commands typesets text
in a
box just as for \mbox
. However,
instead of printing the resulting box, it saves it in cmd
, which must have been declared with
\newsavebox
.
\usebox{cmd}
Prints the box most recently saved in bin cmd
by a \savebox
command.
The following characters play a special role in LaTeX and are called special printing characters, or simply special characters.
# $ % & ~ _ ^ \ { }
Whenever you put one of these special characters into your file,
you are doing something special. If you simply want the character
to be printed just as any other letter, include a \
in front of the character. For example,
\$
will produce $
in your output.
One exception to this rule is the \
itself because \\
has its own special
meaning. A \
is produced by typing
$\backslash$
in your file.
Also, \~
means `place a tilde
accent over the following letter', so you will probably want to use
\verb
instead.
In addition, you can access any character of a font once you
know its number by using the \symbol
command. For example, the character used for displaying spaces in
the \verb*
command has the code
decimal 32, so it can be typed as \symbol{32}
.
You can also specify octal numbers with '
or hexadecimal numbers with "
, so the previous example could also be written
as \symbol{'40}
or \symbol{"20}
.
The rules differ somewhat depending whether you are in text mode, math modes, or the tabbing environment.
The following accents may be placed on letters. Although
o is used in most of the
example, the accents may be placed on any letter. Accents may even
be placed above a missing
letter; for example, \~{}
produces a
tilde over a blank space.
The following commands may be used only in paragraph or LR mode:
\`{o}
produces a
grave accent, ò\'{o}
produces an
acute accent, ó\^{o}
produces a
circumflex, ô\"{o}
produces an
umlaut or dieresis, ö\H{o}
produces a
long Hungarian umlaut\~{o}
produces a
tilde, õ\c{c}
produces a
cedilla, ç\={o}
produces a
macron accent (a bar over the letter)\b{o}
produces a
bar under the letter\.{o}
produces a
dot over the letter\d{o}
produces a
dot under the letter\u{o}
produces a
breve over the letter\v{o}
produces a
v over the letter\t{oo}
produces a
tie (inverted u) over the
two lettersNote that the letters i
and j require special
treatment when they are given accents because it is often desirable
to replace the dot with the accent. For this purpose, the commands
\i
and \j
can be used to produce dotless letters.
For example,
\^{\i}
should be
used for i, circumflex, î\"{\i}
should be
used for i, umlaut, ïSeveral of the above and some similar accents can also be produced in math mode. The following commands may be used only in math mode:
\hat{o}
is
similar to the circumflex (cf. \^
)\widehat{oo}
is a
wide version of \hat over
several letters\check{o}
is a
vee or check (cf. \v
)\tilde{o}
is a
tilde (cf. \~
)\widetilde{oo}
is
a wide version of \tilde
over several
letters\acute{o}
is an
acute accent (cf. \`
)\grave{o}
is a
grave accent (cf. >\'
)\dot{o}
is a dot
over the letter (cf. \.
)\ddot{o}
is a
double dot over the letter\breve{o}
is a
breve (cf. \u
)\bar{o}
is a
macron (cf. \=
)\vec{o}
is a
vector (arrow) over the letterSome of the accent marks used in running text have other uses in the Tabbing Environment. In that case they can be created with the following command:
>\a'
for an
acute accent\a`
for a grave
accent\a=
for a macron
accentLaTeX provides commands for all sorts of arrows. The following commands are used only in math mode.
In general the command names are created from left
, right
,
up
, or down
. leftright
gives
a double headed arrow. Prefacing with long
gives a longer arrow. Capitalizing the first
letter gives a double-shanked arrow.
Examples are:
\leftarrow
\Leftarrow
\longleftarrow
\Longleftarrow
\rightarrow
\Rightarrow
\longrightarrow
\Longrightarrow
\leftrightarrow
\Leftrightarrow
\longleftrightarrow
\uparrow
\downarrow
\Uparrow
>\nearrow
points from southwest to northeast\searrow
points
from northwest to southeast\swarrow
points
from northeast to southwest\nwarrow
points
from southeast to northwestThe \stackrel
command is useful for
putting things over or under your arrow.
See also:
Some math symbols are obtained by typing the corresponding keyboard character. Examples include
+ - = < >
plus, minus, and equal sign may be used in either text or math mode, but < and > are math mode only (they produce inverted exclamation and question marks, respectively, in text mode).
The following commands may be used only in math mode:
\pm
plus or minus
sign\mp
minus or plus
sign\times
times (an
"x")\div
divided by
sign\ast
an asterisk
(centered)\star
a
five-point star (centered)\bullet
a
bullet\circ
an open
bullet\cdot
a centered
dot\leq
less than or
equal to\ll
much less
than\subset
is a
subset of\geq
greater than
or equal to\gg
much greater
than\equiv
equivalence symbol\sim
similar
to\simeq
similar or
equal to\approx
approximately equal to\neq
not equal
to\per
"perpendicular to" symbols\propto
proportional toNote that greater than
and less than are obtained
simply by entering >
and
<
.
A slash, indicating not
can be placed through a symbol (or a letter) with the \not
command. For example, not less than is
\not<
and not less than or equal to
is \not\leq
. If the slash isn't
properly positioned it can be moved by putting a math mode spacing
command between the \not
and the
symbol.
Delimiters are objects which act logically like parentheses. These can be used only in math mode.
The delimiters recognized by LaTeX include:
(
(left
parenthesis))
(right
parenthesis)[
(left
bracket)]
(right
bracket)\{
(left
brace)\}
(right
brace)|
(vertical
line)\vert
(vertical
line)\|
(double
vertical lines)\Vert
(double
vertical lines)/
(slash)\backslash
(backslash)\langle
(left
angle bracket)\rangle
(right
angle bracket)\uparrow
(uparrow)\downarrow
(down
arrow)\updownarrow
(up/down arrow)Delimiters in formulas should be big enough to fit around the formulas they delimit
(for example arround arrays). To obtain stretchable delimiters (LaTeX makes them
the appropriate size) type a \left
or
\right
command before the delimiter.
\left
and \right
commands must come in matching pairs,
although the delimiters themselves need not be the same. Thus,
\left \{ ... \right \[
produces a
legal pair. In cases where only one delimiter is desired, it is
possible to make the matching delimiter invisible by typing a period
(.
) after the command, i.e.,
\left.
or \right.
In an eqnarray environment the matching
\left
and \right
cannot be split between lines and it may be
necessary to use an invisible \right.
and \left.
to
terminate and begin parts on different lines. In this case a second
problem may arise, since the size of the delimiters will be chosen
only for the local part, so
that the size of the visible
left and right delimiters might not match. The
solution is to trick LaTeX into thinking that both parts have the
same vertical height. This can be done by placing a strut, that is
a zero-width \rule
. It can also be
accomplished with the \vphantom
command, which I have not found documented, but which appears to
work.
\vphantom{construct}
creates a
zero-width object with the height of construct
. The argument can contain things such as
\frac
or the variable size math symbols and should be
chosen according to what is in the section with the delimiter you
want to match.
\[ \left\{ \begin{array}{ccc} a & b & c \\ d & e & f \end{array} \right>\} \]
This should be displayed something like (insofar as it can be rendered in "ascii art"):
( a b c ) - - ( d e f )
Note that the \[ ... \]
set this
off as Display Math, and
that the Array Environment
is used to generate the three centered columns inside the
braces.
\[ f(x) = \left\{ \begin{array}{l} 0, x < 0 \\ 1, x = 0 \\ 2, x > 0 \end{array} \right. \]
will be displayed as
( 0, x < 0 f(x) = - 1, x = 0 ( 2, x > 0
Note that the invisible
\right
delimiter is specified using a
period.
Ellipses (three dots) can be produced by the following commands
\ldots
horizontally at bottom of line\cdots
horizontally center of line (math mode only)\ddots
diagonal
(math mode only)\vdots
vertical
(math mode only)These commands may be used only in math mode:
\alpha
\beta
\gamma
\delta
\epsilon
\varepsilon
(variation, script-like)\zeta
\eta
\theta
\vartheta
(variation, script-like)\iota
\kappa
\lambda
\mu
\nu
\xi
\pi
\varpi
(variation)\rho
\varrho
(variation, with the tail)\sigma
\varsigma
(variation, script-like)\tau
\upsilon
\phi
\varphi
(variation, script-like)\chi
\psi
\omega
Capital letters:
\Gamma
\Delta
\Theta
\Lambda
\Xi
\Pi
\Sigma
\Upsilon
\Phi
\Psi
\Omega
See also:
The following symbols are also used only in math mode
\aleph
Hebrew aleph\hbar
h-bar, Planck's constant\imath
variation on i; no dot\jmath
variation on j; no dot\ell
script
(loop) l\wp
fancy
script lowercase P\Re
script
capital R (Real)\Im
script
capital I (Imaginary)\prime
prime (also obtained by typing '
)\nabla
inverted capital Delta\surd
radical (square root) symbol\angle
angle symbol\forall
for all (inverted A)\exists
exists (left-facing E)\partial
partial derivative symbol\infty
infinity symbol\triangle
open triangle symbol\Box
open
square\Diamond
open diamond\flat
music: flat symbol\natural
music: natural symbol\clubsuit
playing cards: club suit symbol\diamondsuit
playing cards: diamond suit
symbol\heartsuit
playing cards: heart suit symbol\spadesuit
playing cards: space suit symbolThe following symbols can be used in any mode:
Twenty-six calligraphic letters are provided (the upper case alphabet). These can only be used in math mode.
In LaTeX 2.09 they are produced with the \cal
declaration:
${\cal A}$
In LaTeX2e they are obtained with the \mathcal
command:
$\mathcal{CAL}$
Functions like log or cos are normally used in math mode. However, inmath mode strings of letters are treated as a product of variables, which would normally be displayed in math italics rather than a text font which would be appropriate for these functions. To get proper display of such functions they are generated with LaTeX commands.
Some of these commands are:
Two commands are provided for the "modulus" function
The former would be used to write "a mod b" as a \bmod b
and the latter, which requires an
argument that is displayed in parentheses, would be used to write
"n = i (mod j)" as n = i \pmod{j}
The size of some mathematical symbols, notably summation signs,
product signs, and integral signs, depends on the environment in
which they appear (i.e., displaymath
as opposed to math
environments.
These include:
\sum
a
summation sign (capital sigma)\prod
a
product (capital pi)\coprod
a
coproduct (inverted capital pi)\int
an
integral sign\oint
a
surface (circular) integral sign\bigcup
big "U"\bigcap
big inverted "U"\bigvee
big "V"\bigwedge
big inverted "V"\bigodot
big "O" with dot at center\bigotimes
big "O" with cross inside\bigoplus
big "O" with a + inside\biguplus
big "U" with a + insideThe \sqrt
command also produces a
variable size symbol appropriate for the size of hte radicand
argument.
The "limits" associated with these symbols are entered as subscripts for entries appearing below the symbol and as superscripts for entries appearing above the symbol. For example the sum from n=0 to infinity of xn would be entered as
\sum_{n=0}^{\infty} x_{n}
The actual placement of the limits depends on whether this is in
displaymath
mode in which case they
are placed below/above or in math mode in running text in which case
they are placed as regular subscripts and superscripts.
Note that it is possible to treat several of these symbols (a
common example would be a double sum) as a single symbol for
placing limits above and/or below by using the \mathop
command.
Hats and tildes over symbols which stretch (as
best they can) to the correct size for their arguments are produced
by \widehat
and \widetilde
A large document requires a lot of input. Rather than putting the whole input in a single large file, it's more efficient to split it into several smaller ones. Regardless of how many separate files you use, there is one that is the root file; it is the one whose name you type when you run LaTeX.
\include{file}
The \include
command is used in
conjunction with the \includeonly
command for selective inclusion of files. The file
argument is the first name of a file,
denoting file.tex
. If file
is one the file names in the file list of the
\includeonly
command or if there is no
\includeonly
command, the \include
command is equivalent to
\clearpage \input{file} \clearpage
except that if the file file.tex
does not exist, then a warning message rather than an error is
produced. If the file is not in the file list, the \include
command is equivalent to \clearpage
.
The \include
command may not appear
in the preamble or in a file read by another \include
command.
\includeonly{
file_list}
The \includeonly
command controls
which files will be read in by an \include
command. file_list should be a comma-separated
list of filenames. Each filename must match exactly a filename
specified in a \include
command. This
command can only appear in the preamble.
\input{file}
The \input
command causes the
indicated file
to be read and
processed, exactly as if its contents had been inserted in the
current file at that point. The file name may be a complete file
name with extension or just a first name, in which case the file
file.tex
is used.
Your input file must contain the following commands as a minimum:
\documentclass{class} \begin{document} ... your text goes here ... \end{document}
where the class
selected is one of
the valid classes for LaTeX. See Document
Classes (and see Overview), for details
of the various document classes available locally.
You may include other LaTeX commands between the \documentclass
and the \begin{document}
commands (i.e., in the
`preamble').
A table of contents is produced with the \tableofcontents
command. You put the command
right where you want the table of contents to go; LaTeX does the
rest for you. It produces a heading, but it does not automatically
start a new page. If you want a new page after the table of
contents, include a \newpage
command
after the \tableofcontents
command.
There are similar commands \listoffigures
and \listoftables
for producing a list of figures and a list
of tables, respectively. Everything works exactly the same as for
the table of contents.
NOTE: If you want any of these items to be generated, you cannot
have the \nofiles
command in your
document.
\addcontentsline{file}{sec_unit}{entry}
The \addcontentsline
command adds
an entry to the specified list or table where:
file
is the
extension of the file on which information is to be written:
toc
(table of contents), lof
(list of figures), or lot
(list of tables).sec_unit
controls
the formatting of the entry. It should be one of the following,
depending upon the value of the file argument:
toc
--- the name
of the sectional unit, such as part or subsection.lof
---
figurelot
---
tableentry
is the text
of the entry.\addtocontents{file}{text}
The \addtocontents
command adds
text (or formatting commands) directly to the file that generates
the table of contents or list of figures or tables.
file
is the
extension of the file on which information is to be written:
toc
(table of contents), lof
(list of figures), or lot
(list of tables).text
is the
information to be written.\typein[cmd]{msg}
Prints msg
on the terminal and
causes LaTeX to stop and wait for you to type a line of input,
ending with return. If the cmd
argument is missing, the typed input is processed as if it had been
included in the input file in place of the \typein
command. If the cmd
argument is present, it must be a command
name. This command name is then defined or redefined to be the
typed input.
\typeout{msg}
Prints msg
on the terminal and in
the log
file. Commands in msg
that are defined with \newcommand
or \renewcommand
are replaced by their definitions
before being printed.
LaTeX's usual rules for treating multiple spaces as a single
space and ignoring spaces after a command name apply to
msg
. A \space
command in msg
causes a single space to be printed. A ^^J
in msg
prints a
newline.
The typeface
is specified by giving
the size and style. A typeface is also called a
font.
The following type style commands are supported by LaTeX.
These commands are used like \textit{italics text}
. The corresponding command
in parenthesis is the declaration
form, which takes no arguments. The scope of the
declaration form lasts until the next type style command or the end
of the current group.
The declaration forms are cumulative; i.e., you can say
\sffamily\bfseries
to get sans serif
boldface.
You can also use the environment form of the declaration forms;
e.g. \begin{ttfamily}...\end{ttfamily}
.
Table 1.9. Typefaces
\textrm (\rmfamily) | Roman. |
\textit (\itshape) , \emph | Emphasis (toggles between \textit and \textrm). |
\textmd (\mdseries) | Medium weight (default). The opposite of boldface. |
\textbf (\bfseries) | Boldface. |
\textup (\upshape) | Upright (default). The opposite of slanted. |
\textsl (\slshape) | Slanted. |
\textsf (\sffamily) | Sans serif. |
\textsc (\scshape) | Small caps. |
\texttt (\ttfamily) | Typewriter. |
\textnormal (\normalfont) | Main document font. |
\mathrm | Roman, for use in math mode. |
\mathbf | Boldface, for use in math mode. For bold
symbols or complete equations take a look at \boldsymbol
and \bm . |
\mathsf | Sans serif, for use in math mode. |
\mathtt | Typewriter, for use in math mode. |
\mathit | Italics, for use in math mode, e.g. variable names with several letters. |
\mathnormal | For use in math mode, e.g. inside another type style declaration. |
\mathcal | `Calligraphic' letters, for use in math mode. |
In addition, the command \mathversion{bold}
can be used for switching to
bold letters and symbols in formulas. \mathversion{normal}
restores the default.
The following standard type size commands are supported by LaTeX.
The commands as listed here are "declaration forms". The scope of the declaration form lasts until the next type style command or the end of the current group.
You can also use the environment form of these commands; e.g.
\begin{tiny}...\end{tiny}
.
These commands are primarily intended for writers of macros and packages. The commands listed here are only a subset of the available ones. For full details, you should consult Chapter 7 of The LaTeX Companion.
Table 1.11. Low-level font commands
The input file specification indicates the file to be formatted;
TeX uses .tex
as a default file
extension. If you omit the input file entirely, TeX accepts input
from the terminal. You specify command options by supplying a
string as a parameter to the command; e.g.
latex \scrollmode\input foo.tex
will process foo.tex
without
pausing after every error.
Output files are always created in the current directory. When
you fail to specify an input file name, TeX bases the output names
on the file specification associated with the logical name
TEX_OUTPUT, typically texput.log
.
amsmath
consists of several
packages to aid in typesetting math.
\boldsymbol
Produces a bold math symbol. When not only a single symbol, but
a complete equation has to be bold you might consider using the
superior \bm
command which takes better care of
spacing.
\pmb
Can be used for mathematic symbols, when no bold version is available. It prints the standard symbol several times slightly shifted and is inferior to a real bold font!
\usepackage{dcolumn}
Defines a system for defining columns of entries in an
array
or tabular
which are to be aligned on a decimal point.
This package defines D
to be a
column specifier with three arguments:
D{sep.tex}{sep.dvi}{decimal places}
sep.tex
should be a single
character, this is used as the separator in the .tex
file. It will usually be '.
' or ',
'.
sep.dvi
is used as the separator in
the output.
decimal places
should be the
maximum number of decimal places in the column.
\newcolumntype
can be used to
define own column types.
The contents of this section was taken from the documentation of
float
v1.3d of 2001/11/08.
“This style option improves the interface for defining objects such as figures and tabels in LaTeX. It adds the notion of a float style that governs the appearance of floats.”
\newfloat{<placement>}{<ext>}[<within>]
Add a new class of floats.
\floatstyle{<style>}
Sets a default float style.
\floatname{<style>}{<name>}
Define the float name used in the caption of a float.
\floatplacement{<>}{<placement>}
Resets the default placement specifier of a class of floats.
\restylefloat<style>
Change styles for the standard float types figure
and table
.
\listof{<type>}{<title>}
Produces a list of all floats of a given class.
Das german
Paket muß geladen
sein:
"a
erzeugt ein ä
entsprechend "o
, "u
, "A
, "O
, "U
, "s (ß)
"ck
wird bei Trennung zu k-k
"ff
wird bei Trennung zu ff-f
entsprechend "ll
, "mm
, "pp
,
"rr
, "tt
\glqq
oder "`
erzeugt untere doppelte
Anführungszeichen
\grqq
oder "'
erzeugt obere doppelte
Anführungszeichen
\glq
erzeugt untere einfache Anführungszeichen
\flqq
oder "<
doppelte linke
französische Anführungszeichen
\frqq
oder ">
doppelte rechte
französische Anführungszeichen
\flq
einfache linke französische Anführungszeichen
\frq
einfache rechte französische Anführungszeichen
"|
verhindert eine Ligatur an der Stelle
\-
markiert mögliche Trennstelle, im restlichen Wort ist keine Trennung mehr möglich
"-
Trennvorschlag, der Rest des Wortes kann noch automatisch getrennt werden
""
Trennvorschlag, bei dem bei einer Trennung kein Bindestrich eingefügt wird
"~
Bindestrich, an dem nicht getrennt werden darf
"=
Bindestrich, an dem getrennt werden darf
\dq
erzeugt ein nicht-typographisches gerades Anführungszeichen
\texttt{\dq}
<
oder \dq
ergibt das
Zoll-Zeichen
Look up details in grfguide
.
\includegraphics[]{picture-name}
File extensions of the graphics should be omitted, so it's easier to change the format (for example for pdf or ps output).
\graphicspath{dir-list}
dir-list
is a list of absolute or
relative paths, where the command \includegraphics{}
searches for the graphic
files:
\graphicspath{{eps/}{tiff/}}
would
cause the system to look in the subdirectories eps
and tiff
of the
current directory. This is unix syntax, on a Mac it would be:
\graphicspath{{:eps:}{:tiff:}}
Under Windows/DOS use also the slash /
to separate directories. Not all tex
installations can handle filenames with spaces. So it's better to
avoid them.
For more infos read in the book LaTeX Web Companion or Mit LaTeX ins Web.
use Acrobat 4 features (default: false
).
use the specified paper size.
set color of anchors (default: black
).
do bibliographical back references (default: false
).
set base URL for document (default: empty
).
make bookmarks (default: true
).
put section numbers in bookmarks (default: false
).
open up bookmark tree (default: false
).
level to which bookmarks are open (default: \maxdimen
).
to specify which `toc' file to mimic toc.
allow links to break over lines (default: false
).
color of border around cites (default: 0 1
0
).
color of citation links (default: green
).
color links (default: false
).
provide details of anchors defined (same as verbose, default:
false
).
do not do any hyper linking (default: false
).
use the specified backend.
suffix of linked files (default: dvi
).
color of border around file links (default: 0 .5 .5
).
color of file links (default: cyan
).
use small caps instead of color for links (default: false
).
make figures hyper links (default: false
).
set up hyperlinked indices (default: true
).
use guessable names for links (default: true
).
redefine LaTeX internals (default: true
).
color of border around links (default: 1 0
0
).
color of links (default: red
).
make page number, not text, be link on TOC, LOF and LOT
(default: false
).
color of border around menu links (default: 1 0 0
).
color for menu links (default: red
).
use LaTeX-computed names for links (default: false
).
allow nesting of links (default: false
).
put an anchor on every page (default: true
).
backreference by page number (default: false
).
color of border around page links (default: 1 1 0
).
color of page links (default: red
).
text for PDF Author field (default: empty).
width of PDF link border (default: 0 0
1
; 0 0 0
for colorlinks
)
position the document window center of the screen (default:
false
).
text for PDF Creator field (default: LaTeX with hyperref package).
resize document window to fit document size (default:
false
).
set highlighting of PDF links (default: /I
).
text for PDF Keywords field (default: empty).
make PDF viewer's menu bar visible (default: true
).
make links that open another PDF file start a new window
(default: false
).
set layout of PDF pages (default: empty).
set default mode of PDF display (default: empty).
set crop size of PDF document (default: empty).
set PDF page transition style (default: empty).
text for PDF Producer field (default: empty).
page at which PDF document opens (default: 1
).
starting view of PDF document (default: /Fit
).
text for PDF Subject field (default: empty).
text for PDF Title field(default: empty).
make PDF toolbar visible (default: true
).
PDF `view' when on link traversal (default: empty).
make PDF user interface elements visible (default: true
).
do page number anchors as plain arabic (default: true
).
raise up links (for HyperTeX backend; default: false
).
color of border around run links (default: 0 .7 .7
).
Unicode encoded pdf strings (default: true
).
color of border around URL links (default: 0 1 1
).
color of URL links (default: magenta
).
be chatty (default: false
).
\texorpdfstring{TeX-string}{pdf-string}
allows different texts for PDF or TeX creation.
\section{The role of \texorpdfstring{H$_2$O}{water}}
\href{URL}{Text}
the text will be resolved into a URL. The URL must be complete,
according to a base-url which might be defined in a \hyperbaseurl
.
\href{http://www.karpfenteich.net/pit/}{Peter's input tips}
\hyperbaseurl{URL}
defines a base URL, which is preset to a given URL. This helps to make portable documents.
\hyperimage{image-URL}
includes the picture of the URL reference.
\hyperref{URL}{category}{name}{text}
,
\hyperref[mark]{text}
text
is activated as a hyperlink to
the point which is defined with a \label
command with the symbolic name
mark
.
\hyperlink{name}{text}
, \hyertarget{name}{text}
\hyperlink
creates an internal link
to an object which is somewhere defined with a \hypertarget
command.
For HTML the command \hyperlink
inserts a #
character in front of each
link. Thus it'll refer to the topical document, while \href
will expect a complete URL.
\autoref{marker}
\autoref
is a substitution for the
standard \ref
command. It inserts a
context sensitive phrase.
see \autoref{foo}
for a \label
in a section will
output see section 3 for an
example.
There are macros to change the default output with the help of
the \renewcommand
:
\figurename *\figurename* \tablename *\tablename* \partname *\partname* \appendixname *\appendixname* \equationname *\equationname* \Itemname *\Itemname* \chaptername *\chaptername* \sectionname *\sectionname* \subsectionname *\subsesctionname* \subsubsectionname *\subsubsectionname* \paragraphname *\paragraphname* \Hfootnotename *\Hfootnotename* \AMSname *\AMSname* \theoremname *\theoremname*
\nolinkurl
Allows line breaks in a verbatim like environment like
\url
, but without the hyperlink
function. This is useful to define own commands like this
example:
\newcommand*{\urlw}[1]{\href{http://www.#1}% {\nolinkurl{www.#1}}}
This new defined command \urlw
allows the user to typeset a linkable (this function is offered by
\href
) www.example.org
address in the latex source like
this:
\urlw{example.org}
This will produce the string www.example.org
which is hyperlinked and breakable
(when the driver like pdfTeX allows line breaks in links).
\usepackage[encoding
name]{inputenc}
Allows to specify an input encoding for direct input of character codes > 127, e.g. accented characters.
Important encodings are:
The KOMA-Script
package has a very
detailed and well written documentation. Read the scrguide
for further information! :-)
will determine if headers and footers are used in the calculation of the page size. Default is exclude. Include will make the text area smaller.
is a factor which determins how large the used page size is. This method takes care of good typography.
Try values between 10 and 15. Higher values will cause smaller
margins. An example would be: DIV12
.
Binding correction. Takes care of the loss of the visible paper size when the paper is cut and a book is bound.
This reference is based on the excellent scrguien.pdf
from 2002-09-06.
\KOMAoptions{options
list}
paper=format
BCOR=length
, DIV=value
, headlines=count
enlargefirstpage
twoside
cleardoublepage=style
Inserted pages by \cleardoublepage
get one of these page styles:
empty
plain
standard
headsepline
, footsepline
mpinclude
, mpexclude
typearea
package should not be used with scrlttr2
.pagenumber=position
This option defines if and where a page number will be placed. Possible values are:
bot
,
foot
botcenter
, botcentered
, botmiddle
, footcenter
, footcentered
,
footmiddle
botleft
,
footleft
botrigth
, footright
center
,
centered
,
middle
false
,
no
,
off
head
,
top
headcenter
, headcentered
, headmiddle
, topcenter
, topcentered
,
topmiddle
headleft
, topleft
headright
, topright
left
right
Default is botcenter
parskip=value
Mark paragraphs alternatively by vertical skip. Possible values are:
false
,
off
full
,
on
,
true
full*
full+
full-
half
half*
half+
half-
Default is false
.
fontsize=size
12pt
.fromalign
Defines the placement of the from address in the letterhead. Possible values are:
center
,
centered
,
middle
false
,
no
,
off
left
rigth
Default is left
fromrule
Allows to place a horizontal rule within return address. Possible values are:
afteraddress
, below
, true
, yes
aftername
false
,
no
,
off
Default is false
.
fromphone
fromfax
fromemail
fromurl
fromlogo
addrfield
backaddress
subject
Choose of your subject should have a title and if the subject should be set before or after the opening. Possible values are:
afteropening
beforeopening
titled
untitled
Defaults are beforeopening
and untitled
.
locfield
Toggle between presets for the field width of additionbal sender attributes.
narrow
wide
Default is narrow
.
foldmarks
numericaldate
refline
draft
\LoadLetterOption{name}
Load a lco
file.
name
is the filename without
suffix.
Predefined lco
files:
DIN
DINmtext
KOMAold
scrlettr
class.SN
SNleft
\LetterOptionNeedsPaperSize{option name}{paper
size}
lco
file is based on.See also the section for Changing Fonts in KOMA-Script (still to be written).
backaddress
descriptionlabel
description
environmentfromaddress
fromname
fromaddress
pagefoot
pagehead
pagenumber
subject
title
See also the section for Page Style in KOMA-Script (still to be written).
empty
plain
headings
myheadings
The main difference between a command and a variable is that a command usually triggers an action whereas a variable only consists of plain text. Furthermore a variable can have an additional description.
\newkomavar[description]{name}
,
\newkomavar*[description]{name}
,
\addtoreffields{name}
\newkomavar
defines
a new variable, addressed with name
.
The command \addtoreffields
adds the variable name
to the reference fields. See section
Business Line.
The command \newkomavar*
works like \newkomavar
with an additional call of the command
\addtoreffields
.
Overview of all variables:
backaddress
Back address for window envelopes
backaddressseparator
Separator within the back address
ccseparator
Separator between title of additional recipients and additional recipients
customer
Customer number
date
Date
emailseparator
Separator between e-mail name and e-mail address
enclseparator
Separator between title of enclosure and and enclosures
faxseparator
Separator between title of fax and fax number
fromaddress
Sender's address without its name
frombank
Sender's bank account
fromemail
Sender's e-mail
fromfax
Sender's fax number
fromlogo
Commands for inserting the sender's logo
fromname
Complete name of the sender
fromphone
Sender's telephone number
fromurl
URL of the sender
invoice
Invoice number
location
More details of the sender
myref
Sender's reference
place
Place
placeseparator
Separator between place and date
phoneseparator
Separator between title of telephone and telephone number
signature
Signature beneath the ending of the letter
specialmail
Special mail
subject
Subject
subjectseparator
Separator between title of subject and subject
title
Letter title
toname
Complete name of recipient
toaddress
Address of recipient without its name
yourmail
Date of recipient's mail
yourref
Recipient's reference
\@newplength{name}
\useplength{name}
name
\setlengthtoplength[factor]{length}{pseudo length}
, \addtolengthplength[factor]{length}{pseudo
length}
pseudo length
to a real length
. Adds a multiple of
pseudo length
to length
.\@setplength[factor]{pseudo length}{value}
, \@addtoplength[factor]{pseudo
length}{value}
value
to a
pseudo length
. Adds value
to pseudo
length
.firstheadvpos
firstheadwidth
fromname
, fromaddress
, fromphone
, fromfax
, fromemail
, fromurl
, fromlogo
phoneseparator
, faxseparator
,
emailseparator
, urlseparator
\firsthead{construction}
firstfootvpos
firstfootwidth
\firstfoot{Construction}
toaddrvpos
, toaddrhpos
toaddrwidth
toaddrindent
backaddress
, backaddressseparator
,
backaddrheight
backaddressseparator
. Height of the
return address field.specialmail
, specialmailindent
,
specialmailrightindent
specialmailindent
and specialmailrightindent
determine left and right
indentation.toname
,
toaddress
\begin{letter}[options]{address}
\AtBeginLetter{command}
locwidth
location
refvpos
refwidth
refaftervskip
place
,
placeseparator
place
and placeseparator
will be set, followed by content of
date
.yourref
,
yourmail
,
myref
,
customer
,
invoice
,
date
title
subject
,
subjectseparator
tfoldmarkvpos
, bfoldmarkvpos
foldmarkhpos
frombank
\nexthead{construction}
, \nextfoot{construction}
\opening{opening}
See section Footnotes in KOMA-Script (still to be written).
See section Lists in KOMA-Script (still to be written).
See section Margin Notes in KOMA-Script (still to be written).
See section Logical Markup of Text in KOMA-Script (still to be written).
signature
\usekomavar{fromname}
.\closing{closing
phrase}
signature
.sigindent
, sigbeforevskip
, \raggedsignature
\ps
\cc{distribution
list}
, ccseparator
ccseparator
isn't empty then the name and the
content of the variable is inserted prior to distribution
list.\encl{enclosures}
, enclseparator
\captionenglish
, \captionUSenglish
,
\captionamerican
, \captionbritish
,
\captionUKenglish
, \captiongerman
,
\captionngerman
, \captionaustrian
,
\captionfrench
, \captionitalian
,
\captionspanish
, \captiondutch
,
\captioncroatian
\dateenglish
, \dateUSenglish
,
\dateamerican
, \datebritish
,
\dateUKenglish
, \dategerman
,
\datengerman
, \dateaustrian
,
\datefrench
,
\dateitalian
, \datespanish
,
\datedutch
,
\datecrotian
\yourrefname
, \youremailname
,
\myrefname
,
\customername
, \invoicename
,
\subjectname
, \ccname
, \enclname
, \headtoname
,
\headfromname
, \datename
, \pagename
, \phonename
, \faxname
, \emailname
, \wwwname
, \bankname
\providecaptioname{language}{term}{definition}
,
\newcaptioname{language}{term}{defintion}
,
\renewcaptionname{language}{term}{definition}
\adrentry{Lastname}{Firstname}{Address}{Telephone}{F1}{F2}{Comment}{Key}
.adr
!\addrentry{Lastname}{Firstname}{Address}{Telephone}{F1}{F2}{F3}{F4}{Key}
\adrchar{initial
letter}
, \addrchar{initial letter}
scrlttr2
.\InputAddressFile{file
name}
Read the contents of the given address file.
Filename extension has to be .adr
and
has to be omitted in the argument.
\Name{Key}
, \FirstName{Key}
, \LastName{Key}
,
\Address{Key}
, \Telephone{Key}
,
\FreeI{Key}
,
\FreeII{Key}
, \Comment{Key}
,
\FreeIII{Key}
, \FreeIV{Key}
Access to the data in address file. \Name
is a concatenation of \FirstName
and \LastName
.
AdrFreeIVempty
, AdrFreeIVshow
,
AdrFreeIVwarn
, AdrFreeIVstop
AdrFreeIVshow
.Math fonts for the use with the Palatino font.
Math fonts for the use with the Palatino font.
Package options are:
[slantedGreek]
Uppercase Greek will be typeset slanted.
[noBBpl]
Do not use PazoMathBlackboardBold as (partial) blackboard bold
font (e.g with \mathbb{R}
).
[osf]
Make the font family pplj
(Palatino
with old style numerals) the default roman font, and use an
alternative version of the virtual math italic fonts (zplmrj7m
and zplmbj7m
) with upright Palatino old style numerals
for use with the \oldstylenums
command.
[osfeqnnum]
Use old style numerals for equation numbering.
Smarter version of the original latex2e cross reference commands. Generated strings are customizable, Babel options are recognized (further info in the package documentation).
\vref
,
\vpageref
\vref
is similar to \ref
but adds an additional page reference, like
on the facing page or
on page 27 whenever the
corresponding \label
is not on the same page.
\vpageref
is a variation of
\pageref
with similar
functionality.
\vrefrange
, \vpagerefrange
The \v...range
commands take two
labels as arguments and produce strings which depend on wether or
not these labels fall onto a single page or on different pages.
\vref*
,
\vpageref*
,
\vpagerefrange*
Star * variants do not add any space before the generated text for situations like:
(\vref{foo} ...)
Must be loaded with the usual \usepackage
command. Further info for a package to be found in the
documentation (dvi, pdf, ps) or in the sty
-file itself.
Bold math symbols or equations with better spacing then the
\boldsymbold
command. If possible
load after other packages which redefine the fonts. When no bold
font is available for a certain char bm
will use poor man's
bold \pmb
.
Defines line breakable hyperlinked (uses hyperref package) verbatim input for urls and e-mail addresses.
Example: \url{http://example.org}
outputs http://example.org
.
Related commands are \href
and \nolinkurl
.
The idea behind the PSTricks package of Timothy van Zandt is to provide most of the PostScript language in LaTeX and TeX syntax.
\newgray{color}{num}
, \newrgbcolor{color}{num1 num2
num3}
, \newhsbcolor{color}{num1 num2 num3}
,
\newcmykcolor{color}{num1
num2 num3 num4}
Note that these commands are obsolete for LaTeX. Load PSTricks
with \usepackage{pstcol}
and use the
standard LaTeX color commands instead.
linestyle=style
Default: solid
dash=dim1
dim2
Default: 5pt
3pt
dotsep=dim
Default: 3pt
border=dim
Default: 0pt
bordercolor=color
Default: white
doubleline=true/false
Default: false
doublesep=dim
Default: 1.25\pslinewidth
doublecolor=color
Default: white
shadow=true/false
Default: false
shadowsize=dim
Default: 3pt
shadowangle=angle
Default: -45
shadowcolor=color
Default: darkgray
dimen=outer/inner/middle
Default: outer
arrows=style
Default: -
Arrows: -, <->,
>-<, <<->>, >>-<<, |-|, |*-|*, [-],
(-), o-o, *-*, oo-oo, **-**, c-c, cc-cc, C-C
arrowsize=dim
num
Default: 2pt 3
arrowlength=num
Default: 1.4
arrowinset=num
Default: .4
tbarsize=dim
num
Default: 2pt 5
bracketlength=num,
rbracketlength=num
Default: .15
dotsize=dim
num
Default: .5pt
2.5
arrowscale=num1
num2
Default: 1
\psaxes*[par]{arrows}(x0,y0)(x1,y1)(x2,y2)
Horizontal | Vertical | Dflt | Description |
Ox=num | Oy=num | 0 | Label at origin. |
Dx=num | Dy=num | 1 | Label increment. |
dx=dim | oy=dim | 0pt | Dist btwn labels. |
labels=all/x/y/none
Default: all
showorigin=true/false
Default: true
ticks=all/x/y/none
Default: all
tickstyle=full/top/bottom
Default: full
ticksize=dim
Default: 3pt
\psxlabel,
\psylabel
axesstyle=axes/frame/none
Default: axes
nodesep=dim
Default: 0
offset=dim
Default: 0
arm=dim
Default: 10pt
angle=angle
Default: 0
arcangle=angle
Default: 8
ncurv=num
Default: .67
loopsize=dim
Default: 1cm
\ncline*[par]{arrows}{nodeA}{nodeB}
\ncLine*[par]{arrows}{nodeA}{nodeB}
\nccurve*[par]{arrows}{nodeA}{nodeB}
\ncarc*[par]{arrows}{nodeA}{nodeB}
\ncbar*[par]{arrows}{nodeA}{nodeB}
\ncdiag*[par]{arrows}{nodeA}{nodeB}
\ncdiagg*[par]{arrows}{nodeA}{nodeB}
\ncangle*[par]{arrows}{nodeA}{nodeB}
\ncangles*[par]{arrows}{nodeA}{nodeB}
\ncloop*[par]{arrows}{nodeA}{nodeB}
\nccircle*[par]{arrows}{node}{radius}
\pcline*[par]{arrows}(x1,y1)(x2,y2)
\pccurve*[par]{arrows}(x1,y1)(x2,y2)
\pcarc*[par]{arrows}(x1,y1)(x2,y2)
\pcbar*[par]{arrows}(x1,y1)(x2,y2)
\pcdiag*[par]{arrows}(x1,y1)(x2,y2)
\pcangle*[par]{arrows}(x1,y1)(x2,y2)
\pcloop*[par]{arrows}(x1,y1)(x2,y2)
\pscoil*[par]{arrows}(x0,y0)(x1,y1)
\psCoil*[par]{angle1}{angle2}
\pszigzag*[par]{arrows}(x0,y0)(x1,y1)
coilwidth=dim
Default: 1cm
coilheight=num
Default: 1
coilarm=dim
Default: .5cm
coilaspect=angle
Default: 45
coilinc=angle
Default: 10
\nccoil*[par]{arrows}{nodeA}{nodeB}
\nczigzag*[par]{arrows}{nodeA}{nodeB}
\pccoil*[par]{arrows}(x1,y1)(x2,y2)
\pczigzag*[par]{arrows}(x1,y1)(x2,y2)
\SpecialCoor
Table 1.12. Special coordinates and angles
Coordinate | Example | Description |
(x,y) | (3,4) | Cartesian coordinate. |
(r;a) | (3;110) | Polar coordinate. |
(node) | (A) | Center of node. |
([par]node) | ([angle=45]A) | Relative to node. |
(!ps) | (!5 3.3 2 exp) | Raw PostScript. |
(coor1|coor2) | (A|1in;30) | Combination. |
Angle | Example | Description |
num | 45 | Angle. |
(coor) | (-1,1) | Coordinate (vector). |
!ps | !33 sqrt | Raw PostScript. |
\NormalCoor
psgo
pst-blur
pst-euc
pst-fr3d
pst-ghsb
pst-gr3d
pst-lens
pst-node
pst-ob3d
pst-osci
pst-poly
pst-tree
pst-uml
vaucansom.sty
ConTeXt is based on PlainTeX and MetaPost and gets controlled with some Perl scripts. It's mainly targeted towards layout oriented users and especially useful for presentations. It's extensible by the use of modules and has in it's base distribution already a large amount of functionality. The preferred output format is PDF, but DVI is possible too.
Some of the unique features of ConTeXt are:
Table of Contents
--file-line-error-style
--fmt format
--help
--ini
--interaction mode
--ipc
--ipc-start
--jobname name
--kpathsea-debug bitmask
--maketex fmt
--no-maketex fmt
--output-comment string
--parse-first-line
--progname name
--recorder
--shell-escape
--translate-file tcxname
--version
The contents of this section was taken from pdftex(1)
.
pdfTeX understands the following command line options.
Print error messages in the form file:line:error
which is similar to the way many
compilers format them.
Use format
as the name of the
format to be used, instead of the name by which pdfTeX was called
or a %&
line.
Sets the interaction mode. The mode can be one of batchmode
, nonstopmode
, scrollmode
, and errorstopmode
. The meaning of these modes is the
same as that of the corresponding \commands
.
Send DVI or PDF output to a socket as well as the usual output file. Whether this option is available is the choice of the installer.
As --ipc
, and starts the server at
the other end as well. Whether this option is available is the
choice of the installer.
If the first line of the main input file begins with
%&
parse it to look for a dump
name or a --translate-file
option.
Enable the filename recorder. This leaves a trace of the files
opened for input and output in a file with extension .fls
.
See the Kpathsearch library documentation (the `Path specifications' node) for the details of how the environment variables are used when searching. The kpsewhich utility can be used to query the values of the variables.
One caveat: In most pdfTeX formats, you cannot use ~ in a filename you give directly to pdfTeX, because ~ is an active character, and hence is expanded, not taken as part of the filename. Other programs, such as Metafont, do not have this problem.
TEXMFOUTPUT
Normally, pdfTeX puts its output files in the
current directory. If any output file cannot be opened there, it
tries to open it in the directory specified in the environment
variable TEXMFOUTPUT
. There is no
default value for that variable. For example, if you say
pdftex paper and the
current directory is not writable, if TEXMFOUTPUT
has the value /tmp
, pdfTeX attempts to create /tmp/paper.log
(and /tmp/paper.pdf
, if any output is produced.)
TEXINPUTS
Search path for \input
and \openin
files. This should probably start with ``.'', so that user files
are found before system files. An empty path component will be
replaced with the paths defined in the texmf.cnf
file. For example, set TEXINPUTS
to ".:/home/usr/tex:"
to prepend the current direcory
and ``/home/user/tex''
to the standard
search path.
TEXFONTS
earch path for font metric (.tfm
) files.
TEXFORMATS
Search path for format files.
TEXPOOL
Search path for pdfinitex internal strings.
TEXEDIT
Command template for switching to editor. The default, usually vi, is set when pdfTeX is compiled.
Table of Contents
The contents of this section was taken from mpost(1)
.
MetaPost is a programming language much like Knuth's Metafont except that it outputs PostScript programs instead of bitmaps. Borrowed from Metafont are the basic tools for creating and manipulating pictures. These include numbers, coordinate pairs, cubic splines, affine transformations, text strings, and boolean quantities. Additional features facilitate integrating text and graphics and accessing special features of PostScript such as clipping, shading, and dashed lines. Another feature borrowed from Metafont is the ability to solve linear equations that are given implicitly, thus allowing many programs to be written in a largely declarative style. By building complex operations from simpler ones, MetaPost achieves both power and exibility.
MetaPost understands the following command line options.
Print error messages in the form file:line:error
which is similar to the way many
compilers format them.
Sets the interaction mode. The mode can be one of batchmode
, nonstopmode
, scrollmode
, and errorstopmode
. The meaning of these modes is the
same as that of the corresponding commands.
Use mem
as the name of the mem to
be used, instead of the name by which MetaPost was called or a
%&
line.
If the first line of the main input file begins with
%&
parse it to look for a dump
name or a --translate-file
option.
See the Kpathsearch library documentation (the `Path specifications' node) for the details of how the environment variables are use when searching. The kpsewhich utility can be used to query the values of the variables.
If the environment variable TEXMFOUTPUT
is set, MetaPost attempts to put its
output files in it, if they cannot be put in the current
directory.
Here is a list of the environment variables which affect the behavior of MetaPost:
MPINPUTS
Search path for input files.
MFINPUTS
Auxiliary search path for input files with
.mf
extensions.
MPSUPPORT
Directory for various tables for handling included TeX and troff.
MPXCOMMAND
The name of a shell script that converts
embedded typesetting commands to a form that MetaPost understands.
Defaults: makempx
for TeX and
troffmpx
for troff.
TEX
The version of TeX - or LaTeX - to use when
processing btex and
verbatimtex commands.
Default TeX. This version of MetaPost allows you to use a
`%&format'
line instead.
TROFF
The troff pipeline for btex and verbatimtex commands. Default
eqn -d\$\$ | troff
MPEDIT
A command template for invoking an editor.
A .mem
file is a binary file that
permits fast loading of macro packages. MetaPost reads the default
plain.mem
unless another .mem
file is specified at the start of the first
line with an &
just before it.
There is also an mfplain.mem
that
simulates plain Metafont so that MetaPost can read .mf
fonts. (Plain Metafont is described in
The Metafontbook).
Experts can create .mem
files by
invoking inimpost and
giving macro definitions followed by a dump command.
The MetaPost language is similar to Metafont, but the manual A User's Manual for MetaPost assumes no knowledge of Metafont. MetaPost does not have bitmap output commands or Metafont's online display mechanism.
Table of Contents
The contents of this section was taken from the HTML helppages for BibTeX of Norman Walsh (Version 1.0, 12 Apr 94).
Invokes the BibTeX utility to compile a bibliography file for LaTeX. Full details can be found in "LaTeX: A Document Preparation System" by Leslie Lamport.
bibliography-file-spec
Specifies the name of the bibliography database file to be compiled by BibTeX. If the file specification does not include a file type, BibTeX assumes a default type of BIB.
/BIBINPUTS
/BIBINPUTS=(name,...)
Specify directories containing input files, and the order in
which they will be searched to locate each input file. A null value
in the list indicates the current directory. The search procedure
TeX uses to locate input files is to first search your default
directory and then search each of the directories specified by the
/BIBINPUTS
option.
Default is /BIBINPUTS=(TEX_BIB:)
;
TeX looks in the directory associated with the logical name
TEX_BIB.
/STATS /STATS /NOSTATS [D]
This qualifier is used while debugging .BST
files to determine BIBTEX memory usage.
/TEXINPUTS
/TEXINPUTS=(name,...)
Specify directories containing input files, and the order in
which they will be searched to locate each input file. A null value
in the list indicates the current directory. The search procedure
TeX uses to locate input files is to first search your default
directory and then search each of the directories specified by the
/TEXINPUTS
option.
Default is /TEXINPUTS=(TEX_INPUTS)
;
TeX looks in the directory associated with the logical name
TEX_INPUTS
.
/TRACE /TRACE /NOTRACE [D]
This qualifier is used while debugging .BST
files to follow program flow.
This help entry contains the same information as Appendix B of
the LaTeX manual. It describes the format of a bibliography
database (.BIB
) file.
A bibliography database file may contains two types of entry - an abbreviation definition or a reference entry for citation.
The @STRING
command is used to
define abbreviations for use by BibTeX within the bibliography
database file. The command
@string{jgg1 = "Journal of Gnats and Gnus, Series~1"}
defines 'jgg1' to be the abbreviation for the string "Journal of Gnats and Gnus, Series~1". Parentheses can be used in place of the outermost braces in the @string command, and braces can be used instead of the quotation marks. The text must have matching braces.
The case of letters is ignored in an abbreviation as well as in the command name @string, so the command above could have been written:
@STRING{JgG1 = "Journal of Gnats and Gnus, Series~1"}
A @string
command can appear
anywhere before or between entries in a bibliography database file.
However, it must come before any use of the abbreviation, so a
sensible place for @string
commands is
at the beginning of the file. A @string
command in the bibliography database file
takes precedence over a definition made by the bibliography style,
so it can be used to change the definition of an abbreviation such
as 'Feb'.
A bibliography database file contains a series of reference entries like the following:
@BOOK{kn:gnus, AUTHOR = "Donald E. Knudson", TITLE = "1966 World Gnus Almanac", PUBLISHER = {Permafrost Press}, ADDRESS = {Novisibirsk} }
The @BOOK
states that this is an
entry of type book. various entry types are described below. The
'kn:gnus' is the citation key, as it appears in the argument of a
\cite
command referring to the
entry.
This entry has four fields, named AUTHOR
, TITLE
,
PUBLISHER
and ADDRESS
. The meanings of these and other fields
are described below. A field consists of the name, an '=' character
with optional space around it, followed by its text. The text of a
field is a string of characters, with no unmatched braces,
surrounded by either a pair of braces or a pair of '"' characters.
Entry fields are separated from one another, and from the citation
key, by commas. A comma may have optional space around it.
The outermost braces that surround the entire entry may be replaced by parentheses. As in TeX input files, an end-of-line character counts as a space and one space is equivalent to many spaces. Unlike TeX, BibTeX ignores the case of letters in the entry type, citation key and field names. The above entry could have been typed as follows:
@BOOK(kn:gnus, author = {Donald E. Knudson}, TITLE = "1966 World Gnus Almanac", PUBLISHER = {Permafrost Press}, ADDRESS = {Novisibirsk} )
However, the case of letters does matter to LaTeX, so the
citation key ("kn:gnus" in the example above) should appear exactly
the same in all \cite
commands in the
LaTeX input file.
The quotes or braces can be omitted around text consisting entirely of numerals. The following two fields are equivalent:
Volume = "27" Volume = 27
When entering a reference in the bibliography database, the first thing to decide is what type of entry it is. No fixed classification scheme can be complete, but BibTeX provides enough entry types to handle almost any reference reasonably well.
References to different types of publications contain different information; a reference to a journal might include the volume and number of the journal, which is usually not meaningful for a book. Therefore, database entries of different types have different fields for each entry type, the fields are divided into three classes:
omitting the field will produce an error message and may result in a badly formatted bibliography entry. If the required information is not meaningful, you are using the wrong entry type.
the field's information will be used if present, but can be omitted without causing any formatting problems. A reference should contain any available information that might help the reader, so you should include the optional field if it is applicable.
the field is ignored. BibTeX ignores any field that is not required or optional, so you can include any fields you want in a bibliography entry. It's often a good idea to put all relevant information about a reference in its bibliography entry - even information that may never appear in the bibliography. For example, if you want to keep an abstract of a paper in a computer file, put it in an 'abstract' field in the paper's bibliography entry. The bibliography database file is likely to be as good a place as any for the abstract, and it is possible to design a bibliography style for printing selected abstracts.
BibTeX ignores the case of letters in the entry type.
An article from a journal or magazine.
Format:
@ARTICLE{citation_key, required_fields [, optional_fields] }
A book with an explicit publisher.
Format:
@BOOK{citation_key, required_fields [, optional_fields] }
Required fields: author or editor, title, publisher, year
Optional fields: volume, series, address, edition, month, note, key
A work that is printed and bound, but without a named publisher or sponsoring institution.
Format:
@BOOKLET{citation_key, required_fields [, optional_fields] }
Required fields: title
Optional fields: author, howpublished, address, month, year, note, key
An article in the proceedings of a conference. This entry is identical to the 'inproceedings' entry and is included for compatibility with another text formatting system.
Format:
@CONFERENCE{citation_key, required_fields [, optional_fields] }
Required fields: author, title, booktitle, year
Optional fields: editor, pages, organization, publisher, address, month, note, key
A part of a book, which may be a chapter and/or a range of pages.
Format:
@INBOOK{citation_key, required_fields [, optional_fields] }
Required fields: author or editor, title, chapter and/or pages, publisher, year
Optional fields: volume, series, address, edition, month, note, key
A part of a book with its own title.
Format:
@INCOLLECTION{citation_key, required_fields [, optional_fields] }
Required fields: author, title, booktitle, year
Optional fields: editor, pages, organization, publisher, address, month, note, key
An article in the proceedings of a conference.
Format:
@INPROCEEDINGS{citation_key, required_fields [, optional_fields] }
Required fields: author, title, booktitle, year
Optional fields: editor, pages, organization, publisher, address, month, note, key
Technical documentation.
Format:
@MANUAL{citation_key, required_fields [, optional_fields] }
Required fields: title
Optional fields: author, organization, address, edition, month, year, note, key
A Master's thesis.
Format:
@MASTERSTHESIS{citation_key, required_fields [, optional_fields] }
Use this type when nothing else seems appropriate.
Format:
@MISC{citation_key, required_fields [, optional_fields] }
Required fields: none
Optional fields: author, title, howpublished, month, year, note, key
A PhD thesis.
Format:
@PHDTHESIS{citation_key, required_fields [, optional_fields] }
The proceedings of a conference.
Format:
@PROCEEDINGS{citation_key, required_fields [, optional_fields] }
Optional fields: editor, publisher, organization, address, month, note, key
A report published by a school or other institution, usually numbered within a series.
Format:
@TECHREPORT{citation_key, required_fields [, optional_fields] }
Required fields: author, title, institution, year
The text of the field is enclosed in braces or double quote characters. A part of the text is said to be enclosed in braces if it lies inside a matching pair of braces other than the ones enclosing the entire entry or the entire field text.
BibTeX manipulates the case of letters in the field text as described in the subtopics below.
The text of an author or editor field represents a list of names. The bibliography style determines the format in which the name is printed: whether the first name or last name appears first, if the full first name or just the first initial is used, etc. The bibliography file entry simply tells BibTeX what the name is.
You should type an author's complete name and let the bibliography style decide what to abbreviate. (But an author's complete name may be "Donald~E. Knuth" or even "J.~P.~Morgan"; you should type it the way the author would like it to appear, if that's known.)
Most names can be entered in the obvious way, either with or without a comma, as in the following examples:
"John Paul Jones" "Jones, John Paul" "Ludwig von Beethoven" "von Beethoven, Ludwig"
Some people have multiple last names - for example, Per Brinch Hansen's last name is Brinch~Hansen. His name should be typed with a comma:
"Brinch Hansen, Per"
To understand why, you must understand how BibTeX handles names (for what follows, a "name" corresponds to a person).
Each name consists of four parts: First, von, Last, and~Jr; each part consists of a (possibly empty) list of name-tokens. For example the First part of Per Brinch~Hansen's name has the single token "Per"; the Last part has two, "Brinch" and "Hansen"; and the von and Jr parts are empty. If you had typed
"Per Brinch Hansen"
instead, BibTeX would erroneously think "Brinch" were a First-part token, just as "Paul" is a First-part token in "John~Paul Jones".
Here's another example:
"Charles Louis Xavier Joseph de la Vallee Poussin"
This name has four tokens in the First part, two in the von, and two in the Last. Here BibTeX knows where one part ends and the other begins because the tokens in the von part begin with lower-case letters.
If you want BibTeX to consider something a single token, enclose it in braces. You should do this, for example, if a comma is part of a name:
"{Barnes and Noble, Inc.}" "{Barnes and} {Noble, Inc.}" "{Barnes} {and} {Noble,} {Inc.}"
The braces surrounding the comma keep "Inc." from being interpreted as a First token; this name has only a Last part, with either one, two, or four tokens (there must be a space separating the tokens in the second and third forms). Probably the second form is slightly more meaningful, but don't lose sleep over this since only rarely will an institution be an author or editor.
So the two names
"von Beethoven, Ludwig" "{von Beethoven}, Ludwig"
are considered by BibTeX to be different names. In the first, "Beethoven" is the Last part and "von" is the von part; in the second, which in this case happens to be incorrect, the Last part has a single token and there's no von part. The bibliography style will probably print both the same, but it may alphabetize and label them differently.
"Juniors" pose a special problem. Most people having "Jr." in their name precede it with a comma. Such a name should be entered as follows:
"Ford, Jr., Henry"
However, a few people do not use a comma. They are handled by considering the "Jr." to be part of the last Last token:
"{Steele Jr.}, Guy L." "Guy L. {Steele Jr.}"
This name has no Jr part.
To summarize, you may type a name in one of three forms:
"First von Last" "von Last, First" "von Last, Jr, First"
You may almost always use the first form; you shouldn't if either there's a Jr part or the Last part has multiple tokens but there's no von part.
If there are multiple authors or editors, their names must be separated by the word "and", surrounded by spaces, not enclosed in braces:
AUTHOR = "Ralph Alpher and Bethe, Hans and George Gamow"
Since BibTeX interprets commas as separating parts of a name and "and" as separating names themselves, this example has three coauthors: Ralph Alpher, Hans Bethe, and George Gamow. If the word "and" appears as part of a name, it must be enclosed in braces, as in the example of "Barnes and Noble,~Inc." given above. If you have too many names to list in a field, you can end the list with "and others"; the standard styles appropriately append an "et al."
BibTeX's rules are actually a bit more complicated than indicated here, but this description will suffice for most names.
The bibliography style determines whether or not a title is capitalized; the titles of books usually are, the title of articles usually are not. You type a title the way it should appear if it is capitalized (you should capitalize everything but articles and unstressed conjunctions and prepositions, and even these should be capitalized as the first word or the first after a colon):
TITLE = "The Agony and the Ecstasy"
BibTeX will change uppercase letters to lowercase if appropriate. Uppercase letters that should not be changed are enclosed in braces. The following two titles are equivalent; the "A" of "Africa" will not be made lowercase.
"The Gnats and Gnus of {Africa}" "The Gnats and Gnus of {A}frica"
Instead of an ordinary text string, the text of a field can be replaced by an abbreviation for it. An abbreviation is a string of characters that starts with a letter and does not contain a space or any of the following ten characters:
" # % ' ( ) , = { }
The abbreviation is typed in place of the text field, with no braces or quotation marks. If 'jgg1' is an abbreviation for
Journal of Gnats and Gnus, Series~1
then the following are equivalent:
JOURNAL = jgg1 JOURNAL = "Journal of Gnats and Gnus, Series~1"
Some abbreviations are predefined by the bibliography style. These always include the usual 3 letter abbreviations for the month: jan, feb, mar etc.
Bibliography styles usually contain abbreviations for the names of commonly referenced journals. Consult the Local Guide for a list of the predefined abbreviations for the bibliography styles available.
You can define your own abbreviations by using BibTeX's
@STRING
command.
Below is a list of all fields recognized by the standard bibliography styles. An entry can also contain other fields, which are ignored by those styles.
BibTeX ignores the case of letters in the field names.
Publisher's address. For major publishing houses, just the city is given. For small publishers, you can help the reader by giving the complete address.
Format:
ADDRESS = field_text
An annotation, used only for annotated bibliography styles (which are not among the standard ones).
Format:
ANNOTE = field_text
Name(s) of editor(s). If there is also an "author" field, then the "editor" field gives the editor of the book or collection in which the reference appears.
Format:
EDITOR = field_text
A journal name. Abbreviations are provided for many journals; see the Local Guide.
Format:
JOURNAL = field_text
Used for alphabetizing and creating a label when the "author"
and "editor" fields are missing. This field should not be confused
with the citation key that appears in the \cite
command and at the beginning of the
entry.
Format:
KEY = field_text
The month in which the work was published or, for an unpublished work, in which it was written.
Format:
MONTH = field_text
The number of a journal, magazine, or technical report. An issue of a journal or magazine is usually identified by its volume and number; the organization that issues a technical report usually gives it a number.
Format:
NUMBER = field_text
A page number or range of numbers such as "42--111"; you may also have several of these, separating them with commas: "7,41,73--97". The standard styles convert a single dash to a double. >
Format:
PAGES = field_text
The name of a series or set of books. When citing an entire book, the the "title" field gives its title and an optional "series" field gives the name of a series in which the book is published.
Format:
SERIES = field_text
Bibliography style files define the style of a bibliography source list.
The standard bibliography style files are PLAIN
, UNSRT
, ALPHA
and ABBRV
.
If you want to make a bibliography style of your own, look at
SAMPLE.BST
.
This style is the same as the style defined in PLAIN.BST
, except that entries are more compact
because first names, month names and journal names are
abbreviated.
This style is the same as the style defined in PLAIN.BST
except that entry labels like "Knu66",
formed from the author's name and the year of publication, are
used.
This style is formatted more or less as suggested by Mary-Claire van Leunen in "A Handbook for Scholars" (Alfred A. Knopf, New York, 1979). Entries are sorted alphabetically and are labelled with numbers.
This is a sample bibliography style file meant to help you construct a new style. It creates a bibliography in which entries appear as follows:
[Jones79] Jones, R. L. and Richards, P. Q. The Birds and the Bees. {\it Journal of Irreproducible Results 4}, 2 (Jan. 1979), 27-33.
[Jones82a] Jones, P. G. The Bees and the Trees ... (1982).
[Jones82b] Jones, R. L. The Trees and the Peas ... (1982).
[Krist74] Kristofferson, R. P. Peopl and Places ... (1974)
It should illustrate how you write a style file. The functions are described in an informal Pascal-like style in comments. Because of the way while loops and if-then-else statements must use functions, the following convention is used. If a while loop is labeled 'foo' in the informal description, then its test and body are the functions named 'foo.test' and 'foo.body'. If an if statement is labeled 'foo', then its two clauses are the functions named 'foo.then' and 'foo.else'. (Null clauses just use the 'skip$' function.) Note that because functions have to be defined in terms of already-defined functions, the actual function definitions are given in a 'bottom-up' order.
Table of Contents
The contents of this section was taken from the HTML helppages for Make-Index of Norman Walsh (Version 1.0, 12 Apr 94).
Some obvious errors in this documentation have been corrected
according to makeindex(1L)
.
Additional information was taken from makeindex(1L)
and the program source files as
found in teTeX 2.0.2.
Make-Index is a general purpose index processor. It takes one or
more raw index files (normally generated by a formatter), sorts the
entries, and produces the actual index file. It is not dependent on
any particular format of raw index file, although the .idx
file generated by LaTeX is the default. Up to
three levels (0, 1, and 2) of subitem nesting within the same entry
is supported. The input format may be redefined in a style file so
that raw index or glossary output from other formatters may be
processed. The style file also defines the style of output index
file. Unless specified otherwise, the file name base of the first
input file (idx0
) is used to determine
other related input/output files. The default input file type is
.idx
.
Make-Index is a Unix program, and therefore has a Unix-style
command line. Instead of qualifiers delimited with a slash
(/
), Make-Index options are delimited
with a hyphen (-
).
Enable blank compression. By default every blank counts in the
index key. The -c
option ignores
leading and trailing blanks and tabs and compresses intermediate
ones to a single space.
Employ German word ordering in the index, in accord with rules
set forth in DIN 5007. The quote character must be redefined in a
style file (for example, redefine quote as '+'
). If the quote character is not redefined,
Make-Index will produce an error message and abort.
Use stdin
as the input file. When
this option is specified and the -o
is
not, output is written to stdout
.
Quiet mode, send no messages to stderr
. By default progress and error messages are
sent to stderr
as well as the
transcript file. The -q
option
disables the stderr
messages.
Disable implicit page range formation. By default three or more
successive pages will be automatically abbreviated as a range (e.g.
1--5). The -r
option disables it,
making the explicit range operators the only way to create page
ranges (see the Special Effects section below).
Take sty
as the style file. There
is no default for the style file name. The environment variable
INDEXSTYLE defines the path where the style file should be
found.
Take ind
as the output index file.
By default the file name base of the first input file idx0
concatenated with the extension .ind
is used as the output file name.
Take log
as the transcript file. By
default the file name base of the first input file idx0
concatenated with the extension .ilg
is used as the transcript file name.
Set the starting page number of the output index file to be
no
. This is useful when the index file
is to be formatted separately. Other than pure numbers, three
special cases are allowed for no: any
,
odd
, and even
. In these special cases, the starting page
number is determined by retrieving the last page number from the
source log file. The source log file name is determined by
concatenating the file name base of the first raw index file
(idx0
) with the extension .log
. The last source page is obtained by
searching backward in the log file for the first instance of a
number included in [...]
. If a page
number is missing or the log file is not found, no attempt will be
made to set the starting page number. The meaning of each of these
cases follows:
The starting page is the last source page number plus 1.
The starting page is the first odd page following the last source page number.
The starting page is the first even page following the last source page number.
The style file format is very simple. It is a list of
<specifier, attribute>
pairs.
There are two types of specifiers (input and output). The pairs
don't have to obey any particular order in the file. A line lead by
`%
' is a comment. The following is a
list of all the specifiers and their respective arguments where
<string>
is an arbitrary string
delimited by double quotes ("..."
),
<char>
is a single letter
embraced by single quotes ('...'
), and
<number>
is a nonnegative
integer. The maximum length of a <string>
is 144. Notice that a backslash
must be escaped (by an extra backslash) in the string quotation.
Anything not specified in the style file will be assigned a default
value, which is shown on a separate line. This file can reside
anywhere in the path defined by the environment variable
INDEXSTYLE
.
Default: |
The symbol which indicates that the rest of the argument list is to be used as the encapsulating command for the page number.
Default: \\
The symbol which escapes the next letter, unless its preceding letter is escape. In other words, quote is used to escape the letter which immediately follows it. But if it is preceded by escape, it does not escape anything.
Notice that the two symbols must be distinct.
Default: "\\indexentry"
This is the command which tells Make-Index that its argument is an index entry.
Default: "
quote
is used to escape the letter
which immediately follows it, but if it is preceded by escape, it
is treated as a ordinary character. These two symbols must be
distinct.
Default: 0
The flag indicating the condition of inserting new letter header. Default is 0, which means no header. Positive means insert an uppercase letter between prefix and suffix. Negative means insert a lowercase letter.
Default: "\n \\subitem "
The command to be inserted between a level 0 item and a level 1 item. The difference between this and previous is that in this case the level 0 item doesn't have any page numbers.
Default: "\n \\subsubitem "
The command to be inserted between a level 1 item and a level 2 item. The difference between this and previous is that in this case the level 1 item doesn't have any page numbers.
Default: ", "
The delimiter to be inserted between a level 0 key and its first page number. Default is a comma followed by a blank.
Default: ", "
The delimiter to be inserted between a level 1 key and its first page number. Default is a comma followed by a blank.
Default: ", "
The delimiter to be inserted between a level 2 key and its first page number. Default is a comma followed by a blank.
Default: ", "
The delimiter to be inserted between two page numbers for the same key in any level. Default is a comma followed by a blank.
Default: ""
The delimiter to be inserted at the end of a page list. This delimiter has no effect on entries which have no associated page list.
Default: ""
Delimiter to replace the range delimiter and the second page
number of a two page list. When present, it overrides delim_r
.
The following example shows a style file called book.isty
which defines a stand-alone index for a
book. By stand-alone, we mean it can be formatted independent of
the main source.
preamble "\\documentstyle[12pt]{book} \\begin{document} \\begin{theindex} {\\small\n" postamble "\n\n} \\end{theindex} \\end{document}\n"
Suppose a particular book style requires the index (as well as
any chapters) to start from an odd page number. Given foo.idx
as the raw index file, the following
command line produces an index in file foo-.ind
.
makeindex -s book.isty -o foo-.ind -p odd foo
The reason to use a non-default output file name is to avoid
clobbering the source output (presumably foo.dvi
) because if the index is in file
foo.ind
, its output will also be in
foo.dvi
as a result of separate
formatting using . In the example the index is in foo-.ind
, its output will be in foo-.dvi
and thus introduces no confusion.
By default makeindex
assumes word
ordering. The -l
option turns it into
letter ordering. The only difference is whether a blank is treated
as an effective letter or not. In word ordering, a blank precedes
any letter in the alphabet, whereas in letter ordering, it doesn't
count at all. This is best illustrated by the following
example:
word order | letter order |
---|---|
sea lion | seal |
seal | seal lion |
Numbers are sorted in numeric order. For instance,
9 (nine), 123 |
123 10 (ten), see Derek, Bo |
Letters are first sorted with uppercase and lowercase considered identical; then, within identical words the uppercase letter precedes its lowercase counterpart.
Patterns lead by a special symbol precede numbers, which precede patterns lead by a letter. The symbol here refers to anything not in the union of digits and English alphabet. This includes those which follow 'z' in the ASCII chart. As a special case, anything started with a digit but mixed with non-digits is considered a symbol-leading pattern instead of a number.
In the normal case entries such as
\indexentry{alpha}{1} \indexentry{alpha!beta}{3} \indexentry{alpha!beta!gamma}{10}
in the raw index file will be converted to
\item alpha, 1 \subitem beta, 3 \subsubitem gamma, 10
in the output index file by Make-Index. Notice that the level
symbol (!
) is used to delimit levels
of nesting.
It is possible to make an item appear in a designated form by
using the actual (@
) operator. For
instance,
\indexentry{alpha@{\it alpha\/}}{1}
will become
\item {\it alpha\/} 1
after the conversion. The idea is that the pattern preceding
@
is used as sort key, whereas the one
following it is put in the actual result. However, the same key
with and without the actual part are regarded as distinct
entries.
It is also possible to encapsulate a page number with a
designated command using the encap (|
)
operator. For example, in the default case,
\indexentry{alpha|bold}{1}
will be converted to
\item alpha \bold{1}
where \bold{n}
will expand to
{\bf n}
. This allows the encap
operator to be used to set pages in different fonts, thereby
conveying more information about whatever being indexed. For
instance, given the same key the page where its definition appears
can be in one font while where its primary example is given can be
in another, with other ordinary appearances in a third. Notice that
in this example, the three output attributes associated with page
encapsulation encap_prefix
,
encap_infix
, and encap_suffix
correspond respectively to backslash,
left brace, and right brace. If this is to be formatted by
languages other than , they would be defined differently.
By the same token, the encap
operator can be used to make cross references in the index. For
instance,
\indexentry{alpha|see{beta}}{1}
will become
\item alpha \see{beta}{1}
in the output index file after the conversion, where
\see{beta}{1}
will expand to
{\it see\/} beta
Notice that in a cross reference like this the page number disappears. Therefore, where to insert such a command in the source is immaterial.
A pair of encap concatenated with range_open
(|(
) and
with range_close
(|)
) creates an explicit page range. That is,
\indexentry{alpha|(}{1} \indexentry{alpha|)}{5}
will become
\item alpha, 1--5
Intermediate pages indexed by the same key will be merged into the range implicitly. This is especially useful when an entire section about a particular subject is to be indexed, in which case only the range opening and closing operators need to be inserted at the beginning and end of the section, respectively.
This explicit page range formation can also include an extra command to set the page range in a designated font. Thus
\indexentry{alpha|(bold}{1} \indexentry{alpha|)}{5}
will become
\item alpha, \bold{1--5}
A couple of special cases are worth mentioning here. First, entries like
\indexentry{alpha|(}{1} \indexentry{alpha|bold}{3} \indexentry{alpha|)}{5}
will be interpreted as
\item alpha, \bold{3}, 1--5
but with a warning message in the transcript about the encounter of an inconsistent page encapsulator. Secondly, an explicit range beginning in a Roman page number and ending in Arabic is considered an error. In a case like this the range is broken into two subranges, if possible, one in Roman, the other in Arabic. For instance,
\indexentry{alpha|(}{i} \indexentry{alpha}{iv} \indexentry{alpha}{3} \indexentry{alpha|)}{7}
will be turned into
\item alpha, 1--iv, 3--7
with a warning message in the transcript complaining about the illegal range formation.
Finally, every special symbol mentioned in this section may be
escaped by the quote operator ("
).
Thus
\indexentry{alpha"@beta}{1}
will actually become
\item alpha@beta, 1
as a result of executing Make-Index. However, if quote is
preceded by escape (\
), its following
letter is not escaped. That is,
\indexentry{f\"ur}{1}
means
\item f\"ur, 1
which represents umlaut accented u
to the family of processors.
Table of Contents
The content of this section was taken from the original
documentation of xindy V2.1 (Doc/manual*.html
).
xindy means flexible indexing system. It is an indexing system that can be used to generate book-like indexes for arbitrary document preparation systems. This term includes systems such as TeX and LaTeX, the Nroff-family or SGML-based systems (e.g. HTML) that process some kind of text and generate indexing information. It is not fixed to any specific system, but can be configured for a wide variety of purposes.
Here is the complete list of xindy's commands that may be used
in the index style. The symbol name
always refers to a string. We separate the commands into the
processing and markup commands. The commands are listed in
alphabetical order.
The parenthesis [
and ]
denote optional parts of the syntax and
{
and }
denote the grouping of elements. A vertical bar indicates
alternatives. However, the enclosing round braces are part of the syntax and must be
supplied.
(define-alphabet name string-list)
Defines name
to be the alphabet
consisting of all elements of the string-list
. Examples:
(define-alphabet "example-alphabet" ("An" "Example" "Alphabet"))
defines an alphabet consisting of exactly three symbols. For the
successor relationship holds: succ("An")="Example"
and succ("Example")="Alphabet"
. The built-in alphabet
digits
is defined as follows:
(define-alphabet "digits" ("0" "1" "2" "3" "4" "5" "6" "7" "8" "9"))
(define-attributes attribute-list)
Defines all attributes the raw index may contain. Parameter
attribute-list
is a list of list of
strings. The nesting level must not be more than 2. So (..(..)..)
is allowed, whereas (..(..(..)..)..)
is not.
The list has two kinds of elements: strings and list of strings.
A single string is treated as if it were a single element list. So
the lists ("definition")
and
( ("definition") )
are equivalent. All
elements forming a list are a so-called attribute group. The members of a group
are written to the output file before any member of the following
groups are written.
Examples of valid attributes lists are:
("definition" "usage")
defines two
attribute groups. The first one contains all references with the
attribute definition
and the second
one all with the attribute usage
.
(("definition" "important")
"usage")
defines two attribute groups. The first one
contains all references with the attributes definition
or important
and the second one all with the
attribute usage
. In the attribute
group ("definition" "important")
the
attribute definition
overrides
important
.
(define-crossref-class name [:unverified])
Defines name
to be a class of cross
references. We distinguish two types of cross reference classes.
Verified cross reference
classes can be checked for dangling references. If for instance a
cross reference points to the non-existent keyword `foo' a warning
is issued and the user is advised to correct the invalid cross
reference. This is the default. If for some reasons this mechanism
must be deactivated the switch :unverified
can be used to suppress this
behaviour.
(define-letter-group name [:before lgname] [:after lgname] [:prefixes list-of-prefixes])
(define-letter-groups list-of-letter-groups)
This command defines a letter group with name name
, which must be a string value, grouping all
index entries that have a sort
key beginning with the prefix name
. The command
(define-letter-group "a")
is equivalent to the command
(define-letter-group "a" :prefixes ("a"))
Using the latter form one can associate more than one prefix with a given letter group. Also further prefixes can be added to an already existing letter group by simply defining the same letter group again. This results not in a redefinition but in adding more prefixes to the currently defined prefixes.
Example:
(define-letter-group "a")
defines a letter group containing all index entries beginning
with the string "a"
.
(define-letter-group "c" :after "a")
defines a letter group containing all index entries beginning
with the string "c"
. The letter group
appears behind the letter group "a"
(define-letter-group "b" :after "a" :before "c")
inserts letter group "b"
between
letter group "a"
and "c"
. This allows incremental definition of letter
groups by extending already defined ones.
The arguments :after
and
:before
define a partial order on the
letter groups. xindy tries to convert this partial order into a
total one. If this is impossible due to circular definitions, an
error is reported. If more than one possible total ordering can
result, it is left open which one is used, so one should always
define a complete total order.
The command define-letter-groups
(with an `s' at the end) is simply an abbreviation for a sequence
of define-letter-group
definitions
where the elements are ordered in the ordering given by the list.
Example:
(define-letter-groups ("a" "b" "c")
equals the definitions
(define-letter-group "a") (define-letter-group "b" :after "a") (define-letter-group "c" :after "b")
See also commands markup-letter-group-list
and markup-letter-group
for further information.
(define-location-class name layer-list [:min-range-length num] [:hierdepth depth] [:var])
Defines name
to be a location class
consisting of the given list of layers. A list of layers consists
of names of basetypes and/or strings representing separators.
Separators must follow the keyword argument :sep
. If the keyword :min-range-length
is specified we define the
minimum range length to be
used when building ranges. The argument num
must be a positive integer number or the
keyword none
in which case the
building of ranges is disallowed. If the switch :var
is specified the declared class is of type
variable, i.e. it is a
var-location-class. Since
building of ranges is currently only allowed for standard classes
:var
and :min-range-length
must not be used together. The
keyword argument :hierdepth
can be
used to declare that the location references have to be tagged in a
hierarchical form. Its argument depth
must be an integer number indicating the number of layers the
hierarchy does contain. See command markup-locref-list
for more information.
Examples:
(define-location-class "page-numbers" ("arabic-numbers") :minimum-range-length 3)
Defines the location class page-numbers
consisting of one layer which is the
alphabet arabic-numbers
. Since the
minimum range length is set to 3 the location references 2, 3 and 4
don't form a range because the range length is only 2. But the
references 6, 7, 8, and 9 are enough to form a range. Some example
instances of this class are 0, 1, ...
2313
, etc.
(define-location-class "sections" :var ("arabic-numbers" :sep "." "arabic-numbers" :sep "." "arabic-numbers"))
defines a variable location class. Valid instances are
1, 1.1, 1.2, 2, 2.4.5
, but none of
2-3
(wrong separator), 1.2.3.4
(more than 3 layers), 2.3.iv
(roman number instead of arabic one).
(define-location-class-order list)
Defines the order in which the location classes are written to
the output file. The parameter list
is
a list of names of location classes. Examples:
(define-location-class-order ("page-numbers" "sections" "xrefs"))
tells the system that the page numbers should appear before the section numbers and that the cross references should appear at the end. If this command is omitted, the declaration order of the location classes in the index style is implicitly used as the output order. In the case that a location class does not appear in the list, the output may behave unexpectedly, so one should always enumerate all used location classes when using this command.
(define-rule-set name [ :inherit-from ("rule-set" "rule-set-2") ] :rules (<rule>...) )
A complete specification of a multi-phase sorting process for a
language requires that some rules have to appear in several
subsequent sorting phases. Rule sets can be used to define a set of
rules that can be instantiated in an arbitrary sorting phase.
Basically, they offer means to separate the definition of sorting
rules from their instantiation, hence, acting as a wrapper for
calls to sort-rule
. They do not add
new functionality that is not already present with sort-rule
.
A rule can be of the form:
<rule> ::= ("pattern" "replacement" [:string|:bregexp|:egegexp] [:again])
The following incomplete example defines a new rule set of name
isolatin1-tolower
that inherits
definitions from rule set latin-tolower
, overriding or adding the sort rules
in the list of :rules
.
(define-rule-set "isolatin1-tolower" :inherit-from ("latin-tolower") :rules (("?" "?" :string :again) ("?" "?" :string :again) ("?" "?" :string :again) ("?" "?" :string :again) ("?" "?" :string :again) ("?" "?" :string :again) ("?" "?" :string :again) ... ) ...)
Rule sets can be instantiated with the command use-rule-set
. For further descriptions on the
sorting model refer to the command sort-rule
.
(define-sort-rule-orientations (orientations...))
Defines the order for the different sorting phases. The
currently implemented orientations are forward
and backward
.
This command must precede all sort-rule
commands in an index style. It defines
the orientations and implicitly sets the maximum number of sorting
phases performed.
For further descriptions on the sorting model refer to the
command sort-rule
.
(merge-rule pattern replacement [:again] [:bregexp | :eregexp | :string])
Defines a keyword mapping rule that can be used to generate the merge key from the main key of an index entry. This mapping is necessary to map all keywords that are differently written but belong to the same keyword to the same canonical keyword.
The parameter pattern
can be a
POSIX-compliant regular expression or an ordinary string. The
implementation uses the GNU Rx regular expression library which
implements the POSIX regular expressions. Regular expressions (REs)
can be specified as basic regular
expressions (BREs) or extended regular expressions (EREs). You
can use the switch :bregexp
to force
the interpretation of the pattern as a BRE, or :eregexp
to interpret it as an ERE. If you want
xindy to interpret the pattern literally, use the switch
:string
. If none of these switches is
selected, xindy uses an auto-detection mechanism to decide, if the
pattern is a regular expression or not. If it recognizes the
pattern as a RE, it interprets it as an ERE by default.
The parameter replacement
must be a
string possibly containing the special characters &
(substitutes for the complete match) and
\1 ,..., \9
(substituting for the
n-th submatch. Examples:
(merge-rule "A" "a")
replaces each occurrence of the uppercase letter `A'
with its lowercase counterpart.
(merge-rule "\~"([AEOUaeou])" "\1")
transforms the TeX umlaut-letters into their stripped
counterparts, such that `\"A '
is
treated as an `A'
afterwards.
The following sequences have a special meaning:
` ~n
'
End of line symbol (linefeed).
` ~b
'
The ISO-Latin character with the lowest ordinal number.
` ~e
'
The ISO-Latin character with the highest ordinal number.
` ~~
'
The tilde character.
` ~"
'
The double quote character.
Tilde characters and double quotes have to be quoted themselves
with a tilde character. The special characters ` ~b '
and ` ~e '
allow the definition of arbitrary sorting orders by rules. In
connection with an additional character every position in the
alphabet can be described. E.g. ` m~e
'
is lexicographically placed between `m'
and `n'
.
Due to efficiency, rules that just exchange characters or substitute constant character sequences are not treated as regular expressions. Therefore, instead of using the rule
(merge-rule "[A-Z]" "&")
it is more efficient (though less comfortable) to use
(merge-rule "A" "Ax") (merge-rule "B" "Bx") ... (merge-rule "Z" "Zx")
Usually rules are applied in order of their definition. Rules
with a special prefix precede those that begin with a class of
characters, so that the search pattern `alpha'
is checked before `.*'
, but `auto'
and
`a.*'
are checked in order of their
definition.
The first rule from a style file that matches the input is applied and the process restarts behind the substituted text. If no rule could be applied, the actual character is copied from the input and the process continues with the next character.
Sometimes it is necessary to apply rules anew to the result of a
transformation. By specifying the keyword argument :again
in the merge rule the rule is marked as
mutable, which means that after using this rule the transformation
process shall restart at the same place. E.g. the rule
(merge-rule "\$(.*)\$" "\1" :again)
deletes all surrounding
`$ '
symbols from the input.
See also command sort-rule
.
(merge-to attr-from attr-to [:drop])
A merge rule says that the attribute attr-from
can be used to build ranges in
attr-to
. Both attributes must name
valid attribute names. The switch :drop
indicates, that the original location
reference with attribute attr-from
has
to be dropped (removed), if a successful range was built with
location references in attribute attr-to
. A detailed description is given in the
section about processing phases.
(require filename)
This command allows to load more index style modules. The module
is searched in the directories defined in the search path. The file
is read in and processing of the current file continues. The
argument filename
must be a string.
This allows to decompose the index style into several modules that
can be included into the topmost index style file. Example:
(require "french/alphabet.xdy") (require "french/sort-rules.xdy") (require "tex/locations.xdy") (require "tex/markup.xdy")
Submodules can load other submodules as well. If a file is
required that was already loaded, the require
command is simply ignored and processing
continues without including this file twice. See also command
searchpath.
(searchpath {path-string | path-list})
This command adds the given paths to the list of paths, xindy
searches for index style files. The argument path-string
must be a colon-separated string of
directory names. If this path ends with a colon the default search
path is added to the end of the path list. Example:
(searchpath ".:/usr/local/lib/xindy:/usr/local/lib/xindy/english:")
adds the specified directories to the search path. Since the last path ends with a colon, the built-in search path is added at the end. Specifying
(searchpath ("." "/usr/local/lib/xindy" "/usr/local/lib/xindy/english" :default))
yields exactly the same result as the example above. Here
path-list
must be a list of strings
and/or the keyword(s) :default
and
:last
. The keyword :default
signifies that the default pathnames are
to be inserted at the specified position in the list. The keyword
:last
allows to insert the currently
active paths at the indicated position. Since this allows to insert
the built-in paths at any position and incrementally adding new
paths to the search path, this version of the command ist more
flexible than the first version.
(sort-rule pattern replacement [:run level] [:again])
Defines a keyword mapping rule that can be used to generate the sort key of an index entry from the merge key. This key is used to sort the index entries lexicographically after they have been merged using the merge key.
The argument :run
indicates that
this rule is only in effect a the specified level (default is level 0). For a
detailed discussion on the definition of sort rules for different
layers refer to the documentation about the new sorting scheme
(new-sort-rules
) that comes with this
distribution.
See command merge-rule
for more
information about keyword rules.
(use-rule-set [:run phase] [:rule-set ( <rule-set>... ))
This command instantiates the gives rule sets to be in effect at
sorting phase phase
. The order of the
rule sets given with argument :rule-set
is significant. Rule set entries of rule
set appearing at the beginning of the list override entries in rule
sets at the end of the list.
The following example declares that in phase 0 the rule sets
din5007
and isolatin1-tolower
should be active, whereas in
phase 2 the other rule sets have to be applied.
(use-rule-set :run 0 :rule-set ("din5007" "isolatin1-tolower")) (use-rule-set :run 1 :rule-set ("resolve-umlauts" "resolve-sharp-s" "isolatin1-tolower" ))
For a discussion on rule sets refer to command define-rule-set
.
The following commands can be used to define the markup of the index. They don't have any influence on the indexing process. Since the markup scheme is characterized by the concept of environments, the syntax and naming scheme of all commands follows a simple structure.
The commands can be separated into environment and list-environment commands. All commands
of the first group support the keyword arguments :open
and :close
,
whereas the second group additionally supports the keyword argument
:sep
. If one of these keyword
arguments is missing, the default markup tag is always the empty
tag. The :open
tag is always printed
before the object itself and the :close
tag is always printed after the object has
been printed. If a list is printed the :sep
tag is printed between two elements of the
list but not before the first element, or after the last one. All
commands dealing with a list have the suffix `-list'
as part of their command name.
Since the number of commands and the heavy usage of default and specialized tags makes the markup
somehow complex (but very powerful) we have added a mechanism to
trace the markup tags xindy omits during its markup phase with the
command markup-trace
.
Here follows the list of markup commands in alphabetical order with some of the commands grouped together.
(markup-attribute-group-list [:open string] [:close string] [:sep string]) (markup-attribute-group [:open string] [:close string] [:group group-num])
Location class groups consist of lists of attribute groups. The
markup of this list can be defined with the command markup-attribute-group-list
.
To allow different markup for different attribute groups the
command markup-attribute-group
can be
specialized on the group number with the keyword argument
:group
which must be an integer
number. E.g., given are the groups ("definition" "theorem")
and ("default")
with group numbers 0 and 1, then
(markup-attribute-group :open "<group0>" :close </group0>" :group 0) (markup-attribute-group :open "<group1>" :close "</group1>" :group 1)
can be used to assign different markup for both groups in a SGML-based language.
(markup-crossref-list [:open string] [:close string] [:sep string] [:class crossref-class]) (markup-crossref-layer-list [:open string] [:close string] [:sep string] [:class crossref-class]) (markup-crossref-layer [:open string] [:close string] [:class crossref-class])
A crossref class group contains cross references of the same
class. The separator between the classes is defined with the
(markup-locclass-list :sep)
-parameter.
A list of cross references can be tagged with the command markup-crossref-list
that specializes on
the :class
argument.
Each cross reference is determined by a list of layers
indicating the target of the cross reference. To define a suitable
markup for such a list the command
markup-crossref-layer-list
can be used.
Each layer of a cross reference can be assigned two tags that specialize on the class of the reference, like all other commands.
A suitable markup for a cross reference class see
within LaTeX2e could look like that:
(markup-crossref-list :class "see" :open "\emph{see} " :sep "; ") (markup-crossref-layer-list :class "see" :sep ",") (markup-crossref-layer :class "see" :open "\textbf{" :close "}")
An example output could look like ... see
house; garden,winter; greenhouse
(markup-index [:open string] [:close string] [ :flat | :tree | :hierdepth depth ])
Defines the markup tags that enclose the whole index via the
:open
and :close
parameters. Examples:
(markup-index :open "Here comes the index~n" :close "That's all folks!~n")
defines that the :open
string is
printed before the rest of the index and the :close
string appears after the index is
printed.
Additionally one can specify the form of the generated index. It
is possible to produce flat indexes by specifying the switch
:flat
, to generate a tree with the
:tree
switch or any kind of mixture
between both by specifying the depth up to which trees shall be
built with the parameter :hierdepth
.
Its argument depth is the number of layers that can be formed into
a tree. Therefore :flat
is an
abbrevation of :hierdepth 0
and
:tree
is an abbrevation of
:hierdepth max-depth
, with
max-depth
being the maximum number of
layers a keyword has. An example: the keywords
("tree" "binary" "AVL") ("tree" "binary" "natural")
can be transformed in the following ways:
A flat index (:flat
or :hierdepth 0
)
tree binary AVL tree binary natural
with :hierdepth 1
tree binary AVL binary natural
and a tree (:tree
or :hierdepth > 1
)
tree binary AVL natural
Most often one will create tree-like indexes or ones that are flat.
(markup-indexentry-list [:open string] [:close string] [:sep string] [:depth integer]) (markup-indexentry [:open string] [:close string] [:depth integer])
Letter groups consists of a list of index entries. The command
markup-indexentry-list
defines the
markup of these lists. The markup can be specialized on the depth
if the index is hierarchically organized. The command
(markup-indexentry-list :open "\begin{IdxentList}" :close "\end{IdxentList}" :sep "~n")
defines that the index entries of all layers are wrapped into the given markup tags. If additionally
(markup-indexentry-list :open "\begin{IdxentListII}" :close "\end{IdxentListII}" :sep "~n" :depth 2)
is defined, all index entry lists of all layers (except layer 2) are tagged according to the first specification, and the index entry list within depth 2 are tagged according to the second rule.
The command markup-indexentry
defines the markup of an index entry at a given depth. Since index
entries may also contain subentries and the markup for subentries
may be different in different layers, the optional keyword argument
:depth
can be used to assign different
markup for different layers. If depth is ommited the default markup
for all possible depths is defined. The top-most index entries have
depth 0.
(markup-indexentry :open "\begin{Indexentry}" :close "\end{Indexentry}")
defines that the index entries of all layers are wrapped into the given markup tags. If additionally
(markup-indexentry :open "\begin{IndexentryII}" :close "\end{IndexentryII}" :depth 2)
is defined, all index entries of all layers (except layer 2) are tagged according to the first specification, and the index entries with depth 2 are tagged according to the second rule.
(markup-keyword-list [:open string] [:close string] [:sep string] [:depth integer]) (markup-keyword [:open string] [:close string] [:depth integer])
The print key of an index entry consists of a list of strings.
The markup of this list can be defined with the command
markup-keyword-list
. The keyword
argument :depth
may be specified to
define the markup of the list at a particular depth.
The keyword of an index entry consists of a list of strings.
Each of these components is tagged with the strings defined with
the command markup-keyword
. Since we
maybe need different markup for different layers, the optional
keyword argument can be used to specialize this markup for some
depth.
(markup-letter-group-list [:open string] [:close string] [:sep string]) (markup-letter-group [:open string] [:close string] [:group group-name] [:open-head string] [:close-head string] [:upcase | :downcase | :capitalize])
The first command defines the markup of the letter group with
name group-name
. Since the markup of
letter groups often contains the name of the letter group as a part
of it, the other keyword arguments allow an additional markup for
this group name. If one of the parameters :open-head
and :close-head
is specified additional markup is
added as can be described as follows:
<OPEN> IF (:open-head OR :close-head) <OPEN-HEAD> transformer-of(<GROUP-NAME>) <CLOSE-HEAD> FI <INDEXENTRIES...> <CLOSE>
Here, transformer-of
is a function
that possibly transforms the string representing the group name
into another string. The transformers we currently support can be
specified with the switches :upcase
,
:downcase
and :capitalize
which result in the corresponding
string conversions. If none of them is specified no transformation
is done at all.
The command markup-letter-group
defines the markup of the list of letter groups.
(markup-locclass-list [:open string] [:close string] [:sep string])
Each index entry contains a list of location class groups. This markup command can be used to define the markup of this list.
(markup-locref [:open string] [:close string] [:class locref-class] [:attr attribute] [:depth integer])
The markup tags of a location reference can be specialized on
the three arguments :class
,
:attr
and additionally, if
sub-references are used, :depth
. Most
often one will only use a tag depending on the attribute. For
example, all location references with the attribute definition
should appear in a font series like
bold, emphasizing the importance of this location reference; those
with the attribute default
in font
shape italic. The markup in this case would not specialize on the
depth or any particular class. A valid definition, suitable for a
usage within HTML, could look like this.
(markup-locref :open "<B>" :close "</B>" :attr "definition") (markup-locref :open "<I>" :close "</I>" :attr "default")
(markup-locref-class [:open string] [:close string] [:class locref-class])
All location references of a particular location reference class
can be wrapped into the tags defined by this command. It
specializes on the keyword argument :class
.
(markup-locref-layer [:open string] [:close string] [:depth integer] [:layer integer] [:class locref-class]) (markup-locref-layer-list [:open string] [:close string] [:sep string] [:depth integer] [:class locref-class])
A location reference contains a list of location reference layers. The second markup command can be used to markup this list. It specializes on the class of the location references and the depth (if sub-references are used).
The first command allows to tag the elements of a layer list
differently. The first element of this list can is specialisable
with :layer 0
, the next element with
:layer 1
, etc. See the next example
for an example.
(markup-locref-list [:open string] [:close string] [:sep string] [:depth integer] [:class locref-class])
An attribute group contains a list of location references and/or
ranges. Additionally a layered location reference itself may
contain sub-references that are stored as a list of location
references. We specialize the markup for these lists on the
location class they belong to with the keyword argument
:class
, and on :depth
that specializes on the different subentry
levels when using location references with sub-references.
Given is a list of location references that have the class description
(define-location-class "Appendix" ("ALPHA" :sep "-" "arabic-numbers") :hierdepth 2)
This location class has instances like A-1
, B-5
, etc. The
keyword argument :hierdepth 2
informs
xindy to markup these location references in a hierarchical form.
With the commands
(markup-locref-list :sep "; " :depth 0 :class "Appendix") (markup-locref-list :open " " :sep "," :depth 1 :class "Appendix") (markup-locref-layer :open "{\bf " :close "}" :layer 0 :depth 0 :class "Appendix")
we obtain a markup sequence for some example data that could look like
\bf A} 1,2,5; {\bf B} 5,6,9; {\bf D} 1,5,8; ...
(markup-range [:open string] [:close string] [:sep string] [:class locref-class] [:length num] [:ignore-end])
A range consists of two location references. Markup can be
specified with the :open
and
:close
arguments and one separator
given by the argument :sep
.
Since both location references are tagged with markup defined by
the command markup-locref
a
specialization on attributes or depth is not necessary.
Specialization is allowed on the class they belong to, because the
separator between two location refences may be different for each
location class. Argument :length
can
be used to define different markup for different lengths. In
conjunction with :length
is may be
useful not to print the second location reference at all. For
example, one wishes to markup ranges of length 1 in the form Xf.
instead of X--Y. This can be accomplished with the switch
:ignore-end
.
The markup tags for a range (X,Y) can be described as follows:
<OPEN> Markup of location reference X <SEP> IF (not :ignore-end) Markup of location reference Y FI <CLOSE>
The following tags can be used to define a range of page numbers
(given in a location class page-numbers
) without considering the open and
close parameters:
(markup-range :sep "-" :class "page-numbers")
Location ranges then appear separated by a hyphen in a form like this:
..., 5-8, 19-23, ...
This command can be used to activate the tracing of all markup
commands xindy executes. The switch :on
activates the trace. If :on
is omitted, the command line flag -t
can be used as well. All tags which are emitted
but not yet defined explicitly by the user are tagged with a
symbolic notation indicating the commands that must be used to
define this tag. The defaults for the keyword argument :open
is `<'
and
for :close
is `>'
. The beginning of an example output could
look like:
<INDEX:OPEN> <LETTER-GROUP-LIST:OPEN> <LETTER-GROUP:OPEN ["a"]> <INDEXENTRY-LIST:OPEN [0]> <INDEXENTRY:OPEN [0]> <KEYWORD-LIST:OPEN [0]> <KEYWORD:OPEN [0]> ...
We use a simple indentation scheme to make the structure of the
tags visible. The symbolic tag <LETTER-GROUP:OPEN ["a"]>
for example
indicates that the tag that can be specified with the command
(markup-letter-group :open "XXX" :group "a" ... )
is emitted at this point in the markup process. By incrementally adding markup commands to the index, more and more tags can be defined until the whole markup is defined. This general mechanism should allow everyone understand the markup process. The best is to start with a small index, define the complete markup and afterwards process the whole index. Additionally one can enclose the symbolic tags into an environment that is neutral to the document preparation system, such as a comment. For TeX this could be
(markup-trace :open "%%" :close "~n")
or a definition in the TeX document like
\def\ignore#1{}
combined with the command
(markup-trace :open "\ignore{" :close "}")
This section can be skipped if the reader is not interested in adapting xindy to a new document preparation system.
The raw index is the file that represents the index that is to be processed. Since many different document preparation systems may use different forms of index representations, their output must be transformed in a form readable by xindy. We also could have written an configurable parser performing this task, but usually a tool written with some text processing tools such as perl, sed or awk can achieve the same task as well. Therefore, adapting xindy to a completely different system can mostly be done by writing an appropriate raw index filter.
The format of the raw index interface of xindy is defined as follows:
(indexentry { :key string-list [:print string-list] | :tkey list-of-layers } [:attr string] { :locref string [:open-range | :close-range] | :xref string-list } )
The pseudo variable string is a sequence of characters surrounded by double quotes, e.g.
"Hi, it's me" "one" "a string with two \"double quotes\""
are three examples of valid strings. If you need to include a double quote as a literal character, you must quote it itself with a backslash as shown in the third example. A string list is simply a list of strings separated by whitespaces and surrounded by round braces. An example of a string list is
("This" "is" "a" "list" "of" "strings")
So far about the syntax. The semantics of the different elements are described here.
:key
The argument string list
defines the keyword of the index entry. It must be a list of
strings, since the keyword may consist of different layers such as
("heap" "fibonacci")
.
:print
The optional print key defines the way the keyword has to be printed in the markup phase.
:tkey
Another possibility to define the keys of an index entry is with
the :tkey
keyword argument. It can be
used instead of the :key
and
:print
arguments. Instead of
specifying separately the key and the corresponding print key, we
define the keyword by its layers. Each layer consist of a list of
one or two strings. The first string will be interpreted as the
main key, whereas the second one will become the print key. If the
print key is ommited, the main key is taken instead. So the
definition
:tkey (("This") ("is") ("a") ("bang" "BANG !!!"))
is equivalent to
:key ("This" "is" "a" "bang") :print ("This" "is" "a" "BANG !!!")
:locref
The reference an index entry describes can be a location reference or a cross reference. The switch :locref
describes a location reference. Its
optional arguments are :open-range
and
:close-range
. The string that must be supplied must
somehow encode the location reference. It might look like the
string "25"
representing the page
number 25, or "Appendix-I"
representing the first appendix numbered in uppercase roman
numerals.
:open-range,:close-range
These are switches that do not take any arguments. They describe
the beginning and ending of a range, starting or ending from the
location reference that is given by the argument :locref
. If they are supplied, the location
reference may have influence on the way ranges are build.
:xref
These arguments choose the second alternative. The argument
string list of parameter
:xref
describes where the index entry
should point to.
:attr
This parameter may be used to tag a location reference with a
certain attribute or it names the class of a cross reference. It
may also used to associate different markup for different
attributes in the markup phase. If this parameter is omitted or is
the empty string, the indexentry is declared to have the attribute
default
.
Some examples:
(indexentry :key ("airplane") :locref "25" :attr "default")
defines an index entry with the key airplane' indexed on page 25'. This index entry has the attribute
default
.
(indexentry :key ("house") :xref("building") :attr "see")
defines a cross reference with the key house
pointing to the term building
. This cross reference belongs to the
cross reference class see
.
(indexentry :key ("house") :xref("building") :open-range)
is an invalid specification, since :open-range
mustn't be used together with cross
references.
The following command line options are accepted:
xindy [-h] [-t] [-v] [-l logfile] [-o outfile] [-L n] [-f filterprog] indexstyle raw-index
The argument indexstyle
names a
file, containing the index style description. The argument
raw-index
names a file, containing the
raw index. Both arguments are mandatory.
Gives a short summary of all command line options.
Writes helpful information into the specified logfile
. For example, the keyword mappings are
written into this file, so one can check if the intended mappings
were actually performed this way.
Explicitly defines the name of the output
file. If not given, the name of the
raw-index
is used with its extension
changed to .ind
(or added, if it had
no extension at all).
Enters tracing mode of the symbolic markup tags. The format of
the emitted tags can be defined with the command markup-trace
.
Set the xindy logging-level to n
.
Run filterprog
on raw-index
before reading. The program must act as
a filter reading from stdin
and
writing to stdout
. The most obvious
use of this option in conjunction with TeX is to run -f tex2xindy
on the index file prior to reading
the entries into xindy.
Shows the version number of xindy.
Errors and warnings are reported to stdout
and additionally to the logfile if
-l
was specified.
The system uses the concept of a search path for finding the
index style files and modules. The searchpath can be set with the
environment variable XINDY_SEARCHPATH
which must contain a list of colon-separated directories. If it
ends with a colon, the built-in searchpath is added to the entire
searchpath. See the command searchpath for further details.
Table of Contents
A PDF file is no longer supported.
Currently we don't know any working solution to convert DocBook XML to Texinfo (at least not for a complex document). Anyone who wants to work on this issue is highly welcome. A starting point could be the docbook2X project at http://docbook2x.sourceforge.net.
Quite a few poeple are asking for a version in vim-help format. Srinath Avadhanula has already done some work on this.
The source format of this document is DocBook XML (V4.3).
The various output formats were generated using:
You'll always find the newest version of this document at http://www.miwie.org/tex-refs/.
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