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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
The \addtocounter command increments the counter by the amount specified by the value argument. The value argument can be negative.
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....
The \arabic command causes the value of the counter to be printed in Arabic numbers, i.e., 3.
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.
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.
The \refstepcounter command works like \stepcounter See \stepcounter, except it also defines the current \ref value to be the result of \thecounter.
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....
The \stepcounter command adds one to the counter and resets all subsidiary counters.
The \setcounter command sets the value of the counter to that specified by the value argument.
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.
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.
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
Thus, a label for a figure would look like fig:bandersnatch.
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.
The \ref command produces the number of the sectional unit, equation number, ... of the corresponding \label command. For a smart version see \vref.
\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{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{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{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.
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.
The \onecolumn declaration starts a new page and produces single-column output.
The \raggedbottom declaration makes all pages the height of the text on that page. No extra vertical space is added.
\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.
Column 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.
\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 \\.
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.
\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.
\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.
\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.
\begin{equation} math formula \end{equation}
The equation environment centers your equation on the page and places the equation number in the right margin.
\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.
\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 \\.
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.
\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 \\.
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.
\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.
This environment is used for creating letters. See Letters.
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.
\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.
\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:
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.
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.
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.
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.
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.
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.
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:
See \makebox.
The \multiput command can be used when you are putting the same object in a regular pattern across a picture.
The \oval command produces a rectangle with rounded corners. The optional argument, [portion], allows you to select part of the oval.
Note 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.
The \put command places the item specified by the mandatory argument at the given coordinates.
The \shortstack command produces a stack of objects. The valid positions are:
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.
\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.
\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.
\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}
\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:
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.
\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:
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.
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{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.
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.
\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.
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.
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.
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.
\begin{theorem} theorem text \end{theorem}
The theorem environment produces Theorem x in boldface followed by your theorem text.
\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.
\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.
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
\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.
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.
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.
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{\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{\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{\gnat}{length}
The \addtolength command increments length command by the amount specified in the length argument. It can be a negative amount.
\settodepth{\gnat}{text}
The \settodepth command sets the value of a length command equal to the depth of the text argument.
\settoheight{\gnat}{text}
The \settoheight command sets the value of a length command equal to the height of the text argument.
\settowidth{\gnat}{text}
The \settowidth command sets the value of a length command equal to the width of the text argument.
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:
\pagestyle{option}
The \pagestyle command changes the style from the current page on throughout the remainder of your document.
The valid options are:
\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.
\appendix
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.
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:
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.
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:
\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:
Note 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,
Several of the above and some similar accents can also be produced in math mode. The following commands may be used only in math mode:
Some 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:
LaTeX 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:
The \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:
Note 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 \notand the symbol.
Delimiters are objects which act logically like parentheses. These can be used only in math mode.
The delimiters recognized by LaTeX include:
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
These commands may be used only in math mode:
Capital letters:
See also:
The following symbols are also used only in math mode
The 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:
The \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:
sec_unit controls the formatting of the entry. It should be one of the following, depending upon the value of the file argument:
\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.
\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}.
Table 1.10. Standard type size commands
\tiny | |
\scriptsize | |
\footnotesize | |
\small | |
\normalsize | (default) |
\large | |
\Large | |
\LARGE | |
\huge | |
\Huge |
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.