Automatic documentation with protex: Difference between revisions

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<span style="color:darkorange">'''''The ProTeX script ships with GEOS-Chem.  It is contained in the doc/ folder of the GEOS-Chem source code, and is invoked when you type <code>make doc</code>.  Therefore, you only have to download the TARball package mentioned below file if you wish to use ProTeX as a standalone program with code packages other than GEOS-Chem.'''''</span>
''The ProTeX script ships with GEOS-Chem.  It is contained in the doc/ folder of the GEOS-Chem source code, and is invoked when you type <tt>make doc</tt>.  Therefore, you only have to download the TARball package mentioned below file if you wish to use ProTeX as a standalone program with code packages other than GEOS-Chem.''


Protex is a very useful Perl script that can strip information from a standard Fortran document header and save that to a LaTeX file.  Protex was developed at the Goddard Space Flight Center by Arlindo Da Silva, Will Sawyer, and others.
Protex is a very useful Perl script that can strip information from a standard Fortran document header and save that to a LaTeX file.  Protex was developed at the Goddard Space Flight Center by Arlindo Da Silva, Will Sawyer, and others.
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We shall use protex to auto-document all ESMF-compatible code created at Harvard.  Also, [[GEOS-Chem versions under development|GEOS-Chem v8-01-03]] and higher will utilize protex documentation (at least for newly-added code).  We therefore recommend GEOS-Chem users to become familiar with protex.
We shall use protex to auto-document all ESMF-compatible code created at Harvard.  Also, [[GEOS-Chem versions under development|GEOS-Chem v8-01-03]] and higher will utilize protex documentation (at least for newly-added code).  We therefore recommend GEOS-Chem users to become familiar with protex.


<span style="color:darkorange">'''''NOTE: In order to use protex, you must have the various LaTeX utilities (e.g. latex, pdflatex, dvipdf, dvips, etc.) installed on your system.  These should come standard with most builds of Unix or Linux.'''''</span>
''NOTE: In order to use protex, you must have the various LaTeX utilities (e.g. latex, pdflatex, dvipdf, dvips, etc.) installed on your system.  These should come standard with most builds of Unix or Linux.''


== Downloading protex ==
== Downloading protex ==


<span style="color:darkorange">'''''NOTE: The ProTeX script ships with GEOS-Chem.  It is contained in the doc/ folder of the GEOS-Chem source code, and is invoked when you type <code>make doc</code>.  Therefore, you only have to download this TARball file if you wish to use ProTeX as a standalone program with code packages other than GEOS-Chem.'''''</span>
''NOTE: The ProTeX script ships with GEOS-Chem.  It is contained in the doc/ folder of the GEOS-Chem source code, and is invoked when you type <tt>make doc</tt>.  Therefore, you only have to download this TARball file if you wish to use ProTeX as a standalone program with code packages other than GEOS-Chem.''


Click [http://acmg.seas.harvard.edu/geos/wiki_docs/protex/protex.tar.gz here to download a tarball file] with the <tt>protex</tt> script, template headers, and sample output files.
Click [http://acmg.seas.harvard.edu/geos/wiki_docs/protex/protex.tar.gz here to download a tarball file] with the <tt>protex</tt> script, template headers, and sample output files.
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{| border=1 cellspacing=0 cellpadding=5  
{| border=1 cellspacing=0 cellpadding=5  
|-valign="top" bgcolor="#CCCCCC"
|-valign="top" bgcolor="#CCCCCC"
!width="200px"|Command
!width="220px"|Command
!width="800px"|Description
!width="780px"|Description


|-valign="top"
|-valign="top"
|README
|<tt>README</tt>
|A file that describes the contents of the tar file.
|A file that describes the contents of the tar file.
   
   
|-valign="top"
|-valign="top"
|protex
|<tt>protex</tt>
|Perl script (by Arlindo da Silva et al) from GSFC that converts special F90 header comment tags into LaTeX format.
|Perl script (by Arlindo da Silva et al) from GSFC that converts special F90 header comment tags into LaTeX format.


|-valign="top"
|-valign="top"
|f90pdf
|<tt>f90pdf</tt>
|Perl script (by Bob Yantosca) which is a wrapper for protex.  Calls <tt>protex</tt> and <tt>pdflatex</tt> to convert the output of <tt>protex</tt> to PDF format.
|Perl script (by Bob Yantosca) which is a wrapper for protex.  Calls <tt>protex</tt> and <tt>pdflatex</tt> to convert the output of <tt>protex</tt> to PDF format.


|-valign="top"
|-valign="top"
|f90ps
|<tt>f90ps</tt>
|Perl script (by Bob Yantsoca) which is a wrapper for <tt>protex</tt>. Calls <tt>protex</tt>, <tt>latex</tt>, and <tt>dvips</tt> to convert the output of <tt>protex</tt> to PostScript format.
|Perl script (by Bob Yantsoca) which is a wrapper for <tt>protex</tt>. Calls <tt>protex</tt>, <tt>latex</tt>, and <tt>dvips</tt> to convert the output of <tt>protex</tt> to PostScript format.


|-valign="top"
|-valign="top"
|template_introduction.txt
|<tt>template_introduction.txt</tt>
|Front page template file for use with the protex script.  Use this template to specify the title of the document, authors, affiliation, and date.  This should always be the first file passed to <tt>protex</tt>.
|Front page template file for use with the protex script.  Use this template to specify the title of the document, authors, affiliation, and date.  This should always be the first file passed to <tt>protex</tt>.


|-valign="top"
|-valign="top"
|template_includefile.h
|<tt>template_includefile.h</tt>
|Template header file with sample F90 declarations
|Template header file with sample F90 declarations


|-valign="top"
|-valign="top"
|template_module.F90
|<tt>template_module.F90</tt>
|Template F90 module with module header and internal routines.
|Template F90 module with module header and internal routines.


|-valign="top"
|-valign="top"
|template_routine.F90
|<tt>template_routine.F90</tt>
|Template F90 file for a standalone program or routine (i.e. not contained in a module).
|Template F90 file for a standalone program or routine (i.e. not contained in a module).


|-valign="top"
|-valign="top"
|sample.pdf
|<tt>sample.pdf</tt>
|Sample PDF output file, created from the <tt>template_includefile.h</tt>, <tt>template_routine.F90</tt> and <tt>template_module.F90</tt> files.
|Sample PDF output file, created from the <tt>template_includefile.h</tt>, <tt>template_routine.F90</tt> and <tt>template_module.F90</tt> files.


|-valign="top"
|-valign="top"
|sample.ps
|<tt>sample.ps</tt>
|Sample PostScript output file, created from the <tt>template_includefile.h</tt>, <tt>template_routine.F90</tt> and <tt>template_module.F90</tt> files.
|Sample PostScript output file, created from the <tt>template_includefile.h</tt>, <tt>template_routine.F90</tt> and <tt>template_module.F90</tt> files.


Line 77: Line 77:
This will create the files:
This will create the files:
    
    
;output.tex: Documentation file in LaTeX format file  
{| border=1 cellspacing=0 cellpadding=5
;output.pdf: Documentation file in PDF format
|-valign="top" bgcolor="#CCCCCC"
!width="220px"|File
!width="780px"|Description
 
|-valign="top"
|<tt>output.tex</tt>
|Documentation file in LaTeX format file
 
|-valign="top"
|<tt>output.pdf</tt>
|Documentation file in PDF format
 
|}


You may choose to rename these as you see fit.  <tt>f90pdf</tt> is a convenience wrapper script.  It executes the following commands:
You may choose to rename these as you see fit.  <tt>f90pdf</tt> is a convenience wrapper script.  It executes the following commands:
Line 111: Line 123:
This will create the files:
This will create the files:
    
    
;output.tex: Documentation file in LaTeX format file  
This will create the files:
;output.psDocumentation file in PDF format
 
{| border=1 cellspacing=0 cellpadding=5
|-valign="top" bgcolor="#CCCCCC"
!width="220px"|File
!width="780px"|Description
 
|-valign="top"
|<tt>output.tex</tt>
|Documentation file in LaTeX format file
 
|-valign="top"
|<tt>output.ps</tt>
|Documentation file in PostScript (PS) format
 
|}


You may choose to rename these as you see fit.  Like <tt>f90pdf</tt>, <tt>f90ps</tt> is a convenience wrapper script.  It executes the following commands:
You may choose to rename these as you see fit.  Like <tt>f90pdf</tt>, <tt>f90ps</tt> is a convenience wrapper script.  It executes the following commands:

Latest revision as of 21:59, 11 January 2019

The ProTeX script ships with GEOS-Chem. It is contained in the doc/ folder of the GEOS-Chem source code, and is invoked when you type make doc. Therefore, you only have to download the TARball package mentioned below file if you wish to use ProTeX as a standalone program with code packages other than GEOS-Chem.

Protex is a very useful Perl script that can strip information from a standard Fortran document header and save that to a LaTeX file. Protex was developed at the Goddard Space Flight Center by Arlindo Da Silva, Will Sawyer, and others.

We shall use protex to auto-document all ESMF-compatible code created at Harvard. Also, GEOS-Chem v8-01-03 and higher will utilize protex documentation (at least for newly-added code). We therefore recommend GEOS-Chem users to become familiar with protex.

NOTE: In order to use protex, you must have the various LaTeX utilities (e.g. latex, pdflatex, dvipdf, dvips, etc.) installed on your system. These should come standard with most builds of Unix or Linux.

Downloading protex

NOTE: The ProTeX script ships with GEOS-Chem. It is contained in the doc/ folder of the GEOS-Chem source code, and is invoked when you type make doc. Therefore, you only have to download this TARball file if you wish to use ProTeX as a standalone program with code packages other than GEOS-Chem.

Click here to download a tarball file with the protex script, template headers, and sample output files.

To install protex, do the following:

gunzip protex.tar.gz
tar xvf protex.tar

This will install the following files into the protex subdirectory:

Command Description
README A file that describes the contents of the tar file.
protex Perl script (by Arlindo da Silva et al) from GSFC that converts special F90 header comment tags into LaTeX format.
f90pdf Perl script (by Bob Yantosca) which is a wrapper for protex. Calls protex and pdflatex to convert the output of protex to PDF format.
f90ps Perl script (by Bob Yantsoca) which is a wrapper for protex. Calls protex, latex, and dvips to convert the output of protex to PostScript format.
template_introduction.txt Front page template file for use with the protex script. Use this template to specify the title of the document, authors, affiliation, and date. This should always be the first file passed to protex.
template_includefile.h Template header file with sample F90 declarations
template_module.F90 Template F90 module with module header and internal routines.
template_routine.F90 Template F90 file for a standalone program or routine (i.e. not contained in a module).
sample.pdf Sample PDF output file, created from the template_includefile.h, template_routine.F90 and template_module.F90 files.
sample.ps Sample PostScript output file, created from the template_includefile.h, template_routine.F90 and template_module.F90 files.

If you have root privilege on your system, you can then copy the protex file to /usr/local/bin or whichever directory contains system-wide executables. Otherwise, you can install it to a directory in your own space.

Generating PDF documentation

To generate a PDF file, type:

  f90pdf [list of files]

This will create the files:

File Description
output.tex Documentation file in LaTeX format file
output.pdf Documentation file in PDF format

You may choose to rename these as you see fit. f90pdf is a convenience wrapper script. It executes the following commands:

  protex -s -f [list of files] > output.tex
  pdflatex output.tex
  pdflatex output.tex
  pdflatex output.tex   
  rm *.dvi *.aux *.log *.toc 

The pdflatex command is a useful shorthand. Using pdflatex replaces separate calls to latex and dvipdf. For example, the above commands are equivalent to:

  protex -s -f [list of files] > output.tex
  latex output.tex
  latex output.tex
  latex output.tex
  dvipdf output.tex output.pdf
  rm *.dvi *.aux *.log *.toc 

NOTES:

  1. The -s option of protex will cause only the module, subroutine, and function headers to be included in the output.
  2. The -f option of protex suppresses printing source code file information next to each module or routine name.
  3. Calling pdflatex 3 times is necessary to ensure that the table of contents information will be compiled correctly into the final output file.
  4. If the f90pdf script hangs for a while then it has probably encountered an error. To continue you may type "r" or exit with "x".

Generating PostScript documentation

To generate a PostScript file, type:

  f90ps [list of files]

This will create the files:

This will create the files:

File Description
output.tex Documentation file in LaTeX format file
output.ps Documentation file in PostScript (PS) format

You may choose to rename these as you see fit. Like f90pdf, f90ps is a convenience wrapper script. It executes the following commands:

  protex -s -f [list of files] > output.tex
  latex output.tex
  latex output.tex
  latex output.tex   
  dvips output.dvi -o output.ps
  rm *.dvi *.aux *.log *.toc 

NOTES:

  1. The -s option of protex will cause only the module, subroutine, and function headers to be included in the output.
  2. The -f option of protex suppresses printing source code file information next to each module or routine name.
  3. Note: calling latex 3 times is necessary to ensure that the table of contents information will be compiled correctly into the final output file.
  4. Also note: since there is no equivalent "pslatex" command, we must do the intermediate step of creating the dvi file and then calling dvips to create the PostScript file.
  5. If the f90ps script hangs for a while then it has probably encountered an error. To continue you may type "r".

Generating HTML documentation

To generate HTML documentation from F90 files, type:

  protex -s -f [list of files] > output.tex
  latex2html output.tex

This will call the latex2html utility (which ships standard with Linux) to parse the LaTeX file "output.tex" and create navigatable HTML pages.

NOTES:

  1. The -s option of protex will cause only the module, subroutine, and function headers to be included in the output.
  2. The -f option of protex suppresses printing source code file information next to each module name.

Sample output files

We have created sample output files for you (sample.pdf, sample.ps) from the F90 template files located in this directory. These were created with the following commands:

  f90pdf template_introduction.txt *.h *.F90
  mv output.pdf sample.pdf

  f90ps template_introduction.txt *.h *.F90
  mv output.ps sample.ps

Note that by placing the template_introduction.txt file first before any Fortran files (*.h, *.F90), this will cause a title page to be added to the output files. You may omit this if you wish.

Protex header files in more depth

template_introduction.txt

You can use the template_introduction.txt to define a title page for your document, such as:

!------------------------------------------------------------------------------
!                  GEOS-Chem Global Chemical Transport Model                  !
!------------------------------------------------------------------------------
!BOI
! !TITLE: Front page template
! !AUTHORS: Bob Yantosca and Philippe Le Sager
! !AFFILIATION: School of Engineering and Applied Sciences, Harvard University
! !DATE: May 23, 2008
!EOI
!------------------------------------------------------------------------------

NOTES:

  1. The BOI and EOI are used to define extent of the header. Protex will only look at the text between BOI and EOI.
  2. Text following !TITLE, !AUTHORS, !AFFILIATION, and !DATE tags must be placed on the same line.
  3. You may also specify an optional !INTRODUCTION tag following !DATE, which will become topic #1 in the table of contents. This allows you to go back later and manually insert LaTeX markup later into the output.tex file.

template_includefile.h

You can use the template_includefile.h to document an include file with either common blocks or defined parameters, such as:

!------------------------------------------------------------------------------
!                  GEOS-Chem Global Chemical Transport Model                  !
!------------------------------------------------------------------------------
!BOP
!
! !INCLUDE: GC_SomethingIncludeFile.h
!
! !DESCRIPTION: This include file contains the various parameters that will
!   allow the module and routine to do stuff to various things in various
!   routines in various places.
!\\
!\\
! !PUBLIC TYPES:
!
  TYPE t_GeosChemSomething
     !%%% declare stuff here %%%
  END TYPE t_GeosChemSomething
!
! !DEFINED PARAMETERS:
!
  INTEGER(ESMF_KIND_I8), PUBLIC, PARAMETER :: myIntParam   ! INTEGER value
  REAL(ESMF_KIND_I8),    PUBLIC, PARAMETER :: myRealParam  ! REAL*8 value
!
! !REVISION HISTORY: 
!  21 May 2008 - R. Yantosca - Initial Version
!
! !REMARKS:
!EOP
!------------------------------------------------------------------------------

NOTES:

  1. The BOP and EOP tags denote the beginning and end of the protex prologue. Protex will search for text between these two tags.
  2. You must place the name of the include file on the same line as the !INCLUDE: tag.
  3. The text following the !DESCRIPTION tag must also start on the same line. This text will be rendered as formatted text instead of in fixed-space courier font. This means that:
    • Special LaTeX characters (e.g. _ and #) must be prefaced with a backslash (e.g. \_ and \#) or else this will cause LaTeX to choke when parsing the file.
    • Two manual line breaks !\\ must be placed at the end of the text to prevent the next tag from starting on the same line.
  4. Except for !MODULE and !DESCRIPTION, for the rest of the protex tags it is OK to start text on a new line below the tag. You can place extra Fortran comments ! after protex tags to make the code more readable.
  5. You should list the actual program unit definition (in this case, the MODULE GC_SomethingMod statement) on a new line following the !INTERFACE tag.
  6. References to journal articles or other notes should be placed after the !REMARKS tag.

template_module.F90

This file contains headers for declaring a Fortran 90 module, as well for the internal module routines.

Header for top-of-module

Here is the protex header that goes at the very top of a Fortran 90 module:

!------------------------------------------------------------------------------
!                  GEOS-Chem Global Chemical Transport Model                  !
!------------------------------------------------------------------------------
!BOP
!
! !MODULE: GC_SomethingMod.F90
!
! !DESCRIPTION: This module contains the data type to declare a Something
!   object and the methods to work with the Something object. 
!\\
!\\
! !INTERFACE: 
!
MODULE GC_SomethingMod
! 
! !USES:
!
  USE ESMF_Mod
  IMPLICIT NONE
!
! !PUBLIC TYPES:
!
  TYPE t_GeosChemSomething 
     !... declare stuff here
  END TYPE t_GeosChemSomething
!
! !PUBLIC MEMBER FUNCTIONS:
!
  PUBLIC :: GC_SomethingRoutine1
  PUBLIC :: GC_SomethingFunction1
!
! !PUBLIC DATA MEMBERS:
!
  INTEGER(ESMF_KIND_I4), PUBLIC :: myPublicVariable  ! public data variable
!
! !REVISION HISTORY:
!  21 May 2008 - R. Yantosca - Initial Version
!
! !REMARKS:
! Protex is great!
!
!EOP
!------------------------------------------------------------------------------

The tags are mostly self-explanatory. However, you must be aware of a few things:

  1. The BOP and EOP tags denote the beginning and end of the protex prologue. Protex will search for text between these two tags.
  2. You must place the name of the module on the same line as the !MODULE tag.
  3. The text following the !DESCRIPTION tag must also start on the same line. This text will be rendered as formatted text instead of in fixed-space courier font. This means that:
    • Special LaTeX characters (e.g. _ and #) must be prefaced with a backslash (e.g. \_ and \#) or else this will cause LaTeX to choke when parsing the file.
    • Two manual line breaks !\\ must be placed at the end of the text to prevent the next tag from starting on the same line.
  4. Except for !MODULE and !DESCRIPTION, for the rest of the protex tags it is OK to start text on a new line below the tag. You can place extra Fortran comments ! after protex tags to make the code more readable.
  5. You should list the actual program unit definition (in this case, the MODULE GC_SomethingMod statement) on a new line following the !INTERFACE tag.
  6. References to journal articles or other notes should be placed after the !REMARKS tag.

Header for module procedures

Here is the protex header that should be placed at the top of each subroutine that is contained in the module:

!------------------------------------------------------------------------------
!                  GEOS-Chem Global Chemical Transport Model                  !
!------------------------------------------------------------------------------
!BOP
!
! !IROUTINE:  GC_SomethingRoutine1
!
! !DESCRIPTION: This routine does something to the input variable and returns
! the result in the output variable.
!\\
!\\
! !INTERFACE:
!
  SUBROUTINE GC_SomethingRoutine1( input, inpout, output, status )
!
! !INPUT PARAMETERS: 
!
    INTEGER(ESMF_KIND_I4), INTENT(IN) :: input   ! Input variable 
!
! !INPUT/OUTPUT PARAMETERS: 
!
    INTEGER(ESMF_KIND_I4), INTENT(IN) :: inpout  ! In/out variable
!
! !OUTPUT PARAMETERS:
!
    INTEGER(ESMF_KIND_I4), INTENT(IN) :: output  ! Output variable
!
! !REVISION HISTORY: 
!  21 May 2008 - R. Yantosca - Initial Version
!
! !REMARKS:
! Protex is great!
!
!EOP
!------------------------------------------------------------------------------
!BOC
   !%%% Your code goes here %%%
 END SUBROUTINE GC_SomethingRoutine1
!EOC

and here is the corresponding header for a function that is contained in the module:

!------------------------------------------------------------------------------
!                  GEOS-Chem Global Chemical Transport Model                  !
!------------------------------------------------------------------------------
!BOP
!
! !IROUTINE:  GC_SomethingFunction1
!
! !DESCRIPTION: This function does something to the input variable and returns
! the result in the value variable.
!\\
!\\
! !INTERFACE:
!
  FUNCTION GC_SomethingFunction1( input ) RESULT( value )
!
! !INPUT PARAMETERS: 
!
   INTEGER(ESMF_KIND_I4), INTENT(IN) :: input   ! Input variable 
!
! !OUTPUT PARAMETERS:
!
   INTEGER(ESMF_KIND_I4)             :: value   ! Function value
!
! !REVISION HISTORY: 
!  21 May 2008 - R. Yantosca - Initial Version
!
! !REMARKS:
! Protex is great!
!
!EOP
!------------------------------------------------------------------------------
!BOC   
   !%%% Your code goes here! %%%
 END FUNCTION GC_SomethingFunction1
!EOC

NOTES:

  1. Here again, the tags BOP and EOP denote the extent of the protex prologue.
  2. The tags BOC and EOC denote the beginning and end of the source code. If you call protex with the -s option (or if you use the f90pdf and f90ps scripts), then protex will ignore the source code and only render the text from the prologues at the top of each routine.
  3. For routines that are contained by a module, we use the !IROUTINE tag. The name of the routine must be placed on the same line as !IROUTINE.

template_routine.F90

Header for standalone routines

The protex header for standalone routines (i.e. main programs, or subroutines and functions not contained within a module) is slightly different than the header for module procedures:

!------------------------------------------------------------------------------
!                  GEOS-Chem Global Chemical Transport Model                  !
!------------------------------------------------------------------------------ 
!BOP
!
! !ROUTINE: GC_Routine.F90
!
! !DESCRIPTION: This routine takes in an input variable, does something to it,
!  and then sends out an output variable.
!\\
!\\
! !INTERFACE:
!
SUBROUTINE GC_Routine( input, output )
!
! !USES:
!
  USE GC_SomethingMod
!
! !INPUT PARAMETERS: 
!
  REAL(ESMF_KIND_R8), INTENT(IN) :: input    ! input variable
!
! !OUTPUT PARAMETERS:
!
  REAL(ESMF_KIND_R8), INTENT(IN) :: output   ! output variable
!
! !BUGS:  
! None known at this time
!
! !SEE ALSO: 
! GC_SomethingMod.F90
!
! !SYSTEM ROUTINES: 
! None
!
! !FILES USED:  
! GC_SomethingMod.F90
!
! !REVISION HISTORY: 
! 21 May 2008 - R. Yantosca - Initial version
!
! !REMARKS:
! Protex is great!
! 
!EOP
!------------------------------------------------------------------------------
!BOC
  !%%% Your code goes here! %%% 
END SUBROUTINE GC_Routine
!EOC

NOTES:

  1. For standalone routines, we use the !ROUTINE tag as opposed to the !IROUTINE tag (which is reserved for routines within modules).

--Bob Y. 10:36, 28 May 2008 (EDT)

Useful LaTeX formatting commands

Here we include the LaTeX markup text commands for various useful constructs (lists, sections, etc). NOTE: These are only applicable for text that you place under the !DESCRIPTION section in the Protex header. For more information, please see Jeff Clark's online LaTeX tutorial.

Itemized bullet list

\begin{itemize}
\item This is Item 1
\item This is Item 2
\item This is Item 3
\end{itemize}

Numbered bullet list

\begin{enumerate}
\item This is Item 1
\item This is Item 2
\item This is Item 3
\end{enumerate}

Description list

\begin{description}
\item[Item Name 1] Description 1
\item[Item name 2] Description 2
\item[Item name 3] Description 3
\end{description}

Text formatting

\textbf{This text will be rendered as Boldface.}

\emph{This text will be rendered as Italics.}

\underline{This text will be rendered as Underline.}

\texttt{This text will be rendered as "teletype" text (i.e. fixed-space Courier font)}

Math mode

This text contains $i-1$ the term i-1 rendered into math mode.

This text contains $A_{i-1}$ A with the "i-1" subscripted.

This text contains $A^{i-1)$ A with the "i-1" superscripted

$$A_{i-1} = A_{i} - B_{i}$$  (This text describes an equation on its own line, with subscripts)

--Bob Y. 11:50, 15 April 2009 (EDT)