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Some minor updates for 15 years later.
author | David A. Holland |
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date | Tue, 31 May 2022 01:45:26 -0400 |
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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 3.2//EN"> <HTML> <HEAD> <TITLE>Getting Started with AnaGram</TITLE> </HEAD> <BODY BGCOLOR="#ffffff" BACKGROUND="tilbl6h.gif" TEXT="#000000" LINK="#0033CC" VLINK="#CC0033" ALINK="#CC0099"> <P> <IMG ALIGN="right" SRC="images/agrsl6c.gif" ALT="AnaGram" WIDTH=124 HEIGHT=30> <BR CLEAR="all"> Back to <A HREF="index.html">Index</A> <P> <IMG ALIGN="bottom" SRC="images/rbline6j.gif" ALT="----------------------" WIDTH=1010 HEIGHT=2 > <BR CLEAR="all"> <H1>Getting Started with AnaGram</H1> <IMG ALIGN="bottom" SRC="images/rbline6j.gif" ALT="----------------------" WIDTH=1010 HEIGHT=2 > <P> <A HREF = "#RunningAnaGram">Running AnaGram</A><BR> <A HREF = "#AnaGramHelp">AnaGram Help</A><BR> <A HREF = "#AnaGramWorks">How Anagram Works</A><BR> <A HREF = "#ProgDevelop">Program Development with AnaGram</A><BR> <A HREF = "#AnaGramExample">An AnaGram Example</A><BR> <A HREF = "#OtherExamples">Other AnaGram Examples</A><BR> <P> <BR> <H2><A NAME="RunningAnaGram">Running AnaGram</A></H2> <P>There are two AnaGram executables: ag.exe is the graphical version; agcl.exe is a command line version, suitable for use in make files. If you provide a file name on the command line when you invoke ag.exe, it will load and analyze the file. If the Autobuild switch on the Options menu has been set AnaGram will also build a parser. <P> The command line version can accept any number of syntax files on the command line. It will attempt to build a parser for each in turn. If it fails it will return a non-zero value and will ignore any remaining command line arguments. <P> <BR> <H2><A NAME="AnaGramHelp">AnaGram Help</A></H2> AnaGram has an online hypertext help system, with a Help Cursor, F1 help, flyover help, and a Help Topics window. Online Help windows stay on-screen until you dismiss them, so you can view any number at the same time. Right-clicking on an Online Help window brings up a popup menu of all linked topics in the window. For details, select Using Help from the Help menu of the Control Panel. <P> AnaGram's documentation in HTML format, part of which you are currently reading, is indexed in <A HREF="index.html">index.html</A>. It covers Getting Started, examples, and some further topics mainly condensed from the User's Guide. <P> The <A HREF=../usersguide.pdf>AnaGram User's Guide</A> provides the most detail, and could, if desired, be printed and bound. <P> <BR> <H2><A NAME="AnaGramWorks">How AnaGram Works</A></H2> AnaGram contains an LALR-1 parser generator which creates a table driven <A HREF="gloss.html#Parser"> parser</A> from a <A HREF="gloss.html#Grammar"> grammar</A> written in a variant of Backus-Naur form. AnaGram works in two steps. In the first step, or analysis phase, it reads a <em>syntax file</em> and compiles a number of tables describing the grammar. In the second step, or build phase, it writes two output files: a <em>parser file</em>, written in C or C++, and a header file. <p> The header file contains definitions and declarations. The parser file consists of: <UL> <LI>The <em>C prologue</em>, if any.</LI> <LI>Definitions and declarations provided by AnaGram.</LI> <LI><A HREF="gloss.html#ReductionProcedure"> Reduction procedures</A>.</LI> <LI>A customized <A HREF="gloss.html#ParsingEngine"> parsing engine</A>.</LI> </UL> <P> The name of the parser file is controlled by the <b> parser file name</b> parameter. The name of the parser itself, that is, the C symbol within the program, is controlled by <b>parser name</b>. In the default case, the parser file will have the same name as the syntax file, with the extension <tt>.c</tt>. The name of the parser will be the same as the name of the syntax file, except that it will be entirely lower case. <p> Syntax files normally have the extension <tt>.syn</tt>. The rules for writing syntax files are given in the AnaGram User's Guide and in appropriate help windows in AnaGram. A summary of the rules is given in <A HREF="summary.html">Summary of AnaGram Notation</A>. As with all programming languages, it is easiest to learn the basics of AnaGram from examples. <P> <BR> <H2><A NAME="ProgDevelop">Program Development with AnaGram</A></H2> The first step in writing a program is to write a grammar in AnaGram notation which describes the input the program expects.<p> The file containing the grammar, called the <em>syntax file</em>, should have the extension <tt>.syn</tt>. You could also make up a few sample input files at this time, but it is not necessary to write <A HREF="gloss.html#ReductionProcedure"> reduction procedures</A> at this stage. <p> Run AnaGram and use the <em>Analyze Grammar</em> command to create parse tables. If there are syntax errors in the grammar at this point, you will have to correct them before proceeding, but you do not necessarily have to eliminate conflicts, if there are any, at this time. There are, however, many aids available to help you with conflicts. These aids are described in the AnaGram User's Guide, and somewhat more briefly in the Online Help topics. <p> Once syntax errors are corrected, you can try out your grammar on the sample input files using the <A HREF="ftrace.html"> File Trace</A> facility described below. With File Trace, you can see interactively just how your grammar operates on your test files. You can also use <A HREF="gtrace.html"> GrammarTrace</A> to answer "what if" questions concerning input to the grammar. The Grammar Trace does not use a test file, but rather allows you to make input choices interactively. <p> At any time, you can write <A HREF="gloss.html#ReductionProcedure"> reduction procedures</A> to process your input data as its components are identified in the input stream. Each procedure is associated with a <A HREF="gloss.html#GrammarRule"> grammar rule</A>. The reduction procedures will be incorporated into your parser when you create it with the <em>Build Parser</em> command. <P> By default, unless you specify an input procedure, your parser will read input from <tt>stdin</tt>, using the default <tt>GET_INPUT</tt> macro. You will probably wish to redefine <tt>GET_INPUT</tt>, or configure your parser to use <B>pointer input</B> or <B>event driven</B> input. <P> <BR> <H2><A NAME="AnaGramExample">An AnaGram Example: <tt>ffcalc.syn</tt></A></H2> <p> To give you a quick introduction to AnaGram notation, a simple, but complete, AnaGram program called <tt>ffcalc.syn</tt> is provided in <A HREF="examples/ffcex.html">annotated form</A>. This program may also be found in <tt>examples/ffcalc</tt> in your AnaGram distribution. <p> <tt>ffcalc.syn</tt> implements a simple four function calculator. The calculator has 52 registers, labeled `a' through `z' and `A' through `Z'. <tt>ffcalc</tt> evaluates arithmetic expressions and assignment statements and prints the results. The expressions may contain `+', `-', `*', and `/' operators as well as parentheses. In addition, <tt>ffcalc</tt> supports the free use of white space and C style comments in the input. It also contains complete error handling, including syntax error diagnostics, and <A HREF="gloss.html#Resynchronization"> resynchronization</A>.<p> <P> <BR> <H2><A NAME="OtherExamples">Other AnaGram Examples</A></H2> A number of other <A HREF="examples/index.html">examples</A>, ranging from nearly trivial to quite complex, have been provided on the AnaGram distribution disk in the <tt>examples</tt> directory. All of the examples are complete programs which you may build, compile and run. <p> At the most elementary level, there are example files for Hello, World! (<tt>hw</tt>) and Fahrenheit/Celsius Conversion (<tt>fc</tt>). The documentation files for these examples are essentially tutorials in the use of AnaGram. A good way to familiarize yourself with AnaGram, therefore, is to try out these examples. <p> You could also try building a <A HREF="gloss.html#Parser">parser</A> from <tt>ffcalc.syn</tt>. Compile and link it using your C compiler. Then try running it. Since it uses default input options which read <tt>stdin</tt> you can either type input directly, redirect input from one of the test files provided, or create your own test file. <p> At the more advanced level, there is a complete, functional C macro preprocessor (<tt>mpp</tt>) with your choice of two C grammars. There is also a moderately complex scripting language (<tt>dsl</tt>) which provides the functionality of DOS batch files combined with standard programming constructs such as if statements and while statements. <tt>dsl</tt> also contains capability for describing data acquisition screens. <p> For each example there is a subdirectory containing all of the source files necessary for the example as well as a documentation file explaining the example. <p> A number of the examples have been written using C++. Some of these use class definitions which are found in the <A HREF="oldclasslib/index.html">oldclasslib</A> directory. </p> <BR> <IMG ALIGN="bottom" SRC="images/rbline6j.gif" ALT="----------------------" WIDTH=1010 HEIGHT=2 > <P> <IMG ALIGN="right" SRC="images/pslrb6d.gif" ALT="Parsifal Software" WIDTH=181 HEIGHT=25> <BR CLEAR="right"> <P> <A HREF="index.html">Back to Index</A> <P> <ADDRESS><FONT SIZE="-1"> AnaGram parser generator - documentation<BR> Getting Started With AnaGram<BR> Copyright © 1993-1999, Parsifal Software. <BR> All Rights Reserved.<BR> </FONT></ADDRESS> </BODY> </HTML>