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- <meta name="author" content="Reid Spencer" name="author">
+ <meta name="author" content="Reid Spencer">
<meta name="description"
content="A description of the use and design of the LLVM Compiler Driver.">
</head>
<li><a href="#actions">Actions</a></li>
</ol>
</li>
- <li><a href="#details">Details</a>
<li><a href="#configuration">Configuration</a>
+ <ol>
+ <li><a href="#overview">Overview</a></li>
+ <li><a href="#filetypes">Configuration Files</a></li>
+ <li><a href="#syntax">Syntax</a></li>
+ <li><a href="#substitutions">Substitutions</a></li>
+ <li><a href="#sample">Sample Config File</a></li>
+ </ol>
<li><a href="#glossary">Glossary</a>
</ol>
<div class="doc_author">
<div class="doc_section"> <a name="introduction">Introduction</a></div>
<!-- *********************************************************************** -->
<div class="doc_text">
- <p>The <tt>llvmc</tt> <a href="def_tool">tool</a> is a configurable compiler
- <a href="def_driver">driver</a>. As such, it isn't the compiler, optimizer,
- or linker itself but it drives (invokes) other software that perform those
+ <p>The <tt>llvmc</tt> <a href="#def_tool">tool</a> is a configurable compiler
+ <a href="#def_driver">driver</a>. As such, it isn't a compiler, optimizer,
+ or a linker itself but it drives (invokes) other software that perform those
tasks. If you are familiar with the GNU Compiler Collection's <tt>gcc</tt>
tool, <tt>llvmc</tt> is very similar.</p>
<p>The following introductory sections will help you understand why this tool
<!-- _______________________________________________________________________ -->
<div class="doc_subsection"><a name="purpose">Purpose</a></div>
<div class="doc_text">
- <p><tt>llvmc</tt> was invented to make compilation with LLVM based compilers
- easier. To accomplish this, <tt>llvmc</tt> strives to:</p>
+ <p><tt>llvmc</tt> was invented to make compilation of user programs with
+ LLVM-based tools easier. To accomplish this, <tt>llvmc</tt> strives to:</p>
<ul>
<li>Be the single point of access to most of the LLVM tool set.</li>
<li>Hide the complexities of the LLVM tools through a single interface.</li>
with LLVM, because it:</p>
<ul>
<li>Makes integration of existing non-LLVM tools simple.</li>
- <li>Extends the capabilities of minimal front ends by optimizing their
+ <li>Extends the capabilities of minimal compiler tools by optimizing their
output.</li>
<li>Reduces the number of interfaces a compiler writer must know about
before a working compiler can be completed (essentially only the VMCore
interfaces need to be understood).</li>
<li>Supports source language translator invocation via both dynamically
loadable shared objects and invocation of an executable.</li>
- </ol>
-</p>
+ </ul>
</div>
<!-- _______________________________________________________________________ -->
<p>At a high level, <tt>llvmc</tt> operation is very simple. The basic action
taken by <tt>llvmc</tt> is to simply invoke some tool or set of tools to fill
the user's request for compilation. Every execution of <tt>llvmc</tt>takes the
- following sequence of steps:<br/>
+ following sequence of steps:</p>
<dl>
<dt><b>Collect Command Line Options</b></dt>
<dd>The command line options provide the marching orders to <tt>llvmc</tt>
<dt><b>Read Configuration Files</b></dt>
<dd>Based on the options and the suffixes of the filenames presented, a set
of configuration files are read to configure the actions <tt>llvmc</tt> will
- take. Configuration files are provided by either LLVM or the front end
- compiler tools that B<llvmc> invokes. These files determine what actions
- <tt>llvmc</tt> will take in response to the user's request. See the section
- on <a href="#configuration">configuration</a> for more details.</dd>
+ take. Configuration files are provided by either LLVM or the
+ compiler tools that <tt>llvmc</tt> invokes. These files determine what
+ actions <tt>llvmc</tt> will take in response to the user's request. See
+ the section on <a href="#configuration">configuration</a> for more details.
+ </dd>
<dt><b>Determine Phases To Execute</b></dt>
<dd>Based on the command line options and configuration files,
<tt>llvmc</tt> determines the compilation <a href="#phases">phases</a> that
<dd>If any action fails (returns a non-zero result code), <tt>llvmc</tt>
also fails and returns the result code from the failing action. If
everything succeeds, <tt>llvmc</tt> will return a zero result code.</dd>
- </dl></p>
+ </dl>
<p><tt>llvmc</tt>'s operation must be simple, regular and predictable.
Developers need to be able to rely on it to take a consistent approach to
compilation. For example, the invocation:</p>
- <tt><pre>
- llvmc -O2 x.c y.c z.c -o xyz</pre></tt>
+ <code>
+ llvmc -O2 x.c y.c z.c -o xyz</code>
<p>must produce <i>exactly</i> the same results as:</p>
- <tt><pre>
- llvmc -O2 x.c
- llvmc -O2 y.c
- llvmc -O2 z.c
- llvmc -O2 x.o y.o z.o -o xyz</pre></tt>
+ <pre><tt>
+ llvmc -O2 x.c -o x.o
+ llvmc -O2 y.c -o y.o
+ llvmc -O2 z.c -o z.o
+ llvmc -O2 x.o y.o z.o -o xyz</tt></pre>
<p>To accomplish this, <tt>llvmc</tt> uses a very simple goal oriented
procedure to do its work. The overall goal is to produce a functioning
executable. To accomplish this, <tt>llvmc</tt> always attempts to execute a
program.</dd>
</dl>
<p>The following table shows the inputs, outputs, and command line options
- applicabe to each phase.</p>
+ applicable to each phase.</p>
<table>
<tr>
<th style="width: 10%">Phase</th>
</ul></td>
<td class="td_left"><dl>
<dt><tt>-Ox</tt>
- <dd>This group of options affects the amount of optimization
+ <dd>This group of options controls the amount of optimization
performed.</dd>
</dl></td>
</tr>
<p>An action, with regard to <tt>llvmc</tt> is a basic operation that it takes
in order to fulfill the user's request. Each phase of compilation will invoke
zero or more actions in order to accomplish that phase.</p>
- <p>Actions come in two forms:<ol>
+ <p>Actions come in two forms:</p>
+ <ul>
<li>Invokable Executables</li>
<li>Functions in a shared library</li>
- </ul></p>
-</div>
-
-<!-- *********************************************************************** -->
-<div class="doc_section"><a name="details">Details</a></div>
-<!-- *********************************************************************** -->
-<div class="doc_text">
+ </ul>
</div>
<!-- *********************************************************************** -->
<div class="doc_text">
<p>This section of the document describes the configuration files used by
<tt>llvmc</tt>. Configuration information is relatively static for a
- given release of LLVM and a front end compiler. However, the details may
+ given release of LLVM and a compiler tool. However, the details may
change from release to release of either. Users are encouraged to simply use
- the various options of the B<llvmc> command and ignore the configuration of
- the tool. These configuration files are for compiler writers and LLVM
- developers. Those wishing to simply use B<llvmc> don't need to understand
+ the various options of the <tt>llvmc</tt> command and ignore the configuration
+ of the tool. These configuration files are for compiler writers and LLVM
+ developers. Those wishing to simply use <tt>llvmc</tt> don't need to understand
this section but it may be instructive on how the tool works.</p>
</div>
<p>Because <tt>llvmc</tt> just invokes other programs, it must deal with the
available command line options for those programs regardless of whether they
-were written for LLVM or not. Furthermore, not all compilation front ends will
-have the same capabilities. Some front ends will simply generate LLVM assembly
+were written for LLVM or not. Furthermore, not all compiler tools will
+have the same capabilities. Some compiler tools will simply generate LLVM assembly
code, others will be able to generate fully optimized byte code. In general,
<tt>llvmc</tt> doesn't make any assumptions about the capabilities or command
-line options of a sub-tool. It simply uses the details found in the configuration
-files and leaves it to the compiler writer to specify the configuration
-correctly.</p>
+line options of a sub-tool. It simply uses the details found in the
+configuration files and leaves it to the compiler writer to specify the
+configuration correctly.</p>
-<p>This approach means that new compiler front ends can be up and working very
-quickly. As a first cut, a front end can simply compile its source to raw
+<p>This approach means that new compiler tools can be up and working very
+quickly. As a first cut, a tool can simply compile its source to raw
(unoptimized) bytecode or LLVM assembly and <tt>llvmc</tt> can be configured
to pick up the slack (translate LLVM assembly to bytecode, optimize the
-bytecode, generate native assembly, link, etc.). In fact, the front end need
-not use any LLVM libraries, and it could be written in any language (instead of
-C++). The configuration data will allow the full range of optimization,
-assembly, and linking capabilities that LLVM provides to be added to these kinds
-of tools. Enabling the rapid development of front-ends is one of the primary
-goals of <tt>llvmc</tt>.</p>
-
-<p>As a compiler front end matures, it may utilize the LLVM libraries and tools
+bytecode, generate native assembly, link, etc.). In fact, the compiler tools
+need not use any LLVM libraries, and it could be written in any language
+(instead of C++). The configuration data will allow the full range of
+optimization, assembly, and linking capabilities that LLVM provides to be added
+to these kinds of tools. Enabling the rapid development of front-ends is one
+of the primary goals of <tt>llvmc</tt>.</p>
+
+<p>As a compiler tool matures, it may utilize the LLVM libraries and tools
to more efficiently produce optimized bytecode directly in a single compilation
and optimization program. In these cases, multiple tools would not be needed
and the configuration data for the compiler would change.</p>
<p>Configuring <tt>llvmc</tt> to the needs and capabilities of a source language
-compiler is relatively straight forward. A compiler writer must provide a
+compiler is relatively straight-forward. A compiler writer must provide a
definition of what to do for each of the five compilation phases for each of
the optimization levels. The specification consists simply of prototypical
command lines into which <tt>llvmc</tt> can substitute command line
</div>
<!-- _______________________________________________________________________ -->
-<div class="doc_subsection"><a name="filetypes"></a>Configuration Files</div>
+<div class="doc_subsection"><a name="filetypes">Configuration Files</a></div>
+<div class="doc_subsubsection"><a name="filecontents">File Contents</a></div>
+<div class="doc_text">
+ <p>Each configuration file provides the details for a single source language
+ that is to be compiled. This configuration information tells <tt>llvmc</tt>
+ how to invoke the language's pre-processor, translator, optimizer, assembler
+ and linker. Note that a given source language needn't provide all these tools
+ as many of them exist in llvm currently.</p>
+</div>
+
+<!-- _______________________________________________________________________ -->
+<div class="doc_subsubsection"><a name="dirsearch">Directory Search</a></div>
<div class="doc_text">
- <h3>File Types</h3>
- <p>There are two types of configuration files: the master configuration file
- and the language specific configuration file. The master configuration file
- contains the general configuration of <tt>llvmc</tt> itself and is supplied
- with the tool. It contains information that is source language agnostic.
- Language specific configuration files tell <tt>llvmc</tt> how to invoke the
- language's compiler for a variety of different tasks and what other tools
- are needed to backfill the compiler's missing features (e.g.
- optimization).</p>
-
- <h3>Directory Search</h3>
<p><tt>llvmc</tt> always looks for files of a specific name. It uses the
first file with the name its looking for by searching directories in the
following order:<br/>
<ol>
- <li>Any directory specified by the <tt>--config-dir</tt> option will be
+ <li>Any directory specified by the <tt>-config-dir</tt> option will be
checked first.</li>
<li>If the environment variable LLVM_CONFIG_DIR is set, and it contains
the name of a valid directory, that directory will be searched next.</li>
<li>If the LLVM installation directory (typically <tt>/usr/local/llvm</tt>
contains a sub-directory named <tt>etc</tt> then that directory will be
tried last.</li>
+ <li>A standard "system" directory will be searched next. This is typically
+ <tt>/etc/llvm</tt> on UNIX™ and <tt>C:\WINNT</tt> on Microsoft
+ Windows™.</li>
<li>If the configuration file sought still can't be found, <tt>llvmc</tt>
will print an error message and exit.</li>
</ol>
- The first file found in this search will be used. Other files with the same
- name will be ignored even if they exist in one of the subsequent search
+ <p>The first file found in this search will be used. Other files with the
+ same name will be ignored even if they exist in one of the subsequent search
locations.</p>
+</div>
+
+<div class="doc_subsubsection"><a name="filenames">File Names</a></div>
+<div class="doc_text">
+ <p>In the directories searched, each configuration file is given a specific
+ name to foster faster lookup (so llvmc doesn't have to do directory searches).
+ The name of a given language specific configuration file is simply the same
+ as the suffix used to identify files containing source in that language.
+ For example, a configuration file for C++ source might be named
+ <tt>cpp</tt>, <tt>C</tt>, or <tt>cxx</tt>. For languages that support multiple
+ file suffixes, multiple (probably identical) files (or symbolic links) will
+ need to be provided.</p>
+</div>
- <h3>File Names</h3>
- <p>In the directories searched, a file named <tt>master</tt> will be
- recognized as the master configuration file for <tt>llvmc</tt>. Note that
- users <i>may</i> override the master file with a copy in their home directory
- but they are advised not to. This capability is only useful for compiler
- implementers needing to alter the master configuration while developing
- their compiler front end. When reading the configuration files, the master
- files are always read first.</p>
- <p>Language specific configuration files are given specific names to foster
- faster lookup. The name of a given language specific configuration file is
- the same as the suffix used to identify files containing source in that
- language. For example, a configuration file for C++ source might be named
- <tt>cpp</tt>, <tt>C</tt>, or <tt>cxx</tt>.</p>
-
- <h3>What Gets Read</h3>
- <p>The master configuration file is always read. Which language specific
- configuration files are read depends on the command line options and the
- suffixes of the file names provided on <tt>llvmc</tt>'s command line. Note
- that the <tt>--x LANGUAGE</tt> option alters the language that <tt>llvmc</tt>
- uses for the subsequent files on the command line. Only the language
- specific configuration files actually needed to complete <tt>llvmc</tt>'s
- task are read. Other language specific files will be ignored.</p>
+<div class="doc_subsubsection"><a name="whatgetsread">What Gets Read</a></div>
+<div class="doc_text">
+ <p>Which configuration files are read depends on the command line options and
+ the suffixes of the file names provided on <tt>llvmc</tt>'s command line. Note
+ that the <tt>-x LANGUAGE</tt> option alters the language that <tt>llvmc</tt>
+ uses for the subsequent files on the command line. Only the configuration
+ files actually needed to complete <tt>llvmc</tt>'s task are read. Other
+ language specific files will be ignored.</p>
</div>
<!-- _______________________________________________________________________ -->
<div class="doc_subsection"><a name="syntax"></a>Syntax</div>
<div class="doc_text">
- <p>The syntax of the configuration files is yet to be determined. There are
- two viable options remaining:<br/>
+ <p>The syntax of the configuration files is very simple and somewhat
+ compatible with Java's property files. Here are the syntax rules:</p>
<ul>
- <li>XML DTD Specific To <tt>llvmc</tt></li>
- <li>Windows .ini style file with numerous sections</li>
- </ul></p>
+ <li>The file encoding is ASCII.</li>
+ <li>The file is line oriented. There should be one configuration definition
+ per line. Lines are terminated by the newline (0x0A) and/or carriage return
+ characters (0x0D)</li>
+ <li>A backslash (<tt>\</tt>) before a newline causes the newline to be
+ ignored. This is useful for line continuation of long definitions. A
+ backslash anywhere else is recognized as a backslash.</li>
+ <li>A configuration item consists of a name, an <tt>=</tt> and a value.</li>
+ <li>A name consists of a sequence of identifiers separated by period.</li>
+ <li>An identifier consists of specific keywords made up of only lower case
+ and upper case letters (e.g. <tt>lang.name</tt>).</li>
+ <li>Values come in four flavors: booleans, integers, commands and
+ strings.</li>
+ <li>Valid "false" boolean values are <tt>false False FALSE no No NO
+ off Off</tt> and <tt>OFF</tt>.</li>
+ <li>Valid "true" boolean values are <tt>true True TRUE yes Yes YES
+ on On</tt> and <tt>ON</tt>.</li>
+ <li>Integers are simply sequences of digits.</li>
+ <li>Commands start with a program name and are followed by a sequence of
+ words that are passed to that program as command line arguments. Program
+ arguments that begin and end with the <tt>%</tt> sign will have their value
+ substituted. Program names beginning with <tt>/</tt> are considered to be
+ absolute. Otherwise the <tt>PATH</tt> will be applied to find the program to
+ execute.</li>
+ <li>Strings are composed of multiple sequences of characters from the
+ character class <tt>[-A-Za-z0-9_:%+/\\|,]</tt> separated by white
+ space.</li>
+ <li>White space on a line is folded. Multiple blanks or tabs will be
+ reduced to a single blank.</li>
+ <li>White space before the configuration item's name is ignored.</li>
+ <li>White space on either side of the <tt>=</tt> is ignored.</li>
+ <li>White space in a string value is used to separate the individual
+ components of the string value but otherwise ignored.</li>
+ <li>Comments are introduced by the <tt>#</tt> character. Everything after a
+ <tt>#</tt> and before the end of line is ignored.</li>
+ </ul>
</div>
<!-- _______________________________________________________________________ -->
-<div class="doc_subsection"><a name="master_items">Configuration Items</a></div>
+<div class="doc_subsection"><a name="items">Configuration Items</a></div>
<div class="doc_text">
- <p>The following description of configuration items is syntax-less and simply
- uses a naming hierarchy to describe the configuration items. Whatever
- syntax is chosen will need to map the hierarchy to the given syntax.</p>
+ <p>The table below provides definitions of the allowed configuration items
+ that may appear in a configuration file. Every item has a default value and
+ does not need to appear in the configuration file. Missing items will have the
+ default value. Each identifier may appear as all lower case, first letter
+ capitalized or all upper case.</p>
<table>
- <tr>
- <th>Name</th>
- <th>Value Type</th>
- <th>Description</th>
- </tr>
- <tr>
- <td><b>Capabilities.hasPreProcessor</b></td>
- <td>boolean</td>
- <td class="td_left">This item specifies whether the language has a
- pre-processing phase or not. This controls whether the B<-E> option works
- for the language or not.</td>
- </tr>
- <tr>
- <td><b>Capabilities.outputFormat</b></td>
- <td>"bc" or "ll"</td>
- <td class="td_left">This item specifies the kind of output the language's
- compiler generates. The choices are either bytecode (<tt>bc</tt>) or LLVM
- assembly (<tt>ll</tt>).</td>
- </tr>
- <tr>
- <td><b>Capabilities.understandsOptimization</b></td>
- <td>boolean</td>
- <td>Indicates whether the compiler for this language understands the
- <tt>-O</tt> options or not</td>
- </tr>
+ <tbody>
+ <tr>
+ <th>Name</th>
+ <th>Value Type</th>
+ <th>Description</th>
+ <th>Default</th>
+ </tr>
+ <tr><td colspan="4"><h4>LLVMC ITEMS</h4></td></tr>
+ <tr>
+ <td><b>version</b></td>
+ <td>string</td>
+ <td class="td_left">Provides the version string for the contents of this
+ configuration file. What is accepted as a legal configuration file
+ will change over time and this item tells <tt>llvmc</tt> which version
+ should be expected.</td>
+ <td><i>b</i></td>
+ </tr>
+ <tr><td colspan="4"><h4>LANG ITEMS</h4></td></tr>
+ <tr>
+ <td><b>lang.name</b></td>
+ <td>string</td>
+ <td class="td_left">Provides the common name for a language definition.
+ For example "C++", "Pascal", "FORTRAN", etc.</td>
+ <td><i>blank</i></td>
+ </tr>
+ <tr>
+ <td><b>lang.opt1</b></td>
+ <td>string</td>
+ <td class="td_left">Specifies the parameters to give the optimizer when
+ <tt>-O1</tt> is specified on the <tt>llvmc</tt> command line.</td>
+ <td><tt>-simplifycfg -instcombine -mem2reg</tt></td>
+ </tr>
+ <tr>
+ <td><b>lang.opt2</b></td>
+ <td>string</td>
+ <td class="td_left">Specifies the parameters to give the optimizer when
+ <tt>-O2</tt> is specified on the <tt>llvmc</tt> command line.</td>
+ <td><i>TBD</i></td>
+ </tr>
+ <tr>
+ <td><b>lang.opt3</b></td>
+ <td>string</td>
+ <td class="td_left">Specifies the parameters to give the optimizer when
+ <tt>-O3</tt> is specified on the <tt>llvmc</tt> command line.</td>
+ <td><i>TBD</i></td>
+ </tr>
+ <tr>
+ <td><b>lang.opt4</b></td>
+ <td>string</td>
+ <td class="td_left">Specifies the parameters to give the optimizer when
+ <tt>-O4</tt> is specified on the <tt>llvmc</tt> command line.</td>
+ <td><i>TBD</i></td>
+ </tr>
+ <tr>
+ <td><b>lang.opt5</b></td>
+ <td>string</td>
+ <td class="td_left">Specifies the parameters to give the optimizer when
+ <tt>-O5</tt> is specified on the <tt>llvmc</tt> command line.</td>
+ <td><i>TBD</i></td>
+ </tr>
+ <tr><td colspan="4"><h4>PREPROCESSOR ITEMS</h4></td></tr>
+ <tr>
+ <td><b>preprocessor.command</b></td>
+ <td>command</td>
+ <td class="td_left">This provides the command prototype that will be used
+ to run the preprocessor. This is generally only used with the
+ <tt>-E</tt> option.</td>
+ <td><blank></td>
+ </tr>
+ <tr>
+ <td><b>preprocessor.required</b></td>
+ <td>boolean</td>
+ <td class="td_left">This item specifies whether the pre-processing phase
+ is required by the language. If the value is true, then the
+ <tt>preprocessor.command</tt> value must not be blank. With this option,
+ <tt>llvmc</tt> will always run the preprocessor as it assumes that the
+ translation and optimization phases don't know how to pre-process their
+ input.</td>
+ <td>false</td>
+ </tr>
+ <tr><td colspan="4"><h4>TRANSLATOR ITEMS</h4></td></tr>
+ <tr>
+ <td><b>translator.command</b></td>
+ <td>command</td>
+ <td class="td_left">This provides the command prototype that will be used
+ to run the translator. Valid substitutions are <tt>%in%</tt> for the
+ input file and <tt>%out%</tt> for the output file.</td>
+ <td><blank></td>
+ </tr>
+ <tr>
+ <td><b>translator.output</b></td>
+ <td><tt>bytecode</tt> or <tt>assembly</tt></td>
+ <td class="td_left">This item specifies the kind of output the language's
+ translator generates.</td>
+ <td><tt>bytecode</tt></td>
+ </tr>
+ <tr>
+ <td><b>translator.preprocesses</b></td>
+ <td>boolean</td>
+ <td class="td_left">Indicates that the translator also preprocesses. If
+ this is true, then <tt>llvmc</tt> will skip the pre-processing phase
+ whenever the final phase is not pre-processing.</td>
+ <td><tt>false</tt></td>
+ </tr>
+ <tr><td colspan="4"><h4>OPTIMIZER ITEMS</h4></td></tr>
+ <tr>
+ <td><b>optimizer.command</b></td>
+ <td>command</td>
+ <td class="td_left">This provides the command prototype that will be used
+ to run the optimizer. Valid substitutions are <tt>%in%</tt> for the
+ input file and <tt>%out%</tt> for the output file.</td>
+ <td><blank></td>
+ </tr>
+ <tr>
+ <td><b>optimizer.output</b></td>
+ <td><tt>bytecode</tt> or <tt>assembly</tt></td>
+ <td class="td_left">This item specifies the kind of output the language's
+ optimizer generates. Valid values are "assembly" and "bytecode"</td>
+ <td><tt>bytecode</tt></td>
+ </tr>
+ <tr>
+ <td><b>optimizer.preprocesses</b></td>
+ <td>boolean</td>
+ <td class="td_left">Indicates that the optimizer also preprocesses. If
+ this is true, then <tt>llvmc</tt> will skip the pre-processing phase
+ whenever the final phase is optimization or later.</td>
+ <td><tt>false</tt></td>
+ </tr>
+ <tr>
+ <td><b>optimizer.translates</b></td>
+ <td>boolean</td>
+ <td class="td_left">Indicates that the optimizer also translates. If
+ this is true, then <tt>llvmc</tt> will skip the translation phase
+ whenever the final phase is optimization or later.</td>
+ <td><tt>false</tt></td>
+ </tr>
+ <tr><td colspan="4"><h4>ASSEMBLER ITEMS</h4></td></tr>
+ <tr>
+ <td><b>assembler.command</b></td>
+ <td>command</td>
+ <td class="td_left">This provides the command prototype that will be used
+ to run the assembler. Valid substitutions are <tt>%in%</tt> for the
+ input file and <tt>%out%</tt> for the output file.</td>
+ <td><blank></td>
+ </tr>
+ </tbody>
+ </table>
+</div>
+
+<!-- _______________________________________________________________________ -->
+<div class="doc_subsection"><a name="substitutions">Substitutions</a></div>
+<div class="doc_text">
+ <p>On any configuration item that ends in <tt>command</tt>, you must
+ specify substitution tokens. Substitution tokens begin and end with a percent
+ sign (<tt>%</tt>) and are replaced by the corresponding text. Any substitution
+ token may be given on any <tt>command</tt> line but some are more useful than
+ others. In particular each command <em>should</em> have both an <tt>%in%</tt>
+ and an <tt>%out%</tt> substitution. The table below provides definitions of
+ each of the allowed substitution tokens.</p>
+ <table>
+ <tbody>
+ <tr>
+ <th>Substitution Token</th>
+ <th>Replacement Description</th>
+ </tr>
+ <tr>
+ <td><tt>%args%</tt></td>
+ <td class="td_left">Replaced with all the tool-specific arguments given
+ to <tt>llvmc</tt> via the <tt>-T</tt> set of options. This just allows
+ you to place these arguments in the correct place on the command line.
+ If the <tt>%args%</tt> option does not appear on your command line,
+ then you are explicitly disallowing the <tt>-T</tt> option for your
+ tool.
+ </td>
+ <tr>
+ <td><tt>%force%</tt></td>
+ <td class="td_left">Replaced with the <tt>-f</tt> option if it was
+ specified on the <tt>llvmc</tt> command line. This is intended to tell
+ the compiler tool to force the overwrite of output files.
+ </td>
+ </tr>
+ <tr>
+ <td><tt>%in%</tt></td>
+ <td class="td_left">Replaced with the full path of the input file. You
+ needn't worry about the cascading of file names. <tt>llvmc</tt> will
+ create temporary files and ensure that the output of one phase is the
+ input to the next phase.</td>
+ </tr>
+ <tr>
+ <td><tt>%opt%</tt></td>
+ <td class="td_left">Replaced with the optimization options for the
+ tool. If the tool understands the <tt>-O</tt> options then that will
+ be passed. Otherwise, the <tt>lang.optN</tt> series of configuration
+ items will specify which arguments are to be given.</td>
+ </tr>
+ <tr>
+ <td><tt>%out%</tt></td>
+ <td class="td_left">Replaced with the full path of the output file.
+ Note that this is not necessarily the output file specified with the
+ <tt>-o</tt> option on <tt>llvmc</tt>'s command line. It might be a
+ temporary file that will be passed to a subsequent phase's input.
+ </td>
+ </tr>
+ <tr>
+ <td><tt>%stats%</tt></td>
+ <td class="td_left">If your command accepts the <tt>-stats</tt> option,
+ use this substitution token. If the user requested <tt>-stats</tt>
+ from the <tt>llvmc</tt> command line then this token will be replaced
+ with <tt>-stats</tt>, otherwise it will be ignored.
+ </td>
+ </tr>
+ <tr>
+ <td><tt>%target%</tt></td>
+ <td class="td_left">Replaced with the name of the target "machine" for
+ which code should be generated. The value used here is taken from the
+ <tt>llvmc</tt> option <tt>-march</tt>.
+ </td>
+ </tr>
+ <tr>
+ <td><tt>%time%</tt></td>
+ <td class="td_left">If your command accepts the <tt>-time-passes</tt>
+ option, use this substitution token. If the user requested
+ <tt>-time-passes</tt> from the <tt>llvmc</tt> command line then this
+ token will be replaced with <tt>-time-passes</tt>, otherwise it will
+ be ignored.
+ </td>
+ </tr>
+ </tbody>
</table>
</div>
+<!-- _______________________________________________________________________ -->
+<div class="doc_subsection"><a name="sample">Sample Config File</a></div>
+<div class="doc_text">
+ <p>Since an example is always instructive, here's how the Stacker language
+ configuration file looks.</p>
+ <pre><tt>
+# Stacker Configuration File For llvmc
+
+##########################################################
+# Language definitions
+##########################################################
+ lang.name=Stacker
+ lang.opt1=-simplifycfg -instcombine -mem2reg
+ lang.opt2=-simplifycfg -instcombine -mem2reg -load-vn \
+ -gcse -dse -scalarrepl -sccp
+ lang.opt3=-simplifycfg -instcombine -mem2reg -load-vn \
+ -gcse -dse -scalarrepl -sccp -branch-combine -adce \
+ -globaldce -inline -licm
+ lang.opt4=-simplifycfg -instcombine -mem2reg -load-vn \
+ -gcse -dse -scalarrepl -sccp -ipconstprop \
+ -branch-combine -adce -globaldce -inline -licm
+ lang.opt5=-simplifycfg -instcombine -mem2reg --load-vn \
+ -gcse -dse scalarrepl -sccp -ipconstprop \
+ -branch-combine -adce -globaldce -inline -licm \
+ -block-placement
+
+##########################################################
+# Pre-processor definitions
+##########################################################
+
+ # Stacker doesn't have a preprocessor but the following
+ # allows the -E option to be supported
+ preprocessor.command=cp %in% %out%
+ preprocessor.required=false
+
+##########################################################
+# Translator definitions
+##########################################################
+
+ # To compile stacker source, we just run the stacker
+ # compiler with a default stack size of 2048 entries.
+ translator.command=stkrc -s 2048 %in% -o %out% %time% \
+ %stats% %force% %args%
+
+ # stkrc doesn't preprocess but we set this to true so
+ # that we don't run the cp command by default.
+ translator.preprocesses=true
+
+ # The translator is required to run.
+ translator.required=true
+
+ # stkrc doesn't handle the -On options
+ translator.output=bytecode
+
+##########################################################
+# Optimizer definitions
+##########################################################
+
+ # For optimization, we use the LLVM "opt" program
+ optimizer.command=opt %in% -o %out% %opt% %time% %stats% \
+ %force% %args%
+
+ optimizer.required = true
+
+ # opt doesn't translate
+ optimizer.translates = no
+
+ # opt doesn't preprocess
+ optimizer.preprocesses=no
+
+ # opt produces bytecode
+ optimizer.output = bc
+
+##########################################################
+# Assembler definitions
+##########################################################
+ assembler.command=llc %in% -o %out% %target% %time% %stats%
+</tt></pre>
+</div>
+
<!-- *********************************************************************** -->
<div class="doc_section"><a name="glossary">Glossary</a></div>
<!-- *********************************************************************** -->
href="http://validator.w3.org/check/referer"><img
src="http://www.w3.org/Icons/valid-html401" alt="Valid HTML 4.01!"></a><a
href="mailto:rspencer@x10sys.com">Reid Spencer</a><br>
-<a href="http://llvm.cs.uiuc.edu">The LLVM Compiler Infrastructure</a><br>
+<a href="http://llvm.org">The LLVM Compiler Infrastructure</a><br>
Last modified: $Date$
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