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| <title>LLVM Programmer's Manual</title> |
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| <body> |
| |
| <div class="doc_title"> |
| LLVM Programmer's Manual |
| </div> |
| |
| <ol> |
| <li><a href="#introduction">Introduction</a></li> |
| <li><a href="#general">General Information</a> |
| <ul> |
| <li><a href="#stl">The C++ Standard Template Library</a><!-- |
| <li>The <tt>-time-passes</tt> option |
| <li>How to use the LLVM Makefile system |
| <li>How to write a regression test |
| --> </li> |
| </ul> |
| </li> |
| <li><a href="#apis">Important and useful LLVM APIs</a> |
| <ul> |
| <li><a href="#isa">The <tt>isa<></tt>, <tt>cast<></tt> |
| and <tt>dyn_cast<></tt> templates</a> </li> |
| <li><a href="#DEBUG">The <tt>DEBUG()</tt> macro & <tt>-debug</tt> |
| option</a> |
| <ul> |
| <li><a href="#DEBUG_TYPE">Fine grained debug info with <tt>DEBUG_TYPE</tt> |
| and the <tt>-debug-only</tt> option</a> </li> |
| </ul> |
| </li> |
| <li><a href="#Statistic">The <tt>Statistic</tt> template & <tt>-stats</tt> |
| option</a><!-- |
| <li>The <tt>InstVisitor</tt> template |
| <li>The general graph API |
| --> </li> |
| </ul> |
| </li> |
| <li><a href="#common">Helpful Hints for Common Operations</a> |
| <ul> |
| <li><a href="#inspection">Basic Inspection and Traversal Routines</a> |
| <ul> |
| <li><a href="#iterate_function">Iterating over the <tt>BasicBlock</tt>s |
| in a <tt>Function</tt></a> </li> |
| <li><a href="#iterate_basicblock">Iterating over the <tt>Instruction</tt>s |
| in a <tt>BasicBlock</tt></a> </li> |
| <li><a href="#iterate_institer">Iterating over the <tt>Instruction</tt>s |
| in a <tt>Function</tt></a> </li> |
| <li><a href="#iterate_convert">Turning an iterator into a |
| class pointer</a> </li> |
| <li><a href="#iterate_complex">Finding call sites: a more |
| complex example</a> </li> |
| <li><a href="#calls_and_invokes">Treating calls and invokes |
| the same way</a> </li> |
| <li><a href="#iterate_chains">Iterating over def-use & |
| use-def chains</a> </li> |
| </ul> |
| </li> |
| <li><a href="#simplechanges">Making simple changes</a> |
| <ul> |
| <li><a href="#schanges_creating">Creating and inserting new |
| <tt>Instruction</tt>s</a> </li> |
| <li><a href="#schanges_deleting">Deleting <tt>Instruction</tt>s</a> </li> |
| <li><a href="#schanges_replacing">Replacing an <tt>Instruction</tt> |
| with another <tt>Value</tt></a> </li> |
| </ul> |
| <!-- |
| <li>Working with the Control Flow Graph |
| <ul> |
| <li>Accessing predecessors and successors of a <tt>BasicBlock</tt> |
| <li> |
| <li> |
| </ul> |
| --> </li> |
| </ul> |
| </li> |
| <li><a href="#coreclasses">The Core LLVM Class Hierarchy Reference</a> |
| <ul> |
| <li><a href="#Value">The <tt>Value</tt> class</a> |
| <ul> |
| <li><a href="#User">The <tt>User</tt> class</a> |
| <ul> |
| <li><a href="#Instruction">The <tt>Instruction</tt> class</a> |
| <ul> |
| <li><a href="#GetElementPtrInst">The <tt>GetElementPtrInst</tt> |
| class</a></li> |
| </ul></li> |
| <li><a href="#Module">The <tt>Module</tt> class</a></li> |
| <li><a href="#Constant">The <tt>Constant</tt> class</a> |
| <ul> |
| <li><a href="#GlobalValue">The <tt>GlobalValue</tt> class</a> |
| <ul> |
| <li><a href="#BasicBlock">The <tt>BasicBlock</tt>class</a></li> |
| <li><a href="#Function">The <tt>Function</tt> class</a></li> |
| <li><a href="#GlobalVariable">The <tt>GlobalVariable</tt> class |
| </a></li> |
| </ul></li> |
| </ul> |
| </li> |
| <li><a href="#Type">The <tt>Type</tt> class</a> </li> |
| <li><a href="#Argument">The <tt>Argument</tt> class</a></li> |
| </ul></li> |
| </ul></li> |
| <li><a href="#SymbolTable">The <tt>SymbolTable</tt> class </a></li> |
| <li>The <tt>ilist</tt> and <tt>iplist</tt> classes |
| <ul> |
| <li>Creating, inserting, moving and deleting from LLVM lists </li> |
| </ul> |
| </li> |
| <li>Important iterator invalidation semantics to be aware of.</li> |
| </li> |
| </ol> |
| |
| <div class="doc_author"> |
| <p>Written by <a href="mailto:sabre@nondot.org">Chris Lattner</a>, |
| <a href="mailto:dhurjati@cs.uiuc.edu">Dinakar Dhurjati</a>, |
| <a href="mailto:jstanley@cs.uiuc.edu">Joel Stanley</a>, and |
| <a href="mailto:rspencer@x10sys.com">Reid Spencer</a></p> |
| </div> |
| |
| <!-- *********************************************************************** --> |
| <div class="doc_section"> |
| <a name="introduction">Introduction </a> |
| </div> |
| <!-- *********************************************************************** --> |
| |
| <div class="doc_text"> |
| |
| <p>This document is meant to highlight some of the important classes and |
| interfaces available in the LLVM source-base. This manual is not |
| intended to explain what LLVM is, how it works, and what LLVM code looks |
| like. It assumes that you know the basics of LLVM and are interested |
| in writing transformations or otherwise analyzing or manipulating the |
| code.</p> |
| |
| <p>This document should get you oriented so that you can find your |
| way in the continuously growing source code that makes up the LLVM |
| infrastructure. Note that this manual is not intended to serve as a |
| replacement for reading the source code, so if you think there should be |
| a method in one of these classes to do something, but it's not listed, |
| check the source. Links to the <a href="/doxygen/">doxygen</a> sources |
| are provided to make this as easy as possible.</p> |
| |
| <p>The first section of this document describes general information that is |
| useful to know when working in the LLVM infrastructure, and the second describes |
| the Core LLVM classes. In the future this manual will be extended with |
| information describing how to use extension libraries, such as dominator |
| information, CFG traversal routines, and useful utilities like the <tt><a |
| href="/doxygen/InstVisitor_8h-source.html">InstVisitor</a></tt> template.</p> |
| |
| </div> |
| |
| <!-- *********************************************************************** --> |
| <div class="doc_section"> |
| <a name="general">General Information</a> |
| </div> |
| <!-- *********************************************************************** --> |
| |
| <div class="doc_text"> |
| |
| <p>This section contains general information that is useful if you are working |
| in the LLVM source-base, but that isn't specific to any particular API.</p> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="stl">The C++ Standard Template Library</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>LLVM makes heavy use of the C++ Standard Template Library (STL), |
| perhaps much more than you are used to, or have seen before. Because of |
| this, you might want to do a little background reading in the |
| techniques used and capabilities of the library. There are many good |
| pages that discuss the STL, and several books on the subject that you |
| can get, so it will not be discussed in this document.</p> |
| |
| <p>Here are some useful links:</p> |
| |
| <ol> |
| |
| <li><a href="http://www.dinkumware.com/refxcpp.html">Dinkumware C++ Library |
| reference</a> - an excellent reference for the STL and other parts of the |
| standard C++ library.</li> |
| |
| <li><a href="http://www.tempest-sw.com/cpp/">C++ In a Nutshell</a> - This is an |
| O'Reilly book in the making. It has a decent |
| Standard Library |
| Reference that rivals Dinkumware's, and is unfortunately no longer free since the book has been |
| published.</li> |
| |
| <li><a href="http://www.parashift.com/c++-faq-lite/">C++ Frequently Asked |
| Questions</a></li> |
| |
| <li><a href="http://www.sgi.com/tech/stl/">SGI's STL Programmer's Guide</a> - |
| Contains a useful <a |
| href="http://www.sgi.com/tech/stl/stl_introduction.html">Introduction to the |
| STL</a>.</li> |
| |
| <li><a href="http://www.research.att.com/%7Ebs/C++.html">Bjarne Stroustrup's C++ |
| Page</a></li> |
| |
| <li><a href="http://www.linux.com.cn/Bruce_Eckel/TICPPv2/Contents.htm"> |
| Bruce Eckel's Thinking in C++, 2nd ed. Volume 2 Revision 4.0 (even better, get |
| the book).</a></li> |
| |
| </ol> |
| |
| <p>You are also encouraged to take a look at the <a |
| href="CodingStandards.html">LLVM Coding Standards</a> guide which focuses on how |
| to write maintainable code more than where to put your curly braces.</p> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="stl">Other useful references</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ol> |
| <li><a href="http://www.psc.edu/%7Esemke/cvs_branches.html">CVS |
| Branch and Tag Primer</a></li> |
| <li><a href="http://www.fortran-2000.com/ArnaudRecipes/sharedlib.html">Using |
| static and shared libraries across platforms</a></li> |
| </ol> |
| |
| </div> |
| |
| <!-- *********************************************************************** --> |
| <div class="doc_section"> |
| <a name="apis">Important and useful LLVM APIs</a> |
| </div> |
| <!-- *********************************************************************** --> |
| |
| <div class="doc_text"> |
| |
| <p>Here we highlight some LLVM APIs that are generally useful and good to |
| know about when writing transformations.</p> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="isa">The isa<>, cast<> and dyn_cast<> templates</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>The LLVM source-base makes extensive use of a custom form of RTTI. |
| These templates have many similarities to the C++ <tt>dynamic_cast<></tt> |
| operator, but they don't have some drawbacks (primarily stemming from |
| the fact that <tt>dynamic_cast<></tt> only works on classes that |
| have a v-table). Because they are used so often, you must know what they |
| do and how they work. All of these templates are defined in the <a |
| href="/doxygen/Casting_8h-source.html"><tt>Support/Casting.h</tt></a> |
| file (note that you very rarely have to include this file directly).</p> |
| |
| <dl> |
| <dt><tt>isa<></tt>: </dt> |
| |
| <dd>The <tt>isa<></tt> operator works exactly like the Java |
| "<tt>instanceof</tt>" operator. It returns true or false depending on whether |
| a reference or pointer points to an instance of the specified class. This can |
| be very useful for constraint checking of various sorts (example below).</dd> |
| |
| <dt><tt>cast<></tt>: </dt> |
| |
| <dd>The <tt>cast<></tt> operator is a "checked cast" operation. It |
| converts a pointer or reference from a base class to a derived cast, causing |
| an assertion failure if it is not really an instance of the right type. This |
| should be used in cases where you have some information that makes you believe |
| that something is of the right type. An example of the <tt>isa<></tt> |
| and <tt>cast<></tt> template is: |
| |
| <pre> |
| static bool isLoopInvariant(const <a href="#Value">Value</a> *V, const Loop *L) { |
| if (isa<<a href="#Constant">Constant</a>>(V) || isa<<a href="#Argument">Argument</a>>(V) || isa<<a href="#GlobalValue">GlobalValue</a>>(V)) |
| return true; |
| |
| <i>// Otherwise, it must be an instruction...</i> |
| return !L->contains(cast<<a href="#Instruction">Instruction</a>>(V)->getParent()); |
| </pre> |
| |
| <p>Note that you should <b>not</b> use an <tt>isa<></tt> test followed |
| by a <tt>cast<></tt>, for that use the <tt>dyn_cast<></tt> |
| operator.</p> |
| |
| </dd> |
| |
| <dt><tt>dyn_cast<></tt>:</dt> |
| |
| <dd>The <tt>dyn_cast<></tt> operator is a "checking cast" operation. It |
| checks to see if the operand is of the specified type, and if so, returns a |
| pointer to it (this operator does not work with references). If the operand is |
| not of the correct type, a null pointer is returned. Thus, this works very |
| much like the <tt>dynamic_cast</tt> operator in C++, and should be used in the |
| same circumstances. Typically, the <tt>dyn_cast<></tt> operator is used |
| in an <tt>if</tt> statement or some other flow control statement like this: |
| |
| <pre> |
| if (<a href="#AllocationInst">AllocationInst</a> *AI = dyn_cast<<a href="#AllocationInst">AllocationInst</a>>(Val)) { |
| ... |
| } |
| </pre> |
| |
| <p> This form of the <tt>if</tt> statement effectively combines together a |
| call to <tt>isa<></tt> and a call to <tt>cast<></tt> into one |
| statement, which is very convenient.</p> |
| |
| <p> Another common example is:</p> |
| |
| <pre> |
| <i>// Loop over all of the phi nodes in a basic block</i> |
| BasicBlock::iterator BBI = BB->begin(); |
| for (; <a href="#PhiNode">PHINode</a> *PN = dyn_cast<<a href="#PHINode">PHINode</a>>(BBI); ++BBI) |
| std::cerr << *PN; |
| </pre> |
| |
| <p>Note that the <tt>dyn_cast<></tt> operator, like C++'s |
| <tt>dynamic_cast</tt> or Java's <tt>instanceof</tt> operator, can be abused. |
| In particular you should not use big chained <tt>if/then/else</tt> blocks to |
| check for lots of different variants of classes. If you find yourself |
| wanting to do this, it is much cleaner and more efficient to use the |
| InstVisitor class to dispatch over the instruction type directly.</p> |
| |
| </dd> |
| |
| <dt><tt>cast_or_null<></tt>: </dt> |
| |
| <dd>The <tt>cast_or_null<></tt> operator works just like the |
| <tt>cast<></tt> operator, except that it allows for a null pointer as |
| an argument (which it then propagates). This can sometimes be useful, |
| allowing you to combine several null checks into one.</dd> |
| |
| <dt><tt>dyn_cast_or_null<></tt>: </dt> |
| |
| <dd>The <tt>dyn_cast_or_null<></tt> operator works just like the |
| <tt>dyn_cast<></tt> operator, except that it allows for a null pointer |
| as an argument (which it then propagates). This can sometimes be useful, |
| allowing you to combine several null checks into one.</dd> |
| |
| </dl> |
| |
| <p>These five templates can be used with any classes, whether they have a |
| v-table or not. To add support for these templates, you simply need to add |
| <tt>classof</tt> static methods to the class you are interested casting |
| to. Describing this is currently outside the scope of this document, but there |
| are lots of examples in the LLVM source base.</p> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="DEBUG">The <tt>DEBUG()</tt> macro & <tt>-debug</tt> option</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>Often when working on your pass you will put a bunch of debugging printouts |
| and other code into your pass. After you get it working, you want to remove |
| it... but you may need it again in the future (to work out new bugs that you run |
| across).</p> |
| |
| <p> Naturally, because of this, you don't want to delete the debug printouts, |
| but you don't want them to always be noisy. A standard compromise is to comment |
| them out, allowing you to enable them if you need them in the future.</p> |
| |
| <p>The "<tt><a href="/doxygen/Debug_8h-source.html">Support/Debug.h</a></tt>" |
| file provides a macro named <tt>DEBUG()</tt> that is a much nicer solution to |
| this problem. Basically, you can put arbitrary code into the argument of the |
| <tt>DEBUG</tt> macro, and it is only executed if '<tt>opt</tt>' (or any other |
| tool) is run with the '<tt>-debug</tt>' command line argument:</p> |
| |
| <pre> ... <br> DEBUG(std::cerr << "I am here!\n");<br> ...<br></pre> |
| |
| <p>Then you can run your pass like this:</p> |
| |
| <pre> $ opt < a.bc > /dev/null -mypass<br> <no output><br> $ opt < a.bc > /dev/null -mypass -debug<br> I am here!<br> $<br></pre> |
| |
| <p>Using the <tt>DEBUG()</tt> macro instead of a home-brewed solution allows you |
| to not have to create "yet another" command line option for the debug output for |
| your pass. Note that <tt>DEBUG()</tt> macros are disabled for optimized builds, |
| so they do not cause a performance impact at all (for the same reason, they |
| should also not contain side-effects!).</p> |
| |
| <p>One additional nice thing about the <tt>DEBUG()</tt> macro is that you can |
| enable or disable it directly in gdb. Just use "<tt>set DebugFlag=0</tt>" or |
| "<tt>set DebugFlag=1</tt>" from the gdb if the program is running. If the |
| program hasn't been started yet, you can always just run it with |
| <tt>-debug</tt>.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="DEBUG_TYPE">Fine grained debug info with <tt>DEBUG_TYPE()</tt> and |
| the <tt>-debug-only</tt> option</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>Sometimes you may find yourself in a situation where enabling <tt>-debug</tt> |
| just turns on <b>too much</b> information (such as when working on the code |
| generator). If you want to enable debug information with more fine-grained |
| control, you define the <tt>DEBUG_TYPE</tt> macro and the <tt>-debug</tt> only |
| option as follows:</p> |
| |
| <pre> ...<br> DEBUG(std::cerr << "No debug type\n");<br> #undef DEBUG_TYPE<br> #define DEBUG_TYPE "foo"<br> DEBUG(std::cerr << "'foo' debug type\n");<br> #undef DEBUG_TYPE<br> #define DEBUG_TYPE "bar"<br> DEBUG(std::cerr << "'bar' debug type\n");<br> #undef DEBUG_TYPE<br> #define DEBUG_TYPE ""<br> DEBUG(std::cerr << "No debug type (2)\n");<br> ...<br></pre> |
| |
| <p>Then you can run your pass like this:</p> |
| |
| <pre> $ opt < a.bc > /dev/null -mypass<br> <no output><br> $ opt < a.bc > /dev/null -mypass -debug<br> No debug type<br> 'foo' debug type<br> 'bar' debug type<br> No debug type (2)<br> $ opt < a.bc > /dev/null -mypass -debug-only=foo<br> 'foo' debug type<br> $ opt < a.bc > /dev/null -mypass -debug-only=bar<br> 'bar' debug type<br> $<br></pre> |
| |
| <p>Of course, in practice, you should only set <tt>DEBUG_TYPE</tt> at the top of |
| a file, to specify the debug type for the entire module (if you do this before |
| you <tt>#include "Support/Debug.h"</tt>, you don't have to insert the ugly |
| <tt>#undef</tt>'s). Also, you should use names more meaningful than "foo" and |
| "bar", because there is no system in place to ensure that names do not |
| conflict. If two different modules use the same string, they will all be turned |
| on when the name is specified. This allows, for example, all debug information |
| for instruction scheduling to be enabled with <tt>-debug-type=InstrSched</tt>, |
| even if the source lives in multiple files.</p> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="Statistic">The <tt>Statistic</tt> template & <tt>-stats</tt> |
| option</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>The "<tt><a |
| href="/doxygen/Statistic_8h-source.html">Support/Statistic.h</a></tt>" file |
| provides a template named <tt>Statistic</tt> that is used as a unified way to |
| keep track of what the LLVM compiler is doing and how effective various |
| optimizations are. It is useful to see what optimizations are contributing to |
| making a particular program run faster.</p> |
| |
| <p>Often you may run your pass on some big program, and you're interested to see |
| how many times it makes a certain transformation. Although you can do this with |
| hand inspection, or some ad-hoc method, this is a real pain and not very useful |
| for big programs. Using the <tt>Statistic</tt> template makes it very easy to |
| keep track of this information, and the calculated information is presented in a |
| uniform manner with the rest of the passes being executed.</p> |
| |
| <p>There are many examples of <tt>Statistic</tt> uses, but the basics of using |
| it are as follows:</p> |
| |
| <ol> |
| <li>Define your statistic like this: |
| <pre>static Statistic<> NumXForms("mypassname", "The # of times I did stuff");<br></pre> |
| |
| <p>The <tt>Statistic</tt> template can emulate just about any data-type, |
| but if you do not specify a template argument, it defaults to acting like |
| an unsigned int counter (this is usually what you want).</p></li> |
| |
| <li>Whenever you make a transformation, bump the counter: |
| <pre> ++NumXForms; // I did stuff<br></pre> |
| </li> |
| </ol> |
| |
| <p>That's all you have to do. To get '<tt>opt</tt>' to print out the |
| statistics gathered, use the '<tt>-stats</tt>' option:</p> |
| |
| <pre> $ opt -stats -mypassname < program.bc > /dev/null<br> ... statistic output ...<br></pre> |
| |
| <p> When running <tt>gccas</tt> on a C file from the SPEC benchmark |
| suite, it gives a report that looks like this:</p> |
| |
| <pre> 7646 bytecodewriter - Number of normal instructions<br> 725 bytecodewriter - Number of oversized instructions<br> 129996 bytecodewriter - Number of bytecode bytes written<br> 2817 raise - Number of insts DCEd or constprop'd<br> 3213 raise - Number of cast-of-self removed<br> 5046 raise - Number of expression trees converted<br> 75 raise - Number of other getelementptr's formed<br> 138 raise - Number of load/store peepholes<br> 42 deadtypeelim - Number of unused typenames removed from symtab<br> 392 funcresolve - Number of varargs functions resolved<br> 27 globaldce - Number of global variables removed<br> 2 adce - Number of basic blocks removed<br> 134 cee - Number of branches revectored<br> 49 cee - Number of setcc instruction eliminated<br> 532 gcse - Number of loads removed<br> 2919 gcse - Number of instructions removed<br> 86 indvars - Number of canonical indvars added<br> 87 indvars - Number of aux indvars removed<br> 25 instcombine - Number of dead inst eliminate<br> 434 instcombine - Number of insts combined<br> 248 licm - Number of load insts hoisted<br> 1298 licm - Number of insts hoisted to a loop pre-header<br> 3 licm - Number of insts hoisted to multiple loop preds (bad, no loop pre-header)<br> 75 mem2reg - Number of alloca's promoted<br> 1444 cfgsimplify - Number of blocks simplified<br></pre> |
| |
| <p>Obviously, with so many optimizations, having a unified framework for this |
| stuff is very nice. Making your pass fit well into the framework makes it more |
| maintainable and useful.</p> |
| |
| </div> |
| |
| <!-- *********************************************************************** --> |
| <div class="doc_section"> |
| <a name="common">Helpful Hints for Common Operations</a> |
| </div> |
| <!-- *********************************************************************** --> |
| |
| <div class="doc_text"> |
| |
| <p>This section describes how to perform some very simple transformations of |
| LLVM code. This is meant to give examples of common idioms used, showing the |
| practical side of LLVM transformations. <p> Because this is a "how-to" section, |
| you should also read about the main classes that you will be working with. The |
| <a href="#coreclasses">Core LLVM Class Hierarchy Reference</a> contains details |
| and descriptions of the main classes that you should know about.</p> |
| |
| </div> |
| |
| <!-- NOTE: this section should be heavy on example code --> |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="inspection">Basic Inspection and Traversal Routines</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>The LLVM compiler infrastructure have many different data structures that may |
| be traversed. Following the example of the C++ standard template library, the |
| techniques used to traverse these various data structures are all basically the |
| same. For a enumerable sequence of values, the <tt>XXXbegin()</tt> function (or |
| method) returns an iterator to the start of the sequence, the <tt>XXXend()</tt> |
| function returns an iterator pointing to one past the last valid element of the |
| sequence, and there is some <tt>XXXiterator</tt> data type that is common |
| between the two operations.</p> |
| |
| <p>Because the pattern for iteration is common across many different aspects of |
| the program representation, the standard template library algorithms may be used |
| on them, and it is easier to remember how to iterate. First we show a few common |
| examples of the data structures that need to be traversed. Other data |
| structures are traversed in very similar ways.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="iterate_function">Iterating over the </a><a |
| href="#BasicBlock"><tt>BasicBlock</tt></a>s in a <a |
| href="#Function"><tt>Function</tt></a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>It's quite common to have a <tt>Function</tt> instance that you'd like to |
| transform in some way; in particular, you'd like to manipulate its |
| <tt>BasicBlock</tt>s. To facilitate this, you'll need to iterate over all of |
| the <tt>BasicBlock</tt>s that constitute the <tt>Function</tt>. The following is |
| an example that prints the name of a <tt>BasicBlock</tt> and the number of |
| <tt>Instruction</tt>s it contains:</p> |
| |
| <pre> // func is a pointer to a Function instance<br> for (Function::iterator i = func->begin(), e = func->end(); i != e; ++i) {<br><br> // print out the name of the basic block if it has one, and then the<br> // number of instructions that it contains<br><br> cerr << "Basic block (name=" << i->getName() << ") has " <br> << i->size() << " instructions.\n";<br> }<br></pre> |
| |
| <p>Note that i can be used as if it were a pointer for the purposes of |
| invoking member functions of the <tt>Instruction</tt> class. This is |
| because the indirection operator is overloaded for the iterator |
| classes. In the above code, the expression <tt>i->size()</tt> is |
| exactly equivalent to <tt>(*i).size()</tt> just like you'd expect.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="iterate_basicblock">Iterating over the </a><a |
| href="#Instruction"><tt>Instruction</tt></a>s in a <a |
| href="#BasicBlock"><tt>BasicBlock</tt></a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>Just like when dealing with <tt>BasicBlock</tt>s in <tt>Function</tt>s, it's |
| easy to iterate over the individual instructions that make up |
| <tt>BasicBlock</tt>s. Here's a code snippet that prints out each instruction in |
| a <tt>BasicBlock</tt>:</p> |
| |
| <pre> // blk is a pointer to a BasicBlock instance<br> for (BasicBlock::iterator i = blk->begin(), e = blk->end(); i != e; ++i)<br> // the next statement works since operator<<(ostream&,...) <br> // is overloaded for Instruction&<br> cerr << *i << "\n";<br></pre> |
| |
| <p>However, this isn't really the best way to print out the contents of a |
| <tt>BasicBlock</tt>! Since the ostream operators are overloaded for virtually |
| anything you'll care about, you could have just invoked the print routine on the |
| basic block itself: <tt>cerr << *blk << "\n";</tt>.</p> |
| |
| <p>Note that currently operator<< is implemented for <tt>Value*</tt>, so |
| it will print out the contents of the pointer, instead of the pointer value you |
| might expect. This is a deprecated interface that will be removed in the |
| future, so it's best not to depend on it. To print out the pointer value for |
| now, you must cast to <tt>void*</tt>.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="iterate_institer">Iterating over the </a><a |
| href="#Instruction"><tt>Instruction</tt></a>s in a <a |
| href="#Function"><tt>Function</tt></a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>If you're finding that you commonly iterate over a <tt>Function</tt>'s |
| <tt>BasicBlock</tt>s and then that <tt>BasicBlock</tt>'s <tt>Instruction</tt>s, |
| <tt>InstIterator</tt> should be used instead. You'll need to include <a |
| href="/doxygen/InstIterator_8h-source.html"><tt>llvm/Support/InstIterator.h</tt></a>, |
| and then instantiate <tt>InstIterator</tt>s explicitly in your code. Here's a |
| small example that shows how to dump all instructions in a function to the standard error stream:<p> |
| |
| <pre>#include "<a href="/doxygen/InstIterator_8h-source.html">llvm/Support/InstIterator.h</a>"<br>...<br>// Suppose F is a ptr to a function<br>for (inst_iterator i = inst_begin(F), e = inst_end(F); i != e; ++i)<br> cerr << *i << "\n";<br></pre> |
| Easy, isn't it? You can also use <tt>InstIterator</tt>s to fill a |
| worklist with its initial contents. For example, if you wanted to |
| initialize a worklist to contain all instructions in a <tt>Function</tt> |
| F, all you would need to do is something like: |
| <pre>std::set<Instruction*> worklist;<br>worklist.insert(inst_begin(F), inst_end(F));<br></pre> |
| |
| <p>The STL set <tt>worklist</tt> would now contain all instructions in the |
| <tt>Function</tt> pointed to by F.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="iterate_convert">Turning an iterator into a class pointer (and |
| vice-versa)</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>Sometimes, it'll be useful to grab a reference (or pointer) to a class |
| instance when all you've got at hand is an iterator. Well, extracting |
| a reference or a pointer from an iterator is very straight-forward. |
| Assuming that <tt>i</tt> is a <tt>BasicBlock::iterator</tt> and <tt>j</tt> |
| is a <tt>BasicBlock::const_iterator</tt>:</p> |
| |
| <pre> Instruction& inst = *i; // grab reference to instruction reference<br> Instruction* pinst = &*i; // grab pointer to instruction reference<br> const Instruction& inst = *j;<br></pre> |
| |
| <p>However, the iterators you'll be working with in the LLVM framework are |
| special: they will automatically convert to a ptr-to-instance type whenever they |
| need to. Instead of dereferencing the iterator and then taking the address of |
| the result, you can simply assign the iterator to the proper pointer type and |
| you get the dereference and address-of operation as a result of the assignment |
| (behind the scenes, this is a result of overloading casting mechanisms). Thus |
| the last line of the last example,</p> |
| |
| <pre>Instruction* pinst = &*i;</pre> |
| |
| <p>is semantically equivalent to</p> |
| |
| <pre>Instruction* pinst = i;</pre> |
| |
| <p>It's also possible to turn a class pointer into the corresponding iterator, |
| and this is a constant time operation (very efficient). The following code |
| snippet illustrates use of the conversion constructors provided by LLVM |
| iterators. By using these, you can explicitly grab the iterator of something |
| without actually obtaining it via iteration over some structure:</p> |
| |
| <pre>void printNextInstruction(Instruction* inst) {<br> BasicBlock::iterator it(inst);<br> ++it; // after this line, it refers to the instruction after *inst.<br> if (it != inst->getParent()->end()) cerr << *it << "\n";<br>}<br></pre> |
| |
| </div> |
| |
| <!--_______________________________________________________________________--> |
| <div class="doc_subsubsection"> |
| <a name="iterate_complex">Finding call sites: a slightly more complex |
| example</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>Say that you're writing a FunctionPass and would like to count all the |
| locations in the entire module (that is, across every <tt>Function</tt>) where a |
| certain function (i.e., some <tt>Function</tt>*) is already in scope. As you'll |
| learn later, you may want to use an <tt>InstVisitor</tt> to accomplish this in a |
| much more straight-forward manner, but this example will allow us to explore how |
| you'd do it if you didn't have <tt>InstVisitor</tt> around. In pseudocode, this |
| is what we want to do:</p> |
| |
| <pre>initialize callCounter to zero<br>for each Function f in the Module<br> for each BasicBlock b in f<br> for each Instruction i in b<br> if (i is a CallInst and calls the given function)<br> increment callCounter<br></pre> |
| |
| <p>And the actual code is (remember, since we're writing a |
| <tt>FunctionPass</tt>, our <tt>FunctionPass</tt>-derived class simply has to |
| override the <tt>runOnFunction</tt> method...):</p> |
| |
| <pre>Function* targetFunc = ...;<br><br>class OurFunctionPass : public FunctionPass {<br> public:<br> OurFunctionPass(): callCounter(0) { }<br><br> virtual runOnFunction(Function& F) {<br> for (Function::iterator b = F.begin(), be = F.end(); b != be; ++b) {<br> for (BasicBlock::iterator i = b->begin(); ie = b->end(); i != ie; ++i) {<br> if (<a |
| href="#CallInst">CallInst</a>* callInst = <a href="#isa">dyn_cast</a><<a |
| href="#CallInst">CallInst</a>>(&*i)) {<br> // we know we've encountered a call instruction, so we<br> // need to determine if it's a call to the<br> // function pointed to by m_func or not.<br> <br> if (callInst->getCalledFunction() == targetFunc)<br> ++callCounter;<br> }<br> }<br> }<br> <br> private:<br> unsigned callCounter;<br>};<br></pre> |
| |
| </div> |
| |
| <!--_______________________________________________________________________--> |
| <div class="doc_subsubsection"> |
| <a name="calls_and_invokes">Treating calls and invokes the same way</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>You may have noticed that the previous example was a bit oversimplified in |
| that it did not deal with call sites generated by 'invoke' instructions. In |
| this, and in other situations, you may find that you want to treat |
| <tt>CallInst</tt>s and <tt>InvokeInst</tt>s the same way, even though their |
| most-specific common base class is <tt>Instruction</tt>, which includes lots of |
| less closely-related things. For these cases, LLVM provides a handy wrapper |
| class called <a |
| href="http://llvm.cs.uiuc.edu/doxygen/classllvm_1_1CallSite.html"><tt>CallSite</tt></a>. |
| It is essentially a wrapper around an <tt>Instruction</tt> pointer, with some |
| methods that provide functionality common to <tt>CallInst</tt>s and |
| <tt>InvokeInst</tt>s.</p> |
| |
| <p>This class has "value semantics": it should be passed by value, not by |
| reference and it should not be dynamically allocated or deallocated using |
| <tt>operator new</tt> or <tt>operator delete</tt>. It is efficiently copyable, |
| assignable and constructable, with costs equivalents to that of a bare pointer. |
| If you look at its definition, it has only a single pointer member.</p> |
| |
| </div> |
| |
| <!--_______________________________________________________________________--> |
| <div class="doc_subsubsection"> |
| <a name="iterate_chains">Iterating over def-use & use-def chains</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>Frequently, we might have an instance of the <a |
| href="/doxygen/structllvm_1_1Value.html">Value Class</a> and we want to |
| determine which <tt>User</tt>s use the <tt>Value</tt>. The list of all |
| <tt>User</tt>s of a particular <tt>Value</tt> is called a <i>def-use</i> chain. |
| For example, let's say we have a <tt>Function*</tt> named <tt>F</tt> to a |
| particular function <tt>foo</tt>. Finding all of the instructions that |
| <i>use</i> <tt>foo</tt> is as simple as iterating over the <i>def-use</i> chain |
| of <tt>F</tt>:</p> |
| |
| <pre>Function* F = ...;<br><br>for (Value::use_iterator i = F->use_begin(), e = F->use_end(); i != e; ++i) {<br> if (Instruction *Inst = dyn_cast<Instruction>(*i)) {<br> cerr << "F is used in instruction:\n";<br> cerr << *Inst << "\n";<br> }<br>}<br></pre> |
| |
| <p>Alternately, it's common to have an instance of the <a |
| href="/doxygen/classllvm_1_1User.html">User Class</a> and need to know what |
| <tt>Value</tt>s are used by it. The list of all <tt>Value</tt>s used by a |
| <tt>User</tt> is known as a <i>use-def</i> chain. Instances of class |
| <tt>Instruction</tt> are common <tt>User</tt>s, so we might want to iterate over |
| all of the values that a particular instruction uses (that is, the operands of |
| the particular <tt>Instruction</tt>):</p> |
| |
| <pre>Instruction* pi = ...;<br><br>for (User::op_iterator i = pi->op_begin(), e = pi->op_end(); i != e; ++i) {<br> Value* v = *i;<br> ...<br>}<br></pre> |
| |
| <!-- |
| def-use chains ("finding all users of"): Value::use_begin/use_end |
| use-def chains ("finding all values used"): User::op_begin/op_end [op=operand] |
| --> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="simplechanges">Making simple changes</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>There are some primitive transformation operations present in the LLVM |
| infrastructure that are worth knowing about. When performing |
| transformations, it's fairly common to manipulate the contents of basic |
| blocks. This section describes some of the common methods for doing so |
| and gives example code.</p> |
| |
| </div> |
| |
| <!--_______________________________________________________________________--> |
| <div class="doc_subsubsection"> |
| <a name="schanges_creating">Creating and inserting new |
| <tt>Instruction</tt>s</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p><i>Instantiating Instructions</i></p> |
| |
| <p>Creation of <tt>Instruction</tt>s is straight-forward: simply call the |
| constructor for the kind of instruction to instantiate and provide the necessary |
| parameters. For example, an <tt>AllocaInst</tt> only <i>requires</i> a |
| (const-ptr-to) <tt>Type</tt>. Thus:</p> |
| |
| <pre>AllocaInst* ai = new AllocaInst(Type::IntTy);</pre> |
| |
| <p>will create an <tt>AllocaInst</tt> instance that represents the allocation of |
| one integer in the current stack frame, at runtime. Each <tt>Instruction</tt> |
| subclass is likely to have varying default parameters which change the semantics |
| of the instruction, so refer to the <a |
| href="/doxygen/classllvm_1_1Instruction.html">doxygen documentation for the subclass of |
| Instruction</a> that you're interested in instantiating.</p> |
| |
| <p><i>Naming values</i></p> |
| |
| <p>It is very useful to name the values of instructions when you're able to, as |
| this facilitates the debugging of your transformations. If you end up looking |
| at generated LLVM machine code, you definitely want to have logical names |
| associated with the results of instructions! By supplying a value for the |
| <tt>Name</tt> (default) parameter of the <tt>Instruction</tt> constructor, you |
| associate a logical name with the result of the instruction's execution at |
| runtime. For example, say that I'm writing a transformation that dynamically |
| allocates space for an integer on the stack, and that integer is going to be |
| used as some kind of index by some other code. To accomplish this, I place an |
| <tt>AllocaInst</tt> at the first point in the first <tt>BasicBlock</tt> of some |
| <tt>Function</tt>, and I'm intending to use it within the same |
| <tt>Function</tt>. I might do:</p> |
| |
| <pre>AllocaInst* pa = new AllocaInst(Type::IntTy, 0, "indexLoc");</pre> |
| |
| <p>where <tt>indexLoc</tt> is now the logical name of the instruction's |
| execution value, which is a pointer to an integer on the runtime stack.</p> |
| |
| <p><i>Inserting instructions</i></p> |
| |
| <p>There are essentially two ways to insert an <tt>Instruction</tt> |
| into an existing sequence of instructions that form a <tt>BasicBlock</tt>:</p> |
| |
| <ul> |
| <li>Insertion into an explicit instruction list |
| |
| <p>Given a <tt>BasicBlock* pb</tt>, an <tt>Instruction* pi</tt> within that |
| <tt>BasicBlock</tt>, and a newly-created instruction we wish to insert |
| before <tt>*pi</tt>, we do the following: </p> |
| |
| <pre> BasicBlock *pb = ...;<br> Instruction *pi = ...;<br> Instruction *newInst = new Instruction(...);<br> pb->getInstList().insert(pi, newInst); // inserts newInst before pi in pb<br></pre> |
| |
| <p>Appending to the end of a <tt>BasicBlock</tt> is so common that |
| the <tt>Instruction</tt> class and <tt>Instruction</tt>-derived |
| classes provide constructors which take a pointer to a |
| <tt>BasicBlock</tt> to be appended to. For example code that |
| looked like: </p> |
| |
| <pre> BasicBlock *pb = ...;<br> Instruction *newInst = new Instruction(...);<br> pb->getInstList().push_back(newInst); // appends newInst to pb<br></pre> |
| |
| <p>becomes: </p> |
| |
| <pre> BasicBlock *pb = ...;<br> Instruction *newInst = new Instruction(..., pb);<br></pre> |
| |
| <p>which is much cleaner, especially if you are creating |
| long instruction streams.</p></li> |
| |
| <li>Insertion into an implicit instruction list |
| |
| <p><tt>Instruction</tt> instances that are already in <tt>BasicBlock</tt>s |
| are implicitly associated with an existing instruction list: the instruction |
| list of the enclosing basic block. Thus, we could have accomplished the same |
| thing as the above code without being given a <tt>BasicBlock</tt> by doing: |
| </p> |
| |
| <pre> Instruction *pi = ...;<br> Instruction *newInst = new Instruction(...);<br> pi->getParent()->getInstList().insert(pi, newInst);<br></pre> |
| |
| <p>In fact, this sequence of steps occurs so frequently that the |
| <tt>Instruction</tt> class and <tt>Instruction</tt>-derived classes provide |
| constructors which take (as a default parameter) a pointer to an |
| <tt>Instruction</tt> which the newly-created <tt>Instruction</tt> should |
| precede. That is, <tt>Instruction</tt> constructors are capable of |
| inserting the newly-created instance into the <tt>BasicBlock</tt> of a |
| provided instruction, immediately before that instruction. Using an |
| <tt>Instruction</tt> constructor with a <tt>insertBefore</tt> (default) |
| parameter, the above code becomes:</p> |
| |
| <pre>Instruction* pi = ...;<br>Instruction* newInst = new Instruction(..., pi);<br></pre> |
| |
| <p>which is much cleaner, especially if you're creating a lot of |
| instructions and adding them to <tt>BasicBlock</tt>s.</p></li> |
| </ul> |
| |
| </div> |
| |
| <!--_______________________________________________________________________--> |
| <div class="doc_subsubsection"> |
| <a name="schanges_deleting">Deleting <tt>Instruction</tt>s</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>Deleting an instruction from an existing sequence of instructions that form a |
| <a href="#BasicBlock"><tt>BasicBlock</tt></a> is very straight-forward. First, |
| you must have a pointer to the instruction that you wish to delete. Second, you |
| need to obtain the pointer to that instruction's basic block. You use the |
| pointer to the basic block to get its list of instructions and then use the |
| erase function to remove your instruction. For example:</p> |
| |
| <pre> <a href="#Instruction">Instruction</a> *I = .. ;<br> <a |
| href="#BasicBlock">BasicBlock</a> *BB = I->getParent();<br> BB->getInstList().erase(I);<br></pre> |
| |
| </div> |
| |
| <!--_______________________________________________________________________--> |
| <div class="doc_subsubsection"> |
| <a name="schanges_replacing">Replacing an <tt>Instruction</tt> with another |
| <tt>Value</tt></a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p><i>Replacing individual instructions</i></p> |
| |
| <p>Including "<a href="/doxygen/BasicBlockUtils_8h-source.html">llvm/Transforms/Utils/BasicBlockUtils.h</a>" |
| permits use of two very useful replace functions: <tt>ReplaceInstWithValue</tt> |
| and <tt>ReplaceInstWithInst</tt>.</p> |
| |
| <h4><a name="schanges_deleting">Deleting <tt>Instruction</tt>s</a></h4> |
| |
| <ul> |
| <li><tt>ReplaceInstWithValue</tt> |
| |
| <p>This function replaces all uses (within a basic block) of a given |
| instruction with a value, and then removes the original instruction. The |
| following example illustrates the replacement of the result of a particular |
| <tt>AllocaInst</tt> that allocates memory for a single integer with an null |
| pointer to an integer.</p> |
| |
| <pre>AllocaInst* instToReplace = ...;<br>BasicBlock::iterator ii(instToReplace);<br>ReplaceInstWithValue(instToReplace->getParent()->getInstList(), ii,<br> Constant::getNullValue(PointerType::get(Type::IntTy)));<br></pre></li> |
| |
| <li><tt>ReplaceInstWithInst</tt> |
| |
| <p>This function replaces a particular instruction with another |
| instruction. The following example illustrates the replacement of one |
| <tt>AllocaInst</tt> with another.</p> |
| |
| <pre>AllocaInst* instToReplace = ...;<br>BasicBlock::iterator ii(instToReplace);<br>ReplaceInstWithInst(instToReplace->getParent()->getInstList(), ii,<br> new AllocaInst(Type::IntTy, 0, "ptrToReplacedInt"));<br></pre></li> |
| </ul> |
| |
| <p><i>Replacing multiple uses of <tt>User</tt>s and <tt>Value</tt>s</i></p> |
| |
| <p>You can use <tt>Value::replaceAllUsesWith</tt> and |
| <tt>User::replaceUsesOfWith</tt> to change more than one use at a time. See the |
| doxygen documentation for the <a href="/doxygen/structllvm_1_1Value.html">Value Class</a> |
| and <a href="/doxygen/classllvm_1_1User.html">User Class</a>, respectively, for more |
| information.</p> |
| |
| <!-- Value::replaceAllUsesWith User::replaceUsesOfWith Point out: |
| include/llvm/Transforms/Utils/ especially BasicBlockUtils.h with: |
| ReplaceInstWithValue, ReplaceInstWithInst --> |
| |
| </div> |
| |
| <!-- *********************************************************************** --> |
| <div class="doc_section"> |
| <a name="coreclasses">The Core LLVM Class Hierarchy Reference </a> |
| </div> |
| <!-- *********************************************************************** --> |
| |
| <div class="doc_text"> |
| |
| <p>The Core LLVM classes are the primary means of representing the program |
| being inspected or transformed. The core LLVM classes are defined in |
| header files in the <tt>include/llvm/</tt> directory, and implemented in |
| the <tt>lib/VMCore</tt> directory.</p> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="Value">The <tt>Value</tt> class</a> |
| </div> |
| |
| <div> |
| |
| <p><tt>#include "<a href="/doxygen/Value_8h-source.html">llvm/Value.h</a>"</tt> |
| <br> |
| doxygen info: <a href="/doxygen/structllvm_1_1Value.html">Value Class</a></p> |
| |
| <p>The <tt>Value</tt> class is the most important class in the LLVM Source |
| base. It represents a typed value that may be used (among other things) as an |
| operand to an instruction. There are many different types of <tt>Value</tt>s, |
| such as <a href="#Constant"><tt>Constant</tt></a>s,<a |
| href="#Argument"><tt>Argument</tt></a>s. Even <a |
| href="#Instruction"><tt>Instruction</tt></a>s and <a |
| href="#Function"><tt>Function</tt></a>s are <tt>Value</tt>s.</p> |
| |
| <p>A particular <tt>Value</tt> may be used many times in the LLVM representation |
| for a program. For example, an incoming argument to a function (represented |
| with an instance of the <a href="#Argument">Argument</a> class) is "used" by |
| every instruction in the function that references the argument. To keep track |
| of this relationship, the <tt>Value</tt> class keeps a list of all of the <a |
| href="#User"><tt>User</tt></a>s that is using it (the <a |
| href="#User"><tt>User</tt></a> class is a base class for all nodes in the LLVM |
| graph that can refer to <tt>Value</tt>s). This use list is how LLVM represents |
| def-use information in the program, and is accessible through the <tt>use_</tt>* |
| methods, shown below.</p> |
| |
| <p>Because LLVM is a typed representation, every LLVM <tt>Value</tt> is typed, |
| and this <a href="#Type">Type</a> is available through the <tt>getType()</tt> |
| method. In addition, all LLVM values can be named. The "name" of the |
| <tt>Value</tt> is a symbolic string printed in the LLVM code:</p> |
| |
| <pre> %<b>foo</b> = add int 1, 2<br></pre> |
| |
| <p><a name="#nameWarning">The name of this instruction is "foo".</a> <b>NOTE</b> |
| that the name of any value may be missing (an empty string), so names should |
| <b>ONLY</b> be used for debugging (making the source code easier to read, |
| debugging printouts), they should not be used to keep track of values or map |
| between them. For this purpose, use a <tt>std::map</tt> of pointers to the |
| <tt>Value</tt> itself instead.</p> |
| |
| <p>One important aspect of LLVM is that there is no distinction between an SSA |
| variable and the operation that produces it. Because of this, any reference to |
| the value produced by an instruction (or the value available as an incoming |
| argument, for example) is represented as a direct pointer to the instance of |
| the class that |
| represents this value. Although this may take some getting used to, it |
| simplifies the representation and makes it easier to manipulate.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_Value">Important Public Members of the <tt>Value</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ul> |
| <li><tt>Value::use_iterator</tt> - Typedef for iterator over the |
| use-list<br> |
| <tt>Value::use_const_iterator</tt> - Typedef for const_iterator over |
| the use-list<br> |
| <tt>unsigned use_size()</tt> - Returns the number of users of the |
| value.<br> |
| <tt>bool use_empty()</tt> - Returns true if there are no users.<br> |
| <tt>use_iterator use_begin()</tt> - Get an iterator to the start of |
| the use-list.<br> |
| <tt>use_iterator use_end()</tt> - Get an iterator to the end of the |
| use-list.<br> |
| <tt><a href="#User">User</a> *use_back()</tt> - Returns the last |
| element in the list. |
| <p> These methods are the interface to access the def-use |
| information in LLVM. As with all other iterators in LLVM, the naming |
| conventions follow the conventions defined by the <a href="#stl">STL</a>.</p> |
| </li> |
| <li><tt><a href="#Type">Type</a> *getType() const</tt> |
| <p>This method returns the Type of the Value.</p> |
| </li> |
| <li><tt>bool hasName() const</tt><br> |
| <tt>std::string getName() const</tt><br> |
| <tt>void setName(const std::string &Name)</tt> |
| <p> This family of methods is used to access and assign a name to a <tt>Value</tt>, |
| be aware of the <a href="#nameWarning">precaution above</a>.</p> |
| </li> |
| <li><tt>void replaceAllUsesWith(Value *V)</tt> |
| |
| <p>This method traverses the use list of a <tt>Value</tt> changing all <a |
| href="#User"><tt>User</tt>s</a> of the current value to refer to |
| "<tt>V</tt>" instead. For example, if you detect that an instruction always |
| produces a constant value (for example through constant folding), you can |
| replace all uses of the instruction with the constant like this:</p> |
| |
| <pre> Inst->replaceAllUsesWith(ConstVal);<br></pre> |
| </ul> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="User">The <tt>User</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p> |
| <tt>#include "<a href="/doxygen/User_8h-source.html">llvm/User.h</a>"</tt><br> |
| doxygen info: <a href="/doxygen/classllvm_1_1User.html">User Class</a><br> |
| Superclass: <a href="#Value"><tt>Value</tt></a></p> |
| |
| <p>The <tt>User</tt> class is the common base class of all LLVM nodes that may |
| refer to <a href="#Value"><tt>Value</tt></a>s. It exposes a list of "Operands" |
| that are all of the <a href="#Value"><tt>Value</tt></a>s that the User is |
| referring to. The <tt>User</tt> class itself is a subclass of |
| <tt>Value</tt>.</p> |
| |
| <p>The operands of a <tt>User</tt> point directly to the LLVM <a |
| href="#Value"><tt>Value</tt></a> that it refers to. Because LLVM uses Static |
| Single Assignment (SSA) form, there can only be one definition referred to, |
| allowing this direct connection. This connection provides the use-def |
| information in LLVM.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_User">Important Public Members of the <tt>User</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>The <tt>User</tt> class exposes the operand list in two ways: through |
| an index access interface and through an iterator based interface.</p> |
| |
| <ul> |
| <li><tt>Value *getOperand(unsigned i)</tt><br> |
| <tt>unsigned getNumOperands()</tt> |
| <p> These two methods expose the operands of the <tt>User</tt> in a |
| convenient form for direct access.</p></li> |
| |
| <li><tt>User::op_iterator</tt> - Typedef for iterator over the operand |
| list<br> |
| <tt>User::op_const_iterator</tt> <tt>use_iterator op_begin()</tt> - |
| Get an iterator to the start of the operand list.<br> |
| <tt>use_iterator op_end()</tt> - Get an iterator to the end of the |
| operand list. |
| <p> Together, these methods make up the iterator based interface to |
| the operands of a <tt>User</tt>.</p></li> |
| </ul> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="Instruction">The <tt>Instruction</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p><tt>#include "</tt><tt><a |
| href="/doxygen/Instruction_8h-source.html">llvm/Instruction.h</a>"</tt><br> |
| doxygen info: <a href="/doxygen/classllvm_1_1Instruction.html">Instruction Class</a><br> |
| Superclasses: <a href="#User"><tt>User</tt></a>, <a |
| href="#Value"><tt>Value</tt></a></p> |
| |
| <p>The <tt>Instruction</tt> class is the common base class for all LLVM |
| instructions. It provides only a few methods, but is a very commonly used |
| class. The primary data tracked by the <tt>Instruction</tt> class itself is the |
| opcode (instruction type) and the parent <a |
| href="#BasicBlock"><tt>BasicBlock</tt></a> the <tt>Instruction</tt> is embedded |
| into. To represent a specific type of instruction, one of many subclasses of |
| <tt>Instruction</tt> are used.</p> |
| |
| <p> Because the <tt>Instruction</tt> class subclasses the <a |
| href="#User"><tt>User</tt></a> class, its operands can be accessed in the same |
| way as for other <a href="#User"><tt>User</tt></a>s (with the |
| <tt>getOperand()</tt>/<tt>getNumOperands()</tt> and |
| <tt>op_begin()</tt>/<tt>op_end()</tt> methods).</p> <p> An important file for |
| the <tt>Instruction</tt> class is the <tt>llvm/Instruction.def</tt> file. This |
| file contains some meta-data about the various different types of instructions |
| in LLVM. It describes the enum values that are used as opcodes (for example |
| <tt>Instruction::Add</tt> and <tt>Instruction::SetLE</tt>), as well as the |
| concrete sub-classes of <tt>Instruction</tt> that implement the instruction (for |
| example <tt><a href="#BinaryOperator">BinaryOperator</a></tt> and <tt><a |
| href="#SetCondInst">SetCondInst</a></tt>). Unfortunately, the use of macros in |
| this file confuses doxygen, so these enum values don't show up correctly in the |
| <a href="/doxygen/classllvm_1_1Instruction.html">doxygen output</a>.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_Instruction">Important Public Members of the <tt>Instruction</tt> |
| class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ul> |
| <li><tt><a href="#BasicBlock">BasicBlock</a> *getParent()</tt> |
| <p>Returns the <a href="#BasicBlock"><tt>BasicBlock</tt></a> that |
| this <tt>Instruction</tt> is embedded into.</p></li> |
| <li><tt>bool mayWriteToMemory()</tt> |
| <p>Returns true if the instruction writes to memory, i.e. it is a |
| <tt>call</tt>,<tt>free</tt>,<tt>invoke</tt>, or <tt>store</tt>.</p></li> |
| <li><tt>unsigned getOpcode()</tt> |
| <p>Returns the opcode for the <tt>Instruction</tt>.</p></li> |
| <li><tt><a href="#Instruction">Instruction</a> *clone() const</tt> |
| <p>Returns another instance of the specified instruction, identical |
| in all ways to the original except that the instruction has no parent |
| (ie it's not embedded into a <a href="#BasicBlock"><tt>BasicBlock</tt></a>), |
| and it has no name</p></li> |
| </ul> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="BasicBlock">The <tt>BasicBlock</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p><tt>#include "<a |
| href="/doxygen/BasicBlock_8h-source.html">llvm/BasicBlock.h</a>"</tt><br> |
| doxygen info: <a href="/doxygen/structllvm_1_1BasicBlock.html">BasicBlock |
| Class</a><br> |
| Superclass: <a href="#Value"><tt>Value</tt></a></p> |
| |
| <p>This class represents a single entry multiple exit section of the code, |
| commonly known as a basic block by the compiler community. The |
| <tt>BasicBlock</tt> class maintains a list of <a |
| href="#Instruction"><tt>Instruction</tt></a>s, which form the body of the block. |
| Matching the language definition, the last element of this list of instructions |
| is always a terminator instruction (a subclass of the <a |
| href="#TerminatorInst"><tt>TerminatorInst</tt></a> class).</p> |
| |
| <p>In addition to tracking the list of instructions that make up the block, the |
| <tt>BasicBlock</tt> class also keeps track of the <a |
| href="#Function"><tt>Function</tt></a> that it is embedded into.</p> |
| |
| <p>Note that <tt>BasicBlock</tt>s themselves are <a |
| href="#Value"><tt>Value</tt></a>s, because they are referenced by instructions |
| like branches and can go in the switch tables. <tt>BasicBlock</tt>s have type |
| <tt>label</tt>.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_BasicBlock">Important Public Members of the <tt>BasicBlock</tt> |
| class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ul> |
| <li><tt>BasicBlock(const std::string &Name = "", </tt><tt><a |
| href="#Function">Function</a> *Parent = 0)</tt> |
| <p>The <tt>BasicBlock</tt> constructor is used to create new basic |
| blocks for insertion into a function. The constructor optionally takes |
| a name for the new block, and a <a href="#Function"><tt>Function</tt></a> |
| to insert it into. If the <tt>Parent</tt> parameter is specified, the |
| new <tt>BasicBlock</tt> is automatically inserted at the end of the |
| specified <a href="#Function"><tt>Function</tt></a>, if not specified, |
| the BasicBlock must be manually inserted into the <a href="#Function"><tt>Function</tt></a>.</p> |
| </li> |
| <li><tt>BasicBlock::iterator</tt> - Typedef for instruction list |
| iterator<br> |
| <tt>BasicBlock::const_iterator</tt> - Typedef for const_iterator.<br> |
| <tt>begin()</tt>, <tt>end()</tt>, <tt>front()</tt>, <tt>back()</tt>,<tt>size()</tt>,<tt>empty()</tt>,<tt>rbegin()</tt>,<tt>rend() |
| - </tt>STL style functions for accessing the instruction list. |
| <p> These methods and typedefs are forwarding functions that have |
| the same semantics as the standard library methods of the same names. |
| These methods expose the underlying instruction list of a basic block in |
| a way that is easy to manipulate. To get the full complement of |
| container operations (including operations to update the list), you must |
| use the <tt>getInstList()</tt> method.</p></li> |
| <li><tt>BasicBlock::InstListType &getInstList()</tt> |
| <p> This method is used to get access to the underlying container |
| that actually holds the Instructions. This method must be used when |
| there isn't a forwarding function in the <tt>BasicBlock</tt> class for |
| the operation that you would like to perform. Because there are no |
| forwarding functions for "updating" operations, you need to use this if |
| you want to update the contents of a <tt>BasicBlock</tt>.</p></li> |
| <li><tt><a href="#Function">Function</a> *getParent()</tt> |
| <p> Returns a pointer to <a href="#Function"><tt>Function</tt></a> |
| the block is embedded into, or a null pointer if it is homeless.</p></li> |
| <li><tt><a href="#TerminatorInst">TerminatorInst</a> *getTerminator()</tt> |
| <p> Returns a pointer to the terminator instruction that appears at |
| the end of the <tt>BasicBlock</tt>. If there is no terminator |
| instruction, or if the last instruction in the block is not a |
| terminator, then a null pointer is returned.</p></li> |
| </ul> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="GlobalValue">The <tt>GlobalValue</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p><tt>#include "<a |
| href="/doxygen/GlobalValue_8h-source.html">llvm/GlobalValue.h</a>"</tt><br> |
| doxygen info: <a href="/doxygen/classllvm_1_1GlobalValue.html">GlobalValue |
| Class</a><br> |
| Superclasses: <a href="#User"><tt>User</tt></a>, <a |
| href="#Value"><tt>Value</tt></a></p> |
| |
| <p>Global values (<a href="#GlobalVariable"><tt>GlobalVariable</tt></a>s or <a |
| href="#Function"><tt>Function</tt></a>s) are the only LLVM values that are |
| visible in the bodies of all <a href="#Function"><tt>Function</tt></a>s. |
| Because they are visible at global scope, they are also subject to linking with |
| other globals defined in different translation units. To control the linking |
| process, <tt>GlobalValue</tt>s know their linkage rules. Specifically, |
| <tt>GlobalValue</tt>s know whether they have internal or external linkage, as |
| defined by the <tt>LinkageTypes</tt> enumeration.</p> |
| |
| <p>If a <tt>GlobalValue</tt> has internal linkage (equivalent to being |
| <tt>static</tt> in C), it is not visible to code outside the current translation |
| unit, and does not participate in linking. If it has external linkage, it is |
| visible to external code, and does participate in linking. In addition to |
| linkage information, <tt>GlobalValue</tt>s keep track of which <a |
| href="#Module"><tt>Module</tt></a> they are currently part of.</p> |
| |
| <p>Because <tt>GlobalValue</tt>s are memory objects, they are always referred to |
| by their <b>address</b>. As such, the <a href="#Type"><tt>Type</tt></a> of a |
| global is always a pointer to its contents. It is important to remember this |
| when using the <tt>GetElementPtrInst</tt> instruction because this pointer must |
| be dereferenced first. For example, if you have a <tt>GlobalVariable</tt> (a |
| subclass of <tt>GlobalValue)</tt> that is an array of 24 ints, type <tt>[24 x |
| int]</tt>, then the <tt>GlobalVariable</tt> is a pointer to that array. Although |
| the address of the first element of this array and the value of the |
| <tt>GlobalVariable</tt> are the same, they have different types. The |
| <tt>GlobalVariable</tt>'s type is <tt>[24 x int]</tt>. The first element's type |
| is <tt>int.</tt> Because of this, accessing a global value requires you to |
| dereference the pointer with <tt>GetElementPtrInst</tt> first, then its elements |
| can be accessed. This is explained in the <a href="LangRef.html#globalvars">LLVM |
| Language Reference Manual</a>.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_GlobalValue">Important Public Members of the <tt>GlobalValue</tt> |
| class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ul> |
| <li><tt>bool hasInternalLinkage() const</tt><br> |
| <tt>bool hasExternalLinkage() const</tt><br> |
| <tt>void setInternalLinkage(bool HasInternalLinkage)</tt> |
| <p> These methods manipulate the linkage characteristics of the <tt>GlobalValue</tt>.</p> |
| <p> </p> |
| </li> |
| <li><tt><a href="#Module">Module</a> *getParent()</tt> |
| <p> This returns the <a href="#Module"><tt>Module</tt></a> that the |
| GlobalValue is currently embedded into.</p></li> |
| </ul> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="Function">The <tt>Function</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p><tt>#include "<a |
| href="/doxygen/Function_8h-source.html">llvm/Function.h</a>"</tt><br> doxygen |
| info: <a href="/doxygen/classllvm_1_1Function.html">Function Class</a><br> |
| Superclasses: <a href="#GlobalValue"><tt>GlobalValue</tt></a>, <a |
| href="#User"><tt>User</tt></a>, <a href="#Value"><tt>Value</tt></a></p> |
| |
| <p>The <tt>Function</tt> class represents a single procedure in LLVM. It is |
| actually one of the more complex classes in the LLVM heirarchy because it must |
| keep track of a large amount of data. The <tt>Function</tt> class keeps track |
| of a list of <a href="#BasicBlock"><tt>BasicBlock</tt></a>s, a list of formal <a |
| href="#Argument"><tt>Argument</tt></a>s, and a <a |
| href="#SymbolTable"><tt>SymbolTable</tt></a>.</p> |
| |
| <p>The list of <a href="#BasicBlock"><tt>BasicBlock</tt></a>s is the most |
| commonly used part of <tt>Function</tt> objects. The list imposes an implicit |
| ordering of the blocks in the function, which indicate how the code will be |
| layed out by the backend. Additionally, the first <a |
| href="#BasicBlock"><tt>BasicBlock</tt></a> is the implicit entry node for the |
| <tt>Function</tt>. It is not legal in LLVM to explicitly branch to this initial |
| block. There are no implicit exit nodes, and in fact there may be multiple exit |
| nodes from a single <tt>Function</tt>. If the <a |
| href="#BasicBlock"><tt>BasicBlock</tt></a> list is empty, this indicates that |
| the <tt>Function</tt> is actually a function declaration: the actual body of the |
| function hasn't been linked in yet.</p> |
| |
| <p>In addition to a list of <a href="#BasicBlock"><tt>BasicBlock</tt></a>s, the |
| <tt>Function</tt> class also keeps track of the list of formal <a |
| href="#Argument"><tt>Argument</tt></a>s that the function receives. This |
| container manages the lifetime of the <a href="#Argument"><tt>Argument</tt></a> |
| nodes, just like the <a href="#BasicBlock"><tt>BasicBlock</tt></a> list does for |
| the <a href="#BasicBlock"><tt>BasicBlock</tt></a>s.</p> |
| |
| <p>The <a href="#SymbolTable"><tt>SymbolTable</tt></a> is a very rarely used |
| LLVM feature that is only used when you have to look up a value by name. Aside |
| from that, the <a href="#SymbolTable"><tt>SymbolTable</tt></a> is used |
| internally to make sure that there are not conflicts between the names of <a |
| href="#Instruction"><tt>Instruction</tt></a>s, <a |
| href="#BasicBlock"><tt>BasicBlock</tt></a>s, or <a |
| href="#Argument"><tt>Argument</tt></a>s in the function body.</p> |
| |
| <p>Note that <tt>Function</tt> is a <a href="#GlobalValue">GlobalValue</a> |
| and therefore also a <a href="#Constant">Constant</a>. The value of the function |
| is its address (after linking) which is guaranteed to be constant.</p> |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_Function">Important Public Members of the <tt>Function</tt> |
| class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ul> |
| <li><tt>Function(const </tt><tt><a href="#FunctionType">FunctionType</a> |
| *Ty, LinkageTypes Linkage, const std::string &N = "", Module* Parent = 0)</tt> |
| |
| <p>Constructor used when you need to create new <tt>Function</tt>s to add |
| the the program. The constructor must specify the type of the function to |
| create and what type of linkage the function should have. The <a |
| href="#FunctionType"><tt>FunctionType</tt></a> argument |
| specifies the formal arguments and return value for the function. The same |
| <a href="#FunctionTypel"><tt>FunctionType</tt></a> value can be used to |
| create multiple functions. The <tt>Parent</tt> argument specifies the Module |
| in which the function is defined. If this argument is provided, the function |
| will automatically be inserted into that module's list of |
| functions.</p></li> |
| |
| <li><tt>bool isExternal()</tt> |
| |
| <p>Return whether or not the <tt>Function</tt> has a body defined. If the |
| function is "external", it does not have a body, and thus must be resolved |
| by linking with a function defined in a different translation unit.</p></li> |
| |
| <li><tt>Function::iterator</tt> - Typedef for basic block list iterator<br> |
| <tt>Function::const_iterator</tt> - Typedef for const_iterator.<br> |
| |
| <tt>begin()</tt>, <tt>end()</tt>, <tt>front()</tt>, <tt>back()</tt>, |
| <tt>size()</tt>, <tt>empty()</tt>, <tt>rbegin()</tt>, <tt>rend()</tt> |
| |
| <p>These are forwarding methods that make it easy to access the contents of |
| a <tt>Function</tt> object's <a href="#BasicBlock"><tt>BasicBlock</tt></a> |
| list.</p></li> |
| |
| <li><tt>Function::BasicBlockListType &getBasicBlockList()</tt> |
| |
| <p>Returns the list of <a href="#BasicBlock"><tt>BasicBlock</tt></a>s. This |
| is necessary to use when you need to update the list or perform a complex |
| action that doesn't have a forwarding method.</p></li> |
| |
| <li><tt>Function::aiterator</tt> - Typedef for the argument list |
| iterator<br> |
| <tt>Function::const_aiterator</tt> - Typedef for const_iterator.<br> |
| |
| <tt>abegin()</tt>, <tt>aend()</tt>, <tt>afront()</tt>, <tt>aback()</tt>, |
| <tt>asize()</tt>, <tt>aempty()</tt>, <tt>arbegin()</tt>, <tt>arend()</tt> |
| |
| <p>These are forwarding methods that make it easy to access the contents of |
| a <tt>Function</tt> object's <a href="#Argument"><tt>Argument</tt></a> |
| list.</p></li> |
| |
| <li><tt>Function::ArgumentListType &getArgumentList()</tt> |
| |
| <p>Returns the list of <a href="#Argument"><tt>Argument</tt></a>s. This is |
| necessary to use when you need to update the list or perform a complex |
| action that doesn't have a forwarding method.</p></li> |
| |
| <li><tt><a href="#BasicBlock">BasicBlock</a> &getEntryBlock()</tt> |
| |
| <p>Returns the entry <a href="#BasicBlock"><tt>BasicBlock</tt></a> for the |
| function. Because the entry block for the function is always the first |
| block, this returns the first block of the <tt>Function</tt>.</p></li> |
| |
| <li><tt><a href="#Type">Type</a> *getReturnType()</tt><br> |
| <tt><a href="#FunctionType">FunctionType</a> *getFunctionType()</tt> |
| |
| <p>This traverses the <a href="#Type"><tt>Type</tt></a> of the |
| <tt>Function</tt> and returns the return type of the function, or the <a |
| href="#FunctionType"><tt>FunctionType</tt></a> of the actual |
| function.</p></li> |
| |
| <li><tt><a href="#SymbolTable">SymbolTable</a> *getSymbolTable()</tt> |
| |
| <p> Return a pointer to the <a href="#SymbolTable"><tt>SymbolTable</tt></a> |
| for this <tt>Function</tt>.</p></li> |
| </ul> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="GlobalVariable">The <tt>GlobalVariable</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p><tt>#include "<a |
| href="/doxygen/GlobalVariable_8h-source.html">llvm/GlobalVariable.h</a>"</tt> |
| <br> |
| doxygen info: <a href="/doxygen/classllvm_1_1GlobalVariable.html">GlobalVariable |
| Class</a><br> Superclasses: <a href="#GlobalValue"><tt>GlobalValue</tt></a>, <a |
| href="#User"><tt>User</tt></a>, <a href="#Value"><tt>Value</tt></a></p> |
| |
| <p>Global variables are represented with the (suprise suprise) |
| <tt>GlobalVariable</tt> class. Like functions, <tt>GlobalVariable</tt>s are also |
| subclasses of <a href="#GlobalValue"><tt>GlobalValue</tt></a>, and as such are |
| always referenced by their address (global values must live in memory, so their |
| "name" refers to their address). See <a |
| href="#GlobalValue"><tt>GlobalValue</tt></a> for more on this. Global variables |
| may have an initial value (which must be a <a |
| href="#Constant"><tt>Constant</tt></a>), and if they have an initializer, they |
| may be marked as "constant" themselves (indicating that their contents never |
| change at runtime).</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_GlobalVariable">Important Public Members of the |
| <tt>GlobalVariable</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ul> |
| <li><tt>GlobalVariable(const </tt><tt><a href="#Type">Type</a> *Ty, bool |
| isConstant, LinkageTypes& Linkage, <a href="#Constant">Constant</a> |
| *Initializer = 0, const std::string &Name = "", Module* Parent = 0)</tt> |
| |
| <p>Create a new global variable of the specified type. If |
| <tt>isConstant</tt> is true then the global variable will be marked as |
| unchanging for the program. The Linkage parameter specifies the type of |
| linkage (internal, external, weak, linkonce, appending) for the variable. If |
| the linkage is InternalLinkage, WeakLinkage, or LinkOnceLinkage, then |
| the resultant global variable will have internal linkage. AppendingLinkage |
| concatenates together all instances (in different translation units) of the |
| variable into a single variable but is only applicable to arrays. See |
| the <a href="LangRef.html#modulestructure">LLVM Language Reference</a> for |
| further details on linkage types. Optionally an initializer, a name, and the |
| module to put the variable into may be specified for the global variable as |
| well.</p></li> |
| |
| <li><tt>bool isConstant() const</tt> |
| |
| <p>Returns true if this is a global variable that is known not to |
| be modified at runtime.</p></li> |
| |
| <li><tt>bool hasInitializer()</tt> |
| |
| <p>Returns true if this <tt>GlobalVariable</tt> has an intializer.</p></li> |
| |
| <li><tt><a href="#Constant">Constant</a> *getInitializer()</tt> |
| |
| <p>Returns the intial value for a <tt>GlobalVariable</tt>. It is not legal |
| to call this method if there is no initializer.</p></li> |
| </ul> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="Module">The <tt>Module</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p><tt>#include "<a |
| href="/doxygen/Module_8h-source.html">llvm/Module.h</a>"</tt><br> doxygen info: |
| <a href="/doxygen/classllvm_1_1Module.html">Module Class</a></p> |
| |
| <p>The <tt>Module</tt> class represents the top level structure present in LLVM |
| programs. An LLVM module is effectively either a translation unit of the |
| original program or a combination of several translation units merged by the |
| linker. The <tt>Module</tt> class keeps track of a list of <a |
| href="#Function"><tt>Function</tt></a>s, a list of <a |
| href="#GlobalVariable"><tt>GlobalVariable</tt></a>s, and a <a |
| href="#SymbolTable"><tt>SymbolTable</tt></a>. Additionally, it contains a few |
| helpful member functions that try to make common operations easy.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_Module">Important Public Members of the <tt>Module</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ul> |
| <li><tt>Module::Module(std::string name = "")</tt></li> |
| </ul> |
| |
| <p>Constructing a <a href="#Module">Module</a> is easy. You can optionally |
| provide a name for it (probably based on the name of the translation unit).</p> |
| |
| <ul> |
| <li><tt>Module::iterator</tt> - Typedef for function list iterator<br> |
| <tt>Module::const_iterator</tt> - Typedef for const_iterator.<br> |
| |
| <tt>begin()</tt>, <tt>end()</tt>, <tt>front()</tt>, <tt>back()</tt>, |
| <tt>size()</tt>, <tt>empty()</tt>, <tt>rbegin()</tt>, <tt>rend()</tt> |
| |
| <p>These are forwarding methods that make it easy to access the contents of |
| a <tt>Module</tt> object's <a href="#Function"><tt>Function</tt></a> |
| list.</p></li> |
| |
| <li><tt>Module::FunctionListType &getFunctionList()</tt> |
| |
| <p> Returns the list of <a href="#Function"><tt>Function</tt></a>s. This is |
| necessary to use when you need to update the list or perform a complex |
| action that doesn't have a forwarding method.</p> |
| |
| <p><!-- Global Variable --></p></li> |
| </ul> |
| |
| <hr> |
| |
| <ul> |
| <li><tt>Module::giterator</tt> - Typedef for global variable list iterator<br> |
| |
| <tt>Module::const_giterator</tt> - Typedef for const_iterator.<br> |
| |
| <tt>gbegin()</tt>, <tt>gend()</tt>, <tt>gfront()</tt>, <tt>gback()</tt>, |
| <tt>gsize()</tt>, <tt>gempty()</tt>, <tt>grbegin()</tt>, <tt>grend()</tt> |
| |
| <p> These are forwarding methods that make it easy to access the contents of |
| a <tt>Module</tt> object's <a |
| href="#GlobalVariable"><tt>GlobalVariable</tt></a> list.</p></li> |
| |
| <li><tt>Module::GlobalListType &getGlobalList()</tt> |
| |
| <p>Returns the list of <a |
| href="#GlobalVariable"><tt>GlobalVariable</tt></a>s. This is necessary to |
| use when you need to update the list or perform a complex action that |
| doesn't have a forwarding method.</p> |
| |
| <p><!-- Symbol table stuff --> </p></li> |
| </ul> |
| |
| <hr> |
| |
| <ul> |
| <li><tt><a href="#SymbolTable">SymbolTable</a> *getSymbolTable()</tt> |
| |
| <p>Return a reference to the <a href="#SymbolTable"><tt>SymbolTable</tt></a> |
| for this <tt>Module</tt>.</p> |
| |
| <p><!-- Convenience methods --></p></li> |
| </ul> |
| |
| <hr> |
| |
| <ul> |
| <li><tt><a href="#Function">Function</a> *getFunction(const std::string |
| &Name, const <a href="#FunctionType">FunctionType</a> *Ty)</tt> |
| |
| <p>Look up the specified function in the <tt>Module</tt> <a |
| href="#SymbolTable"><tt>SymbolTable</tt></a>. If it does not exist, return |
| <tt>null</tt>.</p></li> |
| |
| <li><tt><a href="#Function">Function</a> *getOrInsertFunction(const |
| std::string &Name, const <a href="#FunctionType">FunctionType</a> *T)</tt> |
| |
| <p>Look up the specified function in the <tt>Module</tt> <a |
| href="#SymbolTable"><tt>SymbolTable</tt></a>. If it does not exist, add an |
| external declaration for the function and return it.</p></li> |
| |
| <li><tt>std::string getTypeName(const <a href="#Type">Type</a> *Ty)</tt> |
| |
| <p>If there is at least one entry in the <a |
| href="#SymbolTable"><tt>SymbolTable</tt></a> for the specified <a |
| href="#Type"><tt>Type</tt></a>, return it. Otherwise return the empty |
| string.</p></li> |
| |
| <li><tt>bool addTypeName(const std::string &Name, const <a |
| href="#Type">Type</a> *Ty)</tt> |
| |
| <p>Insert an entry in the <a href="#SymbolTable"><tt>SymbolTable</tt></a> |
| mapping <tt>Name</tt> to <tt>Ty</tt>. If there is already an entry for this |
| name, true is returned and the <a |
| href="#SymbolTable"><tt>SymbolTable</tt></a> is not modified.</p></li> |
| </ul> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="Constant">The <tt>Constant</tt> class and subclasses</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>Constant represents a base class for different types of constants. It |
| is subclassed by ConstantBool, ConstantInt, ConstantSInt, ConstantUInt, |
| ConstantArray etc for representing the various types of Constants.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_Value">Important Public Methods</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ul> |
| <hr> Important Subclasses of Constant |
| <p> </p> |
| <ul> |
| <li>ConstantSInt : This subclass of Constant represents a signed |
| integer constant. |
| <ul> |
| <li><tt>int64_t getValue() const</tt>: Returns the underlying value of |
| this constant. </li> |
| </ul> |
| </li> |
| <li>ConstantUInt : This class represents an unsigned integer. |
| <ul> |
| <li><tt>uint64_t getValue() const</tt>: Returns the underlying value |
| of this constant. </li> |
| </ul> |
| </li> |
| <li>ConstantFP : This class represents a floating point constant. |
| <ul> |
| <li><tt>double getValue() const</tt>: Returns the underlying value of |
| this constant. </li> |
| </ul> |
| </li> |
| <li>ConstantBool : This represents a boolean constant. |
| <ul> |
| <li><tt>bool getValue() const</tt>: Returns the underlying value of |
| this constant. </li> |
| </ul> |
| </li> |
| <li>ConstantArray : This represents a constant array. |
| <ul> |
| <li><tt>const std::vector<Use> &getValues() const</tt>: |
| Returns a Vecotr of component constants that makeup this array. </li> |
| </ul> |
| </li> |
| <li>ConstantStruct : This represents a constant struct. |
| <ul> |
| <li><tt>const std::vector<Use> &getValues() const</tt>: |
| Returns a Vecotr of component constants that makeup this array. </li> |
| </ul> |
| </li> |
| <li>GlobalValue : This represents either a global variable or a |
| function. In either case, the value is a constant fixed address |
| (after linking). |
| </li> |
| </ul> |
| </li> |
| </ul> |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="Type">The <tt>Type</tt> class and Derived Types</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>Type as noted earlier is also a subclass of a Value class. Any primitive |
| type (like int, short etc) in LLVM is an instance of Type Class. All other |
| types are instances of subclasses of type like FunctionType, ArrayType |
| etc. DerivedType is the interface for all such dervied types including |
| FunctionType, ArrayType, PointerType, StructType. Types can have names. They can |
| be recursive (StructType). There exists exactly one instance of any type |
| structure at a time. This allows using pointer equality of Type *s for comparing |
| types.</p> |
| |
| </div> |
| |
| <!-- _______________________________________________________________________ --> |
| <div class="doc_subsubsection"> |
| <a name="m_Value">Important Public Methods</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <ul> |
| |
| <li><tt>bool isSigned() const</tt>: Returns whether an integral numeric type |
| is signed. This is true for SByteTy, ShortTy, IntTy, LongTy. Note that this is |
| not true for Float and Double. </li> |
| |
| <li><tt>bool isUnsigned() const</tt>: Returns whether a numeric type is |
| unsigned. This is not quite the complement of isSigned... nonnumeric types |
| return false as they do with isSigned. This returns true for UByteTy, |
| UShortTy, UIntTy, and ULongTy. </li> |
| |
| <li><tt>bool isInteger() const</tt>: Equivalent to isSigned() || isUnsigned().</li> |
| |
| <li><tt>bool isIntegral() const</tt>: Returns true if this is an integral |
| type, which is either Bool type or one of the Integer types.</li> |
| |
| <li><tt>bool isFloatingPoint()</tt>: Return true if this is one of the two |
| floating point types.</li> |
| |
| <li><tt>isLosslesslyConvertableTo (const Type *Ty) const</tt>: Return true if |
| this type can be converted to 'Ty' without any reinterpretation of bits. For |
| example, uint to int or one pointer type to another.</li> |
| |
| <br> |
| <p>Derived Types</p> |
| |
| <ul> |
| <li>SequentialType : This is subclassed by ArrayType and PointerType |
| <ul> |
| <li><tt>const Type * getElementType() const</tt>: Returns the type of |
| each of the elements in the sequential type. </li> |
| </ul> |
| </li> |
| <li>ArrayType : This is a subclass of SequentialType and defines |
| interface for array types. |
| <ul> |
| <li><tt>unsigned getNumElements() const</tt>: Returns the number of |
| elements in the array. </li> |
| </ul> |
| </li> |
| <li>PointerType : Subclass of SequentialType for pointer types. </li> |
| <li>StructType : subclass of DerivedTypes for struct types </li> |
| <li>FunctionType : subclass of DerivedTypes for function types. |
| <ul> |
| <li><tt>bool isVarArg() const</tt>: Returns true if its a vararg |
| function</li> |
| <li><tt> const Type * getReturnType() const</tt>: Returns the |
| return type of the function.</li> |
| <li><tt>const Type * getParamType (unsigned i)</tt>: Returns |
| the type of the ith parameter.</li> |
| <li><tt> const unsigned getNumParams() const</tt>: Returns the |
| number of formal parameters.</li> |
| </ul> |
| </li> |
| </ul> |
| </li> |
| </ul> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="Argument">The <tt>Argument</tt> class</a> |
| </div> |
| |
| <div class="doc_text"> |
| |
| <p>This subclass of Value defines the interface for incoming formal |
| arguments to a function. A Function maitanis a list of its formal |
| arguments. An argument has a pointer to the parent Function.</p> |
| |
| </div> |
| |
| <!-- ======================================================================= --> |
| <div class="doc_subsection"> |
| <a name="SymbolTable">The <tt>SymbolTable</tt> class</a> |
| </div> |
| <div class="doc_text"> |
| <p>This class provides a symbol table that the |
| <a href="#Function"><tt>Function</tt></a> and <a href="#Module"> |
| <tt>Module</tt></a> classes use for naming definitions. The symbol table can |
| provide a name for any <a href="#Value"><tt>Value</tt></a> or |
| <a href="#Type"><tt>Type</tt></a>. <tt>SymbolTable</tt> is an abstract data |
| type. It hides the data it contains and provides access to it through a |
| controlled interface.</p> |
| |
| <p>To use the <tt>SymbolTable</tt> well, you need to understand the |
| structure of the information it holds. The class contains two |
| <tt>std::map</tt> objects. The first, <tt>pmap</tt>, is a map of |
| <tt>Type*</tt> to maps of name (<tt>std::string</tt>) to <tt>Value*</tt>. |
| The second, <tt>tmap</tt>, is a map of names to <tt>Type*</tt>. Thus, Values |
| are stored in two-dimensions and accessed by <tt>Type</tt> and name. Types, |
| however, are stored in a single dimension and accessed only by name.</p> |
| |
| <p>The interface of this class provides three basic types of operations: |
| <ol> |
| <li><em>Accessors</em>. Accessors provide read-only access to information |
| such as finding a value for a name with the |
| <a href="#SymbolTable_lookup">lookup</a> method.</li> |
| <li><em>Mutators</em>. Mutators allow the user to add information to the |
| <tt>SymbolTable</tt> with methods like |
| <a href="#SymbolTable_insert"><tt>insert</tt></a>.</li> |
| <li><em>Iterators</em>. Iterators allow the user to traverse the content |
| of the symbol table in well defined ways, such as the method |
| <a href="#SymbolTable_type_begin"><tt>type_begin</tt></a>.</li> |
| </ol> |
| |
| <h3>Accessors</h3> |
| <dl> |
| <dt><tt>Value* lookup(const Type* Ty, const std::string& name) const</tt>: |
| </dt> |
| <dd>The <tt>lookup</tt> method searches the type plane given by the |
| <tt>Ty</tt> parameter for a <tt>Value</tt> with the provided <tt>name</tt>. |
| If a suitable <tt>Value</tt> is not found, null is returned.</dd> |
| |
| <dt><tt>Type* lookupType( const std::string& name) const</tt>:</dt> |
| <dd>The <tt>lookupType</tt> method searches through the types for a |
| <tt>Type</tt> with the provided <tt>name</tt>. If a suitable <tt>Type</tt> |
| is not found, null is returned.</dd> |
| |
| <dt><tt>bool hasTypes() const</tt>:</dt> |
| <dd>This function returns true if an entry has been made into the type |
| map.</dd> |
| |
| <dt><tt>bool isEmpty() const</tt>:</dt> |
| <dd>This function returns true if both the value and types maps are |
| empty</dd> |
| |
| <dt><tt>std::string get_name(const Value*) const</tt>:</dt> |
| <dd>This function returns the name of the Value provided or the empty |
| string if the Value is not in the symbol table.</dd> |
| |
| <dt><tt>std::string get_name(const Type*) const</tt>:</dt> |
| <dd>This function returns the name of the Type provided or the empty |
| string if the Type is not in the symbol table.</dd> |
| </dl> |
| |
| <h3>Mutators</h3> |
| <dl> |
| <dt><tt>void insert(Value *Val)</tt>:</dt> |
| <dd>This method adds the provided value to the symbol table. The Value must |
| have both a name and a type which are extracted and used to place the value |
| in the correct type plane under the value's name.</dd> |
| |
| <dt><tt>void insert(const std::string& Name, Value *Val)</tt>:</dt> |
| <dd> Inserts a constant or type into the symbol table with the specified |
| name. There can be a many to one mapping between names and constants |
| or types.</dd> |
| |
| <dt><tt>void insert(const std::string& Name, Type *Typ)</tt>:</dt> |
| <dd> Inserts a type into the symbol table with the specified name. There |
| can be a many-to-one mapping between names and types. This method |
| allows a type with an existing entry in the symbol table to get |
| a new name.</dd> |
| |
| <dt><tt>void remove(Value* Val)</tt>:</dt> |
| <dd> This method removes a named value from the symbol table. The |
| type and name of the Value are extracted from \p N and used to |
| lookup the Value in the correct type plane. If the Value is |
| not in the symbol table, this method silently ignores the |
| request.</dd> |
| |
| <dt><tt>void remove(Type* Typ)</tt>:</dt> |
| <dd> This method removes a named type from the symbol table. The |
| name of the type is extracted from \P T and used to look up |
| the Type in the type map. If the Type is not in the symbol |
| table, this method silently ignores the request.</dd> |
| |
| <dt><tt>Value* remove(const std::string& Name, Value *Val)</tt>:</dt> |
| <dd> Remove a constant or type with the specified name from the |
| symbol table.</dd> |
| |
| <dt><tt>Type* remove(const std::string& Name, Type* T)</tt>:</dt> |
| <dd> Remove a type with the specified name from the symbol table. |
| Returns the removed Type.</dd> |
| |
| <dt><tt>Value *value_remove(const value_iterator& It)</tt>:</dt> |
| <dd> Removes a specific value from the symbol table. |
| Returns the removed value.</dd> |
| |
| <dt><tt>bool strip()</tt>:</dt> |
| <dd> This method will strip the symbol table of its names leaving |
| the type and values. </dd> |
| |
| <dt><tt>void clear()</tt>:</dt> |
| <dd>Empty the symbol table completely.</dd> |
| </dl> |
| |
| <h3>Iteration</h3> |
| <p>The following functions describe three types of iterators you can obtain |
| the beginning or end of the sequence for both const and non-const. It is |
| important to keep track of the different kinds of iterators. There are |
| three idioms worth pointing out:</p> |
| <table class="doc_table"> |
| <tr><th>Units</th><th>Iterator</th><th>Idiom</th></tr> |
| <tr> |
| <td>Planes Of name/Value maps</td><td>PI</td> |
| <td><tt><pre> |
| for (SymbolTable::plane_const_iterator PI = ST.plane_begin(), |
| PE = ST.plane_end(); PI != PE; ++PI ) { |
| PI->first // This is the Type* of the plane |
| PI->second // This is the SymbolTable::ValueMap of name/Value pairs |
| </pre></tt></td> |
| </tr> |
| <tr> |
| <td>All name/Type Pairs</td><td>TI</td> |
| <td><tt><pre> |
| for (SymbolTable::type_const_iterator TI = ST.type_begin(), |
| TE = ST.type_end(); TI != TE; ++TI ) |
| TI->first // This is the name of the type |
| TI->second // This is the Type* value associated with the name |
| </pre></tt></td> |
| </tr> |
| <tr> |
| <td>name/Value pairs in a plane</td><td>VI</td> |
| <td><tt><pre> |
| for (SymbolTable::value_const_iterator VI = ST.value_begin(SomeType), |
| VE = ST.value_end(SomeType); VI != VE; ++VI ) |
| VI->first // This is the name of the Value |
| VI->second // This is the Value* value associated with the name |
| </pre></tt></td> |
| </tr> |
| </table> |
| <p>Using the recommended iterator names and idioms will help you avoid |
| making mistakes. Of particular note, make sure that whenever you use |
| value_begin(SomeType) that you always compare the resulting iterator |
| with value_end(SomeType) not value_end(SomeOtherType) or else you |
| will loop infinitely.</p> |
| |
| <dl> |
| |
| <dt><tt>plane_iterator plane_begin()</tt>:</dt> |
| <dd>Get an iterator that starts at the beginning of the type planes. |
| The iterator will iterate over the Type/ValueMap pairs in the |
| type planes. </dd> |
| |
| <dt><tt>plane_const_iterator plane_begin() const</tt>:</dt> |
| <dd>Get a const_iterator that starts at the beginning of the type |
| planes. The iterator will iterate over the Type/ValueMap pairs |
| in the type planes. </dd> |
| |
| <dt><tt>plane_iterator plane_end()</tt>:</dt> |
| <dd>Get an iterator at the end of the type planes. This serves as |
| the marker for end of iteration over the type planes.</dd> |
| |
| <dt><tt>plane_const_iterator plane_end() const</tt>:</dt> |
| <dd>Get a const_iterator at the end of the type planes. This serves as |
| the marker for end of iteration over the type planes.</dd> |
| |
| <dt><tt>value_iterator value_begin(const Type *Typ)</tt>:</dt> |
| <dd>Get an iterator that starts at the beginning of a type plane. |
| The iterator will iterate over the name/value pairs in the type plane. |
| Note: The type plane must already exist before using this.</dd> |
| |
| <dt><tt>value_const_iterator value_begin(const Type *Typ) const</tt>:</dt> |
| <dd>Get a const_iterator that starts at the beginning of a type plane. |
| The iterator will iterate over the name/value pairs in the type plane. |
| Note: The type plane must already exist before using this.</dd> |
| |
| <dt><tt>value_iterator value_end(const Type *Typ)</tt>:</dt> |
| <dd>Get an iterator to the end of a type plane. This serves as the marker |
| for end of iteration of the type plane. |
| Note: The type plane must already exist before using this.</dd> |
| |
| <dt><tt>value_const_iterator value_end(const Type *Typ) const</tt>:</dt> |
| <dd>Get a const_iterator to the end of a type plane. This serves as the |
| marker for end of iteration of the type plane. |
| Note: the type plane must already exist before using this.</dd> |
| |
| <dt><tt>type_iterator type_begin()</tt>:</dt> |
| <dd>Get an iterator to the start of the name/Type map.</dd> |
| |
| <dt><tt>type_const_iterator type_begin() cons</tt>:</dt> |
| <dd> Get a const_iterator to the start of the name/Type map.</dd> |
| |
| <dt><tt>type_iterator type_end()</tt>:</dt> |
| <dd>Get an iterator to the end of the name/Type map. This serves as the |
| marker for end of iteration of the types.</dd> |
| |
| <dt><tt>type_const_iterator type_end() const</tt>:</dt> |
| <dd>Get a const-iterator to the end of the name/Type map. This serves |
| as the marker for end of iteration of the types.</dd> |
| |
| <dt><tt>plane_const_iterator find(const Type* Typ ) const</tt>:</dt> |
| <dd>This method returns a plane_const_iterator for iteration over |
| the type planes starting at a specific plane, given by \p Ty.</dd> |
| |
| <dt><tt>plane_iterator find( const Type* Typ </tt>:</dt> |
| <dd>This method returns a plane_iterator for iteration over the |
| type planes starting at a specific plane, given by \p Ty.</dd> |
| |
| <dt><tt>const ValueMap* findPlane( const Type* Typ ) cons</tt>:</dt> |
| <dd>This method returns a ValueMap* for a specific type plane. This |
| interface is deprecated and may go away in the future.</dd> |
| </dl> |
| </div> |
| |
| <!-- *********************************************************************** --> |
| <hr> |
| <address> |
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| <a href="mailto:dhurjati@cs.uiuc.edu">Dinakar Dhurjati</a> and |
| <a href="mailto:sabre@nondot.org">Chris Lattner</a><br> |
| <a href="http://llvm.cs.uiuc.edu">The LLVM Compiler Infrastructure</a><br> |
| Last modified: $Date$ |
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