Add information about the GlobalVariable and Module classes

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@3592 91177308-0d34-0410-b5e6-96231b3b80d8
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Chris Lattner 2002-09-06 14:50:55 +00:00
parent f4d4a49311
commit 0377de4d97

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@ -676,34 +676,164 @@ doxygen info: <a href="/doxygen/classGlobalVariable.html">GlobalVariable Class</
Superclasses: <a href="#GlobalValue"><tt>GlobalValue</tt></a>, <a
href="#User"><tt>User</tt></a>, <a href="#Value"><tt>Value</tt></a><p>
A GlobalVariable is a subclass of GlobalValue and defines the interface to
global variables in the SSA program. It can have a name and an
initializer. (initial constant Value)
Can be constant.
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). 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>
<!-- _______________________________________________________________________ -->
</ul><h4><a name="m_GlobalVariable"><hr size=0>Important Public Members of
the <tt>GlobalVariable</tt> class</h4><ul>
</ul><h4><a name="m_GlobalVariable"><hr size=0>Important Public Members of the
<tt>GlobalVariable</tt> class</h4><ul>
<li><tt>GlobalVariable(const <a href="#Type">Type</a> *Ty, bool isConstant, bool
isInternal, <a href="#Constant">Constant</a> *Initializer = 0, const std::string
&amp;Name = "")</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, and
if <tt>isInternal</tt> is true the resultant global variable will have internal
linkage. Optionally an initializer and name may be specified for the global variable as well.<p>
<li><tt>bool isConstant() const</tt><p>
Returns true if this is a global variable is known not to be modified at
runtime.<p>
<li><tt>bool hasInitializer()</tt><p>
Returns true if this <tt>GlobalVariable</tt> has an intializer.<p>
<li><tt><a href="#Constant">Constant</a> *getInitializer()</tt><p>
Returns the intializer<p>
Returns the intial value for a <tt>GlobalVariable</tt>. It is not legal to call
this method if there is no initializer.<p>
<!-- ======================================================================= -->
</ul><table width="100%" bgcolor="#441188" border=0 cellpadding=4 cellspacing=0>
<tr><td>&nbsp;</td><td width="100%">&nbsp;
<font color="#EEEEFF" face="Georgia,Palatino"><b>
<a name="Module">The <tt>Module</tt> class</a>
</b></font></td></tr></table><ul>
<tt>#include "<a
href="/doxygen/Module_8h-source.html">llvm/Module.h</a>"</tt></b><br>
doxygen info: <a href="/doxygen/classModule.html">Module Class</a><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>
<!-- _______________________________________________________________________ -->
</ul><h4><a name="m_Module"><hr size=0>Important Public Members of the
<tt>Module</tt> class</h4><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><tt>Module::FunctionListType &amp;getFunctionList()</tt><p>
Returns the list of <a href="#Function"><tt>Function</tt></a>s. This is
neccesary to use when you need to update the list or perform a complex action
that doesn't have a forwarding method.<p>
<!-- Global Variable -->
<hr size=0>
<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><tt>Module::GlobalListType &amp;getGlobalList()</tt><p>
Returns the list of <a href="#GlobalVariable"><tt>GlobalVariable</tt></a>s.
This is neccesary to use when you need to update the list or perform a complex
action that doesn't have a forwarding method.<p>
<!-- Symbol table stuff -->
<hr size=0>
<li><tt>bool hasSymbolTable() const</tt><p>
Return true if the <tt>Module</tt> has a symbol table allocated to it and if
there is at least one entry in it.<p>
<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>Module</tt> or a null pointer if one has not been allocated (because there
are no named values in the function).<p>
<li><tt><a href="#SymbolTable">SymbolTable</a> *getSymbolTableSure()</tt><p>
Return a pointer to the <a href="#SymbolTable"><tt>SymbolTable</tt></a> for this
<tt>Module</tt> or allocate a new <a
href="#SymbolTable"><tt>SymbolTable</tt></a> if one is not already around. This
should only be used when adding elements to the <a
href="#SymbolTable"><tt>SymbolTable</tt></a>, so that empty symbol tables are
not left laying around.<p>
<!-- Convenience methods -->
<hr size=0>
<li><tt><a href="#Function">Function</a> *getFunction(const std::string &amp;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><tt><a href="#Function">Function</a> *getOrInsertFunction(const std::string
&amp;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><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><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>
<!-- ======================================================================= -->
</ul><table width="100%" bgcolor="#441188" border=0 cellpadding=4 cellspacing=0>
@ -842,6 +972,6 @@ pointer to the parent Function.
<a href="mailto:sabre@nondot.org">Chris Lattner</a></address>
<!-- Created: Tue Aug 6 15:00:33 CDT 2002 -->
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Last modified: Thu Sep 5 21:49:34 CDT 2002
Last modified: Fri Sep 6 09:47:35 CDT 2002
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