Add links to SLD from the LangRef.html doc

Clean up the SLD document a LOT Fill in a lot of details in the SLD document update the formats for the object descriptors llvm-svn: 10698
2004-01-06 05:31:32 +00:00 · 2004-01-06 05:31:32 +00:00 · 941515cf67
parent 2007cec727
commit 941515cf67
2 changed files with 453 additions and 157 deletions
--- a/llvm/docs/LangRef.html
+++ b/llvm/docs/LangRef.html
@ -95,6 +95,7 @@
          <li><a href="#i_va_copy">'<tt>llvm.va_copy</tt>'  Intrinsic</a></li>
        </ol>
      </li>
      <li><a href="#int_debugger">Debugger intrinsics</a>
    </ol>
  </li>
 </ol>
@ -1587,9 +1588,11 @@ an argument.</p>
 <p>See the <a href="#int_varargs">variable argument processing</a>
 section.</p>
 </div>
 <!-- *********************************************************************** -->
 <div class="doc_section"> <a name="intrinsics">Intrinsic Functions</a> </div>
 <!-- *********************************************************************** -->
 <div class="doc_text">
 <p>LLVM supports the notion of an "intrinsic function".  These
 functions have well known names and semantics, and are required to
@ -1609,9 +1612,12 @@ required that they all be documented here if any are added.</p>
 lowering pass to eliminate the intrinsic or all backends must support
 the intrinsic function.</p>
 </div>
 <!-- ======================================================================= -->
-<div class="doc_subsection"> <a name="int_varargs">Variable Argument
+<div class="doc_subsection">
-Handling Intrinsics</a> </div>
+  <a name="int_varargs">Variable Argument Handling Intrinsics</a>
 </div>
 <div class="doc_text">
 <p>Variable argument support is defined in LLVM with the <a
 href="#i_vanext"><tt>vanext</tt></a> instruction and these three
@ -1631,9 +1637,13 @@ used.</p>
 href="#i_va_end">llvm.va_end</a>(sbyte* %aq)<br><br>  ; Stop processing of arguments.<br>  call void %<a
 href="#i_va_end">llvm.va_end</a>(sbyte* %ap2)<br>  ret int %tmp<br>}<br></pre>
 </div>
 <!-- _______________________________________________________________________ -->
-<div class="doc_subsubsection"> <a name="i_va_start">'<tt>llvm.va_start</tt>'
+<div class="doc_subsubsection">
-Intrinsic</a> </div>
+  <a name="i_va_start">'<tt>llvm.va_start</tt>' Intrinsic</a>
 </div>
 <div class="doc_text">
 <h5>Syntax:</h5>
 <pre>  call va_list ()* %llvm.va_start()<br></pre>
@ -1650,9 +1660,12 @@ last argument of the function, the compiler can figure that out.</p>
 <p>Note that this intrinsic function is only legal to be called from
 within the body of a variable argument function.</p>
 </div>
 <!-- _______________________________________________________________________ -->
-<div class="doc_subsubsection"> <a name="i_va_end">'<tt>llvm.va_end</tt>'
+<div class="doc_subsubsection">
-Intrinsic</a> </div>
+ <a name="i_va_end">'<tt>llvm.va_end</tt>' Intrinsic</a>
 </div>
 <div class="doc_text">
 <h5>Syntax:</h5>
 <pre>  call void (va_list)* %llvm.va_end(va_list &lt;arglist&gt;)<br></pre>
@ -1669,9 +1682,12 @@ Calls to <a href="#i_va_start"><tt>llvm.va_start</tt></a> and <a
 href="#i_va_copy"><tt>llvm.va_copy</tt></a> must be matched exactly
 with calls to <tt>llvm.va_end</tt>.</p>
 </div>
 <!-- _______________________________________________________________________ -->
-<div class="doc_subsubsection"> <a name="i_va_copy">'<tt>llvm.va_copy</tt>'
+<div class="doc_subsubsection">
-Intrinsic</a> </div>
+  <a name="i_va_copy">'<tt>llvm.va_copy</tt>' Intrinsic</a>
 </div>
 <div class="doc_text">
 <h5>Syntax:</h5>
 <pre>  call va_list (va_list)* %llvm.va_copy(va_list &lt;destarglist&gt;)<br></pre>
@ -1687,6 +1703,23 @@ element into the returned list.  This intrinsic is necessary because the <tt><a
 href="i_va_start">llvm.va_start</a></tt> intrinsic may be arbitrarily
 complex and require memory allocation, for example.</p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
  <a name="int_debugger">Debugger Intrinsics</a>
 </div>
 <div class="doc_text">
 <p>
 The LLVM debugger intrinsics (which all start with <tt>llvm.dbg.</tt> prefix),
 are described in the <a
 href="SourceLevelDebugging.html#format_common_intrinsics">LLVM Source Level
 Debugging</a> document.
 </p>
 </div>
 <!-- *********************************************************************** -->
 <hr>
 <div class="doc_footer">
--- a/llvm/docs/SourceLevelDebugging.html
+++ b/llvm/docs/SourceLevelDebugging.html
@ -11,7 +11,8 @@
 <ul>
-<img src="venusflytrap.jpg" width=247 height=369 align=right>
+<img src="venusflytrap.jpg" alt="A leafy and green bug eater"
     width=247 height=369 align=right>
  <li><a href="#introduction">Introduction</a></li>
  <ol>
@ -29,25 +30,34 @@
  <li><a href="#architecture">Architecture of the LLVM debugger</a></li>
  <ol>
    <li><a href="#arch_debugger">The Debugger and InferiorProcess classes</a></li>
    <li><a href="#arch_info">The RuntimeInfo, ProgramInfo, and SourceLanguage classes</a></li>
    <li><a href="#arch_llvm-db">The <tt>llvm-db</tt> tool</a></li>
    <li><a href="#arch_todo">Short-term TODO list</a></li>
  </ol>
-  <li><a href="#implementation">Debugging information implementation</a></li>
+  <li><a href="#format">Debugging information format</a></li>
  <ol>
-    <li><a href="#impl_common_anchors">Anchors for global objects</a></li>
+    <li><a href="#format_common_anchors">Anchors for global objects</a></li>
-    <li><a href="#impl_common_stoppoint">Representing stopping points in the source program</a></li>
+    <li><a href="#format_common_stoppoint">Representing stopping points in the source program</a></li>
-    <li><a href="#impl_common_lifetime">Object lifetimes and scoping</a></li>
+    <li><a href="#format_common_lifetime">Object lifetimes and scoping</a></li>
-    <li><a href="#impl_common_descriptors">Object descriptor formats</a></li>
+    <li><a href="#format_common_descriptors">Object descriptor formats</a></li>
    <ul>
-      <li><a href="#impl_common_source_files">Representation of source files</a></li>
+      <li><a href="#format_common_source_files">Representation of source files</a></li>
-      <li><a href="#impl_common_globals">Representation of global objects</a></li>
+      <li><a href="#format_common_program_objects">Representation of program objects</a></li>
-      <li><a href="#impl_common_localvars">Representation of local variables</a></li>
+      <li><a href="#format_common_object_contexts">Program object contexts</a></li>
    </ul>
-    <li><a href="#impl_common_intrinsics">Other intrinsic functions</a></li>
+    <li><a href="#format_common_intrinsics">Debugger intrinsic functions</a></li>
    <li><a href="#format_common_tags">Values for debugger tags</a></li>
  </ol>
-  <li><a href="#impl_ccxx">C/C++ front-end specific debug information</a></li>
+  <li><a href="#ccxx_frontend">C/C++ front-end specific debug information</a></li>
  <ol>
-    <li><a href="#impl_ccxx_descriptors">Object descriptor formats</a></li>
+    <li><a href="#ccxx_pse">Program Scope Entries</a></li>
    <ul>
      <li><a href="#ccxx_compilation_units">Compilation unit entries</a></li>
      <li><a href="#ccxx_modules">Module, namespace, and importing entries</a></li>
    </ul>
    <li><a href="#ccxx_dataobjects">Data objects (program variables)</a></li>
  </ol>
 </ul>
@ -58,15 +68,15 @@
 <div class="doc_text">
 <p>This document is the central repository for all information pertaining to
-debug information in LLVM.  It describes how to use the <a
+debug information in LLVM.  It describes the <a href="#llvm-db">user
-href="CommandGuide/llvm-db.html"><tt>llvm-db</tt> tool</a>, which provides a
+interface</a> for the <a href="CommandGuide/llvm-db.html"><tt>llvm-db</tt>
-powerful <a href="#llvm-db">source-level debugger</a> to users of LLVM-based
+tool</a>, which provides a powerful <a href="#llvm-db">source-level debugger</a>
-compilers.  When compiling a program in debug mode, the front-end in use adds
+to users of LLVM-based compilers.  It then describes the <a
-LLVM debugging information to the program in the form of normal <a
+href="#architecture">various components</a> that make up the debugger and the
-href="LangRef.html">LLVM program objects</a> as well as a small set of LLVM <a
+libraries which future clients may use.  Finally, it describes the <a
-href="#implementation">intrinsic functions</a>, which specify the mapping of the
+href="#format">actual format that the LLVM debug information</a> takes,
-program in LLVM form to the program in the source language.
+which is useful for those interested in creating front-ends or dealing directly
-</p>
+with the information.</p>
 </div>
@ -100,7 +110,7 @@ LLVM should not put any restrictions of the flavor of the source-language, and
 the debugging information should work with any language.</li>
 <li>With code generator support, it should be possible to use an LLVM compiler
-to compile a program to native machine code with standard debugging formats.
+to compile a program to native machine code and standard debugging formats.
 This allows compatibility with traditional machine-code level debuggers, like
 GDB or DBX.</li>
@ -108,10 +118,10 @@ GDB or DBX.</li>
 <p>
 The approach used by the LLVM implementation is to use a small set of <a
-href="#impl_common_intrinsics">intrinsic functions</a> to define a mapping
+href="#format_common_intrinsics">intrinsic functions</a> to define a mapping
 between LLVM program objects and the source-level objects.  The description of
 the source-level program is maintained in LLVM global variables in an <a
-href="#impl_ccxx">implementation-defined format</a> (the C/C++ front-end
+href="#ccxx_frontend">implementation-defined format</a> (the C/C++ front-end
 currently uses working draft 7 of the <a
 href="http://www.eagercon.com/dwarf/dwarf3std.htm">Dwarf 3 standard</a>).</p>
@ -207,14 +217,14 @@ scoping rules.</p>
 <p>
 After working with the debugger for a while, perhaps the nicest improvement
-would be to add some sort of line editor, such as GNU readline (but that is
+would be to add some sort of line editor, such as GNU readline (but one that is
 compatible with the LLVM license).</p>
 <p>
 For someone so inclined, it should be straight-forward to write different
 front-ends for the LLVM debugger, as the LLVM debugging engine is cleanly
-seperated from the <tt>llvm-db</tt> front-end.  A GUI debugger or IDE would be
+separated from the <tt>llvm-db</tt> front-end.  A new LLVM GUI debugger or IDE
-an interesting project.
+would be nice. :)
 </p>
 </div>
@ -252,18 +262,21 @@ a bug or, better yet, submit a patch to add it. :)</p>
 <div class="doc_text">
-<p><tt>llvm-db</tt> is the first LLVM debugger, and as such was designed to be
+<p><tt>llvm-db</tt> is designed to be modular and easy to extend.  This
-quick to prototype and build, and simple to extend.  It is missing many many
+extensibility was key to getting the debugger up-and-running quickly, because we
-features, though they should be easy to add over time (patches welcomed!).
+can start with simple-but-unsophisicated implementations of various components.
-Because the (currently only) debugger backend (implemented in
+Because of this, it is currently missing many features, though they should be
-"lib/Debugger/UnixLocalInferiorProcess.cpp") was designed to work without any
+easy to add over time (patches welcomed!).  The biggest inherent limitations of
-cooperation from the code generators, it suffers from the following inherent
+<tt>llvm-db</tt> are currently due to extremely simple <a
-limitations:</p>
+href="#arch_debugger">debugger backend</a> (implemented in
 "lib/Debugger/UnixLocalInferiorProcess.cpp") which is designed to work without
 any cooperation from the code generators.  Because it is so simple, it suffers
 from the following inherent limitations:</p>
 <p><ul>
 <li>Running a program in <tt>llvm-db</tt> is a bit slower than running it with
-<tt>lli</tt>.</li>
+<tt>lli</tt> (i.e., in the JIT).</li>
 <li>Inspection of the target hardware is not supported.  This means that you
 cannot, for example, print the contents of X86 registers.</li>
@ -281,10 +294,11 @@ supported.</li>
 </ul></p>
-<p>That said, it is still quite useful, and all of these limitations can be
+<p>That said, the debugger is still quite useful, and all of these limitations
-eliminated by integrating support for the debugger into the code generators.
+can be eliminated by integrating support for the debugger into the code
-See the <a href="#future">future work</a> section for ideas of how to extend
+generators, and writing a new <a href="#arch_debugger">InferiorProcess</a>
-the LLVM debugger despite these limitations.</p>
+subclass to use it.  See the <a href="#future">future work</a> section for ideas
 of how to extend the LLVM debugger despite these limitations.</p>
 </div>
@ -296,9 +310,48 @@ the LLVM debugger despite these limitations.</p>
 <div class="doc_text">
-<p>
+<p>TODO: this is obviously lame, when more is implemented, this can be much
-TODO
+better.</p>
-</p>
+
 <p><pre>
 $ <b>llvm-db funccall</b>
 llvm-db: The LLVM source-level debugger
 Loading program... successfully loaded 'funccall.bc'!
 (llvm-db) <b>create</b>
 Starting program: funccall.bc
 main at funccall.c:9:2
 9 ->            q = 0;
 (llvm-db) <b>list main</b>
 4       void foo() {
 5               int t = q;
 6               q = t + 1;
 7       }
 8       int main() {
 9 ->            q = 0;
 10              foo();
 11              q = q - 1;
 12
 13              return q;
 (llvm-db) <b>list</b>
 14      }
 (llvm-db) <b>step</b>
 10 ->           foo();
 (llvm-db) <b>s</b>
 foo at funccall.c:5:2
 5 ->            int t = q;
 (llvm-db) <b>bt</b>
 #0 ->   0x85ffba0 in foo at funccall.c:5:2
 #1      0x85ffd98 in main at funccall.c:10:2
 (llvm-db) <b>finish</b>
 main at funccall.c:11:2
 11 ->           q = q - 1;
 (llvm-db) <b>s</b>
 13 ->           return q;
 (llvm-db) <b>s</b>
 The program stopped with exit code 0
 (llvm-db) <b>quit</b>
 $
 </pre></p>
 </div>
@ -386,6 +439,8 @@ information about what these do, or try '<tt>help [command]</tt>' within
 <li>set listsize</li>
 <li>show language</li>
 <li>set language</li>
 <li>show args</li>
 <li>set args [args]</li>
 </ul>
 <h2>TODO:</h2>
@ -415,19 +470,119 @@ information about what these do, or try '<tt>help [command]</tt>' within
 <div class="doc_text">
-<p><pre>
+<p>
-lib/Debugger
+The LLVM debugger is built out of three distinct layers of software.  These
-  - UnixLocalInferiorProcess.cpp
+layers provide clients with different interface options depending on what pieces
 of they want to implement themselves, and it also promotes code modularity and
 good design.  The three layers are the <a href="#arch_debugger">Debugger
 interface</a>, the <a href="#arch_info">"info" interfaces</a>, and the
 <a href="#arch_llvm-db"><tt>llvm-db</tt> tool</a> itself.
 </p>
 </div>
-tools/llvm-db
+<!-- ======================================================================= -->
-  - SourceLanguage interfaces
+<div class="doc_subsection">
-  - ProgramInfo/RuntimeInfo
+  <a name="arch_debugger">The Debugger and InferiorProcess classes</a>
-  - Commands
+</div>
-</pre></p>
+<div class="doc_text">
 <p>
 The Debugger class (defined in the <tt>include/llvm/Debugger/</tt> directory) is
 a low-level class which is used to maintain information about the loaded
 program, as well as start and stop the program running as necessary.  This class
 does not provide any high-level analysis or control over the program, only
 exposing simple interfaces like <tt>load/unloadProgram</tt>,
 <tt>create/killProgram</tt>, <tt>step/next/finish/contProgram</tt>, and
 low-level methods for installing breakpoints.
 </p>
 <p>
 The Debugger class is itself a wrapper around the lowest-level InferiorProcess
 class.  This class is used to represent an instance of the program running under
 debugger control.  The InferiorProcess class can be implemented in different
 ways for different targets and execution scenarios (e.g., remote debugging).
 The InferiorProcess class exposes a small and simple collection of interfaces
 which are useful for inspecting the current state of the program (such as
 collecting stack trace information, reading the memory image of the process,
 etc).  The interfaces in this class are designed to be as low-level and simple
 as possible, to make it easy to create new instances of the class.
 </p>
 <p>
 The Debugger class exposes the currently active instance of InferiorProcess
 through the <tt>Debugger::getRunningProcess</tt> method, which returns a
 <tt>const</tt> reference to the class.  This means that clients of the Debugger
 class can only <b>inspect</b> the running instance of the program directly.  To
 change the executing process in some way, they must use the interces exposed by
 the Debugger class.
 </p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
  <a name="arch_info">The RuntimeInfo, ProgramInfo, and SourceLanguage classes</a>
 </div>
 <div class="doc_text">
 <p>
 The next-highest level of debugger abstraction is provided through the
 ProgramInfo, RuntimeInfo, SourceLanguage and related classes (also defined in
 the <tt>include/llvm/Debugger/</tt> directory).  These classes efficiently
 decode the debugging information and low-level interfaces exposed by
 InferiorProcess into a higher-level representation, suitable for analysis by the
 debugger.
 </p>
 <p>
 The ProgramInfo class exposes a variety of different kinds of information about
 the program objects in the source-level-language.  The SourceFileInfo class
 represents a source-file in the program (e.g. a .cpp or .h file).  The
 SourceFileInfo class captures information such as which SourceLanguage was used
 to compile the file, where the debugger can get access to the actual file text
 (which is lazily loaded on demand), etc.  The SourceFunctionInfo class
 represents a... <b>FIXME: finish</b>.  The ProgramInfo class provides interfaces
 to lazily find and decode the information needed to create the Source*Info
 classes requested by the debugger.
 </p>
 <p>
 The RuntimeInfo class exposes information about the currently executed program,
 by decoding information from the InferiorProcess and ProgramInfo classes.  It
 provides a StackFrame class which provides an easy-to-use interface for
 inspecting the current and suspended stack frames in the program.
 </p>
 <p>
 The SourceLanguage class is an abstract interface used by the debugger to
 perform all source-language-specific tasks.  For example, this interface is used
 by the ProgramInfo class to decode language-specific types and functions and by
 the debugger front-end (such as <a href="#arch_llvm-db"><tt>llvm-db</tt></a> to
 evaluate source-langauge expressions typed into the debugger.  This class uses
 the RuntimeInfo &amp; ProgramInfo classes to get information about the current
 execution context and the loaded program, respectively.
 </p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
  <a name="arch_llvm-db">The <tt>llvm-db</tt> tool</a>
 </div>
 <div class="doc_text">
 <p>
 The <tt>llvm-db</tt> is designed to be a debugger providing an interface as <a
 href="#llvm-db">similar to GDB</a> as reasonable, but no more so than that.
 Because the <a href="#arch_debugger">Debugger</a> and <a
 href="#arch_info">info</a> classes implement all of the heavy lifting and
 analysis, <tt>llvm-db</tt> (which lives in <tt>llvm/tools/llvm-db</tt>) consists
 mainly of of code to interact with the user and parse commands.  The CLIDebugger
 constructor registers all of the builtin commands for the debugger, and each
 command is implemented as a CLIDebugger::[name]Command method.
 </p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
  <a name="arch_todo">Short-term TODO list</a>
@ -455,11 +610,6 @@ level. Also, breakpoints should survive as much as possible across program
 reloads.
 </p>
 <p>
 <b>run (with args)</b> &amp; <b>set args</b>: These need to be implemented.
 Currently run doesn't support setting arguments as part of the command.  The
 only tricky thing is handling quotes right and stuff.</p>
 <p>
 <b>UnixLocalInferiorProcess.cpp speedup</b>: There is no reason for the debugged
 process to code gen the globals corresponding to debug information.  The
@ -468,11 +618,16 @@ casts of the constant address of the LLVM objects for the descriptors.  This
 would also allow us to eliminate the mapping back and forth between physical
 addresses that must be done.</p>
 <p>
 <b>Process deaths</b>: The InferiorProcessDead exception should be extended to
 know "how" a process died, i.e., it was killed by a signal.  This is easy to
 collect in the UnixLocalInferiorProcess, we just need to represent it.</p>
 </div>
 <!-- *********************************************************************** -->
 <div class="doc_section">
-  <a name="implementation">Debugging information implementation</a>
+  <a name="format">Debugging information format</a>
 </div>
 <!-- *********************************************************************** -->
@ -497,32 +652,31 @@ piece of debugging information are deleted (for example, by the
 become dead and be removed by the optimizer.</p>
 <p>The debugger is designed to be agnostic about the contents of most of the
-debugging information.  It uses a source-language-specific module to decode the
+debugging information.  It uses a <a href="#arch_info">source-language-specific
-information that represents variables, types, functions, namespaces, etc: this
+module</a> to decode the information that represents variables, types,
-allows for arbitrary source-language semantics and type-systems to be used, as
+functions, namespaces, etc: this allows for arbitrary source-language semantics
-long as there is a module written for the debugger to interpret the information.
+and type-systems to be used, as long as there is a module written for the
 debugger to interpret the information.
 </p>
 <p>
 To provide basic functionality, the LLVM debugger does have to make some
 assumptions about the source-level language being debugged, though it keeps
 these to a minimum.  The only common features that the LLVM debugger assumes
-exist are <a href="#impl_common_source_files">source files</a>, <a
+exist are <a href="#format_common_source_files">source files</a>, and <a
-href="#impl_common_globals">global objects</a> (aka methods, messages, global
+href="#format_program_objects">program objects</a>.  These abstract objects are
-variables, etc), and <a href="#impl_common_localvars">local variables</a>.
+used by the debugger to form stack traces, show information about local
-These abstract objects are used by the debugger to form stack traces, show
+variables, etc.
 information about local variables, etc.
 <p>This section of the documentation first describes the representation aspects
-<a href="#impl_common">common to any source-language</a>.  The next section
+common to any source-language.  The <a href="#ccxx_frontend">next section</a>
-describes the data layout conventions used by the <a href="#impl_ccxx">C and C++
+describes the data layout conventions used by the C and C++ front-ends.</p>
 front-ends</a>.</p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
-  <a name="impl_common_anchors">Anchors for global objects</a>
+  <a name="format_common_anchors">Anchors for global objects</a>
 </div>
 <div class="doc_text">
@ -542,8 +696,8 @@ So far, the following names are recognized as anchors by the LLVM debugger:
 </p>
 <p><pre>
-  %<a href="#impl_common_source_files">llvm.dbg.translation_units</a> = linkonce global {} {}
+  %<a href="#format_common_source_files">llvm.dbg.translation_units</a> = linkonce global {} {}
-  %<a href="#impl_common_globals">llvm.dbg.globals</a>         = linkonce global {} {}
+  %<a href="#format_program_objects">llvm.dbg.globals</a>         = linkonce global {} {}
 </pre></p>
 <p>
@ -560,7 +714,7 @@ deleted.
 <!-- ======================================================================= -->
 <div class="doc_subsection">
-  <a name="impl_common_stoppoint">
+  <a name="format_common_stoppoint">
     Representing stopping points in the source program
  </a>
 </div>
@ -574,8 +728,9 @@ front-end inserts calls to the <tt>%llvm.dbg.stoppoint</tt> intrinsic function
 at every point in the program where the debugger should be able to inspect the
 program (these correspond to places the debugger stops when you "<tt>step</tt>"
 through it).  The front-end can choose to place these as fine-grained as it
-would like (for example, before every subexpression was evaluated), but it is
+would like (for example, before every subexpression evaluated), but it is
-recommended to only put them after every source statement.</p>
+recommended to only put them after every source statement that includes
 executable code.</p>
 <p>
 Using calls to this intrinsic function to demark legal points for the debugger
@ -585,21 +740,22 @@ transformations, these calls simply look like calls to an external function,
 which they must assume to do anything (including reading or writing to any part
 of reachable memory).  On the other hand, it does not impact many optimizations,
 such as code motion of non-trapping instructions, nor does it impact
-optimization of subexpressions, or any other code between the stop points.</p>
+optimization of subexpressions, code duplication transformations, or basic-block
 reordering transformations.</p>
 <p>
 An important aspect of the calls to the <tt>%llvm.dbg.stoppoint</tt> intrinsic
 is that the function-local debugging information is woven together with use-def
 chains.  This makes it easy for the debugger to, for example, locate the 'next'
-stop point.  For a concrete example of stop points, see <a
+stop point.  For a concrete example of stop points, see the example in <a
-href="#impl_common_lifetime">the next section</a>.</p>
+href="#format_common_lifetime">the next section</a>.</p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
-  <a name="impl_common_lifetime">Object lifetimes and scoping</a>
+  <a name="format_common_lifetime">Object lifetimes and scoping</a>
 </div>
 <div class="doc_text">
@ -642,25 +798,25 @@ void %foo() {
    %X = alloca int
    %Y = alloca int
    %Z = alloca int
-    <a name="#icl_ex_D1">%D1</a> = call {}* %llvm.dbg.func.start(<a href="#impl_common_globals">%lldb.global</a>* %d.foo)
+    <a name="#icl_ex_D1">%D1</a> = call {}* %llvm.dbg.func.start(<a href="#format_program_objects">%lldb.global</a>* %d.foo)
-    %D2 = call {}* <a href="#impl_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D1, uint 2, uint 2, <a href="#impl_common_source_files">%lldb.compile_unit</a>* %file)
+    %D2 = call {}* <a href="#format_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D1, uint 2, uint 2, <a href="#format_common_source_files">%lldb.compile_unit</a>* %file)
    %D3 = call {}* %llvm.dbg.DEFINEVARIABLE({}* %D2, ...)
    <i>;; Evaluate expression on line 2, assigning to X.</i>
-    %D4 = call {}* <a href="#impl_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D3, uint 3, uint 2, <a href="#impl_common_source_files">%lldb.compile_unit</a>* %file)
+    %D4 = call {}* <a href="#format_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D3, uint 3, uint 2, <a href="#format_common_source_files">%lldb.compile_unit</a>* %file)
    %D5 = call {}* %llvm.dbg.DEFINEVARIABLE({}* %D4, ...)
    <i>;; Evaluate expression on line 3, assigning to Y.</i>
-    %D6 = call {}* <a href="#impl_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D5, uint 5, uint 4, <a href="#impl_common_source_files">%lldb.compile_unit</a>* %file)
+    %D6 = call {}* <a href="#format_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D5, uint 5, uint 4, <a href="#format_common_source_files">%lldb.compile_unit</a>* %file)
    <a name="#icl_ex_D1">%D7</a> = call {}* %llvm.region.start({}* %D6)
    %D8 = call {}* %llvm.dbg.DEFINEVARIABLE({}* %D7, ...)
    <i>;; Evaluate expression on line 5, assigning to Z.</i>
-    %D9 = call {}* <a href="#impl_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D8, uint 6, uint 4, <a href="#impl_common_source_files">%lldb.compile_unit</a>* %file)
+    %D9 = call {}* <a href="#format_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D8, uint 6, uint 4, <a href="#format_common_source_files">%lldb.compile_unit</a>* %file)
    <i>;; Code for line 6.</i>
    %D10 = call {}* %llvm.region.end({}* %D9)
-    %D11 = call {}* <a href="#impl_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D10, uint 8, uint 2, <a href="#impl_common_source_files">%lldb.compile_unit</a>* %file)
+    %D11 = call {}* <a href="#format_common_stoppoint">%llvm.dbg.stoppoint</a>({}* %D10, uint 8, uint 2, <a href="#format_common_source_files">%lldb.compile_unit</a>* %file)
    <i>;; Code for line 8.</i>
    <a name="#icl_ex_D1">%D12</a> = call {}* %llvm.region.end({}* %D11)
@ -672,7 +828,7 @@ void %foo() {
 This example illustrates a few important details about the LLVM debugging
 information.  In particular, it shows how the various intrinsics used are woven
 together with def-use and use-def chains, similar to how <a
-href="#impl_common_anchors">anchors</a> are used with globals.  This allows the
+href="#format_common_anchors">anchors</a> are used with globals.  This allows the
 debugger to analyze the relationship between statements, variable definitions,
 and the code used to implement the function.</p>
@ -681,21 +837,24 @@ In this example, two explicit regions are defined, one with the <a
 href="#icl_ex_D1">definition of the <tt>%D1</tt> variable</a> and one with the
 <a href="#icl_ex_D7">definition of <tt>%D7</tt></a>.  In the case of
 <tt>%D1</tt>, the debug information indicates that the function whose <a
-href="#impl_common_globals">descriptor</a> is specified as an argument to the
+href="#format_program_objects">descriptor</a> is specified as an argument to the
 intrinsic.  This defines a new stack frame whose lifetime ends when the region
 is ended by <a href="#icl_ex_D12">the <tt>%D12</tt> call</a>.</p>
 <p>
-Representing the boundaries of functions with regions allows normal LLVM
+Using regions to represent the boundaries of source-level functions allow LLVM
-interprocedural optimizations to change the boundaries of functions without
+interprocedural optimizations to arbitrarily modify LLVM functions without
-having to worry about breaking mapping information between LLVM and source-level
+having to worry about breaking mapping information between the LLVM code and the
-functions.  In particular, the inlining optimization requires no modification to
+and source-level program.  In particular, the inliner requires no modification
-support inlining with debugging information: there is no correlation drawn
+to support inlining with debugging information: there is no explicit correlation
-between LLVM functions and their source-level counterparts.</p>
+drawn between LLVM functions and their source-level counterparts (note however,
 that if the inliner inlines all instances of a non-strong-linkage function into
 its caller that it will not be possible for the user to manually invoke the
 inlined function from the debugger).</p>
 <p>
 Once the function has been defined, the <a
-href="#impl_common_stoppoint">stopping point</a> corresponding to line #2 of the
+href="#format_common_stoppoint">stopping point</a> corresponding to line #2 of the
 function is encountered.  At this point in the function, <b>no</b> local
 variables are live.  As lines 2 and 3 of the example are executed, their
 variable definitions are automatically introduced into the program, without the
@ -708,10 +867,9 @@ introduced because they go out of scope at the same point in the program: line
 In contrast, the <tt>Z</tt> variable goes out of scope at a different time, on
 line 7.  For this reason, it is defined within <a href="#icl_ex_D7">the
 <tt>%D7</tt> region</a>, which kills the availability of <tt>Z</tt> before the
-code for line 8 is executed.  Through the use of LLVM debugger regions,
+code for line 8 is executed.  In this way, regions can support arbitrary
-arbitrary source-language scoping rules can be supported, as long as they can
+source-language scoping rules, as long as they can only be nested (ie, one scope
-only be nested (ie, one scope cannot partially overlap with a part of another
+cannot partially overlap with a part of another scope).
 scope).
 </p>
 <p>
@ -719,7 +877,7 @@ It is worth noting that this scoping mechanism is used to control scoping of all
 declarations, not just variable declarations.  For example, the scope of a C++
 using declaration is controlled with this, and the <tt>llvm-db</tt> C++ support
 routines could use this to change how name lookup is performed (though this is
-not yet implemented).
+not implemented yet).
 </p>
 </div>
@ -727,41 +885,46 @@ not yet implemented).
 <!-- ======================================================================= -->
 <div class="doc_subsection">
-  <a name="impl_common_descriptors">Object descriptor formats</a>
+  <a name="format_common_descriptors">Object descriptor formats</a>
 </div>
 <div class="doc_text">
 <p>
-The LLVM debugger expects the descriptors for global objects to start in a
+The LLVM debugger expects the descriptors for program objects to start in a
 canonical format, but the descriptors can include additional information
-appended at the end.  All LLVM debugging information is versioned, allowing
+appended at the end that is source-language specific.  All LLVM debugging
-backwards compatibility in the case that the core structures need to change in
+information is versioned, allowing backwards compatibility in the case that the
-some way.  The lowest-level descriptor are those describing <a
+core structures need to change in some way.  Also, all debugging information
-href="#impl_common_source_files">the files containing the program source
+objects start with a <a href="#format_common_tags">tag</a> to indicate what type
-code</a>, all other descriptors refer to them.
+of object it is.  The source-language is allows to define its own objects, by
 using unreserved tag numbers.</p>
 <p>The lowest-level descriptor are those describing <a
 href="#format_common_source_files">the files containing the program source
 code</a>, as most other descriptors (sometimes indirectly) refer to them.
 </p>
 </div>
 <!----------------------------------------------------------------------------->
 <div class="doc_subsubsection">
-  <a name="impl_common_source_files">Representation of source files</a>
+  <a name="format_common_source_files">Representation of source files</a>
 </div>
 <div class="doc_text">
 <p>
-Source file descriptors were roughly patterned after the Dwarf "compile_unit"
+Source file descriptors are patterned after the Dwarf "compile_unit" object.
-object.  The descriptor currently is defined to have the following LLVM
+The descriptor currently is defined to have at least the following LLVM
-type:</p>
+type entries:</p>
 <p><pre>
 %lldb.compile_unit = type {
       uint,                 <i>;; Tag: <a href="#tag_compile_unit">LLVM_COMPILE_UNIT</a></i>
       ushort,               <i>;; LLVM debug version number</i>
       ushort,               <i>;; Dwarf language identifier</i>
       sbyte*,               <i>;; Filename</i>
       sbyte*,               <i>;; Working directory when compiled</i>
-       sbyte*,               <i>;; Producer of the debug information</i>
+       sbyte*                <i>;; Producer of the debug information</i>
       {}*                   <i>;; Anchor for llvm.dbg.translation_units</i>
 }
 </pre></p>
@ -770,13 +933,16 @@ These descriptors contain the version number for the debug info, a source
 language ID for the file (we use the Dwarf 3.0 ID numbers, such as
 <tt>DW_LANG_C89</tt>, <tt>DW_LANG_C_plus_plus</tt>, <tt>DW_LANG_Cobol74</tt>,
 etc), three strings describing the filename, working directory of the compiler,
-and an identifier string for the compiler that produced it, and the <a
+and an identifier string for the compiler that produced it.  Note that actual
-href="#impl_common_anchors">anchor</a> for the descriptor.  Here is an example
+compile_unit declarations must also include an <a
 href="#format_common_anchors">anchor</a> to <tt>llvm.dbg.translation_units</tt>,
 but it is not specified where the anchor is to be located.  Here is an example
 descriptor:
 </p>
 <p><pre>
 %arraytest_source_file = internal constant %lldb.compile_unit {
    <a href="#tag_compile_unit">uint 17</a>,                                                      ; Tag value
    ushort 0,                                                     ; Version #0
    ushort 1,                                                     ; DW_LANG_C89
    sbyte* getelementptr ([12 x sbyte]* %.str_1, long 0, long 0), ; filename
@ -789,78 +955,126 @@ descriptor:
 %.str_3 = internal constant [12 x sbyte] c"llvmgcc 3.4\00"
 </pre></p>
 <p>
 Note that the LLVM constant merging pass should eliminate duplicate copies of
 the strings that get emitted to each translation unit, such as the producer.
 </p>
 </div>
 <!----------------------------------------------------------------------------->
 <div class="doc_subsubsection">
-  <a name="impl_common_globals">Representation of global objects</a>
+  <a name="format_program_objects">Representation of program objects</a>
 </div>
 <div class="doc_text">
 <p>
-The LLVM debugger needs to know what the source-language global objects, in
+The LLVM debugger needs to know about some source-language program objects, in
-order to build stack traces and other related activities.  Because
+order to build stack traces, print information about local variables, and other
-source-languages have widly varying forms of global objects, the LLVM debugger
+related activities.  The LLVM debugger differentiates between three different
-only expects the following fields in the descriptor for each global:
+types of program objects: subprograms (functions, messages, methods, etc),
 variables (locals and globals), and others.  Because source-languages have
 widely varying forms of these objects, the LLVM debugger expects only a few
 fields in the descriptor for each object:
 </p>
 <p><pre>
-%lldb.global = type {
+%lldb.object = type {
-       <a href="#impl_common_source_files">%lldb.compile_unit</a>*,   <i>;; The translation unit containing the global</i>
+       uint,                  <i>;; <a href="#format_common_tag">A tag</a></i>
-       sbyte*,                <i>;; The global object 'name'</i>
+       <i>any</i>*,                  <i>;; The <a href="#format_common_object_contexts">context</a> for the object</i>
-       [type]*,               <i>;; Source-language type descriptor for global</i>
+       sbyte*                 <i>;; The object 'name'</i>
       {}*                    <i>;; The anchor for llvm.dbg.globals</i>
 }
 </pre></p>
 <p>
-The first field contains a pointer to the translation unit the function is
+The first field contains a tag for the descriptor.  The second field contains
-defined in.  This pointer allows the debugger to find out which version of debug
+either a pointer to the descriptor for the containing <a
-information the function corresponds to.  The second field contains a string
+href="#format_common_source_files">source file</a>, or it contains a pointer to
-that the debugger can use to identify the subprogram if it does not contain
+another program object whose context pointer eventually reaches a source file.
-explicit support for the source-language in use.  This should be some sort of
+Through this <a href="#format_common_object_contexts">context</a> pointer, the
-unmangled string that corresponds to the function somehow.
+LLVM debugger can establish the debug version number of the object.</p>
 <p>
 The third field contains a string that the debugger can use to identify the
 object if it does not contain explicit support for the source-language in use
 (ie, the 'unknown' source language handler uses this string).  This should be
 some sort of unmangled string that corresponds to the object, but it is a
 quality of implementation issue what exactly it contains (it is legal, though
 not useful, for all of these strings to be null).
 </p>
 <p>
 Note again that descriptors can be extended to include source-language-specific
 information in addition to the fields required by the LLVM debugger.  See the <a
-href="#impl_ccxx_descriptors">section on the C/C++ front-end</a> for more
+href="#ccxx_descriptors">section on the C/C++ front-end</a> for more
-information.
+information.  Also remember that global objects (functions, selectors, global
-</p>
+variables, etc) must contain an <a href="format_common_anchors">anchor</a> to
-</div>
+the <tt>llvm.dbg.globals</tt> variable.
 <!----------------------------------------------------------------------------->
 <div class="doc_subsubsection">
  <a name="impl_common_localvars">Representation of local variables</a>
 </div>
 <div class="doc_text">
 <p>
 </p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
-  <a name="impl_common_intrinsics">Other intrinsic functions</a>
+  <a name="format_common_object_contexts">Program object contexts</a>
 </div>
 <div class="doc_text">
 <p><pre>
 Allow source-language specific contexts, use to identify namespaces etc
 Must end up in a source file descriptor.
 Debugger core ignores all unknown context objects.
 </pre></p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
  <a name="format_common_intrinsics">Debugger intrinsic functions</a>
 </div>
 <div class="doc_text">
 <p><pre>
 Define each intrinsics, as an extension of the language reference manual.
 llvm.dbg.stoppoint
 llvm.dbg.region.start
 llvm.dbg.region.end
 llvm.dbg.function.start
 llvm.dbg.declare
 </pre></p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
  <a name="format_common_tags">Values for debugger tags</a>
 </div>
 <div class="doc_text">
 <p>
 Happen to be the same value as the similarly named Dwarf-3 tags, this may change
 in the future.
 </p>
 </p>
 <p><pre>
  <a name="tag_compile_unit">LLVM_COMPILE_UNIT</a>     : 17
  <a name="tag_subprogram">LLVM_SUBPROGRAM</a>       : 46
  <a name="tag_variable">LLVM_VARIABLE</a>         : 52
 <!--  <a name="tag_formal_parameter">LLVM_FORMAL_PARAMETER :  5-->
 </pre></p>
 </div>
 <!-- *********************************************************************** -->
 <div class="doc_section">
-  <a name="impl_ccxx">C/C++ front-end specific debug information</a>
+  <a name="ccxx_frontend">C/C++ front-end specific debug information</a>
 </div>
 <div class="doc_text">
@ -871,18 +1085,32 @@ that is effectively identical to <a
 href="http://www.eagercon.com/dwarf/dwarf3std.htm">Dwarf 3.0</a> in terms of
 information content.  This allows code generators to trivially support native
 debuggers by generating standard dwarf information, and contains enough
-information for non-dwarf targets to translate it other as needed.</p>
+information for non-dwarf targets to translate it as needed.</p>
 <p>
-TODO: document extensions to standard debugging objects, document how we
+The basic debug information required by the debugger is (intentionally) designed
-represent source types, etc.
+to be as minimal as possible.  This basic information is so minimal that it is
 unlikely that <b>any</b> source-language could be adequately described by it.
 Because of this, the debugger format was designed for extension to support
 source-language-specific information.  The extended descriptors are read and
 interpreted by the <a href="#arch_info">language-specific</a> modules in the
 debugger if there is support available, otherwise it is ignored.
 </p>
 <p>
 This section describes the extensions used to represent C and C++ programs.
 Other languages could pattern themselves after this (which itself is tuned to
 representing programs in the same way that Dwarf 3 does), or they could choose
 to provide completely different extensions if they don't fit into the Dwarf
 model.  As support for debugging information gets added to the various LLVM
 source-language front-ends, the information used should be documented here.
 </p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
-  <a name="impl_ccxx_descriptors">Object Descriptor Formats</a>
+  <a name="ccxx_pse">Program Scope Entries</a>
 </div>
 <div class="doc_text">
@ -891,6 +1119,41 @@ represent source types, etc.
 </p>
 </div>
 <!----------------------------------------------------------------------------->
 <div class="doc_subsubsection">
  <a name="ccxx_compilation_units">Compilation unit entries</a>
 </div>
 <div class="doc_text">
 <p>
 Translation units do not add any information over the standard <a
 href="#format_common_source_files">source file representation</a> already
 expected by the debugger.  As such, it uses descriptors of the type specified,
 with a trailing <a href="#format_common_anchors">anchor</a>.
 </p>
 </div>
 <!----------------------------------------------------------------------------->
 <div class="doc_subsubsection">
  <a name="ccxx_modules">Module, namespace, and importing entries</a>
 </div>
 <div class="doc_text">
 <p>
 </p>
 </div>
 <!-- ======================================================================= -->
 <div class="doc_subsection">
  <a name="ccxx_dataobjects">Data objects (program variables)</a>
 </div>
 <div class="doc_text">
 <p>
 </p>
 </div>
 <!-- *********************************************************************** -->