Add the clang library to the repo (with some of my changes, too).

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+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN"
+          "http://www.w3.org/TR/html4/strict.dtd">
+<html>
+<head>
+  <meta http-equiv="content-type" content="text/html; charset=iso-8859-1">
+  <title>Clang - Expressive Diagnostics</title>
+  <link type="text/css" rel="stylesheet" href="menu.css">
+  <link type="text/css" rel="stylesheet" href="content.css">
+  <style type="text/css">
+  .warn { color:magenta; }
+  .err { color:red; }
+  .snip { color:darkgreen; }
+  .point { color:blue; }
+  </style>
+</head>
+<body>
+
+<!--#include virtual="menu.html.incl"-->
+
+<div id="content">
+
+
+<!--=======================================================================-->
+<h1>Expressive Diagnostics</h1>
+<!--=======================================================================-->
+
+<p>In addition to being fast and functional, we aim to make Clang extremely user
+friendly.  As far as a command-line compiler goes, this basically boils down to
+making the diagnostics (error and warning messages) generated by the compiler
+be as useful as possible.  There are several ways that we do this.  This section
+talks about the experience provided by the command line compiler, contrasting
+Clang output to GCC 4.2's output in several examples.
+<!--
+Other clients
+that embed Clang and extract equivalent information through internal APIs.-->
+</p>
+
+<h2>Column Numbers and Caret Diagnostics</h2>
+
+<p>First, all diagnostics produced by clang include full column number
+information. The clang command-line compiler driver uses this information
+to print "point diagnostics".
+(IDEs can use the information to display in-line error markup.)
+Precise error location in the source is a feature provided by many commercial
+compilers, but is generally missing from open source
+compilers.  This is nice because it makes it very easy to understand exactly
+what is wrong in a particular piece of code</p>
+
+<p>The point (the blue "^" character) exactly shows where the problem is, even
+inside of a string.  This makes it really easy to jump to the problem and
+helps when multiple instances of the same character occur on a line. (We'll 
+revisit this more in following examples.)</p>
+
+<pre>
+  $ <b>gcc-4.2 -fsyntax-only -Wformat format-strings.c</b>
+  format-strings.c:91: warning: too few arguments for format
+  $ <b>clang -fsyntax-only format-strings.c</b>
+  format-strings.c:91:13: <span class="warn">warning:</span> '.*' specified field precision is missing a matching 'int' argument
+  <span class="snip">  printf("%.*d");</span>
+  <span class="point">            ^</span>
+</pre>
+
+<h2>Range Highlighting for Related Text</h2>
+
+<p>Clang captures and accurately tracks range information for expressions,
+statements, and other constructs in your program and uses this to make
+diagnostics highlight related information.  In the following somewhat
+nonsensical example you can see that you don't even need to see the original source code to
+understand what is wrong based on the Clang error. Because clang prints a
+point, you know exactly <em>which</em> plus it is complaining about.  The range
+information highlights the left and right side of the plus which makes it
+immediately obvious what the compiler is talking about.
+Range information is very useful for
+cases involving precedence issues and many other cases.</p>
+
+<pre>
+  $ <b>gcc-4.2 -fsyntax-only t.c</b>
+  t.c:7: error: invalid operands to binary + (have 'int' and 'struct A')
+  $ <b>clang -fsyntax-only t.c</b>
+  t.c:7:39: <span class="err">error:</span> invalid operands to binary expression ('int' and 'struct A')
+  <span class="snip">  return y + func(y ? ((SomeA.X + 40) + SomeA) / 42 + SomeA.X : SomeA.X);</span>
+  <span class="point">                       ~~~~~~~~~~~~~~ ^ ~~~~~</span>
+</pre>
+
+<h2>Precision in Wording</h2>
+
+<p>A detail is that we have tried really hard to make the diagnostics that come
+out of clang contain exactly the pertinent information about what is wrong and
+why.  In the example above, we tell you what the inferred types are for
+the left and right hand sides, and we don't repeat what is obvious from the
+point (e.g., that this is a "binary +").</p>
+
+<p>Many other examples abound. In the following example, not only do we tell you that there is a problem with the *
+and point to it, we say exactly why and tell you what the type is (in case it is
+a complicated subexpression, such as a call to an overloaded function).  This
+sort of attention to detail makes it much easier to understand and fix problems
+quickly.</p>
+
+<pre>
+  $ <b>gcc-4.2 -fsyntax-only t.c</b>
+  t.c:5: error: invalid type argument of 'unary *'
+  $ <b>clang -fsyntax-only t.c</b>
+  t.c:5:11: <span class="err">error:</span> indirection requires pointer operand ('int' invalid)
+  <span class="snip">  int y = *SomeA.X;</span>
+  <span class="point">          ^~~~~~~~</span>
+</pre>
+
+<h2>No Pretty Printing of Expressions in Diagnostics</h2>
+
+<p>Since Clang has range highlighting, it never needs to pretty print your code
+back out to you.  GCC can produce inscrutible error messages in some cases when
+it tries to do this.  In this example P and Q have type "int*":</p>
+
+<pre>
+  $ <b>gcc-4.2 -fsyntax-only t.c</b>
+  #'exact_div_expr' not supported by pp_c_expression#'t.c:12: error: called object  is not a function
+  $ <b>clang -fsyntax-only t.c</b>
+  t.c:12:8: <span class="err">error:</span> called object type 'int' is not a function or function pointer
+  <span class="snip">  (P-Q)();</span>
+  <span class="point">  ~~~~~^</span>
+</pre>
+
+<p>This can be particularly bad in G++, which often emits errors
+   containing lowered vtable references.  For example:</p>
+  
+<pre>
+  $ <b>cat t.cc</b>
+  struct a {
+    virtual int bar();
+  };
+  
+  struct foo : public virtual a {
+  };
+  
+  void test(foo *P) {
+    return P->bar() + *P;
+  }
+  $ <b>gcc-4.2 t.cc</b>
+  t.cc: In function 'void test(foo*)':
+  t.cc:9: error: no match for 'operator+' in '(((a*)P) + (*(long int*)(P-&gt;foo::&lt;anonymous&gt;.a::_vptr$a + -0x00000000000000020)))-&gt;a::bar() + * P'
+  t.cc:9: error: return-statement with a value, in function returning 'void'
+  $ <b>clang t.cc</b>
+  t.cc:9:18: <span class="err">error:</span> invalid operands to binary expression ('int' and 'foo')
+  <span class="snip">  return P->bar() + *P;</span>
+  <span class="point">         ~~~~~~~~ ^ ~~</span>
+</pre>
+  
+
+<h2>Typedef Preservation and Selective Unwrapping</h2>
+
+<p>Many programmers use high-level user defined types, typedefs, and other
+syntactic sugar to refer to types in their program.  This is useful because they
+can abbreviate otherwise very long types and it is useful to preserve the
+typename in diagnostics.  However, sometimes very simple typedefs can wrap
+trivial types and it is important to strip off the typedef to understand what
+is going on.  Clang aims to handle both cases well.<p>
+
+<p>The following example shows where it is important to preserve
+a typedef in C. Here the type printed by GCC isn't even valid, but if the error
+were about a very long and complicated type (as often happens in C++) the error
+message would be ugly just because it was long and hard to read.</p>
+
+<pre>
+  $ <b>gcc-4.2 -fsyntax-only t.c</b>
+  t.c:15: error: invalid operands to binary / (have 'float __vector__' and 'const int *')
+  $ <b>clang -fsyntax-only t.c</b>
+  t.c:15:11: <span class="err">error:</span> can't convert between vector values of different size ('__m128' and 'int const *')
+  <span class="snip">  myvec[1]/P;</span>
+  <span class="point">  ~~~~~~~~^~</span>
+</pre>
+
+<p>The following example shows where it is useful for the compiler to expose
+underlying details of a typedef. If the user was somehow confused about how the
+system "pid_t" typedef is defined, Clang helpfully displays it with "aka".</p>
+
+<pre>
+  $ <b>gcc-4.2 -fsyntax-only t.c</b>
+  t.c:13: error: request for member 'x' in something not a structure or union
+  $ <b>clang -fsyntax-only t.c</b>
+  t.c:13:9: <span class="err">error:</span> member reference base type 'pid_t' (aka 'int') is not a structure or union
+  <span class="snip">  myvar = myvar.x;</span>
+  <span class="point">          ~~~~~ ^</span>
+</pre>
+
+<p>In C++, type preservation includes retaining any qualification written into type names. For example, if we take a small snippet of code such as:
+
+<blockquote>
+<pre>
+namespace services {
+  struct WebService {  };
+}
+namespace myapp {
+  namespace servers {
+    struct Server {  };
+  }
+}
+
+using namespace myapp;
+void addHTTPService(servers::Server const &amp;server, ::services::WebService const *http) {
+  server += http;
+}
+</pre>
+</blockquote>
+
+<p>and then compile it, we see that Clang is both providing more accurate information and is retaining the types as written by the user (e.g., "servers::Server", "::services::WebService"):
+
+<pre>
+  $ <b>g++-4.2 -fsyntax-only t.cpp</b>
+  t.cpp:9: error: no match for 'operator+=' in 'server += http'
+  $ <b>clang -fsyntax-only t.cpp</b>
+  t.cpp:9:10: <span class="err">error:</span> invalid operands to binary expression ('servers::Server const' and '::services::WebService const *')
+    <span class="snip">server += http;</span>
+    <span class="point">~~~~~~ ^  ~~~~</span>
+</pre>
+
+<p>Naturally, type preservation extends to uses of templates, and Clang retains information about how a particular template specialization (like <code>std::vector&lt;Real&gt;</code>) was spelled within the source code. For example:</p>
+
+<pre>
+  $ <b>g++-4.2 -fsyntax-only t.cpp</b>
+  t.cpp:12: error: no match for 'operator=' in 'str = vec'
+  $ <b>clang -fsyntax-only t.cpp</b>
+  t.cpp:12:7: <span class="err">error:</span> incompatible type assigning 'vector&lt;Real&gt;', expected 'std::string' (aka 'class std::basic_string&lt;char&gt;')
+    <span class="snip">str = vec</span>;
+        <span class="point">^ ~~~</span>
+</pre>
+
+<h2>Fix-it Hints</h2>
+
+<p>"Fix-it" hints provide advice for fixing small, localized problems
+in source code. When Clang produces a diagnostic about a particular
+problem that it can work around (e.g., non-standard or redundant
+syntax, missing keywords, common mistakes, etc.), it may also provide
+specific guidance in the form of a code transformation to correct the
+problem. In the following example, Clang warns about the use of a GCC
+extension that has been considered obsolete since 1993. The underlined
+code should be removed, then replaced with the code below the
+point line (".x =" or ".y =", respectively).</p>
+
+<pre>
+  $ <b>clang t.c</b>
+  t.c:5:28: <span class="warn">warning:</span> use of GNU old-style field designator extension
+  <span class="snip">struct point origin = { x: 0.0, y: 0.0 };</span>
+                          <span class="err">~~</span> <span class="point">^</span>
+                          <span class="snip">.x = </span>
+  t.c:5:36: <span class="warn">warning:</span> use of GNU old-style field designator extension
+  <span class="snip">struct point origin = { x: 0.0, y: 0.0 };</span>
+                                  <span class="err">~~</span> <span class="point">^</span>
+                                  <span class="snip">.y = </span>
+</pre>
+
+<p>"Fix-it" hints are most useful for
+working around common user errors and misconceptions. For example, C++ users
+commonly forget the syntax for explicit specialization of class templates,
+as in the error in the following example. Again, after describing the problem,
+Clang provides the fix--add <code>template&lt;&gt;</code>--as part of the
+diagnostic.<p>
+
+<pre>
+  $ <b>clang t.cpp</b>
+  t.cpp:9:3: <span class="err">error:</span> template specialization requires 'template&lt;&gt;'
+    struct iterator_traits&lt;file_iterator&gt; {
+    <span class="point">^</span>
+    <span class="snip">template&lt;&gt; </span>
+</pre>
+
+<h2>Automatic Macro Expansion</h2>
+
+<p>Many errors happen in macros that are sometimes deeply nested.  With
+traditional compilers, you need to dig deep into the definition of the macro to
+understand how you got into trouble.  The following simple example shows how
+Clang helps you out by automatically printing instantiation information and
+nested range information for diagnostics as they are instantiated through macros
+and also shows how some of the other pieces work in a bigger example.</p>
+
+<pre>
+  $ <b>gcc-4.2 -fsyntax-only t.c</b>
+  t.c: In function 'test':
+  t.c:80: error: invalid operands to binary &lt; (have 'struct mystruct' and 'float')
+  $ <b>clang -fsyntax-only t.c</b>
+  t.c:80:3: <span class="err">error:</span> invalid operands to binary expression ('typeof(P)' (aka 'struct mystruct') and 'typeof(F)' (aka 'float'))
+  <span class="snip">  X = MYMAX(P, F);</span>
+  <span class="point">      ^~~~~~~~~~~</span>
+  t.c:76:94: note: instantiated from:
+  <span class="snip">#define MYMAX(A,B)    __extension__ ({ __typeof__(A) __a = (A); __typeof__(B) __b = (B); __a &lt; __b ? __b : __a; })</span>
+  <span class="point">                                                                                         ~~~ ^ ~~~</span>
+</pre>
+
+<p>Here's another real world warning that occurs in the "window" Unix package (which
+implements the "wwopen" class of APIs):</p>
+
+<pre>
+  $ <b>clang -fsyntax-only t.c</b>
+  t.c:22:2: <span class="warn">warning:</span> type specifier missing, defaults to 'int'
+  <span class="snip">        ILPAD();</span>
+  <span class="point">        ^</span>
+  t.c:17:17: note: instantiated from:
+  <span class="snip">#define ILPAD() PAD((NROW - tt.tt_row) * 10)    /* 1 ms per char */</span>
+  <span class="point">                ^</span>
+  t.c:14:2: note: instantiated from:
+  <span class="snip">        register i; \</span>
+  <span class="point">        ^</span>
+</pre>
+
+<p>In practice, we've found that Clang's treatment of macros is actually more useful in multiply nested
+macros that in simple ones.</p>
+
+<h2>Quality of Implementation and Attention to Detail</h2>
+
+<p>Finally, we have put a lot of work polishing the little things, because
+little things add up over time and contribute to a great user experience.</p>
+
+<p>The following example shows a trivial little tweak, where we tell you to put the semicolon at
+the end of the line that is missing it (line 4) instead of at the beginning of
+the following line (line 5).  This is particularly important with fixit hints
+and point diagnostics, because otherwise you don't get the important context.
+</p>
+
+<pre>
+  $ <b>gcc-4.2 t.c</b>
+  t.c: In function 'foo':
+  t.c:5: error: expected ';' before '}' token
+  $ <b>clang t.c</b>
+  t.c:4:8: <span class="err">error:</span> expected ';' after expression
+  <span class="snip">  bar()</span>
+  <span class="point">       ^</span>
+  <span class="point">       ;</span>
+</pre>
+
+<p>The following example shows much better error recovery than GCC. The message coming out
+of GCC is completely useless for diagnosing the problem. Clang tries much harder
+and produces a much more useful diagnosis of the problem.</p>
+
+<pre>
+  $ <b>gcc-4.2 t.c</b>
+  t.c:3: error: expected '=', ',', ';', 'asm' or '__attribute__' before '*' token
+  $ <b>clang t.c</b>
+  t.c:3:1: <span class="err">error:</span> unknown type name 'foo_t'
+  <span class="snip">foo_t *P = 0;</span>
+  <span class="point">^</span>
+</pre>
+
+<p>The following example shows that we recover from the simple case of
+forgetting a ; after a struct definition much better than GCC.</p>
+
+<pre>
+  $ <b>cat t.cc</b>
+  template&lt;class T&gt;
+  class a {}
+  class temp {};
+  a&lt;temp&gt; b;
+  struct b {
+  }
+  $ <b>gcc-4.2 t.cc</b>
+  t.cc:3: error: multiple types in one declaration
+  t.cc:4: error: non-template type 'a' used as a template
+  t.cc:4: error: invalid type in declaration before ';' token
+  t.cc:6: error: expected unqualified-id at end of input
+  $ <b>clang t.cc</b>
+  t.cc:2:11: <span class="err">error:</span> expected ';' after class
+  <span class="snip">class a {}</span>
+  <span class="point">          ^</span>
+  <span class="point">          ;</span>
+  t.cc:6:2: <span class="err">error:</span> expected ';' after struct
+  <span class="snip">}</span>
+  <span class="point"> ^</span>
+  <span class="point"> ;</span>
+</pre>
+
+<p>While each of these details is minor, we feel that they all add up to provide
+a much more polished experience.</p>
+
+</div>
+</body>
+</html>