Create branches/filesystem-v3 for v2 removal

[SVN r77385]
Revert [67111] (addition of boost/detail/iomanip.hpp) and all the commits that depend on it. ([68137], [68140], [68141], [68154], and [68165]).
2012-03-18 20:54:17 +00:00 · 2011-01-15 08:11:51 +00:00 · 2011-01-14 02:35:58 +00:00 · 2011-01-07 15:22:13 +00:00 · 2010-06-09 19:30:35 +00:00 · 2010-06-09 19:00:56 +00:00
13 changed files with 1043 additions and 658 deletions
--- a/doc/design_decisions_rationale.html
+++ b/doc/design_decisions_rationale.html
@ -1,10 +1,11 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
 <html>

 <title>Design decisions rationale for Boost Tuple Library</title>

 <body bgcolor="#FFFFFF" text="#000000">

-<IMG SRC="../../../c++boost.gif" 
+<IMG SRC="../../../boost.png" 
     ALT="C++ Boost" width="277" height="86">

 <h1>Tuple Library : design decisions rationale</h1>
@ -20,8 +21,8 @@ Tuples were originally under a subnamespace.
 As a result of the discussion, tuple definitions were moved directly under the <code>boost</code> namespace.
 As a result of a continued discussion, the subnamespace was reintroduced.
 The final (I truly hope so) solution is now to have all definitions in namespace <code>::boost::tuples</code>, and the most common names in the <code>::boost</code> namespace as well. 
-This is accomplished with using declarations (suggested by Dave Abrahams):
-<code><pre>namespace boost {
+This is accomplished with using declarations (suggested by Dave Abrahams):</p>
+<pre><code>namespace boost {
  namespace tuples {
      ...      
    // All library code
@ -32,8 +33,8 @@ This is accomplished with using declarations (suggested by Dave Abrahams):
  using tuples::tie;
  using tuples::get;
 }
-</pre></code>
-With this arrangement, tuple creation with direct constructor calls, <code>make_tuple</code> or <code>tie</code> functions do not need the namespace qualifier.
+</code></pre>
+<p>With this arrangement, tuple creation with direct constructor calls, <code>make_tuple</code> or <code>tie</code> functions do not need the namespace qualifier.
 Further, all functions that manipulate tuples are found with Koenig-lookup.
 The only exceptions are the <code>get&lt;N&gt;</code> functions, which are always called with an explicitly qualified template argument, and thus Koenig-lookup does not apply.
 Therefore, get is lifted to <code>::boost</code> namespace with a using declaration.
@ -54,9 +55,9 @@ The rationale for not using the most natural name 'tuple' is to avoid having an
 Namespace names are, however, not generally in plural form in boost libraries. 
 First, no real trouble was reported for using the same name for a namespace and a class and we considered changing the name 'tuples' to 'tuple'.
 But we found some trouble after all.
-Both gcc and edg compilers reject using declarations where the namespace and class names are identical:
+Both gcc and edg compilers reject using declarations where the namespace and class names are identical:</p>

-<code><pre>namespace boost {
+<pre><code>namespace boost {
  namespace tuple {
    ... tie(...);
    class tuple; 
@ -66,13 +67,13 @@ Both gcc and edg compilers reject using declarations where the namespace and cla
  using tuple::tuple; // error
    ...
 }
-</pre></code>
+</code></pre>

-Note, however, that a corresponding using declaration in the global namespace seems to be ok: 
+<p>Note, however, that a corresponding using declaration in the global namespace seems to be ok:</p>

-<code><pre>
+<pre><code>
 using boost::tuple::tuple; // ok;
-</pre></code>
+</code></pre>


 <h2>The end mark of the cons list (nil, null_type, ...)</h2>
@ -80,14 +81,15 @@ using boost::tuple::tuple; // ok;
 <p>
 Tuples are internally represented as <code>cons</code> lists:

-<code><pre>tuple&lt;int, int&gt;
-</pre></code> 
-inherits from 
-<code><pre>cons&lt;int, cons&lt;int, null_type&gt; &gt;
+<pre><code>tuple&lt;int, int&gt;
+</code></pre> 
+<p>inherits from</p>
+<pre><code>cons&lt;int, cons&lt;int, null_type&gt; &gt;
 </code></pre>

+<p>
 <code>null_type</code> is the end mark of the list. Original proposition was <code>nil</code>, but the name is used in MacOS, and might have caused problems, so <code>null_type</code> was chosen instead.
-Other names considered were <i>null_t</i> and <i>unit</i> (the empty tuple type in SML).
+Other names considered were <i>null_t</i> and <i>unit</i> (the empty tuple type in SML).</p>
 <p>
 Note that <code>null_type</code> is the internal representation of an empty tuple: <code>tuple&lt;&gt;</code> inherits from <code>null_type</code>.
 </p>
@ -95,22 +97,22 @@ Note that <code>null_type</code> is the internal representation of an empty tupl
 <h2>Element indexing</h2>

 <p>
-Whether to use 0- or 1-based indexing was discussed more than thoroughly, and the following observations were made:
+Whether to use 0- or 1-based indexing was discussed more than thoroughly, and the following observations were made:</p>

 <ul>
 <li> 0-based indexing is 'the C++ way' and used with arrays etc.</li>
 <li> 1-based 'name like' indexing exists as well, eg. <code>bind1st</code>, <code>bind2nd</code>, <code>pair::first</code>, etc.</li>
 </ul>
-Tuple access with the syntax <code>get&lt;N&gt;(a)</code>, or <code>a.get&lt;N&gt;()</code> (where <code>a</code> is a tuple and <code>N</code> an index), was considered to be of the first category, hence, the index of the first element in a tuple is 0.
+<p>Tuple access with the syntax <code>get&lt;N&gt;(a)</code>, or <code>a.get&lt;N&gt;()</code> (where <code>a</code> is a tuple and <code>N</code> an index), was considered to be of the first category, hence, the index of the first element in a tuple is 0.</p>

 <p>
 A suggestion to provide 1-based 'name like' indexing with constants like <code>_1st</code>, <code>_2nd</code>, <code>_3rd</code>, ... was made.
 By suitably chosen constant types, this would allow alternative syntaxes:

-<code><pre>a.get&lt;0&gt;() == a.get(_1st) == a[_1st] == a(_1st);
-</pre></code>
+<pre><code>a.get&lt;0&gt;() == a.get(_1st) == a[_1st] == a(_1st);
+</code></pre>

-We chose not to provide more than one indexing method for the following reasons:
+<p>We chose not to provide more than one indexing method for the following reasons:</p>
 <ul>
 <li>0-based indexing might not please everyone, but once its fixed, it is less confusing than having two different methods (would anyone want such constants for arrays?).</li>
 <li>Adding the other indexing scheme doesn't really provide anything new (like a new feature) to the user of the library.</li>
@ -125,18 +127,18 @@ Such constants are easy to add.

 <h2>Tuple comparison</h2>

-The comparison operator implements lexicographical order. 
-Other orderings were considered, mainly dominance (<i>a &lt; b iff for each i a(i) < b(i)</i>). 
-Our belief is, that lexicographical ordering, though not mathematically the most natural one, is the most frequently needed ordering in everyday programming.
+<p>The comparison operator implements lexicographical order. 
+Other orderings were considered, mainly dominance (<i>a &lt; b iff for each i a(i) &lt; b(i)</i>). 
+Our belief is, that lexicographical ordering, though not mathematically the most natural one, is the most frequently needed ordering in everyday programming.</p>

 <h2>Streaming</h2>

 <p>
 The characters specified with tuple stream manipulators are stored within the space allocated by <code>ios_base::xalloc</code>, which allocates storage for <code>long</code> type objects.
 <code>static_cast</code> is used in casting between <code>long</code> and the stream's character type. 
-Streams that have character types not convertible back and forth to long thus fail to compile.
+Streams that have character types not convertible back and forth to long thus fail to compile.</p>

-This may be revisited at some point. The two possible solutions are:
+<p>This may be revisited at some point. The two possible solutions are:</p>
 <ul>
 <li>Allow only plain <code>char</code> types as the tuple delimiters and use <code>widen</code> and <code>narrow</code> to convert between the real character type of the stream. 
 This would always compile, but some calls to set manipulators might result in a different
--- a/doc/tuple_advanced_interface.html
+++ b/doc/tuple_advanced_interface.html
@ -2,51 +2,52 @@
 <html>
  <head>
    <title>Tuple library advanced features</title>
-<body bgcolor="#FFFFFF" text="#000000">
-
-<IMG SRC="../../../c++boost.gif" 
-     ALT="C++ Boost" width="277" height="86">
-
  </head>

-  <body>
+<body bgcolor="#FFFFFF" text="#000000">
+
+<IMG SRC="../../../boost.png" 
+     ALT="C++ Boost" width="277" height="86">
+
    <h1>Tuple library advanced features</h1>

 The advanced features described in this document are all under namespace <code>::boost::tuples</code>

 <h2>Metafunctions for tuple types</h2>
 <p>
-Suppose <code>T</code> is a tuple type, and <code>N</code> is a constant integral expression. 
+Suppose <code>T</code> is a tuple type, and <code>N</code> is a constant integral expression.</p>

-<code><pre>element&lt;N, T&gt;::type</pre></code>
+<pre><code>element&lt;N, T&gt;::type</code></pre>

-gives the type of the <code>N</code>th element in the tuple type <code>T</code>.
+<p>gives the type of the <code>N</code>th element in the tuple type <code>T</code>. If <code>T</code> is const, the resulting type is const qualified as well. 
+Note that the constness of <code>T</code> does not affect reference type
+elements.
 </p>

-<code><pre>length&lt;T&gt;::value</pre></code>
+<pre><code>length&lt;T&gt;::value</code></pre>

-gives the length of the tuple type <code>T</code>.
+<p>gives the length of the tuple type <code>T</code>.
 </p>

 <h2>Cons lists</h2>

 <p>
 Tuples are internally represented as <i>cons lists</i>.
-For example, the tuple 
+For example, the tuple </p>

-<code><pre>tuple&lt;A, B, C, D&gt;</pre></code>
+<pre><code>tuple&lt;A, B, C, D&gt;</code></pre>

- inherits from the type
-<code><pre>cons&lt;A, cons&lt;B, cons&lt;C, cons&lt;D, null_type&gt; &gt; &gt; &gt;
-</pre></code>
+<p>inherits from the type</p>
+<pre><code>cons&lt;A, cons&lt;B, cons&lt;C, cons&lt;D, null_type&gt; &gt; &gt; &gt;
+</code></pre>

-The tuple template provides the typedef <code>inherited</code> to access the cons list representation. E.g.:
+<p>The tuple template provides the typedef <code>inherited</code> to access the cons list representation. E.g.:
 <code>tuple&lt;A&gt;::inherited</code> is the type <code>cons&lt;A, null_type&gt;</code>.
 </p>

 <h4>Empty tuple</h4>
 <p>
-The internal representation of the empty tuple <code>tuple&lt;&gt</code> is <code>null_type</code>.
+The internal representation of the empty tuple <code>tuple&lt;&gt;</code> is <code>null_type</code>.
 </p>

 <h4>Head and tail</h4>
@ -82,11 +83,11 @@ inline void set_to_zero(cons&lt;H, T&gt;&amp; x) { x.get_head() = 0; set_to_zero
 A cons list can be default constructed provided that all its elements can be default constructed.
 </p>
 <p>
-A cons list can be constructed from its head and tail. The prototype of the constructor is:
+A cons list can be constructed from its head and tail. The prototype of the constructor is:</p>
 <pre><code>cons(typename access_traits&lt;head_type&gt;::parameter_type h,
     const tail_type&amp; t)
 </code></pre>
-The traits template for the head parameter selects correct parameter types for different kinds of element types (for reference elements the parameter type equals the element type, for non-reference types the parameter type is a reference to const non-volatile element type).
+<p>The traits template for the head parameter selects correct parameter types for different kinds of element types (for reference elements the parameter type equals the element type, for non-reference types the parameter type is a reference to const non-volatile element type).
 </p>
 <p>
 For a one-element cons list the tail argument (<code>null_type</code>) can be omitted.
@ -97,16 +98,16 @@ For a one-element cons list the tail argument (<code>null_type</code>) can be om

 <h4><code>access_traits</code></h4>
 <p>
-The template <code>access_traits</code> defines three type functions. Let <code>T</code> be a type of an element in a tuple:
+The template <code>access_traits</code> defines three type functions. Let <code>T</code> be a type of an element in a tuple:</p>
 <ol>
-<li><code>access_traits&lt;T&gt;::type</code> maps <code>T</code> to the return type of the non-const access functions (nonmeber and member <code>get</code> functions, and the <code>get_head</code> function).</li>
+<li><code>access_traits&lt;T&gt;::non_const_type</code> maps <code>T</code> to the return type of the non-const access functions (nonmember and member <code>get</code> functions, and the <code>get_head</code> function).</li>
 <li><code>access_traits&lt;T&gt;::const_type</code> maps <code>T</code> to the return type of the const access functions.</li>
 <li><code>access_traits&lt;T&gt;::parameter_type</code> maps <code>T</code> to the parameter type of the tuple constructor.</li>
 </ol>
 <h4><code>make_tuple_traits</code></h4>

-The element types of the tuples that are created with the <code>make_tuple</code> functions are computed with the type function <code>make_tuple_traits</code>. 
-The type function call <code>make_tuple_traits&lt;T&gt;::type</code> implements the following type mapping:
+<p>The element types of the tuples that are created with the <code>make_tuple</code> functions are computed with the type function <code>make_tuple_traits</code>. 
+The type function call <code>make_tuple_traits&lt;T&gt;::type</code> implements the following type mapping:</p>
 <ul>
 <li><i>any reference type</i> -&gt; <i>compile time error</i>
 </li>
@ -118,7 +119,7 @@ The type function call <code>make_tuple_traits&lt;T&gt;::type</code> implements
 </li>
 </ul>

-Objects of type <code>reference_wrapper</code> are created with the <code>ref</code> and <code>cref</code> functions (see <A href="tuple_users_guide.html#make_tuple">The <code>make_tuple</code> function</A>.)
+<p>Objects of type <code>reference_wrapper</code> are created with the <code>ref</code> and <code>cref</code> functions (see <A href="tuple_users_guide.html#make_tuple">The <code>make_tuple</code> function</A>.)
 </p>

 <p>Reference wrappers were originally part of the tuple library, but they are now a general utility of boost. 
--- a/doc/tuple_users_guide.html
+++ b/doc/tuple_users_guide.html
@ -1,10 +1,11 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
 <html>
 <head>
 <title>The Boost Tuple Library</title>
 </head>
 <body bgcolor="#FFFFFF" text="#000000">

-<IMG SRC="../../../c++boost.gif" 
+<IMG SRC="../../../boost.png" 
     ALT="C++ Boost" width="277" height="86">

 <h1>The Boost Tuple Library</h1>
@ -53,20 +54,22 @@ To compensate for this &quot;deficiency&quot;, the Boost Tuple Library implement

 <h2><a name="using_library">Using the library</a></h2>

-<p>To use the library, just include:
+<p>To use the library, just include:</p>

 <pre><code>#include &quot;boost/tuple/tuple.hpp&quot;</code></pre>

-<p>Comparison operators can be included with:
+<p>Comparison operators can be included with:</p>
 <pre><code>#include &quot;boost/tuple/tuple_comparison.hpp&quot;</code></pre>

-<p>To use tuple input and output operators,
+<p>To use tuple input and output operators,</p>

 <pre><code>#include &quot;boost/tuple/tuple_io.hpp&quot;</code></pre>

-Both <code>tuple_io.hpp</code> and <code>tuple_comparison.hpp</code> include <code>tuple.hpp</code>.
+<p>Both <code>tuple_io.hpp</code> and <code>tuple_comparison.hpp</code> include <code>tuple.hpp</code>.</p>

-<p>All definitions are in namespace <code>::boost::tuples</code>, but the most common names are lifted to namespace <code>::boost</code> with using declarations. These names are: <code>tuple</code>, <code>make_tuple</code>, <code>tie</code> and <code>get</code>. Further, <code>ref</code> and <code>cref</code> are defined directly under the <code>::boost</code> namespace.
+<p>All definitions are in namespace <code>::boost::tuples</code>, but the most common names are lifted to namespace
+<code>::boost</code> with using declarations. These names are: <code>tuple</code>, <code>make_tuple</code>, <code>tie</code> and <code>get</code>.
+Further, <code>ref</code> and <code>cref</code> are defined directly under the <code>::boost</code> namespace.</p>

 <h2><a name = "tuple_types">Tuple types</a></h2>

@ -80,11 +83,11 @@ C++ types, but objects of such types cannot exist.
 Hence, if a tuple type contains such types as elements, the tuple type
 can exist, but not an object of that type.
 There are natural limitations for element types that cannot
-be be copied, or that are not default constructible (see 'Constructing tuples'
- below). 
+be copied, or that are not default constructible (see 'Constructing tuples'
+ below). </p>

 <p>
-For example, the following definitions are valid tuple instantiations (<code>A</code>, <code>B</code> and <code>C</code> are some user defined classes):
+For example, the following definitions are valid tuple instantiations (<code>A</code>, <code>B</code> and <code>C</code> are some user defined classes):</p>

 <pre><code>tuple&lt;int&gt;
 tuple&lt;double&amp;, const double&amp;, const double, double*, const double*&gt;
@ -97,8 +100,8 @@ tuple&lt;A*, tuple&lt;const A*, const B&amp;, C&gt;, bool, void*&gt;

 <p>
 The tuple constructor takes the tuple elements as arguments. 
-For an <i>n</i>-element tuple, the constructor can be invoked with <i>k</i> arguments, where 0 &lt; <i>k</i> &lt;= <i>n</i>.
-For example:
+For an <i>n</i>-element tuple, the constructor can be invoked with <i>k</i> arguments, where 0 &lt;= <i>k</i> &lt;= <i>n</i>.
+For example:</p>
 <pre><code>tuple&lt;int, double&gt;() 
 tuple&lt;int, double&gt;(1) 
 tuple&lt;int, double&gt;(1, 3.14)
@ -106,7 +109,7 @@ tuple&lt;int, double&gt;(1, 3.14)

 <p>
 If no initial value for an element is provided, it is default initialized (and hence must be default initializable).
-For example.
+For example.</p>

 <pre><code>class X {
  X(); 
@ -118,7 +121,7 @@ tuple&lt;X,X,X&gt;()                                              // error: no d
 tuple&lt;X,X,X&gt;(string(&quot;Jaba&quot;), string(&quot;Daba&quot;), string(&quot;Duu&quot;)) // ok
 </code></pre>

-In particular, reference types do not have a default initialization: 
+<p>In particular, reference types do not have a default initialization: </p>

 <pre><code>tuple&lt;double&amp;&gt;()                // error: reference must be 
                                // initialized explicitly
@ -134,7 +137,7 @@ tuple&lt;const double&amp;&gt;(d+3.14)    // ok, but dangerous:
 </code></pre>

 <p>Using an initial value for an element that cannot be copied, is a compile
-time error:
+time error:</p>

 <pre><code>class Y { 
  Y(const Y&amp;); 
@ -148,15 +151,15 @@ tuple&lt;char[10], Y&gt;(a, Y()); // error, neither arrays nor Y can be copied
 tuple&lt;char[10], Y&gt;();       // ok
 </code></pre>

-Note particularly that the following is perfectly ok:
-<code><pre>Y y;
+<p>Note particularly that the following is perfectly ok:</p>
+<pre><code>Y y;
 tuple&lt;char(&amp;)[10], Y&amp;&gt;(a, y); 
 </code></pre>

-It is possible to come up with a tuple type that cannot be constructed.
+<p>It is possible to come up with a tuple type that cannot be constructed.
 This occurs if an element that cannot be initialized has a lower
 index than an element that requires initialization. 
-For example: <code>tuple&lt;char[10], int&amp;&gt;</code>.
+For example: <code>tuple&lt;char[10], int&amp;&gt;</code>.</p>

 <p>In sum, the tuple construction is semantically just a group of individual elementary constructions.
 </p>
@ -165,19 +168,19 @@ For example: <code>tuple&lt;char[10], int&amp;&gt;</code>.

 <p>
 Tuples can also be constructed using the <code>make_tuple</code> (cf. <code>std::make_pair</code>) helper functions.
-This makes the construction more convenient, saving the programmer from explicitly specifying the element types: 
+This makes the construction more convenient, saving the programmer from explicitly specifying the element types:</p>
 <pre><code>tuple&lt;int, int, double&gt; add_multiply_divide(int a, int b) {
  return make_tuple(a+b, a*b, double(a)/double(b));
 }
 </code></pre>

 <p>
-By default, the element types are deduced to the plain non-reference types. E.g: 
+By default, the element types are deduced to the plain non-reference types. E.g.: </p>
 <pre><code>void foo(const A&amp; a, B&amp; b) { 
  ...
  make_tuple(a, b);
 </code></pre>
-The <code>make_tuple</code> invocation results in a tuple of type <code>tuple&lt;A, B&gt;</code>.
+<p>The <code>make_tuple</code> invocation results in a tuple of type <code>tuple&lt;A, B&gt;</code>.</p>

 <p>
 Sometimes the plain non-reference type is not desired, e.g. if the element type cannot be copied. 
@ -185,8 +188,9 @@ Therefore, the programmer can control the type deduction and state that a refere
 non-const type should be used as the element type instead.
 This is accomplished with two helper template functions: <code>ref</code> and <code>cref</code>. 
 Any argument can be wrapped with these functions to get the desired type. 
-The mechanism does not compromise const correctness since a const object wrapped with <code>ref</code> results in a tuple element with const reference type (see the fifth code line below).
-For example:
+The mechanism does not compromise const correctness since a const object wrapped with <code>ref</code> results
+in a tuple element with const reference type (see the fifth example below).
+For example:</p>

 <pre><code>A a; B b; const A ca = a;
 make_tuple(cref(a), b);      // creates tuple&lt;const A&amp;, B&gt;
@ -198,19 +202,19 @@ make_tuple(ref(ca));         // creates tuple&lt;const A&amp;&gt;


 <p>
-Array arguments to <code>make_tuple</code> functions are deduced to reference to const types by default; there is no need to wrap them with <code>cref</code>. For example:
+Array arguments to <code>make_tuple</code> functions are deduced to reference to const types by default; there is no need to wrap them with <code>cref</code>. For example:</p>
 <pre><code>make_tuple(&quot;Donald&quot;, &quot;Daisy&quot;);
 </code></pre>

-This creates an object of type <code>tuple&lt;const char (&amp;)[5], const char (&amp;)[6]&gt;</code> 
+<p>This creates an object of type <code>tuple&lt;const char (&amp;)[7], const char (&amp;)[6]&gt;</code> 
 (note that the type of a string literal is an array of const characters, not <code>const char*</code>). 
 However, to get <code>make_tuple</code> to create a tuple with an element of a
-non-const array type one must use the <code>ref</code> wrapper.
+non-const array type one must use the <code>ref</code> wrapper.</p>

 <p>
 Function pointers are deduced to the plain non-reference type, that is, to plain function pointer. 
 A tuple can also hold a reference to a function, 
-but such a tuple cannot be constructed with <code>make_tuple</code> (a const qualified function type would result, which is illegal):
+but such a tuple cannot be constructed with <code>make_tuple</code> (a const qualified function type would result, which is illegal):</p>
 <pre><code>void f(int i);
  ...
 make_tuple(&amp;f); // tuple&lt;void (*)(int)&gt;
@ -222,19 +226,19 @@ make_tuple(f);                    // not ok
 <h2><a name = "accessing_elements">Accessing tuple elements</a></h2>

 <p>
-Tuple elements are accessed with the expression:
+Tuple elements are accessed with the expression:</p>

 <pre><code>t.get&lt;N&gt;()
 </code></pre>
-or
+<p>or</p>
 <pre><code>get&lt;N&gt;(t)
 </code></pre>
-where <code>t</code> is a tuple object and <code>N</code> is a constant integral expression specifying the index of the element to be accessed.
+<p>where <code>t</code> is a tuple object and <code>N</code> is a constant integral expression specifying the index of the element to be accessed.
 Depending on whether <code>t</code> is const or not, <code>get</code> returns the <code>N</code>th element as a reference to const or
 non-const type.
 The index of the first element is 0 and thus<code>
 N</code> must be between 0 and <code>k-1</code>, where <code>k</code> is the number of elements in the tuple. 
-Violations of  these constrains are detected at compile time. Examples:
+Violations of  these constraints are detected at compile time. Examples:</p>

 <pre><code>double d = 2.7; A a;
 tuple&lt;int, double&amp;, const A&amp;&gt; t(1, d, a);
@ -253,53 +257,55 @@ A aa = get&lt;3&gt;(t);     // error: index out of bounds
 ++get&lt;0&gt;(t);  // ok, can be used as any variable
 </code></pre>

+<p>
 Note! The member get functions are not supported with MS Visual C++ compiler.
 Further, the compiler has trouble with finding the non-member get functions without an explicit namespace qualifier. 
-Hence, all <code>get</code> calls should be qualified as: <code>tuples::get&lt;N&gt;(a_tuple)</code> when writing code that shoud compile with MSVC++ 6.0.
+Hence, all <code>get</code> calls should be qualified as: <code>tuples::get&lt;N&gt;(a_tuple)</code> when writing code that should compile with MSVC++ 6.0.
+</p>

 <h2><a name = "construction_and_assignment">Copy construction and tuple assignment</a></h2>

 <p>
 A tuple can be copy constructed from another tuple, provided that the element types are element-wise copy constructible.
 Analogously, a tuple can be assigned to another tuple, provided that the element types are element-wise assignable.
-For example:
+For example:</p>

-<pre><code>class A;
+<pre><code>class A {};
 class B : public A {};
-struct C { C(); C(const B&amp;); }
-struct D { operator C() const; }
+struct C { C(); C(const B&amp;); };
+struct D { operator C() const; };
 tuple&lt;char, B*, B, D&gt; t;
  ...
 tuple&lt;int, A*, C, C&gt; a(t); // ok 
 a = t;                     // ok 
 </code></pre>

-In both cases, the conversions performed are: <code>char -> int</code>, <code>B* -> A*</code> (derived class pointer to base class pointer),  <code>B -> C</code> (a user defined conversion) and <code>D -> C</code> (a user defined conversion).
+<p>In both cases, the conversions performed are: <code>char -> int</code>, <code>B* -> A*</code> (derived class pointer to base class pointer),  <code>B -> C</code> (a user defined conversion) and <code>D -> C</code> (a user defined conversion).</p>

 <p>
-Note that assignment is also defined from <code>std::pair</code> types:
+Note that assignment is also defined from <code>std::pair</code> types:</p>

 <pre><code>tuple&lt;float, int&gt; a = std::make_pair(1, 'a');
 </code></pre>

 <h2><a name = "relational_operators">Relational operators</a></h2>
 <p>
-Tuples reduce the operators <code>==, !=, &lt;, >, &lt;=</code> and <code>>=</code> to the corresponding elementary operators. 
+Tuples reduce the operators <code>==, !=, &lt;, &gt;, &lt;=</code> and <code>>=</code> to the corresponding elementary operators. 
 This means, that if any of these operators is defined between all elements of two tuples, then the same operator is defined between the tuples as well.

-The equality operators for two tuples <code>a</code> and <code>b</code> are defined as:
+The equality operators for two tuples <code>a</code> and <code>b</code> are defined as:</p>
 <ul>
 <li><code>a == b</code> iff for each <code>i</code>: <code>a<sub>i</sub> == b<sub>i</sub></code></li>
 <li><code>a != b</code> iff exists <code>i</code>: <code>a<sub>i</sub> != b<sub>i</sub></code></li>
 </ul>

-The operators <code>&lt;, >, &lt;=</code> and <code>>=</code> implement a lexicographical ordering.
+<p>The operators <code>&lt;, &gt;, &lt;=</code> and <code>&gt;=</code> implement a lexicographical ordering.</p>

 <p>
-Note that an attempt to compare two tuples of different lengths results in a compile time error.</p>
-Also, the comparison operators are <i>"short-circuited"</i>: elementary comparisons start from the first elements and are performed only until the result is clear.
+Note that an attempt to compare two tuples of different lengths results in a compile time error.
+Also, the comparison operators are <i>"short-circuited"</i>: elementary comparisons start from the first elements and are performed only until the result is clear.</p>

-<p>Examples:
+<p>Examples:</p>

 <pre><code>tuple&lt;std::string, int, A&gt; t1(std::string(&quot;same?&quot;), 2, A());
 tuple&lt;std::string, long, A&gt; t2(std::string(&quot;same?&quot;), 2, A());
@ -316,7 +322,7 @@ t1 == t3;               // false, does not print &quot;All the...&quot;

 <p>
 <i>Tiers</i> are tuples, where all elements are of non-const reference types.
-They are constructed with a call to the <code>tie</code> function template (cf. <code>make_tuple</code>):
+They are constructed with a call to the <code>tie</code> function template (cf. <code>make_tuple</code>):</p>

 <pre><code>int i; char c; double d; 
  ...
@ -329,26 +335,26 @@ The same result could be achieved with the call <code>make_tuple(ref(i), ref(c),
 </p>

 <p>
-A tuple that contains non-const references as elements can be used to 'unpack' another tuple into variables. E.g.:
+A tuple that contains non-const references as elements can be used to 'unpack' another tuple into variables. E.g.:</p>

 <pre><code>int i; char c; double d; 
 tie(i, c, d) = make_tuple(1,'a', 5.5);
 std::cout &lt;&lt; i &lt;&lt; &quot; &quot; &lt;&lt;  c &lt;&lt; &quot; &quot; &lt;&lt; d;
 </code></pre>
-This code prints <code>1 a 5.5</code> to the standard output stream.
+<p>This code prints <code>1 a 5.5</code> to the standard output stream.

 A tuple unpacking operation like this is found for example in ML and Python. 
-It is convenient when calling functions which return tuples.
+It is convenient when calling functions which return tuples.</p>

 <p>
-The tying mechanism works with <code>std::pair</code> templates as well:
+The tying mechanism works with <code>std::pair</code> templates as well:</p>

 <pre><code>int i; char c;
 tie(i, c) = std::make_pair(1, 'a');
 </code></pre>
 <h4>Ignore</h4>
-There is also an object called <code>ignore</code> which allows you to ignore an element assigned by a tuple.
-The idea is that a function may return a tuple, only part of which you are interested in. For example (note, that <code>ignore</code> is under the <code>tuples</code> subnamespace):
+<p>There is also an object called <code>ignore</code> which allows you to ignore an element assigned by a tuple.
+The idea is that a function may return a tuple, only part of which you are interested in. For example (note, that <code>ignore</code> is under the <code>tuples</code> subnamespace):</p>

 <pre><code>char c;
 tie(tuples::ignore, c) = std::make_pair(1, 'a');
@ -374,10 +380,10 @@ For Example:

 cout &lt;&lt; a; 
 </code></pre>
-outputs the tuple as: <code>(1.0 2 Howdy folks!)</code>
+<p>outputs the tuple as: <code>(1.0 2 Howdy folks!)</code></p>

 <p>
-The library defines three <i>manipulators</i> for changing the default behavior:
+The library defines three <i>manipulators</i> for changing the default behavior:</p>
 <ul>
 <li><code>set_open(char)</code> defines the character that is output before the first
 element.</li>
@ -387,27 +393,27 @@ last element.</li>
 elements.</li>
 </ul>

-Note, that these manipulators are defined in the <code>tuples</code> subnamespace. 
-For example:
-<code><pre>cout &lt;&lt; tuples::set_open('[') &lt;&lt; tuples::set_close(']') &lt;&lt; tuples::set_delimiter(',') &lt;&lt; a; 
+<p>Note, that these manipulators are defined in the <code>tuples</code> subnamespace.
+For example:</p>
+<pre><code>cout &lt;&lt; tuples::set_open('[') &lt;&lt; tuples::set_close(']') &lt;&lt; tuples::set_delimiter(',') &lt;&lt; a; 
 </code></pre>
-outputs the same tuple <code>a</code> as: <code>[1.0,2,Howdy folks!]</code>
+<p>outputs the same tuple <code>a</code> as: <code>[1.0,2,Howdy folks!]</code></p>

 <p>The same manipulators work with <code>operator&gt;&gt;</code> and <code>istream</code> as well. Suppose the <code>cin</code> stream contains the following data:

 <pre><code>(1 2 3) [4:5]</code></pre>

-The code:
+<p>The code:</p>

-<code><pre>tuple&lt;int, int, int&gt; i;
+<pre><code>tuple&lt;int, int, int&gt; i;
 tuple&lt;int, int&gt; j;

 cin &gt;&gt; i;
-cin &gt;&gt; tuples::set_open('[') &gt;&gt; tuples::set_close(']') &gt;&gt; tules::set_delimiter(':');
+cin &gt;&gt; tuples::set_open('[') &gt;&gt; tuples::set_close(']') &gt;&gt; tuples::set_delimiter(':');
 cin &gt;&gt; j;
 </code></pre>

-reads the data into the tuples <code>i</code> and <code>j</code>.
+<p>reads the data into the tuples <code>i</code> and <code>j</code>.</p>

 <p>
 Note that extracting tuples with <code>std::string</code> or C-style string
@ -417,9 +423,9 @@ parseable.

 <h2><a name = "performance">Performance</a></h2>

-All tuple access and construction functions are small inlined one-liners. 
-Therefore, a decent compiler can eliminate any extra cost of using tuples compared to using hand written tuple like classes. 
-Particularly, with a decent compiler there is no performance difference between this code:
+<p>All tuple access and construction functions are small inlined one-liners. 
+Therefore, a decent compiler can eliminate any extra cost of using tuples compared to using hand-written tuple like classes. 
+Particularly, with a decent compiler there is no performance difference between this code:</p>

 <pre><code>class hand_made_tuple { 
  A a; B b; C c;
@ -435,7 +441,7 @@ hand_made_tuple hmt(A(), B(), C());
 hmt.getA(); hmt.getB(); hmt.getC();
 </code></pre>

-and this code:
+<p>and this code:</p>

 <pre><code>tuple&lt;A, B, C&gt; t(A(), B(), C());
 t.get&lt;0&gt;(); t.get&lt;1&gt;(); t.get&lt;2&gt;(); 
@ -446,23 +452,23 @@ t.get&lt;0&gt;(); t.get&lt;1&gt;(); t.get&lt;2&gt;();
 <p>
 Depending on the optimizing ability of the compiler, the tier mechanism may have a small performance penalty compared to using
 non-const reference parameters as a mechanism for returning multiple values from a function. 
-For example, suppose that the following functions <code>f1</code> and <code>f2</code> have equivalent functionalities:
+For example, suppose that the following functions <code>f1</code> and <code>f2</code> have equivalent functionalities:</p>

 <pre><code>void f1(int&amp;, double&amp;);
 tuple&lt;int, double&gt; f2();
 </code></pre>

-Then, the call #1 may be slightly faster than #2 in the code below:
+<p>Then, the call #1 may be slightly faster than #2 in the code below:</p>

 <pre><code>int i; double d;
  ...
 f1(i,d);         // #1
 tie(i,d) = f2(); // #2
 </code></pre>
-See 
-[<a href=#publ_1>1</a>,
-<a href=#publ_2>2</a>]
- for more in-depth discussions about efficiency.
+<p>See 
+[<a href="#publ_1">1</a>,
+<a href="#publ_2">2</a>]
+ for more in-depth discussions about efficiency.</p>

 <h4>Effect on Compile Time</h4>

@ -470,10 +476,10 @@ See
 Compiling tuples can be slow due to the excessive amount of template instantiations.
 Depending on the compiler and the tuple length, it may be more than 10 times slower to compile a tuple construct, compared to compiling an equivalent explicitly written class, such as the <code>hand_made_tuple</code> class above.
 However, as a realistic program is likely to contain a lot of code in addition to tuple definitions, the difference is probably unnoticeable.
-Compile time increases between 5 to 10 percentages were measured for programs which used tuples very frequently.
+Compile time increases between 5 and 10 percent were measured for programs which used tuples very frequently.
 With the same test programs, memory consumption of compiling increased between 22% to 27%. See  
-[<a href=#publ_1>1</a>,
-<a href=#publ_2>2</a>]
+[<a href="#publ_1">1</a>,
+<a href="#publ_2">2</a>]
 for details.
 </p>

@ -492,20 +498,20 @@ Below is a list of compilers and known problems with each compiler:
 </table>

 <h2><a name = "thanks">Acknowledgements</a></h2>
-Gary Powell has been an indispensable helping hand. In particular, stream manipulators for tuples were his idea. Doug Gregor came up with a working version for MSVC. Thanks to Jeremy Siek, William Kempf and Jens Maurer for their help and suggestions. 
+<p>Gary Powell has been an indispensable helping hand. In particular, stream manipulators for tuples were his idea. Doug Gregor came up with a working version for MSVC, David Abrahams found a way to get rid of most of the restrictions for compilers not supporting partial specialization. Thanks to Jeremy Siek, William Kempf and Jens Maurer for their help and suggestions. 
 The comments by Vesa Karvonen, John Max Skaller, Ed Brey, Beman Dawes, David Abrahams and Hartmut Kaiser helped to improve the
 library.
-The idea for the tie mechanism came from an old usenet article by Ian McCulloch, where he proposed something similar for std::pairs.
+The idea for the tie mechanism came from an old usenet article by Ian McCulloch, where he proposed something similar for std::pairs.</p>
 <h2><a name = "references">References</a></h2>

 <p>
 <a name="publ_1"></a>[1]
-J&auml;rvi J.: <i>Tuples and multiple return values in C++</i>, TUCS Technical Report No 249, 1999 (<a href="http://www.tucs.fi/publications">http://www.tucs.fi/publications</a>).
+J&auml;rvi J.: <i>Tuples and multiple return values in C++</i>, TUCS Technical Report No 249, 1999<!-- (<a href="http://www.tucs.fi/Publications">http://www.tucs.fi/Publications</a>)-->.
 </p>

 <p>
 <a name="publ_2"></a>[2]
-J&auml;rvi J.: <i>ML-Style Tuple Assignment in Standard C++ - Extending the Multiple Return Value Formalism</i>, TUCS Technical Report No 267, 1999 (<a href="http://www.tucs.fi/publications">http://www.tucs.fi/publications</a>).
+J&auml;rvi J.: <i>ML-Style Tuple Assignment in Standard C++ - Extending the Multiple Return Value Formalism</i>, TUCS Technical Report No 267, 1999<!-- (<a href="http://www.tucs.fi/Publications">http://www.tucs.fi/Publications</a>)-->.
 </p>

 <p>
@ -514,9 +520,9 @@ J&auml;rvi J.: <i>ML-Style Tuple Assignment in Standard C++ - Extending the Mult

 <hr>

-<p>Last modified 2001-09-13</p>
+<p>Last modified 2003-09-07</p>

-<p>&copy; Copyright <a href="../../../people/jaakko_jarvi.htm"> Jaakko J&auml;rvi</a> 2001. 
+<p>&copy; Copyright <a href="http://www.boost.org/people/jaakko_jarvi.htm"> Jaakko J&auml;rvi</a> 2001. 

 Permission to copy, use, modify, sell and distribute this software and its documentation is granted provided this copyright notice appears in all copies. 
 This software and its documentation is provided "as is" without express or implied warranty, and with no claim as to its suitability for any purpose.
--- a/include/boost/tuple/detail/tuple_basic.hpp
+++ b/include/boost/tuple/detail/tuple_basic.hpp
@ -1,15 +1,10 @@
 //  tuple_basic.hpp -----------------------------------------------------

-// Copyright (C) 1999, 2000 Jaakko J<EFBFBD>rvi (jaakko.jarvi@cs.utu.fi)
+// Copyright (C) 1999, 2000 Jaakko Jarvi (jaakko.jarvi@cs.utu.fi)
 //
-// Permission to copy, use, sell and distribute this software is granted
-// provided this copyright notice appears in all copies. 
-// Permission to modify the code and to distribute modified code is granted
-// provided this copyright notice appears in all copies, and a notice 
-// that the code was modified is included with the copyright notice.
-//
-// This software is provided "as is" without express or implied warranty, 
-// and with no claim as to its suitability for any purpose.
+// Distributed under the Boost Software License, Version 1.0. (See
+// accompanying file LICENSE_1_0.txt or copy at
+// http://www.boost.org/LICENSE_1_0.txt)

 // For more information, see http://www.boost.org

@ -18,8 +13,8 @@
 // Fixed return types for get_head/get_tail
 // ( and other bugs ) per suggestion of Jens Maurer
 // simplified element type accessors + bug fix  (Jeremy Siek)
-// Several changes/additions according to suggestions by Doug Gregor, 
-// William Kempf, Vesa Karvonen, John Max Skaller, Ed Brey, Beman Davis,
+// Several changes/additions according to suggestions by Douglas Gregor,
+// William Kempf, Vesa Karvonen, John Max Skaller, Ed Brey, Beman Dawes,
 // David Abrahams.

 // Revision history:
@ -42,6 +37,9 @@

 #include "boost/type_traits/cv_traits.hpp"
 #include "boost/type_traits/function_traits.hpp"
+#include "boost/utility/swap.hpp"
+
+#include "boost/detail/workaround.hpp" // needed for BOOST_WORKAROUND

 namespace boost {
 namespace tuples {
@ -84,51 +82,33 @@ template<class T> struct length;

 namespace detail {

-#ifdef BOOST_NO_EXPLICIT_FUNCTION_TEMPLATE_ARGUMENTS
-
-  template<int N> struct workaround_holder {};
-
-#  define BOOST_TUPLE_DUMMY_PARM        , detail::workaround_holder<N>* = 0
-#  define BOOST_TUPLE_SINGLE_DUMMY_PARM detail::workaround_holder<N>* = 0
-#else
-#  define BOOST_TUPLE_DUMMY_PARM
-#  define BOOST_TUPLE_SINGLE_DUMMY_PARM
-#endif
-
 // -- generate error template, referencing to non-existing members of this
 // template is used to produce compilation errors intentionally
 template<class T>
 class generate_error;

-// - cons getters --------------------------------------------------------
-// called: get_class<N>::get<RETURN_TYPE>(aTuple)
-
-template< int N >
-struct get_class {
-  template<class RET, class HT, class TT >
-  inline static RET get(const cons<HT, TT>& t)
-  {
-    return get_class<N-1>::template get<RET>(t.tail);
-  }
-  template<class RET, class HT, class TT >
-  inline static RET get(cons<HT, TT>& t)
-  {
-    return get_class<N-1>::template get<RET>(t.tail);
-  }
+template<int N>
+struct drop_front {
+    template<class Tuple>
+    struct apply {
+        typedef BOOST_DEDUCED_TYPENAME drop_front<N-1>::BOOST_NESTED_TEMPLATE
+            apply<Tuple> next;
+        typedef BOOST_DEDUCED_TYPENAME next::type::tail_type type;
+        static const type& call(const Tuple& tup) {
+            return next::call(tup).tail;
+        }
+    };
 };

 template<>
-struct get_class<0> {
-  template<class RET, class HT, class TT> 
-  inline static RET get(const cons<HT, TT>& t)
-  {
-    return t.head;
-  }
-  template<class RET, class HT, class TT> 
-  inline static RET get(cons<HT, TT>& t)
-  {
-    return t.head;
-  }
+struct drop_front<0> {
+    template<class Tuple>
+    struct apply {
+        typedef Tuple type;
+        static const type& call(const Tuple& tup) {
+            return tup;
+        }
+    };
 };

 } // end of namespace detail
@ -139,19 +119,58 @@ struct get_class<0> {
 // Nth element ot T, first element is at index 0
 // -------------------------------------------------------

+#ifndef BOOST_NO_CV_SPECIALIZATIONS
+
 template<int N, class T>
 struct element
 {
-private:
-  typedef typename T::tail_type Next;
-public:
-  typedef typename element<N-1, Next>::type type;
+  typedef BOOST_DEDUCED_TYPENAME detail::drop_front<N>::BOOST_NESTED_TEMPLATE
+      apply<T>::type::head_type type;
 };
-template<class T>
-struct element<0,T>
+
+template<int N, class T>
+struct element<N, const T>
 {
-  typedef typename T::head_type type;
+private:
+  typedef BOOST_DEDUCED_TYPENAME detail::drop_front<N>::BOOST_NESTED_TEMPLATE
+      apply<T>::type::head_type unqualified_type;
+public:
+#if BOOST_WORKAROUND(__BORLANDC__,<0x600)
+  typedef const unqualified_type type;
+#else
+  typedef BOOST_DEDUCED_TYPENAME boost::add_const<unqualified_type>::type type;
+#endif
 };
+#else // def BOOST_NO_CV_SPECIALIZATIONS
+
+namespace detail {
+
+template<int N, class T, bool IsConst>
+struct element_impl
+{
+  typedef BOOST_DEDUCED_TYPENAME detail::drop_front<N>::BOOST_NESTED_TEMPLATE
+      apply<T>::type::head_type type;
+};
+
+template<int N, class T>
+struct element_impl<N, T, true /* IsConst */>
+{
+  typedef BOOST_DEDUCED_TYPENAME detail::drop_front<N>::BOOST_NESTED_TEMPLATE
+      apply<T>::type::head_type unqualified_type;
+  typedef const unqualified_type type;
+};
+
+} // end of namespace detail
+
+
+template<int N, class T>
+struct element:
+  public detail::element_impl<N, T, ::boost::is_const<T>::value>
+{
+};
+
+#endif
+

 // -get function templates -----------------------------------------------
 // Usage: get<N>(aTuple)
@ -189,12 +208,11 @@ template<int N, class HT, class TT>
 inline typename access_traits<
                  typename element<N, cons<HT, TT> >::type
                >::non_const_type
-get(cons<HT, TT>& c BOOST_TUPLE_DUMMY_PARM) { 
-  return detail::get_class<N>::template 
-         get<
-           typename access_traits<
-             typename element<N, cons<HT, TT> >::type
-           >::non_const_type>(c); 
+get(cons<HT, TT>& c BOOST_APPEND_EXPLICIT_TEMPLATE_NON_TYPE(int, N)) {
+  typedef BOOST_DEDUCED_TYPENAME detail::drop_front<N>::BOOST_NESTED_TEMPLATE
+      apply<cons<HT, TT> > impl;
+  typedef BOOST_DEDUCED_TYPENAME impl::type cons_element;
+  return const_cast<cons_element&>(impl::call(c)).head;
 }

 // get function for const cons-lists, returns a const reference to
@ -204,12 +222,11 @@ template<int N, class HT, class TT>
 inline typename access_traits<
                  typename element<N, cons<HT, TT> >::type
                >::const_type
-get(const cons<HT, TT>& c BOOST_TUPLE_DUMMY_PARM) { 
-  return detail::get_class<N>::template 
-         get<
-           typename access_traits<
-             typename element<N, cons<HT, TT> >::type
-         >::const_type>(c);
+get(const cons<HT, TT>& c BOOST_APPEND_EXPLICIT_TEMPLATE_NON_TYPE(int, N)) {
+  typedef BOOST_DEDUCED_TYPENAME detail::drop_front<N>::BOOST_NESTED_TEMPLATE
+      apply<cons<HT, TT> > impl;
+  typedef BOOST_DEDUCED_TYPENAME impl::type cons_element;
+  return impl::call(c).head;
 }

 // -- the cons template  --------------------------------------------------
@ -282,7 +299,7 @@ struct cons {

  template <class T2, class T3, class T4, class T5,
            class T6, class T7, class T8, class T9, class T10>
-  cons( const null_type& t1, T2& t2, T3& t3, T4& t4, T5& t5, 
+  cons( const null_type& /*t1*/, T2& t2, T3& t3, T4& t4, T5& t5,
        T6& t6, T7& t7, T8& t8, T9& t9, T10& t10 )
    : head (),
      tail (t2, t3, t4, t5, t6, t7, t8, t9, t10, detail::cnull())
@ -332,6 +349,7 @@ struct cons<HT, null_type> {

  typedef HT head_type;
  typedef null_type tail_type;
+  typedef cons<HT, null_type> self_type;

  typedef typename
    detail::wrap_non_storeable_type<head_type>::type stored_head_type;
@ -360,7 +378,7 @@ struct cons<HT, null_type> {
       const null_type&, const null_type&, const null_type&)
  : head (t1) {}

-  cons(const null_type& t1, 
+  cons(const null_type&,
       const null_type&, const null_type&, const null_type&,
       const null_type&, const null_type&, const null_type&,
       const null_type&, const null_type&, const null_type&)
@ -379,17 +397,17 @@ struct cons<HT, null_type> {

  template <int N>
  typename access_traits<
-             typename element<N, cons>::type
+             typename element<N, self_type>::type
            >::non_const_type
-  get(BOOST_TUPLE_SINGLE_DUMMY_PARM) {
+  get(BOOST_EXPLICIT_TEMPLATE_NON_TYPE(int, N)) {
    return boost::tuples::get<N>(*this);
  }

  template <int N>
  typename access_traits<
-             typename element<N, cons>::type
+             typename element<N, self_type>::type
           >::const_type
-  get(BOOST_TUPLE_SINGLE_DUMMY_PARM) const {
+  get(BOOST_EXPLICIT_TEMPLATE_NON_TYPE(int, N)) const {
    return boost::tuples::get<N>(*this);
  }

@ -407,11 +425,20 @@ struct length<tuple<> > {
  BOOST_STATIC_CONSTANT(int, value = 0);
 };

+template<>
+struct length<tuple<> const> {
+  BOOST_STATIC_CONSTANT(int, value = 0);
+};
+
 template<>
 struct length<null_type> {
  BOOST_STATIC_CONSTANT(int, value = 0);
 };

+template<>
+struct length<null_type const> {
+  BOOST_STATIC_CONSTANT(int, value = 0);
+};

 namespace detail {

@ -573,20 +600,21 @@ public:
 // Swallows any assignment   (by Doug Gregor)
 namespace detail {

+struct swallow_assign;
+typedef void (detail::swallow_assign::*ignore_t)();
 struct swallow_assign {
-      
+  swallow_assign(ignore_t(*)(ignore_t)) {}
  template<typename T>
-  swallow_assign& operator=(const T&) {
+  swallow_assign const& operator=(const T&) const {
    return *this;
  }
 };

+
 } // namespace detail

 // "ignore" allows tuple positions to be ignored when using "tie".
-namespace {
- detail::swallow_assign ignore;
-}
+inline detail::ignore_t ignore(detail::ignore_t) { return 0; }

 // ---------------------------------------------------------------------------
 // The call_traits for make_tuple
@ -668,6 +696,10 @@ struct make_tuple_traits<const reference_wrapper<T> >{
  typedef T& type;
 };

+template<>
+struct make_tuple_traits<detail::ignore_t(detail::ignore_t)> {
+  typedef detail::swallow_assign type;
+};



@ -789,78 +821,159 @@ make_tuple(const T0& t0, const T1& t1, const T2& t2, const T3& t3,
  return t(t0, t1, t2, t3, t4, t5, t6, t7, t8, t9);
 }

+namespace detail {

+template<class T>
+struct tie_traits {
+  typedef T& type;
+};
+
+template<>
+struct tie_traits<ignore_t(ignore_t)> {
+  typedef swallow_assign type;
+};
+
+template<>
+struct tie_traits<void> {
+  typedef null_type type;
+};
+
+template <
+  class T0 = void, class T1 = void, class T2 = void,
+  class T3 = void, class T4 = void, class T5 = void,
+  class T6 = void, class T7 = void, class T8 = void,
+  class T9 = void
+>
+struct tie_mapper {
+  typedef
+    tuple<typename tie_traits<T0>::type,
+          typename tie_traits<T1>::type,
+          typename tie_traits<T2>::type,
+          typename tie_traits<T3>::type,
+          typename tie_traits<T4>::type,
+          typename tie_traits<T5>::type,
+          typename tie_traits<T6>::type,
+          typename tie_traits<T7>::type,
+          typename tie_traits<T8>::type,
+          typename tie_traits<T9>::type> type;
+};
+
+}

 // Tie function templates -------------------------------------------------
-template<class T1>
-inline tuple<T1&> tie(T1& t1) {
-  return tuple<T1&> (t1);
+template<class T0>
+inline typename detail::tie_mapper<T0>::type
+tie(T0& t0) {
+  typedef typename detail::tie_mapper<T0>::type t;
+  return t(t0);
 }

-template<class T1, class T2>
-inline tuple<T1&, T2&> tie(T1& t1, T2& t2) {
-  return tuple<T1&, T2&> (t1, t2);
+template<class T0, class T1>
+inline typename detail::tie_mapper<T0, T1>::type
+tie(T0& t0, T1& t1) {
+  typedef typename detail::tie_mapper<T0, T1>::type t;
+  return t(t0, t1);
 }

-template<class T1, class T2, class T3>
-inline tuple<T1&, T2&, T3&> tie(T1& t1, T2& t2, T3& t3) {
-  return tuple<T1&, T2&, T3&> (t1, t2, t3);
+template<class T0, class T1, class T2>
+inline typename detail::tie_mapper<T0, T1, T2>::type
+tie(T0& t0, T1& t1, T2& t2) {
+  typedef typename detail::tie_mapper<T0, T1, T2>::type t;
+  return t(t0, t1, t2);
 }

-template<class T1, class T2, class T3, class T4>
-inline tuple<T1&, T2&, T3&, T4&> tie(T1& t1, T2& t2, T3& t3, T4& t4) {
-  return tuple<T1&, T2&, T3&, T4&> (t1, t2, t3, t4);
+template<class T0, class T1, class T2, class T3>
+inline typename detail::tie_mapper<T0, T1, T2, T3>::type
+tie(T0& t0, T1& t1, T2& t2, T3& t3) {
+  typedef typename detail::tie_mapper<T0, T1, T2, T3>::type t;
+  return t(t0, t1, t2, t3);
 }

-template<class T1, class T2, class T3, class T4, class T5>
-inline tuple<T1&, T2&, T3&, T4&, T5&> 
-tie(T1& t1, T2& t2, T3& t3, T4& t4, T5& t5) {
-  return tuple<T1&, T2&, T3&, T4&, T5&> (t1, t2, t3, t4, t5);
+template<class T0, class T1, class T2, class T3, class T4>
+inline typename detail::tie_mapper<T0, T1, T2, T3, T4>::type
+tie(T0& t0, T1& t1, T2& t2, T3& t3,
+                  T4& t4) {
+  typedef typename detail::tie_mapper<T0, T1, T2, T3, T4>::type t;
+  return t(t0, t1, t2, t3, t4);
 }

-template<class T1, class T2, class T3, class T4, class T5, class T6>
-inline tuple<T1&, T2&, T3&, T4&, T5&, T6&> 
-tie(T1& t1, T2& t2, T3& t3, T4& t4, T5& t5, T6& t6) {
-  return tuple<T1&, T2&, T3&, T4&, T5&, T6&> (t1, t2, t3, t4, t5, t6);
+template<class T0, class T1, class T2, class T3, class T4, class T5>
+inline typename detail::tie_mapper<T0, T1, T2, T3, T4, T5>::type
+tie(T0& t0, T1& t1, T2& t2, T3& t3,
+                  T4& t4, T5& t5) {
+  typedef typename detail::tie_mapper<T0, T1, T2, T3, T4, T5>::type t;
+  return t(t0, t1, t2, t3, t4, t5);
 }

-template<class T1, class T2, class T3, class T4, class T5, class T6, class T7>
-inline tuple<T1&, T2&, T3&, T4&, T5&, T6&, T7&> 
-tie(T1& t1, T2& t2, T3& t3, T4& t4, T5& t5, T6& t6, T7& t7) {
-  return tuple<T1&, T2&, T3&, T4&, T5&, T6&, T7&> (t1, t2, t3, t4, t5, t6, t7);
+template<class T0, class T1, class T2, class T3, class T4, class T5, class T6>
+inline typename detail::tie_mapper<T0, T1, T2, T3, T4, T5, T6>::type
+tie(T0& t0, T1& t1, T2& t2, T3& t3,
+                  T4& t4, T5& t5, T6& t6) {
+  typedef typename detail::tie_mapper
+           <T0, T1, T2, T3, T4, T5, T6>::type t;
+  return t(t0, t1, t2, t3, t4, t5, t6);
 }

-template<class T1, class T2, class T3, class T4, class T5, class T6, class T7, 
-         class T8>
-inline tuple<T1&, T2&, T3&, T4&, T5&, T6&, T7&, T8&> 
-tie(T1& t1, T2& t2, T3& t3, T4& t4, T5& t5, T6& t6, T7& t7, T8& t8) {
-  return tuple<T1&, T2&, T3&, T4&, T5&, T6&, T7&, T8&> 
-           (t1, t2, t3, t4, t5, t6, t7, t8);
+template<class T0, class T1, class T2, class T3, class T4, class T5, class T6,
+         class T7>
+inline typename detail::tie_mapper<T0, T1, T2, T3, T4, T5, T6, T7>::type
+tie(T0& t0, T1& t1, T2& t2, T3& t3,
+                  T4& t4, T5& t5, T6& t6, T7& t7) {
+  typedef typename detail::tie_mapper
+           <T0, T1, T2, T3, T4, T5, T6, T7>::type t;
+  return t(t0, t1, t2, t3, t4, t5, t6, t7);
 }

-template<class T1, class T2, class T3, class T4, class T5, class T6, class T7, 
-         class T8, class T9>
-inline tuple<T1&, T2&, T3&, T4&, T5&, T6&, T7&, T8&, T9&> 
-tie(T1& t1, T2& t2, T3& t3, T4& t4, T5& t5, T6& t6, T7& t7, T8& t8, 
-           T9& t9) {
-  return tuple<T1&, T2&, T3&, T4&, T5&, T6&, T7&, T8&, T9&> 
-            (t1, t2, t3, t4, t5, t6, t7, t8, t9);
+template<class T0, class T1, class T2, class T3, class T4, class T5, class T6,
+         class T7, class T8>
+inline typename detail::tie_mapper
+  <T0, T1, T2, T3, T4, T5, T6, T7, T8>::type
+tie(T0& t0, T1& t1, T2& t2, T3& t3,
+                  T4& t4, T5& t5, T6& t6, T7& t7,
+                  T8& t8) {
+  typedef typename detail::tie_mapper
+           <T0, T1, T2, T3, T4, T5, T6, T7, T8>::type t;
+  return t(t0, t1, t2, t3, t4, t5, t6, t7, t8);
 }

-template<class T1, class T2, class T3, class T4, class T5, class T6, class T7, 
-         class T8, class T9, class T10>
-inline tuple<T1&, T2&, T3&, T4&, T5&, T6&, T7&, T8&, T9&, T10&> 
-tie(T1& t1, T2& t2, T3& t3, T4& t4, T5& t5, T6& t6, T7& t7, T8& t8, 
-           T9& t9, T10& t10) {
-  return tuple<T1&, T2&, T3&, T4&, T5&, T6&, T7&, T8&, T9&, T10&> 
-           (t1, t2, t3, t4, t5, t6, t7, t8, t9, t10);
+template<class T0, class T1, class T2, class T3, class T4, class T5, class T6,
+         class T7, class T8, class T9>
+inline typename detail::tie_mapper
+  <T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>::type
+tie(T0& t0, T1& t1, T2& t2, T3& t3,
+                  T4& t4, T5& t5, T6& t6, T7& t7,
+                  T8& t8, T9& t9) {
+  typedef typename detail::tie_mapper
+           <T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>::type t;
+  return t(t0, t1, t2, t3, t4, t5, t6, t7, t8, t9);
+}
+
+template <class T0, class T1, class T2, class T3, class T4,
+          class T5, class T6, class T7, class T8, class T9>
+void swap(tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>& lhs,
+          tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>& rhs);
+inline void swap(null_type&, null_type&) {}
+template<class HH>
+inline void swap(cons<HH, null_type>& lhs, cons<HH, null_type>& rhs) {
+  ::boost::swap(lhs.head, rhs.head);
+}
+template<class HH, class TT>
+inline void swap(cons<HH, TT>& lhs, cons<HH, TT>& rhs) {
+  ::boost::swap(lhs.head, rhs.head);
+  ::boost::tuples::swap(lhs.tail, rhs.tail);
+}
+template <class T0, class T1, class T2, class T3, class T4,
+          class T5, class T6, class T7, class T8, class T9>
+inline void swap(tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>& lhs,
+          tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>& rhs) {
+  typedef tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9> tuple_type;
+  typedef typename tuple_type::inherited base;
+  ::boost::tuples::swap(static_cast<base&>(lhs), static_cast<base&>(rhs));
 }

 } // end of namespace tuples
 } // end of namespace boost

-#undef BOOST_TUPLE_DUMMY_PARM
-#undef BOOST_TUPLE_SINGLE_DUMMY_PARM

 #endif // BOOST_TUPLE_BASIC_HPP

--- a/include/boost/tuple/detail/tuple_basic_no_partial_spec.hpp
+++ b/include/boost/tuple/detail/tuple_basic_no_partial_spec.hpp
@ -1,17 +1,12 @@
 // - tuple_basic_no_partial_spec.hpp -----------------------------------------

-// Copyright (C) 1999, 2000 Jaakko J<EFBFBD>rvi (jaakko.jarvi@cs.utu.fi)
-// Copyright (C) 2001 Doug Gregor (gregod@rpi.edu)
+// Copyright (C) 1999, 2000 Jaakko Jarvi (jaakko.jarvi@cs.utu.fi)
+// Copyright (C) 2001 Douglas Gregor (gregod@rpi.edu)
 // Copyright (C) 2001 Gary Powell (gary.powell@sierra.com)
 //
-// Permission to copy, use, sell and distribute this software is granted
-// provided this copyright notice appears in all copies. 
-// Permission to modify the code and to distribute modified code is granted
-// provided this copyright notice appears in all copies, and a notice 
-// that the code was modified is included with the copyright notice.
-//
-// This software is provided "as is" without express or implied warranty, 
-// and with no claim as to its suitability for any purpose.
+// Distributed under the Boost Software License, Version 1.0. (See
+// accompanying file LICENSE_1_0.txt or copy at
+// http://www.boost.org/LICENSE_1_0.txt)

 // For more information, see http://www.boost.org or http://lambda.cs.utu.fi

@ -32,6 +27,7 @@
 #define BOOST_TUPLE_BASIC_NO_PARTIAL_SPEC_HPP

 #include "boost/type_traits.hpp"
+#include "boost/utility/swap.hpp"
 #include <utility>

 #if defined BOOST_MSVC
@ -68,6 +64,10 @@ namespace tuples {
    >
    class tuple;

+// forward declaration of cons
+    template<typename Head, typename Tail = null_type>
+    struct cons;
+
    namespace detail {

      // Takes a pointer and routes all assignments to whatever it points to
@ -92,57 +92,125 @@ namespace tuples {
      struct swallow_assign
      {
        template<typename T>
-        swallow_assign& operator=(const T&)
+        swallow_assign const& operator=(const T&) const
        {
          return *this;
        }
      };

+    template <typename T> struct add_const_reference : add_reference<typename add_const<T>::type> {};
+
+    template <class MyTail>
+    struct init_tail
+    {
+        // Each of vc6 and vc7 seem to require a different formulation
+        // of this return type
+        template <class H, class T>
+#if BOOST_WORKAROUND(BOOST_MSVC, < 1300)
+        static typename add_reference<typename add_const<T>::type>::type
+#else
+        static typename add_const_reference<T>::type
+#endif
+        execute( cons<H,T> const& u, long )
+        {
+            return u.get_tail();
+        }
+    };
+
+    template <>
+    struct init_tail<null_type>
+    {
+        template <class H>
+        static null_type execute( cons<H,null_type> const& u, long )
+        {
+            return null_type();
+        }
+
+        template <class U>
+        static null_type execute(U const&, ...)
+        {
+            return null_type();
+        }
+     private:
+        template <class H, class T>
+        void execute( cons<H,T> const&, int);
+    };
+
+    template <class Other>
+    Other const&
+    init_head( Other const& u, ... )
+    {
+        return u;
+    }
+
+    template <class H, class T>
+    typename add_reference<typename add_const<H>::type>::type
+    init_head( cons<H,T> const& u, int )
+    {
+        return u.get_head();
+    }
+
+    inline char**** init_head(null_type const&, int);
+
  } // end of namespace detail

    // cons builds a heterogenous list of types
-   template<typename Head, typename Tail = null_type>
+   template<typename Head, typename Tail>
   struct cons
   {
     typedef cons self_type;
     typedef Head head_type;
     typedef Tail tail_type;

+    private:
+       typedef typename boost::add_reference<head_type>::type head_ref;
+       typedef typename boost::add_reference<tail_type>::type tail_ref;
+       typedef typename detail::add_const_reference<head_type>::type head_cref;
+       typedef typename detail::add_const_reference<tail_type>::type tail_cref;
+    public:
     head_type head;
     tail_type tail;

-     typename boost::add_reference<head_type>::type get_head() { return head; }
-     typename boost::add_reference<tail_type>::type get_tail() { return tail; }  
+     head_ref get_head() { return head; }
+     tail_ref get_tail() { return tail; }

-     typename boost::add_reference<const head_type>::type get_head() const { return head; }
-     typename boost::add_reference<const tail_type>::type get_tail() const { return tail; }
+     head_cref get_head() const { return head; }
+     tail_cref get_tail() const { return tail; }
+
+     cons() : head(), tail() {}

 #if defined BOOST_MSVC
      template<typename Tail>
-      explicit cons(const head_type& h /* = head_type() */, // causes MSVC 6.5 to barf.
+      cons(head_cref h /* = head_type() */, // causes MSVC 6.5 to barf.
                    const Tail& t) : head(h), tail(t.head, t.tail)
      {
      }

-      explicit cons(const head_type& h /* = head_type() */, // causes MSVC 6.5 to barf.
+      cons(head_cref h /* = head_type() */, // causes MSVC 6.5 to barf.
                    const null_type& t) : head(h), tail(t)
      {
      }

 #else
      template<typename T>
-      explicit cons(const head_type& h, const T& t) : 
+      explicit cons(head_cref h, const T& t) :
        head(h), tail(t.head, t.tail)
      {
      }

-      explicit cons(const head_type& h = head_type(),
-                    const tail_type& t = tail_type()) :
+      explicit cons(head_cref h = head_type(),
+                    tail_cref t = tail_type()) :
        head(h), tail(t)
      {
      }
 #endif

+      template <class U>
+      cons( const U& u )
+        : head(detail::init_head(u, 0))
+        , tail(detail::init_tail<Tail>::execute(u, 0L))
+       {
+       }

      template<typename Other>
      cons& operator=(const Other& other)
@ -416,26 +484,45 @@ namespace tuples {
      typedef typename mapped_tuple::cons2 cons2;
      typedef typename mapped_tuple::cons1 cons1;

+      typedef typename detail::add_const_reference<T1>::type t1_cref;
+      typedef typename detail::add_const_reference<T2>::type t2_cref;
+      typedef typename detail::add_const_reference<T3>::type t3_cref;
+      typedef typename detail::add_const_reference<T4>::type t4_cref;
+      typedef typename detail::add_const_reference<T5>::type t5_cref;
+      typedef typename detail::add_const_reference<T6>::type t6_cref;
+      typedef typename detail::add_const_reference<T7>::type t7_cref;
+      typedef typename detail::add_const_reference<T8>::type t8_cref;
+      typedef typename detail::add_const_reference<T9>::type t9_cref;
+      typedef typename detail::add_const_reference<T10>::type t10_cref;
    public:
      typedef cons1 inherited;
      typedef tuple self_type;

-      explicit tuple(const T1& t1 = T1(), 
-                     const T2& t2 = T2(),
-                     const T3& t3 = T3(),
-                     const T4& t4 = T4(),
-                     const T5& t5 = T5(),
-                     const T6& t6 = T6(),
-                     const T7& t7 = T7(),
-                     const T8& t8 = T8(),
-                     const T9& t9 = T9(),
-                     const T10& t10 = T10()) :
+      tuple() : cons1(T1(), cons2(T2(), cons3(T3(), cons4(T4(), cons5(T5(), cons6(T6(),cons7(T7(),cons8(T8(),cons9(T9(),cons10(T10()))))))))))
+        {}
+
+      tuple(
+          t1_cref t1,
+          t2_cref t2,
+          t3_cref t3 = T3(),
+          t4_cref t4 = T4(),
+          t5_cref t5 = T5(),
+          t6_cref t6 = T6(),
+          t7_cref t7 = T7(),
+          t8_cref t8 = T8(),
+          t9_cref t9 = T9(),
+          t10_cref t10 = T10()
+      ) :
        cons1(t1, cons2(t2, cons3(t3, cons4(t4, cons5(t5, cons6(t6,cons7(t7,cons8(t8,cons9(t9,cons10(t10))))))))))
      {
      }

+      explicit tuple(t1_cref t1)
+        : cons1(t1, cons2(T2(), cons3(T3(), cons4(T4(), cons5(T5(), cons6(T6(),cons7(T7(),cons8(T8(),cons9(T9(),cons10(T10()))))))))))
+      {}
+
      template<typename Head, typename Tail>
-      explicit tuple(const cons<Head, Tail>& other) : 
+      tuple(const cons<Head, Tail>& other) :
        cons1(other.head, other.tail)
      {
      }
@ -747,9 +834,31 @@ namespace tuples {
                        detail::assign_to_pointee<T10>(&t10));
    }
    // "ignore" allows tuple positions to be ignored when using "tie".
-    namespace {
-      detail::swallow_assign ignore;
-    }
+
+detail::swallow_assign const ignore = detail::swallow_assign();
+
+template <class T0, class T1, class T2, class T3, class T4,
+          class T5, class T6, class T7, class T8, class T9>
+void swap(tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>& lhs,
+          tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>& rhs);
+inline void swap(null_type&, null_type&) {}
+template<class HH>
+inline void swap(cons<HH, null_type>& lhs, cons<HH, null_type>& rhs) {
+  ::boost::swap(lhs.head, rhs.head);
+}
+template<class HH, class TT>
+inline void swap(cons<HH, TT>& lhs, cons<HH, TT>& rhs) {
+  ::boost::swap(lhs.head, rhs.head);
+  ::boost::tuples::swap(lhs.tail, rhs.tail);
+}
+template <class T0, class T1, class T2, class T3, class T4,
+          class T5, class T6, class T7, class T8, class T9>
+inline void swap(tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>& lhs,
+          tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9>& rhs) {
+  typedef tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9> tuple_type;
+  typedef typename tuple_type::inherited base;
+  ::boost::tuples::swap(static_cast<base&>(lhs), static_cast<base&>(rhs));
+}

 } // namespace tuples
 } // namespace boost
--- a/include/boost/tuple/tuple.hpp
+++ b/include/boost/tuple/tuple.hpp
@ -1,15 +1,10 @@
 //  tuple.hpp - Boost Tuple Library --------------------------------------

-// Copyright (C) 1999, 2000 Jaakko J<EFBFBD>rvi (jaakko.jarvi@cs.utu.fi)
+// Copyright (C) 1999, 2000 Jaakko Jarvi (jaakko.jarvi@cs.utu.fi)
 //
-// Permission to copy, use, sell and distribute this software is granted
-// provided this copyright notice appears in all copies. 
-// Permission to modify the code and to distribute modified code is granted
-// provided this copyright notice appears in all copies, and a notice 
-// that the code was modified is included with the copyright notice.
-//
-// This software is provided "as is" without express or implied warranty, 
-// and with no claim as to its suitability for any purpose.
+// Distributed under the Boost Software License, Version 1.0. (See
+// accompanying file LICENSE_1_0.txt or copy at
+// http://www.boost.org/LICENSE_1_0.txt)

 // For more information, see http://www.boost.org

@ -18,6 +13,13 @@
 #ifndef BOOST_TUPLE_HPP
 #define BOOST_TUPLE_HPP

+#if defined(__sgi) && defined(_COMPILER_VERSION) && _COMPILER_VERSION <= 730
+// Work around a compiler bug.
+// boost::python::tuple has to be seen by the compiler before the
+// boost::tuple class template.
+namespace boost { namespace python { class tuple; }}
+#endif
+
 #include "boost/config.hpp"
 #include "boost/static_assert.hpp"

--- a/include/boost/tuple/tuple_comparison.hpp
+++ b/include/boost/tuple/tuple_comparison.hpp
@ -1,16 +1,11 @@
 // tuple_comparison.hpp -----------------------------------------------------
 //  
-// Copyright (C) 2001 Jaakko J<EFBFBD>rvi (jaakko.jarvi@cs.utu.fi)
+// Copyright (C) 2001 Jaakko Jarvi (jaakko.jarvi@cs.utu.fi)
 // Copyright (C) 2001 Gary Powell (gary.powell@sierra.com)
 //
-// Permission to copy, use, sell and distribute this software is granted
-// provided this copyright notice appears in all copies. 
-// Permission to modify the code and to distribute modified code is granted
-// provided this copyright notice appears in all copies, and a notice 
-// that the code was modified is included with the copyright notice.
-// 
-// This software is provided "as is" without express or implied warranty, 
-// and with no claim as to its suitability for any purpose.
+// Distributed under the Boost Software License, Version 1.0. (See
+// accompanying file LICENSE_1_0.txt or copy at
+// http://www.boost.org/LICENSE_1_0.txt)
 // 
 // For more information, see http://www.boost.org
 // 
@ -74,8 +69,8 @@ inline bool neq<null_type,null_type>(const null_type&, const null_type&) { retur
 template<class T1, class T2>
 inline bool lt(const T1& lhs, const T2& rhs) {
  return lhs.get_head() < rhs.get_head()  ||
-            !(rhs.get_head() < lhs.get_head()) &&
-            lt(lhs.get_tail(), rhs.get_tail());
+          ( !(rhs.get_head() < lhs.get_head()) &&
+            lt(lhs.get_tail(), rhs.get_tail()));
 }
 template<>
 inline bool lt<null_type,null_type>(const null_type&, const null_type&) { return false; }
@ -83,8 +78,8 @@ inline bool lt<null_type,null_type>(const null_type&, const null_type&) { return
 template<class T1, class T2>
 inline bool gt(const T1& lhs, const T2& rhs) {
  return lhs.get_head() > rhs.get_head()  ||
-            !(rhs.get_head() > lhs.get_head()) &&
-            gt(lhs.get_tail(), rhs.get_tail());
+          ( !(rhs.get_head() > lhs.get_head()) &&
+            gt(lhs.get_tail(), rhs.get_tail()));
 }
 template<>
 inline bool gt<null_type,null_type>(const null_type&, const null_type&) { return false; }
--- a/include/boost/tuple/tuple_io.hpp
+++ b/include/boost/tuple/tuple_io.hpp
@ -1,16 +1,11 @@
 // tuple_io.hpp --------------------------------------------------------------

-// Copyright (C) 2001 Jaakko J<EFBFBD>rvi (jaakko.jarvi@cs.utu.fi)
+// Copyright (C) 2001 Jaakko Jarvi (jaakko.jarvi@cs.utu.fi)
 //               2001 Gary Powell (gary.powell@sierra.com)
 //
-// Permission to copy, use, sell and distribute this software is granted
-// provided this copyright notice appears in all copies. 
-// Permission to modify the code and to distribute modified code is granted
-// provided this copyright notice appears in all copies, and a notice 
-// that the code was modified is included with the copyright notice.
-//
-// This software is provided "as is" without express or implied warranty, 
-// and with no claim as to its suitability for any purpose.
+// Distributed under the Boost Software License, Version 1.0. (See
+// accompanying file LICENSE_1_0.txt or copy at
+// http://www.boost.org/LICENSE_1_0.txt)
 // For more information, see http://www.boost.org 

 // ----------------------------------------------------------------------------
@ -34,8 +29,27 @@
 #include <ostream>
 #endif  

+#include <sstream>
+
 #include "boost/tuple/tuple.hpp"

+// This is ugly: one should be using twoargument isspace since whitspace can
+// be locale dependent, in theory at least.
+// not all libraries implement have the two-arg version, so we need to 
+// use the one-arg one, which one should get with <cctype> but there seem
+// to be exceptions to this.
+
+#if !defined (BOOST_NO_STD_LOCALE)
+
+#include <locale> // for two-arg isspace
+
+#else 
+
+#include <cctype> // for one-arg (old) isspace 
+#include <ctype.h> // Metrowerks does not find one-arg isspace from cctype
+
+#endif
+
 namespace boost {
 namespace tuples {

@ -69,9 +83,9 @@ public:
     // parentheses and space are the default manipulators
     if (!c) {
       switch(m) {
-         case open : c = '('; break;
-         case close : c = ')'; break;
-         case delimiter : c = ' '; break;
+         case detail::format_info::open : c = '('; break;
+         case detail::format_info::close : c = ')'; break;
+         case detail::format_info::delimiter : c = ' '; break;
       }
     }
     return c;
@ -92,9 +106,9 @@ public:
     // parentheses and space are the default manipulators
     if (!c) {
       switch(m) {
-         case open :  c = i.widen('('); break;
-         case close : c = i.widen(')'); break;
-         case delimiter : c = i.widen(' '); break;
+         case detail::format_info::open :  c = i.widen('('); break;
+         case detail::format_info::close : c = i.widen(')'); break;
+         case detail::format_info::delimiter : c = i.widen(' '); break;
       }
     }
     return c;
@ -232,6 +246,22 @@ print(std::ostream& o, const cons<T1, T2>& t) {

 }

+template<class T>
+inline bool handle_width(std::ostream& o, const T& t) {
+    std::streamsize width = o.width();
+    if(width == 0) return false;
+
+    std::ostringstream ss;
+
+    ss.copyfmt(o);
+    ss.tie(0);
+    ss.width(0);
+
+    ss << t;
+    o << ss.str();
+
+    return true;
+}


 #else
@ -268,14 +298,48 @@ print(std::basic_ostream<CharType, CharTrait>& o, const cons<T1, T2>& t) {
  return print(o, t.tail);
 }

+template<class CharT, class Traits, class T>
+inline bool handle_width(std::basic_ostream<CharT, Traits>& o, const T& t) {
+    std::streamsize width = o.width();
+    if(width == 0) return false;
+
+    std::basic_ostringstream<CharT, Traits> ss;
+
+    ss.copyfmt(o);
+    ss.tie(0);
+    ss.width(0);
+
+    ss << t;
+    o << ss.str();
+
+    return true;
+}
+
 #endif  // BOOST_NO_TEMPLATED_STREAMS

 } // namespace detail

 #if defined (BOOST_NO_TEMPLATED_STREAMS)
+
+inline std::ostream& operator<<(std::ostream& o, const null_type& t) {
+  if (!o.good() ) return o;
+  if (detail::handle_width(o, t)) return o;
+ 
+  const char l = 
+    detail::format_info::get_manipulator(o, detail::format_info::open);
+  const char r = 
+    detail::format_info::get_manipulator(o, detail::format_info::close);
+   
+  o << l;
+  o << r;
+
+  return o;
+}
+
 template<class T1, class T2>
 inline std::ostream& operator<<(std::ostream& o, const cons<T1, T2>& t) {
  if (!o.good() ) return o;
+  if (detail::handle_width(o, t)) return o;
 
  const char l = 
    detail::format_info::get_manipulator(o, detail::format_info::open);
@ -293,11 +357,30 @@ inline std::ostream& operator<<(std::ostream& o, const cons<T1, T2>& t) {

 #else

+template<class CharType, class CharTrait>
+inline std::basic_ostream<CharType, CharTrait>& 
+operator<<(std::basic_ostream<CharType, CharTrait>& o, 
+           const null_type& t) {
+  if (!o.good() ) return o;
+  if (detail::handle_width(o, t)) return o;
+ 
+  const CharType l = 
+    detail::format_info::get_manipulator(o, detail::format_info::open);
+  const CharType r = 
+    detail::format_info::get_manipulator(o, detail::format_info::close);
+   
+  o << l;
+  o << r;
+
+  return o;
+}
+
 template<class CharType, class CharTrait, class T1, class T2>
 inline std::basic_ostream<CharType, CharTrait>& 
 operator<<(std::basic_ostream<CharType, CharTrait>& o, 
           const cons<T1, T2>& t) {
  if (!o.good() ) return o;
+  if (detail::handle_width(o, t)) return o;
 
  const CharType l = 
    detail::format_info::get_manipulator(o, detail::format_info::open);
@ -328,14 +411,20 @@ extract_and_check_delimiter(
 {
  const char d = format_info::get_manipulator(is, del);

-  const bool is_delimiter = (!isspace(d) );      
+#if defined (BOOST_NO_STD_LOCALE)
+  const bool is_delimiter = !isspace(d);
+#else
+  const bool is_delimiter = (!std::isspace(d, is.getloc()) );            
+#endif

  char c;
  if (is_delimiter) { 
    is >> c; 
-    if (c!=d) {
+    if (is.good() && c!=d) {
      is.setstate(std::ios::failbit);
    } 
+  } else {
+    is >> std::ws;
  }
  return is;
 }
@ -415,14 +504,23 @@ extract_and_check_delimiter(
 {
  const CharType d = format_info::get_manipulator(is, del);

-  const bool is_delimiter = (!isspace(d) );      
+#if defined (BOOST_NO_STD_LOCALE)
+  const bool is_delimiter = !isspace(d);
+#elif defined ( __BORLANDC__ )
+  const bool is_delimiter = !std::use_facet< std::ctype< CharType > >
+    (is.getloc() ).is( std::ctype_base::space, d);
+#else
+  const bool is_delimiter = (!std::isspace(d, is.getloc()) );            
+#endif

  CharType c;
  if (is_delimiter) { 
    is >> c;
-    if (c!=d) { 
+    if (is.good() && c!=d) { 
      is.setstate(std::ios::failbit);
    }
+  } else {
+    is >> std::ws;
  }
  return is;
 }
--- a/index.html
+++ b/index.html
@ -0,0 +1,13 @@
+<html>
+<head>
+<meta http-equiv="refresh" content="0; URL=doc/tuple_users_guide.html">
+</head>
+<body>
+Automatic redirection failed, please go to <a href="doc/tuple_users_guide.html">doc/tuple_users_guide.html</a> 
+&nbsp;<hr>
+<p><EFBFBD> Copyright Beman Dawes, 2001</p>
+<p>Distributed under the Boost Software License, Version 1.0. (See accompanying 
+file <a href="../../LICENSE_1_0.txt">LICENSE_1_0.txt</a> or copy 
+at <a href="http://www.boost.org/LICENSE_1_0.txt">www.boost.org/LICENSE_1_0.txt</a>)</p>
+</body>
+</html>
--- a/test/Jamfile
+++ b/test/Jamfile
@ -0,0 +1,8 @@
+
+project : requirements <library>/boost/test//boost_test_exec_monitor ;
+
+test-suite tuple : 
+    [ run tuple_test_bench.cpp ]
+    [ run io_test.cpp ]
+    [ run another_tuple_test_bench.cpp ]
+    ;
--- a/test/another_tuple_test_bench.cpp
+++ b/test/another_tuple_test_bench.cpp
@ -1,3 +1,12 @@
+// Copyright (C) 1999, 2000 Jaakko Jarvi (jaakko.jarvi@cs.utu.fi)
+//
+// Distributed under the Boost Software License, Version 1.0. (See
+// accompanying file LICENSE_1_0.txt or copy at
+// http://www.boost.org/LICENSE_1_0.txt)
+
+// For more information, see http://www.boost.org
+
+
 //  another_test_bench.cpp  --------------------------------

 // This file has various tests to see that things that shouldn't
@ -14,7 +23,6 @@
 #include <string>
 #include <utility>

-using namespace std;
 using namespace boost;
 using namespace boost::tuples;

@ -89,12 +97,11 @@ void foo2() {

 void foo4() 
 {
-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
  double d = 2.7; 
  A a;
  tuple<int, double&, const A&> t(1, d, a);
  const tuple<int, double&, const A> ct = t;
-
+  (void)ct;
 #ifdef E8
  get<0>(ct) = 5; // can't assign to const
 #endif
@ -105,8 +112,6 @@ void foo4()
 #ifdef E10
  dummy(get<5>(ct)); // illegal index
 #endif
-
-#endif
 }

 // testing copy and assignment with implicit conversions between elements
@ -119,9 +124,10 @@ void foo4()

  void foo5() {
    tuple<char, BB*, BB, DD> t;
-
+    (void)t;
    tuple<char, char> aaa;
    tuple<int, int> bbb(aaa);
+    (void)bbb;
    //    tuple<int, AA*, CC, CC> a = t;
    //    a = t;
  }
--- a/test/io_test.cpp
+++ b/test/io_test.cpp
@ -1,3 +1,11 @@
+// Copyright (C) 1999, 2000 Jaakko Jarvi (jaakko.jarvi@cs.utu.fi)
+//
+// Distributed under the Boost Software License, Version 1.0. (See
+// accompanying file LICENSE_1_0.txt or copy at
+// http://www.boost.org/LICENSE_1_0.txt)
+
+// For more information, see http://www.boost.org
+
 // -- io_test.cpp -----------------------------------------------
 //
 // Testing the I/O facilities of tuples
@ -12,6 +20,7 @@
 #include <iterator>
 #include <algorithm>
 #include <string>
+#include <iomanip>

 #if defined BOOST_NO_STRINGSTREAM
 #include <strstream>
@ -19,21 +28,19 @@
 #include <sstream>
 #endif

-#include "boost/config.hpp"
-
-using namespace std;
 using namespace boost;

 #if defined BOOST_NO_STRINGSTREAM
-typedef ostrstream useThisOStringStream;
-typedef istrstream useThisIStringStream;
+typedef std::ostrstream useThisOStringStream;
+typedef std::istrstream useThisIStringStream;
 #else
-typedef ostringstream useThisOStringStream;
-typedef istringstream useThisIStringStream;
+typedef std::ostringstream useThisOStringStream;
+typedef std::istringstream useThisIStringStream;
 #endif

 int test_main(int argc, char * argv[] ) {
-
+   (void)argc;
+   (void)argv;
   using boost::tuples::set_close;
   using boost::tuples::set_open;
   using boost::tuples::set_delimiter;
@ -45,7 +52,7 @@ int test_main(int argc, char * argv[] ) {
  os1 << set_close(']');
  os1 << set_delimiter(',');
  os1 << make_tuple(1, 2, 3);
-  BOOST_TEST (os1.str() == std::string("[1,2,3]") );
+  BOOST_CHECK (os1.str() == std::string("[1,2,3]") );

  {
  useThisOStringStream os2;
@ -55,48 +62,76 @@ int test_main(int argc, char * argv[] ) {
  os2 << set_delimiter(':');
 #if !defined (BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
  os2 << make_tuple("TUPU", "HUPU", "LUPU", 4.5);
-  BOOST_TEST (os2.str() == std::string("(TUPU:HUPU:LUPU:4.5)") );
+  BOOST_CHECK (os2.str() == std::string("(TUPU:HUPU:LUPU:4.5)") );
 #endif
  }

  // The format is still [a, b, c] for os1
  os1 << make_tuple(1, 2, 3);
-  BOOST_TEST (os1.str() == std::string("[1,2,3][1,2,3]") );
+  BOOST_CHECK (os1.str() == std::string("[1,2,3][1,2,3]") );

-  ofstream tmp("temp.tmp");
+  // check empty tuple.
+  useThisOStringStream os3;
+  os3 << make_tuple();
+  BOOST_CHECK (os3.str() == std::string("()") );
+  os3 << set_open('[');
+  os3 << set_close(']');
+  os3 << make_tuple();
+  BOOST_CHECK (os3.str() == std::string("()[]") );
+  
+  // check width
+  useThisOStringStream os4;
+  os4 << std::setw(10) << make_tuple(1, 2, 3);
+  BOOST_CHECK (os4.str() == std::string("   (1 2 3)") );
+
+  std::ofstream tmp("temp.tmp");

 #if !defined (BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
  tmp << make_tuple("One", "Two", 3);
 #endif   
  tmp << set_delimiter(':');
-  tmp << make_tuple(1000, 2000, 3000) << endl;
+  tmp << make_tuple(1000, 2000, 3000) << std::endl;

  tmp.close();
  
  // When teading tuples from a stream, manipulators must be set correctly:
-  ifstream tmp3("temp.tmp");
-  tuple<string, string, int> j;
+  std::ifstream tmp3("temp.tmp");
+  tuple<std::string, std::string, int> j;

 #if !defined (BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
  tmp3 >> j; 
-  BOOST_TEST (tmp3.good() ); 
+  BOOST_CHECK (tmp3.good() ); 
 #endif
   
  tmp3 >> set_delimiter(':');
  tuple<int, int, int> i;
  tmp3 >> i; 
-  BOOST_TEST (tmp3.good() ); 
+  BOOST_CHECK (tmp3.good() ); 
   
  tmp3.close(); 


  // reading tuple<int, int, int> in format (a b c); 
-  useThisIStringStream is("(100 200 300)"); 
+  useThisIStringStream is1("(100 200 300)"); 
   
-  tuple<int, int, int> ti; 
-  BOOST_TEST(is >> ti);
-  BOOST_TEST(ti == make_tuple(100, 200, 300));
+  tuple<int, int, int> ti1; 
+  BOOST_CHECK(bool(is1 >> ti1));
+  BOOST_CHECK(ti1 == make_tuple(100, 200, 300));

+  useThisIStringStream is2("()");
+  tuple<> ti2;
+  BOOST_CHECK(bool(is2 >> ti2));
+  useThisIStringStream is3("[]");
+  is3 >> set_open('[');
+  is3 >> set_close(']');
+  BOOST_CHECK(bool(is3 >> ti2));
+
+  // Make sure that whitespace between elements
+  // is skipped.
+  useThisIStringStream is4("(100 200 300)"); 
+   
+  BOOST_CHECK(bool(is4 >> std::noskipws >> ti1));
+  BOOST_CHECK(ti1 == make_tuple(100, 200, 300));

  // Note that strings are problematic:
  // writing a tuple on a stream and reading it back doesn't work in
--- a/test/tuple_test_bench.cpp
+++ b/test/tuple_test_bench.cpp
@ -1,3 +1,11 @@
+// Copyright (C) 1999, 2000 Jaakko Jarvi (jaakko.jarvi@cs.utu.fi)
+//
+// Distributed under the Boost Software License, Version 1.0. (See
+// accompanying file LICENSE_1_0.txt or copy at
+// http://www.boost.org/LICENSE_1_0.txt)
+
+// For more information, see http://www.boost.org
+
 //  tuple_test_bench.cpp  --------------------------------

 #define BOOST_INCLUDE_MAIN  // for testing, include rather than link
@ -7,10 +15,12 @@

 #include "boost/tuple/tuple_comparison.hpp"

+#include "boost/type_traits/is_const.hpp"
+
+#include "boost/ref.hpp"
 #include <string>
 #include <utility>

-using namespace std;
 using namespace boost;

 // ----------------------------------------------------------------------------
@ -66,7 +76,6 @@ public:

 typedef tuple<int> t1;

-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
 typedef tuple<double&, const double&, const double, double*, const double*> t2;
 typedef tuple<A, int(*)(char, int), C> t3;
 typedef tuple<std::string, std::pair<A, B> > t4;
@ -77,22 +86,16 @@ typedef tuple<volatile int, const volatile char&, int(&)(float) > t6;
 typedef tuple<B(A::*)(C&), A&> t7;
 #endif

-#endif
-
 // -----------------------------------------------------------------------
 // -tuple construction tests ---------------------------------------------
 // -----------------------------------------------------------------------


-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
 no_copy y;
 tuple<no_copy&> x = tuple<no_copy&>(y); // ok
-#endif

-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
 char cs[10];
 tuple<char(&)[10]> v2(cs);  // ok
-#endif

 void
 construction_test()
@ -103,32 +106,32 @@ construction_test()
  // MSVC 6.0 just cannot find get without the namespace qualifier

  tuple<int> t1;
-  BOOST_TEST(get<0>(t1) == int());
+  BOOST_CHECK(get<0>(t1) == int());

  tuple<float> t2(5.5f);
-  BOOST_TEST(get<0>(t2) > 5.4f && get<0>(t2) < 5.6f);
+  BOOST_CHECK(get<0>(t2) > 5.4f && get<0>(t2) < 5.6f);

  tuple<foo> t3(foo(12));
-  BOOST_TEST(get<0>(t3) == foo(12));
+  BOOST_CHECK(get<0>(t3) == foo(12));

  tuple<double> t4(t2);
-  BOOST_TEST(get<0>(t4) > 5.4 && get<0>(t4) < 5.6);
+  BOOST_CHECK(get<0>(t4) > 5.4 && get<0>(t4) < 5.6);

  tuple<int, float> t5;
-  BOOST_TEST(get<0>(t5) == int());
-  BOOST_TEST(get<1>(t5) == float());
+  BOOST_CHECK(get<0>(t5) == int());
+  BOOST_CHECK(get<1>(t5) == float());

  tuple<int, float> t6(12, 5.5f);
-  BOOST_TEST(get<0>(t6) == 12);
-  BOOST_TEST(get<1>(t6) > 5.4f && get<1>(t6) < 5.6f);
+  BOOST_CHECK(get<0>(t6) == 12);
+  BOOST_CHECK(get<1>(t6) > 5.4f && get<1>(t6) < 5.6f);

  tuple<int, float> t7(t6);
-  BOOST_TEST(get<0>(t7) == 12);
-  BOOST_TEST(get<1>(t7) > 5.4f && get<1>(t7) < 5.6f);
+  BOOST_CHECK(get<0>(t7) == 12);
+  BOOST_CHECK(get<1>(t7) > 5.4f && get<1>(t7) < 5.6f);

  tuple<long, double> t8(t6);
-  BOOST_TEST(get<0>(t8) == 12);
-  BOOST_TEST(get<1>(t8) > 5.4f && get<1>(t8) < 5.6f);
+  BOOST_CHECK(get<0>(t8) == 12);
+  BOOST_CHECK(get<1>(t8) > 5.4f && get<1>(t8) < 5.6f);

  dummy(
    tuple<no_def_constructor, no_def_constructor, no_def_constructor>(
@ -147,12 +150,10 @@ construction_test()
  //  dummy(tuple<double&>()); // should fail, not defaults for references
  //  dummy(tuple<const double&>()); // likewise

-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
  double dd = 5;
  dummy(tuple<double&>(dd)); // ok

  dummy(tuple<const double&>(dd+3.14)); // ok, but dangerous
-#endif

  //  dummy(tuple<double&>(dd+3.14)); // should fail,
  //                                  // temporary to non-const reference
@ -165,7 +166,6 @@ construction_test()

 void element_access_test()
 {
-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
  double d = 2.7;
  A a;
  tuple<int, double&, const A&, int> t(1, d, a, 2);
@ -174,58 +174,40 @@ void element_access_test()
  int i  = get<0>(t);
  int i2 = get<3>(t);

-  BOOST_TEST(i == 1 && i2 == 2);
+  BOOST_CHECK(i == 1 && i2 == 2);

  int j  = get<0>(ct);
-  BOOST_TEST(j == 1);
+  BOOST_CHECK(j == 1);
   
  get<0>(t) = 5;
-  BOOST_TEST(t.head == 5);
+  BOOST_CHECK(t.head == 5);
   
  //  get<0>(ct) = 5; // can't assign to const

  double e = get<1>(t);
-  BOOST_TEST(e > 2.69 && e < 2.71);
+  BOOST_CHECK(e > 2.69 && e < 2.71);
     
  get<1>(t) = 3.14+i;
-  BOOST_TEST(get<1>(t) > 4.13 && get<1>(t) < 4.15);
+  BOOST_CHECK(get<1>(t) > 4.13 && get<1>(t) < 4.15);

  //  get<4>(t) = A(); // can't assign to const
  //  dummy(get<5>(ct)); // illegal index

  ++get<0>(t);
-  BOOST_TEST(get<0>(t) == 6);
+  BOOST_CHECK(get<0>(t) == 6);
+
+  BOOST_STATIC_ASSERT((boost::is_const<boost::tuples::element<0, tuple<int, float> >::type>::value != true));
+#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
+  BOOST_STATIC_ASSERT((boost::is_const<boost::tuples::element<0, const tuple<int, float> >::type>::value));
+#endif 
+
+  BOOST_STATIC_ASSERT((boost::is_const<boost::tuples::element<1, tuple<int, float> >::type>::value != true));
+#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
+  BOOST_STATIC_ASSERT((boost::is_const<boost::tuples::element<1, const tuple<int, float> >::type>::value));
+#endif 
+

  dummy(i); dummy(i2); dummy(j); dummy(e); // avoid warns for unused variables
-#else
-  double d = 2.7; 
-  A a;
-  tuple<int, double, const A, int> t(1, d, a, 2);
-
-  int i  = get<0>(t);
-  int i2 = get<3>(t);
-
-  BOOST_TEST(i == 1 && i2 == 2);
-   
-  get<0>(t) = 5;
-  BOOST_TEST(t.head == 5);
-   
-  //  get<0>(ct) = 5; // can't assign to const
-
-  double e = get<1>(t);
-  BOOST_TEST(e > 2.69 && e < 2.71);
-     
-  get<1>(t) = 3.14+i;
-  BOOST_TEST(get<1>(t) > 4.13 && get<1>(t) < 4.15);
-
-  //  get<4>(t) = A(); // can't assign to const
-  //  dummy(get<5>(ct)); // illegal index
-
-  ++get<0>(t);
-  BOOST_TEST(get<0>(t) == 6);
-
-  dummy(i); dummy(i2); dummy(e); // avoid warns for unused variables
-#endif
 }


@ -241,13 +223,13 @@ copy_test()
  tuple<int, char> t1(4, 'a');
  tuple<int, char> t2(5, 'b');
  t2 = t1;
-  BOOST_TEST(get<0>(t1) == get<0>(t2));
-  BOOST_TEST(get<1>(t1) == get<1>(t2));
+  BOOST_CHECK(get<0>(t1) == get<0>(t2));
+  BOOST_CHECK(get<1>(t1) == get<1>(t2));

  tuple<long, std::string> t3(2, "a");
  t3 = t1;
-  BOOST_TEST((double)get<0>(t1) == get<0>(t3));
-  BOOST_TEST(get<1>(t1) == get<1>(t3)[0]);
+  BOOST_CHECK((double)get<0>(t1) == get<0>(t3));
+  BOOST_CHECK(get<1>(t1) == get<1>(t3)[0]);

 // testing copy and assignment with implicit conversions between elements
 // testing tie
@ -259,9 +241,9 @@ copy_test()
  int i; char c; double d;
  tie(i, c, d) = make_tuple(1, 'a', 5.5);
  
-  BOOST_TEST(i==1);
-  BOOST_TEST(c=='a');
-  BOOST_TEST(d>5.4 && d<5.6);
+  BOOST_CHECK(i==1);
+  BOOST_CHECK(c=='a');
+  BOOST_CHECK(d>5.4 && d<5.6);
 }

 void
@ -273,10 +255,10 @@ mutate_test()
  get<2>(t1) = false;
  get<3>(t1) = foo(5);

-  BOOST_TEST(get<0>(t1) == 6);
-  BOOST_TEST(get<1>(t1) > 2.1f && get<1>(t1) < 2.3f);
-  BOOST_TEST(get<2>(t1) == false);
-  BOOST_TEST(get<3>(t1) == foo(5));
+  BOOST_CHECK(get<0>(t1) == 6);
+  BOOST_CHECK(get<1>(t1) > 2.1f && get<1>(t1) < 2.3f);
+  BOOST_CHECK(get<2>(t1) == false);
+  BOOST_CHECK(get<3>(t1) == foo(5));
 }

 // ----------------------------------------------------------------------------
@ -287,40 +269,36 @@ void
 make_tuple_test()
 {
  tuple<int, char> t1 = make_tuple(5, 'a');
-  BOOST_TEST(get<0>(t1) == 5);
-  BOOST_TEST(get<1>(t1) == 'a');
+  BOOST_CHECK(get<0>(t1) == 5);
+  BOOST_CHECK(get<1>(t1) == 'a');

  tuple<int, std::string> t2;
-  t2 = make_tuple((short int)2, std::string("Hi"));
-  BOOST_TEST(get<0>(t2) == 2);
-  BOOST_TEST(get<1>(t2) == "Hi");
+  t2 = boost::make_tuple((short int)2, std::string("Hi"));
+  BOOST_CHECK(get<0>(t2) == 2);
+  BOOST_CHECK(get<1>(t2) == "Hi");


-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
-    A a; B b;
+    A a = A(); B b;
    const A ca = a;
-    make_tuple(cref(a), b);
-    make_tuple(ref(a), b);
-    make_tuple(ref(a), cref(b));
+    make_tuple(boost::cref(a), b);
+    make_tuple(boost::ref(a), b);
+    make_tuple(boost::ref(a), boost::cref(b));

-    make_tuple(ref(ca));
-#endif
+    make_tuple(boost::ref(ca));
     
 // the result of make_tuple is assignable:
-   BOOST_TEST(make_tuple(2, 4, 6) == 
+   BOOST_CHECK(make_tuple(2, 4, 6) == 
             (make_tuple(1, 2, 3) = make_tuple(2, 4, 6)));

-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
+#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
    make_tuple("Donald", "Daisy"); // should work;
 #endif 
    //    std::make_pair("Doesn't","Work"); // fails

 // You can store a reference to a function in a tuple
-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
    tuple<void(&)()> adf(make_tuple_test);

    dummy(adf); // avoid warning for unused variable
-#endif
 
 // But make_tuple doesn't work 
 // with function references, since it creates a const qualified function type
@ -357,19 +335,19 @@ tie_test()
  foo c(5);

  tie(a, b, c) = make_tuple(2, 'a', foo(3));
-  BOOST_TEST(a == 2);
-  BOOST_TEST(b == 'a');
-  BOOST_TEST(c == foo(3));
+  BOOST_CHECK(a == 2);
+  BOOST_CHECK(b == 'a');
+  BOOST_CHECK(c == foo(3));

  tie(a, tuples::ignore, c) = make_tuple((short int)5, false, foo(5));
-  BOOST_TEST(a == 5);
-  BOOST_TEST(b == 'a');
-  BOOST_TEST(c == foo(5));
+  BOOST_CHECK(a == 5);
+  BOOST_CHECK(b == 'a');
+  BOOST_CHECK(c == foo(5));

 // testing assignment from std::pair
   int i, j; 
   tie (i, j) = std::make_pair(1, 2);
-   BOOST_TEST(i == 1 && j == 2);
+   BOOST_CHECK(i == 1 && j == 2);

   tuple<int, int, float> ta;
 #ifdef E11
@ -389,13 +367,13 @@ equality_test()
 {
  tuple<int, char> t1(5, 'a');
  tuple<int, char> t2(5, 'a');
-  BOOST_TEST(t1 == t2);
+  BOOST_CHECK(t1 == t2);

  tuple<int, char> t3(5, 'b');
  tuple<int, char> t4(2, 'a');
-  BOOST_TEST(t1 != t3);
-  BOOST_TEST(t1 != t4);
-  BOOST_TEST(!(t1 != t2));
+  BOOST_CHECK(t1 != t3);
+  BOOST_CHECK(t1 != t4);
+  BOOST_CHECK(!(t1 != t2));
 }


@ -409,14 +387,14 @@ ordering_test()
  tuple<int, float> t1(4, 3.3f);
  tuple<short, float> t2(5, 3.3f);
  tuple<long, double> t3(5, 4.4);
-  BOOST_TEST(t1 < t2);
-  BOOST_TEST(t1 <= t2);
-  BOOST_TEST(t2 > t1);
-  BOOST_TEST(t2 >= t1);
-  BOOST_TEST(t2 < t3);
-  BOOST_TEST(t2 <= t3);
-  BOOST_TEST(t3 > t2);
-  BOOST_TEST(t3 >= t2);
+  BOOST_CHECK(t1 < t2);
+  BOOST_CHECK(t1 <= t2);
+  BOOST_CHECK(t2 > t1);
+  BOOST_CHECK(t2 >= t1);
+  BOOST_CHECK(t2 < t3);
+  BOOST_CHECK(t2 <= t3);
+  BOOST_CHECK(t3 > t2);
+  BOOST_CHECK(t3 >= t2);

 }

@ -426,7 +404,6 @@ ordering_test()
 // ----------------------------------------------------------------------------
 void cons_test()
 {
-#if !defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION)
  using tuples::cons;
  using tuples::null_type;

@ -434,11 +411,10 @@ void cons_test()
  cons<const int, cons<volatile float, null_type> > b(2,a);
  int i = 3;
  cons<int&, cons<const int, cons<volatile float, null_type> > > c(i, b);
-  BOOST_TEST(make_tuple(3,2,1)==c);
+  BOOST_CHECK(make_tuple(3,2,1)==c);

  cons<char, cons<int, cons<float, null_type> > > x;
  dummy(x);
-#endif
 }

 // ----------------------------------------------------------------------------
@ -447,8 +423,8 @@ void cons_test()
 void const_tuple_test()
 {
  const tuple<int, float> t1(5, 3.3f);
-  BOOST_TEST(get<0>(t1) == 5);
-  BOOST_TEST(get<1>(t1) == 3.3f);
+  BOOST_CHECK(get<0>(t1) == 5);
+  BOOST_CHECK(get<1>(t1) == 3.3f);
 }

 // ----------------------------------------------------------------------------
@ -469,6 +445,26 @@ void tuple_length_test()

 }

+// ----------------------------------------------------------------------------
+// - testing swap -----------------------------------------------------------
+// ----------------------------------------------------------------------------
+void tuple_swap_test()
+{
+  tuple<int, float, double> t1(1, 2.0f, 3.0), t2(4, 5.0f, 6.0);
+  swap(t1, t2);
+  BOOST_CHECK(get<0>(t1) == 4);
+  BOOST_CHECK(get<1>(t1) == 5.0f);
+  BOOST_CHECK(get<2>(t1) == 6.0);
+  BOOST_CHECK(get<0>(t2) == 1);
+  BOOST_CHECK(get<1>(t2) == 2.0f);
+  BOOST_CHECK(get<2>(t2) == 3.0);
+
+  int i = 1,j = 2;
+  boost::tuple<int&> t3(i), t4(j);
+  swap(t3, t4);
+  BOOST_CHECK(i == 2);
+  BOOST_CHECK(j == 1);
+}



@ -489,6 +485,7 @@ int test_main(int, char *[]) {
  cons_test();
  const_tuple_test();
  tuple_length_test();
+  tuple_swap_test();
  return 0;
 }
Author	SHA1	Message	Date
Beman Dawes	d36f3f1d9d	Create branches/filesystem-v3 for v2 removal [SVN r77385]	2012-03-18 20:54:17 +00:00
Steven Watanabe	f904cd5d69	Revert [67111] (addition of boost/detail/iomanip.hpp) and all the commits that depend on it. ([68137], [68140], [68141], [68154], and [68165]). [SVN r68168]	2011-01-15 08:11:51 +00:00
Bryce Adelstein-Lelbach	2b30eb2225	Replacing the use of <iomanip> with <boost/detail/iomanip.hpp> across Boost. On Linux, GNU's libstdc++, which is the default stdlib for icc and clang, cannot parse the <iomanip> header in version 4.5+ (which thankfully neither compiler advises the use of yet), as it's original C++98-friendly implementation has been replaced with a gnu++0x implementation. <boost/detail/iomanip.hpp> is a portable implementation of <iomanip>, providing boost::detail::setfill, boost::detail::setbase, boost::detail::setw, boost::detail::setprecision, boost::detail::setiosflags and boost::detail::resetiosflags. [SVN r68140]	2011-01-14 02:35:58 +00:00
Steven Watanabe	9fbc9b4cc6	Handle width correctly. Fixes #5046 . [SVN r67751]	2011-01-07 15:22:13 +00:00
Steven Watanabe	9d64187c34	Add an element-wise swap for Boost.Tuple. Fixes #1324 [SVN r62686]	2010-06-09 19:30:35 +00:00
Steven Watanabe	7b6203747a	Use an inline function instead of a static object for boost::tuples::ignore, avoiding problems with the ODR and Borland precompiled headers. Fixes #2656 [SVN r62684]	2010-06-09 19:00:56 +00:00
Steven Watanabe	1b07c1a2d4	Reimplement boost::tuples::element and boost::tuples::get to make better use of memoization. Fixes #2130 [SVN r62683]	2010-06-09 18:28:16 +00:00
Steven Watanabe	052b3db77f	Make reading a tuple work with std::noskipws. Fixes #1920 [SVN r62678]	2010-06-09 17:45:24 +00:00
Troy D. Straszheim	d908a5d566	rm cmake from trunk. I'm not entirely sure this is necessary to satisfy the inspect script, but I'm not taking any chances, and it is easy to put back [SVN r56942]	2009-10-17 02:07:38 +00:00
Troy D. Straszheim	a75a686fae	Copyrights on CMakeLists.txt to keep them from clogging up the inspect reports. This is essentially the same commit as r55095 on the release branch. [SVN r55159]	2009-07-26 00:49:56 +00:00
Steven Watanabe	b7c2e00b64	Fix typos/markup problems in tuple docs. Fixes # [SVN r53218]	2009-05-23 18:59:02 +00:00
Steven Watanabe	e89ea11d63	Avoid ambiguites between std and boost components in C++0x mode. Fixes #3026 [SVN r53212]	2009-05-23 16:49:33 +00:00
Steven Watanabe	08277fd057	Allow printing an empty tuple [SVN r53211]	2009-05-23 16:39:13 +00:00
Daniel James	70e04d2965	Fix html. [SVN r51881]	2009-03-21 15:35:35 +00:00
Joel de Guzman	451415ebce	fixed tuples::length not having a specialization for const tuple<> and const null_type [SVN r51862]	2009-03-20 01:21:42 +00:00
Steven Watanabe	e9dc95ae93	Supress gcc warning. Fixes #2388 [SVN r51449]	2009-02-26 02:35:44 +00:00
Michael A. Jackson	1d1970d81d	Updating dependency information for modularized libraries. [SVN r49628]	2008-11-07 17:05:27 +00:00
Michael A. Jackson	4e452cb734	Updating CMake files to latest trunk. Added dependency information for regression tests and a few new macros for internal use. [SVN r49627]	2008-11-07 17:02:56 +00:00
Michael A. Jackson	776be602e5	Continuing merge of CMake build system files into trunk with the encouragement of Doug Gregor [SVN r49510]	2008-11-01 13:15:41 +00:00
Beman Dawes	a30a7f9604	With his kind permission, change Jaakko "Järvi" to "Jarvi" [SVN r46808]	2008-06-28 13:45:21 +00:00
Daniel James	62d366fa68	Link to people pages on the website, as they've been removed from the download. [SVN r43209]	2008-02-10 14:56:22 +00:00
Vladimir Prus	d08c9bfab1	Update to V2 [SVN r38530]	2007-08-08 19:42:04 +00:00
Jaakko Järvi	19b8004830	Fixed a typo. [SVN r36896]	2007-02-06 00:23:26 +00:00
Daniel James	0af5b76442	Merge fixed links from RC_1_34_0. [SVN r36660]	2007-01-07 23:50:56 +00:00
Beman Dawes	defe1c94d6	Add copyright, license [SVN r35905]	2006-11-07 19:11:57 +00:00
Ralf W. Grosse-Kunstleve	76c2151830	avoid g++ -Wall -W "unused parameter" warnings [SVN r32373]	2006-01-22 19:29:32 +00:00
Jaakko Järvi	2d13a60d05	applied patch by Rupert Kittinger, avoids potentially undefined behavior [SVN r30690]	2005-08-26 16:03:05 +00:00
John Maddock	9c6ef41dfe	Large patch from Ulrich Eckhardt to fix support for EVC++ 4. [SVN r30670]	2005-08-25 16:27:28 +00:00
Douglas Gregor	5686969287	Merged from 1.33.0 release [SVN r30540]	2005-08-12 13:02:37 +00:00
Stefan Slapeta	a17ce206f2	replaced BOOST_TEST [SVN r27057]	2005-02-03 13:55:45 +00:00
Joaquín M. López Muñoz	34690282fe	fixes in element<> for BCB compilers, with help from Tobias Schwinger [SVN r25763]	2004-10-18 06:03:18 +00:00
Aleksey Gurtovoy	bc3d37ec2b	c++boost.gif -> boost.png replacement [SVN r25573]	2004-10-05 15:45:52 +00:00
Douglas Gregor	eea1937afc	Converted to Boost Software License, Version 1.0 [SVN r24096]	2004-07-27 03:43:34 +00:00
Douglas Gregor	8820994ffd	Doug Gregor -> Douglas Gregor [SVN r24016]	2004-07-25 02:29:29 +00:00
Toon Knapen	045d761ab5	suppressed scoping the call get_class to the detail namespace [SVN r23113]	2004-06-17 13:51:33 +00:00
Toon Knapen	63c93b59b4	port to vacpp: added default template arguments explicitly (Joaquin M Lopez) removed member template keyword (Toon Knapen) [SVN r23109]	2004-06-17 07:01:13 +00:00
Dave Abrahams	78572fca7b	Bug fix for vc6 [SVN r20866]	2003-11-19 22:01:52 +00:00
Joel de Guzman	ad29f96e5b	updated swallow_assign constness bug [SVN r20520]	2003-10-28 09:42:43 +00:00
Joel de Guzman	9734556efe	made "ingnore" a const object to avoid linker errors [SVN r20449]	2003-10-21 23:25:17 +00:00
Jaakko Järvi	c8e03a518b	added praise for Dave for improving tuple support on non-partial template specialization compilers [SVN r19965]	2003-09-08 15:10:04 +00:00
Dave Abrahams	e4b869219b	More complete functionality for compilers without partial specialization. [SVN r19925]	2003-09-05 16:52:55 +00:00
Dave Abrahams	eef0e01c8d	Adjust for changed test library name [SVN r19924]	2003-09-05 16:18:53 +00:00
Jaakko Järvi	41d649b08c	cleaning up after previous commit [SVN r19688]	2003-08-18 19:35:29 +00:00
Jaakko Järvi	122bf636f5	getting rid of some library specific macros and using BOOST_NO_EXPLICIT_- FUNCTION_TEMPLATE_ARGUMENTS related helper macros from the config library [SVN r19687]	2003-08-18 19:33:47 +00:00
Jaakko Järvi	359eaeecbf	added tests to ensure correct constness behaviour [SVN r18871]	2003-06-26 15:19:01 +00:00
Jaakko Järvi	28e34eb757	fixed a typo [SVN r18386]	2003-05-12 14:51:42 +00:00
Dave Abrahams	5ea6623d49	restore from disk crash [SVN r18353]	2003-05-08 02:19:10 +00:00
Jaakko Järvi	d349450992	fixed a few links [SVN r18344]	2003-05-07 16:01:33 +00:00
Jaakko Järvi	8b4daa1385	patch of a patch [SVN r17706]	2003-03-03 16:45:55 +00:00
Jaakko Järvi	1972959fda	element<T>::type takes constness into consideration [SVN r17666]	2003-02-26 23:10:55 +00:00
Jaakko Järvi	496cc84960	a patch for borland [SVN r17660]	2003-02-26 16:04:56 +00:00
Jaakko Järvi	c1a28e5d81	typofix [SVN r17557]	2003-02-20 15:30:48 +00:00
Björn Karlsson	4d4fe0010f	Added copyright statement [SVN r17193]	2003-02-04 11:54:01 +00:00
Dave Abrahams	8992af95d1	Link bug workaround for MSVC and old Dec CXX [SVN r16342]	2002-11-20 13:17:52 +00:00
Jaakko Järvi	ae40fce7c9	added namespace qualifiers to make MIPS PRO happy [SVN r16033]	2002-10-31 18:14:29 +00:00
Jaakko Järvi	607b65a946	fixing a borland warning [SVN r15810]	2002-10-08 19:24:36 +00:00
Jaakko Järvi	2c213c8295	fix one borland warning [SVN r15808]	2002-10-08 18:43:52 +00:00
Jaakko Järvi	5b8506c39b	typo fixes [SVN r15652]	2002-10-02 16:51:43 +00:00
Jaakko Järvi	22f56bbe58	fixed Bemans name in a comment [SVN r15594]	2002-10-01 03:26:10 +00:00
Ralf W. Grosse-Kunstleve	fb8fa3c7b6	work-around for MIPSpro bug [SVN r15574]	2002-09-30 19:45:22 +00:00
Dave Abrahams	cc5a2ae388	Fixes which make it possible to declare with reference elements [SVN r15532]	2002-09-28 07:25:27 +00:00
Jaakko Järvi	4cd544f4c1	applied patch Markus Schöpflin, ::template replaced with ::BOOST_NESTED_TEMPLATE [SVN r15466]	2002-09-20 15:55:10 +00:00
Jaakko Järvi	74a2ab1242	changed jamfile includes from <include> to <sysinclude> [SVN r15305]	2002-09-13 16:26:12 +00:00
Jaakko Järvi	7896766f8f	a fix of a fix [SVN r15278]	2002-09-12 20:59:05 +00:00
Jaakko Järvi	0a33edd21d	workaround for isspace and metrowerks [SVN r15277]	2002-09-12 20:50:10 +00:00
Jaakko Järvi	53c1bb2c20	removed an extraneous include [SVN r14993]	2002-08-20 15:54:11 +00:00
Jaakko Järvi	ea8d71487d	workaround for boost test library problem [SVN r14992]	2002-08-20 15:51:36 +00:00
Jaakko Järvi	6a92d10f25	added a redirection index.html file [SVN r14898]	2002-08-15 18:26:17 +00:00
Jaakko Järvi	3570bdb6b6	fixed some warningns about unused variables, added Jamfile [SVN r14854]	2002-08-14 20:55:52 +00:00