Squashed 'third_party/boostorg/bind/' content from commit d67200b
Change-Id: I21573b0bd786f4e8482a7bb79a73b7574be6bdae
git-subtree-dir: third_party/boostorg/bind
git-subtree-split: d67200bd2a1f67135a4c677636546ec9615e21ea
diff --git a/doc/bind/acknowledgements.qbk b/doc/bind/acknowledgements.qbk
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+[/
+ / Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
+ / Copyright (c) 2003-2008 Peter Dimov
+ /
+ / 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)
+ /]
+
+[section:acknowledgements Acknowledgements]
+
+Earlier efforts that have influenced the library design:
+
+* The [@http://staff.cs.utu.fi/BL/ Binder Library] by Jaakko J\u00E4rvi;
+
+* The [@boost:/libs/lambda/index.html Lambda Library] (now part of Boost) by
+ Jaakko J\u00E4rvi and Gary Powell (the successor to the Binder Library);
+
+* [@http://more.sourceforge.net/ Extensions to the STL] by Petter Urkedal.
+
+Doug Gregor suggested that a visitor mechanism would allow `bind` to
+interoperate with a signal/slot library.
+
+John Maddock fixed a MSVC-specific conflict between `bind` and the
+[@boost:/libs/type_traits/index.html type traits library].
+
+Numerous improvements were suggested during the formal review period by Ross
+Smith, Richard Crossley, Jens Maurer, Ed Brey, and others. Review manager was
+Darin Adler.
+
+The precise semantics of `bind` were refined in discussions with Jaakko
+J\u00E4rvi.
+
+Dave Abrahams fixed a MSVC-specific conflict between `bind` and the
+[@boost:/libs/utility/iterator_adaptors.htm iterator adaptors library].
+
+Dave Abrahams modified `bind` and `mem_fn` to support `void` returns on
+deficient compilers.
+
+Mac Murrett contributed the "pascal" support enabled by
+`BOOST_BIND_ENABLE_PASCAL`.
+
+The alternative `bind(type<R>(), f, ...)` syntax was inspired by a discussion
+with Dave Abrahams and Joel de Guzman.
+
+This documentation was ported to Quickbook by Agustín Bergé.
+
+[endsect]
diff --git a/doc/bind/examples.qbk b/doc/bind/examples.qbk
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+[/
+ / Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
+ / Copyright (c) 2003-2008 Peter Dimov
+ /
+ / 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)
+ /]
+
+[section:examples Examples]
+
+[section Using bind with standard algorithms]
+
+ class image;
+
+ class animation
+ {
+ public:
+ void advance(int ms);
+ bool inactive() const;
+ void render(image & target) const;
+ };
+
+ std::vector<animation> anims;
+
+ template<class C, class P> void erase_if(C & c, P pred)
+ {
+ c.erase(std::remove_if(c.begin(), c.end(), pred), c.end());
+ }
+
+ void update(int ms)
+ {
+ std::for_each(anims.begin(), anims.end(), boost::bind(&animation::advance, _1, ms));
+ erase_if(anims, boost::mem_fn(&animation::inactive));
+ }
+
+ void render(image & target)
+ {
+ std::for_each(anims.begin(), anims.end(), boost::bind(&animation::render, _1, boost::ref(target)));
+ }
+
+[endsect]
+
+[section Using bind with Boost.Function]
+
+ class button
+ {
+ public:
+ ``[@boost:/libs/function/index.html `boost::function`]``<void()> onClick;
+ };
+
+ class player
+ {
+ public:
+ void play();
+ void stop();
+ };
+
+ button playButton, stopButton;
+ player thePlayer;
+
+ void connect()
+ {
+ playButton.onClick = boost::bind(&player::play, &thePlayer);
+ stopButton.onClick = boost::bind(&player::stop, &thePlayer);
+ }
+
+[endsect]
+
+[endsect]
diff --git a/doc/bind/faq.qbk b/doc/bind/faq.qbk
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+[/
+ / Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
+ / Copyright (c) 2003-2008 Peter Dimov
+ /
+ / 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)
+ /]
+
+[section:faq Frequently Asked Questions]
+
+[section Why doesn't this compile?]
+
+See the dedicated [link bind.troubleshooting Troubleshooting section].
+
+[endsect]
+
+[section Why does this compile? It should not.]
+
+Probably because you used the general `bind<R>(f, ...)` syntax, thereby
+instructing `bind` to not "inspect" f to detect arity and return type errors.
+
+[endsect]
+
+[section:Q_forms What is the difference between `bind(f, ...)` and `bind<R>(f, ...)`?]
+
+The first form instructs `bind` to inspect the type of `f` in order to
+determine its arity (number of arguments) and return type. Arity errors will
+be detected at "bind time". This syntax, of course, places some requirements
+on `f`. It must be a function, function pointer, member function pointer, or a
+function object that defines a nested type named `result_type`; in short, it
+must be something that `bind` can recognize.
+
+The second form instructs `bind` to not attempt to recognize the type of `f`.
+It is generally used with function objects that do not, or cannot, expose
+`result_type`, but it can also be used with nonstandard functions. For example,
+the current implementation does not automatically recognize variable-argument
+functions like `printf`, so you will have to use `bind<int>(printf, ...)`.
+Note that an alternative `bind(type<R>(), f, ...)` syntax is supported for
+portability reasons.
+
+Another important factor to consider is that compilers without partial
+template specialization or function template partial ordering support cannot
+handle the first form when `f` is a function object, and in most cases will
+not handle the second form when `f` is a function (pointer) or a member
+function pointer.
+
+[endsect]
+
+[section Does bind work with Windows API functions?]
+
+Yes, if you [link bind.implementation.stdcall `#define
+BOOST_BIND_ENABLE_STDCALL`]. An alternative is to treat the function as a
+[link bind.purpose.with_function_objects generic function object] and use the
+`bind<R>(f, ...)` syntax.
+
+[endsect]
+
+[section Does bind work with COM methods?]
+
+Yes, if you [link bind.implementation.stdcall `#define
+BOOST_MEM_FN_ENABLE_STDCALL`].
+
+[endsect]
+
+[section Does bind work with Mac toolbox functions?]
+
+Yes, if you [link bind.implementation.stdcall `#define
+BOOST_BIND_ENABLE_PASCAL`]. An alternative is to treat the function as a [link
+bind.purpose.with_function_objects generic function object] and use the
+`bind<R>(f, ...)` syntax.
+
+[endsect]
+
+[section Does bind work with extern "C" functions?]
+
+Sometimes. On some platforms, pointers to extern "C" functions are equivalent
+to "ordinary" function pointers, so they work fine. Other platforms treat them
+as different types. A platform-specific implementation of `bind` is expected
+to handle the problem transparently; this implementation does not. As usual,
+the workaround is to treat the function as a [link
+bind.purpose.with_function_objects generic function object] and use the
+`bind<R>(f, ...)` syntax.
+
+[endsect]
+
+[section Why doesn't bind automatically recognize nonstandard functions?]
+
+Non-portable extensions, in general, should default to off to prevent vendor
+lock-in. Had the [link bind.implementation.stdcall appropriate macros] been
+defined automatically, you could have accidentally taken advantage of them
+without realizing that your code is, perhaps, no longer portable. In addition,
+some compilers have the option to make `__stdcall` (`__fastcall`) their
+default calling convention, in which case no separate support would be
+necessary.
+
+[endsect]
+
+[endsect]
diff --git a/doc/bind/implementation.qbk b/doc/bind/implementation.qbk
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--- /dev/null
+++ b/doc/bind/implementation.qbk
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+[/
+ / Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
+ / Copyright (c) 2003-2008 Peter Dimov
+ /
+ / 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)
+ /]
+
+[section:implementation Implementation]
+
+[section Files]
+
+* [@../../../../boost/bind.hpp boost/bind.hpp] (main header)
+* [@../../../../boost/bind/bind_cc.hpp boost/bind/bind_cc.hpp] (used by `bind.hpp`, do not include directly)
+* [@../../../../boost/bind/bind_mf_cc.hpp boost/bind/bind_mf_cc.hpp] (used by `bind.hpp`, do not include directly)
+* [@../../../../boost/bind/bind_template.hpp boost/bind/bind_template.hpp] (used by `bind.hpp`, do not include directly)
+* [@../../../../boost/bind/arg.hpp boost/bind/arg.hpp] (defines the type of the placeholder arguments)
+* [@../../../../boost/bind/placeholders.hpp boost/bind/placeholders.hpp] (defines the `_1`, `_2`, ... `_9` placeholders)
+* [@../../../../boost/bind/apply.hpp boost/bind/apply.hpp] (`apply` helper function object)
+* [@../../../../boost/bind/protect.hpp boost/bind/protect.hpp] (`protect` helper function)
+* [@../../../../boost/bind/make_adaptable.hpp boost/bind/make_adaptable.hpp] (`make_adaptable` helper function)
+* [@../../test/bind_test.cpp libs/bind/test/bind_test.cpp] (test)
+* [@../../bind_as_compose.cpp libs/bind/bind_as_compose.cpp] (function composition example)
+* [@../../bind_visitor.cpp libs/bind/bind_visitor.cpp] (visitor example)
+* [@../../test/bind_stdcall_test.cpp libs/bind/test/bind_stdcall_test.cpp] (test with `__stdcall` functions)
+* [@../../test/bind_stdcall_mf_test.cpp libs/bind/test/bind_stdcall_mf_test.cpp] (test with `__stdcall` member functions)
+* [@../../test/bind_fastcall_test.cpp libs/bind/test/bind_fastcall_test.] (test with `__fastcall` functions)
+* [@../../test/bind_fastcall_mf_test.cpp libs/bind/test/bind_fastcall_mf_test.cpp] (test with `__fastcall` member functions)
+
+[endsect]
+
+[section Dependencies]
+
+* [@boost:/libs/config/config.htm Boost.Config]
+* [@boost:/libs/core/doc/html/core/ref.html boost/ref.hpp]
+* [@boost:/libs/bind/mem_fn.html boost/mem_fn.hpp]
+* [@boost:/boost/type.hpp boost/type.hpp]
+
+[endsect]
+
+[section Number of Arguments]
+
+This implementation supports function objects with up to nine arguments. This
+is an implementation detail, not an inherent limitation of the design.
+
+[endsect]
+
+[section:stdcall `__stdcall`, `__cdecl`, `__fastcall`, and `pascal` Support]
+
+Some platforms allow several types of (member) functions that differ by their
+calling convention (the rules by which the function is invoked: how are
+arguments passed, how is the return value handled, and who cleans up the stack
+ - if any.)
+
+For example, Windows API functions and COM interface member functions use a
+calling convention known as `__stdcall`. Borland VCL components use
+`__fastcall`. Mac toolbox functions use a `pascal` calling convention.
+
+To use `bind` with `__stdcall` functions, `#define` the macro
+`BOOST_BIND_ENABLE_STDCALL` before including `<boost/bind.hpp>`.
+
+To use `bind` with `__stdcall` member functions, `#define` the macro
+`BOOST_MEM_FN_ENABLE_STDCALL` before including `<boost/bind.hpp>`.
+
+To use `bind` with `__fastcall` functions, `#define` the macro
+`BOOST_BIND_ENABLE_FASTCALL` before including `<boost/bind.hpp>`.
+
+To use `bind` with `__fastcall` member functions, `#define` the macro
+`BOOST_MEM_FN_ENABLE_FASTCALL` before including `<boost/bind.hpp>`.
+
+To use `bind` with `pascal` functions, `#define` the macro
+`BOOST_BIND_ENABLE_PASCAL` before including `<boost/bind.hpp>`.
+
+To use `bind` with `__cdecl` member functions, `#define` the macro
+`BOOST_MEM_FN_ENABLE_CDECL` before including `<boost/bind.hpp>`.
+
+[*It is best to define these macros in the project options, via `-D` on the
+command line, or as the first line in the translation unit (.cpp file) where
+`bind` is used.] Not following this rule can lead to obscure errors when a
+header includes `bind.hpp` before the macro has been defined.
+
+/[Note:/ this is a non-portable extension. It is not part of the interface./]/
+
+/[Note:/ Some compilers provide only minimal support for the `__stdcall` keyword./]/
+
+[endsect]
+
+[section `visit_each` support]
+
+Function objects returned by `bind` support the experimental and undocumented,
+as of yet, `visit_each` enumeration interface.
+
+See [@../../bind_visitor.cpp bind_visitor.cpp] for an example.
+
+[endsect]
+
+[endsect]
diff --git a/doc/bind/interface.qbk b/doc/bind/interface.qbk
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--- /dev/null
+++ b/doc/bind/interface.qbk
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+[/
+ / Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
+ / Copyright (c) 2003-2008 Peter Dimov
+ /
+ / 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)
+ /]
+
+[section:interface Interface]
+
+[section:synopsys Synopsis]
+
+ namespace boost
+ {
+ // no arguments
+
+ template<class R, class F> ``/unspecified-1/`` ``[link bind_1 `bind`]``(F f);
+
+ template<class F> ``/unspecified-1-1/`` ``[link bind_1_1 `bind`]``(F f);
+
+ template<class R> ``/unspecified-2/`` ``[link bind_2 `bind`]``(R (*f) ());
+
+ // one argument
+
+ template<class R, class F, class A1> ``/unspecified-3/`` ``[link bind_3 `bind`]``(F f, A1 a1);
+
+ template<class F, class A1> ``/unspecified-3-1/`` ``[link bind_3_1 `bind`]``(F f, A1 a1);
+
+ template<class R, class B1, class A1> ``/unspecified-4/`` ``[link bind_4 `bind`]``(R (*f) (B1), A1 a1);
+
+ template<class R, class T, class A1> ``/unspecified-5/`` ``[link bind_5 `bind`]``(R (T::*f) (), A1 a1);
+
+ template<class R, class T, class A1> ``/unspecified-6/`` ``[link bind_6 `bind`]``(R (T::*f) () const, A1 a1);
+
+ template<class R, class T, class A1> ``/unspecified-6-1/`` ``[link bind_6_1 `bind`]``(R T::*f, A1 a1);
+
+ // two arguments
+
+ template<class R, class F, class A1, class A2> ``/unspecified-7/`` ``[link bind_7 `bind`]``(F f, A1 a1, A2 a2);
+
+ template<class F, class A1, class A2> ``/unspecified-7-1/`` ``[link bind_7_1 `bind`]``(F f, A1 a1, A2 a2);
+
+ template<class R, class B1, class B2, class A1, class A2> ``/unspecified-8/`` ``[link bind_8 `bind`]``(R (*f) (B1, B2), A1 a1, A2 a2);
+
+ template<class R, class T, class B1, class A1, class A2> ``/unspecified-9/`` ``[link bind_9 `bind`]``(R (T::*f) (B1), A1 a1, A2 a2);
+
+ template<class R, class T, class B1, class A1, class A2> ``/unspecified-10/`` ``[link bind_10 `bind`]``(R (T::*f) (B1) const, A1 a1, A2 a2);
+
+ // implementation defined number of additional overloads for more arguments
+ }
+
+ namespace
+ {
+ ``/unspecified-placeholder-type-1/`` _1;
+
+ ``/unspecified-placeholder-type-2/`` _2;
+
+ ``/unspecified-placeholder-type-3/`` _3;
+
+ // implementation defined number of additional placeholder definitions
+ }
+
+[endsect]
+
+[section Common requirements]
+
+All /unspecified-N/ types returned by `bind` are /CopyConstructible/. /unspecified-N/`::result_type` is defined as the return type of /unspecified-N/`::operator()`.
+
+All /unspecified-placeholder-N/ types are /CopyConstructible/. Their copy constructors do not throw exceptions.
+
+[endsect]
+
+[section Common definitions]
+
+The function \u03BC`(x, v1, v2, ..., vm)`, where `m` is a nonnegative integer, is
+defined as:
+
+* `x.get()`, when `x` is of type [@boost:/libs/core/doc/html/core/ref.html `boost::reference_wrapper`]`<T>` for some type
+ `T`;
+
+* `vk`, when `x` is (a copy of) the placeholder /_k/ for some positive integer
+ /k/;
+
+* `x(v1, v2, ..., vm)` when `x` is (a copy of) a function object returned by
+ `bind`;
+
+* `x` otherwise.
+
+[endsect]
+
+[section `bind`]
+
+[#bind_1]
+
+ template<class R, class F> ``/unspecified-1/`` bind(F f)
+
+* /Returns:/ A function object \u03BB such that the expression \u03BB`(v1, v2, ..., vm)`
+is equivalent to `f()`, implicitly converted to `R`.
+
+* /Throws:/ Nothing unless the copy constructor of `F` throws an exception.
+
+[#bind_1_1]
+
+ template<class F> ``/unspecified-1-1/`` bind(F f)
+
+* /Effects:/ Equivalent to `bind<typename F::result_type, F>(f)`.
+
+* /Notes:/ Implementations are allowed to infer the return type of `f` via other
+means as an extension, without relying on the `result_type` member.
+
+[#bind_2]
+
+ template<class R> ``/unspecified-2/`` bind(R (*f) ())
+
+* /Returns:/ A function object \u03BB such that the expression \u03BB`(v1, v2, ..., vm)`
+is equivalent to `f()`.
+
+* /Throws:/ Nothing.
+
+[#bind_3]
+
+ template<class R, class F, class A1> ``/unspecified-3/`` bind(F f, A1 a1)
+
+* /Returns:/ A function object \u03BB such that the expression \u03BB`(v1, v2, ..., vm)`
+is equivalent to `f(`\u03BC`(a1, v1, v2, ..., vm))`, implicitly converted to `R`.
+
+* /Throws:/ Nothing unless the copy constructors of `F` or `A1` throw an exception.
+
+[#bind_3_1]
+
+ template<class F, class A1> ``/unspecified-3-1/`` bind(F f, A1 a1)
+
+* /Effects:/ Equivalent to `bind<typename F::result_type, F, A1>(f, a1)`.
+
+* /Notes:/ Implementations are allowed to infer the return type of `f` via other
+means as an extension, without relying on the `result_type` member.
+
+[#bind_4]
+
+ template<class R, class B1, class A1> ``/unspecified-4/`` bind(R (*f) (B1), A1 a1)
+
+* /Returns:/ A function object \u03BB such that the expression \u03BB`(v1, v2, ..., vm)`
+is equivalent to `f(`\u03BC`(a1, v1, v2, ..., vm))`.
+
+* /Throws:/ Nothing unless the copy constructor of `A1` throws an exception.
+
+[#bind_5]
+
+ template<class R, class T, class A1> ``/unspecified-5/`` bind(R (T::*f) (), A1 a1)
+
+* /Effects:/ Equivalent to `bind<R>(`[@boost:/libs/bind/mem_fn.html `boost::mem_fn`]`(f), a1)`.
+
+[#bind_6]
+
+ template<class R, class T, class A1> ``/unspecified-6/`` bind(R (T::*f) () const, A1 a1)
+
+* /Effects:/ Equivalent to `bind<R>(`[@boost:/libs/bind/mem_fn.html `boost::mem_fn`]`(f), a1)`.
+
+[#bind_6_1]
+
+ template<class R, class T, class A1> ``/unspecified-6-1/`` bind(R T::*f, A1 a1)
+
+* /Effects:/ Equivalent to `bind<R>(`[@boost:/libs/bind/mem_fn.html `boost::mem_fn`]`(f), a1)`.
+
+[#bind_7]
+
+ template<class R, class F, class A1, class A2> ``/unspecified-7/`` bind(F f, A1 a1, A2 a2)
+
+* /Returns:/ A function object \u03BB such that the expression \u03BB`(v1, v2, ..., vm)`
+is equivalent to `f(`\u03BC`(a1, v1, v2, ..., vm), `\u03BC`(a2, v1, v2, ..., vm))`,
+implicitly converted to `R`.
+
+* /Throws:/ Nothing unless the copy constructors of `F`, `A1` or `A2` throw an
+exception.
+
+[#bind_7_1]
+
+ template<class F, class A1, class A2> ``/unspecified-7-1/`` bind(F f, A1 a1, A2 a2)
+
+* /Effects:/ Equivalent to `bind<typename F::result_type, F, A1, A2>(f, a1, a2)`.
+
+* /Notes:/ Implementations are allowed to infer the return type of `f` via other
+means as an extension, without relying on the `result_type` member.
+
+[#bind_8]
+
+ template<class R, class B1, class B2, class A1, class A2> ``/unspecified-8/`` bind(R (*f) (B1, B2), A1 a1, A2 a2)
+
+* /Returns:/ A function object \u03BB such that the expression \u03BB`(v1, v2, ..., vm)`
+is equivalent to `f(`\u03BC`(a1, v1, v2, ..., vm), `\u03BC`(a2, v1, v2, ..., vm))`.
+
+* /Throws:/ Nothing unless the copy constructors of `A1` or `A2` throw an exception.
+
+[#bind_9]
+
+ template<class R, class T, class B1, class A1, class A2> ``/unspecified-9/`` bind(R (T::*f) (B1), A1 a1, A2 a2)
+
+* /Effects:/ Equivalent to `bind<R>(`[@boost:/libs/bind/mem_fn.html `boost::mem_fn`]`(f), a1, a2)`.
+
+[#bind_10]
+
+ template<class R, class T, class B1, class A1, class A2> ``/unspecified-10/`` bind(R (T::*f) (B1) const, A1 a1, A2 a2)
+
+* /Effects:/ Equivalent to `bind<R>(`[@boost:/libs/bind/mem_fn.html `boost::mem_fn`]`(f), a1, a2)`.
+
+[endsect]
+
+[section Additional overloads]
+
+Implementations are allowed to provide additional `bind` overloads in order to
+support more arguments or different function pointer variations.
+
+[endsect]
+
+[endsect]
diff --git a/doc/bind/limitations.qbk b/doc/bind/limitations.qbk
new file mode 100644
index 0000000..a3b2305
--- /dev/null
+++ b/doc/bind/limitations.qbk
@@ -0,0 +1,37 @@
+[/
+ / Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
+ / Copyright (c) 2003-2008 Peter Dimov
+ /
+ / 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)
+ /]
+
+[section:limitations Limitations]
+
+As a general rule, the function objects generated by `bind` take their
+arguments by reference and cannot, therefore, accept non-const temporaries or
+literal constants. This is an inherent limitation of the C++ language in its
+current (2003) incarnation, known as the [@http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2002/n1385.htm forwarding problem].
+(It will be fixed in the next standard, usually called C++0x.)
+
+The library uses signatures of the form
+
+ template<class T> void f(T & t);
+
+to accept arguments of arbitrary types and pass them on unmodified. As noted,
+this does not work with non-const r-values.
+
+On compilers that support partial ordering of function templates, a possible
+solution is to add an overload:
+
+ template<class T> void f(T & t);
+ template<class T> void f(T const & t);
+
+Unfortunately, this requires providing 512 overloads for nine arguments, which
+is impractical. The library chooses a small subset: for up to two arguments,
+it provides the const overloads in full, for arities of three and more it
+provides a single additional overload with all of the arguments taken by const
+reference. This covers a reasonable portion of the use cases.
+
+[endsect]
diff --git a/doc/bind/purpose.qbk b/doc/bind/purpose.qbk
new file mode 100644
index 0000000..06422a2
--- /dev/null
+++ b/doc/bind/purpose.qbk
@@ -0,0 +1,273 @@
+[/
+ / Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
+ / Copyright (c) 2003-2008 Peter Dimov
+ /
+ / 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)
+ /]
+
+[section:purpose Purpose]
+
+`boost::bind` is a generalization of the standard functions `std::bind1st` and
+`std::bind2nd`. It supports arbitrary function objects, functions, function
+pointers, and member function pointers, and is able to bind any argument to a
+specific value or route input arguments into arbitrary positions. `bind` does
+not place any requirements on the function object; in particular, it does not
+need the `result_type`, `first_argument_type` and `second_argument_type`
+standard typedefs.
+
+[section Using bind with functions and function pointers]
+
+Given these definitions:
+
+ int f(int a, int b)
+ {
+ return a + b;
+ }
+
+ int g(int a, int b, int c)
+ {
+ return a + b + c;
+ }
+
+`bind(f, 1, 2)` will produce a "nullary" function object that takes no
+arguments and returns `f(1, 2)`. Similarly, `bind(g, 1, 2, 3)()` is equivalent
+ `to g(1, 2, 3)`.
+
+It is possible to selectively bind only some of the arguments.
+`bind(f, _1, 5)(x)` is equivalent to `f(x, 5)`; here `_1` is a /placeholder/
+argument that means "substitute with the first input argument."
+
+For comparison, here is the same operation expressed with the standard library
+primitives:
+
+ std::bind2nd(std::ptr_fun(f), 5)(x);
+
+`bind` covers the functionality of `std::bind1st` as well:
+
+ std::bind1st(std::ptr_fun(f), 5)(x); // f(5, x)
+ bind(f, 5, _1)(x); // f(5, x)
+
+`bind` can handle functions with more than two arguments, and its argument
+substitution mechanism is more general:
+
+ bind(f, _2, _1)(x, y); // f(y, x)
+ bind(g, _1, 9, _1)(x); // g(x, 9, x)
+ bind(g, _3, _3, _3)(x, y, z); // g(z, z, z)
+ bind(g, _1, _1, _1)(x, y, z); // g(x, x, x)
+
+Note that, in the last example, the function object produced by
+`bind(g, _1, _1, _1)` does not contain references to any arguments beyond the
+first, but it can still be used with more than one argument. Any extra
+arguments are silently ignored, just like the first and the second argument
+are ignored in the third example.
+
+The arguments that `bind` takes are copied and held internally by the returned
+function object. For example, in the following code:
+
+ int i = 5;
+ bind(f, i, _1);
+
+a copy of the value of `i` is stored into the function object.
+[@boost:/libs/core/doc/html/core/ref.html `boost::ref`] and
+[@boost:/libs/core/doc/html/core/ref.html `boost::cref`] can be used to make the function
+object store a reference to an object, rather than a copy:
+
+ int i = 5;
+ bind(f, ref(i), _1);
+ bind(f, cref(i), _1);
+
+[endsect]
+
+[section:with_function_objects Using bind with function objects]
+
+`bind` is not limited to functions; it accepts arbitrary function objects. In
+the general case, the return type of the generated function object's
+`operator()` has to be specified explicitly (without a `typeof` operator the
+return type cannot be inferred):
+
+ struct F
+ {
+ int operator()(int a, int b) { return a - b; }
+ bool operator()(long a, long b) { return a == b; }
+ };
+
+ F f;
+ int x = 104;
+ bind<int>(f, _1, _1)(x); // f(x, x), i.e. zero
+
+Some compilers have trouble with the `bind<R>(f, ...)` syntax. For portability
+reasons, an alternative way to express the above is supported:
+
+ boost::bind(boost::type<int>(), f, _1, _1)(x);
+
+Note, however, that the alternative syntax is provided only as a workaround.
+It is not part of the interface.
+
+When the function object exposes a nested type named `result_type`, the explicit
+return type can be omitted:
+
+ int x = 8;
+ bind(std::less<int>(), _1, 9)(x); // x < 9
+
+/[Note:/ the ability to omit the return type is not available on all compilers./]/
+
+By default, `bind` makes a copy of the provided function object. `boost::ref`
+and `boost::cref` can be used to make it store a reference to the function
+object, rather than a copy. This can be useful when the function object is
+non-copyable, expensive to copy, or contains state; of course, in this case
+the programmer is expected to ensure that the function object is not destroyed
+while it's still being used.
+
+ struct F2
+ {
+ int s;
+
+ typedef void result_type;
+ void operator()(int x) { s += x; }
+ };
+
+ F2 f2 = { 0 };
+ int a[] = { 1, 2, 3 };
+
+ std::for_each(a, a+3, bind(ref(f2), _1));
+
+ assert(f2.s == 6);
+
+[endsect]
+
+[section Using bind with pointers to members]
+
+Pointers to member functions and pointers to data members are not function
+objects, because they do not support `operator()`. For convenience, `bind`
+accepts member pointers as its first argument, and the behavior is as if
+[@boost:/libs/bind/mem_fn.html `boost::mem_fn`] has been used to convert the
+member pointer into a function object. In other words, the expression
+
+ bind(&X::f, args)
+
+is equivalent to
+
+ bind<R>(``[@boost:/libs/bind/mem_fn.html `mem_fn`]``(&X::f), args)
+
+where `R` is the return type of `X::f` (for member functions) or the type of
+the member (for data members.)
+
+/[Note:/ `mem_fn` creates function objects that are able to accept a pointer,
+a reference, or a smart pointer to an object as its first argument; for
+additional information, see the `mem_fn`
+[@boost:/libs/bind/mem_fn.html documentation]./]/
+
+Example:
+
+ struct X
+ {
+ bool f(int a);
+ };
+
+ X x;
+ shared_ptr<X> p(new X);
+ int i = 5;
+
+ bind(&X::f, ref(x), _1)(i); // x.f(i)
+ bind(&X::f, &x, _1)(i); // (&x)->f(i)
+ bind(&X::f, x, _1)(i); // (internal copy of x).f(i)
+ bind(&X::f, p, _1)(i); // (internal copy of p)->f(i)
+
+The last two examples are interesting in that they produce "self-contained"
+function objects. `bind(&X::f, x, _1)` stores a copy of `x`.
+`bind(&X::f, p, _1)` stores a copy of `p`, and since `p` is a
+[@boost:/libs/smart_ptr/doc/html/smart_ptr.html#shared_ptr `boost::shared_ptr`], the function
+object retains a reference to its instance of `X` and will remain valid even
+when `p` goes out of scope or is `reset()`.
+
+[endsect]
+
+[section Using nested binds for function composition]
+
+Some of the arguments passed to `bind` may be nested /bind expressions/
+themselves:
+
+ bind(f, bind(g, _1))(x); // f(g(x))
+
+The inner /bind expressions/ are evaluated, in unspecified order, before the
+outer `bind` when the function object is called; the results of the evaluation
+are then substituted in their place when the outer `bind` is evaluated. In the
+example above, when the function object is called with the argument list `(x)`,
+`bind(g, _1)(x)` is evaluated first, yielding `g(x)`, and then
+`bind(f, g(x))(x)` is evaluated, yielding the final result `f(g(x))`.
+
+This feature of `bind` can be used to perform function composition. See
+[@../../bind_as_compose.cpp bind_as_compose.cpp] for an example that
+demonstrates how to use `bind` to achieve similar functionality to
+[@http://www.boost.org/doc/libs/1_31_0/libs/compose/index.htm Boost.Compose].
+
+Note that the first argument - the bound function object - is not evaluated,
+even when it's a function object that is produced by `bind` or a /placeholder/
+argument, so the example below does not work as expected:
+
+ typedef void (*pf)(int);
+
+ std::vector<pf> v;
+ std::for_each(v.begin(), v.end(), bind(_1, 5));
+
+The desired effect can be achieved via a helper function object `apply` that
+applies its first argument, as a function object, to the rest of its argument
+list. For convenience, an implementation of `apply` is provided in the
+[@../../../../boost/bind/apply.hpp apply.hpp] header file. Here is how the
+modified version of the previous example looks like:
+
+ typedef void (*pf)(int);
+
+ std::vector<pf> v;
+ std::for_each(v.begin(), v.end(), bind(apply<void>(), _1, 5));
+
+Although the first argument is, by default, not evaluated, all other arguments
+are. Sometimes it is necessary not to evaluate arguments subsequent to the
+first, even when they are nested /bind subexpressions/. This can be achieved
+with the help of another function object, `protect`, that masks the type so
+that `bind` does not recognize and evaluate it. When called, protect simply
+forwards the argument list to the other function object unmodified.
+
+The header [@../../../../boost/bind/protect.hpp protect.hpp] contains an
+implementation of `protect`. To `protect` a bind function object from
+evaluation, use `protect(bind(f, ...))`.
+
+[endsect]
+
+[section Overloaded operators (new in Boost 1.33)]
+
+For convenience, the function objects produced by `bind` overload the logical
+not operator `!` and the relational and logical operators `==, !=, <, <=, >,
+>=, &&, ||`.
+
+`!bind(f, ...)` is equivalent to `bind(logical_not(), bind(f, ...))`, where
+`logical_not` is a function object that takes one argument `x` and returns
+`!x`.
+
+`bind(f, ...) op x`, where _op_ is a relational or logical operator, is
+equivalent to `bind(relation(), bind(f, ...), x)`, where `relation` is a
+function object that takes two arguments `a` and `b` and returns `a op b`.
+
+What this means in practice is that you can conveniently negate the result of
+`bind`:
+
+ std::remove_if(first, last, !bind(&X::visible, _1)); // remove invisible objects
+
+and compare the result of `bind` against a value:
+
+ std::find_if(first, last, bind(&X::name, _1) == "Peter");
+ std::find_if(first, last, bind(&X::name, _1) == "Peter" || bind(&X::name, _1) == "Paul");
+
+against a /placeholder/:
+
+ bind(&X::name, _1) == _2
+
+or against another /bind expression/:
+
+ std::sort(first, last, bind(&X::name, _1) < bind(&X::name, _2)); // sort by name
+
+[endsect]
+
+[endsect]
diff --git a/doc/bind/troubleshooting.qbk b/doc/bind/troubleshooting.qbk
new file mode 100644
index 0000000..21a7b37
--- /dev/null
+++ b/doc/bind/troubleshooting.qbk
@@ -0,0 +1,268 @@
+[/
+ / Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
+ / Copyright (c) 2003-2008 Peter Dimov
+ /
+ / 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)
+ /]
+
+[section:troubleshooting Troubleshooting]
+
+[section Incorrect number of arguments]
+
+In a `bind(f, a1, a2, ..., aN)` expression, the function object `f` must be
+able to take exactly N arguments. This error is normally detected at "bind
+time"; in other words, the compilation error is reported on the line where
+`bind()` is invoked:
+
+ int f(int, int);
+
+ int main()
+ {
+ boost::bind(f, 1); // error, f takes two arguments
+ boost::bind(f, 1, 2); // OK
+ }
+
+A common variation of this error is to forget that member functions have an
+implicit "this" argument:
+
+ struct X
+ {
+ int f(int);
+ }
+
+ int main()
+ {
+ boost::bind(&X::f, 1); // error, X::f takes two arguments
+ boost::bind(&X::f, _1, 1); // OK
+ }
+
+[endsect]
+
+[section The function object cannot be called with the specified arguments]
+
+As in normal function calls, the function object that is bound must be
+compatible with the argument list. The incompatibility will usually be
+detected by the compiler at "call time" and the result is typically an error
+in `bind.hpp` on a line that looks like:
+
+ return f(a[a1_], a[a2_]);
+
+An example of this kind of error:
+
+ int f(int);
+
+ int main()
+ {
+ boost::bind(f, "incompatible"); // OK so far, no call
+ boost::bind(f, "incompatible")(); // error, "incompatible" is not an int
+ boost::bind(f, _1); // OK
+ boost::bind(f, _1)("incompatible"); // error, "incompatible" is not an int
+ }
+
+[endsect]
+
+[section Accessing an argument that does not exist]
+
+The placeholder `_N` selects the argument at position `N` from the argument
+list passed at "call time." Naturally, it is an error to attempt to access
+beyond the end of this list:
+
+ int f(int);
+
+ int main()
+ {
+ boost::bind(f, _1); // OK
+ boost::bind(f, _1)(); // error, there is no argument number 1
+ }
+
+The error is usually reported in `bind.hpp`, at a line similar to:
+
+ return f(a[a1_]);
+
+When emulating `std::bind1st(f, a)`, a common mistake of this category is to
+type `bind(f, a, _2)` instead of the correct `bind(f, a, _1)`.
+
+[endsect]
+
+[section Inappropriate use of `bind(f, ...)`]
+
+The `bind(f, a1, a2, ..., aN)` [link bind.faq.Q_forms form] causes automatic
+recognition of the type of `f`. It will not work with arbitrary function
+objects; `f` must be a function or a member function pointer.
+
+It is possible to use this form with function objects that define
+`result_type`, but only on compilers that support partial specialization and
+partial ordering. In particular, MSVC up to version 7.0 does not support this
+syntax for function objects.
+
+[endsect]
+
+[section Inappropriate use of `bind<R>(f, ...)`]
+
+The `bind<R>(f, a1, a2, ..., aN)` [link bind.faq.Q_forms form] supports
+arbitrary function objects.
+
+It is possible (but not recommended) to use this form with functions or member
+function pointers, but only on compilers that support partial ordering. In
+particular, MSVC up to version 7.0 does not fully support this syntax for
+functions and member function pointers.
+
+[endsect]
+
+[section Binding a nonstandard function]
+
+By default, the `bind(f, a1, a2, ..., aN)` [link bind.faq.Q_forms form]
+recognizes "ordinary" C++ functions and function pointers. [link
+bind.implementation.stdcall Functions that use a different calling convention],
+or variable-argument functions such as `std::printf`, do not work. The general
+`bind<R>(f, a1, a2, ..., aN)` [link bind.faq.Q_forms form] works with
+nonstandard functions.
+
+On some platforms, extern "C" functions, like `std::strcmp`, are not
+recognized by the short form of `bind`.
+
+See also [link bind.implementation.stdcall `__stdcall` and `pascal` Support].
+
+[endsect]
+
+[section Binding an overloaded function]
+
+An attempt to bind an overloaded function usually results in an error, as
+there is no way to tell which overload was meant to be bound. This is a common
+problem with member functions with two overloads, const and non-const, as in
+this simplified example:
+
+ struct X
+ {
+ int& get();
+ int const& get() const;
+ };
+
+ int main()
+ {
+ boost::bind(&X::get, _1);
+ }
+
+The ambiguity can be resolved manually by casting the (member) function
+pointer to the desired type:
+
+ int main()
+ {
+ boost::bind(static_cast< int const& (X::*) () const >(&X::get), _1);
+ }
+
+Another, arguably more readable, alternative is to introduce a temporary
+variable:
+
+ int main()
+ {
+ int const& (X::*get) () const = &X::get;
+ boost::bind(get, _1);
+ }
+
+[endsect]
+
+[section Modeling STL function object concepts]
+
+The function objects that are produced by `bind` do not model the STL
+[@http://www.sgi.com/tech/stl/UnaryFunction.html /Unary Function/] or
+[@http://www.sgi.com/tech/stl/BinaryFunction.html /Binary Function/] concepts,
+even when the function objects are unary or binary operations, because the
+function object types are missing public typedefs `result_type` and
+`argument_type` or `first_argument_type` and `second_argument_type`. In cases
+where these typedefs are desirable, however, the utility function
+`make_adaptable` can be used to adapt unary and binary function objects to
+these concepts. This allows unary and binary function objects resulting from
+`bind` to be combined with STL templates such as
+[@http://en.cppreference.com/w/cpp/utility/functional/unary_negate `std::unary_negate`]
+and [@http://en.cppreference.com/w/cpp/utility/functional/binary_negate `std::binary_negate`].
+
+The `make_adaptable` function is defined in [@../../../../boost/bind/make_adaptable.hpp
+`<boost/bind/make_adaptable.hpp>`], which must be included explicitly in
+addition to [@../../../../boost/bind.hpp `<boost/bind.hpp>`]:
+
+ #include <boost/bind/make_adaptable.hpp>
+
+ template <class R, class F> ``/unspecified-type/`` make_adaptable(F f);
+
+ template<class R, class A1, class F> ``/unspecified-unary-functional-type/`` make_adaptable(F f);
+
+ template<class R, class A1, class A2, class F> ``/unspecified-binary-functional-type/`` make_adaptable(F f);
+
+ template<class R, class A1, class A2, class A3, class F> ``/unspecified-ternary-functional-type/`` make_adaptable(F f);
+
+ template<class R, class A1, class A2, class A3, class A4, class F> ``/unspecified-4-ary-functional-type/`` make_adaptable(F f);
+
+This example shows how to use `make_adaptable` to make a predicate for "is not a space":
+
+ typedef char char_t;
+ std::locale loc("");
+ const std::ctype<char_t>& ct = std::use_facet<std::ctype<char_t> >(loc);
+
+ auto isntspace = std::not1(boost::make_adaptable<bool, char_t>(boost::bind(&std::ctype<char_t>::is, &ct, std::ctype_base::space, _1)));
+
+In this example, `bind` creates the "is a space" (unary) predicate. It is then
+passed to `make_adaptable` so that a function object modeling the /Unary
+Function/ concept can be created, serving as the argument to
+[@http://en.cppreference.com/w/cpp/utility/functional/not1 `std::not1`].
+
+[endsect]
+
+[section `const` in signatures]
+
+Some compilers, including MSVC 6.0 and Borland C++ 5.5.1, have problems with
+the top-level `const` in function signatures:
+
+ int f(int const);
+
+ int main()
+ {
+ boost::bind(f, 1); // error
+ }
+
+Workaround: remove the `const` qualifier from the argument.
+
+[endsect]
+
+[section MSVC specific: `using boost::bind;`]
+
+On MSVC (up to version 7.0), when `boostbind` is brought into scope with an
+using declaration:
+
+ using boost::bind;
+
+the syntax `bind<R>(f, ...)` does not work. Workaround: either use the
+qualified name, `boost::bind`, or use an using directive instead:
+
+ using namespace boost;
+
+[endsect]
+
+[section MSVC specific: class templates shadow function templates]
+
+On MSVC (up to version 7.0), a nested class template named `bind` will shadow
+the function template `boost::bind`, breaking the `bind<R>(f, ...)`syntax.
+Unfortunately, some libraries contain nested class templates named `bind`
+(ironically, such code is often an MSVC specific workaround.)
+
+The workaround is to use the alternative `bind(type<R>(), f, ...)` syntax.
+
+[endsect]
+
+[section MSVC specific: `...` in signatures treated as type]
+
+MSVC (up to version 7.0) treats the ellipsis in a variable argument function
+(such as `std::printf`) as a type. Therefore, it will accept the (incorrect in
+the current implementation) form:
+
+ bind(printf, "%s\n", _1);
+
+and will reject the correct version:
+
+ bind<int>(printf, "%s\n", _1);
+
+[endsect]
+
+[endsect]