Update compliance section to AsciiDoc

doc/unordered/compliance.adoc

@@ -1,2 +1,116 @@
 [#compliance]
 = Standard Compliance
+
+:idprefix: compliance_
+
+:cpp: C++
+
+The intent of Boost.Unordered is to implement a close (but imperfect)
+implementation of the {cpp}17 standard, that will work with {cpp}98 upwards.
+The wide compatibility does mean some comprimises have to be made.
+With a compiler and library that fully support {cpp}11, the differences should
+be minor.
+
+== Move emulation
+
+Support for move semantics is implemented using Boost.Move. If rvalue
+references are available it will use them, but if not it uses a close,
+but imperfect emulation. On such compilers:
+
+* Non-copyable objects can be stored in the containers.
+  They can be constructed in place using `emplace`, or if they support
+  Boost.Move, moved into place.
+* The containers themselves are not movable.
+* Argument forwarding is not perfect.
+
+== Use of allocators
+
+{cpp}11 introduced a new allocator system. It's backwards compatible due to
+the lax requirements for allocators in the old standard, but might need
+some changes for allocators which worked with the old versions of the
+unordered containers.
+It uses a traits class, `allocator_traits` to handle the allocator
+adding extra functionality, and making some methods and types optional.
+During development a stable release of
+`allocator_traits` wasn't available so an internal partial implementation
+is always used in this version. Hopefully a future version will use the
+standard implementation where available.
+
+The member functions `construct`, `destroy` and `max_size` are now
+optional, if they're not available a fallback is used.
+A full implementation of `allocator_traits` requires sophisticated
+member function detection so that the fallback is used whenever the
+member function call is not well formed.
+This requires support for SFINAE expressions, which are available on
+GCC from version 4.4 and Clang.
+
+On other compilers, there's just a test to see if the allocator has
+a member, but no check that it can be called. So rather than using a
+fallback there will just be a compile error.
+
+`propagate_on_container_copy_assignment`,
+`propagate_on_container_move_assignment`,
+`propagate_on_container_swap` and
+`select_on_container_copy_construction` are also supported.
+Due to imperfect move emulation, some assignments might check
+`propagate_on_container_copy_assignment` on some compilers and
+`propagate_on_container_move_assignment` on others.
+
+== Construction/Destruction using allocators
+
+The following support is required for full use of {cpp}11 style
+construction/destruction:
+
+* Variadic templates.
+* Piecewise construction of `std::pair`.
+* Either `std::allocator_traits` or expression SFINAE.
+
+This is detected using Boost.Config. The macro
+`BOOST_UNORDERED_CXX11_CONSTRUCTION` will be set to 1 if it is found, or 0
+otherwise.
+
+When this is the case `allocator_traits::construct` and
+`allocator_traits::destroy` will always be used, apart from when piecewise
+constructing a `std::pair` using `boost::tuple` (see <<compliance_pairs,below>>), but that should be easily avoided.
+
+When support is not available `allocator_traits::construct` and
+`allocator_traits::destroy` are never called.
+
+== Pointer Traits
+
+`pointer_traits` aren't used. Instead, pointer types are obtained from
+rebound allocators, this can cause problems if the allocator can't be
+used with incomplete types. If `const_pointer` is not defined in the
+allocator, `boost::pointer_to_other<pointer, const value_type>::type`
+is used to obtain a const pointer.
+
+== Pairs
+
+Since the containers use `std::pair` they're limited to the version
+from the current standard library. But since {cpp}11 ``std::pair``'s
+`piecewise_construct` based constructor is very useful, `emplace`
+emulates it with a `piecewise_construct` in the `boost::unordered`
+namespace. So for example, the following will work:
+
+[source,c++]
+----
+boost::unordered_multimap<std::string, std::complex> x;
+
+x.emplace(
+    boost::unordered::piecewise_construct,
+    boost::make_tuple("key"), boost::make_tuple(1, 2));
+----
+
+Older drafts of the standard also supported variadic constructors
+for `std::pair`, where the first argument would be used for the
+first part of the pair, and the remaining for the second part.
+
+== Miscellaneous
+
+When swapping, `Pred` and `Hash` are not currently swapped by calling
+`swap`, their copy constructors are used. As a consequence when swapping
+an exception may be thrown from their copy constructor.
+
+Variadic constructor arguments for `emplace` are only used when both
+rvalue references and variadic template parameters are available.
+Otherwise `emplace` can only take up to 10 constructors arguments.