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271 lines
11 KiB
C++
271 lines
11 KiB
C++
// (C) Copyright Jeremy Siek 2004
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// Distributed under the Boost Software License, Version 1.0. (See
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// accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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#ifndef BOOST_PROPERTY_HPP
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#define BOOST_PROPERTY_HPP
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#include <boost/mpl/bool.hpp>
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#include <boost/mpl/if.hpp>
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#include <boost/mpl/has_xxx.hpp>
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#include <boost/utility/enable_if.hpp>
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#include <boost/type_traits.hpp>
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#include <boost/static_assert.hpp>
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namespace boost {
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struct no_property {};
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template <class Tag, class T, class Base = no_property>
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struct property {
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typedef Base next_type;
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typedef Tag tag_type;
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typedef T value_type;
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property(const T& v = T()) : m_value(v) { }
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property(const T& v, const Base& b) : m_value(v), m_base(b) { }
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// copy constructor and assignment operator will be generated by compiler
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T m_value;
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Base m_base;
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};
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// Kinds of properties
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namespace graph_introspect_detail {
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BOOST_MPL_HAS_XXX_TRAIT_DEF(kind)
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template <typename T, bool Cond> struct get_kind {typedef void type;};
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template <typename T> struct get_kind<T, true> {typedef typename T::kind type;};
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}
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// Having a default is to make this trait work for any type, not just valid
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// properties, to work around VC++ <= 10 bugs related to SFINAE in
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// compressed_sparse_row_graph's get functions and similar
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template <class PropertyTag>
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struct property_kind:
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graph_introspect_detail::get_kind<PropertyTag, graph_introspect_detail::has_kind<PropertyTag>::value>
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{};
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// Some standard properties defined independently of Boost.Graph:
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enum vertex_all_t {vertex_all};
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enum edge_all_t {edge_all};
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enum graph_all_t {graph_all};
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enum vertex_bundle_t {vertex_bundle};
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enum edge_bundle_t {edge_bundle};
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enum graph_bundle_t {graph_bundle};
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// Code to look up one property in a property list:
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template <typename PList, typename PropName, typename Enable = void>
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struct lookup_one_property_internal {BOOST_STATIC_CONSTANT(bool, found = false); typedef void type;};
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// Special-case properties (vertex_all, edge_all, graph_all)
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#define BGL_ALL_PROP(tag) \
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template <typename T> \
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struct lookup_one_property_internal<T, tag> { \
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BOOST_STATIC_CONSTANT(bool, found = true); \
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typedef T type; \
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static T& lookup(T& x, tag) {return x;} \
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static const T& lookup(const T& x, tag) {return x;} \
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}; \
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template <typename Tag, typename T, typename Base> \
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struct lookup_one_property_internal<property<Tag, T, Base>, tag> { /* Avoid ambiguity */ \
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BOOST_STATIC_CONSTANT(bool, found = true); \
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typedef property<Tag, T, Base> type; \
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static type& lookup(type& x, tag) {return x;} \
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static const type& lookup(const type& x, tag) {return x;} \
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};
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BGL_ALL_PROP(vertex_all_t)
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BGL_ALL_PROP(edge_all_t)
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BGL_ALL_PROP(graph_all_t)
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#undef BGL_ALL_PROP
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// *_bundled; these need to be macros rather than inheritance to resolve ambiguities
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#define BGL_DO_ONE_BUNDLE_TYPE(kind) \
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template <typename T> \
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struct lookup_one_property_internal<T, BOOST_JOIN(kind, _bundle_t)> { \
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BOOST_STATIC_CONSTANT(bool, found = true); \
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typedef T type; \
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static T& lookup(T& x, BOOST_JOIN(kind, _bundle_t)) {return x;} \
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static const T& lookup(const T& x, BOOST_JOIN(kind, _bundle_t)) {return x;} \
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}; \
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\
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template <typename Tag, typename T, typename Base> \
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struct lookup_one_property_internal<property<Tag, T, Base>, BOOST_JOIN(kind, _bundle_t)>: lookup_one_property_internal<Base, BOOST_JOIN(kind, _bundle_t)> { \
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private: \
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typedef lookup_one_property_internal<Base, BOOST_JOIN(kind, _bundle_t)> base_type; \
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public: \
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template <typename BundleTag> \
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static typename lazy_enable_if_c<(base_type::found && (is_same<BundleTag, BOOST_JOIN(kind, _bundle_t)>::value)), \
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add_reference<typename base_type::type> >::type \
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lookup(property<Tag, T, Base>& p, BundleTag) {return base_type::lookup(p.m_base, BOOST_JOIN(kind, _bundle_t)());} \
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template <typename BundleTag> \
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static typename lazy_enable_if_c<(base_type::found && (is_same<BundleTag, BOOST_JOIN(kind, _bundle_t)>::value)), \
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add_reference<const typename base_type::type> >::type \
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lookup(const property<Tag, T, Base>& p, BundleTag) {return base_type::lookup(p.m_base, BOOST_JOIN(kind, _bundle_t)());} \
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}; \
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BGL_DO_ONE_BUNDLE_TYPE(vertex)
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BGL_DO_ONE_BUNDLE_TYPE(edge)
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BGL_DO_ONE_BUNDLE_TYPE(graph)
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#undef BGL_DO_ONE_BUNDLE_TYPE
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// Normal old-style properties; second case also handles chaining of bundled property accesses
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template <typename Tag, typename T, typename Base>
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struct lookup_one_property_internal<boost::property<Tag, T, Base>, Tag> {
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BOOST_STATIC_CONSTANT(bool, found = true);
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typedef property<Tag, T, Base> prop;
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typedef T type;
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template <typename U>
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static typename enable_if<is_same<prop, U>, T&>::type
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lookup(U& prop, const Tag&) {return prop.m_value;}
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template <typename U>
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static typename enable_if<is_same<prop, U>, const T&>::type
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lookup(const U& prop, const Tag&) {return prop.m_value;}
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};
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template <typename Tag, typename T, typename Base, typename PropName>
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struct lookup_one_property_internal<boost::property<Tag, T, Base>, PropName>: lookup_one_property_internal<Base, PropName> {
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private:
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typedef lookup_one_property_internal<Base, PropName> base_type;
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public:
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template <typename PL>
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static typename lazy_enable_if<is_same<PL, boost::property<Tag, T, Base> >,
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add_reference<typename base_type::type> >::type
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lookup(PL& prop, const PropName& tag) {
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return base_type::lookup(prop.m_base, tag);
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}
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template <typename PL>
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static typename lazy_enable_if<is_same<PL, boost::property<Tag, T, Base> >,
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add_reference<const typename base_type::type> >::type
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lookup(const PL& prop, const PropName& tag) {
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return base_type::lookup(prop.m_base, tag);
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}
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};
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// Pointer-to-member access to bundled properties
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#ifndef BOOST_GRAPH_NO_BUNDLED_PROPERTIES
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template <typename T, typename TMaybeBase, typename R>
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struct lookup_one_property_internal<T, R TMaybeBase::*, typename enable_if<is_base_of<TMaybeBase, T> >::type> {
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BOOST_STATIC_CONSTANT(bool, found = true);
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typedef R type;
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static R& lookup(T& x, R TMaybeBase::*ptr) {return x.*ptr;}
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static const R& lookup(const T& x, R TMaybeBase::*ptr) {return x.*ptr;}
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};
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#endif
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// Version of above handling const property lists properly
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template <typename T, typename Tag>
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struct lookup_one_property: lookup_one_property_internal<T, Tag> {};
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template <typename T, typename Tag>
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struct lookup_one_property<const T, Tag> {
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BOOST_STATIC_CONSTANT(bool, found = (lookup_one_property_internal<T, Tag>::found));
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typedef const typename lookup_one_property_internal<T, Tag>::type type;
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template <typename U>
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static typename lazy_enable_if<is_same<T, U>,
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add_reference<const typename lookup_one_property_internal<T, Tag>::type> >::type
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lookup(const U& p, Tag tag) {
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return lookup_one_property_internal<T, Tag>::lookup(p, tag);
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}
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};
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// The BGL properties specialize property_kind and
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// property_num, and use enum's for the Property type (see
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// graph/properties.hpp), but the user may want to use a class
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// instead with a nested kind type and num. Also, we may want to
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// switch BGL back to using class types for properties at some point.
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template <class P>
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struct has_property : boost::mpl::true_ {};
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template <>
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struct has_property<no_property> : boost::mpl::false_ {};
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} // namespace boost
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#include <boost/pending/detail/property.hpp>
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namespace boost {
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template <class PropertyList, class Tag>
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struct property_value: lookup_one_property<PropertyList, Tag> {};
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template <class PropertyList, class Tag>
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inline typename lookup_one_property<PropertyList, Tag>::type&
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get_property_value(PropertyList& p, Tag tag) {
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return lookup_one_property<PropertyList, Tag>::lookup(p, tag);
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}
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template <class PropertyList, class Tag>
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inline const typename lookup_one_property<PropertyList, Tag>::type&
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get_property_value(const PropertyList& p, Tag tag) {
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return lookup_one_property<PropertyList, Tag>::lookup(p, tag);
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}
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namespace detail {
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/** This trait returns true if T is no_property. */
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template <typename T>
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struct is_no_property
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: mpl::bool_<is_same<T, no_property>::value>
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{ };
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template <typename PList, typename Tag>
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class lookup_one_property_f;
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template <typename PList, typename Tag, typename F> struct lookup_one_property_f_result;
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template <typename PList, typename Tag>
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struct lookup_one_property_f_result<PList, Tag, const lookup_one_property_f<PList, Tag>(PList)> {
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typedef typename lookup_one_property<PList, Tag>::type type;
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};
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template <typename PList, typename Tag>
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struct lookup_one_property_f_result<PList, Tag, const lookup_one_property_f<PList, Tag>(PList&)> {
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typedef typename lookup_one_property<PList, Tag>::type& type;
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};
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template <typename PList, typename Tag>
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struct lookup_one_property_f_result<PList, Tag, const lookup_one_property_f<PList, Tag>(const PList&)> {
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typedef const typename lookup_one_property<PList, Tag>::type& type;
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};
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template <typename PList, typename Tag>
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class lookup_one_property_f {
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Tag tag;
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public:
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lookup_one_property_f(Tag tag): tag(tag) {}
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template <typename F> struct result: lookup_one_property_f_result<PList, Tag, F> {};
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typename lookup_one_property_f_result<PList, Tag, const lookup_one_property_f(PList&)>::type
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operator()(PList& pl) const {
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return lookup_one_property<PList, Tag>::lookup(pl, tag);
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}
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};
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} // namespace detail
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namespace detail {
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// Stuff for directed_graph and undirected_graph to skip over their first
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// vertex_index and edge_index properties when providing vertex_all and
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// edge_all; make sure you know the exact structure of your properties if you
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// use there.
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struct remove_first_property {
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template <typename F>
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struct result {
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typedef typename boost::function_traits<F>::arg1_type a1;
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typedef typename boost::remove_reference<a1>::type non_ref;
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typedef typename non_ref::next_type nx;
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typedef typename boost::mpl::if_<boost::is_const<non_ref>, boost::add_const<nx>, nx>::type with_const;
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typedef typename boost::add_reference<with_const>::type type;
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};
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template <typename Prop>
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typename Prop::next_type& operator()(Prop& p) const {return p.m_base;}
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template <typename Prop>
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const typename Prop::next_type& operator()(const Prop& p) const {return p.m_base;}
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};
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}
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} // namesapce boost
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#endif /* BOOST_PROPERTY_HPP */
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