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// file : odb/semantics/relational/elements.hxx
// copyright : Copyright (c) 2009-2011 Code Synthesis Tools CC
// license : GNU GPL v3; see accompanying LICENSE file
#ifndef ODB_SEMANTICS_RELATIONAL_ELEMENTS_HXX
#define ODB_SEMANTICS_RELATIONAL_ELEMENTS_HXX
#include <map>
#include <list>
#include <vector>
#include <string>
#include <cassert>
#include <cutl/container/graph.hxx>
#include <cutl/container/pointer-iterator.hxx>
#include <cutl/compiler/context.hxx>
#include <odb/semantics/relational/name.hxx>
namespace semantics
{
namespace relational
{
using namespace cutl;
using std::string;
using container::graph;
using container::pointer_iterator;
using compiler::context;
//
//
class node;
class edge;
//
//
class edge: public context
{
public:
virtual
~edge () {}
public:
template <typename X>
bool
is_a () const
{
return dynamic_cast<X const*> (this) != 0;
}
};
//
//
class node: public context
{
public:
virtual
~node () {}
// Return name of the node.
//
virtual string
kind () const = 0;
public:
template <typename X>
bool
is_a () const
{
return dynamic_cast<X const*> (this) != 0;
}
// Sink functions that allow extensions in the form of one-way
// edges.
//
public:
void
add_edge_right (edge&)
{
}
};
//
//
template <typename N>
class scope;
template <typename N>
class nameable;
//
//
template <typename N>
class names: public edge
{
public:
typedef N name_type;
typedef relational::scope<N> scope_type;
typedef relational::nameable<N> nameable_type;
name_type const&
name () const
{
return name_;
}
scope_type&
scope () const
{
return *scope_;
}
nameable_type&
nameable () const
{
return *nameable_;
}
public:
names (name_type const& name): name_ (name) {}
void
set_left_node (scope_type& n)
{
scope_ = &n;
}
void
set_right_node (nameable_type& n)
{
nameable_ = &n;
}
protected:
name_type name_;
scope_type* scope_;
nameable_type* nameable_;
};
typedef names<uname> unames;
typedef names<qname> qnames;
//
//
template <typename N>
class nameable: public virtual node
{
public:
typedef N name_type;
typedef relational::names<N> names_type;
typedef relational::scope<N> scope_type;
name_type const&
name () const
{
return named_->name ();
}
scope_type&
scope () const
{
return named ().scope ();
}
names_type&
named () const
{
return *named_;
}
public:
// Id identifies the C++ node (e.g., a class or a data member) that
// this model node corresponds to. The ids are not necessarily unique
// (e.g., there can be a table and an index with the same id that
// correspond to a container member). However, in any given scope,
// the {id,typeid} must be unique. This becomes important when we
// try to find correspondance between nodes during model diff'ing.
//
nameable (string const& id): id_ (id), named_ (0) {}
void
add_edge_right (names_type& e)
{
assert (named_ == 0);
named_ = &e;
}
using node::add_edge_right;
private:
string id_;
names_type* named_;
};
typedef nameable<uname> unameable;
typedef nameable<qname> qnameable;
//
//
struct duplicate_name
{
template <typename N>
duplicate_name (relational::scope<N>&,
relational::nameable<N>& orig,
relational::nameable<N>& dup);
node& scope;
node& orig;
node& dup;
string orig_name;
string dup_name;
};
template <typename N>
class scope: public virtual node
{
protected:
typedef N name_type;
typedef relational::names<N> names_type;
typedef relational::nameable<N> nameable_type;
typedef std::list<names_type*> names_list;
typedef std::map<name_type, typename names_list::iterator> names_map;
typedef
std::map<names_type const*, typename names_list::iterator>
names_iterator_map;
public:
typedef pointer_iterator<typename names_list::iterator> names_iterator;
typedef
pointer_iterator<typename names_list::const_iterator>
names_const_iterator;
public:
// Iteration.
//
names_iterator
names_begin ()
{
return names_.begin ();
}
names_iterator
names_end ()
{
return names_.end ();
}
names_const_iterator
names_begin () const
{
return names_.begin ();
}
names_const_iterator
names_end () const
{
return names_.end ();
}
// Find.
//
names_iterator
find (name_type const&);
names_const_iterator
find (name_type const&) const;
names_iterator
find (names_type const&);
names_const_iterator
find (names_type const&) const;
public:
scope ()
: first_key_ (names_.end ())
{
}
void
add_edge_left (names_type&);
private:
names_list names_;
names_map names_map_;
names_iterator_map iterator_map_;
typename names_list::iterator first_key_;
};
typedef scope<uname> uscope;
typedef scope<qname> qscope;
}
}
#include <odb/semantics/relational/elements.txx>
#endif // ODB_SEMANTICS_RELATIONAL_ELEMENTS_HXX
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