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// file : xsd-frontend/semantic-graph/elements.cxx
// copyright : Copyright (c) 2005-2014 Code Synthesis Tools CC
// license : GNU GPL v2 + exceptions; see accompanying LICENSE file
#include <algorithm>
#include <cutl/compiler/type-info.hxx>
#include <xsd-frontend/semantic-graph/elements.hxx>
#include <xsd-frontend/semantic-graph/annotation.hxx>
using namespace std;
namespace XSDFrontend
{
namespace SemanticGraph
{
// Node
//
Annotation& Node::
annotation ()
{
return annotates_->annotation ();
}
// Type
//
void Type::
remove_edge_left (Arguments& a)
{
ArgumentsSet::iterator i (arguments_.find (&a));
assert (i != arguments_.end ());
arguments_.erase (i);
}
// Specialization
//
void Specialization::
remove_edge_right (Arguments& a)
{
// The number of entries should be small so linear search will do.
//
Argumented::iterator i (
std::find (argumented_.begin (), argumented_.end (), &a));
assert (i != argumented_.end ());
argumented_.erase (i);
}
using compiler::type_info;
namespace
{
// Edge
//
struct EdgeInit
{
EdgeInit ()
{
type_info ti (typeid (Edge));
insert (ti);
}
} edge_init_;
// Node
//
struct NodeInit
{
NodeInit ()
{
type_info ti (typeid (Node));
insert (ti);
}
} node_init_;
// Names
//
struct NamesInit
{
NamesInit ()
{
type_info ti (typeid (Names));
ti.add_base (typeid (Edge));
insert (ti);
}
} names_init_;
// Nameable
//
struct NameableInit
{
NameableInit ()
{
type_info ti (typeid (Nameable));
ti.add_base (typeid (Node));
insert (ti);
}
} nameable_init_;
// Scope
//
struct ScopeInit
{
ScopeInit ()
{
type_info ti (typeid (Scope));
ti.add_base (typeid (Nameable));
insert (ti);
}
} scope_init_;
// Type
//
struct TypeInit
{
TypeInit ()
{
type_info ti (typeid (Type));
ti.add_base (typeid (Nameable));
insert (ti);
}
} type_init_;
// Instance
//
struct InstanceInit
{
InstanceInit ()
{
type_info ti (typeid (Instance));
ti.add_base (typeid (Nameable));
insert (ti);
}
} instance_init_;
// Belongs
//
struct BelongsInit
{
BelongsInit ()
{
type_info ti (typeid (Belongs));
ti.add_base (typeid (Edge));
insert (ti);
}
} belongs_init_;
// Inherits
//
struct InheritsInit
{
InheritsInit ()
{
type_info ti (typeid (Inherits));
ti.add_base (typeid (Edge));
insert (ti);
}
} inherits_init_;
// Extends
//
struct ExtendsInit
{
ExtendsInit ()
{
type_info ti (typeid (Extends));
ti.add_base (typeid (Inherits));
insert (ti);
}
} extends_init_;
// Restricts
//
struct RestrictsInit
{
RestrictsInit ()
{
type_info ti (typeid (Restricts));
ti.add_base (typeid (Inherits));
insert (ti);
}
} restricts_init_;
// BelongsToNamespace
//
struct BelongsToNamespaceInit
{
BelongsToNamespaceInit ()
{
type_info ti (typeid (BelongsToNamespace));
ti.add_base (typeid (Edge));
insert (ti);
}
} belongs_to_namespace_init_;
// Member
//
struct MemberInit
{
MemberInit ()
{
type_info ti (typeid (Member));
ti.add_base (typeid (Instance));
insert (ti);
}
} member_init_;
// Specialization
//
struct SpecializationInit
{
SpecializationInit ()
{
type_info ti (typeid (Specialization));
ti.add_base (typeid (Type));
insert (ti);
}
} specialization_init_;
// Arguments
//
struct ArgumentsInit
{
ArgumentsInit ()
{
type_info ti (typeid (Arguments));
ti.add_base (typeid (Edge));
insert (ti);
}
} arguments_init_;
/*
// Contains
//
struct ContainsInit
{
ContainsInit ()
{
type_info ti (typeid (Contains));
ti.add_base (typeid (Edge));
insert (ti);
}
} contains_init_;
// Container
//
struct ContainerInit
{
ContainerInit ()
{
type_info ti (typeid (Container));
ti.add_base (typeid (Node));
insert (ti);
}
} container_init_;
*/
// AnyType
//
struct AnyTypeInit
{
AnyTypeInit ()
{
type_info ti (typeid (AnyType));
ti.add_base (typeid (SemanticGraph::Type));
insert (ti);
}
} any_type_init_;
// AnySimpleType
//
struct AnySimpleTypeInit
{
AnySimpleTypeInit ()
{
type_info ti (typeid (AnySimpleType));
ti.add_base (typeid (Type));
insert (ti);
}
} any_simple_type_init_;
}
// Instance
//
Type& Instance::
type () const
{
return belongs ().type ();
}
}
}
// Path
//
std::wostream&
operator<< (std::wostream& os, XSDFrontend::SemanticGraph::Path const& path)
{
return os << path.string ().c_str ();
}
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