path: root/TAO/TAO_IDL/include/utl_scope.h

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 */

#ifndef _UTL_SCOPE_UTL_SCOPE_HH
#define _UTL_SCOPE_UTL_SCOPE_HH

// UTL_Scope - Provide scoping mechanism
//
// This is the base class for name scoping. Each entity which can
// be directly contained in a naming scope has an add() function
// defined for it. The functions defined on the base scoping class
// all return FALSE. Each subclass of UTL_Scope should
// define its own add() functions for those types which are legal
// in that context. Then, for those types for which no local functions
// have been defined the function on the base class will be called to
// return FALSE.
//
// The "AST_" classes may redefine add() functions to implement any
// name binding mechanisms needed for their own functionality. It is
// the responsibility of those functions then to call the add()
// function defined in the parent "AST_" class.

/*
** DEPENDENCIES: ast_decl.hh, utl_scoped_name.hh
**
** USE: Included from ast.hh
*/

#include	"idl_fwd.h"
#include	"idl_narrow.h"
#include	"ast_decl.h"
#include	"ast_expression.h"
#include	"utl_scoped_name.h"

// Forward declaration of active iterator for UTL_Scope
class UTL_ScopeActiveIterator;

class	UTL_Scope : public virtual COMMON_Base
{
public:
  // Enum to denote the kind of iteration desired
  enum ScopeIterationKind {
      IK_both		// Iterate through both decls and local types
    , IK_decls		// Iterate only through decls
    , IK_localtypes	// Iterate only through local types
  };

  // Operations

  // Constructor(s)
  UTL_Scope();
  UTL_Scope(AST_Decl::NodeType nt);
  virtual ~UTL_Scope() {}

  // Scope Management Protocol
  virtual AST_PredefinedType	*add_predefined_type(AST_PredefinedType	*t);
  virtual AST_Module		*add_module(AST_Module			*m);
  virtual AST_Interface		*add_interface(AST_Interface		*i);
  virtual AST_InterfaceFwd	*add_interface_fwd(AST_InterfaceFwd	*i);
  virtual AST_Constant		*add_constant(AST_Constant		*c);
  virtual AST_Exception		*add_exception(AST_Exception		*e);
  virtual AST_Attribute		*add_attribute(AST_Attribute		*a);
  virtual AST_Operation		*add_operation(AST_Operation		*o);
  virtual AST_Argument		*add_argument(AST_Argument		*a);
  virtual AST_Union		*add_union(AST_Union			*u);
  virtual AST_UnionBranch	*add_union_branch(AST_UnionBranch	*b);
  virtual AST_Structure		*add_structure(AST_Structure		*s);
  virtual AST_Field		*add_field(AST_Field			*f);
  virtual AST_Enum		*add_enum(AST_Enum			*e);
  virtual AST_EnumVal		*add_enum_val(AST_EnumVal		*v);
  virtual AST_Typedef		*add_typedef(AST_Typedef		*t);
  virtual UTL_StrList		*add_context(UTL_StrList		*c);
  virtual UTL_NameList		*add_exceptions(UTL_NameList		*e);
  virtual AST_Sequence		*add_sequence(AST_Sequence		*s);
  virtual AST_String		*add_string(AST_String			*s);
  virtual AST_Array		*add_array(AST_Array			*a);

  // Call back end add_XXX functions for this scope
  virtual AST_Decl 		*call_add();

  // Data Accessors
  AST_Decl::NodeType scope_node_type()
  {
    return pd_scope_node_type;
  }

  // Narrowing
  DEF_NARROW_METHODS0(UTL_Scope);
  DEF_NARROW_FROM_SCOPE(UTL_Scope);

  // AST Dumping
  virtual void			dump(ostream &o);

  // Other Operations

  // Name Lookup Mechanism
  virtual AST_Decl		*lookup_by_name(UTL_ScopedName *,
						idl_bool treat_as_ref);

  // Look up the Identifier * specified only in the local scope
  virtual AST_Decl		*lookup_by_name_local(Identifier *,
						      idl_bool treat_as_ref);

  // Look up a predefined type by its ExprType
  virtual AST_Decl
    *lookup_primitive_type(AST_Expression::ExprType);

  // How many entries are used?
  virtual unsigned long		nmembers();

protected:
  // UTL_Scope protected addition protocol. This protocol is
  // used from sub-classes of UTL_Scope to insert nodes directly
  // into the specified node table (either decls or local_types)
  // Additionally, UTL_Scope also maintains a record of what nodes
  // defined elsewhere were referenced in this scope

  // Add to decls. Node represents a local declaration
  void				add_to_scope(AST_Decl *e);

  // Add to local types. Node represents a local manifest type
  void				add_to_local_types(AST_Decl *e);

  // Add to referenced nodes set.
  void				add_to_referenced(AST_Decl *e,
						  idl_bool recursive);

  // Has this node been referenced here already?
  idl_bool			referenced(AST_Decl *e);

  // Look up a scoped name in the inherited interfaces of an
  // interface
  virtual AST_Decl		*look_in_inherited(UTL_ScopedName *,
						   idl_bool treat_as_ref);
protected:
  // Operations

  // Lookup based on the local name
  virtual AST_Decl		*lookup_for_add(AST_Decl *d,
						idl_bool treat_as_ref);

private:
  // Data

  // What type is this node? This is a cache of the information
  // in AST_Decl
  const	AST_Decl::NodeType	pd_scope_node_type;

  // Storage for declarations in this scope:
  AST_Decl			**pd_decls;		// Store declarations
  long				pd_decls_allocated;	// How many allocated?
  long				pd_decls_used;		// How many used?

  // Storage for local manifest types in this scope:
  AST_Decl			**pd_local_types;	// Store types
  long				pd_locals_allocated;	// How many allocated?
  long				pd_locals_used;		// How many used?

  // Storage for referenced nodes in this scope:
  AST_Decl			**pd_referenced;	// Store references
  long				pd_referenced_allocated;// How many allocated?
  long				pd_referenced_used;	// How many used?

  // Friend class UTL_ScopeActiveIterator defines active iterator for
  // UTL_Scope. Definition follows below.
  friend class			UTL_ScopeActiveIterator;

private:
  friend int yyparse();
  friend class AST_Enum;

  // Scope Management Protocol
  virtual AST_PredefinedType	*fe_add_predefined_type(AST_PredefinedType *t);
  virtual AST_Module		*fe_add_module(AST_Module		*m);
  virtual AST_Interface		*fe_add_interface(AST_Interface		*i);
  virtual AST_InterfaceFwd	*fe_add_interface_fwd(AST_InterfaceFwd	*i);
  virtual AST_Constant		*fe_add_constant(AST_Constant		*c);
  virtual AST_Exception		*fe_add_exception(AST_Exception		*e);
  virtual AST_Attribute		*fe_add_attribute(AST_Attribute		*a);
  virtual AST_Operation		*fe_add_operation(AST_Operation		*o);
  virtual AST_Argument		*fe_add_argument(AST_Argument		*a);
  virtual AST_Union		*fe_add_union(AST_Union			*u);
  virtual AST_UnionBranch	*fe_add_union_branch(AST_UnionBranch	*b);
  virtual AST_Structure		*fe_add_structure(AST_Structure		*s);
  virtual AST_Field		*fe_add_field(AST_Field			*f);
  virtual AST_Enum		*fe_add_enum(AST_Enum			*e);
  virtual AST_EnumVal		*fe_add_enum_val(AST_EnumVal		*v);
  virtual AST_Typedef		*fe_add_typedef(AST_Typedef		*t);
  virtual UTL_StrList		*fe_add_context(UTL_StrList		*c);
  virtual UTL_NameList		*fe_add_exceptions(UTL_NameList		*e);
  virtual AST_Sequence		*fe_add_sequence(AST_Sequence		*s);
  virtual AST_String		*fe_add_string(AST_String		*s);
  virtual AST_Array		*fe_add_array(AST_Array			*a);
};

// Active iterator for a UTL_Scope node
class UTL_ScopeActiveIterator {
public:
  // Operations

  // Constructor(s)
  UTL_ScopeActiveIterator(UTL_Scope *s, UTL_Scope::ScopeIterationKind ik);

  // Advance to next item
  virtual void			next();

  // Get current item
  virtual AST_Decl		*item();

  // Have we iterated over entire scope?
  virtual idl_bool		is_done();

  // What kind of iterator is this?
  virtual UTL_Scope::ScopeIterationKind	iteration_kind();

  // What stage are we in with this iterator?
  virtual UTL_Scope::ScopeIterationKind	iteration_stage();

private:
  // Data
  UTL_Scope			*iter_source;	// Scope to iterate over
  UTL_Scope::ScopeIterationKind	ik;		// What kind of iteration
  UTL_Scope::ScopeIterationKind	stage;		// What stage
  long				il;		// What location in stage
};

#endif           // _UTL_SCOPE_UTL_SCOPE_HH