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//=============================================================================
/**
* @file be_visitor_scope.cpp
*
* Visitor for the base be_scope node. This serves to maintain the current
* state (context) of code generation for the derived visitor.
*
* @author Aniruddha Gokhale
*/
//=============================================================================
#include "be_argument.h"
#include "be_scope.h"
#include "be_visitor_scope.h"
#include "be_visitor_context.h"
#include "ace/Log_Msg.h"
// ******************************************************
// Generic visitor for a scope.
// All elements that give rise to a scope inherit from
// this class.
// ******************************************************
be_visitor_scope::be_visitor_scope (be_visitor_context *ctx)
: be_visitor_decl (ctx),
elem_number_ (0)
{
}
be_visitor_scope::~be_visitor_scope (void)
{
}
// Visit the scope and its elements.
int
be_visitor_scope::visit_scope (be_scope *node)
{
if (node == 0)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_scope::visit_scope - "
"nill node passed\n"),
-1);
}
// Proceed if the number of members in our scope is greater than 0.
this->elem_number_ = 0;
for (UTL_ScopeActiveIterator si (node, UTL_Scope::IK_decls);
!si.is_done ();
si.next ())
{
AST_Decl *d = si.item ();
if (d == 0)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_scope::visit_scope - "
"bad node in this scope\n"),
-1);
}
if (d->node_type () == AST_Decl::NT_annotation_decl)
{
continue;
}
be_decl *bd = be_decl::narrow_from_decl (d);
// Set the scope node as "node" in which the code is being
// generated so that elements in the node's scope can use it
// for code generation.
this->ctx_->scope (node);
// Set the node to be visited.
this->ctx_->node (bd);
++this->elem_number_;
// Do any pre processing using the next item info.
if (this->pre_process (bd) == -1)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_scope::visit_scope - "
"pre processing failed\n"),
-1);
}
// Send the visitor.
if (bd == 0 || bd->accept (this) == -1)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_scope::visit_scope - "
"codegen for scope failed\n"),
-1);
}
// Do any post processing using this item info.
if (this->post_process (bd) == -1)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_scope::visit_scope - "
"post processing failed\n"),
-1);
}
}
return 0;
}
int
be_visitor_scope::post_process (be_decl *)
{
return 0;
}
int
be_visitor_scope::pre_process (be_decl *)
{
return 0;
}
int
be_visitor_scope::elem_number (void)
{
// Return the current element that we are working on.
return this->elem_number_;
}
// Find the element that succeeds "elem" in the list.
int
be_visitor_scope::next_elem (be_decl *elem,
be_decl *&successor)
{
be_decl *ctx_scope = this->ctx_->scope ()->decl ();
be_scope *node = 0;
if (ctx_scope != 0)
{
node = ctx_scope->scope ();
}
if (ctx_scope == 0 || node == 0)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_scope::next_elem - "
"bad scope\n"),
-1);
}
successor = 0;
// Initialize an iterator to iterate thru our scope.
for (UTL_ScopeActiveIterator si (node, UTL_Scope::IK_decls);
!si.is_done ();
si.next ())
{
be_decl *bd = be_decl::narrow_from_decl (si.item ());
if (bd == 0)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_scope::next_elem - "
"bad node in this scope\n"),
-1);
}
if (bd != elem)
{
continue;
}
// Find who is next to me.
si.next ();
if (si.is_done ())
{
// Nobody left in the list.
return 0;
}
successor = be_decl::narrow_from_decl (si.item ());
if (successor == 0)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_scope::next_elem - "
"bad node in this scope\n"),
-1);
}
// Nothing else to do.
return 0;
}
return 0;
}
bool
be_visitor_scope::last_node (be_decl *bd)
{
be_decl *next = 0;
(void) this->next_elem (bd,
next);
return (next == 0);
}
bool
be_visitor_scope::last_inout_or_out_node (be_decl *)
{
// Return true if we are the last inout or out argument.
be_decl *next = 0;
(void) this->next_elem (this->ctx_->node (),
next);
while (next != 0)
{
be_argument *arg = be_argument::narrow_from_decl (next);
if (arg->direction () == AST_Argument::dir_INOUT
|| arg->direction () == AST_Argument::dir_OUT)
{
// Not the last.
return false;
}
be_decl *next_next = 0;
this->next_elem (next,
next_next);
next = next_next;
}
// I am the last one.
return true;
}
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