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//
// $Id$
//
// ============================================================================
//
// = LIBRARY
// TAO IDL
//
// = FILENAME
// cdr_op_cs.cpp
//
// = DESCRIPTION
// Visitor for code generation of Arrays for the CDR operators in the client
// stubs.
//
// = AUTHOR
// Aniruddha Gokhale
//
// ============================================================================
#include "idl.h"
#include "idl_extern.h"
#include "be.h"
#include "be_visitor_array.h"
ACE_RCSID(be_visitor_array, cdr_op_cs, "$Id$")
// ***************************************************************************
// Array visitor for generating CDR operator declarations in the client
// stubs file
// ***************************************************************************
be_visitor_array_cdr_op_cs::be_visitor_array_cdr_op_cs
(be_visitor_context *ctx)
: be_visitor_decl (ctx)
{
}
be_visitor_array_cdr_op_cs::~be_visitor_array_cdr_op_cs (void)
{
}
int
be_visitor_array_cdr_op_cs::visit_array (be_array *node)
{
if (this->ctx_->alias ())
{
// we are here because the base type of the array node is itself an array
// i.e., this is a case of array of array
return this->visit_node (node);
}
else
{
TAO_OutStream *os = this->ctx_->stream ();
be_type *bt; // base type of the array
if (node->cli_stub_cdr_op_gen () || node->imported ())
return 0;
// retrieve the type
bt = be_type::narrow_from_decl (node->base_type ());
if (!bt)
{
ACE_ERROR_RETURN ((LM_ERROR,
"be_visitor_array_cdr_op_cs::"
"visit_array - "
"Bad base type\n"),
-1);
}
// for anonymous arrays, the type name has a _ prepended. We compute the
// fullname with or without the underscore and use it later on.
char fname [NAMEBUFSIZE]; // to hold the full and
// save the node's local name and full name in a buffer for quick use later
// on
ACE_OS::memset (fname, '\0', NAMEBUFSIZE);
if (this->ctx_->tdef ())
{
// typedefed node
ACE_OS::sprintf (fname, "%s", node->fullname ());
}
else
{
// for anonymous arrays ...
// we have to generate a name for us that has an underscope prepended to
// our local name. This needs to be inserted after the parents's name
if (node->is_nested ())
{
be_decl *parent = be_scope::narrow_from_scope (node->defined_in ())->decl ();
ACE_OS::sprintf (fname, "%s::_%s", parent->fullname (),
node->local_name ()->get_string ());
}
else
{
ACE_OS::sprintf (fname, "_%s", node->fullname ());
}
}
// generate the CDR << and >> operator defns
// save the array node for further use
this->ctx_->node (node);
// set the sub state as generating code for the output operator
this->ctx_->sub_state (TAO_CodeGen::TAO_CDR_OUTPUT);
*os << "ACE_INLINE CORBA::Boolean operator<< (TAO_OutputCDR &strm, "
<< "const " << fname << "_forany &_tao_array)" << be_nl
<< "{" << be_idt_nl;
if (bt->accept (this) == -1)
{
ACE_ERROR_RETURN ((LM_ERROR,
"be_visitor_array_cdr_op_cs::"
"visit_array - "
"Base type codegen failed\n"),
-1);
}
*os << "}\n\n";
// set the sub state as generating code for the input operator
os->indent ();
this->ctx_->sub_state (TAO_CodeGen::TAO_CDR_INPUT);
*os << "ACE_INLINE CORBA::Boolean operator>> (TAO_InputCDR &strm, "
<< fname << "_forany &_tao_array)" << be_nl
<< "{" << be_idt_nl;
if (bt->accept (this) == -1)
{
ACE_ERROR_RETURN ((LM_ERROR,
"be_visitor_array_cdr_op_cs::"
"visit_array - "
"Base type codegen failed\n"),
-1);
}
*os << "}\n\n";
node->cli_stub_cdr_op_gen (1);
}
return 0;
}
// handle all the base types
int
be_visitor_array_cdr_op_cs::visit_enum (be_enum *node)
{
return this->visit_node (node);
}
int
be_visitor_array_cdr_op_cs::visit_interface (be_interface *node)
{
return this->visit_node (node);
}
int
be_visitor_array_cdr_op_cs::visit_interface_fwd (be_interface_fwd *node)
{
return this->visit_node (node);
}
int
be_visitor_array_cdr_op_cs::visit_predefined_type (be_predefined_type *node)
{
TAO_OutStream *os = this->ctx_->stream ();
switch (node->pt ())
{
case AST_PredefinedType::PT_pseudo:
case AST_PredefinedType::PT_any:
// let the helper handle this
return this->visit_node (node);
case AST_PredefinedType::PT_void:
// error
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_predefined_type - "
"Bad primitive type\n"
), -1);
default:
// all other primitive types. Handle them as shown below
break;
};
// we get here if the "type" of individual elements of the array is a
// primitive type. In this case, we treat the array as a single dimensional
// array (even though it was multi-dimensional), and pass the total length of
// the array as a cross product of the dimensions
// index
unsigned long i;
// grab the array node
be_array *array = this->ctx_->be_node_as_array ();
if (!node)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_predefined_type - "
"bad array node\n"),
-1);
}
// we generate optimized code based on an optimized interface available from
// the CDR class. These optimizations are applicable only to primitive
// types.
*os << " return strm.";
// based on our substate, we may be reading from a stream or writing into a
// stream
switch (this->ctx_->sub_state ())
{
case TAO_CodeGen::TAO_CDR_INPUT:
*os << "read_";
break;
case TAO_CodeGen::TAO_CDR_OUTPUT:
*os << "write_";
break;
default:
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_predefined_type - "
"bad sub state\n"),
-1);
}
// determine what kind of array are we reading/writing
switch (node->pt ())
{
case AST_PredefinedType::PT_long:
*os << "long_array";
break;
case AST_PredefinedType::PT_ulong:
*os << "ulong_array";
break;
case AST_PredefinedType::PT_short:
*os << "short_array";
break;
case AST_PredefinedType::PT_ushort:
*os << "ushort_array";
break;
case AST_PredefinedType::PT_octet:
*os << "octet_array";
break;
case AST_PredefinedType::PT_char:
*os << "char_array";
break;
case AST_PredefinedType::PT_wchar:
*os << "wchar_array";
break;
case AST_PredefinedType::PT_float:
*os << "float_array";
break;
case AST_PredefinedType::PT_double:
*os << "double_array";
break;
case AST_PredefinedType::PT_longlong:
*os << "longlong_array";
break;
case AST_PredefinedType::PT_ulonglong:
*os << "ulonglong_array";
break;
case AST_PredefinedType::PT_longdouble:
*os << "longdouble_array";
break;
case AST_PredefinedType::PT_boolean:
*os << "boolean_array";
break;
default:
// error
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_predefined_type - "
"bad primitive type for optimized code gen\n"),
-1);
}
// handle special case to avoid compiler errors
switch (node->pt ())
{
case AST_PredefinedType::PT_char:
switch (this->ctx_->sub_state ())
{
case TAO_CodeGen::TAO_CDR_INPUT:
*os << " ((char *)_tao_array.inout (), ";
break;
case TAO_CodeGen::TAO_CDR_OUTPUT:
*os << " ((const char *)_tao_array.in (), ";
break;
}
break;
default:
switch (this->ctx_->sub_state ())
{
case TAO_CodeGen::TAO_CDR_INPUT:
*os << " (_tao_array.inout (), ";
break;
case TAO_CodeGen::TAO_CDR_OUTPUT:
*os << " (_tao_array.in (), ";
break;
}
break;
}
// generate a product of all the dimensions. This will be the total length of
// the "unfolded" single dimensional array.
for (i = 0; i < array->n_dims (); i++)
{
// retrieve the ith dimension value
AST_Expression *expr = array->dims ()[i];
// dimension value
if ((expr == NULL) || ((expr != NULL) && (expr->ev () == NULL)))
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_predefined_type - "
"bad array dimension\n"),
-1);
}
if (i != 0)
// do not generate the multiplication operator the first time in
*os << "*";
if (expr->ev ()->et == AST_Expression::EV_ulong)
{
// generate a loop for each dimension
*os << expr->ev ()->u.ulval;
}
else
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_predefined_type - "
"bad array dimension value\n"),
-1);
}
}
*os << ");" << be_uidt_nl;
return 0;
}
int
be_visitor_array_cdr_op_cs::visit_sequence (be_sequence *node)
{
return this->visit_node (node);
}
int
be_visitor_array_cdr_op_cs::visit_string (be_string *node)
{
return this->visit_node (node);
}
int
be_visitor_array_cdr_op_cs::visit_structure (be_structure *node)
{
return this->visit_node (node);
}
int
be_visitor_array_cdr_op_cs::visit_union (be_union *node)
{
return this->visit_node (node);
}
int
be_visitor_array_cdr_op_cs::visit_typedef (be_typedef *node)
{
this->ctx_->alias (node); // save the typedef node for use in code generation
// as we visit the base type
// the node to be visited in the base primitve type that gets typedefed
be_type *bt = node->primitive_base_type ();
if (!bt || (bt->accept (this) == -1))
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_typedef - "
"Bad primitive type\n"
), -1);
}
this->ctx_->alias (0);
return 0;
}
// helper
int
be_visitor_array_cdr_op_cs::visit_node (be_type *bt)
{
TAO_OutStream *os = this->ctx_->stream ();
unsigned long i;
be_array *node = this->ctx_->be_node_as_array ();
if (!node)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_node - "
"bad array node\n"),
-1);
}
// initialize a boolean variable
*os << "CORBA::Boolean _tao_marshal_flag = 1;" << be_nl;
// we get here if the "type" of individual elements of the array is not a
// primitive type. In this case, we are left with no other alternative but to
// encode/decode element by element
// generate nested loops for as many dimensions as there are
for (i = 0; i < node->n_dims (); i++)
{
// retrieve the ith dimension value
AST_Expression *expr = node->dims ()[i];
// dimension value
if ((expr == NULL) || ((expr != NULL) && (expr->ev () == NULL)))
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_node - "
"bad array dimension\n"),
-1);
}
if (expr->ev ()->et == AST_Expression::EV_ulong)
{
// generate a loop for each dimension
*os << "for (CORBA::ULong i" << i << " = 0; i" << i << " < "
<< expr->ev ()->u.ulval << " && _tao_marshal_flag; i" << i
<< "++)" << be_idt_nl;
}
else
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_node - "
"bad array dimension value\n"),
-1);
}
}
// if the type was a string, an obj ref, or a pseudo-obj, we are dealing with
// the _var type and hence we must use the appropriate in () and out () methods
switch (this->ctx_->sub_state ())
{
case TAO_CodeGen::TAO_CDR_INPUT:
*os << "_tao_marshal_flag = (strm >> ";
// handle the array of array case in which case, we need to pass the
// forany type
if (bt->node_type () == AST_Decl::NT_array)
{
*os << bt->name () << "_forany ((" << bt->name ()
<< "_slice *) ";
}
*os << "_tao_array ";
for (i = 0; i < node->n_dims (); i++)
{
*os << "[i" << i << "]";
}
switch (bt->node_type ())
{
// the following have a _var type and must be handled in a special way
case AST_Decl::NT_string:
case AST_Decl::NT_interface:
case AST_Decl::NT_interface_fwd:
*os << ".out ()";
break;
case AST_Decl::NT_pre_defined:
{
// we need to separately handle this case of pseudo objects because
// they have a _var type
be_predefined_type *pt = be_predefined_type::narrow_from_decl (bt);
if (!pt)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_node - "
"bad predefined type node\n"),
-1);
}
if (pt->pt () == AST_PredefinedType::PT_pseudo)
{
*os << ".out ()";
}
}
}
if (bt->node_type () == AST_Decl::NT_array)
{
*os << ")";
}
*os << ");";
break;
case TAO_CodeGen::TAO_CDR_OUTPUT:
*os << "_tao_marshal_flag = (strm << ";
// handle the array of array case in which case, we need to pass the
// forany type
if (bt->node_type () == AST_Decl::NT_array)
{
*os << bt->name () << "_forany ((" << bt->name ()
<< "_slice *) ";
}
*os << "_tao_array ";
for (i = 0; i < node->n_dims (); i++)
{
*os << "[i" << i << "]";
}
switch (bt->node_type ())
{
// the follwoing three have a _var type and must be handled in a
// special way
case AST_Decl::NT_string:
case AST_Decl::NT_interface:
case AST_Decl::NT_interface_fwd:
*os << ".in ()";
break;
case AST_Decl::NT_pre_defined:
{
be_predefined_type *pt = be_predefined_type::narrow_from_decl (bt);
if (!pt)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_node - "
"bad predefined type node\n"),
-1);
}
if (pt->pt () == AST_PredefinedType::PT_pseudo)
{
*os << ".in ()";
}
}
}
if (bt->node_type () == AST_Decl::NT_array)
{
// array of array case
*os << ")";
}
*os << ");";
break;
default:
ACE_ERROR_RETURN ((LM_ERROR,
"(%N:%l) be_visitor_array_cdr_op_cs::"
"visit_node - "
"bad sub state\n"),
-1);
}
for (i = 0; i < node->n_dims (); i++)
{
// decrement indentation as many times as the number of dimensions
*os << be_uidt;
}
*os << be_nl;
*os << "return _tao_marshal_flag;" << be_uidt_nl;
return 0;
}
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