//============================================================================= /** * @file any_op_cs.cpp * * Visitor generating code for Any operators for structures * * @author Aniruddha Gokhale */ //============================================================================= #include "structure.h" // *************************************************************************** // Structure visitor for generating Any operator declarations in the client // stubs file // *************************************************************************** be_visitor_structure_any_op_cs::be_visitor_structure_any_op_cs ( be_visitor_context *ctx ) : be_visitor_structure (ctx) { } be_visitor_structure_any_op_cs::~be_visitor_structure_any_op_cs (void) { } int be_visitor_structure_any_op_cs::visit_structure (be_structure *node) { if (node->cli_stub_any_op_gen () || node->imported ()) { return 0; } TAO_OutStream *os = this->ctx_->stream (); *os << be_nl_2 << "// TAO_IDL - Generated from" << be_nl << "// " << __FILE__ << ":" << __LINE__ << be_nl_2; // Since we don't generate CDR stream operators for types that // explicitly contain a local interface (at some level), we // must override these Any template class methods to avoid // calling the non-existent operators. The zero return value // will eventually cause CORBA::MARSHAL to be raised if this // type is inserted into an Any and then marshaled. if (node->is_local ()) { *os << be_global->core_versioning_begin () << be_nl; *os << be_nl_2 << "namespace TAO" << be_nl << "{" << be_idt_nl << "template<>" << be_nl << "::CORBA::Boolean" << be_nl << "Any_Dual_Impl_T<" << node->name () << ">::marshal_value (TAO_OutputCDR &)" << be_nl << "{" << be_idt_nl << "return false;" << be_uidt_nl << "}"; *os << be_nl_2 << "template<>" << be_nl << "::CORBA::Boolean" << be_nl << "Any_Dual_Impl_T<" << node->name () << ">::demarshal_value (TAO_InputCDR &)" << be_nl << "{" << be_idt_nl << "return false;" << be_uidt_nl << "}" << be_uidt_nl << "}"; *os << be_global->core_versioning_end () << be_nl; } be_module *module = 0; if (node->is_nested ()) { AST_Decl *d = node; AST_Decl::NodeType nt = d->node_type (); while (nt != AST_Decl::NT_root) { if (nt == AST_Decl::NT_module) { module = be_module::narrow_from_decl (d); break; } else { d = ScopeAsDecl (d->defined_in ()); nt = d->node_type (); } } if (module != 0) { // Some compilers handle "any" operators in a namespace corresponding // to their module, others do not. *os << "\n\n#if defined (ACE_ANY_OPS_USE_NAMESPACE)\n"; be_util::gen_nested_namespace_begin (os, module); // Copying insertion. *os << "/// Copying insertion." << be_nl << "void operator<<= (" << be_idt << be_idt_nl << "::CORBA::Any &_tao_any," << be_nl << "const ::" << node->name () << " &_tao_elem)" << be_uidt << be_uidt_nl << "{" << be_idt_nl << "TAO::Any_Dual_Impl_T< ::" << node->name () << ">::insert_copy (" << be_idt << be_idt_nl << "_tao_any," << be_nl << "::" << node->name () << "::_tao_any_destructor," << be_nl << "::" << node->tc_name () << "," << be_nl << "_tao_elem);" << be_uidt << be_uidt << be_uidt << be_uidt_nl << "}" << be_nl_2; // Non-copying insertion. *os << "/// Non-copying insertion." << be_nl << "void operator<<= (" << be_idt << be_idt_nl << "::CORBA::Any &_tao_any, ::" << be_nl << node->name () << " *_tao_elem)" << be_uidt << be_uidt_nl << "{" << be_idt_nl << "TAO::Any_Dual_Impl_T< ::" << node->name () << ">::insert (" << be_idt << be_idt_nl << "_tao_any," << be_nl << "::" << node->name () << "::_tao_any_destructor," << be_nl << "::" << node->tc_name () << "," << be_nl << "_tao_elem);" << be_uidt << be_uidt << be_uidt_nl << "}" << be_nl_2; // Extraction to const pointer. *os << "/// Extraction to const pointer." << be_nl << "::CORBA::Boolean operator>>= (" << be_idt << be_idt_nl << "const ::CORBA::Any &_tao_any," << be_nl << "const ::" << node->name () << " *&_tao_elem)" << be_uidt << be_uidt_nl << "{" << be_idt_nl << "return" << be_idt_nl << "TAO::Any_Dual_Impl_T< ::" << node->name () << ">::extract (" << be_idt << be_idt_nl << "_tao_any," << be_nl << "::" << node->name () << "::_tao_any_destructor," << be_nl << "::" << node->tc_name () << "," << be_nl << "_tao_elem);" << be_uidt << be_uidt << be_uidt << be_uidt_nl << "}"; be_util::gen_nested_namespace_end (os, module); // Emit #else. *os << be_nl_2 << "#else\n"; } } *os << be_global->core_versioning_begin () << be_nl; // Copying insertion. *os << "/// Copying insertion." << be_nl << "void operator<<= (" << be_idt_nl << "::CORBA::Any &_tao_any," << be_nl << "const " << node->name () << " &_tao_elem)" << be_uidt_nl << "{" << be_idt_nl << "TAO::Any_Dual_Impl_T<" << node->name () << ">::insert_copy (" << be_idt_nl << "_tao_any," << be_nl << node->name () << "::_tao_any_destructor," << be_nl << node->tc_name () << "," << be_nl << "_tao_elem);" << be_uidt << be_uidt << be_uidt_nl << "}" << be_nl_2; // Non-copying insertion. *os << "/// Non-copying insertion." << be_nl << "void operator<<= (" << be_idt_nl << "::CORBA::Any &_tao_any," << be_nl << node->name () << " *_tao_elem)" << be_uidt_nl << "{" << be_idt_nl << "TAO::Any_Dual_Impl_T<" << node->name () << ">::insert (" << be_idt_nl << "_tao_any," << be_nl << node->name () << "::_tao_any_destructor," << be_nl << node->tc_name () << "," << be_nl << "_tao_elem);" << be_uidt << be_uidt_nl << "}" << be_nl_2; // Extraction to const pointer. *os << "/// Extraction to const pointer." << be_nl << "::CORBA::Boolean operator>>= (" << be_idt_nl << "const ::CORBA::Any &_tao_any," << be_nl << "const " << node->name () << " *&_tao_elem)" << be_uidt_nl << "{" << be_idt_nl << "return" << be_idt_nl << "TAO::Any_Dual_Impl_T<" << node->name () << ">::extract (" << be_idt_nl << "_tao_any," << be_nl << node->name () << "::_tao_any_destructor," << be_nl << node->tc_name () << "," << be_nl << "_tao_elem);" << be_uidt << be_uidt << be_uidt_nl << "}"; *os << be_global->core_versioning_end () << be_nl; if (module != 0) { *os << "\n\n#endif"; } // all we have to do is to visit the scope and generate code if (this->visit_scope (node) == -1) { ACE_ERROR_RETURN ((LM_ERROR, "(%N:%l) be_visitor_structure::visit_structure - " "codegen for scope failed\n"), -1); } node->cli_stub_any_op_gen (1); return 0; } int be_visitor_structure_any_op_cs::visit_field (be_field *node) { // First generate the type information. be_type *bt = be_type::narrow_from_decl (node->field_type ()); if (!bt) { ACE_ERROR_RETURN ((LM_ERROR, "(%N:%l) be_visitor_structure_any_op_cs::" "visit_field - " "Bad field type\n"), -1); } if (bt->accept (this) == -1) { ACE_ERROR_RETURN ((LM_ERROR, "(%N:%l) be_visitor_structure_any_op_cs::" "visit_field - " "codegen for field type failed\n"), -1); } return 0; } int be_visitor_structure_any_op_cs::visit_union (be_union *node) { if (node->cli_stub_any_op_gen () || node->imported ()) { return 0; } be_visitor_union_any_op_cs visitor (this->ctx_); if (node->accept (&visitor) == -1) { ACE_ERROR_RETURN ((LM_ERROR, "(%N:%l) be_visitor_structure_any_op_cs::" "visit_union - " "codegen for field type failed\n"), -1); } return 0; } int be_visitor_structure_any_op_cs::visit_enum (be_enum *node) { if (node->cli_stub_any_op_gen () || node->imported ()) { return 0; } be_visitor_enum_any_op_cs visitor (this->ctx_); if (node->accept (&visitor) == -1) { ACE_ERROR_RETURN ((LM_ERROR, "(%N:%l) be_visitor_structure_any_op_cs::" "visit_enum - " "codegen for field type failed\n"), -1); } return 0; }