// // $Id$ // #include "idl.h" #include "idl_extern.h" #include "be.h" /* * BE_Exception */ be_exception::be_exception (void) { } be_exception::be_exception (UTL_ScopedName *n, UTL_StrList *p) : AST_Decl (AST_Decl::NT_except, n, p), AST_Structure (AST_Decl::NT_except, n, p), UTL_Scope (AST_Decl::NT_except), member_count_ (-1) { } // compute total number of members int be_exception::compute_member_count (void) { UTL_ScopeActiveIterator *si; // iterator AST_Decl *d; // temp node this->member_count_ = 0; // if there are elements in this scope if (this->nmembers () > 0) { // instantiate a scope iterator. si = new UTL_ScopeActiveIterator (this, UTL_Scope::IK_decls); while (!(si->is_done ())) { // get the next AST decl node d = si->item (); if (!d->imported ()) { this->member_count_++; } si->next (); } // end of while delete si; // free the iterator object } return 0; } // return the member count int be_exception::member_count (void) { if (this->member_count_ == -1) this->compute_member_count (); return this->member_count_; } int be_exception::gen_client_header (void) { if (!this->cli_hdr_gen_) // not already generated { TAO_CodeGen *cg = TAO_CODEGEN::instance (); TAO_OutStream *ch = cg->client_header (); // output stream TAO_NL nl; // end line cg->outstream (ch); ch->indent (); // start from whatever indentation level we were at ch->gen_ifdef_macro (this->flatname (), "_ptr"); ch->indent (); *ch << "class " << this->local_name () << ";" << nl; // generate the _ptr declaration *ch << "typedef " << this->local_name () << " *" << this->local_name () << "_ptr;" << nl; ch->gen_endif (); ch->gen_ifdef_macro (this->flatname ()); ch->indent (); *ch << "class " << this->local_name () << " : public virtual CORBA::UserException" << nl; *ch << "{" << nl << "public:" << nl; ch->incr_indent (); *ch << this->local_name () << " (void);\n"; ch->decr_indent (); *ch << "};" << nl << nl; ch->gen_endif (); *ch << "static CORBA::TypeCode_ptr " << this->tc_name ()->last_component () << ";\n\n"; this->cli_hdr_gen_ = I_TRUE; } return 0; } int be_exception::gen_client_inline (void) { if (!this->cli_inline_gen_) { TAO_NL nl; // end line TAO_CodeGen *cg = TAO_CODEGEN::instance (); TAO_OutStream *ci = cg->client_inline (); *ci << "// *************************************************************" << nl; *ci << "// Inline operations for exception " << this->name () << nl; *ci << "// *************************************************************\n\n"; ci->indent (); *ci << "// default constructor" << nl; *ci << "ACE_INLINE" << nl; *ci << this->name () << "::" << this->local_name () << " (void)" << nl; ci->incr_indent (); *ci << ": CORBA_UserException (_tc_" << this->local_name () << ")\n"; ci->decr_indent (); *ci << "{" << nl; *ci << "}" << nl << nl; this->cli_inline_gen_ = I_TRUE; } return 0; } int be_exception::gen_client_stubs (void) { TAO_OutStream *cs; // output stream TAO_NL nl; // end line if (!this->cli_stub_gen_) { // retrieve a singleton instance of the code generator TAO_CodeGen *cg = TAO_CODEGEN::instance (); cg->push (TAO_CodeGen::TAO_STRUCT_CS); // set current code gen state cs = cg->client_stubs (); // pass info cg->outstream (cs); cg->node (this); // generate the typecode information here cs->indent (); // start from current indentation level *cs << "static const CORBA::Long _oc_" << this->flatname () << "[] =" << nl; *cs << "{\n"; cs->incr_indent (0); // note that we just need the parameters here and hence we generate the // encapsulation for the parameters if (this->gen_encapsulation () == -1) { ACE_ERROR ((LM_ERROR, "Error generating encapsulation\n\n")); return -1; } cs->decr_indent (); *cs << "};" << nl; *cs << "static CORBA::TypeCode _tc__tc_" << this->flatname () << " (CORBA::tk_struct, sizeof (_oc_" << this->flatname () << "), (unsigned char *) &_oc_" << this->flatname () << ", CORBA::B_FALSE);" << nl; *cs << "CORBA::TypeCode_ptr " << this->tc_name () << " = &_tc__tc_" << this->flatname () << ";\n\n"; this->cli_stub_gen_ = I_TRUE; cg->pop (); } return 0; } int be_exception::gen_server_header (void) { return 0; } int be_exception::gen_server_inline (void) { return 0; } int be_exception::gen_server_skeletons (void) { return 0; } // generate typecode. // Typecode for exceptions comprises the enumerated value followed by the // encapsulation of the parameters int be_exception::gen_typecode (void) { TAO_OutStream *cs; // output stream TAO_NL nl; // end line TAO_CodeGen *cg = TAO_CODEGEN::instance (); cs = cg->client_stubs (); cs->indent (); // start from whatever indentation level we were at *cs << "CORBA::tk_struct, // typecode kind" << nl; *cs << this->tc_size () << ", // encapsulation length\n"; // now emit the encapsulation return this->gen_encapsulation (); } // generate encapsulation // An encapsulation for ourselves will be necessary when we are part of some // other IDL type and a typecode for that other type is being generated. This // will comprise our typecode kind. IDL types with parameters will additionally // have the encapsulation length and the entire typecode description int be_exception::gen_encapsulation (void) { TAO_OutStream *cs; // output stream TAO_NL nl; // end line TAO_CodeGen *cg = TAO_CODEGEN::instance (); long i, arrlen; long *arr; // an array holding string names converted to array of longs cs = cg->client_stubs (); cs->indent (); // start from whatever indentation level we were at // XXXASG - byte order must be based on what m/c we are generating code - // TODO *cs << "0, // byte order" << nl; // generate repoID *cs << (ACE_OS::strlen (this->repoID ())+1) << ", "; (void)this->tc_name2long (this->repoID (), arr, arrlen); for (i=0; i < arrlen; i++) { cs->print ("0x%x, ", arr[i]); } *cs << " // repository ID = " << this->repoID () << nl; // generate name *cs << (ACE_OS::strlen (this->local_name ()->get_string ())+1) << ", "; (void)this->tc_name2long(this->local_name ()->get_string (), arr, arrlen); for (i=0; i < arrlen; i++) { cs->print ("0x%x, ", arr[i]); } *cs << " // name = " << this->local_name () << nl; // generate the member count *cs << this->member_count () << ", // member count\n"; cs->incr_indent (0); // hand over to the scope to generate the typecode for elements if (be_scope::gen_encapsulation () == -1) { ACE_ERROR ((LM_ERROR, "be_exception: cannot generate typecode for members\n")); return -1; } cs->decr_indent (0); return 0; } // compute typecode size long be_exception::tc_size (void) { // 4 bytes for enumeration, 4 bytes for storing encap length val, followed by the // actual encapsulation length return 4 + 4 + this->tc_encap_len (); } // compute encapsulation length long be_exception::tc_encap_len (void) { if (this->encap_len_ == -1) // not computed yet { this->encap_len_ = 4; // holds the byte order flag this->encap_len_ += this->repoID_encap_len (); // repoID // do the same thing for the local name this->encap_len_ += this->name_encap_len (); this->encap_len_ += 4; // to hold the member count // compute encap length for members this->encap_len_ += be_scope::tc_encap_len (); } return this->encap_len_; } // Narrowing IMPL_NARROW_METHODS3 (be_exception, AST_Exception, be_scope, be_type) IMPL_NARROW_FROM_DECL (be_exception) IMPL_NARROW_FROM_SCOPE (be_exception)