diff options
Diffstat (limited to 'TAO/TAO_IDL/be/be_visitor_typedef/typedef_ci.cpp')
-rw-r--r-- | TAO/TAO_IDL/be/be_visitor_typedef/typedef_ci.cpp | 287 |
1 files changed, 287 insertions, 0 deletions
diff --git a/TAO/TAO_IDL/be/be_visitor_typedef/typedef_ci.cpp b/TAO/TAO_IDL/be/be_visitor_typedef/typedef_ci.cpp new file mode 100644 index 00000000000..93b7cdc3306 --- /dev/null +++ b/TAO/TAO_IDL/be/be_visitor_typedef/typedef_ci.cpp @@ -0,0 +1,287 @@ +// +// $Id$ +// + +// ============================================================================ +// +// = LIBRARY +// TAO IDL +// +// = FILENAME +// typedef_ci.cpp +// +// = DESCRIPTION +// Visitor generating code for Typedefs in the client inline file. +// +// = AUTHOR +// Aniruddha Gokhale +// +// ============================================================================ + +#include "idl.h" +#include "idl_extern.h" +#include "be.h" + +#include "be_visitor_typedef.h" + + +// ****************************************************** +// Typedef visitor for client inline +// ****************************************************** + +be_visitor_typedef_ci::be_visitor_typedef_ci (be_visitor_context *ctx) + : be_visitor_typedef (ctx) +{ +} + +be_visitor_typedef_ci::~be_visitor_typedef_ci (void) +{ +} + +int +be_visitor_typedef_ci::visit_typedef (be_typedef *node) +{ + TAO_OutStream *os; // output stream + + os = this->ctx_->stream (); + + // In general, we may have a chain of typedefs. i.e., + // typedef sequence<long> X; + // typedef X Y; + // typedef Y Z; and so on + // The first time we will be in will be for node Z for which the code + // generation has to take place. However, it is not enough to just generate + // code that looks like - + // typedef Y Z; + // For different types (in this case we have a sequence), we will need + // typedefs for the _var and _out types for Z. If it had been an array, we + // will additionally have the _forany type as well as inlined *_alloc + // methods. + // + // Finally, we need to differentiate between the case where we were + // generating code for + // typedef sequence<long> X; and + // typedef Y Z; where Y was somehow aliased to the sequence. In the former + // case, we will need to generate all the code for sequence<long> or whatever + // the type maybe. In the latter, we just need typedefs for the type and all + // associated _var, _out, and other types. + + be_type *bt; // base type + + if (this->ctx_->tdef ()) + { + // the fact that we are here indicates that we were generating code for a + // typedef node whose base type also happens to be another typedef-ed + // (i.e. an alias) node for another (possibly alias) node + + this->ctx_->alias (node); // save this alias + + // grab the most primitive base type in the chain to avoid recusrsively + // going thru this visit method + bt = node->primitive_base_type (); + if (!bt) + { + ACE_ERROR_RETURN ((LM_ERROR, + "(%N:%l) be_visitor_typedef_ch::" + "visit_typedef - " + "bad primitive base type\n" + ), -1); + } + // accept on this base type + if (bt->accept (this) == -1) + { + ACE_ERROR_RETURN ((LM_ERROR, + "(%N:%l) be_visitor_typedef_ch::" + "visit_typedef - " + "failed to accept visitor\n" + ), -1); + } + + this->ctx_->alias (0); + } + else + { + // the context has not stored any "tdef" node. So we must be in here for + // the first time + this->ctx_->tdef (node); // save the typedef node + + // grab the immediate base type node + bt = be_type::narrow_from_decl (node->base_type ()); + if (!bt) + { + ACE_ERROR_RETURN ((LM_ERROR, + "(%N:%l) be_visitor_typedef_ch::" + "visit_typedef - " + "bad base type\n" + ), -1); + } + // accept on this base type + if (bt->accept (this) == -1) + { + ACE_ERROR_RETURN ((LM_ERROR, + "(%N:%l) be_visitor_typedef_ch::" + "visit_typedef - " + "failed to accept visitor\n" + ), -1); + } + + this->ctx_->tdef (0); + } + return 0; +} + +int +be_visitor_typedef_ci::visit_array (be_array *node) +{ + TAO_OutStream *os = this->ctx_->stream (); // output stream + be_typedef *tdef = this->ctx_->tdef (); // typedef node + be_decl *scope = this->ctx_->scope (); // scope in which it is used + be_type *bt; + + if (this->ctx_->alias ()) // typedef of a typedef + bt = this->ctx_->alias (); + else + bt = node; + + if (bt->node_type () == AST_Decl::NT_array) // direct typedef of a base node + // type + { + // let the base class visitor handle this case + if (this->be_visitor_typedef::visit_array (node) == -1) + { + ACE_ERROR_RETURN ((LM_ERROR, + "(%N:%l) be_visitor_typedef_ci::" + "visit_array - " + "base class visitor failed \n" + ), -1); + } + } + else + { + // generate the inline code for alloc, dup, copy, and free methods + + // alloc method + os->indent (); + *os << "ACE_INLINE " << tdef->name () << "_slice *" << be_nl; + *os << tdef->name () << "_alloc (void)" << be_nl; + *os << "{" << be_idt_nl; + *os << "return " << bt->name () << "_alloc ();" << be_uidt_nl; + *os << "}\n\n"; + + // dup method + os->indent (); + *os << "ACE_INLINE " << tdef->name () << "_slice *" << be_nl; + *os << tdef->name () << "_dup (const " << tdef->name () + << "_slice *_tao_src)" << be_nl; + *os << "{" << be_idt_nl; + *os << "return " << bt->name () << "_dup (_tao_src);" << be_uidt_nl; + *os << "}\n\n"; + + // copy method + os->indent (); + *os << "ACE_INLINE void" << be_nl; + *os << tdef->name () << "_copy (" << tdef->name () + << "_slice *_tao_dest, const " << tdef->name () + << "_slice *_tao_src)" << be_nl; + *os << "{" << be_idt_nl; + *os << bt->name () << "_copy (_tao_dest, _tao_src);" << be_uidt_nl; + *os << "}\n\n"; + + // free method + os->indent (); + *os << "ACE_INLINE void" << be_nl; + *os << tdef->name () << "_free (" << tdef->name () + << "_slice *_tao_src)" << be_nl; + *os << "{" << be_idt_nl; + *os << bt->name () << "_free (_tao_src);" << be_uidt_nl; + *os << "}\n\n"; + } + return 0; +} + +int +be_visitor_typedef_ci::visit_sequence (be_sequence *node) +{ + TAO_OutStream *os = this->ctx_->stream (); // output stream + be_typedef *tdef = this->ctx_->tdef (); // typedef node + be_decl *scope = this->ctx_->scope (); // scope in which it is used + be_type *bt; + + if (this->ctx_->alias ()) // typedef of a typedef + bt = this->ctx_->alias (); + else + bt = node; + + if (bt->node_type () == AST_Decl::NT_sequence) // direct typedef of a base node + // type + { + // let the base class visitor handle this case + if (this->be_visitor_typedef::visit_sequence (node) == -1) + { + ACE_ERROR_RETURN ((LM_ERROR, + "(%N:%l) be_visitor_typedef_ci::" + "visit_sequence - " + "base class visitor failed \n" + ), -1); + } + } + return 0; +} + +int +be_visitor_typedef_ci::visit_structure (be_structure *node) +{ + TAO_OutStream *os = this->ctx_->stream (); // output stream + be_typedef *tdef = this->ctx_->tdef (); // typedef node + be_decl *scope = this->ctx_->scope (); // scope in which it is used + be_type *bt; + + if (this->ctx_->alias ()) // typedef of a typedef + bt = this->ctx_->alias (); + else + bt = node; + + if (bt->node_type () == AST_Decl::NT_struct) // direct typedef of a base node + // type + { + // let the base class visitor handle this case + if (this->be_visitor_typedef::visit_structure (node) == -1) + { + ACE_ERROR_RETURN ((LM_ERROR, + "(%N:%l) be_visitor_typedef_ci::" + "visit_structure - " + "base class visitor failed \n" + ), -1); + } + } + return 0; +} + +int +be_visitor_typedef_ci::visit_union (be_union *node) +{ + TAO_OutStream *os = this->ctx_->stream (); // output stream + be_typedef *tdef = this->ctx_->tdef (); // typedef node + be_decl *scope = this->ctx_->scope (); // scope in which it is used + be_type *bt; + + if (this->ctx_->alias ()) // typedef of a typedef + bt = this->ctx_->alias (); + else + bt = node; + + if (bt->node_type () == AST_Decl::NT_union) // direct typedef of a base node + // type + { + // let the base class visitor handle this case + if (this->be_visitor_typedef::visit_union (node) == -1) + { + ACE_ERROR_RETURN ((LM_ERROR, + "(%N:%l) be_visitor_typedef_ci::" + "visit_union - " + "base class visitor failed \n" + ), -1); + } + } + return 0; +} |