void be_sequence::Generate (be_ClientHeader& source)
{
DDS_StdString scopedName = typeName;
if (BE_Globals::ignore_interfaces && IsInterfaceDependant ())
{
return;
}
if (Generated ())
{
return;
}
if (anonymous && !isPrimitiveSeq && !isStringSeq
&& (!baseType->IsSequenceType ()
|| generatedSequences.find (baseType->TypeName ())
== generatedSequences.end ()))
{
be_root::DeferSequence (this);
deferred = pbtrue;
return;
}
if (generatedSequences.find (scopedName) == generatedSequences.end ())
{
Generated (pbtrue);
generatedSequences[scopedName] = scopedName;
if (anonymous)
{
baseType->GenerateFwdDecls (source);
}
GenerateSequence (source);
GenerateAuxTypes (source);
be_root::AddStreamOps (*this);
be_root::AddAnyOps (*this);
be_root::AddPutGetOps (*this);
be_root::AddImplementations (*this);
be_root::AddTypedef (*this);
be_root::AddTypecode (*this);
}
}
void
be_typedef::Generate(be_ClientHeader& source)
{
if (BE_Globals::ignore_interfaces && IsInterfaceDependant ())
{
return;
}
if (!Generated())
{
be_Type * btype;
m_generated = TRUE;
if (base_type() &&
(btype = (be_Type*)base_type()->narrow((long) & be_Type::type_id)))
{
if (m_generateBase)
{
be_CodeGenerator * cg;
if ((cg = (be_CodeGenerator *) btype->narrow((long) & be_CodeGenerator::type_id)))
{
cg->isAtModuleScope (this->isAtModuleScope());
}
btype->GenerateType(source);
}
else
{
btype->GenerateTypedefs(enclosingScope, *this, source);
be_root::AddTypedef(*this);
be_root::AddTypecode(*this);
}
}
else
{
assert(pbfalse);
}
}
}
void
be_enum::Generate(be_ClientHeader& source)
{
if (!Generated())
{
UTL_ScopeActiveIterator* i = new UTL_ScopeActiveIterator(this, IK_decls);
ostream & os = source.Stream();
unsigned long expectedValue = 0;
be_Tab tab(source);
AST_Decl * d;
Generated(pbtrue);
os << tab << "enum " << *local_name() << nl;
os << tab << "{" << nl;
tab.indent();
while (!(i->is_done()))
{
d = i->item ();
if (d)
{
be_enum_val * ev = (be_enum_val*) d->narrow ((long) & be_enum_val::type_id);
if (ev)
{
os << tab << *ev->local_name();
if (ev->Value() != expectedValue)
{
expectedValue = ev->Value();
os << " = " << expectedValue;
}
expectedValue++;
i->next();
if (!(i->is_done()))
{
os << ",";
}
os << nl;
}
else
{
DDSError(NameToString(name()) + " contains non-enum val");
assert(pbfalse);
}
}
else
{
DDSError(NameToString(name()) + " declaration is corrupted");
assert(pbfalse);
}
}
//os << tab << "DDS_DCPS_FORCE_ENUM32(__" << *local_name() << ")" << nl;
tab.outdent();
os << tab << "};" << nl;
delete i;
// GENERATE STREAMING OPERATORS
be_root::AddAnyOps(*this);
be_root::AddPutGetOps(*this);
be_root::AddStreamOps(*this);
be_root::AddTypedef(*this);
be_root::AddTypecode(*this);
}
}
void be_exception::Generate (be_ClientHeader & source)
{
if (!Generated ())
{
ostream & os = source.Stream ();
be_Tab tab (source);
DDS_StdString lname = LocalName ();
Generated (pbtrue);
be_root::AddGlobalDeclarations (this);
be_root::AddAnyOps (*this);
be_root::AddStreamOps (*this);
be_root::AddTypedef (*this);
be_root::AddTypecode (*this);
GenerateOpenClassDefinition (source);
GenerateClassDeclarations (source);
SetAccess (source, CA_PUBLIC);
// now define nested types
be_CodeGenerator::Generate (source);
// generate _downcast
os << tab << "static " << lname << "* _downcast ("
<< "DDS::Exception *);" << nl;
os << tab << "static const " << lname << "* _downcast ("
<< "const DDS::Exception *);" << nl;
// generate factory and builder
os << tab << "static DDS::Exception * factory ();" << nl;
os << tab << "static DDS::ExceptionInitializer m_initializer;" << nl << nl;
// generate inline default constructor
os << tab << lname << " () {};" << nl;
// generate convenience constructor
if (nmembers())
{
GenerateConvenienceConstructor (source);
}
// generate copy constructor
os << tab << lname << " (const " << lname << " &);" << nl;
// generate assignment operator
os << tab << lname << "& operator = " << "(const " << lname << " &);" << nl;
// generate duplicate
os << tab << "virtual DDS::Exception * _clone () const;" << nl;
// generate raise
os << tab << "virtual void _raise (" << XBE_Ev::arg (XBE_ENV_ARG1)
<< ") const;" << nl;
// generate name
os << tab << "virtual const char * _name () const { return m_name; };" << nl;
// generate repository id
os << tab << "virtual const char * _rep_id () const { return m_id; };" << nl;
// generate virtual destructor
os << tab << "virtual ~" << lname << " () {}" << nl;
GenerateMembers (source);
SetAccess (source, CA_PRIVATE);
os << tab << "static const char * m_name;" << nl;
os << tab << "static const char * m_id;" << nl;
GenerateCloseClassDefinition (source);
be_root::GenerateDependants
(
source,
SequenceMemberTypeName (),
EnclosingScope ()
);
}
}
void be_structure::Generate (be_ClientHeader& source)
{
if (BE_Globals::ignore_interfaces && IsInterfaceDependant ())
{
return;
}
if (!Generated())
{
be_root::AddAnyOps(*this);
be_root::AddPutGetOps(*this);
be_root::AddStreamOps(*this);
be_root::AddTypedef(*this);
be_root::AddTypecode(*this);
ostream & os = source.Stream();
DDS_StdString scopedName = ScopedName();
DDS_StdString relativeName;
be_Tab tab(source);
TList<be_field *>::iterator mit;
be_field * field;
Generated (pbtrue);
be_root::GenerateDependants(source, SequenceMemberTypeName(),
EnclosingScope());
g_cppScopeStack.Push(m_cppType);
// struct definition
os << nl;
os << tab << "struct " << DLLMACRO << LocalName () << nl;
os << tab << "{" << nl;
source.Indent ();
// declare nested types
be_CodeGenerator::Generate(source);
// member declarations
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
relativeName = BE_Globals::RelativeScope
(scopedName, field->StructMemberTypeName ());
os << tab << relativeName << " "
<< field->get_local_name() << ";" << nl;
}
source.Outdent();
source.Stream() << tab << "};" << nl << nl;
g_cppScopeStack.Pop();
GenerateAuxTypes (source);
be_root::GenerateDependants(source, SequenceMemberTypeName(),
EnclosingScope());
}
}
void be_structure::Generate (be_ClientHeader& source)
{
if (BE_Globals::ignore_interfaces && IsInterfaceDependant ())
{
return;
}
if (!Generated())
{
be_root::AddAnyOps(*this);
be_root::AddPutGetOps(*this);
be_root::AddStreamOps(*this);
be_root::AddTypedef(*this);
be_root::AddTypecode(*this);
ostream & os = source.Stream();
DDS_StdString scopedName = ScopedName();
DDS_StdString relativeName;
be_Tab tab(source);
TList<be_field *>::iterator mit;
be_field * field;
Generated (pbtrue);
be_root::GenerateDependants(source, SequenceMemberTypeName(),
EnclosingScope());
g_cppScopeStack.Push(m_cppType);
// struct definition
os << nl;
os << tab << (BE_Globals::isocpp_new_types ? "class " : "struct ") << DLLMACRO << LocalName ()
<< (BE_Globals::isocpp_new_types ? " OSPL_DDS_FINAL" : "") << nl;
os << tab << "{" << nl;
if (BE_Globals::isocpp_new_types)
os << tab << "public:" << nl;
source.Indent();
// declare nested types
source.Indent();
be_CodeGenerator::Generate(source);
// member accessor functions for isocpp new types
if (BE_Globals::isocpp_new_types)
{
/** @internal
* @todo OSPL-3369 Repetition; the sort of code people go to hell
* for (rightfully); is_sequency is already evideantally a stupid name; &c... */
// Constructors
if (m_fields.size() > 0)
{
os << tab << LocalName() << "() {}" << nl;
os << tab << "explicit " << LocalName() << "(" << nl;
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
bool is_sequency = !(field->get_be_type()->IsPrimitiveType()
|| field->get_be_type()->IsEnumeratedType());
relativeName = BE_Globals::RelativeScope
(scopedName, field->StructMemberTypeName ());
TList<be_field *>::iterator final_field = m_fields.end();
--final_field;
os << tab << tab << (is_sequency ? "const " : "") << relativeName
<< (is_sequency ? "& " : " ") << field->get_local_name();
if (mit == final_field)
os << ")";
else
os <<"," << nl;
}
os << tab << ":" << nl;
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
TList<be_field *>::iterator final_field = m_fields.end();
--final_field;
os << tab << tab << tab << field->get_local_name() << "_(" << field->get_local_name() << ")" << (mit == final_field ? " {}" : ",") << nl;
}
}
// C++ 11 move constructor, copy consructor, and assignement ops
source.Outdent();
os << "#ifdef OSPL_DDS_CXX11" << nl;
os << "# ifdef OSPL_CXX11_NO_FUNCTION_DEFAULTS" << nl;
source.Indent();
os << tab << LocalName() << "(const " << LocalName() << "& _other)" << nl;
if (m_fields.size() > 0)
{
os << tab << ":" << nl;
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
TList<be_field *>::iterator final_field = m_fields.end();
--final_field;
os << tab << tab << tab << field->get_local_name() << "_(_other." << field->get_local_name() << "_)" << (mit == final_field ? "" : ",") << nl;
}
}
os << tab << "{}" << nl;
os << tab << LocalName() << "(" << LocalName() << "&& _other)" << nl;
if (m_fields.size() > 0)
{
os << tab << ":" << nl;
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
TList<be_field *>::iterator final_field = m_fields.end();
--final_field;
os << tab << tab << tab << field->get_local_name() << "_(::std::move(_other." << field->get_local_name() << "_))" << (mit == final_field ? "" : ",") << nl;
}
}
os << tab << "{}" << nl;
os << tab << LocalName() << "& operator=(" << LocalName() << "&& _other)" << nl;
os << tab << "{" << nl ;
if (m_fields.size() > 0)
{
os << tab << tab << "if (this != &_other)" << nl;
os << tab << tab << "{" << nl;
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
TList<be_field *>::iterator final_field = m_fields.end();
--final_field;
os << tab << tab << tab << field->get_local_name() << "_ = ::std::move(_other." << field->get_local_name() << "_);" << nl;
}
os << tab << tab << "}" << nl;
}
os << tab << tab << "return *this;" << nl;
os << tab << "}" << nl;
os << tab << LocalName() << "& operator=(const " << LocalName() << "& _other)" << nl;
os << tab << "{" << nl ;
if (m_fields.size() > 0)
{
os << tab << tab << "if (this != &_other)" << nl;
os << tab << tab << "{" << nl;
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
TList<be_field *>::iterator final_field = m_fields.end();
--final_field;
os << tab << tab << tab << field->get_local_name() << "_ = _other." << field->get_local_name() << "_;" << nl;
}
os << tab << tab << "}" << nl;
}
os << tab << tab << "return *this;" << nl;
os << tab << "}" << nl;
source.Outdent();
os << "# else" << nl;
source.Indent();
os << tab << LocalName() << "(const " << LocalName() << "& _other) = default;" << nl;
os << tab << LocalName() << "(" << LocalName() << "&& _other) = default;" << nl;
os << tab << LocalName() << "& operator=(" << LocalName() << "&& _other) = default;" << nl;
os << tab << LocalName() << "& operator=(const " << LocalName() << "& _other) = default;" << nl;
source.Outdent();
os << "# endif" << nl;
os << "#endif" << nl;
source.Indent();
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
bool is_sequency = !(field->get_be_type()->IsPrimitiveType()
|| field->get_be_type()->IsEnumeratedType());
relativeName = BE_Globals::RelativeScope
(scopedName, field->StructMemberTypeName ());
// const get accessor
os << tab << (is_sequency ? "const " : "") << relativeName << (is_sequency ? "& " : " ")
<< field->get_local_name() << "() const { return this->" << field->get_local_name() << "_; }" << nl;
// reference get accessor
os << tab << relativeName << "& "
<< field->get_local_name() << "() { return this->" << field->get_local_name() << "_; }" << nl;
// const set accessor
os << tab << "void "
<< field->get_local_name() << (is_sequency ? "(const " : "(") << relativeName
<< (is_sequency ? "&" : "") << " _val_) { this->" << field->get_local_name() << "_ = _val_; }" << nl;
source.Outdent();
if (!(field->get_be_type()->IsPrimitiveType()
&& !field->get_be_type()->IsEnumeratedType())) {
os << "#ifdef OSPL_DDS_CXX11" << nl;
source.Indent();
// C++ 11 move assignement op
os << tab << "void "
<< field->get_local_name() << "(" << relativeName << "&& _val_) { this->" << field->get_local_name() << "_ = _val_; }" << nl;
source.Outdent();
os << "#endif" << nl;
}
source.Indent();
}
}
if (BE_Globals::gen_equality)
{
os << tab << "bool operator==(const " << LocalName() << "& _other) const" <<
nl << tab << "{" << nl << tab << tab << "return ";
DDS_StdString relName;
for(mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
relName = BE_Globals::RelativeScope
(scopedName, field->get_local_name());
TList<be_field *>::iterator final_field = m_fields.end();
--final_field;
if(mit != m_fields.begin())
os << tab << tab;
os << relName << (BE_Globals::isocpp_new_types ? "_" : "")
<< " == _other."
<< relName << (BE_Globals::isocpp_new_types ? "_" : "")
<< (mit != final_field ? " &&" : ";") << nl;
}
os << tab << "}" << nl;
os << tab << "bool operator!=(const " << LocalName() << "& other) const" <<
nl << tab << "{" << nl << tab << tab << "return !(*this == other);"
<< nl << tab << "}" << nl;
}
// member declarations
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
relativeName = BE_Globals::RelativeScope
(scopedName, field->StructMemberTypeName ());
os << tab << relativeName << " "
<< field->get_local_name() << (BE_Globals::isocpp_new_types ? "_" : "") << ";" << nl;
}
source.Outdent();
source.Outdent();
source.Stream() << tab << "};" << nl << nl;
g_cppScopeStack.Pop();
if (BE_Globals::isocpp_test_methods)
{
//Get base filename and append _testmethod.h
DDS_StdString BaseFilename;
BaseFilename = StripExtension(source.Filename());
BaseFilename += "_testmethod.h";
//Open or append to file
be_Source testsource;
ostream & ts = testsource.Stream();
if(!testsource.Open(BaseFilename))
cerr << "Cannot open: " << BaseFilename << endl;
testsource.Indent();
ts << "namespace {" << nl
<< "template <>" << nl << "::std::vector< ::"
<< ScopedName() << " > generate_test_values< ::"
<< ScopedName() << " >()" << nl
<< "{" << nl;
ts << tab << "::std::vector< ::" << ScopedName() << " > values;" << nl
<< tab << "::" << ScopedName() << " next;" << nl
<< tab << "::std::size_t biggest = 0;" << nl;
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
relativeName = field->StructMemberTypeName ();
ts << tab <<"::std::vector< " << field->StructMemberTypeName() << " > " << field->get_local_name() << "_ = generate_test_values< "
<< field->StructMemberTypeName() << " >();" << nl;
ts << tab << "if(" << field->get_local_name() << "_.size() > biggest)"
<< nl << tab << tab << "biggest = " << field->get_local_name() << "_.size();"
<< nl;
}
ts << tab << "for(::std::size_t i = 0; i < biggest; ++i)" << nl << tab << "{" << nl;
for (mit = m_fields.begin(); mit != m_fields.end(); mit++)
{
field = *mit;
relativeName = BE_Globals::RelativeScope(scopedName, field->StructMemberTypeName ());
ts << tab << tab << "next." << field->get_local_name() << "_ = " << field->get_local_name()
<< "_[i < " << field->get_local_name() << "_.size()? i : " << field->get_local_name()
<< "_.size() -1];" << nl;
}
ts << tab << tab << "values.push_back(next);" << nl
<< tab << "}" << nl
<< tab << "return values;" << nl;
ts << "} }" << nl << nl;
testsource.Outdent();
testsource.Close();
}
GenerateAuxTypes (source);
be_root::GenerateDependants(source, SequenceMemberTypeName(),
EnclosingScope());
}
}
