Example #1
0
void UmlClassMember::write_type(FileOut & out, const UmlTypeSpec & t, Q3CString s, const char * k_name, const char * k_type)
{
    s = s.simplifyWhiteSpace();

    int index;

    // remove k_name and all after it except []
    if (k_name && *k_name && ((index = s.find(k_name, 0)) != -1)) {//[rageek] Removed CS=FALSE - rethink this, case sensitive
        //remove name
        s.remove(index, strlen(k_name));

        for (;;) {
            if (s[index] == ' ')
                s.remove(index, 1);

            if (s[index] != '[')
                break;

            index += 1;

            int index2;

            if ((index2 = s.find(index, ']')) == -1)
                break;

            index = index2 + 1;
        }

        s.resize(index);
    }
    else if ((index = s.find('=')) != -1) {
        s.resize(index);
        s = s.simplifyWhiteSpace();
    }

    if (k_type && *k_type && ((index = s.find(k_type)) == -1))
        out.idref_datatype(s);
    else if (s != k_type) {
        // have modifiers
        if (t.type != 0) {
            s.replace(index, strlen(k_type), t.type->name());
            out.idref(s, t.type);
        }
        else
            out.idref_datatype(s.replace(index, strlen(k_type), t.explicit_type));
    }
    else if (t.type != 0)
        out.idref(t.type);
    else
        out.idref_datatype(t.explicit_type);
}
Example #2
0
void UmlOperation::write_return_type(FileOut & out, QCString decl) {
  const UmlTypeSpec & t = returnType();
  static int return_rank = 0;
  
  if ((t.type != 0) || !t.explicit_type.isEmpty()) {
    out.indent();
    out << "<UML:Parameter name=\"return\" xmi.id=\"BOUML_return_"
        << ++return_rank << "\" kind=\"return\">\n";
    out.indent();
    out << "\t<UML:Parameter.type>\n";
    out.indent();
    out << "\t\t<UML:DataType";
    switch (_lang) {
    case Uml:
      if (t.type != 0)
	out.idref(t.type);
      else
	out.idref_datatype(t.explicit_type);
      break;
    case Cpp:
      write_cpp_returntype(out, decl);
      break;
    default: // java
      write_java_returntype(out, decl);
    }
    out << "/>\n";
    out.indent();
    out << "\t</UML:Parameter.type>\n";
    out.indent();
    out << "</UML:Parameter>\n";
  }
}
Example #3
0
void UmlOperation::write_uml_params(FileOut & out) {
  const QValueList<UmlParameter> p = params();
  QValueList<UmlParameter>::ConstIterator it;
  
  for (it = p.begin(); it != p.end(); ++it) {
    out.indent();
    out << "<UML:Parameter name=\"" << (*it).name
      << "\" xmi.id=\"BOUML_op_param_"
	<< ++param_id << "\" kind =\"";
    switch ((*it).dir) {
    case InputOutputDirection: out << "inout\">\n"; break;
    case OutputDirection: out << "out\">\n"; break;
    default: out << "in\">\n";
    }
    
    const UmlTypeSpec & pt = (*it).type;
    
    if (pt.type != 0) {
      out.indent();
      out << "\t<UML:Parameter.type>\n";
      out.indent();
      out << "\t\t<UML:DataType";
      out.idref(pt.type);
      out << "/>\n";
      out.indent();
      out << "\t</UML:Parameter.type>\n";
    }
    else if (!pt.explicit_type.isEmpty()) {
      out.indent();
      out << "\t<UML:Parameter.type>\n";
      out.indent();
      out << "\t\t<UML:DataType";
      out.idref_datatype(pt.explicit_type);
      out << "/>\n";
      out.indent();
      out << "\t</UML:Parameter.type>\n";
    }
    
    out.indent();
    out << "</UML:Parameter>\n";
  }
}
Example #4
0
void UmlOperation::write_exceptions(FileOut & out)
{
    const Q3ValueList<UmlTypeSpec> excpts = exceptions();
    Q3ValueList<UmlTypeSpec>::ConstIterator iter;

    for (iter = excpts.begin(); iter != excpts.end(); ++iter) {
        const UmlTypeSpec & e = *iter;

        if (e.type != 0) {
            out.indent();
            out << "<raisedException";
            out.idref(e.type);
            out << "/>\n";
        }
        else if (!e.explicit_type.isEmpty()) {
            out.indent();
            out << "<raisedException";
            out.idref_datatype(e.explicit_type);
            out << "/>\n";
        }
    }
}
Example #5
0
void UmlItem::write_type(FileOut & out, const UmlTypeSpec & t, const char * tk)
{
    if (t.type != 0) {
        out.indent();
        out << '<' << ((tk != 0) ? tk : "type") << " xmi:type=\"uml:Class\"";
        out.idref(t.type);
        out << "/>\n";
    }
    else if (!t.explicit_type.isEmpty()) {
        out.indent();
        out << '<' << ((tk != 0) ? tk : "type") << " xmi:type=\"uml:";

        if (t.explicit_type == "int")
            out << ((_uml_20)
                    ? "PrimitiveType\" href=\"http://schema.omg.org/spec/UML/2.0/uml.xml#Integer\"/>\n"
                    : "PrimitiveType\" href=\"http://schema.omg.org/spec/UML/2.1/uml.xml#Integer\"/>\n");
        else if (t.explicit_type == "bool")
            out << ((_uml_20)
                    ? "PrimitiveType\" href=\"http://schema.omg.org/spec/UML/2.0/uml.xml#Boolean\"/>\n"
                    : "PrimitiveType\" href=\"http://schema.omg.org/spec/UML/2.1/uml.xml#Boolean\"/>\n");
        else if (t.explicit_type == "string")
            out << ((_uml_20)
                    ? "PrimitiveType\" href=\"http://schema.omg.org/spec/UML/2.0/uml.xml#String\"/>\n"
                    : "PrimitiveType\" href=\"http://schema.omg.org/spec/UML/2.1/uml.xml#String\"/>\n");
        else if (t.explicit_type == "long")
            out << ((_uml_20)
                    ? "PrimitiveType\" href=\"http://schema.omg.org/spec/UML/2.0/uml.xml#UnlimitedNatural\"/>\n"
                    : "PrimitiveType\" href=\"http://schema.omg.org/spec/UML/2.1/uml.xml#UnlimitedNatural\"/>\n");
        else {
            out << "Class\"";
            out.idref_datatype(t.explicit_type);
            out << "/>\n";
        }
    }

}
Example #6
0
bool UmlAttribute::write_if_needed(FileOut & out)
{
    switch (_lang) {
    case Uml:
        parent()->write(out);
        out.indent();
        out << "<UML:Attribute name=\"" << name() << '"';
        break;

    case Cpp:
        if (cppDecl().isEmpty())
            return FALSE;

        parent()->write(out);
        out.indent();
        out << "<UML:Attribute name=\"" << true_name(cppDecl()) << '"';
        break;

    default: // Java
        if (javaDecl().isEmpty())
            return FALSE;

        parent()->write(out);
        out.indent();
        out << "<UML:Attribute name=\"" << true_name(javaDecl()) << '"';
        break;
    }

    out.id(this);

    switch (_lang) {
    case Uml:
        write_visibility(out);
        break;

    case Cpp:
        write_visibility(out,
                         (cppVisibility() == DefaultVisibility)
                         ? visibility() : cppVisibility());
        break;

    default: // Java
        if (javaDecl().find("${visibility}") != -1)
            write_visibility(out, visibility());

        break;
    }

    write_scope(out);
    out << ">\n";
    out.indent(+1);

    const UmlTypeSpec & t = type();

    if ((t.type != 0) || !t.explicit_type.isEmpty()) {
        out.indent();
        out << "<UML:StructuralFeature.type>\n";
        out.indent();
        out << "\t<UML:DataType";

        switch (_lang) {
        case Uml:
            if (t.type != 0)
                out.idref(t.type);
            else
                out.idref_datatype(t.explicit_type);

            break;

        case Cpp:
            write_cpp_type(out);
            break;

        default: // java
            write_java_type(out);
        }

        out << "/>\n";
        out.indent();
        out << "</UML:StructuralFeature.type>\n";
    }

    write_stereotype(out);
    write_annotation(out);
    write_description_properties(out);

    out.indent(-1);
    out.indent();
    out << "</UML:Attribute>\n";

    unload();

    return TRUE;
}