Esempio n. 1
0
  /**
   * Helper method to generate the signatures for binding the factory. Must account for the
   * inheritance relationships for any arguments that are classes. Ths, each argument can
   * potentially result in a range of values for type, and we have to handle the cross product of
   * all of these.
   */
  private static Vector makeFactoryNames(IXMLElement constructor) {
    String factoryName = XMLUtil.nameOf(constructor.getParent());
    Vector allPermutations = new Vector();
    for (Enumeration e = constructor.enumerateChildren(); e.hasMoreElements(); ) {
      IXMLElement element = (IXMLElement) e.nextElement();

      if (!element.getName().equals("arg")) {
        break;
      }

      String argType = XMLUtil.typeOf(element);
      Vector argTypeAlternates = new Vector();
      argTypeAlternates.add(argType);

      if (ModelAccessor.isClass(argType)) {
        List ancestors = ModelAccessor.getAncestors(argType);
        if (ancestors != null) argTypeAlternates.addAll(ancestors);
      }

      allPermutations.add(argTypeAlternates);
    }

    // Generate all the signatures
    Vector factoryNames = new Vector();
    makeFactoryNames(factoryName, allPermutations, 0, factoryNames);
    return factoryNames;
  }
Esempio n. 2
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 public static void declareConstructor(IndentWriter writer, IXMLElement constructor)
     throws IOException {
   IXMLElement klass = constructor.getParent();
   SharedWriter.generateFileLocation(writer, klass);
   if (klass == null) {
     throw new RuntimeException("constructor not contained in a class");
   }
   String name = XMLUtil.getAttribute(klass, "name");
   writer.write("virtual void ");
   generateSignature(writer, constructor);
   writer.write(";\n");
 }
Esempio n. 3
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 private static String getVariableType(Vector classVariables, String name) {
   String type = "!ERROR";
   for (int i = 0; i < classVariables.size(); i++) {
     IXMLElement variable = (IXMLElement) classVariables.elementAt(i);
     if (XMLUtil.nameOf(variable).equals(name)) {
       type = XMLUtil.getAttribute(variable, "type");
       String _class = XMLUtil.getAttribute(variable.getParent(), "name");
       if (ModelAccessor.isEnumeration(_class + "::" + type)) type = _class + "::" + type;
       break;
     }
   }
   return type;
 }
Esempio n. 4
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  public static void generateFactory(IndentWriter writer, IXMLElement constructor)
      throws IOException {
    IXMLElement klass = constructor.getParent();
    SharedWriter.generateFileLocation(writer, klass);

    if (klass == null) throw new RuntimeException("missing class for factory");

    String longname = XMLUtil.nameOf(klass) + "Factory" + s_factoryCounter++;

    writer.write("class " + longname + ": public ObjectFactory {\n");
    writer.write("public:\n");
    writer.indent();
    writer.write(longname + "(const LabelStr& name): ObjectFactory(name){}\n");
    writer.unindent();
    writer.write("private:\n");
    writer.indent();
    writer.write("ObjectId createInstance(const PlanDatabaseId& planDb,\n");
    writer.write("                        const LabelStr& objectType, \n");
    writer.write("                        const LabelStr& objectName,\n");
    writer.write(
        "                        const std::vector<const AbstractDomain*>& arguments) const {\n");
    writer.indent();

    Vector constructorAssignments = constructor.getChildrenNamed("arg");
    String klassName = XMLUtil.nameOf(klass);
    String constructorArguments = "";
    String comma = "";

    // Do some type checking - at least the size must match!
    writer.write("check_error(arguments.size() == " + constructorAssignments.size() + ");\n");

    // Process arguments, defining local variables and giving them initial values
    for (int i = 0; i < constructorAssignments.size(); i++) {
      IXMLElement element = (IXMLElement) constructorAssignments.elementAt(i);
      String target = XMLUtil.getAttribute(element, "name");
      String type = XMLUtil.getAttribute(element, "type");
      writer.write("check_error(AbstractDomain::canBeCompared(*arguments[" + i + "], \n");
      writer.write(
          "                                          planDb->getConstraintEngine()->getCESchema()->baseDomain(\""
              + type
              + "\")), \n");
      writer.write(
          "            \"Cannot convert \" + arguments["
              + i
              + "]->getTypeName().toString() + \" to "
              + type
              + "\");\n");
      writer.write("check_error(arguments[" + i + "]->isSingleton());\n");

      String localVarType =
          makeArgumentType(
              type); // Some conversion may be required for Id's or strings or enumerations

      // Declare local variable for current argument
      writer.write(
          localVarType
              + " "
              + target
              + "(("
              + localVarType
              + ")arguments["
              + i
              + "]->getSingletonValue());\n\n");
      constructorArguments = constructorArguments + comma + target;
      comma = ", ";
    }

    // Now do the declaration and allocation of the instance
    writer.write(
        klassName
            + "Id instance = (new "
            + klassName
            + "(planDb, objectType, objectName))->getId();\n");
    writer.write("instance->constructor(" + constructorArguments + ");\n");
    writer.write("instance->handleDefaults();\n");
    writer.write("return instance;\n");
    writer.unindent();
    writer.write("}\n");
    writer.unindent();
    writer.write("};\n");

    // Generate all appropriate registration informationLabelStr
    Vector factoryNames = makeFactoryNames(constructor);
    for (int i = 0; i < factoryNames.size(); i++) {
      String factoryName = (String) factoryNames.elementAt(i);
      SchemaWriter.addFactory(
          "REGISTER_OBJECT_FACTORY(id," + longname + ", " + factoryName + ");\n");
    }
  }
Esempio n. 5
0
  public static void defineConstructor(IndentWriter writer, IXMLElement constructor)
      throws IOException {
    assert (DebugMsg.debugMsg("ClassWriter", "Begin ClassWriter::defineConstructor"));
    IXMLElement klass = constructor.getParent();
    SharedWriter.generateFileLocation(writer, klass);

    if (klass == null) {
      throw new RuntimeException("missing class for constructor");
    }

    String longname = XMLUtil.nameOf(klass);
    writer.write("void " + longname + "::");
    generateSignature(writer, constructor);
    writer.write(" {\n");
    writer.indent();

    // If the constructor has a call to the super class, invoke it.
    assert (DebugMsg.debugMsg(
        "ClassWriter", "ClassWriter::defineConstructor -  getting children named 'super'"));
    Vector superCalls = constructor.getChildrenNamed("super");
    assert (DebugMsg.debugMsg(
        "ClassWriter",
        "ClassWriter::defineConstructor -  " + superCalls.size() + " children named retrieved"));
    if (!superCalls.isEmpty()) {
      assert (DebugMsg.debugMsg("ClassWriter", "ClassWriter::defineConstructor -  calling super"));

      if (superCalls.size() > 1) writer.write("!ERROR: AT MOST ONE CALL TO SUPER ALLOWED\n");

      IXMLElement superCall = (IXMLElement) superCalls.elementAt(0);
      String superClass = ModelAccessor.getParentClassName(klass);
      String superCppClass = ModelAccessor.getCppClass(superClass);
      writer.write(superCppClass + "::constructor(");
      String comma = "";
      Enumeration arguments = superCall.enumerateChildren();
      while (arguments.hasMoreElements()) {
        IXMLElement argument = (IXMLElement) arguments.nextElement();
        String value = ModelAccessor.getValue(argument);
        if (argument.getName().equals("value")
            && XMLUtil.getAttribute(argument, "type").equals("string"))
          writer.write(comma + "\"" + value + "\"");
        else writer.write(comma + value);
        comma = ", ";
      }
      writer.write(");\n");
    }

    Set allocatedMemberVariables = new HashSet(); // Store names as we go for reference

    /* Now capture names of constructor arguments */
    Set constructorArguments = new HashSet(); // Store for names of constructor arguments
    {
      Vector args = constructor.getChildrenNamed("arg");
      assert (DebugMsg.debugMsg(
          "ClassWriter",
          "ClassWriter::defineConstructor -  getting " + args.size() + " arguments"));
      for (int i = 0; i < args.size(); i++) {
        IXMLElement arg = (IXMLElement) args.elementAt(i);
        String argName = XMLUtil.getAttribute(arg, "name");
        constructorArguments.add(argName);
      }
    }

    Vector constructorAssignments = constructor.getChildrenNamed("assign");
    Vector classVariables = klass.getChildrenNamed("var");

    // Use the set below  to track when an assignment is being made more than once for same variable
    Set assignmentsMade = new HashSet();

    for (int i = 0; i < constructorAssignments.size(); i++) {
      IXMLElement element = (IXMLElement) constructorAssignments.elementAt(i);
      String target = XMLUtil.getAttribute(element, "name");

      if (assignmentsMade.contains(target)) {
        writer.write("!ERROR: Duplicate assignment for " + target + "\n");
      } else {
        assignmentsMade.add(target);
        // String type = getVariableType(classVariables, target);
        // trust in the parser, for it will assign the correct types
        String type = XMLUtil.getAttribute(element, "type");
        IXMLElement sourceElement = element.getChildAtIndex(0);

        if (sourceElement.getName().equals("new")) { // Handle object allocation
          assert (DebugMsg.debugMsg(
              "ClassWriter", "ClassWriter::defineConstructor -  allocating object for " + target));
          String sourceType = XMLUtil.typeOf(sourceElement);
          writer.write(target + " = addVariable(");
          writer.write(
              sourceType
                  + "Domain((new "
                  + sourceType
                  + "(m_id, \""
                  + target
                  + "\"))->getId(), \""
                  + sourceType
                  + "\")");
          writer.write(", " + makeObjectVariableNameString(target) + ");\n");
          writer.write(
              "Id<"
                  + type
                  + ">(singleton("
                  + target
                  + "))->constructor("
                  + buildArguments(
                      classVariables, constructorArguments, allocatedMemberVariables, sourceElement)
                  + ");\n"); // Invoke initialization
          writer.write(
              "Id<"
                  + type
                  + ">(singleton("
                  + target
                  + "))->handleDefaults();\n"); // Default variable setup
        } else { // Handle variable allocation
          String value = ModelAccessor.getValue(sourceElement);

          if (sourceElement.getName().equals("id") && type.equals(NddlXmlStrings.x_string))
            value = XMLUtil.escapeQuotes(value);
          else if (sourceElement.getName().equals(NddlXmlStrings.x_symbol)
              || XMLUtil.getAttribute(sourceElement, "type").equals(NddlXmlStrings.x_string))
            value = "LabelStr(\"" + XMLUtil.escapeQuotes(value) + "\")";
          else if (ModelAccessor.isNumericPrimitive(type)
              && !type.equals(NddlXmlStrings.x_boolean)) {
            // Set both bounds to singleton value
            value = value + ", " + value;
          }

          writer.write(target + " = addVariable(");

          if (allocatedMemberVariables.contains(
              value)) // If we are assigning one member to another, we obtain the base domain for it
          writer.write(value + "->baseDomain()");
          else writer.write(ModelAccessor.getDomain(type) + "(" + value + ", \"" + type + "\")");

          writer.write(", " + makeObjectVariableNameString(target) + ");\n");
        }
        // Add member to the set
        allocatedMemberVariables.add(target);
      }
    }

    writer.unindent();
    writer.write("}\n");
    assert (DebugMsg.debugMsg("ClassWriter", "End ClassWriter::defineConstructor"));
  }