/**
  * Generate the method types set and return true if the method summary table needs to show tabs.
  *
  * @return true if the table should show tabs
  */
 public boolean showTabs() {
   int value;
   for (MethodTypes type : EnumSet.allOf(MethodTypes.class)) {
     value = type.value();
     if ((value & methodTypesOr) == value) {
       methodTypes.add(type);
     }
   }
   boolean showTabs = methodTypes.size() > 1;
   if (showTabs) {
     methodTypes.add(MethodTypes.ALL);
   }
   return showTabs;
 }
  /**
   * Constructor.
   *
   * @param filename the file to be generated.
   * @throws IOException
   * @throws DocletAbortException
   */
  public PackageUseWriter(
      ConfigurationImpl configuration, ClassUseMapper mapper, DocPath filename, PackageDoc pkgdoc)
      throws IOException {
    super(configuration, DocPath.forPackage(pkgdoc).resolve(filename));
    this.pkgdoc = pkgdoc;

    // by examining all classes in this package, find what packages
    // use these classes - produce a map between using package and
    // used classes.
    ClassDoc[] content = pkgdoc.allClasses();
    for (int i = 0; i < content.length; ++i) {
      ClassDoc usedClass = content[i];
      Set<ClassDoc> usingClasses = mapper.classToClass.get(usedClass.qualifiedName());
      if (usingClasses != null) {
        for (Iterator<ClassDoc> it = usingClasses.iterator(); it.hasNext(); ) {
          ClassDoc usingClass = it.next();
          PackageDoc usingPackage = usingClass.containingPackage();
          Set<ClassDoc> usedClasses = usingPackageToUsedClasses.get(usingPackage.name());
          if (usedClasses == null) {
            usedClasses = new TreeSet<ClassDoc>();
            usingPackageToUsedClasses.put(Util.getPackageName(usingPackage), usedClasses);
          }
          usedClasses.add(usedClass);
        }
      }
    }
  }
Beispiel #3
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 /**
  * Loop through each indivitual parameter. It it does not have a corresponding param tag, try to
  * inherit it.
  */
 private TagletOutput getInheritedTagletOutput(
     boolean isNonTypeParams,
     Doc holder,
     TagletWriter writer,
     Object[] formalParameters,
     Set alreadyDocumented) {
   TagletOutput result = writer.getOutputInstance();
   if ((!alreadyDocumented.contains(null)) && holder instanceof MethodDoc) {
     for (int i = 0; i < formalParameters.length; i++) {
       if (alreadyDocumented.contains(String.valueOf(i))) {
         continue;
       }
       // This parameter does not have any @param documentation.
       // Try to inherit it.
       DocFinder.Output inheritedDoc =
           DocFinder.search(
               new DocFinder.Input((MethodDoc) holder, this, String.valueOf(i), !isNonTypeParams));
       if (inheritedDoc.inlineTags != null && inheritedDoc.inlineTags.length > 0) {
         result.appendOutput(
             processParamTag(
                 isNonTypeParams,
                 writer,
                 (ParamTag) inheritedDoc.holderTag,
                 isNonTypeParams
                     ? ((Parameter) formalParameters[i]).name()
                     : ((TypeVariable) formalParameters[i]).typeName(),
                 alreadyDocumented.size() == 0));
       }
       alreadyDocumented.add(String.valueOf(i));
     }
   }
   return result;
 }
Beispiel #4
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 /** Add links for exceptions that are declared but not documented. */
 private TagletOutput linkToUndocumentedDeclaredExceptions(
     Type[] declaredExceptionTypes, Set<String> alreadyDocumented, TagletWriter writer) {
   TagletOutput result = writer.getOutputInstance();
   // Add links to the exceptions declared but not documented.
   for (int i = 0; i < declaredExceptionTypes.length; i++) {
     if (declaredExceptionTypes[i].asClassDoc() != null
         && !alreadyDocumented.contains(declaredExceptionTypes[i].asClassDoc().name())
         && !alreadyDocumented.contains(declaredExceptionTypes[i].asClassDoc().qualifiedName())) {
       if (alreadyDocumented.size() == 0) {
         result.appendOutput(writer.getThrowsHeader());
       }
       result.appendOutput(writer.throwsTagOutput(declaredExceptionTypes[i]));
       alreadyDocumented.add(declaredExceptionTypes[i].asClassDoc().name());
     }
   }
   return result;
 }
Beispiel #5
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 /**
  * Given an array of <code>Tag</code>s representing this custom tag, return its string
  * representation. Print a warning for param tags that do not map to parameters. Print a warning
  * for param tags that are duplicated.
  *
  * @param paramTags the array of <code>ParamTag</code>s to convert.
  * @param writer the TagletWriter that will write this tag.
  * @param alreadyDocumented the set of exceptions that have already been documented.
  * @param rankMap a {@link java.util.Map} which holds ordering information about the parameters.
  * @param nameMap a {@link java.util.Map} which holds a mapping of a rank of a parameter to its
  *     name. This is used to ensure that the right name is used when parameter documentation is
  *     inherited.
  * @return the TagletOutput representation of this <code>Tag</code>.
  */
 private TagletOutput processParamTags(
     boolean isNonTypeParams,
     ParamTag[] paramTags,
     Map rankMap,
     TagletWriter writer,
     Set alreadyDocumented) {
   TagletOutput result = writer.getOutputInstance();
   if (paramTags.length > 0) {
     for (int i = 0; i < paramTags.length; ++i) {
       ParamTag pt = paramTags[i];
       String paramName = isNonTypeParams ? pt.parameterName() : "<" + pt.parameterName() + ">";
       if (!rankMap.containsKey(pt.parameterName())) {
         writer
             .getMsgRetriever()
             .warning(
                 pt.position(),
                 isNonTypeParams ? "doclet.Parameters_warn" : "doclet.Type_Parameters_warn",
                 paramName);
       }
       String rank = (String) rankMap.get(pt.parameterName());
       if (rank != null && alreadyDocumented.contains(rank)) {
         writer
             .getMsgRetriever()
             .warning(
                 pt.position(),
                 isNonTypeParams
                     ? "doclet.Parameters_dup_warn"
                     : "doclet.Type_Parameters_dup_warn",
                 paramName);
       }
       result.appendOutput(
           processParamTag(
               isNonTypeParams, writer, pt, pt.parameterName(), alreadyDocumented.size() == 0));
       alreadyDocumented.add(rank);
     }
   }
   return result;
 }
Beispiel #6
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 /**
  * Given an array of <code>Tag</code>s representing this custom tag, return its string
  * representation.
  *
  * @param throwTags the array of <code>ThrowsTag</code>s to convert.
  * @param writer the TagletWriter that will write this tag.
  * @param alreadyDocumented the set of exceptions that have already been documented.
  * @param allowDups True if we allow duplicate throws tags to be documented.
  * @return the TagletOutput representation of this <code>Tag</code>.
  */
 protected TagletOutput throwsTagsOutput(
     ThrowsTag[] throwTags,
     TagletWriter writer,
     Set<String> alreadyDocumented,
     boolean allowDups) {
   TagletOutput result = writer.getOutputInstance();
   if (throwTags.length > 0) {
     for (int i = 0; i < throwTags.length; ++i) {
       ThrowsTag tt = throwTags[i];
       ClassDoc cd = tt.exception();
       if ((!allowDups)
           && (alreadyDocumented.contains(tt.exceptionName())
               || (cd != null && alreadyDocumented.contains(cd.qualifiedName())))) {
         continue;
       }
       if (alreadyDocumented.size() == 0) {
         result.appendOutput(writer.getThrowsHeader());
       }
       result.appendOutput(writer.throwsTagOutput(tt));
       alreadyDocumented.add(cd != null ? cd.qualifiedName() : tt.exceptionName());
     }
   }
   return result;
 }