Beispiel #1
0
  private Node composeScalarNode(String anchor) {
    ScalarEvent ev = (ScalarEvent) this.parser.getEvent();
    String tag = ev.getTag();
    boolean resolved = false;
    Tag nodeTag;
    if ((tag == null) || (tag.equals("!"))) {
      Tag nodeTag =
          this.resolver.resolve(
              NodeId.scalar, ev.getValue(), ev.getImplicit().canOmitTagInPlainScalar());

      resolved = true;
    } else {
      nodeTag = new Tag(tag);
    }
    Node node =
        new ScalarNode(
            nodeTag, resolved, ev.getValue(), ev.getStartMark(), ev.getEndMark(), ev.getStyle());
    if (anchor != null) {
      this.anchors.put(anchor, node);
    }
    return node;
  }
Beispiel #2
0
  @JRubyMethod
  public IRubyObject parse(ThreadContext context, IRubyObject target) {
    Ruby runtime = context.runtime;

    // FIXME? only supports Unicode, since we have to produces strings...
    StreamReader reader;
    if (target.respondsTo("read")) {
      reader = new StreamReader(new InputStreamReader(new IOInputStream(target)));
    } else {
      reader = new StreamReader(new StringReader(target.convertToString().asJavaString()));
    }
    Parser parser = new ParserImpl(reader);
    IRubyObject handler = getInstanceVariable("@handler");
    Event event;

    while (true) {
      try {
        event = parser.getEvent();

        // FIXME: Event should expose a getID, so it can be switched
        if (event.is(ID.StreamStart)) {
          invoke(context, handler, "start_stream", runtime.newFixnum(YAML_ANY_ENCODING));
        } else if (event.is(ID.DocumentStart)) {
          DocumentStartEvent dse = (DocumentStartEvent) event;

          Integer[] versionInts = dse.getVersion();
          IRubyObject version =
              versionInts == null
                  ? runtime.getNil()
                  : RubyArray.newArray(
                      runtime,
                      runtime.newFixnum(versionInts[0]),
                      runtime.newFixnum(versionInts[1]));

          Map<String, String> tagsMap = dse.getTags();
          RubyArray tags = RubyArray.newArray(runtime);
          if (tags.size() > 0) {
            for (Map.Entry<String, String> tag : tagsMap.entrySet()) {
              tags.append(
                  RubyArray.newArray(
                      runtime,
                      RubyString.newString(runtime, tag.getKey()),
                      RubyString.newString(runtime, tag.getValue())));
            }
          }

          invoke(
              context,
              handler,
              "start_document",
              version,
              tags,
              runtime.newBoolean(dse.getExplicit()));
        } else if (event.is(ID.DocumentEnd)) {
          DocumentEndEvent dee = (DocumentEndEvent) event;
          invoke(context, handler, "end_document", runtime.newBoolean(dee.getExplicit()));
        } else if (event.is(ID.Alias)) {
          AliasEvent ae = (AliasEvent) event;
          IRubyObject alias = runtime.getNil();
          if (ae.getAnchor() != null) {
            alias = RubyString.newString(runtime, ae.getAnchor());
          }

          invoke(context, handler, "alias", alias);
        } else if (event.is(ID.Scalar)) {
          ScalarEvent se = (ScalarEvent) event;
          IRubyObject anchor =
              se.getAnchor() == null
                  ? runtime.getNil()
                  : RubyString.newString(runtime, se.getAnchor());
          IRubyObject tag =
              se.getTag() == null ? runtime.getNil() : RubyString.newString(runtime, se.getTag());
          IRubyObject plain_implicit = runtime.newBoolean(se.getImplicit().isFirst());
          IRubyObject quoted_implicit = runtime.newBoolean(se.getImplicit().isSecond());
          IRubyObject style = runtime.newFixnum(se.getStyle());
          IRubyObject val = RubyString.newString(runtime, se.getValue());

          invoke(
              context, handler, "scalar", val, anchor, tag, plain_implicit, quoted_implicit, style);
        } else if (event.is(ID.SequenceStart)) {
          SequenceStartEvent sse = (SequenceStartEvent) event;
          IRubyObject anchor =
              sse.getAnchor() == null
                  ? runtime.getNil()
                  : RubyString.newString(runtime, sse.getAnchor());
          IRubyObject tag =
              sse.getTag() == null ? runtime.getNil() : RubyString.newString(runtime, sse.getTag());
          IRubyObject implicit = runtime.newBoolean(sse.getImplicit());
          IRubyObject style = runtime.newFixnum(sse.getFlowStyle() ? 1 : 0);

          invoke(context, handler, "start_sequence", anchor, tag, implicit, style);
        } else if (event.is(ID.SequenceEnd)) {
          invoke(context, handler, "end_sequence");
        } else if (event.is(ID.MappingStart)) {
          MappingStartEvent mse = (MappingStartEvent) event;
          IRubyObject anchor =
              mse.getAnchor() == null
                  ? runtime.getNil()
                  : RubyString.newString(runtime, mse.getAnchor());
          IRubyObject tag =
              mse.getTag() == null ? runtime.getNil() : RubyString.newString(runtime, mse.getTag());
          IRubyObject implicit = runtime.newBoolean(mse.getImplicit());
          IRubyObject style = runtime.newFixnum(mse.getFlowStyle() ? 1 : 0);

          invoke(context, handler, "start_mapping", anchor, tag, implicit, style);
        } else if (event.is(ID.MappingEnd)) {
          invoke(context, handler, "end_mapping");
        } else if (event.is(ID.StreamEnd)) {
          invoke(context, handler, "end_stream");
          break;
        }
      } catch (ParserException pe) {
        parser = null;
        RubyKernel.raise(
            context,
            runtime.getModule("Psych").getConstant("SyntaxError"),
            new IRubyObject[] {runtime.newString(pe.getLocalizedMessage())},
            Block.NULL_BLOCK);
      }
    }

    return this;
  }