/** Unit test to check for regression of [JACKSON-18]. */
  public void testSmallNumbers() throws Exception {
    ObjectMapper mapper = new ObjectMapper();
    ArrayNode root = mapper.createArrayNode();
    for (int i = -20; i <= 20; ++i) {
      JsonNode n = root.numberNode(i);
      root.add(n);
      // Hmmh. Not sure why toString() won't be triggered otherwise...
      assertEquals(String.valueOf(i), n.toString());
    }

    // Loop over 2 different serialization methods
    for (int type = 0; type < 2; ++type) {
      StringWriter sw = new StringWriter();
      if (type == 0) {
        JsonGenerator gen = new JsonFactory().createGenerator(sw);
        root.serialize(gen, null);
        gen.close();
      } else {
        mapper.writeValue(sw, root);
      }

      String doc = sw.toString();
      JsonParser p = new JsonFactory().createParser(new StringReader(doc));

      assertEquals(JsonToken.START_ARRAY, p.nextToken());
      for (int i = -20; i <= 20; ++i) {
        assertEquals(JsonToken.VALUE_NUMBER_INT, p.nextToken());
        assertEquals(i, p.getIntValue());
        assertEquals("" + i, p.getText());
      }
      assertEquals(JsonToken.END_ARRAY, p.nextToken());
      p.close();
    }
  }
  public void testFromMap() throws Exception {
    ObjectMapper mapper = new ObjectMapper();
    ObjectNode root = mapper.createObjectNode();
    root.put(FIELD4, TEXT2);
    root.put(FIELD3, -1);
    root.putArray(FIELD2);
    root.put(FIELD1, DOUBLE_VALUE);

    /* Let's serialize using one of two alternate methods:
     * first preferred (using generator)
     * (there are 2 variants here too)
     */
    for (int i = 0; i < 2; ++i) {
      StringWriter sw = new StringWriter();
      if (i == 0) {
        JsonGenerator gen = new JsonFactory().createGenerator(sw);
        root.serialize(gen, null);
        gen.close();
      } else {
        mapper.writeValue(sw, root);
      }
      verifyFromMap(sw.toString());
    }

    // And then convenient but less efficient alternative:
    verifyFromMap(root.toString());
  }
  public void testFromArray() throws Exception {
    ObjectMapper mapper = new ObjectMapper();
    ArrayNode root = mapper.createArrayNode();
    root.add(TEXT1);
    root.add(3);
    ObjectNode obj = root.addObject();
    obj.put(FIELD1, true);
    obj.putArray(FIELD2);
    root.add(false);

    /* Ok, ready... let's serialize using one of two alternate
     * methods: first preferred (using generator)
     * (there are 2 variants here too)
     */
    for (int i = 0; i < 2; ++i) {
      StringWriter sw = new StringWriter();
      if (i == 0) {
        JsonGenerator gen = new JsonFactory().createGenerator(sw);
        root.serialize(gen, null);
        gen.close();
      } else {
        mapper.writeValue(sw, root);
      }
      verifyFromArray(sw.toString());
    }

    // And then convenient but less efficient alternative:
    verifyFromArray(root.toString());
  }
예제 #4
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 // Test for [JACKSON-554]
 public void testTreeToValue() throws Exception {
   String JSON = "{\"leaf\":{\"value\":13}}";
   ObjectMapper mapper = new ObjectMapper();
   mapper.addMixInAnnotations(Leaf.class, LeafMixIn.class);
   JsonNode root = mapper.readTree(JSON);
   // Ok, try converting to bean using two mechanisms
   Root r1 = mapper.treeToValue(root, Root.class);
   assertNotNull(r1);
   assertEquals(13, r1.leaf.value);
 }
예제 #5
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 // [Issue#232]
 public void testBigDecimalAsPlainStringTreeConversion() throws Exception {
   ObjectMapper mapper = new ObjectMapper();
   mapper.enable(SerializationFeature.WRITE_BIGDECIMAL_AS_PLAIN);
   Map<String, Object> map = new HashMap<String, Object>();
   String PI_STR = "3.00000000";
   map.put("pi", new BigDecimal(PI_STR));
   JsonNode tree = mapper.valueToTree(map);
   assertNotNull(tree);
   assertEquals(1, tree.size());
   assertTrue(tree.has("pi"));
 }
예제 #6
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  /**
   * Simple test to verify that byte[] values can be handled properly when converting, as long as
   * there is metadata (from POJO definitions).
   */
  public void testIssue709() throws Exception {
    byte[] inputData = new byte[] {1, 2, 3};
    ObjectNode node = MAPPER.createObjectNode();
    node.put("data", inputData);
    Issue709Bean result = MAPPER.treeToValue(node, Issue709Bean.class);
    String json = MAPPER.writeValueAsString(node);
    Issue709Bean resultFromString = MAPPER.readValue(json, Issue709Bean.class);
    Issue709Bean resultFromConvert = MAPPER.convertValue(node, Issue709Bean.class);

    // all methods should work equally well:
    Assert.assertArrayEquals(inputData, resultFromString.data);
    Assert.assertArrayEquals(inputData, resultFromConvert.data);
    Assert.assertArrayEquals(inputData, result.data);
  }
  public void testBinary() throws Exception {
    ObjectMapper mapper = new ObjectMapper();
    final int LENGTH = 13045;
    byte[] data = new byte[LENGTH];
    for (int i = 0; i < LENGTH; ++i) {
      data[i] = (byte) i;
    }
    StringWriter sw = new StringWriter();
    mapper.writeValue(sw, BinaryNode.valueOf(data));

    JsonParser p = new JsonFactory().createParser(sw.toString());
    // note: can't determine it's binary from json alone:
    assertToken(JsonToken.VALUE_STRING, p.nextToken());
    assertArrayEquals(data, p.getBinaryValue());
    p.close();
  }
예제 #8
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 public void testEmbeddedObject() throws Exception {
   TokenBuffer buf = new TokenBuffer(MAPPER);
   buf.writeObject(new byte[3]);
   JsonNode node = MAPPER.readTree(buf.asParser());
   buf.close();
   assertTrue(node.isBinary());
   byte[] data = node.binaryValue();
   assertNotNull(data);
   assertEquals(3, data.length);
 }
예제 #9
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 public void testEmbeddedObjectInArray() throws Exception {
   TokenBuffer buf = new TokenBuffer(MAPPER);
   buf.writeStartArray();
   buf.writeObject(MARKER);
   buf.writeEndArray();
   JsonNode node = MAPPER.readTree(buf.asParser());
   buf.close();
   assertTrue(node.isArray());
   assertEquals(1, node.size());
   JsonNode n = node.get(0);
   assertTrue(n.isPojo());
   assertSame(MARKER, ((POJONode) n).getPojo());
 }