File path: /jfreechart-1.0.10/tests/org/jfree/data/statistics/junit/MeanAndStandardDeviationTests.java | File path: /jfreechart-1.0.10/tests/org/jfree/data/time/junit/TimeTableXYDatasetTests.java | |||
Method name: void testSerialization()
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Method name: void testSerialization()
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Number of AST nodes: 11 | Number of AST nodes: 12 | |||
1 | MeanAndStandardDeviation m1 = new MeanAndStandardDeviation(1.2, 3.4);↵ | |||
2 | MeanAndStandardDeviation m↵ | 1 | TimeTableXYDataset d1 = new TimeTableXYDataset();↵ | |
2 | d1.add(new Year(1999), 123.4, "S1");↵ | |||
3 | 2 = null;↵ | 3 | TimeTableXYDataset d2 = null;↵ | |
4 | try {↵ | 4 | try {↵ | |
5 | ByteArrayOutputStream buffer = new ByteArrayOutputStream();↵ | 5 | ByteArrayOutputStream buffer = new ByteArrayOutputStream();↵ | |
6 | ObjectOutput out = new ObjectOutputStream(buffer);↵ | 6 | ObjectOutput out = new ObjectOutputStream(buffer);↵ | |
7 | out.writeObject(m1);↵ | 7 | out.writeObject(d1);↵ | |
8 | out.close();↵ | 8 | out.close();↵ | |
9 | ObjectInput in = new ObjectInputStream(↵ | 9 | ObjectInput in = new ObjectInputStream(↵ | |
10 | new ByteArrayInputStream(↵ | 10 | new ByteArrayInputStream(↵ | |
11 | buffer.toByteArray())↵ | 11 | buffer.toByteArray())↵ | |
12 | );↵ | 12 | );↵ | |
13 | m2 = (MeanAndStandardDeviation) in.readObject();↵ | 13 | d2 = (TimeTableXYDataset) in.readObject();↵ | |
14 | in.close();↵ | 14 | in.close();↵ | |
15 | }↵ | 15 | }↵ | |
16 | catch (Exception e) {↵ | 16 | catch (Exception e) {↵ | |
17 | System.out.println(e.toString());↵ | 17 | e.printStackTrace();↵ | |
18 | }↵ | 18 | }↵ | |
19 | assertEquals(m1, m2); | 19 | assertTrue(d1.equals(d2)); | |
See real code fragment | See real code fragment |
Number of common nesting structure subtrees | 1 |
Number of refactorable cases | 0 |
Number of non-refactorable cases | 1 |
Time elapsed for finding largest common nesting structure subtrees (ms) | 0.3 |
Clones location | Clones are in different classes having the same super class |
Number of node comparisons | 76 |
Number of mapped statements | 8 |
Number of unmapped statements in the first code fragment | 3 |
Number of unmapped statements in the second code fragment | 4 |
Time elapsed for statement mapping (ms) | 35.4 |
Clone type | Type 3 |
ID | Statement | ID | Statement | ||||||||||||||||||||||||||
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| 1 | TimeTableXYDataset d1 = new TimeTableXYDataset(); | ||||||||||||||||||||||||||
1 | MeanAndStandardDeviation m1 = new MeanAndStandardDeviation(1.2, 3.4); |
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| 2 | d1.add(new Year(1999), 123.4, "S1"); | ||||||||||||||||||||||||||
2 | MeanAndStandardDeviation m2 = null; | | |||||||||||||||||||||||||||
| 3 | TimeTableXYDataset d2 = null; | |||||||||||||||||||||||||||
3 | try |
| 4 | try | |||||||||||||||||||||||||
4 | ByteArrayOutputStream buffer = new ByteArrayOutputStream(); | 5 | ByteArrayOutputStream buffer = new ByteArrayOutputStream(); | ||||||||||||||||||||||||||
5 | ObjectOutput out = new ObjectOutputStream(buffer); | 6 | ObjectOutput out = new ObjectOutputStream(buffer); | ||||||||||||||||||||||||||
6 | out.writeObject(m1); |
| 7 | out.writeObject(d1); | |||||||||||||||||||||||||
7 | out.close(); | 8 | out.close(); | ||||||||||||||||||||||||||
8 | ObjectInput in = new ObjectInputStream(new ByteArrayInputStream(buffer.toByteArray())); | 9 | ObjectInput in = new ObjectInputStream(new ByteArrayInputStream(buffer.toByteArray())); | ||||||||||||||||||||||||||
9 | m2 = (MeanAndStandardDeviation)in.readObject(); |
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| 10 | d2 = (TimeTableXYDataset)in.readObject(); | ||||||||||||||||||||||||||
10 | in.close(); | 11 | in.close(); | ||||||||||||||||||||||||||
11 | assertEquals(m1, m2); |
| 12 | assertTrue(d1.equals(d2)); |
Row | Violation |
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1 | Unmatched statement TimeTableXYDataset d1=new TimeTableXYDataset(); cannot be moved before the extracted code, because it has control dependencies from statements that will be extracted |
2 | Unmatched statement MeanAndStandardDeviation m1=new MeanAndStandardDeviation(1.2,3.4); cannot be moved before the extracted code, because it has control dependencies from statements that will be extracted |
3 | Unmatched statement d1.add(new Year(1999),123.4,"S1"); cannot be moved before the extracted code, because it has control dependencies from statements that will be extracted |
4 | Expression System.out.println(e.toString()) cannot be parameterized, because it has dependencies to/from statements that will be extracted |
5 | Expression e.printStackTrace() cannot be parameterized, because it has dependencies to/from statements that will be extracted |
6 | Expression System.out.println(e.toString()) is a void method call, and thus it cannot be parameterized |
7 | Expression e.printStackTrace() is a void method call, and thus it cannot be parameterized |
8 | Expression e cannot be parameterized, because it has dependencies to/from statements that will be extracted |
9 | Expression System.out.println(e.toString()) cannot be parameterized, because it has dependencies to/from statements that will be extracted |
10 | Expression e.printStackTrace() cannot be parameterized, because it has dependencies to/from statements that will be extracted |
11 | Expression System.out.println(e.toString()) is a void method call, and thus it cannot be parameterized |
12 | Expression e.printStackTrace() is a void method call, and thus it cannot be parameterized |
13 | Type org.jfree.data.statistics.MeanAndStandardDeviation of variable m1 does not match with type org.jfree.data.time.TimeTableXYDataset of variable d1 |
14 | Unmatched statement m2=(MeanAndStandardDeviation)in.readObject(); cannot be moved before or after the extracted code, because it has dependencies to/from statements that will be extracted |
15 | Unmatched statement m2=(MeanAndStandardDeviation)in.readObject(); cannot be moved before or after the extracted code, because it throws exception(s) that should be caught by a try block that will be extracted |
16 | Unmatched statement d2=(TimeTableXYDataset)in.readObject(); cannot be moved before or after the extracted code, because it has dependencies to/from statements that will be extracted |
17 | Unmatched statement d2=(TimeTableXYDataset)in.readObject(); cannot be moved before or after the extracted code, because it throws exception(s) that should be caught by a try block that will be extracted |
18 | Expression assertEquals(m1,m2) cannot be parameterized, because it has dependencies to/from statements that will be extracted |
19 | Expression assertTrue(d1.equals(d2)) cannot be parameterized, because it has dependencies to/from statements that will be extracted |
20 | Expression assertEquals(m1,m2) is a void method call, and thus it cannot be parameterized |
21 | Expression assertTrue(d1.equals(d2)) is a void method call, and thus it cannot be parameterized |
22 | Expression assertEquals(m1,m2) cannot be parameterized, because it has dependencies to/from statements that will be extracted |
23 | Expression assertTrue(d1.equals(d2)) cannot be parameterized, because it has dependencies to/from statements that will be extracted |
24 | Expression assertEquals(m1,m2) is a void method call, and thus it cannot be parameterized |
25 | Expression assertTrue(d1.equals(d2)) is a void method call, and thus it cannot be parameterized |