Пример #1
0
  @Ignore
  @Test
  public void gap() {
    SpanAlign root = makeSpanAlign(START_TIME, 240);
    CallTree callTree = new SpanCallTree(root);
    callTree.add(1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 0, 1, 1));
    callTree.add(2, makeSpanAlign(root.getSpanBo(), SYNC, (short) 1, 2, 1));
    callTree.add(3, makeSpanAlign(root.getSpanBo(), SYNC, (short) 2, 3, 1));
    callTree.add(4, makeSpanAlign(root.getSpanBo(), SYNC, (short) 3, 4, 1));
    callTree.add(-1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 4, 5, 1));
    callTree.add(2, makeSpanAlign(root.getSpanBo(), SYNC, (short) 5, 6, 1));
    callTree.add(3, makeSpanAlign(root.getSpanBo(), SYNC, (short) 6, 7, 1));
    callTree.add(-1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 7, 8, 1));
    callTree.add(1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 8, 9, 1));

    CallTreeIterator iterator = callTree.iterator();
    // assertEquals(5, iterator.size());

    while (iterator.hasNext()) {
      CallTreeNode node = iterator.next();
      SpanAlign align = node.getValue();
      for (int i = 0; i <= align.getDepth(); i++) {
        System.out.print("#");
      }
      System.out.println(" : gap=" + align.getGap());
    }
  }
Пример #2
0
  @Test
  public void gapComplex() {
    SpanAlign root = makeSpanAlign(START_TIME, 240);
    CallTree callTree = new SpanCallTree(root);
    callTree.add(1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 0, 1, 1));
    callTree.add(2, makeSpanAlign(root.getSpanBo(), SYNC, (short) 1, 2, 1));
    callTree.add(3, makeSpanAlign(root.getSpanBo(), SYNC, (short) 2, 3, 1));
    callTree.add(4, makeSpanAlign(root.getSpanBo(), SYNC, (short) 3, 4, 1, -1, 1));

    SpanAlign rpc = makeSpanAlign(START_TIME + 5, 240);
    CallTree rpcTree = new SpanCallTree(rpc);
    rpcTree.add(1, makeSpanAlign(rpc.getSpanBo(), SYNC, (short) 0, 1, 1));
    rpcTree.add(2, makeSpanAlign(rpc.getSpanBo(), SYNC, (short) 1, 2, 1));
    rpcTree.add(3, makeSpanAlign(rpc.getSpanBo(), SYNC, (short) 2, 3, 1));
    rpcTree.add(4, makeSpanAlign(rpc.getSpanBo(), SYNC, (short) 3, 4, 1));
    callTree.add(rpcTree);

    CallTree asyncTree = new SpanAsyncCallTree(root);
    asyncTree.add(1, makeSpanAlign(root.getSpanBo(), ASYNC, (short) 0, 5, 1, 1, -1));
    asyncTree.add(2, makeSpanAlign(root.getSpanBo(), ASYNC, (short) 1, 6, 1, 1, -1));
    asyncTree.add(3, makeSpanAlign(root.getSpanBo(), ASYNC, (short) 2, 7, 1, 1, -1));
    asyncTree.add(4, makeSpanAlign(root.getSpanBo(), ASYNC, (short) 3, 8, 1, 1, -1));
    callTree.add(asyncTree);

    callTree.add(5, makeSpanAlign(root.getSpanBo(), SYNC, (short) 4, 5, 1));
    callTree.add(2, makeSpanAlign(root.getSpanBo(), SYNC, (short) 5, 3, 1));
    callTree.add(3, makeSpanAlign(root.getSpanBo(), SYNC, (short) 6, 4, 1));
    callTree.add(-1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 7, 6, 1));
    callTree.add(1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 8, 2, 1));

    CallTreeIterator iterator = callTree.iterator();
    // assertEquals(5, iterator.size());

    System.out.println("gapComplex");
    while (iterator.hasNext()) {
      CallTreeNode node = iterator.next();
      SpanAlign align = node.getValue();
      for (int i = 0; i <= align.getDepth(); i++) {
        System.out.print("#");
      }
      System.out.println(" : gap=" + align.getGap());
      if (!node.isRoot()) {
        assertEquals(1, align.getGap());
      }
    }
  }
Пример #3
0
  @Ignore
  @Test
  public void executionTime() {
    SpanAlign root = makeSpanAlign(START_TIME, 10);
    CallTree callTree = new SpanCallTree(root);
    callTree.add(1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 0, 1, 8));
    callTree.add(2, makeSpanAlign(root.getSpanBo(), SYNC, (short) 1, 2, 4));
    callTree.add(3, makeSpanAlign(root.getSpanBo(), SYNC, (short) 2, 3, 3));
    callTree.add(4, makeSpanAlign(root.getSpanBo(), SYNC, (short) 3, 4, 2, -1, 1));

    SpanAlign rpc = makeSpanAlign(START_TIME + 10, 5);
    CallTree rpcTree = new SpanCallTree(rpc);
    rpcTree.add(1, makeSpanAlign(rpc.getSpanBo(), SYNC, (short) 0, 1, 4));
    rpcTree.add(2, makeSpanAlign(rpc.getSpanBo(), SYNC, (short) 1, 2, 3));
    rpcTree.add(3, makeSpanAlign(rpc.getSpanBo(), SYNC, (short) 2, 3, 2));
    rpcTree.add(4, makeSpanAlign(rpc.getSpanBo(), SYNC, (short) 3, 4, 1));
    callTree.add(rpcTree);

    CallTree asyncTree = new SpanAsyncCallTree(root);
    asyncTree.add(1, makeSpanAlign(root.getSpanBo(), ASYNC, (short) 0, 5, 4, 1, -1));
    asyncTree.add(2, makeSpanAlign(root.getSpanBo(), ASYNC, (short) 1, 6, 3, 1, -1));
    asyncTree.add(3, makeSpanAlign(root.getSpanBo(), ASYNC, (short) 2, 7, 2, 1, -1));
    asyncTree.add(4, makeSpanAlign(root.getSpanBo(), ASYNC, (short) 3, 8, 1, 1, -1));
    callTree.add(asyncTree);

    callTree.add(5, makeSpanAlign(root.getSpanBo(), SYNC, (short) 4, 5, 1));
    callTree.add(2, makeSpanAlign(root.getSpanBo(), SYNC, (short) 5, 6, 3));
    callTree.add(3, makeSpanAlign(root.getSpanBo(), SYNC, (short) 6, 7, 1));
    callTree.add(-1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 7, 8, 1));
    callTree.add(1, makeSpanAlign(root.getSpanBo(), SYNC, (short) 8, 9, 1));

    CallTreeIterator iterator = callTree.iterator();
    // assertEquals(5, iterator.size());

    System.out.println("executionTime");
    while (iterator.hasNext()) {
      CallTreeNode node = iterator.next();
      SpanAlign align = node.getValue();
      for (int i = 0; i <= align.getDepth(); i++) {
        System.out.print("#");
      }
      System.out.println(" : executionTime=" + align.getExecutionMilliseconds());
      assertEquals(1, align.getExecutionMilliseconds());
    }
  }