This section shows an example of tracing two functions and examining the output.
Define the following functions
(defun foo (x y) (bar y x))
(defun bar (x y) (values (vector x y) (list y x)))
in a Listener and start the Tracer tool. The trace these functions by entering foo
into the Trace pane of the Tracer and pressing Return
or clicking the
button. Notice that the symbol name appears in the
Traced Functions:
area.
For longer function names, you might find it useful to type just a few characters and then press Up
or Down
to invoke in-place completion.
Figure 12.1 The Trace State view showing bar
and foo
(foo 100 200)
in the Listener. You will see output something like this printed in the Listener.
CL-USER 1 > foo 100 200
0 FOO > ...
>> X : 100
>> Y : 200
1 BAR > ...
>> X : 200
>> Y : 100
1 BAR < ...
<< VALUE-0 : #(200 100)
<< VALUE-1 : (100 200)
0 FOO < ...
<< VALUE-0 : #(200 100)
<< VALUE-1 : (100 200)
#(200 100)
(100 200)
CL-USER 2 >
Note: the format of the output is affected by the value of *trace-verbose*
.
Now switch to the Output Text view of the Tracer and you will similar output.
Figure 12.2 The Output Text view
Now switch to the Output Data view of the Tracer, which will looks like this
Figure 12.3 The Output Data view
The node that is labeled
Arguments 100 200
contains the arguments to the function foo
. Double-click on this node to show those arguments in an Inspector.
The first node that is labeled
Values #(200 100) (100 200)
contains the values returned by bar
. Expand this node to reveal the two values. Double-click on one of the values nodes to inspect it. You can also see that these values were in turn returned by foo
, as shown by the second node that is labeled
Values #(200 100) (100 200)
.
LispWorks IDE User Guide (Macintosh version) - 13 Sep 2017