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Good day,

When trying to understand the Mathematica's evaluation sequence by using standard Trace and TraceScan commands and their nice visual representations developed in the recent thread, I faced some ambiguities in their behavior.

First of all, when I evaluate

In[1]:= Trace[a+1,TraceOriginal->True]

I get

Out[1]= {a+1,{Plus},{a},{1},a+1,1+a,{Plus},{1},{a},1+a}

All sublists correspond to sub-evaluations (as it is stated in the Documentation). The last expression 1+a probably corresponds to the result of the evaluation although it is not clearly stated in the Documentation. But what exactly mean expressions a+1 and 1+a in the middle of the list? To which evaluation steps of the standard evaluation sequence they correspond?

The second oddity is with TraceScan. Consider the following:

In[1]:= list={}; TraceScan[AppendTo[list,StyleForm[#,"Input"]]&,(a+1),_,AppendTo[list,#]&]; list

Out[1]= {a+1, Plus, Plus, a, a, 1, 1, 1+a, Plus, Plus, 1, 1, a, a, 1+a, a+1}

You can see that the last two expressions in the list are 1+a and a+1. Both are results of (sub)evaluations. But the real output is 1+a and so I do not understand why a+1 is at the end of the evaluation chain? And why is no there a+1 in the middle of the evaluation chain as it was in the case of Trace? Is it a bug?

P.S. These results are reproduced with Mathematica 7.0.1 and 5.2.

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I think this should be migrated to: math.stackexchange.com –  RobertPitt Apr 6 '11 at 7:03
@RobertPitt This question is not about math. It is only related to Mathematica's internals. As you can see I use as primitive example as possible: evaluation of expression a+1 in Mathematica when a is undefined. I am trying to understand what happens inside Mathematica when I evaluate this. It seems to be not so simple as one could expect... –  Alexey Popkov Apr 6 '11 at 7:55
@RobertPitt This is a common misunderstanding. The tag Mathematica refers to the Mathematica program developed by Wolfram Research Inc. It is not equivalent to Mathematics or math. See also meta.stackoverflow.com/q/81152/158668. –  Sjoerd C. de Vries Apr 6 '11 at 8:59
I Knew I was unaware of the questions intended nature which is why i only supplied a comment and not a close or down vote, thanks for clearing that up, i will remember this for the future. –  RobertPitt Apr 6 '11 at 9:09
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2 Answers

up vote 3 down vote accepted

The fp argument to TraceScan is called with two arguments. The first is the original unevaluated expression. The second is the result of the evaluation. In your example, the second AppendTo is using the first argument so you are seeing the unevaluated expression. Change # to #2 and then you will see the results you expect.

Also note that the second argument is not wrapped in HoldForm (documentation notwithstanding), so in general one must take care to use a function that holds its arguments for the fp argument to avoid generating spurious evaluations.

Comparing Trace and TraceScan

The behaviour of Trace is described in considerable detail in the Mathematica 8 documentation. It states that, by default, Trace only shows expressions after the head and arguments have been evaluated. Thus, we see a sequence like this:

In[28]:= SetAttributes[f, Orderless]
         Trace[f[a, 1]]
Out[29]= {f[a,1],f[1,a]}

Only the input expression and its result is shown. The TraceOriginal options controls (quote) "whether to look at expressions before their heads and arguments are evaluated". When this option is True then the output is supplemented with the head and argument expressions:

In[30]:= Trace[f[a,1], TraceOriginal->True]
Out[30]= {f[a,1],{f},{a},{1},f[a,1],f[1,a]}

The first element of the new list is the original expression before the head and arguments are evaluated. Then we see the head and arguments being evaluated. Finally, we see the top-level expressions again, after the head and arguments have been evaluated. The last two elements of the list match the two elements of the original trace output.

As the linked documentation states, Trace is very selective about what expressions it returns. For example, it omits trivial evaluation chains completely. TraceScan is comprehensive and calls the supplied functions for every evaluation, trivial or not. You can see the comprehensive set of evaluations using the following TraceScan expression:

TraceScan[Print, f[a,1], _, Print[{##}]&]

The following table matches the output produced by Trace with and without TraceOriginal, along with the output of the TraceScan expression:

Trace   Trace    TraceScan

        f[a,1]   f[a,1]
        {f}      {f
        {a}      {a
        {1}      {1
f[a,1]  f[a,1]   {f[a,1]
f[1,a]  f[1,a]   ,f[1,a]}

There is certain amount of speculation in this table about which entry matches against which, given that the internals of Trace are inaccessible. Further experiments might give information that adjusts the alignment. However, the key point is that all of the information generated by Trace is available using TraceScan -- and TraceScan provides more.

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There is still something strange with the output of TraceScan. Evaluation list1 = {}; list2 = {}; TraceScan[AppendTo[list1, #] &, (a + 1), _, AppendTo[list2, #1] &]; gives two different lists: {a+1,Plus,a,1,1+a,Plus,1,a} and {Plus,a,1,Plus,1,a,1+a,a+1}... –  Alexey Popkov Apr 6 '11 at 21:50
@Alexey The two lists will differ in general. Consider Plus, which is the second expression to be evaluated (appears 2nd in list1) but is the first expression for which evaluation is completed (appears 1st in list2). Similarly, a+1 is the first expression to be evaluated but the last for which evaluation completes. It is a tricky business to match up evaluation starts and ends. traceView2 uses a stack to perform this match-up. –  WReach Apr 6 '11 at 23:46
@WReach Very clear explanation, thank you! The only question remained is about difference between outputs of Trace[a+1,TraceOriginal->True] and list = {}; TraceScan[AppendTo[list, #] &, a + 1]; list. The first returns a list that contains in the middle two expressions: a+1 and 1+a. The first of them seemingly corresponds to an intermediate step of the evaluation sequence before applying of the Orderless attribute, the second is the result of applying of this attribute. Is it right? But in the case of TraceScan I can not find the step of applying of this attribute. –  Alexey Popkov Apr 7 '11 at 6:53
@Alexey Please see the new section in my response, "Comparing Trace and TraceScan". –  WReach Apr 8 '11 at 5:20
@Alexey f is called as each expression begins evaluation. fp is called as each expression ends evaluation -- but it takes two arguments. #2 is the result that was just computed. #1 is the corresponding expression before evaluation. The #1 argument will match an expression that was passed to some preceding call to f -- but simple pattern matching is not enough to determine which one. It is necessary to track the evaluation stack. –  WReach Apr 8 '11 at 13:06
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The first part of the question is easy. The expressions a+1 and 1+a in the middle of the list are where the Orderless attribute of Plus fires and the terms are arranged in the default order. This is point number 8 in the standard evaluation sequence tute.

The "strangeness" in TraceScan also occurs in version 8. Because, it's a rare command, here's the documentation for TraceScan

TraceScan[f, expr, form, fp] applies f before evaluation and fp after evaluation to expressions used in the evaluation of expr.

Note that if you apply it to the expression a + 1 + b you get

In[32]:= TraceScan[Print["f \t",#]&, a+1+b, _, Print["fp\t",#]&]
During evaluation of In[32]:= f     a+1+b
During evaluation of In[32]:= f     Plus
During evaluation of In[32]:= fp    Plus
During evaluation of In[32]:= f     a
During evaluation of In[32]:= fp    a
During evaluation of In[32]:= f     1
During evaluation of In[32]:= fp    1
During evaluation of In[32]:= f     b
During evaluation of In[32]:= fp    b
During evaluation of In[32]:= f     1+a+b
During evaluation of In[32]:= fp    1+a+b
During evaluation of In[32]:= fp    a+1+b
Out[32]= 1+a+b

From here, it's clear what's happening. fp applies after the evaluation - so the final fp actually corresponds to the first f. It doesn't print until the very end because the subexpressions need to be evaluated first.

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Your explanation of the TraceScan behavior is unobvious for me. I need more neat example to find a logic in such behavior. In particular, Trace[a + 1 + b, TraceOriginal -> True] gives {a+1+b,{Plus},{a},{1},{b},a+1+b,1+a+b}. Do you mean that the second a+1+b is the result of evaluation? But it should be only an intermediate expression before applying the Orderless attribute. And the result of the evaluation is 1+a+b. –  Alexey Popkov Apr 6 '11 at 9:36
I'm not sure how else to explain it (probably because I'm not quite sure why the final fp has the unevaluated form that it does). Anyway, compare with an example modified from the TraceScan docs: TraceScan[Print["f \t", #] &, f[1, 2 + 3], _, Print["fp\t", #] &] –  Simon Apr 6 '11 at 10:01
Thank you for the answer in any way. Now I understand the position of application of the Orderless attribute in the Trace output. The only problem remained is about the behavior of TraceScan. –  Alexey Popkov Apr 6 '11 at 10:46
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