# Question on TraceScan

The main point of this question is the logic behind the operation of the first argument of `TraceScan` (as well as the associated fourth argument but that is not needed for the problem in question): it sometimes excludes some evaluation steps (which `Trace` with option `TraceOriginal->True` gives) but sometimes it includes them as demonstrated in the following examples. I am interested in understanding the logic behind this behavior and how to force `TraceScan` to give the full set of evaluation steps. This question originally arose in this thread (see my comments to the answer). The general comparison of the behavior of `TraceScan` as compared to that of `Trace` was given by WReach here but it does not answer the following questions:

1.) Why doesn't `TraceScan` give the final expression `f[a,1]` in this case while `Trace` gives:

``````In:= SetAttributes[traceScan,HoldAll];
traceScan[expr_]:=(list={};TraceScan[AppendTo[list,#]&,expr];list)
In:= ClearAll[f,a];
Trace[f[a,1],TraceOriginal->True]
Out= {f[a,1],{f},{a},{1},f[a,1]}
In:= ClearAll[f,a];
traceScan[f[a,1]]
Out= {f[a,1],f,a,1}
``````

2.) And, in the following case, why do both `Trace` and `TraceScan` give the final expression `f[1,a]` wheras only `Trace` gives the intermediate expression `f[a,1]` which corresponds to the step of the evaluation before applying the `Orderless` attribute of `f`:

``````In:= ClearAll[f,a];
SetAttributes[f,Orderless]
Trace[f[a,1],TraceOriginal->True]
Out= {f[a,1],{f},{a},{1},f[a,1],f[1,a]}
In:= ClearAll[f,a];
SetAttributes[f,Orderless]
traceScan[f[a,1]]
Out= {f[a,1],f,a,1,f[1,a]}
``````

3.) And why in this last case do both `Trace` and `TraceScan` give the final expression `ff[1,b]` and the intermediate expression `ff[b,1]` which corresponds to the step of the evaluation before applying the `Orderless` attribute of `ff`:

``````In:= ClearAll[f,ff,a];
SetAttributes[ff,Orderless];f=ff;a=b;
Trace[f[a,1],TraceOriginal->True]
Out= {f[a,1],{f,ff},{a,b},{1},ff[b,1],ff[1,b]}
In:= ClearAll[f,ff,a];
SetAttributes[ff,Orderless];f=ff;a=b;
traceScan[f[a,1]]
Out= {f[a,1],f,ff,a,b,1,ff[b,1],ff[1,b]}
``````

4.) Is there a way to force `TraceScan` to always give exhaustive information about evaluation as `Trace` does?

Here is another, more informative version of `traceScan` which uses the fourth argument:

``````SetAttributes[traceScan, HoldAll];
traceScan[expr_] := (list1 = list2 = {};
TraceScan[AppendTo[list1, #] &, expr, _,
AppendTo[list2, {##}]&];
Column[{list1, list2}])
``````

Cases 1 and 2. Citing the Documentation:

Normally, ... `Trace` intercepts expressions only after function arguments have been evaluated. By setting `TraceOriginal->True`, you can get `Trace` also to look at expressions before function arguments have been evaluated.

It seems that setting `TraceOriginal->True` just results in prepending additional information to the default output of `Trace`. As the result, we see unnecessary additional "intermediate expression" `f[a,1]` which in really does not appear in the evaluation chains in both cases as it is shown by `TraceScan` and `TracePrint`:

``````In:= ClearAll[f, a];
SetAttributes[f, Orderless]
TracePrint[f[a, 1]]

During evaluation of In:=  f[a,1]

During evaluation of In:=   f

During evaluation of In:=   a

During evaluation of In:=   1

During evaluation of In:=  f[1,a]

Out= f[1, a]
``````

So it looks like a bug in `Trace`.

Case 3. In this case everything works as expected because the intermediate expression `ff[b,1]` indeed appears in the evaluation chain as the result of applying of the definition associated with `f`. Nothing unexpected.

Conclusion. Both `Trace` and `TraceScan` give exhaustive information about evaluation chain but the output generated by `Trace` can additionally contain misleading "intermediate expression" which is in fact just the initial expression of the chain.