# Why does Default behave like this?

One may set a `Default` value for the arguments of a function:

``````Default[f] = 5;
``````

And then use:

``````f[a_, b_.] := {a, b}

f[1, 2]
f[1]
``````
`   {1, 2}`
`   {1, 5}`

This creates the following Values:

``````DefaultValues[f]
DownValues[f]
``````
`   {HoldPattern[Default[f]] :> 5}`
`   {HoldPattern[f[a_, b_.]] :> {a, b}}`

From this one might think that the value `5` is not fixed in the definition of `f`, but addresses the `DefaultValues` assignment. However, if we change the `DefaultValues`, either directly or using:

``````Default[f] = 9;

DefaultValues[f]
``````
`   {HoldPattern[Default[f]] :> 9}`

and use `f` again:

``````f[1]
``````
`   {1, 5}`

we see that the new value is not used.

Therefore, my questions are:

• Why does the default value used by `f[a_, b_.] := {a, b}` not change with `DefaultValues`?

• Where is the real default value (`5`) stored, since it does not appear in either `DownValues` or `DefaultValues`?

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+1 Nice and clear. Let's hope the same for the answers! –  Simon Jun 14 '11 at 0:14
W: Any reason you aren't defining default values as `f[a_,b_:5]:=...`? –  r.m. Jun 14 '11 at 0:46
@yoda: Because the idea was to be able to change the default if need be. –  Simon Jun 14 '11 at 1:15
@yoda Also, if the `Default` value is long and/or used often, it is far cleaner to write `_.`. –  Mr.Wizard Jun 14 '11 at 2:35
I am adding the [bugs] tag. If one of the WRI devs wants to explain why this is not a bug, I will remove it. –  Mr.Wizard Oct 20 '11 at 16:37

Using the behaviour that the original default is kept until the function is redefined suggests a quick work-around:

Define a global variable for the `Default` before any other definitions are made.

``````In[1]:= Default[f]:=\$f
In[2]:= f[a_.]:=a

In[3]:= f[]
Out[3]= \$f

In[4]:= \$f=5; f[]
Out[5]= 5
In[6]:= \$f=6; f[]
Out[7]= 6
In[8]:= \$f=.; f[]
Out[9]= \$f
``````

This also works for `Optional`

``````In[1]:= g[a_:\$g] := a

In[2]:= g[]
Out[2]= \$g

In[3]:= \$g=1; g[]
Out[4]= 1
``````
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From the documentation,

The necessary values for `Default[f]` must always be defined before `_.` is used as an argument of `f`.

Redefining `f` after setting `Default[f] = 9;` uses the new default value. So my guess is it is defined internally the first time, `f` is defined, and doesn't change even if `DefaultValue@f` stores the new value.

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But where is it stored internally? The old default doesn't seem to appear in any of the `*Values`... –  Simon Jun 14 '11 at 1:17
@Mr.W: I'm sorry, but this was meant more of a possible explanation rather than a concrete answer (just in case you had missed this part in the documentation). Also, since this is documented behaviour, I don't see the point of the first question (it is what it is). But the second one, I truly do not know and I didn't attempt to answer it. I guess I should've made my intentions clear. –  r.m. Jun 14 '11 at 3:38
Sorry if that came out rudely. I know others (besides moderators) cannot see my votes, but somehow I felt I needed to explain why I was not voting for this, and I am afraid it came out sounding derogatory. As to `Default`, to me the quote in your answer does not preclude the possibility that `Default[f]` can later be changed and that change will affect earlier uses. (An examination of `DownValues` suggests that this should work.) Rather, it tells me that use of `_.` in absence of a defined `Default` may or will register as an error during the assignment. –  Mr.Wizard Jun 14 '11 at 5:27
@yoda The problem seems to be with global rules. You can try your example with `f` locally: `f[1] /. f[a_, b_.] :> {a, b}` (having first removed its global def), and see that it is sensitive to the change of `Default[f]`. My guess is that global rules (definitions) may undergo some internal optimizations at the time the definition is made, which require the value of `Default` at definition-time. After the definition is made, it gets optimized and becomes insensitive to changes of `Default[f]`, unless we have a level of indirection, as in @Simon's answer. –  Leonid Shifrin Jun 14 '11 at 17:17
@Alexey It is not clear to me whether this happens for general evaluation or is related to only evaluation of `Set` and `SetDelayed`, and the assignment process. Since I suspect the latter (otherwise it is not clear why the evaluation of optional pattern in a local rule in `f[1] /. f[a_, b_.] :> {a, b}` does not lead to the same `Default`-insensitive behavior), and since `Set` and `SetDelayed` produce global rules, I called it "global rule effect". –  Leonid Shifrin Jun 15 '11 at 12:24

I have found that this behavior in the case of local rules is due to specifics of internals of `RuleDelayed`.

Compare:

``````In[1]:= Default[f] = 5;
replaceAll[f[1],
f[a_, b_.] :> Unevaluated@{a, b}] /. (Default[f] = 9; replaceAll) ->
ReplaceAll

Default[f] = 5;
Block[{RuleDelayed},
replaceAll[f[1],
f[a_, b_.] :> Unevaluated@{a, b}] /. (Default[f] = 9;
replaceAll) -> ReplaceAll]

Out[2]= {1, 5}

Out[4]= Unevaluated[{1, 9}]
``````

One can see that `Block`ing `RuleDelayed` makes local rules to behave as one could expect.

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