A question is posed on the IsaUserList on how to prove this `lemma`

:

```
lemma "dom (SOME b. dom b = A) = A"
```

As a first response, P.Lammich says that `obtain`

needs to be used:

```
You have to show that there is such a beast b, ie,
proof -
obtain b where "dom b = A" ...
thus ?thesis
sledgehammer (*Should find a proof now, using the rules for SOME, probably SomeI*)
```

Here, I have one main question, one secondary question, and I wonder about some differences between what P.Lammich says to do, some things M.Eberl does, and the results that I got.

**Q1:**I get the warning`Introduced fixed type variable(s): 'c in "b__"`

at my use of`obtain`

, and at the use of the`by`

statement that proves the`obtain`

. Can I get rid of this warning?**Q2:**Is there a command of three dots,`...`

? I assume it means, "Your proof goes here." However, it sometimes sounds like the writer is also saying, "...because, after all, the proof is really simple here." I also know that there is the command`.`

for`by this`

, and`..`

for`by rule`

. Additionally, I entertain the idea that`...`

is commonly known to be some simple proof statement which I'm supposed to know, but don't.

The following source will show the warning. It could be I'm supposed to `fix`

something. The source also shows how I had to help `sledgehammer`

, which is that I had to put an exists statement it.

I leave the error in that's due to the schematic variable, in case anyone is interested in that.

```
(* I HELP SLEDGEHAMMER with an exists statement. I can delete the exists
statement after the `metis` proof is found.
The `?'c1` below causes an error, but `by` still proves the goal.
*)
lemma "dom (SOME b. dom b = A) = A"
proof-
have "? x. x = (SOME b. dom b = A)"
by(simp)
from this
obtain b where ob1: "dom b = A"
(*WARNING: Orange squiggly under `obtain`. Message: Introduced fixed type
variable(s): 'c in "b__".*)
by(metis (full_types) dom_const dom_restrict inf_top_left)
thus ?thesis
using[[show_types]]
(*Because of `show_types`, a schematic type variable `?'c1` will be part
of the proof command that `sledgehammer` provides in the output panel.*)
(*sledgehammer[minimize=smart,preplay_timeout=10,timeout=60,verbose=true,
isar_proofs=smart,provers="z3 spass remote_vampire"]*)
by(metis (lifting, full_types)
`!!thesis::bool.(!!b::'a => ?'c1 option. dom b = (A::'a set) ==> thesis)
==> thesis`
someI_ex)
(*ERROR: Illegal schematic type variable: ?'c1::type.
To get rid of the error, delete `?`, or use `ob1` as the fact.*)
qed
```

My Q1 and Q2 are related to what's above. As part of my wonderings, there is the issue of getting an error because of the schematic variable. I may report that as bug-type issue.

In his IsaUserList response, M.Eberl says that he got the following `sledgehammer`

proof for the `obtain`

. He says the proof is slow, and it is. It's about 2 seconds for me.

```
by(metis (lifting, full_types)
dom_const dom_restrict inf_top.left_neutral someI_ex)
```

The proof that `sledgehammer`

found for me above for `thus ?thesis`

is only 4ms.

`def`

and another with`fix/assumes`

in place of`def`

. If you understand the mystery of the "Failed to refine any pending goal", please comment. – user3088629 Jan 18 '14 at 4:52`def`

and`fixes/assumes`

are different, which allowed me to get rid of the "Failed to refine..." in an acceptable way, by using brackets. Thanks again. – user3088629 Jan 18 '14 at 7:18