I tried to understand square braket patterns I have seen in different proofs. So I followed the SSReflect example, and tried serveral patterns:

```
Lemma test : True.
Proof.
have : exists v : nat, v > 0; last first.
Undo 1.
have []: exists v : nat, v > 0; last first.
Undo 1.
have [[]]: exists v : nat, v > 0; last first.
Undo 1.
have [[] []]: exists v : nat, v > 0; last first.
Undo 1.
have [a b]: exists v : nat, v > 0; last first.
Abort.
```

I understand there are two assumption in the term following `have`

:

- exists v : nat
- v > 0

And the result by these cases are easy to understand:

`have : exists v : nat, v > 0; last first.`

`have []: exists v : nat, v > 0; last first.`

`have [a b]: exists v : nat, v > 0; last first.`

However, I don't understand these two:

`have [[]]: exists v : nat, v > 0; last first.`

After this line the screen becomes:

```
============================
forall n : nat, 0 < n.+1 -> True
goal 2 (ID 53105) is:
0 < 0 -> True
```

Actually I was suprised that I could break deeper. I guess it is because `v: nat`

so after breaking the two assumption by the first `[]`

, it breaks deeper to the natural number and finds there are two constructors in the inductive type of `nat`

, so there are two new assumptions for `+1`

and `0`

. But I don't understand how they are corresponding to

- 0 < n.+1
- 0 < 0

Especially that for the `0 < 0`

it is an impossible case.

`have [[] []]: exists v : nat, v > 0; last first.`

After this line the screen becomes:

```
============================
forall n : nat, 0 < n.+2 -> True
goal 2 (ID 53119) is:
0 < 1 -> True
goal 3 (ID 53110) is:
0 < 0 -> True
```

I thought it would be like `have [a b]`

but I was wrong. For this one I totally don't know where they are from:

`forall n : nat, 0 < n.+2`

`0 < 1 -> True`

`0 < 0 -> True`

Compare to `have [a b]`

, which is pretty straightforward to understand -- the two assumptions are named after the breaking.

```
a : nat
b : 0 < a
============================
True
```

When I searched for answers, I tried to read the paper introduced SSReflect:

https://inria.hal.science/inria-00258384v16/document

But the section it explains square bracket is more about the specificaution, not *when* to use which pattern and *what* is the effect:

I understand reading specification is good, but without examples it is difficult to understand what it is talking about. So I found that when I face a lemma I need to prove, or I need to read a proof, I usually got help from cheatsheets and tutorals -- they tell you for *when* to use them and *what* is the effect of using them. But I worry I may learn SSReflect in a wrong way. So it will be appreciated if there is any suggestion for learning SSReflect as well. Thanks.