* add unary op
* parse, typecheck, and code gen it
* express boolean not as unary op as well, previously called negate
Co-authored-by: rvcas <x@rvcas.dev>
## Before
```
× Type-checking
╰─▶ Unknown module field 'ValidityRaneg' in module 'aiken/transaction'
```
## After
```
× Type-checking
╰─▶ Unknown import 'ValidityRaneg' from module 'aiken/transaction'
╭─[../stdlib/validators/tmp.ak:2:1]
2 │ use aiken/interval.{Interval, IntervalBound, IntervalBoundType}
3 │ use aiken/transaction.{ScriptContext, ValidityRaneg}
· ─────────────
4 │
╰────
help: Did you mean to import 'ValidityRange'?
```
## Before
```
× Checking
╰─▶ Unexpected labeled argument
t
╭─[/Users/mati/Devel/OpenSource/time_lock_aiken/validators/time_lock.ak:13:1]
13 │ let now = when context.transaction.validity_range.lower_bound.bound_type is {
14 │ Finite { t } -> t
· ─
15 │ NegativeInfinity -> 0
╰────
```
## After
```
× Type-checking
╰─▶ Unexpected labeled argument 't'
╭─[../stdlib/validators/tmp.ak:10:1]
10 │ let now = when context.transaction.validity_range.lower_bound.bound_type is {
11 │ interval.Finite { t } -> t
· ─
12 │ interval.NegativeInfinity -> 0
╰────
help: The constructor 'Finite' does not have any labeled field. Its fields
must therefore be matched only by position.
Perhaps, try the following:
╰─▶ interval.Finite(t)
```
## Before
```
× Checking
╰─▶ Unknown variable
Finite
╭─[../stdlib/validators/tmp.ak:10:1]
10 │ let now = when context.transaction.validity_range.lower_bound.bound_type is {
11 │ Finite { t } -> t
· ────────────
12 │ NegativeInfinity -> 0
╰────
```
## After
```
× Type-checking
╰─▶ Unknown data-type constructor 'Finite'
╭─[../stdlib/validators/tmp.ak:10:1]
10 │ let now = when context.transaction.validity_range.lower_bound.bound_type is {
11 │ Finite { t } -> t
· ────────────
12 │ NegativeInfinity -> 0
╰────
help: Did you forget to import it?
Data-type constructors are not automatically imported, even if their type is
imported. So, if a module `aiken/pet` defines the following type:
┍━ aiken/pet.ak ━━━━━━━━
│ pub type Pet {
│ Cat
│ Dog
│ }
You must import its constructors explicitly to use them, or prefix them
with the module's name.
┍━ foo.ak ━━━━━━━━
│ use aiken/pet.{Pet, Dog}
│
│ fn foo(pet : Pet) {
│ when pet is {
│ pet.Cat -> // ...
│ Dog -> // ...
│ }
│ }
```
I am not entirely sure what the intent was for that keyword, but
nothing really matched between the parser, the formatter and the uplc
code gen. I don't think there's any need for a keyword here, trace is
already readily available from the builtins.
KtorZ