5.4 KiB
Plan of attack
-
modify visitor so it can handle scopes -this is needed both to handle import scope correctly -and also to support making FQSNs aware of function parameters
-
Once FQSNs are aware of function parameters, most of the Rc things in eval.rs can go away
TODO items
-use 'let' sigil in patterns for variables :
q is MyStruct(let a, Chrono::Trigga) then {
}
-idea: what if there was something like React jsx syntas built in? i.e. a way to automatically transform some kind of markup
into a function call, cf. <h1 prop="arg">
-> h1(prop=arg)
General code cleanup
- I think I can restructure the parser to get rid of most instances of expect!, at least at the beginning of a rule DONE -experiment with storing metadata via ItemIds on AST nodes (cf. https://rust-lang.github.io/rustc-guide/hir.html, https://github.com/rust-lang/rust/blob/master/src/librustc/hir/mod.rs ) -implement and test open/use statements -implement field access
- standardize on an error type that isn't String
-implement a visitor pattern for the use of scope_resolver
- maybe implement this twice: 1) the value-returning, no-default one in the haoyi blogpost, -look at https://gitlab.haskell.org/ghc/ghc/wikis/pattern-synonyms 2) the non-value-returning, default one like in rustc (cf. https://github.com/rust-unofficial/patterns/blob/master/patterns/visitor.md)
-parser error - should report subset of AST parsed so far
- what if you used python 'def' syntax to define a function? what error message makes sense here?
Reduction
- make a good type for actual language builtins to avoid string comparisons
Typechecking
-
make a type to represent types rather than relying on string comparisons
-
look at https://rickyhan.com/jekyll/update/2018/05/26/hindley-milner-tutorial-rust.html
-
cf. the notation mentioned in the cardelli paper, the debug information for the
typechecking
pass should print the generated type variable for every subexpression in an expression -
think about idris-related ideas of multiple implementations of a type for an interface (+ vs * impl for monoids, for preorder/inorder/postorder for Foldable)
-should have an Idris-like cast To From
function
Schala-lang syntax
-idea: the type
declaration should have some kind of GADT-like syntax
-
Idea: if you have a pattern-match where one variant has a variable and the other lacks it instead of treating this as a type error, promote the bound variable to an option type
-
Include extensible scala-style html"string ${var}" string interpolations
-
A neat idea for pattern matching optimization would be if you could match on one of several things in a list ex:
is (comp, LHSPat, RHSPat) if comp in ["==, "<"] -> ...
}```
- Schala should have both currying *and* default arguments!
```fn a(b: Int, c:Int, d:Int = 1) -> Int
a(1,2) : Int
a(1,2,d=2): Int
a(_,1,3) : Int -> Int
a(1,2, c=_): Int -> Int
a(_,_,_) : Int -> Int -> Int -> Int
- scoped types - be able to define a quick enum type scoped to a function or other type for something, that only is meant to be used as a quick bespoke interface between two other things
ex.
type enum MySubVariant {
SubVariant1, SubVariant2, etc.
}
Variant1(MySubVariant),
Variant2(...),
}```
- inclusive/exclusive range syntax like .. vs ..=
## Compilation
-look into Inkwell for rust LLVM bindings
-https://cranelift.readthedocs.io/en/latest/?badge=latest<Paste>
## Other links of note
- https://nshipster.com/never/
-consult http://gluon-lang.org/book/embedding-api.html
## Trying if-syntax again
//simple if expr
if x == 10 then "a" else "z"
//complex if expr
if x == 10 then {
let a = 1
let b = 2
a + b
} else {
55
}
// different comparison ops
if x {
== 1 then "a"
.isPrime() then "b"
else "c"
}
/* for now disallow `if x == { 1 then ... }`, b/c hard to parse
//simple pattern-matching
if x is Person("Ivan", age) then age else 0
//match-block equivalent
if x {
is Person("Ivan", _) then "Ivan"
is Person(_, age) if age > 13 then "barmitzvah'd"
else "foo"
}
## (OLD) Playing around with conditional syntax ideas
- if/match playground
simple if
`if x == 1.0 { "a" } else { "b" }`
one comparison multiple targets:
`if x == { 1.0 -> "a", 2.0 -> "b", else -> "c" }`
different comparison operators/ method calls:
`if x { == 1.0 -> "a", eq NaN -> "n", .hella() -> "h", else -> "z" }`
pattern matching/introducing bindings:
`if alice { .age < 18 -> "18", is Person("Alice", age) -> "${age}", else -> "none" }`
pattern matching w/ if-let:
`if person is Person("Alice", age) { "${age}" } else { "nope" }`
-https://soc.github.io/languages/unified-condition-syntax syntax:
`if <cond-expr>" then <then-expr> else <else-expr>`
`if <half-expr> \n <rest-expr1> then <result1-expr> \n <rest-expr2> then <result-expr2> else <result3-expr>`
-and rest-exprs (or "targets") can have 'is' for pattern-matching, actually so can a full cond-expr
UNIFIED IF EXPRESSIONS FINAL WORK:
basic syntax:
`if_expr := if discriminator '{' (guard_expr)* '}'`
`guard_expr := pattern 'then' block_or_expr'`
`pattern := rhs | is_pattern`
`is_pattern := 'is' ???`
`rhs := expression | ???`
if the only two guard patterns are true and false, then the abbreviated syntax:
`'if' discriminator 'then' block_or_expr 'else' block_or_expr`
can replace `'if' discriminator '{' 'true' 'then' block_or_expr; 'false' 'then' block_or_expr '}'`