diff options
Diffstat (limited to 'backends/lean')
-rw-r--r-- | backends/lean/Base/Primitives/Base.lean | 51 |
1 files changed, 51 insertions, 0 deletions
diff --git a/backends/lean/Base/Primitives/Base.lean b/backends/lean/Base/Primitives/Base.lean index 9dbaf133..adec9a8b 100644 --- a/backends/lean/Base/Primitives/Base.lean +++ b/backends/lean/Base/Primitives/Base.lean @@ -123,6 +123,57 @@ def Result.attach {α: Type} (o : Result α): Result { x : α // o = ret x } := simp [Bind.bind] cases e <;> simp +------------------------------- +-- Tuple field access syntax -- +------------------------------- +-- Declare new syntax `a.#i` for accessing the `i`-th term in a tuple +-- The `noWs` parser is used to ensure there is no whitespace. +syntax term noWs ".#" noWs num : term + +open Lean Meta Elab Term + +-- Auxliary function for computing the number of elements in a tuple (`Prod`) type. +def getArity (type : Expr) : Nat := + match type with + | .app (.app (.const ``Prod _) _) as => getArity as + 1 + | _ => 1 -- It is not product + +-- Given a `tuple` of size `n`, construct a term that for accessing the `i`-th element +def mkGetIdx (tuple : Expr) (n : Nat) (i : Nat) : MetaM Expr := do + match i with + | 0 => mkAppM ``Prod.fst #[tuple] + | i+1 => + if n = 2 then + -- If the tuple has only two elements and `i` is not `0`, + -- we just return the second element. + mkAppM ``Prod.snd #[tuple] + else + -- Otherwise, we continue with the rest of the tuple. + let tuple ← mkAppM ``Prod.snd #[tuple] + mkGetIdx tuple (n-1) i + +-- Now, we define the elaboration function for the new syntax `a#i` +elab_rules : term +| `($a:term.#$i:num) => do + -- Convert `i : Syntax` into a natural number + let i := i.getNat + -- Return error if it is 0. + unless i ≥ 0 do + throwError "tuple index must be greater or equal to 0" + -- Convert `a : Syntax` into an `tuple : Expr` without providing expected type + let tuple ← elabTerm a none + let type ← inferType tuple + -- Instantiate assigned metavariable occurring in `type` + let type ← instantiateMVars type + -- Ensure `tuple`'s type is a `Prod`uct. + unless type.isAppOf ``Prod do + throwError "tuple expected{indentExpr type}" + let n := getArity type + -- Ensure `i` is a valid index + unless i < n do + throwError "invalid tuple access at {i}, tuple has {n} elements" + mkGetIdx tuple n i + ---------- -- MISC -- ---------- |