diff options
Diffstat (limited to 'backends')
-rw-r--r-- | backends/lean/Base/Diverge/Base.lean | 65 | ||||
-rw-r--r-- | backends/lean/Base/Diverge/Elab.lean | 2 | ||||
-rw-r--r-- | backends/lean/Base/Diverge/ElabBase.lean | 8 | ||||
-rw-r--r-- | backends/lean/Base/Primitives.lean | 25 |
4 files changed, 10 insertions, 90 deletions
diff --git a/backends/lean/Base/Diverge/Base.lean b/backends/lean/Base/Diverge/Base.lean index a8503107..e22eb914 100644 --- a/backends/lean/Base/Diverge/Base.lean +++ b/backends/lean/Base/Diverge/Base.lean @@ -4,8 +4,7 @@ import Init.Data.List.Basic import Mathlib.Tactic.RunCmd import Mathlib.Tactic.Linarith --- For debugging -import Base.Diverge.ElabBase +import Base.Primitives /- TODO: @@ -35,68 +34,6 @@ set_option profiler.threshold 100 namespace Diverge -namespace Primitives -/-! # Copy-pasting from Primitives to make the file self-contained -/ - -inductive Error where - | assertionFailure: Error - | integerOverflow: Error - | divisionByZero: Error - | arrayOutOfBounds: Error - | maximumSizeExceeded: Error - | panic: Error -deriving Repr, BEq - -open Error - -inductive Result (α : Type u) where - | ret (v: α): Result α - | fail (e: Error): Result α - | div -deriving Repr, BEq - -open Result - -instance Result_Inhabited (α : Type u) : Inhabited (Result α) := - Inhabited.mk (fail panic) - -instance Result_Nonempty (α : Type u) : Nonempty (Result α) := - Nonempty.intro div - -def bind {α : Type u} {β : Type v} (x: Result α) (f: α -> Result β) : Result β := - match x with - | ret v => f v - | fail v => fail v - | div => div - -@[simp] theorem bind_ret (x : α) (f : α → Result β) : bind (.ret x) f = f x := by simp [bind] -@[simp] theorem bind_fail (x : Error) (f : α → Result β) : bind (.fail x) f = .fail x := by simp [bind] -@[simp] theorem bind_div (f : α → Result β) : bind .div f = .div := by simp [bind] - --- Allows using Result in do-blocks -instance : Bind Result where - bind := bind - --- Allows using return x in do-blocks -instance : Pure Result where - pure := fun x => ret x - -@[simp] theorem bind_tc_ret (x : α) (f : α → Result β) : - (do let y ← .ret x; f y) = f x := by simp [Bind.bind, bind] - -@[simp] theorem bind_tc_fail (x : Error) (f : α → Result β) : - (do let y ← fail x; f y) = fail x := by simp [Bind.bind, bind] - -@[simp] theorem bind_tc_div (f : α → Result β) : - (do let y ← div; f y) = div := by simp [Bind.bind, bind] - -def div? {α: Type u} (r: Result α): Bool := - match r with - | div => true - | ret _ | fail _ => false - -end Primitives - namespace Fix open Primitives diff --git a/backends/lean/Base/Diverge/Elab.lean b/backends/lean/Base/Diverge/Elab.lean index cc580265..41209021 100644 --- a/backends/lean/Base/Diverge/Elab.lean +++ b/backends/lean/Base/Diverge/Elab.lean @@ -174,7 +174,7 @@ private def list_nth_out_ty_inner (a :Type) (scrut1: @Sigma (List a) (fun (_ls : (fun (_ls : List a) => Int) (fun (_scrut1:@Sigma (List a) (fun (_ls : List a) => Int)) => Type) scrut1 - (fun (_ls : List a) (_i : Int) => Diverge.Primitives.Result a) + (fun (_ls : List a) (_i : Int) => Primitives.Result a) private def list_nth_out_ty_outer (scrut0 : @Sigma (Type) (fun (a:Type) => @Sigma (List a) (fun (_ls : List a) => Int))) := diff --git a/backends/lean/Base/Diverge/ElabBase.lean b/backends/lean/Base/Diverge/ElabBase.lean index fd95291e..1c1062c0 100644 --- a/backends/lean/Base/Diverge/ElabBase.lean +++ b/backends/lean/Base/Diverge/ElabBase.lean @@ -4,6 +4,7 @@ namespace Diverge open Lean Elab Term Meta +-- We can't define and use trace classes in the same file initialize registerTraceClass `Diverge.elab initialize registerTraceClass `Diverge.def initialize registerTraceClass `Diverge.def.sigmas @@ -11,8 +12,8 @@ initialize registerTraceClass `Diverge.def.genBody initialize registerTraceClass `Diverge.def.valid initialize registerTraceClass `Diverge.def.unfold --- TODO: move --- TODO: small helper +-- Useful helper to explore definitions and figure out the variant +-- of their sub-expressions. def explore_term (incr : String) (e : Expr) : MetaM Unit := match e with | .bvar _ => do logInfo m!"{incr}bvar: {e}"; return () @@ -81,8 +82,7 @@ private def test2 (x : Nat) : Nat := x print_decl test1 print_decl test2 --- We adapted this from AbstractNestedProofs.visit --- A map visitor function for expressions +-- A map visitor function for expressions (adapted from `AbstractNestedProofs.visit`) partial def mapVisit (k : Expr → MetaM Expr) (e : Expr) : MetaM Expr := do let mapVisitBinders (xs : Array Expr) (k2 : MetaM Expr) : MetaM Expr := do let localInstances ← getLocalInstances diff --git a/backends/lean/Base/Primitives.lean b/backends/lean/Base/Primitives.lean index 1185a07d..117f76a2 100644 --- a/backends/lean/Base/Primitives.lean +++ b/backends/lean/Base/Primitives.lean @@ -60,12 +60,12 @@ instance Result_Nonempty (α : Type u) : Nonempty (Result α) := /- HELPERS -/ -def ret? {α: Type} (r: Result α): Bool := +def ret? {α: Type u} (r: Result α): Bool := match r with | ret _ => true | fail _ | div => false -def div? {α: Type} (r: Result α): Bool := +def div? {α: Type u} (r: Result α): Bool := match r with | div => true | ret _ | fail _ => false @@ -73,14 +73,14 @@ def div? {α: Type} (r: Result α): Bool := def massert (b:Bool) : Result Unit := if b then ret () else fail assertionFailure -def eval_global {α: Type} (x: Result α) (_: ret? x): α := +def eval_global {α: Type u} (x: Result α) (_: ret? x): α := match x with | fail _ | div => by contradiction | ret x => x /- DO-DSL SUPPORT -/ -def bind (x: Result α) (f: α -> Result β) : Result β := +def bind {α : Type u} {β : Type v} (x: Result α) (f: α -> Result β) : Result β := match x with | ret v => f v | fail v => fail v @@ -111,23 +111,6 @@ def Result.attach {α: Type} (o : Result α): Result { x : α // o = ret x } := | fail e => fail e | div => div -macro "let" e:term " ⟵ " f:term : doElem => - `(doElem| let ⟨$e, h⟩ ← Result.attach $f) - --- TODO: any way to factorize both definitions? -macro "let" e:term " <-- " f:term : doElem => - `(doElem| let ⟨$e, h⟩ ← Result.attach $f) - --- We call the hypothesis `h`, in effect making it unavailable to the user --- (because too much shadowing). But in practice, once can use the French single --- quote notation (input with f< and f>), where `‹ h ›` finds a suitable --- hypothesis in the context, this is equivalent to `have x: h := by assumption in x` -#eval do - let y <-- .ret (0: Nat) - let _: y = 0 := by cases ‹ ret 0 = ret y › ; decide - let r: { x: Nat // x = 0 } := ⟨ y, by assumption ⟩ - .ret r - @[simp] theorem bind_tc_ret (x : α) (f : α → Result β) : (do let y ← .ret x; f y) = f x := by simp [Bind.bind, bind] |