/- Copyright (c) 2022 Henrik Böving. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Authors: Henrik Böving -/ import Lean import DocGen4.Process.Base import DocGen4.Process.NameInfo namespace DocGen4.Process open Lean Meta Widget partial def stripArgs (e : Expr) : Expr := match e.consumeMData with | Expr.lam name _ body _ => let name := name.eraseMacroScopes stripArgs (Expr.instantiate1 body (mkFVar ⟨name⟩)) | Expr.forallE name _ body _ => let name := name.eraseMacroScopes stripArgs (Expr.instantiate1 body (mkFVar ⟨name⟩)) | _ => e def processEq (eq : Name) : MetaM CodeWithInfos := do let type ← (mkConstWithFreshMVarLevels eq >>= inferType) let final := stripArgs type prettyPrintTerm final def valueToEq (v : DefinitionVal) : MetaM Expr := withLCtx {} {} do withOptions (tactic.hygienic.set . false) do lambdaTelescope v.value fun xs body => do let us := v.levelParams.map mkLevelParam let type ← mkEq (mkAppN (Lean.mkConst v.name us) xs) body let type ← mkForallFVars xs type pure type def DefinitionInfo.ofDefinitionVal (v : DefinitionVal) : MetaM DefinitionInfo := do let info ← Info.ofConstantVal v.toConstantVal let isUnsafe := v.safety == DefinitionSafety.unsafe let isNonComputable := isNoncomputable (←getEnv) v.name try let eqs? ← getEqnsFor? v.name match eqs? with | some eqs => let equations ← eqs.mapM processEq pure { toInfo := info, isUnsafe, hints := v.hints, equations, isNonComputable } | none => let equations := #[←prettyPrintTerm <| stripArgs (←valueToEq v)] pure { toInfo := info, isUnsafe, hints := v.hints, equations, isNonComputable } catch err => IO.println s!"WARNING: Failed to calculate equational lemmata for {v.name}: {←err.toMessageData.toString}" pure { toInfo := info, isUnsafe, hints := v.hints, equations := none, isNonComputable } end DocGen4.Process