chore: Version 0.3 #136
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@ -1,21 +1,13 @@
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/- structures for FFI based interface -/
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/- structures for FFI based interface -/
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import Lean
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import Lean
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import Pantograph.Goal
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import Pantograph.Expr
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import Pantograph.Protocol
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open Lean
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open Lean
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namespace Pantograph.Condensed
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namespace Pantograph
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namespace Condensed
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/-
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These two functions are for user defiend names. For internal names such as
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`_uniq`, it is favourable to use `lean_name_hash_exported` and `lean_name_eq` to
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construct hash maps for Lean names.
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-/
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@[export pantograph_str_to_name]
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def strToName (s: String) : Name := s.toName
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@[export pantograph_name_to_str]
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def nameToStr (s: String) : Name := s.toName
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@[export pantograph_name_is_inaccessible]
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def isInaccessible (n: Name) : Bool := n.isInaccessibleUserName
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-- Mirrors Lean's LocalDecl
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-- Mirrors Lean's LocalDecl
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structure LocalDecl where
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structure LocalDecl where
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@ -36,7 +28,69 @@ structure Goal where
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@[export pantograph_goal_is_lhs]
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@[export pantograph_goal_is_lhs]
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def isLHS (g: Goal) : Bool := isLHSGoal? g.target |>.isSome
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def isLHS (g: Goal) : Bool := isLHSGoal? g.target |>.isSome
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-- Functions for creating contexts and states
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@[export pantograph_elab_context]
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def elabContext: Elab.Term.Context := {
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errToSorry := false
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}
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end Condensed
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-- Get the list of visible (by default) free variables from a goal
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@[export pantograph_visible_fvars_of_mvar]
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protected def visibleFVarsOfMVar (mctx: MetavarContext) (mvarId: MVarId): Option (Array FVarId) := do
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let mvarDecl ← mctx.findDecl? mvarId
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let lctx := mvarDecl.lctx
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return lctx.decls.foldl (init := #[]) fun r decl? => match decl? with
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| some decl => if decl.isAuxDecl ∨ decl.isImplementationDetail then r else r.push decl.fvarId
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| none => r
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end Pantograph.Condensed
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@[export pantograph_to_condensed_goal_m]
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def toCondensedGoal (mvarId: MVarId): MetaM Condensed.Goal := do
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let ppAuxDecls := Meta.pp.auxDecls.get (← getOptions)
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let ppImplDetailHyps := Meta.pp.implementationDetailHyps.get (← getOptions)
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let mvarDecl ← mvarId.getDecl
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let lctx := mvarDecl.lctx
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let lctx := lctx.sanitizeNames.run' { options := (← getOptions) }
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Meta.withLCtx lctx mvarDecl.localInstances do
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let ppVar (localDecl : LocalDecl) : MetaM Condensed.LocalDecl := do
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match localDecl with
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| .cdecl _ fvarId userName type _ _ =>
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let type ← instantiate type
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return { fvarId, userName, type }
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| .ldecl _ fvarId userName type value _ _ => do
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let userName := userName.simpMacroScopes
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let type ← instantiate type
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let value ← instantiate value
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return { fvarId, userName, type, value? := .some value }
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let vars ← lctx.foldlM (init := []) fun acc (localDecl : LocalDecl) => do
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let skip := !ppAuxDecls && localDecl.isAuxDecl ||
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!ppImplDetailHyps && localDecl.isImplementationDetail
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if skip then
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return acc
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else
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let var ← ppVar localDecl
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return var::acc
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return {
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mvarId,
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userName := mvarDecl.userName,
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context := vars.reverse.toArray,
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target := ← instantiate mvarDecl.type
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}
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where
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instantiate := instantiateAll
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@[export pantograph_goal_state_to_condensed_m]
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protected def GoalState.toCondensed (state: GoalState):
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CoreM (Array Condensed.Goal):= do
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let metaM := do
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let goals := state.goals.toArray
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goals.mapM fun goal => do
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match state.mctx.findDecl? goal with
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| .some _ =>
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let serializedGoal ← toCondensedGoal goal
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pure serializedGoal
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| .none => throwError s!"Metavariable does not exist in context {goal.name}"
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metaM.run' (s := state.savedState.term.meta.meta)
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end Pantograph
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@ -7,15 +7,36 @@ open Pantograph
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namespace Pantograph.Environment
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namespace Pantograph.Environment
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def isNameInternal (n: Lean.Name): Bool :=
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@[export pantograph_is_name_internal]
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def isNameInternal (n: Name): Bool :=
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-- Returns true if the name is an implementation detail which should not be shown to the user.
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-- Returns true if the name is an implementation detail which should not be shown to the user.
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isLeanSymbol n ∨ (Lean.privateToUserName? n |>.map isLeanSymbol |>.getD false) ∨ n.isAuxLemma ∨ n.hasMacroScopes
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isLeanSymbol n ∨ (Lean.privateToUserName? n |>.map isLeanSymbol |>.getD false) ∨ n.isAuxLemma ∨ n.hasMacroScopes
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where
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where
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isLeanSymbol (name: Lean.Name): Bool := match name.getRoot with
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isLeanSymbol (name: Name): Bool := match name.getRoot with
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| .str _ name => name == "Lean"
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| .str _ name => name == "Lean"
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| _ => true
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| _ => true
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def toCompactSymbolName (n: Lean.Name) (info: Lean.ConstantInfo): String :=
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/-- Catalog all the non-internal and safe names -/
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@[export pantograph_environment_catalog]
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def env_catalog (env: Environment): Array Name := env.constants.fold (init := #[]) (λ acc name info =>
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match isNameInternal name || info.isUnsafe with
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| false => acc.push name
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| true => acc)
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@[export pantograph_environment_module_of_name]
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def module_of_name (env: Environment) (name: Name): Option Name := do
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let moduleId ← env.getModuleIdxFor? name
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return env.allImportedModuleNames.get! moduleId.toNat
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@[export pantograph_constant_info_is_unsafe_or_partial]
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def constantInfoIsUnsafeOrPartial (info: ConstantInfo): Bool := info.isUnsafe || info.isPartial
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@[export pantograph_constant_info_type]
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def constantInfoType (info: ConstantInfo): CoreM Expr := unfoldAuxLemmas info.type
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@[export pantograph_constant_info_value]
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def constantInfoValue (info: ConstantInfo): CoreM (Option Expr) := info.value?.mapM unfoldAuxLemmas
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def toCompactSymbolName (n: Name) (info: ConstantInfo): String :=
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let pref := match info with
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let pref := match info with
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| .axiomInfo _ => "a"
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| .axiomInfo _ => "a"
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| .defnInfo _ => "d"
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| .defnInfo _ => "d"
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@ -4,9 +4,29 @@ open Lean
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namespace Pantograph
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namespace Pantograph
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structure ProjectionApplication where
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projector: Name
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numParams: Nat
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inner: Expr
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@[export pantograph_expr_proj_to_app]
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def exprProjToApp (env: Environment) (e: Expr): ProjectionApplication :=
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let (typeName, idx, inner) := match e with
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| .proj typeName idx inner => (typeName, idx, inner)
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| _ => panic! "Argument must be proj"
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let ctor := getStructureCtor env typeName
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let fieldName := getStructureFields env typeName |>.get! idx
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let projector := getProjFnForField? env typeName fieldName |>.get!
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{
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projector,
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numParams := ctor.numParams,
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inner,
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}
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def _root_.Lean.Name.isAuxLemma (n : Lean.Name) : Bool := n matches .num (.str _ "_auxLemma") _
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def _root_.Lean.Name.isAuxLemma (n : Lean.Name) : Bool := n matches .num (.str _ "_auxLemma") _
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/-- Unfold all lemmas created by `Lean.Meta.mkAuxLemma`. These end in `_auxLemma.nn` where `nn` is a number. -/
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/-- Unfold all lemmas created by `Lean.Meta.mkAuxLemma`. These end in `_auxLemma.nn` where `nn` is a number. -/
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@[export pantograph_unfold_aux_lemmas]
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def unfoldAuxLemmas (e : Expr) : CoreM Expr := do
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def unfoldAuxLemmas (e : Expr) : CoreM Expr := do
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Lean.Meta.deltaExpand e Lean.Name.isAuxLemma
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Lean.Meta.deltaExpand e Lean.Name.isAuxLemma
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@ -98,7 +118,7 @@ Convert an expression to an equiavlent form with
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2. No aux lemmas
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2. No aux lemmas
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3. No assigned mvars
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3. No assigned mvars
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-/
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-/
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@[export pantograph_instantiate_all_meta_m]
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@[export pantograph_instantiate_all_m]
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def instantiateAll (e: Expr): MetaM Expr := do
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def instantiateAll (e: Expr): MetaM Expr := do
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let e ← instantiateDelayedMVars e
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let e ← instantiateDelayedMVars e
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let e ← unfoldAuxLemmas e
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let e ← unfoldAuxLemmas e
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@ -111,7 +131,7 @@ structure DelayedMVarInvocation where
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tail: Array Expr
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tail: Array Expr
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-- The pending mvar of any delayed assigned mvar must not be assigned in any way.
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-- The pending mvar of any delayed assigned mvar must not be assigned in any way.
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@[export pantograph_to_delayed_mvar_invocation_meta_m]
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@[export pantograph_to_delayed_mvar_invocation_m]
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def toDelayedMVarInvocation (e: Expr): MetaM (Option DelayedMVarInvocation) := do
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def toDelayedMVarInvocation (e: Expr): MetaM (Option DelayedMVarInvocation) := do
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let .mvar mvarId := e.getAppFn | return .none
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let .mvar mvarId := e.getAppFn | return .none
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let .some decl ← getDelayedMVarAssignment? mvarId | return .none
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let .some decl ← getDelayedMVarAssignment? mvarId | return .none
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@ -34,6 +34,7 @@ structure GoalState where
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-- WARNING: If using `state with` outside of `calc`, this must be set to `.none`
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-- WARNING: If using `state with` outside of `calc`, this must be set to `.none`
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calcPrevRhs?: Option Expr := .none
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calcPrevRhs?: Option Expr := .none
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@[export pantograph_goal_state_create_m]
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protected def GoalState.create (expr: Expr): Elab.TermElabM GoalState := do
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protected def GoalState.create (expr: Expr): Elab.TermElabM GoalState := do
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-- May be necessary to immediately synthesise all metavariables if we need to leave the elaboration context.
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-- May be necessary to immediately synthesise all metavariables if we need to leave the elaboration context.
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-- See https://leanprover.zulipchat.com/#narrow/stream/270676-lean4/topic/Unknown.20universe.20metavariable/near/360130070
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-- See https://leanprover.zulipchat.com/#narrow/stream/270676-lean4/topic/Unknown.20universe.20metavariable/near/360130070
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@ -54,6 +55,8 @@ protected def GoalState.isConv (state: GoalState): Bool :=
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state.convMVar?.isSome
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state.convMVar?.isSome
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protected def GoalState.goals (state: GoalState): List MVarId :=
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protected def GoalState.goals (state: GoalState): List MVarId :=
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state.savedState.tactic.goals
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state.savedState.tactic.goals
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@[export pantograph_goal_state_goals]
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protected def GoalState.goalsArray (state: GoalState): Array MVarId := state.goals.toArray
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protected def GoalState.mctx (state: GoalState): MetavarContext :=
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protected def GoalState.mctx (state: GoalState): MetavarContext :=
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state.savedState.term.meta.meta.mctx
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state.savedState.term.meta.meta.mctx
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protected def GoalState.env (state: GoalState): Environment :=
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protected def GoalState.env (state: GoalState): Environment :=
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@ -109,6 +112,7 @@ protected def GoalState.focus (state: GoalState) (goalId: Nat): Option GoalState
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/--
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/--
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Brings into scope a list of goals
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Brings into scope a list of goals
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-/
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-/
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@[export pantograph_goal_state_resume]
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protected def GoalState.resume (state: GoalState) (goals: List MVarId): Except String GoalState :=
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protected def GoalState.resume (state: GoalState) (goals: List MVarId): Except String GoalState :=
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if ¬ (goals.all (λ goal => state.mvars.contains goal)) then
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if ¬ (goals.all (λ goal => state.mvars.contains goal)) then
|
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let invalid_goals := goals.filter (λ goal => ¬ state.mvars.contains goal) |>.map (·.name.toString)
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let invalid_goals := goals.filter (λ goal => ¬ state.mvars.contains goal) |>.map (·.name.toString)
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@ -137,6 +141,7 @@ protected def GoalState.continue (target: GoalState) (branch: GoalState): Except
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else
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else
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target.resume (goals := branch.goals)
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target.resume (goals := branch.goals)
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@[export pantograph_goal_state_root_expr]
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protected def GoalState.rootExpr? (goalState: GoalState): Option Expr := do
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protected def GoalState.rootExpr? (goalState: GoalState): Option Expr := do
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let expr ← goalState.mctx.eAssignment.find? goalState.root
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let expr ← goalState.mctx.eAssignment.find? goalState.root
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let (expr, _) := instantiateMVarsCore (mctx := goalState.mctx) (e := expr)
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let (expr, _) := instantiateMVarsCore (mctx := goalState.mctx) (e := expr)
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@ -147,12 +152,14 @@ protected def GoalState.rootExpr? (goalState: GoalState): Option Expr := do
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else
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else
|
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assert! goalState.goals.isEmpty
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assert! goalState.goals.isEmpty
|
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return expr
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return expr
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@[export pantograph_goal_state_parent_expr]
|
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protected def GoalState.parentExpr? (goalState: GoalState): Option Expr := do
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protected def GoalState.parentExpr? (goalState: GoalState): Option Expr := do
|
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let parent ← goalState.parentMVar?
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let parent ← goalState.parentMVar?
|
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let expr := goalState.mctx.eAssignment.find! parent
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let expr := goalState.mctx.eAssignment.find! parent
|
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let (expr, _) := instantiateMVarsCore (mctx := goalState.mctx) (e := expr)
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let (expr, _) := instantiateMVarsCore (mctx := goalState.mctx) (e := expr)
|
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return expr
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return expr
|
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protected def GoalState.assignedExprOf? (goalState: GoalState) (mvar: MVarId): Option Expr := do
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@[export pantograph_goal_state_get_mvar_e_assignment]
|
||||||
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protected def GoalState.getMVarEAssignment (goalState: GoalState) (mvar: MVarId): Option Expr := do
|
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let expr ← goalState.mctx.eAssignment.find? mvar
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let expr ← goalState.mctx.eAssignment.find? mvar
|
||||||
let (expr, _) := instantiateMVarsCore (mctx := goalState.mctx) (e := expr)
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let (expr, _) := instantiateMVarsCore (mctx := goalState.mctx) (e := expr)
|
||||||
return expr
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return expr
|
||||||
|
@ -172,13 +179,14 @@ inductive TacticResult where
|
||||||
-- The given action cannot be executed in the state
|
-- The given action cannot be executed in the state
|
||||||
| invalidAction (message: String)
|
| invalidAction (message: String)
|
||||||
|
|
||||||
protected def GoalState.execute (state: GoalState) (goalId: Nat) (tacticM: Elab.Tactic.TacticM Unit):
|
/-- Executes a `TacticM` monads on this `GoalState`, collecting the errors as necessary -/
|
||||||
Elab.TermElabM TacticResult := do
|
protected def GoalState.tryTacticM (state: GoalState) (goalId: Nat) (tacticM: Elab.Tactic.TacticM Unit):
|
||||||
|
Elab.TermElabM TacticResult := do
|
||||||
state.restoreElabM
|
state.restoreElabM
|
||||||
let goal ← match state.savedState.tactic.goals.get? goalId with
|
let goal ← match state.savedState.tactic.goals.get? goalId with
|
||||||
| .some goal => pure $ goal
|
| .some goal => pure $ goal
|
||||||
| .none => return .indexError goalId
|
| .none => return .indexError goalId
|
||||||
goal.checkNotAssigned `GoalState.execute
|
goal.checkNotAssigned `GoalState.tryTacticM
|
||||||
try
|
try
|
||||||
let (_, newGoals) ← tacticM { elaborator := .anonymous } |>.run { goals := [goal] }
|
let (_, newGoals) ← tacticM { elaborator := .anonymous } |>.run { goals := [goal] }
|
||||||
if (← getThe Core.State).messages.hasErrors then
|
if (← getThe Core.State).messages.hasErrors then
|
||||||
|
@ -198,7 +206,7 @@ protected def GoalState.execute (state: GoalState) (goalId: Nat) (tacticM: Elab.
|
||||||
catch exception =>
|
catch exception =>
|
||||||
return .failure #[← exception.toMessageData.toString]
|
return .failure #[← exception.toMessageData.toString]
|
||||||
|
|
||||||
/-- Execute tactic on given state -/
|
/-- Execute a string tactic on given state -/
|
||||||
protected def GoalState.tryTactic (state: GoalState) (goalId: Nat) (tactic: String):
|
protected def GoalState.tryTactic (state: GoalState) (goalId: Nat) (tactic: String):
|
||||||
Elab.TermElabM TacticResult := do
|
Elab.TermElabM TacticResult := do
|
||||||
let tactic ← match Parser.runParserCategory
|
let tactic ← match Parser.runParserCategory
|
||||||
|
@ -208,68 +216,19 @@ protected def GoalState.tryTactic (state: GoalState) (goalId: Nat) (tactic: Stri
|
||||||
(fileName := filename) with
|
(fileName := filename) with
|
||||||
| .ok stx => pure $ stx
|
| .ok stx => pure $ stx
|
||||||
| .error error => return .parseError error
|
| .error error => return .parseError error
|
||||||
state.execute goalId $ Elab.Tactic.evalTactic tactic
|
state.tryTacticM goalId $ Elab.Tactic.evalTactic tactic
|
||||||
|
|
||||||
/-- Assumes elabM has already been restored. Assumes expr has already typechecked -/
|
|
||||||
protected def GoalState.assign (state: GoalState) (goal: MVarId) (expr: Expr):
|
|
||||||
Elab.TermElabM TacticResult := do
|
|
||||||
let goalType ← goal.getType
|
|
||||||
try
|
|
||||||
-- For some reason this is needed. One of the unit tests will fail if this isn't here
|
|
||||||
let error?: Option String ← goal.withContext do
|
|
||||||
let exprType ← Meta.inferType expr
|
|
||||||
if ← Meta.isDefEq goalType exprType then
|
|
||||||
pure .none
|
|
||||||
else do
|
|
||||||
return .some s!"{← Meta.ppExpr expr} : {← Meta.ppExpr exprType} != {← Meta.ppExpr goalType}"
|
|
||||||
if let .some error := error? then
|
|
||||||
return .parseError error
|
|
||||||
goal.checkNotAssigned `GoalState.assign
|
|
||||||
goal.assign expr
|
|
||||||
if (← getThe Core.State).messages.hasErrors then
|
|
||||||
let messages := (← getThe Core.State).messages.toArray
|
|
||||||
let errors ← (messages.map (·.data)).mapM fun md => md.toString
|
|
||||||
return .failure errors
|
|
||||||
let prevMCtx := state.savedState.term.meta.meta.mctx
|
|
||||||
let nextMCtx ← getMCtx
|
|
||||||
-- Generate a list of mvarIds that exist in the parent state; Also test the
|
|
||||||
-- assertion that the types have not changed on any mvars.
|
|
||||||
let newMVars := newMVarSet prevMCtx nextMCtx
|
|
||||||
let nextGoals ← newMVars.toList.filterM (not <$> ·.isAssigned)
|
|
||||||
return .success {
|
|
||||||
root := state.root,
|
|
||||||
savedState := {
|
|
||||||
term := ← MonadBacktrack.saveState,
|
|
||||||
tactic := { goals := nextGoals }
|
|
||||||
},
|
|
||||||
newMVars,
|
|
||||||
parentMVar? := .some goal,
|
|
||||||
calcPrevRhs? := .none
|
|
||||||
}
|
|
||||||
catch exception =>
|
|
||||||
return .failure #[← exception.toMessageData.toString]
|
|
||||||
|
|
||||||
protected def GoalState.tryAssign (state: GoalState) (goalId: Nat) (expr: String):
|
protected def GoalState.tryAssign (state: GoalState) (goalId: Nat) (expr: String):
|
||||||
Elab.TermElabM TacticResult := do
|
Elab.TermElabM TacticResult := do
|
||||||
state.restoreElabM
|
state.restoreElabM
|
||||||
let goal ← match state.savedState.tactic.goals.get? goalId with
|
|
||||||
| .some goal => pure goal
|
|
||||||
| .none => return .indexError goalId
|
|
||||||
goal.checkNotAssigned `GoalState.tryAssign
|
|
||||||
let expr ← match Parser.runParserCategory
|
let expr ← match Parser.runParserCategory
|
||||||
(env := state.env)
|
(env := ← MonadEnv.getEnv)
|
||||||
(catName := `term)
|
(catName := `term)
|
||||||
(input := expr)
|
(input := expr)
|
||||||
(fileName := filename) with
|
(fileName := filename) with
|
||||||
| .ok syn => pure syn
|
| .ok syn => pure syn
|
||||||
| .error error => return .parseError error
|
| .error error => return .parseError error
|
||||||
let goalType ← goal.getType
|
state.tryTacticM goalId $ Tactic.evalAssign expr
|
||||||
try
|
|
||||||
let expr ← goal.withContext $
|
|
||||||
Elab.Term.elabTermAndSynthesize (stx := expr) (expectedType? := .some goalType)
|
|
||||||
state.assign goal expr
|
|
||||||
catch exception =>
|
|
||||||
return .failure #[← exception.toMessageData.toString]
|
|
||||||
|
|
||||||
-- Specialized Tactics
|
-- Specialized Tactics
|
||||||
|
|
||||||
|
@ -475,13 +434,13 @@ protected def GoalState.tryMotivatedApply (state: GoalState) (goalId: Nat) (recu
|
||||||
let recursor ← match (← Compile.parseTermM recursor) with
|
let recursor ← match (← Compile.parseTermM recursor) with
|
||||||
| .ok syn => pure syn
|
| .ok syn => pure syn
|
||||||
| .error error => return .parseError error
|
| .error error => return .parseError error
|
||||||
state.execute goalId (tacticM := Tactic.motivatedApply recursor)
|
state.tryTacticM goalId (tacticM := Tactic.motivatedApply recursor)
|
||||||
protected def GoalState.tryNoConfuse (state: GoalState) (goalId: Nat) (eq: String):
|
protected def GoalState.tryNoConfuse (state: GoalState) (goalId: Nat) (eq: String):
|
||||||
Elab.TermElabM TacticResult := do
|
Elab.TermElabM TacticResult := do
|
||||||
state.restoreElabM
|
state.restoreElabM
|
||||||
let eq ← match (← Compile.parseTermM eq) with
|
let eq ← match (← Compile.parseTermM eq) with
|
||||||
| .ok syn => pure syn
|
| .ok syn => pure syn
|
||||||
| .error error => return .parseError error
|
| .error error => return .parseError error
|
||||||
state.execute goalId (tacticM := Tactic.noConfuse eq)
|
state.tryTacticM goalId (tacticM := Tactic.noConfuse eq)
|
||||||
|
|
||||||
end Pantograph
|
end Pantograph
|
||||||
|
|
|
@ -1,3 +1,4 @@
|
||||||
|
import Pantograph.Condensed
|
||||||
import Pantograph.Environment
|
import Pantograph.Environment
|
||||||
import Pantograph.Goal
|
import Pantograph.Goal
|
||||||
import Pantograph.Protocol
|
import Pantograph.Protocol
|
||||||
|
@ -38,13 +39,10 @@ open Lean
|
||||||
|
|
||||||
namespace Pantograph
|
namespace Pantograph
|
||||||
|
|
||||||
def defaultTermElabMContext: Elab.Term.Context := {
|
|
||||||
errToSorry := false
|
|
||||||
}
|
|
||||||
def runMetaM { α } (metaM: MetaM α): CoreM α :=
|
def runMetaM { α } (metaM: MetaM α): CoreM α :=
|
||||||
metaM.run'
|
metaM.run'
|
||||||
def runTermElabM { α } (termElabM: Elab.TermElabM α): CoreM α :=
|
def runTermElabM { α } (termElabM: Elab.TermElabM α): CoreM α :=
|
||||||
termElabM.run' (ctx := defaultTermElabMContext) |>.run'
|
termElabM.run' (ctx := Condensed.elabContext) |>.run'
|
||||||
|
|
||||||
def errorI (type desc: String): Protocol.InteractionError := { error := type, desc := desc }
|
def errorI (type desc: String): Protocol.InteractionError := { error := type, desc := desc }
|
||||||
|
|
||||||
|
@ -78,26 +76,12 @@ def createCoreState (imports: Array String): IO Core.State := do
|
||||||
(trustLevel := 1)
|
(trustLevel := 1)
|
||||||
return { env := env }
|
return { env := env }
|
||||||
|
|
||||||
@[export pantograph_create_meta_context]
|
|
||||||
def createMetaContext: IO Lean.Meta.Context := do
|
|
||||||
return {}
|
|
||||||
|
|
||||||
@[export pantograph_env_catalog_m]
|
|
||||||
def envCatalog: CoreM Protocol.EnvCatalogResult :=
|
|
||||||
Environment.catalog ({}: Protocol.EnvCatalog)
|
|
||||||
|
|
||||||
@[export pantograph_env_inspect_m]
|
|
||||||
def envInspect (name: String) (value: Bool) (dependency: Bool) (options: @&Protocol.Options):
|
|
||||||
CoreM (Protocol.CR Protocol.EnvInspectResult) :=
|
|
||||||
Environment.inspect ({
|
|
||||||
name, value? := .some value, dependency?:= .some dependency
|
|
||||||
}: Protocol.EnvInspect) options
|
|
||||||
|
|
||||||
@[export pantograph_env_add_m]
|
@[export pantograph_env_add_m]
|
||||||
def envAdd (name: String) (type: String) (value: String) (isTheorem: Bool):
|
def envAdd (name: String) (type: String) (value: String) (isTheorem: Bool):
|
||||||
CoreM (Protocol.CR Protocol.EnvAddResult) :=
|
CoreM (Protocol.CR Protocol.EnvAddResult) :=
|
||||||
Environment.addDecl { name, type, value, isTheorem }
|
Environment.addDecl { name, type, value, isTheorem }
|
||||||
|
|
||||||
|
@[export pantograph_parse_elab_type_m]
|
||||||
def parseElabType (type: String): Elab.TermElabM (Protocol.CR Expr) := do
|
def parseElabType (type: String): Elab.TermElabM (Protocol.CR Expr) := do
|
||||||
let env ← MonadEnv.getEnv
|
let env ← MonadEnv.getEnv
|
||||||
let syn ← match parseTerm env type with
|
let syn ← match parseTerm env type with
|
||||||
|
@ -108,6 +92,7 @@ def parseElabType (type: String): Elab.TermElabM (Protocol.CR Expr) := do
|
||||||
| .ok expr => return .ok (← instantiateMVars expr)
|
| .ok expr => return .ok (← instantiateMVars expr)
|
||||||
|
|
||||||
/-- This must be a TermElabM since the parsed expr contains extra information -/
|
/-- This must be a TermElabM since the parsed expr contains extra information -/
|
||||||
|
@[export pantograph_parse_elab_expr_m]
|
||||||
def parseElabExpr (expr: String) (expectedType?: Option String := .none): Elab.TermElabM (Protocol.CR Expr) := do
|
def parseElabExpr (expr: String) (expectedType?: Option String := .none): Elab.TermElabM (Protocol.CR Expr) := do
|
||||||
let env ← MonadEnv.getEnv
|
let env ← MonadEnv.getEnv
|
||||||
let expectedType? ← match ← expectedType?.mapM parseElabType with
|
let expectedType? ← match ← expectedType?.mapM parseElabType with
|
||||||
|
@ -169,9 +154,6 @@ def goalPrint (state: GoalState) (options: @&Protocol.Options): CoreM Protocol.G
|
||||||
state.withParentContext do
|
state.withParentContext do
|
||||||
serializeExpression options (← instantiateAll expr)),
|
serializeExpression options (← instantiateAll expr)),
|
||||||
}
|
}
|
||||||
@[export pantograph_goal_diag_m]
|
|
||||||
def goalDiag (state: GoalState) (diagOptions: Protocol.GoalDiag) : CoreM String :=
|
|
||||||
runMetaM $ state.diag diagOptions
|
|
||||||
|
|
||||||
@[export pantograph_goal_tactic_m]
|
@[export pantograph_goal_tactic_m]
|
||||||
def goalTactic (state: GoalState) (goalId: Nat) (tactic: String): CoreM TacticResult :=
|
def goalTactic (state: GoalState) (goalId: Nat) (tactic: String): CoreM TacticResult :=
|
||||||
|
@ -186,7 +168,7 @@ protected def GoalState.tryHave (state: GoalState) (goalId: Nat) (binderName: St
|
||||||
| .error error => return .parseError error
|
| .error error => return .parseError error
|
||||||
runTermElabM do
|
runTermElabM do
|
||||||
state.restoreElabM
|
state.restoreElabM
|
||||||
state.execute goalId (Tactic.«have» binderName.toName type)
|
state.tryTacticM goalId (Tactic.«have» binderName.toName type)
|
||||||
@[export pantograph_goal_evaluate_m]
|
@[export pantograph_goal_evaluate_m]
|
||||||
protected def GoalState.tryEvaluate (state: GoalState) (goalId: Nat) (binderName: String) (expr: String): CoreM TacticResult := do
|
protected def GoalState.tryEvaluate (state: GoalState) (goalId: Nat) (binderName: String) (expr: String): CoreM TacticResult := do
|
||||||
let expr ← match (← Compile.parseTermM expr) with
|
let expr ← match (← Compile.parseTermM expr) with
|
||||||
|
@ -194,7 +176,7 @@ protected def GoalState.tryEvaluate (state: GoalState) (goalId: Nat) (binderName
|
||||||
| .error error => return .parseError error
|
| .error error => return .parseError error
|
||||||
runTermElabM do
|
runTermElabM do
|
||||||
state.restoreElabM
|
state.restoreElabM
|
||||||
state.execute goalId (Tactic.evaluate binderName.toName expr)
|
state.tryTacticM goalId (Tactic.evaluate binderName.toName expr)
|
||||||
@[export pantograph_goal_let_m]
|
@[export pantograph_goal_let_m]
|
||||||
def goalLet (state: GoalState) (goalId: Nat) (binderName: String) (type: String): CoreM TacticResult :=
|
def goalLet (state: GoalState) (goalId: Nat) (binderName: String) (type: String): CoreM TacticResult :=
|
||||||
runTermElabM <| state.tryLet goalId binderName type
|
runTermElabM <| state.tryLet goalId binderName type
|
||||||
|
@ -217,20 +199,4 @@ def goalMotivatedApply (state: GoalState) (goalId: Nat) (recursor: String): Core
|
||||||
def goalNoConfuse (state: GoalState) (goalId: Nat) (eq: String): CoreM TacticResult :=
|
def goalNoConfuse (state: GoalState) (goalId: Nat) (eq: String): CoreM TacticResult :=
|
||||||
runTermElabM <| state.tryNoConfuse goalId eq
|
runTermElabM <| state.tryNoConfuse goalId eq
|
||||||
|
|
||||||
inductive SyntheticTactic where
|
|
||||||
| congruenceArg
|
|
||||||
| congruenceFun
|
|
||||||
| congruence
|
|
||||||
/-- Executes a synthetic tactic which has no arguments -/
|
|
||||||
@[export pantograph_goal_synthetic_tactic_m]
|
|
||||||
def goalSyntheticTactic (state: GoalState) (goalId: Nat) (case: SyntheticTactic): CoreM TacticResult :=
|
|
||||||
runTermElabM do
|
|
||||||
state.restoreElabM
|
|
||||||
state.execute goalId $ match case with
|
|
||||||
| .congruenceArg => Tactic.congruenceArg
|
|
||||||
| .congruenceFun => Tactic.congruenceFun
|
|
||||||
| .congruence => Tactic.congruence
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
end Pantograph
|
end Pantograph
|
||||||
|
|
|
@ -168,15 +168,12 @@ partial def serializeExpressionSexp (expr: Expr) (sanitize: Bool := true): MetaM
|
||||||
-- NOTE: Equivalent to expr itself, but mdata influences the prettyprinter
|
-- NOTE: Equivalent to expr itself, but mdata influences the prettyprinter
|
||||||
-- It may become necessary to incorporate the metadata.
|
-- It may become necessary to incorporate the metadata.
|
||||||
self inner
|
self inner
|
||||||
| .proj typeName idx inner => do
|
| .proj _ _ _ => do
|
||||||
let env ← getEnv
|
let env ← getEnv
|
||||||
let ctor := getStructureCtor env typeName
|
let projApp := exprProjToApp env e
|
||||||
let fieldName := getStructureFields env typeName |>.get! idx
|
let autos := String.intercalate " " (List.replicate projApp.numParams "_")
|
||||||
let projectorName := getProjFnForField? env typeName fieldName |>.get!
|
let inner ← self projApp.inner
|
||||||
|
pure s!"((:c {projApp.projector}) {autos} {inner})"
|
||||||
let autos := String.intercalate " " (List.replicate ctor.numParams "_")
|
|
||||||
let inner ← self inner
|
|
||||||
pure s!"((:c {projectorName}) {autos} {inner})"
|
|
||||||
-- Elides all unhygenic names
|
-- Elides all unhygenic names
|
||||||
binderInfoSexp : Lean.BinderInfo → String
|
binderInfoSexp : Lean.BinderInfo → String
|
||||||
| .default => ""
|
| .default => ""
|
||||||
|
@ -201,54 +198,6 @@ def serializeExpression (options: @&Protocol.Options) (e: Expr): MetaM Protocol.
|
||||||
dependentMVars?,
|
dependentMVars?,
|
||||||
}
|
}
|
||||||
|
|
||||||
@[export pantograph_to_condensed_goal]
|
|
||||||
def toCondensedGoal (mvarId: MVarId): MetaM Condensed.Goal := do
|
|
||||||
let options: Protocol.Options := {}
|
|
||||||
let ppAuxDecls := options.printAuxDecls
|
|
||||||
let ppImplDetailHyps := options.printImplementationDetailHyps
|
|
||||||
let mvarDecl ← mvarId.getDecl
|
|
||||||
let lctx := mvarDecl.lctx
|
|
||||||
let lctx := lctx.sanitizeNames.run' { options := (← getOptions) }
|
|
||||||
Meta.withLCtx lctx mvarDecl.localInstances do
|
|
||||||
let ppVar (localDecl : LocalDecl) : MetaM Condensed.LocalDecl := do
|
|
||||||
match localDecl with
|
|
||||||
| .cdecl _ fvarId userName type _ _ =>
|
|
||||||
let type ← instantiate type
|
|
||||||
return { fvarId, userName, type }
|
|
||||||
| .ldecl _ fvarId userName type value _ _ => do
|
|
||||||
let userName := userName.simpMacroScopes
|
|
||||||
let type ← instantiate type
|
|
||||||
let value ← instantiate value
|
|
||||||
return { fvarId, userName, type, value? := .some value }
|
|
||||||
let vars ← lctx.foldlM (init := []) fun acc (localDecl : LocalDecl) => do
|
|
||||||
let skip := !ppAuxDecls && localDecl.isAuxDecl ||
|
|
||||||
!ppImplDetailHyps && localDecl.isImplementationDetail
|
|
||||||
if skip then
|
|
||||||
return acc
|
|
||||||
else
|
|
||||||
let var ← ppVar localDecl
|
|
||||||
return var::acc
|
|
||||||
return {
|
|
||||||
mvarId,
|
|
||||||
userName := mvarDecl.userName,
|
|
||||||
context := vars.reverse.toArray,
|
|
||||||
target := ← instantiate mvarDecl.type
|
|
||||||
}
|
|
||||||
where
|
|
||||||
instantiate := instantiateAll
|
|
||||||
|
|
||||||
@[export pantograph_goal_state_to_condensed]
|
|
||||||
protected def GoalState.toCondensed (state: GoalState):
|
|
||||||
CoreM (Array Condensed.Goal):= do
|
|
||||||
let metaM := do
|
|
||||||
let goals := state.goals.toArray
|
|
||||||
goals.mapM fun goal => do
|
|
||||||
match state.mctx.findDecl? goal with
|
|
||||||
| .some _ =>
|
|
||||||
let serializedGoal ← toCondensedGoal goal
|
|
||||||
pure serializedGoal
|
|
||||||
| .none => throwError s!"Metavariable does not exist in context {goal.name}"
|
|
||||||
metaM.run' (s := state.savedState.term.meta.meta)
|
|
||||||
|
|
||||||
/-- Adapted from ppGoal -/
|
/-- Adapted from ppGoal -/
|
||||||
def serializeGoal (options: @&Protocol.Options) (goal: MVarId) (mvarDecl: MetavarDecl) (parentDecl?: Option MetavarDecl := .none)
|
def serializeGoal (options: @&Protocol.Options) (goal: MVarId) (mvarDecl: MetavarDecl) (parentDecl?: Option MetavarDecl := .none)
|
||||||
|
@ -337,7 +286,8 @@ protected def GoalState.serializeGoals
|
||||||
| .none => throwError s!"Metavariable does not exist in context {goal.name}"
|
| .none => throwError s!"Metavariable does not exist in context {goal.name}"
|
||||||
|
|
||||||
/-- Print the metavariables in a readable format -/
|
/-- Print the metavariables in a readable format -/
|
||||||
protected def GoalState.diag (goalState: GoalState) (options: Protocol.GoalDiag := {}): MetaM String := do
|
@[export pantograph_goal_state_diag_m]
|
||||||
|
protected def GoalState.diag (goalState: GoalState) (parent?: Option GoalState := .none) (options: Protocol.GoalDiag := {}): MetaM String := do
|
||||||
goalState.restoreMetaM
|
goalState.restoreMetaM
|
||||||
let savedState := goalState.savedState
|
let savedState := goalState.savedState
|
||||||
let goals := savedState.tactic.goals
|
let goals := savedState.tactic.goals
|
||||||
|
@ -356,7 +306,7 @@ protected def GoalState.diag (goalState: GoalState) (options: Protocol.GoalDiag
|
||||||
let resultOthers ← mctx.decls.toList.filter (λ (mvarId, _) =>
|
let resultOthers ← mctx.decls.toList.filter (λ (mvarId, _) =>
|
||||||
!(goals.contains mvarId || mvarId == root) && options.printAll)
|
!(goals.contains mvarId || mvarId == root) && options.printAll)
|
||||||
|>.mapM (fun (mvarId, decl) => do
|
|>.mapM (fun (mvarId, decl) => do
|
||||||
let pref := if goalState.newMVars.contains mvarId then "~" else " "
|
let pref := if parentHasMVar mvarId then " " else "~"
|
||||||
printMVar pref mvarId decl
|
printMVar pref mvarId decl
|
||||||
)
|
)
|
||||||
pure $ result ++ "\n" ++ (resultGoals.map (· ++ "\n") |> String.join) ++ (resultOthers.map (· ++ "\n") |> String.join)
|
pure $ result ++ "\n" ++ (resultGoals.map (· ++ "\n") |> String.join) ++ (resultOthers.map (· ++ "\n") |> String.join)
|
||||||
|
@ -396,5 +346,6 @@ protected def GoalState.diag (goalState: GoalState) (options: Protocol.GoalDiag
|
||||||
userNameToString : Name → String
|
userNameToString : Name → String
|
||||||
| .anonymous => ""
|
| .anonymous => ""
|
||||||
| other => s!"[{other}]"
|
| other => s!"[{other}]"
|
||||||
|
parentHasMVar (mvarId: MVarId): Bool := parent?.map (λ state => state.mctx.decls.contains mvarId) |>.getD true
|
||||||
|
|
||||||
end Pantograph
|
end Pantograph
|
||||||
|
|
|
@ -1,3 +1,4 @@
|
||||||
|
import Pantograph.Tactic.Assign
|
||||||
import Pantograph.Tactic.Congruence
|
import Pantograph.Tactic.Congruence
|
||||||
import Pantograph.Tactic.MotivatedApply
|
import Pantograph.Tactic.MotivatedApply
|
||||||
import Pantograph.Tactic.NoConfuse
|
import Pantograph.Tactic.NoConfuse
|
||||||
|
|
|
@ -0,0 +1,35 @@
|
||||||
|
import Lean
|
||||||
|
|
||||||
|
open Lean
|
||||||
|
|
||||||
|
namespace Pantograph.Tactic
|
||||||
|
|
||||||
|
private def newMVarSet (mctxOld: @&MetavarContext) (mctxNew: @&MetavarContext): SSet MVarId :=
|
||||||
|
mctxNew.decls.foldl (fun acc mvarId mvarDecl =>
|
||||||
|
if let .some prevMVarDecl := mctxOld.decls.find? mvarId then
|
||||||
|
assert! prevMVarDecl.type == mvarDecl.type
|
||||||
|
acc
|
||||||
|
else
|
||||||
|
acc.insert mvarId
|
||||||
|
) SSet.empty
|
||||||
|
def assign (goal: MVarId) (expr: Expr): MetaM (List MVarId) := do
|
||||||
|
goal.checkNotAssigned `Pantograph.Tactic.assign
|
||||||
|
|
||||||
|
-- This run of the unifier is critical in resolving mvars in passing
|
||||||
|
let exprType ← Meta.inferType expr
|
||||||
|
let goalType ← goal.getType
|
||||||
|
unless ← Meta.isDefEq goalType exprType do
|
||||||
|
throwError s!"{← Meta.ppExpr expr} : {← Meta.ppExpr exprType} ≠ {← Meta.ppExpr goalType}"
|
||||||
|
|
||||||
|
let nextGoals ← Meta.getMVars expr
|
||||||
|
goal.assign expr
|
||||||
|
nextGoals.toList.filterM (not <$> ·.isAssigned)
|
||||||
|
|
||||||
|
def evalAssign : Elab.Tactic.Tactic := fun stx => Elab.Tactic.withMainContext do
|
||||||
|
let goalType ← Elab.Tactic.getMainTarget
|
||||||
|
let expr ← Elab.Term.elabTermAndSynthesize (stx := stx) (expectedType? := .some goalType)
|
||||||
|
let nextGoals ← assign (← Elab.Tactic.getMainGoal) expr
|
||||||
|
Elab.Tactic.setGoals nextGoals
|
||||||
|
|
||||||
|
|
||||||
|
end Pantograph.Tactic
|
|
@ -88,9 +88,9 @@ def runCoreMSeq (env: Environment) (coreM: CoreM LSpec.TestSeq) (options: Array
|
||||||
def runMetaMSeq (env: Environment) (metaM: MetaM LSpec.TestSeq): IO LSpec.TestSeq :=
|
def runMetaMSeq (env: Environment) (metaM: MetaM LSpec.TestSeq): IO LSpec.TestSeq :=
|
||||||
runCoreMSeq env metaM.run'
|
runCoreMSeq env metaM.run'
|
||||||
def runTermElabMInMeta { α } (termElabM: Lean.Elab.TermElabM α): Lean.MetaM α :=
|
def runTermElabMInMeta { α } (termElabM: Lean.Elab.TermElabM α): Lean.MetaM α :=
|
||||||
termElabM.run' (ctx := Pantograph.defaultTermElabMContext)
|
termElabM.run' (ctx := Condensed.elabContext)
|
||||||
def runTermElabMSeq (env: Environment) (termElabM: Elab.TermElabM LSpec.TestSeq): IO LSpec.TestSeq :=
|
def runTermElabMSeq (env: Environment) (termElabM: Elab.TermElabM LSpec.TestSeq): IO LSpec.TestSeq :=
|
||||||
runMetaMSeq env $ termElabM.run' (ctx := Pantograph.defaultTermElabMContext)
|
runMetaMSeq env $ termElabM.run' (ctx := Condensed.elabContext)
|
||||||
|
|
||||||
def exprToStr (e: Expr): Lean.MetaM String := toString <$> Meta.ppExpr e
|
def exprToStr (e: Expr): Lean.MetaM String := toString <$> Meta.ppExpr e
|
||||||
|
|
||||||
|
|
|
@ -67,7 +67,7 @@ def proofRunner (env: Lean.Environment) (tests: TestM Unit): IO LSpec.TestSeq :=
|
||||||
let termElabM := tests.run LSpec.TestSeq.done |>.run {} -- with default options
|
let termElabM := tests.run LSpec.TestSeq.done |>.run {} -- with default options
|
||||||
|
|
||||||
let coreContext: Lean.Core.Context ← createCoreContext #[]
|
let coreContext: Lean.Core.Context ← createCoreContext #[]
|
||||||
let metaM := termElabM.run' (ctx := defaultTermElabMContext)
|
let metaM := termElabM.run' (ctx := Condensed.elabContext)
|
||||||
let coreM := metaM.run'
|
let coreM := metaM.run'
|
||||||
match ← (coreM.run' coreContext { env := env }).toBaseIO with
|
match ← (coreM.run' coreContext { env := env }).toBaseIO with
|
||||||
| .error exception =>
|
| .error exception =>
|
||||||
|
@ -198,10 +198,10 @@ def test_proposition_generation: TestM Unit := do
|
||||||
addTest $ assertUnreachable $ other.toString
|
addTest $ assertUnreachable $ other.toString
|
||||||
return ()
|
return ()
|
||||||
addTest $ LSpec.check ":= λ (x: Nat), _" ((← state2.serializeGoals (options := ← read)).map (·.target.pp?) =
|
addTest $ LSpec.check ":= λ (x: Nat), _" ((← state2.serializeGoals (options := ← read)).map (·.target.pp?) =
|
||||||
#[.some "Nat → Prop", .some "∀ (x : Nat), ?m.29 x"])
|
#[.some "∀ (x : Nat), ?m.29 x"])
|
||||||
addTest $ LSpec.test "(2 root)" state2.rootExpr?.isNone
|
addTest $ LSpec.test "(2 root)" state2.rootExpr?.isNone
|
||||||
|
|
||||||
let state3 ← match ← state2.tryAssign (goalId := 1) (expr := "fun x => Eq.refl x") with
|
let state3 ← match ← state2.tryAssign (goalId := 0) (expr := "fun x => Eq.refl x") with
|
||||||
| .success state => pure state
|
| .success state => pure state
|
||||||
| other => do
|
| other => do
|
||||||
addTest $ assertUnreachable $ other.toString
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
|
|
@ -76,7 +76,7 @@ def proofRunner (env: Lean.Environment) (tests: TestM Unit): IO LSpec.TestSeq :=
|
||||||
let termElabM := tests.run LSpec.TestSeq.done |>.run {} -- with default options
|
let termElabM := tests.run LSpec.TestSeq.done |>.run {} -- with default options
|
||||||
|
|
||||||
let coreContext: Lean.Core.Context ← createCoreContext #[]
|
let coreContext: Lean.Core.Context ← createCoreContext #[]
|
||||||
let metaM := termElabM.run' (ctx := defaultTermElabMContext)
|
let metaM := termElabM.run' (ctx := Condensed.elabContext)
|
||||||
let coreM := metaM.run'
|
let coreM := metaM.run'
|
||||||
match ← (coreM.run' coreContext { env := env }).toBaseIO with
|
match ← (coreM.run' coreContext { env := env }).toBaseIO with
|
||||||
| .error exception =>
|
| .error exception =>
|
||||||
|
|
|
@ -64,7 +64,7 @@ def test_sexp_of_elab (env: Environment): IO LSpec.TestSeq := do
|
||||||
| .ok expr => pure expr
|
| .ok expr => pure expr
|
||||||
| .error e => return elabFailure e
|
| .error e => return elabFailure e
|
||||||
return LSpec.check source ((← serializeExpressionSexp expr) = target)
|
return LSpec.check source ((← serializeExpressionSexp expr) = target)
|
||||||
let metaM := (Elab.Term.withLevelNames levels termElabM).run' (ctx := defaultTermElabMContext)
|
let metaM := (Elab.Term.withLevelNames levels termElabM).run' (ctx := Condensed.elabContext)
|
||||||
return LSpec.TestSeq.append suites (← runMetaMSeq env metaM))
|
return LSpec.TestSeq.append suites (← runMetaMSeq env metaM))
|
||||||
LSpec.TestSeq.done
|
LSpec.TestSeq.done
|
||||||
|
|
||||||
|
@ -85,7 +85,7 @@ def test_sexp_of_expr (env: Environment): IO LSpec.TestSeq := do
|
||||||
let testCaseName := target.take 10
|
let testCaseName := target.take 10
|
||||||
let test := LSpec.check testCaseName ((← serializeExpressionSexp expr) = target)
|
let test := LSpec.check testCaseName ((← serializeExpressionSexp expr) = target)
|
||||||
return LSpec.TestSeq.append suites test) LSpec.TestSeq.done
|
return LSpec.TestSeq.append suites test) LSpec.TestSeq.done
|
||||||
runMetaMSeq env $ termElabM.run' (ctx := defaultTermElabMContext)
|
runMetaMSeq env $ termElabM.run' (ctx := Condensed.elabContext)
|
||||||
|
|
||||||
-- Instance parsing
|
-- Instance parsing
|
||||||
def test_instance (env: Environment): IO LSpec.TestSeq :=
|
def test_instance (env: Environment): IO LSpec.TestSeq :=
|
||||||
|
|
|
@ -63,6 +63,7 @@
|
||||||
packages = {
|
packages = {
|
||||||
inherit (leanPkgs) lean lean-all;
|
inherit (leanPkgs) lean lean-all;
|
||||||
inherit (project) sharedLib executable;
|
inherit (project) sharedLib executable;
|
||||||
|
inherit project leanPkgs;
|
||||||
default = project.executable;
|
default = project.executable;
|
||||||
};
|
};
|
||||||
checks = {
|
checks = {
|
||||||
|
|
Loading…
Reference in New Issue