feat: Elementarized tactics with motives, congruence, and absurdity #72
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@ -1,9 +1,10 @@
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import Lean.Data.HashMap
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import Pantograph.Compile
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import Pantograph.Environment
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import Pantograph.Goal
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import Pantograph.Library
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import Pantograph.Protocol
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import Pantograph.Serial
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import Pantograph.Environment
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import Pantograph.Library
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import Lean.Data.HashMap
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namespace Pantograph
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@ -44,6 +45,7 @@ def execute (command: Protocol.Command): MainM Lean.Json := do
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| "goal.continue" => run goal_continue
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| "goal.delete" => run goal_delete
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| "goal.print" => run goal_print
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| "compile.unit" => run compile_unit
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| cmd =>
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let error: Protocol.InteractionError :=
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errorCommand s!"Unknown command {cmd}"
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@ -190,5 +192,20 @@ def execute (command: Protocol.Command): MainM Lean.Json := do
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| .none => return .error $ errorIndex s!"Invalid state index {args.stateId}"
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| .some goalState => runMetaM <| do
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return .ok (← goalPrint goalState state.options)
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compile_unit (args: Protocol.CompileUnit): MainM (CR Protocol.CompileUnitResult) := do
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let module := args.module.toName
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try
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let steps ← Compile.processSource module
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let units? := if args.compilationUnits then
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.some $ steps.map λ step => (step.src.startPos.byteIdx, step.src.stopPos.byteIdx)
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else
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.none
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let invocations? ← if args.invocations then
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pure $ .some (← Compile.collectTacticsFromCompilation steps)
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else
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pure .none
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return .ok { units?, invocations? }
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catch e =>
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return .error $ errorI "compile" (← e.toMessageData.toString)
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end Pantograph
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|
|
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@ -0,0 +1,25 @@
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/- Adapted from lean-training-data by semorrison -/
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import Pantograph.Protocol
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import Pantograph.Compile.Frontend
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import Pantograph.Compile.Elab
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open Lean
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namespace Pantograph.Compile
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def collectTacticsFromCompilation (steps : List CompilationStep) : IO (List Protocol.InvokedTactic) := do
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let infoTrees := steps.bind (·.trees)
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let tacticInfoTrees := infoTrees.bind λ tree => tree.filter λ
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| info@(.ofTacticInfo _) => info.isOriginal
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| _ => false
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let tactics := tacticInfoTrees.bind collectTactics
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tactics.mapM λ invocation => do
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let goalBefore := (Format.joinSep (← invocation.goalState) "\n").pretty
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let goalAfter := (Format.joinSep (← invocation.goalStateAfter) "\n").pretty
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let tactic ← invocation.ctx.runMetaM {} do
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let t ← Lean.PrettyPrinter.ppTactic ⟨invocation.info.stx⟩
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return t.pretty
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return { goalBefore, goalAfter, tactic }
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end Pantograph.Compile
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@ -0,0 +1,146 @@
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import Lean.Elab.Import
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import Lean.Elab.Command
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import Lean.Elab.InfoTree
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import Pantograph.Compile.Frontend
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open Lean
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namespace Lean.Elab.Info
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/-- The `Syntax` for a `Lean.Elab.Info`, if there is one. -/
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protected def stx? : Info → Option Syntax
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| .ofTacticInfo info => info.stx
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| .ofTermInfo info => info.stx
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| .ofCommandInfo info => info.stx
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| .ofMacroExpansionInfo info => info.stx
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| .ofOptionInfo info => info.stx
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| .ofFieldInfo info => info.stx
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| .ofCompletionInfo info => info.stx
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| .ofUserWidgetInfo info => info.stx
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| .ofCustomInfo info => info.stx
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| .ofFVarAliasInfo _ => none
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| .ofFieldRedeclInfo info => info.stx
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| .ofOmissionInfo info => info.stx
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/-- Is the `Syntax` for this `Lean.Elab.Info` original, or synthetic? -/
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protected def isOriginal (i : Info) : Bool :=
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match i.stx? with
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| none => true -- Somewhat unclear what to do with `FVarAliasInfo`, so be conservative.
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| some stx => match stx.getHeadInfo with
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| .original .. => true
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| _ => false
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end Lean.Elab.Info
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namespace Lean.Elab.TacticInfo
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/-- Find the name for the outermost `Syntax` in this `TacticInfo`. -/
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def name? (t : TacticInfo) : Option Name :=
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match t.stx with
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| Syntax.node _ n _ => some n
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| _ => none
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/-- Decide whether a tactic is "substantive",
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or is merely a tactic combinator (e.g. `by`, `;`, multiline tactics, parenthesized tactics). -/
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def isSubstantive (t : TacticInfo) : Bool :=
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match t.name? with
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| none => false
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| some `null => false
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| some ``cdot => false
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| some ``cdotTk => false
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| some ``Lean.Parser.Term.byTactic => false
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| some ``Lean.Parser.Tactic.tacticSeq => false
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| some ``Lean.Parser.Tactic.tacticSeq1Indented => false
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| some ``Lean.Parser.Tactic.«tactic_<;>_» => false
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| some ``Lean.Parser.Tactic.paren => false
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| _ => true
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end Lean.Elab.TacticInfo
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namespace Lean.Elab.InfoTree
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/--
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Keep `.node` nodes and `.hole` nodes satisfying predicates.
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Returns a `List InfoTree`, although in most situations this will be a singleton.
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-/
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partial def filter (p : Info → Bool) (m : MVarId → Bool := fun _ => false) :
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InfoTree → List InfoTree
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| .context ctx tree => tree.filter p m |>.map (.context ctx)
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| .node info children =>
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if p info then
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[.node info (children.toList.map (filter p m)).join.toPArray']
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else
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(children.toList.map (filter p m)).join
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| .hole mvar => if m mvar then [.hole mvar] else []
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end Lean.Elab.InfoTree
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namespace Pantograph.Compile
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-- Info tree filtering functions
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structure TacticInvocation where
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info : Elab.TacticInfo
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ctx : Elab.ContextInfo
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children : PersistentArray Elab.InfoTree
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namespace TacticInvocation
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/-- Return the range of the tactic, as a pair of file positions. -/
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protected def range (t : TacticInvocation) : Position × Position := t.ctx.fileMap.stxRange t.info.stx
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/-- Pretty print a tactic. -/
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protected def pp (t : TacticInvocation) : IO Format :=
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t.ctx.runMetaM {} try
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Lean.PrettyPrinter.ppTactic ⟨t.info.stx⟩
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catch _ =>
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pure "<failed to pretty print>"
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/-- Run a tactic on the goals stored in a `TacticInvocation`. -/
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protected def runMetaMGoalsBefore (t : TacticInvocation) (x : List MVarId → MetaM α) : IO α := do
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t.ctx.runMetaM {} <| Meta.withMCtx t.info.mctxBefore <| x t.info.goalsBefore
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/-- Run a tactic on the after goals stored in a `TacticInvocation`. -/
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protected def runMetaMGoalsAfter (t : TacticInvocation) (x : List MVarId → MetaM α) : IO α := do
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t.ctx.runMetaM {} <| Meta.withMCtx t.info.mctxAfter <| x t.info.goalsAfter
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/-- Run a tactic on the main goal stored in a `TacticInvocation`. -/
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protected def runMetaM (t : TacticInvocation) (x : MVarId → MetaM α) : IO α := do
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match t.info.goalsBefore.head? with
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| none => throw <| IO.userError s!"No goals at {← t.pp}"
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| some g => t.runMetaMGoalsBefore fun _ => do g.withContext <| x g
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protected def goalState (t : TacticInvocation) : IO (List Format) := do
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t.runMetaMGoalsBefore (fun gs => gs.mapM fun g => do Meta.ppGoal g)
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protected def goalStateAfter (t : TacticInvocation) : IO (List Format) := do
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t.runMetaMGoalsAfter (fun gs => gs.mapM fun g => do Meta.ppGoal g)
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protected def ppExpr (t : TacticInvocation) (e : Expr) : IO Format :=
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t.runMetaM (fun _ => do Meta.ppExpr (← instantiateMVars e))
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end TacticInvocation
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/-- Analogue of `Lean.Elab.InfoTree.findInfo?`, but that returns a list of all results. -/
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partial def findAllInfo (t : Elab.InfoTree) (ctx : Option Elab.ContextInfo) (pred : Elab.Info → Bool) :
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List (Elab.Info × Option Elab.ContextInfo × PersistentArray Elab.InfoTree) :=
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match t with
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| .context inner t => findAllInfo t (inner.mergeIntoOuter? ctx) pred
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| .node i children =>
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(if pred i then [(i, ctx, children)] else []) ++ children.toList.bind (fun t => findAllInfo t ctx pred)
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| _ => []
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/-- Return all `TacticInfo` nodes in an `InfoTree` corresponding to tactics,
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each equipped with its relevant `ContextInfo`, and any children info trees. -/
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def collectTacticNodes (t : Elab.InfoTree) : List TacticInvocation :=
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let infos := findAllInfo t none fun i => match i with
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| .ofTacticInfo _ => true
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| _ => false
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infos.filterMap fun p => match p with
|
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| (.ofTacticInfo i, some ctx, children) => .some ⟨i, ctx, children⟩
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| _ => none
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|
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def collectTactics (t : Elab.InfoTree) : List TacticInvocation :=
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collectTacticNodes t |>.filter fun i => i.info.isSubstantive
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|
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end Pantograph.Compile
|
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@ -0,0 +1,86 @@
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import Lean.Parser
|
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import Lean.Elab.Frontend
|
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|
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open Lean
|
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|
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namespace Lean.FileMap
|
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|
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/-- Extract the range of a `Syntax` expressed as lines and columns. -/
|
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-- Extracted from the private declaration `Lean.Elab.formatStxRange`,
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-- in `Lean.Elab.InfoTree.Main`.
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protected def stxRange (fileMap : FileMap) (stx : Syntax) : Position × Position :=
|
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let pos := stx.getPos?.getD 0
|
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let endPos := stx.getTailPos?.getD pos
|
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(fileMap.toPosition pos, fileMap.toPosition endPos)
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|
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end Lean.FileMap
|
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namespace Lean.PersistentArray
|
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|
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/--
|
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Drop the first `n` elements of a `PersistentArray`, returning the results as a `List`.
|
||||
-/
|
||||
-- We can't remove the `[Inhabited α]` hypotheses here until
|
||||
-- `PersistentArray`'s `GetElem` instance also does.
|
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protected def drop [Inhabited α] (t : PersistentArray α) (n : Nat) : List α :=
|
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List.range (t.size - n) |>.map fun i => t.get! (n + i)
|
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|
||||
end Lean.PersistentArray
|
||||
|
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|
||||
namespace Pantograph.Compile
|
||||
|
||||
structure CompilationStep where
|
||||
fileName : String
|
||||
fileMap : FileMap
|
||||
src : Substring
|
||||
stx : Syntax
|
||||
before : Environment
|
||||
after : Environment
|
||||
msgs : List Message
|
||||
trees : List Elab.InfoTree
|
||||
|
||||
|
||||
/--
|
||||
Process one command, returning a `CompilationStep` and
|
||||
`done : Bool`, indicating whether this was the last command.
|
||||
-/
|
||||
def processOneCommand: Elab.Frontend.FrontendM (CompilationStep × Bool) := do
|
||||
let s := (← get).commandState
|
||||
let before := s.env
|
||||
let done ← Elab.Frontend.processCommand
|
||||
let stx := (← get).commands.back
|
||||
let src := (← read).inputCtx.input.toSubstring.extract (← get).cmdPos (← get).parserState.pos
|
||||
let s' := (← get).commandState
|
||||
let after := s'.env
|
||||
let msgs := s'.messages.msgs.drop s.messages.msgs.size
|
||||
let trees := s'.infoState.trees.drop s.infoState.trees.size
|
||||
let ⟨_, fileName, fileMap⟩ := (← read).inputCtx
|
||||
return ({ fileName, fileMap, src, stx, before, after, msgs, trees }, done)
|
||||
|
||||
partial def processFile : Elab.Frontend.FrontendM (List CompilationStep) := do
|
||||
let (cmd, done) ← processOneCommand
|
||||
if done then
|
||||
return [cmd]
|
||||
else
|
||||
return cmd :: (← processFile)
|
||||
|
||||
|
||||
def findSourcePath (module : Name) : IO System.FilePath := do
|
||||
return System.FilePath.mk ((← findOLean module).toString.replace ".lake/build/lib/" "") |>.withExtension "lean"
|
||||
|
||||
def processSource (module : Name) (opts : Options := {}) : IO (List CompilationStep) := unsafe do
|
||||
let file ← IO.FS.readFile (← findSourcePath module)
|
||||
let inputCtx := Parser.mkInputContext file module.toString
|
||||
|
||||
let (header, parserState, messages) ← Parser.parseHeader inputCtx
|
||||
let (env, messages) ← Elab.processHeader header opts messages inputCtx
|
||||
let commandState := Elab.Command.mkState env messages opts
|
||||
processFile.run { inputCtx }
|
||||
|>.run' {
|
||||
commandState := { commandState with infoState.enabled := true },
|
||||
parserState,
|
||||
cmdPos := parserState.pos
|
||||
}
|
||||
|
||||
|
||||
end Pantograph.Compile
|
|
@ -279,6 +279,25 @@ structure GoalDiag where
|
|||
instantiate: Bool := true
|
||||
printSexp: Bool := false
|
||||
|
||||
|
||||
/-- Executes the Lean compiler on a single file -/
|
||||
structure CompileUnit where
|
||||
module: String
|
||||
-- If set to true, query the string boundaries of compilation units
|
||||
compilationUnits: Bool := false
|
||||
-- If set to true, collect tactic invocations
|
||||
invocations: Bool := false
|
||||
deriving Lean.FromJson
|
||||
structure InvokedTactic where
|
||||
goalBefore: String
|
||||
goalAfter: String
|
||||
tactic: String
|
||||
deriving Lean.ToJson
|
||||
structure CompileUnitResult where
|
||||
units?: Option $ List (Nat × Nat)
|
||||
invocations?: Option $ List InvokedTactic
|
||||
deriving Lean.ToJson
|
||||
|
||||
abbrev CR α := Except InteractionError α
|
||||
|
||||
end Pantograph.Protocol
|
||||
|
|
|
@ -1,6 +1,6 @@
|
|||
namespace Pantograph
|
||||
|
||||
@[export pantograph_version]
|
||||
def version := "0.2.15"
|
||||
def version := "0.2.16"
|
||||
|
||||
end Pantograph
|
||||
|
|
Loading…
Reference in New Issue