chore: Version 0.3 #136
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@ -38,6 +38,7 @@ def execute (command: Commands.Command): MainM Lean.Json := do
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| "options.print" => run options_print
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| "goal.start" => run goal_start
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| "goal.tactic" => run goal_tactic
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| "goal.delete" => run goal_delete
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| cmd =>
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let error: Commands.InteractionError :=
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errorCommand s!"Unknown command {cmd}"
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@ -117,7 +118,7 @@ def execute (command: Commands.Command): MainM Lean.Json := do
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return .ok { }
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options_print (_: Commands.OptionsPrint): MainM (CR Commands.OptionsPrintResult) := do
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return .ok (← get).options
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goal_start (args: Commands.ProofStart): MainM (CR Commands.ProofStartResult) := do
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goal_start (args: Commands.GoalStart): MainM (CR Commands.GoalStartResult) := do
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let state ← get
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let env ← Lean.MonadEnv.getEnv
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let expr?: Except _ Lean.Expr ← (match args.expr, args.copyFrom with
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@ -142,10 +143,10 @@ def execute (command: Commands.Command): MainM Lean.Json := do
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let (goalStates, goalId) := state.goalStates.insert goalState
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set { state with goalStates }
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return .ok { goalId }
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goal_tactic (args: Commands.ProofTactic): MainM (CR Commands.ProofTacticResult) := do
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goal_tactic (args: Commands.GoalTactic): MainM (CR Commands.GoalTacticResult) := do
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let state ← get
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match state.goalStates.get? args.goalId with
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| .none => return .error $ errorIndex "Invalid goal index {args.goalId}"
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| .none => return .error $ errorIndex s!"Invalid goal index {args.goalId}"
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| .some goalState =>
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let result ← GoalState.execute goalState args.tactic |>.run state.options
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match result with
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@ -164,5 +165,10 @@ def execute (command: Commands.Command): MainM Lean.Json := do
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return .ok { goals? := .some sGoals.reverse.toArray, goalIds? := .some goalIds.reverse.toArray }
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| .failure messages =>
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return .ok { tacticErrors? := .some messages }
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goal_delete (args: Commands.GoalDelete): MainM (CR Commands.GoalDeleteResult) := do
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let state ← get
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let goalStates := args.goalIds.foldl (λ map id => map.remove id) state.goalStates
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set { state with goalStates }
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return .ok {}
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end Pantograph
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@ -130,20 +130,20 @@ structure OptionsPrint where
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deriving Lean.FromJson
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abbrev OptionsPrintResult := Options
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structure ProofStart where
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structure GoalStart where
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-- Only one of the fields below may be populated.
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expr: Option String -- Proof expression
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copyFrom: Option String -- Theorem name
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deriving Lean.FromJson
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structure ProofStartResult where
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structure GoalStartResult where
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goalId: Nat := 0 -- Proof tree id
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deriving Lean.ToJson
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structure ProofTactic where
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structure GoalTactic where
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-- Identifiers for tree, state, and goal
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goalId: Nat
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tactic: String
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deriving Lean.FromJson
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structure ProofTacticResult where
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structure GoalTacticResult where
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-- Existence of this field shows success
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goals?: Option (Array Goal) := .none
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-- Next proof state id, if successful
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@ -152,5 +152,12 @@ structure ProofTacticResult where
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tacticErrors?: Option (Array String) := .none
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deriving Lean.ToJson
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-- Remove a bunch of goals.
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structure GoalDelete where
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goalIds: List Nat
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deriving Lean.FromJson
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structure GoalDeleteResult where
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deriving Lean.ToJson
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end Pantograph.Commands
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@ -18,7 +18,56 @@ structure Imp (β: Type u) where
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namespace Imp
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structure WF (m: Imp β): Prop where
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capacity: m.data.size = m.deallocs.size
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front_dealloc: ∀ i: Fin m.deallocs.size, (i < m.allocFront) → (m.deallocs.get i) < m.allocFront
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front_data: ∀ i: Fin m.data.size, (i ≥ m.allocFront) → (m.data.get i).isNone
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def empty (capacity := 16): Imp β :=
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{
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data := mkArray capacity .none,
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size := 0,
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allocFront := 0,
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deallocs := mkArray capacity 0,
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lastDealloc := 0,
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}
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private theorem list_get_replicate (x: α) (i: Fin (List.replicate n x).length):
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List.get (List.replicate n x) i = x := by
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sorry
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theorem empty_wf : WF (empty n: Imp β) := by
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unfold empty
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apply WF.mk
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case capacity =>
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conv =>
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lhs
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congr
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simp
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conv =>
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rhs
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congr
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simp
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simp
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case front_dealloc =>
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simp_all
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intro i
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intro a
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contradiction
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case front_data =>
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simp_all
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intro i
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unfold Imp.data at i
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simp at i
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conv =>
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lhs
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unfold Array.get
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unfold mkArray
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simp [List.replicate]
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rewrite [list_get_replicate]
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-- FIXME: Merge this with the well-formed versions below so proof and code can
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-- mesh seamlessly.
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@[inline] def insert (map: Imp β) (v: β): (Imp β × Nat) :=
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match map.lastDealloc with
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| 0 => -- Capacity is full, buffer expansion is required
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@ -53,8 +102,9 @@ namespace Imp
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}
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(result, nextIndex)
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@[inline] def remove (map: Imp β) (index: Nat): Imp β :=
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match map.data.getD index .none with
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@[inline] def remove (map: Imp β) (index: Fin (map.size)): Imp β :=
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have h: index.val < map.data.size := by sorry
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match map.data.get ⟨index.val, h⟩ with
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| .none => map
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| .some _ =>
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{
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@ -66,24 +116,34 @@ namespace Imp
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}
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/-- Retrieval is efficient -/
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@[inline] def get? (map: Imp β) (index: Nat): Option β :=
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map.data.getD index .none
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@[inline] def get? (map: Imp β) (index: Fin (map.size)): Option β :=
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have h: index.val < map.data.size := by sorry
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map.data.get ⟨index.val, h⟩
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@[inline] def capacity (map: Imp β): Nat := map.data.size
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end Imp
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def empty (capacity := 16): Imp β :=
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{
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data := mkArray capacity .none,
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size := 0,
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allocFront := 0,
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deallocs := mkArray capacity 0,
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lastDealloc := 0,
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}
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/--
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This is like a hashmap but you cannot control the keys.
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-/
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def _root_.Pantograph.SemihashMap β := Imp β
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def _root_.Pantograph.SemihashMap β := {m: Imp β // m.WF}
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@[inline] def empty (capacity := 16): SemihashMap β :=
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⟨ Imp.empty capacity, Imp.empty_wf ⟩
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@[inline] def insert (map: SemihashMap β) (v: β): (SemihashMap β × Nat) :=
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let ⟨imp, pre⟩ := map
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let ⟨result, id⟩ := imp.insert v
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( ⟨ result, sorry ⟩, id)
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@[inline] def remove (map: SemihashMap β) (index: Nat): SemihashMap β :=
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let ⟨imp, pre⟩ := map
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let result := imp.remove ⟨index, sorry⟩
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⟨ result, sorry ⟩
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@[inline] def get? (map: SemihashMap β) (index: Nat): Option β :=
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let ⟨imp, _⟩ := map
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imp.get? ⟨index, sorry⟩
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@[inline] def size (map: SemihashMap β): Nat :=
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let ⟨imp, _⟩ := map
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imp.size
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end Pantograph.SemihashMap
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@ -56,6 +56,7 @@ $ env build/bin/Pantograph Init
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goal.start {"expr": "∀ (n m : Nat), n + m = m + n"}
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goal.tactic {"goalId": 0, "tactic": "intro n m"}
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goal.tactic {"goalId": 1, "tactic": "assumption"}
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goal.delete {"goalIds": [0]}
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stat {}
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goal.tactic {"goalId": 1, "tactic": "rw [Nat.add_comm]"}
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stat
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@ -76,6 +77,7 @@ See `Pantograph/Commands.lean` for a description of the parameters and return va
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- `options.print`: Display the current set of options
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- `goal.start {["name": <name>], ["expr": <expr>], ["copyFrom": <symbol>]}`: Start a new goal from a given expression or symbol
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- `goal.tactic {"goalId": <id>, "tactic": <tactic>}`: Execute a tactic string on a given goal
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- `goal.remove {"goalIds": [<id>]}"`: Remove a bunch of stored goals.
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- `stat`: Display resource usage
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## Errors
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|
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