chore: Version 0.3 #136
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@ -140,6 +140,8 @@ def execute (command: Protocol.Command): MainM Lean.Json := do
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return .ok { parseError? := .some message }
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return .ok { parseError? := .some message }
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| .ok (.indexError goalId) =>
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| .ok (.indexError goalId) =>
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return .error $ errorIndex s!"Invalid goal id index {goalId}"
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return .error $ errorIndex s!"Invalid goal id index {goalId}"
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| .ok (.invalidAction message) =>
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return .error $ errorI "invalid" message
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| .ok (.failure messages) =>
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| .ok (.failure messages) =>
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return .ok { tacticErrors? := .some messages }
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return .ok { tacticErrors? := .some messages }
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goal_continue (args: Protocol.GoalContinue): MainM (CR Protocol.GoalContinueResult) := do
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goal_continue (args: Protocol.GoalContinue): MainM (CR Protocol.GoalContinueResult) := do
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@ -31,6 +31,9 @@ structure GoalState where
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-- Parent state metavariable source
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-- Parent state metavariable source
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parentMVar: Option MVarId
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parentMVar: Option MVarId
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-- Existence of this field shows that we are currently in `conv` mode.
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convMVar: Option (MVarId × MVarId × List MVarId) := .none
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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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@ -100,6 +103,8 @@ inductive TacticResult where
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| parseError (message: String)
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| parseError (message: String)
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-- The goal index is out of bounds
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-- The goal index is out of bounds
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| indexError (goalId: Nat)
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| indexError (goalId: Nat)
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-- The given action cannot be executed in the state
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| invalidAction (message: String)
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/-- Execute tactic on given state -/
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/-- Execute tactic on given state -/
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protected def GoalState.tryTactic (state: GoalState) (goalId: Nat) (tactic: String):
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protected def GoalState.tryTactic (state: GoalState) (goalId: Nat) (tactic: String):
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@ -122,11 +127,11 @@ protected def GoalState.tryTactic (state: GoalState) (goalId: Nat) (tactic: Stri
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| .ok nextSavedState =>
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| .ok nextSavedState =>
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-- Assert that the definition of metavariables are the same
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-- Assert that the definition of metavariables are the same
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let nextMCtx := nextSavedState.term.meta.meta.mctx
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let nextMCtx := nextSavedState.term.meta.meta.mctx
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let prevMCtx := state.savedState.term.meta.meta.mctx
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let prevMCtx := state.mctx
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-- Generate a list of mvarIds that exist in the parent state; Also test the
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-- Generate a list of mvarIds that exist in the parent state; Also test the
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-- assertion that the types have not changed on any mvars.
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-- assertion that the types have not changed on any mvars.
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return .success {
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return .success {
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root := state.root,
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state with
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savedState := nextSavedState
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savedState := nextSavedState
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newMVars := newMVarSet prevMCtx nextMCtx,
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newMVars := newMVarSet prevMCtx nextMCtx,
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parentMVar := .some goal,
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parentMVar := .some goal,
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@ -146,7 +151,7 @@ protected def GoalState.assign (state: GoalState) (goal: MVarId) (expr: Expr):
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return .some s!"{← Meta.ppExpr expr} : {← Meta.ppExpr exprType} != {← Meta.ppExpr goalType}"
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return .some s!"{← Meta.ppExpr expr} : {← Meta.ppExpr exprType} != {← Meta.ppExpr goalType}"
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)
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)
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if let .some error := error? then
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if let .some error := error? then
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return .failure #["Type unification failed", error]
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return .parseError error
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goal.checkNotAssigned `GoalState.assign
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goal.checkNotAssigned `GoalState.assign
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goal.assign expr
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goal.assign expr
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if (← getThe Core.State).messages.hasErrors then
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if (← getThe Core.State).messages.hasErrors then
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@ -246,35 +251,45 @@ protected def GoalState.tryHave (state: GoalState) (goalId: Nat) (binderName: St
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return .failure #[← exception.toMessageData.toString]
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return .failure #[← exception.toMessageData.toString]
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/-- Enter conv tactic mode -/
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/-- Enter conv tactic mode -/
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protected def GoalState.tryConv (state: GoalState) (goalId: Nat):
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protected def GoalState.conv (state: GoalState) (goalId: Nat):
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Elab.TermElabM TacticResult := do
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Elab.TermElabM TacticResult := do
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if state.convMVar.isSome then
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return .invalidAction "Already in conv state"
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let goal ← match state.savedState.tactic.goals.get? goalId with
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let goal ← match state.savedState.tactic.goals.get? goalId with
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| .some goal => pure goal
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| .some goal => pure goal
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| .none => return .indexError goalId
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| .none => return .indexError goalId
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let tacticM : Elab.Tactic.TacticM Elab.Tactic.SavedState:= do
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let tacticM : Elab.Tactic.TacticM (Elab.Tactic.SavedState × MVarId) := do
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state.restoreTacticM goal
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state.restoreTacticM goal
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-- TODO: Fail if this is already in conv
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-- TODO: Fail if this is already in conv
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-- See Lean.Elab.Tactic.Conv.convTarget
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-- See Lean.Elab.Tactic.Conv.convTarget
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Elab.Tactic.withMainContext do
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let convMVar ← Elab.Tactic.withMainContext do
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-- TODO: Memorize this `rhs` as a conv resultant goal
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-- TODO: Memorize this `rhs` as a conv resultant goal
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let (rhs, newGoal) ← Elab.Tactic.Conv.mkConvGoalFor (← Elab.Tactic.getMainTarget)
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let (rhs, newGoal) ← Elab.Tactic.Conv.mkConvGoalFor (← Elab.Tactic.getMainTarget)
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Elab.Tactic.setGoals [newGoal.mvarId!]
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Elab.Tactic.setGoals [newGoal.mvarId!]
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--Elab.Tactic.liftMetaTactic1 fun mvarId => mvarId.replaceTargetEq rhs proof
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pure rhs.mvarId!
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MonadBacktrack.saveState
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return (← MonadBacktrack.saveState, convMVar)
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let nextSavedState ← tacticM { elaborator := .anonymous } |>.run' state.savedState.tactic
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try
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let prevMCtx := state.savedState.term.meta.meta.mctx
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let (nextSavedState, convRhs) ← tacticM { elaborator := .anonymous } |>.run' state.savedState.tactic
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let prevMCtx := state.mctx
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let nextMCtx := nextSavedState.term.meta.meta.mctx
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let nextMCtx := nextSavedState.term.meta.meta.mctx
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return .success {
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return .success {
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root := state.root,
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root := state.root,
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savedState := nextSavedState
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savedState := nextSavedState
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newMVars := newMVarSet prevMCtx nextMCtx,
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newMVars := newMVarSet prevMCtx nextMCtx,
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parentMVar := .some goal,
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parentMVar := .some goal,
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convMVar := .some (convRhs, goal, state.goals),
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}
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}
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catch exception =>
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return .failure #[← exception.toMessageData.toString]
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/-- Execute a tactic in conv mode -/
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protected def GoalState.tryConvTactic (state: GoalState) (goalId: Nat) (convTactic: String):
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protected def GoalState.tryConvTactic (state: GoalState) (goalId: Nat) (convTactic: String):
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Elab.TermElabM TacticResult := do
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Elab.TermElabM TacticResult := do
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let _ ← match state.convMVar with
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| .some mvar => pure mvar
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| .none => return .invalidAction "Not in conv state"
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let goal ← match state.savedState.tactic.goals.get? goalId with
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let goal ← match state.savedState.tactic.goals.get? goalId with
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| .some goal => pure goal
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| .some goal => pure goal
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| .none => return .indexError goalId
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| .none => return .indexError goalId
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@ -289,15 +304,60 @@ protected def GoalState.tryConvTactic (state: GoalState) (goalId: Nat) (convTact
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state.restoreTacticM goal
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state.restoreTacticM goal
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Elab.Tactic.evalTactic convTactic
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Elab.Tactic.evalTactic convTactic
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MonadBacktrack.saveState
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MonadBacktrack.saveState
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try
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let prevMCtx := state.mctx
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let nextSavedState ← tacticM { elaborator := .anonymous } |>.run' state.savedState.tactic
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let nextSavedState ← tacticM { elaborator := .anonymous } |>.run' state.savedState.tactic
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let nextMCtx := nextSavedState.term.meta.meta.mctx
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let nextMCtx := nextSavedState.term.meta.meta.mctx
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return .success {
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state with
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savedState := nextSavedState
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newMVars := newMVarSet prevMCtx nextMCtx,
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parentMVar := .some goal,
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}
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catch exception =>
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return .failure #[← exception.toMessageData.toString]
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protected def GoalState.convExit (state: GoalState):
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Elab.TermElabM TacticResult := do
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let (convRhs, convGoal, savedGoals) ← match state.convMVar with
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| .some mvar => pure mvar
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| .none => return .invalidAction "Not in conv state"
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let tacticM : Elab.Tactic.TacticM Elab.Tactic.SavedState:= do
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-- Vide `Lean.Elab.Tactic.Conv.convert`
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state.savedState.restore
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IO.println "Restored state"
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-- Close all existing goals with `refl`
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for mvarId in (← Elab.Tactic.getGoals) do
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liftM <| mvarId.refl <|> mvarId.inferInstance <|> pure ()
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Elab.Tactic.pruneSolvedGoals
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unless (← Elab.Tactic.getGoals).isEmpty do
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throwError "convert tactic failed, there are unsolved goals\n{Elab.goalsToMessageData (← Elab.Tactic.getGoals)}"
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IO.println "Caching"
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Elab.Tactic.setGoals savedGoals
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let targetNew ← instantiateMVars (.mvar convRhs)
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let proof ← instantiateMVars (.mvar convGoal)
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Elab.Tactic.liftMetaTactic1 fun mvarId => mvarId.replaceTargetEq targetNew proof
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MonadBacktrack.saveState
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try
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let nextSavedState ← tacticM { elaborator := .anonymous } |>.run' state.savedState.tactic
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IO.println "Finished caching"
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let nextMCtx := nextSavedState.term.meta.meta.mctx
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let prevMCtx := state.savedState.term.meta.meta.mctx
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let prevMCtx := state.savedState.term.meta.meta.mctx
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return .success {
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return .success {
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root := state.root,
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root := state.root,
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savedState := nextSavedState
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savedState := nextSavedState
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newMVars := newMVarSet prevMCtx nextMCtx,
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newMVars := newMVarSet prevMCtx nextMCtx,
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parentMVar := .some goal,
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parentMVar := .some convGoal,
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convMVar := .none
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}
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}
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catch exception =>
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return .failure #[← exception.toMessageData.toString]
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/--
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/--
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@ -37,6 +37,7 @@ def TacticResult.toString : TacticResult → String
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s!".failure {messages}"
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s!".failure {messages}"
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| .parseError error => s!".parseError {error}"
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| .parseError error => s!".parseError {error}"
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| .indexError index => s!".indexError {index}"
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| .indexError index => s!".indexError {index}"
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| .invalidAction error => s!".invalidAction {error}"
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namespace Test
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namespace Test
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106
Test/Proofs.lean
106
Test/Proofs.lean
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@ -361,47 +361,48 @@ def test_have: TestM Unit := do
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addTest $ LSpec.check "(4 root)" state4.rootExpr?.isSome
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addTest $ LSpec.check "(4 root)" state4.rootExpr?.isSome
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example : ∀ (a b c: Nat), (a + b) + c = (b + a) + c := by
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example : ∀ (a b c1 c2: Nat), (b + a) + c1 = (b + a) + c2 → (a + b) + c1 = (b + a) + c2 := by
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intro a b c
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intro a b c1 c2 h
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conv =>
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conv =>
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lhs
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lhs
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congr
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congr
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rw [Nat.add_comm]
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. rw [Nat.add_comm]
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rfl
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. rfl
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exact h
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def test_conv: TestM Unit := do
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def test_conv: TestM Unit := do
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let state? ← startProof (.expr "∀ (a b c: Nat), (a + b) + c = (b + a) + c")
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let state? ← startProof (.expr "∀ (a b c1 c2: Nat), (b + a) + c1 = (b + a) + c2 → (a + b) + c1 = (b + a) + c2")
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let state0 ← match state? with
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let state0 ← match state? with
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| .some state => pure state
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| .some state => pure state
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| .none => do
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| .none => do
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addTest $ assertUnreachable "Goal could not parse"
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addTest $ assertUnreachable "Goal could not parse"
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return ()
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return ()
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let tactic := "intro a b c"
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let tactic := "intro a b c1 c2 h"
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let state1 ← match ← state0.tryTactic (goalId := 0) (tactic := tactic) with
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let state1 ← match ← state0.tryTactic (goalId := 0) (tactic := tactic) with
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| .success state => pure state
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| .success state => pure state
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| other => do
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| other => do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.check tactic ((← state1.serializeGoals (options := ← read)).map (·.devolatilize) =
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addTest $ LSpec.check tactic ((← state1.serializeGoals (options := ← read)).map (·.devolatilize) =
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#[buildGoal [("a", "Nat"), ("b", "Nat"), ("c", "Nat")] "a + b + c = b + a + c"])
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#[interiorGoal [] "a + b + c1 = b + a + c2"])
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-- This solves the state in one-shot
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let state2 ← match ← state1.conv (goalId := 0) with
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let tactic := "conv => { lhs; congr; rw [Nat.add_comm]; rfl }"
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let stateT ← match ← state1.tryTactic (goalId := 0) (tactic := tactic) with
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| .success state => pure state
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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addTest $ LSpec.check tactic ((← stateT.serializeGoals (options := ← read)).map (·.devolatilize) =
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#[])
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let state2 ← match ← state1.tryConv (goalId := 0) with
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| .success state => pure state
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| .success state => pure state
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| other => do
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| other => do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.check "conv => ..." ((← state2.serializeGoals (options := ← read)).map (·.devolatilize) =
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addTest $ LSpec.check "conv => ..." ((← state2.serializeGoals (options := ← read)).map (·.devolatilize) =
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#[{ buildGoal [("a", "Nat"), ("b", "Nat"), ("c", "Nat")] "a + b + c = b + a + c" with isConversion := true }])
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#[{ interiorGoal [] "a + b + c1 = b + a + c2" with isConversion := true }])
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let convTactic := "rhs"
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let state3R ← match ← state2.tryConvTactic (goalId := 0) (convTactic := convTactic) with
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| .success state => pure state
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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addTest $ LSpec.check s!" {convTactic} (discard)" ((← state3R.serializeGoals (options := ← read)).map (·.devolatilize) =
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#[{ interiorGoal [] "b + a + c2" with isConversion := true }])
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let convTactic := "lhs"
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let convTactic := "lhs"
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let state3L ← match ← state2.tryConvTactic (goalId := 0) (convTactic := convTactic) with
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let state3L ← match ← state2.tryConvTactic (goalId := 0) (convTactic := convTactic) with
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@ -410,16 +411,73 @@ def test_conv: TestM Unit := do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.check s!" {convTactic}" ((← state3L.serializeGoals (options := ← read)).map (·.devolatilize) =
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addTest $ LSpec.check s!" {convTactic}" ((← state3L.serializeGoals (options := ← read)).map (·.devolatilize) =
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#[{ buildGoal [("a", "Nat"), ("b", "Nat"), ("c", "Nat")] "a + b + c" with isConversion := true }])
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#[{ interiorGoal [] "a + b + c1" with isConversion := true }])
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let convTactic := "rhs"
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let convTactic := "congr"
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let state3R ← match ← state2.tryConvTactic (goalId := 0) (convTactic := convTactic) with
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let state4 ← match ← state3L.tryConvTactic (goalId := 0) (convTactic := convTactic) with
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| .success state => pure state
|
| .success state => pure state
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| other => do
|
| other => do
|
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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||||||
return ()
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return ()
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addTest $ LSpec.check s!" {convTactic}" ((← state3R.serializeGoals (options := ← read)).map (·.devolatilize) =
|
addTest $ LSpec.check s!" {convTactic}" ((← state4.serializeGoals (options := ← read)).map (·.devolatilize) =
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||||||
#[{ buildGoal [("a", "Nat"), ("b", "Nat"), ("c", "Nat")] "b + a + c" with isConversion := true }])
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#[
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||||||
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{ interiorGoal [] "a + b" with isConversion := true, userName? := .some "a" },
|
||||||
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{ interiorGoal [] "c1" with isConversion := true, userName? := .some "a" }
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||||||
|
])
|
||||||
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||||||
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let convTactic := "rw [Nat.add_comm]"
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||||||
|
let state5_1 ← match ← state4.tryConvTactic (goalId := 0) (convTactic := convTactic) with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check s!" · {convTactic}" ((← state5_1.serializeGoals (options := ← read)).map (·.devolatilize) =
|
||||||
|
#[{ interiorGoal [] "b + a" with isConversion := true, userName? := .some "a" }])
|
||||||
|
|
||||||
|
let convTactic := "rfl"
|
||||||
|
let state6_1 ← match ← state5_1.tryConvTactic (goalId := 0) (convTactic := convTactic) with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check s!" {convTactic}" ((← state6_1.serializeGoals (options := ← read)).map (·.devolatilize) =
|
||||||
|
#[])
|
||||||
|
|
||||||
|
let state4_1 ← match state6_1.continue state4 with
|
||||||
|
| .ok state => pure state
|
||||||
|
| .error e => do
|
||||||
|
addTest $ expectationFailure "continue" e
|
||||||
|
return ()
|
||||||
|
|
||||||
|
let convTactic := "rfl"
|
||||||
|
let state6 ← match ← state4_1.tryConvTactic (goalId := 0) (convTactic := convTactic) with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check s!" · {convTactic}" ((← state6.serializeGoals (options := ← read)).map (·.devolatilize) =
|
||||||
|
#[])
|
||||||
|
|
||||||
|
let state1_1 ← match ← state6.convExit with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
|
||||||
|
let tactic := "exact h"
|
||||||
|
let stateF ← match ← state1_1.tryTactic (goalId := 0) (tactic := tactic) with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check tactic ((← stateF.serializeGoals (options := ← read)).map (·.devolatilize) =
|
||||||
|
#[])
|
||||||
|
|
||||||
|
where
|
||||||
|
h := "b + a + c1 = b + a + c2"
|
||||||
|
interiorGoal (free: List (String × String)) (target: String) :=
|
||||||
|
let free := [("a", "Nat"), ("b", "Nat"), ("c1", "Nat"), ("c2", "Nat"), ("h", h)] ++ free
|
||||||
|
buildGoal free target
|
||||||
|
|
||||||
example : ∀ (a: Nat), 1 + a + 1 = a + 2 := by
|
example : ∀ (a: Nat), 1 + a + 1 = a + 2 := by
|
||||||
intro a
|
intro a
|
||||||
|
|
Loading…
Reference in New Issue