Assign mvarId := sorry
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- Lean.Elab.admitGoal mvarId = mvarId.withContext do let mvarType ← Lean.Meta.inferType (Lean.mkMVar mvarId) let __do_lift ← Lean.Meta.mkSorry mvarType true mvarId.assign __do_lift
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- Lean.Elab.goalsToMessageData goals = Lean.MessageData.joinSep (List.map Lean.MessageData.ofGoal goals) (Lean.toMessageData "\n\n")
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- elaborator : Lake.Name
Declaration name of the executing elaborator, used by
mkTacticInfo
to persist it in the info tree - recover : Bool
If
true
, enable "error recovery" in some tactics. For example,cases
tactic admits unsolved alternatives whenrecover == true
. The combinatorwithoutRecover <tac>
disables "error recovery" while executing<tac>
. This is useful for tactics such asfirst | ... | ...
.
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- Lean.Elab.Tactic.instMonadTacticM = let i := inferInstanceAs (Monad Lean.Elab.Tactic.TacticM); Monad.mk
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- Lean.Elab.Tactic.getGoals = do let __do_lift ← get pure __do_lift.goals
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- Lean.Elab.Tactic.setGoals mvarIds = modify fun (x : Lean.Elab.Tactic.State) => { goals := mvarIds }
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- Lean.Elab.Tactic.pruneSolvedGoals = do let gs ← Lean.Elab.Tactic.getGoals let gs ← List.filterM (fun (g : Lean.MVarId) => not <$> g.isAssigned) gs Lean.Elab.Tactic.setGoals gs
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- Lean.Elab.Tactic.saveState = do let __do_lift ← liftM Lean.Elab.Term.saveState let __do_lift_1 ← get pure { term := __do_lift, tactic := __do_lift_1 }
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Incremental reuse primitive: if reusableResult?
is none
, runs act
and returns its result
together with the saved monadic state after act
including the heartbeats used by it. If
reusableResult?
on the other hand is some (a, state)
, restores full state
including heartbeats
used and returns (a, state)
.
The intention is for steps that support incremental reuse to initially pass none
as
reusableResult?
and store the result and state in a snapshot. In a further run, if reuse is
possible, reusableResult?
should be set to the previous result and state, ensuring that the state
after running withRestoreOrSaveFull
is identical in both runs. Note however that necessarily this
is only an approximation in the case of heartbeats as heartbeats used by withRestoreOrSaveFull
itself after calling act
as well as by reuse-handling code such as the one supplying
reusableResult?
are not accounted for.
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- Lean.Elab.Tactic.getCurrMacroScope = do let __do_lift ← readThe Lean.Core.Context pure __do_lift.currMacroScope
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- Lean.Elab.Tactic.getMainModule = do let __do_lift ← Lean.getEnv pure __do_lift.mainModule
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- Lean.Elab.Tactic.mkInitialTacticInfo stx = do let mctxBefore ← Lean.getMCtx let goalsBefore ← Lean.Elab.Tactic.getUnsolvedGoals pure (Lean.Elab.Tactic.mkTacticInfo mctxBefore goalsBefore stx)
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- Lean.Elab.Tactic.withTacticInfoContext stx x = do let __do_lift ← Lean.Elab.Tactic.mkInitialTacticInfo stx Lean.Elab.withInfoContext x __do_lift
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Important: we must define evalTactic
before we define
the instance MonadExcept
for TacticM
since it backtracks the state including error messages,
and this is bad when rethrowing the exception at the catch
block in these methods.
We marked these places with a (*)
in these methods.
Auxiliary datastructure for capturing exceptions at evalTactic
.
- exception : Lean.Exception
- state : Lean.Elab.Tactic.SavedState
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- Lean.Elab.Tactic.throwNoGoalsToBeSolved = Lean.throwError (Lean.toMessageData "no goals to be solved")
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- Lean.Elab.Tactic.focusAndDone tactic = Lean.Elab.Tactic.focus do let a ← tactic Lean.Elab.Tactic.done pure a
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Close the main goal using the given tactic. If it fails, log the error and admit
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- Lean.Elab.Tactic.instMonadBacktrackSavedStateTacticM = { saveState := Lean.Elab.Tactic.saveState, restoreState := fun (b : Lean.Elab.Tactic.SavedState) => b.restore }
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- Lean.Elab.Tactic.tryCatch x h = do let b ← Lean.saveState tryCatch x fun (ex : Lean.Exception) => do b.restore h ex
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- Lean.Elab.Tactic.instMonadExceptExceptionTacticM = { throw := fun {α : Type} => throw, tryCatch := fun {α : Type} => Lean.Elab.Tactic.tryCatch }
Execute x
with error recovery disabled
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- Lean.Elab.Tactic.withoutRecover x = withReader (fun (ctx : Lean.Elab.Tactic.Context) => { elaborator := ctx.elaborator, recover := false }) x
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- Lean.Elab.Tactic.orElse x y = tryCatch (Lean.Elab.Tactic.withoutRecover x) fun (x : Lean.Exception) => y ()
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- Lean.Elab.Tactic.instOrElseTacticM = { orElse := Lean.Elab.Tactic.orElse }
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- Lean.Elab.Tactic.instAlternativeTacticM = Alternative.mk (fun {x : Type} => Lean.throwError (Lean.toMessageData "failed")) fun {α : Type} => Lean.Elab.Tactic.orElse
Save the current tactic state for a token stx
.
This method is a no-op if stx
has no position information.
We use this method to save the tactic state at punctuation such as ;
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- Lean.Elab.Tactic.saveTacticInfoForToken stx = if stx.getPos?.isNone = true then pure PUnit.unit else Lean.Elab.Tactic.withTacticInfoContext stx (pure ())
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Elaborate x
with stx
on the macro stack
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Adapt a syntax transformation to a regular tactic evaluator.
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- Lean.Elab.Tactic.adaptExpander exp stx = do let stx' ← exp stx Lean.Elab.Tactic.withMacroExpansion stx stx' (Lean.Elab.Tactic.evalTactic stx')
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Add the given goals at the end of the current goals collection.
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- Lean.Elab.Tactic.appendGoals mvarIds = modify fun (s : Lean.Elab.Tactic.State) => { goals := s.goals ++ mvarIds }
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Discard the first goal and replace it by the given list of goals, keeping the other goals.
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Return the first goal.
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- Lean.Elab.Tactic.getMainGoal = do let __do_lift ← Lean.Elab.Tactic.getGoals Lean.Elab.Tactic.getMainGoal.loop __do_lift
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- Lean.Elab.Tactic.getMainGoal.loop [] = Lean.Elab.Tactic.throwNoGoalsToBeSolved
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Return the main goal metavariable declaration.
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- Lean.Elab.Tactic.getMainDecl = do let __do_lift ← Lean.Elab.Tactic.getMainGoal liftM __do_lift.getDecl
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Return the main goal tag.
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- Lean.Elab.Tactic.getMainTag = do let __do_lift ← Lean.Elab.Tactic.getMainDecl pure __do_lift.userName
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Return expected type for the main goal.
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- Lean.Elab.Tactic.getMainTarget = do let __do_lift ← Lean.Elab.Tactic.getMainDecl Lean.instantiateMVars __do_lift.type
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Execute x
using the main goal local context and instances
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- Lean.Elab.Tactic.withMainContext x = do let __do_lift ← Lean.Elab.Tactic.getMainGoal __do_lift.withContext x
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Evaluate tac
at mvarId
, and return the list of resulting subgoals.
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Like evalTacticAt
, but without restoring the goal list or pruning solved goals.
Useful when these tasks are already being done in an outer loop.
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- Lean.Elab.Tactic.evalTacticAtRaw tac mvarId = do Lean.Elab.Tactic.setGoals [mvarId] Lean.Elab.Tactic.evalTactic tac Lean.Elab.Tactic.getGoals
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Close main goal using the given expression. If checkUnassigned == true
, then val
must not contain unassigned metavariables.
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- Lean.Elab.Tactic.liftMetaMAtMain x = Lean.Elab.Tactic.withMainContext do let __do_lift ← Lean.Elab.Tactic.getMainGoal liftM (x __do_lift)
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Get the mvarid of the main goal, run the given tactic
,
then set the new goals to be the resulting goal list.
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- Lean.Elab.Tactic.liftMetaTactic tactic = Lean.Elab.Tactic.liftMetaTacticAux fun (mvarId : Lean.MVarId) => do let gs ← tactic mvarId pure ((), gs)
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Analogue of liftMetaTactic
for tactics that do not return any goals.
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- Lean.Elab.Tactic.liftMetaFinishingTactic tac = Lean.Elab.Tactic.liftMetaTactic fun (g : Lean.MVarId) => do tac g pure []
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- Lean.Elab.Tactic.tryTactic? tactic = tryCatch (do let __do_lift ← tactic pure (some __do_lift)) fun (x : Lean.Exception) => pure none
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- Lean.Elab.Tactic.tryTactic tactic = tryCatch (do discard tactic pure true) fun (x : Lean.Exception) => pure false
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Use parentTag
to tag untagged goals at newGoals
.
If there are multiple new untagged goals, they are named using <parentTag>.<newSuffix>_<idx>
where idx > 0
.
If there is only one new untagged goal, then we just use parentTag
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- Lean.Elab.Tactic.getNameOfIdent' id = if id.isIdent = true then id.getId else `_
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Use position of => $body
for error messages.
If there is a line break before body
, the message will be displayed on =>
only,
but the "full range" for the info view will still include body
.
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- Lean.Elab.Tactic.withCaseRef arrow body x = Lean.withRef (Lean.mkNullNode #[arrow, body]) x