We use this method to report typeclass (and coercion) resolution problems that are "stuck". That is, there is nothing else to do, and we don't have enough information to synthesize them using TC resolution.
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Auxiliary type for synthesizeSyntheticMVars
. It specifies
whether pending synthetic metavariables can be postponed or not.
- yes: Lean.Elab.Term.PostponeBehavior
Any kind of pending synthetic metavariable can be postponed. Universe constrains may also be postponed.
- no: Lean.Elab.Term.PostponeBehavior
Pending synthetic metavariables cannot be postponed.
- partial: Lean.Elab.Term.PostponeBehavior
Synthectic metavariables associated with type class resolution can be postponed. Motivation: this kind of metavariable are not synthethic opaque, and can be assigned by
isDefEq
. Unviverse constraints can also be postponed.
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- Lean.Elab.Term.PostponeBehavior.ofBool x = match x with | true => Lean.Elab.Term.PostponeBehavior.yes | false => Lean.Elab.Term.PostponeBehavior.no
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Try to synthesize a term val
using the tactic code tacticCode
, and then assign mvarId := val
.
The tacticCode
syntax comprises the whole by ...
expression.
If report := false
, then runTactic
will not capture exceptions nor will report unsolved goals. Unsolved goals become exceptions.
Try to process pending synthetic metavariables.
If postpone == .no
,then pendingMVars
is []
after executing this method.
If postpone == .partial
, then pendingMVars
contains only .tc
and .coe
kinds.
It keeps executing synthesizeSyntheticMVarsStep
while progress is being made.
If postpone != .yes
, then it applies default instances to SyntheticMVarKind.typeClass
(if available)
metavariables that are still unresolved, and then tries to resolve metavariables
with postponeOnError == false
. That is, we force them to produce error messages and/or commit to
a "best option". If, after that, we still haven't made progress, we report "stuck" errors If postpone == .no
.
Remark: we set ignoreStuckTC := true
when elaborating simp
arguments. Then,
pending TC problems become implicit parameters for the simp theorem.
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- Lean.Elab.Term.synthesizeSyntheticMVarsUsingDefault = do Lean.Elab.Term.synthesizeSyntheticMVars Lean.Elab.Term.synthesizeUsingDefaultLoop
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Execute k
, and synthesize pending synthetic metavariables created while executing k
are solved.
If mayPostpone == false
, then all of them must be synthesized.
Remark: even if mayPostpone == true
, the method still uses synthesizeUsingDefault
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- Lean.Elab.Term.withSynthesize k postpone = monadMap (fun {β : Type} (x : Lean.Elab.TermElabM β) => Lean.Elab.Term.withSynthesizeImp x postpone) k
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Similar to withSynthesize
, but uses postpone := .true
, does not use use synthesizeUsingDefault
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- Lean.Elab.Term.withSynthesizeLight k = monadMap (fun {β : Type} (x : Lean.Elab.TermElabM β) => Lean.Elab.Term.withSynthesizeLightImp x) k
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Elaborate stx
, and make sure all pending synthetic metavariables created while elaborating stx
are solved.
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Collect unassigned metavariables at e
that have associated tactic blocks, and then execute them using runTactic
.
We use this method at the match .. with
elaborator when it cannot be postponed anymore, but it is still waiting
the result of a tactic block.
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