HepLean Documentation

Batteries.Util.Cache

Once-per-file cache for tactics #

This file defines cache data structures for tactics that are initialized the first time they are accessed. Since Lean 4 starts one process per file, these caches are once-per-file and can for example be used to cache information about the imported modules.

The Cache α data structure is the most generic version we define. It is created using Cache.mk f where f : MetaM α performs the initialization of the cache:

initialize numberOfImports : Cache NatCache.mk do
  (← getEnv).imports.size

-- (does not work in the same module where the cache is defined)
#eval show MetaM Nat from numberOfImports.get

The DeclCache α data structure computes a fold over the environment's constants: DeclCache.mk empty f constructs such a cache where empty : α and f : Name → ConstantInfo → α → MetaM α. The result of the constants in the imports is cached between tactic invocations, while for constants defined in the same file f is evaluated again every time. This kind of cache can be used e.g. to populate discrimination trees.

Once-per-file cache.

Equations
Instances For

    Creates a cache with an initialization function.

    Equations
    Instances For

      Access the cache. Calling this function for the first time will initialize the cache with the function provided in the constructor.

      Equations
      • One or more equations did not get rendered due to their size.
      Instances For

        Cached fold over the environment's declarations, where a given function is applied to α for every constant.

        Instances For
          def Batteries.Tactic.DeclCache.mk {α : Type} (profilingName : String) (pre : Lean.MetaM α := failure) (empty : α) (addDecl : Lean.NameLean.ConstantInfoαLean.MetaM α) (addLibraryDecl : Lean.NameLean.ConstantInfoαLean.MetaM α := addDecl) (post : αLean.MetaM α := fun (a : α) => pure a) :

          Creates a DeclCache.

          First, if pre is nonempty, run that for a value, and if successful populate the cache with that value.

          If pre is empty, or it fails, the cached structure α is initialized with empty, and then addLibraryDecl is called for every imported constant. After all imported constants have been added, we run post. Finally, the result is cached.

          When get is called, addDecl is also called for every constant in the current file.

          Equations
          • One or more equations did not get rendered due to their size.
          Instances For

            Access the cache. Calling this function for the first time will initialize the cache with the function provided in the constructor.

            Equations
            • One or more equations did not get rendered due to their size.
            Instances For
              @[reducible]

              A type synonym for a DeclCache containing a pair of discrimination trees. The first will store declarations in the current file, the second will store declarations from imports (and will hopefully be "read-only" after creation).

              Equations
              Instances For

                Discrimination tree settings for the DiscrTreeCache.

                Equations
                Instances For
                  def Batteries.Tactic.DiscrTreeCache.mk {α : Type} [BEq α] (profilingName : String) (processDecl : Lean.NameLean.ConstantInfoLean.MetaM (Array (Array Lean.Meta.DiscrTree.Key × α))) (post? : Option (Array αArray α) := none) (init : Lean.MetaM (Lean.Meta.DiscrTree α) := failure) :

                  Build a DiscrTreeCache, from a function that returns a collection of keys and values for each declaration.

                  Equations
                  • One or more equations did not get rendered due to their size.
                  Instances For

                    Get matches from both the discrimination tree for declarations in the current file, and for the imports.

                    Note that if you are calling this multiple times with the same environment, it will rebuild the discrimination tree for the current file multiple times, and it would be more efficient to call c.get once, and then call DiscrTree.getMatch multiple times.

                    Equations
                    • One or more equations did not get rendered due to their size.
                    Instances For