- declName : Lake.Name
Name of the declaration being simplified. We currently use this information because we are generating phase1 declarations on demand, and it may trigger non-termination when trying to access the phase1 declaration.
- config : Lean.Compiler.LCNF.Simp.Config
Stack of global declarations being recursively inlined.
- inlineStackOccs : Lean.PHashMap Lake.Name Nat
Mapping from declaration names to number of occurrences at
inlineStack
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- subst : Lean.Compiler.LCNF.FVarSubst
Free variable substitution. We use it to implement inlining and removing redundant variables
let _x.i := _x.j Track used local declarations to be able to eliminate dead variables.
- binderRenaming : Lean.Compiler.LCNF.Renaming
Mapping containing free variables ids that need to be renamed (i.e., the
binderName). We use this map to preserve user provide names. - funDeclInfoMap : Lean.Compiler.LCNF.Simp.FunDeclInfoMap
Mapping used to decide whether a local function declaration must be inlined or not.
- simplified : Bool
trueif some simplification was performed in the current simplification pass. - visited : Nat
Number of visited
let-declarationsand terminal values. This is a performance counter, and currently has no impact on code generation. - inline : Nat
Number of definitions inlined. This is a performance counter.
- inlineLocal : Nat
Number of local functions inlined. This is a performance counter.
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- Lean.Compiler.LCNF.Simp.instMonadSimpM = Monad.mk
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- Lean.Compiler.LCNF.Simp.instMonadFVarSubstSimpMFalse = { getSubst := do let __do_lift ← get pure __do_lift.subst }
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Set the simplified flag to true.
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Increment visited performance counter.
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Increment inline performance counter. It is the number of inlined global declarations.
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Increment inlineLocal performance counter. It is the number of inlined local function and join point declarations.
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Mark the local function declaration or join point with the given id as a "must inline".
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Add a new occurrence of local function fvarId.
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Add a new occurrence of local function fvarId in argument position .
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Traverse code and update function occurrence map.
This map is used to decide whether we inline local functions or not.
If mustInline := true, then all local function declarations occurring in
code are tagged as .mustInline.
Recall that we use .mustInline for local function declarations occurring in type class instances.
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Execute x with an updated inlineStack. If value is of the form const ..., add const to the stack.
Otherwise, do not change the inlineStack.
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- Lean.Compiler.LCNF.Simp.withInlining value recursive x = x
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Similar to the default Lean.withIncRecDepth, but include the inlineStack in the error message.
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Execute x with fvarId set as mustInline.
After execution the original setting is restored.
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Return true if the given local function declaration or join point id is marked as
once or mustInline. We use this information to decide whether to inline them.
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Return true if the given code is considered "small".
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- Lean.Compiler.LCNF.Simp.isSmall code = do let __do_lift ← liftM Lean.Compiler.LCNF.getConfig pure (code.sizeLe __do_lift.smallThreshold)
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Return true if the given local function declaration should be inlined.
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LCNF "Beta-reduce". The equivalent of (fun params => code) args.
If mustInline is true, the local function declarations in the resulting code are marked as .mustInline.
See comment at updateFunDeclInfo.
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Erase the given let-declaration from the local context,
and set the simplified flag to true.
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Erase the given local function declaration from the local context,
and set the simplified flag to true.
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Similar to LCNF.addFVarSubst. That is, add the entry
fvarId ↦ fvarId' to the free variable substitution.
If fvarId has a non-internal binder name n, but fvarId' does not,
this method also adds the entry fvarId' ↦ n to the binderRenaming map.
The goal is to preserve user provided names.
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