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- Lean.Compiler.LCNF.Specialize.findSpecCache? key = do let __do_lift ← Lean.getEnv pure (Lean.SMap.find? (Lean.Compiler.LCNF.Specialize.specCacheExt.getState __do_lift) key)
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- scope : Lean.FVarIdSet
Set of free variables in scope. The "collector" uses this information when collecting dependencies for code specialization.
- ground : Lean.FVarIdSet
Set of let-declarations in scope that do not depend on parameters.
- declName : Lean.Name
Name of the declaration being processed
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- decls : Array Lean.Compiler.LCNF.Decl
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Return true
if e
is a ground term. That is,
it contains only free variables tagged as ground
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Dependency collector for the code specialization function. #
During code specialization, we select which arguments are going to be used during the specialization.
Then, we have to collect their dependencies. For example, suppose are trying to specialize the following IO.println
and List.forM
applications in the following example:
def f xs a.1 :=
let _x.2 := @instMonadEIO IO.Error
let _x.5 := instToStringString
let _x.9 := instToStringNat
let _x.6 := "hello"
let _x.61 := @IO.println String _x.5 _x.6 a.1 -- (*)
cases _x.61
| EStateM.Result.ok a.6 a.7 =>
fun _f.72 _y.69 _y.70 :=
let _x.71 := @IO.println Nat _x.9 _y.69 _y.70 -- (*)
_x.71
let _x.65 := @List.forM (fun α => PUnit → EStateM.Result IO.Error PUnit α) _x.2 Nat xs _f.72 a.7 -- (*)
...
...
For IO.println
the SpecArgInfo
is [N, I, O, O]
, i.e., only the first two arguments are considered
for code specialization. The first one is computationally neutral, and the second one is an instance.
For List.forM
, we have [N, I, N, O, H]
. In this case, the fifth argument (tagged as H
) is a function.
Note that the actual List.forM
application has 6 arguments, the extra argument comes from the IO
monad.
For the first IO.println
application, the collector collects _x.5
.
For the List.forM
, it collects _x.2
, _x.9
, and _f.72
.
The collected values are used to construct a key to identify the specialization. Arguments that were not considered are
replaced with lcErased
. The key is used to make sure we don't keep generating the same specialization over and over again.
This is not an optimization, it is essential to prevent the code specializer from looping while specializing recursive functions.
The keys for these two applications are the terms.
@IO.println Nat instToStringNat lcErased lcErased
and
@List.forM
(fun α => PUnit → EStateM.Result IO.Error PUnit α)
(@instMonadEIO IO.Error) Nat lcErased
(fun _y.69 _y.70 =>
let _x.71 := @IO.println Nat instToStringNat _y.69 _y.70;
_x.71)
The keys never contain free variables or loose bound variables.
Given the specialization mask paramsInfo
and the arguments args
,
collect their dependencies, and return an array mask
of size paramsInfo.size
s.t.
mask[i] = some args[i]
ifparamsInfo[i] != .other
mask[i] = none
, otherwise. That is,mask
contains only the arguments that are contributing to the code specialization. We use this information to compute a "key" to uniquely identify the code specialization, and creating the specialized code.
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Return true
if it is worth using arguments args
for specialization given the parameter specialization information.
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Convert the given declarations into Expr
, and "zeta-reduce" them into body.
This function is used to compute the key that uniquely identifies an code specialization.
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Create the "key" that uniquely identifies a code specialization.
params
and decls
are the declarations collected by the collect
function above.
The result contains the list of universe level parameter names the key that params
, decls
, and body
depends on.
We use this information to create the new auxiliary declaration and resulting application.
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Specialize decl
using
us
: the universe level used to instantiatedecl.name
argMask
: arguments that are being used to specialize the declaration.params
: new parameters that arguments inargMask
depend on.decls
: local declarations that arguments inargMask
depend on.levelParamsNew
: the universe level parameters for the new declaration.
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Given the specialization mask paramsInfo
and the arguments args
,
return the arguments that have not been considered for specialization.
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Try to specialize the function application in the given let-declaration.
k
is the continuation for the let-declaration.
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