The abstract domain of the interpreter. Representing sets of values of a certain type.
- bot: Lean.Compiler.LCNF.UnreachableBranches.Value
Undefined, could be anything we have no information.
- top: Lean.Compiler.LCNF.UnreachableBranches.Value
All values are possible.
- ctor: Lean.Name → Array Lean.Compiler.LCNF.UnreachableBranches.Value → Lean.Compiler.LCNF.UnreachableBranches.Value
A certain constructor with a certain sets of parameters is possible.
- choice: List Lean.Compiler.LCNF.UnreachableBranches.Value → Lean.Compiler.LCNF.UnreachableBranches.Value
A set of values are possible.
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Fuse v
into vs
. That is do not only append but if we see that v
is a constructor that is already contained within vs
try to detect
the difference between these values and merge them accordingly into a
choice node further down the tree.
Merge two values into one. bot
is the neutral element, top
the annihilator.
Make sure constructors of recursive inductive datatypes can only occur once in each path.
Values at depth > maxValueDepth
are also approximated at top
.
We use this function to implement a simple widening operation for our abstract interpreter.
Recall the widening functions is used to ensure termination in abstract interpreters.
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Widening operator that guarantees termination in our abstract interpreter.
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- Lean.Compiler.LCNF.UnreachableBranches.Value.widening env v1 v2 = Lean.Compiler.LCNF.UnreachableBranches.Value.truncate env (v1.merge v2)
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Check whether a certain constructor is part of a Value
by name.
Note that both top
and bot
will always true here. For bot this is
because we have no information about the Value
so just to be sure
we don't claim the absence of a certain constructor.
Obtain the arguments of a certain constructor within the Value
.
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We say that a Value
is a literal iff it is only a tree of Value.ctor
nodes.
Attempt to turn a Value
that is representing a literal into a set of
auxiliary declarations + the final FVarId
of the declaration that
contains the actual literal. If it is not a literal return none.
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A map from function names to the Value
that the abstract interpreter
produced for them.
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Add a Value
for a function name.
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Obtain the Value
for a function name if possible.
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A map from variable identifiers to the Value
produced by the abstract
interpreter for them.
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The context of InterpM
.
- decls : Array Lean.Compiler.LCNF.Decl
The list of
Decl
s we are operating on inInterpM
. This can be a single declaration or a mutual block of declarations where their analysis might influence each other as we approach the fixpoint. - currFnIdx : Nat
The index of the function we are currently operating on in
decls.
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- assignments : Array Lean.Compiler.LCNF.UnreachableBranches.Assignment
Assignment
s of functions in theInterpContext
. Value
s of functions in theInterpContext
use during computation of the fixpoint. Afterwards they are stored into theEnvironment
.
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The monad which powers the abstract interpreter.
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Get the variable Assignment
of the current function.
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- Lean.Compiler.LCNF.UnreachableBranches.getAssignment = do let __do_lift ← get let __do_lift_1 ← read pure __do_lift.assignments[__do_lift_1.currFnIdx]!
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Get the Value
of a certain function in the current block by index.
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- Lean.Compiler.LCNF.UnreachableBranches.getFunVal funIdx = do let __do_lift ← get pure __do_lift.funVals[funIdx]!
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Run f
on the variable Assignment
of the current function.
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Obtain the Value
associated with var
from the context of InterpM
.
If none is available return Value.bot
.
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Find the value of arg
using the logic of findVarValue
.
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Update the assignment of var
by merging the current value with newVal
.
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Set the value of var
to bot
.
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Widen the value of the current function by v
.
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Return true if the assignment of at least one parameter has been updated.
Furthermore if we see that params.size != args.size
we know that this is
a partial application and set the values of the remaining parameters to
top
since it is impossible to track what will happen with them from here on.
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The actual abstract interpreter on a block of Code
.
The abstract interpreter on a LetValue
.
If we see a function being passed as an argument to a higher order
function we cannot know what arguments it will be passed further
down the line. Hence we set all of its arguments to top
since anything
is possible.
Rerun the abstract interpreter on all declarations except of the unsafe
ones. Return whether any Value
got updated in the process.
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Run inferStep
until it reaches a fix point.
Use the information produced by the abstract interpreter to:
- Eliminate branches that we know cannot be hit
- Eliminate values that we know have to be constants.
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