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494 lines
17 KiB
494 lines
17 KiB
(*
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* Copyright (c) Facebook, Inc. and its affiliates.
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*
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* This source code is licensed under the MIT license found in the
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* LICENSE file in the root directory of this source tree.
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*)
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(** Iterative Breadth-First Bounded Exploration
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The analysis' semantics of control flow. *)
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type exec_opts =
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{ bound: int
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; skip_throw: bool
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; function_summaries: bool
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; entry_points: string list
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; globals: Domain_used_globals.r }
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module Make (Dom : Domain_intf.Dom) = struct
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module Stack : sig
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type t
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type as_inlined_location = t [@@deriving compare, sexp_of]
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val empty : t
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val push_call :
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Llair.func Llair.call -> bound:int -> Dom.from_call -> t -> t option
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val pop_return : t -> (Dom.from_call * Llair.jump * t) option
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val pop_throw :
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t
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-> init:'a
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-> unwind:(Reg.t list -> Reg.Set.t -> Dom.from_call -> 'a -> 'a)
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-> (Dom.from_call * Llair.jump * t * 'a) option
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end = struct
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type t =
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| Return of
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{ recursive: bool (** return from a possibly-recursive call *)
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; dst: Llair.Jump.t
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; formals: Reg.t list
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; locals: Reg.Set.t
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; from_call: Dom.from_call
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; stk: t }
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| Throw of Llair.Jump.t * t
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| Empty
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[@@deriving sexp_of]
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type as_inlined_location = t [@@deriving sexp_of]
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(* Treat a stack as a code location in a hypothetical expansion of the
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program where all non-recursive functions have been completely
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inlined. In particular, this means to compare stacks as if all Return
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frames for recursive calls had been removed. Additionally, the
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from_call info in Return frames is ignored. *)
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let rec compare_as_inlined_location x y =
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if x == y then 0
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else
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match (x, y) with
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| Return {recursive= true; stk= x}, y
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|x, Return {recursive= true; stk= y} ->
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compare_as_inlined_location x y
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| Return {dst= j; stk= x}, Return {dst= k; stk= y} -> (
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match Llair.Jump.compare j k with
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| 0 -> compare_as_inlined_location x y
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| n -> n )
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| Return _, _ -> -1
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| _, Return _ -> 1
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| Throw (j, x), Throw (k, y) -> (
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match Llair.Jump.compare j k with
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| 0 -> compare_as_inlined_location x y
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| n -> n )
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| Throw _, _ -> -1
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| _, Throw _ -> 1
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| Empty, Empty -> 0
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let rec print_abbrev fs = function
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| Return {recursive= false; stk= s} ->
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print_abbrev fs s ;
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Format.pp_print_char fs 'R'
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| Return {recursive= true; stk= s} ->
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print_abbrev fs s ;
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Format.pp_print_string fs "R↑"
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| Throw (_, s) ->
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print_abbrev fs s ;
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Format.pp_print_char fs 'T'
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| Empty -> ()
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let invariant s =
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Invariant.invariant [%here] s [%sexp_of: t]
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@@ fun () ->
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match s with
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| Return _ | Throw (_, Return _) | Empty -> ()
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| Throw _ -> fail "malformed stack: %a" print_abbrev s ()
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let empty = Empty |> check invariant
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let push_return Llair.{callee= {formals; locals}; return; recursive}
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from_call stk =
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Return {recursive; dst= return; formals; locals; from_call; stk}
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|> check invariant
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let push_throw jmp stk =
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(match jmp with None -> stk | Some jmp -> Throw (jmp, stk))
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|> check invariant
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let push_call (Llair.{return; throw} as call) ~bound from_call stk =
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[%Trace.call fun {pf} -> pf "%a" print_abbrev stk]
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;
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let rec count_f_in_stack acc f = function
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| Return {stk= next_frame; dst= dest_block} ->
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count_f_in_stack
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(if Llair.Jump.equal dest_block f then acc + 1 else acc)
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f next_frame
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| _ -> acc
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in
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let n = count_f_in_stack 0 return stk in
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( if n > bound then None
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else Some (push_throw throw (push_return call from_call stk)) )
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|>
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[%Trace.retn fun {pf} _ ->
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pf "%d of %a on stack" n Llair.Jump.pp return]
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let rec pop_return = function
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| Throw (_, stk) -> pop_return stk
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| Return {from_call; dst; stk} -> Some (from_call, dst, stk)
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| Empty -> None
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let pop_throw stk ~init ~unwind =
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let rec pop_throw_ state = function
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| Return {formals; locals; from_call; stk} ->
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pop_throw_ (unwind formals locals from_call state) stk
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| Throw (dst, Return {from_call; stk}) ->
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Some (from_call, dst, stk, state)
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| Empty -> None
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| Throw _ as stk -> violates invariant stk
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in
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pop_throw_ init stk
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end
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module Work : sig
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type t
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val init : Dom.t -> Llair.block -> int -> t
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type x
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val skip : x
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val seq : x -> x -> x
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val add :
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?prev:Llair.block
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-> retreating:bool
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-> Stack.t
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-> Dom.t
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-> Llair.block
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-> x
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val run : f:(Stack.t -> Dom.t -> Llair.block -> x) -> t -> unit
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end = struct
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module Edge = struct
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module T = struct
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type t =
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{ dst: Llair.Block.t
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; src: Llair.Block.t option
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; stk: Stack.as_inlined_location }
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[@@deriving compare, sexp_of]
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end
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include T
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include Comparator.Make (T)
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let pp fs {dst; src} =
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Format.fprintf fs "#%i %%%s <--%a" dst.sort_index dst.lbl
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(Option.pp "%a" (fun fs (src : Llair.Block.t) ->
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Format.fprintf fs " #%i %%%s" src.sort_index src.lbl ))
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src
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end
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module Depths = struct
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type t = int Map.M(Edge).t
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let empty = Map.empty (module Edge)
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let find = Map.find
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let set = Map.set
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let join x y =
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Map.merge x y ~f:(fun ~key:_ -> function
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| `Left d | `Right d -> Some d
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| `Both (d1, d2) -> Some (Int.max d1 d2) )
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end
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type priority = int * Edge.t [@@deriving compare]
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type priority_queue = priority Fheap.t
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type waiting_states = (Dom.t * Depths.t) list Map.M(Llair.Block).t
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type t = priority_queue * waiting_states * int
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type x = Depths.t -> t -> t
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let empty_waiting_states : waiting_states =
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Map.empty (module Llair.Block)
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let pp_priority fs (n, e) = Format.fprintf fs "%i: %a" n Edge.pp e
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let pp fs pq =
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Format.fprintf fs "@[%a@]"
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(List.pp " ::@ " pp_priority)
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(Sequence.to_list (Fheap.to_sequence pq))
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let skip _ w = w
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let seq x y d w = y d (x d w)
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let add ?prev ~retreating stk state curr depths ((pq, ws, bound) as work)
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=
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let edge = {Edge.dst= curr; src= prev; stk} in
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let depth = Option.value (Depths.find depths edge) ~default:0 in
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let depth = if retreating then depth + 1 else depth in
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if depth > bound then (
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[%Trace.info "prune: %i: %a" depth Edge.pp edge] ;
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work )
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else
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let pq = Fheap.add pq (depth, edge) in
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[%Trace.info "@[<6>enqueue %i: %a@ | %a@]" depth Edge.pp edge pp pq] ;
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let depths = Depths.set depths ~key:edge ~data:depth in
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let ws = Map.add_multi ws ~key:curr ~data:(state, depths) in
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(pq, ws, bound)
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let init state curr bound =
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add ~retreating:false Stack.empty state curr Depths.empty
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(Fheap.create ~cmp:compare_priority, empty_waiting_states, bound)
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let rec run ~f (pq0, ws, bnd) =
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match Fheap.pop pq0 with
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| Some ((_, ({Edge.dst; stk} as edge)), pq) -> (
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match Map.find_and_remove ws dst with
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| Some (q :: qs, ws) ->
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let join (qa, da) (q, d) = (Dom.join q qa, Depths.join d da) in
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let skipped, (qs, depths) =
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List.fold qs ~init:([], q) ~f:(fun (skipped, joined) curr ->
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match join curr joined with
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| Some joined, depths -> (skipped, (joined, depths))
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| None, _ -> (curr :: skipped, joined) )
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in
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let ws = Map.add_exn ws ~key:dst ~data:skipped in
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run ~f (f stk qs dst depths (pq, ws, bnd))
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| _ ->
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[%Trace.info "done: %a" Edge.pp edge] ;
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run ~f (pq, ws, bnd) )
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| None -> [%Trace.info "queue empty"] ; ()
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end
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let exec_jump stk state block Llair.{dst; retreating} =
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Work.add ~prev:block ~retreating stk state dst
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let summary_table = Hashtbl.create (module Reg)
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let exec_call opts stk state block call globals =
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let Llair.{callee; actuals; areturn; return; recursive} = call in
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let Llair.{name; formals; freturn; locals; entry} = callee in
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[%Trace.call fun {pf} ->
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pf "%a from %a with state@ %a" Reg.pp name.reg Reg.pp
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return.dst.parent.name.reg Dom.pp state]
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;
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let dnf_states =
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if opts.function_summaries then Dom.dnf state else [state]
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in
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let domain_call =
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Dom.call ~globals ~actuals ~areturn ~formals ~freturn ~locals
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in
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List.fold ~init:Work.skip dnf_states ~f:(fun acc state ->
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match
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if not opts.function_summaries then None
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else
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let maybe_summary_post =
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let state = fst (domain_call ~summaries:false state) in
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let* summary = Hashtbl.find summary_table name.reg in
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List.find_map ~f:(Dom.apply_summary state) summary
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in
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[%Trace.info
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"Maybe summary post: %a" (Option.pp "%a" Dom.pp)
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maybe_summary_post] ;
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maybe_summary_post
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with
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| None ->
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let state, from_call =
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domain_call ~summaries:opts.function_summaries state
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in
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Work.seq acc
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( match
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Stack.push_call call ~bound:opts.bound from_call stk
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with
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| Some stk ->
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Work.add stk ~prev:block ~retreating:recursive state entry
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| None -> (
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match Dom.recursion_beyond_bound with
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| `skip -> Work.seq acc (exec_jump stk state block return)
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| `prune -> Work.skip ) )
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| Some post -> Work.seq acc (exec_jump stk post block return) )
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|>
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[%Trace.retn fun {pf} _ -> pf ""]
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let pp_st () =
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[%Trace.printf
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"@[<v>%t@]" (fun fs ->
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Hashtbl.iteri summary_table ~f:(fun ~key ~data ->
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Format.fprintf fs "@[<v>%a:@ @[%a@]@]@ " Reg.pp key
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(List.pp "@," Dom.pp_summary)
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data ) )]
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let exec_return ~opts stk pre_state (block : Llair.block) exp =
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let Llair.{name; formals; freturn; locals} = block.parent in
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[%Trace.call fun {pf} -> pf "from: %a" Reg.pp name.reg]
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;
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let summarize post_state =
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if not opts.function_summaries then post_state
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else
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let globals =
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Domain_used_globals.by_function opts.globals name.reg
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in
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let function_summary, post_state =
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Dom.create_summary ~locals post_state
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~formals:(Set.union (Reg.Set.of_list formals) globals)
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in
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Hashtbl.add_multi summary_table ~key:name.reg ~data:function_summary ;
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pp_st () ;
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post_state
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in
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let exit_state =
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match (freturn, exp) with
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| Some freturn, Some return_val ->
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Dom.exec_move pre_state (Vector.of_ (freturn, return_val))
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| None, None -> pre_state
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| _ -> violates Llair.Func.invariant block.parent
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in
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( match Stack.pop_return stk with
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| Some (from_call, retn_site, stk) ->
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let post_state = summarize (Dom.post locals from_call exit_state) in
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let retn_state = Dom.retn formals freturn from_call post_state in
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exec_jump stk retn_state block retn_site
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| None ->
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(* Create and store a function summary for main *)
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if
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opts.function_summaries
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&& List.exists opts.entry_points
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~f:(String.equal (Reg.name name.reg))
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then summarize exit_state |> (ignore : Dom.t -> unit) ;
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Work.skip )
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|>
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[%Trace.retn fun {pf} _ -> pf ""]
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let exec_throw stk pre_state (block : Llair.block) exc =
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let func = block.parent in
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[%Trace.call fun {pf} -> pf "from %a" Reg.pp func.name.reg]
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;
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let unwind formals scope from_call state =
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Dom.retn formals (Some func.fthrow) from_call
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(Dom.post scope from_call state)
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in
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( match Stack.pop_throw stk ~unwind ~init:pre_state with
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| Some (from_call, retn_site, stk, unwind_state) ->
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let fthrow = func.fthrow in
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let exit_state =
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Dom.exec_move unwind_state (Vector.of_ (fthrow, exc))
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in
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let post_state = Dom.post func.locals from_call exit_state in
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let retn_state =
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Dom.retn func.formals func.freturn from_call post_state
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in
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exec_jump stk retn_state block retn_site
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| None -> Work.skip )
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|>
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[%Trace.retn fun {pf} _ -> pf ""]
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let exec_skip_func :
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Stack.t
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-> Dom.t
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-> Llair.block
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-> Reg.t option
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-> Llair.jump
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-> Work.x =
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fun stk state block areturn return ->
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Report.unknown_call block.term ;
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let state = Option.fold ~f:Dom.exec_kill ~init:state areturn in
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exec_jump stk state block return
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let exec_term :
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exec_opts -> Llair.t -> Stack.t -> Dom.t -> Llair.block -> Work.x =
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fun opts pgm stk state block ->
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[%Trace.info
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"@[<2>exec term@\n@[%a@]@\n%a@]" Dom.pp state Llair.Term.pp block.term] ;
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match block.term with
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| Switch {key; tbl; els} ->
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Vector.fold tbl
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~f:(fun x (case, jump) ->
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match Dom.exec_assume state (Exp.eq key case) with
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| Some state -> exec_jump stk state block jump |> Work.seq x
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| None -> x )
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~init:
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( match
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Dom.exec_assume state
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(Vector.fold tbl ~init:Exp.true_ ~f:(fun b (case, _) ->
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Exp.and_ (Exp.dq key case) b ))
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with
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| Some state -> exec_jump stk state block els
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| None -> Work.skip )
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| Iswitch {ptr; tbl} ->
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Vector.fold tbl ~init:Work.skip ~f:(fun x (jump : Llair.jump) ->
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match
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Dom.exec_assume state
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(Exp.eq ptr
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(Exp.label
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~parent:(Reg.name jump.dst.parent.name.reg)
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~name:jump.dst.lbl))
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with
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| Some state -> exec_jump stk state block jump |> Work.seq x
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| None -> x )
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| Call ({callee; actuals; areturn; return} as call) -> (
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let lookup name =
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Option.to_list (Llair.Func.find pgm.functions name)
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in
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let callees, state = Dom.resolve_callee lookup callee state in
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match callees with
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| [] -> exec_skip_func stk state block areturn return
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| callees ->
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List.fold callees ~init:Work.skip ~f:(fun x callee ->
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( match
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Dom.exec_intrinsic ~skip_throw:opts.skip_throw state
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areturn callee.name.reg actuals
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with
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| Some None ->
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Report.invalid_access_term
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(Dom.report_fmt_thunk state)
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block.term ;
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Work.skip
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| Some (Some state) when Dom.is_false state -> Work.skip
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| Some (Some state) -> exec_jump stk state block return
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| None when Llair.Func.is_undefined callee ->
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exec_skip_func stk state block areturn return
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| None ->
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exec_call opts stk state block {call with callee}
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(Domain_used_globals.by_function opts.globals
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callee.name.reg) )
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|> Work.seq x ) )
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| Return {exp} -> exec_return ~opts stk state block exp
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| Throw {exc} ->
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if opts.skip_throw then Work.skip
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else exec_throw stk state block exc
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| Unreachable -> Work.skip
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let exec_inst : Dom.t -> Llair.inst -> (Dom.t, Dom.t * Llair.inst) result
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=
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fun state inst ->
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[%Trace.info
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"@[<2>exec inst@\n@[%a@]@\n%a@]" Dom.pp state Llair.Inst.pp inst] ;
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Dom.exec_inst state inst |> Result.of_option ~error:(state, inst)
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|
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let exec_block :
|
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exec_opts -> Llair.t -> Stack.t -> Dom.t -> Llair.block -> Work.x =
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fun opts pgm stk state block ->
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[%Trace.info "exec block %%%s" block.lbl] ;
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match Vector.fold_result ~f:exec_inst ~init:state block.cmnd with
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| Ok state -> exec_term opts pgm stk state block
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| Error (state, inst) ->
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Report.invalid_access_inst (Dom.report_fmt_thunk state) inst ;
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Work.skip
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|
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let harness : exec_opts -> Llair.t -> (int -> Work.t) option =
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fun opts pgm ->
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List.find_map ~f:(Llair.Func.find pgm.functions) opts.entry_points
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|> function
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| Some {name= {reg}; formals= []; freturn; locals; entry} ->
|
|
Some
|
|
(Work.init
|
|
(fst
|
|
(Dom.call ~summaries:opts.function_summaries
|
|
~globals:
|
|
(Domain_used_globals.by_function opts.globals reg)
|
|
~actuals:[] ~areturn:None ~formals:[] ~freturn ~locals
|
|
(Dom.init pgm.globals)))
|
|
entry)
|
|
| _ -> None
|
|
|
|
let exec_pgm : exec_opts -> Llair.t -> unit =
|
|
fun opts pgm ->
|
|
match harness opts pgm with
|
|
| Some work -> Work.run ~f:(exec_block opts pgm) (work opts.bound)
|
|
| None -> fail "no applicable harness" ()
|
|
|
|
let compute_summaries opts pgm : Dom.summary list Reg.Map.t =
|
|
assert opts.function_summaries ;
|
|
exec_pgm opts pgm ;
|
|
Hashtbl.fold summary_table ~init:Reg.Map.empty ~f:(fun ~key ~data map ->
|
|
match data with [] -> map | _ -> Map.set map ~key ~data )
|
|
end
|