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(*
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* Copyright (c) 2016 - present Facebook, Inc.
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* All rights reserved.
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*
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* This source code is licensed under the BSD style license found in the
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* LICENSE file in the root directory of this source tree. An additional grant
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* of patent rights can be found in the PATENTS file in the same directory.
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*)
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open! IStd
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module F = Format
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(** Control-flow graph for a single procedure (as opposed to cfg.ml, which represents a cfg for a
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file). Defines useful wrappers that allows us to do tricks like turn a forward cfg into a
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backward one, or view a cfg as having a single instruction per node. *)
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module type Node = sig
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type t
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type id
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val kind : t -> Procdesc.Node.nodekind
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val id : t -> id
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val hash : t -> int
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val loc : t -> Location.t
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val underlying_node : t -> Procdesc.Node.t
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val of_underlying_node : Procdesc.Node.t -> t
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val compare_id : id -> id -> int
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val pp_id : F.formatter -> id -> unit
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module IdMap : PrettyPrintable.PPMap with type key = id
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module IdSet : PrettyPrintable.PPSet with type elt = id
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end
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module DefaultNode = struct
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type t = Procdesc.Node.t
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type id = Procdesc.Node.id
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let kind = Procdesc.Node.get_kind
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let id = Procdesc.Node.get_id
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let hash = Procdesc.Node.hash
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let loc = Procdesc.Node.get_loc
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let underlying_node t = t
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let of_underlying_node t = t
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let compare_id = Procdesc.Node.compare_id
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let pp_id = Procdesc.Node.pp_id
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module OrderedId = struct
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type t = id
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let compare = compare_id
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let pp = pp_id
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end
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module IdMap = PrettyPrintable.MakePPMap (OrderedId)
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module IdSet = PrettyPrintable.MakePPSet (OrderedId)
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end
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module InstrNode = struct
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type instr_index = int [@@deriving compare]
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type t = Procdesc.Node.t * instr_index
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type id = Procdesc.Node.id * instr_index [@@deriving compare]
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let kind (t, _) = Procdesc.Node.get_kind t
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let underlying_node (t, _) = t
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let of_underlying_node t = (t, 0)
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let id (t, index) = (Procdesc.Node.get_id t, index)
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let hash node = Hashtbl.hash (id node)
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let loc (t, _) = Procdesc.Node.get_loc t
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let pp_id fmt (id, index) = F.fprintf fmt "(%a: %d)" Procdesc.Node.pp_id id index
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module OrderedId = struct
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type t = id
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let compare = compare_id
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let pp = pp_id
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end
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module IdMap = PrettyPrintable.MakePPMap (OrderedId)
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module IdSet = PrettyPrintable.MakePPSet (OrderedId)
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end
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module type S = sig
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type t
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type node
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include Node with type t := node
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val instrs : node -> Sil.instr list
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(** get the instructions from a node *)
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val succs : t -> node -> node list
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val preds : t -> node -> node list
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(** all predecessors (normal and exceptional) *)
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val normal_succs : t -> node -> node list
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(** non-exceptional successors *)
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val normal_preds : t -> node -> node list
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(** non-exceptional predecessors *)
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val exceptional_succs : t -> node -> node list
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(** exceptional successors *)
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val exceptional_preds : t -> node -> node list
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(** exceptional predecessors *)
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val start_node : t -> node
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val exit_node : t -> node
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val proc_desc : t -> Procdesc.t
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val nodes : t -> node list
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val from_pdesc : Procdesc.t -> t
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val is_loop_head : Procdesc.t -> node -> bool
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end
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(** Forward CFG with no exceptional control-flow *)
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module Normal = struct
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type t = Procdesc.t
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type node = DefaultNode.t
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include (DefaultNode : module type of DefaultNode with type t := node)
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let instrs = Procdesc.Node.get_instrs
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let normal_succs _ n = Procdesc.Node.get_succs n
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let normal_preds _ n = Procdesc.Node.get_preds n
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(* prune away exceptional control flow *)
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let exceptional_succs _ _ = []
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let exceptional_preds _ _ = []
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let succs = normal_succs
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let preds = normal_preds
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let start_node = Procdesc.get_start_node
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let exit_node = Procdesc.get_exit_node
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let proc_desc t = t
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let nodes = Procdesc.get_nodes
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let from_pdesc pdesc = pdesc
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let is_loop_head = Procdesc.is_loop_head
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end
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(** Forward CFG with exceptional control-flow *)
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module Exceptional = struct
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type node = DefaultNode.t
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type id_node_map = node list Procdesc.IdMap.t
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type t = Procdesc.t * id_node_map
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include (DefaultNode : module type of DefaultNode with type t := node)
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let exceptional_succs _ n = Procdesc.Node.get_exn n
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let from_pdesc pdesc =
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(* map from a node to its exceptional predecessors *)
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let add_exn_preds exn_preds_acc n =
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let add_exn_pred exn_preds_acc exn_succ_node =
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let exn_succ_node_id = Procdesc.Node.get_id exn_succ_node in
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let existing_exn_preds =
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try Procdesc.IdMap.find exn_succ_node_id exn_preds_acc with Caml.Not_found -> []
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in
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if not (List.mem ~equal:Procdesc.Node.equal existing_exn_preds n) then
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(* don't add duplicates *)
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Procdesc.IdMap.add exn_succ_node_id (n :: existing_exn_preds) exn_preds_acc
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else exn_preds_acc
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in
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List.fold ~f:add_exn_pred ~init:exn_preds_acc (exceptional_succs pdesc n)
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in
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let exceptional_preds =
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List.fold ~f:add_exn_preds ~init:Procdesc.IdMap.empty (Procdesc.get_nodes pdesc)
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in
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(pdesc, exceptional_preds)
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let instrs = Procdesc.Node.get_instrs
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let nodes (t, _) = Procdesc.get_nodes t
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let normal_succs _ n = Procdesc.Node.get_succs n
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let normal_preds _ n = Procdesc.Node.get_preds n
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let exceptional_preds (_, exn_pred_map) n =
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try Procdesc.IdMap.find (Procdesc.Node.get_id n) exn_pred_map with Caml.Not_found -> []
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(** get all normal and exceptional successors of [n]. *)
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let succs t n =
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let normal_succs = normal_succs t n in
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match exceptional_succs t n with
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| [] ->
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normal_succs
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| exceptional_succs ->
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normal_succs @ exceptional_succs |> List.sort ~compare:Procdesc.Node.compare
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|> List.remove_consecutive_duplicates ~equal:Procdesc.Node.equal
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(** get all normal and exceptional predecessors of [n]. *)
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let preds t n =
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let normal_preds = normal_preds t n in
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match exceptional_preds t n with
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| [] ->
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normal_preds
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| exceptional_preds ->
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normal_preds @ exceptional_preds |> List.sort ~compare:Procdesc.Node.compare
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|> List.remove_consecutive_duplicates ~equal:Procdesc.Node.equal
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let proc_desc (pdesc, _) = pdesc
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let start_node (pdesc, _) = Procdesc.get_start_node pdesc
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let exit_node (pdesc, _) = Procdesc.get_exit_node pdesc
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let is_loop_head = Procdesc.is_loop_head
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end
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(** Wrapper that reverses the direction of the CFG *)
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module Backward (Base : S) = struct
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include Base
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let instrs n = List.rev (Base.instrs n)
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let succs = Base.preds
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let preds = Base.succs
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let start_node = Base.exit_node
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let exit_node = Base.start_node
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let normal_succs = Base.normal_preds
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let normal_preds = Base.normal_succs
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let exceptional_succs = Base.exceptional_preds
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let exceptional_preds = Base.exceptional_succs
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end
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module OneInstrPerNode (Base : S with type node = Procdesc.Node.t and type id = Procdesc.Node.id) =
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struct
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type t = Base.t
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type node = InstrNode.t
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type id = InstrNode.id
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include (
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InstrNode :
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Node
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with type t := node
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and type id := id
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and module IdMap = InstrNode.IdMap
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and module IdSet = InstrNode.IdSet )
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let instrs (node, index) =
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match Base.instrs node with [] -> [] | instrs -> [List.nth_exn instrs index]
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let first_of_node node = (node, 0)
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let last_of_node node = (node, max 0 (List.length (Base.instrs node) - 1))
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let normal_succs _ _ = (* not used *) assert false
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let exceptional_succs _ _ = (* not used *) assert false
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let succs cfg (node, index) =
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let succ_index = index + 1 in
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if IList.mem_nth (Base.instrs node) succ_index then [(node, succ_index)]
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else List.map ~f:first_of_node (Base.succs cfg node)
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let normal_preds cfg (node, index) =
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if index >= 1 then [(node, index - 1)]
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else List.map ~f:last_of_node (Base.normal_preds cfg node)
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let exceptional_preds cfg (node, index) =
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if index >= 1 then [] else List.map ~f:last_of_node (Base.exceptional_preds cfg node)
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let preds cfg t = List.rev_append (exceptional_preds cfg t) (normal_preds cfg t)
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let start_node cfg = first_of_node (Base.start_node cfg)
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let exit_node cfg = last_of_node (Base.exit_node cfg)
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let proc_desc = Base.proc_desc
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let nodes =
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let nodes_of_node node =
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match Base.instrs node with
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| [] ->
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[(node, 0)]
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| instrs ->
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List.mapi ~f:(fun index _instr -> (node, index)) instrs
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in
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fun cfg -> List.concat_map ~f:nodes_of_node (Base.nodes cfg)
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let from_pdesc = Base.from_pdesc
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let is_loop_head pdesc = function node, 0 -> Base.is_loop_head pdesc node | _ -> false
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end
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module NormalOneInstrPerNode = OneInstrPerNode (Normal)
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