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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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module L = Logging
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module type S = sig
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module TraceDomain : AbstractDomain.WithBottom
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module AccessMap : PrettyPrintable.PPMap with type key = AccessPath.access
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module BaseMap = AccessPath.BaseMap
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type node = TraceDomain.astate * tree
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and tree = Subtree of node AccessMap.t | Star
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type t = node BaseMap.t
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include AbstractDomain.WithBottom with type astate = t
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val empty_node : node
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val make_node : TraceDomain.astate -> node AccessMap.t -> node
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val make_access_node : TraceDomain.astate -> AccessPath.access -> TraceDomain.astate -> node
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val make_normal_leaf : TraceDomain.astate -> node
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val make_starred_leaf : TraceDomain.astate -> node
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val get_node : AccessPath.Abs.t -> t -> node option
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val get_trace : AccessPath.Abs.t -> t -> TraceDomain.astate option
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val add_node : AccessPath.Abs.t -> node -> t -> t
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val add_trace : AccessPath.Abs.t -> TraceDomain.astate -> t -> t
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val node_join : node -> node -> node
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val fold : ('a -> AccessPath.Abs.t -> node -> 'a) -> t -> 'a -> 'a
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val trace_fold : ('a -> AccessPath.Abs.t -> TraceDomain.astate -> 'a) -> t -> 'a -> 'a
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val depth : t -> int
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val pp_node : F.formatter -> node -> unit
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end
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module Make (TraceDomain : AbstractDomain.WithBottom) = struct
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module TraceDomain = TraceDomain
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module AccessMap = PrettyPrintable.MakePPMap (struct
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type t = AccessPath.access
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let compare a1 a2 =
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match (a1, a2) with
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| AccessPath.ArrayAccess (t1, _), AccessPath.ArrayAccess (t2, _)
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-> (* ignore indexes *)
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Typ.compare t1 t2
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| _
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-> AccessPath.compare_access a1 a2
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let pp = AccessPath.pp_access
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end)
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module BaseMap = AccessPath.BaseMap
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type node = (TraceDomain.astate * tree)
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and tree = Subtree of node AccessMap.t | Star
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type t = node BaseMap.t
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type astate = t
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let empty = BaseMap.empty
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let is_empty = BaseMap.is_empty
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let make_node trace subtree = (trace, Subtree subtree)
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let empty_node = make_node TraceDomain.empty AccessMap.empty
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let is_empty_tree = function Star -> false | Subtree node_map -> AccessMap.is_empty node_map
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let make_normal_leaf trace = make_node trace AccessMap.empty
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let make_starred_leaf trace = (trace, Star)
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(* no need to make it tail-recursive, trees shouldn't be big enough to blow up the call stack *)
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let rec node_depth (_, tree) = 1 + tree_depth tree
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and tree_depth = function
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| Star
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-> 0
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| Subtree node_map
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-> AccessMap.fold (fun _ node acc -> max_depth node acc) node_map 0
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and max_depth node max_depth_acc = Int.max (node_depth node) max_depth_acc
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let depth access_tree = BaseMap.fold (fun _ node acc -> max_depth node acc) access_tree 0
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let make_access_node base_trace access trace =
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make_node base_trace (AccessMap.singleton access (make_normal_leaf trace))
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(** find all of the traces in the subtree and join them with [orig_trace] *)
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let rec join_all_traces ?(join_traces= TraceDomain.join) orig_trace = function
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| Subtree subtree
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-> let join_all_traces_ orig_trace tree =
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let node_join_traces _ (trace, node) trace_acc =
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join_all_traces (join_traces trace_acc trace) node
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in
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AccessMap.fold node_join_traces tree orig_trace
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in
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join_all_traces_ orig_trace subtree
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| Star
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-> orig_trace
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let get_node ap tree =
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let rec accesses_get_node access_list trace tree =
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match (access_list, tree) with
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| _, Star
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-> (trace, Star)
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| [], (Subtree _ as tree)
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-> (trace, tree)
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| access :: accesses, Subtree subtree
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-> let access_trace, access_subtree = AccessMap.find access subtree in
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accesses_get_node accesses access_trace access_subtree
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in
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let get_node_ base accesses tree =
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let base_trace, base_tree = BaseMap.find base tree in
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accesses_get_node accesses base_trace base_tree
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in
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let base, accesses = AccessPath.Abs.extract ap in
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match get_node_ base accesses tree with
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| trace, subtree
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-> if AccessPath.Abs.is_exact ap then Some (trace, subtree)
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else
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(* input query was [ap]*, and [trace] is the trace associated with [ap]. get the traces
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associated with the children of [ap] in [tree] and join them with [trace] *)
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Some (join_all_traces trace subtree, subtree)
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| exception Not_found
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-> None
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let get_trace ap tree = Option.map ~f:fst (get_node ap tree)
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let rec access_tree_lteq (lhs_trace, lhs_tree as lhs) (rhs_trace, rhs_tree as rhs) =
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if phys_equal lhs rhs then true
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else TraceDomain.( <= ) ~lhs:lhs_trace ~rhs:rhs_trace
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&&
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match (lhs_tree, rhs_tree) with
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| Subtree lhs_subtree, Subtree rhs_subtree
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-> AccessMap.for_all
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(fun k lhs_v ->
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try
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let rhs_v = AccessMap.find k rhs_subtree in
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access_tree_lteq lhs_v rhs_v
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with Not_found -> false)
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lhs_subtree
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| _, Star
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-> true
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| Star, Subtree _
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-> false
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let ( <= ) ~lhs ~rhs =
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if phys_equal lhs rhs then true
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else
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BaseMap.for_all
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(fun k lhs_v ->
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try
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let rhs_v = BaseMap.find k rhs in
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access_tree_lteq lhs_v rhs_v
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with Not_found -> false)
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lhs
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let node_join_ f_node_merge f_trace_merge (trace1, tree1 as node1) (trace2, tree2 as node2) =
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if phys_equal node1 node2 then node1
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else
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let trace' = f_trace_merge trace1 trace2 in
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(* note: this is much-uglified by address equality optimization checks. skip to the else cases
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for the actual semantics *)
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match (tree1, tree2) with
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| Subtree subtree1, Subtree subtree2
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-> let tree' = AccessMap.merge (fun _ v1 v2 -> f_node_merge v1 v2) subtree1 subtree2 in
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if phys_equal trace' trace1 && phys_equal tree' subtree1 then node1
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else if phys_equal trace' trace2 && phys_equal tree' subtree2 then node2
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else (trace', Subtree tree')
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| Star, t
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-> (* vacuum up all the traces associated with the subtree t and join them with trace' *)
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let trace'' = join_all_traces trace' t in
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if phys_equal trace'' trace1 then node1 else (trace'', Star)
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| t, Star
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-> (* same as above, but kind-of duplicated to allow address equality optimization *)
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let trace'' = join_all_traces trace' t in
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if phys_equal trace'' trace2 then node2 else (trace'', Star)
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let rec node_join node1 node2 = node_join_ node_merge TraceDomain.join node1 node2
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and node_merge node1_opt node2_opt =
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match (node1_opt, node2_opt) with
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| Some node1, Some node2
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-> let joined_node = node_join node1 node2 in
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if phys_equal joined_node node1 then node1_opt
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else if phys_equal joined_node node2 then node2_opt
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else Some joined_node
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| None, node_opt | node_opt, None
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-> node_opt
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(* helper for [add_access]. [last_trace] is the trace associated with [tree] in the parent. *)
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let access_tree_add_trace ~node_to_add ~seen_array_access ~is_exact accesses node =
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let rec access_tree_add_trace_ ~seen_array_access accesses node =
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match (accesses, node) with
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| [], (trace, tree) -> (
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match (is_exact, seen_array_access) with
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| true, false
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-> (* adding x.f, do strong update on both subtree and its traces *)
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node_to_add
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| true, true
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-> (* adding x[_], do weak update on subtree and on its immediate trace *)
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node_join node_to_add node
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| _
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-> (* adding x.f* or x[_]*, join with traces of subtree and replace it with * *)
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let node_trace, node_tree = node_to_add in
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let trace' = join_all_traces (TraceDomain.join trace node_trace) tree in
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make_starred_leaf (join_all_traces trace' node_tree) )
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| _, (_, Star)
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-> node_join node_to_add node
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| access :: accesses, (trace, Subtree subtree)
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-> let access_node =
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try AccessMap.find access subtree
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with Not_found -> make_normal_leaf TraceDomain.empty
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in
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(* once we encounter a subtree rooted in an array access, we have to do weak updates in
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the entire subtree. the reason: if I do x[i].f.g = <interesting trace>, then
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x[j].f.g = <empty trace>, I don't want to overwrite <interesting trace>. instead, I
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should get <interesting trace> |_| <empty trace> *)
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let seen_array_access =
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seen_array_access
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||
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match access with
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| AccessPath.ArrayAccess _
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-> true
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| AccessPath.FieldAccess _
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-> false
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in
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let access_node' = access_tree_add_trace_ ~seen_array_access accesses access_node in
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(trace, Subtree (AccessMap.add access access_node' subtree))
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in
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access_tree_add_trace_ ~seen_array_access accesses node
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let add_node ap node_to_add tree =
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let base, accesses = AccessPath.Abs.extract ap in
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let is_exact = AccessPath.Abs.is_exact ap in
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let base_node =
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try BaseMap.find base tree
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with Not_found -> make_normal_leaf TraceDomain.empty
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in
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let base_node' =
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access_tree_add_trace ~node_to_add ~seen_array_access:false ~is_exact accesses base_node
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in
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BaseMap.add base base_node' tree
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let add_trace ap trace tree = add_node ap (make_normal_leaf trace) tree
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let join tree1 tree2 =
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if phys_equal tree1 tree2 then tree1
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else BaseMap.merge (fun _ n1 n2 -> node_merge n1 n2) tree1 tree2
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let rec access_map_fold_ f base accesses m acc =
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AccessMap.fold (fun access node acc -> node_fold_ f base (accesses @ [access]) node acc) m acc
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and node_fold_ f base accesses (_, tree as node) acc =
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let cur_ap_raw = (base, accesses) in
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match tree with
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| Subtree access_map
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-> let acc' = f acc (AccessPath.Abs.Exact cur_ap_raw) node in
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access_map_fold_ f base accesses access_map acc'
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| Star
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-> f acc (AccessPath.Abs.Abstracted cur_ap_raw) node
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let node_fold (f: 'a -> AccessPath.Abs.t -> node -> 'a) base node acc =
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node_fold_ f base [] node acc
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let fold (f: 'a -> AccessPath.Abs.t -> node -> 'a) tree acc_ =
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BaseMap.fold (fun base node acc -> node_fold f base node acc) tree acc_
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let trace_fold (f: 'a -> AccessPath.Abs.t -> TraceDomain.astate -> 'a) =
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let f_ acc ap (trace, _) = f acc ap trace in
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fold f_
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(* try for a bit to reach a fixed point before widening aggressively *)
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let joins_before_widen = 3
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let widen ~prev ~next ~num_iters =
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if phys_equal prev next then prev
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else if Int.( <= ) num_iters joins_before_widen then join prev next
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else
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let trace_widen prev next = TraceDomain.widen ~prev ~next ~num_iters in
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(* turn [node] into a starred node by vacuuming up its sub-traces *)
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let node_add_stars (trace, tree as node) =
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match tree with
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| Subtree _
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-> let trace' = join_all_traces ~join_traces:trace_widen trace tree in
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make_starred_leaf trace'
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| Star
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-> node
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in
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let rec node_widen prev_node_opt next_node_opt =
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match (prev_node_opt, next_node_opt) with
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| Some prev_node, Some next_node
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-> let widened_node = node_join_ node_widen trace_widen prev_node next_node in
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if phys_equal widened_node prev_node then prev_node_opt
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else if phys_equal widened_node next_node then next_node_opt
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else Some widened_node
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| None, Some next_node
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-> let widened_node = node_add_stars next_node in
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if phys_equal widened_node next_node then next_node_opt else Some widened_node
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| Some _, None | None, None
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-> prev_node_opt
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in
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BaseMap.merge (fun _ prev_node next_node -> node_widen prev_node next_node) prev next
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let rec pp_node fmt (trace, subtree) =
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let pp_subtree fmt tree =
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|
|
match tree with
|
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|
|
|
| Subtree access_map
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|
|
|
|
-> AccessMap.pp ~pp_value:pp_node fmt access_map
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|
|
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| Star
|
|
|
|
|
-> F.fprintf fmt "*"
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|
|
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in
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|
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if not (TraceDomain.is_empty trace) then
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|
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if not (is_empty_tree subtree) then
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|
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F.fprintf fmt "(%a, %a)" TraceDomain.pp trace pp_subtree subtree
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else F.fprintf fmt "%a" TraceDomain.pp trace
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else F.fprintf fmt "%a" pp_subtree subtree
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|
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|
|
let pp fmt base_tree = BaseMap.pp ~pp_value:pp_node fmt base_tree
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|
|
|
|
end
|
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|
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|
|
|
|
module PathSet = struct
|
|
|
|
|
include Make (AbstractDomain.BooleanOr)
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|
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|
|
(* print as a set of paths rather than a map of paths to bools *)
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|
|
|
let pp fmt tree =
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|
|
|
let collect_path acc access_path (is_mem, _) = if is_mem then access_path :: acc else acc in
|
|
|
|
|
fold collect_path tree [] |> PrettyPrintable.pp_collection ~pp_item:AccessPath.Abs.pp fmt
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|
|
|
|
end
|
