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(*
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* Copyright (c) 2017-present, Facebook, Inc.
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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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open! IStd
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open AbsLoc
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open! AbstractDomain.Types
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module L = Logging
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module Dom = BufferOverrunDomain
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module Relation = BufferOverrunDomainRelation
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module PO = BufferOverrunProofObligations
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module Sem = BufferOverrunSemantics
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module Trace = BufferOverrunTrace
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module TraceSet = Trace.Set
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module Exec = struct
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let load_val id val_ mem =
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let locs = val_ |> Dom.Val.get_all_locs in
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let v = Dom.Mem.find_heap_set locs mem in
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let mem = Dom.Mem.add_stack (Loc.of_id id) v mem in
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if PowLoc.is_singleton locs then Dom.Mem.load_simple_alias id (PowLoc.min_elt locs) mem
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else mem
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type decl_local =
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Typ.Procname.t -> node_hash:int -> Location.t -> Loc.t -> Typ.t -> inst_num:int
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-> dimension:int -> Dom.Mem.astate -> Dom.Mem.astate * int
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let decl_local_array
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: decl_local:decl_local -> Typ.Procname.t -> node_hash:int -> Location.t -> Loc.t -> Typ.t
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-> length:IntLit.t option -> ?stride:int -> inst_num:int -> dimension:int -> Dom.Mem.astate
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-> Dom.Mem.astate * int =
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fun ~decl_local pname ~node_hash location loc typ ~length ?stride ~inst_num ~dimension mem ->
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let offset = Itv.zero in
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let size = Option.value_map ~default:Itv.top ~f:Itv.of_int_lit length in
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let allocsite = Sem.get_allocsite pname ~node_hash ~inst_num ~dimension in
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let arr =
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Sem.eval_array_alloc allocsite typ ~stride ~offset ~size
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|> Dom.Val.add_trace_elem (Trace.ArrDecl location)
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in
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let mem =
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if Int.equal dimension 1 then Dom.Mem.add_stack loc arr mem else Dom.Mem.add_heap loc arr mem
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in
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let mem = Dom.Mem.init_array_relation allocsite ~offset ~size ~size_exp_opt:None mem in
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let loc = Loc.of_allocsite allocsite in
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let mem, _ =
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decl_local pname ~node_hash location loc typ ~inst_num ~dimension:(dimension + 1) mem
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in
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(mem, inst_num + 1)
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type decl_sym_val =
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Typ.Procname.t -> Itv.SymbolPath.partial -> Tenv.t -> node_hash:int -> Location.t -> depth:int
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-> Loc.t -> Typ.t -> Dom.Mem.astate -> Dom.Mem.astate
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let decl_sym_arr
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: decl_sym_val:decl_sym_val -> Typ.Procname.t -> Itv.SymbolPath.partial -> Tenv.t
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-> node_hash:int -> Location.t -> depth:int -> Loc.t -> Typ.t -> ?offset:Itv.t
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-> ?size:Itv.t -> inst_num:int -> new_sym_num:Itv.Counter.t -> new_alloc_num:Itv.Counter.t
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-> Dom.Mem.astate -> Dom.Mem.astate =
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fun ~decl_sym_val pname path tenv ~node_hash location ~depth loc typ ?offset ?size ~inst_num
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~new_sym_num ~new_alloc_num mem ->
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let option_value opt_x default_f = match opt_x with Some x -> x | None -> default_f () in
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let offset =
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option_value offset (fun () -> Itv.make_sym pname (Itv.SymbolPath.offset path) new_sym_num)
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in
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let size =
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option_value size (fun () ->
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Itv.make_sym ~unsigned:true pname (Itv.SymbolPath.length path) new_sym_num )
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in
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let alloc_num = Itv.Counter.next new_alloc_num in
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let elem = Trace.SymAssign (loc, location) in
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let allocsite = Sem.get_allocsite pname ~node_hash ~inst_num ~dimension:alloc_num in
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let arr =
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Sem.eval_array_alloc allocsite typ ~stride:None ~offset ~size |> Dom.Val.add_trace_elem elem
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in
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let mem =
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mem |> Dom.Mem.add_heap loc arr |> Dom.Mem.init_param_relation loc
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|> Dom.Mem.init_array_relation allocsite ~offset ~size ~size_exp_opt:None
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in
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let deref_loc =
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Loc.of_allocsite (Sem.get_allocsite pname ~node_hash ~inst_num ~dimension:alloc_num)
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in
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let path = Itv.SymbolPath.index path in
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decl_sym_val pname path tenv ~node_hash location ~depth deref_loc typ mem
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let init_array_fields tenv pname ~node_hash typ locs ?dyn_length mem =
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let rec init_field locs dimension ?dyn_length (mem, inst_num) (field_name, field_typ, _) =
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let field_loc = PowLoc.append_field locs ~fn:field_name in
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let mem =
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match field_typ.Typ.desc with
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| Tarray {elt= typ; length= Some length; stride} ->
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let length = Itv.of_int_lit length in
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let length =
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Option.value_map dyn_length ~default:length ~f:(fun dyn_length ->
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let i = Dom.Val.get_itv (Sem.eval dyn_length mem) in
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Itv.plus i length )
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in
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let stride = Option.map stride ~f:IntLit.to_int in
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let allocsite = Sem.get_allocsite pname ~node_hash ~inst_num ~dimension in
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let offset, size = (Itv.zero, length) in
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let v = Sem.eval_array_alloc allocsite typ ~stride ~offset ~size in
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mem |> Dom.Mem.strong_update_heap field_loc v
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|> Dom.Mem.init_array_relation allocsite ~offset ~size ~size_exp_opt:None
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| _ ->
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init_fields field_typ field_loc dimension ?dyn_length mem
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in
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(mem, inst_num + 1)
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and init_fields typ locs dimension ?dyn_length mem =
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match typ.Typ.desc with
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| Tstruct typename -> (
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match Tenv.lookup tenv typename with
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| Some str ->
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let f = init_field locs (dimension + 1) in
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IList.fold_last ~f ~f_last:(f ?dyn_length) ~init:(mem, 1) str.Typ.Struct.fields |> fst
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| None ->
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mem )
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| _ ->
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mem
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in
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init_fields typ locs 1 ?dyn_length mem
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let rec set_dyn_length tenv typ locs dyn_length mem =
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match typ.Typ.desc with
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| Tstruct typename -> (
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match Tenv.lookup tenv typename with
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| Some {fields} when not (List.is_empty fields)
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-> (
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let field_name, field_typ, _ = List.last_exn fields in
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let field_loc = PowLoc.append_field locs ~fn:field_name in
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match field_typ.Typ.desc with
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| Tarray {length= Some length} ->
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let length = Itv.plus (Itv.of_int_lit length) dyn_length in
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let v = Dom.Mem.find_set field_loc mem |> Dom.Val.set_array_size length in
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Dom.Mem.strong_update_heap field_loc v mem
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| _ ->
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set_dyn_length tenv field_typ field_loc dyn_length mem )
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| _ ->
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mem )
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| _ ->
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mem
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end
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module Check = struct
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let array_access ~arr ~idx ~idx_sym_exp ~relation ~is_plus pname location cond_set =
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let arr_blk = Dom.Val.get_array_blk arr in
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let arr_traces = Dom.Val.get_traces arr in
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let size = ArrayBlk.sizeof arr_blk in
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let size_sym_exp = Relation.SymExp.of_sym (Dom.Val.get_size_sym arr) in
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let offset = ArrayBlk.offsetof arr_blk in
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let offset_sym_exp = Relation.SymExp.of_sym (Dom.Val.get_offset_sym arr) in
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let idx_itv = Dom.Val.get_itv idx in
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let idx_traces = Dom.Val.get_traces idx in
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let idx_in_blk = (if is_plus then Itv.plus else Itv.minus) offset idx_itv in
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let idx_sym_exp =
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Option.map2 offset_sym_exp idx_sym_exp ~f:(fun offset_sym_exp idx_sym_exp ->
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let op = if is_plus then Relation.SymExp.plus else Relation.SymExp.minus in
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op idx_sym_exp offset_sym_exp )
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in
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L.(debug BufferOverrun Verbose) "@[<v 2>Add condition :@," ;
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L.(debug BufferOverrun Verbose) "array: %a@," ArrayBlk.pp arr_blk ;
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L.(debug BufferOverrun Verbose) " idx: %a@," Itv.pp idx_in_blk ;
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L.(debug BufferOverrun Verbose) "@]@." ;
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match (size, idx_in_blk) with
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| NonBottom size, NonBottom idx ->
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let traces = TraceSet.merge ~arr_traces ~idx_traces location in
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PO.ConditionSet.add_array_access pname location ~size ~idx ~size_sym_exp ~idx_sym_exp
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~relation traces cond_set
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| _ ->
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cond_set
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let lindex ~array_exp ~index_exp mem pname location cond_set =
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let arr = Sem.eval_arr array_exp mem in
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let idx = Sem.eval index_exp mem in
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let idx_sym_exp = Relation.SymExp.of_exp ~get_sym_f:(Sem.get_sym_f mem) index_exp in
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let relation = Dom.Mem.get_relation mem in
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array_access ~arr ~idx ~idx_sym_exp ~relation ~is_plus:true pname location cond_set
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end
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