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(*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
open! IStd
module F = Format
(** mocks for creating CFG's from adjacency lists *)
module MockNode = struct
type t = int
type id = int
let hash = Hashtbl.hash
let id n = n
let loc _ = assert false
let underlying_node _ = assert false
let of_underlying_node _ = assert false
let kind _ = Procdesc.Node.Stmt_node (Skip "")
let compare_id = Int.compare
let pp_id fmt i = F.pp_print_int fmt i
module OrderedId = struct
type t = id [@@deriving compare]
let pp = pp_id
end
module IdMap = PrettyPrintable.MakePPMap (OrderedId)
module IdSet = PrettyPrintable.MakePPSet (OrderedId)
end
module MockProcCfg = struct
module Node = MockNode
type t = (Node.t * Node.t list) list
type instrs_dir = Instrs.not_reversed
let instrs _ = Instrs.empty
let equal_id = Int.equal
let fold_succs t n ~init ~f =
let node_id = Node.id n in
List.find ~f:(fun (node, _) -> equal_id (Node.id node) node_id) t
|> Option.value_map ~f:snd ~default:[]
|> List.fold ~init ~f
let fold_preds t n ~init ~f =
try
let node_id = Node.id n in
List.filter
~f:(fun (_, succs) -> List.exists ~f:(fun node -> equal_id (Node.id node) node_id) succs)
t
|> List.map ~f:fst |> List.fold ~init ~f
with Not_found_s _ | Caml.Not_found -> init
let fold_nodes t ~init ~f = List.map ~f:fst t |> List.fold ~init ~f
let fold_normal_succs = fold_succs
let fold_normal_preds = fold_preds
let fold_exceptional_succs _ _ ~init ~f:_ = init
let fold_exceptional_preds _ _ ~init ~f:_ = init
let from_adjacency_list t = t
let start_node _ = 1
let exit_node _ = assert false
let proc_desc _ = assert false
let from_pdesc _ = assert false
let is_loop_head _ = assert false
module WTO = WeakTopologicalOrder.Bourdoncle_SCC (struct
module Node = Node
type nonrec t = t
let fold_succs = fold_succs
let start_node = start_node
end)
let wto = WTO.make
end
module S = Scheduler.ReversePostorder (MockProcCfg)
let create_test test_graph expected_result _ =
(* keep popping and scheduling until the queue is empty, record the results *)
let rec pop_schedule_record q visited_acc =
match S.pop q with
| Some (n, _, q') ->
pop_schedule_record (S.schedule_succs q' n) (n :: visited_acc)
| None ->
List.rev visited_acc
in
let pp_diff fmt (exp, actual) =
let pp_sched fmt l = F.pp_print_list ~pp_sep:F.pp_print_space F.pp_print_int fmt l in
F.fprintf fmt "Expected schedule %a but got schedule %a" pp_sched exp pp_sched actual
in
let cfg = MockProcCfg.from_adjacency_list test_graph in
let q = S.schedule_succs (S.empty cfg) 1 in
let result = pop_schedule_record q [1] in
OUnit2.assert_equal ~pp_diff result expected_result
let inputs =
[ ("straightline", [(1, [2]); (2, [3]); (3, [4])], [1; 2; 3; 4], "1 2 3 4")
; ("if_then_else", [(1, [2; 3]); (2, [4]); (3, [4]); (4, [5])], [1; 2; 3; 4; 5], "1 2 3 4 5")
; ("if_then", [(1, [2; 4]); (2, [3]); (3, [4]); (4, [5])], [1; 2; 3; 4; 5], "1 2 3 4 5")
; ( "diamond"
, [(1, [2; 3]); (2, [4]); (3, [4]); (4, [5; 6]); (5, [7]); (6, [7]); (7, [8])]
, [1; 2; 3; 4; 5; 6; 7; 8]
, "1 2 3 4 5 6 7 8" )
; ( "switch"
, [(1, [2; 3; 4; 5]); (2, [6]); (3, [6]); (4, [6]); (5, [6]); (6, [7])]
, [1; 2; 3; 4; 5; 6; 7]
, "1 2 3 4 5 6 7" )
; ( "nums_order_irrelevant"
, [(11, [10]); (1, [7; 2]); (2, [3; 11]); (7, [11]); (3, [7])]
, [1; 2; 3; 7; 11; 10]
, "1 2 3 7 11 10" ) ]
let tests =
let open OUnit2 in
let test_list =
inputs |> List.map ~f:(fun (name, test, expected, _wto) -> name >:: create_test test expected)
in
"scheduler_suite" >::: test_list