package goblint
Static analysis framework for C
Install
dune-project
Dependency
Authors
Maintainers
Sources
goblint-2.6.0.tbz
sha256=20d5b7332a9f6072ab9ba86c4a53b898eaf681286c56a8805c41850bbf3ddf41
sha512=7c7685cfcd9aa866bc40e813df2bfcb3c79b3d40e615d8d6d0939c5798b9d70dd7f2ba87a741f5ba0ce891e9d254627207fb28057f1f2f6611e4e0d128fd6a71
doc/src/goblint.solver/td3UpdateRule.ml.html
Source file td3UpdateRule.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239(** Narrowing strategies for side-effects *) open Batteries open Goblint_constraint.ConstrSys open Messages module type S = functor (S:EqConstrSys) -> functor (HM:Hashtbl.S with type key = S.v) -> functor (VS:Set.S with type elt = S.v) -> sig type data type eq_wrapper = S.v -> ((S.v -> S.d -> unit) -> S.d) -> S.d val create_empty_data : unit -> data val copy_marshal: data -> data val relift_marshal: data -> data val register_start: data -> S.v -> S.d -> unit val get_wrapper: solve_widen:(S.v -> unit) -> init:(S.v -> unit) -> stable:unit HM.t -> data:data -> sides:VS.t HM.t -> add_sides: (S.v -> S.v -> unit) -> rho: S.d HM.t -> destabilize: (S.v -> unit) -> side: (?x:S.v -> S.v -> S.d -> unit) -> assert_can_receive_side: (S.v -> unit) -> eq_wrapper end (** Inactive *) module Inactive:S = functor (S:EqConstrSys) -> functor (HM:Hashtbl.S with type key = S.v) -> functor (VS:Set.S with type elt = S.v) -> struct type data = unit type eq_wrapper = S.v -> ((S.v -> S.d -> unit) -> S.d) -> S.d let create_empty_data () = () let copy_marshal _ = () let relift_marshal _ = () let register_start _ _ _ = () let get_wrapper ~solve_widen ~init ~stable ~data ~sides ~add_sides ~rho ~destabilize ~(side:?x:S.v -> S.v -> S.d -> unit) ~assert_can_receive_side = (fun x eqx -> eqx (side ~x)) end module Narrow:S = functor (S:EqConstrSys) -> functor (HM:Hashtbl.S with type key = S.v) -> functor (VS:Set.S with type elt = S.v) -> struct type divided_side_mode = D_Widen | D_Narrow | D_Box [@@deriving show] type data = { prev_sides: VS.t HM.t; divided_side_effects: ((S.Dom.t * (int * divided_side_mode) option) HM.t) HM.t; narrow_globs_start_values: S.Dom.t HM.t; } type eq_wrapper = S.v -> ((S.v -> S.d -> unit) -> S.d) -> S.d let create_empty_data () = let narrow_globs = GobConfig.get_bool "solvers.td3.narrow-globs.enabled" in { prev_sides = HM.create 10; divided_side_effects = HM.create (if narrow_globs then 10 else 0); narrow_globs_start_values = HM.create (if narrow_globs then 10 else 0); } let copy_marshal data = { prev_sides = HM.copy data.prev_sides; divided_side_effects = HM.map (fun k v -> HM.copy v) data.divided_side_effects; narrow_globs_start_values = HM.copy data.narrow_globs_start_values; } let relift_marshal data = let prev_sides = HM.create (HM.length data.prev_sides) in HM.iter (fun k v -> HM.replace prev_sides (S.Var.relift k) (VS.map S.Var.relift v) ) data.prev_sides; let divided_side_effects = HM.create (HM.length data.divided_side_effects) in HM.iter (fun k v -> let inner_copy = HM.create (HM.length v) in HM.iter (fun k (v, gas) -> HM.replace inner_copy (S.Var.relift k) ((S.Dom.relift v), gas)) v; HM.replace divided_side_effects (S.Var.relift k) inner_copy ) data.divided_side_effects; let narrow_globs_start_values = HM.create (HM.length data.narrow_globs_start_values) in HM.iter (fun k v -> HM.replace narrow_globs_start_values (S.Var.relift k) (S.Dom.relift v) ) data.narrow_globs_start_values; { prev_sides; divided_side_effects; narrow_globs_start_values; } let register_start data x d = HM.replace data.narrow_globs_start_values x d let narrow_globs_conservative_widen = GobConfig.get_bool "solvers.td3.narrow-globs.conservative-widen" let narrow_globs_immediate_growth = GobConfig.get_bool "solvers.td3.narrow-globs.immediate-growth" let narrow_globs_gas_default = GobConfig.get_int "solvers.td3.narrow-globs.narrow-gas" let narrow_globs_gas_default = if narrow_globs_gas_default < 0 then None else Some (narrow_globs_gas_default, D_Widen) let narrow_globs_eliminate_dead = GobConfig.get_bool "solvers.td3.narrow-globs.eliminate-dead" let get_wrapper ~solve_widen ~init ~stable ~data ~sides ~add_sides ~rho ~destabilize ~(side:?x:S.v -> S.v -> S.d -> unit) ~assert_can_receive_side = let eq_wrapper x eqx = let rec side_acc acc changed x y d:unit = let new_acc = match HM.find_option acc y with | Some acc -> if not @@ S.Dom.leq d acc then Some (S.Dom.join acc d) else None | None -> Some d in Option.may (fun new_acc -> HM.replace acc y new_acc; if narrow_globs_immediate_growth then ( let y_changed = divided_side D_Widen x y new_acc in if y_changed then HM.replace changed y (); ) ) new_acc; and divided_side (phase:divided_side_mode) x y d: bool = if tracing then trace "side" "divided side to %a from %a ## value: %a" S.Var.pretty_trace y S.Var.pretty_trace x S.Dom.pretty d; if tracing then trace "sol2" "divided side to %a from %a ## value: %a" S.Var.pretty_trace y S.Var.pretty_trace x S.Dom.pretty d; assert_can_receive_side y; init y; if tracing then trace "sol2" "stable add %a" S.Var.pretty_trace y; HM.replace stable y (); let sided = GobOption.exists (VS.mem x) (HM.find_option sides y) in if not sided then add_sides y x; if not (HM.mem data.divided_side_effects y) then HM.replace data.divided_side_effects y (HM.create 10); let y_sides = HM.find data.divided_side_effects y in let (old_side, narrow_gas) = HM.find_default y_sides x (S.Dom.bot (), narrow_globs_gas_default) in let phase = if phase = D_Box then if S.Dom.leq d old_side then D_Narrow else D_Widen else phase in if not (phase = D_Narrow && narrow_gas = Some (0, D_Widen)) then ( let (new_side, narrow_gas) = match phase with | D_Widen -> let tmp = S.Dom.join old_side d in if not @@ S.Dom.equal tmp old_side then let new_side = if narrow_globs_conservative_widen && S.Dom.leq tmp (HM.find rho y) then tmp else S.Dom.widen old_side tmp in let new_gas = Option.map (fun (x, _) -> (x, D_Widen)) narrow_gas in (new_side, new_gas) else (old_side, narrow_gas) | D_Narrow -> let result = S.Dom.narrow old_side d in let narrow_gas = if not @@ S.Dom.equal result old_side then Option.map (fun (gas, phase) -> if phase = D_Widen then (gas - 1, D_Narrow) else (gas, phase)) narrow_gas else narrow_gas in (result, narrow_gas) | _ -> failwith "unreachable" (* handled above *) in if not (S.Dom.equal old_side new_side) then ( if tracing then trace "side" "divided side to %a from %a changed (phase: %s) Old value: %a ## New value: %a" S.Var.pretty_trace y S.Var.pretty_trace x (show_divided_side_mode phase) S.Dom.pretty old_side S.Dom.pretty new_side; if S.Dom.is_bot new_side && narrow_gas = None then HM.remove y_sides x else HM.replace y_sides x (new_side, narrow_gas); let combined_side y = let contribs = HM.find_option data.divided_side_effects y in let join map = HM.fold (fun _ (value, _) acc -> S.Dom.join acc value) map (S.Dom.bot ()) in let combined = Option.map_default join (S.Dom.bot ()) contribs in let start_value = HM.find_default data.narrow_globs_start_values y (S.Dom.bot()) in S.Dom.join combined start_value in let y_oldval = HM.find rho y in let y_newval = if S.Dom.leq old_side new_side then (* If new side is strictly greater than the old one, the value of y can only increase. *) S.Dom.join y_oldval new_side else combined_side y in if not (S.Dom.equal y_newval y_oldval) then ( if tracing then trace "side" "value of %a changed by side from %a (phase: %s) Old value: %a ## New value: %a" S.Var.pretty_trace y S.Var.pretty_trace x (show_divided_side_mode phase) S.Dom.pretty y_oldval S.Dom.pretty y_newval; HM.replace rho y y_newval; destabilize y; ); true ) else false ) else false in let acc = HM.create 0 in let changed = HM.create 0 in Fun.protect ~finally:(fun () -> ( if narrow_globs_eliminate_dead then begin let prev_sides_x = HM.find_option data.prev_sides x in Option.may (VS.iter (fun y -> if not @@ HM.mem acc y then begin ignore @@ divided_side D_Narrow x y (S.Dom.bot ()); if S.Dom.is_bot @@ HM.find rho y then let casualties = S.postmortem y in List.iter solve_widen casualties end; )) prev_sides_x; let new_sides = HM.fold (fun k _ acc -> VS.add k acc) acc VS.empty in if VS.is_empty new_sides then HM.remove data.prev_sides x else HM.replace data.prev_sides x new_sides; end; if narrow_globs_immediate_growth then HM.iter (fun y acc -> if not @@ HM.mem changed y then ignore @@ divided_side D_Narrow x y acc) acc else ( HM.iter (fun y acc -> ignore @@ divided_side D_Box x y acc) acc ) )) (fun () -> eqx (side_acc acc changed x)) in (eq_wrapper: eq_wrapper) end let choose () = if GobConfig.get_bool "solvers.td3.narrow-globs.enabled" then (module Narrow : S) else (module Inactive : S)