[inferbo] Move Split modules to next of StdVector

Reviewed By: ezgicicek

Differential Revision: D19942997

fbshipit-source-id: 8a8ea3bf6
master
Sungkeun Cho 5 years ago committed by Facebook Github Bot
parent 35491c73a8
commit 23ee36e44e

@ -473,44 +473,6 @@ module CFArray = struct
{exec; check= no_check} {exec; check= no_check}
end end
module Split = struct
let std_vector ~adds_at_least_one {exp= vector_exp; typ= vector_typ} location mem =
let increment = if adds_at_least_one then Dom.Val.Itv.pos else Dom.Val.Itv.nat in
let vector_type_name = Option.value_exn (vector_typ |> Typ.strip_ptr |> Typ.name) in
let size_field = Fieldname.make vector_type_name "infer_size" in
let vector_size_locs = Sem.eval_locs vector_exp mem |> PowLoc.append_field ~fn:size_field in
let f_trace _ traces = Trace.(Set.add_elem location (through ~risky_fun:None)) traces in
Dom.Mem.transform_mem ~f:(Dom.Val.plus_a ~f_trace increment) vector_size_locs mem
end
module Boost = struct
module Split = struct
let std_vector vector_arg =
let exec {location} ~ret:_ mem =
Split.std_vector ~adds_at_least_one:true vector_arg location mem
in
{exec; check= no_check}
end
end
module Folly = struct
module Split = struct
let std_vector vector_arg ignore_empty_opt =
let exec {location; integer_type_widths} ~ret:_ mem =
let adds_at_least_one =
match ignore_empty_opt with
| Some ignore_empty_exp ->
Sem.eval integer_type_widths ignore_empty_exp mem |> Dom.Val.get_itv |> Itv.is_false
| None ->
(* default: ignore_empty is false *)
true
in
Split.std_vector ~adds_at_least_one vector_arg location mem
in
{exec; check= no_check}
end
end
module StdArray = struct module StdArray = struct
let constructor _size = let constructor _size =
let exec _model_env ~ret:_ mem = mem (* initialize? *) in let exec _model_env ~ret:_ mem = mem (* initialize? *) in
@ -711,6 +673,44 @@ module StdVector = struct
{exec; check= no_check} {exec; check= no_check}
end end
module Split = struct
let std_vector ~adds_at_least_one {exp= vector_exp; typ= vector_typ} location mem =
let increment = if adds_at_least_one then Dom.Val.Itv.pos else Dom.Val.Itv.nat in
let vector_type_name = Option.value_exn (vector_typ |> Typ.strip_ptr |> Typ.name) in
let size_field = Fieldname.make vector_type_name "infer_size" in
let vector_size_locs = Sem.eval_locs vector_exp mem |> PowLoc.append_field ~fn:size_field in
let f_trace _ traces = Trace.(Set.add_elem location (through ~risky_fun:None)) traces in
Dom.Mem.transform_mem ~f:(Dom.Val.plus_a ~f_trace increment) vector_size_locs mem
end
module Boost = struct
module Split = struct
let std_vector vector_arg =
let exec {location} ~ret:_ mem =
Split.std_vector ~adds_at_least_one:true vector_arg location mem
in
{exec; check= no_check}
end
end
module Folly = struct
module Split = struct
let std_vector vector_arg ignore_empty_opt =
let exec {location; integer_type_widths} ~ret:_ mem =
let adds_at_least_one =
match ignore_empty_opt with
| Some ignore_empty_exp ->
Sem.eval integer_type_widths ignore_empty_exp mem |> Dom.Val.get_itv |> Itv.is_false
| None ->
(* default: ignore_empty is false *)
true
in
Split.std_vector ~adds_at_least_one vector_arg location mem
in
{exec; check= no_check}
end
end
module StdBasicString = struct module StdBasicString = struct
let constructor_from_char_ptr char_typ {exp= tgt_exp; typ= tgt_typ} src ~len_opt = let constructor_from_char_ptr char_typ {exp= tgt_exp; typ= tgt_typ} src ~len_opt =
let exec ({pname; node_hash} as model_env) ~ret mem = let exec ({pname; node_hash} as model_env) ~ret mem =

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