[sledge] Update exp

Reviewed By: mbouaziz, ngorogiannis

Differential Revision: D9846743

fbshipit-source-id: c293970c7
master
Josh Berdine 6 years ago committed by Facebook Github Bot
parent 742b181282
commit 392f596b02

File diff suppressed because it is too large Load Diff

@ -10,48 +10,34 @@
Pure (heap-independent) expressions are complex arithmetic,
bitwise-logical, etc. operations over literal values and registers.
Expressions are represented in curried form, where the only recursive
Expressions are represented in curried form, where the only recursive
constructor is [App], which is an application of a function symbol to an
argument. This is done to simplify the definition of 'subexpression' and
make it explicit, which is a significant help for treating equality
between expressions using congruence closure. The specific constructor
functions indicate and check the expected arity and types of the
function symbols. *)
functions indicate and check the expected arity of the function symbols.
[] [Struct_rec] is also a recursive constructor, but its values are
treated as atomic since, as they are recursive, doing otherwise would
require inductive reasoning. *)
type t = private
| Var of {name: string; typ: Typ.t; loc: Loc.t}
(** Local variable / virtual register *)
| Global of {name: string; init: t option; typ: Typ.t; loc: Loc.t}
(** Global variable, with initalizer *)
| Nondet of {typ: Typ.t; loc: Loc.t; msg: string}
| Var of {id: int; name: string} (** Local variable / virtual register *)
| Nondet of {msg: string}
(** Anonymous local variable with arbitrary value, representing
non-deterministic approximation of value described by [msg]. *)
| Label of {parent: string; name: string; loc: Loc.t}
non-deterministic approximation of value described by [msg] *)
| Label of {parent: string; name: string}
(** Address of named code block within parent function *)
| Null of {typ: Typ.t}
(** Pointer value that never refers to an object *)
| App of {op: t; arg: t; loc: Loc.t}
| App of {op: t; arg: t}
(** Application of function symbol to argument, curried *)
| AppN of {op: t; args: t vector; loc: Loc.t}
(** Application of function symbol to arguments. NOTE: may be cyclic
when [op] is [Struct]. *)
| PtrFld of {fld: int} (** Pointer to a field of a struct *)
| PtrIdx (** Pointer to an index of an array *)
| PrjFld of {fld: int} (** Project a field from a constant struct *)
| PrjIdx (** Project an index from a constant array *)
| UpdFld of {fld: int} (** Constant struct with updated field *)
| UpdIdx (** Constant array with updated index *)
| Integer of {data: Z.t; typ: Typ.t} (** Integer constant *)
| Float of {data: string; typ: Typ.t} (** Floating-point constant *)
| Array of {typ: Typ.t} (** Array constant *)
| Struct of {typ: Typ.t} (** Struct constant *)
| Cast of {typ: Typ.t} (** Cast to specified type, invertible *)
| Conv of {signed: bool; typ: Typ.t}
(** Convert to specified type, possibly with loss of information *)
| Select (** Conditional *)
(* binary: comparison *)
| Null (** Pointer value that never refers to an object *)
| Splat (** Iterated concatenation of a single byte *)
| Memory (** Size-tagged byte-array *)
| Concat (** Byte-array concatenation *)
| Integer of {data: Z.t} (** Integer constant *)
| Float of {data: string} (** Floating-point constant *)
| Eq (** Equal test *)
| Ne (** Not-equal test *)
| Dq (** Disequal test *)
| Gt (** Greater-than test *)
| Ge (** Greater-than-or-equal test *)
| Lt (** Less-than test *)
@ -62,194 +48,151 @@ type t = private
| Ule (** Unordered or less-than-or-equal test *)
| Ord (** Ordered test (neither arg is nan) *)
| Uno (** Unordered test (some arg is nan) *)
(* binary: boolean / bitwise *)
| And (** Conjunction *)
| Or (** Disjunction *)
| Xor (** Exclusive-or / Boolean disequality *)
| Shl (** Shift left *)
| LShr (** Logical shift right *)
| AShr (** Arithmetic shift right *)
(* binary: arithmetic *)
| Add (** Addition *)
| Sub (** Subtraction *)
| Mul (** Multiplication *)
| Div (** Division *)
| UDiv (** Unsigned division *)
| Udiv (** Unsigned division *)
| Rem (** Remainder of division *)
| URem (** Remainder of unsigned division *)
| Urem (** Remainder of unsigned division *)
| And (** Conjunction *)
| Or (** Disjunction *)
| Xor (** Exclusive-or / Boolean disequality *)
| Shl (** Shift left *)
| Lshr (** Logical shift right *)
| Ashr (** Arithmetic shift right *)
| Conditional (** If-then-else *)
| Record (** Record (array / struct) constant *)
| Select (** Select an index from a record *)
| Update (** Constant record with updated index *)
| Struct_rec of {elts: t vector}
(** Struct constant that may recursively refer to itself
(transitively) from [elts]. NOTE: represented by cyclic values. *)
| Convert of {signed: bool; dst: Typ.t; src: Typ.t}
(** Convert between specified types, possibly with loss of information *)
[@@deriving compare, hash, sexp]
type exp = t
val compare : t -> t -> int
include Comparator.S with type t := t
val equal : t -> t -> bool
val pp : t pp
val invariant : ?partial:bool -> t -> unit
val t_of_sexp : Sexp.t -> t
val sexp_of_t : t -> Sexp.t
val fmt : t fmt
(** Re-exported modules *)
(** Exp.Var is re-exported as Var *)
module Var : sig
type nonrec t = private t
type t = private exp [@@deriving compare, hash, sexp]
type var = t
include Comparator.S with type t := t
val compare : t -> t -> int
val equal : t -> t -> bool
val t_of_sexp : Sexp.t -> t
val sexp_of_t : t -> Sexp.t
val fmt : t fmt
val mk : ?loc:Loc.t -> string -> Typ.t -> t
val name : t -> string
val typ : t -> Typ.t
module Set : sig
type t = (var, comparator_witness) Set.t [@@deriving compare, sexp]
val loc : t -> Loc.t
val pp : t pp
val empty : t
val of_vector : var vector -> t
end
module Global : sig
type init = t
type nonrec t = private t
include Comparator.S with type t := t
val compare : t -> t -> int
val equal : t -> t -> bool
val pp : t pp
val t_of_sexp : Sexp.t -> t
val sexp_of_t : t -> Sexp.t
val hash : t -> int
val fmt : t fmt
val fmt_defn : t fmt
val mk : ?init:init -> ?loc:Loc.t -> string -> Typ.t -> t
val of_exp : init -> t option
include Invariant.S with type t := t
val of_exp : exp -> t option
val program : string -> t
val fresh : string -> wrt:Set.t -> t * Set.t
val id : t -> int
val name : t -> string
val typ : t -> Typ.t
val loc : t -> Loc.t
module Subst : sig
type t [@@deriving compare, sexp]
val pp : t pp
val empty : t
val freshen : Set.t -> wrt:Set.t -> t
val extend : t -> replace:var -> with_:var -> t
val invert : t -> t
val exclude : t -> Set.t -> t
val is_empty : t -> bool
val domain : t -> Set.t
val range : t -> Set.t
val apply_set : t -> Set.t -> Set.t
val close_set : t -> Set.t -> Set.t
end
end
(** Constructors *)
val mkVar : Var.t -> t
val mkGlobal : Global.t -> t
val mkNondet : Typ.t -> string -> t
val mkLabel : parent:string -> name:string -> t
val mkNull : Typ.t -> t
val mkPtrFld : ptr:t -> fld:int -> t
val mkPtrIdx : ptr:t -> idx:t -> t
val mkPrjFld : agg:t -> fld:int -> t
val mkPrjIdx : arr:t -> idx:t -> t
val mkUpdFld : agg:t -> elt:t -> fld:int -> t
val mkUpdIdx : arr:t -> elt:t -> idx:t -> t
val mkBool : bool -> t
val mkInteger : Z.t -> Typ.t -> t
val mkFloat : string -> Typ.t -> t
val mkArray : t vector -> Typ.t -> t
val mkStruct : t vector -> Typ.t -> t
val mkStruct_rec :
(module Hashtbl.Key_plain with type t = 'id)
-> (id:'id -> t lazy_t vector -> Typ.t -> t) Staged.t
(** [mkStruct_rec Id id element_thunks typ] constructs a possibly-cyclic
[Struct] value. Cycles are detected using [Id]. The caller of
[mkStruct_rec Id] must ensure that a single unstaging of [mkStruct_rec
Id] is used for each complete cyclic value. Also, the caller must ensure
that recursive calls to [mkStruct_rec Id] provide [id] values that
uniquely identify at least one point on each cycle. Failure to obey
these requirements will lead to stack overflow. *)
val mkCast : t -> Typ.t -> t
val mkConv : t -> ?signed:bool -> Typ.t -> t
val mkSelect : cnd:t -> thn:t -> els:t -> t
val mkEq : t -> t -> t
val mkNe : t -> t -> t
val mkGt : t -> t -> t
val mkGe : t -> t -> t
val mkLt : t -> t -> t
val mkLe : t -> t -> t
val mkUgt : t -> t -> t
val mkUge : t -> t -> t
val mkUlt : t -> t -> t
val mkUle : t -> t -> t
val mkOrd : t -> t -> t
val mkUno : t -> t -> t
val mkAnd : t -> t -> t
val mkOr : t -> t -> t
val mkXor : t -> t -> t
val mkShl : t -> t -> t
val mkLShr : t -> t -> t
val mkAShr : t -> t -> t
val mkAdd : t -> t -> t
val mkSub : t -> t -> t
val mkMul : t -> t -> t
val mkDiv : t -> t -> t
val mkUDiv : t -> t -> t
val mkRem : t -> t -> t
val mkURem : t -> t -> t
val locate : Loc.t -> t -> t
(** Update the debug location *)
(** Queries *)
val typ : t -> Typ.t
(** Construct *)
val var : Var.t -> t
val nondet : string -> t
val label : parent:string -> name:string -> t
val null : t
val splat : byt:t -> siz:t -> t
val memory : siz:t -> arr:t -> t
val concat : t -> t -> t
val bool : bool -> t
val integer : Z.t -> t
val float : string -> t
val eq : t -> t -> t
val dq : t -> t -> t
val gt : t -> t -> t
val ge : t -> t -> t
val lt : t -> t -> t
val le : t -> t -> t
val ugt : t -> t -> t
val uge : t -> t -> t
val ult : t -> t -> t
val ule : t -> t -> t
val ord : t -> t -> t
val uno : t -> t -> t
val add : t -> t -> t
val sub : t -> t -> t
val mul : t -> t -> t
val div : t -> t -> t
val udiv : t -> t -> t
val rem : t -> t -> t
val urem : t -> t -> t
val and_ : t -> t -> t
val or_ : t -> t -> t
val xor : t -> t -> t
val shl : t -> t -> t
val lshr : t -> t -> t
val ashr : t -> t -> t
val conditional : cnd:t -> thn:t -> els:t -> t
val record : t list -> t
val select : rcd:t -> idx:t -> t
val update : rcd:t -> elt:t -> idx:t -> t
val struct_rec :
(module Hashtbl.Key with type t = 'id)
-> (id:'id -> t lazy_t vector -> t) Staged.t
(** [struct_rec Id id element_thunks] constructs a possibly-cyclic [Struct]
value. Cycles are detected using [Id]. The caller of [struct_rec Id]
must ensure that a single unstaging of [struct_rec Id] is used for each
complete cyclic value. Also, the caller must ensure that recursive calls
to [struct_rec Id] provide [id] values that uniquely identify at least
one point on each cycle. Failure to obey these requirements will lead to
stack overflow. *)
val convert : ?signed:bool -> dst:Typ.t -> src:Typ.t -> t -> t
(** Access *)
val fold_vars : t -> init:'a -> f:('a -> Var.t -> 'a) -> 'a
val fold_exps : t -> init:'a -> f:('a -> t -> 'a) -> 'a
val fold : t -> init:'a -> f:('a -> t -> 'a) -> 'a
val fold_map : t -> init:'a -> f:('a -> t -> 'a * t) -> 'a * t
val map : t -> f:(t -> t) -> t
(** Update *)
val rename : t -> Var.Subst.t -> t
(** Query *)
val fv : t -> Var.Set.t
val is_true : t -> bool
val is_false : t -> bool
val is_constant : t -> bool

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