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(*
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* Copyright (c) Facebook, Inc. and its affiliates.
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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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(** Terms
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Pure (heap-independent) terms are arithmetic, bitwise-logical, etc.
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operations over literal values and variables. *)
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type op1 =
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[sledge] Simplify type conversions
Summary:
The treatment of type conversions is too complicated, non-uniform,
etc. This diff attempts to simplify things by separating integer to
integer conversions, which are interpreted, from others, which are
essentially just uninterpreted functions. Integer conversions are now
handled using two expression and term forms: Signed and
Unsigned. These each interpret their argument as either a signed or
unsigned number of a given bitwidth:
```
| Signed of {bits: int}
(** [Ap1 (Signed {bits= n}, dst, arg)] is [arg] interpreted as an
[n]-bit signed integer and injected into the [dst] type. That is,
it two's-complement--decodes the low [n] bits of the infinite
two's-complement encoding of [arg]. The injection into [dst] is a
no-op, so [dst] must be an integer type with bitwidth at least
[n]. *)
| Unsigned of {bits: int}
(** [Ap1 (Unsigned {bits= n}, dst, arg)] is [arg] interpreted as an
[n]-bit unsigned integer and injected into the [dst] type. That
is, it unsigned-binary--decodes the low [n] bits of the infinite
two's-complement encoding of [arg]. The injection into [dst] is a
no-op, so [dst] must be an integer type with bitwidth greater than
[n]. *)
| Convert of {src: Typ.t}
(** [Ap1 (Convert {src}, dst, arg)] is [arg] converted from type [src]
to type [dst], possibly with loss of information. The [src] and
[dst] types must be [Typ.convertible] and must not both be
[Integer] types. *)
```
Reviewed By: ngorogiannis
Differential Revision: D18298140
fbshipit-source-id: 690f065b4
5 years ago
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| Signed of {bits: int}
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(** [Ap1 (Signed {bits= n}, arg)] is [arg] interpreted as an [n]-bit
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signed integer. That is, it two's-complement--decodes the low [n]
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bits of the infinite two's-complement encoding of [arg]. *)
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| Unsigned of {bits: int}
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(** [Ap1 (Unsigned {bits= n}, arg)] is [arg] interpreted as an
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[n]-bit unsigned integer. That is, it unsigned-binary--decodes the
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low [n] bits of the infinite two's-complement encoding of [arg]. *)
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[sledge] Simplify type conversions
Summary:
The treatment of type conversions is too complicated, non-uniform,
etc. This diff attempts to simplify things by separating integer to
integer conversions, which are interpreted, from others, which are
essentially just uninterpreted functions. Integer conversions are now
handled using two expression and term forms: Signed and
Unsigned. These each interpret their argument as either a signed or
unsigned number of a given bitwidth:
```
| Signed of {bits: int}
(** [Ap1 (Signed {bits= n}, dst, arg)] is [arg] interpreted as an
[n]-bit signed integer and injected into the [dst] type. That is,
it two's-complement--decodes the low [n] bits of the infinite
two's-complement encoding of [arg]. The injection into [dst] is a
no-op, so [dst] must be an integer type with bitwidth at least
[n]. *)
| Unsigned of {bits: int}
(** [Ap1 (Unsigned {bits= n}, dst, arg)] is [arg] interpreted as an
[n]-bit unsigned integer and injected into the [dst] type. That
is, it unsigned-binary--decodes the low [n] bits of the infinite
two's-complement encoding of [arg]. The injection into [dst] is a
no-op, so [dst] must be an integer type with bitwidth greater than
[n]. *)
| Convert of {src: Typ.t}
(** [Ap1 (Convert {src}, dst, arg)] is [arg] converted from type [src]
to type [dst], possibly with loss of information. The [src] and
[dst] types must be [Typ.convertible] and must not both be
[Integer] types. *)
```
Reviewed By: ngorogiannis
Differential Revision: D18298140
fbshipit-source-id: 690f065b4
5 years ago
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| Convert of {src: Typ.t; dst: Typ.t}
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(** [Ap1 (Convert {src; dst}, arg)] is [arg] converted from type [src]
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to type [dst], possibly with loss of information. The [src] and
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[dst] types must be [Typ.convertible] and must not both be
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[Integer] types. *)
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| Splat (** Iterated concatenation of a single byte *)
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| Select of int (** Select an index from a record *)
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[@@deriving compare, equal, hash, sexp]
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type op2 =
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| Eq (** Equal test *)
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| Dq (** Disequal test *)
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| Lt (** Less-than test *)
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| Le (** Less-than-or-equal test *)
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| Ord (** Ordered test (neither arg is nan) *)
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| Uno (** Unordered test (some arg is nan) *)
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| Div (** Division *)
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| Rem (** Remainder of division *)
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| And (** Conjunction, boolean or bitwise *)
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| Or (** Disjunction, boolean or bitwise *)
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| Xor (** Exclusive-or, bitwise *)
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| Shl (** Shift left, bitwise *)
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| Lshr (** Logical shift right, bitwise *)
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| Ashr (** Arithmetic shift right, bitwise *)
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| Memory (** Size-tagged byte-array *)
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| Update of int (** Constant record with updated index *)
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[@@deriving compare, equal, hash, sexp]
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type op3 =
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| Conditional (** If-then-else *)
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| Extract (** Extract a slice of an aggregate value *)
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[@@deriving compare, equal, hash, sexp]
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type opN =
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| Concat (** Byte-array concatenation *)
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| Record (** Record (array / struct) constant *)
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[@@deriving compare, equal, hash, sexp]
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type recN = Record (** Recursive record (array / struct) constant *)
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[@@deriving compare, equal, hash, sexp]
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module rec Qset : sig
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include Import.Qset.S with type elt := T.t
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val hash_fold_t : t Hash.folder
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val t_of_sexp : Sexp.t -> t
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end
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and T : sig
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type qset = Qset.t [@@deriving compare, equal, hash, sexp]
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and t = private
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| Add of qset (** Sum of terms with rational coefficients *)
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| Mul of qset (** Product of terms with rational exponents *)
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| Var of {id: int; name: string}
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(** Local variable / virtual register *)
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| Ap1 of op1 * t (** Unary application *)
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| Ap2 of op2 * t * t (** Binary application *)
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| Ap3 of op3 * t * t * t (** Ternary application *)
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| ApN of opN * t iarray (** N-ary application *)
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| RecN of recN * t iarray
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(** Recursive n-ary application, may recursively refer to itself
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(transitively) from its args. NOTE: represented by cyclic
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values. *)
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| Label of {parent: string; name: string}
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(** Address of named code block within parent function *)
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| Nondet of {msg: string}
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(** Anonymous local variable with arbitrary value, representing
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non-deterministic approximation of value described by [msg] *)
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| Float of {data: string} (** Floating-point constant *)
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| Integer of {data: Z.t} (** Integer constant *)
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[@@deriving compare, equal, hash, sexp]
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end
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include module type of T with type t = T.t
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(** Term.Var is re-exported as Var *)
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module Var : sig
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type term := t
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type t = private term [@@deriving compare, equal, hash, sexp]
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type strength = t -> [`Universal | `Existential | `Anonymous] option
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module Map : Map.S with type key := t
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module Set : sig
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include Set.S with type elt := t
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val sexp_of_t : t -> Sexp.t
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val t_of_sexp : Sexp.t -> t
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val ppx : strength -> t pp
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val pp : t pp
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val pp_xs : t pp
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end
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val pp : t pp
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include Invariant.S with type t := t
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val name : t -> string
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val is_global : t -> bool
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val of_ : term -> t
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val of_term : term -> t option
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val program : ?global:unit -> string -> t
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val fresh : string -> wrt:Set.t -> t * Set.t
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module Subst : sig
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type var := t
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type t [@@deriving compare, equal, sexp]
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val pp : t pp
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val empty : t
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val freshen : Set.t -> wrt:Set.t -> t
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val invert : t -> t
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val restrict : t -> Set.t -> t
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val is_empty : t -> bool
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val domain : t -> Set.t
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val range : t -> Set.t
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val apply_set : t -> Set.t -> Set.t
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val fold : t -> init:'a -> f:(var -> var -> 'a -> 'a) -> 'a
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end
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end
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module Map : Map.S with type key := t
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val ppx : Var.strength -> t pp
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val pp : t pp
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val pp_diff : (t * t) pp
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val invariant : t -> unit
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(** Construct *)
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(* variables *)
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val var : Var.t -> t
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(* constants *)
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val nondet : string -> t
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val label : parent:string -> name:string -> t
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val null : t
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val bool : bool -> t
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val true_ : t
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val false_ : t
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val integer : Z.t -> t
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val zero : t
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val one : t
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val minus_one : t
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val rational : Q.t -> t
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val float : string -> t
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(* type conversions *)
|
[sledge] Simplify type conversions
Summary:
The treatment of type conversions is too complicated, non-uniform,
etc. This diff attempts to simplify things by separating integer to
integer conversions, which are interpreted, from others, which are
essentially just uninterpreted functions. Integer conversions are now
handled using two expression and term forms: Signed and
Unsigned. These each interpret their argument as either a signed or
unsigned number of a given bitwidth:
```
| Signed of {bits: int}
(** [Ap1 (Signed {bits= n}, dst, arg)] is [arg] interpreted as an
[n]-bit signed integer and injected into the [dst] type. That is,
it two's-complement--decodes the low [n] bits of the infinite
two's-complement encoding of [arg]. The injection into [dst] is a
no-op, so [dst] must be an integer type with bitwidth at least
[n]. *)
| Unsigned of {bits: int}
(** [Ap1 (Unsigned {bits= n}, dst, arg)] is [arg] interpreted as an
[n]-bit unsigned integer and injected into the [dst] type. That
is, it unsigned-binary--decodes the low [n] bits of the infinite
two's-complement encoding of [arg]. The injection into [dst] is a
no-op, so [dst] must be an integer type with bitwidth greater than
[n]. *)
| Convert of {src: Typ.t}
(** [Ap1 (Convert {src}, dst, arg)] is [arg] converted from type [src]
to type [dst], possibly with loss of information. The [src] and
[dst] types must be [Typ.convertible] and must not both be
[Integer] types. *)
```
Reviewed By: ngorogiannis
Differential Revision: D18298140
fbshipit-source-id: 690f065b4
5 years ago
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val signed : int -> t -> t
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val unsigned : int -> t -> t
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val convert : Typ.t -> to_:Typ.t -> t -> t
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(* comparisons *)
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val eq : t -> t -> t
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val dq : t -> t -> t
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val lt : t -> t -> t
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val le : t -> t -> t
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val ord : t -> t -> t
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val uno : t -> t -> t
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(* arithmetic *)
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val neg : t -> t
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val add : t -> t -> t
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val sub : t -> t -> t
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val mul : t -> t -> t
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val div : t -> t -> t
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val rem : t -> t -> t
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(* boolean / bitwise *)
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val and_ : t -> t -> t
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val or_ : t -> t -> t
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val not_ : t -> t
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(* bitwise *)
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val xor : t -> t -> t
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val shl : t -> t -> t
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val lshr : t -> t -> t
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val ashr : t -> t -> t
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(* if-then-else *)
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val conditional : cnd:t -> thn:t -> els:t -> t
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(* aggregate sizes *)
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val agg_size_exn : t -> t
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val agg_size : t -> t option
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(* aggregates (memory contents) *)
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val splat : t -> t
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val memory : siz:t -> arr:t -> t
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val extract : agg:t -> off:t -> len:t -> t
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val concat : t array -> t
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val eq_concat : t * t -> (t * t) array -> t
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(* records (struct / array values) *)
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val record : t iarray -> t
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val select : rcd:t -> idx:int -> t
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val update : rcd:t -> idx:int -> elt:t -> t
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(* recursive n-ary application *)
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val rec_app :
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(module Hashtbl.Key.S with type t = 'id)
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-> id:'id
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-> recN
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-> t lazy_t iarray
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-> t
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val size_of : Typ.t -> t
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(** Transform *)
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val map : t -> f:(t -> t) -> t
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val rename : Var.Subst.t -> t -> t
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(** Traverse *)
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val iter : t -> f:(t -> unit) -> unit
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val exists : t -> f:(t -> bool) -> bool
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val fold : t -> init:'a -> f:(t -> 'a -> 'a) -> 'a
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val fold_vars : t -> init:'a -> f:('a -> Var.t -> 'a) -> 'a
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val fold_terms : t -> init:'a -> f:('a -> t -> 'a) -> 'a
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(** Query *)
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val fv : t -> Var.Set.t
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val is_true : t -> bool
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val is_false : t -> bool
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(** Solve *)
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val solve_zero_eq : ?for_:t -> t -> (t * t) option
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(** [solve_zero_eq d] is [Some (e, f)] if [d = 0] can be equivalently
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expressed as [e = f] for some monomial subterm [e] of [d]. If [for_] is
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passed, then the subterm [e] must be [for_]. *)
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