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/*
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* Copyright (c) 2009 - 2013 Monoidics ltd.
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* Copyright (c) 2013 - present Facebook, Inc.
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* All rights reserved.
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*
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* This source code is licensed under the BSD style license found in the
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* LICENSE file in the root directory of this source tree. An additional grant
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* of patent rights can be found in the PATENTS file in the same directory.
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*/
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open! IStd;
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/** The Smallfoot Intermediate Language: Expressions */
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let module L = Logging;
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let module F = Format;
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type closure = {name: Typ.Procname.t, captured_vars: list (t, Pvar.t, Typ.t)} [@@deriving compare]
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/** dynamically determined length of an array value, if any */
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and dynamic_length = option t [@@deriving compare]
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/** Program expressions. */
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and t =
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/** Pure variable: it is not an lvalue */
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| Var Ident.t
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/** Unary operator with type of the result if known */
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| UnOp Unop.t t (option Typ.t)
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/** Binary operator */
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| BinOp Binop.t t t
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/** Exception */
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| Exn t
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/** Anonymous function */
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| Closure closure
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/** Constants */
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| Const Const.t
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/** Type cast */
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| Cast Typ.t t
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/** The address of a program variable */
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| Lvar Pvar.t
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/** A field offset, the type is the surrounding struct type */
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| Lfield t Ident.fieldname Typ.t
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/** An array index offset: [exp1\[exp2\]] */
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| Lindex t t
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/** A sizeof expression. [Sizeof (Tarray elt (Some static_length)) (Some dynamic_length)]
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represents the size of an array value consisting of [dynamic_length] elements of type [elt].
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The [dynamic_length], tracked by symbolic execution, may differ from the [static_length]
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obtained from the type definition, e.g. when an array is over-allocated. For struct types,
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the [dynamic_length] is that of the final extensible array, if any. */
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| Sizeof Typ.t dynamic_length Subtype.t
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[@@deriving compare];
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/** Equality for expressions. */
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let equal: t => t => bool;
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/** Hash function for expressions. */
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let hash: t => int;
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/** Set of expressions. */
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let module Set: Caml.Set.S with type elt = t;
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/** Map with expression keys. */
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let module Map: Caml.Map.S with type key = t;
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/** Hashtable with expression keys. */
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let module Hash: Caml.Hashtbl.S with type key = t;
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/** returns true is index is an array index of arr. */
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let is_array_index_of: t => t => bool;
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let is_null_literal: t => bool;
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/** return true if [exp] is the special this/self expression */
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let is_this: t => bool;
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let is_zero: t => bool;
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/** {2 Utility Functions for Expressions} */
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/** Turn an expression representing a type into the type it represents
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If not a sizeof, return the default type if given, otherwise raise an exception */
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let texp_to_typ: option Typ.t => t => Typ.t;
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/** Return the root of [lexp]. */
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let root_of_lexp: t => t;
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/** Get an expression "undefined", the boolean indicates
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whether the undefined value goest into the footprint */
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let get_undefined: bool => t;
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/** Checks whether an expression denotes a location using pointer arithmetic.
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Currently, catches array - indexing expressions such as a[i] only. */
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let pointer_arith: t => bool;
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/** Integer constant 0 */
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let zero: t;
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/** Null constant */
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let null: t;
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/** Integer constant 1 */
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let one: t;
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/** Integer constant -1 */
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let minus_one: t;
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/** Create integer constant */
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let int: IntLit.t => t;
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/** Create float constant */
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let float: float => t;
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/** Create integer constant corresponding to the boolean value */
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let bool: bool => t;
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/** Create expresstion [e1 == e2] */
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let eq: t => t => t;
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/** Create expresstion [e1 != e2] */
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let ne: t => t => t;
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/** Create expresstion [e1 <= e2] */
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let le: t => t => t;
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/** Create expression [e1 < e2] */
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let lt: t => t => t;
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/** Extract the ids and pvars from an expression */
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let get_vars: t => (list Ident.t, list Pvar.t);
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let pp_printenv: Pp.env => (Pp.env => F.formatter => Typ.t => unit) => F.formatter => t => unit;
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let pp: F.formatter => t => unit;
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let to_string: t => string;
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