/* * vim: set ft=rust: * vim: set ft=reason: * * Copyright (c) 2009 - 2013 Monoidics ltd. * Copyright (c) 2013 - present Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. */ open! Utils; /** Module for Names and Identifiers */ let module L = Logging; let module F = Format; let module Name = { type t = | Primed | Normal | Footprint | Spec | FromString string [@@deriving compare]; let primed = "t"; let normal = "n"; let footprint = "f"; let spec = "val"; let from_string s => FromString s; let to_string = fun | Primed => primed | Normal => normal | Footprint => footprint | Spec => spec | FromString s => s; let equal n1 n2 => compare n1 n2 == 0; }; type name = Name.t [@@deriving compare]; let name_spec = Name.Spec; let name_primed = Name.Primed; let equal_name x y => 0 == compare_name x y; type fieldname = {fpos: int, fname: Mangled.t} [@@deriving compare]; let equal_fieldname x y => 0 == compare_fieldname x y; type kind = | KNone /** special kind of "null ident" (basically, a more compact way of implementing an ident option). useful for situations when an instruction requires an id, but no one should read the result. */ | KFootprint | KNormal | KPrimed [@@deriving compare]; let kfootprint = KFootprint; let knormal = KNormal; let kprimed = KPrimed; let equal_kind x y => 0 == compare_kind x y; /* timestamp for a path identifier */ let path_ident_stamp = (-3); type t = {kind: kind, name: Name.t, stamp: int} [@@deriving compare]; /* most unlikely first */ let equal i1 i2 => i1.stamp === i2.stamp && i1.kind === i2.kind && equal_name i1.name i2.name; /** {2 Set for identifiers} */ let module IdentSet = Set.Make { type nonrec t = t; let compare = compare; }; let module IdentMap = Map.Make { type nonrec t = t; let compare = compare; }; let module IdentHash = Hashtbl.Make { type nonrec t = t; let equal = equal; let hash (id: t) => Hashtbl.hash id; }; let module FieldSet = Set.Make { type t = fieldname [@@deriving compare]; }; let module FieldMap = Map.Make { type t = fieldname [@@deriving compare]; }; let idlist_to_idset ids => IList.fold_left (fun set id => IdentSet.add id set) IdentSet.empty ids; /** {2 Conversion between Names and Strings} */ let module NameHash = Hashtbl.Make { type t = name; let equal = equal_name; let hash = Hashtbl.hash; }; /** Convert a string to a name */ let string_to_name = Name.from_string; /** Create a field name with the given position (field number in the CSU) */ let create_fieldname (n: Mangled.t) (position: int) => {fpos: position, fname: n}; /** Convert a name to a string. */ let name_to_string = Name.to_string; /** Convert a fieldname to a string. */ let fieldname_to_string fn => Mangled.to_string fn.fname; /** Convert a fieldname to a string, including the mangled part. */ let fieldname_to_complete_string fn => Mangled.to_string_full fn.fname; /** Convert a fieldname to a simplified string with at most one-level path. */ let fieldname_to_simplified_string fn => { let s = Mangled.to_string fn.fname; switch (string_split_character s '.') { | (Some s1, s2) => switch (string_split_character s1 '.') { | (Some _, s4) => s4 ^ "." ^ s2 | _ => s } | _ => s } }; /** Convert a fieldname to a flat string without path. */ let fieldname_to_flat_string fn => { let s = Mangled.to_string fn.fname; switch (string_split_character s '.') { | (Some _, s2) => s2 | _ => s } }; /** Returns the class part of the fieldname */ let java_fieldname_get_class fn => { let fn = fieldname_to_string fn; let ri = String.rindex fn '.'; String.sub fn 0 ri }; /** Returns the last component of the fieldname */ let java_fieldname_get_field fn => { let fn = fieldname_to_string fn; let ri = 1 + String.rindex fn '.'; String.sub fn ri (String.length fn - ri) }; /** Check if the field is the synthetic this$n of a nested class, used to access the n-th outher instance. */ let java_fieldname_is_outer_instance fn => { let fn = fieldname_to_string fn; let fn_len = String.length fn; let this = ".this$"; let this_len = String.length this; let zero_to_nine s => s >= "0" && s <= "9"; fn_len > this_len && String.sub fn (fn_len - this_len - 1) this_len == this && zero_to_nine (String.sub fn (fn_len - 1) 1) }; let fieldname_offset fn => fn.fpos; /** hidded fieldname constant */ let fieldname_hidden = create_fieldname (Mangled.from_string ".hidden") 0; /** hidded fieldname constant */ let fieldname_is_hidden fn => equal_fieldname fn fieldname_hidden; /** {2 Functions and Hash Tables for Managing Stamps} */ /** Set the stamp of the identifier */ let set_stamp i stamp => {...i, stamp}; /** Get the stamp of the identifier */ let get_stamp i => i.stamp; let module NameGenerator = { type t = NameHash.t int; let create () :t => NameHash.create 17; /** Map from names to stamps. */ let name_map = ref (create ()); let get_current () => !name_map; let set_current map => name_map := map; /** Reset the name generator */ let reset () => name_map := create (); /** Create a fresh identifier with the given kind and name. */ let create_fresh_ident kind name => { let stamp = try { let stamp = NameHash.find !name_map name; NameHash.replace !name_map name (stamp + 1); stamp + 1 } { | Not_found => NameHash.add !name_map name 0; 0 }; {kind, name, stamp} }; /** Make sure that fresh ids after whis one will be with different stamps */ let update_name_hash name stamp => try { let curr_stamp = NameHash.find !name_map name; let new_stamp = max curr_stamp stamp; NameHash.replace !name_map name new_stamp } { | Not_found => NameHash.add !name_map name stamp }; }; /** Name used for the return variable */ let name_return = Mangled.from_string "return"; /** Return the standard name for the given kind */ let standard_name kind => if (kind === KNormal || kind === KNone) { Name.Normal } else if (kind === KFootprint) { Name.Footprint } else { Name.Primed }; /** Every identifier with a given stamp should unltimately be created using this function */ let create_with_stamp kind name stamp => { NameGenerator.update_name_hash name stamp; {kind, name, stamp} }; /** Create an identifier with default name for the given kind */ let create kind stamp => create_with_stamp kind (standard_name kind) stamp; /** Generate a normal identifier with the given name and stamp */ let create_normal name stamp => create_with_stamp KNormal name stamp; /** Create a fresh identifier with default name for the given kind. */ let create_fresh kind => NameGenerator.create_fresh_ident kind (standard_name kind); let create_none () => create_fresh KNone; /** Generate a primed identifier with the given name and stamp */ let create_primed name stamp => create_with_stamp KPrimed name stamp; /** Generate a footprint identifier with the given name and stamp */ let create_footprint name stamp => create_with_stamp KFootprint name stamp; /** {2 Functions for Identifiers} */ /** Get a name of an identifier */ let get_name id => id.name; let is_primed (id: t) => id.kind === KPrimed; let is_normal (id: t) => id.kind === KNormal || id.kind === KNone; let is_footprint (id: t) => id.kind === KFootprint; let is_none (id: t) => id.kind == KNone; let is_path (id: t) => id.kind === KNormal && id.stamp == path_ident_stamp; let make_unprimed id => if (id.kind != KPrimed) { assert false } else if (id.kind === KNone) { {...id, kind: KNone} } else { {...id, kind: KNormal} }; /** Update the name generator so that the given id's are not generated again */ let update_name_generator ids => { let upd id => ignore (create_with_stamp id.kind id.name id.stamp); IList.iter upd ids }; /** Generate a normal identifier whose name encodes a path given as a string. */ let create_path pathstring => create_normal (string_to_name ("%path%" ^ pathstring)) path_ident_stamp; /** {2 Pretty Printing} */ /** Convert an identifier to a string. */ let to_string id => if (id.kind === KNone) { "_" } else { let base_name = name_to_string id.name; let prefix = if (id.kind === KFootprint) { "@" } else if (id.kind === KNormal) { "" } else { "_" }; let suffix = "$" ^ string_of_int id.stamp; prefix ^ base_name ^ suffix }; /** Pretty print a name. */ let pp_name f name => F.fprintf f "%s" (name_to_string name); let pp_fieldname f fn => /* only use for debug F.fprintf f "%a#%d" pp_name fn.fname fn.fpos */ Mangled.pp f fn.fname; /** Pretty print a name in latex. */ let pp_name_latex style f (name: name) => Latex.pp_string style f (name_to_string name); let pp_fieldname_latex style f fn => Latex.pp_string style f (Mangled.to_string fn.fname); /** Pretty print an identifier. */ let pp pe f id => switch pe.pe_kind { | PP_TEXT | PP_HTML => F.fprintf f "%s" (to_string id) | PP_LATEX => let base_name = name_to_string id.name; let style = if (id.kind == KFootprint) { Latex.Boldface } else if (id.kind == KNormal) { Latex.Roman } else { Latex.Roman }; F.fprintf f "%a_{%s}" (Latex.pp_string style) base_name (string_of_int id.stamp) }; /** pretty printer for lists of identifiers */ let pp_list pe => pp_comma_seq (pp pe); /** pretty printer for lists of names */ let pp_name_list = pp_comma_seq pp_name;