(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1998 Institut National de Recherche en Informatique et *) (* en Automatique. All rights reserved. This file is distributed *) (* under the terms of the Q Public License version 1.0. *) (* *) (***********************************************************************) (* $Id$ *) (* Auxiliaries for type-based optimizations, e.g. array kinds *) open Misc open Asttypes open Primitive open Path open Types open Typedtree open Lambda let has_base_type exp base_ty_path = let exp_ty = Ctype.expand_head exp.exp_env (Ctype.correct_levels exp.exp_type) in match Ctype.repr exp_ty with {desc = Tconstr(p, _, _)} -> Path.same p base_ty_path | _ -> false let maybe_pointer exp = let exp_ty = Ctype.expand_head exp.exp_env (Ctype.correct_levels exp.exp_type) in match (Ctype.repr exp_ty).desc with Tconstr(p, args, abbrev) -> not (Path.same p Predef.path_int) && not (Path.same p Predef.path_char) && begin try match Env.find_type p exp.exp_env with {type_kind = Type_variant cstrs} -> List.exists (fun (name, args) -> args <> []) cstrs | _ -> true with Not_found -> true (* This can happen due to e.g. missing -I options, causing some .cmi files to be unavailable. Maybe we should emit a warning. *) end | _ -> true let array_element_kind env ty = let ty = Ctype.repr (Ctype.expand_head env ty) in match ty.desc with Tvar -> Pgenarray | Tconstr(p, args, abbrev) -> if Path.same p Predef.path_int || Path.same p Predef.path_char then Pintarray else if Path.same p Predef.path_float then Pfloatarray else if Path.same p Predef.path_string || Path.same p Predef.path_array || Path.same p Predef.path_nativeint || Path.same p Predef.path_int32 || Path.same p Predef.path_int64 then Paddrarray else begin try match Env.find_type p env with {type_kind = Type_abstract} -> Pgenarray | {type_kind = Type_variant cstrs} when List.for_all (fun (name, args) -> args = []) cstrs -> Pintarray | {type_kind = _} -> Paddrarray with Not_found -> (* This can happen due to e.g. missing -I options, causing some .cmi files to be unavailable. Maybe we should emit a warning. *) Pgenarray end | _ -> Paddrarray let array_kind_gen ty env = let array_ty = Ctype.expand_head env (Ctype.correct_levels ty) in match (Ctype.repr array_ty).desc with Tconstr(p, [elt_ty], _) when Path.same p Predef.path_array -> array_element_kind env elt_ty | _ -> (* This can happen with e.g. Obj.field *) Pgenarray let array_kind exp = array_kind_gen exp.exp_type exp.exp_env let array_pattern_kind pat = array_kind_gen pat.pat_type pat.pat_env let bigarray_decode_type ty tbl dfl = match (Ctype.repr ty).desc with Tconstr(Pdot(Pident mod_id, type_name, _), [], _) when Ident.name mod_id = "Bigarray" -> begin try List.assoc type_name tbl with Not_found -> dfl end | _ -> dfl let kind_table = ["float32_elt", Pbigarray_float32; "float64_elt", Pbigarray_float64; "int8_signed_elt", Pbigarray_sint8; "int8_unsigned_elt", Pbigarray_uint8; "int16_signed_elt", Pbigarray_sint16; "int16_unsigned_elt", Pbigarray_uint16; "int32_elt", Pbigarray_int32; "int64_elt", Pbigarray_int64; "int_elt", Pbigarray_caml_int; "nativeint_elt", Pbigarray_native_int; "complex32_elt", Pbigarray_complex32; "complex64_elt", Pbigarray_complex64] let layout_table = ["c_layout", Pbigarray_c_layout; "fortran_layout", Pbigarray_fortran_layout] let bigarray_kind_and_layout exp = let ty = Ctype.repr (Ctype.expand_head exp.exp_env exp.exp_type) in match ty.desc with Tconstr(p, [caml_type; elt_type; layout_type], abbrev) -> (bigarray_decode_type elt_type kind_table Pbigarray_unknown, bigarray_decode_type layout_type layout_table Pbigarray_unknown_layout) | _ -> (Pbigarray_unknown, Pbigarray_unknown_layout)