1054 lines
39 KiB
OCaml
1054 lines
39 KiB
OCaml
(***********************************************************************)
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(* *)
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(* OCaml *)
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(* *)
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(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* en Automatique. All rights reserved. This file is distributed *)
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(* under the terms of the Q Public License version 1.0. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(* Translation from typed abstract syntax to lambda terms,
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for the core language *)
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open Misc
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open Asttypes
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open Primitive
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open Path
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open Types
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open Typedtree
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open Typeopt
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open Lambda
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type error =
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Illegal_letrec_pat
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| Illegal_letrec_expr
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| Free_super_var
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exception Error of Location.t * error
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(* Forward declaration -- to be filled in by Translmod.transl_module *)
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let transl_module =
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ref((fun cc rootpath modl -> assert false) :
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module_coercion -> Path.t option -> module_expr -> lambda)
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let transl_object =
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ref (fun id s cl -> assert false :
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Ident.t -> string list -> class_expr -> lambda)
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(* Translation of primitives *)
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let comparisons_table = create_hashtable 11 [
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"%equal",
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(Pccall{prim_name = "caml_equal"; prim_arity = 2; prim_alloc = true;
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prim_native_name = ""; prim_native_float = false},
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Pintcomp Ceq,
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Pfloatcomp Ceq,
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Pccall{prim_name = "caml_string_equal"; prim_arity = 2;
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prim_alloc = false;
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prim_native_name = ""; prim_native_float = false},
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Pbintcomp(Pnativeint, Ceq),
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Pbintcomp(Pint32, Ceq),
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Pbintcomp(Pint64, Ceq),
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true);
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"%notequal",
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(Pccall{prim_name = "caml_notequal"; prim_arity = 2; prim_alloc = true;
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prim_native_name = ""; prim_native_float = false},
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Pintcomp Cneq,
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Pfloatcomp Cneq,
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Pccall{prim_name = "caml_string_notequal"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pbintcomp(Pnativeint, Cneq),
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Pbintcomp(Pint32, Cneq),
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Pbintcomp(Pint64, Cneq),
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true);
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"%lessthan",
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(Pccall{prim_name = "caml_lessthan"; prim_arity = 2; prim_alloc = true;
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prim_native_name = ""; prim_native_float = false},
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Pintcomp Clt,
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Pfloatcomp Clt,
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Pccall{prim_name = "caml_string_lessthan"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pbintcomp(Pnativeint, Clt),
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Pbintcomp(Pint32, Clt),
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Pbintcomp(Pint64, Clt),
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false);
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"%greaterthan",
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(Pccall{prim_name = "caml_greaterthan"; prim_arity = 2; prim_alloc = true;
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prim_native_name = ""; prim_native_float = false},
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Pintcomp Cgt,
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Pfloatcomp Cgt,
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Pccall{prim_name = "caml_string_greaterthan"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pbintcomp(Pnativeint, Cgt),
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Pbintcomp(Pint32, Cgt),
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Pbintcomp(Pint64, Cgt),
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false);
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"%lessequal",
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(Pccall{prim_name = "caml_lessequal"; prim_arity = 2; prim_alloc = true;
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prim_native_name = ""; prim_native_float = false},
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Pintcomp Cle,
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Pfloatcomp Cle,
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Pccall{prim_name = "caml_string_lessequal"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pbintcomp(Pnativeint, Cle),
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Pbintcomp(Pint32, Cle),
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Pbintcomp(Pint64, Cle),
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false);
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"%greaterequal",
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(Pccall{prim_name = "caml_greaterequal"; prim_arity = 2;
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prim_alloc = true;
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prim_native_name = ""; prim_native_float = false},
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Pintcomp Cge,
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Pfloatcomp Cge,
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Pccall{prim_name = "caml_string_greaterequal"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pbintcomp(Pnativeint, Cge),
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Pbintcomp(Pint32, Cge),
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Pbintcomp(Pint64, Cge),
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false);
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"%compare",
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(Pccall{prim_name = "caml_compare"; prim_arity = 2; prim_alloc = true;
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prim_native_name = ""; prim_native_float = false},
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Pccall{prim_name = "caml_int_compare"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pccall{prim_name = "caml_float_compare"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pccall{prim_name = "caml_string_compare"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pccall{prim_name = "caml_nativeint_compare"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pccall{prim_name = "caml_int32_compare"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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Pccall{prim_name = "caml_int64_compare"; prim_arity = 2;
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prim_alloc = false; prim_native_name = "";
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prim_native_float = false},
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false)
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]
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let primitives_table = create_hashtable 57 [
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"%identity", Pidentity;
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"%ignore", Pignore;
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"%field0", Pfield 0;
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"%field1", Pfield 1;
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"%setfield0", Psetfield(0, true);
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"%makeblock", Pmakeblock(0, Immutable);
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"%makemutable", Pmakeblock(0, Mutable);
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"%raise", Praise;
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"%sequand", Psequand;
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"%sequor", Psequor;
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"%boolnot", Pnot;
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"%negint", Pnegint;
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"%succint", Poffsetint 1;
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"%predint", Poffsetint(-1);
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"%addint", Paddint;
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"%subint", Psubint;
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"%mulint", Pmulint;
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"%divint", Pdivint;
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"%modint", Pmodint;
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"%andint", Pandint;
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"%orint", Porint;
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"%xorint", Pxorint;
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"%lslint", Plslint;
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"%lsrint", Plsrint;
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"%asrint", Pasrint;
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"%eq", Pintcomp Ceq;
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"%noteq", Pintcomp Cneq;
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"%ltint", Pintcomp Clt;
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"%leint", Pintcomp Cle;
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"%gtint", Pintcomp Cgt;
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"%geint", Pintcomp Cge;
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"%incr", Poffsetref(1);
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"%decr", Poffsetref(-1);
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"%intoffloat", Pintoffloat;
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"%floatofint", Pfloatofint;
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"%negfloat", Pnegfloat;
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"%absfloat", Pabsfloat;
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"%addfloat", Paddfloat;
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"%subfloat", Psubfloat;
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"%mulfloat", Pmulfloat;
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"%divfloat", Pdivfloat;
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"%eqfloat", Pfloatcomp Ceq;
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"%noteqfloat", Pfloatcomp Cneq;
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"%ltfloat", Pfloatcomp Clt;
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"%lefloat", Pfloatcomp Cle;
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"%gtfloat", Pfloatcomp Cgt;
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"%gefloat", Pfloatcomp Cge;
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"%string_length", Pstringlength;
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"%string_safe_get", Pstringrefs;
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"%string_safe_set", Pstringsets;
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"%string_unsafe_get", Pstringrefu;
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"%string_unsafe_set", Pstringsetu;
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"%array_length", Parraylength Pgenarray;
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"%array_safe_get", Parrayrefs Pgenarray;
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"%array_safe_set", Parraysets Pgenarray;
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"%array_unsafe_get", Parrayrefu Pgenarray;
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"%array_unsafe_set", Parraysetu Pgenarray;
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"%obj_size", Parraylength Pgenarray;
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"%obj_field", Parrayrefu Pgenarray;
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"%obj_set_field", Parraysetu Pgenarray;
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"%obj_is_int", Pisint;
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"%lazy_force", Plazyforce;
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"%nativeint_of_int", Pbintofint Pnativeint;
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"%nativeint_to_int", Pintofbint Pnativeint;
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"%nativeint_neg", Pnegbint Pnativeint;
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"%nativeint_add", Paddbint Pnativeint;
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"%nativeint_sub", Psubbint Pnativeint;
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"%nativeint_mul", Pmulbint Pnativeint;
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"%nativeint_div", Pdivbint Pnativeint;
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"%nativeint_mod", Pmodbint Pnativeint;
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"%nativeint_and", Pandbint Pnativeint;
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"%nativeint_or", Porbint Pnativeint;
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"%nativeint_xor", Pxorbint Pnativeint;
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"%nativeint_lsl", Plslbint Pnativeint;
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"%nativeint_lsr", Plsrbint Pnativeint;
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"%nativeint_asr", Pasrbint Pnativeint;
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"%int32_of_int", Pbintofint Pint32;
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"%int32_to_int", Pintofbint Pint32;
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"%int32_neg", Pnegbint Pint32;
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"%int32_add", Paddbint Pint32;
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"%int32_sub", Psubbint Pint32;
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"%int32_mul", Pmulbint Pint32;
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"%int32_div", Pdivbint Pint32;
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"%int32_mod", Pmodbint Pint32;
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"%int32_and", Pandbint Pint32;
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"%int32_or", Porbint Pint32;
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"%int32_xor", Pxorbint Pint32;
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"%int32_lsl", Plslbint Pint32;
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"%int32_lsr", Plsrbint Pint32;
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"%int32_asr", Pasrbint Pint32;
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"%int64_of_int", Pbintofint Pint64;
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"%int64_to_int", Pintofbint Pint64;
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"%int64_neg", Pnegbint Pint64;
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"%int64_add", Paddbint Pint64;
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"%int64_sub", Psubbint Pint64;
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"%int64_mul", Pmulbint Pint64;
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"%int64_div", Pdivbint Pint64;
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"%int64_mod", Pmodbint Pint64;
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"%int64_and", Pandbint Pint64;
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"%int64_or", Porbint Pint64;
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"%int64_xor", Pxorbint Pint64;
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"%int64_lsl", Plslbint Pint64;
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"%int64_lsr", Plsrbint Pint64;
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"%int64_asr", Pasrbint Pint64;
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"%nativeint_of_int32", Pcvtbint(Pint32, Pnativeint);
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"%nativeint_to_int32", Pcvtbint(Pnativeint, Pint32);
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"%int64_of_int32", Pcvtbint(Pint32, Pint64);
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"%int64_to_int32", Pcvtbint(Pint64, Pint32);
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"%int64_of_nativeint", Pcvtbint(Pnativeint, Pint64);
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"%int64_to_nativeint", Pcvtbint(Pint64, Pnativeint);
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"%caml_ba_ref_1",
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Pbigarrayref(false, 1, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_ref_2",
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Pbigarrayref(false, 2, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_ref_3",
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Pbigarrayref(false, 3, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_set_1",
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Pbigarrayset(false, 1, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_set_2",
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Pbigarrayset(false, 2, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_set_3",
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Pbigarrayset(false, 3, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_unsafe_ref_1",
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Pbigarrayref(true, 1, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_unsafe_ref_2",
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Pbigarrayref(true, 2, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_unsafe_ref_3",
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Pbigarrayref(true, 3, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_unsafe_set_1",
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Pbigarrayset(true, 1, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_unsafe_set_2",
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Pbigarrayset(true, 2, Pbigarray_unknown, Pbigarray_unknown_layout);
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"%caml_ba_unsafe_set_3",
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Pbigarrayset(true, 3, Pbigarray_unknown, Pbigarray_unknown_layout)
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]
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let prim_makearray =
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{ prim_name = "caml_make_vect"; prim_arity = 2; prim_alloc = true;
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prim_native_name = ""; prim_native_float = false }
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let prim_obj_dup =
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{ prim_name = "caml_obj_dup"; prim_arity = 1; prim_alloc = true;
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prim_native_name = ""; prim_native_float = false }
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let transl_prim loc prim args =
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try
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let (gencomp, intcomp, floatcomp, stringcomp,
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nativeintcomp, int32comp, int64comp,
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simplify_constant_constructor) =
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Hashtbl.find comparisons_table prim.prim_name in
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begin match args with
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[arg1; {exp_desc = Texp_construct({cstr_tag = Cstr_constant _}, _)}]
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when simplify_constant_constructor ->
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intcomp
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| [{exp_desc = Texp_construct({cstr_tag = Cstr_constant _}, _)}; arg2]
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when simplify_constant_constructor ->
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intcomp
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| [arg1; {exp_desc = Texp_variant(_, None)}]
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when simplify_constant_constructor ->
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intcomp
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| [{exp_desc = Texp_variant(_, None)}; exp2]
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when simplify_constant_constructor ->
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intcomp
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| [arg1; arg2] when has_base_type arg1 Predef.path_int
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|| has_base_type arg1 Predef.path_char ->
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intcomp
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| [arg1; arg2] when has_base_type arg1 Predef.path_float ->
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floatcomp
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| [arg1; arg2] when has_base_type arg1 Predef.path_string ->
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stringcomp
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| [arg1; arg2] when has_base_type arg1 Predef.path_nativeint ->
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nativeintcomp
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| [arg1; arg2] when has_base_type arg1 Predef.path_int32 ->
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int32comp
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| [arg1; arg2] when has_base_type arg1 Predef.path_int64 ->
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int64comp
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| _ ->
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gencomp
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end
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with Not_found ->
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try
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let p =
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match prim.prim_name with
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"%revapply" -> Prevapply loc
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| "%apply" -> Pdirapply loc
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| name -> Hashtbl.find primitives_table name in
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(* Try strength reduction based on the type of the argument *)
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begin match (p, args) with
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(Psetfield(n, _), [arg1; arg2]) -> Psetfield(n, maybe_pointer arg2)
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| (Parraylength Pgenarray, [arg]) -> Parraylength(array_kind arg)
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| (Parrayrefu Pgenarray, arg1 :: _) -> Parrayrefu(array_kind arg1)
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| (Parraysetu Pgenarray, arg1 :: _) -> Parraysetu(array_kind arg1)
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| (Parrayrefs Pgenarray, arg1 :: _) -> Parrayrefs(array_kind arg1)
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| (Parraysets Pgenarray, arg1 :: _) -> Parraysets(array_kind arg1)
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| (Pbigarrayref(unsafe, n, Pbigarray_unknown, Pbigarray_unknown_layout),
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arg1 :: _) ->
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let (k, l) = bigarray_kind_and_layout arg1 in
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Pbigarrayref(unsafe, n, k, l)
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| (Pbigarrayset(unsafe, n, Pbigarray_unknown, Pbigarray_unknown_layout),
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arg1 :: _) ->
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let (k, l) = bigarray_kind_and_layout arg1 in
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Pbigarrayset(unsafe, n, k, l)
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| _ -> p
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end
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with Not_found ->
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Pccall prim
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(* Eta-expand a primitive without knowing the types of its arguments *)
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let transl_primitive p =
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let prim =
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try
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let (gencomp, _, _, _, _, _, _, _) =
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Hashtbl.find comparisons_table p.prim_name in
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gencomp
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with Not_found ->
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try
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Hashtbl.find primitives_table p.prim_name
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with Not_found ->
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Pccall p in
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match prim with
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Plazyforce ->
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let parm = Ident.create "prim" in
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Lfunction(Curried, [parm], Matching.inline_lazy_force (Lvar parm) Location.none)
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| _ ->
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let rec make_params n =
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if n <= 0 then [] else Ident.create "prim" :: make_params (n-1) in
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let params = make_params p.prim_arity in
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Lfunction(Curried, params, Lprim(prim, List.map (fun id -> Lvar id) params))
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|
|
(* To check the well-formedness of r.h.s. of "let rec" definitions *)
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let check_recursive_lambda idlist lam =
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let rec check_top idlist = function
|
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| Lvar v -> not (List.mem v idlist)
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| Llet (_, _, _, _) as lam when check_recursive_recordwith idlist lam ->
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true
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| Llet(str, id, arg, body) ->
|
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check idlist arg && check_top (add_let id arg idlist) body
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| Lletrec(bindings, body) ->
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let idlist' = add_letrec bindings idlist in
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List.for_all (fun (id, arg) -> check idlist' arg) bindings &&
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check_top idlist' body
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| Lprim (Pmakearray (Pgenarray), args) -> false
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| Lsequence (lam1, lam2) -> check idlist lam1 && check_top idlist lam2
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| Levent (lam, _) -> check_top idlist lam
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| lam -> check idlist lam
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|
and check idlist = function
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| Lvar _ -> true
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| Lfunction(kind, params, body) -> true
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| Llet (_, _, _, _) as lam when check_recursive_recordwith idlist lam ->
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true
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| Llet(str, id, arg, body) ->
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check idlist arg && check (add_let id arg idlist) body
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| Lletrec(bindings, body) ->
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let idlist' = add_letrec bindings idlist in
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List.for_all (fun (id, arg) -> check idlist' arg) bindings &&
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check idlist' body
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| Lprim(Pmakeblock(tag, mut), args) ->
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List.for_all (check idlist) args
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| Lprim(Pmakearray(_), args) ->
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List.for_all (check idlist) args
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| Lsequence (lam1, lam2) -> check idlist lam1 && check idlist lam2
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| Levent (lam, _) -> check idlist lam
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| lam ->
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let fv = free_variables lam in
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not (List.exists (fun id -> IdentSet.mem id fv) idlist)
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|
|
|
and add_let id arg idlist =
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let fv = free_variables arg in
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if List.exists (fun id -> IdentSet.mem id fv) idlist
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then id :: idlist
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else idlist
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|
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and add_letrec bindings idlist =
|
|
List.fold_right (fun (id, arg) idl -> add_let id arg idl)
|
|
bindings idlist
|
|
|
|
(* reverse-engineering the code generated by transl_record case 2 *)
|
|
(* If you change this, you probably need to change Bytegen.size_of_lambda. *)
|
|
and check_recursive_recordwith idlist = function
|
|
| Llet (Strict, id1, Lprim (Pduprecord _, [e1]), body) ->
|
|
check_top idlist e1
|
|
&& check_recordwith_updates idlist id1 body
|
|
| _ -> false
|
|
|
|
and check_recordwith_updates idlist id1 = function
|
|
| Lsequence (Lprim ((Psetfield _ | Psetfloatfield _), [Lvar id2; e1]), cont)
|
|
-> id2 = id1 && check idlist e1
|
|
&& check_recordwith_updates idlist id1 cont
|
|
| Lvar id2 -> id2 = id1
|
|
| _ -> false
|
|
|
|
in check_top idlist lam
|
|
|
|
(* To propagate structured constants *)
|
|
|
|
exception Not_constant
|
|
|
|
let extract_constant = function
|
|
Lconst sc -> sc
|
|
| _ -> raise Not_constant
|
|
|
|
let extract_float = function
|
|
Const_base(Const_float f) -> f
|
|
| _ -> fatal_error "Translcore.extract_float"
|
|
|
|
(* To find reasonable names for let-bound and lambda-bound idents *)
|
|
|
|
let rec name_pattern default = function
|
|
[] -> Ident.create default
|
|
| (p, e) :: rem ->
|
|
match p.pat_desc with
|
|
Tpat_var id -> id
|
|
| Tpat_alias(p, id) -> id
|
|
| _ -> name_pattern default rem
|
|
|
|
(* Push the default values under the functional abstractions *)
|
|
|
|
let rec push_defaults loc bindings pat_expr_list partial =
|
|
match pat_expr_list with
|
|
[pat, ({exp_desc = Texp_function(pl,partial)} as exp)] ->
|
|
let pl = push_defaults exp.exp_loc bindings pl partial in
|
|
[pat, {exp with exp_desc = Texp_function(pl, partial)}]
|
|
| [pat, {exp_desc = Texp_let
|
|
(Default, cases, ({exp_desc = Texp_function _} as e2))}] ->
|
|
push_defaults loc (cases :: bindings) [pat, e2] partial
|
|
| [pat, exp] ->
|
|
let exp =
|
|
List.fold_left
|
|
(fun exp cases ->
|
|
{exp with exp_desc = Texp_let(Nonrecursive, cases, exp)})
|
|
exp bindings
|
|
in
|
|
[pat, exp]
|
|
| (pat, exp) :: _ when bindings <> [] ->
|
|
let param = name_pattern "param" pat_expr_list in
|
|
let exp =
|
|
{ exp with exp_loc = loc; exp_desc =
|
|
Texp_match
|
|
({exp with exp_type = pat.pat_type; exp_desc =
|
|
Texp_ident (Path.Pident param,
|
|
{val_type = pat.pat_type; val_kind = Val_reg;
|
|
val_loc = Location.none;
|
|
})},
|
|
pat_expr_list, partial) }
|
|
in
|
|
push_defaults loc bindings
|
|
[{pat with pat_desc = Tpat_var param}, exp] Total
|
|
| _ ->
|
|
pat_expr_list
|
|
|
|
(* Insertion of debugging events *)
|
|
|
|
let event_before exp lam = match lam with
|
|
| Lstaticraise (_,_) -> lam
|
|
| _ ->
|
|
if !Clflags.debug
|
|
then Levent(lam, {lev_loc = exp.exp_loc;
|
|
lev_kind = Lev_before;
|
|
lev_repr = None;
|
|
lev_env = Env.summary exp.exp_env})
|
|
else lam
|
|
|
|
let event_after exp lam =
|
|
if !Clflags.debug
|
|
then Levent(lam, {lev_loc = exp.exp_loc;
|
|
lev_kind = Lev_after exp.exp_type;
|
|
lev_repr = None;
|
|
lev_env = Env.summary exp.exp_env})
|
|
else lam
|
|
|
|
let event_function exp lam =
|
|
if !Clflags.debug then
|
|
let repr = Some (ref 0) in
|
|
let (info, body) = lam repr in
|
|
(info,
|
|
Levent(body, {lev_loc = exp.exp_loc;
|
|
lev_kind = Lev_function;
|
|
lev_repr = repr;
|
|
lev_env = Env.summary exp.exp_env}))
|
|
else
|
|
lam None
|
|
|
|
let primitive_is_ccall = function
|
|
(* Determine if a primitive is a Pccall or will be turned later into
|
|
a C function call that may raise an exception *)
|
|
| Pccall _ | Pstringrefs | Pstringsets | Parrayrefs _ | Parraysets _ |
|
|
Pbigarrayref _ | Pbigarrayset _ | Pduprecord _ -> true
|
|
| _ -> false
|
|
|
|
(* Assertions *)
|
|
|
|
let assert_failed exp =
|
|
let (fname, line, char) =
|
|
Location.get_pos_info exp.exp_loc.Location.loc_start in
|
|
Lprim(Praise, [event_after exp
|
|
(Lprim(Pmakeblock(0, Immutable),
|
|
[transl_path Predef.path_assert_failure;
|
|
Lconst(Const_block(0,
|
|
[Const_base(Const_string fname);
|
|
Const_base(Const_int line);
|
|
Const_base(Const_int char)]))]))])
|
|
;;
|
|
|
|
let rec cut n l =
|
|
if n = 0 then ([],l) else
|
|
match l with [] -> failwith "Translcore.cut"
|
|
| a::l -> let (l1,l2) = cut (n-1) l in (a::l1,l2)
|
|
|
|
(* Translation of expressions *)
|
|
|
|
let rec transl_exp e =
|
|
let eval_once =
|
|
(* Whether classes for immediate objects must be cached *)
|
|
match e.exp_desc with
|
|
Texp_function _ | Texp_for _ | Texp_while _ -> false
|
|
| _ -> true
|
|
in
|
|
if eval_once then transl_exp0 e else
|
|
Translobj.oo_wrap e.exp_env true transl_exp0 e
|
|
|
|
and transl_exp0 e =
|
|
match e.exp_desc with
|
|
Texp_ident(path, {val_kind = Val_prim p}) ->
|
|
let public_send = p.prim_name = "%send" in
|
|
if public_send || p.prim_name = "%sendself" then
|
|
let kind = if public_send then Public else Self in
|
|
let obj = Ident.create "obj" and meth = Ident.create "meth" in
|
|
Lfunction(Curried, [obj; meth], Lsend(kind, Lvar meth, Lvar obj, [], e.exp_loc))
|
|
else if p.prim_name = "%sendcache" then
|
|
let obj = Ident.create "obj" and meth = Ident.create "meth" in
|
|
let cache = Ident.create "cache" and pos = Ident.create "pos" in
|
|
Lfunction(Curried, [obj; meth; cache; pos],
|
|
Lsend(Cached, Lvar meth, Lvar obj, [Lvar cache; Lvar pos], e.exp_loc))
|
|
else
|
|
transl_primitive p
|
|
| Texp_ident(path, {val_kind = Val_anc _}) ->
|
|
raise(Error(e.exp_loc, Free_super_var))
|
|
| Texp_ident(path, {val_kind = Val_reg | Val_self _}) ->
|
|
transl_path path
|
|
| Texp_ident _ -> fatal_error "Translcore.transl_exp: bad Texp_ident"
|
|
| Texp_constant cst ->
|
|
Lconst(Const_base cst)
|
|
| Texp_let(rec_flag, pat_expr_list, body) ->
|
|
transl_let rec_flag pat_expr_list (event_before body (transl_exp body))
|
|
| Texp_function (pat_expr_list, partial) ->
|
|
let ((kind, params), body) =
|
|
event_function e
|
|
(function repr ->
|
|
let pl = push_defaults e.exp_loc [] pat_expr_list partial in
|
|
transl_function e.exp_loc !Clflags.native_code repr partial pl)
|
|
in
|
|
Lfunction(kind, params, body)
|
|
| Texp_apply({exp_desc = Texp_ident(path, {val_kind = Val_prim p})}, oargs)
|
|
when List.length oargs >= p.prim_arity
|
|
&& List.for_all (fun (arg,_) -> arg <> None) oargs ->
|
|
let args, args' = cut p.prim_arity oargs in
|
|
let wrap f =
|
|
if args' = []
|
|
then event_after e f
|
|
else event_after e (transl_apply f args' e.exp_loc)
|
|
in
|
|
let wrap0 f =
|
|
if args' = [] then f else wrap f in
|
|
let args = List.map (function Some x, _ -> x | _ -> assert false) args in
|
|
let argl = transl_list args in
|
|
let public_send = p.prim_name = "%send"
|
|
|| not !Clflags.native_code && p.prim_name = "%sendcache"in
|
|
if public_send || p.prim_name = "%sendself" then
|
|
let kind = if public_send then Public else Self in
|
|
let obj = List.hd argl in
|
|
wrap (Lsend (kind, List.nth argl 1, obj, [], e.exp_loc))
|
|
else if p.prim_name = "%sendcache" then
|
|
match argl with [obj; meth; cache; pos] ->
|
|
wrap (Lsend(Cached, meth, obj, [cache; pos], e.exp_loc))
|
|
| _ -> assert false
|
|
else begin
|
|
let prim = transl_prim e.exp_loc p args in
|
|
match (prim, args) with
|
|
(Praise, [arg1]) ->
|
|
wrap0 (Lprim(Praise, [event_after arg1 (List.hd argl)]))
|
|
| (_, _) ->
|
|
begin match (prim, argl) with
|
|
| (Plazyforce, [a]) ->
|
|
wrap (Matching.inline_lazy_force a e.exp_loc)
|
|
| (Plazyforce, _) -> assert false
|
|
|_ -> let p = Lprim(prim, argl) in
|
|
if primitive_is_ccall prim then wrap p else wrap0 p
|
|
end
|
|
end
|
|
| Texp_apply(funct, oargs) ->
|
|
event_after e (transl_apply (transl_exp funct) oargs e.exp_loc)
|
|
| Texp_match({exp_desc = Texp_tuple argl}, pat_expr_list, partial) ->
|
|
Matching.for_multiple_match e.exp_loc
|
|
(transl_list argl) (transl_cases pat_expr_list) partial
|
|
| Texp_match(arg, pat_expr_list, partial) ->
|
|
Matching.for_function e.exp_loc None
|
|
(transl_exp arg) (transl_cases pat_expr_list) partial
|
|
| Texp_try(body, pat_expr_list) ->
|
|
let id = name_pattern "exn" pat_expr_list in
|
|
Ltrywith(transl_exp body, id,
|
|
Matching.for_trywith (Lvar id) (transl_cases pat_expr_list))
|
|
| Texp_tuple el ->
|
|
let ll = transl_list el in
|
|
begin try
|
|
Lconst(Const_block(0, List.map extract_constant ll))
|
|
with Not_constant ->
|
|
Lprim(Pmakeblock(0, Immutable), ll)
|
|
end
|
|
| Texp_construct(cstr, args) ->
|
|
let ll = transl_list args in
|
|
begin match cstr.cstr_tag with
|
|
Cstr_constant n ->
|
|
Lconst(Const_pointer n)
|
|
| Cstr_block n ->
|
|
begin try
|
|
Lconst(Const_block(n, List.map extract_constant ll))
|
|
with Not_constant ->
|
|
Lprim(Pmakeblock(n, Immutable), ll)
|
|
end
|
|
| Cstr_exception path ->
|
|
Lprim(Pmakeblock(0, Immutable), transl_path path :: ll)
|
|
end
|
|
| Texp_variant(l, arg) ->
|
|
let tag = Btype.hash_variant l in
|
|
begin match arg with
|
|
None -> Lconst(Const_pointer tag)
|
|
| Some arg ->
|
|
let lam = transl_exp arg in
|
|
try
|
|
Lconst(Const_block(0, [Const_base(Const_int tag);
|
|
extract_constant lam]))
|
|
with Not_constant ->
|
|
Lprim(Pmakeblock(0, Immutable),
|
|
[Lconst(Const_base(Const_int tag)); lam])
|
|
end
|
|
| Texp_record ((lbl1, _) :: _ as lbl_expr_list, opt_init_expr) ->
|
|
transl_record lbl1.lbl_all lbl1.lbl_repres lbl_expr_list opt_init_expr
|
|
| Texp_record ([], _) ->
|
|
fatal_error "Translcore.transl_exp: bad Texp_record"
|
|
| Texp_field(arg, lbl) ->
|
|
let access =
|
|
match lbl.lbl_repres with
|
|
Record_regular -> Pfield lbl.lbl_pos
|
|
| Record_float -> Pfloatfield lbl.lbl_pos in
|
|
Lprim(access, [transl_exp arg])
|
|
| Texp_setfield(arg, lbl, newval) ->
|
|
let access =
|
|
match lbl.lbl_repres with
|
|
Record_regular -> Psetfield(lbl.lbl_pos, maybe_pointer newval)
|
|
| Record_float -> Psetfloatfield lbl.lbl_pos in
|
|
Lprim(access, [transl_exp arg; transl_exp newval])
|
|
| Texp_array expr_list ->
|
|
let kind = array_kind e in
|
|
let ll = transl_list expr_list in
|
|
begin try
|
|
(* Deactivate constant optimization if array is small enough *)
|
|
if List.length ll <= 4 then raise Not_constant;
|
|
let cl = List.map extract_constant ll in
|
|
let master =
|
|
match kind with
|
|
| Paddrarray | Pintarray ->
|
|
Lconst(Const_block(0, cl))
|
|
| Pfloatarray ->
|
|
Lconst(Const_float_array(List.map extract_float cl))
|
|
| Pgenarray ->
|
|
raise Not_constant in (* can this really happen? *)
|
|
Lprim(Pccall prim_obj_dup, [master])
|
|
with Not_constant ->
|
|
Lprim(Pmakearray kind, ll)
|
|
end
|
|
| Texp_ifthenelse(cond, ifso, Some ifnot) ->
|
|
Lifthenelse(transl_exp cond,
|
|
event_before ifso (transl_exp ifso),
|
|
event_before ifnot (transl_exp ifnot))
|
|
| Texp_ifthenelse(cond, ifso, None) ->
|
|
Lifthenelse(transl_exp cond,
|
|
event_before ifso (transl_exp ifso),
|
|
lambda_unit)
|
|
| Texp_sequence(expr1, expr2) ->
|
|
Lsequence(transl_exp expr1, event_before expr2 (transl_exp expr2))
|
|
| Texp_while(cond, body) ->
|
|
Lwhile(transl_exp cond, event_before body (transl_exp body))
|
|
| Texp_for(param, low, high, dir, body) ->
|
|
Lfor(param, transl_exp low, transl_exp high, dir,
|
|
event_before body (transl_exp body))
|
|
| Texp_when(cond, body) ->
|
|
event_before cond
|
|
(Lifthenelse(transl_exp cond, event_before body (transl_exp body),
|
|
staticfail))
|
|
| Texp_send(expr, met) ->
|
|
let obj = transl_exp expr in
|
|
let lam =
|
|
match met with
|
|
Tmeth_val id -> Lsend (Self, Lvar id, obj, [], e.exp_loc)
|
|
| Tmeth_name nm ->
|
|
let (tag, cache) = Translobj.meth obj nm in
|
|
let kind = if cache = [] then Public else Cached in
|
|
Lsend (kind, tag, obj, cache, e.exp_loc)
|
|
in
|
|
event_after e lam
|
|
| Texp_new (cl, _) ->
|
|
Lapply(Lprim(Pfield 0, [transl_path cl]), [lambda_unit], Location.none)
|
|
| Texp_instvar(path_self, path) ->
|
|
Lprim(Parrayrefu Paddrarray, [transl_path path_self; transl_path path])
|
|
| Texp_setinstvar(path_self, path, expr) ->
|
|
transl_setinstvar (transl_path path_self) path expr
|
|
| Texp_override(path_self, modifs) ->
|
|
let cpy = Ident.create "copy" in
|
|
Llet(Strict, cpy,
|
|
Lapply(Translobj.oo_prim "copy", [transl_path path_self],
|
|
Location.none),
|
|
List.fold_right
|
|
(fun (path, expr) rem ->
|
|
Lsequence(transl_setinstvar (Lvar cpy) path expr, rem))
|
|
modifs
|
|
(Lvar cpy))
|
|
| Texp_letmodule(id, modl, body) ->
|
|
Llet(Strict, id, !transl_module Tcoerce_none None modl, transl_exp body)
|
|
| Texp_pack modl ->
|
|
!transl_module Tcoerce_none None modl
|
|
| Texp_assert (cond) ->
|
|
if !Clflags.noassert
|
|
then lambda_unit
|
|
else Lifthenelse (transl_exp cond, lambda_unit, assert_failed e)
|
|
| Texp_assertfalse -> assert_failed e
|
|
| Texp_lazy e ->
|
|
(* when e needs no computation (constants, identifiers, ...), we
|
|
optimize the translation just as Lazy.lazy_from_val would
|
|
do *)
|
|
begin match e.exp_desc with
|
|
(* a constant expr of type <> float gets compiled as itself *)
|
|
| Texp_constant
|
|
( Const_int _ | Const_char _ | Const_string _
|
|
| Const_int32 _ | Const_int64 _ | Const_nativeint _ )
|
|
| Texp_function(_, _)
|
|
| Texp_construct ({cstr_arity = 0}, _)
|
|
-> transl_exp e
|
|
| Texp_constant(Const_float _) ->
|
|
Lprim(Pmakeblock(Obj.forward_tag, Immutable), [transl_exp e])
|
|
| Texp_ident(_, _) -> (* according to the type *)
|
|
begin match e.exp_type.desc with
|
|
(* the following may represent a float/forward/lazy: need a
|
|
forward_tag *)
|
|
| Tvar _ | Tlink _ | Tsubst _ | Tunivar _
|
|
| Tpoly(_,_) | Tfield(_,_,_,_) ->
|
|
Lprim(Pmakeblock(Obj.forward_tag, Immutable), [transl_exp e])
|
|
(* the following cannot be represented as float/forward/lazy:
|
|
optimize *)
|
|
| Tarrow(_,_,_,_) | Ttuple _ | Tpackage _ | Tobject(_,_) | Tnil
|
|
| Tvariant _
|
|
-> transl_exp e
|
|
(* optimize predefined types (excepted float) *)
|
|
| Tconstr(_,_,_) ->
|
|
if has_base_type e Predef.path_int
|
|
|| has_base_type e Predef.path_char
|
|
|| has_base_type e Predef.path_string
|
|
|| has_base_type e Predef.path_bool
|
|
|| has_base_type e Predef.path_unit
|
|
|| has_base_type e Predef.path_exn
|
|
|| has_base_type e Predef.path_array
|
|
|| has_base_type e Predef.path_list
|
|
|| has_base_type e Predef.path_format6
|
|
|| has_base_type e Predef.path_option
|
|
|| has_base_type e Predef.path_nativeint
|
|
|| has_base_type e Predef.path_int32
|
|
|| has_base_type e Predef.path_int64
|
|
then transl_exp e
|
|
else
|
|
Lprim(Pmakeblock(Obj.forward_tag, Immutable), [transl_exp e])
|
|
end
|
|
(* other cases compile to a lazy block holding a function *)
|
|
| _ ->
|
|
let fn = Lfunction (Curried, [Ident.create "param"], transl_exp e) in
|
|
Lprim(Pmakeblock(Config.lazy_tag, Immutable), [fn])
|
|
end
|
|
| Texp_object (cs, cty, meths) ->
|
|
let cl = Ident.create "class" in
|
|
!transl_object cl meths
|
|
{ cl_desc = Tclass_structure cs;
|
|
cl_loc = e.exp_loc;
|
|
cl_type = Tcty_signature cty;
|
|
cl_env = e.exp_env }
|
|
|
|
and transl_list expr_list =
|
|
List.map transl_exp expr_list
|
|
|
|
and transl_cases pat_expr_list =
|
|
List.map
|
|
(fun (pat, expr) -> (pat, event_before expr (transl_exp expr)))
|
|
pat_expr_list
|
|
|
|
and transl_tupled_cases patl_expr_list =
|
|
List.map (fun (patl, expr) -> (patl, transl_exp expr)) patl_expr_list
|
|
|
|
and transl_apply lam sargs loc =
|
|
let lapply funct args =
|
|
match funct with
|
|
Lsend(k, lmet, lobj, largs, loc) ->
|
|
Lsend(k, lmet, lobj, largs @ args, loc)
|
|
| Levent(Lsend(k, lmet, lobj, largs, loc), _) ->
|
|
Lsend(k, lmet, lobj, largs @ args, loc)
|
|
| Lapply(lexp, largs, _) ->
|
|
Lapply(lexp, largs @ args, loc)
|
|
| lexp ->
|
|
Lapply(lexp, args, loc)
|
|
in
|
|
let rec build_apply lam args = function
|
|
(None, optional) :: l ->
|
|
let defs = ref [] in
|
|
let protect name lam =
|
|
match lam with
|
|
Lvar _ | Lconst _ -> lam
|
|
| _ ->
|
|
let id = Ident.create name in
|
|
defs := (id, lam) :: !defs;
|
|
Lvar id
|
|
in
|
|
let args, args' =
|
|
if List.for_all (fun (_,opt) -> opt = Optional) args then [], args
|
|
else args, [] in
|
|
let lam =
|
|
if args = [] then lam else lapply lam (List.rev_map fst args) in
|
|
let handle = protect "func" lam
|
|
and l = List.map (fun (arg, opt) -> may_map (protect "arg") arg, opt) l
|
|
and id_arg = Ident.create "param" in
|
|
let body =
|
|
match build_apply handle ((Lvar id_arg, optional)::args') l with
|
|
Lfunction(Curried, ids, lam) ->
|
|
Lfunction(Curried, id_arg::ids, lam)
|
|
| Levent(Lfunction(Curried, ids, lam), _) ->
|
|
Lfunction(Curried, id_arg::ids, lam)
|
|
| lam ->
|
|
Lfunction(Curried, [id_arg], lam)
|
|
in
|
|
List.fold_left
|
|
(fun body (id, lam) -> Llet(Strict, id, lam, body))
|
|
body !defs
|
|
| (Some arg, optional) :: l ->
|
|
build_apply lam ((arg, optional) :: args) l
|
|
| [] ->
|
|
lapply lam (List.rev_map fst args)
|
|
in
|
|
build_apply lam [] (List.map (fun (x,o) -> may_map transl_exp x, o) sargs)
|
|
|
|
and transl_function loc untuplify_fn repr partial pat_expr_list =
|
|
match pat_expr_list with
|
|
[pat, ({exp_desc = Texp_function(pl,partial')} as exp)]
|
|
when Parmatch.fluid pat ->
|
|
let param = name_pattern "param" pat_expr_list in
|
|
let ((_, params), body) =
|
|
transl_function exp.exp_loc false repr partial' pl in
|
|
((Curried, param :: params),
|
|
Matching.for_function loc None (Lvar param) [pat, body] partial)
|
|
| ({pat_desc = Tpat_tuple pl}, _) :: _ when untuplify_fn ->
|
|
begin try
|
|
let size = List.length pl in
|
|
let pats_expr_list =
|
|
List.map
|
|
(fun (pat, expr) -> (Matching.flatten_pattern size pat, expr))
|
|
pat_expr_list in
|
|
let params = List.map (fun p -> Ident.create "param") pl in
|
|
((Tupled, params),
|
|
Matching.for_tupled_function loc params
|
|
(transl_tupled_cases pats_expr_list) partial)
|
|
with Matching.Cannot_flatten ->
|
|
let param = name_pattern "param" pat_expr_list in
|
|
((Curried, [param]),
|
|
Matching.for_function loc repr (Lvar param)
|
|
(transl_cases pat_expr_list) partial)
|
|
end
|
|
| _ ->
|
|
let param = name_pattern "param" pat_expr_list in
|
|
((Curried, [param]),
|
|
Matching.for_function loc repr (Lvar param)
|
|
(transl_cases pat_expr_list) partial)
|
|
|
|
and transl_let rec_flag pat_expr_list body =
|
|
match rec_flag with
|
|
Nonrecursive | Default ->
|
|
let rec transl = function
|
|
[] ->
|
|
body
|
|
| (pat, expr) :: rem ->
|
|
Matching.for_let pat.pat_loc (transl_exp expr) pat (transl rem)
|
|
in transl pat_expr_list
|
|
| Recursive ->
|
|
let idlist =
|
|
List.map
|
|
(fun (pat, expr) ->
|
|
match pat.pat_desc with
|
|
Tpat_var id -> id
|
|
| Tpat_alias ({pat_desc=Tpat_any}, id) -> id
|
|
| _ -> raise(Error(pat.pat_loc, Illegal_letrec_pat)))
|
|
pat_expr_list in
|
|
let transl_case (pat, expr) id =
|
|
let lam = transl_exp expr in
|
|
if not (check_recursive_lambda idlist lam) then
|
|
raise(Error(expr.exp_loc, Illegal_letrec_expr));
|
|
(id, lam) in
|
|
Lletrec(List.map2 transl_case pat_expr_list idlist, body)
|
|
|
|
and transl_setinstvar self var expr =
|
|
Lprim(Parraysetu (if maybe_pointer expr then Paddrarray else Pintarray),
|
|
[self; transl_path var; transl_exp expr])
|
|
|
|
and transl_record all_labels repres lbl_expr_list opt_init_expr =
|
|
let size = Array.length all_labels in
|
|
(* Determine if there are "enough" new fields *)
|
|
if 3 + 2 * List.length lbl_expr_list >= size
|
|
then begin
|
|
(* Allocate new record with given fields (and remaining fields
|
|
taken from init_expr if any *)
|
|
let lv = Array.create (Array.length all_labels) staticfail in
|
|
let init_id = Ident.create "init" in
|
|
begin match opt_init_expr with
|
|
None -> ()
|
|
| Some init_expr ->
|
|
for i = 0 to Array.length all_labels - 1 do
|
|
let access =
|
|
match all_labels.(i).lbl_repres with
|
|
Record_regular -> Pfield i
|
|
| Record_float -> Pfloatfield i in
|
|
lv.(i) <- Lprim(access, [Lvar init_id])
|
|
done
|
|
end;
|
|
List.iter
|
|
(fun (lbl, expr) -> lv.(lbl.lbl_pos) <- transl_exp expr)
|
|
lbl_expr_list;
|
|
let ll = Array.to_list lv in
|
|
let mut =
|
|
if List.exists (fun (lbl, expr) -> lbl.lbl_mut = Mutable) lbl_expr_list
|
|
then Mutable
|
|
else Immutable in
|
|
let lam =
|
|
try
|
|
if mut = Mutable then raise Not_constant;
|
|
let cl = List.map extract_constant ll in
|
|
match repres with
|
|
Record_regular -> Lconst(Const_block(0, cl))
|
|
| Record_float ->
|
|
Lconst(Const_float_array(List.map extract_float cl))
|
|
with Not_constant ->
|
|
match repres with
|
|
Record_regular -> Lprim(Pmakeblock(0, mut), ll)
|
|
| Record_float -> Lprim(Pmakearray Pfloatarray, ll) in
|
|
begin match opt_init_expr with
|
|
None -> lam
|
|
| Some init_expr -> Llet(Strict, init_id, transl_exp init_expr, lam)
|
|
end
|
|
end else begin
|
|
(* Take a shallow copy of the init record, then mutate the fields
|
|
of the copy *)
|
|
(* If you change anything here, you will likely have to change
|
|
[check_recursive_recordwith] in this file. *)
|
|
let copy_id = Ident.create "newrecord" in
|
|
let rec update_field (lbl, expr) cont =
|
|
let upd =
|
|
match lbl.lbl_repres with
|
|
Record_regular -> Psetfield(lbl.lbl_pos, maybe_pointer expr)
|
|
| Record_float -> Psetfloatfield lbl.lbl_pos in
|
|
Lsequence(Lprim(upd, [Lvar copy_id; transl_exp expr]), cont) in
|
|
begin match opt_init_expr with
|
|
None -> assert false
|
|
| Some init_expr ->
|
|
Llet(Strict, copy_id,
|
|
Lprim(Pduprecord (repres, size), [transl_exp init_expr]),
|
|
List.fold_right update_field lbl_expr_list (Lvar copy_id))
|
|
end
|
|
end
|
|
|
|
(* Wrapper for class compilation *)
|
|
|
|
(*
|
|
let transl_exp = transl_exp_wrap
|
|
|
|
let transl_let rec_flag pat_expr_list body =
|
|
match pat_expr_list with
|
|
[] -> body
|
|
| (_, expr) :: _ ->
|
|
Translobj.oo_wrap expr.exp_env false
|
|
(transl_let rec_flag pat_expr_list) body
|
|
*)
|
|
|
|
(* Compile an exception definition *)
|
|
|
|
let transl_exception id path decl =
|
|
let name =
|
|
match path with
|
|
None -> Ident.name id
|
|
| Some p -> Path.name p in
|
|
Lprim(Pmakeblock(0, Immutable), [Lconst(Const_base(Const_string name))])
|
|
|
|
(* Error report *)
|
|
|
|
open Format
|
|
|
|
let report_error ppf = function
|
|
| Illegal_letrec_pat ->
|
|
fprintf ppf
|
|
"Only variables are allowed as left-hand side of `let rec'"
|
|
| Illegal_letrec_expr ->
|
|
fprintf ppf
|
|
"This kind of expression is not allowed as right-hand side of `let rec'"
|
|
| Free_super_var ->
|
|
fprintf ppf
|
|
"Ancestor names can only be used to select inherited methods"
|