(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Jerome Vouillon, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1997 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. *) (* *) (***********************************************************************) (* $Id$ *) (* Inclusion checks for the class language *) open Types let class_types env cty1 cty2 = Ctype.match_class_types env cty1 cty2 let class_type_declarations env cty1 cty2 = Ctype.match_class_declarations env cty1.clty_params cty1.clty_type cty2.clty_params cty2.clty_type let class_declarations env cty1 cty2 = match cty1.cty_new, cty2.cty_new with None, Some _ -> [Ctype.CM_Virtual_class] | _ -> Ctype.match_class_declarations env cty1.cty_params cty1.cty_type cty2.cty_params cty2.cty_type open Formatmsg open Ctype let include_err = function CM_Virtual_class -> print_string "A class cannot be changed from virtual to concrete" | CM_Parameter_arity_mismatch (ls, lp) -> print_string "The classes do not have the same number of type parameters" | CM_Type_parameter_mismatch trace -> open_box 0; Printtyp.unification_error false trace (function () -> print_string "One type parameter has type") (function () -> print_string "but is expected to have type"); close_box () | CM_Class_type_mismatch (cty1, cty2) -> open_box 0; print_string "The class type"; print_break 1 2; Printtyp.class_type cty1; print_space (); print_string "is not matched by the class type"; print_break 1 2; Printtyp.class_type cty2; close_box () | CM_Parameter_mismatch trace -> open_box 0; Printtyp.unification_error false trace (function () -> print_string "One parameter has type") (function () -> print_string "but is expected to have type"); close_box () | CM_Val_type_mismatch (lab, trace) -> open_box 0; Printtyp.unification_error false trace (function () -> print_string "The instance variable "; print_string lab; print_space (); print_string "has type") (function () -> print_string "but is expected to have type"); close_box () | CM_Meth_type_mismatch (lab, trace) -> open_box 0; Printtyp.unification_error false trace (function () -> print_string "The method "; print_string lab; print_space (); print_string "has type") (function () -> print_string "but is expected to have type"); close_box () | CM_Non_mutable_value lab -> open_box 0; print_string "The non-mutable instance variable "; print_string lab; print_string " cannot become mutable"; close_box () | CM_Missing_value lab -> open_box 0; print_string "The first class type has no instance variable "; print_string lab; close_box () | CM_Missing_method lab -> open_box 0; print_string "The first class type has no method "; print_string lab; close_box () | CM_Hide_public lab -> open_box 0; print_string "The public method "; print_string lab; print_string " cannot be hidden"; close_box () | CM_Hide_virtual lab -> open_box 0; print_string "The virtual method "; print_string lab; print_string " cannot be hidden"; close_box () | CM_Public_method lab -> open_box 0; print_string "The public method "; print_string lab; print_string " cannot become private"; close_box () | CM_Virtual_method lab -> open_box 0; print_string "The virtual method "; print_string lab; print_string " cannot become concrete"; close_box () | CM_Private_method lab -> open_box 0; print_string "The private method "; print_string lab; print_string " cannot become public"; close_box () let report_error errlist = match errlist with [] -> () | err :: rem -> open_vbox 0; include_err err; List.iter (fun err -> print_space(); include_err err) rem; close_box()