-- This file is part of SmartEiffel The GNU Eiffel Compiler. -- Copyright (C) 1994-2002 LORIA - INRIA - U.H.P. Nancy 1 - FRANCE -- Dominique COLNET and Suzanne COLLIN - SmartEiffel@loria.fr -- http://SmartEiffel.loria.fr -- SmartEiffel is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the Free -- Software Foundation; either version 2, or (at your option) any later -- version. SmartEiffel is distributed in the hope that it will be useful,but -- WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. You should have received a copy of the GNU General -- Public License along with SmartEiffel; see the file COPYING. If not, -- write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, -- Boston, MA 02111-1307, USA. -- class CALL_N -- -- For calls with more than one argument : "bar.foo(...)". -- For other calls, use CALL_0 or CALL_1. -- inherit CALL creation make feature is_pre_computable: BOOLEAN is false can_be_dropped: BOOLEAN is false arguments: EFFECTIVE_ARG_LIST to_integer_or_error: INTEGER is do to_integer_error end result_type: E_TYPE is local tla: TYPE_LIKE_ARGUMENT; e: EXPRESSION do Result := run_feature.result_type tla ?= Result if tla /= Void then e := arguments.expression(tla.rank) Result := e.result_type.run_type end end precedence: INTEGER is do Result := dot_precedence end compile_to_c is do call_proc_call_c2c end isa_dca_inline_argument: INTEGER is do end dca_inline_argument(formal_arg_type: E_TYPE) is do end arg_count: INTEGER is do Result := arguments.count end to_runnable(ct: E_TYPE): like Current is do if current_type = Void then current_type := ct runnable_target(ct) arguments := runnable_arguments(ct) run_feature_for(ct) Result := Current debug debug_info_update end run_feature_match else create Result.make(target,feature_name,arguments) Result := Result.to_runnable(ct) end end bracketed_pretty_print, pretty_print is do target.print_as_target pretty_printer.put_string(feature_name.to_string) pretty_printer.level_incr arguments.pretty_print pretty_printer.level_decr end short is do target.short_target run_feature.name.short arguments.short end short_target is do short short_print.a_dot end compile_to_jvm is do call_proc_call_c2jvm end jvm_branch_if_false: INTEGER is do Result := jvm_standard_branch_if_false end jvm_branch_if_true: INTEGER is do Result := jvm_standard_branch_if_true end assertion_check(tag: CHARACTER) is do if tag = 'R' then run_feature.vape_check_from(start_position) end target.assertion_check(tag) arguments.assertion_check(tag) end is_static: BOOLEAN is local run_time_set: RUN_TIME_SET; rf: like run_feature do run_time_set := run_feature.run_class.run_time_set if run_time_set.count = 1 then rf := run_time_set.first.dynamic(run_feature) if rf.is_static then Result := true end end end static_value: INTEGER is local run_time_set: RUN_TIME_SET; rf: like run_feature do run_time_set := run_feature.run_class.run_time_set if run_time_set.count = 1 then rf := run_time_set.first.dynamic(run_feature) if rf.is_static then Result := rf.static_value_mem end end end feature {RUN_FEATURE_3,RUN_FEATURE_4} finalize is local rc: RUN_CLASS; rf: RUN_FEATURE do rf := run_feature rc := rf.run_class run_feature := rc.run_time_set.first.dynamic(rf) end feature {NONE} make(t: like target; sn: like feature_name; a: like arguments) is require t /= Void sn /= Void a.count > 1 do target := t feature_name := sn arguments := a ensure target = t feature_name = sn arguments = a end run_feature_match is do run_feature_has_result smart_eiffel.argument_passing_check(feature_name.start_position, arguments,run_feature) end afd_check_hook is do end invariant arguments.count > 1 end -- CALL_N