-- 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 TYPE_BIT_2
--
-- Handling for example of "BIT Foo" type mark
--
inherit TYPE_BIT
creation make
feature
n: FEATURE_NAME
-- Which is supposed to gives the number of bits.
run_type: TYPE_BIT
-- When runnable, the corresponding one.
pretty_print is
do
pretty_printer.put_string(written_mark)
end
nb: INTEGER is
do
Result := run_type.nb
end
run_time_mark: STRING is
do
Result := run_type.written_mark
end
is_run_type: BOOLEAN is
do
Result := run_type /= Void
end
to_runnable(ct: E_TYPE): like Current is
local
rf: RUN_FEATURE; rf1: RUN_FEATURE_1; rf8: RUN_FEATURE_8
ic: INTEGER_CONSTANT; nb_value: INTEGER
do
if run_type = Void then
rf := n.run_feature(ct)
if rf = Void then
error_handler.feature_not_found(n)
error_handler.print_as_fatal_error
else
rf1 ?= rf
rf8 ?= rf
if rf1 /= Void then
ic ?= rf1.base_feature.value(1)
if ic = Void then
error_handler.add_position(n.start_position)
error_handler.add_position(rf1.start_position)
fatal_error(fz_iinaiv)
end
nb_value := ic.value
if nb_value < 0 then
error_handler.add_position(n.start_position)
error_handler.add_position(rf1.start_position)
fatal_error("Must be a positive INTEGER.")
end
create {TYPE_BIT_1}
run_type.make(start_position,ic)
elseif rf8 /= Void then
nb_value := rf8.integer_value(n.start_position)
create ic.make(0, -nb_value,n.start_position)
create {TYPE_BIT_1}
run_type.make(start_position,ic)
else
error_handler.add_position(n.start_position)
error_handler.add_position(rf.start_position)
fatal_error(fz_iinaiv)
end
Result := Current
to_runnable_1_2
end
else
create Result.make(start_position,n)
Result := Result.to_runnable(ct)
end
end
feature {E_TYPE}
short_hook is
do
short_print.a_class_name(base_class_name)
short_print.hook_or("tm_blank"," ")
n.short
end
feature {NONE}
make(sp: like start_position; name: like n) is
require
not sp.is_unknown
name /= Void
do
tmp_string.copy(as_bit)
tmp_string.extend(' ')
tmp_string.append(name.to_string)
written_mark := string_aliaser.item(tmp_string)
start_position := sp
n := name
end
invariant
n /= Void
end -- TYPE_BIT_2