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|
-- This file is part of SmartEiffel The GNU Eiffel Compiler Tools and Libraries
--
-- 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.
--
-- Copyright(C) 1994-2002: INRIA - LORIA (INRIA Lorraine) - ESIAL U.H.P.
-- - University of Nancy 1 - FRANCE
-- Copyright(C) 2003: INRIA - LORIA (INRIA Lorraine) - I.U.T. Charlemagne
-- - University of Nancy 2 - FRANCE
--
-- Dominique COLNET, Suzanne COLLIN, Olivier ZENDRA,
-- Philippe RIBET, Cyril ADRIAN
--
-- http://SmartEiffel.loria.fr - SmartEiffel@loria.fr
--
class TUPLE_EXPRESSION
--
-- Like: [ foo , bar ]
--
inherit EXPRESSION
creation make
feature
start_position: POSITION
-- Of opening bracket.
result_type: TYPE_TUPLE
-- Computed according to the actual `list'.
is_void: BOOLEAN is False
is_current: BOOLEAN is False
side_effect_free: BOOLEAN is False
isa_dca_inline_argument: INTEGER is 0
extra_bracket_flag: BOOLEAN is True
precedence: INTEGER is 2
is_static: BOOLEAN is False
is_manifest_string: BOOLEAN is False
is_result: BOOLEAN is False
is_writable: BOOLEAN is False
bracketed_pretty_print is
do
pretty_printer.put_character('(')
pretty_print
pretty_printer.put_character(')')
end
pretty_print is
local
i: INTEGER
do
pretty_printer.put_character('[')
pretty_printer.indent_level_increment
if list /= Void then
from
i := list.lower
until
i > list.upper
loop
list.item(i).pretty_print
i := i + 1
if i <= list.upper then
pretty_printer.put_character(',')
pretty_printer.put_character(' ')
end
end
end
pretty_printer.put_character(']')
pretty_printer.indent_level_decrement
end
print_as_target is
do
pretty_printer.put_character('(')
pretty_print
pretty_printer.put_character(')')
pretty_printer.put_character('.')
end
short is
local
i: INTEGER
do
short_print.hook_or(once "open_sb",once "[")
if list /= Void then
from
i := list.lower
until
i > list.upper
loop
list.item(i).short
i := i + 1
if i <= list.upper then
short_print.hook_or(once "ma_sep",once ",")
end
end
end
short_print.hook_or(once "close_sb",once "]")
end
short_target is
do
bracketed_short
short_print.a_dot
end
to_integer_or_error: INTEGER is
do
to_integer_error
end
start_lookup_class: BASE_CLASS is do end
stupid_switch(run_time_set: RUN_TIME_SET): BOOLEAN is
local
i: INTEGER
do
Result := True
if list /= Void then
from
i := list.upper
until
not Result or else i < list.lower
loop
Result := list.item(i).stupid_switch(run_time_set)
i := i - 1
end
end
end
to_runnable(ct: E_TYPE): like Current is
do
Result := to_runnable_(ct)
if nb_errors = 0 then
Result.result_type.run_class.set_at_run_time
end
end
simplify_1_, simplify_2: like Current is
do
Result := Current
end
use_current: BOOLEAN is
local
i: INTEGER
do
if list /= Void then
from
i := list.upper
until
i < list.lower or else Result
loop
Result := list.item(i).use_current
i := i - 1
end
end
end
afd_check is
local
i: INTEGER
do
if list /= Void then
from
i := list.upper
until
i < list.lower
loop
list.item(i).afd_check
i := i - 1
end
end
end
safety_check is
local
i: INTEGER
do
if list /= Void then
from
i := list.upper
until
i < list.lower
loop
list.item(i).safety_check
i := i - 1
end
end
end
once_pre_computable: BOOLEAN is
do
-- At time beeing, TUPLE expression are never handled :-(
end
assertion_check(tag: CHARACTER) is
local
i: INTEGER; e: EXPRESSION
do
if list /= Void then
from
i := list.upper
until
i < list.lower
loop
e := list.item(i)
e.assertion_check(tag)
i := i - 1
end
end
end
dca_inline_argument(formal_arg_type: E_TYPE) is
do
end
collect_c_tmp is
local
i: INTEGER
do
if list /= Void then
from
i := list.upper
until
i < list.lower
loop
list.item(i).collect_c_tmp
i := i - 1
end
end
end
c_frame_descriptor(format, locals: STRING) is
local
i: INTEGER
do
if list /= Void then
from
i := list.upper
until
i < list.lower
loop
list.item(i).c_frame_descriptor(format,locals)
i := i - 1
end
end
end
jvm_assign_creation, jvm_assign is
do
check False end
end
jvm_branch_if_false: INTEGER is
do
check False end
end
jvm_branch_if_true: INTEGER is
do
check False end
end
compile_target_to_jvm, compile_to_jvm is
local
i: INTEGER; e: EXPRESSION; idx: INTEGER; cd: STRING; d: STRING
do
result_type.run_class.jvm_basic_new
create cd.make(32)
create d.make(32)
if list /= Void then
from
i := list.lower
until
i > list.upper
loop
code_attribute.opcode_dup
e := list.item(i)
e.compile_to_jvm
cd.wipe_out
cd.append(result_type.run_class.fully_qualified_name)
d.wipe_out
if e.result_type.is_basic_eiffel_expanded then
e.result_type.jvm_descriptor_in(d)
else
e.result_type.jvm_descriptor_in(d)
end
idx := constant_pool.idx_fieldref3(cd,
result_type.item_name(i-list.lower+1),d)
code_attribute.opcode_putfield(idx,-2)
i := i + 1
end
end
end
compile_to_jvm_into(dest: E_TYPE): INTEGER is
do
Result := 1
compile_to_jvm
end
mapping_c_target(target_type: E_TYPE) is
do
cpp.put_character('(')
target_type.mapping_cast
compile_to_c
cpp.put_character(')')
end
mapping_c_arg(formal_arg_type: E_TYPE) is
do
compile_to_c
end
compile_to_c is
local
i: INTEGER; e: EXPRESSION; t: E_TYPE
do
cpp.put_string(once "new_tuple")
cpp.put_integer(result_type.id)
cpp.put_character('(')
if list /= Void then
from
i := list.lower
until
i > list.upper
loop
e := list.item(i)
t := e.result_type
e.mapping_c_arg(t)
if i < list.upper then
cpp.put_character(',')
cpp.put_character('%N')
end
i := i + 1
end
end
cpp.put_character(')')
end
feature {FAKE_TUPLE}
list: FIXED_ARRAY[EXPRESSION]
-- Void or elements in the manifest array.
debug_info: STRING
to_runnable_(ct: E_TYPE): like Current is
local
i: INTEGER; e: EXPRESSION; types: ARRAY[E_TYPE]
l: like list
do
if current_type = Void then
current_type := ct
if list /= Void then
from
create types.with_capacity(list.count,1)
i := list.lower
until
i > list.upper
loop
e := list.item(i).to_runnable(ct)
if e = Void then
error_handler.add_position(start_position)
error(list.item(i).start_position,
"Bad expression inside TUPLE.")
i := list.upper + 1
else
list.put(e,i)
types.add_last(e.result_type.run_type)
i := i + 1
end
end
end
if nb_errors = 0 then
create result_type.make(start_position,types)
result_type := result_type.to_runnable(ct)
Result := Current
end
else
l := list
if l /= Void then
l := l.twin
end
create Result.make(start_position,l)
Result := Result.to_runnable(ct)
end
debug
debug_info := result_type.run_time_mark
end
end
feature {TUPLE_EXPRESSION_VISITOR}
accept(visitor: TUPLE_EXPRESSION_VISITOR) is
do
visitor.visit_tuple_expression(Current)
end
feature {NONE}
current_type: E_TYPE
make(sp: like start_position; l: like list) is
require
not sp.is_unknown
l /= Void implies not l.is_empty
do
start_position := sp
list := l
ensure
start_position = sp
list = l
end
end
|
