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|
#
# @LANG: ruby
# @GENERATED: true
#
class << self
attr_accessor :_state_act_key_offsets
private :_state_act_key_offsets, :_state_act_key_offsets=
end
self._state_act_key_offsets = [
0, 0, 1, 2, 3, 4, 0 ,
]
class << self
attr_accessor :_state_act_trans_keys
private :_state_act_trans_keys, :_state_act_trans_keys=
end
self._state_act_trans_keys = [
105, 10, 104, 104, 104, 0 ,
]
class << self
attr_accessor :_state_act_single_lengths
private :_state_act_single_lengths, :_state_act_single_lengths=
end
self._state_act_single_lengths = [
0, 1, 1, 1, 1, 1, 0 ,
]
class << self
attr_accessor :_state_act_range_lengths
private :_state_act_range_lengths, :_state_act_range_lengths=
end
self._state_act_range_lengths = [
0, 0, 0, 0, 0, 0, 0 ,
]
class << self
attr_accessor :_state_act_index_offsets
private :_state_act_index_offsets, :_state_act_index_offsets=
end
self._state_act_index_offsets = [
0, 0, 2, 4, 6, 8, 0 ,
]
class << self
attr_accessor :_state_act_trans_cond_spaces
private :_state_act_trans_cond_spaces, :_state_act_trans_cond_spaces=
end
self._state_act_trans_cond_spaces = [
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, 0 ,
]
class << self
attr_accessor :_state_act_trans_offsets
private :_state_act_trans_offsets, :_state_act_trans_offsets=
end
self._state_act_trans_offsets = [
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0 ,
]
class << self
attr_accessor :_state_act_trans_lengths
private :_state_act_trans_lengths, :_state_act_trans_lengths=
end
self._state_act_trans_lengths = [
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0 ,
]
class << self
attr_accessor :_state_act_cond_keys
private :_state_act_cond_keys, :_state_act_cond_keys=
end
self._state_act_cond_keys = [
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ,
]
class << self
attr_accessor :_state_act_cond_targs
private :_state_act_cond_targs, :_state_act_cond_targs=
end
self._state_act_cond_targs = [
2, 0, 5, 0, 1, 0, 1, 0, 1, 0, 0 ,
]
class << self
attr_accessor :_state_act_cond_actions
private :_state_act_cond_actions, :_state_act_cond_actions=
end
self._state_act_cond_actions = [
0, 0, 3, 0, 0, 0, 0, 0, 0, 0, 0 ,
]
class << self
attr_accessor :_state_act_to_state_actions
private :_state_act_to_state_actions, :_state_act_to_state_actions=
end
self._state_act_to_state_actions = [
0, 0, 1, 4, 6, 4, 0 ,
]
class << self
attr_accessor :_state_act_from_state_actions
private :_state_act_from_state_actions, :_state_act_from_state_actions=
end
self._state_act_from_state_actions = [
0, 0, 2, 5, 7, 5, 0 ,
]
class << self
attr_accessor :_state_act_nfa_targs
private :_state_act_nfa_targs, :_state_act_nfa_targs=
end
self._state_act_nfa_targs = [
0, 0 ,
]
class << self
attr_accessor :_state_act_nfa_offsets
private :_state_act_nfa_offsets, :_state_act_nfa_offsets=
end
self._state_act_nfa_offsets = [
0, 0, 0, 0, 0, 0, 0 ,
]
class << self
attr_accessor :_state_act_nfa_push_actions
private :_state_act_nfa_push_actions, :_state_act_nfa_push_actions=
end
self._state_act_nfa_push_actions = [
0, 0 ,
]
class << self
attr_accessor :_state_act_nfa_pop_trans
private :_state_act_nfa_pop_trans, :_state_act_nfa_pop_trans=
end
self._state_act_nfa_pop_trans = [
0, 0 ,
]
class << self
attr_accessor :state_act_start
end
self.state_act_start = 4;
class << self
attr_accessor :state_act_first_final
end
self.state_act_first_final = 4;
class << self
attr_accessor :state_act_error
end
self.state_act_error = 0;
class << self
attr_accessor :state_act_en_main
end
self.state_act_en_main = 4;
class << self
attr_accessor :state_act_en_main_line_again
end
self.state_act_en_main_line_again = 3;
def run_machine( data )
p = 0
pe = data.length
eof = data.length
cs = 0;
_m =
_a =
buffer = Array.new
blen = 0
begin
cs = state_act_start;
end
begin
_klen= 0
;
_keys = 0;
_ckeys = 0;
_cpc= 0
;
_trans= 0
;
_cond = 0;
_have = 0;
_cont = 1;
while ( _cont == 1 )
begin
if ( cs == 0 )
_cont = 0;
end
_have = 0;
if ( p == pe )
begin
if ( _have == 0 )
_cont = 0;
end
end
end
if ( _cont == 1 )
begin
if ( _have == 0 )
begin
case _state_act_from_state_actions[cs]
when -2 then
begin
end
when 5 then
begin
begin
print( "b2\n" );
end
end
when 2 then
begin
begin
print( "c2\n" );
end
end
when 7 then
begin
begin
print( "a2\n" );
end
begin
print( "b2\n" );
end
end
end
_keys = _state_act_key_offsets[cs] ;
_trans = _state_act_index_offsets[cs];
_have = 0;
_klen = _state_act_single_lengths[cs];
if ( _klen > 0 )
begin
_lower = 0;
_mid = 0;
_upper = 0;
_lower = _keys;
_upper = _keys + _klen - 1;
while ( _upper >= _lower && _have == 0 )
begin
_mid = _lower + ((_upper-_lower) >> 1);
if ( ( data[p ].ord) < _state_act_trans_keys[_mid ] )
_upper = _mid - 1;
elsif ( ( data[p ].ord) > _state_act_trans_keys[_mid ] )
_lower = _mid + 1;
else
begin
_trans += (_mid - _keys);
_have = 1;
end
end
end
end
if ( _have == 0 )
begin
_keys += _klen;
_trans += _klen;
end
end
end
end
if ( _have == 0 )
begin
_klen = _state_act_range_lengths[cs];
if ( _klen > 0 )
begin
_lower = 0;
_mid = 0;
_upper = 0;
_lower = _keys;
_upper = _keys + (_klen<<1) - 2;
while ( _have == 0 && _lower <= _upper )
begin
_mid = _lower + (((_upper-_lower) >> 1) & ~1);
if ( ( data[p ].ord) < _state_act_trans_keys[_mid ] )
_upper = _mid - 2;
elsif ( ( data[p ].ord) > _state_act_trans_keys[_mid + 1 ] )
_lower = _mid + 2;
else
begin
_trans += ((_mid - _keys)>>1);
_have = 1;
end
end
end
end
if ( _have == 0 )
_trans += _klen;
end
end
end
end
end
_ckeys = _state_act_trans_offsets[_trans] ;
_klen = _state_act_trans_lengths[_trans];
_cond = _state_act_trans_offsets[_trans];
_have = 0;
_cpc = 0;
begin
_lower = 0;
_mid = 0;
_upper = 0;
_lower = _ckeys;
_upper = _ckeys + _klen - 1;
while ( _have == 0 && _lower <= _upper )
begin
_mid = _lower + ((_upper-_lower) >> 1);
if ( _cpc < _state_act_cond_keys[_mid ] )
_upper = _mid - 1;
elsif ( _cpc > _state_act_cond_keys[_mid ] )
_lower = _mid + 1;
else
begin
_cond += (_mid - _ckeys);
_have = 1;
end
end
end
end
if ( _have == 0 )
begin
cs = 0;
_cont = 0;
end
end
end
end
end
if ( _cont == 1 )
begin
cs = _state_act_cond_targs[_cond];
case _state_act_cond_actions[_cond]
when -2 then
begin
end
when 3 then
begin
begin
begin
cs = 3;
end
end
end
end
case _state_act_to_state_actions[cs]
when -2 then
begin
end
when 4 then
begin
begin
print( "b1\n" );
end
end
when 1 then
begin
begin
print( "c1\n" );
end
end
when 6 then
begin
begin
print( "a1\n" );
end
begin
print( "b1\n" );
end
end
end
if ( cs == 0 )
_cont = 0;
end
if ( _cont == 1 )
p += 1;
end
end
end
end
end
end
end
end
if cs >= state_act_first_final
puts "ACCEPT"
else
puts "FAIL"
end
end
inp = [
"hi\nhi\n",
]
inplen = 1
inp.each { |str| run_machine(str) }
|
