blob: 2ca37679f0a073ba2ff1e050cdc2fdc5b7097ad4 (
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|
(*
* @LANG: ocaml
* @GENERATED: true
*)
let _zlen1_key_offsets : int array = [|
0; 0; 0 ;
|]
let _zlen1_trans_keys : int array = [|
0 ;
|]
let _zlen1_single_lengths : int array = [|
0; 0; 0 ;
|]
let _zlen1_range_lengths : int array = [|
0; 0; 0 ;
|]
let _zlen1_index_offsets : int array = [|
0; 0; 0 ;
|]
let _zlen1_trans_cond_spaces : int array = [|
-1; 0 ;
|]
let _zlen1_trans_offsets : int array = [|
0; 0 ;
|]
let _zlen1_trans_lengths : int array = [|
1; 0 ;
|]
let _zlen1_cond_keys : int array = [|
0; 0 ;
|]
let _zlen1_cond_targs : int array = [|
0; 0 ;
|]
let _zlen1_cond_actions : int array = [|
0; 0 ;
|]
let _zlen1_nfa_targs : int array = [|
0; 0 ;
|]
let _zlen1_nfa_offsets : int array = [|
0; 0; 0 ;
|]
let _zlen1_nfa_push_actions : int array = [|
0; 0 ;
|]
let _zlen1_nfa_pop_trans : int array = [|
0; 0 ;
|]
let zlen1_start : int = 1
let zlen1_first_final : int = 1
let zlen1_error : int = 0
let zlen1_en_main : int = 1
let exec data =
let buffer = String.create(1024) in
let blen :int ref = ref 0 in
let cs = ref 0 in
let p = ref 0 in
let pe = ref (String.length data) in
begin
cs := zlen1_start;
end;
begin
let _klen : int ref = ref 0 in
let _trans : int ref = ref 0 in
let _cond : int ref = ref 0 in
let _have : int ref = ref 0 in
let _cont : int ref = ref 1 in
let _keys : int ref = ref 0 in
let _ckeys : int ref = ref 0 in
let _cpc : int ref = ref 0 in
while _cont.contents= 1 do
begin
if cs.contents= 0 then
begin
_cont := 0;
end
;_have := 0;
if p.contents= pe.contents then
begin
begin
if _have.contents= 0 then
begin
_cont := 0;
end
;
end;
end
;if _cont.contents= 1 then
begin
begin
if _have.contents= 0 then
begin
begin
_keys := _zlen1_key_offsets.(cs.contents);
_trans := _zlen1_index_offsets.(cs.contents);
_have := 0;
_klen := _zlen1_single_lengths.(cs.contents);
if _klen.contents> 0 then
begin
begin
let _lower : int ref = ref 0 in
let _mid : int ref = ref 0 in
let _upper : int ref = ref 0 in
_lower := _keys.contents;
_upper := _keys.contents+ _klen.contents- 1;
while _upper.contents>= _lower.contents&& _have.contents= 0 do
begin
_mid := _lower.contents+ ( ( _upper.contents-_lower.contents ) asr 1 );
if ( Char.code data.[p.contents] )< _zlen1_trans_keys.( _mid.contents ) then
begin
_upper := _mid.contents- 1;
end
else if ( Char.code data.[p.contents] )> _zlen1_trans_keys.( _mid.contents ) then
begin
_lower := _mid.contents+ 1;
end
else
begin
begin
_trans := _trans.contents + ( _mid.contents- _keys.contents );
_have := 1;
end;
end
;
end;
done;
if _have.contents= 0 then
begin
begin
_keys := _keys.contents + _klen.contents;
_trans := _trans.contents + _klen.contents;
end;
end
;
end;
end
;if _have.contents= 0 then
begin
begin
_klen := _zlen1_range_lengths.(cs.contents);
if _klen.contents> 0 then
begin
begin
let _lower : int ref = ref 0 in
let _mid : int ref = ref 0 in
let _upper : int ref = ref 0 in
_lower := _keys.contents;
_upper := _keys.contents+ ( _klen.contents lsl 1 )- 2;
while _have.contents= 0 && _lower.contents<= _upper.contents do
begin
_mid := _lower.contents+ ( ( ( _upper.contents-_lower.contents ) asr 1 ) land lnot 1 );
if ( Char.code data.[p.contents] )< _zlen1_trans_keys.( _mid.contents ) then
begin
_upper := _mid.contents- 2;
end
else if ( Char.code data.[p.contents] )> _zlen1_trans_keys.( _mid.contents+ 1 ) then
begin
_lower := _mid.contents+ 2;
end
else
begin
begin
_trans := _trans.contents + ( ( _mid.contents- _keys.contents ) asr 1 );
_have := 1;
end;
end
;
end;
done;
if _have.contents= 0 then
begin
_trans := _trans.contents + _klen.contents;
end
;
end;
end
;
end;
end
;_ckeys := _zlen1_trans_offsets.(_trans.contents);
_klen := _zlen1_trans_lengths.(_trans.contents);
_cond := _zlen1_trans_offsets.(_trans.contents);
_have := 0;
_cpc := 0;
begin
let _lower : int ref = ref 0 in
let _mid : int ref = ref 0 in
let _upper : int ref = ref 0 in
_lower := _ckeys.contents;
_upper := _ckeys.contents+ _klen.contents- 1;
while _have.contents= 0 && _lower.contents<= _upper.contents do
begin
_mid := _lower.contents+ ( ( _upper.contents-_lower.contents ) asr 1 );
if _cpc.contents< _zlen1_cond_keys.( _mid.contents ) then
begin
_upper := _mid.contents- 1;
end
else if _cpc.contents> _zlen1_cond_keys.( _mid.contents ) then
begin
_lower := _mid.contents+ 1;
end
else
begin
begin
_cond := _cond.contents + ( _mid.contents- _ckeys.contents );
_have := 1;
end;
end
;
end;
done;
if _have.contents= 0 then
begin
begin
cs := 0;
_cont := 0;
end;
end
;
end;
end;
end
;if _cont.contents= 1 then
begin
begin
cs := _zlen1_cond_targs.(_cond.contents);
if cs.contents= 0 then
begin
_cont := 0;
end
;if _cont.contents= 1 then
begin
p := p.contents + 1;
end
;
end;
end
;
end;
end
;
end;
done;
end;
if !cs >= zlen1_first_final then
print_string "ACCEPT\n"
else
print_string "FAIL\n"
;;
let () =
exec "";
exec "x";
()
;;
|