YES(?,O(n^1))
1093.91/297.05	YES(?,O(n^1))
1093.91/297.05	
1093.91/297.05	We are left with following problem, upon which TcT provides the
1093.91/297.05	certificate YES(?,O(n^1)).
1093.91/297.05	
1093.91/297.05	Strict Trs:
1093.91/297.05	  { 0(1(2(1(x1)))) -> 1(2(1(1(0(1(2(0(1(2(x1))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) -> 1(2(1(1(0(1(2(0(1(2(0(1(2(x1)))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(x1))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1)))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1)))))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1))))))))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1)))))))))))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1))))))))))))))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1)))))))))))))))))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1))))))))))))))))))))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1)))))))))))))))))))))))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1))))))))))))))))))))))))))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1)))))))))))))))))))))))))))))))))))))))))))))))))
1093.91/297.05	  , 0(1(2(1(x1)))) ->
1093.91/297.05	    1(2(1(1(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(0(1(2(x1)))))))))))))))))))))))))))))))))))))))))))))))))))) }
1093.91/297.05	Obligation:
1093.91/297.05	  derivational complexity
1093.91/297.05	Answer:
1093.91/297.05	  YES(?,O(n^1))
1093.91/297.05	
1093.91/297.05	The problem is match-bounded by 3. The enriched problem is
1093.91/297.05	compatible with the following automaton.
1093.91/297.05	{ 0_0(1) -> 1
1093.91/297.05	, 0_1(6) -> 5
1093.91/297.05	, 0_1(9) -> 8
1093.91/297.05	, 0_2(26) -> 25
1093.91/297.05	, 0_2(29) -> 28
1093.91/297.05	, 0_2(32) -> 31
1093.91/297.05	, 0_2(38) -> 37
1093.91/297.05	, 0_3(50) -> 49
1093.91/297.05	, 0_3(53) -> 52
1093.91/297.05	, 0_3(56) -> 55
1093.91/297.05	, 0_3(59) -> 58
1093.91/297.05	, 0_3(62) -> 61
1093.91/297.05	, 0_3(68) -> 67
1093.91/297.05	, 0_3(71) -> 70
1093.91/297.05	, 0_3(74) -> 73
1093.91/297.05	, 0_3(77) -> 76
1093.91/297.05	, 0_3(80) -> 79
1093.91/297.05	, 0_3(83) -> 82
1093.91/297.05	, 0_3(89) -> 88
1093.91/297.05	, 0_3(92) -> 91
1093.91/297.05	, 0_3(95) -> 94
1093.91/297.05	, 0_3(98) -> 97
1093.91/297.05	, 0_3(101) -> 100
1093.91/297.05	, 0_3(104) -> 103
1093.91/297.05	, 0_3(107) -> 106
1093.91/297.05	, 0_3(113) -> 112
1093.91/297.05	, 0_3(116) -> 115
1093.91/297.05	, 0_3(119) -> 118
1093.91/297.05	, 0_3(122) -> 121
1093.91/297.05	, 0_3(125) -> 124
1093.91/297.05	, 0_3(128) -> 127
1093.91/297.05	, 0_3(131) -> 130
1093.91/297.05	, 0_3(134) -> 133
1093.91/297.05	, 1_0(1) -> 1
1093.91/297.05	, 1_1(2) -> 1
1093.91/297.05	, 1_1(2) -> 8
1093.91/297.05	, 1_1(4) -> 3
1093.91/297.05	, 1_1(5) -> 4
1093.91/297.05	, 1_1(7) -> 6
1093.91/297.05	, 1_1(10) -> 9
1093.91/297.05	, 1_2(22) -> 5
1093.91/297.05	, 1_2(22) -> 8
1093.91/297.05	, 1_2(24) -> 23
1093.91/297.05	, 1_2(25) -> 24
1093.91/297.05	, 1_2(27) -> 26
1093.91/297.05	, 1_2(28) -> 36
1093.91/297.05	, 1_2(30) -> 29
1093.91/297.05	, 1_2(33) -> 32
1093.91/297.05	, 1_2(34) -> 5
1093.91/297.05	, 1_2(34) -> 8
1093.91/297.05	, 1_2(36) -> 35
1093.91/297.05	, 1_2(37) -> 36
1093.91/297.05	, 1_2(39) -> 38
1093.91/297.05	, 1_3(46) -> 31
1093.91/297.05	, 1_3(48) -> 47
1093.91/297.05	, 1_3(49) -> 48
1093.91/297.05	, 1_3(51) -> 50
1093.91/297.05	, 1_3(52) -> 48
1093.91/297.05	, 1_3(54) -> 53
1093.91/297.05	, 1_3(55) -> 48
1093.91/297.05	, 1_3(57) -> 56
1093.91/297.05	, 1_3(58) -> 48
1093.91/297.05	, 1_3(60) -> 59
1093.91/297.05	, 1_3(63) -> 62
1093.91/297.05	, 1_3(64) -> 28
1093.91/297.05	, 1_3(66) -> 65
1093.91/297.05	, 1_3(67) -> 66
1093.91/297.05	, 1_3(69) -> 68
1093.91/297.05	, 1_3(70) -> 66
1093.91/297.05	, 1_3(72) -> 71
1093.91/297.05	, 1_3(73) -> 66
1093.91/297.05	, 1_3(75) -> 74
1093.91/297.05	, 1_3(76) -> 66
1093.91/297.05	, 1_3(78) -> 77
1093.91/297.05	, 1_3(79) -> 66
1093.91/297.05	, 1_3(81) -> 80
1093.91/297.05	, 1_3(84) -> 83
1093.91/297.05	, 1_3(85) -> 25
1093.91/297.05	, 1_3(87) -> 86
1093.91/297.05	, 1_3(88) -> 87
1093.91/297.05	, 1_3(90) -> 89
1093.91/297.05	, 1_3(91) -> 87
1093.91/297.05	, 1_3(93) -> 92
1093.91/297.05	, 1_3(94) -> 87
1093.91/297.05	, 1_3(96) -> 95
1093.91/297.05	, 1_3(97) -> 87
1093.91/297.05	, 1_3(99) -> 98
1093.91/297.05	, 1_3(100) -> 87
1093.91/297.05	, 1_3(102) -> 101
1093.91/297.05	, 1_3(103) -> 87
1093.91/297.05	, 1_3(105) -> 104
1093.91/297.05	, 1_3(108) -> 107
1093.91/297.05	, 1_3(109) -> 37
1093.91/297.05	, 1_3(111) -> 110
1093.91/297.05	, 1_3(112) -> 111
1093.91/297.05	, 1_3(114) -> 113
1093.91/297.05	, 1_3(115) -> 111
1093.91/297.05	, 1_3(117) -> 116
1093.91/297.05	, 1_3(118) -> 111
1093.91/297.05	, 1_3(120) -> 119
1093.91/297.05	, 1_3(121) -> 111
1093.91/297.05	, 1_3(123) -> 122
1093.91/297.05	, 1_3(124) -> 111
1093.91/297.05	, 1_3(126) -> 125
1093.91/297.05	, 1_3(127) -> 111
1093.91/297.05	, 1_3(129) -> 128
1093.91/297.05	, 1_3(130) -> 111
1093.91/297.05	, 1_3(132) -> 131
1093.91/297.05	, 1_3(135) -> 134
1093.91/297.05	, 2_0(1) -> 1
1093.91/297.05	, 2_1(1) -> 10
1093.91/297.05	, 2_1(2) -> 7
1093.91/297.05	, 2_1(3) -> 2
1093.91/297.05	, 2_1(4) -> 7
1093.91/297.05	, 2_1(5) -> 7
1093.91/297.05	, 2_1(8) -> 7
1093.91/297.05	, 2_2(2) -> 33
1093.91/297.05	, 2_2(5) -> 33
1093.91/297.05	, 2_2(22) -> 33
1093.91/297.05	, 2_2(23) -> 22
1093.91/297.05	, 2_2(25) -> 39
1093.91/297.05	, 2_2(28) -> 27
1093.91/297.05	, 2_2(31) -> 30
1093.91/297.05	, 2_2(34) -> 27
1093.91/297.05	, 2_2(35) -> 34
1093.91/297.05	, 2_2(37) -> 39
1093.91/297.05	, 2_3(22) -> 51
1093.91/297.05	, 2_3(34) -> 63
1093.91/297.05	, 2_3(46) -> 84
1093.91/297.05	, 2_3(47) -> 46
1093.91/297.05	, 2_3(49) -> 51
1093.91/297.05	, 2_3(52) -> 51
1093.91/297.05	, 2_3(55) -> 54
1093.91/297.05	, 2_3(58) -> 57
1093.91/297.05	, 2_3(61) -> 60
1093.91/297.05	, 2_3(64) -> 108
1093.91/297.05	, 2_3(65) -> 64
1093.91/297.05	, 2_3(67) -> 69
1093.91/297.05	, 2_3(70) -> 69
1093.91/297.05	, 2_3(73) -> 72
1093.91/297.05	, 2_3(76) -> 75
1093.91/297.05	, 2_3(79) -> 78
1093.91/297.05	, 2_3(82) -> 81
1093.91/297.05	, 2_3(85) -> 135
1093.91/297.05	, 2_3(86) -> 85
1093.91/297.05	, 2_3(88) -> 90
1093.91/297.05	, 2_3(91) -> 90
1093.91/297.05	, 2_3(94) -> 93
1093.91/297.05	, 2_3(97) -> 96
1093.91/297.05	, 2_3(100) -> 99
1093.91/297.05	, 2_3(103) -> 102
1093.91/297.05	, 2_3(106) -> 105
1093.91/297.05	, 2_3(109) -> 114
1093.91/297.05	, 2_3(110) -> 109
1093.91/297.05	, 2_3(112) -> 114
1093.91/297.05	, 2_3(115) -> 114
1093.91/297.05	, 2_3(118) -> 117
1093.91/297.05	, 2_3(121) -> 120
1093.91/297.05	, 2_3(124) -> 123
1093.91/297.05	, 2_3(127) -> 126
1093.91/297.05	, 2_3(130) -> 129
1093.91/297.05	, 2_3(133) -> 132 }
1093.91/297.05	
1093.91/297.05	Hurray, we answered YES(?,O(n^1))
1094.42/297.45	EOF