0.001/0.001	NO
0.001/0.001	
0.001/0.001	Problem 1:
0.001/0.001	
0.001/0.001	
0.001/0.001	:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
0.001/0.001	Confluence Problem:
0.001/0.001	(VAR vNonEmpty:S I:S P:S X:S Y:S Z:S)
0.001/0.001	(STRATEGY CONTEXTSENSITIVE
0.001/0.001	(__ 1 2)
0.001/0.001	(and 1)
0.001/0.001	(isNePal 1)
0.001/0.001	(fSNonEmpty)
0.001/0.001	(nil)
0.001/0.001	(tt)
0.001/0.001	)
0.001/0.001	(RULES
0.001/0.001	__(__(X:S,Y:S),Z:S) -> __(X:S,__(Y:S,Z:S))
0.001/0.001	__(nil,X:S) -> X:S
0.001/0.001	__(X:S,nil) -> X:S
0.001/0.001	and(tt,X:S) -> X:S
0.001/0.001	isNePal(__(I:S,__(P:S,I:S))) -> tt
0.001/0.001	)
0.001/0.001	:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
0.001/0.001	
0.001/0.001	
0.001/0.001	Problem 1:
0.001/0.001	
0.001/0.001	CleanTRS Processor:
0.001/0.001	
0.001/0.001	:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
0.001/0.001	Confluence Problem:
0.001/0.001	(VAR vNonEmpty:S I:S P:S X:S Y:S Z:S)
0.001/0.001	(STRATEGY CONTEXTSENSITIVE
0.001/0.001	(__ 1 2)
0.001/0.001	(and 1)
0.001/0.001	(isNePal 1)
0.001/0.001	(fSNonEmpty)
0.001/0.001	(nil)
0.001/0.001	(tt)
0.001/0.001	)
0.001/0.001	(RULES
0.001/0.001	__(__(X:S,Y:S),Z:S) -> __(X:S,__(Y:S,Z:S))
0.001/0.001	__(nil,X:S) -> X:S
0.001/0.001	__(X:S,nil) -> X:S
0.001/0.001	and(tt,X:S) -> X:S
0.001/0.001	isNePal(__(I:S,__(P:S,I:S))) -> tt
0.001/0.001	)
0.001/0.001	:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
0.001/0.001	
0.001/0.001	
0.001/0.001	Problem 1:
0.001/0.001	
0.001/0.001	Modular Confluence Combinations Decomposition Processor:
0.001/0.001	It is a CTRS -> No modular confluence
0.001/0.001	
0.001/0.001	Problem 1:
0.001/0.001	Left-Homogeneous u-Replacing Variables Processor:
0.001/0.001	R satisfies LHRV condition
0.001/0.001	
0.001/0.001	Problem 1:
0.001/0.001	:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
0.001/0.001	Confluence Problem:
0.001/0.001	(VAR vNonEmpty:S I:S P:S X:S Y:S Z:S)
0.001/0.001	(STRATEGY CONTEXTSENSITIVE
0.001/0.001	(__ 1 2)
0.001/0.001	(and 1)
0.001/0.001	(isNePal 1)
0.001/0.001	(fSNonEmpty)
0.001/0.001	(nil)
0.001/0.001	(tt)
0.001/0.001	)
0.001/0.001	(RULES
0.001/0.001	__(__(X:S,Y:S),Z:S) -> __(X:S,__(Y:S,Z:S))
0.001/0.001	__(nil,X:S) -> X:S
0.001/0.001	__(X:S,nil) -> X:S
0.001/0.001	and(tt,X:S) -> X:S
0.001/0.001	isNePal(__(I:S,__(P:S,I:S))) -> tt
0.001/0.001	)
0.001/0.001	:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
0.001/0.001	
0.001/0.001	Huet Levy Processor:
0.001/0.001	-> Rules:
0.001/0.001	 __(__(X:S,Y:S),Z:S) -> __(X:S,__(Y:S,Z:S))
0.001/0.001	 __(nil,X:S) -> X:S
0.001/0.001	 __(X:S,nil) -> X:S
0.001/0.001	 and(tt,X:S) -> X:S
0.001/0.001	 isNePal(__(I:S,__(P:S,I:S))) -> tt
0.001/0.001	-> Vars:
0.001/0.001	 X, Y, Z, X, X, X, I, P
0.001/0.001	-> UVars:
0.001/0.001	 (UV-RuleId: 1, UV-LActive: [X, Y, Z], UV-RActive: [X, Y, Z], UV-LFrozen: [], UV-RFrozen: [])
0.001/0.001	 (UV-RuleId: 2, UV-LActive: [X], UV-RActive: [X], UV-LFrozen: [], UV-RFrozen: [])
0.001/0.001	 (UV-RuleId: 3, UV-LActive: [X], UV-RActive: [X], UV-LFrozen: [], UV-RFrozen: [])
0.001/0.001	 (UV-RuleId: 4, UV-LActive: [], UV-RActive: [X], UV-LFrozen: [X], UV-RFrozen: [])
0.001/0.001	 (UV-RuleId: 5, UV-LActive: [I, P], UV-RActive: [], UV-LFrozen: [], UV-RFrozen: [])
0.001/0.001	-> FVars:
0.001/0.001	 x6, x7, x8, x9, x10, x11, x12, x13
0.001/0.001	-> PVars:
0.001/0.001	 X: [x6, x9, x10, x11], Y: [x7], Z: [x8], I: [x12], P: [x13]
0.001/0.001	
0.001/0.001	-> Rlps:
0.001/0.001	 (rule: __(__(x6:S,x7:S),x8:S) -> __(x6:S,__(x7:S,x8:S)), id: 1, possubterms: __(__(x6:S,x7:S),x8:S)->[], __(x6:S,x7:S)->[1])
0.001/0.001	 (rule: __(nil,x9:S) -> x9:S, id: 2, possubterms: __(nil,x9:S)->[], nil->[1])
0.001/0.001	 (rule: __(x10:S,nil) -> x10:S, id: 3, possubterms: __(x10:S,nil)->[], nil->[2])
0.001/0.001	 (rule: and(tt,x11:S) -> x11:S, id: 4, possubterms: and(tt,x11:S)->[], tt->[1])
0.001/0.001	 (rule: isNePal(__(x12:S,__(x13:S,x12:S))) -> tt, id: 5, possubterms: isNePal(__(x12:S,__(x13:S,x12:S)))->[], __(x12:S,__(x13:S,x12:S))->[1], __(x13:S,x12:S)->[1, 2])
0.001/0.001	
0.001/0.001	-> Unifications:
0.001/0.001	(R1 unifies with R1 at p: [1], l: __(__(x6:S,x7:S),x8:S), lp: __(x6:S,x7:S), sig: {x6:S -> __(X:S,Y:S),x7:S -> Z:S}, l': __(__(X:S,Y:S),Z:S), r: __(x6:S,__(x7:S,x8:S)), r': __(X:S,__(Y:S,Z:S)))
0.001/0.001	(R1 unifies with R2 at p: [1], l: __(__(x6:S,x7:S),x8:S), lp: __(x6:S,x7:S), sig: {x6:S -> nil,x7:S -> X:S}, l': __(nil,X:S), r: __(x6:S,__(x7:S,x8:S)), r': X:S)
0.001/0.001	(R1 unifies with R3 at p: [1], l: __(__(x6:S,x7:S),x8:S), lp: __(x6:S,x7:S), sig: {x6:S -> X:S,x7:S -> nil}, l': __(X:S,nil), r: __(x6:S,__(x7:S,x8:S)), r': X:S)
0.001/0.001	(R3 unifies with R1 at p: [], l: __(x10:S,nil), lp: __(x10:S,nil), sig: {Z:S -> nil,x10:S -> __(X:S,Y:S)}, l': __(__(X:S,Y:S),Z:S), r: x10:S, r': __(X:S,__(Y:S,Z:S)))
0.001/0.001	(R3 unifies with R2 at p: [], l: __(x10:S,nil), lp: __(x10:S,nil), sig: {X:S -> nil,x10:S -> nil}, l': __(nil,X:S), r: x10:S, r': X:S)
0.001/0.001	(R5 unifies with R1 at p: [1], l: isNePal(__(x12:S,__(x13:S,x12:S))), lp: __(x12:S,__(x13:S,x12:S)), sig: {Z:S -> __(x13:S,__(X:S,Y:S)),x12:S -> __(X:S,Y:S)}, l': __(__(X:S,Y:S),Z:S), r: tt, r': __(X:S,__(Y:S,Z:S)))
0.001/0.001	(R5 unifies with R2 at p: [1], l: isNePal(__(x12:S,__(x13:S,x12:S))), lp: __(x12:S,__(x13:S,x12:S)), sig: {X:S -> __(x13:S,nil),x12:S -> nil}, l': __(nil,X:S), r: tt, r': X:S)
0.001/0.001	(R5 unifies with R1 at p: [1,2], l: isNePal(__(x12:S,__(x13:S,x12:S))), lp: __(x13:S,x12:S), sig: {x12:S -> Z:S,x13:S -> __(X:S,Y:S)}, l': __(__(X:S,Y:S),Z:S), r: tt, r': __(X:S,__(Y:S,Z:S)))
0.001/0.001	(R5 unifies with R2 at p: [1,2], l: isNePal(__(x12:S,__(x13:S,x12:S))), lp: __(x13:S,x12:S), sig: {x12:S -> X:S,x13:S -> nil}, l': __(nil,X:S), r: tt, r': X:S)
0.001/0.001	(R5 unifies with R3 at p: [1,2], l: isNePal(__(x12:S,__(x13:S,x12:S))), lp: __(x13:S,x12:S), sig: {x12:S -> nil,x13:S -> X:S}, l': __(X:S,nil), r: tt, r': X:S)
0.001/0.001	
0.001/0.001	-> Critical pairs info:
0.001/0.001	<isNePal(__(Z:S,__(X:S,__(Y:S,Z:S)))),tt>   =>  Not trivial, Not overlay, NW0, N1
0.001/0.001	<isNePal(__(P:S,nil)),tt>   =>  Not trivial, Not overlay, NW0, N2
0.001/0.001	<__(X:S,Z:S),__(X:S,__(nil,Z:S))>   =>  Not trivial, Not overlay, NW0, N3
0.001/0.001	<isNePal(__(X:S,X:S)),tt>   =>  Not trivial, Not overlay, NW0, N4
0.001/0.001	<__(__(X:S,__(Y:S,Z:S)),Z:S),__(__(X:S,Y:S),__(Z:S,Z:S))>   =>  Not trivial, Not overlay, NW0, N5
0.001/0.001	<isNePal(__(nil,X:S)),tt>   =>  Not trivial, Not overlay, NW0, N6
0.001/0.001	<__(X:S,__(Y:S,nil)),__(X:S,Y:S)>   =>  Not trivial, Overlay, NW0, N7
0.001/0.001	<nil,nil>   =>  Trivial, Overlay, NW0, N8
0.001/0.001	<isNePal(__(X:S,__(Y:S,__(P:S,__(X:S,Y:S))))),tt>   =>  Not trivial, Not overlay, NW0, N9
0.001/0.001	<__(X:S,Z:S),__(nil,__(X:S,Z:S))>   =>  Not trivial, Not overlay, NW0, N10
0.001/0.001	
0.001/0.001	-> Problem conclusions:
0.001/0.001	 Not left linear, Right linear, Not linear
0.001/0.001	 Not weakly orthogonal, Not almost orthogonal, Not orthogonal
0.001/0.001	 Not Huet-Levy confluent, Not Newman confluent
0.001/0.001	 R is a CS-TRS, Left-homogeneous u-replacing variables
0.001/0.001	
0.001/0.001	
0.001/0.001	Problem 1:
0.001/0.001	Different Normal CP Terms Processor:
0.001/0.001	<isNePal(__(Z:S,__(X:S,__(Y:S,Z:S)))),tt>   =>  Not trivial, Not overlay, NW0, N1, Normal and not trivial cp
0.001/0.001	
0.001/0.001	The problem is not joinable.
0.001/0.001	0.00user 0.00system 0:00.01elapsed 58%CPU (0avgtext+0avgdata 9044maxresident)k
0.001/0.001	0inputs+0outputs (0major+740minor)pagefaults 0swaps