Certification Problem

Input (TPDB TRS_Relative/INVY_15/#3.49_rand)

The relative rewrite relation R/S is considered where R is the following TRS

f(c(s(x),y))	→	f(c(x,s(y)))	(1)
f(c(s(x),s(y)))	→	g(c(x,y))	(2)
g(c(x,s(y)))	→	g(c(s(x),y))	(3)
g(c(s(x),s(y)))	→	f(c(x,y))	(4)

and S is the following TRS.

rand(x)	→	rand(s(x))	(5)
rand(x)	→	x	(6)

Property / Task

Prove or disprove termination.

Answer / Result

Yes.

Proof (by AProVE @ termCOMP 2023)

1 Rule Removal

Using the linear polynomial interpretation over the naturals

[f(x₁)]	=	1 · x₁
[c(x₁, x₂)]	=	1 · x₁ + 1 · x₂
[s(x₁)]	=	1 · x₁
[g(x₁)]	=	1 · x₁
[rand(x₁)]	=	1 + 1 · x₁

all of the following rules can be deleted.

rand(x)

→

(6)

1.1 Rule Removal

Using the matrix interpretations of dimension 2 with strict dimension 1 over the integers

[f(x₁)]

1	0
0	0

· x₁

[c(x₁, x₂)]

1	1
0	0

· x₁ +

1	1
0	0

· x₂

[s(x₁)]

1	0
0	1

· x₁

[g(x₁)]

1	0
0	0

· x₁

[rand(x₁)]

1	0
1	0

· x₁

all of the following rules can be deleted.

f(c(s(x),s(y)))	→	g(c(x,y))	(2)
g(c(s(x),s(y)))	→	f(c(x,y))	(4)

1.1.1 Rule Removal

Using the matrix interpretations of dimension 2 with strict dimension 1 over the integers

[f(x₁)]

1	1
0	0

· x₁

[c(x₁, x₂)]

1	0
0	1

· x₁ +

1	0
0	0

· x₂

[s(x₁)]

1	0
0	1

· x₁

[g(x₁)]

1	0
0	0

· x₁

[rand(x₁)]

1	0
1	0

· x₁

all of the following rules can be deleted.

f(c(s(x),y))

→

f(c(x,s(y)))

(1)

1.1.1.1 Rule Removal

Using the matrix interpretations of dimension 2 with strict dimension 1 over the integers

[g(x₁)]

1	1
0	0

· x₁

[c(x₁, x₂)]

1	0
1	0

· x₁ +

1	1
0	1

· x₂

[s(x₁)]

1	0
0	1

· x₁

[rand(x₁)]

1	0
1	0

· x₁

all of the following rules can be deleted.

g(c(x,s(y)))

→

g(c(s(x),y))

(3)

1.1.1.1.1 R is empty

There are no rules in the TRS. Hence, it is terminating.