Termination proof

1: switching to dependency pairs

The following set of initial dependency pairs has been identified.

f#( s( X ) , X ) → f#( X , a( X ) )

f#( X , c( X ) ) → f#( s( X ) , X )

1.1: dependency graph processor

The dependency pairs are split into 2 component(s).

The 1st component contains the pair(s)

f#( X , c( X ) ) → f#( s( X ) , X )

1.1.1: reduction pair processor

Using the following reduction pair

Linear polynomial interpretation over the naturals

[a (x₁) ] = 1

[f (x₁, x₂) ] = 2 x₁ + 3 x₂ + 3

[c (x₁) ] = 2 x₁ + 3

[s (x₁) ] = 2 x₁ + 2

[f# (x₁, x₂) ] = 2 x₁ + 3 x₂

[f(x₁, ..., x_n)] = x₁ + ... + x_n + 1 for all other symbols f of arity n

one remains with the following pair(s).

none

1.1.1.1: P is empty

All dependency pairs have been removed.

The 2nd component contains the pair(s)

f#( s( X ) , X ) → f#( X , a( X ) )

1.1.2: reduction pair processor

Using the following reduction pair

Linear polynomial interpretation over the naturals

[a (x₁) ] = 2 x₁ + 1

[f (x₁, x₂) ] = 2 x₁ + 2 x₂ + 3

[c (x₁) ] = 3 x₁ + 3

[s (x₁) ] = 2 x₁ + 2

[f# (x₁, x₂) ] = 3 x₁ + 2 x₂

[f(x₁, ..., x_n)] = x₁ + ... + x_n + 1 for all other symbols f of arity n

one remains with the following pair(s).

none

1.1.2.1: P is empty

All dependency pairs have been removed.

f#( s( X ) , X )	→	f#( X , a( X ) )
f#( X , c( X ) )	→	f#( s( X ) , X )

[a (x₁) ]	=	1
[f (x₁, x₂) ]	=	2 x₁ + 3 x₂ + 3
[c (x₁) ]	=	2 x₁ + 3
[s (x₁) ]	=	2 x₁ + 2
[f# (x₁, x₂) ]	=	2 x₁ + 3 x₂
[f(x₁, ..., x_n)]	=	x₁ + ... + x_n + 1	for all other symbols f of arity n

[a (x₁) ]	=	2 x₁ + 1
[f (x₁, x₂) ]	=	2 x₁ + 2 x₂ + 3
[c (x₁) ]	=	3 x₁ + 3
[s (x₁) ]	=	2 x₁ + 2
[f# (x₁, x₂) ]	=	3 x₁ + 2 x₂
[f(x₁, ..., x_n)]	=	x₁ + ... + x_n + 1	for all other symbols f of arity n