primes -> sieve1(from1(s1(s1(0))))
from1(X) -> cons2(X, from1(s1(X)))
head1(cons2(X, Y)) -> X
tail1(cons2(X, Y)) -> Y
if3(true, X, Y) -> X
if3(false, X, Y) -> Y
filter2(s1(s1(X)), cons2(Y, Z)) -> if3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
sieve1(cons2(X, Y)) -> cons2(X, filter2(X, sieve1(Y)))
↳ QTRS
↳ Non-Overlap Check
primes -> sieve1(from1(s1(s1(0))))
from1(X) -> cons2(X, from1(s1(X)))
head1(cons2(X, Y)) -> X
tail1(cons2(X, Y)) -> Y
if3(true, X, Y) -> X
if3(false, X, Y) -> Y
filter2(s1(s1(X)), cons2(Y, Z)) -> if3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
sieve1(cons2(X, Y)) -> cons2(X, filter2(X, sieve1(Y)))
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
primes -> sieve1(from1(s1(s1(0))))
from1(X) -> cons2(X, from1(s1(X)))
head1(cons2(X, Y)) -> X
tail1(cons2(X, Y)) -> Y
if3(true, X, Y) -> X
if3(false, X, Y) -> Y
filter2(s1(s1(X)), cons2(Y, Z)) -> if3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
sieve1(cons2(X, Y)) -> cons2(X, filter2(X, sieve1(Y)))
primes
from1(x0)
head1(cons2(x0, x1))
tail1(cons2(x0, x1))
if3(true, x0, x1)
if3(false, x0, x1)
filter2(s1(s1(x0)), cons2(x1, x2))
sieve1(cons2(x0, x1))
FILTER2(s1(s1(X)), cons2(Y, Z)) -> SIEVE1(Y)
FILTER2(s1(s1(X)), cons2(Y, Z)) -> FILTER2(X, sieve1(Y))
FILTER2(s1(s1(X)), cons2(Y, Z)) -> FILTER2(s1(s1(X)), Z)
PRIMES -> SIEVE1(from1(s1(s1(0))))
SIEVE1(cons2(X, Y)) -> SIEVE1(Y)
PRIMES -> FROM1(s1(s1(0)))
FILTER2(s1(s1(X)), cons2(Y, Z)) -> IF3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
SIEVE1(cons2(X, Y)) -> FILTER2(X, sieve1(Y))
FROM1(X) -> FROM1(s1(X))
primes -> sieve1(from1(s1(s1(0))))
from1(X) -> cons2(X, from1(s1(X)))
head1(cons2(X, Y)) -> X
tail1(cons2(X, Y)) -> Y
if3(true, X, Y) -> X
if3(false, X, Y) -> Y
filter2(s1(s1(X)), cons2(Y, Z)) -> if3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
sieve1(cons2(X, Y)) -> cons2(X, filter2(X, sieve1(Y)))
primes
from1(x0)
head1(cons2(x0, x1))
tail1(cons2(x0, x1))
if3(true, x0, x1)
if3(false, x0, x1)
filter2(s1(s1(x0)), cons2(x1, x2))
sieve1(cons2(x0, x1))
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
FILTER2(s1(s1(X)), cons2(Y, Z)) -> SIEVE1(Y)
FILTER2(s1(s1(X)), cons2(Y, Z)) -> FILTER2(X, sieve1(Y))
FILTER2(s1(s1(X)), cons2(Y, Z)) -> FILTER2(s1(s1(X)), Z)
PRIMES -> SIEVE1(from1(s1(s1(0))))
SIEVE1(cons2(X, Y)) -> SIEVE1(Y)
PRIMES -> FROM1(s1(s1(0)))
FILTER2(s1(s1(X)), cons2(Y, Z)) -> IF3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
SIEVE1(cons2(X, Y)) -> FILTER2(X, sieve1(Y))
FROM1(X) -> FROM1(s1(X))
primes -> sieve1(from1(s1(s1(0))))
from1(X) -> cons2(X, from1(s1(X)))
head1(cons2(X, Y)) -> X
tail1(cons2(X, Y)) -> Y
if3(true, X, Y) -> X
if3(false, X, Y) -> Y
filter2(s1(s1(X)), cons2(Y, Z)) -> if3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
sieve1(cons2(X, Y)) -> cons2(X, filter2(X, sieve1(Y)))
primes
from1(x0)
head1(cons2(x0, x1))
tail1(cons2(x0, x1))
if3(true, x0, x1)
if3(false, x0, x1)
filter2(s1(s1(x0)), cons2(x1, x2))
sieve1(cons2(x0, x1))
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPOrderProof
↳ QDP
FILTER2(s1(s1(X)), cons2(Y, Z)) -> SIEVE1(Y)
FILTER2(s1(s1(X)), cons2(Y, Z)) -> FILTER2(X, sieve1(Y))
FILTER2(s1(s1(X)), cons2(Y, Z)) -> FILTER2(s1(s1(X)), Z)
SIEVE1(cons2(X, Y)) -> SIEVE1(Y)
SIEVE1(cons2(X, Y)) -> FILTER2(X, sieve1(Y))
primes -> sieve1(from1(s1(s1(0))))
from1(X) -> cons2(X, from1(s1(X)))
head1(cons2(X, Y)) -> X
tail1(cons2(X, Y)) -> Y
if3(true, X, Y) -> X
if3(false, X, Y) -> Y
filter2(s1(s1(X)), cons2(Y, Z)) -> if3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
sieve1(cons2(X, Y)) -> cons2(X, filter2(X, sieve1(Y)))
primes
from1(x0)
head1(cons2(x0, x1))
tail1(cons2(x0, x1))
if3(true, x0, x1)
if3(false, x0, x1)
filter2(s1(s1(x0)), cons2(x1, x2))
sieve1(cons2(x0, x1))
The following pairs can be strictly oriented and are deleted.
The remaining pairs can at least by weakly be oriented.
FILTER2(s1(s1(X)), cons2(Y, Z)) -> SIEVE1(Y)
FILTER2(s1(s1(X)), cons2(Y, Z)) -> FILTER2(X, sieve1(Y))
FILTER2(s1(s1(X)), cons2(Y, Z)) -> FILTER2(s1(s1(X)), Z)
SIEVE1(cons2(X, Y)) -> SIEVE1(Y)
SIEVE1(cons2(X, Y)) -> FILTER2(X, sieve1(Y))
cons2 > [SIEVE1, sieve1, filter, divides]
sieve1(cons2(X, Y)) -> cons2(X, filter2(X, sieve1(Y)))
filter2(s1(s1(X)), cons2(Y, Z)) -> if3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDPOrderProof
↳ QDP
↳ PisEmptyProof
↳ QDP
primes -> sieve1(from1(s1(s1(0))))
from1(X) -> cons2(X, from1(s1(X)))
head1(cons2(X, Y)) -> X
tail1(cons2(X, Y)) -> Y
if3(true, X, Y) -> X
if3(false, X, Y) -> Y
filter2(s1(s1(X)), cons2(Y, Z)) -> if3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
sieve1(cons2(X, Y)) -> cons2(X, filter2(X, sieve1(Y)))
primes
from1(x0)
head1(cons2(x0, x1))
tail1(cons2(x0, x1))
if3(true, x0, x1)
if3(false, x0, x1)
filter2(s1(s1(x0)), cons2(x1, x2))
sieve1(cons2(x0, x1))
↳ QTRS
↳ Non-Overlap Check
↳ QTRS
↳ DependencyPairsProof
↳ QDP
↳ DependencyGraphProof
↳ AND
↳ QDP
↳ QDP
FROM1(X) -> FROM1(s1(X))
primes -> sieve1(from1(s1(s1(0))))
from1(X) -> cons2(X, from1(s1(X)))
head1(cons2(X, Y)) -> X
tail1(cons2(X, Y)) -> Y
if3(true, X, Y) -> X
if3(false, X, Y) -> Y
filter2(s1(s1(X)), cons2(Y, Z)) -> if3(divides2(s1(s1(X)), Y), filter2(s1(s1(X)), Z), cons2(Y, filter2(X, sieve1(Y))))
sieve1(cons2(X, Y)) -> cons2(X, filter2(X, sieve1(Y)))
primes
from1(x0)
head1(cons2(x0, x1))
tail1(cons2(x0, x1))
if3(true, x0, x1)
if3(false, x0, x1)
filter2(s1(s1(x0)), cons2(x1, x2))
sieve1(cons2(x0, x1))