Certification Problem
Input (TPDB TRS_Standard/SK90/2.42)
The rewrite relation of the following TRS is considered.
|
flatten(nil) |
→ |
nil |
(1) |
|
flatten(unit(x)) |
→ |
flatten(x) |
(2) |
|
flatten(++(x,y)) |
→ |
++(flatten(x),flatten(y)) |
(3) |
|
flatten(++(unit(x),y)) |
→ |
++(flatten(x),flatten(y)) |
(4) |
|
flatten(flatten(x)) |
→ |
flatten(x) |
(5) |
|
rev(nil) |
→ |
nil |
(6) |
|
rev(unit(x)) |
→ |
unit(x) |
(7) |
|
rev(++(x,y)) |
→ |
++(rev(y),rev(x)) |
(8) |
|
rev(rev(x)) |
→ |
x |
(9) |
|
++(x,nil) |
→ |
x |
(10) |
|
++(nil,y) |
→ |
y |
(11) |
|
++(++(x,y),z) |
→ |
++(x,++(y,z)) |
(12) |
Property / Task
Prove or disprove termination.Answer / Result
Yes.Proof (by ttt2 @ termCOMP 2023)
1 Rule Removal
Using the
linear polynomial interpretation over (3 x 3)-matrices with strict dimension 1
over the naturals
| [rev(x1)] |
= |
· x1 +
|
| [flatten(x1)] |
= |
· x1 +
|
| [++(x1, x2)] |
= |
· x1 + · x2 +
|
| [nil] |
= |
|
| [unit(x1)] |
= |
· x1 +
|
all of the following rules can be deleted.
|
++(x,nil) |
→ |
x |
(10) |
|
++(nil,y) |
→ |
y |
(11) |
1.1 Rule Removal
Using the
linear polynomial interpretation over (3 x 3)-matrices with strict dimension 1
over the naturals
| [rev(x1)] |
= |
· x1 +
|
| [flatten(x1)] |
= |
· x1 +
|
| [++(x1, x2)] |
= |
· x1 + · x2 +
|
| [nil] |
= |
|
| [unit(x1)] |
= |
· x1 +
|
all of the following rules can be deleted.
|
flatten(unit(x)) |
→ |
flatten(x) |
(2) |
|
flatten(++(unit(x),y)) |
→ |
++(flatten(x),flatten(y)) |
(4) |
1.1.1 Rule Removal
Using the
linear polynomial interpretation over (3 x 3)-matrices with strict dimension 1
over the naturals
| [rev(x1)] |
= |
· x1 +
|
| [flatten(x1)] |
= |
· x1 +
|
| [++(x1, x2)] |
= |
· x1 + · x2 +
|
| [nil] |
= |
|
| [unit(x1)] |
= |
· x1 +
|
all of the following rules can be deleted.
|
flatten(nil) |
→ |
nil |
(1) |
|
flatten(flatten(x)) |
→ |
flatten(x) |
(5) |
1.1.1.1 Rule Removal
Using the
linear polynomial interpretation over (3 x 3)-matrices with strict dimension 1
over the naturals
| [rev(x1)] |
= |
· x1 +
|
| [flatten(x1)] |
= |
· x1 +
|
| [++(x1, x2)] |
= |
· x1 + · x2 +
|
| [nil] |
= |
|
| [unit(x1)] |
= |
· x1 +
|
all of the following rules can be deleted.
1.1.1.1.1 Rule Removal
Using the
linear polynomial interpretation over (3 x 3)-matrices with strict dimension 1
over the naturals
| [rev(x1)] |
= |
· x1 +
|
| [flatten(x1)] |
= |
· x1 +
|
| [++(x1, x2)] |
= |
· x1 + · x2 +
|
| [unit(x1)] |
= |
· x1 +
|
all of the following rules can be deleted.
|
rev(unit(x)) |
→ |
unit(x) |
(7) |
1.1.1.1.1.1 Rule Removal
Using the
linear polynomial interpretation over (3 x 3)-matrices with strict dimension 1
over the naturals
| [rev(x1)] |
= |
· x1 +
|
| [flatten(x1)] |
= |
· x1 +
|
| [++(x1, x2)] |
= |
· x1 + · x2 +
|
all of the following rules can be deleted.
1.1.1.1.1.1.1 Rule Removal
Using the
linear polynomial interpretation over (3 x 3)-matrices with strict dimension 1
over the naturals
| [rev(x1)] |
= |
· x1 +
|
| [flatten(x1)] |
= |
· x1 +
|
| [++(x1, x2)] |
= |
· x1 + · x2 +
|
all of the following rules can be deleted.
|
flatten(++(x,y)) |
→ |
++(flatten(x),flatten(y)) |
(3) |
1.1.1.1.1.1.1.1 Rule Removal
Using the
Knuth Bendix order with w0 = 1 and the following precedence and weight functions
| prec(rev) |
= |
1 |
|
weight(rev) |
= |
0 |
|
|
|
| prec(++) |
= |
0 |
|
weight(++) |
= |
0 |
|
|
|
all of the following rules can be deleted.
|
rev(++(x,y)) |
→ |
++(rev(y),rev(x)) |
(8) |
|
++(++(x,y),z) |
→ |
++(x,++(y,z)) |
(12) |
1.1.1.1.1.1.1.1.1 R is empty
There are no rules in the TRS. Hence, it is terminating.