TRS Conte Sensi 17651 pair #381733250

details

property	value
status	complete
benchmark	morse.xml
ran by	Akihisa Yamada
cpu timeout	1200 seconds
wallclock timeout	300 seconds
memory limit	137438953472 bytes
execution host	n069.star.cs.uiowa.edu
space	Transformed_outermost_08

run statistics

property	value
solver	AProVE
configuration	standard
runtime (wallclock)	3.02283120155 seconds
cpu usage	9.097810748
max memory	5.53066496E8

stage attributes

key	value
output-size	70413
starexec-result	YES

output

/export/starexec/sandbox/solver/bin/starexec_run_standard /export/starexec/sandbox/benchmark/theBenchmark.xml /export/starexec/sandbox/output/output_files


--------------------------------------------------------------------------------


YES
proof of /export/starexec/sandbox/benchmark/theBenchmark.xml
# AProVE Commit ID: 48fb2092695e11cc9f56e44b17a92a5f88ffb256 marcel 20180622 unpublished dirty


Termination of the given CSR could be proven:

(0) CSR
(1) CSRRRRProof [EQUIVALENT, 148 ms]
(2) CSR
(3) CSRRRRProof [EQUIVALENT, 37 ms]
(4) CSR
(5) CSRRRRProof [EQUIVALENT, 20 ms]
(6) CSR
(7) CSRRRRProof [EQUIVALENT, 20 ms]
(8) CSR
(9) CSRRRRProof [EQUIVALENT, 115 ms]
(10) CSR
(11) CSRRRRProof [EQUIVALENT, 88 ms]
(12) CSR
(13) CSRRRRProof [EQUIVALENT, 111 ms]
(14) CSR
(15) CSRRRRProof [EQUIVALENT, 58 ms]
(16) CSR
(17) CSRRRRProof [EQUIVALENT, 17 ms]
(18) CSR
(19) CSRRRRProof [EQUIVALENT, 0 ms]
(20) CSR
(21) CSRRRRProof [EQUIVALENT, 0 ms]
(22) CSR
(23) CSRRRRProof [EQUIVALENT, 3 ms]
(24) CSR
(25) CSRRRRProof [EQUIVALENT, 0 ms]
(26) CSR
(27) RisEmptyProof [EQUIVALENT, 0 ms]
(28) YES


----------------------------------------

(0)
Obligation:
Context-sensitive rewrite system:
The TRS R consists of the following rules:

   M_1 -> h_1(cons_1(0_0, tail_0(M_1)))
   tail_1(cons_2(x, s)) -> s
   tail_1(cons_3(x, s)) -> s
   tail_1(cons_4(x, s)) -> s
   *top*_0(tail_1(cons_5(x, s))) -> *top*_0(s)
   h_0(tail_1(cons_5(x, s))) -> h_1(s)
   tail_0(tail_1(cons_5(x, s))) -> tail_1(s)
   *top*_0(tail_1(cons_6(x, s))) -> *top*_0(s)
   h_0(tail_1(cons_6(x, s))) -> h_1(s)
   tail_0(tail_1(cons_6(x, s))) -> tail_1(s)
   tail_1(cons_7(x, s)) -> s
   tail_1(cons_8(x, s)) -> s
   tail_1(cons_9(x, s)) -> s
   *top*_0(tail_1(cons_10(x, s))) -> *top*_0(s)
   h_0(tail_1(cons_10(x, s))) -> h_1(s)
   tail_0(tail_1(cons_10(x, s))) -> tail_1(s)
   *top*_0(tail_1(cons_11(x, s))) -> *top*_0(s)
   h_0(tail_1(cons_11(x, s))) -> h_1(s)
   tail_0(tail_1(cons_11(x, s))) -> tail_1(s)
   h_0(tail_1(cons_1(x, s))) -> h_1(s)
   *top*_0(tail_1(cons_1(x, s))) -> *top*_0(s)
   h_0(tail_1(cons_1(x, s))) -> h_0(s)
   tail_0(tail_1(cons_1(x, s))) -> tail_1(s)
   tail_1(cons_1(x, s)) -> s
   *top*_0(h_1(cons_2(0_0, s))) -> *top*_0(cons_6(0_0, cons_1(1_0, h_0(s))))
   h_0(h_1(cons_2(0_0, s))) -> h_1(cons_6(0_0, cons_1(1_0, h_0(s))))
   tail_0(h_1(cons_2(0_0, s))) -> tail_1(cons_6(0_0, cons_1(1_0, h_0(s))))
   *top*_0(h_1(cons_3(0_0, s))) -> *top*_0(cons_6(0_0, cons_1(1_0, h_0(s))))
   h_0(h_1(cons_3(0_0, s))) -> h_1(cons_6(0_0, cons_1(1_0, h_0(s))))
   tail_0(h_1(cons_3(0_0, s))) -> tail_1(cons_6(0_0, cons_1(1_0, h_0(s))))
   *top*_0(h_1(cons_4(0_0, s))) -> *top*_0(cons_6(0_0, cons_1(1_0, h_0(s))))
   h_0(h_1(cons_4(0_0, s))) -> h_1(cons_6(0_0, cons_1(1_0, h_0(s))))
   tail_0(h_1(cons_4(0_0, s))) -> tail_1(cons_6(0_0, cons_1(1_0, h_0(s))))
   *top*_0(h_1(cons_5(0_0, s))) -> *top*_0(cons_6(0_0, cons_7(1_0, h_1(s))))
   h_0(h_1(cons_5(0_0, s))) -> h_1(cons_6(0_0, cons_7(1_0, h_1(s))))
   tail_0(h_1(cons_5(0_0, s))) -> tail_1(cons_6(0_0, cons_7(1_0, h_1(s))))
   *top*_0(h_1(cons_6(0_0, s))) -> *top*_0(cons_6(0_0, cons_8(1_0, h_1(s))))
   h_0(h_1(cons_6(0_0, s))) -> h_1(cons_6(0_0, cons_8(1_0, h_1(s))))
   tail_0(h_1(cons_6(0_0, s))) -> tail_1(cons_6(0_0, cons_8(1_0, h_1(s))))
   *top*_0(h_1(cons_1(0_0, s))) -> *top*_0(cons_6(0_0, cons_1(1_0, h_0(s))))
   h_0(h_1(cons_1(0_0, s))) -> h_1(cons_6(0_0, cons_1(1_0, h_0(s))))
   tail_0(h_1(cons_1(0_0, s))) -> tail_1(cons_6(0_0, cons_1(1_0, h_0(s))))
   *top*_0(h_1(cons_7(1_0, s))) -> *top*_0(cons_10(1_0, cons_1(0_0, h_0(s))))
   h_0(h_1(cons_7(1_0, s))) -> h_1(cons_10(1_0, cons_1(0_0, h_0(s))))
   tail_0(h_1(cons_7(1_0, s))) -> tail_1(cons_10(1_0, cons_1(0_0, h_0(s))))
   *top*_0(h_1(cons_8(1_0, s))) -> *top*_0(cons_10(1_0, cons_1(0_0, h_0(s))))
   h_0(h_1(cons_8(1_0, s))) -> h_1(cons_10(1_0, cons_1(0_0, h_0(s))))
   tail_0(h_1(cons_8(1_0, s))) -> tail_1(cons_10(1_0, cons_1(0_0, h_0(s))))
   *top*_0(h_1(cons_9(1_0, s))) -> *top*_0(cons_10(1_0, cons_1(0_0, h_0(s))))

popout

output may be truncated. 'popout' for the full output.

job log

popout

actions all output return to TRS Conte Sensi 17651