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TRS Standard pair #487072875
details
property
value
status
complete
benchmark
test77.xml
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n186.star.cs.uiowa.edu
space
Strategy_removed_mixed_05
run statistics
property
value
solver
NTI-TC20-firstrun
configuration
Default 200
runtime (wallclock)
20.9549 seconds
cpu usage
44.3895
user time
40.293
system time
4.09653
max virtual memory
3.5396896E7
max residence set size
9350544.0
stage attributes
key
value
starexec-result
NO
output
NO Prover = TRS(tech=GUIDED_UNF, nb_unfoldings=unlimited, unfold_variables=true, strategy=LEFTMOST_NE) ** BEGIN proof argument ** The following rule was generated while unfolding the analyzed TRS: [iteration = 5] f(g(0,_0),s(0),g(0,_0)) -> f(g(0,_0),_0,g(0,_0)) Let l be the left-hand side and r be the right-hand side of this rule. Let p = epsilon, theta1 = {_0->s(0)} and theta2 = {}. We have r|p = f(g(0,_0),_0,g(0,_0)) and theta2(theta1(l)) = theta1(r|p). Hence, the term theta1(l) = f(g(0,s(0)),s(0),g(0,s(0))) loops w.r.t. the analyzed TRS. ** END proof argument ** ** BEGIN proof description ** ## Searching for a generalized rewrite rule (a rule whose right-hand side contains a variable that does not occur in the left-hand side)... No generalized rewrite rule found! ## Searching for a loop by unfolding (unfolding of variable subterms: ON)... # Iteration 0: no loop detected, 1 unfolded rule generated. # Iteration 1: no loop detected, 7 unfolded rules generated. # Iteration 2: no loop detected, 68 unfolded rules generated. # Iteration 3: no loop detected, 831 unfolded rules generated. # Iteration 4: no loop detected, 12889 unfolded rules generated. # Iteration 5: loop detected, 152234 unfolded rules generated. Here is the successful unfolding. Let IR be the TRS under analysis. L0 = f^#(0,s(0),_0) -> f^#(_0,double(_0),_0) is in U_IR^0. Let p0 = [0]. We unfold the rule of L0 backwards at position p0 with the rule g(_0,_1) -> _0. ==> L1 = f^#(g(0,_0),s(0),g(0,_0)) -> f^#(g(0,_0),double(g(0,_0)),g(0,_0)) is in U_IR^1. Let p1 = [1]. We unfold the rule of L1 forwards at position p1 with the rule double(_0) -> +(_0,_0). ==> L2 = f^#(g(0,_0),s(0),g(0,_0)) -> f^#(g(0,_0),+(g(0,_0),g(0,_0)),g(0,_0)) is in U_IR^2. Let p2 = [1, 0]. We unfold the rule of L2 forwards at position p2 with the rule g(_0,_1) -> _1. ==> L3 = f^#(g(0,_0),s(0),g(0,_0)) -> f^#(g(0,_0),+(_0,g(0,_0)),g(0,_0)) is in U_IR^3. Let p3 = [1, 1]. We unfold the rule of L3 forwards at position p3 with the rule g(_0,_1) -> _0. ==> L4 = f^#(g(0,_0),s(0),g(0,_0)) -> f^#(g(0,_0),+(_0,0),g(0,_0)) is in U_IR^4. Let p4 = [1]. We unfold the rule of L4 forwards at position p4 with the rule +(_0,0) -> _0. ==> L5 = f^#(g(0,s(0)),s(0),g(0,s(0))) -> f^#(g(0,s(0)),s(0),g(0,s(0))) is in U_IR^5. ** END proof description ** Proof stopped at iteration 5 Number of unfolded rules generated by this proof = 166030 Number of unfolded rules generated by all the parallel proofs = 326949
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