/export/starexec/sandbox2/solver/bin/starexec_run_default /export/starexec/sandbox2/benchmark/theBenchmark.xml /export/starexec/sandbox2/output/output_files -------------------------------------------------------------------------------- YES ** BEGIN proof argument ** All the DP problems were proved finite. As all the involved DP processors are sound, the TRS under analysis terminates. ** 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! ## Applying the DP framework... ## 2 initial DP problems to solve. ## First, we try to decompose these problems into smaller problems. ## Round 1 [2 DP problems]: ## DP problem: Dependency pairs = [div^#(s(_0),s(_1)) -> div^#(minus(_0,_1),s(_1))] TRS = {minus(_0,0) -> _0, minus(s(_0),s(_1)) -> p(minus(_0,_1)), p(s(_0)) -> _0, div(0,s(_0)) -> 0, div(s(_0),s(_1)) -> s(div(minus(_0,_1),s(_1)))} ## Trying with homeomorphic embeddings... Failed! ## Trying with polynomial interpretations... Failed! ## Trying with lexicographic path orders... The constraints are satisfied by the lexicographic path order using the argument filtering: {p:[0], div:[0, 1], s:[0], minus:[0], div^#:[0, 1]} and the precedence: div > [p, s, minus], s > [p, minus] This DP problem is finite. ## DP problem: Dependency pairs = [minus^#(s(_0),s(_1)) -> minus^#(_0,_1)] TRS = {minus(_0,0) -> _0, minus(s(_0),s(_1)) -> p(minus(_0,_1)), p(s(_0)) -> _0, div(0,s(_0)) -> 0, div(s(_0),s(_1)) -> s(div(minus(_0,_1),s(_1)))} ## Trying with homeomorphic embeddings... Success! This DP problem is finite. ## All the DP problems were proved finite. As all the involved DP processors are sound, the TRS under analysis terminates. Proof run on Linux version 3.10.0-1160.25.1.el7.x86_64 for amd64 using Java version 1.8.0_292 ** END proof description ** Total number of generated unfolded rules = 0