/export/starexec/sandbox2/solver/bin/starexec_run_tct_rc /export/starexec/sandbox2/benchmark/theBenchmark.xml /export/starexec/sandbox2/output/output_files -------------------------------------------------------------------------------- WORST_CASE(Omega(n^1),O(n^1)) * Step 1: Sum. WORST_CASE(Omega(n^1),O(n^1)) + Considered Problem: - Strict TRS: f(s(0()),g(x)) -> f(x,g(x)) g(s(x)) -> g(x) - Signature: {f/2,g/1} / {0/0,s/1} - Obligation: runtime complexity wrt. defined symbols {f,g} and constructors {0,s} + Applied Processor: Sum {left = someStrategy, right = someStrategy} + Details: () ** Step 1.a:1: Sum. WORST_CASE(Omega(n^1),?) + Considered Problem: - Strict TRS: f(s(0()),g(x)) -> f(x,g(x)) g(s(x)) -> g(x) - Signature: {f/2,g/1} / {0/0,s/1} - Obligation: runtime complexity wrt. defined symbols {f,g} and constructors {0,s} + Applied Processor: Sum {left = someStrategy, right = someStrategy} + Details: () ** Step 1.a:2: DecreasingLoops. WORST_CASE(Omega(n^1),?) + Considered Problem: - Strict TRS: f(s(0()),g(x)) -> f(x,g(x)) g(s(x)) -> g(x) - Signature: {f/2,g/1} / {0/0,s/1} - Obligation: runtime complexity wrt. defined symbols {f,g} and constructors {0,s} + Applied Processor: DecreasingLoops {bound = AnyLoop, narrow = 10} + Details: The system has following decreasing Loops: g(x){x -> s(x)} = g(s(x)) ->^+ g(x) = C[g(x) = g(x){}] ** Step 1.b:1: DependencyPairs. WORST_CASE(?,O(n^1)) + Considered Problem: - Strict TRS: f(s(0()),g(x)) -> f(x,g(x)) g(s(x)) -> g(x) - Signature: {f/2,g/1} / {0/0,s/1} - Obligation: runtime complexity wrt. defined symbols {f,g} and constructors {0,s} + Applied Processor: DependencyPairs {dpKind_ = WIDP} + Details: We add the following weak dependency pairs: Strict DPs f#(s(0()),g(x)) -> c_1(f#(x,g(x))) g#(s(x)) -> c_2(g#(x)) Weak DPs and mark the set of starting terms. ** Step 1.b:2: UsableRules. WORST_CASE(?,O(n^1)) + Considered Problem: - Strict DPs: f#(s(0()),g(x)) -> c_1(f#(x,g(x))) g#(s(x)) -> c_2(g#(x)) - Strict TRS: f(s(0()),g(x)) -> f(x,g(x)) g(s(x)) -> g(x) - Signature: {f/2,g/1,f#/2,g#/1} / {0/0,s/1,c_1/1,c_2/1} - Obligation: runtime complexity wrt. defined symbols {f#,g#} and constructors {0,s} + Applied Processor: UsableRules + Details: We replace rewrite rules by usable rules: g#(s(x)) -> c_2(g#(x)) ** Step 1.b:3: PredecessorEstimationCP. WORST_CASE(?,O(n^1)) + Considered Problem: - Strict DPs: g#(s(x)) -> c_2(g#(x)) - Signature: {f/2,g/1,f#/2,g#/1} / {0/0,s/1,c_1/1,c_2/1} - Obligation: runtime complexity wrt. defined symbols {f#,g#} and constructors {0,s} + Applied Processor: PredecessorEstimationCP {onSelectionCP = any intersect of rules of CDG leaf and strict-rules, withComplexityPair = NaturalMI {miDimension = 1, miDegree = 1, miKind = Algebraic, uargs = UArgs, urules = URules, selector = Nothing}} + Details: We first use the processor NaturalMI {miDimension = 1, miDegree = 1, miKind = Algebraic, uargs = UArgs, urules = URules, selector = Nothing} to orient following rules strictly: 1: g#(s(x)) -> c_2(g#(x)) The strictly oriented rules are moved into the weak component. *** Step 1.b:3.a:1: NaturalMI. WORST_CASE(?,O(n^1)) + Considered Problem: - Strict DPs: g#(s(x)) -> c_2(g#(x)) - Signature: {f/2,g/1,f#/2,g#/1} / {0/0,s/1,c_1/1,c_2/1} - Obligation: runtime complexity wrt. defined symbols {f#,g#} and constructors {0,s} + Applied Processor: NaturalMI {miDimension = 1, miDegree = 1, miKind = Algebraic, uargs = UArgs, urules = URules, selector = Just first alternative for predecessorEstimation on any intersect of rules of CDG leaf and strict-rules} + Details: We apply a matrix interpretation of kind constructor based matrix interpretation: The following argument positions are considered usable: uargs(c_2) = {1} Following symbols are considered usable: all TcT has computed the following interpretation: p(0) = [1] p(f) = [1] x2 + [0] p(g) = [1] p(s) = [1] x1 + [8] p(f#) = [1] x1 + [4] x2 + [1] p(g#) = [2] x1 + [0] p(c_1) = [2] x1 + [2] p(c_2) = [1] x1 + [12] Following rules are strictly oriented: g#(s(x)) = [2] x + [16] > [2] x + [12] = c_2(g#(x)) Following rules are (at-least) weakly oriented: *** Step 1.b:3.a:2: Assumption. WORST_CASE(?,O(1)) + Considered Problem: - Weak DPs: g#(s(x)) -> c_2(g#(x)) - Signature: {f/2,g/1,f#/2,g#/1} / {0/0,s/1,c_1/1,c_2/1} - Obligation: runtime complexity wrt. defined symbols {f#,g#} and constructors {0,s} + Applied Processor: Assumption {assumed = Certificate {spaceUB = Unknown, spaceLB = Unknown, timeUB = Poly (Just 0), timeLB = Unknown, timeBCUB = Unknown, timeBCLB = Unknown}} + Details: () *** Step 1.b:3.b:1: RemoveWeakSuffixes. WORST_CASE(?,O(1)) + Considered Problem: - Weak DPs: g#(s(x)) -> c_2(g#(x)) - Signature: {f/2,g/1,f#/2,g#/1} / {0/0,s/1,c_1/1,c_2/1} - Obligation: runtime complexity wrt. defined symbols {f#,g#} and constructors {0,s} + Applied Processor: RemoveWeakSuffixes + Details: Consider the dependency graph 1:W:g#(s(x)) -> c_2(g#(x)) -->_1 g#(s(x)) -> c_2(g#(x)):1 The following weak DPs constitute a sub-graph of the DG that is closed under successors. The DPs are removed. 1: g#(s(x)) -> c_2(g#(x)) *** Step 1.b:3.b:2: EmptyProcessor. WORST_CASE(?,O(1)) + Considered Problem: - Signature: {f/2,g/1,f#/2,g#/1} / {0/0,s/1,c_1/1,c_2/1} - Obligation: runtime complexity wrt. defined symbols {f#,g#} and constructors {0,s} + Applied Processor: EmptyProcessor + Details: The problem is already closed. The intended complexity is O(1). WORST_CASE(Omega(n^1),O(n^1))