/export/starexec/sandbox/solver/bin/starexec_run_standard /export/starexec/sandbox/benchmark/theBenchmark.pl /export/starexec/sandbox/output/output_files -------------------------------------------------------------------------------- YES proof of /export/starexec/sandbox/benchmark/theBenchmark.pl # AProVE Commit ID: 48fb2092695e11cc9f56e44b17a92a5f88ffb256 marcel 20180622 unpublished dirty Left Termination of the query pattern mergesort(g,a) w.r.t. the given Prolog program could successfully be proven: (0) Prolog (1) PrologToTRSTransformerProof [SOUND, 31 ms] (2) QTRS (3) DependencyPairsProof [EQUIVALENT, 0 ms] (4) QDP (5) DependencyGraphProof [EQUIVALENT, 0 ms] (6) AND (7) QDP (8) UsableRulesProof [EQUIVALENT, 0 ms] (9) QDP (10) QDPSizeChangeProof [EQUIVALENT, 0 ms] (11) YES (12) QDP (13) UsableRulesProof [EQUIVALENT, 0 ms] (14) QDP (15) QDPSizeChangeProof [EQUIVALENT, 0 ms] (16) YES (17) QDP (18) QDPOrderProof [EQUIVALENT, 20 ms] (19) QDP (20) DependencyGraphProof [EQUIVALENT, 0 ms] (21) TRUE (22) QDP (23) UsableRulesProof [EQUIVALENT, 0 ms] (24) QDP (25) QDPSizeChangeProof [EQUIVALENT, 0 ms] (26) YES (27) QDP (28) QDPOrderProof [EQUIVALENT, 235 ms] (29) QDP (30) DependencyGraphProof [EQUIVALENT, 0 ms] (31) TRUE ---------------------------------------- (0) Obligation: Clauses: mergesort([], []). mergesort(.(X, []), .(X, [])). mergesort(.(X, .(Y, Xs)), Ys) :- ','(split(.(X, .(Y, Xs)), X1s, X2s), ','(mergesort(X1s, Y1s), ','(mergesort(X2s, Y2s), merge(Y1s, Y2s, Ys)))). split([], [], []). split(.(X, Xs), .(X, Ys), Zs) :- split(Xs, Zs, Ys). merge([], Xs, Xs). merge(Xs, [], Xs). merge(.(X, Xs), .(Y, Ys), .(X, Zs)) :- ','(le(X, Y), merge(Xs, .(Y, Ys), Zs)). merge(.(X, Xs), .(Y, Ys), .(Y, Zs)) :- ','(gt(X, Y), merge(.(X, Xs), Ys, Zs)). gt(s(X), s(Y)) :- gt(X, Y). gt(s(X), 0). le(s(X), s(Y)) :- le(X, Y). le(0, s(Y)). le(0, 0). Query: mergesort(g,a) ---------------------------------------- (1) PrologToTRSTransformerProof (SOUND) Transformed Prolog program to TRS. { "root": 57, "program": { "directives": [], "clauses": [ [ "(mergesort ([]) ([]))", null ], [ "(mergesort (. X ([])) (. X ([])))", null ], [ "(mergesort (. X (. Y Xs)) Ys)", "(',' (split (. X (. Y Xs)) X1s X2s) (',' (mergesort X1s Y1s) (',' (mergesort X2s Y2s) (merge Y1s Y2s Ys))))" ], [ "(split ([]) ([]) ([]))", null ], [ "(split (. X Xs) (. X Ys) Zs)", "(split Xs Zs Ys)" ], [ "(merge ([]) Xs Xs)", null ], [ "(merge Xs ([]) Xs)", null ], [ "(merge (. X Xs) (. Y Ys) (. X Zs))", "(',' (le X Y) (merge Xs (. Y Ys) Zs))" ], [ "(merge (. X Xs) (. Y Ys) (. Y Zs))", "(',' (gt X Y) (merge (. X Xs) Ys Zs))" ], [ "(gt (s X) (s Y))", "(gt X Y)" ], [ "(gt (s X) (0))", null ], [ "(le (s X) (s Y))", "(le X Y)" ], [ "(le (0) (s Y))", null ], [ "(le (0) (0))", null ] ] }, "graph": { "nodes": { "709": { "goal": [], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [], "free": [], "exprvars": [] } }, "type": "Nodes", "271": { "goal": [{ "clause": -1, "scope": -1, "term": "(true)" }], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [], "free": [], "exprvars": [] } }, "272": { "goal": [], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [], "free": [], "exprvars": [] } }, "274": { "goal": [], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [], "free": [], "exprvars": [] } }, "550": { "goal": [{ "clause": 4, "scope": 3, "term": "(split (. 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T30 T31) X43 X42)" }, { "clause": 4, "scope": 3, "term": "(split (. T30 T31) X43 X42)" } ], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [ "T30", "T31" ], "free": [ "X42", "X43" ], "exprvars": [] } }, "703": { "goal": [ { "clause": 12, "scope": 6, "term": "(le T78 T80)" }, { "clause": 13, "scope": 6, "term": "(le T78 T80)" } ], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [ "T78", "T80" ], "free": [], "exprvars": [] } }, "704": { "goal": [{ "clause": -1, "scope": -1, "term": "(le T96 T97)" }], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [ "T96", "T97" ], "free": [], "exprvars": [] } }, "705": { "goal": [], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [], "free": [], "exprvars": [] } }, "706": { "goal": [{ "clause": 12, "scope": 6, "term": "(le T78 T80)" }], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [ "T78", "T80" ], "free": [], "exprvars": [] } }, "707": { "goal": [{ "clause": 13, "scope": 6, "term": "(le T78 T80)" }], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [ "T78", "T80" ], "free": [], "exprvars": [] } }, "708": { "goal": [{ "clause": -1, "scope": -1, "term": "(true)" }], "kb": { "nonunifying": [], "intvars": {}, "arithmetic": { "type": "PlainIntegerRelationState", "relations": [] }, "ground": [], "free": [], "exprvars": [] } } }, "edges": [ { "from": 57, "to": 58, "label": "CASE" }, { "from": 58, "to": 259, "label": "PARALLEL" }, { "from": 58, "to": 260, "label": "PARALLEL" }, { "from": 259, "to": 261, "label": "EVAL with clause\nmergesort([], []).\nand substitutionT1 -> [],\nT2 -> []" }, { "from": 259, "to": 262, "label": "EVAL-BACKTRACK" }, { "from": 260, "to": 265, "label": "PARALLEL" }, { "from": 260, "to": 266, "label": "PARALLEL" }, { "from": 261, "to": 263, "label": "SUCCESS" }, { "from": 265, "to": 271, "label": "EVAL with clause\nmergesort(.(X5, []), .(X5, [])).\nand substitutionX5 -> T7,\nT1 -> .(T7, []),\nT2 -> .(T7, [])" }, { "from": 265, "to": 272, "label": "EVAL-BACKTRACK" }, { "from": 266, "to": 492, "label": "EVAL with clause\nmergesort(.(X18, .(X19, X20)), X21) :- ','(split(.(X18, .(X19, X20)), X22, X23), ','(mergesort(X22, X24), ','(mergesort(X23, X25), merge(X24, X25, X21)))).\nand substitutionX18 -> T16,\nX19 -> T17,\nX20 -> T18,\nT1 -> .(T16, .(T17, T18)),\nT2 -> T20,\nX21 -> T20,\nT19 -> T20" }, { "from": 266, "to": 494, "label": "EVAL-BACKTRACK" }, { "from": 271, "to": 274, "label": "SUCCESS" }, { "from": 492, "to": 542, "label": "SPLIT 1" }, { "from": 492, "to": 543, "label": "SPLIT 2\nnew knowledge:\nT16 is ground\nT17 is ground\nT18 is ground\nT21 is ground\nT22 is ground\nreplacements:X22 -> T21,\nX23 -> T22" }, { "from": 542, "to": 544, "label": "CASE" }, { "from": 543, "to": 667, "label": "SPLIT 1" }, { "from": 543, "to": 669, "label": "SPLIT 2\nnew knowledge:\nT21 is ground\nT44 is ground\nreplacements:X24 -> T44" }, { "from": 544, "to": 545, "label": "BACKTRACK\nfor clause: split([], [], [])because of non-unification" }, { "from": 545, "to": 548, "label": "ONLY EVAL with clause\nsplit(.(X38, X39), .(X38, X40), X41) :- split(X39, X41, X40).\nand substitutionT16 -> T29,\nX38 -> T29,\nT17 -> T30,\nT18 -> T31,\nX39 -> .(T30, T31),\nX40 -> X42,\nX22 -> .(T29, X42),\nX23 -> X43,\nX41 -> X43" }, { "from": 548, "to": 549, "label": "CASE" }, { "from": 549, "to": 550, "label": "BACKTRACK\nfor clause: split([], [], [])because of non-unification" }, { "from": 550, "to": 553, "label": "ONLY EVAL with clause\nsplit(.(X56, X57), .(X56, X58), X59) :- split(X57, X59, X58).\nand substitutionT30 -> T36,\nX56 -> T36,\nT31 -> T37,\nX57 -> T37,\nX58 -> X60,\nX43 -> .(T36, X60),\nX42 -> X61,\nX59 -> X61" }, { "from": 553, "to": 554, "label": "CASE" }, { "from": 554, "to": 555, "label": "PARALLEL" }, { "from": 554, "to": 556, "label": "PARALLEL" }, { "from": 555, "to": 557, "label": "EVAL with clause\nsplit([], [], []).\nand substitutionT37 -> [],\nX61 -> [],\nX60 -> []" }, { "from": 555, "to": 558, "label": "EVAL-BACKTRACK" }, { "from": 556, "to": 566, "label": "EVAL with clause\nsplit(.(X74, X75), .(X74, X76), X77) :- split(X75, X77, X76).\nand substitutionX74 -> T42,\nX75 -> T43,\nT37 -> .(T42, T43),\nX76 -> X78,\nX61 -> .(T42, X78),\nX60 -> X79,\nX77 -> X79" }, { "from": 556, "to": 567, "label": "EVAL-BACKTRACK" }, { "from": 557, "to": 559, "label": "SUCCESS" }, { "from": 566, "to": 553, "label": "INSTANCE with matching:\nT37 -> T43\nX61 -> X79\nX60 -> X78" }, { "from": 667, "to": 57, "label": "INSTANCE with matching:\nT1 -> T21\nT2 -> X24" }, { "from": 669, "to": 672, "label": "SPLIT 1" }, { "from": 669, "to": 673, "label": "SPLIT 2\nnew knowledge:\nT22 is ground\nT45 is ground\nreplacements:X25 -> T45" }, { "from": 672, "to": 57, "label": "INSTANCE with matching:\nT1 -> T22\nT2 -> X25" }, { "from": 673, "to": 676, "label": "CASE" }, { "from": 676, "to": 677, "label": "PARALLEL" }, { "from": 676, "to": 678, "label": "PARALLEL" }, { "from": 677, "to": 679, "label": "EVAL with clause\nmerge([], X86, X86).\nand substitutionT44 -> [],\nT45 -> T52,\nX86 -> T52,\nT20 -> T52" }, { "from": 677, "to": 680, "label": "EVAL-BACKTRACK" }, { "from": 678, "to": 685, "label": "PARALLEL" }, { "from": 678, "to": 686, "label": "PARALLEL" }, { "from": 679, "to": 681, "label": "SUCCESS" }, { "from": 685, "to": 690, "label": "EVAL with clause\nmerge(X91, [], X91).\nand substitutionT44 -> T57,\nX91 -> T57,\nT45 -> [],\nT20 -> T57" }, { "from": 685, "to": 691, "label": "EVAL-BACKTRACK" }, { "from": 686, "to": 693, "label": "PARALLEL" }, { "from": 686, "to": 694, "label": "PARALLEL" }, { "from": 690, "to": 692, "label": "SUCCESS" }, { "from": 693, "to": 695, "label": "EVAL with clause\nmerge(.(X112, X113), .(X114, X115), .(X112, X116)) :- ','(le(X112, X114), merge(X113, .(X114, X115), X116)).\nand substitutionX112 -> T78,\nX113 -> T79,\nT44 -> .(T78, T79),\nX114 -> T80,\nX115 -> T81,\nT45 -> .(T80, T81),\nX116 -> T83,\nT20 -> .(T78, T83),\nT82 -> T83" }, { "from": 693, "to": 696, "label": "EVAL-BACKTRACK" }, { "from": 694, "to": 714, "label": "EVAL with clause\nmerge(.(X150, X151), .(X152, X153), .(X152, X154)) :- ','(gt(X150, X152), merge(.(X150, X151), X153, X154)).\nand substitutionX150 -> T119,\nX151 -> T120,\nT44 -> .(T119, T120),\nX152 -> T121,\nX153 -> T122,\nT45 -> .(T121, T122),\nX154 -> T124,\nT20 -> .(T121, T124),\nT123 -> T124" }, { "from": 694, "to": 715, "label": "EVAL-BACKTRACK" }, { "from": 695, "to": 697, "label": "SPLIT 1" }, { "from": 695, "to": 698, "label": "SPLIT 2\nnew knowledge:\nT78 is ground\nT80 is ground" }, { "from": 697, "to": 699, "label": "CASE" }, { "from": 698, "to": 673, "label": "INSTANCE with matching:\nT44 -> T79\nT45 -> .(T80, T81)\nT20 -> T83" }, { "from": 699, "to": 702, "label": "PARALLEL" }, { "from": 699, "to": 703, "label": "PARALLEL" }, { "from": 702, "to": 704, "label": "EVAL with clause\nle(s(X129), s(X130)) :- le(X129, X130).\nand substitutionX129 -> T96,\nT78 -> s(T96),\nX130 -> T97,\nT80 -> s(T97)" }, { "from": 702, "to": 705, "label": "EVAL-BACKTRACK" }, { "from": 703, "to": 706, "label": "PARALLEL" }, { "from": 703, "to": 707, "label": "PARALLEL" }, { "from": 704, "to": 697, "label": "INSTANCE with matching:\nT78 -> T96\nT80 -> T97" }, { "from": 706, "to": 708, "label": "EVAL with clause\nle(0, s(X137)).\nand substitutionT78 -> 0,\nX137 -> T104,\nT80 -> s(T104)" }, { "from": 706, "to": 709, "label": "EVAL-BACKTRACK" }, { "from": 707, "to": 711, "label": "EVAL with clause\nle(0, 0).\nand substitutionT78 -> 0,\nT80 -> 0" }, { "from": 707, "to": 712, "label": "EVAL-BACKTRACK" }, { "from": 708, "to": 710, "label": "SUCCESS" }, { "from": 711, "to": 713, "label": "SUCCESS" }, { "from": 714, "to": 718, "label": "SPLIT 1" }, { "from": 714, "to": 719, "label": "SPLIT 2\nnew knowledge:\nT119 is ground\nT121 is ground" }, { "from": 718, "to": 722, "label": "CASE" }, { "from": 719, "to": 673, "label": "INSTANCE with matching:\nT44 -> .(T119, T120)\nT45 -> T122\nT20 -> T124" }, { "from": 722, "to": 724, "label": "PARALLEL" }, { "from": 722, "to": 725, "label": "PARALLEL" }, { "from": 724, "to": 738, "label": "EVAL with clause\ngt(s(X167), s(X168)) :- gt(X167, X168).\nand substitutionX167 -> T137,\nT119 -> s(T137),\nX168 -> T138,\nT121 -> s(T138)" }, { "from": 724, "to": 739, "label": "EVAL-BACKTRACK" }, { "from": 725, "to": 744, "label": "EVAL with clause\ngt(s(X173), 0).\nand substitutionX173 -> T143,\nT119 -> s(T143),\nT121 -> 0" }, { "from": 725, "to": 745, "label": "EVAL-BACKTRACK" }, { "from": 738, "to": 718, "label": "INSTANCE with matching:\nT119 -> T137\nT121 -> T138" }, { "from": 744, "to": 746, "label": "SUCCESS" } ], "type": "Graph" } } ---------------------------------------- (2) Obligation: Q restricted rewrite system: The TRS R consists of the following rules: f57_in([]) -> f57_out1([]) f57_in(.(T7, [])) -> f57_out1(.(T7, [])) f57_in(.(T16, .(T17, T18))) -> U1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) U1(f492_out1(X22, X23, X24, X25, T20), .(T16, .(T17, T18))) -> f57_out1(T20) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) f673_in([], T52) -> f673_out1(T52) f673_in(T57, []) -> f673_out1(T57) f673_in(.(T78, T79), .(T80, T81)) -> U3(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) U3(f695_out1(T83), .(T78, T79), .(T80, T81)) -> f673_out1(.(T78, T83)) f673_in(.(T119, T120), .(T121, T122)) -> U4(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) U4(f714_out1(T124), .(T119, T120), .(T121, T122)) -> f673_out1(.(T121, T124)) f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) U5(f697_out1, s(T96), s(T97)) -> f697_out1 f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) U6(f718_out1, s(T137), s(T138)) -> f718_out1 f718_in(s(T143), 0) -> f718_out1 f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) f492_in(T16, T17, T18) -> U8(f542_in(T16, T17, T18), T16, T17, T18) U8(f542_out1(T21, T22), T16, T17, T18) -> U9(f543_in(T21, T22), T16, T17, T18, T21, T22) U9(f543_out1(X24, X25, T20), T16, T17, T18, T21, T22) -> f492_out1(T21, T22, X24, X25, T20) f543_in(T21, T22) -> U10(f57_in(T21), T21, T22) U10(f57_out1(T44), T21, T22) -> U11(f669_in(T22, T44), T21, T22, T44) U11(f669_out1(X25, T20), T21, T22, T44) -> f543_out1(T44, X25, T20) f669_in(T22, T44) -> U12(f57_in(T22), T22, T44) U12(f57_out1(T45), T22, T44) -> U13(f673_in(T44, T45), T22, T44, T45) U13(f673_out1(T20), T22, T44, T45) -> f669_out1(T45, T20) f695_in(T78, T80, T79, T81) -> U14(f697_in(T78, T80), T78, T80, T79, T81) U14(f697_out1, T78, T80, T79, T81) -> U15(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U15(f673_out1(T83), T78, T80, T79, T81) -> f695_out1(T83) f714_in(T119, T121, T120, T122) -> U16(f718_in(T119, T121), T119, T121, T120, T122) U16(f718_out1, T119, T121, T120, T122) -> U17(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U17(f673_out1(T124), T119, T121, T120, T122) -> f714_out1(T124) Q is empty. ---------------------------------------- (3) DependencyPairsProof (EQUIVALENT) Using Dependency Pairs [AG00,LPAR04] we result in the following initial DP problem. ---------------------------------------- (4) Obligation: Q DP problem: The TRS P consists of the following rules: F57_IN(.(T16, .(T17, T18))) -> U1^1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) F57_IN(.(T16, .(T17, T18))) -> F492_IN(T16, T17, T18) F553_IN(.(T42, T43)) -> U2^1(f553_in(T43), .(T42, T43)) F553_IN(.(T42, T43)) -> F553_IN(T43) F673_IN(.(T78, T79), .(T80, T81)) -> U3^1(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) F673_IN(.(T78, T79), .(T80, T81)) -> F695_IN(T78, T80, T79, T81) F673_IN(.(T119, T120), .(T121, T122)) -> U4^1(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) F673_IN(.(T119, T120), .(T121, T122)) -> F714_IN(T119, T121, T120, T122) F697_IN(s(T96), s(T97)) -> U5^1(f697_in(T96, T97), s(T96), s(T97)) F697_IN(s(T96), s(T97)) -> F697_IN(T96, T97) F718_IN(s(T137), s(T138)) -> U6^1(f718_in(T137, T138), s(T137), s(T138)) F718_IN(s(T137), s(T138)) -> F718_IN(T137, T138) F542_IN(T29, T36, T37) -> U7^1(f553_in(T37), T29, T36, T37) F542_IN(T29, T36, T37) -> F553_IN(T37) F492_IN(T16, T17, T18) -> U8^1(f542_in(T16, T17, T18), T16, T17, T18) F492_IN(T16, T17, T18) -> F542_IN(T16, T17, T18) U8^1(f542_out1(T21, T22), T16, T17, T18) -> U9^1(f543_in(T21, T22), T16, T17, T18, T21, T22) U8^1(f542_out1(T21, T22), T16, T17, T18) -> F543_IN(T21, T22) F543_IN(T21, T22) -> U10^1(f57_in(T21), T21, T22) F543_IN(T21, T22) -> F57_IN(T21) U10^1(f57_out1(T44), T21, T22) -> U11^1(f669_in(T22, T44), T21, T22, T44) U10^1(f57_out1(T44), T21, T22) -> F669_IN(T22, T44) F669_IN(T22, T44) -> U12^1(f57_in(T22), T22, T44) F669_IN(T22, T44) -> F57_IN(T22) U12^1(f57_out1(T45), T22, T44) -> U13^1(f673_in(T44, T45), T22, T44, T45) U12^1(f57_out1(T45), T22, T44) -> F673_IN(T44, T45) F695_IN(T78, T80, T79, T81) -> U14^1(f697_in(T78, T80), T78, T80, T79, T81) F695_IN(T78, T80, T79, T81) -> F697_IN(T78, T80) U14^1(f697_out1, T78, T80, T79, T81) -> U15^1(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U14^1(f697_out1, T78, T80, T79, T81) -> F673_IN(T79, .(T80, T81)) F714_IN(T119, T121, T120, T122) -> U16^1(f718_in(T119, T121), T119, T121, T120, T122) F714_IN(T119, T121, T120, T122) -> F718_IN(T119, T121) U16^1(f718_out1, T119, T121, T120, T122) -> U17^1(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U16^1(f718_out1, T119, T121, T120, T122) -> F673_IN(.(T119, T120), T122) The TRS R consists of the following rules: f57_in([]) -> f57_out1([]) f57_in(.(T7, [])) -> f57_out1(.(T7, [])) f57_in(.(T16, .(T17, T18))) -> U1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) U1(f492_out1(X22, X23, X24, X25, T20), .(T16, .(T17, T18))) -> f57_out1(T20) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) f673_in([], T52) -> f673_out1(T52) f673_in(T57, []) -> f673_out1(T57) f673_in(.(T78, T79), .(T80, T81)) -> U3(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) U3(f695_out1(T83), .(T78, T79), .(T80, T81)) -> f673_out1(.(T78, T83)) f673_in(.(T119, T120), .(T121, T122)) -> U4(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) U4(f714_out1(T124), .(T119, T120), .(T121, T122)) -> f673_out1(.(T121, T124)) f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) U5(f697_out1, s(T96), s(T97)) -> f697_out1 f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) U6(f718_out1, s(T137), s(T138)) -> f718_out1 f718_in(s(T143), 0) -> f718_out1 f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) f492_in(T16, T17, T18) -> U8(f542_in(T16, T17, T18), T16, T17, T18) U8(f542_out1(T21, T22), T16, T17, T18) -> U9(f543_in(T21, T22), T16, T17, T18, T21, T22) U9(f543_out1(X24, X25, T20), T16, T17, T18, T21, T22) -> f492_out1(T21, T22, X24, X25, T20) f543_in(T21, T22) -> U10(f57_in(T21), T21, T22) U10(f57_out1(T44), T21, T22) -> U11(f669_in(T22, T44), T21, T22, T44) U11(f669_out1(X25, T20), T21, T22, T44) -> f543_out1(T44, X25, T20) f669_in(T22, T44) -> U12(f57_in(T22), T22, T44) U12(f57_out1(T45), T22, T44) -> U13(f673_in(T44, T45), T22, T44, T45) U13(f673_out1(T20), T22, T44, T45) -> f669_out1(T45, T20) f695_in(T78, T80, T79, T81) -> U14(f697_in(T78, T80), T78, T80, T79, T81) U14(f697_out1, T78, T80, T79, T81) -> U15(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U15(f673_out1(T83), T78, T80, T79, T81) -> f695_out1(T83) f714_in(T119, T121, T120, T122) -> U16(f718_in(T119, T121), T119, T121, T120, T122) U16(f718_out1, T119, T121, T120, T122) -> U17(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U17(f673_out1(T124), T119, T121, T120, T122) -> f714_out1(T124) Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (5) DependencyGraphProof (EQUIVALENT) The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 5 SCCs with 18 less nodes. ---------------------------------------- (6) Complex Obligation (AND) ---------------------------------------- (7) Obligation: Q DP problem: The TRS P consists of the following rules: F718_IN(s(T137), s(T138)) -> F718_IN(T137, T138) The TRS R consists of the following rules: f57_in([]) -> f57_out1([]) f57_in(.(T7, [])) -> f57_out1(.(T7, [])) f57_in(.(T16, .(T17, T18))) -> U1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) U1(f492_out1(X22, X23, X24, X25, T20), .(T16, .(T17, T18))) -> f57_out1(T20) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) f673_in([], T52) -> f673_out1(T52) f673_in(T57, []) -> f673_out1(T57) f673_in(.(T78, T79), .(T80, T81)) -> U3(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) U3(f695_out1(T83), .(T78, T79), .(T80, T81)) -> f673_out1(.(T78, T83)) f673_in(.(T119, T120), .(T121, T122)) -> U4(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) U4(f714_out1(T124), .(T119, T120), .(T121, T122)) -> f673_out1(.(T121, T124)) f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) U5(f697_out1, s(T96), s(T97)) -> f697_out1 f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) U6(f718_out1, s(T137), s(T138)) -> f718_out1 f718_in(s(T143), 0) -> f718_out1 f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) f492_in(T16, T17, T18) -> U8(f542_in(T16, T17, T18), T16, T17, T18) U8(f542_out1(T21, T22), T16, T17, T18) -> U9(f543_in(T21, T22), T16, T17, T18, T21, T22) U9(f543_out1(X24, X25, T20), T16, T17, T18, T21, T22) -> f492_out1(T21, T22, X24, X25, T20) f543_in(T21, T22) -> U10(f57_in(T21), T21, T22) U10(f57_out1(T44), T21, T22) -> U11(f669_in(T22, T44), T21, T22, T44) U11(f669_out1(X25, T20), T21, T22, T44) -> f543_out1(T44, X25, T20) f669_in(T22, T44) -> U12(f57_in(T22), T22, T44) U12(f57_out1(T45), T22, T44) -> U13(f673_in(T44, T45), T22, T44, T45) U13(f673_out1(T20), T22, T44, T45) -> f669_out1(T45, T20) f695_in(T78, T80, T79, T81) -> U14(f697_in(T78, T80), T78, T80, T79, T81) U14(f697_out1, T78, T80, T79, T81) -> U15(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U15(f673_out1(T83), T78, T80, T79, T81) -> f695_out1(T83) f714_in(T119, T121, T120, T122) -> U16(f718_in(T119, T121), T119, T121, T120, T122) U16(f718_out1, T119, T121, T120, T122) -> U17(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U17(f673_out1(T124), T119, T121, T120, T122) -> f714_out1(T124) Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (8) UsableRulesProof (EQUIVALENT) We can use the usable rules and reduction pair processor [LPAR04] with the Ce-compatible extension of the polynomial order that maps every function symbol to the sum of its arguments. Then, we can delete all non-usable rules [FROCOS05] from R. ---------------------------------------- (9) Obligation: Q DP problem: The TRS P consists of the following rules: F718_IN(s(T137), s(T138)) -> F718_IN(T137, T138) R is empty. Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (10) QDPSizeChangeProof (EQUIVALENT) By using the subterm criterion [SUBTERM_CRITERION] together with the size-change analysis [AAECC05] we have proven that there are no infinite chains for this DP problem. From the DPs we obtained the following set of size-change graphs: *F718_IN(s(T137), s(T138)) -> F718_IN(T137, T138) The graph contains the following edges 1 > 1, 2 > 2 ---------------------------------------- (11) YES ---------------------------------------- (12) Obligation: Q DP problem: The TRS P consists of the following rules: F697_IN(s(T96), s(T97)) -> F697_IN(T96, T97) The TRS R consists of the following rules: f57_in([]) -> f57_out1([]) f57_in(.(T7, [])) -> f57_out1(.(T7, [])) f57_in(.(T16, .(T17, T18))) -> U1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) U1(f492_out1(X22, X23, X24, X25, T20), .(T16, .(T17, T18))) -> f57_out1(T20) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) f673_in([], T52) -> f673_out1(T52) f673_in(T57, []) -> f673_out1(T57) f673_in(.(T78, T79), .(T80, T81)) -> U3(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) U3(f695_out1(T83), .(T78, T79), .(T80, T81)) -> f673_out1(.(T78, T83)) f673_in(.(T119, T120), .(T121, T122)) -> U4(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) U4(f714_out1(T124), .(T119, T120), .(T121, T122)) -> f673_out1(.(T121, T124)) f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) U5(f697_out1, s(T96), s(T97)) -> f697_out1 f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) U6(f718_out1, s(T137), s(T138)) -> f718_out1 f718_in(s(T143), 0) -> f718_out1 f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) f492_in(T16, T17, T18) -> U8(f542_in(T16, T17, T18), T16, T17, T18) U8(f542_out1(T21, T22), T16, T17, T18) -> U9(f543_in(T21, T22), T16, T17, T18, T21, T22) U9(f543_out1(X24, X25, T20), T16, T17, T18, T21, T22) -> f492_out1(T21, T22, X24, X25, T20) f543_in(T21, T22) -> U10(f57_in(T21), T21, T22) U10(f57_out1(T44), T21, T22) -> U11(f669_in(T22, T44), T21, T22, T44) U11(f669_out1(X25, T20), T21, T22, T44) -> f543_out1(T44, X25, T20) f669_in(T22, T44) -> U12(f57_in(T22), T22, T44) U12(f57_out1(T45), T22, T44) -> U13(f673_in(T44, T45), T22, T44, T45) U13(f673_out1(T20), T22, T44, T45) -> f669_out1(T45, T20) f695_in(T78, T80, T79, T81) -> U14(f697_in(T78, T80), T78, T80, T79, T81) U14(f697_out1, T78, T80, T79, T81) -> U15(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U15(f673_out1(T83), T78, T80, T79, T81) -> f695_out1(T83) f714_in(T119, T121, T120, T122) -> U16(f718_in(T119, T121), T119, T121, T120, T122) U16(f718_out1, T119, T121, T120, T122) -> U17(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U17(f673_out1(T124), T119, T121, T120, T122) -> f714_out1(T124) Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (13) UsableRulesProof (EQUIVALENT) We can use the usable rules and reduction pair processor [LPAR04] with the Ce-compatible extension of the polynomial order that maps every function symbol to the sum of its arguments. Then, we can delete all non-usable rules [FROCOS05] from R. ---------------------------------------- (14) Obligation: Q DP problem: The TRS P consists of the following rules: F697_IN(s(T96), s(T97)) -> F697_IN(T96, T97) R is empty. Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (15) QDPSizeChangeProof (EQUIVALENT) By using the subterm criterion [SUBTERM_CRITERION] together with the size-change analysis [AAECC05] we have proven that there are no infinite chains for this DP problem. From the DPs we obtained the following set of size-change graphs: *F697_IN(s(T96), s(T97)) -> F697_IN(T96, T97) The graph contains the following edges 1 > 1, 2 > 2 ---------------------------------------- (16) YES ---------------------------------------- (17) Obligation: Q DP problem: The TRS P consists of the following rules: F673_IN(.(T78, T79), .(T80, T81)) -> F695_IN(T78, T80, T79, T81) F695_IN(T78, T80, T79, T81) -> U14^1(f697_in(T78, T80), T78, T80, T79, T81) U14^1(f697_out1, T78, T80, T79, T81) -> F673_IN(T79, .(T80, T81)) F673_IN(.(T119, T120), .(T121, T122)) -> F714_IN(T119, T121, T120, T122) F714_IN(T119, T121, T120, T122) -> U16^1(f718_in(T119, T121), T119, T121, T120, T122) U16^1(f718_out1, T119, T121, T120, T122) -> F673_IN(.(T119, T120), T122) The TRS R consists of the following rules: f57_in([]) -> f57_out1([]) f57_in(.(T7, [])) -> f57_out1(.(T7, [])) f57_in(.(T16, .(T17, T18))) -> U1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) U1(f492_out1(X22, X23, X24, X25, T20), .(T16, .(T17, T18))) -> f57_out1(T20) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) f673_in([], T52) -> f673_out1(T52) f673_in(T57, []) -> f673_out1(T57) f673_in(.(T78, T79), .(T80, T81)) -> U3(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) U3(f695_out1(T83), .(T78, T79), .(T80, T81)) -> f673_out1(.(T78, T83)) f673_in(.(T119, T120), .(T121, T122)) -> U4(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) U4(f714_out1(T124), .(T119, T120), .(T121, T122)) -> f673_out1(.(T121, T124)) f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) U5(f697_out1, s(T96), s(T97)) -> f697_out1 f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) U6(f718_out1, s(T137), s(T138)) -> f718_out1 f718_in(s(T143), 0) -> f718_out1 f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) f492_in(T16, T17, T18) -> U8(f542_in(T16, T17, T18), T16, T17, T18) U8(f542_out1(T21, T22), T16, T17, T18) -> U9(f543_in(T21, T22), T16, T17, T18, T21, T22) U9(f543_out1(X24, X25, T20), T16, T17, T18, T21, T22) -> f492_out1(T21, T22, X24, X25, T20) f543_in(T21, T22) -> U10(f57_in(T21), T21, T22) U10(f57_out1(T44), T21, T22) -> U11(f669_in(T22, T44), T21, T22, T44) U11(f669_out1(X25, T20), T21, T22, T44) -> f543_out1(T44, X25, T20) f669_in(T22, T44) -> U12(f57_in(T22), T22, T44) U12(f57_out1(T45), T22, T44) -> U13(f673_in(T44, T45), T22, T44, T45) U13(f673_out1(T20), T22, T44, T45) -> f669_out1(T45, T20) f695_in(T78, T80, T79, T81) -> U14(f697_in(T78, T80), T78, T80, T79, T81) U14(f697_out1, T78, T80, T79, T81) -> U15(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U15(f673_out1(T83), T78, T80, T79, T81) -> f695_out1(T83) f714_in(T119, T121, T120, T122) -> U16(f718_in(T119, T121), T119, T121, T120, T122) U16(f718_out1, T119, T121, T120, T122) -> U17(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U17(f673_out1(T124), T119, T121, T120, T122) -> f714_out1(T124) Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (18) QDPOrderProof (EQUIVALENT) We use the reduction pair processor [LPAR04,JAR06]. The following pairs can be oriented strictly and are deleted. F673_IN(.(T78, T79), .(T80, T81)) -> F695_IN(T78, T80, T79, T81) F673_IN(.(T119, T120), .(T121, T122)) -> F714_IN(T119, T121, T120, T122) U16^1(f718_out1, T119, T121, T120, T122) -> F673_IN(.(T119, T120), T122) The remaining pairs can at least be oriented weakly. Used ordering: Polynomial Order [NEGPOLO,POLO] with Interpretation: POL( U14^1_5(x_1, ..., x_5) ) = x_1 + 2x_3 + 2x_4 + 2x_5 + 2 POL( f697_in_2(x_1, x_2) ) = x_1 POL( s_1(x_1) ) = 2x_1 + 2 POL( U5_3(x_1, ..., x_3) ) = 2 POL( 0 ) = 2 POL( f697_out1 ) = 2 POL( U16^1_5(x_1, ..., x_5) ) = 2x_1 + 2x_2 + 2x_4 + 2x_5 + 2 POL( f718_in_2(x_1, x_2) ) = x_2 POL( U6_3(x_1, ..., x_3) ) = max{0, 2x_1 - 2} POL( f718_out1 ) = 2 POL( F673_IN_2(x_1, x_2) ) = 2x_1 + 2x_2 POL( ._2(x_1, x_2) ) = x_1 + x_2 + 2 POL( F695_IN_4(x_1, ..., x_4) ) = x_1 + 2x_2 + 2x_3 + 2x_4 + 2 POL( F714_IN_4(x_1, ..., x_4) ) = 2x_1 + 2x_2 + 2x_3 + 2x_4 + 2 The following usable rules [FROCOS05] with respect to the argument filtering of the ordering [JAR06] were oriented: f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) f718_in(s(T143), 0) -> f718_out1 U5(f697_out1, s(T96), s(T97)) -> f697_out1 U6(f718_out1, s(T137), s(T138)) -> f718_out1 ---------------------------------------- (19) Obligation: Q DP problem: The TRS P consists of the following rules: F695_IN(T78, T80, T79, T81) -> U14^1(f697_in(T78, T80), T78, T80, T79, T81) U14^1(f697_out1, T78, T80, T79, T81) -> F673_IN(T79, .(T80, T81)) F714_IN(T119, T121, T120, T122) -> U16^1(f718_in(T119, T121), T119, T121, T120, T122) The TRS R consists of the following rules: f57_in([]) -> f57_out1([]) f57_in(.(T7, [])) -> f57_out1(.(T7, [])) f57_in(.(T16, .(T17, T18))) -> U1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) U1(f492_out1(X22, X23, X24, X25, T20), .(T16, .(T17, T18))) -> f57_out1(T20) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) f673_in([], T52) -> f673_out1(T52) f673_in(T57, []) -> f673_out1(T57) f673_in(.(T78, T79), .(T80, T81)) -> U3(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) U3(f695_out1(T83), .(T78, T79), .(T80, T81)) -> f673_out1(.(T78, T83)) f673_in(.(T119, T120), .(T121, T122)) -> U4(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) U4(f714_out1(T124), .(T119, T120), .(T121, T122)) -> f673_out1(.(T121, T124)) f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) U5(f697_out1, s(T96), s(T97)) -> f697_out1 f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) U6(f718_out1, s(T137), s(T138)) -> f718_out1 f718_in(s(T143), 0) -> f718_out1 f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) f492_in(T16, T17, T18) -> U8(f542_in(T16, T17, T18), T16, T17, T18) U8(f542_out1(T21, T22), T16, T17, T18) -> U9(f543_in(T21, T22), T16, T17, T18, T21, T22) U9(f543_out1(X24, X25, T20), T16, T17, T18, T21, T22) -> f492_out1(T21, T22, X24, X25, T20) f543_in(T21, T22) -> U10(f57_in(T21), T21, T22) U10(f57_out1(T44), T21, T22) -> U11(f669_in(T22, T44), T21, T22, T44) U11(f669_out1(X25, T20), T21, T22, T44) -> f543_out1(T44, X25, T20) f669_in(T22, T44) -> U12(f57_in(T22), T22, T44) U12(f57_out1(T45), T22, T44) -> U13(f673_in(T44, T45), T22, T44, T45) U13(f673_out1(T20), T22, T44, T45) -> f669_out1(T45, T20) f695_in(T78, T80, T79, T81) -> U14(f697_in(T78, T80), T78, T80, T79, T81) U14(f697_out1, T78, T80, T79, T81) -> U15(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U15(f673_out1(T83), T78, T80, T79, T81) -> f695_out1(T83) f714_in(T119, T121, T120, T122) -> U16(f718_in(T119, T121), T119, T121, T120, T122) U16(f718_out1, T119, T121, T120, T122) -> U17(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U17(f673_out1(T124), T119, T121, T120, T122) -> f714_out1(T124) Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (20) DependencyGraphProof (EQUIVALENT) The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 0 SCCs with 3 less nodes. ---------------------------------------- (21) TRUE ---------------------------------------- (22) Obligation: Q DP problem: The TRS P consists of the following rules: F553_IN(.(T42, T43)) -> F553_IN(T43) The TRS R consists of the following rules: f57_in([]) -> f57_out1([]) f57_in(.(T7, [])) -> f57_out1(.(T7, [])) f57_in(.(T16, .(T17, T18))) -> U1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) U1(f492_out1(X22, X23, X24, X25, T20), .(T16, .(T17, T18))) -> f57_out1(T20) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) f673_in([], T52) -> f673_out1(T52) f673_in(T57, []) -> f673_out1(T57) f673_in(.(T78, T79), .(T80, T81)) -> U3(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) U3(f695_out1(T83), .(T78, T79), .(T80, T81)) -> f673_out1(.(T78, T83)) f673_in(.(T119, T120), .(T121, T122)) -> U4(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) U4(f714_out1(T124), .(T119, T120), .(T121, T122)) -> f673_out1(.(T121, T124)) f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) U5(f697_out1, s(T96), s(T97)) -> f697_out1 f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) U6(f718_out1, s(T137), s(T138)) -> f718_out1 f718_in(s(T143), 0) -> f718_out1 f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) f492_in(T16, T17, T18) -> U8(f542_in(T16, T17, T18), T16, T17, T18) U8(f542_out1(T21, T22), T16, T17, T18) -> U9(f543_in(T21, T22), T16, T17, T18, T21, T22) U9(f543_out1(X24, X25, T20), T16, T17, T18, T21, T22) -> f492_out1(T21, T22, X24, X25, T20) f543_in(T21, T22) -> U10(f57_in(T21), T21, T22) U10(f57_out1(T44), T21, T22) -> U11(f669_in(T22, T44), T21, T22, T44) U11(f669_out1(X25, T20), T21, T22, T44) -> f543_out1(T44, X25, T20) f669_in(T22, T44) -> U12(f57_in(T22), T22, T44) U12(f57_out1(T45), T22, T44) -> U13(f673_in(T44, T45), T22, T44, T45) U13(f673_out1(T20), T22, T44, T45) -> f669_out1(T45, T20) f695_in(T78, T80, T79, T81) -> U14(f697_in(T78, T80), T78, T80, T79, T81) U14(f697_out1, T78, T80, T79, T81) -> U15(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U15(f673_out1(T83), T78, T80, T79, T81) -> f695_out1(T83) f714_in(T119, T121, T120, T122) -> U16(f718_in(T119, T121), T119, T121, T120, T122) U16(f718_out1, T119, T121, T120, T122) -> U17(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U17(f673_out1(T124), T119, T121, T120, T122) -> f714_out1(T124) Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (23) UsableRulesProof (EQUIVALENT) We can use the usable rules and reduction pair processor [LPAR04] with the Ce-compatible extension of the polynomial order that maps every function symbol to the sum of its arguments. Then, we can delete all non-usable rules [FROCOS05] from R. ---------------------------------------- (24) Obligation: Q DP problem: The TRS P consists of the following rules: F553_IN(.(T42, T43)) -> F553_IN(T43) R is empty. Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (25) QDPSizeChangeProof (EQUIVALENT) By using the subterm criterion [SUBTERM_CRITERION] together with the size-change analysis [AAECC05] we have proven that there are no infinite chains for this DP problem. From the DPs we obtained the following set of size-change graphs: *F553_IN(.(T42, T43)) -> F553_IN(T43) The graph contains the following edges 1 > 1 ---------------------------------------- (26) YES ---------------------------------------- (27) Obligation: Q DP problem: The TRS P consists of the following rules: F57_IN(.(T16, .(T17, T18))) -> F492_IN(T16, T17, T18) F492_IN(T16, T17, T18) -> U8^1(f542_in(T16, T17, T18), T16, T17, T18) U8^1(f542_out1(T21, T22), T16, T17, T18) -> F543_IN(T21, T22) F543_IN(T21, T22) -> U10^1(f57_in(T21), T21, T22) U10^1(f57_out1(T44), T21, T22) -> F669_IN(T22, T44) F669_IN(T22, T44) -> F57_IN(T22) F543_IN(T21, T22) -> F57_IN(T21) The TRS R consists of the following rules: f57_in([]) -> f57_out1([]) f57_in(.(T7, [])) -> f57_out1(.(T7, [])) f57_in(.(T16, .(T17, T18))) -> U1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) U1(f492_out1(X22, X23, X24, X25, T20), .(T16, .(T17, T18))) -> f57_out1(T20) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) f673_in([], T52) -> f673_out1(T52) f673_in(T57, []) -> f673_out1(T57) f673_in(.(T78, T79), .(T80, T81)) -> U3(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) U3(f695_out1(T83), .(T78, T79), .(T80, T81)) -> f673_out1(.(T78, T83)) f673_in(.(T119, T120), .(T121, T122)) -> U4(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) U4(f714_out1(T124), .(T119, T120), .(T121, T122)) -> f673_out1(.(T121, T124)) f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) U5(f697_out1, s(T96), s(T97)) -> f697_out1 f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) U6(f718_out1, s(T137), s(T138)) -> f718_out1 f718_in(s(T143), 0) -> f718_out1 f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) f492_in(T16, T17, T18) -> U8(f542_in(T16, T17, T18), T16, T17, T18) U8(f542_out1(T21, T22), T16, T17, T18) -> U9(f543_in(T21, T22), T16, T17, T18, T21, T22) U9(f543_out1(X24, X25, T20), T16, T17, T18, T21, T22) -> f492_out1(T21, T22, X24, X25, T20) f543_in(T21, T22) -> U10(f57_in(T21), T21, T22) U10(f57_out1(T44), T21, T22) -> U11(f669_in(T22, T44), T21, T22, T44) U11(f669_out1(X25, T20), T21, T22, T44) -> f543_out1(T44, X25, T20) f669_in(T22, T44) -> U12(f57_in(T22), T22, T44) U12(f57_out1(T45), T22, T44) -> U13(f673_in(T44, T45), T22, T44, T45) U13(f673_out1(T20), T22, T44, T45) -> f669_out1(T45, T20) f695_in(T78, T80, T79, T81) -> U14(f697_in(T78, T80), T78, T80, T79, T81) U14(f697_out1, T78, T80, T79, T81) -> U15(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U15(f673_out1(T83), T78, T80, T79, T81) -> f695_out1(T83) f714_in(T119, T121, T120, T122) -> U16(f718_in(T119, T121), T119, T121, T120, T122) U16(f718_out1, T119, T121, T120, T122) -> U17(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U17(f673_out1(T124), T119, T121, T120, T122) -> f714_out1(T124) Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (28) QDPOrderProof (EQUIVALENT) We use the reduction pair processor [LPAR04,JAR06]. The following pairs can be oriented strictly and are deleted. F57_IN(.(T16, .(T17, T18))) -> F492_IN(T16, T17, T18) The remaining pairs can at least be oriented weakly. Used ordering: Polynomial Order [NEGPOLO,POLO] with Interpretation: POL( U8^1_4(x_1, ..., x_4) ) = x_1 + 2 POL( U10^1_3(x_1, ..., x_3) ) = x_3 POL( U8_4(x_1, ..., x_4) ) = 2x_2 + 2 POL( f542_in_3(x_1, ..., x_3) ) = 2x_3 POL( U7_4(x_1, ..., x_4) ) = 2x_1 POL( f553_in_1(x_1) ) = x_1 POL( f57_in_1(x_1) ) = 0 POL( [] ) = 0 POL( f57_out1_1(x_1) ) = max{0, 2x_1 - 2} POL( ._2(x_1, x_2) ) = 2x_2 + 1 POL( U1_2(x_1, x_2) ) = 2x_1 + x_2 + 1 POL( f492_in_3(x_1, ..., x_3) ) = x_1 + 2x_2 + x_3 + 2 POL( f492_out1_5(x_1, ..., x_5) ) = 2x_1 + 2x_2 + 2x_3 + 2x_4 + 1 POL( f542_out1_2(x_1, x_2) ) = max{0, x_1 + x_2 - 2} POL( U9_6(x_1, ..., x_6) ) = 2x_5 + 2 POL( f543_in_2(x_1, x_2) ) = 0 POL( f543_out1_3(x_1, ..., x_3) ) = 2x_1 + x_3 + 2 POL( U10_3(x_1, ..., x_3) ) = 2 POL( U11_4(x_1, ..., x_4) ) = max{0, 2x_4 - 2} POL( f669_in_2(x_1, x_2) ) = 2x_1 + 1 POL( f669_out1_2(x_1, x_2) ) = 2x_1 + 2x_2 + 2 POL( U12_3(x_1, ..., x_3) ) = max{0, x_2 - 2} POL( U13_4(x_1, ..., x_4) ) = max{0, x_3 + 2x_4 - 2} POL( f673_in_2(x_1, x_2) ) = 0 POL( f553_out1_2(x_1, x_2) ) = x_1 + x_2 POL( U2_2(x_1, x_2) ) = 2x_1 + 1 POL( f673_out1_1(x_1) ) = 2 POL( U3_3(x_1, ..., x_3) ) = max{0, 2x_1 - 2} POL( f695_in_4(x_1, ..., x_4) ) = 2x_2 + 2 POL( U4_3(x_1, ..., x_3) ) = 2x_1 + 2x_2 + x_3 + 1 POL( f714_in_4(x_1, ..., x_4) ) = 2x_1 + 2x_2 + 2x_3 + 2 POL( f695_out1_1(x_1) ) = 1 POL( U14_5(x_1, ..., x_5) ) = max{0, x_4 + x_5 - 2} POL( f697_in_2(x_1, x_2) ) = 0 POL( s_1(x_1) ) = 2x_1 POL( U5_3(x_1, ..., x_3) ) = max{0, x_2 - 2} POL( 0 ) = 0 POL( f697_out1 ) = 0 POL( U15_5(x_1, ..., x_5) ) = max{0, x_2 - 2} POL( f714_out1_1(x_1) ) = 0 POL( U16_5(x_1, ..., x_5) ) = max{0, x_4 + 2x_5 - 2} POL( f718_in_2(x_1, x_2) ) = 2x_1 + 2x_2 POL( U6_3(x_1, ..., x_3) ) = max{0, 2x_1 + 2x_2 + 2x_3 - 2} POL( f718_out1 ) = 2 POL( U17_5(x_1, ..., x_5) ) = max{0, 2x_3 - 2} POL( F57_IN_1(x_1) ) = x_1 POL( F492_IN_3(x_1, ..., x_3) ) = 2x_3 + 2 POL( F543_IN_2(x_1, x_2) ) = x_1 + x_2 POL( F669_IN_2(x_1, x_2) ) = x_1 The following usable rules [FROCOS05] with respect to the argument filtering of the ordering [JAR06] were oriented: f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) ---------------------------------------- (29) Obligation: Q DP problem: The TRS P consists of the following rules: F492_IN(T16, T17, T18) -> U8^1(f542_in(T16, T17, T18), T16, T17, T18) U8^1(f542_out1(T21, T22), T16, T17, T18) -> F543_IN(T21, T22) F543_IN(T21, T22) -> U10^1(f57_in(T21), T21, T22) U10^1(f57_out1(T44), T21, T22) -> F669_IN(T22, T44) F669_IN(T22, T44) -> F57_IN(T22) F543_IN(T21, T22) -> F57_IN(T21) The TRS R consists of the following rules: f57_in([]) -> f57_out1([]) f57_in(.(T7, [])) -> f57_out1(.(T7, [])) f57_in(.(T16, .(T17, T18))) -> U1(f492_in(T16, T17, T18), .(T16, .(T17, T18))) U1(f492_out1(X22, X23, X24, X25, T20), .(T16, .(T17, T18))) -> f57_out1(T20) f553_in([]) -> f553_out1([], []) f553_in(.(T42, T43)) -> U2(f553_in(T43), .(T42, T43)) U2(f553_out1(X79, X78), .(T42, T43)) -> f553_out1(.(T42, X78), X79) f673_in([], T52) -> f673_out1(T52) f673_in(T57, []) -> f673_out1(T57) f673_in(.(T78, T79), .(T80, T81)) -> U3(f695_in(T78, T80, T79, T81), .(T78, T79), .(T80, T81)) U3(f695_out1(T83), .(T78, T79), .(T80, T81)) -> f673_out1(.(T78, T83)) f673_in(.(T119, T120), .(T121, T122)) -> U4(f714_in(T119, T121, T120, T122), .(T119, T120), .(T121, T122)) U4(f714_out1(T124), .(T119, T120), .(T121, T122)) -> f673_out1(.(T121, T124)) f697_in(s(T96), s(T97)) -> U5(f697_in(T96, T97), s(T96), s(T97)) U5(f697_out1, s(T96), s(T97)) -> f697_out1 f697_in(0, s(T104)) -> f697_out1 f697_in(0, 0) -> f697_out1 f718_in(s(T137), s(T138)) -> U6(f718_in(T137, T138), s(T137), s(T138)) U6(f718_out1, s(T137), s(T138)) -> f718_out1 f718_in(s(T143), 0) -> f718_out1 f542_in(T29, T36, T37) -> U7(f553_in(T37), T29, T36, T37) U7(f553_out1(X61, X60), T29, T36, T37) -> f542_out1(.(T29, X61), .(T36, X60)) f492_in(T16, T17, T18) -> U8(f542_in(T16, T17, T18), T16, T17, T18) U8(f542_out1(T21, T22), T16, T17, T18) -> U9(f543_in(T21, T22), T16, T17, T18, T21, T22) U9(f543_out1(X24, X25, T20), T16, T17, T18, T21, T22) -> f492_out1(T21, T22, X24, X25, T20) f543_in(T21, T22) -> U10(f57_in(T21), T21, T22) U10(f57_out1(T44), T21, T22) -> U11(f669_in(T22, T44), T21, T22, T44) U11(f669_out1(X25, T20), T21, T22, T44) -> f543_out1(T44, X25, T20) f669_in(T22, T44) -> U12(f57_in(T22), T22, T44) U12(f57_out1(T45), T22, T44) -> U13(f673_in(T44, T45), T22, T44, T45) U13(f673_out1(T20), T22, T44, T45) -> f669_out1(T45, T20) f695_in(T78, T80, T79, T81) -> U14(f697_in(T78, T80), T78, T80, T79, T81) U14(f697_out1, T78, T80, T79, T81) -> U15(f673_in(T79, .(T80, T81)), T78, T80, T79, T81) U15(f673_out1(T83), T78, T80, T79, T81) -> f695_out1(T83) f714_in(T119, T121, T120, T122) -> U16(f718_in(T119, T121), T119, T121, T120, T122) U16(f718_out1, T119, T121, T120, T122) -> U17(f673_in(.(T119, T120), T122), T119, T121, T120, T122) U17(f673_out1(T124), T119, T121, T120, T122) -> f714_out1(T124) Q is empty. We have to consider all minimal (P,Q,R)-chains. ---------------------------------------- (30) DependencyGraphProof (EQUIVALENT) The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 0 SCCs with 6 less nodes. ---------------------------------------- (31) TRUE