YES * Step 1: FromIts YES + Considered Problem: Rules: 0. evalfstart(A,B,C,D) -> evalfentryin(A,B,C,D) True (1,1) 1. evalfentryin(A,B,C,D) -> evalfbb4in(1,B,C,D) True (?,1) 2. evalfbb4in(A,B,C,D) -> evalfbb2in(A,B,1,D) [B >= A] (?,1) 3. evalfbb4in(A,B,C,D) -> evalfreturnin(A,B,C,D) [A >= 1 + B] (?,1) 4. evalfbb2in(A,B,C,D) -> evalfbb1in(A,B,C,D) [D >= C] (?,1) 5. evalfbb2in(A,B,C,D) -> evalfbb3in(A,B,C,D) [C >= 1 + D] (?,1) 6. evalfbb1in(A,B,C,D) -> evalfbb2in(A,B,1 + C,D) True (?,1) 7. evalfbb3in(A,B,C,D) -> evalfbb4in(1 + A,B,C,D) True (?,1) 8. evalfreturnin(A,B,C,D) -> evalfstop(A,B,C,D) True (?,1) Signature: {(evalfbb1in,4) ;(evalfbb2in,4) ;(evalfbb3in,4) ;(evalfbb4in,4) ;(evalfentryin,4) ;(evalfreturnin,4) ;(evalfstart,4) ;(evalfstop,4)} Flow Graph: [0->{1},1->{2,3},2->{4,5},3->{8},4->{6},5->{7},6->{4,5},7->{2,3},8->{}] + Applied Processor: FromIts + Details: () * Step 2: Decompose YES + Considered Problem: Rules: evalfstart(A,B,C,D) -> evalfentryin(A,B,C,D) True evalfentryin(A,B,C,D) -> evalfbb4in(1,B,C,D) True evalfbb4in(A,B,C,D) -> evalfbb2in(A,B,1,D) [B >= A] evalfbb4in(A,B,C,D) -> evalfreturnin(A,B,C,D) [A >= 1 + B] evalfbb2in(A,B,C,D) -> evalfbb1in(A,B,C,D) [D >= C] evalfbb2in(A,B,C,D) -> evalfbb3in(A,B,C,D) [C >= 1 + D] evalfbb1in(A,B,C,D) -> evalfbb2in(A,B,1 + C,D) True evalfbb3in(A,B,C,D) -> evalfbb4in(1 + A,B,C,D) True evalfreturnin(A,B,C,D) -> evalfstop(A,B,C,D) True Signature: {(evalfbb1in,4) ;(evalfbb2in,4) ;(evalfbb3in,4) ;(evalfbb4in,4) ;(evalfentryin,4) ;(evalfreturnin,4) ;(evalfstart,4) ;(evalfstop,4)} Rule Graph: [0->{1},1->{2,3},2->{4,5},3->{8},4->{6},5->{7},6->{4,5},7->{2,3},8->{}] + Applied Processor: Decompose NoGreedy + Details: We construct a looptree: P: [0,1,2,3,4,5,6,7,8] | `- p:[2,7,5,6,4] c: [2,5,7] | `- p:[4,6] c: [4,6] * Step 3: CloseWith YES + Considered Problem: (Rules: evalfstart(A,B,C,D) -> evalfentryin(A,B,C,D) True evalfentryin(A,B,C,D) -> evalfbb4in(1,B,C,D) True evalfbb4in(A,B,C,D) -> evalfbb2in(A,B,1,D) [B >= A] evalfbb4in(A,B,C,D) -> evalfreturnin(A,B,C,D) [A >= 1 + B] evalfbb2in(A,B,C,D) -> evalfbb1in(A,B,C,D) [D >= C] evalfbb2in(A,B,C,D) -> evalfbb3in(A,B,C,D) [C >= 1 + D] evalfbb1in(A,B,C,D) -> evalfbb2in(A,B,1 + C,D) True evalfbb3in(A,B,C,D) -> evalfbb4in(1 + A,B,C,D) True evalfreturnin(A,B,C,D) -> evalfstop(A,B,C,D) True Signature: {(evalfbb1in,4) ;(evalfbb2in,4) ;(evalfbb3in,4) ;(evalfbb4in,4) ;(evalfentryin,4) ;(evalfreturnin,4) ;(evalfstart,4) ;(evalfstop,4)} Rule Graph: [0->{1},1->{2,3},2->{4,5},3->{8},4->{6},5->{7},6->{4,5},7->{2,3},8->{}] ,We construct a looptree: P: [0,1,2,3,4,5,6,7,8] | `- p:[2,7,5,6,4] c: [2,5,7] | `- p:[4,6] c: [4,6]) + Applied Processor: CloseWith True + Details: () YES