/export/starexec/sandbox/solver/bin/starexec_run_its /export/starexec/sandbox/benchmark/theBenchmark.koat /export/starexec/sandbox/output/output_files -------------------------------------------------------------------------------- WORST_CASE(?,O(n^2)) Preprocessing Cost Relations ===================================== #### Computed strongly connected components 0. recursive : [evalfbb1in/4,evalfbb2in/4] 1. recursive : [evalfbb2in_loop_cont/7,evalfbb3in/6,evalfbb4in/6] 2. non_recursive : [evalfstop/4] 3. non_recursive : [evalfreturnin/4] 4. non_recursive : [exit_location/1] 5. non_recursive : [evalfbb4in_loop_cont/5] 6. non_recursive : [evalfentryin/4] 7. non_recursive : [evalfstart/4] #### Obtained direct recursion through partial evaluation 0. SCC is partially evaluated into evalfbb2in/4 1. SCC is partially evaluated into evalfbb4in/6 2. SCC is completely evaluated into other SCCs 3. SCC is completely evaluated into other SCCs 4. SCC is completely evaluated into other SCCs 5. SCC is partially evaluated into evalfbb4in_loop_cont/5 6. SCC is partially evaluated into evalfentryin/4 7. SCC is partially evaluated into evalfstart/4 Control-Flow Refinement of Cost Relations ===================================== ### Specialization of cost equations evalfbb2in/4 * CE 11 is refined into CE [12] * CE 10 is refined into CE [13] * CE 9 is refined into CE [14] ### Cost equations --> "Loop" of evalfbb2in/4 * CEs [14] --> Loop 12 * CEs [12] --> Loop 13 * CEs [13] --> Loop 14 ### Ranking functions of CR evalfbb2in(A,C,D,E) * RF of phase [12]: [A-C+1] #### Partial ranking functions of CR evalfbb2in(A,C,D,E) * Partial RF of phase [12]: - RF of loop [12:1]: A-C+1 ### Specialization of cost equations evalfbb4in/6 * CE 5 is refined into CE [15] * CE 3 is refined into CE [16,17] * CE 6 is refined into CE [18] * CE 4 is refined into CE [19] ### Cost equations --> "Loop" of evalfbb4in/6 * CEs [19] --> Loop 15 * CEs [15] --> Loop 16 * CEs [16,17] --> Loop 17 * CEs [18] --> Loop 18 ### Ranking functions of CR evalfbb4in(A,B,C,D,E,F) * RF of phase [15]: [-A+B+1] #### Partial ranking functions of CR evalfbb4in(A,B,C,D,E,F) * Partial RF of phase [15]: - RF of loop [15:1]: -A+B+1 ### Specialization of cost equations evalfbb4in_loop_cont/5 * CE 7 is refined into CE [20] * CE 8 is refined into CE [21] ### Cost equations --> "Loop" of evalfbb4in_loop_cont/5 * CEs [20] --> Loop 19 * CEs [21] --> Loop 20 ### Ranking functions of CR evalfbb4in_loop_cont(A,B,C,D,E) #### Partial ranking functions of CR evalfbb4in_loop_cont(A,B,C,D,E) ### Specialization of cost equations evalfentryin/4 * CE 2 is refined into CE [22,23,24,25,26] ### Cost equations --> "Loop" of evalfentryin/4 * CEs [24] --> Loop 21 * CEs [23,26] --> Loop 22 * CEs [25] --> Loop 23 * CEs [22] --> Loop 24 ### Ranking functions of CR evalfentryin(A,B,C,D) #### Partial ranking functions of CR evalfentryin(A,B,C,D) ### Specialization of cost equations evalfstart/4 * CE 1 is refined into CE [27,28,29,30] ### Cost equations --> "Loop" of evalfstart/4 * CEs [30] --> Loop 25 * CEs [29] --> Loop 26 * CEs [28] --> Loop 27 * CEs [27] --> Loop 28 ### Ranking functions of CR evalfstart(A,B,C,D) #### Partial ranking functions of CR evalfstart(A,B,C,D) Computing Bounds ===================================== #### Cost of chains of evalfbb2in(A,C,D,E): * Chain [[12],14]: 1*it(12)+0 Such that:it(12) =< -C+E with precondition: [D=2,A+1=E,C>=1,A>=C] * Chain [[12],13]: 1*it(12)+0 Such that:it(12) =< A-C+1 with precondition: [D=3,C>=1,A>=C] * Chain [13]: 0 with precondition: [D=3,A>=1,C>=1] #### Cost of chains of evalfbb4in(A,B,C,D,E,F): * Chain [[15],18]: 1*it(15)+1*s(3)+0 Such that:it(15) =< -A+B+1 aux(1) =< B+1 s(3) =< it(15)*aux(1) with precondition: [D=3,A>=1,B>=A] * Chain [[15],17]: 1*it(15)+1*s(3)+1*s(4)+0 Such that:it(15) =< -A+B s(4) =< B aux(1) =< B+1 s(3) =< it(15)*aux(1) with precondition: [D=3,A>=1,B>=A+1] * Chain [[15],16]: 1*it(15)+1*s(3)+0 Such that:it(15) =< -A+E aux(1) =< E s(3) =< it(15)*aux(1) with precondition: [D=4,B+1=E,B+1=F,A>=1,B>=A] * Chain [18]: 0 with precondition: [D=3,A>=1] * Chain [17]: 1*s(4)+0 Such that:s(4) =< A with precondition: [D=3,A>=1,B>=A] * Chain [16]: 0 with precondition: [D=4,F=C,A=E,A>=1,A>=B+1] #### Cost of chains of evalfbb4in_loop_cont(A,B,C,D,E): * Chain [20]: 0 with precondition: [A=3] * Chain [19]: 0 with precondition: [A=4] #### Cost of chains of evalfentryin(A,B,C,D): * Chain [24]: 0 with precondition: [] * Chain [23]: 0 with precondition: [0>=B] * Chain [22]: 2*s(9)+1*s(10)+2*s(12)+0 Such that:s(10) =< 1 aux(2) =< B aux(3) =< B+1 s(9) =< aux(2) s(12) =< s(9)*aux(3) with precondition: [B>=1] * Chain [21]: 2*s(16)+1*s(19)+0 Such that:s(18) =< B+1 aux(4) =< B s(16) =< aux(4) s(19) =< s(16)*s(18) with precondition: [B>=2] #### Cost of chains of evalfstart(A,B,C,D): * Chain [28]: 0 with precondition: [] * Chain [27]: 0 with precondition: [0>=B] * Chain [26]: 1*s(20)+2*s(23)+2*s(24)+0 Such that:s(20) =< 1 s(21) =< B s(22) =< B+1 s(23) =< s(21) s(24) =< s(23)*s(22) with precondition: [B>=1] * Chain [25]: 2*s(27)+1*s(28)+0 Such that:s(26) =< B s(25) =< B+1 s(27) =< s(26) s(28) =< s(27)*s(25) with precondition: [B>=2] Closed-form bounds of evalfstart(A,B,C,D): ------------------------------------- * Chain [28] with precondition: [] - Upper bound: 0 - Complexity: constant * Chain [27] with precondition: [0>=B] - Upper bound: 0 - Complexity: constant * Chain [26] with precondition: [B>=1] - Upper bound: 2*B+1+(B+1)*(2*B) - Complexity: n^2 * Chain [25] with precondition: [B>=2] - Upper bound: (B+1)*B+2*B - Complexity: n^2 ### Maximum cost of evalfstart(A,B,C,D): nat(B+1)*nat(B)+nat(B)*2+(nat(B+1)*nat(B)+1) Asymptotic class: n^2 * Total analysis performed in 186 ms.