(declare-sort Loc 0) (declare-const f1_0_main_Load Loc) (declare-const f191_0_main_LE Loc) (declare-const f270_0_length_FieldAccess Loc) (declare-const __init Loc) (assert (distinct f1_0_main_Load f191_0_main_LE f270_0_length_FieldAccess __init )) (define-fun cfg_init ( (pc Loc) (src Loc) (rel Bool) ) Bool (and (= pc src) rel)) (define-fun cfg_trans2 ( (pc Loc) (src Loc) (pc1 Loc) (dst Loc) (rel Bool) ) Bool (and (= pc src) (= pc1 dst) rel)) (define-fun cfg_trans3 ( (pc Loc) (exit Loc) (pc1 Loc) (call Loc) (pc2 Loc) (return Loc) (rel Bool) ) Bool (and (= pc exit) (= pc1 call) (= pc2 return) rel)) (define-fun init_main ( (pc Loc) (arg1 Int) (arg2 Int) (arg3 Int) ) Bool (cfg_init pc __init true)) (define-fun next_main ( (pc Loc) (arg1 Int) (arg2 Int) (arg3 Int) (pc1 Loc) (arg1P Int) (arg2P Int) (arg3P Int) ) Bool (or (cfg_trans2 pc f1_0_main_Load pc1 f191_0_main_LE (and (and (and (and (> arg1 0) (> arg2 (- 1))) (= (- arg2 1) arg1P)) (= arg2 arg2P)) (= 0 arg3P))) (cfg_trans2 pc f191_0_main_LE pc1 f191_0_main_LE (and (and (and (> arg2 0) (> arg3 0)) (= (- arg1 1) arg1P)) (= arg1 arg2P))) (cfg_trans2 pc f191_0_main_LE pc1 f191_0_main_LE (and (and (and (> arg2 0) (= (- arg1 1) arg1P)) (= arg1 arg2P)) (= 1 arg3P))) (cfg_trans2 pc f191_0_main_LE pc1 f270_0_length_FieldAccess (and (< arg2 1) (> arg1P 0))) (cfg_trans2 pc f270_0_length_FieldAccess pc1 f270_0_length_FieldAccess (and (and (<= (+ arg1P 1) arg1) (> arg1 0)) (> arg1P (- 1)))) (cfg_trans2 pc __init pc1 f1_0_main_Load true) ) )