extern void __VERIFIER_error() __attribute__ ((__noreturn__)); extern int __VERIFIER_nondet_int(); void error(void) { { ERROR: __VERIFIER_error(); return; } } void immediate_notify(void) ; int max_loop ; int num ; int i ; int e ; int timer ; char data_0 ; char data_1 ; char read_data(int i___0 ) { char c ; char __retres3 ; { if (i___0 == 0) { __retres3 = data_0; goto return_label; } else { if (i___0 == 1) { __retres3 = data_1; goto return_label; } else { { error(); } } } __retres3 = c; return_label: /* CIL Label */ return (__retres3); } } void write_data(int i___0 , char c ) { { if (i___0 == 0) { data_0 = c; } else { if (i___0 == 1) { data_1 = c; } else { { error(); } } } return; } } int P_1_pc; int P_1_st ; int P_1_i ; int P_1_ev ; void P_1(void) { { if ((int )P_1_pc == 0) { goto P_1_ENTRY_LOC; } else { if ((int )P_1_pc == 1) { goto P_1_WAIT_LOC; } else { } } P_1_ENTRY_LOC: { while (i < max_loop) { while_0_continue: /* CIL Label */ ; { write_data(num, 'A'); num += 1; P_1_pc = 1; P_1_st = 2; } goto return_label; P_1_WAIT_LOC: ; } while_0_break: /* CIL Label */ ; } P_1_st = 2; return_label: /* CIL Label */ return; } } int is_P_1_triggered(void) { int __retres1 ; { if ((int )P_1_pc == 1) { if ((int )P_1_ev == 1) { __retres1 = 1; goto return_label; } else { } } else { } __retres1 = 0; return_label: /* CIL Label */ return (__retres1); } } int C_1_pc ; int C_1_st ; int C_1_i ; int C_1_ev ; int C_1_pr ; void C_1(void) { char c ; { if ((int )C_1_pc == 0) { goto C_1_ENTRY_LOC; } else { if ((int )C_1_pc == 1) { goto C_1_WAIT_1_LOC; } else { if ((int )C_1_pc == 2) { goto C_1_WAIT_2_LOC; } else { } } } C_1_ENTRY_LOC: { while (i < max_loop) { while_2_continue: /* CIL Label */ ; if (num == 0) { timer = 1; i += 1; C_1_pc = 1; C_1_st = 2; goto return_label; C_1_WAIT_1_LOC: ; } else { } num -= 1; if (! (num >= 0)) { { error(); } } else { } { c = read_data(num); i += 1; C_1_pc = 2; C_1_st = 2; } goto return_label; C_1_WAIT_2_LOC: ; } while_2_break: /* CIL Label */ ; } C_1_st = 2; return_label: /* CIL Label */ return; } } int is_C_1_triggered(void) { int __retres1 ; { if ((int )C_1_pc == 1) { if ((int )e == 1) { __retres1 = 1; goto return_label; } else { } } else { } if ((int )C_1_pc == 2) { if ((int )C_1_ev == 1) { __retres1 = 1; goto return_label; } else { } } else { } __retres1 = 0; return_label: /* CIL Label */ return (__retres1); } } void update_channels(void) { { return; } } void init_threads(void) { { if ((int )P_1_i == 1) { P_1_st = 0; } else { P_1_st = 2; } if ((int )C_1_i == 1) { C_1_st = 0; } else { C_1_st = 2; } return; } } int exists_runnable_thread(void) { int __retres1 ; { if ((int )P_1_st == 0) { __retres1 = 1; goto return_label; } else { if ((int )C_1_st == 0) { __retres1 = 1; goto return_label; } else { } } } __retres1 = 0; return_label: /* CIL Label */ return (__retres1); } void eval(void) { int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; { { while (1) { while_3_continue: /* CIL Label */ ; { tmp___2 = exists_runnable_thread(); } if (tmp___2) { } else { goto while_3_break; } if ((int )P_1_st == 0) { { tmp = __VERIFIER_nondet_int(); } if (tmp) { { P_1_st = 1; P_1(); } } else { } } else { } if ((int )C_1_st == 0) { { tmp___1 = __VERIFIER_nondet_int(); } if (tmp___1) { { C_1_st = 1; C_1(); } } else { } } else { } } while_3_break: /* CIL Label */ ; } return; } } void fire_delta_events(void) { { return; } } void reset_delta_events(void) { { return; } } void fire_time_events(void) { { C_1_ev = 1; P_1_ev = 1; return; } } void reset_time_events(void) { { if ((int )P_1_ev == 1) { P_1_ev = 2; } else { } if ((int )C_1_ev == 1) { C_1_ev = 2; } else { } return; } } void activate_threads(void) { int tmp ; int tmp___0 ; int tmp___1 ; { { tmp = is_P_1_triggered(); } if (tmp) { P_1_st = 0; } else { } { tmp___1 = is_C_1_triggered(); } if (tmp___1) { C_1_st = 0; } else { } return; } } void immediate_notify(void) { { { activate_threads(); } return; } } int stop_simulation(void) { int tmp ; int __retres2 ; { { tmp = exists_runnable_thread(); } if (tmp) { __retres2 = 0; goto return_label; } else { } __retres2 = 1; return_label: /* CIL Label */ return (__retres2); } } void start_simulation(void) { int kernel_st ; int tmp ; int tmp___0 ; { { kernel_st = 0; update_channels(); init_threads(); fire_delta_events(); activate_threads(); reset_delta_events(); } { while (1) { while_4_continue: /* CIL Label */ ; { kernel_st = 1; eval(); } { kernel_st = 2; update_channels(); } { kernel_st = 3; fire_delta_events(); activate_threads(); reset_delta_events(); } { tmp = exists_runnable_thread(); } if (tmp == 0) { { kernel_st = 4; fire_time_events(); activate_threads(); reset_time_events(); } } else { } { tmp___0 = stop_simulation(); } if (tmp___0) { goto while_4_break; } else { } } while_4_break: /* CIL Label */ ; } return; } } void init_model(void) { { P_1_i = 1; C_1_i = 1; return; } } int main(void) { int count ; int __retres2 ; { { num = 0; i = 0; max_loop = 2; e ; timer = 0; P_1_pc = 0; C_1_pc = 0; count = 0; init_model(); start_simulation(); } __retres2 = 0; return (__retres2); } }