2012-08-22 12:32:13 +08:00
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#include <stdio.h>
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#include <proc.h>
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#include <sem.h>
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#include <monitor.h>
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#include <assert.h>
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#define N 5 /* 哲学家数目 */
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#define LEFT (i-1+N)%N /* i的左邻号码 */
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#define RIGHT (i+1)%N /* i的右邻号码 */
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#define THINKING 0 /* 哲学家正在思考 */
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#define HUNGRY 1 /* 哲学家想取得叉子 */
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#define EATING 2 /* 哲学家正在吃面 */
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#define TIMES 4 /* 吃4次饭 */
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#define SLEEP_TIME 10
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2016-05-10 10:10:11 +08:00
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//-----------------philosopher problem using monitor ------------
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/*PSEUDO CODE :philosopher problem using semaphore
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system DINING_PHILOSOPHERS
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VAR
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me: semaphore, initially 1; # for mutual exclusion
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s[5]: semaphore s[5], initially 0; # for synchronization
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pflag[5]: {THINK, HUNGRY, EAT}, initially THINK; # philosopher flag
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# As before, each philosopher is an endless cycle of thinking and eating.
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procedure philosopher(i)
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{
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while TRUE do
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{
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THINKING;
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take_chopsticks(i);
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EATING;
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drop_chopsticks(i);
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}
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}
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# The take_chopsticks procedure involves checking the status of neighboring
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# philosophers and then declaring one's own intention to eat. This is a two-phase
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# protocol; first declaring the status HUNGRY, then going on to EAT.
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procedure take_chopsticks(i)
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{
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DOWN(me); # critical section
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pflag[i] := HUNGRY;
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test[i];
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UP(me); # end critical section
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DOWN(s[i]) # Eat if enabled
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}
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void test(i) # Let phil[i] eat, if waiting
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{
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if ( pflag[i] == HUNGRY
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&& pflag[i-1] != EAT
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&& pflag[i+1] != EAT)
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then
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{
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pflag[i] := EAT;
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UP(s[i])
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}
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}
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# Once a philosopher finishes eating, all that remains is to relinquish the
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# resources---its two chopsticks---and thereby release waiting neighbors.
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void drop_chopsticks(int i)
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{
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DOWN(me); # critical section
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test(i-1); # Let phil. on left eat if possible
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test(i+1); # Let phil. on rght eat if possible
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UP(me); # up critical section
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}
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*/
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2012-08-22 12:32:13 +08:00
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//---------- philosophers problem using semaphore ----------------------
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int state_sema[N]; /* 记录每个人状态的数组 */
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/* 信号量是一个特殊的整型变量 */
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semaphore_t mutex; /* 临界区互斥 */
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semaphore_t s[N]; /* 每个哲学家一个信号量 */
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struct proc_struct *philosopher_proc_sema[N];
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void phi_test_sema(i) /* i:哲学家号码从0到N-1 */
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{
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if(state_sema[i]==HUNGRY&&state_sema[LEFT]!=EATING
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&&state_sema[RIGHT]!=EATING)
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{
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state_sema[i]=EATING;
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up(&s[i]);
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}
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}
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void phi_take_forks_sema(int i) /* i:哲学家号码从0到N-1 */
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{
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down(&mutex); /* 进入临界区 */
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state_sema[i]=HUNGRY; /* 记录下哲学家i饥饿的事实 */
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phi_test_sema(i); /* 试图得到两只叉子 */
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up(&mutex); /* 离开临界区 */
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down(&s[i]); /* 如果得不到叉子就阻塞 */
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}
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void phi_put_forks_sema(int i) /* i:哲学家号码从0到N-1 */
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{
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down(&mutex); /* 进入临界区 */
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state_sema[i]=THINKING; /* 哲学家进餐结束 */
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phi_test_sema(LEFT); /* 看一下左邻居现在是否能进餐 */
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phi_test_sema(RIGHT); /* 看一下右邻居现在是否能进餐 */
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up(&mutex); /* 离开临界区 */
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}
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int philosopher_using_semaphore(void * arg) /* i:哲学家号码,从0到N-1 */
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{
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int i, iter=0;
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i=(int)arg;
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cprintf("I am No.%d philosopher_sema\n",i);
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while(iter++<TIMES)
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{ /* 无限循环 */
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cprintf("Iter %d, No.%d philosopher_sema is thinking\n",iter,i); /* 哲学家正在思考 */
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do_sleep(SLEEP_TIME);
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phi_take_forks_sema(i);
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/* 需要两只叉子,或者阻塞 */
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cprintf("Iter %d, No.%d philosopher_sema is eating\n",iter,i); /* 进餐 */
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do_sleep(SLEEP_TIME);
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phi_put_forks_sema(i);
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/* 把两把叉子同时放回桌子 */
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}
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cprintf("No.%d philosopher_sema quit\n",i);
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return 0;
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}
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//-----------------philosopher problem using monitor ------------
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/*PSEUDO CODE :philosopher problem using monitor
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* monitor dp
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* {
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* enum {thinking, hungry, eating} state[5];
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* condition self[5];
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*
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* void pickup(int i) {
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* state[i] = hungry;
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* if ((state[(i+4)%5] != eating) && (state[(i+1)%5] != eating)) {
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* state[i] = eating;
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* else
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* self[i].wait();
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* }
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*
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* void putdown(int i) {
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* state[i] = thinking;
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* if ((state[(i+4)%5] == hungry) && (state[(i+3)%5] != eating)) {
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* state[(i+4)%5] = eating;
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* self[(i+4)%5].signal();
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* }
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* if ((state[(i+1)%5] == hungry) && (state[(i+2)%5] != eating)) {
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* state[(i+1)%5] = eating;
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* self[(i+1)%5].signal();
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* }
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* }
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*
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* void init() {
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* for (int i = 0; i < 5; i++)
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* state[i] = thinking;
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* }
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* }
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*/
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struct proc_struct *philosopher_proc_condvar[N]; // N philosopher
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int state_condvar[N]; // the philosopher's state: EATING, HUNGARY, THINKING
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monitor_t mt, *mtp=&mt; // monitor
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void phi_test_condvar (i) {
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if(state_condvar[i]==HUNGRY&&state_condvar[LEFT]!=EATING
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&&state_condvar[RIGHT]!=EATING) {
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cprintf("phi_test_condvar: state_condvar[%d] will eating\n",i);
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state_condvar[i] = EATING ;
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cprintf("phi_test_condvar: signal self_cv[%d] \n",i);
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cond_signal(&mtp->cv[i]) ;
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}
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}
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void phi_take_forks_condvar(int i) {
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down(&(mtp->mutex));
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//--------into routine in monitor--------------
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// LAB7 EXERCISE1: YOUR CODE
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// I am hungry
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// try to get fork
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//--------leave routine in monitor--------------
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if(mtp->next_count>0)
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up(&(mtp->next));
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else
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up(&(mtp->mutex));
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}
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void phi_put_forks_condvar(int i) {
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down(&(mtp->mutex));
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//--------into routine in monitor--------------
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// LAB7 EXERCISE1: YOUR CODE
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// I ate over
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// test left and right neighbors
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//--------leave routine in monitor--------------
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if(mtp->next_count>0)
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up(&(mtp->next));
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else
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up(&(mtp->mutex));
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}
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//---------- philosophers using monitor (condition variable) ----------------------
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int philosopher_using_condvar(void * arg) { /* arg is the No. of philosopher 0~N-1*/
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int i, iter=0;
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i=(int)arg;
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cprintf("I am No.%d philosopher_condvar\n",i);
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while(iter++<TIMES)
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{ /* iterate*/
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cprintf("Iter %d, No.%d philosopher_condvar is thinking\n",iter,i); /* thinking*/
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do_sleep(SLEEP_TIME);
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phi_take_forks_condvar(i);
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/* need two forks, maybe blocked */
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cprintf("Iter %d, No.%d philosopher_condvar is eating\n",iter,i); /* eating*/
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do_sleep(SLEEP_TIME);
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phi_put_forks_condvar(i);
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/* return two forks back*/
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}
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cprintf("No.%d philosopher_condvar quit\n",i);
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return 0;
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}
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void check_sync(void){
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int i;
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//check semaphore
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sem_init(&mutex, 1);
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for(i=0;i<N;i++){
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sem_init(&s[i], 0);
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int pid = kernel_thread(philosopher_using_semaphore, (void *)i, 0);
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if (pid <= 0) {
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panic("create No.%d philosopher_using_semaphore failed.\n");
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}
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philosopher_proc_sema[i] = find_proc(pid);
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set_proc_name(philosopher_proc_sema[i], "philosopher_sema_proc");
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}
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//check condition variable
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monitor_init(&mt, N);
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for(i=0;i<N;i++){
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state_condvar[i]=THINKING;
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int pid = kernel_thread(philosopher_using_condvar, (void *)i, 0);
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if (pid <= 0) {
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panic("create No.%d philosopher_using_condvar failed.\n");
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}
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philosopher_proc_condvar[i] = find_proc(pid);
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set_proc_name(philosopher_proc_condvar[i], "philosopher_condvar_proc");
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}
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}
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