state              56 kernel/proc.c        p->state = UNUSED;
state             116 kernel/proc.c      if(p->state == UNUSED) {
state             126 kernel/proc.c    p->state = USED;
state             171 kernel/proc.c    p->state = UNUSED;
state             229 kernel/proc.c    p->state = RUNNABLE;
state             299 kernel/proc.c    np->state = RUNNABLE;
state             356 kernel/proc.c    p->state = ZOMBIE;
state             385 kernel/proc.c          if(pp->state == ZOMBIE){
state             440 kernel/proc.c        if(p->state == RUNNABLE) {
state             444 kernel/proc.c          p->state = RUNNING;
state             479 kernel/proc.c    if(p->state == RUNNING)
state             495 kernel/proc.c    p->state = RUNNABLE;
state             556 kernel/proc.c    p->state = SLEEPING;
state             578 kernel/proc.c        if(p->state == SLEEPING && p->chan == chan) {
state             579 kernel/proc.c          p->state = RUNNABLE;
state             598 kernel/proc.c        if(p->state == SLEEPING){
state             600 kernel/proc.c          p->state = RUNNABLE;
state             674 kernel/proc.c    char *state;
state             678 kernel/proc.c      if(p->state == UNUSED)
state             680 kernel/proc.c      if(p->state >= 0 && p->state < NELEM(states) && states[p->state])
state             681 kernel/proc.c        state = states[p->state];
state             683 kernel/proc.c        state = "???";
state             684 kernel/proc.c      printf("%d %s %s", p->pid, state, p->name);
state              89 kernel/proc.h    enum procstate state;        // Process state
state              55 user/printf.c    int c0, c1, c2, i, state;
state              57 user/printf.c    state = 0;
state              60 user/printf.c      if(state == 0){
state              62 user/printf.c          state = '%';
state              66 user/printf.c      } else if(state == '%'){
state             111 user/printf.c        state = 0;