mthread.c
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00001 /****************************************************************/
00002 /* Multi-Thread support functions
00003 /*      June 8,1994 (c) Toshihiro Matsui, Electrotechnical Laboratory
00004 /*      added SunOS 4.1.x routine by H.Nakagaki at 29-Jun-1995
00005 /*****************************************************************/
00006 static char *rcsid="@(#)$Id$";
00007 #if THREADED
00008 
00009 #include "eus.h"
00010 
00011 sema_t free_thread_sem;
00012 pointer free_threads;
00013 mutex_t free_thread_lock;
00014 mutex_t qthread_lock;
00015 
00016 /* from memory.c */
00017 mutex_t alloc_lock;
00018 rwlock_t gc_lock;
00019 
00020 /* from sequence.c */
00021 mutex_t qsort_lock;
00022 
00023 /* from eus.c */
00024 /* mutex locks*/
00025 mutex_t mark_lock;
00026 char *mark_locking;
00027 int mark_lock_thread;
00028 
00029 
00030 pointer get_free_thread()
00031 { register pointer port;
00032   GC_REGION(sema_wait(&free_thread_sem););
00033   mutex_lock(&free_thread_lock);
00034     port=ccar(free_threads);
00035     free_threads=ccdr(free_threads);
00036   mutex_unlock(&free_thread_lock);
00037   return(port);}
00038 
00039 extern int next_special_index;
00040 
00041 void thread_main(port)
00042 pointer port;
00043 { pointer val, *spsave, argp;
00044   jmp_buf thjmp;
00045   context *ctx;
00046   unsigned int tid, argc;
00047   int i;
00048   pointer myspecs, reqspecs;
00049 
00050   tid=thr_self();
00051 
00052   if (tid>=MAXTHREAD) thr_exit(0); 
00053   ctx=(context *)((eusinteger_t)port->c.thrp.contex & ~2L);
00054   euscontexts[tid]=ctx;
00055 /*  fprintf(stderr, "new thread %d port=%x ctx=%x\n", tid, port, ctx); */
00056   mkcatchframe(ctx, makeint(0), thjmp);
00057   mutex_lock(&free_thread_lock);
00058     free_threads=cons(ctx,port, free_threads);
00059   mutex_unlock(&free_thread_lock);
00060 
00061 thread_loop:
00062   sema_post(&free_thread_sem);
00063   port->c.thrp.idle=T;
00064   GC_REGION(sema_wait((sema_t *)(port->c.thrp.reqsem->c.ivec.iv)););
00065   port->c.thrp.idle=NIL;
00066   /*copy special bindings from the requester*/
00067   myspecs= ctx->specials;
00068   reqspecs= euscontexts[intval(port->c.thrp.requester)]->specials;
00069   for (i=0; i<next_special_index; i++) 
00070     myspecs->c.vec.v[i]= reqspecs->c.vec.v[i];
00071   sema_post((sema_t *)port->c.thrp.runsem->c.ivec.iv);
00072 
00073   /* funcall */
00074   if ((val=(pointer)eussetjmp(thjmp))==0) {
00075     spsave=ctx->vsp;
00076     argp=port->c.thrp.args;
00077     argc=0;
00078     while (argp!=NIL) {
00079       ckpush(ccar(argp)); argp=ccdr(argp); argc++;}
00080 /*    fprintf(stderr, "ctx=%x port=%x func=%x arg=%x argc=%d\n",
00081                 ctx,port,port->c.thrp.func,spsave,argc); */
00082     val=(pointer)ufuncall(ctx, port,
00083                         port->c.thrp.func,(pointer)spsave,NULL,argc);
00084   }
00085   else if (val==(pointer)1) {
00086     val=makeint(0);     /*longjmp cannot return 0*/
00087     fprintf(stderr, "thread %d reset\n", tid);}
00088   port->c.thrp.result=val;
00089   if (port->c.thrp.wait!=NIL) {
00090     sema_post((sema_t *)port->c.thrp.donesem->c.ivec.iv);
00091     GC_REGION(sema_wait((sema_t *)port->c.thrp.reqsem->c.ivec.iv););
00092         /*wait for result-transfer ack*/
00093     }
00094   /* chain self in the free_thread list */
00095   mutex_lock(&free_thread_lock);
00096     free_threads=cons(ctx, port, free_threads);
00097   mutex_unlock(&free_thread_lock);
00098   goto thread_loop;
00099   /*never reaches here*/
00100   deletecontext(tid,ctx);
00101   }
00102 
00103 pointer MAKE_THREAD(ctx, n, argv)
00104 context *ctx;
00105 int n;
00106 pointer argv[];
00107 { int stack_size, c_stack_size;
00108   context *newctx;
00109   pointer newport, thrlist=NIL;
00110   int i,count;
00111   unsigned int tid;
00112 
00113   ckarg2(1,3);
00114   count=ckintval(argv[0]);
00115   if (n>=2) stack_size=ckintval(argv[1]);
00116   else stack_size=32*1024;      /* default stack=32K word */
00117   if (n==3) c_stack_size=ckintval(argv[2]);
00118   else c_stack_size=stack_size*sizeof(pointer);
00119   for (i=0; i<count; i++) {
00120     newctx=(context *)makelispcontext(stack_size);
00121     newport=(pointer)makethreadport(newctx);
00122     ckpush(newport);
00123     GC_REGION(mutex_lock(&qthread_lock););
00124 #ifdef RGC
00125     active_mutator_num++;
00126 #endif
00127     speval(QTHREADS)=cons(ctx, newport, speval(QTHREADS));
00128     mutex_unlock(&qthread_lock);
00129 #if alpha || PTHREAD
00130     if( thr_create(0, c_stack_size, thread_main, newport, 0, &tid ) != 0 ) {
00131       deletecontext(tid, ctx);
00132       error(E_USER,(pointer)"Number of threads reached limit (64)");
00133       }
00134     newport->c.thrp.id=makeint(tid);    /* ???? critical region problem */
00135 #else
00136     thr_create(0, c_stack_size, (void *(*)(void *))thread_main,
00137                 newport, THR_SUSPENDED, &tid);
00138     if (tid>=MAXTHREAD) {
00139       deletecontext(tid, ctx);
00140       error(E_USER,(pointer)"Number of threads reached limit (64)");
00141       }
00142     newport->c.thrp.id=makeint(tid);
00143     thr_continue(tid);
00144 #endif
00145     }
00146   thrlist=stacknlist(ctx,count);
00147   return(thrlist);}
00148 
00149 pointer AFUNCALL(ctx, n, argv)
00150 context *ctx;
00151 int n;
00152 pointer argv[];
00153 { register pointer port, args;
00154   register int i;
00155   port=get_free_thread();
00156   port->c.thrp.requester=makeint(thr_self());
00157   port->c.thrp.func=argv[0];
00158   args=NIL;
00159   for (i=1; i<n; i++) {  args=cons(ctx,argv[n-i],args);}
00160   port->c.thrp.args=args;
00161   port->c.thrp.wait=T;
00162 
00163   /*resume target thread*/
00164   sema_post((sema_t *)port->c.thrp.reqsem->c.ivec.iv);
00165 
00166   /*wait for the target start running*/
00167   /*the requester should wait for the copying thread-local special variables
00168     to be copied*/
00169   GC_REGION(sema_wait((sema_t *)port->c.thrp.runsem->c.ivec.iv););
00170   return(port);}
00171 
00172 pointer AFUNCALL_NO_WAIT(ctx, n, argv)
00173 context *ctx;
00174 int n;
00175 pointer argv[];
00176 { register pointer port, args;
00177   register int i;
00178   port=get_free_thread();
00179   port->c.thrp.requester=makeint(thr_self());
00180   port->c.thrp.func=argv[0];
00181   args=NIL;
00182   for (i=1; i<n; i++) {  args=cons(ctx,argv[n-i],args);}
00183   port->c.thrp.args=args;
00184   port->c.thrp.wait=NIL;
00185   sema_post((sema_t *)port->c.thrp.reqsem->c.ivec.iv);
00186   /*wait for the target start running*/
00187   /*the requester should wait for the copying thread-local special variables
00188     to be copied*/
00189   GC_REGION(sema_wait((sema_t *)port->c.thrp.runsem->c.ivec.iv););
00190   return(port);}
00191 
00192 pointer WAIT_AFUNCALL(ctx,n,argv)
00193 context *ctx;
00194 int n;
00195 pointer argv[];
00196 { register pointer port, result;
00197   ckarg(1);
00198   port=argv[0];
00199   if (port->c.thrp.wait!=NIL &&
00200         (/* port->c.thrp.idle==NIL */ 1 || 
00201          port->c.thrp.reqsem->c.ivec.iv[0]>0)) {
00202     GC_REGION(sema_wait((sema_t *)port->c.thrp.donesem->c.ivec.iv););
00203     result=port->c.thrp.result;
00204     sema_post((sema_t *)port->c.thrp.reqsem->c.ivec.iv);        /*ack result transfer*/
00205     return(result);}
00206   else error(E_USER,(pointer)"wait thread for idle thread");}
00207 
00208 pointer FREE_THREADS(ctx,n,argv)
00209 context *ctx;
00210 int n;
00211 pointer argv[];
00212 { return(free_threads);}
00213 
00214 /* mutex lock */
00215 
00216 #if Linux && !Darwin 
00217 #define PTHREAD_MUTEX_NORMAL PTHREAD_MUTEX_ADAPTIVE_NP 
00218 #define PTHREAD_MUTEX_RECURSIVE PTHREAD_MUTEX_RECURSIVE_NP 
00219 #define PTHREAD_MUTEX_ERRORCHECK PTHREAD_MUTEX_ERRORCHECK_NP 
00220 #endif
00221 
00222 pointer MAKE_MUTEX_LOCK(ctx,n,argv)
00223 context *ctx;
00224 int n;
00225 pointer argv[];
00226 { register pointer m;
00227   m=makevector(C_INTVECTOR, (sizeof(mutex_t)+sizeof(eusinteger_t)-1)/sizeof(eusinteger_t));
00228 #if alpha 
00229   pthread_mutex_init((mutex_t *)m->c.ivec.iv,pthread_mutexattr_default);
00230 #elif  PTHREAD
00231   {
00232     pthread_mutexattr_t attr;
00233     pthread_mutexattr_init(&attr);
00234     if (n==1 && isint(argv[0])) {
00235       pthread_mutexattr_settype(&attr, intval(argv[0]));
00236     }else{
00237       pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_NORMAL);
00238     }
00239     pthread_mutex_init((mutex_t *)m->c.ivec.iv, &attr);
00240   }
00241 #else
00242   mutex_init((mutex_t *)m->c.ivec.iv,USYNC_THREAD,0);
00243 #endif
00244   return(m);}
00245 
00246 pointer MUTEX_LOCK(ctx,n,argv)
00247 context *ctx;
00248 int n;
00249 register pointer argv[];
00250 { ckarg(1);
00251   if (!isintvector(argv[0])) error(E_NOINTVECTOR);
00252   mutex_lock((mutex_t *)argv[0]->c.ivec.iv);
00253   return(T);}
00254 
00255 pointer MUTEX_TRYLOCK(ctx,n,argv)
00256 context *ctx;
00257 int n;
00258 register pointer argv[];
00259 { ckarg(1);
00260   if (!isintvector(argv[0])) error(E_NOINTVECTOR);
00261 #if SunOS4_1
00262   if (mutex_trylock((mutex_t *)argv[0]->c.ivec.iv)==-1) return(NIL);
00263 #else /* for Solaris2 */
00264   if (mutex_trylock((mutex_t *)argv[0]->c.ivec.iv)==EBUSY) return(NIL);
00265 #endif
00266   return(T);}
00267 
00268 pointer MUTEX_UNLOCK(ctx,n,argv)
00269 context *ctx;
00270 int n;
00271 register pointer argv[];
00272 { ckarg(1);
00273   if (!isintvector(argv[0])) error(E_NOINTVECTOR);
00274   mutex_unlock((mutex_t *)argv[0]->c.ivec.iv);
00275   return(T);}
00276 
00277 /* condition variable */
00278 
00279 pointer MAKE_COND(ctx,n,argv)
00280 context *ctx;
00281 int n;
00282 pointer argv[];
00283 { register pointer m;
00284 #if SunOS4_1
00285   ckarg(1);
00286 #endif
00287   m=makevector(C_INTVECTOR, (sizeof(cond_t)+sizeof(eusinteger_t)-1)/sizeof(eusinteger_t));
00288 #if alpha 
00289   pthread_cond_init((cond_t*)m->c.ivec.iv, pthread_condattr_default);
00290 #elif PTHREAD
00291   pthread_cond_init((cond_t*)m->c.ivec.iv, NULL);
00292 #else
00293 #if SunOS4_1
00294   cond_init((cond_t *)m->c.ivec.iv, (mutex_t *)argv[0]->c.ivec.iv);
00295 #else /* For Solaris2 */
00296   cond_init((cond_t *)m->c.ivec.iv,USYNC_THREAD,0);
00297 #endif
00298 #endif
00299   return(m);}
00300 
00301 pointer COND_WAIT(ctx,n,argv)
00302 context *ctx;
00303 int n;
00304 register pointer argv[];
00305 { ckarg(2);
00306   if (!isintvector(argv[0]) || !isintvector(argv[0])) error(E_NOINTVECTOR);
00307   cond_wait((cond_t *)argv[0]->c.ivec.iv, (mutex_t *)argv[1]->c.ivec.iv);
00308   return(T);}
00309 
00310 pointer COND_SIGNAL(ctx,n,argv)
00311 context *ctx;
00312 int n;
00313 register pointer argv[];
00314 { ckarg2(1,2);
00315   if (!isintvector(argv[0])) error(E_NOINTVECTOR);
00316   if (n==2 && argv[1]!=NIL) cond_broadcast((cond_t *)argv[0]->c.ivec.iv);
00317   else cond_signal((cond_t *)argv[0]->c.ivec.iv);
00318   return(T);}
00319 
00320 /* semaphore */
00321 
00322 pointer MAKE_SEMAPHORE(ctx,n,argv)
00323 context *ctx;
00324 int n;
00325 pointer argv[];
00326 { pointer s;
00327   s=makevector(C_INTVECTOR, (sizeof(sema_t)+sizeof(eusinteger_t)-1)/sizeof(eusinteger_t));
00328   sema_init((sema_t *)s->c.ivec.iv, 0, USYNC_THREAD, 0);
00329   return(s);}
00330 
00331 pointer SEMA_POST(ctx,n,argv)
00332 context *ctx;
00333 int n;
00334 register pointer argv[];
00335 { if (!isintvector(argv[0])) error(E_NOINTVECTOR);
00336   sema_post((sema_t *)argv[0]->c.ivec.iv);
00337   return(T);}
00338 
00339 pointer SEMA_WAIT(ctx,n,argv)
00340 context *ctx;
00341 int n;
00342 pointer argv[];
00343 { if (!isintvector(argv[0])) error(E_NOINTVECTOR);
00344   GC_REGION(sema_wait((sema_t *)argv[0]->c.ivec.iv););
00345   return(T);}
00346 
00347 pointer SEMA_TRYWAIT(ctx,n,argv)
00348 context *ctx;
00349 int n;
00350 pointer argv[];
00351 { if (!isintvector(argv[0])) error(E_NOINTVECTOR);
00352   if (sema_trywait((sema_t *)argv[0]->c.ivec.iv)==0) return(T);
00353   else  return(NIL);}
00354 
00355 
00356 pointer THR_SELF(ctx,n,argv)
00357 register context *ctx;
00358 int n;
00359 pointer argv[];
00360 { 
00361   return(makeint(thr_self()));}
00362 
00363 pointer THREAD_SELF(ctx,n,argv)
00364 register context *ctx;
00365 int n;
00366 pointer argv[];
00367 { 
00368   return(euscontexts[thr_self()]->threadobj);}
00369 
00370 pointer THR_SETPRIO(ctx,n,argv)
00371 register context *ctx;
00372 int n;
00373 pointer argv[];
00374 { int stat;
00375   ckarg(2);
00376   stat=thr_setprio(ckintval(argv[0]),ckintval(argv[1]));
00377   if (stat) return(makeint(-errno));
00378   else return(T);}
00379 
00380 pointer THR_GETPRIO(ctx,n,argv)
00381 register context *ctx;
00382 int n;
00383 pointer argv[];
00384 { int stat,prio;
00385   ckarg(1);
00386   stat=thr_getprio(ckintval(argv[0]), &prio);
00387   if (stat) return(makeint(-errno));
00388   else return(makeint(prio));}
00389 
00390 pointer THR_SETCONCURRENCY(ctx,n,argv)
00391 register context *ctx;
00392 int n;
00393 pointer argv[];
00394 { int stat;
00395   ckarg(1);
00396 #if SunOS4_1 || alpha || PTHREAD
00397   fprintf(stderr, "thr_setconcurrency is not supprted!\n");
00398   stat = 0;
00399 #else
00400   stat=thr_setconcurrency(ckintval(argv[0]));
00401 #endif
00402   if (stat) return(makeint(stat));
00403   else return(T);}
00404 
00405 pointer THR_GETCONCURRENCY(ctx,n,argv)
00406 register context *ctx;
00407 int n;
00408 pointer argv[];
00409 { int concurrency;
00410   ckarg(0);
00411 #if SunOS4_1 || alpha || PTHREAD
00412   fprintf(stderr, "thr_getconcurrency is not supprted!\n");
00413   concurrency = 0;
00414 #else
00415   concurrency=thr_getconcurrency();
00416 #endif
00417   return(makeint(concurrency));}
00418 
00419 void newthread(ta)
00420 struct thread_arg *ta;
00421 { int tid;
00422   pointer func,argv[1],result,val;
00423   jmp_buf thjmp;
00424 
00425   tid=thr_self();
00426   euscontexts[tid]=ta->newctx;
00427   fprintf(stderr,"new thread_id=%d\n",tid);
00428   mkcatchframe(ta->newctx, makeint(0), thjmp);
00429   if ((val=(pointer)eussetjmp(thjmp))==0) {
00430     argv[0]=ta->arg;
00431     result=ufuncall(ta->newctx, ta->form, ta->func,(pointer)argv,NULL,1);}
00432   else if (val==(pointer)1) val=makeint(0);     /*longjmp cannot return 0*/
00433   fprintf(stderr, "thread %d terminated\n", tid);
00434   deletecontext(tid,ta->newctx);
00435   cfree(ta);
00436   }
00437 
00438 pointer THR_CREATE(ctx,n,argv)
00439 register context *ctx;
00440 int n;
00441 pointer argv[];
00442 { int stack_size,stat;
00443   context *newctx;
00444   unsigned int thread_id;
00445   pointer result;
00446   struct thread_arg *ta;
00447   pointer func=argv[0], arg=argv[1];
00448 
00449   ckarg2(2,3);
00450   if (n==3) stack_size=ckintval(argv[2]);
00451   else stack_size=1024*64;
00452 
00453   newctx=(context *)makelispcontext(stack_size);
00454   fprintf(stderr,"creater newcontext=%p\n", newctx);
00455   ta=(struct thread_arg *)malloc(sizeof(struct thread_arg));
00456   ta->form=ctx->callfp->form;
00457   ta->newctx=newctx;
00458   ta->func=func;
00459   ta->arg=arg;
00460   stat=thr_create(0, stack_size, (void (*)(void *))newthread,
00461                   ta,0,&thread_id);
00462   if (stat) result=makeint(-errno);
00463   else 
00464     result=makeint(thread_id);
00465   return(result);
00466   }
00467 
00468 pointer THR_KILL(ctx,n,argv)
00469 register context *ctx;
00470 int n;
00471 pointer argv[];
00472 { int tid;
00473   int sig;
00474   ckarg(2);
00475   tid=ckintval(argv[0]);
00476   sig=ckintval(argv[1]);
00477   if (euscontexts[tid]) { thr_kill(tid,sig); return(T);}
00478   else return(NIL);}
00479 
00480 pointer THR_SUSPEND(ctx,n,argv)
00481 register context *ctx;
00482 int n;
00483 pointer argv[];
00484 { int tid;
00485   ckarg(1);
00486 #if alpha
00487   fprintf(stderr,"thr_suspend is not implemented.\n" );
00488   return(NIL);
00489 #else
00490   tid=ckintval(argv[0]);
00491   if (euscontexts[tid]) {
00492     if (thr_suspend(tid)==0) return(T);
00493     else return(makeint(-errno));}
00494   else return(NIL);
00495 #endif
00496 }
00497 
00498 pointer THR_CONTINUE(ctx,n,argv)
00499 register context *ctx;
00500 int n;
00501 pointer argv[];
00502 { int tid;
00503   ckarg(1);
00504 #if alpha
00505   fprintf(stderr,"thr_continue is not implemented.\n");
00506   return(NIL);
00507 #else
00508   tid=ckintval(argv[0]);
00509   if (euscontexts[tid]) {
00510     if (thr_continue(tid)==0) return(T);
00511     else return(makeint(-errno));}
00512   else return(NIL);
00513 #endif
00514 }
00515 
00516 #if Solaris2
00517 pointer THR_SIGSETMASK(ctx,n,argv)
00518 register context *ctx;
00519 int n;
00520 pointer argv[];
00521 { int how, stat;
00522   eusinteger_t *oset;
00523 
00524   ckarg2(2,3);
00525   how=ckintval(argv[0]);
00526   if (n==3) oset=argv[2]->c.ivec.iv;
00527   else oset=NULL;
00528   stat=thr_sigsetmask(how, argv[1]->c.ivec.iv, oset);
00529   if (stat==0) {
00530     if (n==3) return(argv[2]);
00531     else return(T);}
00532   else return(makeint(-errno));
00533   }
00534 #endif  
00535 
00536 mthread(ctx,mod)
00537 register context *ctx;
00538 pointer mod;
00539 {
00540   free_threads=NIL;
00541 
00542   defunpkg(ctx,"THR-SELF",mod,THR_SELF,unixpkg);
00543   defunpkg(ctx,"THR-GETPRIO",mod,THR_GETPRIO,unixpkg);
00544   defunpkg(ctx,"THR-SETPRIO",mod,THR_SETPRIO,unixpkg);
00545   defunpkg(ctx,"THR-GETCONCURRENCY",mod,THR_GETCONCURRENCY,unixpkg);
00546   defunpkg(ctx,"THR-SETCONCURRENCY",mod,THR_SETCONCURRENCY,unixpkg);
00547   defunpkg(ctx,"THR-CREATE",mod,THR_CREATE,unixpkg);
00548   defunpkg(ctx,"THR-KILL",mod,THR_KILL,unixpkg);
00549   defunpkg(ctx,"THR-SUSPEND",mod,THR_SUSPEND,unixpkg);
00550   defunpkg(ctx,"THR-CONTINUE",mod,THR_CONTINUE,unixpkg);
00551 #if Solaris2
00552   defunpkg(ctx,"THR-SIGSETMASK",mod,THR_SIGSETMASK,unixpkg);
00553 #endif
00554 
00555   defunpkg(ctx,"THREAD-SELF",mod,THREAD_SELF,syspkg);
00556   defunpkg(ctx,"MAKE-THREAD",mod,MAKE_THREAD,syspkg);
00557   defunpkg(ctx,"THREAD",mod,AFUNCALL, syspkg);
00558   defunpkg(ctx,"THREAD-NO-WAIT",mod,AFUNCALL_NO_WAIT, syspkg);
00559   defunpkg(ctx,"WAIT-THREAD",mod,WAIT_AFUNCALL,syspkg);
00560   defunpkg(ctx,"FREE-THREADS",mod,FREE_THREADS,syspkg);
00561 
00562   defunpkg(ctx,"MAKE-MUTEX-LOCK",mod,MAKE_MUTEX_LOCK,syspkg);
00563   defunpkg(ctx,"MUTEX-LOCK",mod, MUTEX_LOCK,syspkg);
00564   defunpkg(ctx,"MUTEX-UNLOCK",mod, MUTEX_UNLOCK,syspkg);
00565   defunpkg(ctx,"MUTEX-TRYLOCK",mod, MUTEX_TRYLOCK,syspkg);
00566 #if PTHREAD
00567   defvar(ctx,"*PTHREAD-MUTEX-FAST*",makeint(PTHREAD_MUTEX_NORMAL),syspkg);
00568   defvar(ctx,"*PTHREAD-MUTEX-RECURSIVE*",makeint(PTHREAD_MUTEX_RECURSIVE),syspkg);
00569   defvar(ctx,"*PTHREAD-MUTEX-ERRORCHECK*",makeint(PTHREAD_MUTEX_ERRORCHECK),syspkg);
00570 #endif
00571 
00572   defunpkg(ctx,"MAKE-COND",mod,MAKE_COND,syspkg);
00573   defunpkg(ctx,"COND-WAIT",mod, COND_WAIT,syspkg);
00574   defunpkg(ctx,"COND-SIGNAL",mod, COND_SIGNAL,syspkg);
00575 
00576   defunpkg(ctx,"MAKE-SEMAPHORE",mod,MAKE_SEMAPHORE,syspkg);
00577   defunpkg(ctx,"SEMA-POST",mod, SEMA_POST,syspkg);
00578   defunpkg(ctx,"SEMA-WAIT",mod, SEMA_WAIT,syspkg);
00579   defunpkg(ctx,"SEMA-TRYWAIT",mod, SEMA_TRYWAIT,syspkg);
00580   }
00581 
00582 #endif  /* THREADED */


euslisp
Author(s): Toshihiro Matsui
autogenerated on Thu Mar 9 2017 04:57:50