next             6380 src/decNumber/decNumber.c   uInt  next;                      // work
next             6388 src/decNumber/decNumber.c   next=0;                          // all paths
next             6402 src/decNumber/decNumber.c         next+=quot;
next             6405 src/decNumber/decNumber.c         next+=*source/powers[cut];
next             6407 src/decNumber/decNumber.c       if (target<=first) *target=(Unit)next;   // write to target iff valid
next             6408 src/decNumber/decNumber.c       next=rem*powers[DECDPUN-cut];            // save remainder for next Unit
next             6414 src/decNumber/decNumber.c     *target=(Unit)next;
next             6415 src/decNumber/decNumber.c     next=0;
next             5876 src/dps8/dps8_eis.c     word9 next = EISget49(cpup, &e->ADDR2, &e->mopPos, CTN9);
next             5878 src/dps8/dps8_eis.c     word9 next = EISget49(cpup, e->mopAddress, &e->mopPos, CTN9);
next             5885 src/dps8/dps8_eis.c           e->editInsertionTable[e->mopIF - 1] = next;
next             5891 src/dps8/dps8_eis.c     sim_debug (DBG_TRACEEXT, & cpu_dev, "LTE IT[%d]<=%d\n", e -> mopIF - 1, next);
next              237 src/dps8/dps8_math.c     long double exponents[20], *next;
next              253 src/dps8/dps8_math.c         for (next = exponents, exponents[0] = 2.0L, bit = 1;
next              254 src/dps8/dps8_math.c              *next <= x + x;
next              255 src/dps8/dps8_math.c              bit <<= 1, next[1] = next[0] * next[0], next++);
next              257 src/dps8/dps8_math.c         for (; next >= exponents; bit >>= 1, next--)
next              258 src/dps8/dps8_math.c             if (x + x >= *next)
next              260 src/dps8/dps8_math.c                 x /= *next;
next              268 src/dps8/dps8_math.c         for (next = exponents, exponents[0] = 0.5L, bit = 1;
next              269 src/dps8/dps8_math.c              *next > x;
next              270 src/dps8/dps8_math.c              bit <<= 1, next[1] = next[0] * next[0], next++);
next              272 src/dps8/dps8_math.c         for (; next >= exponents; bit >>= 1, next--)
next              273 src/dps8/dps8_math.c             if (x < *next)
next              275 src/dps8/dps8_math.c                 x /= *next;
next              386 src/libsir/include/sir/types.h     struct _sir_queue_node* next;
next               75 src/libsir/src/sirqueue.c         sir_queue_node* next = (*q)->head;
next               76 src/libsir/src/sirqueue.c         while (next) {
next               77 src/libsir/src/sirqueue.c             sir_queue_node* this_node = next;
next               79 src/libsir/src/sirqueue.c             next                      = this_node->next;
next               95 src/libsir/src/sirqueue.c     sir_queue_node* next = q->head->next;
next               97 src/libsir/src/sirqueue.c     while (next) {
next               99 src/libsir/src/sirqueue.c         next = next->next;
next              117 src/libsir/src/sirqueue.c             sir_queue_node* next = q->head;
next              118 src/libsir/src/sirqueue.c             while (next) {
next              119 src/libsir/src/sirqueue.c                 if (!next->next) {
next              120 src/libsir/src/sirqueue.c                     next->next = _sir_queue_node_create(data);
next              121 src/libsir/src/sirqueue.c                     if (next->next) {
next              126 src/libsir/src/sirqueue.c                 next = next->next;
next              139 src/libsir/src/sirqueue.c         q->head                  = old_head->next;
next             5635 src/simh/scp.c     for (uptr = sim_clock_queue; uptr != QUEUE_LIST_END; uptr = uptr->next) {
next             6591 src/simh/scp.c     sim_clock_queue = uptr->next;
next             6592 src/simh/scp.c     uptr->next = NULL;
next             8758 src/simh/scp.c     sim_clock_queue = uptr->next;                       /* remove first */
next             8759 src/simh/scp.c     uptr->next = NULL;                                  /* hygiene */
next             8832 src/simh/scp.c for (cptr = sim_clock_queue; cptr != QUEUE_LIST_END; cptr = cptr->next) {
next             8839 src/simh/scp.c     cptr = uptr->next = sim_clock_queue;
next             8843 src/simh/scp.c     cptr = uptr->next = prvptr->next;                   /* insert at prvptr */
next             8844 src/simh/scp.c     prvptr->next = uptr;
next             8914 src/simh/scp.c     nptr = sim_clock_queue = uptr->next;
next             8915 src/simh/scp.c     uptr->next = NULL;                                  /* hygiene */
next             8918 src/simh/scp.c     for (cptr = sim_clock_queue; cptr != QUEUE_LIST_END; cptr = cptr->next) {
next             8919 src/simh/scp.c         if (cptr->next == uptr) {
next             8920 src/simh/scp.c             nptr = cptr->next = uptr->next;
next             8921 src/simh/scp.c             uptr->next = NULL;                          /* hygiene */
next             8927 src/simh/scp.c     nptr->time += (uptr->next) ? 0 : uptr->time;
next             8928 src/simh/scp.c if (!uptr->next)
next             8933 src/simh/scp.c if (uptr->next) {
next             8954 src/simh/scp.c if (uptr->next == NULL)
next             8973 src/simh/scp.c for (cptr = sim_clock_queue; cptr != QUEUE_LIST_END; cptr = cptr->next) {
next             9011 src/simh/scp.c for (uptr = sim_clock_queue; uptr != QUEUE_LIST_END; uptr = uptr->next)
next             9063 src/simh/scp.c             BRKTAB *bpt = bp->next;
next             9122 src/simh/scp.c     bp = bp->next;
next             9167 src/simh/scp.c bp->next = sim_brk_tab[sim_brk_ins];
next             9169 src/simh/scp.c if (bp->next == NULL)
next             9200 src/simh/scp.c         bp = bp->next;
next             9241 src/simh/scp.c             bpl = sim_brk_tab[sim_brk_ins] = bp->next;
next             9245 src/simh/scp.c               bpl->next = bp->next;
next             9252 src/simh/scp.c         bp = bp->next;
next             9266 src/simh/scp.c         bp = bp->next;
next             9383 src/simh/scp.c     BRKTAB *next;
next             9386 src/simh/scp.c         next = cur->next;
next             9387 src/simh/scp.c         cur->next = prev;
next             9389 src/simh/scp.c         cur = next;
next             9398 src/simh/scp.c         cur = cur->next;
next             9404 src/simh/scp.c         next = cur->next;
next             9405 src/simh/scp.c         cur->next = prev;
next             9407 src/simh/scp.c         cur = next;
next             9514 src/simh/scp.c     for (bp = *bpt; bp; bp = bp->next) {
next             9529 src/simh/scp.c         for (bp = *bpt; bp; bp = bp->next) {
next              423 src/simh/sim_defs.h     UNIT                *next;                          /* next active */
next              612 src/simh/sim_defs.h     BRKTAB *next;                                        /* list with same address value */
next              591 src/simh/sim_timer.c         for (uptr = sim_clock_cosched_queue[tmr]; uptr != QUEUE_LIST_END; uptr = uptr->next) { //-V763
next              685 src/simh/sim_timer.c         sim_clock_cosched_queue[tmr]  = cptr->next;
next              686 src/simh/sim_timer.c         cptr->next                    = NULL;
next              862 src/simh/sim_timer.c             sim_clock_cosched_queue[tmr] = cptr->next;
next              863 src/simh/sim_timer.c             cptr->next                   = NULL;
next              952 src/simh/sim_timer.c if (uptr->next) {                           /* On a queue? */
next              957 src/simh/sim_timer.c             sim_clock_cosched_queue[tmr] = uptr->next;
next              958 src/simh/sim_timer.c             uptr->next = NULL;
next              964 src/simh/sim_timer.c                 cptr = cptr->next)
next              965 src/simh/sim_timer.c                 if (cptr->next == (uptr)) {
next              966 src/simh/sim_timer.c                     cptr->next = (uptr)->next;
next              967 src/simh/sim_timer.c                     uptr->next = NULL;
next              971 src/simh/sim_timer.c         if (uptr->next == NULL) {           /* found? */