HEAD
print_str(fd, HEAD, formp->rcolor);
fdprintf(fd, "%s\n", HEAD);
fdprintf(fd, "%s %s", HEAD, formp->paper);
print_sdn(fd, HEAD, formp->plen);
print_sdn(fd, HEAD, formp->pwid);
print_sdn(fd, HEAD, formp->lpi);
print_str(fd, HEAD, NAME_COMPRESSED);
print_sdn(fd, HEAD, formp->cpi);
fdprintf(fd, "%s %d\n", HEAD, formp->np);
fdprintf(fd, "%s %s", HEAD, formp->chset);
(void)fdprintf(fdout, "%s %s\n", HEAD, ptr);
print_sdn(fdout, HEAD, prbufp->cpi);
print_l(fdout, HEAD, prbufp->char_sets);
print_l(fdout, HEAD, prbufp->input_types);
print_str(fdout, HEAD, prbufp->device);
print_str(fdout, HEAD, prbufp->dial_info);
print_str(fdout, HEAD, prbufp->fault_rec);
print_str(fdout, HEAD, prbufp->interface);
print_sdn(fdout, HEAD, prbufp->lpi);
print_sdn(fdout, HEAD, prbufp->plen);
(void)fdprintf(fdout, "%s\n", HEAD);
print_str(fdout, HEAD, NAME_UNKNOWN);
print_l(fdout, HEAD, printer_types);
print_str(fdout, HEAD, prbufp->remote);
print_str(fdout, HEAD, speed);
print_str(fdout, HEAD, stty);
print_sdn(fdout, HEAD, prbufp->pwid);
print_l(fdout, HEAD, prbufp->modules);
print_l(fdout, HEAD, prbufp->options);
print_str(fdout, HEAD, prbufp->ppd);
(void)fdprintf(fd, "%s%d\n", HEAD, reqbufp->copies);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->destination);
(void)fdprintf(fd, "%s%s\n", HEAD, *pp);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->form);
(void)fdprintf(fd, "%s%s\n", HEAD, NAME_IMMEDIATE);
(void)fdprintf(fd, "%s%s\n", HEAD, NAME_RESUME);
(void)fdprintf(fd, "%s%s\n", HEAD, NAME_HOLD);
(void)fdprintf(fd, "%sM\n", HEAD);
(void)fdprintf(fd, "%sW\n", HEAD);
(void)fdprintf(fd, "%sN\n", HEAD);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->alert);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->options);
(void)fdprintf(fd, "%s%d\n", HEAD, reqbufp->priority);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->pages);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->charset);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->title);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->modes);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->input_type);
(void)fdprintf(fd, "%s%s\n", HEAD, reqbufp->user);
(void)fdprintf(fd, "%s\n", HEAD);
(void)fdprintf(fd, "%s\n", HEAD);
(void)fdprintf(fd, "%s%#6.4x\n", HEAD, reqbufp->outcome);
poplist (hdrtype, HEAD);
pushlist (H_TCOPY, HEAD, Rpath, FALSE);
pushlist(H_TCOPY, HEAD, work, FALSE);
hdr2rm = (where == HEAD ?
if (where == HEAD) {
if (where == HEAD) {
ohp = (where == HEAD ? hdrlines[hdrtype].head : hdrlines[hdrtype].tail);
pushlist(H_RECEIVED, HEAD, tbuf, FALSE);
(void) printf(HEAD);
DO(HEAD);
tran = HEAD(ctx->wtran);
for (this = HEAD(ctx->tran); this != NULL; this = next) {
tran = HEAD(ctx->tran);
for (this = HEAD(ctx->sess); this != NULL; this = next) {
for (acc = HEAD(ctx->accepts), nxtacc = NULL;
new->u.accept.this = HEAD(ctx->accepts);
UNLINK(ctx->accepts, HEAD(ctx->accepts), link);
for (nsrr = HEAD(*nsrrsp);
for (arr = HEAD(nsrr->addrs); arr != NULL; arr = NEXT(arr, link)) {
for (nsrr = HEAD(*nsrrsp); nsrr != NULL; nsrr = nsrr_n) {
while ((nsrr = HEAD(*nsrrsp)) != NULL)
while ((arr = HEAD(nsrr->addrs)) != NULL) {
for (nsrr = HEAD(*nsrrsp); nsrr != NULL; nsrr = NEXT(nsrr, link))
for (zptr = HEAD(zgrps); zptr != NULL; zptr = NEXT(zptr, z_link))
for (zptr = HEAD(zgrps); zptr != NULL; zptr = NEXT(zptr, z_link)) {
n = res_nmkupdate(statp, HEAD(zptr->z_rrlist),
zptr = HEAD(zgrps);
res_freeupdrec(HEAD(zptr->z_rrlist));
ep != HEAD(vertex);
while (ep != HEAD(from_lock)) {
ASSERT(FIRST_ADJ(lock) == HEAD(lock));
while (ep != HEAD(lock)) {
while (ep != HEAD(lock)) {
for (ep = FIRST_ADJ(vertex); ep != HEAD(vertex);
for (ep = FIRST_IN(request); ep != HEAD(request); ep = NEXT_IN(ep)) {
while (ep != HEAD(request)) {
} while (ep != HEAD(lock));
vertex->l_sedge == HEAD(vertex)) {
if (vertex->l_sedge != HEAD(vertex) && barrier_found) {
for (ep = FIRST_ADJ(ver); ep != HEAD(ver);
for (ep = FIRST_IN(vertex); ep != HEAD(vertex);
for (ep = FIRST_IN(vertex); ep != HEAD(vertex);
while (ep != HEAD(lock)) {
while (ep != HEAD(lock)) {
while (ep != HEAD(lock)) {
while (ep != HEAD(lock)) {
while (ep != HEAD(lock)) {
while (ep != HEAD(lock1)) {
ASSERT(ep != HEAD(lock1));
while (ep != HEAD(lock1)) {
for (ep = FIRST_ADJ(vertex); ep != HEAD(vertex);
while (ep != HEAD(lock1)) {