docbook2mdoc/docbook2mdoc.c - diff

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Diff for /docbook2mdoc/docbook2mdoc.c between version 1.100 and 1.101

version 1.100, 2019/04/07 19:33:27

version 1.101, 2019/04/10 14:22:37

Line 99 pnode_printtext(struct format *f, struct pnode *n)

}

static void

pnode_printpara(struct format *p, struct pnode *pn)

pnode_printpara(struct format *f, struct pnode *n)

{

struct pnode *pp;

struct pnode *np;

if (pn->parent == NULL)

if (n->parent == NULL)

return;

if ((pp = TAILQ_PREV(pn, pnodeq, child)) == NULL)

if ((np = TAILQ_PREV(n, pnodeq, child)) == NULL)

pp = pn->parent;

np = n->parent;

switch (pp->node) {

switch (np->node) {

case NODE_ENTRY:

case NODE_GLOSSTERM:

case NODE_LISTITEM:

Line 119 pnode_printpara(struct format *p, struct pnode *pn)

case NODE_LEGALNOTICE:

case NODE_PREFACE:

case NODE_SECTION:

if (p->level < 3)

if (f->level < 3)

return;

break;

default:

break;

}

macro_line(p, "Pp");

macro_line(f, "Pp");

}

* If the SYNOPSIS macro has a superfluous title, kill it.

static void

pnode_printrefsynopsisdiv(struct format *p, struct pnode *pn)

pnode_printrefsynopsisdiv(struct format *f, struct pnode *n)

{

struct pnode *pp, *pq;

struct pnode *nc, *nn;

TAILQ_FOREACH_SAFE(pp, &pn->childq, child, pq)

TAILQ_FOREACH_SAFE(nc, &n->childq, child, nn)

if (pp->node == NODE_TITLE)

if (nc->node == NODE_TITLE)

pnode_unlink(pp);

pnode_unlink(nc);

macro_line(p, "Sh SYNOPSIS");

macro_line(f, "Sh SYNOPSIS");

}

* Start a hopefully-named `Sh' section.

static void

pnode_printrefsect(struct format *p, struct pnode *pn)

pnode_printrefsect(struct format *f, struct pnode *n)

{

struct pnode *pp;

struct pnode *nc;

const char *title;

int flags, level;

if (pn->parent == NULL)

if (n->parent == NULL)

return;

level = ++p->level;

level = ++f->level;

flags = ARG_SPACE;

if (level == 1)

flags |= ARG_UPPER;

if (level < 3) {

switch (pn->node) {

switch (n->node) {

case NODE_CAUTION:

case NODE_NOTE:

case NODE_TIP:

Line 173 pnode_printrefsect(struct format *p, struct pnode *pn)

}

TAILQ_FOREACH(pp, &pn->childq, child)

TAILQ_FOREACH(nc, &n->childq, child)

if (pp->node == NODE_TITLE)

if (nc->node == NODE_TITLE)

break;

if (pp == NULL) {

if (nc == NULL) {

switch (pn->node) {

switch (n->node) {

case NODE_PREFACE:

title = "Preface";

break;

Line 208 pnode_printrefsect(struct format *p, struct pnode *pn)

switch (level) {

case 1:

macro_close(p);

macro_close(f);

macro_open(p, "Sh");

macro_open(f, "Sh");

break;

case 2:

macro_close(p);

macro_close(f);

macro_open(p, "Ss");

macro_open(f, "Ss");

break;

default:

pnode_printpara(p, pn);

pnode_printpara(f, n);

macro_open(p, "Sy");

macro_open(f, "Sy");

break;

}

if (pp != NULL) {

if (nc != NULL) {

macro_addnode(p, pp, flags);

macro_addnode(f, nc, flags);

pnode_unlink(pp);

pnode_unlink(nc);

} else

macro_addarg(p, title, flags | ARG_QUOTED);

macro_addarg(f, title, flags | ARG_QUOTED);

macro_close(p);

macro_close(f);

}

* Start a reference, extracting the title and volume.

static void

pnode_printciterefentry(struct format *p, struct pnode *pn)

pnode_printciterefentry(struct format *f, struct pnode *n)

{

struct pnode *pp, *title, *manvol;

struct pnode *nc, *title, *manvol;

title = manvol = NULL;

TAILQ_FOREACH(pp, &pn->childq, child) {

TAILQ_FOREACH(nc, &n->childq, child) {

if (pp->node == NODE_MANVOLNUM)

if (nc->node == NODE_MANVOLNUM)

manvol = pp;

manvol = nc;

else if (pp->node == NODE_REFENTRYTITLE)

else if (nc->node == NODE_REFENTRYTITLE)

title = pp;

title = nc;

}

macro_open(p, "Xr");

macro_open(f, "Xr");

if (title == NULL)

macro_addarg(p, "unknown", ARG_SPACE);

macro_addarg(f, "unknown", ARG_SPACE);

else

macro_addnode(p, title, ARG_SPACE | ARG_SINGLE);

macro_addnode(f, title, ARG_SPACE | ARG_SINGLE);

if (manvol == NULL)

macro_addarg(p, "1", ARG_SPACE);

macro_addarg(f, "1", ARG_SPACE);

else

macro_addnode(p, manvol, ARG_SPACE | ARG_SINGLE);

macro_addnode(f, manvol, ARG_SPACE | ARG_SINGLE);

pnode_unlinksub(pn);

pnode_unlinksub(n);

}

static void

pnode_printrefmeta(struct format *p, struct pnode *pn)

pnode_printrefmeta(struct format *f, struct pnode *n)

{

struct pnode *pp, *title, *manvol;

struct pnode *nc, *title, *manvol;

title = manvol = NULL;

TAILQ_FOREACH(pp, &pn->childq, child) {

TAILQ_FOREACH(nc, &n->childq, child) {

if (pp->node == NODE_MANVOLNUM)

if (nc->node == NODE_MANVOLNUM)

manvol = pp;

manvol = nc;

else if (pp->node == NODE_REFENTRYTITLE)

else if (nc->node == NODE_REFENTRYTITLE)

title = pp;

title = nc;

}

macro_close(p);

macro_close(f);

macro_open(p, "Dt");

macro_open(f, "Dt");

if (title == NULL)

macro_addarg(p, "UNKNOWN", ARG_SPACE);

macro_addarg(f, "UNKNOWN", ARG_SPACE);

else

macro_addnode(p, title, ARG_SPACE | ARG_SINGLE | ARG_UPPER);

macro_addnode(f, title, ARG_SPACE | ARG_SINGLE | ARG_UPPER);

if (manvol == NULL)

macro_addarg(p, "1", ARG_SPACE);

macro_addarg(f, "1", ARG_SPACE);

else

macro_addnode(p, manvol, ARG_SPACE | ARG_SINGLE);

macro_addnode(f, manvol, ARG_SPACE | ARG_SINGLE);

macro_close(p);

macro_close(f);

pnode_unlink(pn);

pnode_unlink(n);

}

static void

Line 303 pnode_printfuncdef(struct format *f, struct pnode *n)

* Second, >1 arguments are separated by commas.

static void

pnode_printmathfenced(struct format *p, struct pnode *pn)

pnode_printmathfenced(struct format *f, struct pnode *n)

{

struct pnode *pp;

struct pnode *nc;

printf("left %s ", pnode_getattr_raw(pn, ATTRKEY_OPEN, "("));

printf("left %s ", pnode_getattr_raw(n, ATTRKEY_OPEN, "("));

pp = TAILQ_FIRST(&pn->childq);

nc = TAILQ_FIRST(&n->childq);

pnode_print(p, pp);

pnode_print(f, nc);

while ((pp = TAILQ_NEXT(pp, child)) != NULL) {

while ((nc = TAILQ_NEXT(nc, child)) != NULL) {

putchar(',');

pnode_print(p, pp);

pnode_print(f, nc);

}

printf("right %s ", pnode_getattr_raw(pn, ATTRKEY_CLOSE, ")"));

printf("right %s ", pnode_getattr_raw(n, ATTRKEY_CLOSE, ")"));

pnode_unlinksub(pn);

pnode_unlinksub(n);

}

Line 327 pnode_printmathfenced(struct format *p, struct pnode *

* particular eqn(7) word.

static void

pnode_printmath(struct format *p, struct pnode *pn)

pnode_printmath(struct format *f, struct pnode *n)

{

struct pnode *pp;

struct pnode *nc;

pp = TAILQ_FIRST(&pn->childq);

nc = TAILQ_FIRST(&n->childq);

pnode_print(p, pp);

pnode_print(f, nc);

switch (pn->node) {

switch (n->node) {

case NODE_MML_MSUP:

fputs(" sup ", stdout);

break;

Line 348 pnode_printmath(struct format *p, struct pnode *pn)

break;

}

pp = TAILQ_NEXT(pp, child);

nc = TAILQ_NEXT(nc, child);

pnode_print(p, pp);

pnode_print(f, nc);

pnode_unlinksub(pn);

pnode_unlinksub(n);

}

static void

pnode_printfuncprototype(struct format *p, struct pnode *pn)

pnode_printfuncprototype(struct format *f, struct pnode *n)

{

struct pnode *pp, *fdef;

struct pnode *nc, *fdef;

TAILQ_FOREACH(fdef, &pn->childq, child)

TAILQ_FOREACH(fdef, &n->childq, child)

if (fdef->node == NODE_FUNCDEF)

break;

if (fdef != NULL) {

pnode_printfuncdef(p, fdef);

pnode_printfuncdef(f, fdef);

pnode_unlink(fdef);

} else

macro_line(p, "Fo UNKNOWN");

macro_line(f, "Fo UNKNOWN");

TAILQ_FOREACH(pp, &pn->childq, child)

TAILQ_FOREACH(nc, &n->childq, child)

macro_nodeline(p, "Fa", pp, ARG_SINGLE);

macro_nodeline(f, "Fa", nc, ARG_SINGLE);

macro_line(p, "Fc");

macro_line(f, "Fc");

pnode_unlinksub(pn);

pnode_unlinksub(n);

}

Line 383 pnode_printfuncprototype(struct format *p, struct pnod

* ellipsis following an argument) and optionality.

static void

pnode_printarg(struct format *p, struct pnode *pn)

pnode_printarg(struct format *f, struct pnode *n)

{

struct pnode *pp;

struct pnode *nc;

struct pattr *ap;

struct pattr *a;

int isop, isrep;

isop = 1;

isrep = 0;

TAILQ_FOREACH(ap, &pn->attrq, child) {

TAILQ_FOREACH(a, &n->attrq, child) {

if (ap->key == ATTRKEY_CHOICE &&

if (a->key == ATTRKEY_CHOICE &&

(ap->val == ATTRVAL_PLAIN || ap->val == ATTRVAL_REQ))

(a->val == ATTRVAL_PLAIN || a->val == ATTRVAL_REQ))

isop = 0;

else if (ap->key == ATTRKEY_REP && ap->val == ATTRVAL_REPEAT)

else if (a->key == ATTRKEY_REP && a->val == ATTRVAL_REPEAT)

isrep = 1;

}

if (isop)

macro_open(p, "Op");

macro_open(f, "Op");

TAILQ_FOREACH(pp, &pn->childq, child) {

TAILQ_FOREACH(nc, &n->childq, child) {

if (pp->node == NODE_TEXT)

if (nc->node == NODE_TEXT)

macro_open(p, "Ar");

macro_open(f, "Ar");

pnode_print(p, pp);

pnode_print(f, nc);

if (isrep && pp->node == NODE_TEXT)

if (isrep && nc->node == NODE_TEXT)

macro_addarg(p, "...", ARG_SPACE);

macro_addarg(f, "...", ARG_SPACE);

}

pnode_unlinksub(pn);

pnode_unlinksub(n);

}

static void

pnode_printgroup(struct format *p, struct pnode *pn)

pnode_printgroup(struct format *f, struct pnode *n)

{

struct pnode *pp, *np;

struct pnode *nc, *nn;

struct pattr *ap;

struct pattr *a;

int isop, sv;

isop = 1;

TAILQ_FOREACH(ap, &pn->attrq, child)

TAILQ_FOREACH(a, &n->attrq, child)

if (ap->key == ATTRKEY_CHOICE &&

if (a->key == ATTRKEY_CHOICE &&

(ap->val == ATTRVAL_PLAIN || ap->val == ATTRVAL_REQ)) {

(a->val == ATTRVAL_PLAIN || a->val == ATTRVAL_REQ)) {

isop = 0;

break;

}

Line 431 pnode_printgroup(struct format *p, struct pnode *pn)

* This will prevent pnode_print() for putting us on a

* subsequent line.

sv = p->linestate == LINE_NEW;

sv = f->linestate == LINE_NEW;

if (isop)

macro_open(p, "Op");

macro_open(f, "Op");

else if (sv)

macro_open(p, "No");

macro_open(f, "No");

* Keep on printing text separated by the vertical bar as long

Line 445 pnode_printgroup(struct format *p, struct pnode *pn)

* FIXME: if there's a "Fl", we don't cut off the leading "-"

* like we do in pnode_print().

TAILQ_FOREACH(pp, &pn->childq, child) {

TAILQ_FOREACH(nc, &n->childq, child) {

pnode_print(p, pp);

pnode_print(f, nc);

np = TAILQ_NEXT(pp, child);

nn = TAILQ_NEXT(nc, child);

while (np != NULL) {

while (nn != NULL) {

if (pp->node != np->node)

if (nc->node != nn->node)

break;

macro_addarg(p, "|", ARG_SPACE);

macro_addarg(f, "|", ARG_SPACE);

macro_addnode(p, np, ARG_SPACE);

macro_addnode(f, nn, ARG_SPACE);

pp = np;

nc = nn;

np = TAILQ_NEXT(np, child);

nn = TAILQ_NEXT(nn, child);

}

if (sv)

macro_close(p);

macro_close(f);

pnode_unlinksub(pn);

pnode_unlinksub(n);

}

static void

pnode_printauthor(struct format *f, struct pnode *n)

{

struct pnode *nc, *ncn;

struct pnode *nc, *nn;

int have_contrib, have_name;

Line 474 pnode_printauthor(struct format *f, struct pnode *n)

have_contrib = have_name = 0;

TAILQ_FOREACH_SAFE(nc, &n->childq, child, ncn) {

TAILQ_FOREACH_SAFE(nc, &n->childq, child, nn) {

switch (nc->node) {

case NODE_CONTRIB:

if (have_contrib)

Line 503 pnode_printauthor(struct format *f, struct pnode *n)

macro_open(f, "An");

TAILQ_FOREACH_SAFE(nc, &n->childq, child, ncn) {

TAILQ_FOREACH_SAFE(nc, &n->childq, child, nn) {

if (nc->node == NODE_PERSONNAME || have_name == 0) {

macro_addnode(f, nc, ARG_SPACE);

pnode_unlink(nc);

Line 568 pnode_printlink(struct format *f, struct pnode *n)

}

static void

pnode_printprologue(struct format *p, struct ptree *tree)

pnode_printprologue(struct format *f, struct ptree *tree)

{

struct pnode *refmeta;

refmeta = tree->root == NULL ? NULL :

pnode_findfirst(tree->root, NODE_REFMETA);

macro_line(p, "Dd $Mdocdate" "$");

macro_line(f, "Dd $Mdocdate" "$");

if (refmeta == NULL) {

macro_open(p, "Dt");

macro_open(f, "Dt");

macro_addarg(p,

macro_addarg(f,

pnode_getattr_raw(tree->root, ATTRKEY_ID, "UNKNOWN"),

ARG_SPACE | ARG_SINGLE | ARG_UPPER);

macro_addarg(p, "1", ARG_SPACE);

macro_addarg(f, "1", ARG_SPACE);

macro_close(p);

macro_close(f);

} else

pnode_printrefmeta(p, refmeta);

pnode_printrefmeta(f, refmeta);

macro_line(p, "Os");

macro_line(f, "Os");

if (tree->flags & TREE_EQN) {

macro_line(p, "EQ");

macro_line(f, "EQ");

print_text(p, "delim $$", 0);

print_text(f, "delim $$", 0);

macro_line(p, "EN");

macro_line(f, "EN");

}

Line 599 pnode_printprologue(struct format *p, struct ptree *tr

* we should comma-separate as list headers.

static void

pnode_printvarlistentry(struct format *p, struct pnode *pn)

pnode_printvarlistentry(struct format *f, struct pnode *n)

{

struct pnode *pp;

struct pnode *nc;

int first = 1;

macro_close(p);

macro_close(f);

macro_open(p, "It");

macro_open(f, "It");

TAILQ_FOREACH(pp, &pn->childq, child) {

TAILQ_FOREACH(nc, &n->childq, child) {

if (pp->node != NODE_TERM && pp->node != NODE_GLOSSTERM)

if (nc->node != NODE_TERM && nc->node != NODE_GLOSSTERM)

continue;

if ( ! first)

macro_addarg(p, ",", 0);

macro_addarg(f, ",", 0);

pnode_print(p, pp);

pnode_print(f, nc);

first = 0;

}

macro_close(p);

macro_close(f);

TAILQ_FOREACH(pp, &pn->childq, child)

TAILQ_FOREACH(nc, &n->childq, child)

if (pp->node != NODE_TERM && pp->node != NODE_GLOSSTERM)

if (nc->node != NODE_TERM && nc->node != NODE_GLOSSTERM)

pnode_print(p, pp);

pnode_print(f, nc);

pnode_unlinksub(pn);

pnode_unlinksub(n);

}

static void

pnode_printtitle(struct format *p, struct pnode *pn)

pnode_printtitle(struct format *f, struct pnode *n)

{

struct pnode *pp, *pq;

struct pnode *nc, *nn;

TAILQ_FOREACH_SAFE(pp, &pn->childq, child, pq) {

TAILQ_FOREACH_SAFE(nc, &n->childq, child, nn) {

if (pp->node == NODE_TITLE) {

if (nc->node == NODE_TITLE) {

pnode_printpara(p, pp);

pnode_printpara(f, nc);

pnode_print(p, pp);

pnode_print(f, nc);

pnode_unlink(pp);

pnode_unlink(nc);

}

static void

pnode_printrow(struct format *p, struct pnode *pn)

pnode_printrow(struct format *f, struct pnode *n)

{

struct pnode *pp;

struct pnode *nc;

macro_line(p, "Bl -dash -compact");

macro_line(f, "Bl -dash -compact");

TAILQ_FOREACH(pp, &pn->childq, child) {

TAILQ_FOREACH(nc, &n->childq, child) {

macro_line(p, "It");

macro_line(f, "It");

pnode_print(p, pp);

pnode_print(f, nc);

}

macro_line(p, "El");

macro_line(f, "El");

pnode_unlink(pn);

pnode_unlink(n);

}

static void

Line 711 pnode_printtgroup(struct format *f, struct pnode *n)

}

static void

pnode_printlist(struct format *p, struct pnode *pn)

pnode_printlist(struct format *f, struct pnode *n)

{

struct pnode *pp;

struct pnode *nc;

pnode_printtitle(p, pn);

pnode_printtitle(f, n);

macro_argline(p, "Bl",

macro_argline(f, "Bl",

pn->node == NODE_ORDEREDLIST ? "-enum" : "-bullet");

n->node == NODE_ORDEREDLIST ? "-enum" : "-bullet");

TAILQ_FOREACH(pp, &pn->childq, child) {

TAILQ_FOREACH(nc, &n->childq, child) {

macro_line(p, "It");

macro_line(f, "It");

pnode_print(p, pp);

pnode_print(f, nc);

}

macro_line(p, "El");

macro_line(f, "El");

pnode_unlinksub(pn);

pnode_unlinksub(n);

}

static void

pnode_printvariablelist(struct format *p, struct pnode *pn)

pnode_printvariablelist(struct format *f, struct pnode *n)

{

struct pnode *pp;

struct pnode *nc;

pnode_printtitle(p, pn);

pnode_printtitle(f, n);

macro_line(p, "Bl -tag -width Ds");

macro_line(f, "Bl -tag -width Ds");

TAILQ_FOREACH(pp, &pn->childq, child) {

TAILQ_FOREACH(nc, &n->childq, child) {

if (pp->node == NODE_VARLISTENTRY)

if (nc->node == NODE_VARLISTENTRY)

pnode_printvarlistentry(p, pp);

pnode_printvarlistentry(f, nc);

else

macro_nodeline(p, "It", pp, 0);

macro_nodeline(f, "It", nc, 0);

}

macro_line(p, "El");

macro_line(f, "El");

pnode_unlinksub(pn);

pnode_unlinksub(n);

}

Line 750 pnode_printvariablelist(struct format *p, struct pnode

* whatever), don't print inline macros.

static void

pnode_print(struct format *p, struct pnode *pn)

pnode_print(struct format *f, struct pnode *n)

{

struct pnode *pp;

enum linestate sv;

if (pn == NULL)

if (n == NULL)

return;

p->spc = pn->spc;

f->spc = n->spc;

sv = p->linestate;

sv = f->linestate;

switch (pn->node) {

switch (n->node) {

case NODE_APPLICATION:

macro_open(p, "Nm");

macro_open(f, "Nm");

break;

case NODE_ARG:

pnode_printarg(p, pn);

pnode_printarg(f, n);

break;

case NODE_AUTHOR:

pnode_printauthor(p, pn);

pnode_printauthor(f, n);

break;

case NODE_AUTHORGROUP:

macro_line(p, "An -split");

macro_line(f, "An -split");

break;

case NODE_BLOCKQUOTE:

macro_line(p, "Bd -ragged -offset indent");

macro_line(f, "Bd -ragged -offset indent");

break;

case NODE_BOOKINFO:

macro_line(p, "Sh NAME");

macro_line(f, "Sh NAME");

break;

case NODE_CITEREFENTRY:

pnode_printciterefentry(p, pn);

pnode_printciterefentry(f, n);

break;

case NODE_CITETITLE:

macro_open(p, "%T");

macro_open(f, "%T");

break;

case NODE_COMMAND:

macro_open(p, "Nm");

macro_open(f, "Nm");

break;

case NODE_CONSTANT:

macro_open(p, "Dv");

macro_open(f, "Dv");

break;

case NODE_EDITOR:

print_text(p, "editor:", ARG_SPACE);

print_text(f, "editor:", ARG_SPACE);

sv = LINE_TEXT;

macro_open(p, "An");

macro_open(f, "An");

break;

case NODE_EMAIL:

macro_open(p, "Aq Mt");

macro_open(f, "Aq Mt");

break;

case NODE_EMPHASIS:

case NODE_FIRSTTERM:

case NODE_GLOSSTERM:

macro_open(p, "Em");

macro_open(f, "Em");

break;

case NODE_ENVAR:

macro_open(p, "Ev");

macro_open(f, "Ev");

break;

case NODE_ERRORNAME:

macro_open(p, "Er");

macro_open(f, "Er");

break;

case NODE_FILENAME:

macro_open(p, "Pa");

macro_open(f, "Pa");

break;

case NODE_FUNCTION:

macro_open(p, "Fn");

macro_open(f, "Fn");

break;

case NODE_FUNCPROTOTYPE:

pnode_printfuncprototype(p, pn);

pnode_printfuncprototype(f, n);

break;

case NODE_FUNCSYNOPSISINFO:

macro_open(p, "Fd");

macro_open(f, "Fd");

break;

case NODE_INFORMALEQUATION:

macro_line(p, "EQ");

macro_line(f, "EQ");

break;

case NODE_INLINEEQUATION:

if (p->linestate == LINE_NEW)

if (f->linestate == LINE_NEW)

p->linestate = LINE_TEXT;

f->linestate = LINE_TEXT;

putchar('$');

break;

case NODE_ITEMIZEDLIST:

pnode_printlist(p, pn);

pnode_printlist(f, n);

break;

case NODE_GROUP:

pnode_printgroup(p, pn);

pnode_printgroup(f, n);

break;

case NODE_KEYSYM:

macro_open(p, "Sy");

macro_open(f, "Sy");

break;

case NODE_LINK:

pnode_printlink(p, pn);

pnode_printlink(f, n);

break;

case NODE_LITERAL:

macro_open(p, "Ql");

macro_open(f, "Ql");

break;

case NODE_LITERALLAYOUT:

macro_close(p);

macro_close(f);

macro_argline(p, "Bd", pnode_getattr(pn, ATTRKEY_CLASS) ==

macro_argline(f, "Bd", pnode_getattr(n, ATTRKEY_CLASS) ==

ATTRVAL_MONOSPACED ? "-literal" : "-unfilled");

break;

case NODE_MML_MFENCED:

pnode_printmathfenced(p, pn);

pnode_printmathfenced(f, n);

break;

case NODE_MML_MROW:

case NODE_MML_MI:

case NODE_MML_MN:

case NODE_MML_MO:

if (TAILQ_EMPTY(&pn->childq))

if (TAILQ_EMPTY(&n->childq))

break;

fputs(" { ", stdout);

break;

case NODE_MML_MFRAC:

case NODE_MML_MSUB:

case NODE_MML_MSUP:

pnode_printmath(p, pn);

pnode_printmath(f, n);

break;

case NODE_OPTION:

macro_open(p, "Fl");

macro_open(f, "Fl");

break;

case NODE_ORDEREDLIST:

pnode_printlist(p, pn);

pnode_printlist(f, n);

break;

case NODE_PARA:

pnode_printpara(p, pn);

pnode_printpara(f, n);

break;

case NODE_PARAMDEF:

case NODE_PARAMETER:

macro_nodeline(p, "Fa", pn, ARG_SINGLE);

macro_nodeline(f, "Fa", n, ARG_SINGLE);

pnode_unlinksub(pn);

pnode_unlinksub(n);

break;

case NODE_QUOTE:

macro_open(p, "Qo");

macro_open(f, "Qo");

break;

case NODE_PROGRAMLISTING:

case NODE_SCREEN:

case NODE_SYNOPSIS:

macro_line(p, "Bd -literal");

macro_line(f, "Bd -literal");

break;

case NODE_REFENTRYINFO:

/* Suppress. */

pnode_unlinksub(pn);

pnode_unlinksub(n);

break;

case NODE_REFNAME:

/* Suppress non-text children... */

macro_open(p, "Nm");

macro_open(f, "Nm");

macro_addnode(p, pn, ARG_SPACE | ARG_SINGLE);

macro_addnode(f, n, ARG_SPACE | ARG_SINGLE);

pnode_unlinksub(pn);

pnode_unlinksub(n);

break;

case NODE_REFNAMEDIV:

macro_line(p, "Sh NAME");

macro_line(f, "Sh NAME");

break;

case NODE_REFPURPOSE:

macro_open(p, "Nd");

macro_open(f, "Nd");

break;

case NODE_REFSYNOPSISDIV:

pnode_printrefsynopsisdiv(p, pn);

pnode_printrefsynopsisdiv(f, n);

break;

case NODE_PREFACE:

case NODE_SECTION:

Line 916 pnode_print(struct format *p, struct pnode *pn)

case NODE_TIP:

case NODE_CAUTION:

case NODE_WARNING:

pnode_printrefsect(p, pn);

pnode_printrefsect(f, n);

break;

case NODE_REPLACEABLE:

macro_open(p, "Ar");

macro_open(f, "Ar");

break;

case NODE_SBR:

macro_line(p, "br");

macro_line(f, "br");

break;

case NODE_SGMLTAG:

macro_open(p, "Ic");

macro_open(f, "Ic");

break;

case NODE_TEXT:

case NODE_ESCAPE:

pnode_printtext(p, pn);

pnode_printtext(f, n);

break;

case NODE_TGROUP:

pnode_printtgroup(p, pn);

pnode_printtgroup(f, n);

break;

case NODE_TITLE:

if (pn->parent != NULL &&

if (n->parent != NULL &&

pn->parent->node == NODE_BOOKINFO) {

n->parent->node == NODE_BOOKINFO) {

macro_open(p, "Nd");

macro_open(f, "Nd");

break;

}

pnode_printpara(p, pn);

pnode_printpara(f, n);

macro_nodeline(p, "Sy", pn, 0);

macro_nodeline(f, "Sy", n, 0);

pnode_unlinksub(pn);

pnode_unlinksub(n);

break;

case NODE_TYPE:

macro_open(p, "Vt");

macro_open(f, "Vt");

break;

case NODE_VARIABLELIST:

pnode_printvariablelist(p, pn);

pnode_printvariablelist(f, n);

break;

case NODE_VARNAME:

macro_open(p, "Va");

macro_open(f, "Va");

break;

default:

break;

}

TAILQ_FOREACH(pp, &pn->childq, child)

TAILQ_FOREACH(pp, &n->childq, child)

pnode_print(p, pp);

pnode_print(f, pp);

switch (pn->node) {

switch (n->node) {

case NODE_INFORMALEQUATION:

macro_line(p, "EN");

macro_line(f, "EN");

break;

case NODE_INLINEEQUATION:

fputs("$ ", stdout);

p->linestate = sv;

f->linestate = sv;

break;

case NODE_MEMBER:

if ((pp = TAILQ_NEXT(pn, child)) != NULL &&

if ((pp = TAILQ_NEXT(n, child)) != NULL &&

pp->node != NODE_MEMBER)

pp = NULL;

switch (p->linestate) {

switch (f->linestate) {

case LINE_TEXT:

if (pp != NULL)

print_text(p, ",", 0);

print_text(f, ",", 0);

break;

case LINE_MACRO:

if (pp != NULL)

macro_addarg(p, ",", ARG_SPACE);

macro_addarg(f, ",", ARG_SPACE);

macro_close(p);

macro_close(f);

break;

case LINE_NEW:

break;

Line 990 pnode_print(struct format *p, struct pnode *pn)

case NODE_MML_MI:

case NODE_MML_MN:

case NODE_MML_MO:

if (TAILQ_EMPTY(&pn->childq))

if (TAILQ_EMPTY(&n->childq))

break;

fputs(" } ", stdout);

break;

Line 1020 pnode_print(struct format *p, struct pnode *pn)

case NODE_SGMLTAG:

case NODE_TYPE:

case NODE_VARNAME:

if (sv != LINE_MACRO && p->linestate == LINE_MACRO &&

if (sv != LINE_MACRO && f->linestate == LINE_MACRO &&

(pn->parent == NULL || pn->parent->node != NODE_MEMBER))

(n->parent == NULL || n->parent->node != NODE_MEMBER))

macro_closepunct(p, pn);

macro_closepunct(f, n);

break;

case NODE_QUOTE:

if (sv == LINE_NEW)

macro_close(p);

macro_close(f);

sv = p->linestate;

sv = f->linestate;

macro_open(p, "Qc");

macro_open(f, "Qc");

if (sv == LINE_NEW)

macro_close(p);

macro_close(f);

break;

case NODE_REFNAME:

Line 1038 pnode_print(struct format *p, struct pnode *pn)

* <refname> macros in sequence, then print out a

* trailing comma before the newline.

if (pn->parent != NULL &&

if (n->parent != NULL &&

pn->parent->node == NODE_REFNAMEDIV &&

n->parent->node == NODE_REFNAMEDIV &&

TAILQ_NEXT(pn, child) != NULL &&

TAILQ_NEXT(n, child) != NULL &&

TAILQ_NEXT(pn, child)->node == NODE_REFNAME)

TAILQ_NEXT(n, child)->node == NODE_REFNAME)

macro_addarg(p, ",", ARG_SPACE);

macro_addarg(f, ",", ARG_SPACE);

if (sv == LINE_NEW)

macro_close(p);

macro_close(f);

break;

case NODE_PREFACE:

case NODE_SECTION:

Line 1054 pnode_print(struct format *p, struct pnode *pn)

case NODE_TIP:

case NODE_CAUTION:

case NODE_WARNING:

p->level--;

f->level--;

break;

case NODE_BLOCKQUOTE:

case NODE_LITERALLAYOUT:

case NODE_PROGRAMLISTING:

case NODE_SCREEN:

case NODE_SYNOPSIS:

macro_line(p, "Ed");

macro_line(f, "Ed");

break;

case NODE_TITLE:

if (pn->parent != NULL &&

if (n->parent != NULL &&

pn->parent->node == NODE_BOOKINFO)

n->parent->node == NODE_BOOKINFO)

macro_line(p, "Sh AUTHORS");

macro_line(f, "Sh AUTHORS");

break;

default:

break;

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