docbook2mdoc/docbook2mdoc.c - diff

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Diff for /docbook2mdoc/docbook2mdoc.c between version 1.124 and 1.147

version 1.124, 2019/04/14 20:13:25

version 1.147, 2019/05/01 17:20:47

Line 21

#include <stdlib.h>

#include <string.h>

#include "xmalloc.h"

#include "node.h"

#include "macro.h"

#include "format.h"

Line 30

Line 31

static void pnode_print(struct format *, struct pnode *);

static void pnode_printrefentry(struct format *, struct pnode *);

static void

Line 40 pnode_printtext(struct format *f, struct pnode *n)

char *cp;

int accept_arg;

para_check(f);

cp = n->b;

accept_arg = f->flags & FMT_ARG;

if (f->linestate == LINE_MACRO && !n->spc && !accept_arg) {

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

(n->flags & NFLAG_SPC) == 0) {

for (;;) {

if (*cp == '\0')

return;

Line 71 pnode_printtext(struct format *f, struct pnode *n)

Line 73 pnode_printtext(struct format *f, struct pnode *n)

if (f->linestate != LINE_MACRO &&

(nn = TAILQ_NEXT(n, child)) != NULL && nn->spc == 0) {

(nn = TAILQ_NEXT(n, child)) != NULL &&

(nn->flags & NFLAG_SPC) == 0) {

switch (pnode_class(nn->node)) {

case CLASS_LINE:

case CLASS_ENCL:

macro_open(f, "Pf");

accept_arg = 1;

f->flags |= FMT_CHILD;

nn->spc = 1;

nn->flags |= NFLAG_SPC;

break;

default:

break;

Line 89 pnode_printtext(struct format *f, struct pnode *n)

Line 92 pnode_printtext(struct format *f, struct pnode *n)

case LINE_NEW:

break;

case LINE_TEXT:

if (n->spc) {

if (n->flags & NFLAG_SPC) {

if (n->node == NODE_TEXT)

if (n->flags & NFLAG_LINE &&

pnode_class(n->node) == CLASS_TEXT)

macro_close(f);

else

putchar(' ');

}

break;

case LINE_MACRO:

if (accept_arg)

if (accept_arg == 0)

putchar(' ');

else

macro_close(f);

else if (n->flags & NFLAG_SPC ||

(f->flags & FMT_ARG) == 0 ||

(nn = TAILQ_PREV(n, pnodeq, child)) == NULL ||

pnode_class(nn->node) != CLASS_TEXT)

putchar(' ');

break;

}

Line 126 pnode_printtext(struct format *f, struct pnode *n)

Line 133 pnode_printtext(struct format *f, struct pnode *n)

}

static void

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

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

{

struct pnode *np;

const char *cp;

if (n->parent == NULL)

if ((cp = pnode_getattr_raw(n, ATTRKEY_FILEREF, NULL)) == NULL)

return;

cp = pnode_getattr_raw(n, ATTRKEY_ENTITYREF, NULL);

if (cp != NULL) {

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

print_text(f, "[image:", ARG_SPACE);

np = n->parent;

print_text(f, cp, ARG_SPACE);

print_text(f, "]", 0);

f->flags = 0;

} else

print_text(f, "[image]", ARG_SPACE);

switch (np->node) {

case NODE_ENTRY:

case NODE_GLOSSTERM:

case NODE_LISTITEM:

case NODE_TERM:

return;

case NODE_APPENDIX:

case NODE_LEGALNOTICE:

case NODE_PREFACE:

case NODE_SECTION:

if (f->level < 3)

return;

break;

default:

break;

}

macro_line(f, "Pp");

}

static void

Line 163 pnode_printrefnamediv(struct format *f, struct pnode *

Line 153 pnode_printrefnamediv(struct format *f, struct pnode *

struct pnode *nc, *nn;

int comma;

f->parastate = PARA_HAVE;

macro_line(f, "Sh NAME");

f->parastate = PARA_HAVE;

comma = 0;

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

if (nc->node != NODE_REFNAME)

Line 190 pnode_printrefsynopsisdiv(struct format *f, struct pno

Line 182 pnode_printrefsynopsisdiv(struct format *f, struct pno

if (nc->node == NODE_TITLE)

pnode_unlink(nc);

f->parastate = PARA_HAVE;

macro_line(f, "Sh SYNOPSIS");

f->parastate = PARA_HAVE;

}

Line 200 static void

Line 194 static void

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

{

struct pnode *nc, *ncc;

const char *title;

int flags, level;

if (n->parent == NULL) {

if (n->parent == NULL)

pnode_printrefentry(f, n);

return;

}

level = ++f->level;

flags = ARG_SPACE;

switch (n->node) {

case NODE_PREFACE:

case NODE_SECTION:

case NODE_APPENDIX:

if (level == 1)

flags |= ARG_UPPER;

break;

case NODE_SIMPLESECT:

case NODE_LEGALNOTICE:

if (level < 2)

level = 2;

break;

default:

case NODE_NOTE:

if (level < 3)

level = 3;

break;

default:

abort();

}

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

if (nc->node == NODE_TITLE)

break;

if (nc == NULL) {

switch (n->node) {

case NODE_PREFACE:

title = "Preface";

break;

case NODE_APPENDIX:

title = "Appendix";

break;

case NODE_LEGALNOTICE:

title = "Legal Notice";

break;

case NODE_CAUTION:

title = "Caution";

break;

case NODE_NOTE:

title = "Note";

break;

case NODE_TIP:

title = "Tip";

break;

case NODE_WARNING:

title = "Warning";

break;

default:

title = "Unknown";

break;

}

switch (level) {

case 1:

macro_close(f);

f->parastate = PARA_HAVE;

macro_open(f, "Sh");

break;

case 2:

macro_close(f);

f->parastate = PARA_HAVE;

macro_open(f, "Ss");

break;

default:

pnode_printpara(f, n);

if (f->parastate == PARA_MID)

f->parastate = PARA_WANT;

macro_open(f, "Sy");

break;

}

macro_addnode(f, nc, flags);

if (nc != NULL)

macro_addnode(f, nc, flags);

else

macro_addarg(f, title, flags | ARG_QUOTED);

macro_close(f);

Line 288 pnode_printsection(struct format *f, struct pnode *n)

Line 249 pnode_printsection(struct format *f, struct pnode *n)

if (nc != NULL) {

ncc = TAILQ_FIRST(&nc->childq);

if (level == 1 &&

if (ncc != NULL && ncc->node == NODE_TEXT &&

(ncc = TAILQ_FIRST(&nc->childq)) != NULL &&

ncc->node == NODE_TEXT &&

strcasecmp(ncc->b, "AUTHORS") == 0)

macro_line(f, "An -nosplit");

pnode_unlink(nc);

}

f->parastate = level > 2 ? PARA_WANT : PARA_HAVE;

}

Line 323 pnode_printciterefentry(struct format *f, struct pnode

Line 286 pnode_printciterefentry(struct format *f, struct pnode

pnode_unlinksub(n);

}

static void

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

{

struct pnode *nc;

nc = TAILQ_FIRST(&n->childq);

if (nc != NULL && nc->node == NODE_TEXT) {

macro_argline(f, "Ft", nc->b);

pnode_unlink(nc);

}

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

pnode_unlinksub(n);

}

* The <mml:mfenced> node is a little peculiar.

* First, it can have arbitrary open and closing tokens, which default

Line 397 pnode_printmath(struct format *f, struct pnode *n)

Line 346 pnode_printmath(struct format *f, struct pnode *n)

static void

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

{

struct pnode *nc, *fdef;

struct pnode *fdef, *fps, *ftype, *nc, *nn;

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

if (fdef->node == NODE_FUNCDEF)

* Extract <funcdef> child and ignore <void> child.

* Leave other children in place, to be treated as parameters.

fdef = NULL;

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

switch (nc->node) {

case NODE_FUNCDEF:

if (fdef == NULL) {

fdef = nc;

TAILQ_REMOVE(&n->childq, nc, child);

nc->parent = NULL;

}

break;

case NODE_VOID:

pnode_unlink(nc);

break;

default:

break;

}

* If no children are left, the function is void; use .Fn.

* Otherwise, use .Fo.

nc = TAILQ_FIRST(&n->childq);

if (fdef != NULL) {

pnode_printfuncdef(f, fdef);

ftype = TAILQ_FIRST(&fdef->childq);

if (ftype != NULL && ftype->node == NODE_TEXT) {

macro_argline(f, "Ft", ftype->b);

pnode_unlink(ftype);

}

if (nc == NULL) {

macro_open(f, "Fn");

macro_addnode(f, fdef, ARG_SPACE | ARG_SINGLE);

macro_addarg(f, "void", ARG_SPACE);

macro_close(f);

} else

macro_nodeline(f, "Fo", fdef, ARG_SINGLE);

pnode_unlink(fdef);

} else

} else if (nc == NULL)

macro_line(f, "Fn UNKNOWN void");

else

macro_line(f, "Fo UNKNOWN");

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

if (nc == NULL)

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

return;

while (nc != NULL) {

if ((fps = pnode_takefirst(nc, NODE_FUNCPARAMS)) != NULL) {

macro_open(f, "Fa \"");

macro_addnode(f, nc, ARG_QUOTED);

macro_addarg(f, "(", ARG_QUOTED);

macro_addnode(f, fps, ARG_QUOTED);

macro_addarg(f, ")", ARG_QUOTED);

putchar('"');

macro_close(f);

} else

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

pnode_unlink(nc);

nc = TAILQ_FIRST(&n->childq);

}

macro_line(f, "Fc");

pnode_unlinksub(n);

}

Line 609 pnode_printauthor(struct format *f, struct pnode *n)

}

static void

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

{

const char *linkend;

linkend = pnode_getattr_raw(n, ATTRKEY_LINKEND, NULL);

if (linkend != NULL) {

macro_open(f, "Sx");

macro_addarg(f, linkend, ARG_SPACE);

}

static void

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

{

struct pnode *nc;

Line 651 pnode_printlink(struct format *f, struct pnode *n)

Line 663 pnode_printlink(struct format *f, struct pnode *n)

if (TAILQ_FIRST(&n->childq) != NULL)

macro_addnode(f, n, ARG_SPACE | ARG_SINGLE);

pnode_unlinksub(n);

return;

}

static void

pnode_printprologue(struct format *f, struct pnode *root)

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

{

struct pnode *date, *refmeta, *name, *vol, *descr, *nc, *nn;

const char *uri, *ptr, *local;

const char *sname;

/* Collect information. */

uri = pnode_getattr_raw(n, ATTRKEY_TARGETDOC, NULL);

ptr = pnode_getattr_raw(n, ATTRKEY_TARGETPTR, NULL);

local = pnode_getattr_raw(n, ATTRKEY_LOCALINFO, NULL);

if (uri == NULL) {

uri = ptr;

ptr = NULL;

}

if (uri == NULL) {

uri = local;

local = NULL;

}

if (uri == NULL)

return;

if ((date = pnode_takefirst(root, NODE_PUBDATE)) == NULL)

macro_open(f, "Lk");

date = pnode_takefirst(root, NODE_DATE);

macro_addarg(f, uri, ARG_SPACE | ARG_SINGLE);

macro_addnode(f, n, ARG_SPACE | ARG_SINGLE);

name = vol = NULL;

if (ptr != NULL || local != NULL) {

if ((refmeta = pnode_findfirst(root, NODE_REFMETA)) != NULL) {

macro_close(f);

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

macro_open(f, "Pq");

switch (nc->node) {

if (ptr != NULL)

case NODE_REFENTRYTITLE:

macro_addarg(f, ptr, ARG_SPACE);

name = nc;

if (local != NULL)

break;

macro_addarg(f, local, ARG_SPACE);

case NODE_MANVOLNUM:

vol = nc;

break;

default:

continue;

}

TAILQ_REMOVE(&refmeta->childq, nc, child);

}

pnode_unlinksub(n);

}

if (pnode_findfirst(root, NODE_REFNAMEDIV) == NULL &&

static void

((nc = pnode_findfirst(root, NODE_BOOKINFO)) != NULL ||

pnode_printprologue(struct format *f, struct pnode *root)

(nc = pnode_findfirst(root, NODE_REFENTRYINFO)) != NULL))

{

descr = pnode_takefirst(nc, NODE_TITLE);

struct pnode *name, *nc;

else

descr = NULL;

/* Print prologue. */

nc = TAILQ_FIRST(&root->childq);

assert(nc->node == NODE_DATE);

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

pnode_unlink(nc);

if (date == NULL)

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

else

macro_nodeline(f, "Dd", date, 0);

macro_open(f, "Dt");

if (name == NULL) {

name = TAILQ_FIRST(&root->childq);

sname = pnode_getattr_raw(root, ATTRKEY_ID, "UNKNOWN");

assert(name->node == NODE_REFENTRYTITLE);

macro_addarg(f, sname, ARG_SPACE | ARG_SINGLE | ARG_UPPER);

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

} else

TAILQ_REMOVE(&root->childq, name, child);

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

name->parent = NULL;

if (vol == NULL)

nc = TAILQ_FIRST(&root->childq);

macro_addarg(f, "1", ARG_SPACE);

assert (nc->node == NODE_MANVOLNUM);

else

macro_addnode(f, nc, ARG_SPACE | ARG_SINGLE);

macro_addnode(f, vol, ARG_SPACE | ARG_SINGLE);

pnode_unlink(nc);

macro_line(f, "Os");

if (descr != NULL) {

nc = TAILQ_FIRST(&root->childq);

if (nc != NULL && nc->node == NODE_TITLE) {

macro_line(f, "Sh NAME");

if (name == NULL)

macro_nodeline(f, "Nm", name, ARG_SINGLE);

macro_argline(f, "Nm", sname);

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

else

pnode_unlink(nc);

macro_nodeline(f, "Nm", name, ARG_SINGLE);

macro_nodeline(f, "Nd", descr, 0);

}

/* Clean up. */

pnode_unlink(date);

pnode_unlink(name);

pnode_unlink(vol);

f->parastate = PARA_HAVE;

pnode_unlink(descr);

}

static void

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

{

struct pnode *info, *meta, *nc, *title;

struct pnode *match, *later;

/* Collect nodes that remained behind when writing the prologue. */

meta = NULL;

info = pnode_takefirst(n, NODE_BOOKINFO);

if (info != NULL && TAILQ_FIRST(&info->childq) == NULL) {

pnode_unlink(info);

info = NULL;

}

if (info == NULL) {

info = pnode_takefirst(n, NODE_REFENTRYINFO);

if (info != NULL && TAILQ_FIRST(&info->childq) == NULL) {

pnode_unlink(info);

info = NULL;

}

meta = pnode_takefirst(n, NODE_REFMETA);

if (meta != NULL && TAILQ_FIRST(&meta->childq) == NULL) {

pnode_unlink(meta);

meta = NULL;

}

if (info == NULL && meta == NULL)

return;

* Find the best place to put this information.

* Use the last existing AUTHORS node, if any.

* Otherwise, put it behind all standard sections that

* conventionally precede AUTHORS, and also behind any

* non-standard sections that follow the last of these,

* but before the next standard section.

match = later = NULL;

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

switch (nc->node) {

case NODE_REFENTRY:

case NODE_REFNAMEDIV:

case NODE_REFSYNOPSISDIV:

case NODE_PREFACE:

later = NULL;

continue;

case NODE_APPENDIX:

case NODE_INDEX:

if (later == NULL)

later = nc;

continue;

default:

break;

}

if ((title = pnode_findfirst(nc, NODE_TITLE)) == NULL ||

(title = TAILQ_FIRST(&title->childq)) == NULL ||

title->node != NODE_TEXT)

continue;

if (strcasecmp(title->b, "AUTHORS") == 0 ||

strcasecmp(title->b, "AUTHOR") == 0)

match = nc;

else if (strcasecmp(title->b, "NAME") == 0 ||

strcasecmp(title->b, "SYNOPSIS") == 0 ||

strcasecmp(title->b, "DESCRIPTION") == 0 ||

strcasecmp(title->b, "RETURN VALUES") == 0 ||

strcasecmp(title->b, "ENVIRONMENT") == 0 ||

strcasecmp(title->b, "FILES") == 0 ||

strcasecmp(title->b, "EXIT STATUS") == 0 ||

strcasecmp(title->b, "EXAMPLES") == 0 ||

strcasecmp(title->b, "DIAGNOSTICS") == 0 ||

strcasecmp(title->b, "ERRORS") == 0 ||

strcasecmp(title->b, "SEE ALSO") == 0 ||

strcasecmp(title->b, "STANDARDS") == 0 ||

strcasecmp(title->b, "HISTORY") == 0)

later = NULL;

else if ((strcasecmp(title->b, "CAVEATS") == 0 ||

strcasecmp(title->b, "BUGS") == 0) &&

later == NULL)

later = nc;

}

* If no AUTHORS section was found, create one from scratch,

* and insert that at the place selected earlier.

if (match == NULL) {

if ((match = calloc(1, sizeof(*match))) == NULL) {

perror(NULL);

exit(1);

}

match->node = NODE_SECTION;

match->spc = 1;

match->parent = n;

TAILQ_INIT(&match->childq);

TAILQ_INIT(&match->attrq);

if ((nc = pnode_alloc(match)) == NULL) {

perror(NULL);

exit(1);

}

nc->node = NODE_TITLE;

nc->spc = 1;

if ((nc = pnode_alloc(nc)) == NULL) {

perror(NULL);

exit(1);

}

nc->node = NODE_TEXT;

if ((nc->b = strdup("AUTHORS")) == NULL) {

perror(NULL);

exit(1);

}

nc->spc = 1;

if (later == NULL)

TAILQ_INSERT_TAIL(&n->childq, match, child);

else

TAILQ_INSERT_BEFORE(later, match, child);

}

* Dump the stuff excised at the beginning

* into this AUTHORS section.

if (info != NULL)

TAILQ_INSERT_TAIL(&match->childq, info, child);

if (meta != NULL)

TAILQ_INSERT_TAIL(&match->childq, meta, child);

}

* We can have multiple <term> elements within a <varlistentry>, which

* we should comma-separate as list headers.

Line 864 pnode_printrefentry(struct format *f, struct pnode *n)

Line 740 pnode_printrefentry(struct format *f, struct pnode *n)

static void

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

{

struct pnode *nc, *nn;

struct pnode *nc, *nn, *ncc;

int first = 1;

int comma;

macro_open(f, "It");

f->parastate = PARA_HAVE;

f->flags |= FMT_IMPL;

comma = -1;

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

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

continue;

if (first == 0) {

if (comma != -1) {

switch (f->linestate) {

case LINE_NEW:

break;

Line 880 pnode_printvarlistentry(struct format *f, struct pnode

Line 758 pnode_printvarlistentry(struct format *f, struct pnode

print_text(f, ",", 0);

break;

case LINE_MACRO:

macro_addarg(f, ",", 0);

macro_addarg(f, ",", comma);

break;

}

f->parastate = PARA_HAVE;

comma = (ncc = TAILQ_FIRST(&nc->childq)) == NULL ||

pnode_class(ncc->node) == CLASS_TEXT ? 0 : ARG_SPACE;

pnode_print(f, nc);

pnode_unlink(nc);

first = 0;

}

macro_close(f);

f->parastate = PARA_HAVE;

while ((nc = TAILQ_FIRST(&n->childq)) != NULL) {

pnode_print(f, nc);

pnode_unlink(nc);

}

macro_close(f);

f->parastate = PARA_HAVE;

}

static void

Line 903 pnode_printtitle(struct format *f, struct pnode *n)

Line 785 pnode_printtitle(struct format *f, struct pnode *n)

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

if (nc->node == NODE_TITLE) {

pnode_printpara(f, nc);

if (f->parastate == PARA_MID)

pnode_print(f, nc);

f->parastate = PARA_WANT;

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

pnode_unlink(nc);

}

Line 932 pnode_printtgroup1(struct format *f, struct pnode *n)

Line 815 pnode_printtgroup1(struct format *f, struct pnode *n)

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

while ((nc = pnode_findfirst(n, NODE_ENTRY)) != NULL) {

macro_line(f, "It");

f->parastate = PARA_HAVE;

pnode_print(f, nc);

f->parastate = PARA_HAVE;

pnode_unlink(nc);

}

macro_line(f, "El");

Line 944 pnode_printtgroup2(struct format *f, struct pnode *n)

Line 829 pnode_printtgroup2(struct format *f, struct pnode *n)

{

struct pnode *nr, *ne;

f->parastate = PARA_HAVE;

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

while ((nr = pnode_findfirst(n, NODE_ROW)) != NULL) {

if ((ne = pnode_findfirst(n, NODE_ENTRY)) == NULL)

break;

macro_open(f, "It");

f->flags |= FMT_IMPL;

f->parastate = PARA_HAVE;

pnode_print(f, ne);

macro_close(f);

pnode_unlink(ne);

f->parastate = PARA_HAVE;

pnode_print(f, nr);

f->parastate = PARA_HAVE;

pnode_unlink(nr);

}

macro_line(f, "El");

f->parastate = PARA_WANT;

pnode_unlinksub(n);

}

Line 976 pnode_printtgroup(struct format *f, struct pnode *n)

Line 866 pnode_printtgroup(struct format *f, struct pnode *n)

break;

}

f->parastate = PARA_HAVE;

macro_line(f, "Bl -ohang");

while ((nc = pnode_findfirst(n, NODE_ROW)) != NULL) {

macro_line(f, "It Table Row");

pnode_printrow(f, nc);

}

macro_line(f, "El");

f->parastate = PARA_WANT;

pnode_unlinksub(n);

}

Line 991 pnode_printlist(struct format *f, struct pnode *n)

Line 883 pnode_printlist(struct format *f, struct pnode *n)

struct pnode *nc;

pnode_printtitle(f, n);

f->parastate = PARA_HAVE;

macro_argline(f, "Bl",

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

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

macro_line(f, "It");

f->parastate = PARA_HAVE;

pnode_print(f, nc);

f->parastate = PARA_HAVE;

}

macro_line(f, "El");

f->parastate = PARA_WANT;

pnode_unlinksub(n);

}

Line 1007 pnode_printvariablelist(struct format *f, struct pnode

Line 903 pnode_printvariablelist(struct format *f, struct pnode

struct pnode *nc;

pnode_printtitle(f, n);

f->parastate = PARA_HAVE;

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

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

if (nc->node == NODE_VARLISTENTRY)

Line 1015 pnode_printvariablelist(struct format *f, struct pnode

Line 912 pnode_printvariablelist(struct format *f, struct pnode

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

}

macro_line(f, "El");

f->parastate = PARA_WANT;

pnode_unlinksub(n);

}

Line 1033 pnode_print(struct format *f, struct pnode *n)

Line 931 pnode_print(struct format *f, struct pnode *n)

if (n == NULL)

return;

if (n->flags & NFLAG_LINE &&

(f->nofill || (f->flags & (FMT_ARG | FMT_IMPL)) == 0))

macro_close(f);

was_impl = f->flags & FMT_IMPL;

if (n->spc)

if (n->flags & NFLAG_SPC)

f->flags &= ~FMT_NOSPC;

else

f->flags |= FMT_NOSPC;

Line 1050 pnode_print(struct format *f, struct pnode *n)

Line 952 pnode_print(struct format *f, struct pnode *n)

macro_line(f, "An -split");

break;

case NODE_BLOCKQUOTE:

f->parastate = PARA_HAVE;

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

f->parastate = PARA_HAVE;

break;

case NODE_CITEREFENTRY:

pnode_printciterefentry(f, n);

Line 1086 pnode_print(struct format *f, struct pnode *n)

Line 990 pnode_print(struct format *f, struct pnode *n)

if ((nc = TAILQ_FIRST(&n->childq)) != NULL &&

pnode_class(nc->node) < CLASS_LINE)

macro_open(f, "Em");

if (n->node == NODE_GLOSSTERM)

f->parastate = PARA_HAVE;

break;

case NODE_ENVAR:

macro_open(f, "Ev");

Line 1096 pnode_print(struct format *f, struct pnode *n)

Line 1002 pnode_print(struct format *f, struct pnode *n)

case NODE_FILENAME:

macro_open(f, "Pa");

break;

case NODE_FOOTNOTE:

macro_line(f, "Bo");

f->parastate = PARA_HAVE;

break;

case NODE_FUNCTION:

macro_open(f, "Fn");

break;

Line 1105 pnode_print(struct format *f, struct pnode *n)

Line 1015 pnode_print(struct format *f, struct pnode *n)

case NODE_FUNCSYNOPSISINFO:

macro_open(f, "Fd");

break;

case NODE_IMAGEDATA:

pnode_printimagedata(f, n);

break;

case NODE_INFORMALEQUATION:

f->parastate = PARA_HAVE;

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

f->parastate = PARA_HAVE;

/* FALLTHROUGH */

case NODE_INLINEEQUATION:

macro_line(f, "EQ");

Line 1118 pnode_print(struct format *f, struct pnode *n)

Line 1033 pnode_print(struct format *f, struct pnode *n)

pnode_printgroup(f, n);

break;

case NODE_KEYSYM:

case NODE_PRODUCTNAME:

macro_open(f, "Sy");

break;

case NODE_LINK:

Line 1135 pnode_print(struct format *f, struct pnode *n)

Line 1051 pnode_print(struct format *f, struct pnode *n)

break;

case NODE_LITERALLAYOUT:

macro_close(f);

f->parastate = PARA_HAVE;

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

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

f->parastate = PARA_HAVE;

break;

case NODE_MARKUP:

macro_open(f, "Ic");

Line 1157 pnode_print(struct format *f, struct pnode *n)

Line 1075 pnode_print(struct format *f, struct pnode *n)

case NODE_MML_MSUP:

pnode_printmath(f, n);

break;

case NODE_OLINK:

pnode_printolink(f, n);

break;

case NODE_OPTION:

if ((nc = TAILQ_FIRST(&n->childq)) != NULL &&

pnode_class(nc->node) < CLASS_LINE)

Line 1166 pnode_print(struct format *f, struct pnode *n)

Line 1087 pnode_print(struct format *f, struct pnode *n)

pnode_printlist(f, n);

break;

case NODE_PARA:

pnode_printpara(f, n);

if (f->parastate == PARA_MID)

f->parastate = PARA_WANT;

break;

case NODE_PARAMDEF:

case NODE_PARAMETER:

Line 1176 pnode_print(struct format *f, struct pnode *n)

Line 1098 pnode_print(struct format *f, struct pnode *n)

pnode_unlinksub(n);

break;

case NODE_QUOTE:

if (was_impl)

if ((nc = TAILQ_FIRST(&n->childq)) != NULL &&

nc->node == NODE_FILENAME &&

TAILQ_NEXT(nc, child) == NULL) {

if (n->flags & NFLAG_SPC)

nc->flags |= NFLAG_SPC;

} else if (was_impl)

macro_open(f, "Do");

else {

macro_open(f, "Dq");

Line 1186 pnode_print(struct format *f, struct pnode *n)

Line 1113 pnode_print(struct format *f, struct pnode *n)

case NODE_PROGRAMLISTING:

case NODE_SCREEN:

case NODE_SYNOPSIS:

f->parastate = PARA_HAVE;

macro_line(f, "Bd -literal");

f->parastate = PARA_HAVE;

break;

case NODE_SYSTEMITEM:

pnode_printsystemitem(f, n);

break;

case NODE_REFENTRY:

pnode_printrefentry(f, n);

break;

case NODE_REFNAME:

/* More often, these appear inside NODE_REFNAMEDIV. */

macro_open(f, "Nm");

Line 1207 pnode_print(struct format *f, struct pnode *n)

Line 1133 pnode_print(struct format *f, struct pnode *n)

case NODE_REFSYNOPSISDIV:

pnode_printrefsynopsisdiv(f, n);

break;

case NODE_PREFACE:

case NODE_SECTION:

case NODE_SIMPLESECT:

case NODE_APPENDIX:

case NODE_LEGALNOTICE:

case NODE_NOTE:

case NODE_TIP:

case NODE_CAUTION:

case NODE_WARNING:

pnode_printsection(f, n);

break;

case NODE_REPLACEABLE:

macro_open(f, "Ar");

break;

case NODE_SBR:

macro_line(f, "br");

if (f->parastate == PARA_MID)

macro_line(f, "br");

break;

case NODE_SUBSCRIPT:

if (f->linestate == LINE_MACRO)

Line 1230 pnode_print(struct format *f, struct pnode *n)

Line 1152 pnode_print(struct format *f, struct pnode *n)

else

print_text(f, "_", 0);

if ((nc = TAILQ_FIRST(&n->childq)) != NULL)

nc->spc = 0;

nc->flags &= ~(NFLAG_LINE | NFLAG_SPC);

break;

case NODE_SUPERSCRIPT:

fputs("\\(ha", stdout);

if ((nc = TAILQ_FIRST(&n->childq)) != NULL)

nc->spc = 0;

nc->flags &= ~(NFLAG_LINE | NFLAG_SPC);

break;

case NODE_TEXT:

case NODE_ESCAPE:

Line 1246 pnode_print(struct format *f, struct pnode *n)

Line 1168 pnode_print(struct format *f, struct pnode *n)

break;

case NODE_TITLE:

case NODE_SUBTITLE:

pnode_printpara(f, n);

if (f->parastate == PARA_MID)

f->parastate = PARA_WANT;

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

pnode_unlinksub(n);

break;

Line 1259 pnode_print(struct format *f, struct pnode *n)

Line 1182 pnode_print(struct format *f, struct pnode *n)

case NODE_VARNAME:

macro_open(f, "Va");

break;

case NODE_VOID:

print_text(f, "void", ARG_SPACE);

break;

case NODE_XREF:

pnode_printxref(f, n);

break;

case NODE_CAUTION:

case NODE_LEGALNOTICE:

case NODE_PREFACE:

case NODE_TIP:

case NODE_WARNING:

abort();

default:

break;

}

if (pnode_class(n->node) == CLASS_NOFILL)

f->nofill++;

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

pnode_print(f, nc);

Line 1279 pnode_print(struct format *f, struct pnode *n)

Line 1217 pnode_print(struct format *f, struct pnode *n)

case NODE_TEXT:

/* Accept more arguments to the previous macro. */

return;

case NODE_FOOTNOTE:

f->parastate = PARA_HAVE;

macro_line(f, "Bc");

break;

case NODE_GLOSSTERM:

f->parastate = PARA_HAVE;

break;

case NODE_INFORMALEQUATION:

macro_line(f, "EN");

macro_line(f, "Ed");

Line 1321 pnode_print(struct format *f, struct pnode *n)

Line 1266 pnode_print(struct format *f, struct pnode *n)

break;

fputs(" } ", stdout);

break;

case NODE_PARA:

if (f->parastate == PARA_MID)

f->parastate = PARA_WANT;

break;

case NODE_QUOTE:

if (was_impl) {

if ((nc = TAILQ_FIRST(&n->childq)) != NULL &&

nc->node == NODE_FILENAME &&

TAILQ_NEXT(nc, child) == NULL)

/* nothing */;

else if (was_impl) {

f->flags &= ~FMT_NOSPC;

macro_open(f, "Dc");

} else

f->flags &= ~FMT_IMPL;

break;

case NODE_PREFACE:

case NODE_SECTION:

case NODE_SIMPLESECT:

case NODE_APPENDIX:

case NODE_LEGALNOTICE:

case NODE_NOTE:

case NODE_TIP:

if (n->parent != NULL)

case NODE_CAUTION:

f->level--;

case NODE_WARNING:

f->level--;

break;

case NODE_BLOCKQUOTE:

case NODE_LITERALLAYOUT:

case NODE_PROGRAMLISTING:

case NODE_SCREEN:

case NODE_SYNOPSIS:

f->parastate = PARA_HAVE;

macro_line(f, "Ed");

f->parastate = PARA_WANT;

break;

case NODE_TITLE:

case NODE_SUBTITLE:

f->parastate = PARA_WANT;

break;

case NODE_YEAR:

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

nn->node == NODE_YEAR &&

f->linestate == LINE_TEXT) {

print_text(f, ",", 0);

nn->flags |= NFLAG_SPC;

if ((nc = TAILQ_FIRST(&nn->childq)) != NULL)

nc->flags |= NFLAG_SPC;

}

default:

break;

}

f->flags &= ~FMT_ARG;

if (pnode_class(n->node) == CLASS_NOFILL)

f->nofill--;

}

void

Line 1356 ptree_print_mdoc(struct ptree *tree)

Line 1323 ptree_print_mdoc(struct ptree *tree)

{

struct format formatter;

formatter.level = 0;

formatter.level = formatter.nofill = 0;

formatter.linestate = LINE_NEW;

formatter.parastate = PARA_HAVE;

pnode_printprologue(&formatter, tree->root);

pnode_print(&formatter, tree->root);

if (formatter.linestate != LINE_NEW)

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