mandoc/macro.c - diff

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Up to [cvsweb.bsd.lv] / mandoc

Diff for /mandoc/Attic/macro.c between version 1.28 and 1.45

version 1.28, 2009/01/08 14:55:59

version 1.45, 2009/01/20 13:05:28

Line 25

#include <time.h>

#endif

* This has scanning/parsing routines, each of which extract a macro and

* its arguments and parameters, then know how to progress to the next

* macro. Macros are parsed according as follows:

* ELEMENT: TEXT | epsilon

* BLOCK: HEAD PUNCT BODY PUNCT BLOCK_TAIL PUNCT

* BLOCK_TAIL: TAIL | epsilon

* HEAD: ELEMENT | TEXT | BLOCK | epsilon

* BODY: ELEMENT | TEXT | BLOCK | epsilon

* TAIL: TEXT | epsilon

* PUNCT: TEXT (delimiters) | epsilon

* These are arranged into a parse tree, an example of which follows:

* ROOT

* BLOCK (.Sh)

* HEAD

* TEXT (`NAME')

* BODY

* ELEMENT (.Nm)

* TEXT (`mdocml')

* ELEMENT (.Nd)

* TEXT (`mdoc macro compiler')

* BLOCK (.Op)

* HEAD

* ELEMENT (.Fl)

* TEXT (`v')

* BLOCK (.Op)

* HEAD

* ELEMENT (.Fl)

* TEXT (`v')

* ELEMENT (.Fl)

* TEXT (`W')

* ELEMENT (.Ns)

* ELEMENT (.Ar)

* TEXT (`err...')

* These types are always per-line except for block bodies, which may

* span multiple lines. Macros are assigned a parsing routine, which

* corresponds to the type, in the mdoc_macros table.

* Note that types are general: there can be several parsing routines

* corresponding to a single type. The macro_text function, for

* example, parses an ELEMENT type (see the function definition for

* details) that may be interrupted by further macros; the

* macro_constant function, on the other hand, parses an ELEMENT type

* spanning a single line.

#include "private.h"

/* FIXME: maxlineargs should be per LINE, no per TOKEN. */

#define REWIND_REWIND (1 << 0)

#define REWIND_NOHALT (1 << 1)

#define REWIND_HALT (1 << 2)

static int rewind_dohalt(int, enum mdoc_type,

const struct mdoc_node *);

static int rewind_alt(int);

static int rewind_dobreak(int, const struct mdoc_node *);

static int rewind_elem(struct mdoc *, int);

static int rewind_impblock(struct mdoc *, int);

static int rewind_impblock(struct mdoc *, int, int, int);

static int rewind_expblock(struct mdoc *, int);

static int rewind_expblock(struct mdoc *, int, int, int);

static int rewind_head(struct mdoc *, int);

static int rewind_subblock(enum mdoc_type,

static int rewind_body(struct mdoc *, int);

struct mdoc *, int, int, int);

static int rewind_last(struct mdoc *, struct mdoc_node *);

static int append_delims(struct mdoc *,

static int append_delims(struct mdoc *, int, int *, char *);

int, int, int *, char *);

static int lookup(struct mdoc *, int, int, int, const char *);

static int lookup(struct mdoc *, int, const char *);

static int

lookup(struct mdoc *mdoc, int from, const char *p)

lookup(struct mdoc *mdoc, int line, int pos, int from, const char *p)

{

int res;

if ( ! (MDOC_PARSED & mdoc_macros[from].flags))

res = mdoc_find(mdoc, p);

return(MDOC_MAX);

if (MDOC_PARSED & mdoc_macros[from].flags)

return(mdoc_find(mdoc, p));

return(res);

if (MDOC_MAX == res)

return(res);

if ( ! mdoc_pwarn(mdoc, line, pos, WARN_SYNTAX, "macro-like parameter"))

return(-1);

return(MDOC_MAX);

}

Line 55 rewind_last(struct mdoc *mdoc, struct mdoc_node *to)

Line 115 rewind_last(struct mdoc *mdoc, struct mdoc_node *to)

{

assert(to);

mdoc->next = MDOC_NEXT_SIBLING;

while (mdoc->last != to) {

if ( ! mdoc_valid_post(mdoc))

return(0);

Line 64 rewind_last(struct mdoc *mdoc, struct mdoc_node *to)

Line 126 rewind_last(struct mdoc *mdoc, struct mdoc_node *to)

assert(mdoc->last);

}

mdoc->next = MDOC_NEXT_SIBLING;

if ( ! mdoc_valid_post(mdoc))

return(0);

return(mdoc_action_post(mdoc));

Line 72 rewind_last(struct mdoc *mdoc, struct mdoc_node *to)

Line 133 rewind_last(struct mdoc *mdoc, struct mdoc_node *to)

static int

rewind_elem(struct mdoc *mdoc, int tok)

rewind_alt(int tok)

{

struct mdoc_node *n;

switch (tok) {

case (MDOC_Ac):

return(MDOC_Ao);

case (MDOC_Bc):

return(MDOC_Bo);

case (MDOC_Dc):

return(MDOC_Do);

case (MDOC_Ec):

return(MDOC_Eo);

case (MDOC_Ed):

return(MDOC_Bd);

case (MDOC_Ef):

return(MDOC_Bf);

case (MDOC_Ek):

return(MDOC_Bk);

case (MDOC_El):

return(MDOC_Bl);

case (MDOC_Fc):

return(MDOC_Fo);

case (MDOC_Oc):

return(MDOC_Oo);

case (MDOC_Pc):

return(MDOC_Po);

case (MDOC_Qc):

return(MDOC_Qo);

case (MDOC_Re):

return(MDOC_Rs);

case (MDOC_Sc):

return(MDOC_So);

case (MDOC_Xc):

return(MDOC_Xo);

default:

break;

}

abort();

/* NOTREACHED */

}

n = mdoc->last;

if (MDOC_ELEM != n->type)

n = n->parent;

assert(MDOC_ELEM == n->type);

assert(tok == n->data.elem.tok);

return(rewind_last(mdoc, n));

static int

rewind_dohalt(int tok, enum mdoc_type type, const struct mdoc_node *p)

{

if (MDOC_ROOT == p->type)

return(REWIND_HALT);

if (MDOC_VALID & p->flags)

return(REWIND_NOHALT);

switch (tok) {

/* One-liner implicit-scope. */

case (MDOC_Aq):

/* FALLTHROUGH */

case (MDOC_Bq):

/* FALLTHROUGH */

case (MDOC_D1):

/* FALLTHROUGH */

case (MDOC_Dl):

/* FALLTHROUGH */

case (MDOC_Dq):

/* FALLTHROUGH */

case (MDOC_Op):

/* FALLTHROUGH */

case (MDOC_Pq):

/* FALLTHROUGH */

case (MDOC_Ql):

/* FALLTHROUGH */

case (MDOC_Qq):

/* FALLTHROUGH */

case (MDOC_Sq):

assert(MDOC_HEAD != type);

assert(MDOC_TAIL != type);

if (type == p->type && tok == p->tok)

return(REWIND_REWIND);

break;

/* Multi-line implicit-scope. */

case (MDOC_It):

assert(MDOC_TAIL != type);

if (type == p->type && tok == p->tok)

return(REWIND_REWIND);

if (MDOC_BODY == p->type && MDOC_Bl == p->tok)

return(REWIND_HALT);

break;

case (MDOC_Sh):

if (type == p->type && tok == p->tok)

return(REWIND_REWIND);

break;

case (MDOC_Ss):

assert(MDOC_TAIL != type);

if (type == p->type && tok == p->tok)

return(REWIND_REWIND);

if (MDOC_BODY == p->type && MDOC_Sh == p->tok)

return(REWIND_HALT);

break;

/* Multi-line explicit scope start. */

case (MDOC_Ao):

/* FALLTHROUGH */

case (MDOC_Bd):

/* FALLTHROUGH */

case (MDOC_Bf):

/* FALLTHROUGH */

case (MDOC_Bk):

/* FALLTHROUGH */

case (MDOC_Bl):

/* FALLTHROUGH */

case (MDOC_Bo):

/* FALLTHROUGH */

case (MDOC_Do):

/* FALLTHROUGH */

case (MDOC_Eo):

/* FALLTHROUGH */

case (MDOC_Fo):

/* FALLTHROUGH */

case (MDOC_Oo):

/* FALLTHROUGH */

case (MDOC_Po):

/* FALLTHROUGH */

case (MDOC_Qo):

/* FALLTHROUGH */

case (MDOC_Rs):

/* FALLTHROUGH */

case (MDOC_So):

/* FALLTHROUGH */

case (MDOC_Xo):

if (type == p->type && tok == p->tok)

return(REWIND_REWIND);

break;

/* Multi-line explicit scope close. */

case (MDOC_Ac):

/* FALLTHROUGH */

case (MDOC_Bc):

/* FALLTHROUGH */

case (MDOC_Dc):

/* FALLTHROUGH */

case (MDOC_Ec):

/* FALLTHROUGH */

case (MDOC_Ed):

/* FALLTHROUGH */

case (MDOC_Ek):

/* FALLTHROUGH */

case (MDOC_El):

/* FALLTHROUGH */

case (MDOC_Fc):

/* FALLTHROUGH */

case (MDOC_Ef):

/* FALLTHROUGH */

case (MDOC_Oc):

/* FALLTHROUGH */

case (MDOC_Pc):

/* FALLTHROUGH */

case (MDOC_Qc):

/* FALLTHROUGH */

case (MDOC_Re):

/* FALLTHROUGH */

case (MDOC_Sc):

/* FALLTHROUGH */

case (MDOC_Xc):

if (type == p->type && rewind_alt(tok) == p->tok)

return(REWIND_REWIND);

break;

default:

abort();

/* NOTREACHED */

}

return(REWIND_NOHALT);

}

static int

rewind_body(struct mdoc *mdoc, int tok)

rewind_dobreak(int tok, const struct mdoc_node *p)

{

struct mdoc_node *n;

int t;

assert(mdoc->last);

assert(MDOC_ROOT != p->type);

if (MDOC_ELEM == p->type)

return(1);

if (MDOC_TEXT == p->type)

return(1);

if (MDOC_VALID & p->flags)

return(1);

/* LINTED */

switch (tok) {

for (n = mdoc->last; n; n = n->parent) {

/* Implicit rules. */

if (MDOC_BODY != n->type)

case (MDOC_It):

continue;

return(MDOC_It == p->tok);

if (tok == (t = n->data.head.tok))

case (MDOC_Ss):

break;

return(MDOC_Ss == p->tok);

if ( ! (MDOC_EXPLICIT & mdoc_macros[t].flags))

case (MDOC_Sh):

continue;

if (MDOC_Ss == p->tok)

return(mdoc_verr(mdoc, n, ERR_SCOPE_BREAK));

return(1);

return(MDOC_Sh == p->tok);

/* Extra scope rules. */

case (MDOC_El):

if (MDOC_It == p->tok)

return(1);

break;

default:

break;

}

assert(n);

if (MDOC_EXPLICIT & mdoc_macros[tok].flags)

return(rewind_last(mdoc, n));

return(p->tok == rewind_alt(tok));

else if (MDOC_BLOCK == p->type)

return(1);

return(tok == p->tok);

}

static int

rewind_head(struct mdoc *mdoc, int tok)

rewind_elem(struct mdoc *mdoc, int tok)

{

struct mdoc_node *n;

int t;

assert(mdoc->last);

n = mdoc->last;

if (MDOC_ELEM != n->type)

n = n->parent;

assert(MDOC_ELEM == n->type);

assert(tok == n->tok);

return(rewind_last(mdoc, n));

}

static int

rewind_subblock(enum mdoc_type type, struct mdoc *mdoc,

int tok, int line, int ppos)

{

struct mdoc_node *n;

int c;

/* LINTED */

for (n = mdoc->last; n; n = n->parent) {

if (MDOC_HEAD != n->type)

c = rewind_dohalt(tok, type, n);

continue;

if (REWIND_HALT == c)

if (tok == (t = n->data.head.tok))

return(1);

if (REWIND_REWIND == c)

break;

if ( ! (MDOC_EXPLICIT & mdoc_macros[t].flags))

else if (rewind_dobreak(tok, n))

continue;

return(mdoc_verr(mdoc, n, ERR_SCOPE_BREAK));

return(mdoc_perr(mdoc, line, ppos, "scope breaks prior %s", mdoc_node2a(n)));

}

assert(n);

Line 135 rewind_head(struct mdoc *mdoc, int tok)

Line 387 rewind_head(struct mdoc *mdoc, int tok)

static int

rewind_expblock(struct mdoc *mdoc, int tok)

rewind_expblock(struct mdoc *mdoc, int tok, int line, int ppos)

{

struct mdoc_node *n;

int t;

int c;

assert(mdoc->last);

/* LINTED */

for (n = mdoc->last; n; n = n->parent) {

if (MDOC_BLOCK != n->type)

c = rewind_dohalt(tok, MDOC_BLOCK, n);

continue;

if (REWIND_HALT == c)

if (tok == (t = n->data.block.tok))

return(mdoc_perr(mdoc, line, ppos, "closing macro has no context"));

if (REWIND_REWIND == c)

break;

if (MDOC_NESTED & mdoc_macros[t].flags)

else if (rewind_dobreak(tok, n))

continue;

return(mdoc_verr(mdoc, n, ERR_SCOPE_BREAK));

return(mdoc_perr(mdoc, line, ppos, "scope breaks prior %s", mdoc_node2a(n)));

}

assert(n);

Line 159 rewind_expblock(struct mdoc *mdoc, int tok)

Line 410 rewind_expblock(struct mdoc *mdoc, int tok)

static int

rewind_impblock(struct mdoc *mdoc, int tok)

rewind_impblock(struct mdoc *mdoc, int tok, int line, int ppos)

{

int t;

struct mdoc_node *n;

int c;

n = mdoc->last ? mdoc->last->parent : NULL;

/* LINTED */

for ( ; n; n = n->parent) {

for (n = mdoc->last; n; n = n->parent) {

if (MDOC_BLOCK != n->type)

c = rewind_dohalt(tok, MDOC_BLOCK, n);

continue;

if (REWIND_HALT == c)

if (tok == (t = n->data.block.tok))

return(1);

else if (REWIND_REWIND == c)

break;

if ( ! (MDOC_EXPLICIT & mdoc_macros[t].flags))

else if (rewind_dobreak(tok, n))

continue;

if (MDOC_NESTED & mdoc_macros[t].flags)

return(mdoc_perr(mdoc, line, ppos, "scope breaks prior %s", mdoc_node2a(n)));

return(1);

return(mdoc_verr(mdoc, n, ERR_SCOPE_BREAK));

}

if (NULL == n)

assert(n);

return(1);

return(rewind_last(mdoc, n));

}

static int

append_delims(struct mdoc *mdoc, int tok,

append_delims(struct mdoc *mdoc, int line, int *pos, char *buf)

int line, int *pos, char *buf)

{

int c, lastarg;

char *p;

Line 212 append_delims(struct mdoc *mdoc, int tok,

Line 458 append_delims(struct mdoc *mdoc, int tok,

}

/* ARGSUSED */

* Close out an explicit scope. This optionally parses a TAIL type with

* a set number of TEXT children.

int

macro_close_explicit(MACRO_PROT_ARGS)

macro_scoped_close(MACRO_PROT_ARGS)

{

int tt, j, c, lastarg, maxargs, flushed;

char *p;

switch (tok) {

case (MDOC_Ac):

tt = MDOC_Ao;

break;

case (MDOC_Bc):

tt = MDOC_Bo;

break;

case (MDOC_Dc):

tt = MDOC_Do;

break;

case (MDOC_Ec):

tt = MDOC_Eo;

break;

case (MDOC_Ed):

tt = MDOC_Bd;

break;

case (MDOC_Ef):

tt = MDOC_Bf;

break;

case (MDOC_Ek):

tt = MDOC_Bk;

break;

case (MDOC_El):

tt = MDOC_Bl;

break;

case (MDOC_Fc):

tt = MDOC_Fo;

break;

case (MDOC_Oc):

tt = MDOC_Oo;

break;

case (MDOC_Pc):

tt = MDOC_Po;

break;

case (MDOC_Qc):

tt = MDOC_Qo;

break;

case (MDOC_Re):

tt = MDOC_Rs;

break;

case (MDOC_Sc):

tt = MDOC_So;

break;

case (MDOC_Xc):

tt = MDOC_Xo;

break;

default:

abort();

/* NOTREACHED */

}

switch (tok) {

case (MDOC_Ec):

maxargs = 1;

break;

default:

Line 279 macro_close_explicit(MACRO_PROT_ARGS)

Line 477 macro_close_explicit(MACRO_PROT_ARGS)

break;

}

tt = rewind_alt(tok);

mdoc_msg(mdoc, "parse: %s closing %s",

mdoc_macronames[tok], mdoc_macronames[tt]);

if ( ! (MDOC_CALLABLE & mdoc_macros[tok].flags)) {

if (buf[*pos])

if (0 == buf[*pos]) {

return(rewind_expblock(mdoc, tt));

if ( ! rewind_subblock(MDOC_BODY, mdoc, tok, line, ppos))

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_EQ0));

return(0);

return(rewind_expblock(mdoc, tok, line, ppos));

}

return(mdoc_perr(mdoc, line, ppos, "macro expects no parameters"));

}

if ( ! rewind_body(mdoc, tt))

if ( ! rewind_subblock(MDOC_BODY, mdoc, tok, line, ppos))

return(0);

lastarg = ppos;

Line 297 macro_close_explicit(MACRO_PROT_ARGS)

Line 503 macro_close_explicit(MACRO_PROT_ARGS)

mdoc->next = MDOC_NEXT_CHILD;

}

for (j = 0; j < MDOC_LINEARG_MAX; j++) {

for (j = 0; /* No sentinel. */; j++) {

lastarg = *pos;

if (j == maxargs && ! flushed) {

if ( ! rewind_expblock(mdoc, tt))

if ( ! rewind_expblock(mdoc, tok, line, ppos))

return(0);

flushed = 1;

}

Line 314 macro_close_explicit(MACRO_PROT_ARGS)

Line 520 macro_close_explicit(MACRO_PROT_ARGS)

if (ARGS_EOLN == c)

break;

if (MDOC_MAX != (c = lookup(mdoc, tok, p))) {

if (-1 == (c = lookup(mdoc, line, lastarg, tok, p)))

return(0);

else if (MDOC_MAX != c) {

if ( ! flushed) {

if ( ! rewind_expblock(mdoc, tt))

if ( ! rewind_expblock(mdoc, tok, line, ppos))

return(0);

flushed = 1;

}

if ( ! mdoc_macro(mdoc, c, line, lastarg, pos, buf))

return(0);

break;

}

if ( ! mdoc_word_alloc(mdoc, line, lastarg, p))

return(0);

mdoc->next = MDOC_NEXT_SIBLING;

}

if (MDOC_LINEARG_MAX == j)

if ( ! flushed && ! rewind_expblock(mdoc, tok, line, ppos))

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

if ( ! flushed && ! rewind_expblock(mdoc, tt))

return(0);

if (ppos > 1)

return(1);

return(append_delims(mdoc, tok, line, pos, buf));

return(append_delims(mdoc, line, pos, buf));

}

* A general text domain macro. When invoked, this opens a scope that

* A general text macro. This is a complex case because of punctuation.

* accepts words until either end-of-line, only-punctuation, or a

* If a text macro is followed by words, then punctuation, the macro is

* callable macro. If the word is punctuation (not only-punctuation),

* "stopped" and "reopened" following the punctuation. Thus, the

* then the scope is closed out, the punctuation appended, then the

* following arises:

* scope opened again. If any terminating conditions are met, the scope

* is closed out. If this is the first macro in the line and

* .Fl a ; b

* only-punctuation remains, this punctuation is flushed.

* ELEMENT (.Fl)

* TEXT (`a')

* TEXT (`;')

* ELEMENT (.Fl)

* TEXT (`b')

* This must handle the following situations:

* .Fl Ar b ; ;

* ELEMENT (.Fl)

* ELEMENT (.Ar)

* TEXT (`b')

* TEXT (`;')

int

macro_text(MACRO_PROT_ARGS)

{

int la, lastpunct, c, sz, fl, argc;

int la, lastpunct, c, w, fl, argc;

struct mdoc_arg argv[MDOC_LINEARG_MAX];

char *p;

Line 363 macro_text(MACRO_PROT_ARGS)

Line 583 macro_text(MACRO_PROT_ARGS)

for (argc = 0; argc < MDOC_LINEARG_MAX; argc++) {

la = *pos;

c = mdoc_argv(mdoc, line, tok, &argv[argc], pos, buf);

if (ARGV_EOLN == c || ARGV_WORD == c)

if (ARGV_EOLN == c)

break;

else if (ARGV_ARG == c)

if (ARGV_WORD == c) {

*pos = la;

break;

} else if (ARGV_ARG == c)

continue;

mdoc_argv_free(argc, argv);

return(0);

}

if (MDOC_LINEARG_MAX == argc) {

mdoc_argv_free(argc, argv);

mdoc_argv_free(argc - 1, argv);

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

return(mdoc_perr(mdoc, line, ppos, "parameter hard-limit exceeded"));

}

c = mdoc_elem_alloc(mdoc, line, la, tok, argc, argv);

c = mdoc_elem_alloc(mdoc, line, ppos, tok, argc, argv);

if (0 == c) {

mdoc_argv_free(argc, argv);

Line 391 macro_text(MACRO_PROT_ARGS)

Line 614 macro_text(MACRO_PROT_ARGS)

if (MDOC_QUOTABLE & mdoc_macros[tok].flags)

fl |= ARGS_QUOTED;

for (lastpunct = sz = 0; sz + argc < MDOC_LINEARG_MAX; sz++) {

lastpunct = 0;

for (;;) {

la = *pos;

w = mdoc_args(mdoc, line, pos, buf, fl, &p);

if (lastpunct) {

if (ARGS_ERROR == w) {

c = mdoc_elem_alloc(mdoc, line,

la, tok, argc, argv);

if (0 == c) {

mdoc_argv_free(argc, argv);

return(0);

}

mdoc->next = MDOC_NEXT_CHILD;

lastpunct = 0;

}

c = mdoc_args(mdoc, line, pos, buf, fl, &p);

if (ARGS_ERROR == c) {

mdoc_argv_free(argc, argv);

return(0);

}

if (ARGS_EOLN == c)

if (ARGS_EOLN == w)

break;

if (ARGS_PUNCT == c)

if (ARGS_PUNCT == w)

break;

if (MDOC_MAX != (c = lookup(mdoc, tok, p))) {

c = ARGS_QWORD == w ? MDOC_MAX :

if ( ! rewind_elem(mdoc, tok)) {

lookup(mdoc, line, la, tok, p);

if (MDOC_MAX != c && -1 != c) {

if (0 == lastpunct && ! rewind_elem(mdoc, tok)) {

mdoc_argv_free(argc, argv);

return(0);

}

mdoc_argv_free(argc, argv);

c = mdoc_macro(mdoc, c, line, la, pos, buf);

if (0 == c)

return(0);

if (ppos > 1)

return(1);

return(append_delims(mdoc, tok, line, pos, buf));

return(append_delims(mdoc, line, pos, buf));

} else if (-1 == c) {

mdoc_argv_free(argc, argv);

return(0);

}

if (mdoc_isdelim(p)) {

if (ARGS_QWORD != w && mdoc_isdelim(p)) {

if ( ! rewind_elem(mdoc, tok)) {

if (0 == lastpunct && ! rewind_elem(mdoc, tok)) {

mdoc_argv_free(argc, argv);

return(0);

}

lastpunct = 1;

} else if (lastpunct) {

c = mdoc_elem_alloc(mdoc, line,

ppos, tok, argc, argv);

if (0 == c) {

mdoc_argv_free(argc, argv);

return(0);

}

mdoc->next = MDOC_NEXT_CHILD;

lastpunct = 0;

}

if ( ! mdoc_word_alloc(mdoc, line, la, p))

return(0);

mdoc->next = MDOC_NEXT_SIBLING;

Line 445 macro_text(MACRO_PROT_ARGS)

Line 672 macro_text(MACRO_PROT_ARGS)

mdoc_argv_free(argc, argv);

if (sz == MDOC_LINEARG_MAX)

if (0 == lastpunct && ! rewind_elem(mdoc, tok))

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

if ( ! rewind_elem(mdoc, tok))

return(0);

if (ppos > 1)

return(1);

return(append_delims(mdoc, tok, line, pos, buf));

return(append_delims(mdoc, line, pos, buf));

}

* Implicit- or explicit-end multi-line scoped macro.

* Handle explicit-scope (having a different closure token) and implicit

* scope (closing out prior scopes when re-invoked) macros. These

* constitute the BLOCK type and usually span multiple lines. These

* always have HEAD and sometimes have BODY types. In the multi-line

* case:

* .Bd -ragged

* Text.

* .Fl macro

* Another.

* .Ed

* BLOCK (.Bd)

* HEAD

* BODY

* TEXT (`Text.')

* ELEMENT (.Fl)

* TEXT (`macro')

* TEXT (`Another.')

* Note that the `.It' macro, possibly the most difficult (as it has

* embedded scope, etc.) is handled by this routine.

int

macro_scoped(MACRO_PROT_ARGS)

{

int c, lastarg, argc, j;

int c, lastarg, argc, fl;

struct mdoc_arg argv[MDOC_LINEARG_MAX];

char *p;

assert ( ! (MDOC_CALLABLE & mdoc_macros[tok].flags));

if ( ! (MDOC_EXPLICIT & mdoc_macros[tok].flags))

if ( ! (MDOC_EXPLICIT & mdoc_macros[tok].flags)) {

if ( ! rewind_impblock(mdoc, tok))

if ( ! rewind_subblock(MDOC_BODY, mdoc, tok, line, ppos))

return(0);

if ( ! rewind_impblock(mdoc, tok, line, ppos))

return(0);

}

for (argc = 0; argc < MDOC_LINEARG_MAX; argc++) {

lastarg = *pos;

c = mdoc_argv(mdoc, line, tok, &argv[argc], pos, buf);

if (ARGV_EOLN == c || ARGV_WORD == c)

if (ARGV_EOLN == c)

break;

else if (ARGV_ARG == c)

if (ARGV_WORD == c) {

*pos = lastarg;

break;

} else if (ARGV_ARG == c)

continue;

mdoc_argv_free(argc, argv);

return(0);

}

if (MDOC_LINEARG_MAX == argc) {

mdoc_argv_free(argc, argv);

mdoc_argv_free(argc - 1, argv);

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

return(mdoc_perr(mdoc, line, ppos, "parameter hard-limit exceeded"));

}

c = mdoc_block_alloc(mdoc, line, ppos,

Line 500 macro_scoped(MACRO_PROT_ARGS)

Line 751 macro_scoped(MACRO_PROT_ARGS)

if (0 == buf[*pos]) {

if ( ! mdoc_head_alloc(mdoc, line, ppos, tok))

return(0);

if ( ! rewind_head(mdoc, tok))

if ( ! rewind_subblock(MDOC_HEAD, mdoc, tok, line, ppos))

return(0);

if ( ! mdoc_body_alloc(mdoc, line, ppos, tok))

return(0);

Line 512 macro_scoped(MACRO_PROT_ARGS)

Line 763 macro_scoped(MACRO_PROT_ARGS)

return(0);

mdoc->next = MDOC_NEXT_CHILD;

for (j = 0; j < MDOC_LINEARG_MAX; j++) {

fl = ARGS_DELIM;

if (MDOC_TABSEP & mdoc_macros[tok].flags)

fl |= ARGS_TABSEP;

for (;;) {

lastarg = *pos;

c = mdoc_args(mdoc, line, pos, buf, ARGS_DELIM, &p);

c = mdoc_args(mdoc, line, pos, buf, fl, &p);

if (ARGS_ERROR == c)

return(0);

Line 523 macro_scoped(MACRO_PROT_ARGS)

Line 778 macro_scoped(MACRO_PROT_ARGS)

if (ARGS_EOLN == c)

break;

if (MDOC_MAX == (c = lookup(mdoc, tok, p))) {

if (-1 == (c = lookup(mdoc, line, lastarg, tok, p)))

return(0);

else if (MDOC_MAX == c) {

if ( ! mdoc_word_alloc(mdoc, line, lastarg, p))

return(0);

mdoc->next = MDOC_NEXT_SIBLING;

continue;

}

if ( ! mdoc_macro(mdoc, c, line, lastarg, pos, buf))

return(0);

break;

}

if (j == MDOC_LINEARG_MAX)

if ( ! rewind_subblock(MDOC_HEAD, mdoc, tok, line, ppos))

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

if ( ! rewind_head(mdoc, tok))

return(0);

if (1 == ppos && ! append_delims(mdoc, tok, line, pos, buf))

if (1 == ppos && ! append_delims(mdoc, line, pos, buf))

return(0);

if ( ! mdoc_body_alloc(mdoc, line, ppos, tok))

Line 552 macro_scoped(MACRO_PROT_ARGS)

Line 806 macro_scoped(MACRO_PROT_ARGS)

* When scoped to a line, a macro encompasses all of the contents. This

* This handles a case of implicitly-scoped macro (BLOCK) limited to a

* differs from constants or text macros, where a new macro will

* single line. Instead of being closed out by a subsequent call to

* terminate the existing context.

* another macro, the scope is closed at the end of line. These don't

* have BODY or TAIL types. Notice that the punctuation falls outside

* of the HEAD type.

* .Qq a Fl b Ar d ; ;

* BLOCK (Qq)

* HEAD

* TEXT (`a')

* ELEMENT (.Fl)

* TEXT (`b')

* ELEMENT (.Ar)

* TEXT (`d')

* TEXT (`;')

int

macro_scoped_line(MACRO_PROT_ARGS)

{

int lastarg, c, j;

int lastarg, c;

char *p;

if ( ! mdoc_block_alloc(mdoc, line, ppos, tok, 0, NULL))

Line 568 macro_scoped_line(MACRO_PROT_ARGS)

Line 836 macro_scoped_line(MACRO_PROT_ARGS)

if ( ! mdoc_head_alloc(mdoc, line, ppos, tok))

return(0);

mdoc->next = MDOC_NEXT_SIBLING;

if ( ! mdoc_body_alloc(mdoc, line, ppos, tok))

return(0);

mdoc->next = MDOC_NEXT_CHILD;

/* XXX - no known argument macros. */

for (lastarg = ppos, j = 0; j < MDOC_LINEARG_MAX; j++) {

lastarg = ppos;

for (;;) {

lastarg = *pos;

c = mdoc_args(mdoc, line, pos, buf, ARGS_DELIM, &p);

Line 583 macro_scoped_line(MACRO_PROT_ARGS)

Line 855 macro_scoped_line(MACRO_PROT_ARGS)

if (ARGS_EOLN == c)

break;

if (MDOC_MAX == (c = lookup(mdoc, tok, p))) {

if (-1 == (c = lookup(mdoc, line, lastarg, tok, p)))

return(0);

else if (MDOC_MAX == c) {

if ( ! mdoc_word_alloc(mdoc, line, lastarg, p))

return(0);

mdoc->next = MDOC_NEXT_SIBLING;

continue;

}

if ( ! mdoc_macro(mdoc, c, line, lastarg, pos, buf))

return(0);

break;

}

if (j == MDOC_LINEARG_MAX)

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

if (1 == ppos) {

if ( ! rewind_head(mdoc, tok))

if ( ! rewind_subblock(MDOC_BODY, mdoc, tok, line, ppos))

return(0);

if ( ! append_delims(mdoc, tok, line, pos, buf))

if ( ! append_delims(mdoc, line, pos, buf))

return(0);

}

} else if ( ! rewind_subblock(MDOC_BODY, mdoc, tok, line, ppos))

return(rewind_impblock(mdoc, tok));

return(0);

return(rewind_impblock(mdoc, tok, line, ppos));

}

* Constant-scope macros accept a fixed number of arguments and behave

* A constant-scoped macro is like a simple-scoped macro (mdoc_scoped)

* like constant macros except that they're scoped across lines.

* except that it doesn't handle implicit scopes and explicit ones have

* a fixed number of TEXT children to the BODY.

* .Fl a So b Sc ;

* ELEMENT (.Fl)

* TEXT (`a')

* BLOCK (.So)

* HEAD

* BODY

* TEXT (`b')

* TEXT (';')

int

macro_constant_scoped(MACRO_PROT_ARGS)

Line 637 macro_constant_scoped(MACRO_PROT_ARGS)

Line 920 macro_constant_scoped(MACRO_PROT_ARGS)

if (0 == maxargs) {

if ( ! mdoc_head_alloc(mdoc, line, ppos, tok))

return(0);

if ( ! rewind_head(mdoc, tok))

if ( ! rewind_subblock(MDOC_HEAD, mdoc, tok, line, ppos))

return(0);

if ( ! mdoc_body_alloc(mdoc, line, ppos, tok))

return(0);

Line 647 macro_constant_scoped(MACRO_PROT_ARGS)

Line 930 macro_constant_scoped(MACRO_PROT_ARGS)

mdoc->next = MDOC_NEXT_CHILD;

for (j = 0; j < MDOC_LINEARG_MAX; j++) {

for (j = 0; /* No sentinel. */; j++) {

lastarg = *pos;

if (j == maxargs && ! flushed) {

if ( ! rewind_head(mdoc, tok))

if ( ! rewind_subblock(MDOC_HEAD, mdoc, tok, line, ppos))

return(0);

flushed = 1;

if ( ! mdoc_body_alloc(mdoc, line, ppos, tok))

Line 667 macro_constant_scoped(MACRO_PROT_ARGS)

Line 950 macro_constant_scoped(MACRO_PROT_ARGS)

if (ARGS_EOLN == c)

break;

if (MDOC_MAX != (c = lookup(mdoc, tok, p))) {

if (-1 == (c = lookup(mdoc, line, lastarg, tok, p)))

return(0);

else if (MDOC_MAX != c) {

if ( ! flushed) {

if ( ! rewind_head(mdoc, tok))

if ( ! rewind_subblock(MDOC_HEAD, mdoc, tok, line, ppos))

return(0);

flushed = 1;

if ( ! mdoc_body_alloc(mdoc, line, ppos, tok))

Line 682 macro_constant_scoped(MACRO_PROT_ARGS)

Line 967 macro_constant_scoped(MACRO_PROT_ARGS)

}

if ( ! flushed && mdoc_isdelim(p)) {

if ( ! rewind_head(mdoc, tok))

if ( ! rewind_subblock(MDOC_HEAD, mdoc, tok, line, ppos))

return(0);

flushed = 1;

if ( ! mdoc_body_alloc(mdoc, line, ppos, tok))

Line 695 macro_constant_scoped(MACRO_PROT_ARGS)

Line 980 macro_constant_scoped(MACRO_PROT_ARGS)

mdoc->next = MDOC_NEXT_SIBLING;

}

if (MDOC_LINEARG_MAX == j)

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

if ( ! flushed) {

if ( ! rewind_head(mdoc, tok))

if ( ! rewind_subblock(MDOC_HEAD, mdoc, tok, line, ppos))

return(0);

if ( ! mdoc_body_alloc(mdoc, line, ppos, tok))

return(0);

Line 708 macro_constant_scoped(MACRO_PROT_ARGS)

Line 990 macro_constant_scoped(MACRO_PROT_ARGS)

if (ppos > 1)

return(1);

return(append_delims(mdoc, tok, line, pos, buf));

return(append_delims(mdoc, line, pos, buf));

}

* Delimited macros are like text macros except that, should punctuation

* A delimited constant is very similar to the macros parsed by

* be encountered, the macro isn't re-started with remaining tokens

* macro_text except that, in the event of punctuation, the macro isn't

* (it's only emitted once). Delimited macros can have a maximum number

* "re-opened" as it is in macro_text. Also, these macros have a fixed

* of arguments.

* number of parameters.

* .Fl a No b

* ELEMENT (.Fl)

* TEXT (`a')

* ELEMENT (.No)

* TEXT (`b')

int

macro_constant_delimited(MACRO_PROT_ARGS)

Line 733 macro_constant_delimited(MACRO_PROT_ARGS)

Line 1022 macro_constant_delimited(MACRO_PROT_ARGS)

/* FALLTHROUGH */

case (MDOC_Ns):

/* FALLTHROUGH */

case (MDOC_Pf):

/* FALLTHROUGH */

case (MDOC_Ux):

/* FALLTHROUGH */

case (MDOC_St):

Line 746 macro_constant_delimited(MACRO_PROT_ARGS)

Line 1037 macro_constant_delimited(MACRO_PROT_ARGS)

for (argc = 0; argc < MDOC_LINEARG_MAX; argc++) {

lastarg = *pos;

c = mdoc_argv(mdoc, line, tok, &argv[argc], pos, buf);

if (ARGV_EOLN == c || ARGV_WORD == c)

if (ARGV_EOLN == c)

break;

else if (ARGV_ARG == c)

if (ARGV_WORD == c) {

*pos = lastarg;

break;

} else if (ARGV_ARG == c)

continue;

mdoc_argv_free(argc, argv);

return(0);

}

c = mdoc_elem_alloc(mdoc, line, lastarg, tok, argc, argv);

if (MDOC_LINEARG_MAX == argc) {

mdoc_argv_free(argc - 1, argv);

return(mdoc_perr(mdoc, line, ppos, "parameter hard-limit exceeded"));

}

c = mdoc_elem_alloc(mdoc, line, ppos, tok, argc, argv);

mdoc_argv_free(argc, argv);

if (0 == c)

Line 762 macro_constant_delimited(MACRO_PROT_ARGS)

Line 1061 macro_constant_delimited(MACRO_PROT_ARGS)

mdoc->next = MDOC_NEXT_CHILD;

for (j = 0; j < MDOC_LINEARG_MAX; j++) {

for (j = 0; /* No sentinel. */; j++) {

lastarg = *pos;

if (j == maxargs && ! flushed) {

Line 779 macro_constant_delimited(MACRO_PROT_ARGS)

Line 1078 macro_constant_delimited(MACRO_PROT_ARGS)

if (ARGS_EOLN == c)

break;

if (MDOC_MAX != (c = lookup(mdoc, tok, p))) {

if (-1 == (c = lookup(mdoc, line, lastarg, tok, p)))

return(0);

else if (MDOC_MAX != c) {

if ( ! flushed && ! rewind_elem(mdoc, tok))

return(0);

flushed = 1;

Line 799 macro_constant_delimited(MACRO_PROT_ARGS)

Line 1100 macro_constant_delimited(MACRO_PROT_ARGS)

mdoc->next = MDOC_NEXT_SIBLING;

}

if (MDOC_LINEARG_MAX == j)

if ( ! flushed && ! rewind_elem(mdoc, tok))

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

if ( ! flushed && rewind_elem(mdoc, tok))

return(0);

if (ppos > 1)

return(1);

return(append_delims(mdoc, tok, line, pos, buf));

return(append_delims(mdoc, line, pos, buf));

}

* Constant macros span an entire line: they constitute a macro and all

* A constant macro is the simplest classification. It spans an entire

* of its arguments and child data.

* line.

int

macro_constant(MACRO_PROT_ARGS)

{

int c, lastarg, argc, sz, fl;

int c, w, la, argc, fl;

struct mdoc_arg argv[MDOC_LINEARG_MAX];

char *p;

/* FIXME: parsing macros! */

assert( ! (MDOC_CALLABLE & mdoc_macros[tok].flags));

fl = 0;

if (MDOC_QUOTABLE & mdoc_macros[tok].flags)

fl = ARGS_QUOTED;

for (argc = 0; argc < MDOC_LINEARG_MAX; argc++) {

lastarg = *pos;

la = *pos;

c = mdoc_argv(mdoc, line, tok, &argv[argc], pos, buf);

if (ARGV_EOLN == c)

break;

else if (ARGV_ARG == c)

if (ARGV_WORD == c) {

continue;

*pos = la;

else if (ARGV_WORD == c)

break;

} else if (ARGV_ARG == c)

continue;

mdoc_argv_free(argc, argv);

return(0);

}

if (MDOC_LINEARG_MAX == argc) {

mdoc_argv_free(argc - 1, argv);

return(mdoc_perr(mdoc, line, ppos, "parameter hard-limit exceeded"));

}

c = mdoc_elem_alloc(mdoc, line, ppos, tok, argc, argv);

mdoc_argv_free(argc, argv);

Line 850 macro_constant(MACRO_PROT_ARGS)

Line 1150 macro_constant(MACRO_PROT_ARGS)

mdoc->next = MDOC_NEXT_CHILD;

if (MDOC_LINEARG_MAX == argc)

fl = 0;

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

if (MDOC_QUOTABLE & mdoc_macros[tok].flags)

fl = ARGS_QUOTED;

for (sz = 0; sz + argc < MDOC_LINEARG_MAX; sz++) {

for (;;) {

lastarg = *pos;

la = *pos;

c = mdoc_args(mdoc, line, pos, buf, fl, &p);

w = mdoc_args(mdoc, line, pos, buf, fl, &p);

if (ARGS_ERROR == c)

if (ARGS_ERROR == w)

return(0);

if (ARGS_EOLN == c)

if (ARGS_EOLN == w)

break;

if ( ! mdoc_word_alloc(mdoc, line, lastarg, p))

c = ARGS_QWORD == w ? MDOC_MAX :

lookup(mdoc, line, la, tok, p);

if (MDOC_MAX != c && -1 != c) {

if ( ! rewind_elem(mdoc, tok))

return(0);

return(mdoc_macro(mdoc, c, line, la, pos, buf));

} else if (-1 == c)

return(0);

if ( ! mdoc_word_alloc(mdoc, line, la, p))

return(0);

mdoc->next = MDOC_NEXT_SIBLING;

}

if (MDOC_LINEARG_MAX == sz + argc)

return(mdoc_perr(mdoc, line, ppos, ERR_ARGS_MANY));

return(rewind_elem(mdoc, tok));

}

Line 878 int

Line 1186 int

macro_obsolete(MACRO_PROT_ARGS)

{

return(mdoc_pwarn(mdoc, line, ppos, WARN_IGN_OBSOLETE));

return(mdoc_pwarn(mdoc, line, ppos, WARN_SYNTAX, "macro is obsolete"));

}

* This is called at the end of parsing. It must traverse up the tree,

* closing out open [implicit] scopes. Obviously, open explicit scopes

* are errors.

int

macro_end(struct mdoc *mdoc)

{

struct mdoc_node *n;

assert(mdoc->first);

assert(mdoc->last);

/* Scan for open explicit scopes. */

n = MDOC_VALID & mdoc->last->flags ?

mdoc->last->parent : mdoc->last;

for ( ; n; n = n->parent) {

if (MDOC_BLOCK != n->type)

continue;

if ( ! (MDOC_EXPLICIT & mdoc_macros[n->tok].flags))

continue;

mdoc_nerr(mdoc, n, "macro scope still open on exit");

return(0);

}

return(rewind_last(mdoc, mdoc->first));

}

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