pod2mdoc/pod2mdoc.c - diff

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Diff for /pod2mdoc/pod2mdoc.c between version 1.4 and 1.7

version 1.4, 2014/03/20 15:29:57

version 1.7, 2014/03/23 23:35:59

Line 108 static const char fmts[FMT__MAX] = {

'Z' /* FMT_NULL */

};

static int last;

* Given buf[*start] is at the start of an escape name, read til the end

* of the escape ('>') then try to do something with it.

Line 141 formatescape(const char *buf, size_t *start, size_t en

Line 143 formatescape(const char *buf, size_t *start, size_t en

* TODO: right now, we only recognise the named escapes.

* Just let the rest of them go.

if (0 == strcmp(esc, "lt"))

printf("\\(la");

else if (0 == strcmp(esc, "gt"))

printf("\\(ra");

Line 149 formatescape(const char *buf, size_t *start, size_t en

Line 151 formatescape(const char *buf, size_t *start, size_t en

printf("\\(ba");

else if (0 == strcmp(esc, "sol"))

printf("\\(sl");

else

return;

last = 'a';

}

* Skip space characters.

static void

static int

skipspace(const char *buf, size_t *start, size_t end)

{

size_t sv = *start;

while (*start < end && ' ' == buf[*start])

(*start)++;

return(*start > sv);

}

Line 169 skipspace(const char *buf, size_t *start, size_t end)

Line 178 skipspace(const char *buf, size_t *start, size_t end)

* the end of matched production.

* If "reentrant", then we're being called after a macro has already

* been printed to the current line.

* "last" is set to the last read character: this is used to determine

* If "nomacro", then we don't print any macros, just contained data

* whether we should buffer with space or not.

* (e.g., following "Sh" or "Nm").

* If "nomacro", then we don't print any macros, just contained data.

* Return whether we've printed a macro or not--in other words, whether

* this should trigger a subsequent newline (this should be ignored when

* reentrant).

static int

formatcode(const char *buf, size_t *start,

size_t end, int reentrant, int last, int nomacro)

size_t end, int reentrant, int nomacro)

{

enum fmt fmt;

size_t i, j, dsz;

assert(*start + 1 < end);

assert('<' == buf[*start + 1]);

* First, look up the format code.

* If it's not valid, then exit immediately.

for (fmt = 0; fmt < FMT__MAX; fmt++)

if (buf[*start] == fmts[fmt])

break;

/* Invalid macros are just regular text. */

if (FMT__MAX == fmt) {

putchar(buf[*start]);

putchar(last = buf[(*start)++]);

(*start)++;

return(0);

}

*start += 2;

* Determine whether we're overriding our delimiter.

* According to POD, if we have more than one '<' followed by a

* space, then we need a space followed by matching '>' to close

* the expression.

* Otherwise we use the usual '<' and '>' matched pair.

i = *start + 1;

while (i < end && '<' == buf[i])

i++;

assert(i > *start + 1);

dsz = i - (*start + 1);

if (dsz > 1 && (i >= end || ' ' != buf[i]))

dsz = 1;

/* Remember, if dsz>1, to jump the trailing space. */

*start += dsz + 1 + (dsz > 1 ? 1 : 0);

* Escapes don't print macro sequences, so just output them like

* Escapes and ignored codes (NULL and INDEX) don't print macro

* normal text before processing for macros.

* sequences, so just output them like normal text before

* processing for real macros.

if (FMT_ESCAPE == fmt) {

formatescape(buf, start, end);

return(0);

} else if (FMT_NULL == fmt || FMT_INDEX == fmt) {

/* For indices and nulls, just consume. */

while (*start < end && '>' != buf[*start])

* Just consume til the end delimiter, accounting for

(*start)++;

* whether it's a custom one.

if (*start < end)

(*start)++;

for ( ; *start < end; (*start)++) {

if ('>' != buf[*start])

continue;

else if (dsz == 1)

break;

assert(*start > 0);

if (' ' != buf[*start - 1])

continue;

i = *start;

for (j = 0; i < end && j < dsz; j++)

if ('>' != buf[i++])

break;

if (dsz != j)

continue;

(*start) += dsz;

break;

}

return(0);

}

* Check whether we're supposed to print macro stuff (this is

* suppressed in, e.g., "Nm" and "Sh" macros).

if ( ! nomacro) {

* Print out the macro describing this format code.

Line 220 formatcode(const char *buf, size_t *start,

Line 270 formatcode(const char *buf, size_t *start,

* indicator.

* Otherwise, offset us with a space.

if ( ! reentrant && last != '\n')

if ( ! reentrant) {

putchar('\n');

if (last != '\n')

if ( ! reentrant)

putchar('\n');

putchar('.');

else

} else

putchar(' ');

* If we don't have whitespace before us, then suppress

* If we don't have whitespace before us (and none after

* macro whitespace with Ns.

* the opening delimiter), then suppress macro

* whitespace with Pf.

if (' ' != last)

if (' ' != last && '\n' != last && ' ' != buf[*start])

printf("Ns ");

printf("Pf ");

switch (fmt) {

case (FMT_ITALIC):

printf("Em ");

Line 259 formatcode(const char *buf, size_t *start,

Line 311 formatcode(const char *buf, size_t *start,

}

* Read until we reach the end market ('>') or until we find a

* Process until we reach the end marker (e.g., '>') or until we

* nested format code.

* find a nested format code.

* Don't emit any newlines: since we're on a macro line, we

* don't want to break the line.

while (*start < end) {

if ('>' == buf[*start]) {

if ('>' == buf[*start] && 1 == dsz) {

(*start)++;

break;

} else if ('>' == buf[*start] &&

' ' == buf[*start - 1]) {

* Handle custom delimiters.

* These require a certain number of

* space-preceded carrots before we're really at

* the end.

i = *start;

for (j = 0; i < end && j < dsz; j++)

if ('>' != buf[i++])

break;

if (dsz == j) {

*start += dsz;

break;

}

if (*start + 1 < end && '<' == buf[*start + 1]) {

formatcode(buf, start, end, 1, last, nomacro);

formatcode(buf, start, end, 1, nomacro);

continue;

}

Line 290 formatcode(const char *buf, size_t *start,

Line 358 formatcode(const char *buf, size_t *start,

printf("\\&");

/* Suppress newline. */

if ('\n' == (last = buf[(*start)++]))

if ('\n' == buf[*start])

last = ' ';

putchar(last = ' ');

else

putchar(last = buf[*start]);

putchar(last);

(*start)++;

if (' ' == last)

while (*start < end && ' ' == buf[*start])

(*start)++;

}

if ( ! nomacro && FMT_CODE == fmt)

printf(" Qc ");

if (reentrant)

return(1);

* If we're not reentrant, we want to put ending punctuation on

* We're now subsequent the format code.

* the macro line so that it's properly handled by being

* If there isn't a space (or newline) here, and we haven't just

* smooshed against the terminal word.

* printed a space, then suppress space.

skipspace(buf, start, end);

if ( ! nomacro && ' ' != last)

if (',' != buf[*start] && '.' != buf[*start] &&

if (' ' != buf[*start] && '\n' != buf[*start])

'!' != buf[*start] && '?' != buf[*start] &&

printf(" Ns ");

')' != buf[*start])

return(1);

while (*start < end) {

if (',' != buf[*start] &&

'.' != buf[*start] &&

'!' != buf[*start] &&

'?' != buf[*start] &&

')' != buf[*start])

break;

putchar(' ');

putchar(buf[*start]);

(*start)++;

}

skipspace(buf, start, end);

return(1);

}

Line 333 formatcode(const char *buf, size_t *start,

Line 391 formatcode(const char *buf, size_t *start,

static void

formatcodeln(const char *buf, size_t *start, size_t end, int nomacro)

{

int last;

last = ' ';

while (*start < end) {

if (*start + 1 < end && '<' == buf[*start + 1]) {

formatcode(buf, start, end, 1, last, nomacro);

formatcode(buf, start, end, 1, nomacro);

continue;

}

Line 478 command(struct state *st, const char *buf, size_t star

Line 535 command(struct state *st, const char *buf, size_t star

st->lstack[st->lpos - 1] = LIST__MAX;

break;

case (CMD_ITEM):

if (0 == st->lpos) {

* Bad markup.

* Try to compensate.

st->lstack[st->lpos] = LIST__MAX;

st->lpos++;

}

assert(st->lpos > 0);

* If we're the first =item, guess at what our content

Line 559 command(struct state *st, const char *buf, size_t star

Line 624 command(struct state *st, const char *buf, size_t star

static void

verbatim(struct state *st, const char *buf, size_t start, size_t end)

{

size_t sv = start;

if ( ! st->parsing || st->paused)

return;

puts(".Bd -literal");

printf("%.*s\n", (int)(end - start), &buf[start]);

while (start < end) {

if (start > sv && '\n' == buf[start - 1])

if ('.' == buf[start] || '\'' == buf[start])

printf("\\&");

putchar(buf[start++]);

}

putchar('\n');

puts(".Ed");

}

Line 579 verbatim(struct state *st, const char *buf, size_t sta

Line 651 verbatim(struct state *st, const char *buf, size_t sta

static void

ordinary(struct state *st, const char *buf, size_t start, size_t end)

{

int last;

size_t i, j;

if ( ! st->parsing || st->paused)

Line 601 ordinary(struct state *st, const char *buf, size_t sta

Line 672 ordinary(struct state *st, const char *buf, size_t sta

for ( ; i > start; i--)

if ('-' != buf[i])

break;

/* FIXME: escape macro-like words etc. */

printf(".Nm ");

printf(".Nm %.*s\n",

formatcodeln(buf, &start, i + 1, 1);

(int)((i + 1) - start), &buf[start]);

putchar('\n');

printf(".Nd %.*s\n",

start = j + 1;

(int)(end - (j + 1)), &buf[j + 1]);

printf(".Nd ");

formatcodeln(buf, &start, end, 1);

putchar('\n');

return;

}

Line 641 ordinary(struct state *st, const char *buf, size_t sta

Line 714 ordinary(struct state *st, const char *buf, size_t sta

* Then print the (possibly nested) macros and

* following that, a newline.

if (formatcode(buf, &start, end, 0, last, 0))

if (formatcode(buf, &start, end, 0, 0)) {

putchar(last = '\n');

while (start < end && ' ' == buf[start])

start++;

}

} else if (start < end && '\n' == buf[start]) {

* Print the newline only if we haven't already

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