/* $Id: mdoc_macro.c,v 1.94 2014/07/07 21:35:42 schwarze Exp $ */ /* * Copyright (c) 2008-2012 Kristaps Dzonsons * Copyright (c) 2010, 2012, 2013 Ingo Schwarze * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include "mdoc.h" #include "mandoc.h" #include "libmdoc.h" #include "libmandoc.h" enum rew { /* see rew_dohalt() */ REWIND_NONE, REWIND_THIS, REWIND_MORE, REWIND_FORCE, REWIND_LATER, REWIND_ERROR }; static int blk_full(MACRO_PROT_ARGS); static int blk_exp_close(MACRO_PROT_ARGS); static int blk_part_exp(MACRO_PROT_ARGS); static int blk_part_imp(MACRO_PROT_ARGS); static int ctx_synopsis(MACRO_PROT_ARGS); static int in_line_eoln(MACRO_PROT_ARGS); static int in_line_argn(MACRO_PROT_ARGS); static int in_line(MACRO_PROT_ARGS); static int phrase_ta(MACRO_PROT_ARGS); static int dword(struct mdoc *, int, int, const char *, enum mdelim, int); static int append_delims(struct mdoc *, int, int *, char *); static enum mdoct lookup(enum mdoct, const char *); static enum mdoct lookup_raw(const char *); static int make_pending(struct mdoc_node *, enum mdoct, struct mdoc *, int, int); static int phrase(struct mdoc *, int, int, char *); static enum mdoct rew_alt(enum mdoct); static enum rew rew_dohalt(enum mdoct, enum mdoc_type, const struct mdoc_node *); static int rew_elem(struct mdoc *, enum mdoct); static int rew_last(struct mdoc *, const struct mdoc_node *); static int rew_sub(enum mdoc_type, struct mdoc *, enum mdoct, int, int); const struct mdoc_macro __mdoc_macros[MDOC_MAX] = { { in_line_argn, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Ap */ { in_line_eoln, MDOC_PROLOGUE }, /* Dd */ { in_line_eoln, MDOC_PROLOGUE }, /* Dt */ { in_line_eoln, MDOC_PROLOGUE }, /* Os */ { blk_full, MDOC_PARSED | MDOC_JOIN }, /* Sh */ { blk_full, MDOC_PARSED | MDOC_JOIN }, /* Ss */ { in_line_eoln, 0 }, /* Pp */ { blk_part_imp, MDOC_PARSED | MDOC_JOIN }, /* D1 */ { blk_part_imp, MDOC_PARSED | MDOC_JOIN }, /* Dl */ { blk_full, MDOC_EXPLICIT }, /* Bd */ { blk_exp_close, MDOC_EXPLICIT | MDOC_JOIN }, /* Ed */ { blk_full, MDOC_EXPLICIT }, /* Bl */ { blk_exp_close, MDOC_EXPLICIT | MDOC_JOIN }, /* El */ { blk_full, MDOC_PARSED | MDOC_JOIN }, /* It */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Ad */ { in_line, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* An */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Ar */ { in_line, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Cd */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Cm */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Dv */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Er */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Ev */ { in_line_eoln, 0 }, /* Ex */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Fa */ { in_line_eoln, 0 }, /* Fd */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Fl */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Fn */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Ft */ { in_line, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Ic */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* In */ { in_line, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Li */ { blk_full, MDOC_JOIN }, /* Nd */ { ctx_synopsis, MDOC_CALLABLE | MDOC_PARSED }, /* Nm */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED }, /* Op */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Ot */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Pa */ { in_line_eoln, 0 }, /* Rv */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* St */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Va */ { ctx_synopsis, MDOC_CALLABLE | MDOC_PARSED }, /* Vt */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* Xr */ { in_line_eoln, MDOC_JOIN }, /* %A */ { in_line_eoln, MDOC_JOIN }, /* %B */ { in_line_eoln, MDOC_JOIN }, /* %D */ { in_line_eoln, MDOC_JOIN }, /* %I */ { in_line_eoln, MDOC_JOIN }, /* %J */ { in_line_eoln, 0 }, /* %N */ { in_line_eoln, MDOC_JOIN }, /* %O */ { in_line_eoln, 0 }, /* %P */ { in_line_eoln, MDOC_JOIN }, /* %R */ { in_line_eoln, MDOC_JOIN }, /* %T */ { in_line_eoln, 0 }, /* %V */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Ac */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Ao */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Aq */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* At */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Bc */ { blk_full, MDOC_EXPLICIT }, /* Bf */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Bo */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Bq */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* Bsx */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* Bx */ { in_line_eoln, 0 }, /* Db */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Dc */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Do */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Dq */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT }, /* Ec */ { blk_exp_close, MDOC_EXPLICIT | MDOC_JOIN }, /* Ef */ { in_line, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Em */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT }, /* Eo */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* Fx */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Ms */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED | MDOC_IGNDELIM | MDOC_JOIN }, /* No */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED | MDOC_IGNDELIM | MDOC_JOIN }, /* Ns */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* Nx */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* Ox */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Pc */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED | MDOC_IGNDELIM }, /* Pf */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Po */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Pq */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Qc */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Ql */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Qo */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Qq */ { blk_exp_close, MDOC_EXPLICIT | MDOC_JOIN }, /* Re */ { blk_full, MDOC_EXPLICIT }, /* Rs */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Sc */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* So */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Sq */ { in_line_eoln, 0 }, /* Sm */ { in_line, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Sx */ { in_line, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Sy */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Tn */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Ux */ { blk_exp_close, MDOC_EXPLICIT | MDOC_CALLABLE | MDOC_PARSED }, /* Xc */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT }, /* Xo */ { blk_full, MDOC_EXPLICIT | MDOC_CALLABLE }, /* Fo */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Fc */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Oo */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Oc */ { blk_full, MDOC_EXPLICIT }, /* Bk */ { blk_exp_close, MDOC_EXPLICIT | MDOC_JOIN }, /* Ek */ { in_line_eoln, 0 }, /* Bt */ { in_line_eoln, 0 }, /* Hf */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Fr */ { in_line_eoln, 0 }, /* Ud */ { in_line, 0 }, /* Lb */ { in_line_eoln, 0 }, /* Lp */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Lk */ { in_line, MDOC_CALLABLE | MDOC_PARSED }, /* Mt */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Brq */ { blk_part_exp, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Bro */ { blk_exp_close, MDOC_CALLABLE | MDOC_PARSED | MDOC_EXPLICIT | MDOC_JOIN }, /* Brc */ { in_line_eoln, MDOC_JOIN }, /* %C */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* Es */ { blk_part_imp, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* En */ { in_line_argn, MDOC_CALLABLE | MDOC_PARSED }, /* Dx */ { in_line_eoln, MDOC_JOIN }, /* %Q */ { in_line_eoln, 0 }, /* br */ { in_line_eoln, 0 }, /* sp */ { in_line_eoln, 0 }, /* %U */ { phrase_ta, MDOC_CALLABLE | MDOC_PARSED | MDOC_JOIN }, /* Ta */ { in_line_eoln, 0 }, /* ll */ }; const struct mdoc_macro * const mdoc_macros = __mdoc_macros; /* * 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 mdoc_macroend(struct mdoc *mdoc) { struct mdoc_node *n; /* 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 && MDOC_EXPLICIT & mdoc_macros[n->tok].flags) mandoc_msg(MANDOCERR_BLK_NOEND, mdoc->parse, n->line, n->pos, mdoc_macronames[n->tok]); /* Rewind to the first. */ return(rew_last(mdoc, mdoc->first)); } /* * Look up a macro from within a subsequent context. */ static enum mdoct lookup(enum mdoct from, const char *p) { if ( ! (MDOC_PARSED & mdoc_macros[from].flags)) return(MDOC_MAX); return(lookup_raw(p)); } /* * Lookup a macro following the initial line macro. */ static enum mdoct lookup_raw(const char *p) { enum mdoct res; if (MDOC_MAX == (res = mdoc_hash_find(p))) return(MDOC_MAX); if (MDOC_CALLABLE & mdoc_macros[res].flags) return(res); return(MDOC_MAX); } static int rew_last(struct mdoc *mdoc, const struct mdoc_node *to) { struct mdoc_node *n, *np; assert(to); mdoc->next = MDOC_NEXT_SIBLING; while (mdoc->last != to) { /* * Save the parent here, because we may delete the * mdoc->last node in the post-validation phase and reset * it to mdoc->last->parent, causing a step in the closing * out to be lost. */ np = mdoc->last->parent; if ( ! mdoc_valid_post(mdoc)) return(0); n = mdoc->last; mdoc->last = np; assert(mdoc->last); mdoc->last->last = n; } return(mdoc_valid_post(mdoc)); } /* * For a block closing macro, return the corresponding opening one. * Otherwise, return the macro itself. */ static enum mdoct rew_alt(enum mdoct tok) { switch (tok) { case MDOC_Ac: return(MDOC_Ao); case MDOC_Bc: return(MDOC_Bo); case MDOC_Brc: return(MDOC_Bro); 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: return(tok); } /* NOTREACHED */ } /* * Rewinding to tok, how do we have to handle *p? * REWIND_NONE: *p would delimit tok, but no tok scope is open * inside *p, so there is no need to rewind anything at all. * REWIND_THIS: *p matches tok, so rewind *p and nothing else. * REWIND_MORE: *p is implicit, rewind it and keep searching for tok. * REWIND_FORCE: *p is explicit, but tok is full, force rewinding *p. * REWIND_LATER: *p is explicit and still open, postpone rewinding. * REWIND_ERROR: No tok block is open at all. */ static enum rew rew_dohalt(enum mdoct tok, enum mdoc_type type, const struct mdoc_node *p) { /* * No matching token, no delimiting block, no broken block. * This can happen when full implicit macros are called for * the first time but try to rewind their previous * instance anyway. */ if (MDOC_ROOT == p->type) return(MDOC_BLOCK == type && MDOC_EXPLICIT & mdoc_macros[tok].flags ? REWIND_ERROR : REWIND_NONE); /* * When starting to rewind, skip plain text * and nodes that have already been rewound. */ if (MDOC_TEXT == p->type || MDOC_VALID & p->flags) return(REWIND_MORE); /* * The easiest case: Found a matching token. * This applies to both blocks and elements. */ tok = rew_alt(tok); if (tok == p->tok) return(p->end ? REWIND_NONE : type == p->type ? REWIND_THIS : REWIND_MORE); /* * While elements do require rewinding for themselves, * they never affect rewinding of other nodes. */ if (MDOC_ELEM == p->type) return(REWIND_MORE); /* * Blocks delimited by our target token get REWIND_MORE. * Blocks delimiting our target token get REWIND_NONE. */ switch (tok) { case MDOC_Bl: if (MDOC_It == p->tok) return(REWIND_MORE); break; case MDOC_It: if (MDOC_BODY == p->type && MDOC_Bl == p->tok) return(REWIND_NONE); break; /* * XXX Badly nested block handling still fails badly * when one block is breaking two blocks of the same type. * This is an incomplete and extremely ugly workaround, * required to let the OpenBSD tree build. */ case MDOC_Oo: if (MDOC_Op == p->tok) return(REWIND_MORE); break; case MDOC_Nm: return(REWIND_NONE); case MDOC_Nd: /* FALLTHROUGH */ case MDOC_Ss: if (MDOC_BODY == p->type && MDOC_Sh == p->tok) return(REWIND_NONE); /* FALLTHROUGH */ case MDOC_Sh: if (MDOC_Nd == p->tok || MDOC_Ss == p->tok || MDOC_Sh == p->tok) return(REWIND_MORE); break; default: break; } /* * Default block rewinding rules. * In particular, always skip block end markers, * and let all blocks rewind Nm children. */ if (ENDBODY_NOT != p->end || MDOC_Nm == p->tok || (MDOC_BLOCK == p->type && ! (MDOC_EXPLICIT & mdoc_macros[tok].flags))) return(REWIND_MORE); /* * By default, closing out full blocks * forces closing of broken explicit blocks, * while closing out partial blocks * allows delayed rewinding by default. */ return (&blk_full == mdoc_macros[tok].fp ? REWIND_FORCE : REWIND_LATER); } static int rew_elem(struct mdoc *mdoc, enum mdoct tok) { struct mdoc_node *n; n = mdoc->last; if (MDOC_ELEM != n->type) n = n->parent; assert(MDOC_ELEM == n->type); assert(tok == n->tok); return(rew_last(mdoc, n)); } /* * We are trying to close a block identified by tok, * but the child block *broken is still open. * Thus, postpone closing the tok block * until the rew_sub call closing *broken. */ static int make_pending(struct mdoc_node *broken, enum mdoct tok, struct mdoc *mdoc, int line, int ppos) { struct mdoc_node *breaker; /* * Iterate backwards, searching for the block matching tok, * that is, the block breaking the *broken block. */ for (breaker = broken->parent; breaker; breaker = breaker->parent) { /* * If the *broken block had already been broken before * and we encounter its breaker, make the tok block * pending on the inner breaker. * Graphically, "[A breaker=[B broken=[C->B B] tok=A] C]" * becomes "[A broken=[B [C->B B] tok=A] C]" * and finally "[A [B->A [C->B B] A] C]". */ if (breaker == broken->pending) { broken = breaker; continue; } if (REWIND_THIS != rew_dohalt(tok, MDOC_BLOCK, breaker)) continue; if (MDOC_BODY == broken->type) broken = broken->parent; /* * Found the breaker. * If another, outer breaker is already pending on * the *broken block, we must not clobber the link * to the outer breaker, but make it pending on the * new, now inner breaker. * Graphically, "[A breaker=[B broken=[C->A A] tok=B] C]" * becomes "[A breaker=[B->A broken=[C A] tok=B] C]" * and finally "[A [B->A [C->B A] B] C]". */ if (broken->pending) { struct mdoc_node *taker; /* * If the breaker had also been broken before, * it cannot take on the outer breaker itself, * but must hand it on to its own breakers. * Graphically, this is the following situation: * "[A [B breaker=[C->B B] broken=[D->A A] tok=C] D]" * "[A taker=[B->A breaker=[C->B B] [D->C A] C] D]" */ taker = breaker; while (taker->pending) taker = taker->pending; taker->pending = broken->pending; } broken->pending = breaker; mandoc_vmsg(MANDOCERR_BLK_NEST, mdoc->parse, line, ppos, "%s breaks %s", mdoc_macronames[tok], mdoc_macronames[broken->tok]); return(1); } /* * Found no matching block for tok. * Are you trying to close a block that is not open? */ return(0); } static int rew_sub(enum mdoc_type t, struct mdoc *mdoc, enum mdoct tok, int line, int ppos) { struct mdoc_node *n; n = mdoc->last; while (n) { switch (rew_dohalt(tok, t, n)) { case REWIND_NONE: return(1); case REWIND_THIS: n->lastline = line - (MDOC_NEWLINE & mdoc->flags && ! (MDOC_EXPLICIT & mdoc_macros[tok].flags)); break; case REWIND_FORCE: mandoc_vmsg(MANDOCERR_BLK_BROKEN, mdoc->parse, line, ppos, "%s breaks %s", mdoc_macronames[tok], mdoc_macronames[n->tok]); /* FALLTHROUGH */ case REWIND_MORE: n->lastline = line - (MDOC_NEWLINE & mdoc->flags ? 1 : 0); n = n->parent; continue; case REWIND_LATER: if (make_pending(n, tok, mdoc, line, ppos) || MDOC_BLOCK != t) return(1); /* FALLTHROUGH */ case REWIND_ERROR: mandoc_msg(MANDOCERR_BLK_NOTOPEN, mdoc->parse, line, ppos, mdoc_macronames[tok]); return(1); } break; } assert(n); if ( ! rew_last(mdoc, n)) return(0); /* * The current block extends an enclosing block. * Now that the current block ends, close the enclosing block, too. */ while (NULL != (n = n->pending)) { if ( ! rew_last(mdoc, n)) return(0); if (MDOC_HEAD == n->type && ! mdoc_body_alloc(mdoc, n->line, n->pos, n->tok)) return(0); } return(1); } /* * Allocate a word and check whether it's punctuation or not. * Punctuation consists of those tokens found in mdoc_isdelim(). */ static int dword(struct mdoc *mdoc, int line, int col, const char *p, enum mdelim d, int may_append) { if (DELIM_MAX == d) d = mdoc_isdelim(p); if (may_append && ! ((MDOC_SYNOPSIS | MDOC_KEEP | MDOC_SMOFF) & mdoc->flags) && DELIM_NONE == d && MDOC_TEXT == mdoc->last->type && DELIM_NONE == mdoc_isdelim(mdoc->last->string)) { mdoc_word_append(mdoc, p); return(1); } if ( ! mdoc_word_alloc(mdoc, line, col, p)) return(0); if (DELIM_OPEN == d) mdoc->last->flags |= MDOC_DELIMO; /* * Closing delimiters only suppress the preceding space * when they follow something, not when they start a new * block or element, and not when they follow `No'. * * XXX Explicitly special-casing MDOC_No here feels * like a layering violation. Find a better way * and solve this in the code related to `No'! */ else if (DELIM_CLOSE == d && mdoc->last->prev && mdoc->last->prev->tok != MDOC_No && mdoc->last->parent->tok != MDOC_Fd) mdoc->last->flags |= MDOC_DELIMC; return(1); } static int append_delims(struct mdoc *mdoc, int line, int *pos, char *buf) { int la; enum margserr ac; char *p; if ('\0' == buf[*pos]) return(1); for (;;) { la = *pos; ac = mdoc_zargs(mdoc, line, pos, buf, &p); if (ARGS_ERROR == ac) return(0); else if (ARGS_EOLN == ac) break; dword(mdoc, line, la, p, DELIM_MAX, 1); /* * If we encounter end-of-sentence symbols, then trigger * the double-space. * * XXX: it's easy to allow this to propagate outward to * the last symbol, such that `. )' will cause the * correct double-spacing. However, (1) groff isn't * smart enough to do this and (2) it would require * knowing which symbols break this behaviour, for * example, `. ;' shouldn't propagate the double-space. */ if (mandoc_eos(p, strlen(p))) mdoc->last->flags |= MDOC_EOS; } return(1); } /* * Close out block partial/full explicit. */ static int blk_exp_close(MACRO_PROT_ARGS) { struct mdoc_node *body; /* Our own body. */ struct mdoc_node *later; /* A sub-block starting later. */ struct mdoc_node *n; /* For searching backwards. */ int j, lastarg, maxargs, flushed, nl; enum margserr ac; enum mdoct atok, ntok; char *p; nl = MDOC_NEWLINE & mdoc->flags; switch (tok) { case MDOC_Ec: maxargs = 1; break; case MDOC_Ek: mdoc->flags &= ~MDOC_KEEP; default: maxargs = 0; break; } /* * Search backwards for beginnings of blocks, * both of our own and of pending sub-blocks. */ atok = rew_alt(tok); body = later = NULL; for (n = mdoc->last; n; n = n->parent) { if (MDOC_VALID & n->flags) continue; /* Remember the start of our own body. */ if (MDOC_BODY == n->type && atok == n->tok) { if (ENDBODY_NOT == n->end) body = n; continue; } if (MDOC_BLOCK != n->type || MDOC_Nm == n->tok) continue; if (atok == n->tok) { assert(body); /* * Found the start of our own block. * When there is no pending sub block, * just proceed to closing out. */ if (NULL == later) break; /* * When there is a pending sub block, * postpone closing out the current block * until the rew_sub() closing out the sub-block. */ make_pending(later, tok, mdoc, line, ppos); /* * Mark the place where the formatting - but not * the scope - of the current block ends. */ if ( ! mdoc_endbody_alloc(mdoc, line, ppos, atok, body, ENDBODY_SPACE)) return(0); break; } /* * When finding an open sub block, remember the last * open explicit block, or, in case there are only * implicit ones, the first open implicit block. */ if (later && MDOC_EXPLICIT & mdoc_macros[later->tok].flags) continue; if (MDOC_It != n->tok) later = n; } if ( ! (MDOC_PARSED & mdoc_macros[tok].flags)) { if ('\0' != buf[*pos]) mandoc_vmsg(MANDOCERR_ARG_SKIP, mdoc->parse, line, ppos, "%s %s", mdoc_macronames[tok], buf + *pos); if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); return(rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)); } if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); if (NULL == later && maxargs > 0) if ( ! mdoc_tail_alloc(mdoc, line, ppos, rew_alt(tok))) return(0); for (flushed = j = 0; ; j++) { lastarg = *pos; if (j == maxargs && ! flushed) { if ( ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); flushed = 1; } ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_PUNCT == ac) break; if (ARGS_EOLN == ac) break; ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, lastarg, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! flushed) { if ( ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); flushed = 1; } mdoc->flags &= ~MDOC_NEWLINE; if ( ! mdoc_macro(mdoc, ntok, line, lastarg, pos, buf)) return(0); break; } if ( ! flushed && ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); } static int in_line(MACRO_PROT_ARGS) { int la, scope, cnt, nc, nl; enum margverr av; enum mdoct ntok; enum margserr ac; enum mdelim d; struct mdoc_arg *arg; char *p; nl = MDOC_NEWLINE & mdoc->flags; /* * Whether we allow ignored elements (those without content, * usually because of reserved words) to squeak by. */ switch (tok) { case MDOC_An: /* FALLTHROUGH */ case MDOC_Ar: /* FALLTHROUGH */ case MDOC_Fl: /* FALLTHROUGH */ case MDOC_Mt: /* FALLTHROUGH */ case MDOC_Nm: /* FALLTHROUGH */ case MDOC_Pa: nc = 1; break; default: nc = 0; break; } for (arg = NULL;; ) { la = *pos; av = mdoc_argv(mdoc, line, tok, &arg, pos, buf); if (ARGV_WORD == av) { *pos = la; break; } if (ARGV_EOLN == av) break; if (ARGV_ARG == av) continue; mdoc_argv_free(arg); return(0); } for (cnt = scope = 0;; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) break; if (ARGS_PUNCT == ac) break; ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); /* * In this case, we've located a submacro and must * execute it. Close out scope, if open. If no * elements have been generated, either create one (nc) * or raise a warning. */ if (MDOC_MAX != ntok) { if (scope && ! rew_elem(mdoc, tok)) return(0); if (nc && 0 == cnt) { if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); if ( ! rew_last(mdoc, mdoc->last)) return(0); } else if ( ! nc && 0 == cnt) { mdoc_argv_free(arg); mandoc_msg(MANDOCERR_MACRO_EMPTY, mdoc->parse, line, ppos, mdoc_macronames[tok]); } if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); } /* * Non-quote-enclosed punctuation. Set up our scope, if * a word; rewind the scope, if a delimiter; then append * the word. */ d = ARGS_QWORD == ac ? DELIM_NONE : mdoc_isdelim(p); if (DELIM_NONE != d) { /* * If we encounter closing punctuation, no word * has been omitted, no scope is open, and we're * allowed to have an empty element, then start * a new scope. `Ar', `Fl', and `Li', only do * this once per invocation. There may be more * of these (all of them?). */ if (0 == cnt && (nc || MDOC_Li == tok) && DELIM_CLOSE == d && ! scope) { if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); if (MDOC_Ar == tok || MDOC_Li == tok || MDOC_Fl == tok) cnt++; scope = 1; } /* * Close out our scope, if one is open, before * any punctuation. */ if (scope && ! rew_elem(mdoc, tok)) return(0); scope = 0; } else if ( ! scope) { if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); scope = 1; } if (DELIM_NONE == d) cnt++; if ( ! dword(mdoc, line, la, p, d, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); /* * `Fl' macros have their scope re-opened with each new * word so that the `-' can be added to each one without * having to parse out spaces. */ if (scope && MDOC_Fl == tok) { if ( ! rew_elem(mdoc, tok)) return(0); scope = 0; } } if (scope && ! rew_elem(mdoc, tok)) return(0); /* * If no elements have been collected and we're allowed to have * empties (nc), open a scope and close it out. Otherwise, * raise a warning. */ if (nc && 0 == cnt) { if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); if ( ! rew_last(mdoc, mdoc->last)) return(0); } else if ( ! nc && 0 == cnt) { mdoc_argv_free(arg); mandoc_msg(MANDOCERR_MACRO_EMPTY, mdoc->parse, line, ppos, mdoc_macronames[tok]); } if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); } static int blk_full(MACRO_PROT_ARGS) { int la, nl, nparsed; struct mdoc_arg *arg; struct mdoc_node *head; /* save of head macro */ struct mdoc_node *body; /* save of body macro */ struct mdoc_node *n; enum mdoc_type mtt; enum mdoct ntok; enum margserr ac, lac; enum margverr av; char *p; nl = MDOC_NEWLINE & mdoc->flags; /* Close out prior implicit scope. */ if ( ! (MDOC_EXPLICIT & mdoc_macros[tok].flags)) { if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); if ( ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); } /* * This routine accommodates implicitly- and explicitly-scoped * macro openings. Implicit ones first close out prior scope * (seen above). Delay opening the head until necessary to * allow leading punctuation to print. Special consideration * for `It -column', which has phrase-part syntax instead of * regular child nodes. */ for (arg = NULL;; ) { la = *pos; av = mdoc_argv(mdoc, line, tok, &arg, pos, buf); if (ARGV_WORD == av) { *pos = la; break; } if (ARGV_EOLN == av) break; if (ARGV_ARG == av) continue; mdoc_argv_free(arg); return(0); } if ( ! mdoc_block_alloc(mdoc, line, ppos, tok, arg)) return(0); head = body = NULL; /* * Exception: Heads of `It' macros in `-diag' lists are not * parsed, even though `It' macros in general are parsed. */ nparsed = MDOC_It == tok && MDOC_Bl == mdoc->last->parent->tok && LIST_diag == mdoc->last->parent->norm->Bl.type; /* * The `Nd' macro has all arguments in its body: it's a hybrid * of block partial-explicit and full-implicit. Stupid. */ if (MDOC_Nd == tok) { if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); head = mdoc->last; if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; } if (MDOC_Bk == tok) mdoc->flags |= MDOC_KEEP; ac = ARGS_ERROR; for ( ; ; ) { la = *pos; /* Initialise last-phrase-type with ARGS_PEND. */ lac = ARGS_ERROR == ac ? ARGS_PEND : ac; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_PUNCT == ac) break; if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) { if (ARGS_PPHRASE != lac && ARGS_PHRASE != lac) break; /* * This is necessary: if the last token on a * line is a `Ta' or tab, then we'll get * ARGS_EOLN, so we must be smart enough to * reopen our scope if the last parse was a * phrase or partial phrase. */ if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; break; } /* * Emit leading punctuation (i.e., punctuation before * the MDOC_HEAD) for non-phrase types. */ if (NULL == head && ARGS_PEND != ac && ARGS_PHRASE != ac && ARGS_PPHRASE != ac && ARGS_QWORD != ac && DELIM_OPEN == mdoc_isdelim(p)) { if ( ! dword(mdoc, line, la, p, DELIM_OPEN, 0)) return(0); continue; } /* Open a head if one hasn't been opened. */ if (NULL == head) { if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); head = mdoc->last; } if (ARGS_PHRASE == ac || ARGS_PEND == ac || ARGS_PPHRASE == ac) { /* * If we haven't opened a body yet, rewind the * head; if we have, rewind that instead. */ mtt = body ? MDOC_BODY : MDOC_HEAD; if ( ! rew_sub(mtt, mdoc, tok, line, ppos)) return(0); /* Then allocate our body context. */ if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; /* * Process phrases: set whether we're in a * partial-phrase (this effects line handling) * then call down into the phrase parser. */ if (ARGS_PPHRASE == ac) mdoc->flags |= MDOC_PPHRASE; if (ARGS_PEND == ac && ARGS_PPHRASE == lac) mdoc->flags |= MDOC_PPHRASE; if ( ! phrase(mdoc, line, la, buf)) return(0); mdoc->flags &= ~MDOC_PPHRASE; continue; } ntok = nparsed || ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); break; } if (NULL == head) { if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); head = mdoc->last; } if (nl && ! append_delims(mdoc, line, pos, buf)) return(0); /* If we've already opened our body, exit now. */ if (NULL != body) goto out; /* * If there is an open (i.e., unvalidated) sub-block requiring * explicit close-out, postpone switching the current block from * head to body until the rew_sub() call closing out that * sub-block. */ for (n = mdoc->last; n && n != head; n = n->parent) { if (MDOC_BLOCK == n->type && MDOC_EXPLICIT & mdoc_macros[n->tok].flags && ! (MDOC_VALID & n->flags)) { n->pending = head; return(1); } } /* Close out scopes to remain in a consistent state. */ if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); out: if ( ! (MDOC_FREECOL & mdoc->flags)) return(1); if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); if ( ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); mdoc->flags &= ~MDOC_FREECOL; return(1); } static int blk_part_imp(MACRO_PROT_ARGS) { int la, nl; enum mdoct ntok; enum margserr ac; char *p; struct mdoc_node *blk; /* saved block context */ struct mdoc_node *body; /* saved body context */ struct mdoc_node *n; nl = MDOC_NEWLINE & mdoc->flags; /* * A macro that spans to the end of the line. This is generally * (but not necessarily) called as the first macro. The block * has a head as the immediate child, which is always empty, * followed by zero or more opening punctuation nodes, then the * body (which may be empty, depending on the macro), then zero * or more closing punctuation nodes. */ if ( ! mdoc_block_alloc(mdoc, line, ppos, tok, NULL)) return(0); blk = mdoc->last; if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); /* * Open the body scope "on-demand", that is, after we've * processed all our the leading delimiters (open parenthesis, * etc.). */ for (body = NULL; ; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) break; if (ARGS_PUNCT == ac) break; if (NULL == body && ARGS_QWORD != ac && DELIM_OPEN == mdoc_isdelim(p)) { if ( ! dword(mdoc, line, la, p, DELIM_OPEN, 0)) return(0); continue; } if (NULL == body) { if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; } ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); break; } /* Clean-ups to leave in a consistent state. */ if (NULL == body) { if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; } /* * If there is an open sub-block requiring explicit close-out, * postpone closing out the current block * until the rew_sub() call closing out the sub-block. */ for (n = mdoc->last; n && n != body && n != blk->parent; n = n->parent) { if (MDOC_BLOCK == n->type && MDOC_EXPLICIT & mdoc_macros[n->tok].flags && ! (MDOC_VALID & n->flags)) { make_pending(n, tok, mdoc, line, ppos); if ( ! mdoc_endbody_alloc(mdoc, line, ppos, tok, body, ENDBODY_NOSPACE)) return(0); return(1); } } assert(n == body); if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); /* Standard appending of delimiters. */ if (nl && ! append_delims(mdoc, line, pos, buf)) return(0); /* Rewind scope, if applicable. */ if ( ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); /* Move trailing .Ns out of scope. */ for (n = body->child; n && n->next; n = n->next) /* Do nothing. */ ; if (n && MDOC_Ns == n->tok) mdoc_node_relink(mdoc, n); return(1); } static int blk_part_exp(MACRO_PROT_ARGS) { int la, nl; enum margserr ac; struct mdoc_node *head; /* keep track of head */ struct mdoc_node *body; /* keep track of body */ char *p; enum mdoct ntok; nl = MDOC_NEWLINE & mdoc->flags; /* * The opening of an explicit macro having zero or more leading * punctuation nodes; a head with optional single element (the * case of `Eo'); and a body that may be empty. */ if ( ! mdoc_block_alloc(mdoc, line, ppos, tok, NULL)) return(0); for (head = body = NULL; ; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_PUNCT == ac) break; if (ARGS_EOLN == ac) break; /* Flush out leading punctuation. */ if (NULL == head && ARGS_QWORD != ac && DELIM_OPEN == mdoc_isdelim(p)) { assert(NULL == body); if ( ! dword(mdoc, line, la, p, DELIM_OPEN, 0)) return(0); continue; } if (NULL == head) { assert(NULL == body); if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); head = mdoc->last; } /* * `Eo' gobbles any data into the head, but most other * macros just immediately close out and begin the body. */ if (NULL == body) { assert(head); /* No check whether it's a macro! */ if (MDOC_Eo == tok) if ( ! dword(mdoc, line, la, p, DELIM_MAX, 0)) return(0); if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; if (MDOC_Eo == tok) continue; } assert(NULL != head && NULL != body); ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); break; } /* Clean-up to leave in a consistent state. */ if (NULL == head) if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); if (NULL == body) { if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); } /* Standard appending of delimiters. */ if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); } static int in_line_argn(MACRO_PROT_ARGS) { int la, flushed, j, maxargs, nl; enum margserr ac; enum margverr av; struct mdoc_arg *arg; char *p; enum mdoct ntok; nl = MDOC_NEWLINE & mdoc->flags; /* * A line macro that has a fixed number of arguments (maxargs). * Only open the scope once the first non-leading-punctuation is * found (unless MDOC_IGNDELIM is noted, like in `Pf'), then * keep it open until the maximum number of arguments are * exhausted. */ switch (tok) { case MDOC_Ap: /* FALLTHROUGH */ case MDOC_No: /* FALLTHROUGH */ case MDOC_Ns: /* FALLTHROUGH */ case MDOC_Ux: maxargs = 0; break; case MDOC_Bx: /* FALLTHROUGH */ case MDOC_Es: /* FALLTHROUGH */ case MDOC_Xr: maxargs = 2; break; default: maxargs = 1; break; } for (arg = NULL; ; ) { la = *pos; av = mdoc_argv(mdoc, line, tok, &arg, pos, buf); if (ARGV_WORD == av) { *pos = la; break; } if (ARGV_EOLN == av) break; if (ARGV_ARG == av) continue; mdoc_argv_free(arg); return(0); } for (flushed = j = 0; ; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_PUNCT == ac) break; if (ARGS_EOLN == ac) break; if ( ! (MDOC_IGNDELIM & mdoc_macros[tok].flags) && ARGS_QWORD != ac && 0 == j && DELIM_OPEN == mdoc_isdelim(p)) { if ( ! dword(mdoc, line, la, p, DELIM_OPEN, 0)) return(0); continue; } else if (0 == j) if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); if (j == maxargs && ! flushed) { if ( ! rew_elem(mdoc, tok)) return(0); flushed = 1; } ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX != ntok) { if ( ! flushed && ! rew_elem(mdoc, tok)) return(0); flushed = 1; if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); j++; break; } if ( ! (MDOC_IGNDELIM & mdoc_macros[tok].flags) && ARGS_QWORD != ac && ! flushed && DELIM_NONE != mdoc_isdelim(p)) { if ( ! rew_elem(mdoc, tok)) return(0); flushed = 1; } if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); j++; } if (0 == j && ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); /* Close out in a consistent state. */ if ( ! flushed && ! rew_elem(mdoc, tok)) return(0); if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); } static int in_line_eoln(MACRO_PROT_ARGS) { int la; enum margserr ac; enum margverr av; struct mdoc_arg *arg; char *p; enum mdoct ntok; assert( ! (MDOC_PARSED & mdoc_macros[tok].flags)); if (tok == MDOC_Pp) rew_sub(MDOC_BLOCK, mdoc, MDOC_Nm, line, ppos); /* Parse macro arguments. */ for (arg = NULL; ; ) { la = *pos; av = mdoc_argv(mdoc, line, tok, &arg, pos, buf); if (ARGV_WORD == av) { *pos = la; break; } if (ARGV_EOLN == av) break; if (ARGV_ARG == av) continue; mdoc_argv_free(arg); return(0); } /* Open element scope. */ if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); /* Parse argument terms. */ for (;;) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) break; ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! rew_elem(mdoc, tok)) return(0); return(mdoc_macro(mdoc, ntok, line, la, pos, buf)); } /* Close out (no delimiters). */ return(rew_elem(mdoc, tok)); } static int ctx_synopsis(MACRO_PROT_ARGS) { int nl; nl = MDOC_NEWLINE & mdoc->flags; /* If we're not in the SYNOPSIS, go straight to in-line. */ if ( ! (MDOC_SYNOPSIS & mdoc->flags)) return(in_line(mdoc, tok, line, ppos, pos, buf)); /* If we're a nested call, same place. */ if ( ! nl) return(in_line(mdoc, tok, line, ppos, pos, buf)); /* * XXX: this will open a block scope; however, if later we end * up formatting the block scope, then child nodes will inherit * the formatting. Be careful. */ if (MDOC_Nm == tok) return(blk_full(mdoc, tok, line, ppos, pos, buf)); assert(MDOC_Vt == tok); return(blk_part_imp(mdoc, tok, line, ppos, pos, buf)); } /* * Phrases occur within `Bl -column' entries, separated by `Ta' or tabs. * They're unusual because they're basically free-form text until a * macro is encountered. */ static int phrase(struct mdoc *mdoc, int line, int ppos, char *buf) { int la, pos; enum margserr ac; enum mdoct ntok; char *p; for (pos = ppos; ; ) { la = pos; ac = mdoc_zargs(mdoc, line, &pos, buf, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) break; ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup_raw(p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX, 1)) return(0); continue; } if ( ! mdoc_macro(mdoc, ntok, line, la, &pos, buf)) return(0); return(append_delims(mdoc, line, &pos, buf)); } return(1); } static int phrase_ta(MACRO_PROT_ARGS) { struct mdoc_node *n; int la; enum mdoct ntok; enum margserr ac; char *p; /* Make sure we are in a column list or ignore this macro. */ n = mdoc->last; while (NULL != n && MDOC_Bl != n->tok) n = n->parent; if (NULL == n || LIST_column != n->norm->Bl.type) { mandoc_msg(MANDOCERR_TA_STRAY, mdoc->parse, line, ppos, NULL); return(1); } /* Advance to the next column. */ if ( ! rew_sub(MDOC_BODY, mdoc, MDOC_It, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, MDOC_It)) return(0); for (;;) { la = *pos; ac = mdoc_zargs(mdoc, line, pos, buf, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) break; ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup_raw(p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); return(append_delims(mdoc, line, pos, buf)); } return(1); }