/* $Id$ */ /* * Copyright (c) 2008-2012 Kristaps Dzonsons * Copyright (c) 2010, 2011, 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. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifndef OSNAME #include #endif #include #include #include #include #include #include #include #include #include "mdoc.h" #include "mandoc.h" #include "libmdoc.h" #include "libmandoc.h" /* FIXME: .Bl -diag can't have non-text children in HEAD. */ #define PRE_ARGS struct mdoc *mdoc, struct mdoc_node *n #define POST_ARGS struct mdoc *mdoc #define NUMSIZ 32 #define DATESIZE 32 enum check_ineq { CHECK_LT, CHECK_GT, CHECK_EQ }; enum check_lvl { CHECK_WARN, CHECK_ERROR, }; typedef int (*v_pre)(PRE_ARGS); typedef int (*v_post)(POST_ARGS); struct valids { v_pre *pre; v_post *post; }; static int check_count(struct mdoc *, enum mdoc_type, enum check_lvl, enum check_ineq, int); static int check_parent(PRE_ARGS, enum mdoct, enum mdoc_type); static void check_text(struct mdoc *, int, int, char *); static void check_argv(struct mdoc *, struct mdoc_node *, struct mdoc_argv *); static void check_args(struct mdoc *, struct mdoc_node *); static int concat(char *, const struct mdoc_node *, size_t); static enum mdoc_sec a2sec(const char *); static size_t macro2len(enum mdoct); static int ebool(POST_ARGS); static int berr_ge1(POST_ARGS); static int bwarn_ge1(POST_ARGS); static int ewarn_eq0(POST_ARGS); static int ewarn_eq1(POST_ARGS); static int ewarn_ge1(POST_ARGS); static int ewarn_le1(POST_ARGS); static int hwarn_eq0(POST_ARGS); static int hwarn_eq1(POST_ARGS); static int hwarn_ge1(POST_ARGS); static int hwarn_le1(POST_ARGS); static int post_an(POST_ARGS); static int post_at(POST_ARGS); static int post_bf(POST_ARGS); static int post_bl(POST_ARGS); static int post_bl_block(POST_ARGS); static int post_bl_block_width(POST_ARGS); static int post_bl_block_tag(POST_ARGS); static int post_bl_head(POST_ARGS); static int post_bx(POST_ARGS); static int post_defaults(POST_ARGS); static int post_dd(POST_ARGS); static int post_dt(POST_ARGS); static int post_eoln(POST_ARGS); static int post_hyph(POST_ARGS); static int post_ignpar(POST_ARGS); static int post_it(POST_ARGS); static int post_lb(POST_ARGS); static int post_literal(POST_ARGS); static int post_nm(POST_ARGS); static int post_ns(POST_ARGS); static int post_os(POST_ARGS); static int post_par(POST_ARGS); static int post_prol(POST_ARGS); static int post_root(POST_ARGS); static int post_rs(POST_ARGS); static int post_sh(POST_ARGS); static int post_sh_body(POST_ARGS); static int post_sh_head(POST_ARGS); static int post_st(POST_ARGS); static int post_std(POST_ARGS); static int post_vt(POST_ARGS); static int pre_an(PRE_ARGS); static int pre_bd(PRE_ARGS); static int pre_bl(PRE_ARGS); static int pre_dd(PRE_ARGS); static int pre_display(PRE_ARGS); static int pre_dt(PRE_ARGS); static int pre_it(PRE_ARGS); static int pre_literal(PRE_ARGS); static int pre_os(PRE_ARGS); static int pre_par(PRE_ARGS); static int pre_sh(PRE_ARGS); static int pre_ss(PRE_ARGS); static int pre_std(PRE_ARGS); static v_post posts_an[] = { post_an, NULL }; static v_post posts_at[] = { post_at, post_defaults, NULL }; static v_post posts_bd[] = { post_literal, hwarn_eq0, bwarn_ge1, NULL }; static v_post posts_bf[] = { hwarn_le1, post_bf, NULL }; static v_post posts_bk[] = { hwarn_eq0, bwarn_ge1, NULL }; static v_post posts_bl[] = { bwarn_ge1, post_bl, NULL }; static v_post posts_bx[] = { post_bx, NULL }; static v_post posts_bool[] = { ebool, NULL }; static v_post posts_eoln[] = { post_eoln, NULL }; static v_post posts_defaults[] = { post_defaults, NULL }; static v_post posts_d1[] = { bwarn_ge1, post_hyph, NULL }; static v_post posts_dd[] = { post_dd, post_prol, NULL }; static v_post posts_dl[] = { post_literal, bwarn_ge1, NULL }; static v_post posts_dt[] = { post_dt, post_prol, NULL }; static v_post posts_fo[] = { hwarn_eq1, bwarn_ge1, NULL }; static v_post posts_hyph[] = { post_hyph, NULL }; static v_post posts_hyphtext[] = { ewarn_ge1, post_hyph, NULL }; static v_post posts_it[] = { post_it, NULL }; static v_post posts_lb[] = { post_lb, NULL }; static v_post posts_nd[] = { berr_ge1, post_hyph, NULL }; static v_post posts_nm[] = { post_nm, NULL }; static v_post posts_notext[] = { ewarn_eq0, NULL }; static v_post posts_ns[] = { post_ns, NULL }; static v_post posts_os[] = { post_os, post_prol, NULL }; static v_post posts_pp[] = { post_par, ewarn_eq0, NULL }; static v_post posts_rs[] = { post_rs, NULL }; static v_post posts_sh[] = { post_ignpar,hwarn_ge1,post_sh,post_hyph,NULL }; static v_post posts_sp[] = { post_par, ewarn_le1, NULL }; static v_post posts_ss[] = { post_ignpar, hwarn_ge1, post_hyph, NULL }; static v_post posts_st[] = { post_st, NULL }; static v_post posts_std[] = { post_std, NULL }; static v_post posts_text[] = { ewarn_ge1, NULL }; static v_post posts_text1[] = { ewarn_eq1, NULL }; static v_post posts_vt[] = { post_vt, NULL }; static v_pre pres_an[] = { pre_an, NULL }; static v_pre pres_bd[] = { pre_display, pre_bd, pre_literal, pre_par, NULL }; static v_pre pres_bl[] = { pre_bl, pre_par, NULL }; static v_pre pres_d1[] = { pre_display, NULL }; static v_pre pres_dl[] = { pre_literal, pre_display, NULL }; static v_pre pres_dd[] = { pre_dd, NULL }; static v_pre pres_dt[] = { pre_dt, NULL }; static v_pre pres_it[] = { pre_it, pre_par, NULL }; static v_pre pres_os[] = { pre_os, NULL }; static v_pre pres_pp[] = { pre_par, NULL }; static v_pre pres_sh[] = { pre_sh, NULL }; static v_pre pres_ss[] = { pre_ss, NULL }; static v_pre pres_std[] = { pre_std, NULL }; static const struct valids mdoc_valids[MDOC_MAX] = { { NULL, NULL }, /* Ap */ { pres_dd, posts_dd }, /* Dd */ { pres_dt, posts_dt }, /* Dt */ { pres_os, posts_os }, /* Os */ { pres_sh, posts_sh }, /* Sh */ { pres_ss, posts_ss }, /* Ss */ { pres_pp, posts_pp }, /* Pp */ { pres_d1, posts_d1 }, /* D1 */ { pres_dl, posts_dl }, /* Dl */ { pres_bd, posts_bd }, /* Bd */ { NULL, NULL }, /* Ed */ { pres_bl, posts_bl }, /* Bl */ { NULL, NULL }, /* El */ { pres_it, posts_it }, /* It */ { NULL, NULL }, /* Ad */ { pres_an, posts_an }, /* An */ { NULL, posts_defaults }, /* Ar */ { NULL, NULL }, /* Cd */ { NULL, NULL }, /* Cm */ { NULL, NULL }, /* Dv */ { NULL, NULL }, /* Er */ { NULL, NULL }, /* Ev */ { pres_std, posts_std }, /* Ex */ { NULL, NULL }, /* Fa */ { NULL, posts_text }, /* Fd */ { NULL, NULL }, /* Fl */ { NULL, NULL }, /* Fn */ { NULL, NULL }, /* Ft */ { NULL, NULL }, /* Ic */ { NULL, posts_text1 }, /* In */ { NULL, posts_defaults }, /* Li */ { NULL, posts_nd }, /* Nd */ { NULL, posts_nm }, /* Nm */ { NULL, NULL }, /* Op */ { NULL, NULL }, /* Ot */ { NULL, posts_defaults }, /* Pa */ { pres_std, posts_std }, /* Rv */ { NULL, posts_st }, /* St */ { NULL, NULL }, /* Va */ { NULL, posts_vt }, /* Vt */ { NULL, posts_text }, /* Xr */ { NULL, posts_text }, /* %A */ { NULL, posts_hyphtext }, /* %B */ /* FIXME: can be used outside Rs/Re. */ { NULL, posts_text }, /* %D */ { NULL, posts_text }, /* %I */ { NULL, posts_text }, /* %J */ { NULL, posts_hyphtext }, /* %N */ { NULL, posts_hyphtext }, /* %O */ { NULL, posts_text }, /* %P */ { NULL, posts_hyphtext }, /* %R */ { NULL, posts_hyphtext }, /* %T */ /* FIXME: can be used outside Rs/Re. */ { NULL, posts_text }, /* %V */ { NULL, NULL }, /* Ac */ { NULL, NULL }, /* Ao */ { NULL, NULL }, /* Aq */ { NULL, posts_at }, /* At */ { NULL, NULL }, /* Bc */ { NULL, posts_bf }, /* Bf */ { NULL, NULL }, /* Bo */ { NULL, NULL }, /* Bq */ { NULL, NULL }, /* Bsx */ { NULL, posts_bx }, /* Bx */ { NULL, posts_bool }, /* Db */ { NULL, NULL }, /* Dc */ { NULL, NULL }, /* Do */ { NULL, NULL }, /* Dq */ { NULL, NULL }, /* Ec */ { NULL, NULL }, /* Ef */ { NULL, NULL }, /* Em */ { NULL, NULL }, /* Eo */ { NULL, NULL }, /* Fx */ { NULL, NULL }, /* Ms */ { NULL, posts_notext }, /* No */ { NULL, posts_ns }, /* Ns */ { NULL, NULL }, /* Nx */ { NULL, NULL }, /* Ox */ { NULL, NULL }, /* Pc */ { NULL, posts_text1 }, /* Pf */ { NULL, NULL }, /* Po */ { NULL, NULL }, /* Pq */ { NULL, NULL }, /* Qc */ { NULL, NULL }, /* Ql */ { NULL, NULL }, /* Qo */ { NULL, NULL }, /* Qq */ { NULL, NULL }, /* Re */ { NULL, posts_rs }, /* Rs */ { NULL, NULL }, /* Sc */ { NULL, NULL }, /* So */ { NULL, NULL }, /* Sq */ { NULL, posts_bool }, /* Sm */ { NULL, posts_hyph }, /* Sx */ { NULL, NULL }, /* Sy */ { NULL, NULL }, /* Tn */ { NULL, NULL }, /* Ux */ { NULL, NULL }, /* Xc */ { NULL, NULL }, /* Xo */ { NULL, posts_fo }, /* Fo */ { NULL, NULL }, /* Fc */ { NULL, NULL }, /* Oo */ { NULL, NULL }, /* Oc */ { NULL, posts_bk }, /* Bk */ { NULL, NULL }, /* Ek */ { NULL, posts_eoln }, /* Bt */ { NULL, NULL }, /* Hf */ { NULL, NULL }, /* Fr */ { NULL, posts_eoln }, /* Ud */ { NULL, posts_lb }, /* Lb */ { pres_pp, posts_pp }, /* Lp */ { NULL, NULL }, /* Lk */ { NULL, posts_defaults }, /* Mt */ { NULL, NULL }, /* Brq */ { NULL, NULL }, /* Bro */ { NULL, NULL }, /* Brc */ { NULL, posts_text }, /* %C */ { NULL, NULL }, /* Es */ { NULL, NULL }, /* En */ { NULL, NULL }, /* Dx */ { NULL, posts_text }, /* %Q */ { NULL, posts_pp }, /* br */ { NULL, posts_sp }, /* sp */ { NULL, posts_text1 }, /* %U */ { NULL, NULL }, /* Ta */ }; #define RSORD_MAX 14 /* Number of `Rs' blocks. */ static const enum mdoct rsord[RSORD_MAX] = { MDOC__A, MDOC__T, MDOC__B, MDOC__I, MDOC__J, MDOC__R, MDOC__N, MDOC__V, MDOC__U, MDOC__P, MDOC__Q, MDOC__C, MDOC__D, MDOC__O }; static const char * const secnames[SEC__MAX] = { NULL, "NAME", "LIBRARY", "SYNOPSIS", "DESCRIPTION", "IMPLEMENTATION NOTES", "RETURN VALUES", "ENVIRONMENT", "FILES", "EXIT STATUS", "EXAMPLES", "DIAGNOSTICS", "COMPATIBILITY", "ERRORS", "SEE ALSO", "STANDARDS", "HISTORY", "AUTHORS", "CAVEATS", "BUGS", "SECURITY CONSIDERATIONS", NULL }; int mdoc_valid_pre(struct mdoc *mdoc, struct mdoc_node *n) { v_pre *p; int line, pos; char *tp; switch (n->type) { case (MDOC_TEXT): tp = n->string; line = n->line; pos = n->pos; check_text(mdoc, line, pos, tp); /* FALLTHROUGH */ case (MDOC_TBL): /* FALLTHROUGH */ case (MDOC_EQN): /* FALLTHROUGH */ case (MDOC_ROOT): return(1); default: break; } check_args(mdoc, n); if (NULL == mdoc_valids[n->tok].pre) return(1); for (p = mdoc_valids[n->tok].pre; *p; p++) if ( ! (*p)(mdoc, n)) return(0); return(1); } int mdoc_valid_post(struct mdoc *mdoc) { v_post *p; if (MDOC_VALID & mdoc->last->flags) return(1); mdoc->last->flags |= MDOC_VALID; switch (mdoc->last->type) { case (MDOC_TEXT): /* FALLTHROUGH */ case (MDOC_EQN): /* FALLTHROUGH */ case (MDOC_TBL): return(1); case (MDOC_ROOT): return(post_root(mdoc)); default: break; } if (NULL == mdoc_valids[mdoc->last->tok].post) return(1); for (p = mdoc_valids[mdoc->last->tok].post; *p; p++) if ( ! (*p)(mdoc)) return(0); return(1); } static int check_count(struct mdoc *mdoc, enum mdoc_type type, enum check_lvl lvl, enum check_ineq ineq, int val) { const char *p; enum mandocerr t; if (mdoc->last->type != type) return(1); switch (ineq) { case (CHECK_LT): p = "less than "; if (mdoc->last->nchild < val) return(1); break; case (CHECK_GT): p = "more than "; if (mdoc->last->nchild > val) return(1); break; case (CHECK_EQ): p = ""; if (val == mdoc->last->nchild) return(1); break; default: abort(); /* NOTREACHED */ } t = lvl == CHECK_WARN ? MANDOCERR_ARGCWARN : MANDOCERR_ARGCOUNT; mandoc_vmsg(t, mdoc->parse, mdoc->last->line, mdoc->last->pos, "want %s%d children (have %d)", p, val, mdoc->last->nchild); return(1); } static int berr_ge1(POST_ARGS) { return(check_count(mdoc, MDOC_BODY, CHECK_ERROR, CHECK_GT, 0)); } static int bwarn_ge1(POST_ARGS) { return(check_count(mdoc, MDOC_BODY, CHECK_WARN, CHECK_GT, 0)); } static int ewarn_eq0(POST_ARGS) { return(check_count(mdoc, MDOC_ELEM, CHECK_WARN, CHECK_EQ, 0)); } static int ewarn_eq1(POST_ARGS) { return(check_count(mdoc, MDOC_ELEM, CHECK_WARN, CHECK_EQ, 1)); } static int ewarn_ge1(POST_ARGS) { return(check_count(mdoc, MDOC_ELEM, CHECK_WARN, CHECK_GT, 0)); } static int ewarn_le1(POST_ARGS) { return(check_count(mdoc, MDOC_ELEM, CHECK_WARN, CHECK_LT, 2)); } static int hwarn_eq0(POST_ARGS) { return(check_count(mdoc, MDOC_HEAD, CHECK_WARN, CHECK_EQ, 0)); } static int hwarn_eq1(POST_ARGS) { return(check_count(mdoc, MDOC_HEAD, CHECK_WARN, CHECK_EQ, 1)); } static int hwarn_ge1(POST_ARGS) { return(check_count(mdoc, MDOC_HEAD, CHECK_WARN, CHECK_GT, 0)); } static int hwarn_le1(POST_ARGS) { return(check_count(mdoc, MDOC_HEAD, CHECK_WARN, CHECK_LT, 2)); } static void check_args(struct mdoc *mdoc, struct mdoc_node *n) { int i; if (NULL == n->args) return; assert(n->args->argc); for (i = 0; i < (int)n->args->argc; i++) check_argv(mdoc, n, &n->args->argv[i]); } static void check_argv(struct mdoc *mdoc, struct mdoc_node *n, struct mdoc_argv *v) { int i; for (i = 0; i < (int)v->sz; i++) check_text(mdoc, v->line, v->pos, v->value[i]); /* FIXME: move to post_std(). */ if (MDOC_Std == v->arg) if ( ! (v->sz || mdoc->meta.name)) mdoc_nmsg(mdoc, n, MANDOCERR_NONAME); } static void check_text(struct mdoc *mdoc, int ln, int pos, char *p) { char *cp; if (MDOC_LITERAL & mdoc->flags) return; for (cp = p; NULL != (p = strchr(p, '\t')); p++) mdoc_pmsg(mdoc, ln, pos + (int)(p - cp), MANDOCERR_BADTAB); } static int check_parent(PRE_ARGS, enum mdoct tok, enum mdoc_type t) { assert(n->parent); if ((MDOC_ROOT == t || tok == n->parent->tok) && (t == n->parent->type)) return(1); mandoc_vmsg(MANDOCERR_SYNTCHILD, mdoc->parse, n->line, n->pos, "want parent %s", MDOC_ROOT == t ? "" : mdoc_macronames[tok]); return(0); } static int pre_display(PRE_ARGS) { struct mdoc_node *node; if (MDOC_BLOCK != n->type) return(1); for (node = mdoc->last->parent; node; node = node->parent) if (MDOC_BLOCK == node->type) if (MDOC_Bd == node->tok) break; if (node) mdoc_nmsg(mdoc, n, MANDOCERR_NESTEDDISP); return(1); } static int pre_bl(PRE_ARGS) { int i, comp, dup; const char *offs, *width; enum mdoc_list lt; struct mdoc_node *np; if (MDOC_BLOCK != n->type) { if (ENDBODY_NOT != n->end) { assert(n->pending); np = n->pending->parent; } else np = n->parent; assert(np); assert(MDOC_BLOCK == np->type); assert(MDOC_Bl == np->tok); return(1); } /* * First figure out which kind of list to use: bind ourselves to * the first mentioned list type and warn about any remaining * ones. If we find no list type, we default to LIST_item. */ /* LINTED */ for (i = 0; n->args && i < (int)n->args->argc; i++) { lt = LIST__NONE; dup = comp = 0; width = offs = NULL; switch (n->args->argv[i].arg) { /* Set list types. */ case (MDOC_Bullet): lt = LIST_bullet; break; case (MDOC_Dash): lt = LIST_dash; break; case (MDOC_Enum): lt = LIST_enum; break; case (MDOC_Hyphen): lt = LIST_hyphen; break; case (MDOC_Item): lt = LIST_item; break; case (MDOC_Tag): lt = LIST_tag; break; case (MDOC_Diag): lt = LIST_diag; break; case (MDOC_Hang): lt = LIST_hang; break; case (MDOC_Ohang): lt = LIST_ohang; break; case (MDOC_Inset): lt = LIST_inset; break; case (MDOC_Column): lt = LIST_column; break; /* Set list arguments. */ case (MDOC_Compact): dup = n->norm->Bl.comp; comp = 1; break; case (MDOC_Width): /* NB: this can be empty! */ if (n->args->argv[i].sz) { width = n->args->argv[i].value[0]; dup = (NULL != n->norm->Bl.width); break; } mdoc_nmsg(mdoc, n, MANDOCERR_IGNARGV); break; case (MDOC_Offset): /* NB: this can be empty! */ if (n->args->argv[i].sz) { offs = n->args->argv[i].value[0]; dup = (NULL != n->norm->Bl.offs); break; } mdoc_nmsg(mdoc, n, MANDOCERR_IGNARGV); break; default: continue; } /* Check: duplicate auxiliary arguments. */ if (dup) mdoc_nmsg(mdoc, n, MANDOCERR_ARGVREP); if (comp && ! dup) n->norm->Bl.comp = comp; if (offs && ! dup) n->norm->Bl.offs = offs; if (width && ! dup) n->norm->Bl.width = width; /* Check: multiple list types. */ if (LIST__NONE != lt && n->norm->Bl.type != LIST__NONE) mdoc_nmsg(mdoc, n, MANDOCERR_LISTREP); /* Assign list type. */ if (LIST__NONE != lt && n->norm->Bl.type == LIST__NONE) { n->norm->Bl.type = lt; /* Set column information, too. */ if (LIST_column == lt) { n->norm->Bl.ncols = n->args->argv[i].sz; n->norm->Bl.cols = (void *) n->args->argv[i].value; } } /* The list type should come first. */ if (n->norm->Bl.type == LIST__NONE) if (n->norm->Bl.width || n->norm->Bl.offs || n->norm->Bl.comp) mdoc_nmsg(mdoc, n, MANDOCERR_LISTFIRST); continue; } /* Allow lists to default to LIST_item. */ if (LIST__NONE == n->norm->Bl.type) { mdoc_nmsg(mdoc, n, MANDOCERR_LISTTYPE); n->norm->Bl.type = LIST_item; } /* * Validate the width field. Some list types don't need width * types and should be warned about them. Others should have it * and must also be warned. Yet others have a default and need * no warning. */ switch (n->norm->Bl.type) { case (LIST_tag): if (NULL == n->norm->Bl.width) mdoc_nmsg(mdoc, n, MANDOCERR_NOWIDTHARG); break; case (LIST_column): /* FALLTHROUGH */ case (LIST_diag): /* FALLTHROUGH */ case (LIST_ohang): /* FALLTHROUGH */ case (LIST_inset): /* FALLTHROUGH */ case (LIST_item): if (n->norm->Bl.width) mdoc_nmsg(mdoc, n, MANDOCERR_IGNARGV); break; case (LIST_bullet): /* FALLTHROUGH */ case (LIST_dash): /* FALLTHROUGH */ case (LIST_hyphen): if (NULL == n->norm->Bl.width) n->norm->Bl.width = "2n"; break; case (LIST_enum): if (NULL == n->norm->Bl.width) n->norm->Bl.width = "3n"; break; default: break; } return(1); } static int pre_bd(PRE_ARGS) { int i, dup, comp; enum mdoc_disp dt; const char *offs; struct mdoc_node *np; if (MDOC_BLOCK != n->type) { if (ENDBODY_NOT != n->end) { assert(n->pending); np = n->pending->parent; } else np = n->parent; assert(np); assert(MDOC_BLOCK == np->type); assert(MDOC_Bd == np->tok); return(1); } /* LINTED */ for (i = 0; n->args && i < (int)n->args->argc; i++) { dt = DISP__NONE; dup = comp = 0; offs = NULL; switch (n->args->argv[i].arg) { case (MDOC_Centred): dt = DISP_centred; break; case (MDOC_Ragged): dt = DISP_ragged; break; case (MDOC_Unfilled): dt = DISP_unfilled; break; case (MDOC_Filled): dt = DISP_filled; break; case (MDOC_Literal): dt = DISP_literal; break; case (MDOC_File): mdoc_nmsg(mdoc, n, MANDOCERR_BADDISP); return(0); case (MDOC_Offset): /* NB: this can be empty! */ if (n->args->argv[i].sz) { offs = n->args->argv[i].value[0]; dup = (NULL != n->norm->Bd.offs); break; } mdoc_nmsg(mdoc, n, MANDOCERR_IGNARGV); break; case (MDOC_Compact): comp = 1; dup = n->norm->Bd.comp; break; default: abort(); /* NOTREACHED */ } /* Check whether we have duplicates. */ if (dup) mdoc_nmsg(mdoc, n, MANDOCERR_ARGVREP); /* Make our auxiliary assignments. */ if (offs && ! dup) n->norm->Bd.offs = offs; if (comp && ! dup) n->norm->Bd.comp = comp; /* Check whether a type has already been assigned. */ if (DISP__NONE != dt && n->norm->Bd.type != DISP__NONE) mdoc_nmsg(mdoc, n, MANDOCERR_DISPREP); /* Make our type assignment. */ if (DISP__NONE != dt && n->norm->Bd.type == DISP__NONE) n->norm->Bd.type = dt; } if (DISP__NONE == n->norm->Bd.type) { mdoc_nmsg(mdoc, n, MANDOCERR_DISPTYPE); n->norm->Bd.type = DISP_ragged; } return(1); } static int pre_ss(PRE_ARGS) { if (MDOC_BLOCK != n->type) return(1); return(check_parent(mdoc, n, MDOC_Sh, MDOC_BODY)); } static int pre_sh(PRE_ARGS) { if (MDOC_BLOCK != n->type) return(1); return(check_parent(mdoc, n, MDOC_MAX, MDOC_ROOT)); } static int pre_it(PRE_ARGS) { if (MDOC_BLOCK != n->type) return(1); return(check_parent(mdoc, n, MDOC_Bl, MDOC_BODY)); } static int pre_an(PRE_ARGS) { int i; if (NULL == n->args) return(1); for (i = 1; i < (int)n->args->argc; i++) mdoc_pmsg(mdoc, n->args->argv[i].line, n->args->argv[i].pos, MANDOCERR_IGNARGV); if (MDOC_Split == n->args->argv[0].arg) n->norm->An.auth = AUTH_split; else if (MDOC_Nosplit == n->args->argv[0].arg) n->norm->An.auth = AUTH_nosplit; else abort(); return(1); } static int pre_std(PRE_ARGS) { if (n->args && 1 == n->args->argc) if (MDOC_Std == n->args->argv[0].arg) return(1); mdoc_nmsg(mdoc, n, MANDOCERR_NOARGV); return(1); } static int pre_dt(PRE_ARGS) { if (NULL == mdoc->meta.date || mdoc->meta.os) mdoc_nmsg(mdoc, n, MANDOCERR_PROLOGOOO); if (mdoc->meta.title) mdoc_nmsg(mdoc, n, MANDOCERR_PROLOGREP); return(1); } static int pre_os(PRE_ARGS) { if (NULL == mdoc->meta.title || NULL == mdoc->meta.date) mdoc_nmsg(mdoc, n, MANDOCERR_PROLOGOOO); if (mdoc->meta.os) mdoc_nmsg(mdoc, n, MANDOCERR_PROLOGREP); return(1); } static int pre_dd(PRE_ARGS) { if (mdoc->meta.title || mdoc->meta.os) mdoc_nmsg(mdoc, n, MANDOCERR_PROLOGOOO); if (mdoc->meta.date) mdoc_nmsg(mdoc, n, MANDOCERR_PROLOGREP); return(1); } static int post_bf(POST_ARGS) { struct mdoc_node *np; enum mdocargt arg; /* * Unlike other data pointers, these are "housed" by the HEAD * element, which contains the goods. */ if (MDOC_HEAD != mdoc->last->type) { if (ENDBODY_NOT != mdoc->last->end) { assert(mdoc->last->pending); np = mdoc->last->pending->parent->head; } else if (MDOC_BLOCK != mdoc->last->type) { np = mdoc->last->parent->head; } else np = mdoc->last->head; assert(np); assert(MDOC_HEAD == np->type); assert(MDOC_Bf == np->tok); return(1); } np = mdoc->last; assert(MDOC_BLOCK == np->parent->type); assert(MDOC_Bf == np->parent->tok); /* * Cannot have both argument and parameter. * If neither is specified, let it through with a warning. */ if (np->parent->args && np->child) { mdoc_nmsg(mdoc, np, MANDOCERR_SYNTARGVCOUNT); return(0); } else if (NULL == np->parent->args && NULL == np->child) { mdoc_nmsg(mdoc, np, MANDOCERR_FONTTYPE); return(1); } /* Extract argument into data. */ if (np->parent->args) { arg = np->parent->args->argv[0].arg; if (MDOC_Emphasis == arg) np->norm->Bf.font = FONT_Em; else if (MDOC_Literal == arg) np->norm->Bf.font = FONT_Li; else if (MDOC_Symbolic == arg) np->norm->Bf.font = FONT_Sy; else abort(); return(1); } /* Extract parameter into data. */ if (0 == strcmp(np->child->string, "Em")) np->norm->Bf.font = FONT_Em; else if (0 == strcmp(np->child->string, "Li")) np->norm->Bf.font = FONT_Li; else if (0 == strcmp(np->child->string, "Sy")) np->norm->Bf.font = FONT_Sy; else mdoc_nmsg(mdoc, np, MANDOCERR_FONTTYPE); return(1); } static int post_lb(POST_ARGS) { const char *p; char *buf; size_t sz; check_count(mdoc, MDOC_ELEM, CHECK_WARN, CHECK_EQ, 1); assert(mdoc->last->child); assert(MDOC_TEXT == mdoc->last->child->type); p = mdoc_a2lib(mdoc->last->child->string); /* If lookup ok, replace with table value. */ if (p) { free(mdoc->last->child->string); mdoc->last->child->string = mandoc_strdup(p); return(1); } /* If not, use "library ``xxxx''. */ sz = strlen(mdoc->last->child->string) + 2 + strlen("\\(lqlibrary\\(rq"); buf = mandoc_malloc(sz); snprintf(buf, sz, "library \\(lq%s\\(rq", mdoc->last->child->string); free(mdoc->last->child->string); mdoc->last->child->string = buf; return(1); } static int post_eoln(POST_ARGS) { if (mdoc->last->child) mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_ARGSLOST); return(1); } static int post_vt(POST_ARGS) { const struct mdoc_node *n; /* * The Vt macro comes in both ELEM and BLOCK form, both of which * have different syntaxes (yet more context-sensitive * behaviour). ELEM types must have a child, which is already * guaranteed by the in_line parsing routine; BLOCK types, * specifically the BODY, should only have TEXT children. */ if (MDOC_BODY != mdoc->last->type) return(1); for (n = mdoc->last->child; n; n = n->next) if (MDOC_TEXT != n->type) mdoc_nmsg(mdoc, n, MANDOCERR_CHILD); return(1); } static int post_nm(POST_ARGS) { char buf[BUFSIZ]; int c; if (NULL != mdoc->meta.name) return(1); /* Try to use our children for setting the meta name. */ if (NULL != mdoc->last->child) { buf[0] = '\0'; c = concat(buf, mdoc->last->child, BUFSIZ); } else c = 0; switch (c) { case (-1): mdoc_nmsg(mdoc, mdoc->last->child, MANDOCERR_MEM); return(0); case (0): mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_NONAME); mdoc->meta.name = mandoc_strdup("UNKNOWN"); break; default: mdoc->meta.name = mandoc_strdup(buf); break; } return(1); } static int post_literal(POST_ARGS) { /* * The `Dl' (note "el" not "one") and `Bd' macros unset the * MDOC_LITERAL flag as they leave. Note that `Bd' only sets * this in literal mode, but it doesn't hurt to just switch it * off in general since displays can't be nested. */ if (MDOC_BODY == mdoc->last->type) mdoc->flags &= ~MDOC_LITERAL; return(1); } static int post_defaults(POST_ARGS) { struct mdoc_node *nn; /* * The `Ar' defaults to "file ..." if no value is provided as an * argument; the `Mt' and `Pa' macros use "~"; the `Li' just * gets an empty string. */ if (mdoc->last->child) return(1); nn = mdoc->last; mdoc->next = MDOC_NEXT_CHILD; switch (nn->tok) { case (MDOC_Ar): if ( ! mdoc_word_alloc(mdoc, nn->line, nn->pos, "file")) return(0); if ( ! mdoc_word_alloc(mdoc, nn->line, nn->pos, "...")) return(0); break; case (MDOC_At): if ( ! mdoc_word_alloc(mdoc, nn->line, nn->pos, "AT&T")) return(0); if ( ! mdoc_word_alloc(mdoc, nn->line, nn->pos, "UNIX")) return(0); break; case (MDOC_Li): if ( ! mdoc_word_alloc(mdoc, nn->line, nn->pos, "")) return(0); break; case (MDOC_Pa): /* FALLTHROUGH */ case (MDOC_Mt): if ( ! mdoc_word_alloc(mdoc, nn->line, nn->pos, "~")) return(0); break; default: abort(); /* NOTREACHED */ } mdoc->last = nn; return(1); } static int post_at(POST_ARGS) { const char *p, *q; char *buf; size_t sz; /* * If we have a child, look it up in the standard keys. If a * key exist, use that instead of the child; if it doesn't, * prefix "AT&T UNIX " to the existing data. */ if (NULL == mdoc->last->child) return(1); assert(MDOC_TEXT == mdoc->last->child->type); p = mdoc_a2att(mdoc->last->child->string); if (p) { free(mdoc->last->child->string); mdoc->last->child->string = mandoc_strdup(p); } else { mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_BADATT); p = "AT&T UNIX "; q = mdoc->last->child->string; sz = strlen(p) + strlen(q) + 1; buf = mandoc_malloc(sz); strlcpy(buf, p, sz); strlcat(buf, q, sz); free(mdoc->last->child->string); mdoc->last->child->string = buf; } return(1); } static int post_an(POST_ARGS) { struct mdoc_node *np; np = mdoc->last; if (AUTH__NONE == np->norm->An.auth) { if (0 == np->child) check_count(mdoc, MDOC_ELEM, CHECK_WARN, CHECK_GT, 0); } else if (np->child) check_count(mdoc, MDOC_ELEM, CHECK_WARN, CHECK_EQ, 0); return(1); } static int post_it(POST_ARGS) { int i, cols; enum mdoc_list lt; struct mdoc_node *n, *c; enum mandocerr er; if (MDOC_BLOCK != mdoc->last->type) return(1); n = mdoc->last->parent->parent; lt = n->norm->Bl.type; if (LIST__NONE == lt) { mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_LISTTYPE); return(1); } switch (lt) { case (LIST_tag): if (mdoc->last->head->child) break; /* FIXME: give this a dummy value. */ mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_NOARGS); break; case (LIST_hang): /* FALLTHROUGH */ case (LIST_ohang): /* FALLTHROUGH */ case (LIST_inset): /* FALLTHROUGH */ case (LIST_diag): if (NULL == mdoc->last->head->child) mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_NOARGS); break; case (LIST_bullet): /* FALLTHROUGH */ case (LIST_dash): /* FALLTHROUGH */ case (LIST_enum): /* FALLTHROUGH */ case (LIST_hyphen): if (NULL == mdoc->last->body->child) mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_NOBODY); /* FALLTHROUGH */ case (LIST_item): if (mdoc->last->head->child) mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_ARGSLOST); break; case (LIST_column): cols = (int)n->norm->Bl.ncols; assert(NULL == mdoc->last->head->child); if (NULL == mdoc->last->body->child) mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_NOBODY); for (i = 0, c = mdoc->last->child; c; c = c->next) if (MDOC_BODY == c->type) i++; if (i < cols) er = MANDOCERR_ARGCOUNT; else if (i == cols || i == cols + 1) break; else er = MANDOCERR_SYNTARGCOUNT; mandoc_vmsg(er, mdoc->parse, mdoc->last->line, mdoc->last->pos, "columns == %d (have %d)", cols, i); return(MANDOCERR_ARGCOUNT == er); default: break; } return(1); } static int post_bl_block(POST_ARGS) { struct mdoc_node *n, *ni, *nc; /* * These are fairly complicated, so we've broken them into two * functions. post_bl_block_tag() is called when a -tag is * specified, but no -width (it must be guessed). The second * when a -width is specified (macro indicators must be * rewritten into real lengths). */ n = mdoc->last; if (LIST_tag == n->norm->Bl.type && NULL == n->norm->Bl.width) { if ( ! post_bl_block_tag(mdoc)) return(0); assert(n->norm->Bl.width); } else if (NULL != n->norm->Bl.width) { if ( ! post_bl_block_width(mdoc)) return(0); assert(n->norm->Bl.width); } for (ni = n->body->child; ni; ni = ni->next) { if (NULL == ni->body) continue; nc = ni->body->last; while (NULL != nc) { switch (nc->tok) { case (MDOC_Pp): /* FALLTHROUGH */ case (MDOC_Lp): /* FALLTHROUGH */ case (MDOC_br): break; default: nc = NULL; continue; } if (NULL == ni->next) { mdoc_nmsg(mdoc, nc, MANDOCERR_MOVEPAR); if ( ! mdoc_node_relink(mdoc, nc)) return(0); } else if (0 == n->norm->Bl.comp && LIST_column != n->norm->Bl.type) { mdoc_nmsg(mdoc, nc, MANDOCERR_IGNPAR); mdoc_node_delete(mdoc, nc); } else break; nc = ni->body->last; } } return(1); } static int post_bl_block_width(POST_ARGS) { size_t width; int i; enum mdoct tok; struct mdoc_node *n; char buf[NUMSIZ]; n = mdoc->last; /* * Calculate the real width of a list from the -width string, * which may contain a macro (with a known default width), a * literal string, or a scaling width. * * If the value to -width is a macro, then we re-write it to be * the macro's width as set in share/tmac/mdoc/doc-common. */ if (0 == strcmp(n->norm->Bl.width, "Ds")) width = 6; else if (MDOC_MAX == (tok = mdoc_hash_find(n->norm->Bl.width))) return(1); else if (0 == (width = macro2len(tok))) { mdoc_nmsg(mdoc, n, MANDOCERR_BADWIDTH); return(1); } /* The value already exists: free and reallocate it. */ assert(n->args); for (i = 0; i < (int)n->args->argc; i++) if (MDOC_Width == n->args->argv[i].arg) break; assert(i < (int)n->args->argc); snprintf(buf, NUMSIZ, "%un", (unsigned int)width); free(n->args->argv[i].value[0]); n->args->argv[i].value[0] = mandoc_strdup(buf); /* Set our width! */ n->norm->Bl.width = n->args->argv[i].value[0]; return(1); } static int post_bl_block_tag(POST_ARGS) { struct mdoc_node *n, *nn; size_t sz, ssz; int i; char buf[NUMSIZ]; /* * Calculate the -width for a `Bl -tag' list if it hasn't been * provided. Uses the first head macro. NOTE AGAIN: this is * ONLY if the -width argument has NOT been provided. See * post_bl_block_width() for converting the -width string. */ sz = 10; n = mdoc->last; for (nn = n->body->child; nn; nn = nn->next) { if (MDOC_It != nn->tok) continue; assert(MDOC_BLOCK == nn->type); nn = nn->head->child; if (nn == NULL) break; if (MDOC_TEXT == nn->type) { sz = strlen(nn->string) + 1; break; } if (0 != (ssz = macro2len(nn->tok))) sz = ssz; break; } /* Defaults to ten ens. */ snprintf(buf, NUMSIZ, "%un", (unsigned int)sz); /* * We have to dynamically add this to the macro's argument list. * We're guaranteed that a MDOC_Width doesn't already exist. */ assert(n->args); i = (int)(n->args->argc)++; n->args->argv = mandoc_realloc(n->args->argv, n->args->argc * sizeof(struct mdoc_argv)); n->args->argv[i].arg = MDOC_Width; n->args->argv[i].line = n->line; n->args->argv[i].pos = n->pos; n->args->argv[i].sz = 1; n->args->argv[i].value = mandoc_malloc(sizeof(char *)); n->args->argv[i].value[0] = mandoc_strdup(buf); /* Set our width! */ n->norm->Bl.width = n->args->argv[i].value[0]; return(1); } static int post_bl_head(POST_ARGS) { struct mdoc_node *np, *nn, *nnp; int i, j; if (LIST_column != mdoc->last->norm->Bl.type) /* FIXME: this should be ERROR class... */ return(hwarn_eq0(mdoc)); /* * Convert old-style lists, where the column width specifiers * trail as macro parameters, to the new-style ("normal-form") * lists where they're argument values following -column. */ /* First, disallow both types and allow normal-form. */ /* * TODO: technically, we can accept both and just merge the two * lists, but I'll leave that for another day. */ if (mdoc->last->norm->Bl.ncols && mdoc->last->nchild) { mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_COLUMNS); return(0); } else if (NULL == mdoc->last->child) return(1); np = mdoc->last->parent; assert(np->args); for (j = 0; j < (int)np->args->argc; j++) if (MDOC_Column == np->args->argv[j].arg) break; assert(j < (int)np->args->argc); assert(0 == np->args->argv[j].sz); /* * Accommodate for new-style groff column syntax. Shuffle the * child nodes, all of which must be TEXT, as arguments for the * column field. Then, delete the head children. */ np->args->argv[j].sz = (size_t)mdoc->last->nchild; np->args->argv[j].value = mandoc_malloc ((size_t)mdoc->last->nchild * sizeof(char *)); mdoc->last->norm->Bl.ncols = np->args->argv[j].sz; mdoc->last->norm->Bl.cols = (void *)np->args->argv[j].value; for (i = 0, nn = mdoc->last->child; nn; i++) { np->args->argv[j].value[i] = nn->string; nn->string = NULL; nnp = nn; nn = nn->next; mdoc_node_delete(NULL, nnp); } mdoc->last->nchild = 0; mdoc->last->child = NULL; return(1); } static int post_bl(POST_ARGS) { struct mdoc_node *nparent, *nprev; /* of the Bl block */ struct mdoc_node *nblock, *nbody; /* of the Bl */ struct mdoc_node *nchild, *nnext; /* of the Bl body */ nbody = mdoc->last; switch (nbody->type) { case (MDOC_BLOCK): return(post_bl_block(mdoc)); case (MDOC_HEAD): return(post_bl_head(mdoc)); case (MDOC_BODY): break; default: return(1); } nchild = nbody->child; while (NULL != nchild) { if (MDOC_It == nchild->tok || MDOC_Sm == nchild->tok) { nchild = nchild->next; continue; } mdoc_nmsg(mdoc, nchild, MANDOCERR_CHILD); /* * Move the node out of the Bl block. * First, collect all required node pointers. */ nblock = nbody->parent; nprev = nblock->prev; nparent = nblock->parent; nnext = nchild->next; /* * Unlink this child. */ assert(NULL == nchild->prev); if (0 == --nbody->nchild) { nbody->child = NULL; nbody->last = NULL; assert(NULL == nnext); } else { nbody->child = nnext; nnext->prev = NULL; } /* * Relink this child. */ nchild->parent = nparent; nchild->prev = nprev; nchild->next = nblock; nblock->prev = nchild; nparent->nchild++; if (NULL == nprev) nparent->child = nchild; else nprev->next = nchild; nchild = nnext; } return(1); } static int ebool(struct mdoc *mdoc) { if (NULL == mdoc->last->child) { mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_MACROEMPTY); mdoc_node_delete(mdoc, mdoc->last); return(1); } check_count(mdoc, MDOC_ELEM, CHECK_WARN, CHECK_EQ, 1); assert(MDOC_TEXT == mdoc->last->child->type); if (0 == strcmp(mdoc->last->child->string, "on")) return(1); if (0 == strcmp(mdoc->last->child->string, "off")) return(1); mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_BADBOOL); return(1); } static int post_root(POST_ARGS) { int erc; struct mdoc_node *n; erc = 0; /* Check that we have a finished prologue. */ if ( ! (MDOC_PBODY & mdoc->flags)) { erc++; mdoc_nmsg(mdoc, mdoc->first, MANDOCERR_NODOCPROLOG); } n = mdoc->first; assert(n); /* Check that we begin with a proper `Sh'. */ if (NULL == n->child) { erc++; mdoc_nmsg(mdoc, n, MANDOCERR_NODOCBODY); } else if (MDOC_BLOCK != n->child->type || MDOC_Sh != n->child->tok) { erc++; /* Can this be lifted? See rxdebug.1 for example. */ mdoc_nmsg(mdoc, n, MANDOCERR_NODOCBODY); } return(erc ? 0 : 1); } static int post_st(POST_ARGS) { struct mdoc_node *ch; const char *p; if (NULL == (ch = mdoc->last->child)) { mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_MACROEMPTY); mdoc_node_delete(mdoc, mdoc->last); return(1); } assert(MDOC_TEXT == ch->type); if (NULL == (p = mdoc_a2st(ch->string))) { mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_BADSTANDARD); mdoc_node_delete(mdoc, mdoc->last); } else { free(ch->string); ch->string = mandoc_strdup(p); } return(1); } static int post_rs(POST_ARGS) { struct mdoc_node *nn, *next, *prev; int i, j; switch (mdoc->last->type) { case (MDOC_HEAD): check_count(mdoc, MDOC_HEAD, CHECK_WARN, CHECK_EQ, 0); return(1); case (MDOC_BODY): if (mdoc->last->child) break; check_count(mdoc, MDOC_BODY, CHECK_WARN, CHECK_GT, 0); return(1); default: return(1); } /* * Make sure only certain types of nodes are allowed within the * the `Rs' body. Delete offending nodes and raise a warning. * Do this before re-ordering for the sake of clarity. */ next = NULL; for (nn = mdoc->last->child; nn; nn = next) { for (i = 0; i < RSORD_MAX; i++) if (nn->tok == rsord[i]) break; if (i < RSORD_MAX) { if (MDOC__J == rsord[i] || MDOC__B == rsord[i]) mdoc->last->norm->Rs.quote_T++; next = nn->next; continue; } next = nn->next; mdoc_nmsg(mdoc, nn, MANDOCERR_CHILD); mdoc_node_delete(mdoc, nn); } /* * Nothing to sort if only invalid nodes were found * inside the `Rs' body. */ if (NULL == mdoc->last->child) return(1); /* * The full `Rs' block needs special handling to order the * sub-elements according to `rsord'. Pick through each element * and correctly order it. This is a insertion sort. */ next = NULL; for (nn = mdoc->last->child->next; nn; nn = next) { /* Determine order of `nn'. */ for (i = 0; i < RSORD_MAX; i++) if (rsord[i] == nn->tok) break; /* * Remove `nn' from the chain. This somewhat * repeats mdoc_node_unlink(), but since we're * just re-ordering, there's no need for the * full unlink process. */ if (NULL != (next = nn->next)) next->prev = nn->prev; if (NULL != (prev = nn->prev)) prev->next = nn->next; nn->prev = nn->next = NULL; /* * Scan back until we reach a node that's * ordered before `nn'. */ for ( ; prev ; prev = prev->prev) { /* Determine order of `prev'. */ for (j = 0; j < RSORD_MAX; j++) if (rsord[j] == prev->tok) break; if (j <= i) break; } /* * Set `nn' back into its correct place in front * of the `prev' node. */ nn->prev = prev; if (prev) { if (prev->next) prev->next->prev = nn; nn->next = prev->next; prev->next = nn; } else { mdoc->last->child->prev = nn; nn->next = mdoc->last->child; mdoc->last->child = nn; } } return(1); } /* * For some arguments of some macros, * convert all breakable hyphens into ASCII_HYPH. */ static int post_hyph(POST_ARGS) { struct mdoc_node *n, *nch; char *cp; n = mdoc->last; switch (n->type) { case (MDOC_HEAD): if (MDOC_Sh == n->tok || MDOC_Ss == n->tok) break; return(1); case (MDOC_BODY): if (MDOC_D1 == n->tok || MDOC_Nd == n->tok) break; return(1); case (MDOC_ELEM): break; default: return(1); } for (nch = n->child; nch; nch = nch->next) { if (MDOC_TEXT != nch->type) continue; cp = nch->string; if (3 > strnlen(cp, 3)) continue; while ('\0' != *(++cp)) if ('-' == *cp && isalpha((unsigned char)cp[-1]) && isalpha((unsigned char)cp[1])) *cp = ASCII_HYPH; } return(1); } static int post_ns(POST_ARGS) { if (MDOC_LINE & mdoc->last->flags) mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_IGNNS); return(1); } static int post_sh(POST_ARGS) { if (MDOC_HEAD == mdoc->last->type) return(post_sh_head(mdoc)); if (MDOC_BODY == mdoc->last->type) return(post_sh_body(mdoc)); return(1); } static int post_sh_body(POST_ARGS) { struct mdoc_node *n; if (SEC_NAME != mdoc->lastsec) return(1); /* * Warn if the NAME section doesn't contain the `Nm' and `Nd' * macros (can have multiple `Nm' and one `Nd'). Note that the * children of the BODY declaration can also be "text". */ if (NULL == (n = mdoc->last->child)) { mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_BADNAMESEC); return(1); } for ( ; n && n->next; n = n->next) { if (MDOC_ELEM == n->type && MDOC_Nm == n->tok) continue; if (MDOC_TEXT == n->type) continue; mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_BADNAMESEC); } assert(n); if (MDOC_BLOCK == n->type && MDOC_Nd == n->tok) return(1); mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_BADNAMESEC); return(1); } static int post_sh_head(POST_ARGS) { char buf[BUFSIZ]; struct mdoc_node *n; enum mdoc_sec sec; int c; /* * Process a new section. Sections are either "named" or * "custom". Custom sections are user-defined, while named ones * follow a conventional order and may only appear in certain * manual sections. */ sec = SEC_CUSTOM; buf[0] = '\0'; if (-1 == (c = concat(buf, mdoc->last->child, BUFSIZ))) { mdoc_nmsg(mdoc, mdoc->last->child, MANDOCERR_MEM); return(0); } else if (1 == c) sec = a2sec(buf); /* The NAME should be first. */ if (SEC_NAME != sec && SEC_NONE == mdoc->lastnamed) mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_NAMESECFIRST); /* The SYNOPSIS gets special attention in other areas. */ if (SEC_SYNOPSIS == sec) { roff_setreg(mdoc->roff, "nS", 1); mdoc->flags |= MDOC_SYNOPSIS; } else { roff_setreg(mdoc->roff, "nS", 0); mdoc->flags &= ~MDOC_SYNOPSIS; } /* Mark our last section. */ mdoc->lastsec = sec; /* * Set the section attribute for the current HEAD, for its * parent BLOCK, and for the HEAD children; the latter can * only be TEXT nodes, so no recursion is needed. * For other blocks and elements, including .Sh BODY, this is * done when allocating the node data structures, but for .Sh * BLOCK and HEAD, the section is still unknown at that time. */ mdoc->last->parent->sec = sec; mdoc->last->sec = sec; for (n = mdoc->last->child; n; n = n->next) n->sec = sec; /* We don't care about custom sections after this. */ if (SEC_CUSTOM == sec) return(1); /* * Check whether our non-custom section is being repeated or is * out of order. */ if (sec == mdoc->lastnamed) mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_SECREP); if (sec < mdoc->lastnamed) mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_SECOOO); /* Mark the last named section. */ mdoc->lastnamed = sec; /* Check particular section/manual conventions. */ assert(mdoc->meta.msec); switch (sec) { case (SEC_RETURN_VALUES): /* FALLTHROUGH */ case (SEC_ERRORS): /* FALLTHROUGH */ case (SEC_LIBRARY): if (*mdoc->meta.msec == '2') break; if (*mdoc->meta.msec == '3') break; if (*mdoc->meta.msec == '9') break; mandoc_msg(MANDOCERR_SECMSEC, mdoc->parse, mdoc->last->line, mdoc->last->pos, buf); break; default: break; } return(1); } static int post_ignpar(POST_ARGS) { struct mdoc_node *np; if (MDOC_BODY != mdoc->last->type) return(1); if (NULL != (np = mdoc->last->child)) if (MDOC_Pp == np->tok || MDOC_Lp == np->tok) { mdoc_nmsg(mdoc, np, MANDOCERR_IGNPAR); mdoc_node_delete(mdoc, np); } if (NULL != (np = mdoc->last->last)) if (MDOC_Pp == np->tok || MDOC_Lp == np->tok) { mdoc_nmsg(mdoc, np, MANDOCERR_IGNPAR); mdoc_node_delete(mdoc, np); } return(1); } static int pre_par(PRE_ARGS) { if (NULL == mdoc->last) return(1); if (MDOC_ELEM != n->type && MDOC_BLOCK != n->type) return(1); /* * Don't allow prior `Lp' or `Pp' prior to a paragraph-type * block: `Lp', `Pp', or non-compact `Bd' or `Bl'. */ if (MDOC_Pp != mdoc->last->tok && MDOC_Lp != mdoc->last->tok && MDOC_br != mdoc->last->tok) return(1); if (MDOC_Bl == n->tok && n->norm->Bl.comp) return(1); if (MDOC_Bd == n->tok && n->norm->Bd.comp) return(1); if (MDOC_It == n->tok && n->parent->norm->Bl.comp) return(1); mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_IGNPAR); mdoc_node_delete(mdoc, mdoc->last); return(1); } static int post_par(POST_ARGS) { if (MDOC_ELEM != mdoc->last->type && MDOC_BLOCK != mdoc->last->type) return(1); if (NULL == mdoc->last->prev) { if (MDOC_Sh != mdoc->last->parent->tok && MDOC_Ss != mdoc->last->parent->tok) return(1); } else { if (MDOC_Pp != mdoc->last->prev->tok && MDOC_Lp != mdoc->last->prev->tok && (MDOC_br != mdoc->last->tok || (MDOC_sp != mdoc->last->prev->tok && MDOC_br != mdoc->last->prev->tok))) return(1); } mdoc_nmsg(mdoc, mdoc->last, MANDOCERR_IGNPAR); mdoc_node_delete(mdoc, mdoc->last); return(1); } static int pre_literal(PRE_ARGS) { if (MDOC_BODY != n->type) return(1); /* * The `Dl' (note "el" not "one") and `Bd -literal' and `Bd * -unfilled' macros set MDOC_LITERAL on entrance to the body. */ switch (n->tok) { case (MDOC_Dl): mdoc->flags |= MDOC_LITERAL; break; case (MDOC_Bd): if (DISP_literal == n->norm->Bd.type) mdoc->flags |= MDOC_LITERAL; if (DISP_unfilled == n->norm->Bd.type) mdoc->flags |= MDOC_LITERAL; break; default: abort(); /* NOTREACHED */ } return(1); } static int post_dd(POST_ARGS) { char buf[DATESIZE]; struct mdoc_node *n; int c; if (mdoc->meta.date) free(mdoc->meta.date); n = mdoc->last; if (NULL == n->child || '\0' == n->child->string[0]) { mdoc->meta.date = mandoc_normdate (mdoc->parse, NULL, n->line, n->pos); return(1); } buf[0] = '\0'; if (-1 == (c = concat(buf, n->child, DATESIZE))) { mdoc_nmsg(mdoc, n->child, MANDOCERR_MEM); return(0); } assert(c); mdoc->meta.date = mandoc_normdate (mdoc->parse, buf, n->line, n->pos); return(1); } static int post_dt(POST_ARGS) { struct mdoc_node *nn, *n; const char *cp; char *p; n = mdoc->last; if (mdoc->meta.title) free(mdoc->meta.title); if (mdoc->meta.vol) free(mdoc->meta.vol); if (mdoc->meta.arch) free(mdoc->meta.arch); mdoc->meta.title = mdoc->meta.vol = mdoc->meta.arch = NULL; /* First make all characters uppercase. */ if (NULL != (nn = n->child)) for (p = nn->string; *p; p++) { if (toupper((unsigned char)*p) == *p) continue; /* * FIXME: don't be lazy: have this make all * characters be uppercase and just warn once. */ mdoc_nmsg(mdoc, nn, MANDOCERR_UPPERCASE); break; } /* Handles: `.Dt' * --> title = unknown, volume = local, msec = 0, arch = NULL */ if (NULL == (nn = n->child)) { /* XXX: make these macro values. */ /* FIXME: warn about missing values. */ mdoc->meta.title = mandoc_strdup("UNKNOWN"); mdoc->meta.vol = mandoc_strdup("LOCAL"); mdoc->meta.msec = mandoc_strdup("1"); return(1); } /* Handles: `.Dt TITLE' * --> title = TITLE, volume = local, msec = 0, arch = NULL */ mdoc->meta.title = mandoc_strdup ('\0' == nn->string[0] ? "UNKNOWN" : nn->string); if (NULL == (nn = nn->next)) { /* FIXME: warn about missing msec. */ /* XXX: make this a macro value. */ mdoc->meta.vol = mandoc_strdup("LOCAL"); mdoc->meta.msec = mandoc_strdup("1"); return(1); } /* Handles: `.Dt TITLE SEC' * --> title = TITLE, volume = SEC is msec ? * format(msec) : SEC, * msec = SEC is msec ? atoi(msec) : 0, * arch = NULL */ cp = mandoc_a2msec(nn->string); if (cp) { mdoc->meta.vol = mandoc_strdup(cp); mdoc->meta.msec = mandoc_strdup(nn->string); } else { mdoc_nmsg(mdoc, n, MANDOCERR_BADMSEC); mdoc->meta.vol = mandoc_strdup(nn->string); mdoc->meta.msec = mandoc_strdup(nn->string); } if (NULL == (nn = nn->next)) return(1); /* Handles: `.Dt TITLE SEC VOL' * --> title = TITLE, volume = VOL is vol ? * format(VOL) : * VOL is arch ? format(arch) : * VOL */ cp = mdoc_a2vol(nn->string); if (cp) { free(mdoc->meta.vol); mdoc->meta.vol = mandoc_strdup(cp); } else { cp = mdoc_a2arch(nn->string); if (NULL == cp) { mdoc_nmsg(mdoc, nn, MANDOCERR_BADVOLARCH); free(mdoc->meta.vol); mdoc->meta.vol = mandoc_strdup(nn->string); } else mdoc->meta.arch = mandoc_strdup(cp); } /* Ignore any subsequent parameters... */ /* FIXME: warn about subsequent parameters. */ return(1); } static int post_prol(POST_ARGS) { /* * Remove prologue macros from the document after they're * processed. The final document uses mdoc_meta for these * values and discards the originals. */ mdoc_node_delete(mdoc, mdoc->last); if (mdoc->meta.title && mdoc->meta.date && mdoc->meta.os) mdoc->flags |= MDOC_PBODY; return(1); } static int post_bx(POST_ARGS) { struct mdoc_node *n; /* * Make `Bx's second argument always start with an uppercase * letter. Groff checks if it's an "accepted" term, but we just * uppercase blindly. */ n = mdoc->last->child; if (n && NULL != (n = n->next)) *n->string = (char)toupper ((unsigned char)*n->string); return(1); } static int post_os(POST_ARGS) { struct mdoc_node *n; char buf[BUFSIZ]; int c; #ifndef OSNAME struct utsname utsname; #endif n = mdoc->last; /* * Set the operating system by way of the `Os' macro. * The order of precedence is: * 1. the argument of the `Os' macro, unless empty * 2. the -Ios=foo command line argument, if provided * 3. -DOSNAME="\"foo\"", if provided during compilation * 4. "sysname release" from uname(3) */ free(mdoc->meta.os); buf[0] = '\0'; if (-1 == (c = concat(buf, n->child, BUFSIZ))) { mdoc_nmsg(mdoc, n->child, MANDOCERR_MEM); return(0); } assert(c); if ('\0' == buf[0]) { if (mdoc->defos) { mdoc->meta.os = mandoc_strdup(mdoc->defos); return(1); } #ifdef OSNAME if (strlcat(buf, OSNAME, BUFSIZ) >= BUFSIZ) { mdoc_nmsg(mdoc, n, MANDOCERR_MEM); return(0); } #else /*!OSNAME */ if (-1 == uname(&utsname)) { mdoc_nmsg(mdoc, n, MANDOCERR_UNAME); mdoc->meta.os = mandoc_strdup("UNKNOWN"); return(post_prol(mdoc)); } if (strlcat(buf, utsname.sysname, BUFSIZ) >= BUFSIZ) { mdoc_nmsg(mdoc, n, MANDOCERR_MEM); return(0); } if (strlcat(buf, " ", BUFSIZ) >= BUFSIZ) { mdoc_nmsg(mdoc, n, MANDOCERR_MEM); return(0); } if (strlcat(buf, utsname.release, BUFSIZ) >= BUFSIZ) { mdoc_nmsg(mdoc, n, MANDOCERR_MEM); return(0); } #endif /*!OSNAME*/ } mdoc->meta.os = mandoc_strdup(buf); return(1); } static int post_std(POST_ARGS) { struct mdoc_node *nn, *n; n = mdoc->last; /* * Macros accepting `-std' as an argument have the name of the * current document (`Nm') filled in as the argument if it's not * provided. */ if (n->child) return(1); if (NULL == mdoc->meta.name) return(1); nn = n; mdoc->next = MDOC_NEXT_CHILD; if ( ! mdoc_word_alloc(mdoc, n->line, n->pos, mdoc->meta.name)) return(0); mdoc->last = nn; return(1); } /* * Concatenate a node, stopping at the first non-text. * Concatenation is separated by a single whitespace. * Returns -1 on fatal (string overrun) error, 0 if child nodes were * encountered, 1 otherwise. */ static int concat(char *p, const struct mdoc_node *n, size_t sz) { for ( ; NULL != n; n = n->next) { if (MDOC_TEXT != n->type) return(0); if ('\0' != p[0] && strlcat(p, " ", sz) >= sz) return(-1); if (strlcat(p, n->string, sz) >= sz) return(-1); concat(p, n->child, sz); } return(1); } static enum mdoc_sec a2sec(const char *p) { int i; for (i = 0; i < (int)SEC__MAX; i++) if (secnames[i] && 0 == strcmp(p, secnames[i])) return((enum mdoc_sec)i); return(SEC_CUSTOM); } static size_t macro2len(enum mdoct macro) { switch (macro) { case(MDOC_Ad): return(12); case(MDOC_Ao): return(12); case(MDOC_An): return(12); case(MDOC_Aq): return(12); case(MDOC_Ar): return(12); case(MDOC_Bo): return(12); case(MDOC_Bq): return(12); case(MDOC_Cd): return(12); case(MDOC_Cm): return(10); case(MDOC_Do): return(10); case(MDOC_Dq): return(12); case(MDOC_Dv): return(12); case(MDOC_Eo): return(12); case(MDOC_Em): return(10); case(MDOC_Er): return(17); case(MDOC_Ev): return(15); case(MDOC_Fa): return(12); case(MDOC_Fl): return(10); case(MDOC_Fo): return(16); case(MDOC_Fn): return(16); case(MDOC_Ic): return(10); case(MDOC_Li): return(16); case(MDOC_Ms): return(6); case(MDOC_Nm): return(10); case(MDOC_No): return(12); case(MDOC_Oo): return(10); case(MDOC_Op): return(14); case(MDOC_Pa): return(32); case(MDOC_Pf): return(12); case(MDOC_Po): return(12); case(MDOC_Pq): return(12); case(MDOC_Ql): return(16); case(MDOC_Qo): return(12); case(MDOC_So): return(12); case(MDOC_Sq): return(12); case(MDOC_Sy): return(6); case(MDOC_Sx): return(16); case(MDOC_Tn): return(10); case(MDOC_Va): return(12); case(MDOC_Vt): return(12); case(MDOC_Xr): return(10); default: break; }; return(0); }