/* $Id$ */ /* * Copyright (c) 2008-2012, 2014 Kristaps Dzonsons * Copyright (c) 2013, 2014, 2015, 2017 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 AUTHORS DISCLAIM ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS 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 "config.h" #include #include #include #include #include #include #include "mandoc_aux.h" #include "roff.h" #include "man.h" #include "out.h" #include "html.h" #include "main.h" /* FIXME: have PD set the default vspace width. */ #define INDENT 5 #define MAN_ARGS const struct roff_meta *man, \ const struct roff_node *n, \ struct html *h struct htmlman { int (*pre)(MAN_ARGS); int (*post)(MAN_ARGS); }; static void print_bvspace(struct html *, const struct roff_node *); static void print_man_head(MAN_ARGS); static void print_man_nodelist(MAN_ARGS); static void print_man_node(MAN_ARGS); static int fillmode(struct html *, int); static int a2width(const struct roff_node *, struct roffsu *); static int man_B_pre(MAN_ARGS); static int man_HP_pre(MAN_ARGS); static int man_IP_pre(MAN_ARGS); static int man_I_pre(MAN_ARGS); static int man_OP_pre(MAN_ARGS); static int man_PP_pre(MAN_ARGS); static int man_RS_pre(MAN_ARGS); static int man_SH_pre(MAN_ARGS); static int man_SM_pre(MAN_ARGS); static int man_SS_pre(MAN_ARGS); static int man_UR_pre(MAN_ARGS); static int man_alt_pre(MAN_ARGS); static int man_ign_pre(MAN_ARGS); static int man_in_pre(MAN_ARGS); static void man_root_post(MAN_ARGS); static void man_root_pre(MAN_ARGS); static const struct htmlman __mans[MAN_MAX - MAN_TH] = { { NULL, NULL }, /* TH */ { man_SH_pre, NULL }, /* SH */ { man_SS_pre, NULL }, /* SS */ { man_IP_pre, NULL }, /* TP */ { man_PP_pre, NULL }, /* LP */ { man_PP_pre, NULL }, /* PP */ { man_PP_pre, NULL }, /* P */ { man_IP_pre, NULL }, /* IP */ { man_HP_pre, NULL }, /* HP */ { man_SM_pre, NULL }, /* SM */ { man_SM_pre, NULL }, /* SB */ { man_alt_pre, NULL }, /* BI */ { man_alt_pre, NULL }, /* IB */ { man_alt_pre, NULL }, /* BR */ { man_alt_pre, NULL }, /* RB */ { NULL, NULL }, /* R */ { man_B_pre, NULL }, /* B */ { man_I_pre, NULL }, /* I */ { man_alt_pre, NULL }, /* IR */ { man_alt_pre, NULL }, /* RI */ { NULL, NULL }, /* nf */ { NULL, NULL }, /* fi */ { NULL, NULL }, /* RE */ { man_RS_pre, NULL }, /* RS */ { man_ign_pre, NULL }, /* DT */ { man_ign_pre, NULL }, /* UC */ { man_ign_pre, NULL }, /* PD */ { man_ign_pre, NULL }, /* AT */ { man_in_pre, NULL }, /* in */ { man_OP_pre, NULL }, /* OP */ { NULL, NULL }, /* EX */ { NULL, NULL }, /* EE */ { man_UR_pre, NULL }, /* UR */ { NULL, NULL }, /* UE */ }; static const struct htmlman *const mans = __mans - MAN_TH; /* * Printing leading vertical space before a block. * This is used for the paragraph macros. * The rules are pretty simple, since there's very little nesting going * on here. Basically, if we're the first within another block (SS/SH), * then don't emit vertical space. If we are (RS), then do. If not the * first, print it. */ static void print_bvspace(struct html *h, const struct roff_node *n) { if (n->body && n->body->child) if (n->body->child->type == ROFFT_TBL) return; if (n->parent->type == ROFFT_ROOT || n->parent->tok != MAN_RS) if (NULL == n->prev) return; print_paragraph(h); } void html_man(void *arg, const struct roff_man *man) { struct html *h; struct tag *t; h = (struct html *)arg; if ((h->oflags & HTML_FRAGMENT) == 0) { print_gen_decls(h); print_otag(h, TAG_HTML, ""); t = print_otag(h, TAG_HEAD, ""); print_man_head(&man->meta, man->first, h); print_tagq(h, t); print_otag(h, TAG_BODY, ""); } man_root_pre(&man->meta, man->first, h); t = print_otag(h, TAG_DIV, "c", "manual-text"); print_man_nodelist(&man->meta, man->first->child, h); print_tagq(h, t); man_root_post(&man->meta, man->first, h); print_tagq(h, NULL); } static void print_man_head(MAN_ARGS) { char *cp; print_gen_head(h); mandoc_asprintf(&cp, "%s(%s)", man->title, man->msec); print_otag(h, TAG_TITLE, ""); print_text(h, cp); free(cp); } static void print_man_nodelist(MAN_ARGS) { while (n != NULL) { print_man_node(man, n, h); n = n->next; } } static void print_man_node(MAN_ARGS) { static int want_fillmode = MAN_fi; static int save_fillmode; struct tag *t; int child; /* * Handle fill mode switch requests up front, * they would just cause trouble in the subsequent code. */ switch (n->tok) { case MAN_nf: case MAN_EX: want_fillmode = MAN_nf; return; case MAN_fi: case MAN_EE: want_fillmode = MAN_fi; if (fillmode(h, 0) == MAN_fi) print_otag(h, TAG_BR, ""); return; default: break; } /* Set up fill mode for the upcoming node. */ switch (n->type) { case ROFFT_BLOCK: save_fillmode = 0; /* Some block macros suspend or cancel .nf. */ switch (n->tok) { case MAN_TP: /* Tagged paragraphs */ case MAN_IP: /* temporarily disable .nf */ case MAN_HP: /* for the head. */ save_fillmode = want_fillmode; /* FALLTHROUGH */ case MAN_SH: /* Section headers */ case MAN_SS: /* permanently cancel .nf. */ want_fillmode = MAN_fi; /* FALLTHROUGH */ case MAN_PP: /* These have no head. */ case MAN_LP: /* They will simply */ case MAN_P: /* reopen .nf in the body. */ case MAN_RS: case MAN_UR: fillmode(h, MAN_fi); break; default: break; } break; case ROFFT_TBL: fillmode(h, MAN_fi); break; case ROFFT_ELEM: /* * Some in-line macros produce tags and/or text * in the handler, so they require fill mode to be * configured up front just like for text nodes. * For the others, keep the traditional approach * of doing the same, for now. */ fillmode(h, want_fillmode); break; case ROFFT_TEXT: if (fillmode(h, want_fillmode) == MAN_fi && want_fillmode == MAN_fi && n->flags & NODE_LINE && *n->string == ' ') print_otag(h, TAG_BR, ""); if (*n->string != '\0') break; print_paragraph(h); return; default: break; } /* Produce output for this node. */ child = 1; switch (n->type) { case ROFFT_TEXT: t = h->tag; print_text(h, n->string); break; case ROFFT_EQN: t = h->tag; print_eqn(h, n->eqn); break; case ROFFT_TBL: /* * This will take care of initialising all of the table * state data for the first table, then tearing it down * for the last one. */ print_tbl(h, n->span); return; default: /* * Close out scope of font prior to opening a macro * scope. */ if (HTMLFONT_NONE != h->metac) { h->metal = h->metac; h->metac = HTMLFONT_NONE; } /* * Close out the current table, if it's open, and unset * the "meta" table state. This will be reopened on the * next table element. */ if (h->tblt) print_tblclose(h); t = h->tag; if (n->tok < ROFF_MAX) { roff_html_pre(h, n); child = 0; break; } assert(n->tok >= MAN_TH && n->tok < MAN_MAX); if (mans[n->tok].pre) child = (*mans[n->tok].pre)(man, n, h); /* Some block macros resume .nf in the body. */ if (save_fillmode && n->type == ROFFT_BODY) want_fillmode = save_fillmode; break; } if (child && n->child) print_man_nodelist(man, n->child, h); /* This will automatically close out any font scope. */ print_stagq(h, t); if (fillmode(h, 0) == MAN_nf && n->next != NULL && n->next->flags & NODE_LINE) print_endline(h); } /* * MAN_nf switches to no-fill mode, MAN_fi to fill mode. * Other arguments do not switch. * The old mode is returned. */ static int fillmode(struct html *h, int want) { struct tag *pre; int had; for (pre = h->tag; pre != NULL; pre = pre->next) if (pre->tag == TAG_PRE) break; had = pre == NULL ? MAN_fi : MAN_nf; if (want && want != had) { if (want == MAN_nf) print_otag(h, TAG_PRE, ""); else print_tagq(h, pre); } return had; } static int a2width(const struct roff_node *n, struct roffsu *su) { if (n->type != ROFFT_TEXT) return 0; if (a2roffsu(n->string, su, SCALE_EN)) return 1; return 0; } static void man_root_pre(MAN_ARGS) { struct tag *t, *tt; char *title; assert(man->title); assert(man->msec); mandoc_asprintf(&title, "%s(%s)", man->title, man->msec); t = print_otag(h, TAG_TABLE, "c", "head"); tt = print_otag(h, TAG_TR, ""); print_otag(h, TAG_TD, "c", "head-ltitle"); print_text(h, title); print_stagq(h, tt); print_otag(h, TAG_TD, "c", "head-vol"); if (NULL != man->vol) print_text(h, man->vol); print_stagq(h, tt); print_otag(h, TAG_TD, "c", "head-rtitle"); print_text(h, title); print_tagq(h, t); free(title); } static void man_root_post(MAN_ARGS) { struct tag *t, *tt; t = print_otag(h, TAG_TABLE, "c", "foot"); tt = print_otag(h, TAG_TR, ""); print_otag(h, TAG_TD, "c", "foot-date"); print_text(h, man->date); print_stagq(h, tt); print_otag(h, TAG_TD, "c", "foot-os"); if (man->os) print_text(h, man->os); print_tagq(h, t); } static int man_SH_pre(MAN_ARGS) { char *id; if (n->type == ROFFT_HEAD) { id = html_make_id(n); print_otag(h, TAG_H1, "cTi", "Sh", id); if (id != NULL) print_otag(h, TAG_A, "chR", "selflink", id); free(id); } return 1; } static int man_alt_pre(MAN_ARGS) { const struct roff_node *nn; int i; enum htmltag fp; struct tag *t; for (i = 0, nn = n->child; nn; nn = nn->next, i++) { switch (n->tok) { case MAN_BI: fp = i % 2 ? TAG_I : TAG_B; break; case MAN_IB: fp = i % 2 ? TAG_B : TAG_I; break; case MAN_RI: fp = i % 2 ? TAG_I : TAG_MAX; break; case MAN_IR: fp = i % 2 ? TAG_MAX : TAG_I; break; case MAN_BR: fp = i % 2 ? TAG_MAX : TAG_B; break; case MAN_RB: fp = i % 2 ? TAG_B : TAG_MAX; break; default: abort(); } if (i) h->flags |= HTML_NOSPACE; if (fp != TAG_MAX) t = print_otag(h, fp, ""); print_text(h, nn->string); if (fp != TAG_MAX) print_tagq(h, t); } return 0; } static int man_SM_pre(MAN_ARGS) { print_otag(h, TAG_SMALL, ""); if (MAN_SB == n->tok) print_otag(h, TAG_B, ""); return 1; } static int man_SS_pre(MAN_ARGS) { char *id; if (n->type == ROFFT_HEAD) { id = html_make_id(n); print_otag(h, TAG_H2, "cTi", "Ss", id); if (id != NULL) print_otag(h, TAG_A, "chR", "selflink", id); free(id); } return 1; } static int man_PP_pre(MAN_ARGS) { if (n->type == ROFFT_HEAD) return 0; else if (n->type == ROFFT_BLOCK) print_bvspace(h, n); return 1; } static int man_IP_pre(MAN_ARGS) { const struct roff_node *nn; if (n->type == ROFFT_BODY) { print_otag(h, TAG_DD, "c", "It-tag"); return 1; } else if (n->type != ROFFT_HEAD) { print_otag(h, TAG_DL, "c", "Bl-tag"); return 1; } /* FIXME: width specification. */ print_otag(h, TAG_DT, "c", "It-tag"); /* For IP, only print the first header element. */ if (MAN_IP == n->tok && n->child) print_man_node(man, n->child, h); /* For TP, only print next-line header elements. */ if (MAN_TP == n->tok) { nn = n->child; while (NULL != nn && 0 == (NODE_LINE & nn->flags)) nn = nn->next; while (NULL != nn) { print_man_node(man, nn, h); nn = nn->next; } } return 0; } static int man_HP_pre(MAN_ARGS) { struct roffsu sum, sui; const struct roff_node *np; if (n->type == ROFFT_HEAD) return 0; else if (n->type != ROFFT_BLOCK) return 1; np = n->head->child; if (np == NULL || !a2width(np, &sum)) SCALE_HS_INIT(&sum, INDENT); sui.unit = sum.unit; sui.scale = -sum.scale; print_bvspace(h, n); print_otag(h, TAG_DIV, "csului", "Pp", &sum, &sui); return 1; } static int man_OP_pre(MAN_ARGS) { struct tag *tt; print_text(h, "["); h->flags |= HTML_NOSPACE; tt = print_otag(h, TAG_SPAN, "c", "Op"); if (NULL != (n = n->child)) { print_otag(h, TAG_B, ""); print_text(h, n->string); } print_stagq(h, tt); if (NULL != n && NULL != n->next) { print_otag(h, TAG_I, ""); print_text(h, n->next->string); } print_stagq(h, tt); h->flags |= HTML_NOSPACE; print_text(h, "]"); return 0; } static int man_B_pre(MAN_ARGS) { print_otag(h, TAG_B, ""); return 1; } static int man_I_pre(MAN_ARGS) { print_otag(h, TAG_I, ""); return 1; } static int man_in_pre(MAN_ARGS) { print_otag(h, TAG_BR, ""); return 0; } static int man_ign_pre(MAN_ARGS) { return 0; } static int man_RS_pre(MAN_ARGS) { struct roffsu su; if (n->type == ROFFT_HEAD) return 0; else if (n->type == ROFFT_BODY) return 1; SCALE_HS_INIT(&su, INDENT); if (n->head->child) a2width(n->head->child, &su); print_otag(h, TAG_DIV, "sul", &su); return 1; } static int man_UR_pre(MAN_ARGS) { n = n->child; assert(n->type == ROFFT_HEAD); if (n->child != NULL) { assert(n->child->type == ROFFT_TEXT); print_otag(h, TAG_A, "cTh", "Lk", n->child->string); } assert(n->next->type == ROFFT_BODY); if (n->next->child != NULL) n = n->next; print_man_nodelist(man, n->child, h); return 0; }