, then the "x" tag follows the line breaks inserted * by the
tag). */ struct tag *last_tag_for_newline; struct link_state_info link_state_info; struct conv_table *convert_table; /* Used for setting cache info from HTTP-EQUIV meta tags. */ struct cache_entry *cached; int g_ctrl_num; int subscript; /* Count stacked subscripts */ int supscript; /* Count stacked supscripts */ unsigned int empty_format:1; unsigned int nobreak:1; unsigned int nosearchable:1; unsigned int nowrap:1; /* Activated/deactivated by SP_NOWRAP. */ }; static struct renderer_context renderer_context; /* Prototypes */ static void line_break(struct html_context *); static void put_chars(struct html_context *, unsigned char *, int); #define X(x_) (part->box.x + (x_)) #define Y(y_) (part->box.y + (y_)) #define SPACES_GRANULARITY 0x7F #define ALIGN_SPACES(x, o, n) mem_align_alloc(x, o, n, SPACES_GRANULARITY) static inline void set_screen_char_color(struct screen_char *schar, color_T bgcolor, color_T fgcolor, enum color_flags color_flags, enum color_mode color_mode) { struct color_pair colors = INIT_COLOR_PAIR(bgcolor, fgcolor); set_term_color(schar, &colors, color_flags, color_mode); } static int realloc_line(struct html_context *html_context, struct document *document, int y, int length) { struct screen_char *pos, *end; struct line *line; if (!realloc_lines(document, y)) return -1; line = &document->data[y]; if (length < line->length) return 0; if (!ALIGN_LINE(&line->chars, line->length, length + 1)) return -1; /* We cannot rely on the aligned allocation to clear the members for us * since for line splitting we simply trim the length. Question is if * it is better to to clear the line after the splitting or here. */ end = &line->chars[length]; end->data = ' '; end->attr = 0; set_screen_char_color(end, par_format.bgcolor, 0x0, 0, document->options.color_mode); for (pos = &line->chars[line->length]; pos < end; pos++) { copy_screen_chars(pos, end, 1); } line->length = length + 1; return 0; } void expand_lines(struct html_context *html_context, struct part *part, int x, int y, int lines, color_T bgcolor) { int line; assert(part && part->document); if_assert_failed return; if (!use_document_bg_colors(&part->document->options)) return; par_format.bgcolor = bgcolor; for (line = 0; line < lines; line++) realloc_line(html_context, part->document, Y(y + line), X(x)); } static inline int realloc_spaces(struct part *part, int length) { if (length < part->spaces_len) return 0; if (!ALIGN_SPACES(&part->spaces, part->spaces_len, length)) return -1; part->spaces_len = length; return 0; } #define LINE(y_) part->document->data[Y(y_)] #define POS(x_, y_) LINE(y_).chars[X(x_)] #define LEN(y_) int_max(LINE(y_).length - part->box.x, 0) /* When we clear chars we want to preserve and use the background colors * already in place else we could end up ``staining'' the background especial * when drawing table cells. So make the cleared chars share the colors in * place. */ static inline void clear_hchars(struct html_context *html_context, int x, int y, int width) { struct part *part; struct screen_char *pos, *end; assert(html_context); if_assert_failed return; part = html_context->part; assert(part && part->document && width > 0); if_assert_failed return; if (realloc_line(html_context, part->document, Y(y), X(x) + width - 1)) return; assert(part->document->data); if_assert_failed return; pos = &POS(x, y); end = pos + width - 1; end->data = ' '; end->attr = 0; set_screen_char_color(end, par_format.bgcolor, 0x0, 0, part->document->options.color_mode); while (pos < end) copy_screen_chars(pos++, end, 1); } /* TODO: Merge parts with get_format_screen_char(). --jonas */ /* Allocates the required chars on the given line and returns the char at * position (x, y) ready to be used as a template char. */ static inline struct screen_char * get_frame_char(struct html_context *html_context, struct part *part, int x, int y, unsigned char data, color_T bgcolor, color_T fgcolor) { struct screen_char *template; assert(html_context); if_assert_failed return NULL; assert(part && part->document && x >= 0 && y >= 0); if_assert_failed return NULL; if (realloc_line(html_context, part->document, Y(y), X(x))) return NULL; assert(part->document->data); if_assert_failed return NULL; template = &POS(x, y); template->data = data; template->attr = SCREEN_ATTR_FRAME; set_screen_char_color(template, bgcolor, fgcolor, part->document->options.color_flags, part->document->options.color_mode); return template; } void draw_frame_hchars(struct part *part, int x, int y, int width, unsigned char data, color_T bgcolor, color_T fgcolor, struct html_context *html_context) { struct screen_char *template; assert(width > 0); if_assert_failed return; template = get_frame_char(html_context, part, x + width - 1, y, data, bgcolor, fgcolor); if (!template) return; /* The template char is the last we need to draw so only decrease @width. */ for (width -= 1; width; width--, x++) { copy_screen_chars(&POS(x, y), template, 1); } } void draw_frame_vchars(struct part *part, int x, int y, int height, unsigned char data, color_T bgcolor, color_T fgcolor, struct html_context *html_context) { struct screen_char *template = get_frame_char(html_context, part, x, y, data, bgcolor, fgcolor); if (!template) return; /* The template char is the first vertical char to be drawn. So * copy it to the rest. */ for (height -= 1, y += 1; height; height--, y++) { if (realloc_line(html_context, part->document, Y(y), X(x))) return; copy_screen_chars(&POS(x, y), template, 1); } } static inline struct screen_char * get_format_screen_char(struct html_context *html_context, enum link_state link_state) { static struct text_attrib_style ta_cache = { -1, 0x0, 0x0 }; static struct screen_char schar_cache; if (memcmp(&ta_cache, &format.style, sizeof(ta_cache))) { copy_struct(&ta_cache, &format.style); schar_cache.attr = 0; if (format.style.attr) { if (format.style.attr & AT_UNDERLINE) { schar_cache.attr |= SCREEN_ATTR_UNDERLINE; } if (format.style.attr & AT_BOLD) { schar_cache.attr |= SCREEN_ATTR_BOLD; } if (format.style.attr & AT_ITALIC) { schar_cache.attr |= SCREEN_ATTR_ITALIC; } if (format.style.attr & AT_GRAPHICS) { schar_cache.attr |= SCREEN_ATTR_FRAME; } } if (link_state != LINK_STATE_NONE && html_context->options->underline_links) { schar_cache.attr |= SCREEN_ATTR_UNDERLINE; } set_screen_char_color(&schar_cache, format.style.bg, format.style.fg, html_context->options->color_flags, html_context->options->color_mode); } if (!!(schar_cache.attr & SCREEN_ATTR_UNSEARCHABLE) ^ !!renderer_context.nosearchable) { schar_cache.attr ^= SCREEN_ATTR_UNSEARCHABLE; } return &schar_cache; } /* First possibly do the format change and then find out what coordinates * to use since sub- or superscript might change them */ static inline void set_hline(struct html_context *html_context, unsigned char *chars, int charslen, enum link_state link_state) { struct part *part = html_context->part; struct screen_char *schar = get_format_screen_char(html_context, link_state); int x = part->cx; int y = part->cy; assert(part); if_assert_failed return; if (realloc_spaces(part, x + charslen)) return; if (part->document) { if (realloc_line(html_context, part->document, Y(y), X(x) + charslen - 1)) return; for (; charslen > 0; charslen--, x++, chars++) { if (*chars == NBSP_CHAR) { schar->data = ' '; part->spaces[x] = html_context->options->wrap_nbsp; } else { part->spaces[x] = (*chars == ' '); schar->data = *chars; } copy_screen_chars(&POS(x, y), schar, 1); } } else { for (; charslen > 0; charslen--, x++, chars++) { part->spaces[x] = (*chars == ' '); } } } static void move_links(struct html_context *html_context, int xf, int yf, int xt, int yt) { struct part *part; struct tag *tag; int nlink = renderer_context.last_link_to_move; int matched = 0; assert(html_context); if_assert_failed return; part = html_context->part; assert(part && part->document); if_assert_failed return; if (!realloc_lines(part->document, Y(yt))) return; for (; nlink < part->document->nlinks; nlink++) { struct link *link = &part->document->links[nlink]; int i; for (i = 0; i < link->npoints; i++) { /* Fix for bug 479 (part one) */ /* The scenario that triggered it: * * Imagine a centered element containing a really long * word (over half of the screen width long) followed * by a few links with no spaces between them where all * the link text combined with the really long word * will force the line to be wrapped. When rendering * the line first words (including link text words) are * put on one line. Then wrapping is performed moving * all links from current line to the one below. Then * the current line (now only containing the really * long word) is centered. This will trigger a call to * move_links() which will increment. * * Without the fix below the centering of the current * line will increment last_link_to_move to that of the * last link which means centering of the next line * with all the links will only move the last link * leaving all the other links' points dangling and * causing buggy link highlighting. * * Even links like textareas will be correctly handled * because @last_link_to_move is a way to optimize how * many links move_links() will have to iterate and * this little fix will only decrease the effect of the * optimization by always ensuring it is never * incremented too far. */ if (!matched && link->points[i].y > Y(yf)) { matched = 1; continue; } if (link->points[i].y != Y(yf)) continue; matched = 1; if (link->points[i].x < X(xf)) continue; if (yt >= 0) { link->points[i].y = Y(yt); link->points[i].x += -xf + xt; } else { int to_move = link->npoints - (i + 1); assert(to_move >= 0); if (to_move > 0) { memmove(&link->points[i], &link->points[i + 1], to_move * sizeof(*link->points)); i--; } link->npoints--; } } if (!matched) { renderer_context.last_link_to_move = nlink; } } /* Don't move tags when removing links. */ if (yt < 0) return; matched = 0; tag = renderer_context.last_tag_to_move; while (list_has_next(part->document->tags, tag)) { tag = tag->next; if (tag->y == Y(yf)) { matched = 1; if (tag->x >= X(xf)) { tag->y = Y(yt); tag->x += -xf + xt; } } else if (!matched && tag->y > Y(yf)) { /* Fix for bug 479 (part two) */ matched = 1; } if (!matched) renderer_context.last_tag_to_move = tag; } } static inline void copy_chars(struct html_context *html_context, int x, int y, int width, struct screen_char *d) { struct part *part; assert(html_context); if_assert_failed return; part = html_context->part; assert(width > 0 && part && part->document && part->document->data); if_assert_failed return; if (realloc_line(html_context, part->document, Y(y), X(x) + width - 1)) return; copy_screen_chars(&POS(x, y), d, width); } static inline void move_chars(struct html_context *html_context, int x, int y, int nx, int ny) { struct part *part; assert(html_context); if_assert_failed return; part = html_context->part; assert(part && part->document && part->document->data); if_assert_failed return; if (LEN(y) - x <= 0) return; copy_chars(html_context, nx, ny, LEN(y) - x, &POS(x, y)); LINE(y).length = X(x); move_links(html_context, x, y, nx, ny); } static inline void shift_chars(struct html_context *html_context, int y, int shift) { struct part *part; struct screen_char *a; int len; assert(html_context); if_assert_failed return; part = html_context->part; assert(part && part->document && part->document->data); if_assert_failed return; len = LEN(y); a = fmem_alloc(len * sizeof(*a)); if (!a) return; copy_screen_chars(a, &POS(0, y), len); clear_hchars(html_context, 0, y, shift); copy_chars(html_context, shift, y, len, a); fmem_free(a); move_links(html_context, 0, y, shift, y); } static inline void del_chars(struct html_context *html_context, int x, int y) { struct part *part; assert(html_context); if_assert_failed return; part = html_context->part; assert(part && part->document && part->document->data); if_assert_failed return; LINE(y).length = X(x); move_links(html_context, x, y, -1, -1); } #if TABLE_LINE_PADDING < 0 # define overlap_width(x) (x).width #else # define overlap_width(x) int_min((x).width, \ html_context->options->box.width - TABLE_LINE_PADDING) #endif #define overlap(x) int_max(overlap_width(x) - (x).rightmargin, 0) static int inline split_line_at(struct html_context *html_context, int width) { struct part *part; int tmp; int new_width = width + par_format.rightmargin; assert(html_context); if_assert_failed return 0; part = html_context->part; assert(part); if_assert_failed return 0; /* Make sure that we count the right margin to the total * actual box width. */ int_lower_bound(&part->box.width, new_width); if (part->document) { assert(part->document->data); if_assert_failed return 0; assertm(POS(width, part->cy).data == ' ', "bad split: %c", POS(width, part->cy).data); move_chars(html_context, width + 1, part->cy, par_format.leftmargin, part->cy + 1); del_chars(html_context, width, part->cy); } width++; /* Since we were using (x + 1) only later... */ tmp = part->spaces_len - width; if (tmp > 0) { /* 0 is possible and I'm paranoid ... --Zas */ memmove(part->spaces, part->spaces + width, tmp); } assert(tmp >= 0); if_assert_failed tmp = 0; memset(part->spaces + tmp, 0, width); if (par_format.leftmargin > 0) { tmp = part->spaces_len - par_format.leftmargin; assertm(tmp > 0, "part->spaces_len - par_format.leftmargin == %d", tmp); /* So tmp is zero, memmove() should survive that. Don't recover. */ memmove(part->spaces + par_format.leftmargin, part->spaces, tmp); } part->cy++; if (part->cx == width) { part->cx = -1; int_lower_bound(&part->box.height, part->cy); return 2; } else { part->cx -= width - par_format.leftmargin; int_lower_bound(&part->box.height, part->cy + 1); return 1; } } /* Here, we scan the line for a possible place where we could split it into two * (breaking it, because it is too long), if it is overlapping from the maximal * box width. */ /* Returns 0 if there was found no spot suitable for breaking the line. * 1 if the line was split into two. * 2 if the (second) splitted line is blank (that is useful to determine * ie. if the next line_break() should really break the line; we don't * want to see any blank lines to pop up, do we?). */ static int split_line(struct html_context *html_context) { struct part *part; int x; assert(html_context); if_assert_failed return 0; part = html_context->part; assert(part); if_assert_failed return 0; for (x = overlap(par_format); x >= par_format.leftmargin; x--) if (x < part->spaces_len && part->spaces[x]) return split_line_at(html_context, x); for (x = par_format.leftmargin; x < part->cx ; x++) if (x < part->spaces_len && part->spaces[x]) return split_line_at(html_context, x); /* Make sure that we count the right margin to the total * actual box width. */ int_lower_bound(&part->box.width, part->cx + par_format.rightmargin); return 0; } /* Insert @new_spaces spaces before the coordinates @x and @y, * adding those spaces to whatever link is at those coordinates. */ /* TODO: Integrate with move_links. */ static void insert_spaces_in_link(struct part *part, int x, int y, int new_spaces) { int i = part->document->nlinks; x = X(x); y = Y(y); while (i--) { struct link *link = &part->document->links[i]; int j = link->npoints; while (j-- > 1) { struct point *point = &link->points[j]; if (point->x != x || point->y != y) continue; if (!realloc_points(link, link->npoints + new_spaces)) return; link->npoints += new_spaces; point = &link->points[link->npoints - 1]; while (new_spaces--) { point->x = --x; point->y = y; point--; } return; } } } /* This function is very rare exemplary of clean and beautyful code here. * Please handle with care. --pasky */ static void justify_line(struct html_context *html_context, int y) { struct part *part; struct screen_char *line; /* we save original line here */ int len; int pos; int *space_list; int spaces; int diff; assert(html_context); if_assert_failed return; part = html_context->part; assert(part && part->document && part->document->data); if_assert_failed return; len = LEN(y); assert(len > 0); if_assert_failed return; line = fmem_alloc(len * sizeof(*line)); if (!line) return; /* It may sometimes happen that the line is only one char long and that * char is space - then we're going to write to both [0] and [1], but * we allocated only one field. Thus, we've to do (len + 1). --pasky */ space_list = fmem_alloc((len + 1) * sizeof(*space_list)); if (!space_list) { fmem_free(line); return; } copy_screen_chars(line, &POS(0, y), len); /* Skip leading spaces */ spaces = 0; pos = 0; while (line[pos].data == ' ') pos++; /* Yes, this can be negative, we know. But we add one to it always * anyway, so it's ok. */ space_list[spaces++] = pos - 1; /* Count spaces */ for (; pos < len; pos++) if (line[pos].data == ' ') space_list[spaces++] = pos; space_list[spaces] = len; /* Realign line */ /* Diff is the difference between the width of the paragraph * and the current length of the line. */ diff = overlap(par_format) - len; /* We check diff > 0 because diff can be negative (i.e., we have * an unbroken line of length > overlap(par_format)) * even when spaces > 1 if the line has only non-breaking spaces. */ if (spaces > 1 && diff > 0) { int prev_end = 0; int word; clear_hchars(html_context, 0, y, overlap(par_format)); for (word = 0; word < spaces; word++) { /* We have to increase line length by 'diff' num. of * characters, so we move 'word'th word 'word_shift' * characters right. */ int word_start = space_list[word] + 1; int word_len = space_list[word + 1] - word_start; int word_shift; int new_start; int new_spaces; assert(word_len >= 0); if_assert_failed continue; if (!word_len) continue; word_shift = (word * diff) / (spaces - 1); new_start = word_start + word_shift; copy_chars(html_context, new_start, y, word_len, &line[word_start]); new_spaces = new_start - prev_end - 1; if (word && new_spaces) { move_links(html_context, prev_end + 1, y, new_start, y); insert_spaces_in_link(part, new_start, y, new_spaces); } prev_end = new_start + word_len; } } fmem_free(space_list); fmem_free(line); } static void align_line(struct html_context *html_context, int y, int last) { struct part *part; int shift; int len; assert(html_context); if_assert_failed return; part = html_context->part; assert(part && part->document && part->document->data); if_assert_failed return; len = LEN(y); if (!len || par_format.align == ALIGN_LEFT) return; if (par_format.align == ALIGN_JUSTIFY) { if (!last) justify_line(html_context, y); return; } shift = overlap(par_format) - len; if (par_format.align == ALIGN_CENTER) shift /= 2; if (shift > 0) shift_chars(html_context, y, shift); } static inline void init_link_event_hooks(struct html_context *html_context, struct link *link) { link->event_hooks = mem_calloc(1, sizeof(*link->event_hooks)); if (!link->event_hooks) return; #define add_evhook(list_, type_, src_) \ do { \ struct script_event_hook *evhook; \ \ if (!src_) break; \ \ evhook = mem_calloc(1, sizeof(*evhook)); \ if (!evhook) break; \ \ evhook->type = type_; \ evhook->src = stracpy(src_); \ add_to_list(*(list_), evhook); \ } while (0) init_list(*link->event_hooks); add_evhook(link->event_hooks, SEVHOOK_ONCLICK, format.onclick); add_evhook(link->event_hooks, SEVHOOK_ONDBLCLICK, format.ondblclick); add_evhook(link->event_hooks, SEVHOOK_ONMOUSEOVER, format.onmouseover); add_evhook(link->event_hooks, SEVHOOK_ONHOVER, format.onhover); add_evhook(link->event_hooks, SEVHOOK_ONFOCUS, format.onfocus); add_evhook(link->event_hooks, SEVHOOK_ONMOUSEOUT, format.onmouseout); add_evhook(link->event_hooks, SEVHOOK_ONBLUR, format.onblur); #undef add_evhook } static struct link * new_link(struct html_context *html_context, unsigned char *name, int namelen) { struct document *document; struct part *part; int link_number; struct link *link; assert(html_context); if_assert_failed return NULL; part = html_context->part; assert(part); if_assert_failed return NULL; document = part->document; assert(document); if_assert_failed return NULL; link_number = part->link_num; if (!ALIGN_LINK(&document->links, document->nlinks, document->nlinks + 1)) return NULL; link = &document->links[document->nlinks++]; link->number = link_number - 1; if (document->options.use_tabindex) link->number += format.tabindex; link->accesskey = format.accesskey; link->title = null_or_stracpy(format.title); link->where_img = null_or_stracpy(format.image); if (!format.form) { link->target = null_or_stracpy(format.target); link->data.name = memacpy(name, namelen); /* if (strlen(url) > 4 && !strncasecmp(url, "MAP@", 4)) { */ if (format.link && ((format.link[0]|32) == 'm') && ((format.link[1]|32) == 'a') && ((format.link[2]|32) == 'p') && (format.link[3] == '@') && format.link[4]) { link->type = LINK_MAP; link->where = stracpy(format.link + 4); } else { link->type = LINK_HYPERTEXT; link->where = null_or_stracpy(format.link); } } else { struct form_control *fc = format.form; struct form *form; switch (fc->type) { case FC_TEXT: case FC_PASSWORD: case FC_FILE: link->type = LINK_FIELD; break; case FC_TEXTAREA: link->type = LINK_AREA; break; case FC_CHECKBOX: case FC_RADIO: link->type = LINK_CHECKBOX; break; case FC_SELECT: link->type = LINK_SELECT; break; case FC_SUBMIT: case FC_IMAGE: case FC_RESET: case FC_BUTTON: case FC_HIDDEN: link->type = LINK_BUTTON; } link->data.form_control = fc; /* At this point, format.form might already be set but * the form_control not registered through SP_CONTROL * yet, therefore without fc->form set. It is always * after the "good" last form was already processed, * though, so we can safely just take that. */ form = fc->form; if (!form && !list_empty(document->forms)) form = document->forms.next; link->target = null_or_stracpy(form ? form->target : NULL); } link->color.background = format.style.bg; link->color.foreground = link_is_textinput(link) ? format.style.fg : format.clink; init_link_event_hooks(html_context, link); document->links_sorted = 0; return link; } static void html_special_tag(struct document *document, unsigned char *t, int x, int y) { struct tag *tag; int tag_len; assert(document); if_assert_failed return; tag_len = strlen(t); /* One byte is reserved for name in struct tag. */ tag = mem_alloc(sizeof(*tag) + tag_len); if (!tag) return; tag->x = x; tag->y = y; memcpy(tag->name, t, tag_len + 1); add_to_list(document->tags, tag); if (renderer_context.last_tag_for_newline == (struct tag *) &document->tags) renderer_context.last_tag_for_newline = tag; } static void put_chars_conv(struct html_context *html_context, unsigned char *chars, int charslen) { struct part *part; assert(html_context); if_assert_failed return; part = html_context->part; assert(part && chars && charslen); if_assert_failed return; if (format.style.attr & AT_GRAPHICS) { put_chars(html_context, chars, charslen); return; } convert_string(renderer_context.convert_table, chars, charslen, html_context->options->cp, CSM_DEFAULT, NULL, (void (*)(void *, unsigned char *, int)) put_chars, html_context); } static inline void put_link_number(struct html_context *html_context) { struct part *part = html_context->part; unsigned char s[64]; unsigned char *fl = format.link; unsigned char *ft = format.target; unsigned char *fi = format.image; struct form_control *ff = format.form; int slen = 0; format.link = format.target = format.image = NULL; format.form = NULL; s[slen++] = '['; ulongcat(s, &slen, part->link_num, sizeof(s) - 3, 0); s[slen++] = ']'; s[slen] = '\0'; renderer_context.nosearchable = 1; put_chars(html_context, s, slen); renderer_context.nosearchable = 0; if (ff && ff->type == FC_TEXTAREA) line_break(html_context); /* We might have ended up on a new line after the line breaking * or putting the link number chars. */ if (part->cx == -1) part->cx = par_format.leftmargin; format.link = fl; format.target = ft; format.image = fi; format.form = ff; } #define assert_link_variable(old, new) \ assertm(!(old), "Old link value [%s]. New value [%s]", old, new); static inline void init_link_state_info(unsigned char *link, unsigned char *target, unsigned char *image, struct form_control *form) { assert_link_variable(renderer_context.link_state_info.image, image); assert_link_variable(renderer_context.link_state_info.target, target); assert_link_variable(renderer_context.link_state_info.link, link); renderer_context.link_state_info.link = null_or_stracpy(link); renderer_context.link_state_info.target = null_or_stracpy(target); renderer_context.link_state_info.image = null_or_stracpy(image); renderer_context.link_state_info.form = form; } static inline void done_link_state_info(void) { mem_free_if(renderer_context.link_state_info.link); mem_free_if(renderer_context.link_state_info.target); mem_free_if(renderer_context.link_state_info.image); memset(&renderer_context.link_state_info, 0, sizeof(renderer_context.link_state_info)); } static inline void process_link(struct html_context *html_context, enum link_state link_state, unsigned char *chars, int charslen) { struct part *part = html_context->part; struct link *link; int x_offset = 0; switch (link_state) { case LINK_STATE_SAME: { unsigned char *name; if (!part->document) return; assertm(part->document->nlinks > 0, "no link"); if_assert_failed return; link = &part->document->links[part->document->nlinks - 1]; name = get_link_name(link); if (name) { unsigned char *new_name; new_name = straconcat(name, chars, NULL); if (new_name) { mem_free(name); link->data.name = new_name; } } /* FIXME: Concatenating two adjectent elements to a single * link is broken since we lose the event handlers for the * second one. OTOH simply appending them here won't fly since * we may get here multiple times for even a single link. We * will probably need some SP_ for creating a new link or so. * --pasky */ break; } case LINK_STATE_NEW: part->link_num++; init_link_state_info(format.link, format.target, format.image, format.form); if (!part->document) return; /* Trim leading space from the link text */ while (x_offset < charslen && chars[x_offset] <= ' ') x_offset++; if (x_offset) { charslen -= x_offset; chars += x_offset; } link = new_link(html_context, chars, charslen); if (!link) return; break; case LINK_STATE_NONE: default: INTERNAL("bad link_state %i", (int) link_state); return; } /* Add new canvas positions to the link. */ if (realloc_points(link, link->npoints + charslen)) { struct point *point = &link->points[link->npoints]; int x = X(part->cx) + x_offset; int y = Y(part->cy); link->npoints += charslen; for (; charslen > 0; charslen--, point++, x++) { point->x = x; point->y = y; } } } static inline enum link_state get_link_state(struct html_context *html_context) { enum link_state state; if (!(format.link || format.image || format.form)) { state = LINK_STATE_NONE; } else if ((renderer_context.link_state_info.link || renderer_context.link_state_info.image || renderer_context.link_state_info.form) && !xstrcmp(format.link, renderer_context.link_state_info.link) && !xstrcmp(format.target, renderer_context.link_state_info.target) && !xstrcmp(format.image, renderer_context.link_state_info.image) && format.form == renderer_context.link_state_info.form) { return LINK_STATE_SAME; } else { state = LINK_STATE_NEW; } done_link_state_info(); return state; } static inline int html_has_non_space_chars(unsigned char *chars, int charslen) { int pos = 0; while (pos < charslen) if (!isspace(chars[pos++])) return 1; return 0; } static void put_chars(struct html_context *html_context, unsigned char *chars, int charslen) { enum link_state link_state; struct part *part; assert(html_context); if_assert_failed return; part = html_context->part; assert(part); if_assert_failed return; assert(chars && charslen); if_assert_failed return; /* If we are not handling verbatim aligning and we are at the begining * of a line trim whitespace. */ if (part->cx == -1) { /* If we are not handling verbatim aligning trim leading * whitespaces. */ if (!html_is_preformatted()) { while (charslen && *chars == ' ') { chars++; charslen--; } if (charslen < 1) return; } part->cx = par_format.leftmargin; } /* For preformatted html always update 'the last tag' so we never end * up moving tags to the wrong line (Fixes bug 324). For all other html * it is moved only when the line being rendered carry some real * non-whitespace content. */ if (html_is_preformatted() || html_has_non_space_chars(chars, charslen)) { renderer_context.last_tag_for_newline = (struct tag *) &part->document->tags; } int_lower_bound(&part->box.height, part->cy + 1); link_state = get_link_state(html_context); if (link_state == LINK_STATE_NEW) { int x_offset = 0; /* Don't add inaccessible links. It seems to be caused * by the parser putting a space char after stuff like * -tags or comments wrapped in -tags. See bug * 30 for test case. */ while (x_offset < charslen && chars[x_offset] <= ' ') x_offset++; /* For pure spaces reset the link state */ if (x_offset == charslen) link_state = LINK_STATE_NONE; else if (html_context->options->links_numbering) put_link_number(html_context); } set_hline(html_context, chars, charslen, link_state); if (link_state != LINK_STATE_NONE) { process_link(html_context, link_state, chars, charslen); } if (renderer_context.nowrap && part->cx + charslen > overlap(par_format)) return; part->cx += charslen; renderer_context.nobreak = 0; if (!(html_context->options->wrap || html_is_preformatted())) { while (part->cx > overlap(par_format) && part->cx > par_format.leftmargin) { int x = split_line(html_context); if (!x) break; if (part->document) align_line(html_context, part->cy - 1, 0); renderer_context.nobreak = !!(x - 1); } } assert(charslen > 0); part->xa += charslen; int_lower_bound(&part->max_width, part->xa + par_format.leftmargin + par_format.rightmargin - (chars[charslen - 1] == ' ' && !html_is_preformatted())); return; } #undef overlap static void line_break(struct html_context *html_context) { struct part *part; struct tag *tag; assert(html_context); if_assert_failed return; part = html_context->part; assert(part); if_assert_failed return; int_lower_bound(&part->box.width, part->cx + par_format.rightmargin); if (renderer_context.nobreak) { renderer_context.nobreak = 0; part->cx = -1; part->xa = 0; return; } if (!part->document || !part->document->data) goto end; if (!realloc_lines(part->document, part->box.height + part->cy + 1)) return; if (part->cx > par_format.leftmargin && LEN(part->cy) > part->cx - 1 && POS(part->cx - 1, part->cy).data == ' ') { del_chars(html_context, part->cx - 1, part->cy); part->cx--; } if (part->cx > 0) align_line(html_context, part->cy, 1); for (tag = renderer_context.last_tag_for_newline; tag && tag != (struct tag *) &part->document->tags; tag = tag->prev) { tag->x = X(0); tag->y = Y(part->cy + 1); } end: part->cy++; part->cx = -1; part->xa = 0; memset(part->spaces, 0, part->spaces_len); } static void html_special_form(struct part *part, struct form *form) { assert(part && form); if_assert_failed return; if (!part->document) { done_form(form); return; } if (!list_empty(part->document->forms)) { struct form *nform; /* Make sure the new form ``claims'' its slice of the form range * maintained in the form_num and form_end variables. */ foreach (nform, part->document->forms) { if (form->form_num < nform->form_num || nform->form_end < form->form_num) continue; /* First check if the form has identical form numbers. * That should only be the case when the form being * added is in fact the same form in which case it * should be dropped. The fact that this can happen * suggests that the table renderering can be confused. * See bug 647 for a test case. */ if (nform->form_num == form->form_num && nform->form_end == form->form_end) { done_form(form); return; } /* The form start is inside an already added form, so * partition the space of the existing form and get * |old|new|. */ nform->form_end = form->form_num - 1; assertm(nform->form_num <= nform->form_end, "[%d:%d] [%d:%d]", nform->form_num, nform->form_end, form->form_num, form->form_end); break; } } else { /* If it is the first form make sure it eats the whole form * range. */ #if 0 /* Disabled because in tables the parse order may lead to a * later form being parsed before a preceeding one causing the * wrong order if we set it to zero. Let's hope it doesn't break * anything else. */ form->form_num = 0; #endif } add_to_list(part->document->forms, form); } static void html_special_form_control(struct part *part, struct form_control *fc) { struct form *form; assert(part && fc); if_assert_failed return; if (!part->document) { done_form_control(fc); mem_free(fc); return; } fc->g_ctrl_num = renderer_context.g_ctrl_num++; /* We don't want to recode hidden fields. */ if (fc->type == FC_TEXT || fc->type == FC_PASSWORD || fc->type == FC_TEXTAREA) { unsigned char *dv = convert_string(renderer_context.convert_table, fc->default_value, strlen(fc->default_value), part->document->options.cp, CSM_QUERY, NULL, NULL, NULL); if (dv) mem_free_set(&fc->default_value, dv); } if (list_empty(part->document->forms)) { /* No forms encountered yet, that means a homeless form * control. Generate a dummy form for those Flying * Dutchmans. */ form = init_form(); form->form_num = 0; add_to_list(part->document->forms, form); } /* Attach this form control to the last form encountered. */ form = part->document->forms.next; fc->form = form; add_to_list(form->items, fc); } /* Reparents form items based on position in the source. */ void check_html_form_hierarchy(struct part *part) { struct document *document = part->document; INIT_LIST_HEAD(form_controls); struct form *form; struct form_control *fc, *next; if (list_empty(document->forms)) return; /* Take out all badly placed form items. */ foreach (form, document->forms) { assertm(form->form_num <= form->form_end, "%p [%d : %d]", form, form->form_num, form->form_end); foreachsafe (fc, next, form->items) { if (form->form_num <= fc->position && fc->position <= form->form_end) continue; move_to_top_of_list(form_controls, fc); } } /* Re-insert the form items the correct places. */ foreachsafe (fc, next, form_controls) { foreach (form, document->forms) { if (fc->position < form->form_num || form->form_end < fc->position) continue; fc->form = form; move_to_top_of_list(form->items, fc); break; } } assert(list_empty(form_controls)); } static inline void color_link_lines(struct html_context *html_context) { struct document *document = html_context->part->document; struct color_pair colors = INIT_COLOR_PAIR(par_format.bgcolor, 0x0); enum color_mode color_mode = document->options.color_mode; enum color_flags color_flags = document->options.color_flags; int y; for (y = 0; y < document->height; y++) { int x; for (x = 0; x < document->data[y].length; x++) { struct screen_char *schar = &document->data[y].chars[x]; set_term_color(schar, &colors, color_flags, color_mode); /* XXX: Entering hack zone! Change to clink color after * link text has been recolored. */ if (schar->data == ':' && colors.foreground == 0x0) colors.foreground = format.clink; } colors.foreground = 0x0; } } static void * html_special(struct html_context *html_context, enum html_special_type c, ...) { va_list l; struct part *part; struct document *document; void *ret_val = NULL; assert(html_context); if_assert_failed return NULL; part = html_context->part; assert(part); if_assert_failed return NULL; document = part->document; va_start(l, c); switch (c) { case SP_TAG: if (document) { unsigned char *t = va_arg(l, unsigned char *); html_special_tag(document, t, X(part->cx), Y(part->cy)); } break; case SP_FORM: { struct form *form = va_arg(l, struct form *); html_special_form(part, form); break; } case SP_CONTROL: { struct form_control *fc = va_arg(l, struct form_control *); html_special_form_control(part, fc); break; } case SP_TABLE: ret_val = renderer_context.convert_table; break; case SP_USED: ret_val = (void *) (long) !!document; break; case SP_CACHE_CONTROL: { struct cache_entry *cached = renderer_context.cached; cached->cache_mode = CACHE_MODE_NEVER; cached->expire = 0; break; } case SP_CACHE_EXPIRES: { time_t expires = va_arg(l, time_t); struct cache_entry *cached = renderer_context.cached; if (!expires || cached->cache_mode == CACHE_MODE_NEVER) break; timeval_from_seconds(&cached->max_age, expires); cached->expire = 1; break; } case SP_FRAMESET: { struct frameset_param *fsp = va_arg(l, struct frameset_param *); struct frameset_desc *frameset_desc; if (!fsp->parent && document->frame_desc) break; frameset_desc = create_frameset(fsp); if (!fsp->parent && !document->frame_desc) document->frame_desc = frameset_desc; ret_val = frameset_desc; break; } case SP_FRAME: { struct frameset_desc *parent = va_arg(l, struct frameset_desc *); unsigned char *name = va_arg(l, unsigned char *); unsigned char *url = va_arg(l, unsigned char *); add_frameset_entry(parent, NULL, name, url); break; } case SP_NOWRAP: renderer_context.nowrap = !!va_arg(l, int); break; case SP_REFRESH: { unsigned long seconds = va_arg(l, unsigned long); unsigned char *t = va_arg(l, unsigned char *); document->refresh = init_document_refresh(t, seconds); break; } case SP_COLOR_LINK_LINES: if (document && use_document_bg_colors(&document->options)) color_link_lines(html_context); break; case SP_STYLESHEET: #ifdef CONFIG_CSS if (document) { struct uri *uri = va_arg(l, struct uri *); add_to_uri_list(&document->css_imports, uri); } #endif break; case SP_SCRIPT: #ifdef CONFIG_ECMASCRIPT if (document) { struct uri *uri = va_arg(l, struct uri *); add_to_uri_list(&document->ecmascript_imports, uri); } #endif break; } va_end(l); return ret_val; } void free_table_cache(void) { if (table_cache) { struct hash_item *item; int i; /* We do not free key here. */ foreach_hash_item (item, *table_cache, i) { mem_free_if(item->value); } free_hash(table_cache); } table_cache = NULL; table_cache_entries = 0; } struct part * format_html_part(struct html_context *html_context, unsigned char *start, unsigned char *end, int align, int margin, int width, struct document *document, int x, int y, unsigned char *head, int link_num) { struct part *part; struct html_element *html_state; int llm = renderer_context.last_link_to_move; struct tag *ltm = renderer_context.last_tag_to_move; int ef = renderer_context.empty_format; int lm = html_context->margin; /* Hash creation if needed. */ if (!table_cache) { table_cache = init_hash(8, &strhash); } else if (!document) { /* Search for cached entry. */ struct table_cache_entry_key key; struct hash_item *item; /* Clear key to prevent potential alignment problem * when keys are compared. */ memset(&key, 0, sizeof(key)); key.start = start; key.end = end; key.align = align; key.margin = margin; key.width = width; key.x = x; key.link_num = link_num; item = get_hash_item(table_cache, (unsigned char *) &key, sizeof(key)); if (item) { /* We found it in cache, so just copy and return. */ part = mem_alloc(sizeof(*part)); if (part) { copy_struct(part, &((struct table_cache_entry *) item->value)->part); return part; } } } assertm(y >= 0, "format_html_part: y == %d", y); if_assert_failed return NULL; if (document) { struct node *node = mem_alloc(sizeof(*node)); if (node) { int node_width = !html_context->table_level ? INT_MAX : width; set_box(&node->box, x, y, node_width, 1); add_to_list(document->nodes, node); } renderer_context.last_link_to_move = document->nlinks; renderer_context.last_tag_to_move = (struct tag *) &document->tags; renderer_context.last_tag_for_newline = (struct tag *) &document->tags; } else { renderer_context.last_link_to_move = 0; renderer_context.last_tag_to_move = (struct tag *) NULL; renderer_context.last_tag_for_newline = (struct tag *) NULL; } html_context->margin = margin; renderer_context.empty_format = !document; done_link_state_info(); renderer_context.nobreak = 1; part = mem_calloc(1, sizeof(*part)); if (!part) goto ret; part->document = document; part->box.x = x; part->box.y = y; part->cx = -1; part->cy = 0; part->link_num = link_num; html_state = init_html_parser_state(html_context, ELEMENT_IMMORTAL, align, margin, width); parse_html(start, end, part, head, html_context); done_html_parser_state(html_context, html_state); int_lower_bound(&part->max_width, part->box.width); renderer_context.nobreak = 0; done_link_state_info(); mem_free_if(part->spaces); if (document) { struct node *node = document->nodes.next; node->box.height = y - node->box.y + part->box.height; } ret: renderer_context.last_link_to_move = llm; renderer_context.last_tag_to_move = ltm; renderer_context.empty_format = ef; html_context->margin = lm; if (html_context->table_level > 1 && !document && table_cache && table_cache_entries < MAX_TABLE_CACHE_ENTRIES) { /* Create a new entry. */ /* Clear memory to prevent bad key comparaison due to alignment * of key fields. */ struct table_cache_entry *tce = mem_calloc(1, sizeof(*tce)); /* A goto is used here to prevent a test or code * redundancy. */ if (!tce) goto end; tce->key.start = start; tce->key.end = end; tce->key.align = align; tce->key.margin = margin; tce->key.width = width; tce->key.x = x; tce->key.link_num = link_num; copy_struct(&tce->part, part); if (!add_hash_item(table_cache, (unsigned char *) &tce->key, sizeof(tce->key), tce)) { mem_free(tce); } else { table_cache_entries++; } } end: return part; } void render_html_document(struct cache_entry *cached, struct document *document, struct string *buffer) { struct html_context *html_context; struct part *part; unsigned char *start; unsigned char *end; struct string title; struct string head; int i; assert(cached && document); if_assert_failed return; if (!init_string(&head)) return; if (cached->head) add_to_string(&head, cached->head); start = buffer->source; end = buffer->source + buffer->length; html_context = init_html_parser(cached->uri, &document->options, start, end, &head, &title, put_chars_conv, line_break, html_special); if (!html_context) return; renderer_context.g_ctrl_num = 0; renderer_context.cached = cached; renderer_context.convert_table = get_convert_table(head.source, document->options.cp, document->options.assume_cp, &document->cp, &document->cp_status, document->options.hard_assume); if (title.length) { document->title = convert_string(renderer_context.convert_table, title.source, title.length, document->options.cp, CSM_DEFAULT, NULL, NULL, NULL); } done_string(&title); part = format_html_part(html_context, start, end, par_format.align, par_format.leftmargin, document->options.box.width, document, 0, 0, head.source, 1); /* Drop empty allocated lines at end of document if any * and adjust document height. */ for (i = document->height - 1; i >= 0 ; i--) { if (!document->data[i].length) { mem_free_if(document->data[i].chars); document->height--; } else break; } /* Calculate document width. */ document->width = 0; for (i = 0; i < document->height; i++) int_lower_bound(&document->width, document->data[i].length); #if 1 document->options.needs_width = 1; #else /* FIXME: This needs more tuning since if we are centering stuff it * does not work. */ document->options.needs_width = (document->width + (document->options.margin >= document->options.width)); #endif document->bgcolor = par_format.bgcolor; done_html_parser(html_context); /* Drop forms which has been serving as a placeholder for form items * added in the wrong order due to the ordering of table rendering. */ { struct form *form; foreach (form, document->forms) { if (form->form_num) continue; if (list_empty(form->items)) done_form(form); break; } } /* @part was residing in html_context so it has to stay alive until * done_html_parser(). */ done_string(&head); mem_free_if(part); #if 0 /* debug purpose */ { FILE *f = fopen("forms", "ab"); struct form_control *form; unsigned char *qq; fprintf(f,"FORM:\n"); foreach (form, document->forms) { fprintf(f, "g=%d f=%d c=%d t:%d\n", form->g_ctrl_num, form->form_num, form->ctrl_num, form->type); } fprintf(f,"fragment: \n"); for (qq = start; qq < end; qq++) fprintf(f, "%c", *qq); fprintf(f,"----------\n\n"); fclose(f); } #endif } int find_tag(struct document *document, unsigned char *name, int namelen) { struct tag *tag; foreach (tag, document->tags) if (!strlcasecmp(tag->name, -1, name, namelen)) return tag->y; return -1; }