links/html_r.c
2023-04-06 20:18:18 +03:00

1601 lines
45 KiB
C

/* html_r.c
* (c) 2002 Mikulas Patocka
* This file is a part of the Links program, released under GPL.
*/
#include "links.h"
struct f_data *init_formatted(struct document_options *opt)
{
struct f_data *scr;
scr = mem_calloc(sizeof(struct f_data));
copy_opt(&scr->opt, opt);
scr->data = DUMMY;
scr->nlinks = 0;
scr->links = DUMMY;
if (!F) init_list(scr->compressed_chars);
#ifdef JS
scr->nlink_events = 0;
scr->link_events = DUMMY;
#endif
init_list(scr->forms);
init_list(scr->tags);
init_list(scr->nodes);
#ifdef G
scr->n_images = 0;
init_list(scr->images);
scr->search_positions = DUMMY;
scr->search_lengths = DUMMY;
init_list(scr->image_refresh);
scr->start_highlight_x = -1;
scr->start_highlight_y = -1;
scr->hlt_pos = -1;
#endif
return scr;
}
void destroy_fc(struct form_control *fc)
{
int i;
if (fc->action) mem_free(fc->action);
if (fc->target) mem_free(fc->target);
if (fc->form_name) mem_free(fc->form_name);
if (fc->onsubmit) mem_free(fc->onsubmit);
if (fc->name) mem_free(fc->name);
if (fc->alt) mem_free(fc->alt);
if (fc->default_value) mem_free(fc->default_value);
for (i = 0; i < fc->nvalues; i++) {
if (fc->values[i]) mem_free(fc->values[i]);
if (fc->labels[i]) mem_free(fc->labels[i]);
}
if (fc->values) mem_free(fc->values);
if (fc->labels) mem_free(fc->labels);
if (fc->menu) free_menu(fc->menu);
}
void free_frameset_desc(struct frameset_desc *fd)
{
int i;
for (i = 0; i < fd->n; i++) {
if (fd->f[i].subframe) free_frameset_desc(fd->f[i].subframe);
if (fd->f[i].name) mem_free(fd->f[i].name);
if (fd->f[i].url) mem_free(fd->f[i].url);
}
#ifdef JS
if (fd->onload_code)mem_free(fd->onload_code);
#endif
mem_free(fd);
}
struct frameset_desc *copy_frameset_desc(struct frameset_desc *fd)
{
int i;
struct frameset_desc *neww;
if ((unsigned)fd->n > MAXINT / sizeof(struct frame_desc)) overalloc();
neww = mem_alloc(sizeof(struct frameset_desc) + fd->n * sizeof(struct frame_desc));
memcpy(neww, fd, sizeof(struct frameset_desc) + fd->n * sizeof(struct frame_desc));
#ifdef JS
if (neww->onload_code) neww->onload_code = stracpy(neww->onload_code);
#endif
for (i = 0; i < neww->n; i++) {
if (neww->f[i].subframe) neww->f[i].subframe = copy_frameset_desc(neww->f[i].subframe);
if (neww->f[i].name) neww->f[i].name = stracpy(neww->f[i].name);
if (neww->f[i].url) neww->f[i].url = stracpy(neww->f[i].url);
}
return neww;
}
void free_additional_files(struct additional_files **a)
{
struct additional_file *af;
struct list_head *laf;
if (!*a) return;
if (--(*a)->refcount) {
*a = NULL;
return;
}
foreach(struct additional_file, af, laf, (*a)->af) release_object(&af->rq);
free_list(struct additional_file, (*a)->af);
mem_free(*a);
*a = NULL;
}
static void clear_formatted(struct f_data *scr)
{
int n;
int y;
struct form_control *fc;
struct list_head *lfc;
if (!scr) return;
if (scr->search_chr) {
mem_free(scr->search_chr);
}
if (scr->search_pos) {
mem_free(scr->search_pos);
}
if (scr->slines1) mem_free(scr->slines1);
if (scr->slines2) mem_free(scr->slines2);
#ifdef G
if (scr->root) scr->root->destruct(scr->root);
#endif
release_object(&scr->rq);
free_additional_files(&scr->af);
if (scr->title) mem_free(scr->title);
if (scr->frame_desc) {
free_frameset_desc(scr->frame_desc);
}
for (n = 0; n < scr->nlinks; n++) {
struct link *l = &scr->links[n];
if (l->where) mem_free(l->where);
if (l->target) mem_free(l->target);
if (l->where_img) mem_free(l->where_img);
if (l->img_alt) mem_free(l->img_alt);
if (l->pos) mem_free(l->pos);
free_js_event_spec(l->js_event);
}
mem_free(scr->links);
#ifdef JS
for (n = 0; n < scr->nlink_events; n++) {
free_js_event_spec(scr->link_events[n]);
}
mem_free(scr->link_events);
#endif
if (!F) {
for (y = 0; y < scr->y; y++)
if (scr->data[y].allocated >= 0) {
mem_free(scr->data[y].u.du);
}
mem_free(scr->data);
free_list(struct compressed_chars, scr->compressed_chars);
}
if (scr->lines1) mem_free(scr->lines1);
if (scr->lines2) mem_free(scr->lines2);
if (scr->opt.framename) mem_free(scr->opt.framename);
foreach(struct form_control, fc, lfc, scr->forms) {
destroy_fc(fc);
}
free_list(struct form_control, scr->forms);
free_list(struct tag, scr->tags);
free_list(struct node, scr->nodes);
#ifdef G
free_list(struct image_refresh, scr->image_refresh);
if (scr->srch_string) mem_free(scr->srch_string);
if (scr->last_search) mem_free(scr->last_search);
if (scr->search_positions) mem_free(scr->search_positions);
if (scr->search_lengths) mem_free(scr->search_lengths);
#endif
if (scr->refresh) mem_free(scr->refresh);
#ifdef JS
if (scr->script_href_base) mem_free(scr->script_href_base);
free_js_event_spec(scr->js_event);
#endif
}
void destroy_formatted(struct f_data *scr)
{
if (scr->fd) {
internal_error("trying to free locked formatted data");
return;
}
clear_formatted(scr);
mem_free(scr);
}
static inline int color_distance(struct rgb *c1, struct rgb *c2)
{
return
3 * (c1->r - c2->r) * (c1->r - c2->r) +
4 * (c1->g - c2->g) * (c1->g - c2->g) +
2 * (c1->b - c2->b) * (c1->b - c2->b);
}
struct rgb palette_16_colors[16] = {
{0x00, 0x00, 0x00, 0},
{0x80, 0x00, 0x00, 0},
{0x00, 0x80, 0x00, 0},
{0xaa, 0x55, 0x00, 0},
{0x00, 0x00, 0x80, 0},
{0x80, 0x00, 0x80, 0},
{0x00, 0x80, 0x80, 0},
{0xaa, 0xaa, 0xaa, 0},
{0x55, 0x55, 0x55, 0},
{0xff, 0x55, 0x55, 0},
{0x55, 0xff, 0x55, 0},
{0xff, 0xff, 0x55, 0},
{0x55, 0x55, 0xff, 0},
{0xff, 0x55, 0xff, 0},
{0x55, 0xff, 0xff, 0},
{0xff, 0xff, 0xff, 0},
};
struct rgb_cache_entry {
int color;
int l;
struct rgb rgb;
};
#define RGB_HASH_SIZE 4096
#define HASH_RGB(r, l) ((((r)->r << 3) + ((r)->g << 2) + (r)->b + (l)) & (RGB_HASH_SIZE - 1))
int find_nearest_color(struct rgb *r, int l)
{
int dist, dst, min, i;
static struct rgb_cache_entry rgb_cache[RGB_HASH_SIZE];
static int cache_init = 0;
int h;
if ((size_t)l > array_elements(palette_16_colors))
internal_error("invalid length %d", l);
if (!cache_init) goto initialize;
back:
h = HASH_RGB(r, l);
if (rgb_cache[h].color != -1 && rgb_cache[h].l == l && rgb_cache[h].rgb.r == r->r && rgb_cache[h].rgb.g == r->g && rgb_cache[h].rgb.b == r->b) return rgb_cache[h].color;
dist = 0xffffff;
min = 0;
for (i = 0; i < l; i++) if ((dst = color_distance(r, &palette_16_colors[i])) < dist)
dist = dst, min = i;
rgb_cache[h].color = min;
rgb_cache[h].l = l;
rgb_cache[h].rgb.r = r->r;
rgb_cache[h].rgb.g = r->g;
rgb_cache[h].rgb.b = r->b;
return min;
initialize:
for (h = 0; h < RGB_HASH_SIZE; h++) rgb_cache[h].color = -1;
cache_init = 1;
goto back;
}
int fg_color(int fg, int bg)
{
int l = bg < fg ? bg : fg;
int h = bg < fg ? fg : bg;
if (l == h || (!l && (h == 4 || h == 8 || h == 12)) ||
(l == 1 && (h == 3 || h == 5 || h == 8 || h == 12)) ||
(l == 2 && h == 6) || (l == 3 && (h == 5 || h == 12)) ||
(l == 4 && (h == 8 || h == 12)) || (l == 5 && (h == 8 || h == 12)))
return (fg == 4 || fg == 12) && (bg == 0 || bg == 8) ? 6 : (7 - 7 * (bg == 2 || bg == 6 || bg == 7));
return fg;
}
static int nowrap = 0;
static void xpand_lines(struct part *p, int y)
{
if (!p->data) return;
if (y < 0) return;
y = safe_add(y, safe_add(p->yp, 1));
if (y > p->data->y) {
int i;
if ((y ^ p->data->y) > p->data->y) {
unsigned s;
for (s = 1; s < (unsigned)y; s = s * 2 + 1) {
if (s > MAXINT / sizeof(struct line)) overalloc();
}
p->data->data = mem_realloc(p->data->data, s * sizeof(struct line));
}
/*
#define YALIGN(y) (((y)+0x3ff)&~0x3ff)
if (YALIGN(y + 1) > YALIGN(p->data->y)) {
if (YALIGN((unsigned)y + 1) > MAXINT / sizeof(struct line)) overalloc();
p->data->data = mem_realloc(p->data->data, YALIGN(y+1)*sizeof(struct line));
}*/
for (i = p->data->y; i < y; i++) {
p->data->data[i].l = 0;
p->data->data[i].allocated = 0;
p->data->data[i].u.du = DUMMY;
}
p->data->y = y;
}
}
static void xpand_line(struct part *p, int y, int x)
{
struct line *ln;
if (!p->data) return;
x = safe_add(x, p->xp);
y = safe_add(y, p->yp);
#ifdef DEBUG
if (y >= p->data->y) {
internal_error("line does not exist");
return;
}
#endif
ln = &p->data->data[y];
if (x >= ln->l) {
int i;
if (x >= ln->allocated) {
if (x >= 0x4000) ln->allocated = safe_add(x, x);
else ln->allocated = safe_add(x, 0x10) & ~0xf;
if ((unsigned)ln->allocated > MAXINT / sizeof(chr)) overalloc();
ln->u.du = mem_realloc(ln->u.du, ln->allocated * sizeof(chr));
}
for (i = ln->l; i <= x; i++) {
ln->u.du[i].at = p->attribute;
ln->u.du[i].ch = ' ';
}
ln->l = i;
}
}
static void r_xpand_spaces(struct part *p, int l)
{
unsigned char *c;
if ((unsigned)l >= MAXINT) overalloc();
c = mem_realloc(p->spaces, l + 1);
memset(c + p->spl, 0, l - p->spl + 1);
p->spl = l + 1;
p->spaces = c;
}
static inline void xpand_spaces(struct part *p, int l)
{
if ((unsigned)l >= (unsigned)p->spl) r_xpand_spaces(p, l);
}
#define POS(x, y) (p->data->data[safe_add(p->yp, (y))].u.du[safe_add(p->xp, (x))])
#define LEN(y) (p->data->data[safe_add(p->yp, (y))].l - p->xp < 0 ? 0 : p->data->data[p->yp + (y)].l - p->xp)
#define SLEN(y, x) p->data->data[safe_add(p->yp, (y))].l = safe_add(p->xp, x)
#define X(x) safe_add(p->xp, (x))
#define Y(y) safe_add(p->yp, (y))
static inline void set_hchar(struct part *p, int x, int y, unsigned ch, unsigned char at)
{
chr *cc;
xpand_lines(p, y);
xpand_line(p, y, x);
cc = &POS(x, y);
cc->ch = ch;
cc->at = at;
}
static inline void set_hchars(struct part *p, int x, int y, int xl, unsigned ch, unsigned char at)
{
chr *cc;
xpand_lines(p, y);
xpand_line(p, y, safe_add(x, xl) - 1);
cc = &POS(x, y);
for (; xl; xl--) {
cc->ch = ch;
cc->at = at;
cc++;
}
}
void xset_hchar(struct part *p, int x, int y, unsigned ch, unsigned char at)
{
set_hchar(p, x, y, ch, at);
}
void xset_hchars(struct part *p, int x, int y, int xl, unsigned ch, unsigned char at)
{
set_hchars(p, x, y, xl, ch, at);
}
void xxpand_lines(struct part *p, int y)
{
xpand_lines(p, y);
}
void xxpand_line(struct part *p, int y, int x)
{
xpand_line(p, y, x);
}
static inline void set_hline(struct part *p, int x, int y, int xl, unsigned char *d, unsigned char at)
{
chr *cc;
int xp;
xpand_lines(p, y);
xpand_line(p, y, safe_add(x,xl)-1);
xp = par_format.align != AL_NO;
if (xp) xpand_spaces(p, safe_add(x,xl)-1);
cc = NULL;
if (p->data) cc = &POS(x, y);
for (; xl; xl--, x++, d++) {
if (xp) p->spaces[x] = *d == ' ';
if (p->data) {
cc->ch = *d;
cc->at = at;
cc++;
}
}
}
static inline void set_hline_uni(struct part *p, int x, int y, int xl, char_t *d, unsigned char at)
{
chr *cc;
int xp;
xpand_lines(p, y);
xpand_line(p, y, safe_add(x,xl)-1);
xp = par_format.align != AL_NO;
if (xp) xpand_spaces(p, safe_add(x,xl)-1);
cc = NULL;
if (p->data) cc = &POS(x, y);
for (; xl; xl--, x++, d++) {
if (xp) p->spaces[x] = *d == ' ';
if (p->data) {
cc->ch = *d;
cc->at = at;
cc++;
}
}
}
static int last_link_to_move;
static struct list_head *last_tag_to_move;
static struct list_head *last_tag_for_newline;
static inline void move_links(struct part *p, int xf, int yf, int xt, int yt)
{
int n;
struct tag *t;
struct list_head *lt;
int w = 0;
if (!p->data) return;
xpand_lines(p, yt);
for (n = last_link_to_move; n < p->data->nlinks; n++) {
int i;
struct link *link = &p->data->links[n];
/*printf("ml: %d %d %d %d",link->pos[0].x,link->pos[0].y,X(xf),Y(yf));fflush(stdout);portable_sleep(1000);*/
for (i = link->first_point_to_move; i < link->n; i++) if (link->pos[i].y >= Y(yf)) {
w = 1;
if (link->pos[i].y == Y(yf) && link->pos[i].x >= X(xf)) {
if (yt >= 0) {
link->pos[i].y = Y(yt);
if (xt > xf)
link->pos[i].x = safe_add(link->pos[i].x, -xf + xt);
else
link->pos[i].x = link->pos[i].x -xf + xt;
}
else memmove(&link->pos[i], &link->pos[i+1], (link->n-i-1) * sizeof(struct point)), link->n--, i--;
}
} else {
link->first_point_to_move = safe_add(i, 1);
}
if (!w) last_link_to_move = n;
}
w = 0;
if (yt >= 0) foreachfrom(struct tag, t, lt, p->data->tags, last_tag_to_move->next) {
if (t->y == Y(yf)) {
w = 1;
if (t->x >= X(xf)) {
t->y = Y(yt);
if (xt > xf)
t->x = safe_add(t->x, -xf + xt);
else
t->x += -xf + xt;
}
}
if (!w) last_tag_to_move = &t->list_entry;
}
}
static inline void copy_chars(struct part *p, int x, int y, int xl, chr *d)
{
if (xl <= 0) return;
xpand_lines(p, y);
xpand_line(p, y, safe_add(x,xl)-1);
for (; xl; xl--, x++, d++) POS(x, y) = *d;
}
static inline void move_chars(struct part *p, int x, int y, int nx, int ny)
{
if (LEN(y) - x <= 0) return;
copy_chars(p, nx, ny, LEN(y) - x, &POS(x, y));
SLEN(y, x);
move_links(p, x, y, nx, ny);
}
static inline void shift_chars(struct part *p, int y, int s)
{
chr *a;
int l = LEN(y);
if ((unsigned)l > MAXINT / sizeof(chr)) overalloc();
a = mem_alloc(l * sizeof(chr));
memcpy(a, &POS(0, y), l * sizeof(chr));
set_hchars(p, 0, y, s, ' ', p->attribute);
copy_chars(p, s, y, l, a);
mem_free(a);
move_links(p, 0, y, s, y);
}
static inline void del_chars(struct part *p, int x, int y)
{
SLEN(y, x);
move_links(p, x, y, -1, -1);
}
#define rm(x) ((x).width - (x).rightmargin > 0 ? (x).width - (x).rightmargin : 0)
static void line_break(void *);
static int split_line(struct part *p)
{
int i;
if (rm(par_format) >= p->z_spaces) {
for (i = rm(par_format); i >= par_format.leftmargin; i--)
if (i < p->spl && p->spaces[i]) goto split;
}
i = rm(par_format) + 1;
if (i < p->z_spaces) i = p->z_spaces;
if (i < par_format.leftmargin) i = par_format.leftmargin;
for (; i < p->cx ; i++)
if (i < p->spl && p->spaces[i]) goto split;
p->z_spaces = i;
if (p->cx >= 0 && safe_add(p->cx, par_format.rightmargin) > p->x) p->x = p->cx + par_format.rightmargin;
return 0;
split:
if (safe_add(i, par_format.rightmargin) > p->x) p->x = i + par_format.rightmargin;
if (p->data) {
#ifdef DEBUG
if (POS(i, p->cy).ch != ' ') internal_error("bad split: %c", (unsigned char)POS(i, p->cy).ch);
#endif
move_chars(p, safe_add(i,1), p->cy, par_format.leftmargin, safe_add(p->cy,1));
del_chars(p, i, p->cy);
}
memmove(p->spaces, p->spaces + safe_add(i, 1), p->spl - i - 1);
memset(p->spaces + p->spl - i - 1, 0, i + 1);
memmove(p->spaces + par_format.leftmargin, p->spaces, p->spl - par_format.leftmargin);
p->z_spaces = 0;
p->cy = safe_add(p->cy, 1);
p->cx -= i - par_format.leftmargin + 1;
if (p->cx == par_format.leftmargin) p->cx = -1;
if (p->y < safe_add(p->cy, (p->cx != -1))) p->y = p->cy + (p->cx != -1);
return 1 + (p->cx == -1);
}
static inline void compress_line(struct f_data *f, int y)
{
int i, want_len;
struct line *ln = &f->data[y];
struct compressed_chars *cs;
for (i = 0; i < ln->l; i++) {
if (ln->u.du[i].ch + 0 >= 256)
return;
if (ln->u.du[i].at != ln->u.du[0].at)
return;
}
if (!list_empty(f->compressed_chars)) {
cs = list_struct(f->compressed_chars.next, struct compressed_chars);
if (ln->l > cs->total_len - cs->cpos)
goto out_of_space;
goto fill_it;
}
out_of_space:
want_len = (int)(page_size - alloc_overhead - offsetof(struct compressed_chars, chars));
if (want_len < ln->l)
want_len = ln->l;
cs = mem_alloc_mayfail(offsetof(struct compressed_chars, chars) + want_len);
if (!cs)
return;
cs->total_len = want_len;
cs->cpos = 0;
add_to_list(f->compressed_chars, cs);
fill_it:
for (i = 0; i < ln->l; i++) {
cs->chars[cs->cpos + i] = (unsigned char)ln->u.du[i].ch;
}
if (ln->l)
ln->allocated = -0x100 + ln->u.du[0].at;
else
ln->allocated = -0x100;
mem_free(ln->u.du);
ln->u.dc = &cs->chars[cs->cpos];
cs->cpos += ln->l;
}
static void align_line(struct part *p, int y)
{
int na;
if (!p->data) return;
if (!LEN(y) || par_format.align == AL_LEFT || par_format.align == AL_NO || par_format.align == AL_NO_BREAKABLE || par_format.align == AL_BLOCK /* !!! fixme! */) goto compr;
na = rm(par_format) - LEN(y);
if (par_format.align == AL_CENTER) na /= 2;
if (na > 0) shift_chars(p, y, na);
compr:
if (!table_level) compress_line(p->data, y);
}
struct link *new_link(struct f_data *f)
{
if (!f) return NULL;
if (!(f->nlinks & (ALLOC_GR - 1))) {
if ((unsigned)f->nlinks > MAXINT / sizeof(struct link) - ALLOC_GR) overalloc();
f->links = mem_realloc(f->links, (f->nlinks + ALLOC_GR) * sizeof(struct link));
}
memset(&f->links[f->nlinks], 0, sizeof(struct link));
#ifdef G
f->links[f->nlinks].r.x1 = MAXINT;
f->links[f->nlinks].r.y1 = MAXINT;
#endif
return &f->links[f->nlinks++];
}
void html_tag(struct f_data *f, unsigned char *t, int x, int y)
{
struct tag *tag;
size_t sl;
unsigned char *tt;
int ll;
if (!f) return;
tt = init_str();
ll = 0;
add_conv_str(&tt, &ll, t, (int)strlen(cast_const_char t), -2);
sl = strlen(cast_const_char tt);
if (sl > MAXINT - sizeof(struct tag)) overalloc();
tag = mem_alloc(sizeof(struct tag) + sl);
tag->x = x;
tag->y = y;
strcpy(cast_char tag->name, cast_const_char tt);
add_to_list(f->tags, tag);
if (last_tag_for_newline == &f->tags) last_tag_for_newline = &tag->list_entry;
mem_free(tt);
}
unsigned char *last_link = NULL;
unsigned char *last_target = NULL;
unsigned char *last_image = NULL;
struct form_control *last_form = NULL;
struct js_event_spec *last_js_event = NULL;
static int nobreak;
struct conv_table *convert_table;
static void put_chars(void *p_, unsigned char *c, int l)
{
struct part *p = p_;
static struct text_attrib_beginning ta_cache = { -1, { 0, 0, 0, 0 }, { 0, 0, 0, 0 }, 0, 0 };
static int bg_cache;
static int fg_cache;
char_t *uni_c = DUMMY;
int bg, fg;
int i;
struct link *link;
struct point *pt;
int ll;
if (l < 0) overalloc();
/*printf("%d-", p->cx);for (i=0; i<l; i++) printf("%c", c[i]); printf("-\n");portable_sleep(1000);*/
while (p->cx <= par_format.leftmargin && l && *c == ' ' && par_format.align != AL_NO && par_format.align != AL_NO_BREAKABLE) c++, l--;
if (!l) return;
if (p->cx < par_format.leftmargin) p->cx = par_format.leftmargin;
if (c[0] != ' ' || (c[1] && c[1] != ' ')) {
if (p->data)
last_tag_for_newline = &p->data->tags;
}
#ifdef ENABLE_UTF8
if (d_opt->cp == utf8_table && !(format_.attr & AT_GRAPHICS)) {
int pl;
unsigned char *cc;
if (p->utf8_part_len) {
unsigned char new_part[7];
unsigned char *q;
next_utf_byte:
if ((*c & 0xc0) != 0x80)
goto bad_utf;
p->utf8_part[p->utf8_part_len++] = *c;
p->utf8_part[p->utf8_part_len] = 0;
c++;
l--;
q = p->utf8_part;
if (!get_utf_8(&q)) {
if (p->utf8_part_len == sizeof(p->utf8_part) - 1)
goto bad_utf;
if (l) goto next_utf_byte;
return;
}
pl = p->utf8_part_len;
p->utf8_part_len = 0;
strcpy(cast_char new_part, cast_const_char p->utf8_part);
put_chars(p, new_part, pl);
}
bad_utf:
p->utf8_part_len = 0;
if (!l) return;
if ((unsigned)l > (unsigned)MAXINT / sizeof(char_t)) overalloc();
uni_c = mem_alloc(l * sizeof(char_t));
ll = 0;
cc = c;
next_utf_char:
pl = utf8chrlen(*cc);
if (safe_add((int)(cc - c), pl) > l) {
memcpy(p->utf8_part, cc, p->utf8_part_len = l - (int)(cc - c));
goto utf_done;
} else {
if (!pl) {
cc++;
} else {
unsigned un;
GET_UTF_8(cc, un);
if (un != 0xad) {
uni_c[ll] = un;
ll = safe_add(ll, 1);
}
}
if (cc < c + l) goto next_utf_char;
}
utf_done:
if (!ll) {
mem_free(uni_c);
return;
}
} else
#endif
{
ll = l;
}
if (last_link || last_image || last_form || format_.link || format_.image
|| format_.form || format_.js_event || last_js_event
) goto process_link;
no_l:
/*printf("%d %d\n",p->cx, p->cy);*/
if (memcmp(&ta_cache, &format_, sizeof(struct text_attrib_beginning))) goto format_change;
bg = bg_cache, fg = fg_cache;
end_format_change:
if (p->y < safe_add(p->cy, 1)) p->y = p->cy + 1;
if (nowrap && safe_add(p->cx, ll) > rm(par_format)) {
mem_free(uni_c);
return;
}
#ifdef ENABLE_UTF8
if (d_opt->cp == utf8_table && !(format_.attr & AT_GRAPHICS)) {
set_hline_uni(p, p->cx, p->cy, ll, uni_c, ((fg&0x08)<<3)|(bg<<3)|(fg&0x07));
} else
#endif
{
set_hline(p, p->cx, p->cy, l, c, ((fg&0x08)<<3)|(bg<<3)|(fg&0x07));
}
p->cx += ll;
nobreak = 0;
if (par_format.align != AL_NO)
while (p->cx > rm(par_format) && p->cx > par_format.leftmargin) {
int x;
if (!(x = split_line(p))) break;
align_line(p, p->cy - 1);
nobreak = x - 1;
}
p->xa = safe_add(p->xa, ll);
if (safe_add(p->xa - (c[l-1] == ' ' && par_format.align != AL_NO && par_format.align != AL_NO_BREAKABLE), safe_add(par_format.leftmargin, par_format.rightmargin)) > p->xmax) p->xmax = p->xa - (c[l-1] == ' ' && par_format.align != AL_NO && par_format.align != AL_NO_BREAKABLE) + par_format.leftmargin + par_format.rightmargin;
mem_free(uni_c);
return;
/* !!! WARNING: THE FOLLOWING CODE IS SHADOWED IN HTML_GR.C */
process_link:
if ((last_link || last_image || last_form) &&
!xstrcmp(format_.link, last_link) && !xstrcmp(format_.target, last_target) &&
!xstrcmp(format_.image, last_image) && format_.form == last_form
&& ((!format_.js_event && !last_js_event) || !compare_js_event_spec(format_.js_event, last_js_event))
) {
if (!p->data) goto x;
link = &p->data->links[p->data->nlinks - 1];
if (!p->data->nlinks) {
internal_error("no link");
goto no_l;
}
goto set_link;
x:;
} else {
if (last_link) mem_free(last_link);
if (last_target) mem_free(last_target);
if (last_image) mem_free(last_image);
free_js_event_spec(last_js_event);
last_link = last_target = last_image = NULL;
last_form = NULL;
last_js_event = NULL;
if (!(format_.link || format_.image || format_.form || format_.js_event)) goto no_l;
if (d_opt->num_links || d_opt->braille) {
unsigned char s[64];
unsigned char *fl = format_.link, *ft = format_.target, *fi = format_.image;
struct form_control *ff = format_.form;
struct js_event_spec *js = format_.js_event;
format_.link = format_.target = format_.image = NULL;
format_.form = NULL;
format_.js_event = NULL;
if (d_opt->num_links) {
s[0] = '[';
snzprint(s + 1, 62, p->link_num);
strcat(cast_char s, "]");
} else {
if (ff && (ff->type == FC_TEXT || ff->type == FC_PASSWORD || ff->type == FC_FILE_UPLOAD || ff->type == FC_TEXTAREA)) {
strcpy(cast_char s, ">");
} else if (ff && (ff->type == FC_CHECKBOX || ff->type == FC_RADIO || ff->type == FC_SELECT)) {
strcpy(cast_char s, "");
} else {
strcpy(cast_char s, "~");
}
}
put_chars(p, s, (int)strlen(cast_const_char s));
if (ff && ff->type == FC_TEXTAREA) line_break(p);
if (p->cx < par_format.leftmargin) p->cx = par_format.leftmargin;
format_.link = fl, format_.target = ft, format_.image = fi;
format_.form = ff;
format_.js_event = js;
}
p->link_num++;
last_link = stracpy(format_.link);
last_target = stracpy(format_.target);
last_image = stracpy(format_.image);
last_form = format_.form;
copy_js_event_spec(&last_js_event, format_.js_event);
if (!p->data) goto no_l;
if (!(link = new_link(p->data))) goto no_l;
link->num = p->link_num - 1;
link->pos = DUMMY;
copy_js_event_spec(&link->js_event, format_.js_event);
if (!last_form) {
link->type = L_LINK;
link->where = stracpy(last_link);
link->target = stracpy(last_target);
} else {
link->type = last_form->type == FC_TEXT || last_form->type == FC_PASSWORD || last_form->type == FC_FILE_UPLOAD ? L_FIELD : last_form->type == FC_TEXTAREA ? L_AREA : last_form->type == FC_CHECKBOX || last_form->type == FC_RADIO ? L_CHECKBOX : last_form->type == FC_SELECT ? L_SELECT : L_BUTTON;
link->form = last_form;
link->target = stracpy(last_form->target);
}
link->where_img = stracpy(last_image);
if (link->type != L_FIELD && link->type != L_AREA) {
bg = find_nearest_color(&format_.clink, 8);
fg = find_nearest_color(&format_.bg, 8);
fg = fg_color(fg, bg);
} else {
fg = find_nearest_color(&format_.fg, 8);
bg = find_nearest_color(&format_.bg, 8);
fg = fg_color(fg, bg);
}
link->sel_color = get_attribute(fg, bg);
link->n = 0;
set_link:
if ((unsigned)link->n + (unsigned)ll > MAXINT / sizeof(struct point)) overalloc();
pt = mem_realloc(link->pos, (link->n + ll) * sizeof(struct point));
link->pos = pt;
for (i = 0; i < ll; i++) pt[link->n + i].x = X(p->cx) + i,
pt[link->n + i].y = Y(p->cy);
link->n += ll;
}
goto no_l;
format_change:
bg = find_nearest_color(&format_.bg, 8);
fg = find_nearest_color(&format_.fg, 16);
fg = fg_color(fg, bg);
if (format_.attr & AT_ITALIC) fg = fg ^ 0x01;
if (format_.attr & AT_UNDERLINE) fg = (fg ^ 0x04) | 0x08;
if (format_.attr & AT_STRIKE) fg = (fg ^ 0x06);
if (format_.attr & AT_BOLD) fg = fg | 0x08;
fg = fg_color(fg, bg);
if (format_.attr & AT_GRAPHICS) bg = bg | 0x10;
memcpy(&ta_cache, &format_, sizeof(struct text_attrib_beginning));
fg_cache = fg; bg_cache = bg;
goto end_format_change;
}
static void line_break(void *p_)
{
struct part *p = p_;
struct tag *t;
struct list_head *lt;
if (p->cx >= 0 && safe_add(p->cx, par_format.rightmargin) > p->x) p->x = p->cx + par_format.rightmargin;
if (nobreak) {
nobreak = 0;
p->cx = -1;
p->xa = 0;
return;
}
if (!p->data) goto e;
xpand_lines(p, safe_add(p->cy, 1));
if (p->cx > par_format.leftmargin && LEN(p->cy) > p->cx - 1 && POS(p->cx-1, p->cy).ch == ' ') del_chars(p, p->cx-1, p->cy), p->cx--;
if (p->cx >= 0) align_line(p, p->cy);
if (p->data) foreachbackfrom(struct tag, t, lt, p->data->tags, last_tag_for_newline) {
t->x = X(0);
t->y = Y(p->cy + 1);
}
e:
p->cy++; p->cx = -1; p->xa = 0;
if (p->spl > d_opt->xw) p->spl = d_opt->xw;
memset(p->spaces, 0, p->spl);
p->z_spaces = 0;
}
int g_ctrl_num;
/* SHADOWED IN g_html_form_control */
static void html_form_control(struct part *p, struct form_control *fc)
{
if (!p->data) {
add_to_list(p->uf, fc);
return;
}
fc->g_ctrl_num = g_ctrl_num;
g_ctrl_num = safe_add(g_ctrl_num, 1);
if (fc->type == FC_TEXT || fc->type == FC_PASSWORD || fc->type == FC_TEXTAREA) {
unsigned char *dv = convert_string(convert_table, fc->default_value, (int)strlen(cast_const_char fc->default_value), d_opt);
if (dv) {
mem_free(fc->default_value);
fc->default_value = dv;
}
}
if (fc->type == FC_TEXTAREA) {
unsigned char *p;
for (p = fc->default_value; p[0]; p++) if (p[0] == '\r') {
if (p[1] == '\n') memmove(p, p + 1, strlen(cast_const_char p)), p--;
else p[0] = '\n';
}
}
add_to_list(p->data->forms, fc);
}
static void add_frameset_entry(struct frameset_desc *fsd, struct frameset_desc *subframe, unsigned char *name, unsigned char *url, int marginwidth, int marginheight, unsigned char scrolling)
{
if (fsd->yp >= fsd->y) return;
fsd->f[fsd->xp + fsd->yp * fsd->x].subframe = subframe;
fsd->f[fsd->xp + fsd->yp * fsd->x].name = stracpy(name);
fsd->f[fsd->xp + fsd->yp * fsd->x].url = stracpy(url);
fsd->f[fsd->xp + fsd->yp * fsd->x].marginwidth = marginwidth;
fsd->f[fsd->xp + fsd->yp * fsd->x].marginheight = marginheight;
fsd->f[fsd->xp + fsd->yp * fsd->x].scrolling = scrolling;
if (++fsd->xp >= fsd->x) fsd->xp = 0, fsd->yp++;
}
struct frameset_desc *create_frameset(struct f_data *fda, struct frameset_param *fp)
{
int i;
struct frameset_desc *fd;
if (!fp->x || !fp->y) {
internal_error("zero size of frameset");
return NULL;
}
if (fp->x && (unsigned)fp->x * (unsigned)fp->y / (unsigned)fp->x != (unsigned)fp->y) overalloc();
if ((unsigned)fp->x * (unsigned)fp->y > (MAXINT - sizeof(struct frameset_desc)) / sizeof(struct frame_desc)) overalloc();
fd = mem_calloc(sizeof(struct frameset_desc) + fp->x * fp->y * sizeof(struct frame_desc));
fd->n = fp->x * fp->y;
fd->x = fp->x;
fd->y = fp->y;
for (i = 0; i < fd->n; i++) {
fd->f[i].xw = fp->xw[i % fp->x];
fd->f[i].yw = fp->yw[i / fp->x];
}
if (fp->parent) add_frameset_entry(fp->parent, fd, NULL, NULL, -1, -1, SCROLLING_AUTO);
else if (!fda->frame_desc) fda->frame_desc = fd;
else mem_free(fd), fd = NULL;
return fd;
}
void create_frame(struct frame_param *fp)
{
add_frameset_entry(fp->parent, NULL, fp->name, fp->url, fp->marginwidth, fp->marginheight, fp->scrolling);
}
void process_script(struct f_data *f, unsigned char *t)
{
#ifdef JS
if (t && !f->script_href_base) f->script_href_base = stracpy(format_.href_base);
if (!d_opt->js_enable) return;
if (t) {
unsigned char *u;
u = join_urls(f->script_href_base, t);
if (u) {
request_additional_file(f, u);
mem_free(u);
}
}
f->are_there_scripts = 1;
#endif
}
void set_base(struct f_data *f, unsigned char *t)
{
#ifdef JS
if (!f->script_href_base) f->script_href_base = stracpy(format_.href_base);
#endif
}
void html_process_refresh(struct f_data *f, unsigned char *url, int time)
{
if (!f) return;
if (f->refresh) return;
if (!url) f->refresh = stracpy(f->rq->url);
else f->refresh = join_urls(f->rq->url, url);
f->refresh_seconds = time;
}
static void *html_special(void *p_, int c, ...)
{
struct part *p = p_;
va_list l;
unsigned char *t;
struct form_control *fc;
struct frameset_param *fsp;
struct frame_param *fp;
struct refresh_param *rp;
va_start(l, c);
switch (c) {
case SP_TAG:
t = va_arg(l, unsigned char *);
va_end(l);
html_tag(p->data, t, X(p->cx >= 0 ? p->cx : 0), Y(p->cy));
break;
case SP_CONTROL:
fc = va_arg(l, struct form_control *);
va_end(l);
html_form_control(p, fc);
break;
case SP_TABLE:
va_end(l);
return convert_table;
case SP_USED:
va_end(l);
return (void *)(my_intptr_t)!!p->data;
case SP_FRAMESET:
fsp = va_arg(l, struct frameset_param *);
va_end(l);
return create_frameset(p->data, fsp);
case SP_FRAME:
fp = va_arg(l, struct frame_param *);
va_end(l);
create_frame(fp);
break;
case SP_NOWRAP:
nowrap = va_arg(l, int);
va_end(l);
break;
case SP_SCRIPT:
t = va_arg(l, unsigned char *);
va_end(l);
if (p->data) process_script(p->data, t);
break;
case SP_REFRESH:
rp = va_arg(l, struct refresh_param *);
va_end(l);
html_process_refresh(p->data, rp->url, rp->time);
break;
case SP_SET_BASE:
t = va_arg(l, unsigned char *);
va_end(l);
if (p->data) set_base(p->data, t);
break;
case SP_FORCE_BREAK:
if (p->cx > par_format.leftmargin) {
nobreak = 0;
line_break(p);
}
break;
default:
va_end(l);
internal_error("html_special: unknown code %d", c);
}
return NULL;
}
static void do_format(unsigned char *start, unsigned char *end, struct part *part, unsigned char *head)
{
pr(
parse_html(start, end, put_chars, line_break, html_special, part, head);
) {};
}
int margin;
struct part *format_html_part(unsigned char *start, unsigned char *end, int align, int m, int width, struct f_data *data, int xs, int ys, unsigned char *head, int link_num)
{
struct part *p;
struct html_element *e;
int llm = last_link_to_move;
struct list_head *ltm = last_tag_to_move;
int lm = margin;
int ef = empty_format;
struct form_control *fc;
struct list_head *lfc;
if (par_format.implicit_pre_wrap) {
if (width > d_opt->xw)
width = d_opt->xw;
}
if (!data) {
p = find_table_cache_entry(start, end, align, m, width, xs, link_num);
if (p) return p;
}
if (ys < 0) {
internal_error("format_html_part: ys == %d", ys);
return NULL;
}
if (data) {
struct node *n;
n = mem_alloc(sizeof(struct node));
n->x = xs;
n->y = ys;
n->xw = !table_level ? MAXINT - 1 : width;
add_to_list(data->nodes, n);
}
last_link_to_move = data ? data->nlinks : 0;
last_tag_to_move = data ? &data->tags : NULL;
last_tag_for_newline = data ? &data->tags : NULL;
margin = m;
empty_format = !data;
if (last_link) mem_free(last_link);
if (last_image) mem_free(last_image);
if (last_target) mem_free(last_target);
free_js_event_spec(last_js_event);
last_link = last_image = last_target = NULL;
last_form = NULL;
last_js_event = NULL;
nobreak = align != AL_NO && align != AL_NO_BREAKABLE;
p = mem_calloc(sizeof(struct part));
/*p->x = p->y = 0;*/
p->data = data;
p->xp = xs; p->yp = ys;
/*p->xmax = p->xa = 0;*/
p->attribute = get_attribute(find_nearest_color(&format_.fg, 16), find_nearest_color(&par_format.bgcolor, 8));
p->spaces = DUMMY;
/*p->z_spaces = 0;*/
/*p->spl = 0;*/
p->link_num = link_num;
init_list(p->uf);
html_stack_dup();
e = &html_top;
html_top.dontkill = 2;
html_top.namelen = 0;
par_format.align = align;
par_format.leftmargin = m;
par_format.rightmargin = m;
par_format.width = width;
par_format.list_level = 0;
par_format.list_number = 0;
par_format.dd_margin = 0;
if (align == AL_NO || align == AL_NO_BREAKABLE)
format_.attr |= AT_FIXED;
p->cx = -1;
p->cy = 0;
do_format(start, end, p, head);
if (p->xmax < p->x) p->xmax = p->x;
if (align == AL_NO || align == AL_NO_BREAKABLE) {
if (p->cy > p->y)
p->y = p->cy;
}
nobreak = 0;
line_breax = 1;
if (last_link) mem_free(last_link);
if (last_image) mem_free(last_image);
if (last_target) mem_free(last_target);
free_js_event_spec(last_js_event);
while (&html_top != e) {
kill_html_stack_item(&html_top);
if (!&html_top || (void *)&html_top == (void *)&html_stack) {
internal_error("html stack trashed");
break;
}
}
html_top.dontkill = 0;
kill_html_stack_item(&html_top);
mem_free(p->spaces);
if (data) {
struct node *n = list_struct(data->nodes.next, struct node);
n->yw = ys - n->y + p->y;
}
foreach(struct form_control, fc, lfc, p->uf) destroy_fc(fc);
free_list(struct form_control, p->uf);
last_link_to_move = llm;
last_tag_to_move = ltm;
margin = lm;
empty_format = ef;
last_link = last_image = last_target = NULL;
last_form = NULL;
last_js_event = NULL;
if (table_level > 1 && !data) {
add_table_cache_entry(start, end, align, m, width, xs, link_num, p);
}
return p;
}
static void release_part(struct part *p)
{
mem_free(p);
}
static void push_base_format(unsigned char *url, struct document_options *opt, int frame, int implicit_pre_wrap)
{
struct html_element *e;
if (!list_empty(html_stack)) {
internal_error("something on html stack");
init_list(html_stack);
}
e = mem_calloc(sizeof(struct html_element));
add_to_list(html_stack, e);
format_.attr = opt->plain & 1 ? AT_FIXED : 0;
format_.fontsize = 3;
format_.link = format_.target = format_.image = format_.select = NULL;
format_.form = NULL;
memcpy(&format_.fg, &opt->default_fg, sizeof(struct rgb));
memcpy(&format_.bg, &opt->default_bg, sizeof(struct rgb));
memcpy(&format_.clink, &opt->default_link, sizeof(struct rgb));
format_.href_base = stracpy(url);
format_.target_base = stracpy(opt->framename);
par_format.align = !(opt->plain & 1) ? AL_LEFT : !implicit_pre_wrap ? AL_NO : AL_NO_BREAKABLE;
par_format.leftmargin = opt->plain & 1 ? 0 : opt->margin;
par_format.rightmargin = opt->plain & 1 ? 0 : opt->margin;
if (frame && par_format.leftmargin) par_format.leftmargin = 1;
if (frame && par_format.rightmargin) par_format.rightmargin = 1;
par_format.width = opt->xw;
par_format.list_level = par_format.list_number = 0;
par_format.dd_margin = opt->margin;
par_format.flags = 0;
memcpy(&par_format.bgcolor, &opt->default_bg, sizeof(struct rgb));
par_format.implicit_pre_wrap = implicit_pre_wrap;
html_top.invisible = 0;
html_top.name = NULL; html_top.namelen = 0; html_top.options = NULL;
html_top.linebreak = 1;
html_top.dontkill = 1;
}
struct conv_table *get_convert_table(unsigned char *head, int to, int def, int *frm, int *aa, int hard)
{
int from = -1;
unsigned char *a, *b;
unsigned char *p = head;
while (from == -1 && (a = parse_http_header(p, cast_uchar "Content-Type", &p))) {
if ((b = parse_header_param(a, cast_uchar "charset", 0))) {
from = get_cp_index(b);
mem_free(b);
}
mem_free(a);
}
if (from == -1 && (a = parse_http_header(head, cast_uchar "Content-Charset", NULL))) {
from = get_cp_index(a);
mem_free(a);
}
if (from == -1 && (a = parse_http_header(head, cast_uchar "Charset", NULL))) {
from = get_cp_index(a);
mem_free(a);
}
if (aa) {
*aa = from == -1;
if (hard && !*aa) *aa = 2;
}
if (hard || from == -1) from = def;
if (frm) *frm = from;
return get_translation_table(from, to);
}
struct document_options dd_opt;
struct document_options *d_opt = &dd_opt;
struct f_data *current_f_data = NULL;
void really_format_html(struct cache_entry *ce, unsigned char *start, unsigned char *end, struct f_data *screen, int frame)
{
unsigned char *url = ce->url;
unsigned char *head, *t;
int hdl;
int i;
unsigned char *bg = NULL, *bgcolor = NULL;
int implicit_pre_wrap;
int bg_col, fg_col;
current_f_data = screen;
d_opt = &screen->opt;
screen->use_tag = ce->count;
startf = start;
eofff = end;
head = init_str(), hdl = 0;
if (ce->head) add_to_str(&head, &hdl, ce->head);
scan_http_equiv(start, end, &head, &hdl, &t, d_opt->plain ? NULL : &bg, d_opt->plain || d_opt->col < 2 ? NULL : &bgcolor, &implicit_pre_wrap,
#ifdef JS
&screen->js_event
#else
NULL
#endif
);
if (d_opt->break_long_lines) implicit_pre_wrap = 1;
if (d_opt->plain) *t = 0;
if (screen->opt.plain == 2) {
screen->cp = utf8_table;
screen->ass = -1;
convert_table = get_translation_table(utf8_table, screen->opt.cp);
} else {
convert_table = get_convert_table(head, screen->opt.cp, screen->opt.assume_cp, &screen->cp, &screen->ass, screen->opt.hard_assume);
}
screen->opt.real_cp = screen->cp;
i = d_opt->plain; d_opt->plain = 0;
screen->title = convert_string(convert_table, t, (int)strlen(cast_const_char t), d_opt);
d_opt->plain = i;
mem_free(t);
push_base_format(url, &screen->opt, frame, implicit_pre_wrap);
table_level = 0;
g_ctrl_num = 0;
last_form_tag = NULL;
last_form_attr = NULL;
last_input_tag = NULL;
if (!F) {
struct part *rp;
if ((rp = format_html_part(start, end, par_format.align, par_format.leftmargin, screen->opt.xw, screen, 0, 0, head, 1))) release_part(rp);
#ifdef G
} else {
struct g_part *rp;
if ((rp = g_format_html_part(start, end, par_format.align, par_format.leftmargin, screen->opt.xw - G_SCROLL_BAR_WIDTH, head, 1, bg, bgcolor, screen))) {
int w = screen->opt.xw;
int h = screen->opt.yw;
screen->x = rp->x;
screen->y = rp->root->go.yw;
if (screen->x > w) w = screen->x;
if (screen->y > h) h = screen->y;
g_x_extend_area(rp->root, w, h, AL_LEFT);
screen->root = &rp->root->go, rp->root = NULL;
g_release_part(rp);
mem_free(rp);
get_parents(screen, screen->root);
}
#endif
}
mem_free(head);
if (bg) mem_free(bg);
if (bgcolor) mem_free(bgcolor);
if (!F) {
screen->x = 0;
for (i = screen->y - 1; i >= 0; i--) {
if (!screen->data[i].l) {
if (screen->data[i].allocated >= 0)
mem_free(screen->data[i].u.du);
screen->y--;
} else {
break;
}
}
for (i = 0; i < screen->y; i++) if (screen->data[i].l > screen->x) screen->x = screen->data[i].l;
screen->data = mem_realloc(screen->data, screen->y * sizeof(struct line));
}
if (form.action) mem_free(form.action), form.action = NULL;
if (form.target) mem_free(form.target), form.target = NULL;
if (form.form_name) mem_free(form.form_name), form.form_name = NULL;
if (form.onsubmit) mem_free(form.onsubmit), form.onsubmit = NULL;
bg_col = find_nearest_color(&format_.bg, 8);
fg_col = find_nearest_color(&format_.fg, 16);
fg_col = fg_color(fg_col, bg_col);
screen->bg = get_attribute(fg_col, bg_col);
kill_html_stack_item(&html_top);
if (!list_empty(html_stack)) {
internal_error("html stack not empty after operation");
init_list(html_stack);
}
sort_links(screen);
current_f_data = NULL;
d_opt = &dd_opt;
}
int compare_opt(struct document_options *o1, struct document_options *o2)
{
if (o1->xw == o2->xw &&
o1->yw == o2->yw &&
o1->xp == o2->xp &&
o1->yp == o2->yp &&
o1->scrolling == o2->scrolling &&
o1->col == o2->col &&
o1->cp == o2->cp &&
o1->assume_cp == o2->assume_cp &&
o1->hard_assume == o2->hard_assume &&
o1->braille == o2->braille &&
o1->tables == o2->tables &&
o1->frames == o2->frames &&
o1->break_long_lines == o2->break_long_lines &&
o1->images == o2->images &&
o1->image_names == o2->image_names &&
o1->margin == o2->margin &&
o1->js_enable == o2->js_enable &&
o1->plain == o2->plain &&
o1->num_links == o2->num_links &&
o1->table_order == o2->table_order &&
o1->auto_refresh == o2->auto_refresh &&
o1->font_size == o2->font_size &&
o1->display_images == o2->display_images &&
o1->image_scale == o2->image_scale &&
o1->porn_enable == o2->porn_enable &&
o1->gamma_stamp == o2->gamma_stamp &&
!memcmp(&o1->default_fg, &o2->default_fg, sizeof(struct rgb)) &&
!memcmp(&o1->default_bg, &o2->default_bg, sizeof(struct rgb)) &&
!memcmp(&o1->default_link, &o2->default_link, sizeof(struct rgb)) &&
((o1->framename && o2->framename && !casestrcmp(o1->framename, o2->framename)) || (!o1->framename && !o2->framename))) return 0;
return 1;
}
void copy_opt(struct document_options *o1, struct document_options *o2)
{
memcpy(o1, o2, sizeof(struct document_options));
o1->framename = stracpy(o2->framename);
}
struct link *get_link_at_location(struct f_data *f, int x, int y)
{
struct link *l1, *l2, *l;
if (y < 0 || y >= f->y) return NULL;
l1 = f->lines1[y];
l2 = f->lines2[y];
if (!l1 || !l2) return NULL;
for (l = l1; l <= l2; l++) {
int i;
for (i = 0; i < l->n; i++) if (l->pos[i].x == x && l->pos[i].y == y) return l;
}
return NULL;
}
static int sort_srch(struct f_data *f)
{
int i;
int *min, *max;
if ((unsigned)f->y > MAXINT / sizeof(struct search *)) overalloc();
if ((unsigned)f->y > MAXINT / sizeof(int)) overalloc();
f->slines1 = mem_alloc_mayfail(f->y * sizeof(int));
f->slines2 = mem_alloc_mayfail(f->y * sizeof(int));
min = mem_alloc_mayfail(f->y * sizeof(int));
max = mem_alloc_mayfail(f->y * sizeof(int));
if (!f->slines1 || !f->slines2 || !min || !max) {
if (f->slines1) mem_free(f->slines1), f->slines1 = NULL;
if (f->slines2) mem_free(f->slines2), f->slines2 = NULL;
if (min) mem_free(min);
if (max) mem_free(max);
return -1;
}
for (i = 0; i < f->y; i++)
f->slines1[i] = f->slines2[i] = -1;
for (i = 0; i < f->y; i++) min[i] = MAXINT, max[i] = 0;
for (i = 0; i < f->nsearch_pos; i++) {
struct search *s = &f->search_pos[i];
int xe;
if (s->x < min[s->y]) min[s->y] = s->x, f->slines1[s->y] = s->idx;
if (s->n == 1) xe = safe_add(s->x, s->co);
else xe = safe_add(s->x, s->n);
if (xe > max[s->y]) max[s->y] = xe, f->slines2[s->y] = s->idx + s->co - 1;
}
mem_free(min);
mem_free(max);
return 0;
}
static int n_chr, n_pos;
static char_t srch_last_chr;
static int srch_last_x, srch_last_y;
static int srch_cont;
static void get_srch_reset(void)
{
n_chr = n_pos = 0;
srch_last_chr = ' ';
srch_last_x = srch_last_y = -1;
srch_cont = 0;
}
static int add_srch_chr(struct f_data *f, unsigned c, int x, int y, int nn)
{
if (c == ' ' && srch_last_chr == ' ') return 0;
if (c == '_') {
struct link *l = get_link_at_location(f, x, y);
if (l && (l->type == L_SELECT || l->type == L_FIELD || l->type == L_AREA))
return 0;
}
srch_last_chr = c;
if (f->search_chr) f->search_chr[n_chr] = c;
if (n_chr == MAXINT) return -1;
n_chr++;
if (srch_cont < 0xffff && x == srch_last_x + 1 && y == srch_last_y && nn == 1) {
srch_cont++;
if (f->search_pos)
f->search_pos[n_pos - 1].co = (unsigned short)srch_cont;
} else {
if (f->search_pos) {
f->search_pos[n_pos].idx = n_chr - 1;
f->search_pos[n_pos].x = x;
f->search_pos[n_pos].y = y;
f->search_pos[n_pos].n = (unsigned short)nn;
if (f->search_pos[n_pos].n != nn)
f->search_pos[n_pos].n = (unsigned short)~0U;
f->search_pos[n_pos].co = 1;
}
srch_cont = 1;
if (n_pos == MAXINT) return -1;
n_pos++;
}
if (nn == 1) {
srch_last_x = x;
srch_last_y = y;
} else {
srch_last_x = -1;
srch_last_y = -1;
}
return 0;
}
static inline int is_spc(struct f_data *f, int x, int y)
{
unsigned ch;
unsigned char at;
get_char_attr(f, x, y, &ch, &at);
return ch <= ' ' || at & ATTR_FRAME;
}
static int get_srch(struct f_data *f)
{
struct node *n;
struct list_head *ln;
get_srch_reset();
#define add_srch(c_, x_, y_, n_) \
do { \
if (add_srch_chr(f, c_, x_, y_, n_)) \
return -1; \
} while (0)
foreachback(struct node, n, ln, f->nodes) {
int x, y;
int xm = safe_add(n->x, n->xw), ym = safe_add(n->y, n->yw);
/*printf("%d %d - %d %d\n", n->x, n->y, xm, ym);
fflush(stdout);*/
for (y = n->y; y < ym && y < f->y; y++) {
struct line *ln = &f->data[y];
int ns = 1;
for (x = n->x; x < xm && x < ln->l; x++) {
unsigned c;
if (ln->allocated >= 0)
c = ln->u.du[x].ch;
else
c = ln->u.dc[x];
if (is_spc(f, x, y)) c = ' ';
if (c == ' ' && ns) continue;
c = charset_upcase(c, f->opt.cp);
if (ns) {
add_srch(c, x, y, 1);
ns = 0;
continue;
}
if (c != ' ') {
add_srch(c, x, y, 1);
} else {
int xx;
for (xx = safe_add(x, 1); xx < xm && xx < f->data[y].l; xx++) if (!is_spc(f, xx, y)) goto ja_uz_z_toho_programovani_asi_zcvoknu;
xx = x;
ja_uz_z_toho_programovani_asi_zcvoknu:
/* uz jsem zcvoknul, trpim poruchou osobnosti */
add_srch(' ', x, y, xx - x);
if (xx == x) goto uz_jsem_zcvoknul__jsem_psychopat__trpim_poruchou_osobnosti;
x = xx - 1;
}
}
uz_jsem_zcvoknul__jsem_psychopat__trpim_poruchou_osobnosti:
add_srch(' ', x, y, 0);
}
}
#undef add_srch
return 0;
}
int get_search_data(struct f_data *f)
{
if (f->search_pos) return 0;
if (get_srch(f)) return -1;
if ((size_t)n_chr > MAX_SIZE_T / sizeof(char_t) || (size_t)n_pos > MAX_SIZE_T / sizeof(struct search)) return -1;
f->search_chr = mem_alloc_mayfail(n_chr * sizeof(char_t));
if (!f->search_chr) return -1;
f->search_pos = mem_alloc_mayfail(n_pos * sizeof(struct search));
if (!f->search_pos) {
mem_free(f->search_chr);
f->search_chr = NULL;
return -1;
}
if (get_srch(f)) internal_error("get_search_data: get_srch should not fail second time");
while (n_chr && f->search_chr[n_chr - 1] == ' ') n_chr--;
f->nsearch_chr = n_chr;
f->nsearch_pos = n_pos;
if (sort_srch(f)) {
mem_free(f->search_pos);
f->search_pos = NULL;
mem_free(f->search_chr);
f->search_chr = NULL;
f->nsearch_chr = f->nsearch_pos = 0;
return -1;
}
return 0;
}