/* $Id: image.c,v 1.5 2002/02/08 14:29:52 ukai Exp $ */
#include "fm.h"
#include <sys/types.h>
#include <sys/stat.h>
#include <signal.h>
#include <errno.h>
#include <unistd.h>
#ifdef HAVE_WAITPID
#include <sys/wait.h>
#endif
#ifdef USE_IMAGE
static int image_index = 0;
/* display image */
typedef struct _termialImage {
ImageCache *cache;
short x;
short y;
short sx;
short sy;
short width;
short height;
} TerminalImage;
static TerminalImage *terminal_image = NULL;
static int n_terminal_image = 0;
static int max_terminal_image = 0;
static FILE *Imgdisplay_rf = NULL, *Imgdisplay_wf = NULL;
static pid_t Imgdisplay_pid = 0;
static int openImgdisplay();
static void closeImgdisplay();
int getCharSize();
void
initImage()
{
if (activeImage)
return;
if (getCharSize())
activeImage = TRUE;
}
int
getCharSize()
{
FILE *f;
Str tmp;
int w = 0, h = 0;
tmp = Strnew();
if (!strchr(Imgdisplay, '/'))
Strcat_m_charp(tmp, LIB_DIR, "/", NULL);
Strcat_m_charp(tmp, Imgdisplay, " -test 2> /dev/null", NULL);
f = popen(tmp->ptr, "r");
if (!f)
return FALSE;
while (fscanf(f, "%d %d", &w, &h) < 0) {
if (feof(f))
break;
}
pclose(f);
if (!(w > 0 && h > 0))
return FALSE;
if (!set_pixel_per_char)
pixel_per_char = (int)(1.0 * w / COLS + 0.5);
if (!set_pixel_per_line)
pixel_per_line = (int)(1.0 * h / LINES + 0.5);
return TRUE;
}
void
termImage()
{
if (!activeImage)
return;
clearImage();
if (Imgdisplay_wf) {
fputs("2;\n", Imgdisplay_wf); /* ClearImage() */
fflush(Imgdisplay_wf);
}
closeImgdisplay();
}
static int
openImgdisplay()
{
int fdr[2], fdw[2];
char *cmd;
if (pipe(fdr) < 0)
goto err0;
if (pipe(fdw) < 0)
goto err1;
flush_tty();
Imgdisplay_pid = fork();
if (Imgdisplay_pid < 0)
goto err2;
if (Imgdisplay_pid == 0) {
/* child */
reset_signals();
signal(SIGINT, SIG_IGN);
#ifdef HAVE_SETPGRP
setpgrp();
#endif
close_tty();
close(fdr[0]);
close(fdw[1]);
dup2(fdw[0], 0);
dup2(fdr[1], 1);
close(2);
if (!strchr(Imgdisplay, '/'))
cmd = Strnew_m_charp(LIB_DIR, "/", Imgdisplay, NULL)->ptr;
else
cmd = Imgdisplay;
execl("/bin/sh", "sh", "-c", cmd, NULL);
exit(1);
}
close(fdr[1]);
close(fdw[0]);
Imgdisplay_rf = fdopen(fdr[0], "r");
Imgdisplay_wf = fdopen(fdw[1], "w");
activeImage = TRUE;
return TRUE;
err2:
close(fdw[0]);
close(fdw[1]);
err1:
close(fdr[0]);
close(fdr[1]);
err0:
Imgdisplay_rf = NULL;
Imgdisplay_wf = NULL;
Imgdisplay_pid = 0;
activeImage = FALSE;
return FALSE;
}
static void
closeImgdisplay()
{
if (Imgdisplay_rf)
fclose(Imgdisplay_rf);
if (Imgdisplay_wf)
fclose(Imgdisplay_wf);
if (Imgdisplay_pid)
kill(Imgdisplay_pid, SIGKILL);
Imgdisplay_rf = NULL;
Imgdisplay_wf = NULL;
Imgdisplay_pid = 0;
}
void
addImage(ImageCache * cache, int x, int y, int sx, int sy, int w, int h)
{
TerminalImage *i;
if (!activeImage)
return;
if (n_terminal_image >= max_terminal_image) {
max_terminal_image = max_terminal_image ? (2 * max_terminal_image) : 8;
terminal_image = New_Reuse(TerminalImage, terminal_image,
max_terminal_image);
}
i = &terminal_image[n_terminal_image];
i->cache = cache;
i->x = x;
i->y = y;
i->sx = sx;
i->sy = sy;
i->width = w;
i->height = h;
n_terminal_image++;
}
void
drawImage()
{
static char buf[64];
int j, draw = FALSE;
TerminalImage *i;
if (!activeImage)
return;
if (!n_terminal_image)
return;
for (j = 0; j < n_terminal_image; j++) {
i = &terminal_image[j];
if (!(i->cache->loaded == IMG_FLAG_LOADED &&
i->width > 0 && i->height > 0))
continue;
if (!(Imgdisplay_rf && Imgdisplay_wf)) {
if (!openImgdisplay())
return;
}
if (!draw) {
fputs("3;\n", Imgdisplay_wf); /* XSync() */
draw = TRUE;
}
if (i->cache->index > 0) {
i->cache->index *= -1;
fputs("0;", Imgdisplay_wf); /* DrawImage() */
}
else
fputs("1;", Imgdisplay_wf); /* DrawImage(redraw) */
sprintf(buf, "%d;%d;%d;%d;%d;%d;%d;%d;%d;",
(-i->cache->index - 1) % MAX_IMAGE + 1, i->x, i->y,
(i->cache->width > 0) ? i->cache->width : 0,
(i->cache->height > 0) ? i->cache->height : 0,
i->sx, i->sy, i->width, i->height);
fputs(buf, Imgdisplay_wf);
fputs(i->cache->file, Imgdisplay_wf);
fputs("\n", Imgdisplay_wf);
fputs("4;\n", Imgdisplay_wf); /* put '\n' */
while (fflush(Imgdisplay_wf) != 0) {
if (ferror(Imgdisplay_wf))
goto err;
}
if (!fgetc(Imgdisplay_rf))
goto err;
}
if (!draw)
return;
fputs("3;\n", Imgdisplay_wf); /* XSync() */
fputs("4;\n", Imgdisplay_wf); /* put '\n' */
while (fflush(Imgdisplay_wf) != 0) {
if (ferror(Imgdisplay_wf))
goto err;
}
if (!fgetc(Imgdisplay_rf))
goto err;
/*
* touch_line();
* touch_column(CurColumn);
* #ifdef JP_CHARSET
* if (CurColumn > 0 &&
* CHMODE(ScreenImage[CurLine]->lineprop[CurColumn]) == C_WCHAR2)
* touch_column(CurColumn - 1);
* else if (CurColumn < COLS - 1 &&
* CHMODE(ScreenImage[CurLine]->lineprop[CurColumn]) == C_WCHAR1)
* touch_column(CurColumn + 1);
* #endif
*/
touch_cursor();
refresh();
return;
err:
closeImgdisplay();
image_index += MAX_IMAGE;
}
void
clearImage()
{
if (!activeImage)
return;
n_terminal_image = 0;
}
/* load image */
#ifndef MAX_LOAD_IMAGE
#define MAX_LOAD_IMAGE 8
#endif
static int n_load_image = 0;
static Hash_sv *image_hash = NULL;
static Hash_sv *image_file = NULL;
static GeneralList *image_list = NULL;
static ImageCache **image_cache = NULL;
static char *image_lock = NULL;
static int need_load_image = FALSE;
static MySignalHandler
load_image_handler(SIGNAL_ARG)
{
need_load_image = TRUE;
signal(SIGUSR1, load_image_handler);
SIGNAL_RETURN;
}
static MySignalHandler
load_image_next(SIGNAL_ARG)
{
need_load_image = TRUE;
signal(SIGUSR1, load_image_handler);
loadImage(IMG_FLAG_NEXT);
SIGNAL_RETURN;
}
void
deleteImage(Buffer *buf)
{
AnchorList *al;
Anchor *a;
int i;
if (!buf)
return;
al = buf->img;
if (!al)
return;
for (i = 0, a = al->anchors; i < al->nanchor; i++, a++) {
if (a->image && a->image->cache &&
a->image->cache->loaded != IMG_FLAG_UNLOADED &&
a->image->cache->index < 0)
unlink(a->image->cache->file);
}
loadImage(IMG_FLAG_STOP);
}
void
getAllImage(Buffer *buf)
{
AnchorList *al;
Anchor *a;
ParsedURL *current;
int i;
if (!buf)
return;
al = buf->img;
if (!al)
return;
current = baseURL(buf);
for (i = 0, a = al->anchors; i < al->nanchor; i++, a++) {
if (a->image)
a->image->cache = getImage(a->image, current, buf->image_flag);
}
}
void
showImageProgress(Buffer *buf)
{
AnchorList *al;
Anchor *a;
int i, l, n;
if (!buf)
return;
al = buf->img;
if (!al)
return;
for (i = 0, l = 0, n = 0, a = al->anchors; i < al->nanchor; i++, a++) {
if (a->image && a->hseq >= 0) {
n++;
if (a->image->cache && a->image->cache->loaded == IMG_FLAG_LOADED)
l++;
}
}
if (n) {
message(Sprintf("%d/%d images loaded", l, n)->ptr,
buf->cursorX + buf->rootX, buf->cursorY);
refresh();
}
}
void
loadImage(int flag)
{
ImageCache *cache;
struct stat st;
int wait_st, i;
if (maxLoadImage > MAX_LOAD_IMAGE)
maxLoadImage = MAX_LOAD_IMAGE;
else if (maxLoadImage < 1)
maxLoadImage = 1;
if (n_load_image == 0)
n_load_image = maxLoadImage;
if (!image_cache) {
image_cache = New_N(ImageCache *, MAX_LOAD_IMAGE);
bzero(image_cache, sizeof(ImageCache *) * MAX_LOAD_IMAGE);
}
if (flag == IMG_FLAG_STOP) {
for (i = 0; i < n_load_image; i++) {
cache = image_cache[i];
if (!cache)
continue;
if (cache->pid) {
kill(cache->pid, SIGKILL);
#ifdef HAVE_WAITPID
waitpid(cache->pid, &wait_st, 0);
#else
wait(&wait_st);
#endif
cache->pid = 0;
}
unlink(cache->touch);
image_cache[i] = NULL;
}
image_list = NULL;
image_file = NULL;
if (image_lock)
unlink(image_lock);
need_load_image = FALSE;
n_load_image = maxLoadImage;
return;
}
if (need_load_image) {
int draw = FALSE;
for (i = 0; i < n_load_image; i++) {
cache = image_cache[i];
if (!cache)
continue;
#ifdef HAVE_LSTAT
if (lstat(cache->touch, &st))
#else
if (stat(cache->touch, &st))
#endif
continue;
if (cache->pid) {
kill(cache->pid, SIGKILL);
#ifdef HAVE_WAITPID
waitpid(cache->pid, &wait_st, 0);
#else
wait(&wait_st);
#endif
cache->pid = 0;
}
if (!stat(cache->file, &st)) {
cache->loaded = IMG_FLAG_LOADED;
if (getImageSize(cache)) {
if (flag == IMG_FLAG_NEXT && Currentbuf)
Currentbuf->need_reshape = TRUE;
}
draw = TRUE;
}
else
cache->loaded = IMG_FLAG_ERROR;
unlink(cache->touch);
image_cache[i] = NULL;
}
if (flag == IMG_FLAG_NEXT && draw)
drawImage();
if (Currentbuf)
showImageProgress(Currentbuf);
}
if (image_lock)
unlink(image_lock);
need_load_image = FALSE;
signal(SIGUSR1, load_image_handler);
if (!image_list)
return;
for (i = 0; i < n_load_image; i++) {
if (image_cache[i])
continue;
while (1) {
cache = (ImageCache *) popValue(image_list);
if (!cache) {
for (i = 0; i < n_load_image; i++) {
if (image_cache[i])
goto load_image_end;
}
image_list = NULL;
image_file = NULL;
if (Currentbuf)
displayBuffer(Currentbuf, B_NORMAL);
return;
}
if (cache->loaded == IMG_FLAG_UNLOADED)
break;
}
image_cache[i] = cache;
if (!image_lock) {
image_lock = tmpfname(TMPF_DFL, ".lock")->ptr;
pushText(fileToDelete, image_lock);
}
flush_tty();
if ((cache->pid = fork()) == 0) {
Buffer *b;
#if !(defined(HAVE_SYMLINK) && defined(HAVE_LSTAT))
FILE *f;
#endif
reset_signals();
signal(SIGINT, SIG_IGN);
close_tty();
QuietMessage = TRUE;
fmInitialized = FALSE;
image_source = cache->file;
b = loadGeneralFile(cache->url, cache->current, NULL, 0, NULL);
if (!b || !b->real_type || strncasecmp(b->real_type, "image/", 6))
unlink(cache->file);
#if defined(HAVE_SYMLINK) && defined(HAVE_LSTAT)
symlink(cache->file, cache->touch);
if (lstat(image_lock, &st)) {
if (symlink(cache->file, image_lock))
exit(0);
#else
f = fopen(cache->touch, "w");
if (f)
fclose(f);
if (stat(image_lock, &st)) {
f = fopen(image_lock, "w");
if (!f)
exit(0);
fclose(f);
#endif
kill(getppid(), SIGUSR1);
}
exit(0);
}
else if (cache->pid < 0) {
cache->pid = 0;
return;
}
}
load_image_end:
if (flag == IMG_FLAG_NEXT)
signal(SIGUSR1, load_image_next);
}
ImageCache *
getImage(Image * image, ParsedURL *current, int flag)
{
Str key = NULL;
ImageCache *cache;
if (!activeImage)
return NULL;
if (!image_hash)
image_hash = newHash_sv(100);
if (image->cache)
cache = image->cache;
else {
key = Sprintf("%d;%d;%s", image->width, image->height, image->url);
cache = (ImageCache *) getHash_sv(image_hash, key->ptr, NULL);
}
if (cache && cache->index && abs(cache->index) <= image_index - MAX_IMAGE) {
struct stat st;
if (stat(cache->file, &st))
cache->loaded = IMG_FLAG_UNLOADED;
cache->index = 0;
}
if (!cache) {
if (flag == IMG_FLAG_SKIP)
return NULL;
cache = New(ImageCache);
cache->url = image->url;
cache->current = current;
cache->file = tmpfname(TMPF_DFL, image->ext)->ptr;
cache->touch = tmpfname(TMPF_DFL, NULL)->ptr;
cache->pid = 0;
cache->index = 0;
cache->loaded = IMG_FLAG_UNLOADED;
cache->width = image->width;
cache->height = image->height;
putHash_sv(image_hash, key->ptr, (void *)cache);
pushText(fileToDelete, cache->file);
pushText(fileToDelete, cache->touch);
}
if (flag != IMG_FLAG_SKIP) {
if (cache->loaded == IMG_FLAG_UNLOADED) {
if (!image_file)
image_file = newHash_sv(100);
if (!getHash_sv(image_file, cache->file, NULL)) {
putHash_sv(image_file, cache->file, (void *)cache);
if (!image_list)
image_list = newGeneralList();
pushValue(image_list, (void *)cache);
}
}
if (!cache->index)
cache->index = ++image_index;
}
if (cache->loaded == IMG_FLAG_LOADED)
getImageSize(cache);
return cache;
}
int
getImageSize(ImageCache * cache)
{
Str tmp;
FILE *f;
int w = 0, h = 0;
if (!activeImage)
return FALSE;
if (!cache || cache->loaded != IMG_FLAG_LOADED ||
(cache->width > 0 && cache->height > 0))
return FALSE;
tmp = Strnew();
if (!strchr(Imgsize, '/'))
Strcat_m_charp(tmp, LIB_DIR, "/", NULL);
Strcat_m_charp(tmp, Imgsize, " ", shell_quote(cache->file),
" 2> /dev/null", NULL);
f = popen(tmp->ptr, "r");
if (!f)
return FALSE;
while (fscanf(f, "%d %d", &w, &h) < 0) {
if (feof(f))
break;
}
pclose(f);
if (!(w > 0 && h > 0))
return FALSE;
w = (int)(w * image_scale / 100 + 0.5);
if (w == 0)
w = 1;
h = (int)(h * image_scale / 100 + 0.5);
if (h == 0)
h = 1;
if (cache->width < 0 && cache->height < 0) {
cache->width = w;
cache->height = h;
}
else if (cache->width < 0) {
cache->width = (int)((double)cache->height * w / h + 0.5);
}
else if (cache->height < 0) {
cache->height = (int)((double)cache->width * h / w + 0.5);
}
if (cache->width == 0)
cache->width = 1;
if (cache->height == 0)
cache->height = 1;
tmp = Sprintf("%d;%d;%s", cache->width, cache->height, cache->url);
putHash_sv(image_hash, tmp->ptr, (void *)cache);
return TRUE;
}
#endif