/* $Id: image.c,v 1.37 2010/12/21 10:13:55 htrb Exp $ */ #include "fm.h" #include #include #include #include #include #ifdef HAVE_WAITPID #include #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; set_environ("W3M_TTY", ttyname_tty()); tmp = Strnew(); if (!strchr(Imgdisplay, '/')) Strcat_m_charp(tmp, w3m_auxbin_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() { char *cmd; if (!strchr(Imgdisplay, '/')) cmd = Strnew_m_charp(w3m_auxbin_dir(), "/", Imgdisplay, NULL)->ptr; else cmd = Imgdisplay; Imgdisplay_pid = open_pipe_rw(&Imgdisplay_rf, &Imgdisplay_wf); if (Imgdisplay_pid < 0) goto err0; if (Imgdisplay_pid == 0) { /* child */ setup_child(FALSE, 2, -1); myExec(cmd); /* XXX: ifdef __EMX__, use start /f ? */ } activeImage = TRUE; return TRUE; err0: Imgdisplay_pid = 0; activeImage = FALSE; return FALSE; } static void closeImgdisplay() { if (Imgdisplay_wf) fclose(Imgdisplay_wf); if (Imgdisplay_rf) { /* sync with the child */ getc(Imgdisplay_rf); /* EOF expected */ fclose(Imgdisplay_rf); } 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++; } static void syncImage(void) { 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; return; err: closeImgdisplay(); image_index += MAX_IMAGE; n_terminal_image = 0; } 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 (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); draw = TRUE; } if (!draw) return; syncImage(); touch_cursor(); refresh(); } void clearImage() { static char buf[64]; int j; TerminalImage *i; if (!activeImage) return; if (!n_terminal_image) return; if (!Imgdisplay_wf) { n_terminal_image = 0; 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; sprintf(buf, "6;%d;%d;%d;%d\n", i->x, i->y, i->width, i->height); fputs(buf, Imgdisplay_wf); } syncImage(); 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 Buffer *image_buffer = NULL; 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->loaded & IMG_FLAG_DONT_REMOVE) && a->image->cache->index < 0) unlink(a->image->cache->file); } loadImage(NULL, IMG_FLAG_STOP); } void getAllImage(Buffer *buf) { AnchorList *al; Anchor *a; ParsedURL *current; int i; image_buffer = buf; if (!buf) return; buf->image_loaded = TRUE; 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); if (a->image->cache && a->image->cache->loaded == IMG_FLAG_UNLOADED) buf->image_loaded = FALSE; } } } 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 + buf->rootY); refresh(); } } void loadImage(Buffer *buf, int flag) { ImageCache *cache; struct stat st; int i, draw = FALSE; /* int wait_st; */ #ifdef DONT_CALL_GC_AFTER_FORK char *loadargs[7]; #endif 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); } for (i = 0; i < n_load_image; i++) { cache = image_cache[i]; if (!cache) continue; if (lstat(cache->touch, &st)) 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 (image_buffer) image_buffer->need_reshape = TRUE; } draw = TRUE; } else cache->loaded = IMG_FLAG_ERROR; unlink(cache->touch); image_cache[i] = NULL; } for (i = (buf != image_buffer) ? 0 : maxLoadImage; 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; } if (flag == IMG_FLAG_STOP) { image_list = NULL; image_file = NULL; n_load_image = maxLoadImage; image_buffer = NULL; return; } if (draw && image_buffer) { drawImage(); showImageProgress(image_buffer); } image_buffer = buf; 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]) return; } image_list = NULL; image_file = NULL; if (image_buffer) displayBuffer(image_buffer, B_NORMAL); return; } if (cache->loaded == IMG_FLAG_UNLOADED) break; } image_cache[i] = cache; flush_tty(); #ifdef DONT_CALL_GC_AFTER_FORK loadargs[0] = MyProgramName; loadargs[1] = "-$$getimage"; loadargs[2] = conv_to_system(cache->url); loadargs[3] = conv_to_system(parsedURL2Str(cache->current)->ptr); loadargs[4] = cache->file; loadargs[5] = cache->touch; loadargs[6] = NULL; if ((cache->pid = fork()) == 0) { setup_child(FALSE, 0, -1); execvp(MyProgramName, loadargs); exit(1); } else if (cache->pid < 0) { cache->pid = 0; return; } #else /* !DONT_CALL_GC_AFTER_FORK */ if ((cache->pid = fork()) == 0) { Buffer *b; /* * setup_child(TRUE, 0, -1); */ setup_child(FALSE, 0, -1); 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); #else { FILE *f = fopen(cache->touch, "w"); if (f) fclose(f); } #endif exit(0); } else if (cache->pid < 0) { cache->pid = 0; return; } #endif /* !DONT_CALL_GC_AFTER_FORK */ } } 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); } 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(Imgdisplay, '/')) Strcat_m_charp(tmp, w3m_auxbin_dir(), "/", NULL); Strcat_m_charp(tmp, Imgdisplay, " -size ", shell_quote(cache->file), 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 > MAX_IMAGE_SIZE) ? MAX_IMAGE_SIZE : w; cache->height = (h > MAX_IMAGE_SIZE) ? MAX_IMAGE_SIZE : h; } else if (cache->width < 0) { int tmp = (int)((double)cache->height * w / h + 0.5); cache->width = (tmp > MAX_IMAGE_SIZE) ? MAX_IMAGE_SIZE : tmp; } else if (cache->height < 0) { int tmp = (int)((double)cache->width * h / w + 0.5); cache->height = (tmp > MAX_IMAGE_SIZE) ? MAX_IMAGE_SIZE : tmp; } 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