/* * image viewer, for framebuffer devices * * (c) 1998-2012 Gerd Hoffmann * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_LIBLIRC # include "lirc/lirc_client.h" # include "lirc.h" #endif #include "readers.h" #include "dither.h" #include "fbtools.h" #include "fb-gui.h" #include "filter.h" #include "desktop.h" #include "list.h" #include "fbiconfig.h" #include "transupp.h" /* Support routines for jpegtran */ #include "jpegtools.h" #define TRUE 1 #define FALSE 0 #undef MAX #define MAX(x,y) ((x)>(y)?(x):(y)) #undef MIN #define MIN(x,y) ((x)<(y)?(x):(y)) #define ARRAY_SIZE(x) (sizeof(x)/sizeof(x[0])) #define KEY_EOF -1 /* ^D */ #define KEY_ESC -2 #define KEY_SPACE -3 #define KEY_Q -4 #define KEY_PGUP -5 #define KEY_PGDN -6 #define KEY_TIMEOUT -7 #define KEY_TAGFILE -8 #define KEY_PLUS -9 #define KEY_MINUS -10 #define KEY_VERBOSE -11 #define KEY_ASCALE -12 #define KEY_DESC -13 /* with arg */ #define KEY_GOTO -100 #define KEY_SCALE -101 #define KEY_DELAY -102 /* edit */ #define KEY_DELETE -200 #define KEY_ROT_CW -201 #define KEY_ROT_CCW -202 #define KEY_FLIP_V -203 #define KEY_FLIP_H -204 #define DEFAULT_DEVICE "/dev/fb0" /* ---------------------------------------------------------------------- */ /* lirc fd */ int lirc = -1; /* variables for read_image */ int32_t lut_red[256], lut_green[256], lut_blue[256]; int dither = FALSE, pcd_res = 3; int v_steps = 50; int h_steps = 50; int textreading = 0, redraw = 0, statusline = 1; int fitwidth; /* file list */ struct flist { /* file list */ int nr; int tag; char *name; struct list_head list; /* image cache */ int seen; int top; int left; int text_steps; float scale; struct ida_image *fimg; struct ida_image *simg; struct list_head lru; }; static LIST_HEAD(flist); static LIST_HEAD(flru); static int fcount; static struct flist *fcurrent; static struct ida_image *img; /* accounting */ static int img_cnt, min_cnt = 2, max_cnt = 16; static int img_mem, max_mem_mb; /* framebuffer */ char *fbdev = NULL; char *fbmode = NULL; int fd, switch_last, debug; unsigned short red[256], green[256], blue[256]; struct fb_cmap cmap = { 0, 256, red, green, blue }; static float fbgamma = 1; /* Command line options. */ int autodown; int autoup; int comments; int transparency = 40; int timeout; int backup; int preserve; int read_ahead; int editable; int blend_msecs; int perfmon = 0; /* font handling */ static char *fontname = NULL; static FT_Face face; /* ---------------------------------------------------------------------- */ /* fwd declarations */ static struct ida_image *flist_img_get(struct flist *f); static void *flist_malloc(size_t size); static void flist_img_load(struct flist *f, int prefetch); /* ---------------------------------------------------------------------- */ static void version(void) { fprintf(stderr, "fbi version " VERSION ", compiled on %s\n" "(c) 1998-2012 Gerd Hoffmann [SUSE Labs]\n", __DATE__ ); } static void usage(char *name) { char *h; if (NULL != (h = strrchr(name, '/'))) name = h+1; fprintf(stderr, "\n" "This program displays images using the Linux framebuffer device.\n" "Supported formats: PhotoCD, jpeg, ppm, gif, tiff, xwd, bmp, png,\n" "webp. It tries to use ImageMagick's convert for unknown file formats.\n" "\n" "usage: %s [ options ] file1 file2 ... fileN\n" "\n", name); cfg_help_cmdline(stderr,fbi_cmd,4,20,0); cfg_help_cmdline(stderr,fbi_cfg,4,20,40); fprintf(stderr, "\n" "Large images can be scrolled using the cursor keys. Zoom in/out\n" "works with '+' and '-'. Use ESC or 'q' to quit. Space and PgDn\n" "show the next, PgUp shows the previous image. Jumping to a image\n" "works with g. Return acts like Space but additionally prints\n" "prints the filename of the currently displayed image to stdout.\n" "\n"); } /* ---------------------------------------------------------------------- */ static int flist_add(char *filename) { struct flist *f; f = malloc(sizeof(*f)); memset(f,0,sizeof(*f)); f->name = strdup(filename); list_add_tail(&f->list,&flist); INIT_LIST_HEAD(&f->lru); return 0; } static int flist_add_list(char *listfile) { char filename[256]; FILE *list; list = fopen(listfile,"r"); if (NULL == list) { fprintf(stderr,"open %s: %s\n",listfile,strerror(errno)); return -1; } while (NULL != fgets(filename,sizeof(filename)-1,list)) { size_t off = strcspn(filename,"\r\n"); if (off) filename[off] = 0; flist_add(filename); } fclose(list); return 0; } static int flist_del(struct flist *f) { list_del(&f->list); free(f->name); free(f); return 0; } static void flist_renumber(void) { struct list_head *item; struct flist *f; int i = 0; list_for_each(item,&flist) { f = list_entry(item, struct flist, list); f->nr = ++i; } fcount = i; } static int flist_islast(struct flist *f) { return (&flist == f->list.next) ? 1 : 0; } static int flist_isfirst(struct flist *f) { return (&flist == f->list.prev) ? 1 : 0; } static struct flist* flist_first(void) { return list_entry(flist.next, struct flist, list); } static struct flist* flist_last(void) { return list_entry(flist.prev, struct flist, list); } static struct flist* flist_next(struct flist *f, int eof, int loop) { if (flist_islast(f)) { if (eof) return NULL; if (loop) return flist_first(); return f; } return list_entry(f->list.next, struct flist, list); } static struct flist* flist_prev(struct flist *f, int loop) { if (flist_isfirst(f)) { if (loop) return flist_last(); return f; } return list_entry(f->list.prev, struct flist, list); } static struct flist* flist_goto(int dest) { struct list_head *item; struct flist *f; list_for_each(item,&flist) { f = list_entry(item, struct flist, list); if (f->nr == dest) return f; } return NULL; } static void flist_randomize(void) { struct flist *f; int count; srand((unsigned)time(NULL)); flist_renumber(); for (count = fcount; count > 0; count--) { f = flist_goto((rand() % count)+1); list_del(&f->list); list_add_tail(&f->list,&flist); flist_renumber(); } } static void flist_print_tagged(FILE *fp) { struct list_head *item; struct flist *f; list_for_each(item,&flist) { f = list_entry(item, struct flist, list); if (f->tag) fprintf(fp,"%s\n",f->name); } } /* ---------------------------------------------------------------------- */ static void shadow_draw_image(struct ida_image *img, int xoff, int yoff, unsigned int first, unsigned int last, int weight) { unsigned int dwidth = MIN(img->i.width, fb_var.xres); unsigned int dheight = MIN(img->i.height, fb_var.yres); unsigned int data, offset, y, xs, ys; if (100 == weight) shadow_clear_lines(first, last); else shadow_darkify(0, fb_var.xres-1, first, last, 100 - weight); /* offset for image data (image > screen, select visible area) */ offset = (yoff * img->i.width + xoff) * 3; /* offset for video memory (image < screen, center image) */ xs = 0, ys = 0; if (img->i.width < fb_var.xres) xs += (fb_var.xres - img->i.width) / 2; if (img->i.height < fb_var.yres) ys += (fb_var.yres - img->i.height) / 2; /* go ! */ for (data = 0, y = 0; data < img->i.width * img->i.height * 3 && data / img->i.width / 3 < dheight; data += img->i.width * 3, y++) { if (ys+y < first) continue; if (ys+y > last) continue; if (100 == weight) shadow_draw_rgbdata(xs, ys+y, dwidth, img->data + data + offset); else shadow_merge_rgbdata(xs, ys+y, dwidth, weight, img->data + data + offset); } } static void status_prepare(void) { struct ida_image *img = flist_img_get(fcurrent); int y1 = fb_var.yres - (face->size->metrics.height >> 6); int y2 = fb_var.yres - 1; if (img) { shadow_draw_image(img, fcurrent->left, fcurrent->top, y1, y2, 100); shadow_darkify(0, fb_var.xres-1, y1, y2, transparency); } else { shadow_clear_lines(y1, y2); } shadow_draw_line(0, fb_var.xres-1, y1-1, y1-1); } struct string { char *ptr; size_t len; }; void init_string(struct string *s) { s->len = 0; s->ptr = malloc(s->len+1); if (s->ptr == NULL) { fprintf(stderr, "malloc() failed\n"); exit(EXIT_FAILURE); } s->ptr[0] = '\0'; } size_t writefunc(void *ptr, size_t size, size_t nmemb, struct string *s) { size_t new_len = s->len + size*nmemb; s->ptr = realloc(s->ptr, new_len+1); if (s->ptr == NULL) { fprintf(stderr, "realloc() failed\n"); exit(EXIT_FAILURE); } memcpy(s->ptr+s->len, ptr, size*nmemb); s->ptr[new_len] = '\0'; s->len = new_len; return size*nmemb; } int splint_rtoa (unsigned char *rx, int rs, int rc, char **name_mas, float *dat_mas) //rx входная строка, rs колличество символов в строке, rc количество параметров { int i, r, mix = 0; char tmp[20]; //syslog (LOG_NOTICE, "butes num:%d\n", rs); for (i = 0; i < rc; i++) { if (name_mas[i] != NULL) { for (r = mix; r < rs; r++) { if (rx[r] == ':') { mix = r + 1; break; } else { name_mas[i][r - mix] = rx[r]; } } for (r = mix; r < rs; r++) { if (rx[r] == ' ') { tmp[r - mix] = '\0'; mix = r + 1; break; } else { tmp[r - mix] = rx[r]; } } dat_mas[i] = atof (tmp); //syslog (LOG_NOTICE, "[splint]sens_%d %s dat:%f\n", i, name_mas[i], dat_mas[i]); } } //syslog (LOG_NOTICE, "end splint\n"); return rc; } static void status_update(unsigned char *desc, char *info) { int yt = fb_var.yres + (face->size->metrics.descender >> 6); wchar_t str[128]; if (!statusline) return; CURL *curl; CURLcode res; int rc=0; int unixtime_dat=0, time_offset=0; time_t t = time(NULL); struct tm tm = *localtime(&t); float temp=0, hum=0, pre=0; struct string s; curl = curl_easy_init(); if(curl) { int i; char **name_mas; float *dat_mas; init_string(&s); curl_easy_setopt(curl, CURLOPT_URL, "http://192.168.0.174/tmp/arduino_raw.txt"); curl_easy_setopt(curl, CURLOPT_WRITEFUNCTION, writefunc); curl_easy_setopt(curl, CURLOPT_WRITEDATA, &s); res = curl_easy_perform(curl); for(i=0;i0) { time_offset = (int)t - unixtime_dat; //swprintf(str,ARRAY_SIZE(str),L"%s len:%d msg col:%d ", s.ptr, s.len, rc); if(time_offset >= 120) { char surname[10]="м\0"; if(time_offset >= 60) { time_offset /= 60; sprintf(surname,"ч"); } swprintf(str,ARRAY_SIZE(str),L"Давность:%d%s", time_offset, surname); shadow_draw_string(face, 0, 20, str, -1); } swprintf(str,ARRAY_SIZE(str),L"Температура: %.2f°C Влажность: %.2f%c Давление: %.2fмм рт. ст.", temp, hum, 37, pre); //printf("Задержка:%d unixtime_pac:%d unixtime_local:%d", time_offset, unixtime_dat, (int)t); } else{ swprintf(str,ARRAY_SIZE(str),L"Невозможно получить данные."); } //swprintf(str,ARRAY_SIZE(str),L"%s",desc); shadow_draw_string(face, 0, yt, str, -1); /* if (info) { swprintf(str,ARRAY_SIZE(str), L"[ %s ] H - Help", info); } else { swprintf(str,ARRAY_SIZE(str), L"| H - Help"); }*/ char tmp[100]="\0\0\0\0\0\0"; if(tm.tm_hour < 10) { sprintf(tmp,"0"); } sprintf(tmp, "%s%d:",tmp,tm.tm_hour); if(tm.tm_min < 10) { sprintf(tmp,"%s0",tmp); } sprintf(tmp, "%s%d %d.",tmp,tm.tm_min,tm.tm_year + 1900); if(tm.tm_mon+1 < 10) { sprintf(tmp,"%s0",tmp); } sprintf(tmp, "%s%d.",tmp,tm.tm_mon+1); if(tm.tm_mday < 10) { sprintf(tmp,"%s0",tmp); } sprintf(tmp, "%s%d",tmp,tm.tm_mday); swprintf(str,ARRAY_SIZE(str), L" %s ",tmp); shadow_draw_string(face, fb_var.xres, yt, str, 1); free(s.ptr); shadow_render(); } static void status_error(unsigned char *msg) { int yt = fb_var.yres + (face->size->metrics.descender >> 6); wchar_t str[128]; status_prepare(); swprintf(str,ARRAY_SIZE(str), L"%s", msg); shadow_draw_string(face, 0, yt, str, -1); shadow_render(); sleep(2); } static void status_edit(unsigned char *msg, int pos) { int yt = fb_var.yres + (face->size->metrics.descender >> 6); wchar_t str[128]; status_prepare(); swprintf(str,ARRAY_SIZE(str), L"%s", msg); shadow_draw_string_cursor(face, 0, yt, str, pos); shadow_render(); } static void show_exif(struct flist *f) { static unsigned int tags[] = { 0x010f, // Manufacturer 0x0110, // Model 0x0112, // Orientation 0x0132, // Date and Time 0x01e3, // White Point 0x829a, // Exposure Time 0x829d, // FNumber 0x9206, // Subject Distance 0xa40c, // Subject Distance Range 0xa405, // Focal Length In 35mm Film 0x9209, // Flash 0xa002, // Pixel X Dimension 0xa003, // Pixel Y Dimension }; ExifData *ed; ExifEntry *ee; unsigned int tag,l1,l2,len,count,i; const char *title[ARRAY_SIZE(tags)]; char *value[ARRAY_SIZE(tags)]; wchar_t *linebuffer[ARRAY_SIZE(tags)]; if (!visible) return; ed = exif_data_new_from_file(f->name); if (NULL == ed) { status_error("image has no EXIF data"); return; } /* pass one -- get data + calc size */ l1 = 0; l2 = 0; for (tag = 0; tag < ARRAY_SIZE(tags); tag++) { ee = exif_content_get_entry (ed->ifd[EXIF_IFD_0], tags[tag]); if (NULL == ee) ee = exif_content_get_entry (ed->ifd[EXIF_IFD_EXIF], tags[tag]); if (NULL == ee) { title[tag] = NULL; value[tag] = NULL; continue; } title[tag] = exif_tag_get_title(tags[tag]); #ifdef HAVE_NEW_EXIF value[tag] = malloc(128); exif_entry_get_value(ee, value[tag], 128); #else value[tag] = strdup(exif_entry_get_value(ee)); #endif len = strlen(title[tag]); if (l1 < len) l1 = len; len = strlen(value[tag]); if (l2 < len) l2 = len; } /* pass two -- print stuff */ count = 0; for (tag = 0; tag < ARRAY_SIZE(tags); tag++) { if (NULL == title[tag]) continue; linebuffer[count] = malloc(sizeof(wchar_t)*(l1+l2+8)); swprintf(linebuffer[count], l1+l2+8, L"%-*.*s : %-*.*s", l1, l1, title[tag], l2, l2, value[tag]); count++; } shadow_draw_text_box(face, 24, 16, transparency, linebuffer, count); shadow_render(); /* pass three -- free data */ for (tag = 0; tag < ARRAY_SIZE(tags); tag++) if (NULL != value[tag]) free(value[tag]); exif_data_unref (ed); for (i = 0; i < count; i++) free(linebuffer[i]); } static void show_help(void) { static wchar_t *help[] = { L"keyboard commands", L"~~~~~~~~~~~~~~~~~", L" cursor keys - scroll image", L" PgUp, k - previous image", L" PgDn, SPACE, j - next image", L" g - jump to image #i", L"", L" a - autozoom image", L" +/- - zoom in/out", L" s - set zoom to %", L"", L" ESC, q - quit", L" v - toggle statusline", L" h - show this help text", L" i - show EXIF info", L" p - pause slideshow", L"", L"available if started with --edit switch,", L"rotation works for jpeg images only:", L" D, Shift+d - delete image", L" r - rotate 90 degrees clockwise", L" l - rotate 90 degrees counter-clockwise", L" x - mirror image vertically (top / bottom)", L" y - mirror image horizontally (left to right)", }; shadow_draw_text_box(face, 24, 16, transparency, help, ARRAY_SIZE(help)); shadow_render(); } /* ---------------------------------------------------------------------- */ struct termios saved_attributes; int saved_fl; static void tty_raw(void) { struct termios tattr; fcntl(0,F_GETFL,&saved_fl); tcgetattr (0, &saved_attributes); fcntl(0,F_SETFL,O_NONBLOCK); memcpy(&tattr,&saved_attributes,sizeof(struct termios)); tattr.c_lflag &= ~(ICANON|ECHO); tattr.c_cc[VMIN] = 1; tattr.c_cc[VTIME] = 0; tcsetattr (0, TCSAFLUSH, &tattr); } static void tty_restore(void) { fcntl(0,F_SETFL,saved_fl); tcsetattr (0, TCSANOW, &saved_attributes); } /* testing: find key codes */ static void debug_key(char *key) { char linebuffer[128]; int i,len; len = sprintf(linebuffer,"key: "); for (i = 0; key[i] != '\0'; i++) len += snprintf(linebuffer+len, sizeof(linebuffer)-len, "%s%c", key[i] < 0x20 ? "^" : "", key[i] < 0x20 ? key[i] + 0x40 : key[i]); status_update(linebuffer, NULL); } static void console_switch(void) { switch (fb_switch_state) { case FB_REL_REQ: fb_switch_release(); case FB_INACTIVE: visible = 0; break; case FB_ACQ_REQ: fb_switch_acquire(); case FB_ACTIVE: visible = 1; ioctl(fd,FBIOPAN_DISPLAY,&fb_var); shadow_set_palette(fd); shadow_set_dirty(); shadow_render(); break; default: break; } switch_last = fb_switch_state; return; } /* ---------------------------------------------------------------------- */ static void free_image(struct ida_image *img) { if (img) { if (img->data) { img_mem -= img->i.width * img->i.height * 3; free(img->data); } free(img); } } static struct ida_image* read_image(char *filename) { struct ida_loader *loader = NULL; struct ida_image *img; struct list_head *item; char blk[512]; FILE *fp; unsigned int y; void *data; /* open file */ if (NULL == (fp = fopen(filename, "r"))) { fprintf(stderr,"open %s: %s\n",filename,strerror(errno)); return NULL; } memset(blk,0,sizeof(blk)); fread(blk,1,sizeof(blk),fp); rewind(fp); /* pick loader */ list_for_each(item,&loaders) { loader = list_entry(item, struct ida_loader, list); if (NULL == loader->magic) break; if (0 == memcmp(blk+loader->moff,loader->magic,loader->mlen)) break; loader = NULL; } if (NULL == loader) { /* no loader found, try to use ImageMagick's convert */ int p[2]; if (0 != pipe(p)) return NULL; switch (fork()) { case -1: /* error */ perror("fork"); close(p[0]); close(p[1]); return NULL; case 0: /* child */ dup2(p[1], 1 /* stdout */); close(p[0]); close(p[1]); execlp("convert", "convert", "-depth", "8", filename, "ppm:-", NULL); exit(1); default: /* parent */ close(p[1]); fp = fdopen(p[0], "r"); if (NULL == fp) return NULL; loader = &ppm_loader; } } /* load image */ img = malloc(sizeof(*img)); memset(img,0,sizeof(*img)); data = loader->init(fp,filename,0,&img->i,0); if (NULL == data) { fprintf(stderr,"loading %s [%s] FAILED\n",filename,loader->name); free_image(img); return NULL; } img->data = flist_malloc(img->i.width * img->i.height * 3); img_mem += img->i.width * img->i.height * 3; for (y = 0; y < img->i.height; y++) { if (switch_last != fb_switch_state) console_switch(); loader->read(img->data + img->i.width * 3 * y, y, data); } loader->done(data); return img; } static struct ida_image* scale_image(struct ida_image *src, float scale) { struct op_resize_parm p; struct ida_rect rect; struct ida_image *dest; void *data; unsigned int y; dest = malloc(sizeof(*dest)); memset(dest,0,sizeof(*dest)); memset(&rect,0,sizeof(rect)); memset(&p,0,sizeof(p)); p.width = src->i.width * scale; p.height = src->i.height * scale; p.dpi = src->i.dpi; if (0 == p.width) p.width = 1; if (0 == p.height) p.height = 1; data = desc_resize.init(src,&rect,&dest->i,&p); dest->data = flist_malloc(dest->i.width * dest->i.height * 3); img_mem += dest->i.width * dest->i.height * 3; for (y = 0; y < dest->i.height; y++) { if (switch_last != fb_switch_state) console_switch(); desc_resize.work(src,&rect, dest->data + 3 * dest->i.width * y, y, data); } desc_resize.done(data); return dest; } static float auto_scale(struct ida_image *img) { float xs,ys,scale; xs = (float)fb_var.xres / img->i.width; if (fitwidth) return xs; ys = (float)fb_var.yres / img->i.height; scale = (xs < ys) ? xs : ys; return scale; } /* ---------------------------------------------------------------------- */ static void effect_blend(struct flist *f, struct flist *t) { struct timeval start, now; int msecs, weight = 0; char linebuffer[80]; int pos = 0; int count = 0; gettimeofday(&start, NULL); do { gettimeofday(&now, NULL); msecs = (now.tv_sec - start.tv_sec) * 1000; msecs += (now.tv_usec - start.tv_usec) / 1000; weight = msecs * 100 / blend_msecs; if (weight > 100) weight = 100; shadow_draw_image(flist_img_get(f), f->left, f->top, 0, fb_var.yres-1, 100); shadow_draw_image(flist_img_get(t), t->left, t->top, 0, fb_var.yres-1, weight); if (perfmon) { pos += snprintf(linebuffer+pos, sizeof(linebuffer)-pos, " %d%%", weight); status_update(linebuffer, NULL); count++; } shadow_render(); } while (weight < 100); if (perfmon) { gettimeofday(&now, NULL); msecs = (now.tv_sec - start.tv_sec) * 1000; msecs += (now.tv_usec - start.tv_usec) / 1000; pos += snprintf(linebuffer+pos, sizeof(linebuffer)-pos, " | %d/%d -> %d msec", msecs, count, msecs/count); status_update(linebuffer, NULL); shadow_render(); sleep(2); } } static int svga_show(struct flist *f, struct flist *prev, int timeout, char *desc, char *info, int *nr) { static int paused = 0, skip = KEY_SPACE; struct ida_image *img = flist_img_get(f); int exif = 0, help = 0; int rc; char key[11]; fd_set set; struct timeval limit; char linebuffer[80]; int fdmax; *nr = 0; if (NULL == img) return skip; redraw = 1; for (;;) { if (redraw) { redraw = 0; if (img->i.height <= fb_var.yres) { f->top = 0; } else { if (f->top < 0) f->top = 0; if (f->top + fb_var.yres > img->i.height) f->top = img->i.height - fb_var.yres; } if (img->i.width <= fb_var.xres) { f->left = 0; } else { if (f->left < 0) f->left = 0; if (f->left + fb_var.xres > img->i.width) f->left = img->i.width - fb_var.xres; } if (blend_msecs && prev && prev != f && flist_img_get(prev) && flist_img_get(f)) { effect_blend(prev, f); prev = NULL; } else { shadow_draw_image(img, f->left, f->top, 0, fb_var.yres-1, 100); } status_update(desc, info); shadow_render(); if (read_ahead) { struct flist *f = flist_next(fcurrent,1,0); if (f && !f->fimg) flist_img_load(f,1); status_update(desc, info); shadow_render(); } } if (switch_last != fb_switch_state) { console_switch(); continue; } FD_ZERO(&set); FD_SET(0, &set); fdmax = 1; #ifdef HAVE_LIBLIRC if (-1 != lirc) { FD_SET(lirc,&set); fdmax = lirc+1; } #endif limit.tv_sec = timeout; limit.tv_usec = 0; rc = select(fdmax, &set, NULL, NULL, (0 != timeout && !paused) ? &limit : NULL); if (switch_last != fb_switch_state) { console_switch(); continue; } if (0 == rc) return KEY_TIMEOUT; if (FD_ISSET(0,&set)) { /* stdin, i.e. keyboard */ rc = read(0, key, sizeof(key)-1); if (rc < 1) { /* EOF */ return KEY_EOF; } key[rc] = 0; } #ifdef HAVE_LIBLIRC if (lirc != -1 && FD_ISSET(lirc,&set)) { /* lirc input */ if (-1 == lirc_fbi_havedata(&rc,key)) { fprintf(stderr,"lirc: connection lost\n"); close(lirc); lirc = -1; } key[rc] = 0; } #endif if (rc == 1 && (*key == 'q' || *key == 'Q' || *key == 'e' || *key == 'E' || *key == '\x1b' || *key == '\n')) { if (*key == '\n') return KEY_TAGFILE; if (*key == '\x1b') return KEY_ESC; return KEY_Q; } else if (0 == strcmp(key, " ")) { if (textreading && f->top < (int)(img->i.height - fb_var.yres)) { redraw = 1; f->top += f->text_steps; } else { skip = KEY_SPACE; return KEY_SPACE; } } else if (0 == strcmp(key, "\x1b[A") && img->i.height > fb_var.yres) { redraw = 1; f->top -= v_steps; } else if (0 == strcmp(key, "\x1b[B") && img->i.height > fb_var.yres) { redraw = 1; f->top += v_steps; } else if (0 == strcmp(key, "\x1b[1~") && img->i.height > fb_var.yres) { redraw = 1; f->top = 0; } else if (0 == strcmp(key, "\x1b[4~")) { redraw = 1; f->top = img->i.height - fb_var.yres; } else if (0 == strcmp(key, "\x1b[D") && img->i.width > fb_var.xres) { redraw = 1; f->left -= h_steps; } else if (0 == strcmp(key, "\x1b[C") && img->i.width > fb_var.xres) { redraw = 1; f->left += h_steps; } else if (0 == strcmp(key, "\x1b[5~") || 0 == strcmp(key, "k") || 0 == strcmp(key, "K")) { if (textreading && f->top > 0) { redraw = 1; f->top -= f->text_steps; } else { skip = KEY_PGUP; return KEY_PGUP; } } else if (0 == strcmp(key, "\x1b[6~") || 0 == strcmp(key, "j") || 0 == strcmp(key, "J") || 0 == strcmp(key, "n") || 0 == strcmp(key, "N")) { if (textreading && f->top < (int)(img->i.height - fb_var.yres)) { redraw = 1; f->top += f->text_steps; } else { skip = KEY_PGDN; return KEY_PGDN; } } else if (0 == strcmp(key, "+")) { return KEY_PLUS; } else if (0 == strcmp(key, "-")) { return KEY_MINUS; } else if (0 == strcmp(key, "a") || 0 == strcmp(key, "A")) { return KEY_ASCALE; } else if (0 == strcmp(key, "p") || 0 == strcmp(key, "P")) { if (0 != timeout) { paused = !paused; status_update(paused ? "pause on " : "pause off", NULL); } } else if (0 == strcmp(key, "D")) { return KEY_DELETE; } else if (0 == strcmp(key, "r") || 0 == strcmp(key, "R")) { return KEY_ROT_CW; } else if (0 == strcmp(key, "l") || 0 == strcmp(key, "L")) { return KEY_ROT_CCW; } else if (0 == strcmp(key, "x") || 0 == strcmp(key, "X")) { return KEY_FLIP_V; } else if (0 == strcmp(key, "y") || 0 == strcmp(key, "Y")) { return KEY_FLIP_H; } else if (0 == strcmp(key, "h") || 0 == strcmp(key, "H")) { if (!help) { show_help(); help = 1; } else { redraw = 1; help = 0; } exif = 0; } else if (0 == strcmp(key, "i") || 0 == strcmp(key, "I")) { if (!exif) { show_exif(fcurrent); exif = 1; } else { redraw = 1; exif = 0; } help = 0; } else if (0 == strcmp(key, "v") || 0 == strcmp(key, "V")) { return KEY_VERBOSE; } else if (0 == strcmp(key, "t") || 0 == strcmp(key, "T")) { return KEY_DESC; } else if (rc == 1 && (*key == 'g' || *key == 'G')) { return KEY_GOTO; } else if (rc == 1 && (*key == 's' || *key == 'S')) { return KEY_SCALE; } else if (rc == 1 && (*key == 'x' || *key == 'X')) { return KEY_DELAY; } else if (rc == 1 && *key >= '0' && *key <= '9') { *nr = *nr * 10 + (*key - '0'); snprintf(linebuffer, sizeof(linebuffer), "> %d",*nr); status_update(linebuffer, NULL); } else { *nr = 0; #if 0 debug_key(key); #endif } } } static void scale_fix_top_left(struct flist *f, float old, float new) { struct ida_image *img = flist_img_get(f); unsigned int width, height; float cx,cy; cx = (float)(f->left + fb_var.xres/2) / (img->i.width * old); cy = (float)(f->top + fb_var.yres/2) / (img->i.height * old); width = img->i.width * new; height = img->i.height * new; f->left = cx * width - fb_var.xres/2; f->top = cy * height - fb_var.yres/2; } /* ---------------------------------------------------------------------- */ static char *my_basename(char *filename) { char *h; h = strrchr(filename,'/'); if (h) return h+1; return filename; } static char *file_desktop(char *filename) { static char desc[128]; char *h; strncpy(desc,filename,sizeof(desc)-1); if (NULL != (h = strrchr(filename,'/'))) { snprintf(desc,sizeof(desc),"%.*s/%s", (int)(h - filename), filename, ".directory"); } else { strcpy(desc,".directory"); } return desc; } static char *make_desc(struct ida_image_info *img, char *filename) { static char linebuffer[128]; struct ida_extra *extra; char *desc; int len; memset(linebuffer,0,sizeof(linebuffer)); strncpy(linebuffer,filename,sizeof(linebuffer)-1); if (comments) { extra = load_find_extra(img, EXTRA_COMMENT); if (extra) snprintf(linebuffer,sizeof(linebuffer),"%.*s", extra->size,extra->data); } else { desc = file_desktop(filename); len = desktop_read_entry(desc, "Comment=", linebuffer, sizeof(linebuffer)); if (0 != len) snprintf(linebuffer+len,sizeof(linebuffer)-len, " (%s)", my_basename(filename)); } return linebuffer; } static char *make_info(struct ida_image *img, float scale) { static char linebuffer[128]; snprintf(linebuffer, sizeof(linebuffer), "%s%.0f%% %dx%d %d/%d", fcurrent->tag ? "* " : "", scale*100, img->i.width, img->i.height, fcurrent->nr, fcount); return linebuffer; } static char edit_line(struct ida_image *img, char *line, int max) { int len = strlen(line); int pos = len; int rc; char key[11]; fd_set set; do { status_edit(line,pos); FD_SET(0, &set); rc = select(1, &set, NULL, NULL, NULL); if (switch_last != fb_switch_state) { console_switch(); continue; } rc = read(0, key, sizeof(key)-1); if (rc < 1) { /* EOF */ return KEY_EOF; } key[rc] = 0; if (0 == strcmp(key,"\x0a")) { /* Enter */ return 0; } else if (0 == strcmp(key,"\x1b")) { /* ESC */ return KEY_ESC; } else if (0 == strcmp(key,"\x1b[C")) { /* cursor right */ if (pos < len) pos++; } else if (0 == strcmp(key,"\x1b[D")) { /* cursor left */ if (pos > 0) pos--; } else if (0 == strcmp(key,"\x1b[1~")) { /* home */ pos = 0; } else if (0 == strcmp(key,"\x1b[4~")) { /* end */ pos = len; } else if (0 == strcmp(key,"\x7f")) { /* backspace */ if (pos > 0) { memmove(line+pos-1,line+pos,len-pos+1); pos--; len--; } } else if (0 == strcmp(key,"\x1b[3~")) { /* delete */ if (pos < len) { memmove(line+pos,line+pos+1,len-pos); len--; } } else if (1 == rc && isprint(key[0]) && len < max) { /* new key */ if (pos < len) memmove(line+pos+1,line+pos,len-pos+1); line[pos] = key[0]; pos++; len++; line[len] = 0; } else if (0 /* debug */) { debug_key(key); sleep(1); } } while (1); } static void edit_desc(struct ida_image *img, char *filename) { static char linebuffer[128]; char *desc; int len, rc; desc = file_desktop(filename); len = desktop_read_entry(desc, "Comment=", linebuffer, sizeof(linebuffer)); if (0 == len) { linebuffer[0] = 0; len = 0; } rc = edit_line(img, linebuffer, sizeof(linebuffer)-1); if (0 != rc) return; desktop_write_entry(desc, "Directory", "Comment=", linebuffer); } /* ---------------------------------------------------------------------- */ static struct ida_image *flist_img_get(struct flist *f) { if (1 != f->scale) return f->simg; else return f->fimg; } static void flist_img_free(struct flist *f) { if (!f->fimg) return; free_image(f->fimg); if (f->simg) free_image(f->simg); f->fimg = NULL; f->simg = NULL; list_del(&f->lru); img_cnt--; } static int flist_img_free_lru(void) { struct flist *f; if (img_cnt <= min_cnt) return -1; f = list_entry(flru.next, struct flist, lru); flist_img_free(f); return 0; } static void flist_img_release_memory(void) { int try_release; for (;;) { try_release = 0; if (img_cnt > max_cnt) try_release = 1; if (img_mem > max_mem_mb * 1024 * 1024) try_release = 1; if (!try_release) break; if (0 != flist_img_free_lru()) break; } return; } static void *flist_malloc(size_t size) { void *ptr; for (;;) { ptr = malloc(size); if (ptr) return ptr; if (0 != flist_img_free_lru()) { status_error("Oops: out of memory, exiting"); exit(1); } } } static void flist_img_scale(struct flist *f, float scale, int prefetch) { char linebuffer[128]; if (!f->fimg) return; if (f->simg && f->scale == scale) return; if (f->simg) { free_image(f->simg); f->simg = NULL; } if (scale != 1) { if (!prefetch) { snprintf(linebuffer, sizeof(linebuffer), "scaling (%.0f%%) %s ...", scale*100, f->name); status_update(linebuffer, NULL); } f->simg = scale_image(f->fimg,scale); if (!f->simg) { snprintf(linebuffer,sizeof(linebuffer), "%s: scaling FAILED",f->name); status_error(linebuffer); } } f->scale = scale; } static void flist_img_load(struct flist *f, int prefetch) { char linebuffer[128]; float scale = 1; if (f->fimg) { /* touch */ list_del(&f->lru); list_add_tail(&f->lru, &flru); return; } snprintf(linebuffer,sizeof(linebuffer),"%s %s ...", prefetch ? "prefetch" : "loading", f->name); status_update(linebuffer, NULL); f->fimg = read_image(f->name); if (!f->fimg) { snprintf(linebuffer,sizeof(linebuffer), "%s: loading FAILED",f->name); status_error(linebuffer); return; } if (!f->seen) { scale = 1; if (autoup || autodown) { scale = auto_scale(f->fimg); if (scale < 1 && !autodown) scale = 1; if (scale > 1 && !autoup) scale = 1; } } else { scale = f->scale; } flist_img_scale(f, scale, prefetch); if (!f->seen) { struct ida_image *img = flist_img_get(f); if (img->i.width > fb_var.xres) f->left = (img->i.width - fb_var.xres) / 2; if (img->i.height > fb_var.yres) { f->top = (img->i.height - fb_var.yres) / 2; if (textreading) { int pages = ceil((float)img->i.height / fb_var.yres); f->text_steps = ceil((float)img->i.height / pages); f->top = 0; } } } list_add_tail(&f->lru, &flru); f->seen = 1; img_cnt++; } /* ---------------------------------------------------------------------- */ static void cleanup_and_exit(int code) { shadow_fini(); fb_clear_screen(); tty_restore(); fb_cleanup(); flist_print_tagged(stdout); exit(code); } int main(int argc, char *argv[]) { int once; int i, arg, key; char *info, *desc, *filelist; char linebuffer[128]; struct flist *fprev = NULL; #if 0 /* debug aid, to attach gdb ... */ fprintf(stderr,"pid %d\n",getpid()); sleep(10); #endif setlocale(LC_ALL,""); #ifdef HAVE_LIBLIRC lirc = lirc_fbi_init(); #endif fbi_read_config(); cfg_parse_cmdline(&argc,argv,fbi_cmd); cfg_parse_cmdline(&argc,argv,fbi_cfg); if (GET_AUTO_ZOOM()) { cfg_set_bool(O_AUTO_UP, 1); cfg_set_bool(O_AUTO_DOWN, 1); } if (GET_HELP()) { usage(argv[0]); exit(0); } if (GET_VERSION()) { version(); exit(0); } if (GET_WRITECONF()) fbi_write_config(); once = GET_ONCE(); autoup = GET_AUTO_UP(); autodown = GET_AUTO_DOWN(); fitwidth = GET_FIT_WIDTH(); statusline = GET_VERBOSE(); textreading = GET_TEXT_MODE(); editable = GET_EDIT(); backup = GET_BACKUP(); preserve = GET_PRESERVE(); read_ahead = GET_READ_AHEAD(); max_mem_mb = GET_CACHE_MEM(); blend_msecs = GET_BLEND_MSECS(); v_steps = GET_SCROLL(); h_steps = GET_SCROLL(); timeout = GET_TIMEOUT(); pcd_res = GET_PCD_RES(); fbgamma = GET_GAMMA(); fontname = cfg_get_str(O_FONT); filelist = cfg_get_str(O_FILE_LIST); if (filelist) flist_add_list(filelist); for (i = optind; i < argc; i++) flist_add(argv[i]); flist_renumber(); if (0 == fcount) { usage(argv[0]); exit(1); } if (GET_RANDOM()) flist_randomize(); fcurrent = flist_first(); font_init(); if (NULL == fontname) fontname = "monospace:size=16"; face = font_open(fontname); if (NULL == face) { fprintf(stderr,"can't open font: %s\n",fontname); exit(1); } fd = fb_init(cfg_get_str(O_DEVICE), cfg_get_str(O_VIDEO_MODE), GET_VT()); fb_catch_exit_signals(); fb_switch_init(); shadow_init(); shadow_set_palette(fd); signal(SIGTSTP,SIG_IGN); /* svga main loop */ tty_raw(); desc = NULL; info = NULL; for (;;) { flist_img_load(fcurrent, 0); flist_img_release_memory(); img = flist_img_get(fcurrent); if (img) { desc = make_desc(&fcurrent->fimg->i, fcurrent->name); info = make_info(fcurrent->fimg, fcurrent->scale); } key = svga_show(fcurrent, fprev, timeout, desc, info, &arg); fprev = fcurrent; switch (key) { case KEY_DELETE: if (editable) { struct flist *fdel = fcurrent; if (flist_islast(fcurrent)) fcurrent = flist_prev(fcurrent,0); else fcurrent = flist_next(fcurrent,0,0); unlink(fdel->name); flist_img_free(fdel); flist_del(fdel); flist_renumber(); if (list_empty(&flist)) { /* deleted last one */ cleanup_and_exit(0); } } else { status_error("readonly mode, sorry [start with --edit?]"); } break; case KEY_ROT_CW: case KEY_ROT_CCW: { if (editable) { snprintf(linebuffer,sizeof(linebuffer), "rotating %s ...",fcurrent->name); status_update(linebuffer, NULL); jpeg_transform_inplace (fcurrent->name, (key == KEY_ROT_CW) ? JXFORM_ROT_90 : JXFORM_ROT_270, NULL, NULL,0, (backup ? JFLAG_FILE_BACKUP : 0) | (preserve ? JFLAG_FILE_KEEP_TIME : 0) | JFLAG_TRANSFORM_IMAGE | JFLAG_TRANSFORM_THUMBNAIL | JFLAG_UPDATE_ORIENTATION); flist_img_free(fcurrent); } else { status_error("readonly mode, sorry [start with --edit?]"); } break; } case KEY_FLIP_V: case KEY_FLIP_H: { if (editable) { snprintf(linebuffer,sizeof(linebuffer), "mirroring %s ...",fcurrent->name); status_update(linebuffer, NULL); jpeg_transform_inplace (fcurrent->name, (key == KEY_FLIP_V) ? JXFORM_FLIP_V : JXFORM_FLIP_H, NULL, NULL,0, (backup ? JFLAG_FILE_BACKUP : 0) | (preserve ? JFLAG_FILE_KEEP_TIME : 0) | JFLAG_TRANSFORM_IMAGE | JFLAG_TRANSFORM_THUMBNAIL | JFLAG_UPDATE_ORIENTATION); flist_img_free(fcurrent); } else { status_error("readonly mode, sorry [start with --edit?]"); } break; } case KEY_TAGFILE: fcurrent->tag = !fcurrent->tag; /* fall throuth */ case KEY_SPACE: fcurrent = flist_next(fcurrent,1,0); if (NULL != fcurrent) break; /* else fall */ case KEY_ESC: case KEY_Q: case KEY_EOF: cleanup_and_exit(0); break; case KEY_PGDN: fcurrent = flist_next(fcurrent,0,1); break; case KEY_PGUP: fcurrent = flist_prev(fcurrent,1); break; case KEY_TIMEOUT: fcurrent = flist_next(fcurrent,once,1); if (NULL == fcurrent) { cleanup_and_exit(0); } /* FIXME: wrap around */ break; case KEY_PLUS: case KEY_MINUS: case KEY_ASCALE: case KEY_SCALE: { float newscale, oldscale = fcurrent->scale; if (key == KEY_PLUS) { newscale = fcurrent->scale * 1.6; } else if (key == KEY_MINUS) { newscale = fcurrent->scale / 1.6; } else if (key == KEY_ASCALE) { newscale = auto_scale(fcurrent->fimg); } else { newscale = arg / 100.0; } if (newscale < 0.1) newscale = 0.1; if (newscale > 10) newscale = 10; flist_img_scale(fcurrent, newscale, 0); scale_fix_top_left(fcurrent, oldscale, newscale); break; } case KEY_GOTO: if (arg > 0 && arg <= fcount) fcurrent = flist_goto(arg); break; case KEY_DELAY: timeout = arg; break; case KEY_VERBOSE: #if 0 /* fbdev testing/debugging hack */ { ioctl(fd,FBIOBLANK,1); sleep(1); ioctl(fd,FBIOBLANK,0); } #endif statusline = !statusline; break; case KEY_DESC: if (!comments) { edit_desc(img, fcurrent->name); desc = make_desc(&fcurrent->fimg->i,fcurrent->name); } break; } } }