int main (int argc, char **argv) { Visual *vis; Colormap cm; Display *_display; Imlib_Context context; Imlib_Image image; Pixmap pixmap; Imlib_Color_Modifier modifier = NULL; _display = XOpenDisplay (NULL); int width, height, depth, i, alpha; char str1[40]; char str2[40]; char str3[40]; char str4[40]; char str5[40]; int ck0; int w, h; w = 0; h = 0; char strA1[30] = "hwe"; char strA2[30] = "hwer"; const char jpg[15] = "jpg"; //1 const char png[15] = "png"; //2 char *A1; char *A2; strcpy(strA1, argv[argc-1]); strcpy(strA2, strA1); A1 = strstr(strA1, jpg); A2 = strstr(strA2, png); //check to be sure image format is written right or abort checkForNull(A1, A2); for (screen = 0; screen < ScreenCount (_display); screen++) { display = XOpenDisplay (NULL); context = imlib_context_new (); imlib_context_push (context); imlib_context_set_display (display); vis = DefaultVisual (display, screen); cm = DefaultColormap (display, screen); width = DisplayWidth (display, screen); height = DisplayHeight (display, screen); depth = DefaultDepth (display, screen); pixmap = XCreatePixmap (display, RootWindow (display, screen), width, height, depth); imlib_context_set_visual (vis); imlib_context_set_colormap (cm); imlib_context_set_drawable (pixmap); imlib_context_set_color_range (imlib_create_color_range ()); image = imlib_create_image (width, height); imlib_context_set_image (image); printf("1\n"); imlib_context_set_color (0, 0, 0, 255); imlib_image_fill_rectangle (0, 0, width, height); imlib_context_set_dither (1); imlib_context_set_blend (1); printf("2\n"); alpha = 255; for (i = 1; i < argc; i++) { if (modifier != NULL) { imlib_apply_color_modifier (); imlib_free_color_modifier (); } modifier = imlib_create_color_modifier (); imlib_context_set_color_modifier (modifier); if (strcmp (argv[i], "-alpha") == 0) { if ((++i) >= argc) { fprintf (stderr, "Missing alpha\n"); continue; } if (sscanf (argv[i], "%i", &alpha) == 0) { fprintf (stderr, "Bad alpha (%s)\n", argv[i]); continue; } } else if (strcmp (argv[i], "-solid") == 0) { Color c; if ((++i) >= argc) { fprintf (stderr, "Missing color\n"); continue; } if (parse_color (argv[i], &c, alpha) == 1) { fprintf (stderr, "Bad color (%s)\n", argv[i]); continue; } imlib_context_set_color (c.r, c.g, c.b, c.a); imlib_image_fill_rectangle (0, 0, width, height); } else if (strcmp (argv[i], "-clear") == 0) { imlib_free_color_range (); imlib_context_set_color_range (imlib_create_color_range ()); } else if (strcmp (argv[i], "-add") == 0) { Color c; if ((++i) >= argc) { fprintf (stderr, "Missing color\n"); continue; } if (parse_color (argv[i], &c, alpha) == 1) { fprintf (stderr, "Bad color (%s)\n", argv[i - 1]); continue; } imlib_context_set_color (c.r, c.g, c.b, c.a); imlib_add_color_to_color_range (1); } else if (strcmp (argv[i], "-addd") == 0) { Color c; int distance; if ((++i) >= argc) { fprintf (stderr, "Missing color\n"); continue; } if ((++i) >= argc) { fprintf (stderr, "Missing distance\n"); continue; } if (parse_color (argv[i - 1], &c, alpha) == 1) { fprintf (stderr, "Bad color (%s)\n", argv[i - 1]); continue; } if (sscanf (argv[i], "%i", &distance) == 1) { fprintf (stderr, "Bad distance (%s)\n", argv[i]); continue; } imlib_context_set_color (c.r, c.g, c.b, c.a); imlib_add_color_to_color_range (distance); } else if (strcmp (argv[i], "-gradient") == 0) { int angle; if ((++i) >= argc) { fprintf (stderr, "Missing angle\n"); continue; } if (sscanf (argv[i], "%i", &angle) == 1) { fprintf (stderr, "Bad angle (%s)\n", argv[i]); continue; } imlib_image_fill_color_range_rectangle (0, 0, width, height, angle); } else if (strcmp (argv[i], "-fill") == 0) { if ((++i) >= argc) { fprintf (stderr, "Missing image\n"); continue; } if ( load_Mod_image(Fill, argv[i], width, height, alpha, image, ck0) == 1) { fprintf (stderr, "Bad image (%s)\n", argv[i]); continue; } } else if (strcmp (argv[i], "-dia") == 0) { if((++i) >= argc) { fprintf(stderr, "missing Dia, and Image\n"); continue; } strcpy (str1, argv[i]); strcpy (str2, str1); if ( findX(str1, &w, &h) == 1 ) { fprintf(stderr, " Bad Format\n"); continue; } else if (findX(str2, &w, &h) == 0 && ((++i) >= argc)) { fprintf(stderr, "Missing Image\n"); continue; } else { //if format is correct then assign a number for //load_Mod_Image to check ck0 = -2; w = w; h = h; } if( load_Mod_image(Dia, argv[i], w, h, alpha, image, ck0) == 1 ) { fprintf(stderr, "Bad Image or Bad Image Dimensions \n"); } } else if (strcmp (argv[i], "-tile") == 0) { if ((++i) >= argc) { fprintf(stderr, "format 0 missing \n"); continue; } strcpy (str1, argv[i]); strcpy (str2, str1); strcpy (str3, str2); strcpy (str4, str3); strcpy (str5, str4); if ( findX(str1, &w, &h) == 3 && ((++i) >= argc)) { fprintf(stderr, "missing Image\n"); continue; } //check to see if format is -tile 0 else if (findX(str2, &w, &h) == 3) { ck0 = 3; if( load_Mod_image(Tile, argv[i], width, height, alpha, image, ck0) == 1 ) { fprintf(stderr, "Bad Image or Bad Image Dimensions \n"); continue; } } if (findX(str3, &w, &h) == 1) { fprintf(stderr, "bad format\n"); continue; } if (findX(str4, &w, &h) == 0 && ((++i) >= argc)) { fprintf(stderr, "missing something again\n"); continue; } if (findX (str5, &w, &h) == 0 ) { ck0 = 2; w = w; h = h; } if( load_Mod_image(Tile, argv[i], w, h, alpha, image, ck0) == 1 ) { fprintf(stderr, "Bad Image or Bad Image Dimension\n"); } } else if (strcmp (argv[i], "-center") == 0) { if ((++i) >= argc) { fprintf (stderr, "Missing image\n"); continue; } if (load_Mod_image (Center, argv[i], width, height, alpha, image, ck0) == 1) { fprintf (stderr, "Bad image (%s)\n", argv[i]); continue; } } else if (strcmp (argv[i], "-tint") == 0) { Color c; DATA8 r[256], g[256], b[256], a[256]; int j; if ((++i) >= argc) { fprintf (stderr, "Missing color\n"); continue; } if (parse_color (argv[i], &c, 255) == 1) { fprintf (stderr, "Bad color\n"); continue; } imlib_get_color_modifier_tables (r, g, b, a); for (j = 0; j < 256; j++) { r[j] = (DATA8) (((double) r[j] / 255.0) * (double) c.r); g[j] = (DATA8) (((double) g[j] / 255.0) * (double) c.g); b[j] = (DATA8) (((double) b[j] / 255.0) * (double) c.b); } imlib_set_color_modifier_tables (r, g, b, a); } else if (strcmp (argv[i], "-blur") == 0) { int intval; if ((++i) >= argc) { fprintf (stderr, "Missing value\n"); continue; } if (sscanf (argv[i], "%i", &intval) == 1) { fprintf (stderr, "Bad value (%s)\n", argv[i]); continue; } imlib_image_blur (intval); } else if (strcmp (argv[i], "-sharpen") == 0) { int intval; if ((++i) >= argc) { fprintf (stderr, "Missing value\n"); continue; } if (sscanf (argv[i], "%i", &intval) == 1) { fprintf (stderr, "Bad value (%s)\n", argv[i]); continue; } imlib_image_sharpen (intval); } else if (strcmp (argv[i], "-contrast") == 0) { double dblval; if ((++i) >= argc) { fprintf (stderr, "Missing value\n"); continue; } if (sscanf (argv[i], "%lf", &dblval) == 1) { fprintf (stderr, "Bad value (%s)\n", argv[i]); continue; } imlib_modify_color_modifier_contrast (dblval); } else if (strcmp (argv[i], "-brightness") == 0) { double dblval; if ((++i) >= argc) { fprintf (stderr, "Missing value\n"); continue; } if (sscanf (argv[i], "%lf", &dblval) == 1) { fprintf (stderr, "Bad value (%s)\n", argv[i]); continue; } imlib_modify_color_modifier_brightness (dblval); } else if (strcmp (argv[i], "-gamma") == 0) { double dblval; if ((++i) >= argc) { fprintf (stderr, "Missing value\n"); continue; } if (sscanf (argv[i], "%lf", &dblval) == 1) { fprintf (stderr, "Bad value (%s)\n", argv[i]); continue; } imlib_modify_color_modifier_gamma (dblval); } else if (strcmp (argv[i], "-flipv") == 0) { imlib_image_flip_vertical (); } else if (strcmp (argv[i], "-fliph") == 0) { imlib_image_flip_horizontal (); } else if (strcmp (argv[i], "-flipd") == 0) { imlib_image_flip_diagonal (); } else if (strcmp (argv[i], "-write") == 0) { if ((++i) >= argc) { fprintf (stderr, "Missing filename\n"); continue; } imlib_save_image (argv[i]); } else { usage (argv[0]); imlib_free_image (); imlib_free_color_range (); if (modifier != NULL) { imlib_context_set_color_modifier (modifier); imlib_free_color_modifier (); modifier = NULL; } XFreePixmap (display, pixmap); exit (1); } // end else } // end loop off of argc if (modifier != NULL) { imlib_context_set_color_modifier (modifier); imlib_apply_color_modifier (); imlib_free_color_modifier (); modifier = NULL; } imlib_render_image_on_drawable (0, 0); imlib_free_image (); imlib_free_color_range (); if (setRootAtoms (pixmap) == 0) fprintf (stderr, "Couldn't create atoms...\n"); XKillClient (display, AllTemporary); XSetCloseDownMode (display, RetainTemporary); XSetWindowBackgroundPixmap (display, RootWindow (display, screen), pixmap); XClearWindow (display, RootWindow (display, screen)); XFlush (display); XSync (display, False); imlib_context_pop (); imlib_context_free (context); } // end for loop off screen // } // frist if statment at start of main return 0; }
int main(void) { dlist *clients = 0, *config = 0; Display *dpy = XOpenDisplay(NULL); MainWin *mw; Imlib_Context context; KeyCode keycode; KeySym keysym; const char *tmp, *homedir; char cfgpath[8192]; Bool invertShift = False; if(! dpy) { fprintf(stderr, "FATAL: Couldn't connect to display.\n"); return -1; } wm_get_atoms(dpy); if(! wm_check(dpy)) { fprintf(stderr, "FATAL: WM not NETWM or GNOME WM Spec compliant.\n"); return -1; } homedir = getenv("HOME"); if(homedir) { snprintf(cfgpath, 8191, "%s/%s", homedir, ".skippyrc"); config = config_load(cfgpath); } else fprintf(stderr, "WARNING: $HOME not set, not loading config.\n"); wm_use_netwm_fullscreen(strcasecmp("true", config_get(config, "general", "useNETWMFullscreen", "true")) == 0); wm_ignore_skip_taskbar(strcasecmp("true", config_get(config, "general", "ignoreSkipTaskbar", "false")) == 0); mw = mainwin_create(dpy, config); if(! mw) { fprintf(stderr, "FATAL: Couldn't create main window.\n"); config_free(config); XCloseDisplay(mw->dpy); return -1; } invertShift = strcasecmp("true", config_get(config, "xinerama", "showAll", "false")) == 0; context = imlib_context_new(); imlib_context_push(context); imlib_context_set_display(dpy); imlib_context_set_visual(mw->visual); imlib_context_set_colormap(mw->colormap); tmp = config_get(config, "general", "keysym", "F11"); keysym = XStringToKeysym(tmp); if(keysym == NoSymbol) { fprintf(stderr, "FATAL: Couldn't look up keysym for '%s', bailing out.\n", tmp); config_free(config); XCloseDisplay(mw->dpy); return -1; } mainwin_update_background(mw); XSelectInput(mw->dpy, mw->root, PropertyChangeMask); keycode = XKeysymToKeycode(mw->dpy, keysym); XGrabKey(mw->dpy, keycode, AnyModifier, mw->root, False, GrabModeAsync, GrabModeAsync); while(! DIE_NOW) { XEvent ev; XNextEvent(mw->dpy, &ev); if(ev.type == PropertyNotify && (ev.xproperty.atom == ESETROOT_PMAP_ID || ev.xproperty.atom == _XROOTPMAP_ID)) mainwin_update_background(mw); else if(ev.type == KeyRelease && ev.xkey.keycode == keycode) { Window leader = None, focused = wm_get_focused(mw->dpy); Bool shifted = (ev.xkey.state & ShiftMask) ? ! invertShift : invertShift; if(ev.xkey.state & Mod1Mask) { if(focused != None) leader = wm_get_group_leader(mw->dpy, focused); if(! leader) continue; } clients = skippy_run(mw, clients, (ev.xkey.state & ControlMask), focused, leader, shifted); } } dlist_free_with_func(clients, (dlist_free_func)clientwin_destroy); XFlush(mw->dpy); mainwin_destroy(mw); imlib_context_pop(); imlib_context_free(context); XSync(dpy, True); XCloseDisplay(dpy); config_free(config); return 0; }