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XLOADIMAGE - 16 November 1992

xloadimage, xview - load images into an X11 window or onto the root window

USAGE: xloadimage [global_options] {[image_options] image ...}

Xloadimage displays images in an X11 window or loads them onto the root window. See the IMAGE TYPES section below for supported image types.

If the filename STDIN is given, xloadimage will read the image from standard input.

To have a "slideshow" of many images supply multiple image file names on the command line. The 'n', 'return', and 'space' keys will proceed to the next image and 'p' will return to the previous when the keyboard focus is on the window. Also see the -delay, -idelay, and -goto options.

You may exit the window by typing 'q' or '^C' when the keyboard focus is on the window.

If the destination display cannot support the number of colors in the image, the image will be dithered (monochrome destination) or have its colormap reduced (color destination) as appropriate. This can also be done forcibly with the -halftone, -dither, and -colors options.

A variety of image manipulations can be specified, including gamma correction, brightening, clipping, dithering, depth-reduction, rotation, and zooming. Most of these manipulations have simple implementations; speed was opted for above accuracy.

If you are viewing a large image in a window, the initial window will be at most 90% of the size of the display unless the window manager does not correctly handle window size requests or if you've used the -fullscreen option. You may move the image around in the window by dragging with the first mouse button. The cursor will indicate which directions you may drag, if any.

A wide variety of common image manipulations can be done by mixing and matching the available options. See the section entitled HINTS FOR GOOD IMAGE DISPLAYS for some ideas.

xview is equivalent to xloadimage -view -verbose

Xloadimage uses the resource class name Xloadimage for window managers which need this resource set.
The following options affect the global operation of xloadimage. They may be specified anywhere on the command line.
-border color
This sets the background portion of the window which is not covered by any images to be color.
Set the root background to the default root weave. This is the same as xsetroot with no arguments.
Talk to the X server in synchronous mode. This is useful for debugging. If an X error is seen while in this mode, a core will be dumped.
-delay secs
Automatically advance to the next image after \secs\ seconds.
-display display_name
X11 display name to send the image(s) to.
Force image to use the default visual and colormap. This is useful if you do not want technicolor effects when the colormap focus is inside the image window, but it may reduce the quality of the displayed image. This is on by default if -onroot or -windowid is specified.
Fork xloadimage. This causes xloadimage to disassociate itself from the shell. This option automatically turns on -quiet.
Use the entire screen to display images. If combined with -onroot, the image will be zoomed to fill the entire rootwindow.
-geometry [{+-X}{+-}Y]
This sets the size of the window onto which the images are loaded to a different value than the size of the image. When viewing an image in a window, this can be used to reduce the size of the destination window. When loading an image onto the root window, this option controls the size of the pixmap which will be loaded onto the root. If the size is smaller than that of the display, the image will be replicated.
-goto image_name
Forces the next image to be displayed to be the image named image_name. This is useful for generating looped slideshows. If more than one image of the same name as the target exists on the argument list, the first in the argument list is used.
-help [option ...]
Give information on an option or list of options. If no option is given, a simple interactive help facility is invoked.
Identify the supplied images rather than display them.
Forcibly install the image's colormap when the window is focused. This violates ICCCM standards and only exists to allow operation with naive window managers. Use this option only if your window manager does not install colormaps properly.
List the images which are along the image path.
Load image(s) onto the root window instead of viewing in a window. This option automatically sets the -fit option. This is the opposite of -view. Setbghas this option set by default.
Displays the image path and image suffixes which will be used when looking for images. These are loaded from ~/.xloadimagerc and optionally from a systemwide file (normally /usr/lib/xloadimagerc).
Force the use of a pixmap as backing-store. This is provided for servers where backing-store is broken (such as some versions of the AIXWindows server). It may improve scrolling performance on servers which provide backing-store.
Force the use of a private colormap. Normally colors are allocated shared unless there are not enough colors available.
Forces xloadimage and xview to be quiet. This is the default for xsetbg, but the others like to whistle.
List the supported image types.
Causes xloadimage to be talkative, telling you what kind of image it's playing with and any special processing that it has to do. This is the default for xview and xloadimage.
Print the version number and patchlevel of this version of xloadimage.
View image(s) in a window. This is the opposite of -onroot and the default for xview and xloadimage.
-visual visual_name
Force the use of a specific visual type to display an image. Normally xloadimage tries to pick the best available image for a particular image type. The available visual types are: DirectColor, TrueColor, PseudoColor, StaticColor, GrayScale, and StaticGray. Nonconflicting names may be abbreviated and case is ignored.
-windowid hex_window_id
Sets the background pixmap of a particular window ID. The argument must be in hexadecimal and must be preceeded by "0x" (eg -windowid 0x40000b. This is intended for setting the background pixmap of some servers which use untagged virtual roots (eg HP-VUE), but can have other interesting applications.
The following options may preceed each image. These options are local to the image they preceed.
-at (X,Y).
Indicates coordinates to load the image at on the base image. If this is an option to the first image, and the -onroot option is specified, the image will be loaded at the given location on the display background.
-background color
Use color as the background color instead of the default (usually white but this depends on the image type) if you are transferring a monochrome image to a color display.
-brighten percentage
Specify a percentage multiplier for a color image's colormap. A value of more than 100 will brighten an image, one of less than 100 will darken it.
Center the image on the base image loaded. If this is an option to the first image, and the -onroot option is specified, the image will be centered on the display background.
-clip X,Y,W,H
Clip the image before loading it. X and Y define the upper-left corner of the clip area, and W and H define the extents of the area. A zero value for W or H will be interpreted as the remainder of the image.
-colors n
Specify the maximum number of colors to use in the image. This is a way to forcibly reduce the depth of an image.
Dither a color image to monochrome using a Floyd-Steinberg dithering algorithm. This happens by default when viewing color images on a monochrome display. This is slower than -halftone and affects the image accuracy but usually looks much better.
-foreground color
Use color as the foreground color instead of black if you are transferring a monochrome image to a color display. This can also be used to invert the foreground and background colors of a monochrome image.
-gamma display_gamma
Specify the gamma correction for the display. The default value is 1.0, a typical display needs 2.0 to 2.5.
Convert an image to grayscale. This is very useful when displaying colorful images on servers with limited color capability. The optional spelling -grey may also be used.
Force halftone dithering of a color image when displaying on a monochrome display. This option is ignored on monochrome images. This dithering algorithm blows an image up by sixteen times; if you don't like this, the -dither option will not blow the image up but will take longer to process and will be less accurate.
-idelay secs
Set the delay to be used for this image to secs seconds (see -delay). If -delay was specified, this overrides it. If it was not specified, this sets the automatic advance delay for this image while others will wait for the user to advance them.
Inverts a monochrome image. This is shorthand for -foreground white -background black.
Merge this image onto the base image after local processing. The base image is considered to be the first image specified or the last image that was not preceeded by -merge. If used in conjunction with -at and -clip, very complex images can be built up. This option is on by default for all images if the -onroot or -windowid options are specified.
-name image_name
Force the next argument to be treated as an image name. This is useful if the name of the image is -dither, for instance.
Reset options that propagate. The -bright, -colors, -delay, -dither, -gamma, -normalize, -smooth, -xzoom, -yzoom, and -zoom options normally propagate to all following images.
Normalize a color image.
-rotate degrees
Rotate the image by degrees clockwise. The number must be a multiple of 90.
Smooth a color image. This reduces blockiness after zooming an image up. If used on a monochrome image, nothing happens. This option can take awhile to perform, especially on large images. You may specify more than one -smooth option per image, causing multiple iterations of the smoothing algorithm.
-xzoom percentage
Zoom the X axis of an image by percentage. A number greater than 100 will expand the image, one smaller will compress it. A zero value will be ignored. This option, and the related -yzoom are useful for correcting the aspect ratio of images to be displayed.
-yzoom percentage
Zoom the Y axis of an image by percentage. See -xzoom for more information.
-zoom percentage
Zoom both the X and Y axes by percentage. See -xzoom for more information. Technically the percentage actually zoomed is the square of the number supplied since the zoom is to both axes, but I opted for consistency instead of accuracy.
To load the rasterfile "my.image" onto the background and replicate it to fill the entire background:
xloadimage -onroot my.image

To load a monochrome image "my.image" onto the background, using red as the foreground color, replicate the image, and overlay "another.image" onto it at coordinate (10,10):
xloadimage -foreground red my.image -at 10,10 another.image

To center the rectangular region from 10 to 110 along the X axis and from 10 to the height of the image along the Y axis:
xloadimage -center -clip 10,10,100,0 my.image

To double the size of an image:
xloadimage -zoom 200 my.image

To halve the size of an image:
xloadimage -zoom 50 my.image

To brighten a dark image:
xloadimage -brighten 150 my.image

To darken a bright image:
xloadimage -brighten 50 my.image
Since images are likely to come from a variety of sources, they may be in a variety of aspect ratios which may not be supported by your display. The -xzoom and -yzoom options can be used to change the aspect ratio of an image before display. If you use these options, it is recommended that you increase the size of one of the dimensions instead of shrinking the other, since shrinking looses detail. For instance, many GIF and G3 FAX images have an X:Y ratio of about 2:1. You can correct this for viewing on a 1:1 display with either -xzoom 50 or -yzoom 200 (reduce X axis to 50% of its size and expand Y axis to 200% of its size, respectively) but the latter should be used so no detail is lost in the conversion.

When zooming color images up you can reduce blockiness with -smooth. For zooms of 300% or more, I recommend two smoothing passes (although this can take awhile to do on slow machines). There will be a noticable improvement in the image.

You can perform image processing on a small portion of an image by loading the image more than once and using the -merge, -at and -clip options. Load the image, then merge it with a clipped, processed version of itself. To brighten a 100x100 rectangular portion of an image located at (50,50), for instance, you could type:

xloadimage my.image -merge -at 50,50 -clip 50,50,100,100 -brighten 150 my.image

If you're using a display with a small colormap to display colorful images, try using the -gray option to convert to grayscale.

The file ~/.xloadimagerc (and optionally a system-wide file) defines the path and default extensions that \xloadimage\ will use when looking for images. This file can have two statements: "path=" and "extension=" (the equals signs must follow the word with no spaces between). Everything following the "path=" keyword will be prepended to the supplied image name if the supplied name does not specify an existing file. The paths will be searched in the order they are specified. Everything following the "extension=" keyword will be appended to the supplied image name if the supplied name does not specify an existing file. As with paths, these extensions will be searched in the order they are given. Comments are any portion of a line following a hash-mark (#).

The following is a sample ~/.xloadimagerc file:
# paths to look for images in
path= /usr/local/images
# default extensions for images; .Z is automatic; scanned in order
extension= .csun .msun .sun .face .xbm .bm
xloadimage currently supports the following image types:
CMU Window Manager raster files
Faces Project images
Fuzzy Bitmap (FBM) images
GEM bit images
GIF images
G3 FAX images
McIDAS areafiles
MacPaint images
PC Paintbrush (PCX) images
Portable Bitmap (PBM, PGM, PPM) images
Sun monochrome rasterfiles
Sun color RGB rasterfiles
Utah Raster Toolkit (RLE) files
X pixmap files
X10 bitmap files
X11 bitmap files
X Window Dump (except TrueColor and DirectColor)
Normal, compact, and raw PBM images are supported. Both standard and run-length encoded Sun rasterfiles are supported. Any image whose name ends in .Z is assumed to be a compressed image and will be filtered through "uncompress".
Jim Frost
CenterLine Software

For a more-or-less complete list of other contributors (there are a lot of them), please see the README file enclosed with the distribution.


xloadimage - the image loader and viewer xsetbg - pseudonym which quietly sets the background xview - pseudonym which views in a window /usr/lib/X11/Xloadimage - default system-wide configuration file ~/.xloadimagerc - user's personal configuration file

Copyright (c) 1989, 1990, 1991, 1992 Jim Frost and others.

Xloadimage is copywritten material with a very loose copyright allowing unlimited modification and distribution if the copyright notices are left intact. Various portions are copywritten by various people, but all use a modification of the MIT copyright notice. Please check the source for complete copyright information. The intent is to keep the source free, not to stifle its distribution, so please write to me if you have any questions.

Zooming dithered images, especially downwards, is UGLY.

Images can come in a variety of aspect ratios. Xloadimage cannot detect what aspect ratio the particular image being loaded has, nor the aspect ratio of the destination display, so images with differing aspect ratios from the destination display will appear distorted. See HINTS FOR GOOD IMAGE DISPLAYS for more information.

The GIF format allows more than one image to be stored in a single GIF file, but xloadimage will only display the first.

Only GIF87a format is supported.

One of the pseudonyms for xloadimage, xview, is the same name as Sun uses for their SunView-under-X package. This will be confusing if you're one of those poor souls who has to use Sun's XView.

Some window managers do not correctly handle window size requests. In particular, many versions of the twm window manager use the MaxSize hint instead of the PSize hint, causing images which are larger than the screen to display in a window larger than the screen, something which is normally avoided. Some versions of twm also ignore the MaxSize argument's real function, to limit the maximum size of the window, and allow the window to be resized larger than the image. If this happens, xloadimage merely places the image in the upper-left corner of the window and uses the zero-value'ed pixel for any space which is not covered by the image. This behavior is less-than-graceful but so are window managers which are cruel enough to ignore such details.

The order in which operations are performed on an image is independent of the order in which they were specified on the command line. Wherever possible I tried to order operations in such a way as to look the best possible (zooming before dithering, for instance) or to increase speed (zooming downward before compressing, for instance).