Linux Access HOWTO Michael De La Rue, access-howto@ed.ac.uk v2.8, 4 May 1996 The Linux Access HOWTO covers the use of adaptive technology with Linux, In particular, using adaptive technology to make Linux accessi­ ble to those who could not use it otherwise. It also covers areas where Linux can be used within more general adaptive technology solu­ tions. 1. Introduction The aim of this document is to collect all information on the use of Linux by people who have any special difficulty using it which can be overcome with specific aids, either in software or hardware. In other words, the blind, the partially sighted, deaf and the physically disabled. As any other technologies or pieces of information are discovered they will be added. The biggest problem is that, right now, very few of such people are using Linux due to the difficulties involved among other things. This means that development is not taking account of special needs and so the system is becoming more difficult to use. I hope this HOWTO will solve that problem. Please send any comments or extra information or offers of assistance to access-howto@ed.ac.uk This address might become a mailing list in future, or be automatically handed over to a future maintainer of the HOWTO, so please don't use it for personal email. Normal mail can be sent to Linux Access HOWTO 23 Kingsborough Gardens Glasgow G12 9NH Scotland U.K. And will gradually make its way round the world to me. Email will be faster by weeks. I can be personally contacted using miked@ed.ac.uk. Since I use mail filtering on all mail I receive, please use the other address except for personal email. This is most likely to lead to an appropriate response. 1.1. Distribution Policy The ACCESS-HOWTO is copyrighted (c) 1996 Michael De La Rue A verbatim copy may be reproduced or distributed in any medium physi­ cal or electronic without permission of the author. Translations are similarly permitted without express permission if it includes a notice on who translated it. Short quotes may be used without prior consent by the author. Deriva­ tive work and partial distributions of the UUCP-HOWTO must be accompa­ nied with either a verbatim copy of this file or a pointer to the ver­ batim copy. Commercial redistribution is allowed and encouraged; however, the author would appreciate being notified of any such distributions (as a courtesy). In short, we wish to promote dissemination of this information through as many channels as possible. However, we do wish to retain copyright on the HOWTO documents. We further want that ALL information provided in the HOWTOs is dissem­ inated. If you have questions, please contact Greg Hankins, the Linux HOWTO coordinator, at gregh@sunsite.unc.edu. 2. Comparing Linux with other Operating Systems 2.1. General Comparison The best place to find out about this is in such documents as the `Linux Info Sheet', `Linux Meta FAQ' and `Linux FAQ' (see ``Linux Documentation''). Major reasons for a visually impaired person to use Linux would include it's inbuilt networking which gives full access to the Internet. More generally, users are attracted by the full development environment included. 2.2. Availability of Adaptive Technology There is almost nothing commercial available specifically for Linux. There is a noticeable amount of free software which would be helpful in adaptation, for example, a free speech synthesiser and some free voice control software. There are also a number of free packages which provide good support for certain braille terminals, for example. 2.3. Inherent Usability Linux has the vast advantage over Windows that most of it's software is command line oriented. This is now changing and almost everything is now available with a graphical front end. However, because it is in origin a programmers operating system, line oriented programs are still being written covering almost all new areas of interest. For the physically handicapped, this means that it is easy to build custom programs to suit their needs. For the visually impaired, this should make use with a speech synthesiser or braille terminal easy and useful for the foreseeable future. Linux's multiple virtual consoles system would make it practical to use as a multi-tasking operating system by a visually impaired person. The windowing system used by Linux (X11) comes with many programming tools, and should be adaptable. However, in practice, the adaptive programs available up till now have been more primitive than those on the Macintosh or Windows. They are, however, completely free (as opposed to hundreds of pounds) and the quality is definitely improving. In principle it should be possible to put together a complete, usable Linux system for a visually handicapped person for about $500 (cheap & nasty PC + sound card). This compares with many thousands of dollars for other operating systems (screen reader software/ speech synthesiser hardware). I have yet to see this. I doubt it would work in practice because the software speech synthesisers available for Linux aren't sufficiently good. For a physically handicapped person, the limitation will still be the expense of input hardware. 3. Visually Impaired I'll use two general categories here. People who are partially sighted and need help seeing / deciphering / following the text and those who are unable to use any visual interface whatsoever. 3.1. Seeing the Screen with Low Vision There are many different problems here. Often magnification can be helpful, but that's not the full story. Sometimes people can't track motion, sometimes people can't find the cursor unless it moves. This calls for a range of techniques, the majority of which are only just being added to X. 3.1.1. SVGATextMode This program is useful for improving the visibility of the normal text screen that Linux provides. It allows full access to the possible modes of an SVGA graphics card. For example, the text can be made larger so that only 50 by 15 characters appear on the screen (normally it's 80 by 25). There isn't any easy way to zoom in on sections of a screen, but you can resize when needed. 3.1.2. X windows There are a large number of ways of improving X windows. They don't add up to a coherent set of features yet, but if set up correctly could solve many problems. 3.1.2.1. Different Screen Resolutions The X server can be set up with many different resolutions. A single key press can then change between them allowing difficult to read text to be seen. In the file /etc/XF86Config, you have an entry in the Screen section with a line beginning with modes. If, for example, you set this to Modes "1280x1024" "1024x768" "800x600" "640x480" "320x240" with each mode set up correctly (which requires a reasonably good mon­ itor for the highest resolution mode), you will be able to have four times screen magnification, switching between the different levels using Ctrl+Alt+Keypad-Plus and Ctrl+Alt+Keypad-Minus Moving the mouse around the screen will scroll you to different parts of the screen. For more details on how to set this up you should see the documentation which comes with the XFree86 X server. 3.1.2.2. Screen Magnification There are two known screen magnification programs, xmag which will magnify a portion of the screen as much as needed but is very primitive. The other one is xzoom. Previously I said that there had to be something better than xmag, well this is it. See ``xzoom''. 3.1.2.3. Change Screen Font The screen fonts all properly written X software should be changeable. You can simply make it big enough for you to read. This is generally accomplished by putting a line the file .Xdefaults which should be in your home directory. By putting the correct lines in this you can change the fonts of your programs, for example Emacs.font: -sony-fixed-medium-r-normal--16-150-75-75-c-80-iso8859-* To see what fonts are available, use the program xfontsel under X. There should be some way of changing things at a more fundamental level so that everything comes out with a magnified font. This could be done by renaming fonts, and by telling telling font generating programs to use a different level of scaling. If someone gets this to work properly, please send me the details of how you did it. 3.1.2.4. Cross Hair Cursors etc.. For people that have problems following cursors there are many things which can help; · crosshair cursors (horizontal and vertical lines from the very edge of the screen) · flashing cursors (flashes when you press a key) There is no known software for this. I tried really hard to find something; it must exist somewhere, it would be so easy to write I'm sure For now the best that can be done is to change the cursor bitmap. Make a bitmap file as you want it, and another one which is the same size, but completely black. Convert them to the XBM format and run xsetroot -cursor cursorfile.xbm black-file.xbm actually, if you understand masks, then the black-file doesn't have to be completely black, but start with it like that. The .Xdefaults file controls cursors used by actual applications. 3.1.3. Producing Large Print Using large print with Linux is quite easy. There are several techniques. 3.1.3.1. LaTeX / TeX LaTeX is an extremely powerful document preparation system. It may be used to produce large print documents of almost any nature. Though somewhat complicated to learn, many documents are produced using LaTeX or the underlying typesetting program, TeX. this will produce some reasonably large text \font\magnifiedtenrm=cmr10 at 20pt % setup a big font \magnifiedtenrm this is some large text \bye For more details, see the LaTeX book which is available in any computer book shop. 3.1.4. Outputting Large Text Almost all Linux printing uses postscript, and Linux can drive almost any printer using it. I output large text teaching materials using a standard Epson dot matrix printer. Can people please suggest other tools for generating large text. what word processor would be good to suggest? 3.2. Aids for Those Who Can't Use Visual Output For someone who is completely unable to use a normal screen there are two alternatives Braille and Speech. Obviously for people who also have hearing loss, speech isn't always useful, so braille will always be important. If you can choose, which should you choose? This is a matter of `vigorous' debate. Speech is rapid to use, reasonably cheap and especially good for textual applications (e.g. reading a long document like this one). Problems include needing a quiet environment, possibly needing headphones to work without disturbing others and avoid being listened in on by them (not available for all speech synthesisers). Braille is better for applications where precise layout is important (e.g. spreadsheets). Also can be somewhat more convenient if you want to check the beginning of a sentence when you get to the end. Braille is, however, much more expensive and slower for reading text. Obviously, the more you use Braille, the faster you get. Grade II Braille is difficult to learn, but is almost certainly worth it since it is much faster. This means that if you don't use Braille for a fair while you can never discover its full potential and decide for yourself. Anyway, enough said on this somewhat controversial topic. based on original by James Bowden jrbowden@bcs.org.uk 3.2.1. Braille Terminals Braille terminals are normally a line or two of braille. Since these are at most 80 characters wide and normally 40 wide, they are somewhat limited. I know of two kinds · Hardware driven braille terminals. · Software driven braille terminals. The first kind works only when the computer is in text mode and reads the screen memory directly. See section ``hardware driven braille terminals''. The second kind of braille terminal is similar, in many ways, to a normal terminal screen of the kind Linux supports automatically. Unfortunately, they need special software to make them usable. There are two packages which help with these. The first, BRLTTY, works with several Braille display types and the authors are keen to support more as information becomes available. Currently BRLTTY supports Tieman B.V.'s CombiBraille series, Alva B.V.'s ABT3 series and Telesensory Systems Inc.'s PowerBraille and Navigator series displays. the use of Blazie Engineering's Braille Lite as a Braille display is discouraged, but support may be renewed on demand. See section ``Software Braille Terminals''. The other package I am aware of is Braille Enhanced Screen. I still haven't seen a version of this. This should allow user access to a braille terminal with many useful features such as the ability to run different programs in different `virtual terminals' at the same time. 3.2.2. Speech Synthesis Speech Synthesisers take (normally) ASCII text and convert it into actual spoken output. It is possible to have these implemented as either hardware or software. Unfortunately, the free Linux speech synthesisers are, reportedly, not good enough to use as a sole means of output. Hardware speech synthesisers are the alternative. The only one that I know of that works is DECtalk from Digital, driven by Emacspeak. 3.2.3. Handling Console Output When it starts up, Linux at present puts all of its messages straight to the normal (visual) screen. This could be changed if anyone with a basic level of kernel programming ability wants to do it. This means that it is impossible for most braille devices to get information about what Linux is doing before the operating system is completely working. It is only at that stage that you can start the program that you need for access. If the BRLTTY program is used and run very early in the boot process, then from this stage on the messages on the screen can be read. Most hardware and software will still have to wait until the system is completely ready. This makes administering a Linux system difficult, but not impossible for a visually impaired person. There is one braille system that can use the console directly, called the Braillex. This is designed to read directly from the screen memory. Unfortunately the normal scrolling of the terminal gets in the way of this. If you are using a Kernel newer than 1.3.75, just type linux no-scroll at the LILO prompt or configure LILO to do this automatically. If you have an earlier version of Linux, see section ``Screen Memory Braille Terminals'' The other known useful thing to do is to use sounds to say when each stage of the boot process has been reached. (T.V.Raman suggestion) 3.2.4. Optical Character Recognition There is a free Optical Character Recognition program for Linux. It needs training to recognise the particular font that it is going to use and I have no idea how good it is. In principle, if it is good enough, it should allow visually impaired people to read normal books to some extent (accuracy of OCR is never high enough..). More details would be nice. It seems to have to be trained which may make it useless? 3.3. Braille Embossing Linux should be the perfect platform to drive a braille embosser from. There are many formatting tools which are aimed specifically at the fixed width device. A braille embosser can just be connected to the serial port using the standard Linux printing mechanisms. For more info see the Linux Printing HOWTO. There is free software package which acts as a multi-lingual grade two translator available for Linux from the American ``National Federation for the Blind''. This is called NFBtrans. See section ``NFB translator'' for more details. 4. Hearing Problems For the most part there is little problem using a computer for people with hearing problems. Almost all of the output is visual. There are some situations where sound output is used though. For these, the problem can sometimes be worked round by using visual output instead. 4.1. Visual Bells By tradition, computers go `beep' when some program sends them a special code. This is generally used to get attention to the program and for little else. Most of the time, it's possible to replace this by making the entire screen (or terminal emulator) flash. How to do this is very variable though. xterm for xterm, you can either change the setting by pressing the middle mouse button while holding down the control key, or by putting a line with just `XTerm*visualBell: true' (not the quotes of course) in the file .Xdefaults in your home directory. the console The console is slightly more complex. Please see Alessandro Rubini's Visual Bell mini HOWTO for details on this. Available along with all the other Linux documentation (see section ``other Linux documents''). Mostly the configuration has to be done on a per application basis, or by changing the Linux Kernel its self. 5. Physical Problems Many of these problems have to be handled individually. The needs of the individual, the ways that they can generate input and other factors vary so much that all that this HOWTO can provide is a general set of pointers to useful software and expertise. 5.1. Unable to Use a Mouse/Pointer Limited mobility can make it difficult to use a mouse. For some people a tracker ball can be a very good solution, but for others the only possible input device is a keyboard (or even something which simulates a keyboard). For normal use of Linux this shouldn't be a problem (but see the section ``Making the keyboard behave''), but for users of X, this may cause major problems under some circumstances. Fortunately, the fvwm window manager has been designed for use without a pointer and most things can be done using this. I actually do this myself when I lose my mouse (don't ask) or want to just keep typing. fvwm is included with all distributions of Linux that I know of. Actually using other programs will depend on their ability to accept key presses. Many X programs do this for all functions. Many don't. I think sticky mouse keys, which is due in a future release of X, should make use of most programs possible. 5.1.1. Unable to Use a Keyboard People who are unable to use a keyboard normally can sometimes use one through a headstick or a mouthstick. This causes calls for special setup of the keyboard, which is, as far as I know, impossible at present for Linux. This should become available very soon though because the software needed to implement the main parts of this is already written and in testing. At that point, there should be a program which will display a keyboard on the screen and accept input from some kind of pointer, including, for example, eye movement. 5.2. Speech Recognition Speech recognition is a very powerful tool for enabling computer use. There are two recognition systems that I know of for Linux, the first is ears which is described as ``recognition is not optimal. But it is fine for playing and will be improved'', the second is AbbotDemo ``A speaker independent continuous speech recognition system'' which may well be more interesting, though isn't available for commercial use without prior arrangement. See the Linux software map for details (see section ``other Linux documents''). 5.3. Making the Keyboard Behave 5.3.1. Getting Rid of Auto Repeat To turn off key repeat on the Linux console run this command (I think it has to be run once per console; a good place to run it would be in your login files, .profile or .login in your home directory). setterm -repeat off To get rid of auto repeat on the X server, you can use the command xset -r which you could put into the file which get runs when you start using X (often .xsession or .xinit under some setups) Both of these commands are worth looking at for more ways of changing behaviour of the console. 5.3.2. Sticky Keys Sticky keys are not available on Linux in any form as far as I know. For the normal console they would need changes to the kernel code. This wouldn't be very difficult, but would need someone who had basic kernel programming skills to do it. For X windows under Linux, the code already exists, but is not available for normal users. Since `normal users' includes me, at present, I cannot confirm that this will be usable. 5.3.3. Strange Input Hardware There are a number of devices worth considering for input such as touch screens and eye pointers. Most of these will need a `device driver' written for them. This is not terribly difficult if the documentation is available, but requires someone with good C programming skills. Please see the Linux Kernel Hackers guide and other kernel reference materials for more information. Once this is set up, it should be possible to use these devices like a normal mouse. 5.3.4. Controlling Physical Hardware From Linux The main group of interest here are the Linux Lab Project. Generally, much GPIB (a standard scientific equipment interface also known as the IEEE bus) hardware can be controlled. 6. General Programming Issues Many of the issues worth taking into account are the same when writing software which is designed to be helpful for access as when trying to follow good design. 6.1. Try to Make it Easy to Provide Multiple Interfaces If your software is only usable through a graphical interface then it can be very hard to make it usable for someone who can't see. If it's only usable through a line oriented interface, then someone who can't type will have difficulties. Provide keyboard shortcuts as well as the use of the normal X pointer (generally the mouse). You can almost certainly rely on the user being able to generate key presses to your application. 6.2. Make software configurable. If it's easy to change fonts then people will be able to change to one they can read. If the colour scheme can be changed then people who are colour blind will be more likely to be able to use it. If fonts can be changed easily then the visually impaired will find your software more useful. 6.3. Test the Software on Users. If you have a number of people use your software, each with different access problems then they will be more likely to point up specific problems. Obviously, this won't be practical for everybody, but you can always ask for feedback. 6.4. Make Output Distinct Where possible, make it clear what different parts of your program are what. Format error messages in a specific way to identify them. Under X, make sure each pane of your window has a name so that any screen reader software can identify it. 7. Other Information 7.1. Linux Documentation The Linux documentation is critical to the use of Linux and most of the documents mentioned here should be included in recent versions of Linux, from any source I know of. If you want to get the documentation on the Internet, here are some example sites. These should be mirrored at most of the major FTP sites in the world. · ftp.funet.fi (128.214.6.100) : /pub/OS/Linux/doc/ · tsx-11.mit.edu (18.172.1.2) : /pub/linux/docs/ · sunsite.unc.edu (152.2.22.81) : /pub/Linux/docs/ 7.1.1. The Linux Info Sheet A simple and effective explanation of what Linux is. This is one of the things that you should hand over when you want to explain why you want Linux and what it is good for. The Linux Info Sheet is available on the World Wide Web from and other mirrors. 7.1.2. The Linux Meta FAQ A list of other information resources, much more complete than this one. The meta FAQ is available on the World Wide Web from and other mirrors 7.1.3. The Linux Software Map The list of software available for Linux on the Internet. Many of the packages listed here were found through this. The LSM is available in a searchable form from . It is also available in a single text file in all of the FTP sites mentioned in section ``Linux Documentation''. 7.1.4. The Linux HOWTO documents The HOWTO documents are the main documentation of Linux. This Access HOWTO is an example of one. The home site for the Linux Documentation Project which produces this information is . There are also many companies producing these in book form. Contact a local Linux supplier for more details. The Linux HOWTO documents will be in the directory HOWTO in all of the FTP sites mentioned in section ``Linux Documentation''. 7.1.5. The Linux FAQ A list of `Frequently Asked Questions' with answers which should solve many common questions. The FAQ list is available from as well as all of the FTP sites mentioned in section ``Linux Documentation''. 7.2. WWW References The World Wide Web is, by it's nature, very rapidly changing. If you are reading this document in an old version then some of these are likely to be out of date. The original version that I maintain on the WWW shouldn't go more than about two weeks out of date, so refer to that please. I'll be using MOMspider to check for links disappearing. Linux Documentation is available from Linux Access On the Web with all of the versions of the HOWTO in . Preferably, however, download from one of the main Linux FTP sites. If I get a vast amount of traffic I'll have to close down these pages and move them elsewhere. Emacspeak WWW page BRLTTY unofficial WWW page Yahoo (one of the most major Internet catalogues) The Linux Lab Project 7.3. Suppliers This is a UK supplier for the Braillex. Alphavision Limited 7.4. Manufacturers 7.4.1. Alphavision I think that they are a manufacturer? RNIB only lists them as a supplier, but others say they make the Braillex. Alphavision Ltd Seymour House Copyground Lane High Wycombe Bucks HP12 3HE England U.K. Phone: +44 1494-530 555 7.4.1.1. Linux Supported Alphavision AT Products · Braillex 7.4.2. Blazie Engineering The Braille Lite was supported in the original version of BRLTTY. That support has now been discontinued. If you have one and want to use it with Linux then that may be possible by using this version of the software. Blazie Engineering 105 East Jarrettsville Rd. Forest Hill, MD 21050 U.S.A. Phone: +1 (410) 893-9333 FAX: +1 (410) 836-5040 BBS: +1 (410) 893-8944 E-Mail WWW 7.4.2.1. Blazie AT Products · Braille Lite (support discontinued) 7.4.3. Digital Equipment Corporation Digital Equipment Corporation P.O. Box CS2008 Nashua NH 03061-2008 U.S.A Order: +1 800-722-9332 Tech info: +1 800-722-9332 FAX : +1 603-884-5597 WWW 7.4.3.1. Linux Supported DEC AT Products · DECTalk Express 7.4.4. Kommunikations-Technik Stolper GmbH KTS Stolper GmbH Herzenhaldenweg 10 73095 Albershausen Germany Phone: +49 7161 37023 Fax: +49 7161 32632 7.4.4.1. Linux Supported KTG AT Products · Brailloterm 8. Software Packages References in this section are taken directly from the Linux Software map which can be found in all standard places for Linux documentation and which lists almost all of the software available for Linux. 8.1. Emacspeak Emacs is the ultimate text editor. In fact it's far beyond a text editor, and so this package is much more useful than you might imagine. You can run any other program from within emacs, getting any output it generates to appear in the emacs terminal emulator. The advantage though, is that Emacspeak can understand the layout of the screen and can intelligently interpret the meaning of, for example, a calendar, which would just be a messy array of numbers otherwise. The originator of the package manages to look after his own Linux machine entirely, doing all of the administration from within emacs. B.Begin3 Title: Emacspeak Version: 3.52 Entered-date: 04JUL95 Description: Emacspeak an Emacs extension to provide complete spoken feedback to a visually impaired user. Requires a speech synthesizer. I'm visually impaired I currently use Emacspeak on my laptop. Note-- You are not restricted to just Emacs --emacspeak provides spoken access to everything you can do from a terminal. Keywords: Speech Access, Screen Reading, Access for Visually Impaired Users. Author: raman@crl.dec.com (T. V. Raman) Maintained-by: raman@crl.dec.com (T. V. Raman) Primary-site: ftp://crl.dec.com:/pub/digital/emacspeak 85K emacspeak-3.52.tar.gz 150K sounds.tar Alternate-site: http://www.research.digital.com/CRL/personal/raman/emacspeak/emacspeak.html Original-site: Implemented originally for Linux Platforms: Dectalk Synthesizer, GNU Emacs 19, TCLX (Extended TCL) Copying-policy: GPL End 8.2. BRLTTY This is a program for running a serial port Braille terminal. 22 March 1996: The authors hope to make the first official release, version 1.0, sometime in the next few months. This version will support Alva B.V.'s ABT3 series and Telesensory Systems Inc.'s PowerBraille Navigator series displays, but support for Blazie Engineering's Braille Lite will be discontinued, as it is not really designed to be a Braille display and so does not have the necessary features. In the meantime, if you have an Alva or TSI display and want to use BRLTTY, contact the maintainer, Nikhil Nair . Begin3 Title: BRLTTY - Access software for Unix for a blind person using a soft Braille terminal Version: 0.22, 22SEP95 Entered-date: 24SEP95 Description: BRLTTY is a daemon which provides access to a Unix console for a blind person using a soft Braille display (see the README file for a full explanation). BRLTTY only works with text-mode applications. We hope that this system will be expanded to support other soft Braille displays, and possibly even other Unix-like platforms. Keywords: Braille console access visually impaired blind Author: nn201@cam.ac.uk (Nikhil Nair) jrbowden@bcs.org.uk (James Bowden) Maintained-by: nn201@cam.ac.uk (Nikhil Nair) Primary-site: sunsite.unc.edu /pub/Linux/utils/console 30kb brltty-0.22.tar.gz (includes the README file) 5kb brltty-0.22.README Alternate-site: Original-site: Platforms: Linux (kernel 1.1.92 or later), not X/graphics. Tieman B.V.'s CombiBraille (25/45/85 cell), (with no support for the parallel interface or in-built speech synthesizer; Blazie Engineering's Braille Lite (not recommended). Copying-policy: GPL End 8.3. Rsynth This is a speech synthesiser listed in the Linux Software Map. It doesn't apparently work well enough for use by a visually impaired person. Use hardware instead, or improve it.. a free speech synthesiser would be really really useful. 8.4. xocr xocr is a package which implements optical character recognition for Linux. As with Rsynth, I don't think that this will be acceptable as a package for use as a sole means of input by a visually impaired person. I suspect that the algorithm used means that it will need to be watched over by someone who can check that it is reading correctly. I would love to be proved wrong. 8.5. xzoom xzoom is a screen magnifier, in the same vein as xmag, but sufficiently better to be very useful to a visually impaired person. The main disadvantages of xzoomare that it can't magnify under its self, that some of the key controls aren't compatible with fvwm, the normal Linux window manager and that it's default configuration doesn't run over a network (this can be fixed at some expense to speed). Apart from that though, it's excellent. It does continuous magnification which allows you to, for example, scroll a document up and down, whilst keeping the section you are reading magnified. Alternatively, you can move a little box around the screen, magnifying the contents and letting you search for the area you want to see. xzoom is also available as an rpm from the normal RedHat sites, making it very easy to install for people using the rpm system (such as Redhat users). Begin3 Title:xzoom