]> The &kdvi; Handbook Stefan Kebekus
kebekus@kde.org
2001-2004 Stefan Kebekus &FDLNotice; 2004-02-27 1.11.00 This document describes &kdvi; version 1.1 KDE linux TeX DVI
Introduction &kdvi; is a plugin for the &kviewshell; program which allows &kviewshell; to display &DVI;-files (.dvi) which are produced by the TeX typesetting system. &kdvi; supports many extensions of the &DVI; standard, for instance the inclusion of &PostScript; graphics or hyperlinks. More details, examples and all the technical specifications can be found in the file KDVI-features.dvi (or see KDVI-features.tex for the TeX source of that file). For up-to-date information, consult &kdvi;'s home page. TeX is a high-end typesetting system geared towards scientific, and in particular mathematical typesetting. More information about TeX and &DVI; can be found on the homepage of the TeX user group or the German German DANTE e.V.. Starting &kdvi; Most of the time, &kdvi; will be started by just clicking onto a .dvi file in the file manager. For convenience there exists a command kdvi which calls &kviewshell; with the &kdvi; plugin preloaded. The viewer may thus be started using the command kdvi somepath/paper.dvi. The command lines kdvi somepath/paper or kdvi somepath/paper. will also work. If you are connected to the internet, you can access files which reside on other computers by giving a &URL; as a parameter, like this: kdvi http://somepath/paper.dvi If you give a &URL; as a parameter, you can tell &kdvi; to jump directly to certain place of the &DVI; file. For example, kdvi file:paper.dvi#43 will make &kdvi; to open page 43. If you have included source file information, a command like kdvi file:paper.dvi#src:43paper.tex will make &kdvi; search for the place in the &DVI; file which corresponds to line 43 in the TeX file paper.tex. You will hardly use this option yourself — read the section on forward search to learn how to set up your editor to start &kdvi; automatically. Don't forget the file: prefix or it will give unexpected results. For example, the command kdvi file:paper.dvi#43 will open page 43 of the file paper.dvi. The command kdvi paper.dvi#43 will try to open the file paper.dvi#43. There is another option which you will most likely not need to specify yourself. If you type kdvi --unique somepath/paper.dvi, &kdvi; will load the file if there is no other instance running which has the file already loaded. If there is, this instance of &kdvi; will pop to the front. A command like kdvi --unique file:paper.dvi#43 can be used in shell scripts to make a running instance of &kdvi; to jump to page 43. The usual parameters handled by &Qt; and &kde; applications also work: kdvi windows :0 400x400+0+0 "DVI" Printing &DVI; Files &kdvi; can print your &DVI; files using the standard &kde; printing interface. Internally, &kdvi; uses the program dvips to generate &PostScript;, which is then passed on to the printer. In particular, dvips must be installed if you want to print with &kdvi;. The program dvips uses its own configuration files and its own settings, which are fine for most purposes. However, if you care for optimal printing results, you should configure dvips manually and make sure to set a default MetaFont mode which fits your printer best — on many systems you'll find a GNU-texinfo documentation of dvips, and you might also want to look for a file called dvips.dvi or similar. Exporting the &DVI; file to other formats If you want to save your file as in &PostScript; or PDF format, it is not recommended that you use the printing function and redirect the printer output to a file. Instead, you can use the export functions which produce better-quality output that retains many of the special features of the dvi format and looks better in many of the viewing applications, such as Adobe's Acrobat Reader. You will find the export functions in the File menu.
Exporting to &PostScript; As in printing, the external program dvips is used to generate the &PostScript; file. If the &DVI; file contains hyperlinks, these will also be included in the &PostScript; file. If you are an expert, and if you would like to generate output which is optimized for a specific printer, you should probably start dvips manually and choose the proper MetaFont mode yourself.
Exporting to <acronym>PDF</acronym> In order to produce PDF files of high quality, &kdvi; converts &DVI; to PDF using the external program dvipdfm. If you are working on a machine where an older distribution of the TeX typesetting system is installed, it may be that the program dvipdfm is not installed. In that case, you need to use the printing function to generate PDF output. If you use an older TeX installation, and if are viewing the generated file in Adobe's Acrobat reader, you may well find that some of the fonts look extremely poor although a printout is fine, and although the document looks ok in kghostview. This is a known issue with the Acrobat Reader and bitmap fonts. At the time of writing, the only practicable workaround seems to be to avoid bitmap fonts, or to upgrade to a more recent TeX installation. While dvipdfm produces high-quality PDF files, dvipdfm currently currently ignores the &PostScript; that is embedded into the &DVI; file. Embedded PostScript is generated e.g. by the xy macro package, or by the "Embed PostScript files" function &kdvi; described below. If you find that the generated PDF file misses graphical data, use the print function of &kdvi; instead.
Exporting to text files &kdvi; can also save your &DVI; files in text format. The &DVI; file standard was not designed with this kind of functionality in mind. This function therefore only works well with standard ASCII characters. It will not work with non-European languages. Depending on the fonts used in the files, there may also be problems with accented characters or umlauts, and sometimes with ligatures.
Embedding PostScript files into the &DVI; The traditional way of using graphics with TeX does not include the graphics data directly in the &DVI; file. Instead, the &DVI; file contains only a link to a graphics file which resides on the hard disk. The advantage of this procedure is that the &DVI; file stays small, and that the graphics file can be modified indepent of the document's TeX source. The method, however, becomes fairly inconvenient if you intend to archive the &DVI; file, or if you wish to send it to someone else: rather than handling a single file, you have to deal with a multitude of files, which need to be kept in exactly the place specified in the &DVI; file for everything to work. For that reason, &kdvi; allows you to embed external &PostScript; files into your &DVI; file. To embed all &PostScript; files into a &DVI; file, use the menu entry Edit/Embed external PostScript files &DVI; files with embedded &PostScript; work fine with most other &DVI; handling software, e.g. xdvi, dvips or dvipdf. One notable exception is the dvipdfm program, which currently ignores the embedded &PostScript;. Since dvipdfm is used internally by the "Export to PDF" function of &kdvi;, expect problems when you use that function. The same issue shows with other software that uses embedded PostScript, e.g. the TeX xy macro package. Using inverse search Inverse search is a very useful feature when you are writing a TeX document yourself. If everything is properly set up, you can click into &kdvi;'s window with the middle mouse button (on some systems, when you don't have a three-button mouse, you can simultaneously use the left and the right button). After that, your favorite editor will open, load the TeX source file and jump to the proper paragraph. To use inverse search, do the following: Produce a &DVI; file that contains inverse search information. This is explained in the section Producing TeX files for inverse search below. If you just want to test the inverse search feature, you can also use the example file KDVI-features.dvi Let &kdvi; know which editor you would like to use. Choose an editor in the Preferences dialog (this dialog can be reached by choosing DVI Options in the Settings menu). The next section of this documentation, Rendering Options, explains this dialog in more detail. Some editors need to be started manually, or need additional configuration. You will find a description of all supported editors in the section Setting up your editor for inverse search below. Test your setup. Open your &DVI; file in &kdvi; and use the middle mouse button to click into &kdvi;. The editor should pop up and display the TeX file.
Producing TeX files for inverse search There are essentially two ways to produce &DVI; files which contain inverse search information: you can either use a TeX/LaTeX binary which generates and includes the necessary information automatically, or you can include an extra package which is written in TeX/LaTeX. A TeX binary which generates and includes the necessary information automatically is certainly the preferred method of including inverse search information. If you use version 2 or greater of the TeTeX TeX distribution, you can use the 'src-specials' command line option of the tex or latex command, as follows. tex --src-specials myfile.tex or latex --src-specials myfile.tex If you do not have a TeX binary which includes inverse search information natively, copy the files srcltx.sty and srctex.sty to the folder where your TeX file resides (you can do that by pressing the &Shift; key and &LMB; while the mouse pointer is on a hyperlink.) If you use LaTeX, add the line \usepackage[active]{srcltx} to the preamble of your LaTeX file. If you use plain TeX, the line \include{srctex} will do the trick. While inverse search is extremely useful when you are typing a document yourself, it might be a good idea to remove the inverse search information before sending the &DVI; file to someone else.
Setting up your editor for inverse search While inverse search works generally very well with most editors, some of them require a bit of extra care. This section explains how to configure your editor.
<application>Emacs</application> Emacs works well with &kdvi;. The actual behavior of Emacs depends largely on the configuration. As usual, you can customize Emacs completely, if you are willing to fight your way through Lisp code. &kdvi; uses the program emacsclient to remote control Emacs. The program emacsclient requires that Emacs is running, and that the program Emacs Server is started inside Emacs. Inverse search will not work optimally unless you have started both Emacs and the Emacs Server. To start the Emacs Server, you can do one of the following: In Emacs, start the Emacs Server by typing MX server-start Add the line (server-start) to your .emacs file. Restart Emacs Make sure that Emacs is installed. Try to start emacs from the command line. &kdvi; uses the command emacsclient to remote control Emacs. Make sure that emacsclient is available on the command line by trying the command emacsclient Name of a text file. This should open a new text in the Emacs editor. If emacsclient fails with an error message like unable to connect to local, make sure that Emacs is running. Furthermore, make sure that the Emacs Server is started by typing Mx server-start. If you want the frame to be auto-raised, add the raise-frame function to server-switch-hook (do Mx customize-variable RET server-switch-hook and enter the function name into the text field. If you have changed the buffer since your last save, Emacs will ask you: Revert buffer from file ...? (yes or no). You will probably always want to say no here, since reverting means that the file is reread from disk, causing all your changes since the last save to be lost! gnuclient's behavior of silently reloading the changed buffer is probably preferable — add the following lines to your .emacs file to emulate gnuclient's behavior with emacsclient: (defadvice server-visit-files (around save-buffers last activate) "Try to emulate gnuclient behavior with emacsclient. Works only for visiting one buffer at a time." (let* ((filen (car (car (ad-get-arg 0)))) (buf (get-file-buffer filen)) (this-buf-modified-p nil)) ;;; the following is copied from server-visit-files, with ;;; a modification for the `verify-visited-file-modtime' test (if (and buf (set-buffer buf)) (if (file-exists-p filen) ;;; if the file has changed on disk, reload it ;;; using `find-file-noselect' (if (not (verify-visited-file-modtime buf)) (progn (find-file-noselect filen) ;;; if user answered `no', reset modtime anyway ;;; so that server-visit-files doesn't realize the ;;; difference: (set -visited-file-modtime))) ;;; if file exists no longer, we let server-visit-files ;;; deal with that t) (set buf (find-file-noselect filen))) (set this-buf-modified-p (buffer-modified-p buf)) (set-buffer buf) (set-buffer-modified-p nil) ad-do-it (set-buffer-modified-p this-buf-modified-p)))
&kate; &kde;'s editor &kate; supports inverse search very well. No extra setup is required.
<application>Kile</application> The LaTeX-editor system Kile, supports KDVI very well. No extra setup is necessary. Further information about Kile can be found at Kile's homepage.
<application>NEdit</application> NEdit generally works very well indeed. Clicking into the &DVI; file should open a new window. If the TeX file is already used in another window of NEdit, the newly opened window displays another view of the buffer. Otherwise, the TeX file is loaded. After opening the window, NEdit highlights the first line of the appropriate paragraph. &kdvi; uses the command ncl to remote control NEdit. Make sure that ncl is available on the command line by trying the command ncl -noask. This should open an instance of the NEdit editor. If ncl is not available, you might be using an older version of NEdit. In that case, you should either upgrade to a more recent version, or you have to use the option User defined editor from the Options dialog.
<application>XEmacs</application> XEmacs works well with &kdvi;. The actual behavior of XEmacs depends largely on the configuration. As usual, you can customize XEmacs completely, if you are willing to fight your way through Lisp code. &kdvi; uses the program gnuclient to remote control XEmacs. The program gnuclient requires that XEmacs is running, and that the program gnuserv is started inside XEmacs. Inverse search will not work unless you have started both XEmacs and gnuserv. To start the gnuserv program, you can do one of the following: In XEmacs, start gnuserv by typing MX gnuserv-start Add the line (gnuserv-start) to your .xemacs file. If you use a more recent version of XEmacs, .xemacs will be a folder. In that case, you should append the line to the file .xemacs/init.el. Restart XEmacs If you don't want to open a new frame for each editor call, and want the frame to be auto-raised, set Gnuserv Frame to Use selected frame, and add the raise-frame function to Visit Hook. Do Mx customize-group RET gnuserv to make these settings. Make sure that XEmacs is installed. Try to start xemacs from the command line. &kdvi; uses the command gnuserv to remote control XEmacs. Make sure that gnuclient is available on the command line by trying the command gnuclient Name of a text file. This should open a new frame in the XEmacs editor. If gnuserv fails with an error message like unable to connect to local, make sure that XEmacs is running. Furthermore, make sure that gnuserv is started by typing MX gnuserv-start. If you don't want to open a new frame for each editor call, and want the frame to be auto-raised, set Gnuserv Frame to Use selected frame, and add the raise-frame function to Visit Hook. Do MX customize-group RET gnuserv to make these settings.
<application>VI iMproved</application> / &GUI; The gvim variant of the vi editor supports inverse search very well. No extra setup is required.
Forward search The forward search functions allow you to jump from your editor directly into the associated position of the &DVI; file. Since forward search must be supported by your editor, only Emacs and XEmacs are currently supported. Other editors will hopefully join in soon. To use forward search, you have to do the following: Set up your editor — this is described below. Add source file information to your &DVI; file, ⪚ by using the package srcltx. This has been described in the section Producing TeX files for inverse search. If you use Emacs and everything is properly set up, you just press &Ctrl;X &Ctrl;J , and &kdvi; pops up and jumps to the place which corresponds to the place of the TeX file which you are currently editing.
Setting up your editor for forward search
<application>Emacs</application> In order to use forward search in Emacs, follow these steps: Download the following Emacs script, kdvi-search.el (press &Shift; and &LMB; the filename to download) and store it in a place where Emacs can access it — we recommend a folder emacs-scripts. Add the lines (add-to-list 'load-path (expand-file-name "~/emacs-scripts/")) (require 'kdvi-search) (add-hook 'LaTeX-mode-hook (lambda () (local-set-key "\C-x\C-j" 'kdvi-jump-to-line))) (add-hook 'tex-mode-hook (lambda () (local-set-key "\C-x\C-j" 'kdvi-jump-to-line))) to your .emacs file. Restart Emacs. Open Emacs, load a TeX file, produce the corresponding &DVI; file, and either enter the command Mx kdvi-jump-to-line or press &Ctrl;X &Ctrl;J . It may happen that Emacs asks you for the name of a master file. This is useful if you use a TeX file which includes other files: the master file is the top-level file which includes the others. Emacs will perhaps also ask to save the name of the master file as a local variable, &ie; as a comment at the very end of the file. Type either yes or no to continue. Make sure that Emacs is installed. Try to start emacs from the command line. If Emacs fails to start &kdvi;, you can find its output in the Buffer kdvi-output.
<application>Kile</application> If you use Kile, no further setup is necessary.
<application>XEmacs</application> To set up XEmacs, follow the steps for Emacs above, but modify your .xemacs rather than your .emacs file. If you use a very recent version of XEmacs, .xemacs may be a folder. In that case, append the lines to .xemacs/init.el.
The <guilabel>Preferences</guilabel> dialog The Preferences dialog can be reached by choosing DVI Options in the Settings menu. The dialog consists of two tabs, Fonts and Rendering. <guilabel>Fonts</guilabel> Options Traditionally, the TeX typsetter uses fonts that are generated by the MetaFont program. These fonts are stored in the PK format. While a carefully configured MetaFont system produces printouts of highest quality, its configuration requires serious expertise, MetaFont is not very good at producing fonts suitable for computer displays, and there are only few MetaFont fonts available for Asian languages. To overcome these problems, newer TeX installations therefore include fonts that are stored in the "PostScript Type 1" format, which is a widely used font format in electronic publishing. &kdvi; is able to use both font formats. The following picture shows the font options dialog of &kdvi; that can be used to control &kdvi;'s use of the various font formats. The Fonts tab The Fonts tab Use font hinting for Type 1 fonts, if available PostScript "Type 1" often contain "font hints", i.e. additional information that is supposed to help software produce better quality output on computer screens. The quality of the font hints varies from font to font, and you should experiment to see if enabling this option gives better results. <guilabel>&DVI; specials</guilabel> Options &kdvi; supports a large number of extensions to the original &DVI; format, e.g. hyperlinks, graphic file inclusion or embedded source file information. These extensions are known as "&DVI; specials". A full account of specials supported by &kdvi; can be found in this document. The &DVI; specials dialog help you to configure support for some specials. The Rendering tab The Rendering tab Show PostScript specials If this option is checked, &kdvi; will display &PostScript; graphics which are embedded into the &DVI; file. You probably want to set this option. If an external &PostScript; file could not be found, &kdvi; will draw a red warning box in its place. Unfortunately, rendering &PostScript; graphics is very slow in the current version of &kdvi;. We will improve on the speed in later versions. If this option is off, &kdvi; will either draw a gray box as a placeholder for the graphics, or it will leave the space blank. There is no standard way to embed &PostScript; graphics into a &DVI; file. It may therefore happen that &kdvi; cannot properly display a graphic which works fine with other programs. Older versions of xdvi and dvips support the execution of external commands. This is a bad security risk and therefore deliberately not implemented in &kdvi;. Technical information about supported ways to include &PostScript; can be found in the document KDVI-features.dvi. Editor for inverse search If you intend to use inverse search, a very useful feature if you write TeX documents yourself, you have to specify which editor you are going to use, and how this editor can be started by &kdvi;. In the example shown, the user has opted for the NEdit editor. If you use one of the pre-configured editors from the Editor combobox, then you don't have to do anything else. If you whish to use a different editor, chose User-defined editor from the Editor combobox and enter the command line which will be used to start your editor. Use the placeholders %f and %l which will be replaced with the name of the TeX file, and the line of the TeX file, respectively. If you use an editor which is not supported, please send us an email at kebekus@kde.org and tell us about the command line you use and how you have configured your editor. Frequently asked questions What happens when &kdvi; displays the message KDVI is currently generating bitmap fonts, and why does the procedure take so long? Many of the fonts which are typically used in a TeX document must be generated by the MetaFont system. Metafont is a language similar to TeX (included in most TeX distributions) which takes a description of the font outline, and produces a rasterized version (.pk file) of the font which can then be send to a printer or be used in a previewing program like &kdvi;. Metafont goes out of its way to produce the best possible output for your printer. For instance, it knows that a pixel of an inkjet printer is a roundish blot, and that nearby pixels tend to smear into each other. In contrast, a pixel on a laser printer is rectangular, but an isolated pixel is very often not rendered at all. Generating such highly optimized bitmap fonts is naturally rather time-consuming, in particular since typical TeX documents use a large number of different fonts. We can only ask for your patience. To ease the matter somewhat, most distributions of TeX store the .pk files for a limited time, ⪚ 100 days. Therefore, if you access the same document more than once, the .pk files will be reused. What is a MetaFont Mode? In order to produce bitmap fonts which are optimized for your printer (see the answer to the first question), Metafont comes with a database of printing engines — look for a file called modes.mf. A Metafont Mode is just the name of a database entry. For example, the name ljfour refers to the entry in the database that describes a &Hewlett-Packard; LaserJet 4 printer. A MetaFont Mode is usually followed by a number, the resolution. The LaserJet, for instance, can print in both 300 and 600 dots per inch. Thus, ljfour/600 would be a full description. Credits and Licenses &kdvi; &kdvi; is based on based on the stand-alone-program &kdvi; 0.4.3 by Markku Hihnala. That program is in turn based on xdvi version 18f which has many authors. Documentation is copyright 2001-2004, Stefan Kebekus kebekus@kde.org &underGPL; &underFDL; &documentation.index;