'\" t .TH WAVE 1 "6 August 2002" "WFDB 10.2.7" "WFDB Applications Guide" .SH NAME wave, gtkwave \- waveform analyzer, viewer, and editor .SH SYNOPSIS \fBwave -r\fR \fIrecord\fR[\fB+\fIrecord\fR ...] [ \fIoptions\fR ... ] .br \fBgtkwave -r\fR \fIrecord\fR[\fB+\fIrecord\fR ...] [ \fIoptions\fR ... ] .SH DESCRIPTION .PP \fBwave\fR can be used to view the specified WFDB \fIrecord\fR or records on any display controlled by an X11 server. \fBgtkwave\fR provides most of the same facilities with a newer GUI under either Unix or MS-Windows. Both applications include facilities for interactive annotation editing. The keyboard and mouse are used to control the display interactively. First-time users should read the \fIWAVE User's Guide\fR. (One way to do this is by pointing your Web browser to \fBfile:///usr/help/html/wug/wug.htm\fR, or to \fBhttp://www.physionet.org/physiotools/wug/\fR for the latest version.) .PP If you specify more than one \fIrecord\fR, a separate \fBwave\fR process is started for each record. Note that all records to be opened must be listed in a single command-line argument following \fB-r\fR, with \fB+\fR characters (not spaces) between the record names. See `Running two or more WAVE processes' below. .PP Use the left mouse button to make selections, and the right mouse button to open menus (indicated by triangular glyphs at the right end of some buttons). See the \fIGuide\fR or the on-line manual for notes on annotation editing. .PP \fIOptions\fR are: .TP \fB-a\fR \fIannotator\fR Open the specified annotation file for the previously specified \fIrecord\fR or records. .TP \fB-dpi\fR \fIxx\fR[\fBx\fIyy\fR] Calibrate \fBwave\fR for use with a display having a resolution of \fIxx\fR (by \fIyy\fR) dots per inch. .TP \fB-f\fR \fItime\fR Open the record(s) beginning at the specified \fItime\fR. .TP \fB-g\fR Use shades of grey only, even on a color monitor. .TP \fB-H\fR Read the signal files in high-resolution mode (default: standard mode). These modes are identical for ordinary records. For multifrequency records, the standard decimation of oversampled signals to the frame rate is suppressed in high-resolution mode (rather, all other signals are resampled at the highest sampling frequency). .TP \fB-m\fR Use monochrome (usually black and white) only, even on a color or greyscale monitor. The line styles selected by the \fB-m\fR option may be easier to distinguish on some greyscale monitors than the default shades of grey. .TP \fB-O\fR Use overlay graphics for maximum speed and display quality if possible. This is the usual default if the X server supports a PseudoColor or GrayScale visual. This option exists only to force use of overlay graphics if a different mode has been chosen as the default. .TP \fB-s\fR \fIsignal-list\fR Initialize the signal list. By default, the signal list includes all available signals, in numerical order. .TP \fB-S\fR Use the standard (shared) color palette, even if it is possible to modify the palette. Using this option conserves color resources if you have other applications that use non-standard colors, at the expense of some speed in redrawing the display. The \fB-S\fR option may be used in combination with the \fB-g\fR option if desired. .TP \fB-V\fR\fIx\fR Set display option \fIx\fR. See `Display Options' below for details. .PP Note that \fBwave\fR queries the X server to determine the display capabilities and resolution; it is not necessary to use the \fB-g\fR, \fB-m\fR, or \fB-S\fR options unless you wish to restrict \fBwave\fR's use of the available capabilities. Use the \fB-dpi\fR option to override the server's default resolution if it is incorrect and cannot be changed otherwise (see comments below under `Resources'). .PP The system on which \fBwave\fR runs (the ``host'' system) need not be the same as the system to which your keyboard, mouse and display are connected (the ``local'' system), provided only that the host and local systems are on the same network. If you wish to run \fBwave\fR remotely, simply log in to the host using \fBssh\fR, which normally handles display redirection automatically. If you use some other method to log in remotely, such as \fBrlogin\fR (not recommended) or \fBtelnet\fR (not recommended), it is usually necessary to grant permission for the host system to open windows on the local system's display (generally, this is accomplished using \fBxhost\fR on the local system; see the documentation for your X server for details), and to set the \fBDISPLAY\fR environment variable on the host system appropriately (if the local system runs UNIX, the value of \fBDISPLAY\fR should be \fIlocal-hostname\fB:0.0\fR in most cases; again, consult your X server documentation). .SH ENVIRONMENT \fBwave\fR uses many environment variables; they are listed in this section roughly in order of importance. Many of them need not be set at all, since \fBwave\fR uses reasonable default values in most cases. Those that are set must be set on the host system. .TP \fBDISPLAY\fR The name of the X server and display you are using (see above). If you are using \fBwave\fR locally, or if you are logged in via \fBssh\fR, \fBDISPLAY\fR should be set automatically and should not need to be changed. .TP \fBWFDB\fR The database path (see \fBsetwfdb\fR(1)). If not set, \fBwave\fR can find database files only in the builtin WFDB path. If you edit annotation files and wish to reopen them later, be sure that the current directory (in which \fBwave\fR writes any edited annotation files) is the first directory in your database path. .TP \fBWFDBCAL\fR The WFDB calibration file (see \fBsetwfdb\fR(1) and \fBwfdbcal\fR(5)). If not set, \fBwave\fR reads the builtin default calibration file; if this is not accessible, \fBwave\fR may not scale signals other than ECGs correctly. .TP \fBWAVEMENU\fR The name of the analysis menu file (see below); if not set, \fBwave\fR uses \fBwavemenu\fR if it exists in the current directory, or \fB$MENUDIR\fR\fB/wavemenu.def\fR otherwise. .TP \fBSHELL\fR The command interpreter used within the Analysis Commands window; if not set, \fBwave\fR uses \fB/bin/sh\fR (the Bourne shell). Other shell-related variables, such as \fBPATH\fR, are also significant when \fBwave\fR is running commands within the Analysis Commands window. .TP \fBEDITOR\fR The name of the text editor to be used for modifying the analysis menu file and the log file. If not set, \fBwave\fR uses \fBtextedit\fR (a simple editor included with the XView toolkit). .TP \fBPRINTER\fR The name of a printer to be used for paper output; if not set, \fBwave\fR uses the default printer. .TP \fBPSPRINT\fR The command used to print PostScript data from the standard input; if not set, \fBwave\fR uses `\fBlpr -P$PRINTER\fR'. .TP \fBTEXTPRINT\fR The command used to print text from the standard input; if not set, \fBwave\fR uses `\fBlpr -P$PRINTER\fR'. .TP \fBANNTAB\fR The name of a file that contains custom annotation definitions (see `Resources', below, for details). If not set, \fBwave\fR uses standard annotation definitions only. .PP The environment variables below are not needed unless the \fBwave\fR binary distribution, or XView, has been installed in non-standard directories: .TP \fBHELPPATH\fR The path for XView spot help; if not set, \fBwave\fR initializes it to \fB/usr/lib/help\fR. \fBwave\fR's own spot help is in \fB$HELPDIR\fR\fB/wave\fR, which is appended to the end of \fBHELPPATH\fR by \fBwave\fR. .TP \fBHELPDIR\fR The directory in which \fBwave\fR's help directory is located; if not set, \fBwave\fR uses \fB/usr/local/help\fR. .TP \fBMENUDIR\fR The name of the directory that contains the default analysis menu file; if not set, \fBwave\fR uses \fB/usr/local/lib\fR. .TP \fBRESDIR\fR The name of the directory in which system-wide default X11 resource files are kept; if not set, \fBwave\fR uses \fB/usr/lib/X11/app-defaults\fR. \fBXUSERFILESEARCHPATH\fR, \fBXAPPLRESDIR\fR, and \fBXENVIRONMENT\fR are also used, together with \fBHOME\fR and \fBUSER\fR, to locate resource files (see \fBX\fR(1)). .SH RESOURCES .PP You can control many aspects of \fBwave\fR's appearance and behavior by setting its resources. If you are not familiar with this concept, refer to an introductory book on using the X Window System, such as Quercia and O'Reilly's `X Window System User's Guide'. Since \fBwave\fR is built using the XView toolkit, all of the resources listed in \fBxview\fR(7) can be used with \fBwave\fR. In addition, the following \fBwave\fR-specific resources may also be set: .TP \fBWave.AllowDottedLines\fR This resource specifies if \fBwave\fR is allowed to render dotted lines. \fBwave\fR normally draws annotation marker bars as dotted lines, and may use dotted lines for other display elements on black-and-white displays for clarity. Some X servers do not properly render dotted lines, however; if you observe irregular or missing annotation marker bars, change the value of this resource from \fBTrue\fR to \fBFalse\fR. .TP \fBWave.Anntab\fR This resource specifies the name of a file that contains a table of annotation definitions. The environment variable \fBANNTAB\fR can also be used to specify this filename; the resource overrides the environment variable if both are set. The file contains one-line entries of the form .br 15 % Funny looking beat .br in which the first field specifies the (numeric) annotation code in the range between 1 and \fBACMAX\fR inclusive (see \fB/usr/include/wfdb/ecgcodes.h\fR for a list of predefined codes and for the definition of \fBACMAX\fR); the second field (`%' in the example) is a mnemonic (used in annotation display and entry), and the remainder of the entry is a description of the intended use of the annotation code (which appears next to the mnemonic in the `Type' field and menu of `Annotation Template' windows). Lines in the annotation table that begin with `#' are treated as comments and ignored. It is not necessary to specify an annotation table when editing an existing annotation file unless previously undefined annotation types are to be added to it during the editing process, although it is generally harmless to do so. .TP \fBWave.Dpi\fR This resource specifies the display resolution in dots per inch in the form \fIMM\fBx\fINN\fR, where \fIMM\fR is the horizontal resolution and \fINN\fR is the vertical resolution. Normally, the resolution is known to the X server, and it is unnecessary to specify this resource. If your X server is misinformed, \fBwave\fR's calibrated display scales will be incorrect; the best solution is to specify the resolution using a server option such as the \fB-dpi\fR option supported by MIT's X11 servers, since this will solve problems common to any other applications that require calibrated scales as well. Not all X11 servers support such an option, so this resource is available as a work-around. The command-line option \fB-dpi\fR overrides the resource if both are specified. (If you don't know the resolution, use \fBxdpyinfo\fR(1) to determine what your X server thinks it is. Then run \fBwave\fR, enable the grid display, and measure the grid squares with a ruler. If they are larger than 5 mm, the number of dots per inch returned by \fBxdpyinfo\fR is too large; adjust the \fBWave.Dpi\fR resource proportionally, and repeat the process until the grid squares measure 5 mm in each direction.) .TP \fBWave.GraphicsMode\fR This resource specifies the graphics mode used by \fBwave\fR; it can be overridden using the \fB-g\fR, \fB-m\fR, \fB-O\fR, or \fB-S\fR options. The legal values are \fB1\fR (monochrome mode), \fB2\fR (overlay greyscale mode), \fB4\fR (shared color mode), \fB6\fR (shared grey mode), and \fB8\fR (overlay color mode). .TP \fBWave.SignalWindow.\fR{\fBGrey\fR|\fBColor\fR}\fB.\fIElement\fR These resources specify the colors to be used on greyscale or color displays. The `Color.*' resources are used only if the display is color-capable and neither greyscale nor monochrome mode has been specified. The defaults are: .br .TS center; l l l. \fIElement\fB Grey Color\fR \fBBackground\fR white white \fBGrid\fR grey75 grey90 \fBCursor\fR grey50 orange red \fBAnnotation\fR grey25 yellow green \fBSignal\fR black blue .TE .TP \fBWave.SignalWindow.Mono.Background\fR In monochrome mode, the background is normally white, and all other display elements are normally black. The reverse can be obtained by setting this resource to \fBblack\fR. (There is at least one server for which this fails.) .TP \fBWave.Scope.\fR{\fBGrey\fR|\fBColor\fR}\fB.\fR{\fBForeground\fR|\fBBackground}\fR These resources specify the colors to be used in the Scope window on greyscale or color displays. The Foreground color is used for the waveform and the time display; by default, it matches the color used for signals in the signal window (see the previous item). Some X servers do not allow the background color of the Scope window to be set, because of the color map animation and stippled erasing techniques used. .TP \fBWave.Scope.Mono.Background\fR This resource can be used to invert the foreground and background of the Scope window when WAVE is running in monochrome mode. This does not work for all X servers. .TP \fBWave.SignalWindow.{Height_mm|Width_mm}\fR These resources specify the preferred dimensions (in millimeters) for the signal window. The defaults are 120 and 250 respectively. .TP \fBWave.SignalWindow.Font\fR This resource specifies the font used to display annotations and time marks in the signal window. The default is \fBfixed\fR. .TP \fBWave.TextEditor\fR This resource specifies the name of the text editor invoked by \fBwave\fR to permit you to edit \fBwave\fR's log and analysis menu files. The default is \fBtextedit\fR (the OpenLook visual editor). You may override this resource by using the environment variable \fBEDITOR\fR, which is also used by many other UNIX applications that invoke editors. .SS Display options Initial values for the settings controlled from \fBwave\fR's View window can be specified using either X resources or command-line options. Once suitable settings have been selected, use the `Save as new defaults' button in \fBwave\fR's View window to record them in your \fB.Xdefaults\fR file. In this section, the X resource name is specified first, and the command-line option follows. .PP By default, all of the display options in the first group are off (\fBFalse\fR); set any of these X resources to \fBTrue\fR to enable these options, or use the command-line options to do so. .TP \fBWave.View.Subtype\fR (\fB-Vs\fR) Display annotation \fBsubtyp\fR fields. .TP \fBWave.View.Chan\fR (\fB-Vc\fR) Display annotation \fBchan\fR fields. .TP \fBWave.View.Num\fR (\fB-Vn\fR) Display annotation \fBnum\fR fields. .TP \fBWave.View.Aux\fR (\fB-Va\fR) Display annotation \fBaux\fR fields. .TP \fBWave.View.Markers\fR (\fB-Vm\fR) Display annotation marker bars. .TP \fBWave.View.SignalNames\fR (\fB-VN\fR) Display signal names along the left edge of the signal window. .TP \fBWave.View.Baselines\fR (\fB-Vb\fR) Display baselines for any DC-coupled signals, and label the zero levels and the units along the right edge of the signal window. .TP \fBWave.View.Level\fR (\fB-Vl\fR) While the pointer is in the signal window and any mouse button is depressed, track the intersections of the marker bar with the signals and draw horizontal marker bars across the signal window at the levels of these intersections. .PP The remaining resources and command-line display options correspond to the menu buttons in \fBwave\fR's View window. The value of each resource, or the numeric argument that immediately follows the command-line option, should match the position of the desired menu choice, where the top item on each menu is in position 0, the one below it is in position 1, etc. For example, to set the initial amplitude scale to 5 mm/mV (the item at position 2 in the `Amplitude scale' menu), add \fB-Vv 2\fR to the command line, or \fBWave.View.AmplitudeScale:2\fR to the X11 resource database. .TP \fBWave.View.TimeScale\fR (\fB-Vt\fR) Set the time scale (0: 50 mm/min; 1: 125 mm/min; 2: 250 mm/min; 3: 500 mm/min; 4: 12.5 mm/sec; 5: 25 mm/sec (default); 6: 50 mm/sec; 7: 125 mm/sec; 8: 250 mm/sec). .TP \fBWave.View.AmplitudeScale\fR (\fB-Vv\fR) Set the amplitude scale (0: 1 mm/mV; 1: 2.5 mm/mV; 2: 5 mm/mV; 3: 10 mm/mV (default); 4: 20 mm/mV; 5: 40 mm/mV; 6: 100 mm/mV). .TP \fBWave.View.SignalMode\fR (\fB-VS\fR) Set the choice on the `Draw' menu (0: all signals (default); 1: listed signals only). .TP \fBWave.View.AnnotationMode\fR (\fB-VA\fR) Set the choice on the `Show annotations' menu (0: centered (default); 1: attached to signals; 2: as a signal). .TP \fBWave.View.TimeMode\fR (\fB-VT\fR) Set the choice on the `Time display' menu (0: elapsed (default); 1: absolute; 2: in sample intervals). .TP \fBWave.View.GridMode\fR (\fB-VG\fR) Set the choice on the `Grid' menu (0: none; 1: 0.2 s; 2: 0.5 mV; 3: 0.2s x 0.5 mV (default)). .PP In addition to the usual ways of setting X resources, it is possible to set any of those listed above, as well as any of the generic XView resources, by using the \fB-xrm\fR or \fB-default\fR options on the command line when starting \fBwave\fR. For example, you can set the background color of the signal window using a command such as .br \fBwave -r 100s -xrm Wave.SignalWindow.Color.Background:lightblue\fR .SH RUNNING TWO OR MORE WAVE PROCESSES .PP By specifying two or more record names, separated by `\fB+\fR' characters, in the command-line argument that follows `\fB-r\fR' (see above), you may open separate WAVE signal windows (processes) for each record. These processes are almost completely independent: from any signal window, you may navigate within the record, change display settings, edit annotations, run external analysis programs, quit the process, etc., without affecting any other signal windows. .PP For example, you may open two signal windows for the same record by: .br \fBwave -r 100+100 -a atr\fR .br You can now move about the record freely in either window. This facility makes it easy to compare different segments of the record. Note that whenever two or more windows are displaying the same set of annotations, as in this case, only one should be editing the annotations at any given time. .PP The window associated with the \fIlast\fR record named on the command line has a special status: it is designated the master signal window, and an extra button (labelled `Sync') appears at the top of this window. Clicking on this button causes all of the other signal windows to be redrawn so that the times shown in their lower left corners match that in the master signal window. (Note, however, that if you have quit a signal window from the middle of the list, any signal windows from earlier in the list will no longer respond to sync requests.) .PP By default, all command-line arguments apply to all signal windows. You may specify an argument that is to apply to only one signal window, however, by prefixing the argument with `\fB+\fIn\fB/\fR', where \fIn\fR is the signal window number. (The first signal window, corresponding to the first record named on the command line, is signal window number 0; the next is number 1, etc.) .PP This facility has many applications. For example, you may wish to open two copies of the same record, with two different annotators: .br \fBwave -r 100+100 -a +0/atr +1/qrs\fR .br In this case, record 100 is opened in two windows, with annotator `atr' in window 0 and annotator `qrs' in window 1. (The `\fB-a\fR' option applies to both windows since it does not have a `\fB+\fIn\fB/\fR' prefix.) .PP As another example, you may wish to discuss a record with colleagues at other locations: .br \fBwave -r 200+200+200 -a qrs +0/-display +0/atlantic.bigu.edu:0 \\\fR .br \fB+1/-display +1/pacific.widget.com:0\fR .br Here, record 200 is opened in three windows. Window 0 is opened on display 0 of atlantic.bigu.edu, window 1 on display 0 of pacific.widget.com, and window 2 (the master window) on the local display. (For this to work, your colleagues must first allow your computer to open windows on their displays, typically using \fBxhost\fR. See \fBxview\fR(7) for information about the \fB-display\fR option. Notice that the `\fB+\fIn\fB/\fR' prefix must be attached to both the `\fB-display\fR' option and to its argument in order to apply both of these arguments to the same signal window.) Your colleagues can freely move about the record, but you can direct the discussion at any time by using the Sync button in your signal window. In a case such as this one, anyone can enable editing; you should do so only after making sure that no one else has. Once you have saved your work (by selecting `Save' from the File menu), your changes become visible to your colleagues if they reload the annotations (by clicking on `Reload' from the Load window). .PP As a final example, the MIMIC Database includes both high-resolution waveform records and medium-resolution (roughly 1 sample per second) computed measurement records. You may view both of these at the same time using a command such as: .br \fBwave -r 237+237n -a all\fR .br Typically, you will wish to view the high-resolution and low-resolution data at different time scales. Although \fBwave\fR attempts to choose reasonable defaults, you can adjust the scales independently if you wish: .br \fBwave -r 237+237n -a all +1/-Vt +1/2\fR .PP If you use \fBwavescript\fR or \fBwave-remote\fR to control the master signal window (this happens by default unless you use the \fB-pid\fR option of these programs to control a different signal window), the other signal windows are kept synchronized with the master window. .PP Note that you cannot \fIincrease\fR the number of signal windows in a group once you have started a \fBwave\fR process group, although you can run more than one process group at a time if you wish. .SH MENU FILE .PP \fBwave\fR uses a simple menu file to allow you to set up analysis options. Each line in the file corresponds to a button in the Analyze window (except for empty lines and lines that begin with `#', which are ignored). Within each line, the syntax is \fIlabel\fR\fIaction\fR, where is one or more tab characters. The \fIlabel\fR field is used to identify a command button in the Analyze window, and the \fIaction\fR field is any command acceptable to your shell. \fIbutton-label\fR and \fIaction\fR may include spaces if needed; if necessary, a `\\' may be used at the end of a line to indicate that it is continued on the next line. Before the command is executed, \fBwave\fR replaces certain tokens with appropriate strings; these include: .TP \fB$RECORD\fR The name of the current record. .TP \fB$ANNOTATOR\fR The name of the current input annotator. .TP \fB$START\fR The currently selected `start analysis' time. .TP \fB$END\fR The currently selected `end analysis' time. .TP \fB$DURATION\fR The time interval between \fB$END\fR and \fB$START\fR. .TP \fB$LEFT\fR The time corresponding to the left edge of the signal window. .TP \fB$RIGHT\fR The time corresponding to the right edge of the signal window. .TP \fB$WIDTH\fR The time interval between \fB$RIGHT\fR and \fBLEFT\fR. .TP \fB$SIGNAL\fR The currently selected signal number (as shown in the Analyze window). .TP \fB$SIGNALS\fR The current signal list (as shown in the Analyze window). .TP \fB$LOG\fR The name of the current log file (as shown in the Log window). .TP \fB$WFDB\fR The WFDB path (from the Load window). .TP \fB$WFDBCAL\fR The name of the WFDB calibration file (from the Load window). .TP \fB$TSCALE\fR The time scale, in mm/sec. .TP \fB$VSCALE\fR The amplitude scale, in mm/mV. .TP \fB$DISPMODE\fR The annotation display mode (0: annotations displayed in center, no marker bars; 1: annotations displayed in center, long marker bars; 2: annotations attached to signals, no bars; 3: annotations attached to signals, short bars; 4: annotations displayed as a signal, no bars; 5: annotations displayed as a signal, long bars) .TP \fB$PSPRINT\fR The command for printing PostScript data from the standard input, as specified in the Print Setup window. .TP \fB$TEXTPRINT\fR The command for printing text from the standard input, as specified in the Print Setup window. .TP \fB$URL\fR The URL specified by the most recently selected link. .PP Other tokens that begin with `$' are passed to the shell unchanged. .SS Example The default menu file includes the following lines (among others): .br .TS center; l l. \fIMark QRS complexes\fR sqrs -r $RECORD -f $START -t $END -s $SIGNAL \fICalibrate\fR calsig -r $RECORD -f $START -t $END -s $SIGNALS \fIExtract segment\fR snip -i $RECORD -f $START -t $END -n n\_$RECORD \\ -a $ANNOTATOR \fIList annotations\fR rdann -r $RECORD -a $ANNOTATOR -f $START -t $END \fIList samples\fR rdsamp -r $RECORD -f $START -t $END -s $SIGNALS \fIPrint chart\fR echo $RECORD $START-$END | \\ pschart -a $ANNOTATOR -g -l -R -s $SIGNALS - | $PSPRINT \fIPrint full disclosure\fR echo $RECORD $START-$END | \\ psfd -a $ANNOTATOR -g -l -R -s $SIGNALS - | $PSPRINT .TE .SH KEYBOARD COMMANDS .PP Whenever the pointer is in the signal window, the normal arrow pointer is replaced by a crosshair pointer. At these times, the numeric keypad and several of the function keys may be used for many annotation editing and display operations, and the normal alphanumeric and punctuation keys can be used to select single-character annotation mnemonics (displayed in the Annotation Template window). `Num Lock' must be off if you wish to use the keypad for editing operations. Some of the function and numeric keypad commands work on Sun keyboards only; in these cases, alternate keyboard commands for use with PC and other keyboards are shown in parentheses. Most of these alternate commands also work on Sun keyboards. .TP \fI\fR (\fI\fR) Open XView spot help for the item under the pointer. (Unlike most of the other keyboard commands, this command is available at any time, not only when the pointer is in the signal window.) .TP \fI\fR Select the annotation to the left of the pointer. (Click left to do this using the mouse. These actions also work when the pointer is in the scope window.) .TP \fI\fR Select the annotation to the right of the pointer. (Click right to do this using the mouse. These actions also work when the pointer is in the scope window.) .TP \fI\fR Move the selected annotation up one signal (i.e., decrement its \fBchan\fR field). This command works in multi-edit mode only (enter multi-edit mode by choosing `attached to signals' from the `Show annotations' menu in \fBwave\fR's View window). .TP \fI\fR Move the selected annotation down one signal (i.e., increment its \fBchan\fR field). This command works in multi-edit mode only. .TP \fIkeypad <5>\fR (\fI\fR) Insert an annotation at the current position of the pointer. (Click the middle button to do this using the mouse. Annotation editing must be enabled for this action to be successful.) .TP \fIkeypad <=>\fR (\fI\fR) Move the pointer toward the left. .TP \fIkeypad <*>\fR (\fI\fR) Move the pointer toward the right. .TP \fI\fR (\fI\fR) Copy the selected annotation to the Annotation Template. .TP \fI\fR (\fI\fR) Search forward. .TP \fI\fR (\fI\fR) Search backward. .TP \fI\fR (\fI\fR) Advance to the end of the record. .TP \fI\fR (\fI\fR) Move to the beginning of the record. .TP \fI\fR (\fI\fR) Advance half a screen. .TP \fI\fR (\fI\fR) Advance a full screen. .TP \fI\fR (\fI\fR) Move back half a screen. .TP \fI\fR (\fI\fR) Move back a full screen. .TP \fI\fR (\fI\fR) (Only if a link annotation has been selected.) Show the external data specified by the link using a Web browser; start the Web browser first if necessary. .SH BUGS .PP Under SunOS, once you have opened the Analyze window or have selected Print from the File menu, do not attempt to suspend \fBwave\fR (for example, by typing control-Z in the controlling terminal window). Under these circumstances, \fBwave\fR may exit immediately (without quit confirmation) and any unsaved edits may be lost. This problem is the result of a bug in the XView \fItermsw\fR package used for the Analysis Commands window. To avoid this bug, always run \fBwave\fR in the background under SunOS. The Solaris 2.x and Linux versions of the XView library do not have this bug. .PP If \fBwave\fR opens with an empty signal window, this may mean that the X server's backing store is disabled. If possible, enable backing store and restart the X server. (Using XFree86 4.x, backing store can be enabled by inserting the line `Option "backingstore"' in the `Device' section(s) of the \fBXF86Config-4\fR file. If the X server is normally started by a display manager such as \fBxdm\fR, close all windows and restart the server with \fI\fR. Otherwise, log out, log in, and restart the X server manually if necessary.) .PP If this doesn't solve the problem, use any of \fBwave\fR's navigation controls, or resize the signal window, to make the signals visible. On some 24-bit displays, this problem may be the result of an X server bug, and these methods will work around the problem. On some of these displays, text in the signal window may be invisible using overlay graphics mode; if this happens, use the \fB-S\fR option. .PP No more than one piped record (see the \fIWFDB Programmer's Guide\fR) can be viewed in a single invocation of \fBwave\fR. If the signal file is a pipe, it is possible only to search forward through it (although \fBwave\fR caches several of the most recently displayed windows, which can be reviewed in any case). Using the `>' button to move by half a frame does not work properly with piped input, nor does changing the display scales, since these actions require rereading the signals. .PP There appears to be a subtle incompatibility between XView-based applications such as \fBwave\fR and at least some X servers. The symptom of this problem is that \fBwave\fR's View panel may be blank, and many warning messages from the notifier may appear in the controlling terminal window. This problem appears to occur only when all of the following are true: the X server is running on a multi-head display with Xinerama enabled, the user does not have root privileges, a \fB.Xdefaults\fR file exists, and \fBwave\fR or another XView application has run at least once since the X server was started. .SH SEE ALSO \fBpschart\fR(1), \fBview\fR(1), \fBwview\fR(1), \fBxview\fR(7) .br \fIWAVE User's Guide\fR .SH AVAILABILITY .PP \fBwave\fR currently runs under Linux, Solaris, and SunOS. It should be easily portable to any POSIX-compliant OS that can support X11 and XView. If you would like to use \fBwave\fR on a system other than those listed above, you will need to port XView to your system first (or purchase a commercial port if one is available). Sources for XView are supplied on our CD-ROMs that include \fBwave\fR, and are also available from PhysioNet (\fBwww.physionet.org\fR, where the sources for \fBwave\fR itself are also available), \fBmetalab.unc.edu\fR, \fBtsx-11.mit.edu\fR, and their mirrors. \fIWe cannot offer assistance in porting XView; if you wish to try this, you are on your own.\fR If you successfully port the \fBcmdtool\fR terminal emulator application included in the XView sources, we will assist you in porting \fBwave\fR (this is much simpler than the XView port). .PP The second edition of the \fIMIT-BIH Arrhythmia Database CD-ROM\fR contained an earlier version of \fBwave\fR (for Sparc SunOS only) that lacked many of the features described here. Refer to the documentation included on that CD-ROM for details. .PP Beta (test) versions of \fBgtkwave\fR are available for Linux and MS-Windows. It should be straightforward to recompile \fBgtkwave\fR sources for any other environment in which the GTK+ toolkit and the WFDB library are available. .SH AUTHOR George B. Moody (george@mit.edu) .SH SOURCES http://www.physionet.org/physiotools/wfdb/wave/ .br http://www.physionet.org/physiotools/beta/gtkwave/