plt - make 2-D plots
plt [ data-spec ] [ data-file ] [ [ xcol ]
ycol ] [ options ... ] [ -T lw | lwcat [ lwcat-options ] ]
page is intended as a supplement to the command-line help provided by plt
itself (using the -h option, see below). If you have not previously used
plt, please look at the plt Tutorial and Cookbook, which is included in
the plt package (see SOURCES below).
plt is a non-interactive (command line-driven)
plotting utility. plt can produce publication-quality 2D plots in PostScript
from easily-produced text or binary data files, and can also create screen
plots under the X Window System.
All data presented to plt must be organized
in rows and columns. Columns are numbered beginning with zero, and each
column contains values for a variable that can be used as an abscissa (x
coordinate), ordinate (y coordinate), or (with appropriate options described
below) a grey level, color, or other plot attributes. Rows are numbered
beginning with one, and each row contains a value for each column. Within
a data-file, values are always arranged in row-major order (all elements
of row 1, followed by all elements of row 2, etc.).
Usually, data must be
in text form in order for plt to read them. Each non-empty, non-comment line
(row) in the input should contain a value for each column that will be
plotted; any additional values or other extra text at the end of a row
will be ignored. Columns can be separated by any number of spaces or tabs.
Commas and single or double quotation marks can also be used as column
separators with current versions of plt, though not with older versions.
It is not necessary to line up the values in each row. There may also be
spaces or tabs at the beginning of a line, and these will also be ignored.
If no data-file is specified, plt reads data from its standard input. The
command-line arguments xcol and ycol specify the column numbers for the
abscissas and ordinates respectively. If only one column number is specified,
it is taken as ycol, and plt generates a series of abscissas automatically.
If the data-file contains no more than two columns, both xcol and ycol
may be omitted.
By default, plt reads all rows of the data-file and scales
the x and y axes so that all data can be plotted. An optional data-spec,
a string beginning with a colon (:), can be used to select a subset of
the rows in the data-file. For details on using a data-spec, and for information
about reading binary data files using plt, see the plt Tutorial and Cookbook.
plt recognizes a large number of options for controlling and customizing
plots. To see a summary of all options, run ‘‘plt -h’’; if this command is followed
by one or more strings (which should not begin with hyphens), plt prints
one-line summaries of all options beginning with those strings only.
can read its options from command-line arguments, from a format file (specified
using the -f option), or from a format string (supplied on the command line,
following the -F option). When using format files or format strings, omit
the hyphen (-) before each option.
Following is a brief summary of
plt’s options. Note that many options require arguments. plt chooses a suitable
default for most such arguments if the argument is supplied as ‘-’. See the
plt Tutorial and Cookbook for further details.
- -p plot-styles
- Specify style(s)
for data plots. Available plot-styles include ‘c’, ‘C’, ‘e+c’, ‘e-c’, ‘e:c’, ‘E+n’, ‘E-n’,
‘E:n’, ‘f’, ‘i’, ‘l’, ‘m’, ‘n’, ‘N’, ‘o’, ‘O’, ‘sc’, ‘Sn’, and ‘t’.
- -s elements
- Suppress elements
of output. Elements that can be suppressed include ‘e’ (erasing the screen
or beginning a new page before plotting), ‘a’ (anything associated with axes),
‘x’ (anything associated with the x axis), ‘y’ (anything associated with the
y axis), ‘g’ (the grid), ‘m’ (x and y axis tick marks), ‘n’ (x and y tick mark
numbers), ‘t’ (x and y axis labels and plot title), ‘l’ (user-supplied labels),
‘p’ (data plots), and ‘f’ (‘‘figures’’ -- boxes, line segments, arrows, and legends).
In addition, these elements modify the effects of any other elements that
follow: ‘X’ (restrict effects to x axis), ‘Y’ (restrict effects to y axis),
and ‘A’ (apply effects to both axes); and the element ‘C’ reenables all elements.
- -X xmin xmax
- Set the x-axis range (see also -xa).
- -Y ymin ymax
- Set the y-axis
range (see also -ya).
- -t title
- Set the title for the plot (enclose title in
quotes if it contains whitespace or begins with ‘(’ or ‘[’).
- -T type
the output type, which may be xw (X11 window, the default under Unix or
Linux and not available under MS-Windows), or lw (PostScript, the default
- -g grid-mode
- Specify the grid style, which may be in, out
(default), both, none, sym (make symmetric axes at top and right), grid
(extend major ticks across the entire plot), xgrid, ygrid, or sub (extend
all ticks across the entire plot).
- -h [ option-prefix ... ]
- Show help on options
beginning with option-prefix (which should not begin with ‘-’). If option-prefix
is omitted, show help on all options.
Within the next group of options,
those with upper-case names (‘-A’, ‘-B’, ...) use window coordinates between (0,0)
and (1,1); those with lower-case names (‘-a’, ‘-b’, ...) use data coordinates.
- -a x0
y0 x1 y1
- Draw an arrow to (x0,y0) from (x1,y1).
- -A xw0 yw0 xw1 yw1
- Draw an
arrow to (xw0,yw0) from (xw1,yw1).
- -b x0 y0 x1 y1
- Draw a box with opposite
corners at (x0,y0) and (x1,y1).
- -B xw0 yw0 xw1 yw1
- Draw a box with opposite
corners at (xw0,yw0) and (xw1,yw1).
- -c x0 y0 x1 y1
- Connect points (x0,y0)
- -C xw0 yw0 xw1 yw1
- Connect points (xw0,yw0) and (xw1,yw1).
x0 y0 x1 y1
- Draw a dark (filled) box with opposite corners at (x0,y0) and
- -D xw0 yw0 xw1 yw1
- Draw a dark (filled) box with opposite corners
at (xw0,yw0) and (xw1,yw1).
- -l x y tbc label-string
- Print label-string at (x,y).
The tbc argument is a two-character text box coordinate that specifies
how the label is to be positioned relative to (x,y); the default (CC)
centers the string at (x,y).
- -L xw yw tbc label-string
- As for -l, but using
window coordinates (xw,yw).
- -w configuration subwindow
- Confine the plot to
a predefined window, specified by the arguments. configuration specifies
the number of subwindows (panels), using one of ‘m’ (1), ‘b’ (2), or ‘q’ (4),
and subwindow’ specifies which panel is to be plotted (0 or 1 for ‘m’; 0,
1, or 2 for ‘b’; or 0, 1, 2, 3, or 4 for ‘q’). In each case, subwindow 0 creates
the frame of the entire plot, and the other subwindows refer to regions
where data can be plotted. Use this option with ‘-o’ or ‘-s e’ to create multi-panel
plots in stages without starting a new page or erasing the window before
starting each new stage.
- -W xp0 yp0 xp1 yp1
- Define the region of the page
in which to plot. The arguments are page coordinates; the page coordinates
(0,0) and (1,1) correspond to the lower left and upper right corners of
- -f format-file
- Read options from the specified format-file.
- -fa format-file
- Record the current axis parameters as options in the specified format-file
(for use with a later plt command). The previous contents of format-file,
if any, will be overwritten.
- -F format-string
- Read options from the specified
- Suppress all output except data plots.
- -cz xfrom xincr
abscissas, beginning with xfrom (default: 0) and incrementing by xincr
(default: 1) at each step.
- Don’t exclude points outside axis limits.
x y tbc n file
- Print the next n (default: 1000) lines of the specified
file as a label, placing the reference point for the first line of the
label at data coordinates (x,y). The tbc argument is defined as for -l and
is applied to each line of the label. The file is opened when first used
by -hl or -vl, and remains open, so that successive -hl or -vl options referring
to the same file read and print successive lines. At most MAXLABELFILES
(defined in plt.h, currently 6) files of label strings can be open at once.
- -vl x y tbc n file
- As for -hl, but print the label in a vertical orientation
(rotated 90 degrees counterclockwise).
- -le linenumber plotnumber [ text ]
- Define the specified linenumber in the legend (see also -lp). Line numbers
in the legend begin with 0 (the top line); plot numbers also begin with
0 (these refer to the data plots, and are used here to determine the line
style for the entry’s sample plot segment). The text is printed to the right
of the sample plot segment. To create an entry with more than one line
of text, use additional -le options with different linenumbers as necessary,
omitting the plotnumber (use ‘-’) for all but the first. If the same data
are plotted more than once in a single figure to create an overlay (for
example, using symbols over line segments), an overlaid legend entry can
be created using additional -le options with the same linenumber and different
plotnumbers, omitting the text for all but the first.
- -lp xw0 yw0 [ boxscale
[ seglength [ opaque ] ] ]
- Define the window coordinates (xw0, yw0) of
the upper left corner of the plot legend text, and other attributes for
the plot legend (key). plt determines the size of the box it draws around
the legend, but the calculated width of the box is multiplied by boxscale.
The seglength option specifies the length of the sample plot segments,
as a fraction of the x-axis length (default: 0.05). If opaque is ‘yes’ (default),
the background of the legend is opaque white; otherwise, the background
is transparent (any previously drawn material remains visible through the
legend box). Unless a -lp option is provided, no legend is printed.
- -lx [
base [ subticks ] ]
- Draw a logarithmic x-axis; base is the base of the
logarithms (default: 10), and subticks is either ‘yes’ or ‘no’. If the axis
has a small number of major ticks, plt draws subticks by default; use the
subticks argument to change plt’s default behavior.
- -ly [ base [ subticks
- Draw a logarithmic y-axis.
- -tf file [ tbc ]
- Load the text string array
from the specified file. Each line of the file defines an element of the
string array; using plot styles c or t, these strings can be plotted in
the same manner as data points. The optional tbc specifies how the positions
of the strings are to be modified when they are printed, in the same way
as for -l; by default, the strings are centered on the coordinates specified
- -ts "string0 string1 ..." [ tbc ]
- Load the text string array from
the quoted argument (whitespace separates strings in the array) rather
than from a file; otherwise, this option is the same as -tf.
- -fs "string0
- Load the font string array from the quoted argument. Using appropriate
plot style (-p) options, the strings can be used to change the font, line
style (solid, dotted, dashed, etc.), or drawing color.
- -x string
- Set the x-axis
title to string (which must be quoted if this option is used on the command
line or if string begins with ‘(’ or ‘[’).
- -xa xmin xmax tick fmt tskip ycross
- Specify the x-axis range (as xmin to xmax); the interval between x-axis tick
marks; the format, fmt, in which to print the numbers (e.g., ‘‘%.3f’’, ‘‘%.2e’’; any
format that printf(3)
can use for printing floating-point numbers is acceptable);
the number of ticks per labelled tick, tskip; and ycross, the point on
the y-axis that the x-axis should cross, in y-units. Any of these parameters
may be supplied as ‘‘-’’, which causes plt to choose a reasonable value based
on the input data.
- -xe xmin-error xmax-error
- Use this option to specify the
amount by which the x-axis range is allowed to exceed the range of x-values
in the input data, when plt determines the x-axis range automatically.
- Make x-axis ticks be multiples of the specified tick-base.
- -xo x-axis-offset
- Move the x-axis down by x-axis-offset (expressed as a fraction of the y-axis
- Draw the x-axis at the top of the plot
- -xt x label [ tick-size
- Add an extra labelled tick at the specified x position, and label it
with the specified label (which may be any string). The optional tick-size
argument specifies the length of the added tick, as a fraction of the default
length for labelled ticks (e.g., a value of 1.5 makes the added tick 50 longer
than the standard size).
- -xts x [ tick-size ]
- Force a labelled tick to appear
on the x-axis at the specified x (the positions of the other labelled x-ticks
are adjusted accordingly). tick-size is defined as for -xt.
- -y string
- Set the
y-axis title to string (see -x).
- -ya ymin ymax tick fmt tskip xcross
- Set up
the y-axis (see -xa).
- -ye ymin-error ymax-error
- Set the allowable error in the
y-axis range (see -xe).
- -ym tick-base
- Make y-axis ticks be multiples of the specified
- -yo y-axis-offset
- Move the y-axis to the left by y-axis-offset (expressed
as a fraction of the x-axis length).
- Draw the y-axis at the right edge
of the plot.
- -yt y label [ tick-size ]
- Add an extra labelled tick at the specified
y position (see -xt).
- -yts y [ tick-size ]
- Force a labelled tick to appear
on the y-axis at the specified y (see -xts).
- -dev pterm option
- Process option
only if the value of PTERM is pterm. The -dev option may be useful in scripts
that produce screen or printed plots in different formats.
- -sf name specification
- Create a new font group with the specified name and set its specifications
(font, point size, color/grey level, line width, and line style). See the
chapter titled Colors, Line Styles, and Fonts in the plt Tutorial and Cookbook
- -ch height-factor width-factor
- Modify the height and width of
all characters printed in the plot by the specified factors.
- -size fscl width
height left-margin bottom-margin
- Specify the size and position of the plot
on the page. The width, height, left-margin, and bottom-margin are specified
in inches (1 inch = 25.4 mm). fscl is a factor applied to the point size
of all printed characters, independently of the scaling applied to the
rest of the plot. This option is effective for printed plots only.
By default, plt makes an X11 screen plot. To make a printed
plot, use the option -T lw, and pipe the output of plt to lwcat(1)
Unix, GNU/Linux, or MacOS/X, lwcat uses the standard lpr print spooler
to send plt’s output in PostScript format to the default printer. When running
with a Cygwin/bash window under MS-Windows, or when using lwcat’s -gv option
under Unix or Linux, the PostScript output is displayed on-screen using
GhostScript (GSView under MS-Windows, or gv otherwise; these programs can
save the output in a file or send it to a printer).
Create a text
file with the following contents:
0 0 0
1 1 1
2 4 8
3 9 27
4 16 64
and call the file powers. Plot the first column vs. the second by:
plt powers 0 1 -t "Squares of small integers" -x "Integer" -y "Square"
The same file can be used to generate a number of different plots, by choosing
different columns. To plot the third column vs. the first, try:
plt powers 2 0 -t "Marshmallows" -x "Mass (kg)" -y "Height (m)"
The plt Tutorial and Cookbook (a
book-length introduction to plt, included in the plt source package, and
also available at http://www.physionet.org/physiotools/plt/plt/doc/book.pdf)
contains many more examples.
plt is available as part of PhysioToolkit
(see SOURCES below) under the GPL.
plt was originally written by
Paul Albrecht, and is currently maintained by George B. Moody (firstname.lastname@example.org).
Table of Contents
Up: WFDB Applications Guide
Please e-mail your comments and suggestions to email@example.com, or post them to:PhysioNet
MIT Room E25-505A
77 Massachusetts Avenue
Cambridge, MA 02139 USA
Updated 26 January 2018