This is the command cw that can be run in the OnWorks free hosting provider using one of our multiple free online workstations such as Ubuntu Online, Fedora Online, Windows online emulator or MAC OS online emulator
PROGRAM:
NAME
cw - sound characters as Morse code on the soundcard or console speaker
SYNOPSIS
cw [-s --system=SYSTEM] [-d --device=DEVICE] [-w --wpm=WPM] [-t --tone=HZ]
[-v --volume=PERCENT] [-g --gap=GAP] [-k --weighting=WEIGHT] [-e --noecho]
[-m --nomessages] [-c --nocommands] [-o --nocombinations] [-p --nocomments]
[-f --infile=FILE] [-h --help] [-V --version]
cw installed on GNU/Linux systems understands both short form and long form command line
options. cw installed on other operating systems may understand only the short form
options.
There are no mandatory options.
Options may be predefined in the environment variable CW_OPTIONS. If defined, these
options are used first; command line options take precedence.
DESCRIPTION
cw reads characters from an input file, or from standard input, and sounds each valid
character as Morse code on either the system sound card, or the system console speaker.
After it sounds a character, cw echoes it to standard output. The input stream can
contain embedded command strings. These change the parameters used when sounding the
Morse code. cw reports any errors in embedded commands on standard error.
Use 'Ctrl+D' key combination to exit cw.
COMMAND LINE OPTIONS
cw understands the following command line options. The long form options may not be
available in non-LINUX versions.
-s, --system=SYSTEM
Specifies the way that cw generates tones. Valid values are: null for no tones,
just timings, console for tones through the console speaker, alsa for tones
generated through the system sound card using ALSA sound system, oss for tones
generated through system sound card using OSS sound system, pulseaudio for tones
generated through system sound card using PulseAudio sound system, soundcard for
tones generated through the system sound card, but without explicit selection of
sound system. These values can be shortened to 'n', 'c', 'a', 'o', 'p', or 's',
respectively. The default value is 'pulseaudio' (on systems with PulseAudio
installed), followed by 'oss'.
-d, --device=DEVICE
Specifies the device file to open for generating a sound. cw will use default
device if none is specified. The default devices are: /dev/console for sound
produced through console, default for ALSA sound system, /dev/audio for OSS sound
system, a default device for PulseAudio sound system. See also NOTES ON USING A
SOUND CARD below.
-w, --wpm=WPM
Sets the initial sending speed in words per minute. The value must be between 4
and 60. The default value is 12 WPM.
-t, --tone=HZ
Sets the initial sounder pitch in Hz. This value must be between 0 and 4,000. A
value of 0 selects silent operation, and can be used for timing checks or other
testing. The default value is 800Hz,
-v, --volume=PERCENT
Sets the initial sending volume, as a percentage of full scale volume. The value
must be between 0 and 100. The default value is 70 %. Sound volumes work fully
for sound card tones, but cw cannot control the volume of tones from the console
speaker. In this case, a volume of zero is silent, and all other volume values are
simply sounded.
-g, --gap=GAP
Sets the initial extra gap, in dot lengths, between characters (the 'Farnsworth'
delay). It must be between 0 and 60. The default is 0.
-k, --weighting=WEIGHT
Sets the initial weighting, as a percentage of dot lengths. It must be between 20
and 80. The default is 50.
-e, --noecho
Stops cw echoing characters on standard output after they are sounded. The default
is to have echoing on.
-m, --nomessages
Stops cw printing error messages on standard error. The default is to print
messages.
-c, --nocommands
Stops cw from interpreting commands embedded in the input stream. The default is
to interpret embedded commands.
-o, --nocombinations
Stops cw from treating character strings bracketed by [...] as a single combination
character. The default is to honor combinations.
-p, --nocomments
Stops cw from treating character strings bracketed by {...} as 'comments'.
Characters inside these braces will be echoed to standard output, but not sounded.
When comments are being honored, any embedded commands inside the braces will be
ignored. The default is to honor comments.
-f, --infile=FILE
Specifies a text file that cw can read to configure its practice text.
-h, --help
Prints short help message.
-V, --version
Prints information about program's version, authors and license.
SOUNDING CHARACTERS
cw reads characters, one at a time, from its standard input or from its input file.
Lowercase letters are converted internally to uppercase. The following list shows the
valid IS0 8859-1 (Latin-1) characters that can be sounded by cw:
ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"$()+-./:;=?_@ and space
In addition, the program also understands the following ISO 8859-1 and ISO 8859-2 accented
characters:
ÜÄÇÖÉÈÀÑŞ (S with cedilla), Ž (Z with caron/hacek),
and accepts the following as single character forms of common procedural signals:
<>!&^~
See cw(7,LOCAL) for more information on the above characters and Morse code.
If cw receives a character not in this set, it prints an error message '?c', where c is
the error character. The only exceptions to this may be the cw command escape character
'%', the combination start and stop characters '[' and ']', and the comment start and stop
characters '{' and '}'. See EMBEDDED COMMANDS and MORSE CODE COMBINATIONS below.
EMBEDDED COMMANDS
cw recognizes special sequences in the input stream as embedded commands. These commands
alter the parameters of the cw while it is running, or query current values. All commands
are prefixed by the command escape character '%', and those which set a value end with a
semicolon.
The format of an embedded command to change a parameter value is
%Cvalue;
where C is a command letter indicating what action cw is to take, and value is the
argument or value for the command.
Valid command letters are
T Sets the tone pitch used to sound a character.
W Sets the sending speed.
G Sets the 'Farnsworth' gap between characters.
K Sets the weighting.
E Disables or re-enables echoing of sent characters on standard output.
M Disables or re-enables error messages on standard error.
S Disables or re-enables speaker tone generation.
C Disables processing of embedded commands. Note that once disabled, this command
cannot re-enable them.
O Disables or re-enables recognition of [...] character combinations.
P Disables or re-enables recognition of {...} comments. When comments are being
recognized, any character after an opening '{' and before any closing '}' will be
echoed to standard output, but will not be sounded, or have any other effect.
For example, the embedded command sequence
%W25;%T1200;
will set cw to a speed of 25 WPM, and a tone pitch of 1200Hz.
The 'T', 'W', 'G', and 'A' commands take values along with the command. The limits on
values given for embedded commands are the same as the limits available for command line
options, detailed above.
The 'E', 'M', 'S', 'C' and 'O' commands are flags, and treat a value of zero as clear, and
any other value as set. So, for example, the sequence
%M0;%C0;
will turn off error messages, and then turn off the processing of embedded commands.
If a parameter is set successfully, cw reports the new setting on standard error (except
if no error messages is set). If an error is detected in an embedded command, cw reports
an error. For the formats of error messages see the MESSAGE FORMATS section below.
The current values of parameters within cw may be queried, as well as set. The command
format
%?C
queries the value of the parameter normally set with command C. cw reports the current
value on standard error, using the same format as when new values are set.
The current values of parameters within cw may also be requested as output in Morse code.
The command format
%>C
will generate Morse output reporting the value of the parameter normally set with command
C.
If embedded commands are disabled, '%' characters are treated as any other (in this case,
invalid) input character.
Once processing of embedded commands has been switched off, any command to switch this
feature back on will not be recognized. That is, after '%C0;', an '%C1;' will not be
recognized.
There is one additional command, and that is '%Q'. This command closes all open files and
terminates cw. Any characters after this command in the input stream will be lost.
The file cw.h provides a full set of definitions for the commands, special characters, and
status codes of cw.
MESSAGE FORMATS
Where a parameter value is set correctly with an embedded command, the message format
=Cvalue
is returned. C is the command used, and value is the new value.
If an invalid value is supplied for a parameter in an embedded command, a message
?Cvalue
is returned.
Where an invalid command is encountered, the message format
?%C
is used. For an invalid query, the message is
??C
and for an invalid request for a parameter in Morse code the message is
?>C
A character in the input stream that cannot be sounded produces a message
?C
These messages are not intended to be user-friendly, but are designed to be easily and
quickly interpreted by another program. Similarly, the format of embedded commands is
more computer-friendly than user-friendly.
If error messages are disabled, no messages of any type are printed on standard error.
MORSE CODE COMBINATIONS
The standard set of characters offered by cw may not be sufficient for some purposes. For
example, some international characters do not have equivalent ISO 8859-1 and ISO 8859-2
that cw can sound directly.
To help in sounding such characters, cw offers the ability to form combination characters
by placing individual character components between [...] brackets. Cw sounds characters
inside a combination without the usual gap between them. In this way, any missing
character in the set can be built.
For example
[VA]
is one way to form the VA procedural signal, though
[SK]
works just as well. The eight-dot error signal can be sounded with
[HSE]
or the C-cedilla in international Morse code with
[CE]
There can be as many valid letters, numbers, or figures inside the [...] brackets as
required. For example, an alternative way of sending the error signal could be
[EEEEEEEE]
Finally, three alternative ways of sending 73 might be
[TTEEE][EEETT]
[TDE][EUT]
[GEE][VT]
Embedded commands may be placed inside [...] combinations if required. Combinations do
not nest.
This feature can be disabled by using the -O or --nocombinations command line flags, or
with the 'O' embedded command. If combinations are disabled, '[' and ']' characters are
treated as any other (invalid) input character.
NOTES ON USING A SOUND CARD
By default, cw tries to open default PulseAudio. If PulseAudio server is not accessible,
cw tries to open OSS device "/dev/audio" to access the system sound card. This is
generally the correct device to use, but for systems with special requirements, or those
with multiple sound cards, the option -d or --device, combined with -s or --system can be
used to specify the device and audio system for sound card access. If the sound card
device cannot be set up, cw prints the error message
cannot set up soundcard sound
and exits.
Sound card devices, when opened through OSS sound system, are usually single-access
devices, so that when one process has opened the device, other processes are prevented
from using it. In such cases cw will of course conflict with any other programs that
expect exclusive use of the system sound card (for example, MP3 players). If cw finds
that the sound card is already busy, it prints the error message
open /dev/audio: Device or resource busy
and exits.
The sound card device is not used if cw is only sending tones on the console speaker.
AUDIO OUTPUT - DEFAULTS AND SELECTION
cw first tries to access sound card using PulseAudio sound system, using default device
name, unless user specifies other audio device with option -d or --device.
cw then tries to access sound card using OSS audio system and default OSS audio device
name ('/dev/audio'), unless user specifies other audio device with option -d or --device.
If opening soundcard through OSS fails, cw tries to access the sound card using ALSA audio
system, and default ALSA audio device name ('default'), unless user specifies other audio
device with option -d or --device.
If opening soundcard through ALSA also fails, cw tries to access system console buzzer
using default buzzer device '/dev/console', unless user specifies other audio device with
option -d or --device.
It is very common that in order to access the console buzzer device user has to have root
privileges. For that reason trying to open console buzzer almost always fails. This is
not a program's bug, this is a result of operating system's restrictions. Making cw an
suid binary bypasses this restriction. The program does not fork() or exec(), so making
it suid should be relatively safe. Note however that this practice is discouraged for
security reasons.
As stated, user can tell cw which device to use, using -d or --device option. Which
device files are suitable will depend on which operating system is running, which system
user ID runs cw, and which user groups user belongs to.
NOTES
Despite the fact that this manual page constantly and consistently refers to Morse code
elements as dots and dashes, DO NOT think in these terms when trying to learn Morse code.
Always think of them as 'dit's and 'dah's.
The Morse code table in the cw(7,LOCAL) man page is provided for reference only. If
learning for the first time, you will be much better off learning by hearing the
characters sent, rather than by looking at the table.
Other programs running in the system may interfere with the timing of the Morse code that
cw is sending. If this is a problem, either try to run on a quiescent system, or try
running cw with nice(1L,C,1). UNIX is not really designed for user-level programs to do
the sort of fine timing required to send Morse code. cw is therefore more sensitive than
most programs to other system activity.
cw uses system itimers for its internal timing. On most UNIX flavors, itimers are not
guaranteed to signal a program exactly at the specified time, and they generally offer a
resolution only as good as the normal system 'clock tick' resolution. An itimer SIGALRM
usually falls on a system clock tick, making it accurate to no better than 10mS on a
typical 100Hz kernel.
The effect of this is that an itimer period is generally either exactly as specified, or,
more likely, slightly longer. At higher WPM settings, the cumulative effect of this
affects timing accuracy, because at higher speeds, there are fewer 10mS clock ticks in a
dot period. For example, at 12 WPM, the dot length is 100mS, enough to contain five
kernel clock ticks. But at 60 WPM, the dot length is 20mS, or just two kernel clock
ticks. So at higher speeds, the effect of itimer resolutions becomes more pronounced.
To test itimer timing, first try
X="PARIS PARIS PARIS PARIS "
echo "$X" | time cw -w 4
and note the elapsed time, which should be very close to one minute. Next, try
echo "$X$X$X$X$X$X$X$X$X$X$X$X" | time cw -w 48
The elapsed time should be the same. If it has increased, this is the effect of system
itimers delaying for slightly longer than the specified period (higher WPM rates make more
itimer calls). That's itimers for you, not perfect for this job, but the best there is
without writing some, and perhaps a lot of, kernel code.
Except for zero, which is silent, tone values lower than 10Hz may not sound at the
expected pitch.
EXAMPLES
Send a string of characters at 25 WPM, 700Hz, with no extra gaps:
echo "UNIX CW SOUNDER" | cw -w 25 -t 700
Send a string at varying speeds and tones on the console speaker, specifying a system
console device:
echo "%W12;%T400;400HZ 12WPM %W25;%T1500;1500HZ 25WPM" | cw -m -sc -d /dev/tty2
Send C-cedilla, VA, and a report of the WPM setting, with extra spacing at half volume:
echo "[CE] [VA] %>W" | cw -g 10 -v 50
ERRORS AND OMISSIONS
Cut numbers are not provided, though they can be emulated, up to a point, by pre-
filtering.
An output to an optional external device, for example, keying a line on the parallel port,
or a serial line, might also be useful.
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