191

I'd like to add the Unicode skull and crossbones to my shell prompt (specifically the 'SKULL AND CROSSBONES' (U+2620)), but I can't figure out the magic incantation to make echo spit it, or any other, 4-digit Unicode character. Two-digit one's are easy. For example, echo -e "\x55", .

In addition to the answers below it should be noted that, obviously, your terminal needs to support Unicode for the output to be what you expect. gnome-terminal does a good job of this, but it isn't necessarily turned on by default.

On macOS's Terminal app Go to Preferences-> Encodings and choose Unicode (UTF-8).

  • 6
    Note that your "2 digit one's are easy (to echo)" comment is only valid for values up to "\x7F" in a UTF-8 locale (which the bash tag suggests yours is)... patterns represented by a single byte are never in the range\x80-\xFF. This range is illegal in singl-byte UTF-8 chars. eg a Unicode Codepoint value of U+0080 (ie. \x80) is actually 2 bytes in UTF-8.. \xC2\x80.. – Peter.O Dec 2 '11 at 5:51
  • 3
    E.g. printf "\\u007C\\u001C". – kenorb Apr 10 '16 at 4:11
  • NB: for me in gnome-terminal, echo -e '\ufc' does not produce a ü, even with character encoding set to UTF-8. However, eg urxvt does print eg printf "\\ub07C\\ub01C" as expected (not with a � or box). – isomorphismes Mar 11 '17 at 19:51
  • @Peter.O Why is the bash tag such a useful hint? Are different terminals common in CJK or … ? – isomorphismes Mar 11 '17 at 19:54
  • @Peter.O zsh, fish, scsh, elvish, etc... there are many different shells, each can handle unicode characters however they want (or not). "bash" makes it clear this question isn't about some weird shell that does things differently. – masukomi Jul 22 '17 at 17:47

17 Answers 17

204

In UTF-8 it's actually 6 digits (or 3 bytes).

$ printf '\xE2\x98\xA0'
☠

To check how it's encoded by the console, use hexdump:

$ printf ☠ | hexdump
0000000 98e2 00a0                              
0000003
  • 4
    Mine outputs "���" instead of ☠... Why is that? – trusktr Sep 29 '12 at 4:14
  • 7
    That's true. I discovered i was using LANG=C instead of LANG=en_US.UTF-8. Now my terminals in Gnome show the symbols properly... The real terminals (tty1-6) still don't though. – trusktr Oct 3 '12 at 0:09
  • 6
    For those people trying a hexdump: 0000000 f0 9f 8d ba translates to \xf0\x9f\x8d\xba. Example echo: echo -e "\xf0\x9f\x8d\xba". – Blaise May 28 '15 at 14:25
  • 7
    You can also use the $'...' syntax to get the encoded character in to a variable without using a $(...) capturing subshell, for use in contexts that don't themselves interpret the escape sequences: skull=$'\xE2\x98\xA0' – Andrew Janke Jul 5 '15 at 5:14
  • 5
    Another thing about hexdump: on my machine, the second command in the answer outputs 0000000 98e2 00a0. Of course the 0000000 is just an unimportant offset, but the bytes after it translate to \xe2\x98\xa0, because the machine uses the little endian byte order. – sigalor May 15 '16 at 18:07
78
% echo -e '\u2620'     # \u takes four hexadecimal digits
☠
% echo -e '\U0001f602' # \U takes eight hexadecimal digits
😂

This works in Zsh (I've checked version 4.3) and in Bash 4.2 or newer.

  • 11
    that just spits out \u2620 when I do it. – masukomi Mar 2 '09 at 16:37
  • 2
    Sorry, forgot to say that I use zsh. – Juliano Mar 2 '09 at 16:51
  • 1
    I can't get it to work in Bash yet. :( – trusktr Sep 29 '12 at 4:06
  • 24
    Support for \u was added in Bash 4.2. – Lri Dec 31 '12 at 12:52
  • 2
    @Flimm use uppercase U: echo -e '\U1f602' works, and you can also use it in variable this way: x=$'\U1f602'. Try it! echo $x – user2622016 Jun 8 '18 at 14:58
65

So long as your text-editors can cope with Unicode (presumably encoded in UTF-8) you can enter the Unicode code-point directly.

For instance, in the Vim text-editor you would enter insert mode and press Ctrl + V + U and then the code-point number as a 4-digit hexadecimal number (pad with zeros if necessary). So you would type Ctrl + V + U 2 6 2 0. See: What is the easiest way to insert Unicode characters into a document?

At a terminal running Bash you would type CTRL+SHIFT+U and type in the hexadecimal code-point of the character you want. During input your cursor should show an underlined u. The first non-digit you type ends input, and renders the character. So you could be able to print U+2620 in Bash using the following:

echo CTRL+SHIFT+U2620ENTERENTER

(The first enter ends Unicode input, and the second runs the echo command.)

Credit: Ask Ubuntu SE

  • 1
    A good source for the hexademical code points is unicodelookup.com/#0x2620/1 – RobM Aug 25 '12 at 12:10
  • 13
    +1 for the cool key-caps effect – Chris Johnson Feb 15 '13 at 20:18
  • 1
    The version of vim I'm using (7.2.411 on RHEL 6.3) doesn't respond as desired when there's a dot between the ctrl-v and the u, but works fine when that dot is omitted. – Chris Johnson Feb 15 '13 at 20:28
  • 5
    Beware: this works in a terminal running Bash only if you're running it under GTK+ environment, as Gnome. – n.r. Feb 25 '14 at 21:37
  • 1
    The ability to C-S-u 2 6 2 0 is a feature of your terminal emulator, X Input Method (XIM), or similar. AFAIK, you will be unable to send both SHIFT and CTRL to the terminal layer. The terminal only speaks in characters, rather than in keysyms and keycodes like your X server (also, its is 7-bit for all intents and purposes). In this world, CTRL masks the 4 most significant bits (& 0b00001111) which results in – nabin-info Jun 4 '17 at 2:51
31

Here's a fully internal Bash implementation, no forking, unlimited size of Unicode characters.

fast_chr() {
    local __octal
    local __char
    printf -v __octal '%03o' $1
    printf -v __char \\$__octal
    REPLY=$__char
}

function unichr {
    local c=$1    # Ordinal of char
    local l=0    # Byte ctr
    local o=63    # Ceiling
    local p=128    # Accum. bits
    local s=''    # Output string

    (( c < 0x80 )) && { fast_chr "$c"; echo -n "$REPLY"; return; }

    while (( c > o )); do
        fast_chr $(( t = 0x80 | c & 0x3f ))
        s="$REPLY$s"
        (( c >>= 6, l++, p += o+1, o>>=1 ))
    done

    fast_chr $(( t = p | c ))
    echo -n "$REPLY$s"
}

## test harness
for (( i=0x2500; i<0x2600; i++ )); do
    unichr $i
done

Output was:

─━│┃┄┅┆┇┈┉┊┋┌┍┎┏
┐┑┒┓└┕┖┗┘┙┚┛├┝┞┟
┠┡┢┣┤┥┦┧┨┩┪┫┬┭┮┯
┰┱┲┳┴┵┶┷┸┹┺┻┼┽┾┿
╀╁╂╃╄╅╆╇╈╉╊╋╌╍╎╏
═║╒╓╔╕╖╗╘╙╚╛╜╝╞╟
╠╡╢╣╤╥╦╧╨╩╪╫╬╭╮╯
╰╱╲╳╴╵╶╷╸╹╺╻╼╽╾╿
▀▁▂▃▄▅▆▇█▉▊▋▌▍▎▏
▐░▒▓▔▕▖▗▘▙▚▛▜▝▞▟
■□▢▣▤▥▦▧▨▩▪▫▬▭▮▯
▰▱▲△▴▵▶▷▸▹►▻▼▽▾▿
◀◁◂◃◄◅◆◇◈◉◊○◌◍◎●
◐◑◒◓◔◕◖◗◘◙◚◛◜◝◞◟
◠◡◢◣◤◥◦◧◨◩◪◫◬◭◮◯
◰◱◲◳◴◵◶◷◸◹◺◻◼◽◾◿
  • I'm very curious the reasoning behind the round-about method, and the specific use of the REPLY variable. I am assuming you inspected bash source or ran through or something to optimize, which I can see how your choices could be optimizing, albeit highly dependent on the interpreter). – nabin-info Jun 1 '17 at 17:05
13

Just put "☠" in your shell script. In the correct locale and on a Unicode-enabled console it'll print just fine:

$ echo ☠
☠
$

An ugly "workaround" would be to output the UTF-8 sequence, but that also depends on the encoding used:

$ echo -e '\xE2\x98\xA0'
☠
$
12

Quick one-liner to convert UTF-8 characters into their 3-byte format:

var="$(echo -n '☠' | od -An -tx1)"; printf '\\x%s' ${var^^}; echo
  • 5
    I wouldn't call the above example quick (with 11 commands and their params)... Also it only handles 3 byte UTF-8 chars` (UTF-8 chars can be 1, 2, or 3 bytes)... This is a bit shorter and works for 1-3++++ bytes: printf "\\\x%s" $(printf '☠'|xxd -p -c1 -u) .... xxd is shipped as part of the 'vim-common' package – Peter.O Dec 2 '11 at 17:01
  • PS: I just noticed that the above hexdump/awk example is swithching the sequence of bytes in a byte-pair. This does not apply to a UTF-8 dump. It would be relavent if it were a dump of UTF-16LE and wanted to output Unicode Codepoints, but it doesn't make sense here as the input is UTF-8 and the output is exactly as input (plus the \x before each hexdigit-pair) – Peter.O Dec 2 '11 at 17:35
  • 6
    UTF-8 characters can be 1 - 4 bytes sequences – cms Apr 12 '13 at 19:33
  • 1
    based on the comment of @Peter.O, I find the following, while bigger, pretty handy: hexFromGlyph(){ if [ "$1" == "-n" ]; then outputSeparator=' '; shift; else outputSeparator='\n'; fi for glyph in "$@"; do printf "\\\x%s" $(printf "$glyph"|xxd -p -c1 -u); echo -n -e "$outputSeparator"; done } # usage: $ hexFromGlyph ☠ ✿ \xE2\x98\xA0 \xE2\x9C\xBF $ hexFromGlyph -n ☠ ✿ \xE2\x98\xA0 \xE2\x9C\xBF – StephaneAG Oct 10 '15 at 0:04
  • 2
    Good god man. Consider: codepoints () { printf 'U+%04x\n' ${@/#/\'} ; } ; codepoints A R ☯ 🕉 z ... enjoy 👍 – nabin-info Jun 1 '17 at 17:40
8

I'm using this:

$ echo -e '\u2620'
☠

This is pretty easier than searching a hex representation... I'm using this in my shell scripts. That works on gnome-term and urxvt AFAIK.

  • 7
    Sadly, this doesn't work on OS X. :/ – masukomi Dec 2 '13 at 17:47
  • 2
    @masukomi if you know how to use brew you can install a more recent bash and use that. The above works fine on my mac terminal when using the upgraded bash. – mcheema Jan 11 '14 at 12:12
  • Yes, that's fine with newer versions of bash. Hower prompt strings, e.g $PS1 don't use echo escape formats – cms Oct 28 '14 at 18:03
7

You may need to encode the code point as octal in order for prompt expansion to correctly decode it.

U+2620 encoded as UTF-8 is E2 98 A0.

So in Bash,

export PS1="\342\230\240"

will make your shell prompt into skull and bones.

  • hi, what is the code that I should enter for "e0 b6 85"? how can I find it? – Udayantha Udy Warnasuriya Apr 12 '13 at 13:18
  • just convert the hexadecimal ( base 16 ) numbers e0 b6 85 into octal (base 8 ) - use a calculator is probably the easiest way to do this – cms Apr 12 '13 at 19:26
  • e0 b6 85 hex is 340 266 205 octal – cms Apr 12 '13 at 19:30
  • This worked, thanks a lot! And btw, you can findal octal version at these pages: graphemica.com/%E2%9B%B5 – Perlnika Sep 7 '13 at 13:46
4

Any of these three commands will print the character you want in a console, provided the console do accept UTF-8 characters (most current ones do):

echo -e "SKULL AND CROSSBONES (U+2620) \U02620"
echo $'SKULL AND CROSSBONES (U+2620) \U02620'
printf "%b" "SKULL AND CROSSBONES (U+2620) \U02620\n"

SKULL AND CROSSBONES (U+2620) ☠

After, you could copy and paste the actual glyph (image, character) to any (UTF-8 enabled) text editor.

If you need to see how such Unicode Code Point is encoded in UTF-8, use xxd (much better hex viewer than od):

echo $'(U+2620) \U02620' | xxd
0000000: 2855 2b32 3632 3029 20e2 98a0 0a         (U+2620) ....

That means that the UTF8 encoding is: e2 98 a0

Or, in HEX to avoid errors: 0xE2 0x98 0xA0. That is, the values between the space (HEX 20) and the Line-Feed (Hex 0A).

If you want a deep dive into converting numbers to chars: look here!

  • re:"Or, in HEX to avoid errors..." I hardly think that converting a unicode char to some binary encoding that you express in hex chars, helps avoid errors. Using the unicode notation in "bash" would better avoid errors i.e.: " \uHHHH---the Unicode (ISO/IEC 10646) character whose value is the ----hexadecimal value HHHH (one to four hex digits); \UHHHHHHHH ----the Unicode (ISO/IEC 10646) character whose value is the ----hexadecimal value HHHHHHHH (one to eight hex digits) – Astara Feb 4 '16 at 3:56
4

In bash to print a Unicode character to output use \x,\u or \U (first for 2 digit hex, second for 4 digit hex, third for any length)

echo -e '\U1f602'

I you want to assign it to a variable use $'...' syntax

x=$'\U1f602'
echo $x
3

The printf builtin (just as the coreutils' printf) knows the \u escape sequence which accepts 4-digit Unicode characters:

   \uHHHH Unicode (ISO/IEC 10646) character with hex value HHHH (4 digits)

Test with Bash 4.2.37(1):

$ printf '\u2620\n'
☠
  • 2
    Sadly, this doesn't work with macOS's printf. – Flimm Oct 17 '16 at 16:21
  • printf is also a shell built-in. You're probably using the default macOS bash (v3). Try with \printf to use the standalone executable, or try with upgraded bash – mcint Aug 29 '18 at 20:21
3

If you don't mind a Perl one-liner:

$ perl -CS -E 'say "\x{2620}"'
☠

-CS enables UTF-8 decoding on input and UTF-8 encoding on output. -E evaluates the next argument as Perl, with modern features like say enabled. If you don't want a newline at the end, use print instead of say.

3

Sorry for reviving this old question. But when using bash there is a very easy approach to create Unicode codepoints from plain ASCII input, which even does not fork at all:

unicode() { local -n a="$1"; local c; printf -vc '\\U%08x' "$2"; printf -va "$c"; }
unicodes() { local a c; for a; do printf -vc '\\U%08x' "$a"; printf "$c"; done; };

Use it as follows to define certain codepoints

unicode crossbones 0x2620
echo "$crossbones"

or to dump the first 65536 unicode codepoints to stdout (takes less than 2s on my machine. The additional space is to prevent certain characters to flow into each other due to shell's monospace font):

for a in {0..65535}; do unicodes "$a"; printf ' '; done

or to tell a little very typical parent's story (this needs Unicode 2010):

unicodes 0x1F6BC 32 43 32 0x1F62D 32 32 43 32 0x1F37C 32 61 32 0x263A 32 32 43 32 0x1F4A9 10

Explanation:

  • printf '\UXXXXXXXX' prints out any Unicode character
  • printf '\\U%08x' number prints \UXXXXXXXX with the number converted to Hex, this then is fed to another printf to actually print out the Unicode character
  • printf recognizes octal (0oct), hex (0xHEX) and decimal (0 or numbers starting with 1 to 9) as numbers, so you can choose whichever representation fits best
  • printf -v var .. gathers the output of printf into a variable, without fork (which tremendously speeds up things)
  • local variable is there to not pollute the global namespace
  • local -n var=other aliases var to other, such that assignment to var alters other. One interesting part here is, that var is part of the local namespace, while other is part of the global namespace.
    • Please note that there is no such thing as local or global namespace in bash. Variables are kept in the environment, and such are always global. Local just puts away the current value and restores it when the function is left again. Other functions called from within the function with local will still see the "local" value. This is a fundamentally different concept than all the normal scoping rules found in other languages (and what bash does is very powerful but can lead to errors if you are a programmer who is not aware of that).
  • well -- doesn't work at all for me. any attempt to use any of your functions, emits: line 6: local: -n: invalid option local: usage: local name[=value] ... I'm using latest (10.14.2) MacOS and bash (GNU bash, version 3.2.57(1)-release (x86_64-apple-darwin18)) – Motti Shneor Mar 26 at 8:42
2

Based on Stack Overflow questions Unix cut, remove first token and https://stackoverflow.com/a/15903654/781312:

(octal=$(echo -n ☠ | od -t o1 | head -1 | cut -d' ' -f2- | sed -e 's#\([0-9]\+\) *#\\0\1#g')
echo Octal representation is following $octal
echo -e "$octal")

Output is the following.

Octal representation is following \0342\0230\0240
☠
2

Easy with a Python2/3 one-liner:

$ python -c 'print u"\u2620"'    # python2
$ python3 -c 'print(u"\u2620")'  # python3

Results in:

0

If hex value of unicode character is known

H="2620"
printf "%b" "\u$H"

If the decimal value of a unicode character is known

declare -i U=2*4096+6*256+2*16
printf -vH "%x" $U              # convert to hex
printf "%b" "\u$H"
0

Here is a list of all unicode emoji's available:

https://en.wikipedia.org/wiki/Emoji#Unicode_blocks

Example:

echo -e "\U1F304"
🌄

For get the ASCII value of this character use hexdump

echo -e "🌄" | hexdump -C

00000000  f0 9f 8c 84 0a                                    |.....|
00000005

And then use the values informed in hex format

echo -e "\xF0\x9F\x8C\x84\x0A"
🌄

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.