On most terminals it is possible to colorize output using the \033 ANSI escape sequence.

I'm looking for a list of all supported colors and options (like bright and blinking).

As there are probably differences between the terminals supporting them, I'm mainly interested in sequences supported by xterm-compatible terminals.


6 Answers 6


The ANSI escape sequences you're looking for are the Select Graphic Rendition subset. All of these have the form


where XXX is a series of semicolon-separated parameters.

To say, make text red, bold, and underlined (we'll discuss many other options below) in C you might write:


In C++ you'd use


In Python3 you'd use


and in Bash you'd use

echo -e "\033[31;1;4mHello\033[0m"

where the first part makes the text red (31), bold (1), underlined (4) and the last part clears all this (0).

As described in the table below, there are a large number of text properties you can set, such as boldness, font, underlining, &c.

Font Effects

Code Effect Note
0 Reset / Normal all attributes off
1 Bold or increased intensity
2 Faint (decreased intensity) Not widely supported.
3 Italic Not widely supported. Sometimes treated as inverse.
4 Underline
5 Slow Blink less than 150 per minute
6 Rapid Blink MS-DOS ANSI.SYS; 150+ per minute; not widely supported
7 [[reverse video]] swap foreground and background colors
8 Conceal Not widely supported.
9 Crossed-out Characters legible, but marked for deletion. Not widely supported.
10 Primary(default) font
11–19 Alternate font Select alternate font n-10
20 Fraktur hardly ever supported
21 Bold off or Double Underline Bold off not widely supported; double underline hardly ever supported.
22 Normal color or intensity Neither bold nor faint
23 Not italic, not Fraktur
24 Underline off Not singly or doubly underlined
25 Blink off
27 Inverse off
28 Reveal conceal off
29 Not crossed out
30–37 Set foreground color See color table below
38 Set foreground color Next arguments are 5;<n> or 2;<r>;<g>;<b>, see below
39 Default foreground color implementation defined (according to standard)
40–47 Set background color See color table below
48 Set background color Next arguments are 5;<n> or 2;<r>;<g>;<b>, see below
49 Default background color implementation defined (according to standard)
51 Framed
52 Encircled
53 Overlined
54 Not framed or encircled
55 Not overlined
60 ideogram underline hardly ever supported
61 ideogram double underline hardly ever supported
62 ideogram overline hardly ever supported
63 ideogram double overline hardly ever supported
64 ideogram stress marking hardly ever supported
65 ideogram attributes off reset the effects of all of 60-64
90–97 Set bright foreground color aixterm (not in standard)
100–107 Set bright background color aixterm (not in standard)

2-bit Colours

You've got this already!

4-bit Colours

The standards implementing terminal colours began with limited (4-bit) options. The table below lists the RGB values of the background and foreground colours used for these by a variety of terminal emulators:

Table of ANSI colours implemented by various terminal emulators

Using the above, you can make red text on a green background (but why?) using:


11 Colours (An Interlude)

In their book "Basic Color Terms: Their Universality and Evolution", Brent Berlin and Paul Kay used data collected from twenty different languages from a range of language families to identify eleven possible basic color categories: white, black, red, green, yellow, blue, brown, purple, pink, orange, and gray.

Berlin and Kay found that, in languages with fewer than the maximum eleven color categories, the colors followed a specific evolutionary pattern. This pattern is as follows:

  1. All languages contain terms for black (cool colours) and white (bright colours).
  2. If a language contains three terms, then it contains a term for red.
  3. If a language contains four terms, then it contains a term for either green or yellow (but not both).
  4. If a language contains five terms, then it contains terms for both green and yellow.
  5. If a language contains six terms, then it contains a term for blue.
  6. If a language contains seven terms, then it contains a term for brown.
  7. If a language contains eight or more terms, then it contains terms for purple, pink, orange or gray.

This may be why story Beowulf only contains the colours black, white, and red. It may also be why the Bible does not contain the colour blue. Homer's Odyssey contains black almost 200 times and white about 100 times. Red appears 15 times, while yellow and green appear only 10 times. (More information here)

Differences between languages are also interesting: note the profusion of distinct colour words used by English vs. Chinese. However, digging deeper into these languages shows that each uses colour in distinct ways. (More information)

Chinese vs English colour names. Image adapted from "muyueh.com"

Generally speaking, the naming, use, and grouping of colours in human languages is fascinating. Now, back to the show.

8-bit (256) colours

Technology advanced, and tables of 256 pre-selected colours became available, as shown below.

256-bit colour mode for ANSI escape sequences

Using these above, you can make pink text like so:

\033[38;5;206m     #That is, \033[38;5;<FG COLOR>m

And make an early-morning blue background using

\033[48;5;57m      #That is, \033[48;5;<BG COLOR>m

And, of course, you can combine these:


The 8-bit colours are arranged like so:

0x00-0x07:  standard colors (same as the 4-bit colours)
0x08-0x0F:  high intensity colors
0x10-0xE7:  6 × 6 × 6 cube (216 colors): 16 + 36 × r + 6 × g + b (0 ≤ r, g, b ≤ 5)
0xE8-0xFF:  grayscale from black to white in 24 steps


Now we are living in the future, and the full RGB spectrum is available using:

\033[38;2;<r>;<g>;<b>m     #Select RGB foreground color
\033[48;2;<r>;<g>;<b>m     #Select RGB background color

So you can put pinkish text on a brownish background using


Support for "true color" terminals is listed here.

Much of the above is drawn from the Wikipedia page "ANSI escape code".

A Handy Script to Remind Yourself

Since I'm often in the position of trying to remember what colours are what, I have a handy script called: ~/bin/ansi_colours:


print "\\033[XXm"

for i in range(30,37+1):
    print "\033[%dm%d\t\t\033[%dm%d" % (i,i,i+60,i+60);

print "\033[39m\\033[49m - Reset colour"
print "\\033[2K - Clear Line"
print "\\033[<L>;<C>H OR \\033[<L>;<C>f puts the cursor at line L and column C."
print "\\033[<N>A Move the cursor up N lines"
print "\\033[<N>B Move the cursor down N lines"
print "\\033[<N>C Move the cursor forward N columns"
print "\\033[<N>D Move the cursor backward N columns"
print "\\033[2J Clear the screen, move to (0,0)"
print "\\033[K Erase to end of line"
print "\\033[s Save cursor position"
print "\\033[u Restore cursor position"
print " "
print "\\033[4m  Underline on"
print "\\033[24m Underline off"
print "\\033[1m  Bold on"
print "\\033[21m Bold off"

This prints

Simple ANSI colours

  • 5
    @giusti: Both echo -e "\033[38;05;34;1mHi" and echo -e "\033[38;05;34m\033[1mHi" worked for me, though anti-aliasing font effects did cause the appearance of the colour to change slightly under bolding in the terminal I was testing this on.
    – Richard
    Apr 12, 2018 at 16:36
  • 5
    The SGR (\033[) codes beginning with 38 and 48 ought to be separated with the otherwise reserved : as a sub-separator although this is not entirely clear from the primary sources at: ecma-international.org/publications/files/ECMA-ST/Ecma-048.pdf and itu.int/rec/… . Also some interpretations forget the color space Id in the 2 (16M-color RGB)/3 (16M-color CMY) /4 (??? CMYK) forms - e.g. it should be \033[38:2::255:255:255m for a White 16M foreground and not \033[38:2:255:255:255m !
    – SlySven
    Dec 19, 2018 at 23:37
  • 3
    The reason I go on about this is that a project Mudlet I code for has to handle both forms and I recently got up to my elbows in this to get it to work better...
    – SlySven
    May 6, 2019 at 16:42
  • 3
    Off topic (and 4 years later), but your interlude reminded me of this response ( pfoley.public.iastate.edu/Decleapyear.htm ) to a "bug" in VMS some time back. I hope you enjoy the read. May 16, 2019 at 18:12
  • 14
    I just wanted to find a list of ANSI colours and spent way too much time with reading articles on "basic colour terms". Thanks for the great distraction! :)
    – mzuther
    Jan 3, 2020 at 18:57

How about:

ECMA-48 - Control Functions for Coded Character Sets, 5th edition (June 1991) - A standard defining the color control codes, that is apparently supported also by xterm.

SGR 38 and 48 were originally reserved by ECMA-48, but were fleshed out a few years later in a joint ITU, IEC, and ISO standard, which comes in several parts and which (amongst a whole lot of other things) documents the SGR 38/48 control sequences for direct colour and indexed colour:

There's a column for xterm in this table on the Wikipedia page for ANSI escape codes


There are some more interesting ones along with related info.

  • Um, I made an edit to repair a dead-link but I forgot I wasn't signed in at the time and I messed up the formatting slightly (I was trying to leave the old link but have it crossed-out) - unfortunately I cannot get at the edit to revise it, even though I am now signed in... 8-P
    – SlySven
    Jul 15, 2020 at 3:38
  • 2
    Thanks for the edit, I fixed it. Sadly, links die and link-based answers like this one are bound to rot. Would not create answers like this anymore -- but keeping this one as it still mostly works as expected. :-)
    – Palec
    Jul 20, 2020 at 12:06

It's related absolutely to your terminal. VTE doesn't support blink, If you use gnome-terminal, tilda, guake, terminator, xfce4-terminal and so on according to VTE, you won't have blink.
If you use or want to use blink on VTE, you have to use xterm.
You can use infocmp command with terminal name:

#infocmp vt100
#infocmp xterm
#infocmp vte

For example :

# infocmp vte
#   Reconstructed via infocmp from file: /usr/share/terminfo/v/vte
vte|VTE aka GNOME Terminal,
    am, bce, mir, msgr, xenl,
    colors#8, cols#80, it#8, lines#24, ncv#16, pairs#64,
    bel=^G, bold=\E[1m, civis=\E[?25l, clear=\E[H\E[2J,
    cnorm=\E[?25h, cr=^M, csr=\E[%i%p1%d;%p2%dr,
    cub=\E[%p1%dD, cub1=^H, cud=\E[%p1%dB, cud1=^J,
    cuf=\E[%p1%dC, cuf1=\E[C, cup=\E[%i%p1%d;%p2%dH,
    cuu=\E[%p1%dA, cuu1=\E[A, dch=\E[%p1%dP, dch1=\E[P,
    dim=\E[2m, dl=\E[%p1%dM, dl1=\E[M, ech=\E[%p1%dX, ed=\E[J,
    el=\E[K, enacs=\E)0, home=\E[H, hpa=\E[%i%p1%dG, ht=^I,
    hts=\EH, il=\E[%p1%dL, il1=\E[L, ind=^J, invis=\E[8m,
    kDC=\E[3;2~, kEND=\E[1;2F, kHOM=\E[1;2H, kIC=\E[2;2~,
    kLFT=\E[1;2D, kNXT=\E[6;2~, kPRV=\E[5;2~, kRIT=\E[1;2C,
    kb2=\E[E, kbs=\177, kcbt=\E[Z, kcub1=\EOD, kcud1=\EOB,
    kcuf1=\EOC, kcuu1=\EOA, kdch1=\E[3~, kend=\EOF, kf1=\EOP,
    kf10=\E[21~, kf11=\E[23~, kf12=\E[24~, kf13=\E[1;2P,
    kf14=\E[1;2Q, kf15=\E[1;2R, kf16=\E[1;2S, kf17=\E[15;2~,
    kf18=\E[17;2~, kf19=\E[18;2~, kf2=\EOQ, kf20=\E[19;2~,
    kf21=\E[20;2~, kf22=\E[21;2~, kf23=\E[23;2~,
    kf24=\E[24;2~, kf25=\E[1;5P, kf26=\E[1;5Q, kf27=\E[1;5R,
    kf28=\E[1;5S, kf29=\E[15;5~, kf3=\EOR, kf30=\E[17;5~,
    kf31=\E[18;5~, kf32=\E[19;5~, kf33=\E[20;5~,
    kf34=\E[21;5~, kf35=\E[23;5~, kf36=\E[24;5~,
    kf37=\E[1;6P, kf38=\E[1;6Q, kf39=\E[1;6R, kf4=\EOS,
    kf40=\E[1;6S, kf41=\E[15;6~, kf42=\E[17;6~,
    kf43=\E[18;6~, kf44=\E[19;6~, kf45=\E[20;6~,
    kf46=\E[21;6~, kf47=\E[23;6~, kf48=\E[24;6~,
    kf49=\E[1;3P, kf5=\E[15~, kf50=\E[1;3Q, kf51=\E[1;3R,
    kf52=\E[1;3S, kf53=\E[15;3~, kf54=\E[17;3~,
    kf55=\E[18;3~, kf56=\E[19;3~, kf57=\E[20;3~,
    kf58=\E[21;3~, kf59=\E[23;3~, kf6=\E[17~, kf60=\E[24;3~,
    kf61=\E[1;4P, kf62=\E[1;4Q, kf63=\E[1;4R, kf7=\E[18~,
    kf8=\E[19~, kf9=\E[20~, kfnd=\E[1~, khome=\EOH,
    kich1=\E[2~, kind=\E[1;2B, kmous=\E[M, knp=\E[6~,
    kpp=\E[5~, kri=\E[1;2A, kslt=\E[4~, meml=\El, memu=\Em,
    op=\E[39;49m, rc=\E8, rev=\E[7m, ri=\EM, ritm=\E[23m,
    rmacs=^O, rmam=\E[?7l, rmcup=\E[2J\E[?47l\E8, rmir=\E[4l,
    rmkx=\E[?1l\E>, rmso=\E[m, rmul=\E[m, rs1=\Ec,
    sc=\E7, setab=\E[4%p1%dm, setaf=\E[3%p1%dm,
    sgr0=\E[0m\017, sitm=\E[3m, smacs=^N, smam=\E[?7h,
    smcup=\E7\E[?47h, smir=\E[4h, smkx=\E[?1h\E=, smso=\E[7m,
    smul=\E[4m, tbc=\E[3g, u6=\E[%i%d;%dR, u7=\E[6n,
    u8=\E[?%[;0123456789]c, u9=\E[c, vpa=\E[%i%p1%dd,
  • VTE 0.52 / gnome-terminal 3.28 adds support for blinking text (and so it will work in other VTE-based emulators too).
    – egmont
    Mar 11, 2018 at 21:33

For these who don't get proper results other than mentioned languages, if you're using C# to print a text into console(terminal) window you should replace "\033" with "\x1b". In Visual Basic it would be Chrw(27).

  • In Java: (char) 27 or "\u001b" Oct 13, 2022 at 21:31
  • 1
    \033 or just \33 works fine in Java, the same way as in many other languages.
    – Holger
    Nov 4, 2022 at 16:07

Here is some code that shows all escape sequences that have to do with color. You might need to get the actual escape character in order for the code to work.

@echo off
echo [101;93m STYLES [0m
echo ^<ESC^>[0m [0mReset[0m
echo ^<ESC^>[1m [1mBold[0m
echo ^<ESC^>[4m [4mUnderline[0m
echo ^<ESC^>[7m [7mInverse[0m
echo ^<ESC^>[30m [30mBlack[0m (black)
echo ^<ESC^>[31m [31mRed[0m
echo ^<ESC^>[32m [32mGreen[0m
echo ^<ESC^>[33m [33mYellow[0m
echo ^<ESC^>[34m [34mBlue[0m
echo ^<ESC^>[35m [35mMagenta[0m
echo ^<ESC^>[36m [36mCyan[0m
echo ^<ESC^>[37m [37mWhite[0m
echo ^<ESC^>[40m [40mBlack[0m
echo ^<ESC^>[41m [41mRed[0m
echo ^<ESC^>[42m [42mGreen[0m
echo ^<ESC^>[43m [43mYellow[0m
echo ^<ESC^>[44m [44mBlue[0m
echo ^<ESC^>[45m [45mMagenta[0m
echo ^<ESC^>[46m [46mCyan[0m
echo ^<ESC^>[47m [47mWhite[0m (white)
echo ^<ESC^>[90m [90mWhite[0m
echo ^<ESC^>[91m [91mRed[0m
echo ^<ESC^>[92m [92mGreen[0m
echo ^<ESC^>[93m [93mYellow[0m
echo ^<ESC^>[94m [94mBlue[0m
echo ^<ESC^>[95m [95mMagenta[0m
echo ^<ESC^>[96m [96mCyan[0m
echo ^<ESC^>[97m [97mWhite[0m
echo ^<ESC^>[100m [100mBlack[0m
echo ^<ESC^>[101m [101mRed[0m
echo ^<ESC^>[102m [102mGreen[0m
echo ^<ESC^>[103m [103mYellow[0m
echo ^<ESC^>[104m [104mBlue[0m
echo ^<ESC^>[105m [105mMagenta[0m
echo ^<ESC^>[106m [106mCyan[0m
echo ^<ESC^>[107m [107mWhite[0m
echo [101;93m COMBINATIONS [0m
echo ^<ESC^>[31m                     [31mred foreground color[0m
echo ^<ESC^>[7m                      [7minverse foreground ^<-^> background[0m
echo ^<ESC^>[7;31m                   [7;31minverse red foreground color[0m
echo ^<ESC^>[7m and nested ^<ESC^>[31m [7mbefore [31mnested[0m
echo ^<ESC^>[31m and nested ^<ESC^>[7m [31mbefore [7mnested[0m
pause > nul
goto top

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