I use curl to get some URL response, it's JSON response and it contains unicode-escaped national characters like \u0144 (ń) and \u00f3 (ó).

How can I convert them to UTF-8 or any other encoding to save into file?


11 Answers 11


Might be a bit ugly, but echo -e should do it:

echo -en "$(curl $URL)"

-e interprets escapes, -n suppresses the newline echo would normally add.

Note: The \u escape works in the bash builtin echo, but not /usr/bin/echo.

As pointed out in the comments, this is bash 4.2+, and 4.2.x have a bug handling 0x00ff/17 values (0x80-0xff).

  • I don't think \u is a supported escape sequence.
    – cmbuckley
    Jan 9, 2012 at 22:22
  • Is that zsh by any chance? In which case, s/supported/generally supported/ :-)
    – cmbuckley
    Jan 9, 2012 at 22:24
  • @cbuckley it was bash (as I added to the post, I figured out it was the bash builtin), but zsh's echo works with \u too. csh's does not, however.
    – Kevin
    Jan 9, 2012 at 22:29
  • Please provide me example how to convert such escapes as \u0144 with "-e" switch. Jan 10, 2012 at 14:53
  • @KrzysztofWolny The example is already in my post, either store the URL you're trying to get into the URL variable, or just replace it manually. $(command) executes command, so $(curl $URL) fetches the page at $URL.
    – Kevin
    Jan 10, 2012 at 15:09

I don't know which distribution you are using, but uni2ascii should be included.

$ sudo apt-get install uni2ascii

It only depend on libc6, so it's a lightweight solution (uni2ascii i386 4.18-2 is 55,0 kB on Ubuntu)!

Then to use it:

$ echo 'Character 1: \u0144, Character 2: \u00f3' | ascii2uni -a U -q
Character 1: ń, Character 2: ó
  • 1
    That allow to display it, but not to save/convert it... even with uni2ascii unicode.txt > newfile.txt ... iconv do it well
    – Tanguy
    Jun 19, 2018 at 7:44
  • echo 'Character 1: \u0144, Character 2: \u00f3' | ascii2uni -a U -q > newfile.txt clearly works and saves the output into newfile.txt. May 7, 2021 at 12:47

I found native2ascii from JDK as the best way to do it:

native2ascii -encoding UTF-8 -reverse src.txt dest.txt

Detailed description is here: http://docs.oracle.com/javase/1.5.0/docs/tooldocs/windows/native2ascii.html

Update: No longer available since JDK9: https://bugs.openjdk.java.net/browse/JDK-8074431


Assuming the \u is always followed by exactly 4 hex digits:


use strict;
use warnings;

binmode(STDOUT, ':utf8');

while (<>) {

The binmode puts standard output into UTF-8 mode. The s... command replaces each occurrence of \u followed by 4 hex digits with the corresponding character. The e suffix causes the replacement to be evaluated as an expression rather than treated as a string; the g says to replace all occurrences rather than just the first.

You can save the above to a file somewhere in your $PATH (don't forget the chmod +x). It filters standard input (or one or more files named on the command line) to standard output.

Again, this assumes that the representation is always \u followed by exactly 4 hex digits. There are more Unicode characters than can be represented that way, but I'm assuming that \u12345 would denote the Unicode character 0x1234 (ETHIOPIC SYLLABLE SEE) followed by the digit 5.

In C syntax, a universal-character-name is either \u followed by exactly 4 hex digits, or \U followed by exactly 8 hexadecimal digits. I don't know whether your JSON responses use the same scheme. You should probably find out how (or whether) it encodes Unicode characters outside the Basic Multilingual Plane (the first 216 characters).

  • nice solution!! I'll hack the reverse way from this code later..
    – user257319
    Jan 3, 2016 at 3:30
  • Why the heck should I code anything to transform from one standard to another? The wheel was already invented... Jun 29, 2016 at 22:56
  • It is not exactly 4 hex digits. As of today, there are more 5-hex-digit unicode characters than 4 hex digit unicode charcters, 83502 vs 56354 to be exact. New stuff added (think emoji) will likely to need the extended space too. Assuming 4 digit is like assuming computer software won't be used past 2033 and 4 bytes is enough for storing a unix timestamp. Mar 28, 2019 at 7:18
  • 1
    @PeerGynt At least in C, the syntax for a universal-character-name is \u hex-quad or \U hex-quad hex-quad. So a \u will always be followed by exactly 4 hex digits. If you need more than 4, use \U and 8 digits. (I'm not sure how universal that syntax is.) Mar 28, 2019 at 20:06
  • @PeerGynt: I've updated my answer (see the last 2 paragraphs). Mar 28, 2019 at 20:45

now I have the best answer! Use jq


type in.json | jq > out.json


cat in.json | jq > out.json

It's surely faster as any answer using perl/python. Without parameters it formats the json and converts \uXXXX to utf8. It can be used to do json queries too. Very nice tool!

  • Note that you may need to add a dot ".": cat in.json | jq . > out.json. The dot is the most simple filter, it'll will no filter anything, just return whole human readable json.
    – LianSheng
    Aug 24, 2022 at 5:28

Don't rely on regexes: JSON has some strange corner-cases with \u escapes and non-BMP code points. (specifically, JSON will encode one code-point using two \u escapes) If you assume 1 escape sequence translates to 1 code point, you're doomed on such text.

Using a full JSON parser from the language of your choice is considerably more robust:

$ echo '["foo bar \u0144\n"]' | python -c 'import json, sys; sys.stdout.write(json.load(sys.stdin)[0].encode("utf-8"))'

That's really just feeding the data to this short python script:

import json
import sys

data = json.load(sys.stdin)
data = data[0] # change this to find your string in the JSON

From which you can save as foo.py and call as curl ... | foo.py

An example that will break most of the other attempts in this question is "\ud83d\udca3":

% printf '"\\ud83d\\udca3"' | python2 -c 'import json, sys; sys.stdout.write(json.load(sys.stdin)[0].encode("utf-8"))'; echo
# echo will result in corrupt output:
% echo -e $(printf '"\\ud83d\\udca3"') 
# native2ascii won't even try (this is correct for its intended use case, however, just not ours):
% printf '"\\ud83d\\udca3"' | native2ascii -encoding utf-8 -reverse
  • Why the heck should I code anything to transform from one standard to another? The wheel was already invented... Jun 29, 2016 at 22:57
  • 3
    It is curious that you're revisiting this after four years. This answer does not, as you imply, reinvent the wheel: in fact it uses Python's built-in JSON parser. Many of the other answers in this thread attempt to force a tool not intended for this purpose, and as a result, will emit erroneous output on some valid inputs. Consider the JSON-encoded value "\ud83d\udca9"; both the highest voted solution using echo and your native2ascii solution will not process this input.
    – Thanatos
    Jul 17, 2016 at 22:07
  • I was notified about some activity on this question. Agreed, that some answers here sucks, Still, if I have to code even 1 line instead of using already existing tool I'd call it reinventing the wheel. Your solution is limited to JSON content, how would you translate non-JSON content? I got your point that your solution works for all code points, but in my case your solution it's exaggeration, however I like the idea of parsing more then 1 code-point chars. Current accepted answer works for your example as well (however it's not printed correctly on my terminal, but number of "?" is the same) Jul 19, 2016 at 9:22
  • 1
    "Your solution is limited to JSON content, how would you translate non-JSON content?" Changing something as drastic as the underlying storage format is going to necessitate a change in the tooling used to parse that format. "however it's not printed correctly on my terminal, but number of "?" is the same" It's not that it's failing to print; the �s are present because the command used corrupts the data, and garbage is output.
    – Thanatos
    Jul 25, 2016 at 21:12
  • this solved a longstanding issue in telegram-bot-bash because all other solutions I found on stackoverflow and elsewhere did not work! l will add my echo - drop in replacement bash function as seperate answer Apr 13, 2019 at 13:23

use /usr/bin/printf "\u0160ini\u010di Ho\u0161i - A\u017e sa skon\u010d\u00ed zima" to get proper unicode-to-utf8 conversion.

  • 1
    A valid solution, given that the question is Linux-related; just a heads-up for users on other platforms: not every external printf executable supports this (e.g., OS X 10.9.2 doesn't).
    – mklement0
    May 7, 2014 at 5:00
  • 1
    FWIW i think printf is related to the current shell you are running, ie. it's considered one of those fancy 👸 shell builtins. And I'm running fish shell 2.7.1 on macOS 10.12.6 and the above printf "\u965" and friends 👭 works well for me. ✧*。٩(ˊᗜˋ*)و✧*。
    – ipatch
    Mar 7, 2018 at 23:25
  • @Chris printf is part of current shell for sure, but the /usr/bin/printf is provided by coreutils
    – andrej
    Mar 20, 2018 at 15:09

Use the b conversion specifier mandated by POSIX:

An additional conversion specifier character, b, shall be supported as follows. The argument shall be taken to be a string that can contain backslash-escape sequences.

expand_escape_sequences() {
  printf %b "$1"


s='\u0160ini\u010di Ho\u0161i - A\u017e sa skon\u010d\u00ed zima A percent sign % OK?'
expand_escape_sequences "$s"

# output: Šiniči Hoši - Až sa skončí zima A percent sign % OK?

NOTE: If you remove the %b format specifier, the percent sign will cause error like:

-bash: printf: `O': invalid format character

Tested successfully with both bash's builtin printf and /usr/bin/printf on my linux distribution (Fedora 29).

UPDATE 2019-04-17: My solution assumed unicode escapes like \uxxxx and \Uxxxxxxxx; the latter being required for unicode characters beyond the BMP. However, the OP's question involved a JSON stream. JSON's unicode escape sequences use UTF16, which require surrogate pairs beyond the BMP.

Consider unicode character 😁 ('GRINNING FACE WITH SMILING EYES' (U+1F601)). The \U escape sequence for this character is: \U0001F601. You can print it using the POSIX mandated %b specifier like so:

printf %b '\U0001F601'
# Prints 😁 as expected

However, in JSON the escape sequence for this character involves a UTF16 surrogate pair: \uD83D\uDE01

For manipulating JSON streams at the shell level, the jq tool is superb:

echo '["\uD83D\uDE01"]' | jq .
# Prints ["😁"] as expected 

Thus I now withdraw my answer from consideration and endorse Smit Johnth's answer of using jq as the best answer.

  • 1
    FWIW, however well it solved or didn't solve the OP's issue, printf "%b" (combined with xargs) was a pretty good solution to a similar problem I had with find over some filenames that had emoji in them.
    – abathur
    Sep 12, 2019 at 1:14

Preface: None of the promoted answers to this question solved a longstanding issue in telegram-bot-bash. Only the python solution from Thanatos worked!

This is because JSON will encode one code-point using two \u escapes

Here you'll find two drop in replacements for echo -e and printf '%s'

PURE bash variant as a function. paste on the top of your script and use it to decode your JSON strings in bash:

# pure bash implementaion, done by KayM (@gnadelwartz)
# see https://stackoverflow.com/a/55666449/9381171
  JsonDecode() {
     local out="$1"
     local remain=""   
     local regexp='(.*)\\u[dD]([0-9a-fA-F]{3})\\u[dD]([0-9a-fA-F]{3})(.*)'
     while [[ "${out}" =~ $regexp ]] ; do
           # match 2 \udxxx hex values, calculate new U, then split and replace
           local W1="$(( ( 0xd${BASH_REMATCH[2]} & 0x3ff) <<10 ))"
           local W2="$(( 0xd${BASH_REMATCH[3]} & 0x3ff ))"
           U="$(( ( W1 | W2 ) + 0x10000 ))"
           remain="$(printf '\\U%8.8x' "${U}")${BASH_REMATCH[4]}${remain}"
     echo -e "${out}${remain}"

# Some tests ===============
$ JsonDecode 'xxx \ud83d\udc25 xxxx' -> xxx 🐥 xxxx
$ JsonDecode '\ud83d\udc25' -> 🐥
$ JsonDecode '\u00e4 \u00e0 \u00f6 \u00f4 \u00fc \u00fb \ud83d\ude03 \ud83d\ude1a \ud83d\ude01 \ud83d\ude02 \ud83d\udc7c \ud83d\ude49 \ud83d\udc4e \ud83d\ude45 \ud83d\udc5d \ud83d\udc28 \ud83d\udc25 \ud83d\udc33 \ud83c\udf0f \ud83c\udf89 \ud83d\udcfb \ud83d\udd0a \ud83d\udcec \u2615 \ud83c\udf51'
ä à ö ô ü û 😃 😚 😁 😂 👼 🙉 👎 🙅 👝 🐨 🐥 🐳 🌏 🎉 📻 🔊 📬 ☕ 🍑

# decode 100x string with 25 JSON UTF-16 vaules
$ time for x in $(seq 1 100); do JsonDecode '\u00e4 \u00e0 \u00f6 \u00f4 \u00fc \u00fb \ud83d\ude03 \ud83d\ude1a \ud83d\ude01 \ud83d\ude02 \ud83d\udc7c \ud83d\ude49 \ud83d\udc4e \ud83d\ude45 \ud83d\udc5d \ud83d\udc28 \ud83d\udc25 \ud83d\udc33 \ud83c\udf0f \ud83c\udf89 \ud83d\udcfb \ud83d\udd0a \ud83d\udcec \u2615 \ud83c\udf51' >/dev/null ; done

real    0m2,195s
user    0m1,635s
sys     0m0,647s

MIXED solution with Phyton variant from Thanatos:

# usage: JsonDecode "your bash string containing \uXXXX extracted from JSON"
 JsonDecode() {
     # wrap string in "", replace " by \"
     printf '"%s\\n"' "${1//\"/\\\"}" |\
     python -c 'import json, sys; sys.stdout.write(json.load(sys.stdin).encode("utf-8"))'


Testcase for the ones who advocate the other promoted soutions will work:

# test='😁 😘 ❤️ 😊 👍' from JSON
$ export test='\uD83D\uDE01 \uD83D\uDE18 \u2764\uFE0F \uD83D\uDE0A \uD83D\uDC4D'

$ printf '"%s\\n"' "${test}" | python -c 'import json, sys; sys.stdout.write(json.load(sys.stdin).encode("utf-8"))' >phyton.txt
$ echo -e "$test" >echo.txt

$ cat -v phyton.txt
M-pM-^_M-^XM-^A M-pM-^_M-^XM-^X M-bM-^]M-$M-oM-8M-^O M-pM-^_M-^XM-^J M-pM-^_M-^QM-^M

$ cat -v echo.txt
M-mM- M-=M-mM-8M-^A M-mM- M-=M-mM-8M-^X M-bM-^]M-$M-oM-8M-^O M-mM- M-=M-mM-8M-^J M-mM- M-=M-mM-1M-^M

As you can easily see the output is different. the other promoted solutions provide the same wrong output for JSON strings as echo -e:

$ ascii2uni -a U -q >uni2ascii.txt <<EOF

$ cat -v uni2ascii.txt
M-mM- M-=M-mM-8M-^A M-mM- M-=M-mM-8M-^X M-bM-^]M-$M-oM-8M-^O M-mM- M-=M-mM-8M-^J M-mM- M-=M-mM-1M-^M

$ printf "$test\n" >printf.txt
$ cat -v printf.txt
M-mM- M-=M-mM-8M-^A M-mM- M-=M-mM-8M-^X M-bM-^]M-$M-oM-8M-^O M-mM- M-=M-mM-8M-^J M-mM- M-=M-mM-1M-^M

$ echo "$test" | iconv -f Unicode >iconf.txt                                                                                     

$ cat -v iconf.txt
M-gM-^UM-^\M-cM-!M-^DM-dM-^PM-3M-gM-^UM-^\M-dM-^UM-^DM-cM-^DM-0M-eM-0M- M-dM-^QM-5M-cM-^LM-8M-eM-1M-^DM-dM-^QM-5M-cM-^EM-^EM-bM-^@M-8M-gM-^UM-^\M-cM-^\M-2M-cM-^PM-6M-gM-^UM-^\M-dM-^UM-^FM-dM-^XM-0M-eM-0M- M-dM-^QM-5M-cM-^LM-8M-eM-1M-^DM-dM-^QM-5M-cM-^AM-^EM-bM-^AM-^AM-gM-^UM-^\M-cM-!M-^DM-dM-^PM-3M-gM-^UM-^\M-dM-^MM-^DM-dM-^PM-4r
iconv -f Unicode fullOrders.csv > fullOrders-utf8.csv

This works on MacOS:

perl -Mutf8 -CS -pe 's/\\u([0-9a-fA-F]{4})/chr(hex($1))/eg;'

if you are piping.

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