I am trying to divide two image widths in a Bash script, but bash gives me 0 as the result:


I did study the Bash guide and I know I should use bc, in all examples in internet they use bc. In echo I tried to put the same thing in my SCALE but it didn't work.

Here is the example I found in the tutorials:

echo "scale=2; ${userinput}" | bc 

How can I get Bash to give me a float like 0.5?


25 Answers 25


You can't. bash only does integers; you must delegate to a tool such as bc.

  • 14
    how can I delegate a tool like bc in to put the answer in RESULT variable?
    – Medya Gh
    Commented Oct 4, 2012 at 7:19
  • 2
    so you mean like VAR=$(echo "scale=2; $(($IMG_WIDTH/$IMG2_WIDTH))" | bc) ?
    – Medya Gh
    Commented Oct 4, 2012 at 7:22
  • 75
    @Shevin VAR=$(echo "scale=2; $IMG_WIDTH/$IMG2_WIDTH" | bc) or VAR=$(bc <<<"scale=2;$IMG_WIDTH/$IMG2_WIDTH") without $(( )) (double parentheses) ; which is expanded by the bash before executing command Commented Oct 4, 2012 at 7:32
  • 5
    True, but awk is generally more likely to be already installed in the system. Commented Jun 26, 2014 at 6:57
  • 11
    @NahuelFouilleul You have the best answer here. Should really be its own answer, and accepted as the answer. This particular line was incredibly useful: VAR=$(bc <<<"scale=2;$IMG_WIDTH/$IMG2_WIDTH")
    – David
    Commented Oct 1, 2014 at 3:28

you can do this:

bc <<< 'scale=2; 100/3'

UPDATE 20130926 : you can use:

bc -l <<< '100/3' # saves a few hits
  • 17
    @AndreasSpindler Kind of an old post, but in case anyone would like to know, this can be changed by applying the scale command eg. bc -l <<< 'scale=2; 100/3'
    – Martie
    Commented Sep 15, 2015 at 8:42
  • Just watch out if you're hoping to get an integer for later use in bash by using scale=0. As of v1.06.95, bc, for some reason, ignores the scale variable when the input numbers have a decimal part. Maybe this is in the docs, but I couldn't find it. Try: echo $(bc -l <<< 'scale=0; 1*3.3333')
    – Greg Bell
    Commented Nov 11, 2016 at 1:15
  • 1
    @GregBell The man page says Unless specifically mentioned the scale of the result is the maximum scale of the expressions involved. And there is an extra note for / operator: The scale of the result is the value of the variable scale.
    – psmith
    Commented Jan 16, 2017 at 5:48
  • 2
    Thanks @psmith. Interestingly, for / it says "the scale of the result is the value of the variable scale" but not so for multiplication. My better examples: bc <<< 'scale=1; 1*3.00001' scale is really 5 for some reason, bc <<< 'scale=1; 1/3.000001' scale is 1. Interestingly, dividing by 1 sets it straight: bc <<< 'scale=1; 1*3.00001/1' scale is 1
    – Greg Bell
    Commented Jan 17, 2017 at 20:55
  • 2
    To prevent "Syntax error: redirection unexpected", use echo 'scale=2; 100/3' | bc instead of bc <<< 'scale=2; 100/3' Commented Jan 20, 2022 at 11:02


As noted by others, bash does not support floating point arithmetic, although you could fake it with some fixed decimal trickery, e.g. with two decimals:

echo $(( 100 * 1 / 3 )) | sed -e 's/..$/.&/;t' -e 's/.$/.0&/'



See Nilfred's answer for a similar but more concise approach.


Besides the mentioned bc and awk alternatives there are also the following:


clisp -x '(/ 1.0 3)'

with cleaned up output:

clisp --quiet -x '(/ 1.0 3)'

or through stdin:

echo '(/ 1.0 3)' | clisp --quiet | tail -n1


echo 2k 1 3 /p | dc

genius cli calculator

echo 1/3.0 | genius


echo 1 3 div = | gs -dNODISPLAY -dQUIET | sed -n '1s/.*>//p' 


echo 'pr 1/3.' | gnuplot


convert xc: -format '%[fx:1/3]' info:

or through stdin:

echo 1/3 | { convert xc: -format "%[fx:$(cat)]" info:; }


jq -n 1/3

or through stdin:

echo 1/3 | jq -nf /dev/stdin


echo 'print $(( 1/3. ))' | ksh


lua -e 'print(1/3)'

or through stdin:

echo 'print(1/3)' | lua


echo '1/3,numer;' | maxima

with cleaned up output:

echo '1/3,numer;' | maxima --quiet | sed -En '2s/[^ ]+ [^ ]+ +//p'


echo 1/3 | node -p


echo 1/3 | octave


echo print 1/3 | perl


php -r 'echo 1/3;'

or through stdin:

echo '<?php print 1/3;?>' | php


echo print 1/3. | python2


echo 'print(1/3)' | python3


echo 1/3 | R --no-save

with cleaned up output:

echo 1/3 | R --vanilla --quiet | sed -n '2s/.* //p'


echo puts 1/3.0 | ruby


units 1/3

with compact output:

units --com 1/3


echo 1/3 | wcalc

with cleaned up output:

echo 1/3 | wcalc | tr -d ' ' | cut -d= -f2


print $(( 1/3. ))

or through stdin:

echo 'print $(( 1/3. ))' | zsh

Other sources

Stéphane Chazelas answered a similar question over on UL.

  • 15
    Great answer. I know it was posted a few years after the question but is more deserving of being the accepted answer. Commented Dec 14, 2016 at 19:04
  • 5
    If you have zsh available, then it's worth considering to write your script in zsh instead of Bash Commented Apr 29, 2018 at 2:09
  • Nice list. Especially echo 1/3 | node -p is short. Commented Oct 9, 2019 at 10:07
  • Nice list. Sadly, the very first bash approach has a flaw. If the result has less than two digits (= simulated decimal places) then sed won't do the replacement. Example for 1 / 50: echo $(( 100*1/50)) | sed 's/..$/.&/' prints 2 instead of 0.02.
    – Socowi
    Commented Mar 28, 2021 at 16:57
  • 3
    It should also be heavily stressed that bc DOES NOT support floating point numbers. It uses FIXED point numbers and that's a big distinction. Commented Oct 15, 2021 at 10:11

Improving a little the answer of marvin:

RESULT=$(awk "BEGIN {printf \"%.2f\",${IMG_WIDTH}/${IMG2_WIDTH}}")

bc doesn't come always as installed package.

  • 5
    The awk script needs an exit to prevent it from reading from its input stream. I also suggest using awk's -v flags to prevent leaning toothpick syndrome. So: RESULT=$(awk -v dividend="${IMG_WIDTH}" -v divisor="${IMG2_WIDTH}" 'BEGIN {printf "%.2f", dividend/divisor; exit(0)}')
    – aecolley
    Commented Mar 14, 2015 at 15:02
  • 3
    A more awkish way to do this would be to read the arguments from the input stream: RESULT=$(awk '{printf("result= %.2f\n",$1/$2)}' <<<" $IMG_WIDTH $IMG2_WIDTH ".
    – jmster
    Commented Jun 8, 2015 at 18:13
  • 1
    bc is part of POSIX, it is usually preinstalled.
    – fuz
    Commented Aug 24, 2015 at 12:48
  • 1
    this worked for me using git bash in windows 7 ... thanks :)
    – The Beast
    Commented Apr 16, 2016 at 3:59
  • @fuz On the contrary— in most cases I've looked for it, I had to install bc manually. And in some cases (such as a standard Git Bash for Windows installation), you can't easily do that without digging around for a specific sourceset/binary, e.g. compiled for MINGW. GB4W, AMI, RasPi OS, WSL (Ubuntu 20)... I think the only distro that had bc installed out-of-the-box for me was CentOS 8. Honestly though, I don't see why it shouldn't be included in every distro... it's pretty lightweight and useful.
    – LyrePyre
    Commented Apr 10 at 1:40

You could use bc by the -l option (the L letter)

RESULT=$(echo "$IMG_WIDTH/$IMG2_WIDTH" | bc -l)
  • 5
    If I don't include the -l on my system, bc doesn't do floating point math. Commented Sep 17, 2015 at 6:13

As an alternative to bc, you can use awk within your script.

For example:

echo "$IMG_WIDTH $IMG2_WIDTH" | awk '{printf "%.2f \n", $1/$2}'

In the above, " %.2f " tells the printf function to return a floating point number with two digits after the decimal place. I used echo to pipe in the variables as fields since awk operates properly on them. " $1 " and " $2 " refer to the first and second fields input into awk.

And you can store the result as some other variable using:

RESULT = `echo ...`
  • Excellent! Thanks. This is helpful for embedded environment where bc is not present. You saved me some cross compilation time. Commented May 2, 2016 at 16:04

Well, before float was a time where fixed decimals logic was used:

echo "${RESULT:0:-2}.${RESULT: -2}"

Last line is a bashim, if not using bash, try this code instead:

DECIMAL=$(tail -c 3 <<< $((${IMG_WIDTH}00/$IMG2_WIDTH)))
echo $RESULT

The rationale behind the code is: multiply by 100 before divide to get 2 decimals.

  • 2
    the technical term is Fixed-point arithmetic
    – milahu
    Commented Oct 17, 2022 at 7:21
  • To handle tiny results (e.g. IMG2_WIDTH=3000) and prevent an error, add this line before the echo (in bash): [[ ${#RESULT} -lt 2 ]] && RESULT="0$RESULT" Commented Mar 14, 2023 at 17:02

It's perfect time to try zsh, an (almost) bash superset, with many additional nice features including floating point math. Here is what your example would be like in zsh:

% IMG_WIDTH=1080
% IMG2_WIDTH=640
% result=$((IMG_WIDTH*1.0/IMG2_WIDTH))
% echo $result

This post may help you: bash - Worth switching to zsh for casual use?

  • 5
    I'm a huge fan of zsh and have been using it for the last 4 years, but interactive use is a good emphasis here. A script that requires zsh is usually not going to be very portable across a diverse set of machines as it's usually not standard, sadly (to be fair, maybe that's okay; OP didn't say quite how it'll be used). Commented Dec 14, 2016 at 19:10
  1. How to do floating point calculations in bash:

    Instead of using "here strings" (<<<) with the bc command, like one of the most-upvoted examples does, here's my favorite bc floating point example, right from the EXAMPLES section of the bc man pages (see man bc for the manual pages).

    Before we begin, know that an equation for pi is: pi = 4*atan(1). a() below is the bc math function for atan().

    1. This is how to store the result of a floating point calculation into a bash variable--in this case into a variable called pi. Note that scale=10 sets the number of decimal digits of precision to 10 in this case. Any decimal digits after this place are truncated.

      pi="$(echo "scale=10; 4*a(1)" | bc -l)"
    2. Now, to have a single line of code that also prints out the value of this variable, simply add the echo command to the end as a follow-up command, as follows. Note the truncation at 10 decimal places, as commanded:

      pi="$(echo "scale=10; 4*a(1)" | bc -l)"; echo "$pi"


    3. Finally, let's throw in some rounding. Here we will use the printf function to round to 4 decimal places. Note that the 3.14159... rounds now to 3.1416. Since we are rounding, we no longer need to use scale=10 to truncate to 10 decimal places, so we'll just remove that part. Here's the end solution:

      pi="$(printf "%.4f" $(echo "4*a(1)" | bc -l))"; echo "$pi"


  2. Measuring and printing run time:

    Measuring and printing a program's run time is another really great application and demo of the above techniques.

    (See also my other answer here).

    Here is how. Note that dt_min gets rounded from 0.01666666666... to 0.017:

    start="$SECONDS"; sleep 1; end="$SECONDS"; dt_sec="$(( end - start ))"; dt_min="$(printf "%.3f" "$(echo "$dt_sec/60" | bc -l)")"; echo "dt_sec = $dt_sec; dt_min = $dt_min"


    dt_sec = 1; dt_min = 0.017


  • 2
    solid answer with detailed examples and uses cases & round using printf
    – J011195
    Commented Apr 29, 2020 at 11:15
  • 1
    formatting the float w/ the usage of scale made this the most complete answer!
    – Ahi Tuna
    Commented Feb 29 at 13:27

If you found the variant of your preference you can also wrap it into a function.

Here I'm wrapping some bashism into a div function:

One liner:

function div { local _d=${3:-2}; local _n=0000000000; _n=${_n:0:$_d}; local _r=$(($1$_n/$2)); _r=${_r:0:-$_d}.${_r: -$_d}; echo $_r;}

Or multi line:

function div {
  local _d=${3:-2}
  local _n=0000000000
  local _r=$(($1$_n/$2))
  _r=${_r:0:-$_d}.${_r: -$_d}
  echo $_r

Now you have the function

div <dividend> <divisor> [<precision=2>]

and use it like

> div 1 2

> div 273 123 5

> x=$(div 22 7)
> echo $x

UPDATE I added a little script which provides you the basic operations with floating point numbers for bash:


> add 1.2 3.45
> sub 1000 .007
> mul 1.1 7.07
> div 10 3
> div 10 3.000

And here the script:

__op() {
        local z=00000000000000000000000000000000
        local a1=${1%.*}
        local x1=${1//./}
        local n1=$((${#x1}-${#a1}))
        local a2=${2%.*}
        local x2=${2//./}
        local n2=$((${#x2}-${#a2}))
        local n=$n1
        if (($n1 < $n2)); then
                local n=$n2
        if (($n1 > $n2)); then
        if [ "$3" == "/" ]; then
        local r=$(($x1"$3"$x2))
        local l=$((${#r}-$n))
        if [ "$3" == "*" ]; then
        echo ${r:0:$l}.${r:$l}
add() { __op $1 $2 + ;}
sub() { __op $1 $2 - ;}
mul() { __op $1 $2 "*" ;}
div() { __op $1 $2 / ;}
  • 1
    local _d=${3:-2} is simpler
    – KamilCuk
    Commented Jan 5, 2019 at 23:14

I know it's old, but too tempting. So, the answer is: you can't... but you kind of can. let's try this:


$RATIO="$(( IMG_WIDTH / $IMG2_WIDTH )).$(( (IMG_WIDTH * 100 / IMG2_WIDTH) % 100 ))"

Like that, you get 2 digits after the point, truncated (call it rounding to the lower) in pure bash (no need to launch other processes). Of course, if you only need one digit after the point you multiply by 10 and do modulo 10.

What this does:

  • first $((...)) does integer division;
  • second $((...)) does integer division on something 100 times larger, essentially moving your 2 digits to the left of the point, then (%) getting you only those 2 digits by doing modulo.

Bonus track: bc version × 1000 took 1.8 seconds on my laptop, while the pure bash one took 0.016 seconds.

  • Your "solution" will not work when the result is less than 10 in the "second" part. Try with, IMG_WIDTH=103 and IMG2_WIDTH=100 for example.
    – FedKad
    Commented May 15, 2021 at 7:41

While you can't use floating point division in Bash you can use fixed point division. All that you need to do is multiply your integers by a power of 10 and then divide off the integer part and use a modulo operation to get the fractional part. Rounding as needed.



# because of rounding this should be 10^{i+1}
# where i is the number of decimal digits wanted
Pn=$(($P / 10))
# here we 'fix' the decimal place, divide and round tward zero
t=$(($n * $P / $d + ($n < 0 ? -5 : 5)))
# then we print the number by dividing off the interger part and
# using the modulo operator (after removing the rounding digit) to get the factional part.
printf "%d.%0${i}d\n" $(($t / $P)) $(((t < 0 ? -t : t) / 10 % $Pn))

For those trying to calculate percentages with the accepted answer, but are losing precision:

If you run this:

echo "scale=2; (100/180) * 180" | bc

You get 99.00 only, which is losing precision.

If you run it this way:

echo "result = (100/180) * 180; scale=2; result / 1" | bc -l

Now you get 99.99.

Because you're scaling only at the moment of printing.

Refer to here


It's not really floating point, but if you want something that sets more than one result in one invocation of bc...

source /dev/stdin <<<$(bc <<< '
print "d=",d,"\n"
print "a=",a,"\n"

echo bc radius:$1 area:$a diameter:$d

computes the area and diameter of a circle whose radius is given in $1


There are scenarios in wich you cannot use bc becouse it might simply not be present, like in some cut down versions of busybox or embedded systems. In any case limiting outer dependencies is always a good thing to do so you can always add zeroes to the number being divided by (numerator), that is the same as multiplying by a power of 10 (you should choose a power of 10 according to the precision you need), that will make the division output an integer number. Once you have that integer treat it as a string and position the decimal point (moving it from right to left) a number of times equal to the power of ten you multiplied the numerator by. This is a simple way of obtaining float results by using only integer numbers.

  • 1
    Even Busybox has Awk. Perhaps there should be a more prominent Awk answer here.
    – tripleee
    Commented Nov 14, 2018 at 5:06

Use calc. It's the easiest I found example:

calc 1+1


calc 1/10


** Injection-safe floating point math in bash/shell **

Note: The focus of this answer is provide ideas for injection-safe solution to performing math in bash (or other shells). Of course, same can be used, with minor adjustment to perform advanced string processing, etc.

Most of the solution that were by presented, construct small scriptlet on the fly, using external data (variables, files, command line, environment variables). The external input can be used to inject malicious code into the engine, many of them

Below is a comparison on using the various language to perform basic math calculation, where the result in floating point. It calculates A + B * 0.1 (as floating point).

All solution attempt avoid creating dynamic scriptlets, which are extremely hard to maintain, Instead they use static program, and pass parameters into designated variable. They will safely handle parameters with special characters - reducing the possibility of code injection. The exception is 'BC' which does not provide input/output facility

The exception is 'bc', which does not provide any input/output, all the data comes via programs in stdin, and all output goes to stdout. All calculation are executing in a sandbox, which does not allow side effect (opening files, etc.). In theory, injection safe by design!


# Awk: Map variable into awk
# Exit 0 (or just exit) for success, non-zero for error.
awk -v A="$A" -v B="$B" 'BEGIN { print A + B * 0.1 ; exit 0}'

# Perl
perl -e '($A,$B) = @ARGV ; print $A + $B * 0.1' "$A" "$B"

# Python 2
python -c 'import sys ; a = float(sys.argv[1]) ; b = float(sys.argv[2]) ; print a+b*0.1' "$A" "$B"

# Python 3
python3 -c 'import sys ; a = float(sys.argv[1]) ; b = float(sys.argv[2]) ; print(a+b*0.1)' "$A" "$B"

# BC
bc <<< "scale=1 ; $A + $B * 0.1"
  • for python3 with arbitrary arguments: python3 -c 'import sys ; *a, = map(float, sys.argv[1:]) ; print(a[0] + a[1]*0.1 + a[2])' "$A" "$B" "4200.0" ==> 4205.63 Commented Apr 28, 2020 at 1:01

As others have indicated, bash does not have built-in floating-point operators.

You can implement floating-point in bash, even without using calculator programs like bc and awk, or any external programs for that matter.

I'm doing exactly this in my project, shellmath, in three basic steps:

  1. Break the numbers down into their integer and fractional parts
  2. Use the built-in integer operators to process the parts separately while being careful about place-value and carrying
  3. Recombine the results

As a teaser, I've added a demo script that calculates e using its Taylor series centered at x=0.

Please check it out if you have a moment. I welcome your feedback!

  • 1
    That sounds like an interesting exercise, but is it practical? The usual objective of preferring to do data processing tasks natively in shell script instead of with an external program is to avoid the overhead of launching a new process. But that stands against the shell's basic slowness for many such tasks. Under what circumstances does your shell implementation outperform bc (for example)? Commented Dec 6, 2020 at 16:42
  • 2
    Thanks for the question. I've added some information about this to the shellmath README. I believe it's practical because of my timing experiments, which I've captured in timingData.txt. First off, I've been careful to use time-efficient scripting practices (details available in the project), but I think the real key is that you can run shellmath without forking a subshell. shellmath is a family of functions that write their result to a shell variable. OTOH, since bc is an executable, you have to subshell it to capture the results.
    – Clarity_20
    Commented Jan 25, 2021 at 12:17
  • Kinda cool ! I like the idea
    – lumpidu
    Commented Feb 22, 2023 at 11:30

Bash can calculate floating point results just fine without any other programs.

Bash independently even can calculate π to the ninth decimal place accurately.




result=${result99p9: -${#result99p9}: -$accuracy}.${result99p9: -$accuracy}

echo Bash calculated pi to be $result

results in

Bash calculated pi to be 3.141592653
  • This fails if the answer should be in range -1 ... 0. Commented Nov 28, 2022 at 18:29
  • With calc=-104348/332150 for example I get -.314159265 as result. So it seems to be working well in the range of -1 ... 0. Commented Aug 4, 2023 at 12:59
  • I stand corrected. I'm not sure what kind of example I tried but I cannot reproduce the problem for numbers in range -1 ... 0 anymore. I guess I made some kind of typo in my original testing. Commented Aug 7, 2023 at 7:16

here is awk command: -F = field separator == +

echo "2.1+3.1" |  awk -F "+" '{print ($1+$2)}'

Dividend = Divisor × Quotient + Remainder

Lets just calculate the quotient and remainder. As well as concatenate those strings in a variable.

New way valid only to log_decimal divisors:

function main() {
  # divisor=50

  quotient=$((bar / divisor))
  # remainder=$((bar - v_int * divisor))
  remainder=$((bar % divisor))

  printf "%-15s --> %s\n" "quotient" "$quotient"
  printf "%-15s --> %s\n" "remainder" "$remainder"

  while :; do
    remainder=$((remainder * 10))
    aux=$((remainder / divisor))
    printf "%-15s --> %s\n" "aux" "$aux"
    [[ aux -ne 0 ]] && break
    ((cnt += 1))
    printf "%-15s --> %s\n" "remainder" "$remainder"
  printf "%-15s --> %s\n" "cnt" "$cnt"
  printf "%-15s --> %s\n" "aux" "$aux"

  printf $quotient
  printf "."
  for i in $(seq 1 $cnt); do printf "0"; done
  printf $remainder_init

Old wrong way:

bar=1234 \
&& divisor=1000 \
    && foo=$(printf "%s.%s" $(( bar / divisor )) $(( bar % divisor ))) \
    && printf "bar is %d miliseconds or %s seconds\n" $bar $foo

Output: bar is 1234 miliseconds or 1.234 seconds

  • This will compute the fractional part incorrectly. Eg. bar=103 divisor=100, which should output 1.03 instead of 1.3. Commented Nov 28, 2022 at 18:21
  • 1
    You are right @Mikko, thanks! I fixed it, but only for divisors 10,100,1000,...Actually I would just use python instead. Commented Nov 30, 2022 at 19:56

how precise do you need the output to be ? if an approximation via binning is already acceptable for your use case, you can even go one step further and take advantage of POSIX exit codes [0:256) (all other integers mod'd back to that range).

eg : in gawk/nawk/mawk-1, it already gives me epoch seconds down to the integer level, but I wanted to expand that to extract near-milliseconds precision but not overly pedantic about it, i run this command in a POSIX shell

exit $(( 10#` gdate +%5N ` * 256 / 100000 ))

directly assigning a 5-digit integer representing 0.xxxxxx output of gnu-date into 1 of 256 bins, then un-doing that 256 once awk obtains the exit code of the system() call, i.e. the selected bin #. I found this approach to have lower overhead than using a full getline call.

This method also directly captures the output into the POSIX exit code instead of also having an extra terminal print out.

(the shell arithmetic auto floors it to integer if written this way instead of * 0.0256). Putting together into an awk function, it would resemble this. The 10# is to force base-10 to prevent posix shell interpreting "01733" as an octal number.

function msecs() {     # n x 2**-8 = n divided by 256

    return 2^-8 * \
           system( "exit \44\50\50 "      \
                   " 10\43\140 gdate \53"  \
                   "%5N\140 \52 " \
                   "256 \57 100000 \51\51" )
  • for my own code, i apply another 0.6% haircut to account for shell-overhead.

Let us take an example to undertsand, if u want to find average of n array elements (Ofcourse the average will be in float/decimals)

declare -a arr
echo "How many numbers you want to enter?"
read n
echo "Enter the Array Elements"
for(( i=0 ; i<$n ; i++))
      read array_elements
for i in "${arr[@]}"
     #sum and avg
     sum=$(($sum + $i))
     #average will come in decimals
     avg=`echo $sum / $n | bc -l`
# Output results:
printf "Average of Array Elements %.2f:" $avg

So we will use "| bc -l" to do floating calculations


You can use python

RESULT=$(python -c "print($IMG_WIDTH/$IMG2_WIDTH)")

I will abuse Bash parameter expansion to fix @івась тарасик's great answer, no other programs required.

DECIMALS="$(( (IMG_WIDTH * 100 / IMG2_WIDTH) % 100 ))"

Here I am using ${parameter:offset:length} bash parameter substitution to pad the decimals with (a) zero(s).


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