I'm trying to write a bash file which normally takes 3 arguments normally. There is an extra condition which is invoked when there are more than 3 arguments given. This condition should export the extra arguments to a text file called excess. This is the code I have so far:
if [ $# -gt 3]; then
for ((i = 4; i <= $#; i++)); do
echo "$i" >> "excess.txt"
done
fi
Instead of exporting the actual arguments, the loop is exporting the numbers 4,5,6... to the text file.
I'm not quite sure why this is happening seeing that I've used the dollar sign before 'i' in the echo statement.
You should use indirect expansion ${!}:
for ((i = 4; i <= $#; i++)); do
echo "${!i}" >> "excess.txt"
done
also, you can do
shift 3; echo "$#" >> execss.txt
You can do this with one line:
printf '%s\n' "${#:4}" > excess.txt
"${#:4}" expands to "$4" "$5" "$6" ..., and the printf command has its own loop to output its format string once per argument.
Related
if [[ $1 == "-r" ]]
then
arr=()
i=0
for var in ${#:2}
do
arr[$i]+=$var
((i++))
done
((i--))
for (( j=$i;$j >= 0;j=$j-1 ))
do
echo ${arr[$j]}
done
fi
this is my script to wrote args from last to first one if I add -r.
Can I do this better?
Because now this is N^2. So I feel like I could do this better but I have no idea how. Any advice?
Just index arguments from the back:
for ((i=1;i<=$#;++i)); do
echo "${#: -$i:1}"
done
See ${parameter:offset:length} expansion in bash manual shell parameter expansion.
You can loop over the arguments from the last to the second. Use indirection to use the number as the name of the variable:
for ((i=$#; i>1; --i)) ; do
printf '%s\n' "${!i}"
done
Can someone point out what is wrong with the output.
for i in {0..127} ; do
echo -n [$i]
if [ $i*$j%8 -eq 0 ]; then
echo "\n"
fi
mytool -c "read 0x1540:0xa0:$i*$j"
done
I am trying to format the output into rows containing 8 items each.
I tried the suggestion below and modified my code to
for i in {0..8} ; for j in {0..16}; do
echo -n [$i*$j]
if [[ $i*$j%8 == 0 ]]; then
echo
fi
mytool -c "read 0x1540:0xa0:$i*$j"
done
Above with for i in {0..8} ; for j in {0..16}
I am expecting this to be a nested for loop.I am not very sure if this is how I do a nested loop in bash.
Still the output is not as I expect it.
My output looks like
[0]0x3
[1]0x4
[2]0x21
[3]0x1
[4]0x0
[5]0x0
[6]0x4
[7]0x41
[8]0x84
[9]0x80
[10]0x0
[11]0x0
[12]0x3
[13]0x0
[14]0x43
[15]0x49
[16]0x53
[17]0x43
[18]0x4f
[19]0x2d
[20]0x49
[21]0x4e
[22]0x43
[23]0x20
[24]0x0
[25]0x0
[26]0x9
[27]0x3a
[28]0x37
[29]0x34
[30]0x39
[31]0x34
I want [0] to [7] in ROW1
[8] to [15] in ROW2
and so on.
Use (( )) if you want to do math.
if ((i * j % 8 == 0)); then
Given your problem description I suggest a bit of a rewrite.
for i in {0..15}; do
for j in {0..7}; do
echo -n "[$((i * 8 + j))]"
mytool -c "read 0x1540:0xa0:$i*$j"
done
echo
done
The test command ([ is an alias for test, not syntax) requires the expression to be built up from multiple arguments. This means spaces are critical to separate operators and operands. Since each part is a separate argument, you also need to quote the * so that the shell does not expand it as a file glob prior to calling test/[.
if [ "$i" "*" "$j" % 8 -eq 0 ]; then
The test command expects 7 separate arguments here: $i, *, $j, %, -eq, and 0, which it then assembles into an expression to evaluate. It will not parse an arbitrary string into an expression.
As noted by John Kugelman, there are easier ways to accomplish such arithmetic in bash.
I'm trying to list script's argument by printf function. Arguments are counted by iteration of $i. What should be in printf function?
I need something like
eval echo \$$i
but in printf function.
Edit: Have while cycle with iteration of $i and among other code, I have
printf "%s" $i
But, instead of $i, I need some code, that shows me value of argument.
In my case, it is name of file, and I need list them. One file in one iteration.
As noted in a comment, you normally do that with a loop such as:
i=1
for arg in "$#"
do
echo "$i: [$arg]"
((i++))
done
(If echo isn't allowed, use printf "%s\n" … where the … is whatever would have followed echo.)
You might also use indirect expansion to avoid the use of eval:
for i in 1 2 3 4; do echo "$i: [${!i}]"; done
You can generalize that with:
for i in $(seq 1 $#); do echo "$i: [${!i}]"; done
or
for ((i = 1; i <= $#; i++)); do echo "$i: [${!i}]"; done
For example, given:
set -- a b 'c d' ' e f '
all the loops produce the output:
1: [a]
2: [b]
3: [c d]
4: [ e f ]
The square brackets are merely there to delimit the argument values; it allows you to see the trailing blanks on the fourth line of output.
You might also be able to use:
printf "[%s]\n" "$#"
to get:
[a]
[b]
[c d]
[ e f ]
It is not very clear what you are asking for, but this will list the arguments passed to the script:
while [ $# -gt 0 ]; do
printf "%s\n" "$1"
shift
done
I guess what you are asking for is how to make the indirect reference to positional parameter i (i containing the position):
print "%s\n" ${!i}
To get your arguments in such a way that they can be fed back into the shell with the exact same value, the following bash extension can be used:
printf '%q ' "$#"; printf '\n'
This works even for rather unusual cases. Let's say that one of your arguments contains a newline:
./your-script 'hello
world' 'goodbye world'
This will be represented in the printf output:
$'hello\nworld' goodbye\ world
...with something you can use again in the shell:
$ echo $'hello\nworld' goodbye\ world
hello
world goodbye world
How would you achieve this in bash. It's a question I got asked in an interview and I could think of answers in high level languages but not in shell.
As I understand it, the real implementation of tail seeks to the end of the file and then reads backwards.
The main idea is to keep a fixed-size buffer and to remember the last lines. Here's a quick way to do a tail using the shell:
#!/bin/bash
SIZE=5
idx=0
while read line
do
arr[$idx]=$line
idx=$(( ( idx + 1 ) % SIZE ))
done < text
for ((i=0; i<SIZE; i++))
do
echo ${arr[$idx]}
idx=$(( ( idx + 1 ) % SIZE ))
done
If all not-tail commands are allowed, why not be whimsical?
#!/bin/sh
[ -r "$1" ] && exec < "$1"
tac | head | tac
Use wc -l to count the number of lines in the file. Subtract the number of lines you want from this, and add 1, to get the starting line number. Then use this with sed or awk to start printing the file from that line number, e.g.
sed -n "$start,\$p"
There's this:
#!/bin/bash
readarray file
lines=$(( ${#file[#]} - 1 ))
for (( line=$(($lines-$1)), i=${1:-$lines}; (( line < $lines && i > 0 )); line++, i-- )); do
echo -ne "${file[$line]}"
done
Based on this answer: https://stackoverflow.com/a/8020488/851273
You pass in the number of lines at the end of the file you want to see then send the file via stdin, puts the entire file into an array, and only prints the last # lines of the array.
The only way I can think of in “pure” shell is to do a while read linewise on the whole file into an array variable with indexing modulo n, where n is the number of tail lines (default 10) — i.e. a circular buffer, then iterate over the circular buffer from where you left off when the while read ends. It's not efficient or elegant, in any sense, but it'll work and avoids reading the whole file into memory. For example:
#!/bin/bash
incmod() {
let i=$1+1
n=$2
if [ $i -ge $2 ]; then
echo 0
else
echo $i
fi
}
n=10
i=0
buffer=
while read line; do
buffer[$i]=$line
i=$(incmod $i $n)
done < $1
j=$i
echo ${buffer[$i]}
i=$(incmod $i $n)
while [ $i -ne $j ]; do
echo ${buffer[$i]}
i=$(incmod $i $n)
done
This script somehow imitates tail:
#!/bin/bash
shopt -s extglob
LENGTH=10
while [[ $# -gt 0 ]]; do
case "$1" in
--)
FILES+=("${#:2}")
break
;;
-+([0-9]))
LENGTH=${1#-}
;;
-n)
if [[ $2 != +([0-9]) ]]; then
echo "Invalid argument to '-n': $1"
exit 1
fi
LENGTH=$2
shift
;;
-*)
echo "Unknown option: $1"
exit 1
;;
*)
FILES+=("$1")
;;
esac
shift
done
PRINTHEADER=false
case "${#FILES[#]}" in
0)
FILES=("/dev/stdin")
;;
1)
;;
*)
PRINTHEADER=true
;;
esac
IFS=
for I in "${!FILES[#]}"; do
F=${FILES[I]}
if [[ $PRINTHEADER == true ]]; then
[[ I -gt 0 ]] && echo
echo "==> $F <=="
fi
if [[ LENGTH -gt 0 ]]; then
LINES=()
COUNT=0
while read -r LINE; do
LINES[COUNT++ % LENGTH]=$LINE
done < "$F"
for (( I = COUNT >= LENGTH ? LENGTH : COUNT; I; --I )); do
echo "${LINES[--COUNT % LENGTH]}"
done
fi
done
Example run:
> bash script.sh -n 12 <(yes | sed 20q) <(yes | sed 5q)
==> /dev/fd/63 <==
y
y
y
y
y
y
y
y
y
y
y
y
==> /dev/fd/62 <==
y
y
y
y
y
> bash script.sh -4 <(yes | sed 200q)
y
y
y
y
Here's the answer I would give if I were actually asked this question in an interview:
What environment is this where I have bash but not tail? Early boot scripts, maybe? Can we get busybox in there so we can use the full complement of shell utilities? Or maybe we should see if we can squeeze a stripped-down Perl interpreter in, even without most of the modules that would make life a whole lot easier. You know dash is much smaller than bash and perfectly good for scripting use, right? That might also help. If none of that is an option, we should check how much space a statically linked C mini-tail would need, I bet I can fit it in the same number of disk blocks as the shell script you want.
If that doesn't convince the interviewer that it's a silly question, then I go on to observe that I don't believe in using bash extensions, because the only good reason to write anything complicated in shell script nowadays is if total portability is an overriding concern. By avoiding anything that isn't portable even in one-offs, I don't develop bad habits, and I don't get tempted to do something in shell when it would be better done in a real programming language.
Now the thing is, in truly portable shell, arrays may not be available. (I don't actually know whether the POSIX shell spec has arrays, but there certainly are legacy-Unix shells that don't have them.) So, if you have to emulate tail using only shell builtins and it's got to work everywhere, this is the best you can do, and yes, it's hideous, because you're writing in the wrong language:
#! /bin/sh
a=""
b=""
c=""
d=""
e=""
f=""
while read x; do
a="$b"
b="$c"
c="$d"
d="$e"
e="$f"
f="$x"
done
printf '%s\n' "$a"
printf '%s\n' "$b"
printf '%s\n' "$c"
printf '%s\n' "$d"
printf '%s\n' "$e"
printf '%s\n' "$f"
Adjust the number of variables to match the number of lines you want to print.
The battle-scarred will note that printf is not 100% available either. Unfortunately, if all you have is echo, you are up a creek: some versions of echo cannot print the literal string "-n", and others cannot print the literal string "\n", and even figuring out which one you have is a bit of a pain, particularly as, if you don't have printf (which is in POSIX), you probably don't have user-defined functions either.
(N.B. The code in this answer, sans rationale, was originally posted by user 'Nirk' but then deleted under downvote pressure from people whom I shall charitably assume were not aware that some shells do not have arrays.)
In my script I need to expand an interval, e.g.:
input: 1,5-7
to get something like the following:
output: 1,5,6,7
I've found other solutions here, but they involve python and I can't use it in my script.
Solution with Just Bash 4 Builtins
You can use Bash range expansions. For example, assuming you've already parsed your input you can perform a series of successive operations to transform your range into a comma-separated series. For example:
value1=1
value2='5-7'
value2=${value2/-/..}
value2=`eval echo {$value2}`
echo "input: $value1,${value2// /,}"
All the usual caveats about the dangers of eval apply, and you'd definitely be better off solving this problem in Perl, Ruby, Python, or AWK. If you can't or won't, then you should at least consider including some pipeline tools like tr or sed in your conversions to avoid the need for eval.
Try something like this:
#!/bin/bash
for f in ${1//,/ }; do
if [[ $f =~ - ]]; then
a+=( $(seq ${f%-*} 1 ${f#*-}) )
else
a+=( $f )
fi
done
a=${a[*]}
a=${a// /,}
echo $a
Edit: As #Maxim_united mentioned in the comments, appending might be preferable to re-creating the array over and over again.
This should work with multiple ranges too.
#! /bin/bash
input="1,5-7,13-18,22"
result_str=""
for num in $(tr ',' ' ' <<< "$input"); do
if [[ "$num" == *-* ]]; then
res=$(seq -s ',' $(sed -n 's#\([0-9]\+\)-\([0-9]\+\).*#\1 \2#p' <<< "$num"))
else
res="$num"
fi
result_str="$result_str,$res"
done
echo ${result_str:1}
Will produce the following output:
1,5,6,7,13,14,15,16,17,18,22
expand_commas()
{
local arg
local st en i
set -- ${1//,/ }
for arg
do
case $arg in
[0-9]*-[0-9]*)
st=${arg%-*}
en=${arg#*-}
for ((i = st; i <= en; i++))
do
echo $i
done
;;
*)
echo $arg
;;
esac
done
}
Usage:
result=$(expand_commas arg)
eg:
result=$(expand_commas 1,5-7,9-12,3)
echo $result
You'll have to turn the separated words back into commas, of course.
It's a bit fragile with bad inputs but it's entirely in bash.
Here's my stab at it:
input=1,5-7,10,17-20
IFS=, read -a chunks <<< "$input"
output=()
for chunk in "${chunks[#]}"
do
IFS=- read -a args <<< "$chunk"
if (( ${#args[#]} == 1 )) # single number
then
output+=(${args[*]})
else # range
output+=($(seq "${args[#]}"))
fi
done
joined=$(sed -e 's/ /,/g' <<< "${output[*]}")
echo $joined
Basically split on commas, then interpret each piece. Then join back together with commas at the end.
A generic bash solution using the sequence expression `{x..y}'
#!/bin/bash
function doIt() {
local inp="${#/,/ }"
declare -a args=( $(echo ${inp/-/..}) )
local item
local sep
for item in "${args[#]}"
do
case ${item} in
*..*) eval "for i in {${item}} ; do echo -n \${sep}\${i}; sep=, ; done";;
*) echo -n ${sep}${item};;
esac
sep=,
done
}
doIt "1,5-7"
Should work with any input following the sample in the question. Also with multiple occurrences of x-y
Use only bash builtins
Using ideas from both #Ansgar Wiechers and #CodeGnome:
input="1,5-7,13-18,22"
for s in ${input//,/ }
do
if [[ $f =~ - ]]
then
a+=( $(eval echo {${s//-/..}}) )
else
a+=( $s )
fi
done
oldIFS=$IFS; IFS=$','; echo "${a[*]}"; IFS=$oldIFS
Works in Bash 3
Considering all the other answers, I came up with this solution, which does not use any sub-shells (but one call to eval for brace expansion) or separate processes:
# range list is assumed to be in $1 (e.g. 1-3,5,9-13)
# convert $1 to an array of ranges ("1-3" "5" "9-13")
IFS=,
local range=($1)
unset IFS
list=() # initialize result list
local r
for r in "${range[#]}"; do
if [[ $r == *-* ]]; then
# if the range is of the form "x-y",
# * convert to a brace expression "{x..y}",
# * using eval, this gets expanded to "x" "x+1" … "y" and
# * append this to the list array
eval list+=( {${r/-/..}} )
else
# otherwise, it is a simple number and can be appended to the array
list+=($r)
fi
done
# test output
echo ${list[#]}