11

I'm trying to read a multi-line tab-separated file in bash. The format is such that empty fields are expected. Unfortunately, the shell is collapsing together field separators which are next to each other, as so:

# IFS=$'\t'
# read one two three <<<$'one\t\tthree'
# printf '<%s> ' "$one" "$two" "$three"; printf '\n'
<one> <three> <>

...as opposed to the desired output of <one> <> <three>.

Can this be resolved without resorting to a separate language (such as awk)?

0
3

Here's an approach with some niceties:

  • input data from wherever becomes a pseudo-2D array in the main code (avoiding a common problem where the data is only available within one stage of a pipeline).
  • no use of awk, tr, or other external progs
  • a get/put accessor pair to hide the hairier syntax
  • works on tab-delimited lines by using param matching instead of IFS=

The code. file_data and file_input are just for generating input as though from a external command called from the script. data and cols could be parameterized for the get and put calls, etc, but this script doesn't go that far.

#!/bin/bash

file_data=( $'\t\t'       $'\t\tbC'     $'\tcB\t'     $'\tdB\tdC'   \
            $'eA\t\t'     $'fA\t\tfC'   $'gA\tgB\t'   $'hA\thB\thC' )
file_input () { printf '%s\n' "${file_data[@]}" ; }  # simulated input file
delim=$'\t'

# the IFS=$'\n' has a side-effect of skipping blank lines; acceptable:
OIFS="$IFS" ; IFS=$'\n' ; oset="$-" ; set -f
lines=($(file_input))                    # read the "file"
set -"$oset" ; IFS="$OIFS" ; unset oset  # cleanup the environment mods.

# the read-in data has (rows * cols) fields, with cols as the stride:
data=()
cols=0
get () { local r=$1 c=$2 i ; (( i = cols * r + c )) ; echo "${data[$i]}" ; }
put () { local r=$1 c=$2 i ; (( i = cols * r + c )) ; data[$i]="$3" ; }

# convert the lines from input into the pseudo-2D data array:
i=0 ; row=0 ; col=0
for line in "${lines[@]}" ; do
    line="$line$delim"
    while [ -n "$line" ] ; do
        case "$line" in
            *${delim}*) data[$i]="${line%%${delim}*}" ; line="${line#*${delim}}" ;;
            *)          data[$i]="${line}"            ; line=                     ;;
        esac
        (( ++i ))
    done
    [ 0 = "$cols" ] && (( cols = i )) 
done
rows=${#lines[@]}

# output the data array as a matrix, using the get accessor
for    (( row=0 ; row < rows ; ++row )) ; do
   printf 'row %2d: ' $row
   for (( col=0 ; col < cols ; ++col )) ; do
       printf '%5s ' "$(get $row $col)"
   done
   printf '\n'
done

Output:

$ ./tabtest 
row  0:                   
row  1:                bC 
row  2:          cB       
row  3:          dB    dC 
row  4:    eA             
row  5:    fA          fC 
row  6:    gA    gB       
row  7:    hA    hB    hC 
3
13

Sure


IFS=,
echo $'one\t\tthree' | tr \\11 , | (
  read one two three
  printf '<%s> ' "$one" "$two" "$three"; printf '\n'
)

I've rearranged the example just a bit, but only to make it work in any Posix shell.

Update: Yeah, it seems that white space is special, at least if it's in IFS. See the second half of this paragraph from bash(1):

   The shell treats each character of IFS as a delimiter, and  splits  the
   results of the other expansions into words on these characters.  If IFS
   is unset, or its value is exactly <space><tab><newline>,  the  default,
   then  any  sequence  of IFS characters serves to delimit words.  If IFS
   has a value other than the default, then sequences  of  the  whitespace
   characters  space  and  tab are ignored at the beginning and end of the
   word, as long as the whitespace character is in the value  of  IFS  (an
   IFS whitespace character).  Any character in IFS that is not IFS white-
   space, along with any adjacent IFS whitespace  characters,  delimits  a
   field.   A  sequence  of IFS whitespace characters is also treated as a
   delimiter.  If the value of IFS is null, no word splitting occurs.
10
  • Is there something special about whitespace, then, that I need to choose a non-whitespace character (in your example, a comma) guaranteed never to be found in my data? – Charles Duffy Jan 7 '11 at 4:16
  • Good answer. Not using it myself as I don't like restricting the valid range of data unnecessary, but definitely worth an upvote. – Charles Duffy Jan 7 '11 at 4:33
  • Hmm, one idea might be to tr(1) the tabs into newlines and then issue three separate read calls. That should be a simple way to preserve all possible input characters but still process things in strict shell code. – DigitalRoss Jan 7 '11 at 4:49
  • 2
    Doesn't the quoted verbiage mean that if you changed the IFS to just tab, then you'd get the required splitting behaviour? – Jonathan Leffler Jan 7 '11 at 5:25
  • 4
    @Jonathan: It says that a " sequence of IFS whitespace characters is also treated as a delimiter.", so no. – Dennis Williamson Jan 7 '11 at 8:23
6

It's not necessary to use tr, but it is necessary that IFS is a non-whitespace character (otherwise multiples get collapsed to singles as you've seen).

$ IFS=, read -r one two three <<<'one,,three'
$ printf '<%s> ' "$one" "$two" "$three"; printf '\n'
<one> <> <three>

$ var=$'one\t\tthree'
$ var=${var//$'\t'/,}
$ IFS=, read -r one two three <<< "$var"
$ printf '<%s> ' "$one" "$two" "$three"; printf '\n'
<one> <> <three>

$ idel=$'\t' odel=','
$ var=$'one\t\tthree'
$ var=${var//$idel/$odel}
$ IFS=$odel read -r one two three <<< "$var"
$ printf '<%s> ' "$one" "$two" "$three"; printf '\n'
<one> <> <three>
2
  • +1 for pointing out that the substitution can be done with PE – Charles Duffy Jan 7 '11 at 22:22
  • 2
    Using IFS=$'\a' works, and you probably don't have \a (alarm bell) in your input data. – tricasse Oct 27 '17 at 23:44
4

I've written a function which works around this issue. This particular implementation is particular about tab-separated columns and newline-separated rows, but that limitation could be removed as a straightforward exercise:

read_tdf_line() {
    local default_ifs=$' \t\n'
    local n line element at_end old_ifs
    old_ifs="${IFS:-${default_ifs}}"
    IFS=$'\n'

    if ! read -r line ; then
        return 1
    fi
    at_end=0
    while read -r element; do
        if (( $# > 1 )); then
            printf -v "$1" '%s' "$element"
            shift
        else
            if (( at_end )) ; then
                # replicate read behavior of assigning all excess content
                # to the last variable given on the command line
                printf -v "$1" '%s\t%s' "${!1}" "$element"
            else
                printf -v "$1" '%s' "$element"
                at_end=1
            fi
        fi
    done < <(tr '\t' '\n' <<<"$line")

    # if other arguments exist on the end of the line after all
    # input has been eaten, they need to be blanked
    if ! (( at_end )) ; then
        while (( $# )) ; do
            printf -v "$1" '%s' ''
            shift
        done
    fi

    # reset IFS to its original value (or the default, if it was
    # formerly unset)
    IFS="$old_ifs"
}

Usage as follows:

# read_tdf_line one two three rest <<<$'one\t\tthree\tfour\tfive'
# printf '<%s> ' "$one" "$two" "$three" "$rest"; printf '\n'
<one> <> <three> <four       five>
4
  • If IFS was previously unset, why would you restore it to the default, instead of unsetting it again? – chepner May 17 '13 at 14:40
  • It doesn't fare well if the read line is more like read one two three rest <<<$'\t\tthree\tfour\tfive' - it relies heavily on non-null initial fields; empty fields throw the indexing off. – Alex North-Keys May 17 '13 at 14:53
  • @chepner Ease-of-implementation; this way I don't need to have a way to represent the unset state. – Charles Duffy Oct 23 '13 at 17:41
  • Should the first line of the usage section be # read_tdf_line one two three rest <<<$'one\t\tthree\tfour\tfive' (correcting the function name)? – Dennis Williamson Oct 2 '17 at 19:48
3

Here's a fast and simple function I use that avoids calling external programs or restricting the range of input characters. It works in bash only (I guess).

If it is to allow for more variables than fields, though, it needs to be modified along Charles Duffy's answer.

# Substitute for `read -r' that doesn't merge adjacent delimiters.
myread() {
        local input
        IFS= read -r input || return $?
        while [[ "$#" -gt 1 ]]; do
                IFS= read -r "$1" <<< "${input%%[$IFS]*}"
                input="${input#*[$IFS]}"
                shift
        done
        IFS= read -r "$1" <<< "$input"
}
4
  • FYI, you can just do || return; $? is the default return value. – Charles Duffy Oct 23 '13 at 13:48
  • 2
    ...also, [[ "$#" -gt 1 ]] is a suboptimal way to write things; while (( $# )); do is shorter, whereas while (( $# > 1 )); do is clearer. – Charles Duffy Oct 23 '13 at 17:39
  • Thanks @charles-duffy. Quotes around $# are only for the highlighting engine here, which otherwise interprets the # as introducing a comment. Also, if you deal with very long lines it'd probably be faster to avoid the second pattern matching like this: local len; and then in the inner loop after the "IFS=" line: len=${!1}; len=${#len}; input=${input:$len} – Stefan Kriwanek Oct 24 '13 at 6:50
  • 2
    It wasn't actually the quotes I was objecting to, but the use of -gt. Using a numeric-comparison operator in the general-purpose test context rather than using a math context hurts readability, as opposed to being able to use conventional math-centric operators. – Charles Duffy Oct 24 '13 at 11:55
0

To prevent the collapse of empty fields, you can use any delimiter other than the IFS "whitespace" chars.

An example of how different delimiters would behave:

#!/bin/bash

for delimiter in  $'\t'  ','  '|'  $'\377'  $'\x1f'  ;do
  line="one${delimiter}${delimiter}three"
  IFS=$delimiter read one two three <<<"$line"
  printf '<%s> ' "$one" "$two" "$three"; printf '\n'
done

<one> <three> <>
<one> <> <three>
<one> <> <three>
<one> <> <three>
<one> <> <three>

Or to use the OP's original example:

IFS='|' read one two three <<<$(tr '\t' '|' <<<$'one\t\tthree')
printf '<%s> ' "$one" "$two" "$three"; printf '\n'

<one> <> <three>

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