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728a4634a1
This is a step to storing fish vars as actual vectors rather than flat strings.
254 lines
6.3 KiB
Fish
254 lines
6.3 KiB
Fish
# vim: set filetype=fish:
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#
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# Test read builtin and IFS.
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#
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logmsg Read with no vars is an error
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read
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logmsg Read with -a and anything other than exactly on var name is an error
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read -a
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read -a v1 v2
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read -a v1
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logmsg Verify correct behavior of subcommands and splitting of input.
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begin
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count (echo one\ntwo)
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set -l IFS \t
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count (echo one\ntwo)
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set -l IFS
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count (echo one\ntwo)
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echo [(echo -n one\ntwo)]
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count (echo one\ntwo\n)
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echo [(echo -n one\ntwo\n)]
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count (echo one\ntwo\n\n)
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echo [(echo -n one\ntwo\n\n)]
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end
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function print_vars --no-scope-shadowing
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set -l space
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set -l IFS \n # ensure our command substitution works right
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for var in $argv
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echo -n $space (count $$var) \'$$var\'
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set space ''
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end
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echo
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end
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logmsg Test splitting input
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echo 'hello there' | read -l one two
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print_vars one two
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echo 'hello there' | read -l one
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print_vars one
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echo '' | read -l one
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print_vars one
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echo '' | read -l one two
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print_vars one two
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echo 'test' | read -l one two three
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print_vars one two three
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echo 'foo bar baz' | read -l one two three
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print_vars one two three
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echo -n 'a' | read -l one
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echo "$status $one"
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logmsg Test splitting input with IFS empty
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set -l IFS
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echo 'hello' | read -l one
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print_vars one
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echo 'hello' | read -l one two
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print_vars one two
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echo 'hello' | read -l one two three
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print_vars one two three
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echo '' | read -l one
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print_vars one
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echo 't' | read -l one two
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print_vars one two
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echo 't' | read -l one two three
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print_vars one two three
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echo ' t' | read -l one two
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print_vars one two
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set -le IFS
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echo
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echo 'hello there' | read -la ary
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print_vars ary
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echo 'hello' | read -la ary
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print_vars ary
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echo 'this is a bunch of words' | read -la ary
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print_vars ary
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echo ' one two three' | read -la ary
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print_vars ary
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echo '' | read -la ary
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print_vars ary
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echo
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set -l IFS
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echo 'hello' | read -la ary
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print_vars ary
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echo 'h' | read -la ary
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print_vars ary
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echo '' | read -la ary
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print_vars ary
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set -le IFS
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# read -n tests
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logmsg read -n tests
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echo 'testing' | read -n 3 foo
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echo $foo
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echo 'test' | read -n 10 foo
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echo $foo
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echo 'test' | read -n 0 foo
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echo $foo
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echo 'testing' | begin; read -n 3 foo; read -n 3 bar; end
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echo $foo
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echo $bar
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echo 'test' | read -n 1 foo
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echo $foo
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# read -0 tests
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logmsg read -z tests
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echo -n 'testing' | read -lz foo
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echo $foo
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echo -n 'test ing' | read -lz foo
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echo $foo
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echo 'newline' | read -lz foo
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echo $foo
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echo -n 'test ing' | read -lz foo bar
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print_vars foo bar
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echo -ne 'test\0ing' | read -lz foo bar
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print_vars foo bar
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echo -ne 'foo\nbar' | read -lz foo bar
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print_vars foo bar
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echo -ne 'foo\nbar\0baz\nquux' | while read -lza foo
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print_vars foo
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end
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logmsg Chunked read tests
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set -l path /tmp/fish_chunked_read_test.txt
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set -l longstr (seq 1024 | string join ',')
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echo -n $longstr > $path
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read -l longstr2 < $path
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test "$longstr" = "$longstr2"
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and echo "Chunked reads test pass"
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or echo "Chunked reads test failure: long strings don't match!"
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rm $path
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# ==========
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# The following tests verify that `read` correctly handles the limit on the
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# number of bytes consumed.
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#
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set FISH_READ_BYTE_LIMIT 8192
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set line abcdefghijklmnopqrstuvwxyz
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# Ensure the `read` command terminates if asked to read too much data. The var
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# should be empty. We throw away any data we read if it exceeds the limit on
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# what we consider reasonable.
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yes $line | dd bs=1024 count=(math "1 + $FISH_READ_BYTE_LIMIT / 1024") ^/dev/null | read --null x
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if test $status -ne 122
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echo reading too much data did not terminate with failure status
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end
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# The read var should be defined but not have any elements when the read
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# aborts due to too much data.
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set -q x
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or echo reading too much data did not define the var
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set -q x[1]
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and echo reading too much data resulted in a var with unexpected data
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# Ensure the `read` command terminates if asked to read too much data even if
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# given an explicit limit. The var should be empty. We throw away any data we
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# read if it exceeds the limit on what we consider reasonable.
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yes $line | read --null --nchars=(math "$FISH_READ_BYTE_LIMIT + 1") x
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if test $status -ne 122
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echo reading too much data did not terminate with failure status
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end
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set -q x
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or echo reading too much data with --nchars did not define the var
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set -q x[1]
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and echo reading too much data with --nchars resulted in a var with unexpected data
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# Now do the opposite of the previous test and confirm we can read reasonable
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# amounts of data.
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echo $line | read x
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if test $status -ne 0
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echo the read of a reasonable amount of data failed unexpectedly
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end
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set exp_length (string length $x)
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set act_length (string length $line)
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if test $exp_length -ne $act_length
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echo reading a reasonable amount of data failed the length test
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echo expected length $exp_length, actual length $act_length
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end
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# Confirm we can read exactly up to the limit.
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yes $line | read --null --nchars $FISH_READ_BYTE_LIMIT x
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if test $status -ne 0
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echo the read of the max amount of data with --nchars failed unexpectedly
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end
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if test (string length "$x") -ne $FISH_READ_BYTE_LIMIT
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echo reading the max amount of data with --nchars failed the length test
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end
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# Same as previous test but limit the amount of data fed to `read` rather than
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# using the `--nchars` flag.
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yes $line | dd bs=1024 count=(math "$FISH_READ_BYTE_LIMIT / 1024") ^/dev/null | read --null x
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if test $status -ne 0
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echo the read of the max amount of data failed unexpectedly
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end
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if test (string length "$x") -ne $FISH_READ_BYTE_LIMIT
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echo reading the max amount of data with --nchars failed the length test
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end
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logmsg Confirm reading non-interactively works -- \#4206 regression
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echo abc\ndef | ../test/root/bin/fish -i -c 'read a; read b; set --show a; set --show b'
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logmsg Test --delimiter '(and $IFS, for now)'
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echo a=b | read -l foo bar
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echo $foo
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echo $bar
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logmsg Delimiter =
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echo a=b | read -l -d = foo bar
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echo $foo
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echo $bar
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logmsg Delimiter empty
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echo a=b | read -l -d '' foo bar baz
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echo $foo
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echo $bar
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echo $baz
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logmsg IFS empty string
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set -l IFS ''
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echo a=b | read -l foo bar baz
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echo $foo
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echo $bar
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echo $baz
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logmsg IFS unset
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set -e IFS
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echo a=b | read -l foo bar baz
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echo $foo
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echo $bar
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echo $baz
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logmsg Delimiter =
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echo a=b | read -l -d = foo bar baz
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echo $foo
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echo $bar
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echo $baz
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echo
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echo 'Multi-char delimiters with -d'
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echo a...b...c | read -l -d "..." a b c
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echo $a
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echo $b
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echo $c
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echo 'Multi-char delimiters with IFS'
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begin
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set IFS "..."
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echo a...b...c | read -l a b c
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echo $a; echo $b; echo $c
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end
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