#RUN: %fish %s # Tests for string builtin. Mostly taken from man page examples. string match -r -v "c.*" dog can cat diz; and echo "exit 0" # CHECK: dog # CHECK: diz # CHECK: exit 0 string match -q -r -v "c.*" dog can cat diz; and echo "exit 0" # CHECK: exit 0 string match -v "c*" dog can cat diz; and echo "exit 0" # CHECK: dog # CHECK: diz # CHECK: exit 0 string match -q -v "c*" dog can cat diz; and echo "exit 0" # CHECK: exit 0 string match -v "d*" dog dan dat diz; or echo "exit 1" # CHECK: exit 1 string match -q -v "d*" dog dan dat diz; or echo "exit 1" # CHECK: exit 1 string match -r -v x y; and echo "exit 0" # CHECK: y # CHECK: exit 0 string match -r -v x x; or echo "exit 1" # CHECK: exit 1 string match -q -r -v x y; and echo "exit 0" # CHECK: exit 0 string match -q -r -v x x; or echo "exit 1" # CHECK: exit 1 string length "hello, world" # CHECK: 12 string length -q ""; and echo not zero length; or echo zero length # CHECK: zero length string pad foo # CHECK: foo string pad -r -w 7 -c - foo # CHECK: foo---- string pad --width 7 -c '=' foo # CHECK: ====foo echo \|(string pad --width 10 --right foo)\| # CHECK: |foo | begin set -l fish_emoji_width 2 # Pad string with multi-width emoji. string pad -w 4 -c . šŸŸ # CHECK: ..šŸŸ # Pad with multi-width character. string pad -w 3 -c šŸŸ . # CHECK: šŸŸ. # Multi-width pad with remainder, complemented with a space. string pad -w 4 -c šŸŸ . .. # CHECK: šŸŸ . # CHECK: šŸŸ.. end # Pad to the maximum length. string pad -c . long longer longest # CHECK: ...long # CHECK: .longer # CHECK: longest # This tests current behavior where the max width of an argument overrules # the width parameter. This could be changed if needed. string pad -c_ --width 5 longer-than-width-param x # CHECK: longer-than-width-param # CHECK: ______________________x # Current behavior is that only a single padding character is supported. # We can support longer strings in future without breaking compatibilty. string pad -c ab -w4 . # CHECKERR: string pad: Padding should be a character 'ab' # Visible length. Let's start off simple, colors are ignored: string length --visible (set_color red)abc # CHECK: 3 begin set -l fish_emoji_width 2 # This should print the emoji width string length --visible . \U2693 # CHECK: 1 # CHECK: 2 set -l fish_emoji_width 1 string length --visible . \U2693 # CHECK: 1 # CHECK: 1 end # Only the longest run between carriage returns is kept because the rest is overwritten. string length --visible (set_color normal)abcdef\rfooba(set_color red)raaa # (foobaraaa) # CHECK: 9 # Visible length is *always* split by line string length --visible a(set_color blue)b\ncde # CHECK: 2 # CHECK: 3 # Backslashes and visible length: # It can't move us before the start of the line. string length --visible \b # CHECK: 0 # It can't move us before the start of the line. string length --visible \bf # CHECK: 1 # But it does erase chars before. string length --visible \bf\b # CHECK: 0 # Never move past 0. string length --visible \bf\b\b\b\b\b # CHECK: 0 string sub --length 2 abcde # CHECK: ab string sub -s 2 -l 2 abcde # CHECK: bc string sub --start=-2 abcde # CHECK: de string sub --end=3 abcde # CHECK: abc string sub --end=-4 abcde # CHECK: a string sub --start=2 --end=-2 abcde # CHECK: bc string sub -s -5 -e -2 abcdefgh # CHECK: def string sub -s -100 -e -2 abcde # CHECK: abc string sub -s -5 -e 2 abcde # CHECK: ab string sub -s -50 -e -100 abcde # CHECK: string sub -s 2 -e -5 abcde # CHECK: string split . example.com # CHECK: example # CHECK: com string split -r -m1 / /usr/local/bin/fish # CHECK: /usr/local/bin # CHECK: fish string split "" abc # CHECK: a # CHECK: b # CHECK: c string split --fields=2 "" abc # CHECK: b string split --fields=3,2 "" abc # CHECK: c # CHECK: b string split --fields=2,9 "" abc; or echo "exit 1" # CHECK: exit 1 string split --fields=1-3,5,9-7 "" 123456789 # CHECK: 1 # CHECK: 2 # CHECK: 3 # CHECK: 5 # CHECK: 9 # CHECK: 8 # CHECK: 7 string split -f1 ' ' 'a b' 'c d' # CHECK: a # CHECK: c string split --allow-empty --fields=2,9 "" abc # CHECK: b seq 3 | string join ... # CHECK: 1...2...3 string trim " abc " # CHECK: abc string trim --right --chars=yz xyzzy zany # CHECK: x # CHECK: zan echo \x07 | string escape # CHECK: \cg string escape --style=script 'a b#c"\'d' # CHECK: a\ b\#c\"\'d string escape --style=url 'a b#c"\'d' # CHECK: a%20b%23c%22%27d string escape --style=url \na\nb%c~d\n # CHECK: %0Aa%0Ab%25c~d%0A string escape --style=var 'a b#c"\'d' # CHECK: a_20_b_23_c_22_27_d string escape --style=var a\nghi_ # CHECK: a_0A_ghi__ string escape --style=var abc # CHECK: abc string escape --style=var _a_b_c_ # CHECK: __a__b__c__ string escape --style=var -- - # CHECK: _2D_ # string escape with multibyte chars string escape --style=url aƶb string escape --style=url äø­ string escape --style=url aƶb | string unescape --style=url string escape --style=url äø­ | string unescape --style=url string escape --style=var aƶb string escape --style=var äø­ string escape --style=var aƶb | string unescape --style=var string escape --style=var äø­ | string unescape --style=var # CHECK: a%C3%B6b # CHECK: %E4%B8%AD # CHECK: aƶb # CHECK: äø­ # CHECK: a_C3_B6_b # CHECK: _E4_B8_AD_ # CHECK: aƶb # CHECK: äø­ # test regex escaping string escape --style=regex ".ext" string escape --style=regex "bonjour, amigo" string escape --style=regex "^this is a literal string" # CHECK: \.ext # CHECK: bonjour, amigo # CHECK: \^this is a literal string ### Verify that we can correctly unescape the same strings # we tested escaping above. set x (string unescape (echo \x07 | string escape)) test $x = \x07 and echo success # CHECK: success string unescape --style=script (string escape --style=script 'a b#c"\'d') # CHECK: a b#c"'d string unescape --style=url (string escape --style=url 'a b#c"\'d') # CHECK: a b#c"'d string unescape --style=url (string escape --style=url \na\nb%c~d\n) # CHECK: # CHECK: a # CHECK: b%c~d string unescape --style=var (string escape --style=var 'a b#c"\'d') # CHECK: a b#c"'d string unescape --style=var (string escape --style=var a\nghi_) # CHECK: a # CHECK: ghi_ string unescape --style=var (string escape --style=var 'abc') # CHECK: abc string unescape --style=var (string escape --style=var '_a_b_c_') # CHECK: _a_b_c_ string unescape --style=var -- (string escape --style=var -- -) # CHECK: - ### Verify that we can correctly match strings. string match "*" a # CHECK: a string match "a*b" axxb # CHECK: axxb string match -i "a**B" Axxb # CHECK: Axxb echo "ok?" | string match "*?" # CHECK: ok? string match -r "cat|dog|fish" "nice dog" # CHECK: dog string match -r "(\d\d?):(\d\d):(\d\d)" 2:34:56 # CHECK: 2:34:56 # CHECK: 2 # CHECK: 34 # CHECK: 56 string match -r "^(\w{2,4})\g1\$" papa mud murmur # CHECK: papa # CHECK: pa # CHECK: murmur # CHECK: mur string match -r -a -n at ratatat # CHECK: 2 2 # CHECK: 4 2 # CHECK: 6 2 string match -r -i "0x[0-9a-f]{1,8}" "int magic = 0xBadC0de;" # CHECK: 0xBadC0de string replace is was "blue is my favorite" # CHECK: blue was my favorite string replace 3rd last 1st 2nd 3rd # CHECK: 1st # CHECK: 2nd # CHECK: last string replace -a " " _ "spaces to underscores" # CHECK: spaces_to_underscores string replace -r -a "[^\d.]+" " " "0 one two 3.14 four 5x" # CHECK: 0 3.14 5 string replace -r "(\w+)\s+(\w+)" "\$2 \$1 \$\$" "left right" # CHECK: right left $ string replace -r "\s*newline\s*" "\n" "put a newline here" # CHECK: put a # CHECK: here string replace -r -a "(\w)" "\$1\$1" ab # CHECK: aabb string replace --filter x X abc axc x def jkx or echo Unexpected exit status at line (status --current-line-number) # CHECK: aXc # CHECK: X # CHECK: jkX string replace --filter y Y abc axc x def jkx and echo Unexpected exit status at line (status --current-line-number) string replace --regex -f "\d" X 1bc axc 2 d3f jk4 xyz or echo Unexpected exit status at line (status --current-line-number) # CHECK: Xbc # CHECK: X # CHECK: dXf # CHECK: jkX string replace --regex -f Z X 1bc axc 2 d3f jk4 xyz and echo Unexpected exit status at line (status --current-line-number) # From https://github.com/fish-shell/fish-shell/issues/5201 # 'string match -r with empty capture groups' string match -r '^([ugoa]*)([=+-]?)([rwx]*)$' '=r' #CHECK: =r #CHECK: #CHECK: = #CHECK: r ### Test some failure cases string match -r "[" "a[sd"; and echo "unexpected exit 0" # CHECKERR: string match: Regular expression compile error: missing terminating ] for character class # CHECKERR: string match: [ # CHECKERR: string match: ^ # FIXME: This prints usage summary? #string invalidarg; and echo "unexpected exit 0" # DONTCHECKERR: string: Subcommand 'invalidarg' is not valid string length; or echo "missing argument returns 1" # CHECK: missing argument returns 1 string match -r -v "[dcantg].*" dog can cat diz; or echo "no regexp invert match" # CHECK: no regexp invert match string match -v "*" dog can cat diz; or echo "no glob invert match" # CHECK: no glob invert match string match -rvn a bbb; or echo "exit 1" # CHECK: 1 3 ### Test repeat subcommand string repeat -n 2 foo # CHECK: foofoo string repeat --count 2 foo # CHECK: foofoo echo foo | string repeat -n 2 # CHECK: foofoo string repeat -n2 -q foo; and echo "exit 0" # CHECK: exit 0 string repeat -n2 --quiet foo; and echo "exit 0" # CHECK: exit 0 string repeat -n0 foo; or echo "exit 1" # CHECK: exit 1 string repeat -n0; or echo "exit 1" # CHECK: exit 1 string repeat -m0; or echo "exit 1" # CHECK: exit 1 string repeat -n1 -N "there is " echo "no newline" # CHECK: there is no newline string repeat -n1 --no-newline "there is " echo "no newline" # CHECK: there is no newline string repeat -n10 -m4 foo # CHECK: foof string repeat -n10 --max 5 foo # CHECK: foofo string repeat -n3 -m20 foo # CHECK: foofoofoo string repeat -m4 foo # CHECK: foof string repeat -n 5 a b c # CHECK: aaaaa # CHECK: bbbbb # CHECK: ccccc string repeat -n 5 --max 4 123 456 789 # CHECK: 1231 # CHECK: 4564 # CHECK: 7897 string repeat -n 5 --max 4 123 '' 789 # CHECK: 1231 # CHECK: # CHECK: 7897 # Historical string repeat behavior is no newline if no output. echo -n before string repeat -n 5 '' echo after # CHECK: beforeafter string repeat -n-1 foo; and echo "exit 0" # CHECKERR: string repeat: Invalid count value '-1' string repeat -m-1 foo; and echo "exit 0" # CHECKERR: string repeat: Invalid max value '-1' string repeat -n notanumber foo; and echo "exit 0" # CHECKERR: string repeat: notanumber: invalid integer string repeat -m notanumber foo; and echo "exit 0" # CHECKERR: string repeat: notanumber: invalid integer echo stdin | string repeat -n1 "and arg"; and echo "exit 0" # CHECKERR: string repeat: too many arguments string repeat -n; and echo "exit 0" # CHECKERR: string repeat: -n: option requires an argument # FIXME: Also triggers usage # string repeat -l fakearg # DONTCHECKERR: string repeat: Unknown option '-l' string repeat "" or echo string repeat empty string failed # CHECK: string repeat empty string failed string repeat -n3 "" or echo string repeat empty string failed # CHECK: string repeat empty string failed # See that we hit the expected length # First with "max", i.e. maximum number of characters string repeat -m 5000 aab | string length # CHECK: 5000 string repeat -m 5000 ab | string length # CHECK: 5000 string repeat -m 5000 a | string length # CHECK: 5000 string repeat -m 17 aab | string length # CHECK: 17 string repeat -m 17 ab | string length # CHECK: 17 string repeat -m 17 a | string length # CHECK: 17 # Then with "count", i.e. number of repetitions. # (these are count * length long) string repeat -n 17 aab | string length # CHECK: 51 string repeat -n 17 ab | string length # CHECK: 34 string repeat -n 17 a | string length # CHECK: 17 # And a more tricksy case with a long string that we truncate. string repeat -m 5 (string repeat -n 500000 aaaaaaaaaaaaaaaaaa) | string length # CHECK: 5 # Test equivalent matches with/without the --entire, --regex, and --invert flags. string match -e x abc dxf xyz jkx x z or echo exit 1 # CHECK: dxf # CHECK: xyz # CHECK: jkx # CHECK: x string match x abc dxf xyz jkx x z # CHECK: x string match --entire -r "a*b[xy]+" abc abxc bye aaabyz kaabxz abbxy abcx caabxyxz or echo exit 1 # CHECK: abxc # CHECK: bye # CHECK: aaabyz # CHECK: kaabxz # CHECK: abbxy # CHECK: caabxyxz # 'string match --entire "" -- banana' string match --entire "" -- banana or echo exit 1 # CHECK: banana # 'string match -r "a*b[xy]+" abc abxc bye aaabyz kaabxz abbxy abcx caabxyxz' string match -r "a*b[xy]+" abc abxc bye aaabyz kaabxz abbxy abcx caabxyxz or echo exit 1 # CHECK: abx # CHECK: by # CHECK: aaaby # CHECK: aabx # CHECK: bxy # CHECK: aabxyx # Make sure that groups are handled correct with/without --entire. # 'string match --entire -r "a*b([xy]+)" abc abxc bye aaabyz kaabxz abbxy abcx caabxyxz' string match --entire -r "a*b([xy]+)" abc abxc bye aaabyz kaabxz abbxy abcx caabxyxz or echo exit 1 # CHECK: abxc # CHECK: x # CHECK: bye # CHECK: y # CHECK: aaabyz # CHECK: y # CHECK: kaabxz # CHECK: x # CHECK: abbxy # CHECK: xy # CHECK: caabxyxz # CHECK: xyx # 'string match -r "a*b([xy]+)" abc abxc bye aaabyz kaabxz abbxy abcx caabxyxz' string match -r "a*b([xy]+)" abc abxc bye aaabyz kaabxz abbxy abcx caabxyxz or echo exit 1 # CHECK: abx # CHECK: x # CHECK: by # CHECK: y # CHECK: aaaby # CHECK: y # CHECK: aabx # CHECK: x # CHECK: bxy # CHECK: xy # CHECK: aabxyx # CHECK: xyx # Test `string lower` and `string upper`. set x (string lower abc DEF gHi) or echo string lower exit 1 test $x[1] = abc -a $x[2] = def -a $x[3] = ghi or echo strings not converted to lowercase set x (echo abc DEF gHi | string lower) or echo string lower exit 1 test $x[1] = 'abc def ghi' or echo strings not converted to lowercase string lower -q abc and echo lowercasing a lowercase string did not fail as expected set x (string upper abc DEF gHi) or echo string upper exit 1 test $x[1] = ABC -a $x[2] = DEF -a $x[3] = GHI or echo strings not converted to uppercase set x (echo abc DEF gHi | string upper) or echo string upper exit 1 test $x[1] = 'ABC DEF GHI' or echo strings not converted to uppercase string upper -q ABC DEF and echo uppercasing a uppercase string did not fail as expected # 'Check NUL' # Note: We do `string escape` at the end to make a `\0` literal visible. printf 'a\0b\n' | string escape printf 'a\0c\n' | string match -e a | string escape printf 'a\0d\n' | string split '' | string escape printf 'a\0b\n' | string match -r '.*b$' | string escape printf 'a\0b\n' | string replace b g | string escape printf 'a\0b\n' | string replace -r b g | string escape # TODO: These do not yet work! # printf 'a\0b' | string match '*b' | string escape # CHECK: a\x00b # CHECK: a\x00c # CHECK: a # CHECK: \x00 # CHECK: d # CHECK: a\x00b # CHECK: a\x00g # CHECK: a\x00g # string split0 count (echo -ne 'abcdefghi' | string split0) # CHECK: 1 count (echo -ne 'abc\x00def\x00ghi\x00' | string split0) # CHECK: 3 count (echo -ne 'abc\x00def\x00ghi\x00\x00' | string split0) # CHECK: 4 count (echo -ne 'abc\x00def\x00ghi' | string split0) # CHECK: 3 count (echo -ne 'abc\ndef\x00ghi\x00' | string split0) # CHECK: 2 count (echo -ne 'abc\ndef\nghi' | string split0) # CHECK: 1 # #5701 - split0 always returned 1 echo -ne 'a\x00b' | string split0 and echo Split something # CHECK: a # CHECK: b # CHECK: Split something # string join0 set tmp beta alpha\ngamma count (string join \n $tmp) # CHECK: 3 count (string join0 $tmp) # CHECK: 2 count (string join0 $tmp | string split0) # CHECK: 2 # string split0 in functions # This function outputs some newline-separated content, and some # explicitly separated content. function dualsplit echo alpha echo beta echo -ne 'gamma\x00delta' | string split0 end count (dualsplit) # CHECK: 4 # Ensure we handle empty outputs correctly (#5987) count (string split / /) # CHECK: 2 count (echo -ne '\x00\x00\x00' | string split0) # CHECK: 3 # string collect count (echo one\ntwo\nthree\nfour | string collect) count (echo one | string collect) # CHECK: 1 # CHECK: 1 echo [(echo one\ntwo\nthree | string collect)] # CHECK: [one # CHECK: two # CHECK: three] echo [(echo one\ntwo\nthree | string collect -N)] # CHECK: [one # CHECK: two # CHECK: three # CHECK: ] printf '[%s]\n' (string collect one\n\n two\n) # CHECK: [one] # CHECK: [two] printf '[%s]\n' (string collect -N one\n\n two\n) # CHECK: [one # CHECK: # CHECK: ] # CHECK: [two # CHECK: ] printf '[%s]\n' (string collect --no-trim-newlines one\n\n two\n) # CHECK: [one # CHECK: # CHECK: ] # CHECK: [two # CHECK: ] # string collect returns 0 when it has any output, otherwise 1 string collect >/dev/null; and echo unexpected success; or echo expected failure # CHECK: expected failure echo -n | string collect >/dev/null; and echo unexpected success; or echo expected failure # CHECK: expected failure echo | string collect -N >/dev/null; and echo expected success; or echo unexpected failure # CHECK: expected success echo | string collect >/dev/null; and echo unexpected success; or echo expected failure # CHECK: expected failure string collect a >/dev/null; and echo expected success; or echo unexpected failure # CHECK: expected success string collect -N '' >/dev/null; and echo unexpected success; or echo expected failure # CHECK: expected failure string collect \n\n >/dev/null; and echo unexpected success; or echo expected failure # CHECK: expected failure echo "foo"(true | string collect --allow-empty)"bar" # CHECK: foobar test -z (string collect) and echo Nothing # CHECK: Nothing test -n (string collect) and echo Something # CHECK: Something test -n (string collect -a) or echo No, actually nothing # CHECK: No, actually nothing # string collect in functions # This function outputs some newline-separated content, and some # explicitly un-separated content. function dualcollect echo alpha echo beta echo gamma\ndelta\nomega | string collect end count (dualcollect) # CHECK: 3 string match -qer asd asd echo $status # CHECK: 0 string match -eq asd asd echo $status # CHECK: 0 # Unmatched capturing groups are treated as empty echo az | string replace -r -- 'a(b.+)?z' 'a:$1z' # CHECK: a:z # --quiet should quit early echo "Checking that --quiet quits early - if this is broken it hangs" # CHECK: Checking that --quiet quits early - if this is broken it hangs yes | string match -q y echo $status # CHECK: 0 yes | string length -q echo $status # CHECK: 0 yes | string replace -q y n echo $status # CHECK: 0 # `string` can't be wrapped properly anymore, since `string match` creates variables: function string builtin string $argv end # CHECKERR: checks/string.fish (line {{\d+}}): function: string: cannot use reserved keyword as function name # CHECKERR: function string # CHECKERR: ^ string escape \x7F # CHECK: \x7f # This used to crash. string pad -w 8 he \eh # CHECK: he # CHECK: {{\x1bh}} string match -rg '(.*)fish' catfish # CHECK: cat string match -rg '(.*)fish' shellfish # CHECK: shell # An empty match string match -rg '(.*)fish' fish # No match at all string match -rg '(.*)fish' banana # Make sure it doesn't start matching something string match -r --groups-only '(.+)fish' fish echo $status # CHECK: 1 # Multiple groups string match -r --groups-only '(.+)fish(.*)' catfishcolor # CHECK: cat # CHECK: color # Examples specifically called out in #6056. echo "foo bar baz" | string match -rg 'foo (bar) baz' # CHECK: bar echo "foo1x foo2x foo3x" | string match -arg 'foo(\d)x' # CHECK: 1 # CHECK: 2 # CHECK: 3 # Most subcommands preserve missing newline (#3847). echo -n abc | string upper echo '' # CHECK: ABC printf \< printf my-password | string replace -ra . \* printf \>\n # CHECK: <***********> string shorten -m 3 foo # CHECK: foo string shorten -m 2 foo # CHECK: fā€¦ string shorten -m 5 foobar # CHECK: foobā€¦ # Char is longer than width, we truncate instead. string shorten -m 5 --char ........ foobar # CHECK: fooba string shorten --max 4 -c /// foobar # CHECK: f/// string shorten --max 4 -c /// foobarnana # CHECK: f/// string shorten --max 2 --chars "" foo # CHECK: fo string shorten foo foobar # CHECK: foo # CHECK: foā€¦ # A weird case - our minimum width here is 1, # so everything that goes over the width becomes "x" for i in (seq 1 10) math 2 ^ $i end | string shorten -c x # CHECK: 2 # CHECK: 4 # CHECK: 8 # CHECK: x # CHECK: x # CHECK: x # CHECK: x # CHECK: x # CHECK: x # CHECK: x string shorten -N -cx bar\nfooo # CHECK: barx # Shorten and emoji width. begin # \U1F4A9 was widened in unicode 9, so it's affected # by $fish_emoji_width # "ā€¦" isn't and always has width 1. # # "abcde" has width 5, we have a total width of 6, # so we need to overwrite the "e" with our ellipsis. fish_emoji_width=1 string shorten --max=5 -- abcdešŸ’© # CHECK: abcdā€¦ # This fits assuming the poo fits in one column fish_emoji_width=1 string shorten --max=6 -- abcdešŸ’© # CHECK: abcdešŸ’© # This has a total width of 7 (assuming double-wide poo), # so we need to add the ellipsis on the "e" fish_emoji_width=2 string shorten --max=5 -- abcdešŸ’© # CHECK: abcdā€¦ # This still doesn't fit! fish_emoji_width=2 string shorten --max=6 -- abcdešŸ’© # CHECK: abcdeā€¦ fish_emoji_width=2 string shorten --max=7 -- abcdešŸ’© # CHECK: abcdešŸ’© end # See that colors aren't counted string shorten -m6 (set_color blue)s(set_color red)t(set_color --bold brwhite)rin(set_color red)g(set_color yellow)-shorten | string escape # Renders like "strinā€¦" in colors # Note that red sequence that we still pass on because it's width 0. # CHECK: \e\[34ms\e\[31mt\e\[1m\e\[37mrin\e\[31mā€¦ set -l str (set_color blue)s(set_color red)t(set_color --bold brwhite)rin(set_color red)g(set_color yellow)-shorten for i in (seq 1 (string length -V -- $str)) set -l len (string shorten -m$i -- $str | string length -V) test $len = $i or echo Oopsie ellipsizing to $i failed end string shorten -m4 foobar\nbananarama # CHECK: fooā€¦ # CHECK: banā€¦ # First line is empty and printed as-is # The other lines are truncated to the width of the first real line. printf ' 1. line 2. another line 3. third line' | string shorten # CHECK: # CHECK: 1. line # CHECK: 2. anoā€¦ # CHECK: 3. thiā€¦ printf ' 1. line 2. another line 3. third line' | string shorten --left # CHECK: # CHECK: 1. line # CHECK: ā€¦r line # CHECK: ā€¦d line string shorten -m12 -l (set_color blue)s(set_color red)t(set_color --bold brwhite)rin(set_color red)(set_color green)g(set_color yellow)-shorten | string escape # Renders like "ā€¦ing-shorten" with g in green and "-shorten" in yellow # Yes, that's a "red" escape before. # CHECK: ā€¦in\e\[31m\e\[32mg\e\[33m-shorten set -l str (set_color blue)s(set_color red)t(set_color --bold brwhite)rin(set_color red)g(set_color yellow)-shorten for i in (seq 1 (string length -V -- $str)) set -l len (string shorten -m$i --left -- $str | string length -V) test $len = $i or echo Oopsie ellipsizing to $i failed end string shorten -m0 foo bar asodjsaoidj # CHECK: foo # CHECK: bar # CHECK: asodjsaoidj echo foo\x00bar | string escape # CHECK: foo\x00bar echo foo\\x00bar | string escape # CHECK: foo\\x00bar