# RUN: %fish -C 'set -g fish %fish' %s # caret position (#5812) printf '<%s>\n' ($fish -c ' $f[a]' 2>&1) # CHECK: # CHECK: < $f[a]> # CHECK: < ^> printf '<%s>\n' ($fish -c 'if $f[a]; end' 2>&1) # CHECK: # CHECK: # CHECK: < ^> set a A set aa AA set aaa AAA echo {$aa}a{1,2,3}(for a in 1 2 3; echo $a; end) #CHECK: AAa11 AAa21 AAa31 AAa12 AAa22 AAa32 AAa13 AAa23 AAa33 # basic expansion test echo {} echo {apple} echo {apple,orange} #CHECK: {} #CHECK: {apple} #CHECK: apple orange # expansion tests with spaces echo {apple, orange} echo { apple, orange, banana } #CHECK: apple orange #CHECK: apple orange banana # expansion with spaces and cartesian products echo \'{ hello , world }\' #CHECK: 'hello' 'world' # expansion with escapes for phrase in {good\,, beautiful ,morning} echo -n "$phrase " end | string trim echo for phrase in {goodbye\,,\ cruel\ ,world\n} echo -n $phrase end #CHECK: good, beautiful morning #CHECK: goodbye, cruel world # dual expansion cartesian product echo { alpha, beta }\ {lambda, gamma }, | string replace -r ',$' '' #CHECK: alpha lambda, beta lambda, alpha gamma, beta gamma # expansion with subshells for name in { (echo Meg), (echo Jo) } echo $name end #CHECK: Meg #CHECK: Jo # subshells with expansion for name in (for name in {Beth, Amy}; printf "$name\n"; end) printf "$name\n" end #CHECK: Beth #CHECK: Amy echo {{a,b}} #CHECK: {a} {b} # Test expansion of variables # We don't use the test utility function of the same name because we want # different behavior. Specifically, that the expansion of any variables or # other strings before we are invoked produce the expected expansion. function expansion --description 'Prints argument count followed by arguments' echo (count $argv) $argv end set -l foo expansion "$foo" expansion $foo expansion "prefix$foo" expansion prefix$foo #CHECK: 1 #CHECK: 0 #CHECK: 1 prefix #CHECK: 0 expansion "$$foo" expansion $$foo expansion "prefix$$foo" expansion prefix$$foo #CHECK: 1 #CHECK: 0 #CHECK: 1 prefix #CHECK: 0 set -l foo '' expansion "$foo" expansion $foo expansion "prefix$foo" expansion prefix$foo #CHECK: 1 #CHECK: 1 #CHECK: 1 prefix #CHECK: 1 prefix expansion "$$foo" expansion $$foo expansion "prefix$$foo" expansion prefix$$foo #CHECK: 1 #CHECK: 0 #CHECK: 1 prefix #CHECK: 0 set -l foo bar set -l bar expansion "$$foo" expansion $$foo expansion "prefix$$foo" expansion prefix$$foo #CHECK: 1 #CHECK: 0 #CHECK: 1 prefix #CHECK: 0 set -l bar baz expansion "$$foo" expansion $$foo expansion "prefix$$foo" expansion prefix$$foo #CHECK: 1 baz #CHECK: 1 baz #CHECK: 1 prefixbaz #CHECK: 1 prefixbaz set -l bar baz quux expansion "$$foo" expansion $$foo expansion "prefix$$foo" expansion prefix$$foo #CHECK: 1 baz quux #CHECK: 2 baz quux #CHECK: 1 prefixbaz quux #CHECK: 2 prefixbaz prefixquux set -l foo bar fooer fooest set -l fooer set -l fooest expansion "$$foo" expansion $$foo expansion "prefix$$foo" expansion prefix$$foo #CHECK: 1 baz quux fooer fooest #CHECK: 2 baz quux #CHECK: 1 prefixbaz quux fooer fooest #CHECK: 2 prefixbaz prefixquux set -l fooer '' expansion $$foo expansion prefix$$foo #CHECK: 3 baz quux #CHECK: 3 prefixbaz prefixquux prefix # Slices set -l foo bar '' fooest expansion "$$foo" expansion $$foo expansion "prefix$$foo" expansion prefix$$foo expansion $foo[-5..2] # No result, because the starting index is invalid and we force-reverse. expansion $foo[-2..-1] expansion $foo[-10..-5] expansion (printf '%s\n' $foo)[-5..2] expansion (printf '%s\n' $foo)[-2..-1] expansion (printf '%s\n' $foo)[-10..-5] expansion (echo one)[2..-1] #CHECK: 1 baz quux fooest #CHECK: 2 baz quux #CHECK: 1 prefixbaz quux fooest #CHECK: 2 prefixbaz prefixquux #CHECK: 0 #CHECK: 2 fooest #CHECK: 0 #CHECK: 0 #CHECK: 2 fooest #CHECK: 0 #CHECK: 0 set -l foo expansion "$foo[1]" expansion $foo[1] expansion "$foo[-1]" expansion $foo[-1] expansion "$foo[2]" expansion $foo[2] expansion "$foo[1 2]" expansion $foo[1 2] expansion "$foo[2 1]" expansion $foo[2 1] #CHECK: 1 #CHECK: 0 #CHECK: 1 #CHECK: 0 #CHECK: 1 #CHECK: 0 #CHECK: 1 #CHECK: 0 #CHECK: 1 #CHECK: 0 set -l foo a b c expansion $foo[17] expansion $foo[-17] expansion $foo[17..18] expansion $foo[4..-2] #CHECK: 0 #CHECK: 0 #CHECK: 0 #CHECK: 0 set -l foo a expansion $foo[2..-1] #CHECK: 0 expansion $foo[0] #CHECKERR: {{.*}}expansion.fish (line {{\d+}}): array indices start at 1, not 0. #CHECKERR: expansion $foo[0] #CHECKERR: ^ # see https://github.com/fish-shell/fish-shell/issues/8213 expansion $foo[1..0] #CHECKERR: {{.*}}expansion.fish (line {{\d+}}): array indices start at 1, not 0. #CHECKERR: expansion $foo[1..0] #CHECKERR: ^ expansion $foo[-0] #CHECKERR: {{.*}}expansion.fish (line {{\d+}}): array indices start at 1, not 0. #CHECKERR: expansion $foo[-0] #CHECKERR: ^ echo "$foo[d]" #CHECKERR: {{.*}}expansion.fish (line {{\d+}}): Invalid index value #CHECKERR: echo "$foo[d]" #CHECKERR: ^ echo $foo[d] #CHECKERR: {{.*}}expansion.fish (line {{\d+}}): Invalid index value #CHECKERR: echo $foo[d] #CHECKERR: ^ echo ()[1] # No output echo ()[d] #CHECKERR: {{.*}}expansion.fish (line {{\d+}}): Invalid index value #CHECKERR: echo ()[d] #CHECKERR: ^ set -l outer out1 out2 set -l inner 1 2 echo $outer[$inner[2]] #CHECK: out2 echo $outer[$inner[2..1]] #CHECK: out2 out1 # Percent self echo %selfNOT NOT%self \%self "%self" '%self' echo %self | string match -qr '^\\d+$' #CHECK: %selfNOT NOT%self %self %self %self echo "All digits: $status" #CHECK: All digits: 0 set paren ')' echo $$paren #CHECKERR: {{.*}}expansion.fish (line {{\d+}}): $) is not a valid variable in fish. #CHECKERR: echo $$paren #CHECKERR: ^ # Test tilde expansion # On OS X, /tmp is symlinked to /private/tmp # $PWD is our best bet for resolving it set -l saved $PWD cd (mktemp -d) set tmpdir $PWD cd $saved mkdir $tmpdir/realhome ln -s $tmpdir/realhome $tmpdir/linkhome set expandedtilde (env HOME=$tmpdir/linkhome $fish -c 'echo ~') if test $expandedtilde != $tmpdir/linkhome echo '~ expands to' $expandedtilde ' - expected ' $tmpdir/linkhome end rm $tmpdir/linkhome rmdir $tmpdir/realhome rmdir $tmpdir # Test path variables set TEST_DELIMITER one two three set TEST_DELIMITER_PATH one two three echo TEST_DELIMITER: $TEST_DELIMITER "$TEST_DELIMITER" echo TEST_DELIMITER_PATH: $TEST_DELIMITER_PATH "$TEST_DELIMITER_PATH" #CHECK: TEST_DELIMITER: one two three one two three #CHECK: TEST_DELIMITER_PATH: one two three one:two:three set testvar ONE:TWO:THREE echo "Not a path: $testvar" (count $testvar) #CHECK: Not a path: ONE:TWO:THREE 1 set --path testvar $testvar echo "As a path: $testvar" (count $testvar) #CHECK: As a path: ONE:TWO:THREE 3 set testvar "$testvar:FOUR" echo "Appended path: $testvar" (count $testvar) #CHECK: Appended path: ONE:TWO:THREE:FOUR 4 set --unpath testvar $testvar echo "Back to normal variable: $testvar" (count $testvar) #CHECK: Back to normal variable: ONE TWO THREE FOUR 4 # Test fatal syntax errors $fish -c 'echo $,foo' #CHECKERR: fish: $, is not a valid variable in fish. #CHECKERR: echo $,foo #CHECKERR: ^ $fish -c 'echo {' #CHECKERR: fish: Unexpected end of string, incomplete parameter expansion #CHECKERR: echo { #CHECKERR: ^ $fish -c 'echo {}}' #CHECKERR: fish: Unexpected '}' for unopened brace expansion #CHECKERR: echo {}} #CHECKERR: ^ printf '<%s>\n' ($fish -c 'command (asd)' 2>&1) #CHECK: #CHECK: #CHECK: < ^~~~^> true printf '<%s>\n' ($fish -c 'echo "$abc["' 2>&1) #CHECK: #CHECK: #CHECK: < ^>