# RUN: %fish %s printf "Hello %d %i %f %F %g %G\n" 1 2 3 4 5 6 # CHECK: Hello 1 2 3.000000 4.000000 5 6 printf "%x %X %o %llu\n" 10 11 8 -1 # CHECK: a B 10 18446744073709551615 # %a has OS-dependent output - see #1139 #printf "%a %A\n" 14 15 printf "%c %s\n" a hello # CHECK: a hello printf "%c%c%c\n" hello … o # CHECK: h…o printf "%e %E\n" 5 6 # CHECK: 5.000000e+00 6.000000E+00 printf "%20d\n" 50 # CHECK: 50 printf "%-20d%d\n" 5 10 # CHECK: 5 10 printf "%*d\n" 10 100 # CHECK: 100 printf "%%\"\\\n" printf "%s\b%s\n" x y # CHECK: %"\nxy printf "abc\rdef\n" # CHECK: abc{{\r}}def printf "Msg1\fMsg2\n" # CHECK: Msg1{{\f}}Msg2 printf "foo\vbar\vbaz\n" # CHECK: foo bar baz printf "\111 \x50 \u0051 \U00000052" echo # CHECK: I P Q R # \c escape means "stop printing" printf 'a\cb' echo # CHECK: a # Bogus printf specifier, should produce no stdout printf "%5" 10 2>/dev/null # Octal escapes produce literal bytes, not characters # \376 is 0xFE printf '\376' | display_bytes # CHECK: 0000000 376 # CHECK: 0000001 # Verify that floating point conversions and output work correctly with # different combinations of locales and floating point strings. See issue # #3334. This starts by assuming an locale using english conventions. printf '%e\n' "1.23" # should succeed, output should be 1.230000e+00 # CHECK: 1.230000e+00 printf '%e\n' "2,34" # should fail # CHECK: 2.000000e+00 # CHECKERR: 2,34: value not completely converted (can't convert ',34') # Verify long long ints are handled correctly. See issue #3352. printf 'long hex1 %x\n' 498216206234 # CHECK: long hex1 73ffffff9a printf 'long hex2 %X\n' 498216206234 # CHECK: long hex2 73FFFFFF9A printf 'long hex3 %X\n' 0xABCDEF1234567890 # CHECK: long hex3 ABCDEF1234567890 printf 'long hex4 %X\n' 0xABCDEF12345678901 # CHECKERR: 0xABCDEF12345678901: Number out of range printf 'long decimal %d\n' 498216206594 # CHECK: long hex4 long decimal 498216206594 printf 'long signed %d\n' -498216206595 # CHECK: long signed -498216206595 printf 'long signed to unsigned %u\n' -498216206596 # CHECK: long signed to unsigned 18446743575493345020 # Just check that we print no error for no arguments printf echo $status # CHECK: 2 # Verify numeric conversion still happens even if it couldn't be fully converted printf '%d\n' 15.1 # CHECK: 15 # CHECKERR: 15.1: value not completely converted (can't convert '.1') echo $status # CHECK: 1 printf '%d\n' 07 # CHECK: 7 echo $status # CHECK: 0 printf '%d\n' 08 # CHECK: 0 # CHECKERR: 08: value not completely converted (can't convert '8') # CHECKERR: Hint: a leading '0' without an 'x' indicates an octal number echo $status # CHECK: 1 printf '%d\n' 0f # CHECK: 0 # CHECKERR: 0f: value not completely converted (can't convert 'f') # CHECKERR: Hint: a leading '0' without an 'x' indicates an octal number echo $status # CHECK: 1 printf '%d\n' 0g # CHECK: 0 # CHECKERR: 0g: value not completely converted (can't convert 'g') echo $status # CHECK: 1 # Test that we ignore options printf -a printf --foo # CHECK: -a--foo echo set -l helpvar --help printf $helpvar echo # CHECK: --help printf --help echo # CHECK: --help