fish-shell/tests/checks/math.fish
Fabian Boehm cdcf460edf math: Nicer error for non-ascii-lowercase identifiers
This gave a weird error when you did e.g. `math Foo / 6`:

"Missing Operator" and only the "F" marked.

Adding an operator here anywhere won't help, so calling this an
"Unknown function" is closer to the truth. We also get nicer markings
because we know the extent of the identifier.
2024-09-18 22:27:00 +02:00

425 lines
9.2 KiB
Fish

#RUN: %fish %s
# OpenBSD doesn't do hex numbers in str/wcstod (like C99 requires).
# So let's skip this.
#REQUIRES: test "$(uname)" != OpenBSD
# Validate basic expressions
math 3 / 2
# CHECK: 1.5
math 10/6
# CHECK: 1.666667
math -s0 10 / 6
# CHECK: 1
math 'floor(10 / 6)'
# CHECK: 1
math -s3 10/6
# CHECK: 1.667
math '10 % 6'
# CHECK: 4
math -s0 '10 % 6'
# CHECK: 4
math '23 % 7'
# CHECK: 2
math --scale=6 '5 / 3 * 0.3'
# CHECK: 0.5
math --scale=max '5 / 3'
# CHECK: 1.666666666666667
math "7^2"
# CHECK: 49
math -1 + 1
# CHECK: 0
math '-2 * -2'
# CHECK: 4
math 5 \* -2
# CHECK: -10
math -- -4 / 2
# CHECK: -2
math -- '-4 * 2'
# CHECK: -8
# Validate max and min
math 'max(1,2)'
math 'min(1,2)'
# CHECK: 2
# CHECK: 1
# Validate some rounding functions
math 'round(3/2)'
math 'floor(3/2)'
math 'ceil(3/2)'
# CHECK: 2
# CHECK: 1
# CHECK: 2
math 'round(-3/2)'
math 'floor(-3/2)'
math 'ceil(-3/2)'
# CHECK: -2
# CHECK: -2
# CHECK: -1
# Validate some integral computations
math 1
math 10
math 100
math 1000
# CHECK: 1
# CHECK: 10
# CHECK: 100
# CHECK: 1000
math '10^15'
math '-10^14'
math '-10^15'
# CHECK: 1000000000000000
# CHECK: 100000000000000
# CHECK: -1000000000000000
# Floating point operations under x86 without SSE2 have reduced accuracy!
# This includes both i586 targets and i686 under Debian, where it's patched to remove SSE2.
# As a result, some floating point tests use regular expressions to loosely match against
# the shape of the expected result.
# NB: The i586 case should also pass under other platforms, but not the other way around.
math "3^0.5^2"
# CHECK: {{1\.316074|1\.316\d+}}
math -2^2
# CHECK: 4
math -s0 '1.0 / 2.0'
math -s0 '3.0 / 2.0'
math -s0 '10^15 / 2.0'
# CHECK: 0
# CHECK: 1
# CHECK: 500000000000000
# Validate how variables in an expression are handled
math $x + 1
set x 1
math $x + 1
set x 3
set y 1.5
math "-$x * $y"
math -s0 "-$x * $y"
# CHECK: 1
# CHECK: 2
# CHECK: -4.5
# CHECK: -4
# Validate math error reporting
# NOTE: The leading whitespace for the carets here is ignored
# by littlecheck.
not math '2 - '
# CHECKERR: math: Error: Too few arguments
# CHECKERR: '2 - '
# CHECKERR: ^
not math 'ncr(1)'
# CHECKERR: math: Error: Too few arguments
# CHECKERR: 'ncr(1)'
# CHECKERR: ^
math "min()"
# CHECKERR: math: Error: Too few arguments
# CHECKERR: 'min()'
# CHECKERR: ^
# There is no "blah" function.
not math 'blah()'
# CHECKERR: math: Error: Unknown function
# CHECKERR: 'blah()'
# CHECKERR: ^~~^
# There is also no "Blah" function.
not math 'Blah()'
# CHECKERR: math: Error: Unknown function
# CHECKERR: 'Blah()'
# CHECKERR: ^~~^
math n + 4
# CHECKERR: math: Error: Unknown function
# CHECKERR: 'n + 4'
# CHECKERR: ^
not math 'sin()'
# CHECKERR: math: Error: Too few arguments
# CHECKERR: 'sin()'
# CHECKERR: ^
not math '2 + 2 4'
# CHECKERR: math: Error: Missing operator
# CHECKERR: '2 + 2 4'
# This regex to check whitespace - the error appears between the second 2 and the 4!
# (right after the 2)
# CHECKERR: {{^}} ^
printf '<%s>\n' (math '2 + 2 4' 2>&1)
# CHECK: <math: Error: Missing operator>
# CHECK: <'2 + 2 4'>
# CHECK: < ^~~~~^>
not math '(1 2)'
# CHECKERR: math: Error: Missing operator
# CHECKERR: '(1 2)'
# CHECKERR: ^
not math '(1 pi)'
# CHECKERR: math: Error: Missing operator
# CHECKERR: '(1 pi)'
# CHECKERR: ^
not math '(1 pow 1,2)'
# CHECKERR: math: Error: Missing operator
# CHECKERR: '(1 pow 1,2)'
# CHECKERR: ^
not math
# CHECKERR: math: expected >= 1 arguments; got 0
not math -s 12
# CHECKERR: math: expected >= 1 arguments; got 0
# XXX FIXME these two should be just "missing argument" errors, the count is not helpful
not math 2^999999
# CHECKERR: math: Error: Result is infinite
# CHECKERR: '2^999999'
not math 'sqrt(-1)'
# CHECKERR: math: Error: Result is not a number
# CHECKERR: 'sqrt(-1)'
math 'sqrt(-0)'
# CHECK: -0
not math 2^53 + 1
# CHECKERR: math: Error: Result magnitude is too large
# CHECKERR: '2^53 + 1'
not math -2^53 - 1
# CHECKERR: math: Error: Result magnitude is too large
# CHECKERR: '-2^53 - 1'
printf '<%s>\n' (not math 1 / 0 2>&1)
# CHECK: <math: Error: Division by zero>
# CHECK: <'1 / 0'>
# CHECK: < ^>
printf '<%s>\n' (math 1 % 0 - 5 2>&1)
# CHECK: <math: Error: Division by zero>
# CHECK: <'1 % 0 - 5'>
# CHECK: < ^>
printf '<%s>\n' (math min 1 / 0, 5 2>&1)
# CHECK: <math: Error: Division by zero>
# CHECK: <'min 1 / 0, 5'>
# CHECK: < ^>
# Validate "x" as multiplier
math 0x2 # Hex
math 5 x 4
math 2x 4
math 2 x4 # ERROR
# CHECKERR: math: Error: Unknown function
# CHECKERR: '2 x4'
# CHECKERR: ^^
math 0x 3
# CHECK: 2
# CHECK: 20
# CHECK: 8
# CHECK: 0
math "42 >= 1337"
# CHECKERR: math: Error: Logical operations are not supported, use `test` instead
# CHECKERR: '42 >= 1337'
# CHECKERR: ^
math "bitand(0xFE, 1)"
# CHECK: 0
math "bitor(0xFE, 1)"
# CHECK: 255
math "bitxor(5, 1)"
# CHECK: 4
math "bitand(5.5, 2)"
# CHECK: 0
math "bitand(5.5, 1)"
# CHECK: 1
math "bitor(37 ^ 5, 255)"
# CHECK: 69343999
math 'log 16'
# CHECK: 1.20412
math 'log(16'
# CHECKERR: math: Error: Missing closing parenthesis
# CHECKERR: 'log(16'
# CHECKERR: ^
math '(2'
# CHECKERR: math: Error: Missing closing parenthesis
# CHECKERR: '(2'
# CHECKERR: ^
math --base=16 255 / 15
# CHECK: 0x11
math -bhex 16 x 2
# CHECK: 0x20
math --base hex 12 + 0x50
# CHECK: 0x5c
math --base hex 0
# CHECK: 0x0
math --base hex -1
# CHECK: -0x1
math --base hex -15
# CHECK: -0xf
math --base hex 'pow(2,40)'
# CHECK: 0x10000000000
math --base octal 0
# CHECK: 0
math --base octal -1
# CHECK: -01
math --base octal -15
# CHECK: -017
math --base octal 'pow(2,40)'
# CHECK: 020000000000000
math --base octal --scale=0 55
# CHECK: 067
math --base notabase
# CHECKERR: math: notabase: invalid base value
echo $status
# CHECK: 2
math 'log2(8)'
# CHECK: 3
# same as sin(cos(2 x pi))
math sin cos 2 x pi
# CHECK: 0.841471
# Inner function binds stronger, so this is interpreted as
# pow(sin(3,5))
math pow sin 3, 5
# CHECKERR: math: Error: Too many arguments
# CHECKERR: 'pow sin 3, 5'
# CHECKERR: ^
math pow sin 3, 5 + 2
# CHECKERR: math: Error: Too many arguments
# CHECKERR: 'pow sin 3, 5 + 2'
# CHECKERR: ^~~~^
math sin pow 3, 5
# CHECK: {{-0\.890009|-0.890\d*}}
math pow 2, cos -pi
# CHECK: 0.5
# pow(2*cos(-pi), 2)
# i.e. 2^2
# i.e. 4
math pow 2 x cos'(-pi)', 2
# CHECK: 4
# This used to take ages, see #8170.
# If this test hangs, that's reintroduced!
math 'ncr(0/0, 1)'
# CHECKERR: math: Error: Division by zero
# CHECKERR: 'ncr(0/0, 1)'
# CHECKERR: ^
# Variadic functions require at least one argument
math min
# CHECKERR: math: Error: Too few arguments
# CHECKERR: 'min'
# CHECKERR: ^
math min 2
# CHECK: 2
math min 2, 3, 4, 5, -10, 1
# CHECK: -10
# Parentheses are required to disambiguate function call nested in argument list,
# except when the call is the last argument.
math 'min 5, 4, 3, ncr 2, 1, 5'
# CHECKERR: math: Error: Too many arguments
# CHECKERR: 'min 5, 4, 3, ncr 2, 1, 5'
# CHECKERR: {{^}} ^
math 'min 5, 4, 3, ncr(2, 1), 5'
# CHECK: 2
math 'min 5, 4, 3, 5, ncr 2, 1'
# CHECK: 2
# Variadic function consumes all available arguments,
# so it is always the last argument unless parenthesised.
# max(1, 2, min(3, 4, 5))
math 'max 1, 2, min 3, 4, 5'
# CHECK: 3
# max(1, 2, min(3, 4), 5)
math 'max 1, 2, min(3, 4), 5'
# CHECK: 5
math 0_1
# CHECK: 1
math 0x0_A
# CHECK: 10
math 1_000 + 2_000
# CHECK: 3000
math 1_0_0_0
# CHECK: 1000
math 0_0.5_0 + 0_1.0_0
# CHECK: 1.5
math 2e0_0_2
# CHECK: 200
math -0_0.5_0_0E0_0_3
# CHECK: -500
math 20e-0_1
# CHECK: 2
math 0x0_2.0_0_0P0_2
# CHECK: 8
math -0x8p-0_3
# CHECK: -1
echo 5 + 6 | math
# CHECK: 11
# Historical: If we have arguments on stdin and argv,
# the former takes precedence and the latter is ignored entirely.
echo 7 + 6 | math 2 + 2
# CHECK: 13
# It isn't checked at all.
echo 7 + 8 | math not an expression
# CHECK: 15
math (string repeat -n 1000 1) 2>| string shorten -m50 --char=""
# CHECK: math: Error: Number is too large
# CHECK: '1111111111111111111111111111111111111111111111111
# CHECK: ^
math 0x0_2.0P-0x3
# CHECKERR: math: Error: Unknown function
# CHECKERR: '0x0_2.0P-0x3'
# CHECKERR: ^^
math 0x0_2.0P-f
# CHECKERR: math: Error: Unexpected token
# CHECKERR: '0x0_2.0P-f'
# CHECKERR: ^
math "22 / 5 - 5"
# CHECK: -0.6
math -s 0 --scale-mode=truncate "22 / 5 - 5"
# CHECK: -0
math --scale=0 -m truncate "22 / 5 - 5"
# CHECK: -0
math -s 0 --scale-mode=floor "22 / 5 - 5"
# CHECK: -1
math -s 0 --scale-mode=round "22 / 5 - 5"
# CHECK: -1
math -s 0 --scale-mode=ceiling "22 / 5 - 5"
# CHECK: -0
math "1 / 3 - 1"
# CHECK: -0.666667
math --scale-mode=truncate "1 / 3 - 1"
# CHECK: -0.666666
math --scale-mode=floor "1 / 3 - 1"
# CHECK: {{-0.666667|-0.666668}}
math --scale-mode=floor "2 / 3 - 1"
# CHECK: {{-0.333334|-0.333335}}
math --scale-mode=round "1 / 3 - 1"
# CHECK: {{-0.666667|-0.666668}}
math --scale-mode=ceiling "1 / 3 - 1"
# CHECK: -0.666666
math --scale-mode=ceiling "2 / 3 - 1"
# CHECK: -0.333333
math -s 6 --scale-mode=truncate "1 / 3 - 1"
# CHECK: -0.666666
math -s 6 --scale-mode=floor "1 / 3 - 1"
# CHECK: {{-0.666667|-0.666668}}
math -s 6 --scale-mode=floor "2 / 3 - 1"
# CHECK: {{-0.333334|-0.333335}}
math -s 6 --scale-mode=round "1 / 3 - 1"
# CHECK: {{-0.666667|-0.666668}}
math -s 6 --scale-mode=ceiling "1 / 3 - 1"
# CHECK: -0.666666
math -s 6 --scale-mode=ceiling "2 / 3 - 1"
# CHECK: -0.333333