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480d48351c
Add round options, but I think can also add floor, ceiling, etc. And the default mode is trunc. Closes #9117 Co-authored-by: Mahmoud Al-Qudsi <mqudsi@neosmart.net>
221 lines
7.6 KiB
ReStructuredText
221 lines
7.6 KiB
ReStructuredText
.. _cmd-math:
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math - perform mathematics calculations
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=======================================
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Synopsis
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--------
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.. synopsis::
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math [(-s | --scale) N] [(-b | --base) BASE] [(-m | --scale-mode) MODE] EXPRESSION ...
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Description
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-----------
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``math`` performs mathematical calculations.
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It supports simple operations such as addition, subtraction, and so on, as well as functions like ``abs()``, ``sqrt()`` and ``ln()``.
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By default, the output shows up to 6 decimal places.
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To change the number of decimal places, use the ``--scale`` option, including ``--scale=0`` for integer output.
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Keep in mind that parameter expansion happens before expressions are evaluated.
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This can be very useful in order to perform calculations involving shell variables or the output of command substitutions, but it also means that parenthesis (``()``) and the asterisk (``*``) glob character have to be escaped or quoted.
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``x`` can also be used to denote multiplication, but it needs to be followed by whitespace to distinguish it from hexadecimal numbers.
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Parentheses for functions are optional - ``math sin pi`` prints ``0``.
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However, a comma will bind to the inner function, so ``math pow sin 3, 5`` is an error because it tries to give ``sin`` the arguments ``3`` and ``5``.
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When in doubt, use parentheses.
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``math`` ignores whitespace between arguments and takes its input as multiple arguments (internally joined with a space), so ``math 2 +2`` and ``math "2 + 2"`` work the same.
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``math 2 2`` is an error.
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The following options are available:
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**-s** *N* or **--scale** *N*
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Sets the scale of the result.
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``N`` must be an integer or the word "max" for the maximum scale.
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A scale of zero causes results to be truncated by default. Any non-integer component is thrown away.
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So ``3/2`` returns ``1`` by default, rather than ``2`` which ``1.5`` would normally round to.
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This is for compatibility with ``bc`` which was the basis for this command prior to fish 3.0.0.
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Scale values greater than zero causes the result to be rounded using the usual rules to the specified number of decimal places.
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**-b** *BASE* or **--base** *BASE*
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Sets the numeric base used for output (``math`` always understands hexadecimal numbers as input).
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It currently understands "hex" or "16" for hexadecimal and "octal" or "8" for octal and implies a scale of 0 (other scales cause an error), so it will truncate the result down to an integer.
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This might change in the future.
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Hex numbers will be printed with a ``0x`` prefix.
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Octal numbers will have a prefix of ``0`` but aren't understood by ``math`` as input.
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**-m** *MODE* or **--scale-mode** *MODE*
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Sets scale behavior.
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The ``MODE`` can be ``truncate``, ``round``, ``floor``, ``ceiling``.
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The default value of scale mode is ``round`` with non zero scale and ``truncate`` with zero scale.
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**-h** or **--help**
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Displays help about using this command.
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Return Values
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-------------
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If the expression is successfully evaluated and doesn't over/underflow or return NaN the return ``status`` is zero (success) else one.
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Syntax
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------
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``math`` knows some operators, constants, functions and can (obviously) read numbers.
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For numbers, ``.`` is always the radix character regardless of locale - ``2.5``, not ``2,5``.
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Scientific notation (``10e5``) and hexadecimal (``0xFF``) are also available.
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``math`` allows you to use underscores as visual separators for digit grouping. For example, you can write ``1_000_000``, ``0x_89_AB_CD_EF``, and ``1.234_567_e89``.
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Operators
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---------
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``math`` knows the following operators:
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``+``
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for addition
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``-``
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for subtraction
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``*`` or ``x``
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for multiplication. ``*`` is the glob character and needs to be quoted or escaped, ``x`` needs to be followed by whitespace or it looks like ``0x`` hexadecimal notation.
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``/``
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for division
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``^``
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for exponentiation
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``%``
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for modulo
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``(`` or ``)``
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for grouping. These need to be quoted or escaped because ``()`` denotes a command substitution.
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They are all used in an infix manner - ``5 + 2``, not ``+ 5 2``.
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Constants
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---------
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``math`` knows the following constants:
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``e``
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Euler's number
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``pi``
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π, you know this one.
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Half of Tau
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``tau``
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Equivalent to 2π, or the number of radians in a circle
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Use them without a leading ``$`` - ``pi - 3`` should be about 0.
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Functions
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---------
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``math`` supports the following functions:
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``abs``
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the absolute value, with positive sign
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``acos``
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arc cosine
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``asin``
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arc sine
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``atan``
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arc tangent
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``atan2``
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arc tangent of two variables
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``bitand``, ``bitor`` and ``bitxor``
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perform bitwise operations.
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These will throw away any non-integer parts and interpret the rest as an int.
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Note: ``bitnot`` and ``bitnand`` don't exist. This is because numbers in math don't really have a *width* in terms of bits,
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and these operations necessarily care about leading zeroes.
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If you need to negate a specific number you can do it with an xor with a mask, e.g.::
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> math --base=hex bitxor 0x0F, 0xFF
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0xF0
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> math --base=hex bitxor 0x2, 0x3
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# Here we mask with 0x3 == 0b111, so our number is 3 bits wide
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# Only the 1 bit isn't set.
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0x1
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``ceil``
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round number up to the nearest integer
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``cos``
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the cosine
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``cosh``
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hyperbolic cosine
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``exp``
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the base-e exponential function
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``fac``
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factorial - also known as ``x!`` (``x * (x - 1) * (x - 2) * ... * 1``)
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``floor``
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round number down to the nearest integer
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``ln``
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the base-e logarithm
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``log`` or ``log10``
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the base-10 logarithm
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``log2``
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the base-2 logarithm
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``max``
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returns the largest of the given numbers - this takes an arbitrary number of arguments (but at least one)
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``min``
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returns the smallest of the given numbers - this takes an arbitrary number of arguments (but at least one)
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``ncr``
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"from n choose r" combination function - how many subsets of size r can be taken from n (order doesn't matter)
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``npr``
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the number of subsets of size r that can be taken from a set of n elements (including different order)
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``pow(x,y)``
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returns x to the y (and can be written as ``x ^ y``)
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``round``
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rounds to the nearest integer, away from 0
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``sin``
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the sine function
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``sinh``
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the hyperbolic sine
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``sqrt``
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the square root - (can also be written as ``x ^ 0.5``)
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``tan``
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the tangent
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``tanh``
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the hyperbolic tangent
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All of the trigonometric functions use radians (the pi-based scale, not 360°).
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Examples
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--------
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``math 1+1`` outputs 2.
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``math $status - 128`` outputs the numerical exit status of the last command minus 128.
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``math 10 / 6`` outputs ``1.666667``.
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``math -s0 10.0 / 6.0`` outputs ``1``.
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``math -s3 10 / 6`` outputs ``1.667``.
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``math "sin(pi)"`` outputs ``0``.
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``math 5 \* 2`` or ``math "5 * 2"`` or ``math 5 "*" 2`` all output ``10``.
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``math 0xFF`` outputs 255, ``math 0 x 3`` outputs 0 (because it computes 0 multiplied by 3).
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``math bitand 0xFE, 0x2e`` outputs 46.
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``math "bitor(9,2)"`` outputs 11.
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``math --base=hex 192`` prints ``0xc0``.
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``math 'ncr(49,6)'`` prints 13983816 - that's the number of possible picks in 6-from-49 lotto.
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``math max 5,2,3,1`` prints 5.
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Compatibility notes
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-------------------
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Fish 1.x and 2.x releases relied on the ``bc`` command for handling ``math`` expressions. Starting with fish 3.0.0 fish uses the tinyexpr library and evaluates the expression without the involvement of any external commands.
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You don't need to use ``--`` before the expression, even if it begins with a minus sign which might otherwise be interpreted as an invalid option. If you do insert ``--`` before the expression, it will cause option scanning to stop just like for every other command and it won't be part of the expression.
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