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Very powerful arbitrary precision calculation library and number formatting library
A convenient library for accurate calculation and formatting of numbers, which can solve the following problems:
0.1% + 2%
-2e3 + 6
Supported operators : + - * / % **
Language: English | 简体中文
npm install a-calc
commonjs
const {calc, fmt} = require("a-calc")
// or
const {calc, fmt} = require("a-calc/cjs") // Note that this is written to explicitly specify the use of the cjs version which makes sense, some packaging tools will do a conversion of the syntax, directly write a-calc does not work (nuxt.js is), then replace it with a-calc/cjs try
es module
import {calc, fmt} from "a-calc"
// or
const {calc, fmt} from "a-calc/es"
browser
<script src="node_modules/a-calc/browser/index.js"></script>
<script>
const {calc, fmt} = a_calc
</script>
calc("0.1 + 0.2") // 0.3
// A little more complicated calculation
calc("0.1 + 0.2 * 0.3 / 0.4 * (0.5 + 0.6)") // 0.265
// Calculation of scientific notation
calc("-2e2 + 3e+2") // 100
Spaces are non-essential in the absence of ambiguity, and can even correctly parse the following writing calc("-2e+2+3e+2")
which is difficult for the human eye to parse, but this is too low clarity, please do your best to write clearer code instead of shit! Always include spaces in your formula, which is more beautiful and clear, just like the example I wrote!!!
By the way, an ambiguous equation calc("50%%2", {_unit: true})
This ambiguity obviously occurs when calculating with units, since the parser doesn't know whether your units are %
or %%
so you have to use spaces to give a clear meaning, the correct way to write it would be calc("50% % 2", {_unit: true})
In short, always add space!
The calculated value is accurate and there is no scientific counting method
let a = 0.000001
let b = 888.789
calc("a + b", {a,b}) // 0.000001 + 888.789 = 888.789001
calc("a * (b + c) % d + 7.123", [
{a: 1, b: 2},
{c: 3, d: 4}
]) // 8.123
// A little more complicated
calc("1 + o.a / arr[0].d",{
o: { a: 2 },
arr: [{ d: 8 }]
}) // 1.25
calc("a + b - c",[
{a: 1},
{b: 2, c: 3}
])
The reality is not always ideal, maybe we have to calculate two percentage numbers, fortunately a-calc supports these operations now, but please note that the units will be taken from the first number carrying the unit, and the subsequent units will be ignored
// It is important to note that this is required and not enabled by default, because calculations with units do some extra work, which is faster than calculations with numbers alone
calc("1 + 2%", {_unit: true}) // 3%
calc("1.123$$$ + 2.88% | + =6", {_unit: true}) // +4.003000$$$
After 1.0.6
, calculations with units can have more parameters, _unit
can take values like boolean | "on" | "off" | "auto" | "space"
The parameters look like a lot, but they are similar to the previous usage, true "on" "auto"
has the same effect, it means that it automatically recognizes the number after the The biggest difference is that the "space"
value means that only spaces are used as unit separators. For example, if your units happen to be +-
, which would be recognized as an operator in normal mode, you can use the "space"
mode, but then spaces are required, and you would write it like this: calc ("2+- * 3")
The final result is: 6+-
Formatting supports the following features: limit decimal places, Keep Plus and minus signs, percentage output, scientific notation output, and kilobyte output, and they can be combined, but there are individual combinations that are not valid, try This yourself. There are too many combinations to list one by one.
Formatted list:
>|>=|<|<=|=Numeric
means restrict the number of decimal places, for example: <=2
the number of decimal places is less than or equal to 2 >3
the number of decimal places must be greater than 3, this is equivalent to >=4
,
The output is a string of digits in the thousandths/
Output as fraction+
Output positive numbers with +
sign%
Output a percentage number that can be used in combination with restricted decimals!e
The output is scientific notation and e can be capitalized!n
The output is a number, not a numeric string, and N can be uppercase, but if you set percentiles, fractions, or percentages, disk formatting and so on, this option does not take effect// Operational decimal places
calc("0.1 + 0.2 | =2") // 0.30
calc("0.11111 + 0.11111 | <=4") // 0.2222
calc("0.11 + 0.11 | <=4") // 0.22
calc("0.1 + 0.2 | >= 5") // 0.30000
calc("0.0000001+ 0.0000001 | >= 5") // 0.0000002
// Keep the sign
calc("1 + 1 | +") // +2
// thousands
calc("10000000 + 100000000 | ,") // 110,000,000
// Fraction
calc("0.025 + 0.2 | /") // 9/40
// Percentage
calc("1 + 1 | %") // 200%
// Scientific notation, notice that this e can also be capitalized
calc("1 + 1 | !e") // 2e+0
// Specifies both the decimal and the thousandth digits and leaves the sign plus or minus
calc("10000000 + 100000000 | +,=10") // +110,000,000.0000000000
The rounding rule is added to the part of the format string, whose symbols are respectively:
~-
Tail off, default rounding rule~+
Enter One~5
Rounding~6
This rounding rule is more accurate than rounding. The rule is different when the last digit of the rounding rule is 5. It looks at the position after 5, and if the last digit is not 0, it goes to 1, if the following number is 0, then you will see if the number before 5 is even, if it is not enter, not entercalc("0.11 + 0.22 | =1 ~+") // 0.4 Keep one digit and enter one
calc("0.55 | =1 ~5") // 0.6
calc("0.65 | =1 ~6") // 0.6
This newly added rounding rule seems to make the formatted part longer, but this is not the case. Generally, the rounding rule of an item is fixed, so the formatting of the rounding rule part should be encapsulated in the default formatting parameters. In actual use, there is no need to write this part at all. Refer to the "Default Format" description below
calc("0.1 | =2") // 0.10
fmt("0.1 | =2") // 0.10
// Calc has the functionality of fmt, but fmt has better semantics
fmt("1000000 | ,") // 1,000,000
You can turn the console on or off to print the version number of the current library, or you can turn the console on or off to prompt if there is a new version update.
import { calc_util } from "a-calc"
calc_util.print_version(); // Print version in console
calc_util.check_update(); // Enable the update detection function, if there are updates will be alerted in the console
Error Handling
Usually using calc directly requires the input formula to be completely correct. By default a-calc will not help you deal with the error of the formula. This can be filtered by yourself, but we may not want to do this in the project, so we need an extra advanced API to silently capture and give an appropriate return value when the input formula is wrong
calc("1 + 2sd + d",{
_fill_data: {d: 3}, // From here, the data source object is assigned to _fill_data, which can also be an array of objects. When fetching data, it is successively searched from the array items, and the first one is immediately stopped
_error: "-", // Returns - as an alternative value if the equation is wrong
})
// The above writing can be simplified
calc("1 + 2sd + d", {
d: 8,
_error: "-"
}) // This simplification is simply for convenience
Default formatting
Default formatting can be used to optimize the development experience in real projects
calc("111111 + 11111 | ,",{_fmt: "=2"}) // 122,222.00 Obviously , and =2 are combined, and the formatted string in the expression has higher priority
The core calc
function may not be extremely convenient in a real project, so a-calc
provides a built-in secondary encapsulation function calc_wrap
after version 1.2.10
, which is essentially an extension of calc
, so it has all the functions of the former, just more flexible writing and powerful type derivation.
Note that this may not be the only correct way to encapsulate. I just provide this function. There is no dogma here. You should be flexible in your own scenarios.
I suggest that if you decide to introduce calc_wrap
into your project, you can rename it to calc
so that you can write a few fewer characters. The following shows some flexible writing and powerful type derivation.
// Note that calc_wrap is renamed calc here, because if you need to use the calc_wrap function, you basically don't need the core calc function, so if you have this idle name, you should use it
import { calc_wrap as calc } from "a-calc";
const state = {
a: 1,
b: 2,
c: 3
};
// When the parameter passed in is a formula without variable name, the calculation result will be returned directly
calc( "(1 + 2) * 3" ); // Return type: string
// When the incoming argument is a formula that is suspected to contain a variable name and there is no second data source argument, it returns a function waiting for the incoming data source. Yes, this function is done by statically typed derivation
calc( "(a + b) * c" ); // Return type: ( data: any ) => string
calc( "(a + b) * c" )( state ); // Return type: string
// Maybe you want to inject state first and then enter an expression, which is also ok
calc( state ); // Return type: ( expr: string | number ) => string
calc( state )( "(a + b) * c" ); // Return type: string
// The original usage is naturally supported
calc( "a + b + c", state ); // Return type: string
// You can still mix the configuration with the data source, which is very convenient
calc( "a + b + c" )( { ...state, _error: 0 } ); // Return type: string | 0
a-calc
can be written using template strings, but I've found in practice that the readability of this writing is terrible, and it's not recommended unless you really have a valid enough reason to use template strings.
calc(`${a} + ${b}`) // This writing style is not recommended
calc("a + b", {a,b}) // Recommended writing style because it is clearer
calc_wrap
function, which is the second wrapping of the core function calc
and can be used directly.-e
and -n
become !e
and !n
respectively\e
scientific notation output is now -e
, the rest is unchanged-n
output number type<
and >
symbols for decimal place restrictions<=
formatting that may have extra zeros not removed._fillData
is now _fill_data
, because the snake naming is clearer.\e
, which can format numbers into scientific notationcalc("$1", {_unit: true})
or fmt("$1 | =2",{_unit: true})
(If you encounter any problems, please be the first to send me feedback email, 718879459@qq.com for bugs I will be the first to fix him)
FAQs
A very powerful and easy-to-use number precision calculation and formatting library.
The npm package a-calc receives a total of 17,342 weekly downloads. As such, a-calc popularity was classified as popular.
We found that a-calc demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 0 open source maintainers collaborating on the project.
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