@qudtlib/allunits
Advanced tools
Package of qudtlib-js
This package provides all units, quantitykinds and prefixes defined by the QUDT ontology, based on @qudtlib/core, allowing for unit conversion, instantiation from labels and factor units, scaling/unscaling with prefixes and more.
These examples are taken from the examples module:
import { Decimal } from "decimal.js";
import { DerivedUnitSearchMode, Qudt, Units } from "@qudtlib/allunits";
let value = new Decimal("1.83");
// All units have a constant in `Units`:
let converted = Qudt.convert(value, Units.M, Units.FT);
console.log("\n# m to ft:");
console.log(`${value}m = ${converted}ft`); // 1.83m = 6.003937007874015748ft
// If you don't know the unit at compile time, but you know the label, do this:
const fromLabel = "Degree Celsius";
const toLabel = "Degree Fahrenheit";
value = new Decimal(38.5);
converted = Qudt.convert(
value,
Qudt.unitFromLabelRequired(fromLabel),
Qudt.unitFromLabelRequired(toLabel)
);
console.log("\n# Celsius to Fahrenheit:");
console.log(`${value}°C = ${converted}°F`); // 38.5°C = 101.30039299999995512°F
// If you know the units' IRI in QUDT, you can use it wherever you can pass a Unit:
const fromIri = Units.KiloGM.iri;
const toIri = Units.LB.iri;
value = new Decimal(98);
converted = Qudt.convert(value, fromIri, toIri);
console.log("\n# kilogram to pound:");
console.log(`${value} kilogram = ${converted} pounds`); // 98 kilogram = 216.05301694118002911 pounds
// all units, quantitykinds and prefixes have `toString` methods that use the units' symbol if possible:
console.log("\n# using Unit.toString():");
console.log(
`${value}${Units.KiloGM.toString()} = ${converted}${Units.LB.toString()}`
); // 98kg = 216.05301694118002911lbm
// If you have factor units, you can instantiate the derived units:
const derived = Qudt.derivedUnitsFromExponentUnitPairs(
DerivedUnitSearchMode.EXACT,
Units.KiloGM,
1,
Units.M,
1,
Units.SEC,
-2
);
const newton = derived[0];
value = new Decimal(250);
converted = Qudt.convert(value, newton, Units.KiloP);
console.log("\n# deriving N from (m kg s^-2):");
console.log(
`${value}${newton.toString()} = ${converted}${Units.KiloP.toString()}`
); // 250N = 25.492905324448206064kp
// if you need the factor units, you can get them from the unit
const factorsN = Units.N.factorUnits.map((f) => f.toString()).join(" ");
console.log(`\n# obtaining factor units`);
console.log(`N = (${factorsN})`); // N = (m kg s^-2)
// use `Unit.getLeafFactorUnitsWithCumulativeExponents()` for multiple levels of derived units
const factorsW = Units.W.factorUnits.map((f) => f.toString()).join(" ");
const factorsF = Units.F.factorUnits.map((f) => f.toString()).join(" ");
const leafFactorsW = Units.W.getLeafFactorUnitsWithCumulativeExponents()
.map((f) => f.toString())
.join(" ");
const leafFactorsF = Units.F.getLeafFactorUnitsWithCumulativeExponents()
.map((f) => f.toString())
.join(" ");
console.log(`\n# derived units, multiiple recursions`);
console.log(`W = (${factorsW})`); // W = (J s^-1)
console.log(`W = (${leafFactorsW})`); // W = (m kg s^-2 m s^-1)
console.log(`F = (${factorsF})`); // F = (C V^-1)
console.log(`F = (${leafFactorsF})`); // F = (s A m^-1 kg^-1 s^2 m^-1 s A)
// use `Qudt.simplifyFactorUnits(Unit[])` to aggreagte potential duplicate units
const leafFactorsWsimplified = Qudt.simplifyFactorUnits(
Units.W.getLeafFactorUnitsWithCumulativeExponents()
)
.map((f) => f.toString())
.join(" ");
const leafFactorsFsimplified = Qudt.simplifyFactorUnits(
Units.F.getLeafFactorUnitsWithCumulativeExponents()
)
.map((f) => f.toString())
.join(" ");
console.log(`\n# simplify factor units`);
console.log(`W = (${leafFactorsW})`); //W = (m kg s^-2 m s^-1)
console.log(`W = (${leafFactorsWsimplified})`); // W = (m^2 kg s^-3)
console.log(`F = (${leafFactorsF})`); // F = (s A m^-1 kg^-1 s^2 m^-1 s A)
console.log(`F = (${leafFactorsFsimplified})`); // F = (s^4 A^2 m^-2 kg^-1)
// often, you'll get more than one result for derived units (that's why the result is `Unit[]`):
const derivedW = Qudt.derivedUnitsFromFactorUnits(
DerivedUnitSearchMode.EXACT,
...Qudt.simplifyFactorUnits(
Units.W.getLeafFactorUnitsWithCumulativeExponents()
)
);
console.log(`\n# Fun with W`);
derivedW.forEach((u) => console.log(`${Units.W.toString()} = ${u.toString()}`));
// W = unit:J-PER-SEC
// W = W```
For more documentation on the core features, refer to the @qudtlib/core package README.
FAQs
Package containing all QUDT units, quantityKinds, and prefixes
The npm package @qudtlib/allunits receives a total of 901 weekly downloads. As such, @qudtlib/allunits popularity was classified as not popular.
We found that @qudtlib/allunits 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.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
Security News
Create React App is officially deprecated due to React 19 issues and lack of maintenance—developers should switch to Vite or other modern alternatives.
Security News
Oracle seeks to dismiss fraud claims in the JavaScript trademark dispute, delaying the case and avoiding questions about its right to the name.
Security News
The Linux Foundation is warning open source developers that compliance with global sanctions is mandatory, highlighting legal risks and restrictions on contributions.