unitsnet-js/dist/gen-units/massflux.g.js

A better way to hold unit variables and easily convert to the destination unit

"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.MassFlux = exports.MassFluxUnits = void 0;
const base_unit_1 = require("../base-unit");
/** MassFluxUnits enumeration */
var MassFluxUnits;
(function (MassFluxUnits) {
    /** */
    MassFluxUnits["GramsPerSecondPerSquareMeter"] = "GramPerSecondPerSquareMeter";
    /** */
    MassFluxUnits["GramsPerSecondPerSquareCentimeter"] = "GramPerSecondPerSquareCentimeter";
    /** */
    MassFluxUnits["GramsPerSecondPerSquareMillimeter"] = "GramPerSecondPerSquareMillimeter";
    /** */
    MassFluxUnits["GramsPerHourPerSquareMeter"] = "GramPerHourPerSquareMeter";
    /** */
    MassFluxUnits["GramsPerHourPerSquareCentimeter"] = "GramPerHourPerSquareCentimeter";
    /** */
    MassFluxUnits["GramsPerHourPerSquareMillimeter"] = "GramPerHourPerSquareMillimeter";
    /** */
    MassFluxUnits["KilogramsPerSecondPerSquareMeter"] = "KilogramPerSecondPerSquareMeter";
    /** */
    MassFluxUnits["KilogramsPerSecondPerSquareCentimeter"] = "KilogramPerSecondPerSquareCentimeter";
    /** */
    MassFluxUnits["KilogramsPerSecondPerSquareMillimeter"] = "KilogramPerSecondPerSquareMillimeter";
    /** */
    MassFluxUnits["KilogramsPerHourPerSquareMeter"] = "KilogramPerHourPerSquareMeter";
    /** */
    MassFluxUnits["KilogramsPerHourPerSquareCentimeter"] = "KilogramPerHourPerSquareCentimeter";
    /** */
    MassFluxUnits["KilogramsPerHourPerSquareMillimeter"] = "KilogramPerHourPerSquareMillimeter";
})(MassFluxUnits = exports.MassFluxUnits || (exports.MassFluxUnits = {}));
/** Mass flux is the mass flow rate per unit area. */
class MassFlux extends base_unit_1.BaseUnit {
    /**
     * Create a new MassFlux.
     * @param value The value.
     * @param fromUnit The ‘MassFlux’ unit to create from.
     * The default unit is KilogramsPerSecondPerSquareMeter
     */
    constructor(value, fromUnit = MassFluxUnits.KilogramsPerSecondPerSquareMeter) {
        super();
        this.gramspersecondpersquaremeterLazy = null;
        this.gramspersecondpersquarecentimeterLazy = null;
        this.gramspersecondpersquaremillimeterLazy = null;
        this.gramsperhourpersquaremeterLazy = null;
        this.gramsperhourpersquarecentimeterLazy = null;
        this.gramsperhourpersquaremillimeterLazy = null;
        this.kilogramspersecondpersquaremeterLazy = null;
        this.kilogramspersecondpersquarecentimeterLazy = null;
        this.kilogramspersecondpersquaremillimeterLazy = null;
        this.kilogramsperhourpersquaremeterLazy = null;
        this.kilogramsperhourpersquarecentimeterLazy = null;
        this.kilogramsperhourpersquaremillimeterLazy = null;
        if (value === undefined || value === null || Number.isNaN(value)) {
            throw new TypeError('invalid unit value ‘' + value + '’');
        }
        this.value = this.convertToBase(value, fromUnit);
    }
    /**
     * The base value of MassFlux is KilogramsPerSecondPerSquareMeter.
     * This accessor used when needs a value for calculations and it's better to use directly the base value
     */
    get BaseValue() {
        return this.value;
    }
    /** Gets the default unit used when creating instances of the unit or its DTO */
    get baseUnit() {
        return MassFluxUnits.KilogramsPerSecondPerSquareMeter;
    }
    /** */
    get GramsPerSecondPerSquareMeter() {
        if (this.gramspersecondpersquaremeterLazy !== null) {
            return this.gramspersecondpersquaremeterLazy;
        }
        return this.gramspersecondpersquaremeterLazy = this.convertFromBase(MassFluxUnits.GramsPerSecondPerSquareMeter);
    }
    /** */
    get GramsPerSecondPerSquareCentimeter() {
        if (this.gramspersecondpersquarecentimeterLazy !== null) {
            return this.gramspersecondpersquarecentimeterLazy;
        }
        return this.gramspersecondpersquarecentimeterLazy = this.convertFromBase(MassFluxUnits.GramsPerSecondPerSquareCentimeter);
    }
    /** */
    get GramsPerSecondPerSquareMillimeter() {
        if (this.gramspersecondpersquaremillimeterLazy !== null) {
            return this.gramspersecondpersquaremillimeterLazy;
        }
        return this.gramspersecondpersquaremillimeterLazy = this.convertFromBase(MassFluxUnits.GramsPerSecondPerSquareMillimeter);
    }
    /** */
    get GramsPerHourPerSquareMeter() {
        if (this.gramsperhourpersquaremeterLazy !== null) {
            return this.gramsperhourpersquaremeterLazy;
        }
        return this.gramsperhourpersquaremeterLazy = this.convertFromBase(MassFluxUnits.GramsPerHourPerSquareMeter);
    }
    /** */
    get GramsPerHourPerSquareCentimeter() {
        if (this.gramsperhourpersquarecentimeterLazy !== null) {
            return this.gramsperhourpersquarecentimeterLazy;
        }
        return this.gramsperhourpersquarecentimeterLazy = this.convertFromBase(MassFluxUnits.GramsPerHourPerSquareCentimeter);
    }
    /** */
    get GramsPerHourPerSquareMillimeter() {
        if (this.gramsperhourpersquaremillimeterLazy !== null) {
            return this.gramsperhourpersquaremillimeterLazy;
        }
        return this.gramsperhourpersquaremillimeterLazy = this.convertFromBase(MassFluxUnits.GramsPerHourPerSquareMillimeter);
    }
    /** */
    get KilogramsPerSecondPerSquareMeter() {
        if (this.kilogramspersecondpersquaremeterLazy !== null) {
            return this.kilogramspersecondpersquaremeterLazy;
        }
        return this.kilogramspersecondpersquaremeterLazy = this.convertFromBase(MassFluxUnits.KilogramsPerSecondPerSquareMeter);
    }
    /** */
    get KilogramsPerSecondPerSquareCentimeter() {
        if (this.kilogramspersecondpersquarecentimeterLazy !== null) {
            return this.kilogramspersecondpersquarecentimeterLazy;
        }
        return this.kilogramspersecondpersquarecentimeterLazy = this.convertFromBase(MassFluxUnits.KilogramsPerSecondPerSquareCentimeter);
    }
    /** */
    get KilogramsPerSecondPerSquareMillimeter() {
        if (this.kilogramspersecondpersquaremillimeterLazy !== null) {
            return this.kilogramspersecondpersquaremillimeterLazy;
        }
        return this.kilogramspersecondpersquaremillimeterLazy = this.convertFromBase(MassFluxUnits.KilogramsPerSecondPerSquareMillimeter);
    }
    /** */
    get KilogramsPerHourPerSquareMeter() {
        if (this.kilogramsperhourpersquaremeterLazy !== null) {
            return this.kilogramsperhourpersquaremeterLazy;
        }
        return this.kilogramsperhourpersquaremeterLazy = this.convertFromBase(MassFluxUnits.KilogramsPerHourPerSquareMeter);
    }
    /** */
    get KilogramsPerHourPerSquareCentimeter() {
        if (this.kilogramsperhourpersquarecentimeterLazy !== null) {
            return this.kilogramsperhourpersquarecentimeterLazy;
        }
        return this.kilogramsperhourpersquarecentimeterLazy = this.convertFromBase(MassFluxUnits.KilogramsPerHourPerSquareCentimeter);
    }
    /** */
    get KilogramsPerHourPerSquareMillimeter() {
        if (this.kilogramsperhourpersquaremillimeterLazy !== null) {
            return this.kilogramsperhourpersquaremillimeterLazy;
        }
        return this.kilogramsperhourpersquaremillimeterLazy = this.convertFromBase(MassFluxUnits.KilogramsPerHourPerSquareMillimeter);
    }
    /**
     * Create a new MassFlux instance from a GramsPerSecondPerSquareMeter
     *
     * @param value The unit as GramsPerSecondPerSquareMeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromGramsPerSecondPerSquareMeter(value) {
        return new MassFlux(value, MassFluxUnits.GramsPerSecondPerSquareMeter);
    }
    /**
     * Create a new MassFlux instance from a GramsPerSecondPerSquareCentimeter
     *
     * @param value The unit as GramsPerSecondPerSquareCentimeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromGramsPerSecondPerSquareCentimeter(value) {
        return new MassFlux(value, MassFluxUnits.GramsPerSecondPerSquareCentimeter);
    }
    /**
     * Create a new MassFlux instance from a GramsPerSecondPerSquareMillimeter
     *
     * @param value The unit as GramsPerSecondPerSquareMillimeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromGramsPerSecondPerSquareMillimeter(value) {
        return new MassFlux(value, MassFluxUnits.GramsPerSecondPerSquareMillimeter);
    }
    /**
     * Create a new MassFlux instance from a GramsPerHourPerSquareMeter
     *
     * @param value The unit as GramsPerHourPerSquareMeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromGramsPerHourPerSquareMeter(value) {
        return new MassFlux(value, MassFluxUnits.GramsPerHourPerSquareMeter);
    }
    /**
     * Create a new MassFlux instance from a GramsPerHourPerSquareCentimeter
     *
     * @param value The unit as GramsPerHourPerSquareCentimeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromGramsPerHourPerSquareCentimeter(value) {
        return new MassFlux(value, MassFluxUnits.GramsPerHourPerSquareCentimeter);
    }
    /**
     * Create a new MassFlux instance from a GramsPerHourPerSquareMillimeter
     *
     * @param value The unit as GramsPerHourPerSquareMillimeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromGramsPerHourPerSquareMillimeter(value) {
        return new MassFlux(value, MassFluxUnits.GramsPerHourPerSquareMillimeter);
    }
    /**
     * Create a new MassFlux instance from a KilogramsPerSecondPerSquareMeter
     *
     * @param value The unit as KilogramsPerSecondPerSquareMeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromKilogramsPerSecondPerSquareMeter(value) {
        return new MassFlux(value, MassFluxUnits.KilogramsPerSecondPerSquareMeter);
    }
    /**
     * Create a new MassFlux instance from a KilogramsPerSecondPerSquareCentimeter
     *
     * @param value The unit as KilogramsPerSecondPerSquareCentimeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromKilogramsPerSecondPerSquareCentimeter(value) {
        return new MassFlux(value, MassFluxUnits.KilogramsPerSecondPerSquareCentimeter);
    }
    /**
     * Create a new MassFlux instance from a KilogramsPerSecondPerSquareMillimeter
     *
     * @param value The unit as KilogramsPerSecondPerSquareMillimeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromKilogramsPerSecondPerSquareMillimeter(value) {
        return new MassFlux(value, MassFluxUnits.KilogramsPerSecondPerSquareMillimeter);
    }
    /**
     * Create a new MassFlux instance from a KilogramsPerHourPerSquareMeter
     *
     * @param value The unit as KilogramsPerHourPerSquareMeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromKilogramsPerHourPerSquareMeter(value) {
        return new MassFlux(value, MassFluxUnits.KilogramsPerHourPerSquareMeter);
    }
    /**
     * Create a new MassFlux instance from a KilogramsPerHourPerSquareCentimeter
     *
     * @param value The unit as KilogramsPerHourPerSquareCentimeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromKilogramsPerHourPerSquareCentimeter(value) {
        return new MassFlux(value, MassFluxUnits.KilogramsPerHourPerSquareCentimeter);
    }
    /**
     * Create a new MassFlux instance from a KilogramsPerHourPerSquareMillimeter
     *
     * @param value The unit as KilogramsPerHourPerSquareMillimeter to create a new MassFlux from.
     * @returns The new MassFlux instance.
     */
    static FromKilogramsPerHourPerSquareMillimeter(value) {
        return new MassFlux(value, MassFluxUnits.KilogramsPerHourPerSquareMillimeter);
    }
    /**
     * Gets the base unit enumeration associated with MassFlux
     * @returns The unit enumeration that can be used to interact with this type
     */
    static getUnitEnum() {
        return MassFluxUnits;
    }
    /**
     * Gets the default unit used when creating instances of the unit or its DTO
     * @returns The unit enumeration value used as a default parameter in constructor and DTO methods
     */
    static getBaseUnit() {
        return MassFluxUnits.KilogramsPerSecondPerSquareMeter;
    }
    /**
     * Create API DTO represent a MassFlux unit.
     * @param holdInUnit The specific MassFlux unit to be used in the unit representation at the DTO
     */
    toDto(holdInUnit = MassFluxUnits.KilogramsPerSecondPerSquareMeter) {
        return {
            value: this.convert(holdInUnit),
            unit: holdInUnit
        };
    }
    /**
     * Create a MassFlux unit from an API DTO representation.
     * @param dtoMassFlux The MassFlux API DTO representation
     */
    static FromDto(dtoMassFlux) {
        return new MassFlux(dtoMassFlux.value, dtoMassFlux.unit);
    }
    /**
     * Convert MassFlux to a specific unit value.
     * @param toUnit The specific unit to convert to
     * @returns The value of the specific unit provided.
     */
    convert(toUnit) {
        switch (toUnit) {
            case MassFluxUnits.GramsPerSecondPerSquareMeter: return this.GramsPerSecondPerSquareMeter;
            case MassFluxUnits.GramsPerSecondPerSquareCentimeter: return this.GramsPerSecondPerSquareCentimeter;
            case MassFluxUnits.GramsPerSecondPerSquareMillimeter: return this.GramsPerSecondPerSquareMillimeter;
            case MassFluxUnits.GramsPerHourPerSquareMeter: return this.GramsPerHourPerSquareMeter;
            case MassFluxUnits.GramsPerHourPerSquareCentimeter: return this.GramsPerHourPerSquareCentimeter;
            case MassFluxUnits.GramsPerHourPerSquareMillimeter: return this.GramsPerHourPerSquareMillimeter;
            case MassFluxUnits.KilogramsPerSecondPerSquareMeter: return this.KilogramsPerSecondPerSquareMeter;
            case MassFluxUnits.KilogramsPerSecondPerSquareCentimeter: return this.KilogramsPerSecondPerSquareCentimeter;
            case MassFluxUnits.KilogramsPerSecondPerSquareMillimeter: return this.KilogramsPerSecondPerSquareMillimeter;
            case MassFluxUnits.KilogramsPerHourPerSquareMeter: return this.KilogramsPerHourPerSquareMeter;
            case MassFluxUnits.KilogramsPerHourPerSquareCentimeter: return this.KilogramsPerHourPerSquareCentimeter;
            case MassFluxUnits.KilogramsPerHourPerSquareMillimeter: return this.KilogramsPerHourPerSquareMillimeter;
            default:
                break;
        }
        return Number.NaN;
    }
    convertFromBase(toUnit) {
        if (base_unit_1.areAnyOperatorsOverridden())
            switch (toUnit) {
                case MassFluxUnits.GramsPerSecondPerSquareMeter: return super.internalMultiply(this.value, 1e3);
                case MassFluxUnits.GramsPerSecondPerSquareCentimeter: return super.internalMultiply(this.value, 1e-1);
                case MassFluxUnits.GramsPerSecondPerSquareMillimeter: return super.internalMultiply(this.value, 1e-3);
                case MassFluxUnits.GramsPerHourPerSquareMeter: return super.internalMultiply(this.value, 3.6e6);
                case MassFluxUnits.GramsPerHourPerSquareCentimeter: return super.internalMultiply(this.value, 3.6e2);
                case MassFluxUnits.GramsPerHourPerSquareMillimeter: return super.internalMultiply(this.value, 3.6e0);
                case MassFluxUnits.KilogramsPerSecondPerSquareMeter: {
                    const v3 = super.internalMultiply(this.value, 1e3);
                    return super.internalDivide(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerSecondPerSquareCentimeter: {
                    const v3 = super.internalMultiply(this.value, 1e-1);
                    return super.internalDivide(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerSecondPerSquareMillimeter: {
                    const v3 = super.internalMultiply(this.value, 1e-3);
                    return super.internalDivide(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerHourPerSquareMeter: {
                    const v3 = super.internalMultiply(this.value, 3.6e6);
                    return super.internalDivide(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerHourPerSquareCentimeter: {
                    const v3 = super.internalMultiply(this.value, 3.6e2);
                    return super.internalDivide(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerHourPerSquareMillimeter: {
                    const v3 = super.internalMultiply(this.value, 3.6e0);
                    return super.internalDivide(v3, 1000);
                }
                default: return Number.NaN;
            }
        switch (toUnit) {
            case MassFluxUnits.GramsPerSecondPerSquareMeter: return this.value * 1e3;
            case MassFluxUnits.GramsPerSecondPerSquareCentimeter: return this.value * 1e-1;
            case MassFluxUnits.GramsPerSecondPerSquareMillimeter: return this.value * 1e-3;
            case MassFluxUnits.GramsPerHourPerSquareMeter: return this.value * 3.6e6;
            case MassFluxUnits.GramsPerHourPerSquareCentimeter: return this.value * 3.6e2;
            case MassFluxUnits.GramsPerHourPerSquareMillimeter: return this.value * 3.6e0;
            case MassFluxUnits.KilogramsPerSecondPerSquareMeter: return (this.value * 1e3) / 1000;
            case MassFluxUnits.KilogramsPerSecondPerSquareCentimeter: return (this.value * 1e-1) / 1000;
            case MassFluxUnits.KilogramsPerSecondPerSquareMillimeter: return (this.value * 1e-3) / 1000;
            case MassFluxUnits.KilogramsPerHourPerSquareMeter: return (this.value * 3.6e6) / 1000;
            case MassFluxUnits.KilogramsPerHourPerSquareCentimeter: return (this.value * 3.6e2) / 1000;
            case MassFluxUnits.KilogramsPerHourPerSquareMillimeter: return (this.value * 3.6e0) / 1000;
            default: return Number.NaN;
        }
    }
    convertToBase(value, fromUnit) {
        if (base_unit_1.areAnyOperatorsOverridden())
            switch (fromUnit) {
                case MassFluxUnits.GramsPerSecondPerSquareMeter: return super.internalDivide(value, 1e3);
                case MassFluxUnits.GramsPerSecondPerSquareCentimeter: return super.internalDivide(value, 1e-1);
                case MassFluxUnits.GramsPerSecondPerSquareMillimeter: return super.internalDivide(value, 1e-3);
                case MassFluxUnits.GramsPerHourPerSquareMeter: return super.internalDivide(value, 3.6e6);
                case MassFluxUnits.GramsPerHourPerSquareCentimeter: return super.internalDivide(value, 3.6e2);
                case MassFluxUnits.GramsPerHourPerSquareMillimeter: return super.internalDivide(value, 3.6e0);
                case MassFluxUnits.KilogramsPerSecondPerSquareMeter: {
                    const v3 = super.internalDivide(value, 1e3);
                    return super.internalMultiply(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerSecondPerSquareCentimeter: {
                    const v3 = super.internalDivide(value, 1e-1);
                    return super.internalMultiply(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerSecondPerSquareMillimeter: {
                    const v3 = super.internalDivide(value, 1e-3);
                    return super.internalMultiply(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerHourPerSquareMeter: {
                    const v3 = super.internalDivide(value, 3.6e6);
                    return super.internalMultiply(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerHourPerSquareCentimeter: {
                    const v3 = super.internalDivide(value, 3.6e2);
                    return super.internalMultiply(v3, 1000);
                }
                case MassFluxUnits.KilogramsPerHourPerSquareMillimeter: {
                    const v3 = super.internalDivide(value, 3.6e0);
                    return super.internalMultiply(v3, 1000);
                }
                default: return Number.NaN;
            }
        switch (fromUnit) {
            case MassFluxUnits.GramsPerSecondPerSquareMeter: return value / 1e3;
            case MassFluxUnits.GramsPerSecondPerSquareCentimeter: return value / 1e-1;
            case MassFluxUnits.GramsPerSecondPerSquareMillimeter: return value / 1e-3;
            case MassFluxUnits.GramsPerHourPerSquareMeter: return value / 3.6e6;
            case MassFluxUnits.GramsPerHourPerSquareCentimeter: return value / 3.6e2;
            case MassFluxUnits.GramsPerHourPerSquareMillimeter: return value / 3.6e0;
            case MassFluxUnits.KilogramsPerSecondPerSquareMeter: return (value / 1e3) * 1000;
            case MassFluxUnits.KilogramsPerSecondPerSquareCentimeter: return (value / 1e-1) * 1000;
            case MassFluxUnits.KilogramsPerSecondPerSquareMillimeter: return (value / 1e-3) * 1000;
            case MassFluxUnits.KilogramsPerHourPerSquareMeter: return (value / 3.6e6) * 1000;
            case MassFluxUnits.KilogramsPerHourPerSquareCentimeter: return (value / 3.6e2) * 1000;
            case MassFluxUnits.KilogramsPerHourPerSquareMillimeter: return (value / 3.6e0) * 1000;
            default: return Number.NaN;
        }
    }
    /**
     * Format the MassFlux to string.
     * Note! the default format for MassFlux is KilogramsPerSecondPerSquareMeter.
     * To specify the unit format set the 'unit' parameter.
     * @param unit The unit to format the MassFlux.
     * @param options The ToString options, it also can be the number of fractional digits to keep that deprecated and moved to the options object. support in number will be dropped in the upcoming versions.
     * @returns The string format of the MassFlux.
     */
    toString(unit = MassFluxUnits.KilogramsPerSecondPerSquareMeter, options) {
        if (typeof options === 'number') {
            console.warn('The number parameter is deprecated and moved to the options object. support in number will be dropped in the upcoming versions.');
            options = { fractionalDigits: options };
        }
        switch (unit) {
            case MassFluxUnits.GramsPerSecondPerSquareMeter:
                return super.truncateFractionDigits(this.GramsPerSecondPerSquareMeter, options) + ` g·s⁻¹·m⁻²`;
            case MassFluxUnits.GramsPerSecondPerSquareCentimeter:
                return super.truncateFractionDigits(this.GramsPerSecondPerSquareCentimeter, options) + ` g·s⁻¹·cm⁻²`;
            case MassFluxUnits.GramsPerSecondPerSquareMillimeter:
                return super.truncateFractionDigits(this.GramsPerSecondPerSquareMillimeter, options) + ` g·s⁻¹·mm⁻²`;
            case MassFluxUnits.GramsPerHourPerSquareMeter:
                return super.truncateFractionDigits(this.GramsPerHourPerSquareMeter, options) + ` g·h⁻¹·m⁻²`;
            case MassFluxUnits.GramsPerHourPerSquareCentimeter:
                return super.truncateFractionDigits(this.GramsPerHourPerSquareCentimeter, options) + ` g·h⁻¹·cm⁻²`;
            case MassFluxUnits.GramsPerHourPerSquareMillimeter:
                return super.truncateFractionDigits(this.GramsPerHourPerSquareMillimeter, options) + ` g·h⁻¹·mm⁻²`;
            case MassFluxUnits.KilogramsPerSecondPerSquareMeter:
                return super.truncateFractionDigits(this.KilogramsPerSecondPerSquareMeter, options) + ` kg·s⁻¹·m⁻²`;
            case MassFluxUnits.KilogramsPerSecondPerSquareCentimeter:
                return super.truncateFractionDigits(this.KilogramsPerSecondPerSquareCentimeter, options) + ` kg·s⁻¹·cm⁻²`;
            case MassFluxUnits.KilogramsPerSecondPerSquareMillimeter:
                return super.truncateFractionDigits(this.KilogramsPerSecondPerSquareMillimeter, options) + ` kg·s⁻¹·mm⁻²`;
            case MassFluxUnits.KilogramsPerHourPerSquareMeter:
                return super.truncateFractionDigits(this.KilogramsPerHourPerSquareMeter, options) + ` kg·h⁻¹·m⁻²`;
            case MassFluxUnits.KilogramsPerHourPerSquareCentimeter:
                return super.truncateFractionDigits(this.KilogramsPerHourPerSquareCentimeter, options) + ` kg·h⁻¹·cm⁻²`;
            case MassFluxUnits.KilogramsPerHourPerSquareMillimeter:
                return super.truncateFractionDigits(this.KilogramsPerHourPerSquareMillimeter, options) + ` kg·h⁻¹·mm⁻²`;
            default:
                break;
        }
        return this.value.toString();
    }
    /**
     * Get MassFlux unit abbreviation.
     * Note! the default abbreviation for MassFlux is KilogramsPerSecondPerSquareMeter.
     * To specify the unit abbreviation set the 'unitAbbreviation' parameter.
     * @param unitAbbreviation The unit abbreviation of the MassFlux.
     * @returns The abbreviation string of MassFlux.
     */
    getUnitAbbreviation(unitAbbreviation = MassFluxUnits.KilogramsPerSecondPerSquareMeter) {
        switch (unitAbbreviation) {
            case MassFluxUnits.GramsPerSecondPerSquareMeter:
                return `g·s⁻¹·m⁻²`;
            case MassFluxUnits.GramsPerSecondPerSquareCentimeter:
                return `g·s⁻¹·cm⁻²`;
            case MassFluxUnits.GramsPerSecondPerSquareMillimeter:
                return `g·s⁻¹·mm⁻²`;
            case MassFluxUnits.GramsPerHourPerSquareMeter:
                return `g·h⁻¹·m⁻²`;
            case MassFluxUnits.GramsPerHourPerSquareCentimeter:
                return `g·h⁻¹·cm⁻²`;
            case MassFluxUnits.GramsPerHourPerSquareMillimeter:
                return `g·h⁻¹·mm⁻²`;
            case MassFluxUnits.KilogramsPerSecondPerSquareMeter:
                return `kg·s⁻¹·m⁻²`;
            case MassFluxUnits.KilogramsPerSecondPerSquareCentimeter:
                return `kg·s⁻¹·cm⁻²`;
            case MassFluxUnits.KilogramsPerSecondPerSquareMillimeter:
                return `kg·s⁻¹·mm⁻²`;
            case MassFluxUnits.KilogramsPerHourPerSquareMeter:
                return `kg·h⁻¹·m⁻²`;
            case MassFluxUnits.KilogramsPerHourPerSquareCentimeter:
                return `kg·h⁻¹·cm⁻²`;
            case MassFluxUnits.KilogramsPerHourPerSquareMillimeter:
                return `kg·h⁻¹·mm⁻²`;
            default:
                break;
        }
        return '';
    }
    /**
     * Check if the given MassFlux are equals to the current MassFlux.
     * @param massFlux The other MassFlux.
     * @returns True if the given MassFlux are equal to the current MassFlux.
     */
    equals(massFlux) {
        return super.internalEquals(this.value, massFlux.BaseValue);
    }
    /**
     * Compare the given MassFlux against the current MassFlux.
     * @param massFlux The other MassFlux.
     * @returns 0 if they are equal, -1 if the current MassFlux is less then other, 1 if the current MassFlux is greater then other.
     */
    compareTo(massFlux) {
        return super.internalCompareTo(this.value, massFlux.BaseValue);
    }
    /**
     * Add the given MassFlux with the current MassFlux.
     * @param massFlux The other MassFlux.
     * @returns A new MassFlux instance with the results.
     */
    add(massFlux) {
        return new MassFlux(super.internalAdd(this.value, massFlux.BaseValue));
    }
    /**
     * Subtract the given MassFlux with the current MassFlux.
     * @param massFlux The other MassFlux.
     * @returns A new MassFlux instance with the results.
     */
    subtract(massFlux) {
        return new MassFlux(super.internalSubtract(this.value, massFlux.BaseValue));
    }
    /**
     * Multiply the given MassFlux with the current MassFlux.
     * @param massFlux The other MassFlux.
     * @returns A new MassFlux instance with the results.
     */
    multiply(massFlux) {
        return new MassFlux(super.internalMultiply(this.value, massFlux.BaseValue));
    }
    /**
     * Divide the given MassFlux with the current MassFlux.
     * @param massFlux The other MassFlux.
     * @returns A new MassFlux instance with the results.
     */
    divide(massFlux) {
        return new MassFlux(super.internalDivide(this.value, massFlux.BaseValue));
    }
    /**
     * Modulo the given MassFlux with the current MassFlux.
     * @param massFlux The other MassFlux.
     * @returns A new MassFlux instance with the results.
     */
    modulo(massFlux) {
        return new MassFlux(super.internalModulo(this.value, massFlux.BaseValue));
    }
    /**
     * Pow the given MassFlux with the current MassFlux.
     * @param massFlux The other MassFlux.
     * @returns A new MassFlux instance with the results.
     */
    pow(massFlux) {
        return new MassFlux(super.internalPow(this.value, massFlux.BaseValue));
    }
}
exports.MassFlux = MassFlux;