/**
 * Copyright (C) 2018 Adrien Hopkins
 *
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU Affero General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Affero General Public License for more details.
 *
 * You should have received a copy of the GNU Affero General Public License
 * along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
package org.unitConverter.math;

import org.unitConverter.dimension.BaseDimension;
import org.unitConverter.dimension.OtherBaseDimension;
import org.unitConverter.dimension.SIBaseDimension;

/**
 * All of the dimensions that are used by the SI. (Test data for the ObjectProductTest)
 * 
 * @author Adrien Hopkins
 * @since 2018-12-11
 * @since v0.1.0
 */
final class StandardDimensions {
	// base dimensions
	public static final ObjectProduct<BaseDimension> EMPTY = ObjectProduct.empty();
	public static final ObjectProduct<BaseDimension> LENGTH = ObjectProduct.oneOf(SIBaseDimension.LENGTH);
	public static final ObjectProduct<BaseDimension> MASS = ObjectProduct.oneOf(SIBaseDimension.MASS);
	public static final ObjectProduct<BaseDimension> TIME = ObjectProduct.oneOf(SIBaseDimension.TIME);
	public static final ObjectProduct<BaseDimension> ELECTRIC_CURRENT = ObjectProduct
			.oneOf(SIBaseDimension.ELECTRIC_CURRENT);
	public static final ObjectProduct<BaseDimension> TEMPERATURE = ObjectProduct.oneOf(SIBaseDimension.TEMPERATURE);
	public static final ObjectProduct<BaseDimension> QUANTITY = ObjectProduct.oneOf(SIBaseDimension.QUANTITY);
	public static final ObjectProduct<BaseDimension> LUMINOUS_INTENSITY = ObjectProduct
			.oneOf(SIBaseDimension.LUMINOUS_INTENSITY);
	public static final ObjectProduct<BaseDimension> INFORMATION = ObjectProduct.oneOf(OtherBaseDimension.INFORMATION);
	public static final ObjectProduct<BaseDimension> CURRENCY = ObjectProduct.oneOf(OtherBaseDimension.CURRENCY);
	// derived dimensions without named SI units
	public static final ObjectProduct<BaseDimension> AREA = LENGTH.times(LENGTH);

	public static final ObjectProduct<BaseDimension> VOLUME = AREA.times(LENGTH);
	public static final ObjectProduct<BaseDimension> VELOCITY = LENGTH.dividedBy(TIME);
	public static final ObjectProduct<BaseDimension> ACCELERATION = VELOCITY.dividedBy(TIME);
	public static final ObjectProduct<BaseDimension> WAVENUMBER = EMPTY.dividedBy(LENGTH);
	public static final ObjectProduct<BaseDimension> MASS_DENSITY = MASS.dividedBy(VOLUME);
	public static final ObjectProduct<BaseDimension> SURFACE_DENSITY = MASS.dividedBy(AREA);
	public static final ObjectProduct<BaseDimension> SPECIFIC_VOLUME = VOLUME.dividedBy(MASS);
	public static final ObjectProduct<BaseDimension> CURRENT_DENSITY = ELECTRIC_CURRENT.dividedBy(AREA);
	public static final ObjectProduct<BaseDimension> MAGNETIC_FIELD_STRENGTH = ELECTRIC_CURRENT.dividedBy(LENGTH);
	public static final ObjectProduct<BaseDimension> CONCENTRATION = QUANTITY.dividedBy(VOLUME);
	public static final ObjectProduct<BaseDimension> MASS_CONCENTRATION = CONCENTRATION.times(MASS);
	public static final ObjectProduct<BaseDimension> LUMINANCE = LUMINOUS_INTENSITY.dividedBy(AREA);
	public static final ObjectProduct<BaseDimension> REFRACTIVE_INDEX = VELOCITY.dividedBy(VELOCITY);
	public static final ObjectProduct<BaseDimension> REFLACTIVE_PERMEABILITY = EMPTY.times(EMPTY);
	public static final ObjectProduct<BaseDimension> ANGLE = LENGTH.dividedBy(LENGTH);
	public static final ObjectProduct<BaseDimension> SOLID_ANGLE = AREA.dividedBy(AREA);
	// derived dimensions with named SI units
	public static final ObjectProduct<BaseDimension> FREQUENCY = EMPTY.dividedBy(TIME);

	public static final ObjectProduct<BaseDimension> FORCE = MASS.times(ACCELERATION);
	public static final ObjectProduct<BaseDimension> ENERGY = FORCE.times(LENGTH);
	public static final ObjectProduct<BaseDimension> POWER = ENERGY.dividedBy(TIME);
	public static final ObjectProduct<BaseDimension> ELECTRIC_CHARGE = ELECTRIC_CURRENT.times(TIME);
	public static final ObjectProduct<BaseDimension> VOLTAGE = ENERGY.dividedBy(ELECTRIC_CHARGE);
	public static final ObjectProduct<BaseDimension> CAPACITANCE = ELECTRIC_CHARGE.dividedBy(VOLTAGE);
	public static final ObjectProduct<BaseDimension> ELECTRIC_RESISTANCE = VOLTAGE.dividedBy(ELECTRIC_CURRENT);
	public static final ObjectProduct<BaseDimension> ELECTRIC_CONDUCTANCE = ELECTRIC_CURRENT.dividedBy(VOLTAGE);
	public static final ObjectProduct<BaseDimension> MAGNETIC_FLUX = VOLTAGE.times(TIME);
	public static final ObjectProduct<BaseDimension> MAGNETIC_FLUX_DENSITY = MAGNETIC_FLUX.dividedBy(AREA);
	public static final ObjectProduct<BaseDimension> INDUCTANCE = MAGNETIC_FLUX.dividedBy(ELECTRIC_CURRENT);
	public static final ObjectProduct<BaseDimension> LUMINOUS_FLUX = LUMINOUS_INTENSITY.times(SOLID_ANGLE);
	public static final ObjectProduct<BaseDimension> ILLUMINANCE = LUMINOUS_FLUX.dividedBy(AREA);
	public static final ObjectProduct<BaseDimension> SPECIFIC_ENERGY = ENERGY.dividedBy(MASS);
	public static final ObjectProduct<BaseDimension> CATALYTIC_ACTIVITY = QUANTITY.dividedBy(TIME);

	// You may NOT get StandardDimensions instances!
	private StandardDimensions() {
		throw new AssertionError();
	}
}