import Cartesian3 from '../Core/Cartesian3.js';
import Check from '../Core/Check.js';
import defaultValue from '../Core/defaultValue.js';
import defined from '../Core/defined.js';
import defineProperties from '../Core/defineProperties.js';
import DeveloperError from '../Core/DeveloperError.js';
import Event from '../Core/Event.js';
import ReferenceFrame from '../Core/ReferenceFrame.js';
import PositionProperty from './PositionProperty.js';
import Property from './Property.js';
import SampledProperty from './SampledProperty.js';
/**
* A {@link SampledProperty} which is also a {@link PositionProperty}.
*
* @alias SampledPositionProperty
* @constructor
*
* @param {ReferenceFrame} [referenceFrame=ReferenceFrame.FIXED] The reference frame in which the position is defined.
* @param {Number} [numberOfDerivatives=0] The number of derivatives that accompany each position; i.e. velocity, acceleration, etc...
*/
function SampledPositionProperty(referenceFrame, numberOfDerivatives) {
numberOfDerivatives = defaultValue(numberOfDerivatives, 0);
var derivativeTypes;
if (numberOfDerivatives > 0) {
derivativeTypes = new Array(numberOfDerivatives);
for (var i = 0; i < numberOfDerivatives; i++) {
derivativeTypes[i] = Cartesian3;
}
}
this._numberOfDerivatives = numberOfDerivatives;
this._property = new SampledProperty(Cartesian3, derivativeTypes);
this._definitionChanged = new Event();
this._referenceFrame = defaultValue(referenceFrame, ReferenceFrame.FIXED);
this._property._definitionChanged.addEventListener(function() {
this._definitionChanged.raiseEvent(this);
}, this);
}
defineProperties(SampledPositionProperty.prototype, {
/**
* Gets a value indicating if this property is constant. A property is considered
* constant if getValue always returns the same result for the current definition.
* @memberof SampledPositionProperty.prototype
*
* @type {Boolean}
* @readonly
*/
isConstant : {
get : function() {
return this._property.isConstant;
}
},
/**
* Gets the event that is raised whenever the definition of this property changes.
* The definition is considered to have changed if a call to getValue would return
* a different result for the same time.
* @memberof SampledPositionProperty.prototype
*
* @type {Event}
* @readonly
*/
definitionChanged : {
get : function() {
return this._definitionChanged;
}
},
/**
* Gets the reference frame in which the position is defined.
* @memberof SampledPositionProperty.prototype
* @type {ReferenceFrame}
* @default ReferenceFrame.FIXED;
*/
referenceFrame : {
get : function() {
return this._referenceFrame;
}
},
/**
* Gets the degree of interpolation to perform when retrieving a value.
* @memberof SampledPositionProperty.prototype
*
* @type {Number}
* @default 1
*/
interpolationDegree : {
get : function() {
return this._property.interpolationDegree;
}
},
/**
* Gets the interpolation algorithm to use when retrieving a value.
* @memberof SampledPositionProperty.prototype
*
* @type {InterpolationAlgorithm}
* @default LinearApproximation
*/
interpolationAlgorithm : {
get : function() {
return this._property.interpolationAlgorithm;
}
},
/**
* The number of derivatives contained by this property; i.e. 0 for just position, 1 for velocity, etc.
* @memberof SampledPositionProperty.prototype
*
* @type {Boolean}
* @default false
*/
numberOfDerivatives : {
get : function() {
return this._numberOfDerivatives;
}
},
/**
* Gets or sets the type of extrapolation to perform when a value
* is requested at a time after any available samples.
* @memberof SampledPositionProperty.prototype
* @type {ExtrapolationType}
* @default ExtrapolationType.NONE
*/
forwardExtrapolationType : {
get : function() {
return this._property.forwardExtrapolationType;
},
set : function(value) {
this._property.forwardExtrapolationType = value;
}
},
/**
* Gets or sets the amount of time to extrapolate forward before
* the property becomes undefined. A value of 0 will extrapolate forever.
* @memberof SampledPositionProperty.prototype
* @type {Number}
* @default 0
*/
forwardExtrapolationDuration : {
get : function() {
return this._property.forwardExtrapolationDuration;
},
set : function(value) {
this._property.forwardExtrapolationDuration = value;
}
},
/**
* Gets or sets the type of extrapolation to perform when a value
* is requested at a time before any available samples.
* @memberof SampledPositionProperty.prototype
* @type {ExtrapolationType}
* @default ExtrapolationType.NONE
*/
backwardExtrapolationType : {
get : function() {
return this._property.backwardExtrapolationType;
},
set : function(value) {
this._property.backwardExtrapolationType = value;
}
},
/**
* Gets or sets the amount of time to extrapolate backward
* before the property becomes undefined. A value of 0 will extrapolate forever.
* @memberof SampledPositionProperty.prototype
* @type {Number}
* @default 0
*/
backwardExtrapolationDuration : {
get : function() {
return this._property.backwardExtrapolationDuration;
},
set : function(value) {
this._property.backwardExtrapolationDuration = value;
}
}
});
/**
* Gets the position at the provided time.
*
* @param {JulianDate} time The time for which to retrieve the value.
* @param {Cartesian3} [result] The object to store the value into, if omitted, a new instance is created and returned.
* @returns {Cartesian3} The modified result parameter or a new instance if the result parameter was not supplied.
*/
SampledPositionProperty.prototype.getValue = function(time, result) {
return this.getValueInReferenceFrame(time, ReferenceFrame.FIXED, result);
};
/**
* Gets the position at the provided time and in the provided reference frame.
*
* @param {JulianDate} time The time for which to retrieve the value.
* @param {ReferenceFrame} referenceFrame The desired referenceFrame of the result.
* @param {Cartesian3} [result] The object to store the value into, if omitted, a new instance is created and returned.
* @returns {Cartesian3} The modified result parameter or a new instance if the result parameter was not supplied.
*/
SampledPositionProperty.prototype.getValueInReferenceFrame = function(time, referenceFrame, result) {
//>>includeStart('debug', pragmas.debug);
Check.defined('time', time);
Check.defined('referenceFrame', referenceFrame);
//>>includeEnd('debug');
result = this._property.getValue(time, result);
if (defined(result)) {
return PositionProperty.convertToReferenceFrame(time, result, this._referenceFrame, referenceFrame, result);
}
return undefined;
};
/**
* Sets the algorithm and degree to use when interpolating a position.
*
* @param {Object} [options] Object with the following properties:
* @param {InterpolationAlgorithm} [options.interpolationAlgorithm] The new interpolation algorithm. If undefined, the existing property will be unchanged.
* @param {Number} [options.interpolationDegree] The new interpolation degree. If undefined, the existing property will be unchanged.
*/
SampledPositionProperty.prototype.setInterpolationOptions = function(options) {
this._property.setInterpolationOptions(options);
};
/**
* Adds a new sample.
*
* @param {JulianDate} time The sample time.
* @param {Cartesian3} position The position at the provided time.
* @param {Cartesian3[]} [derivatives] The array of derivative values at the provided time.
*/
SampledPositionProperty.prototype.addSample = function(time, position, derivatives) {
var numberOfDerivatives = this._numberOfDerivatives;
//>>includeStart('debug', pragmas.debug);
if (numberOfDerivatives > 0 && (!defined(derivatives) || derivatives.length !== numberOfDerivatives)) {
throw new DeveloperError('derivatives length must be equal to the number of derivatives.');
}
//>>includeEnd('debug');
this._property.addSample(time, position, derivatives);
};
/**
* Adds multiple samples via parallel arrays.
*
* @param {JulianDate[]} times An array of JulianDate instances where each index is a sample time.
* @param {Cartesian3[]} positions An array of Cartesian3 position instances, where each value corresponds to the provided time index.
* @param {Array[]} [derivatives] An array where each value is another array containing derivatives for the corresponding time index.
*
* @exception {DeveloperError} All arrays must be the same length.
*/
SampledPositionProperty.prototype.addSamples = function(times, positions, derivatives) {
this._property.addSamples(times, positions, derivatives);
};
/**
* Adds samples as a single packed array where each new sample is represented as a date,
* followed by the packed representation of the corresponding value and derivatives.
*
* @param {Number[]} packedSamples The array of packed samples.
* @param {JulianDate} [epoch] If any of the dates in packedSamples are numbers, they are considered an offset from this epoch, in seconds.
*/
SampledPositionProperty.prototype.addSamplesPackedArray = function(packedSamples, epoch) {
this._property.addSamplesPackedArray(packedSamples, epoch);
};
/**
* Removes a sample at the given time, if present.
*
* @param {JulianDate} time The sample time.
* @returns {Boolean} true if a sample at time was removed, false otherwise.
*/
SampledPositionProperty.prototype.removeSample = function(time) {
this._property.removeSample(time);
};
/**
* Removes all samples for the given time interval.
*
* @param {TimeInterval} time The time interval for which to remove all samples.
*/
SampledPositionProperty.prototype.removeSamples = function(timeInterval) {
this._property.removeSamples(timeInterval);
};
/**
* Compares this property to the provided property and returns
* true if they are equal, false otherwise.
*
* @param {Property} [other] The other property.
* @returns {Boolean} true if left and right are equal, false otherwise.
*/
SampledPositionProperty.prototype.equals = function(other) {
return this === other || //
(other instanceof SampledPositionProperty &&
Property.equals(this._property, other._property) && //
this._referenceFrame === other._referenceFrame);
};
export default SampledPositionProperty;