import { PointContainer } from '../../utils/pointContainer'; import { AbstractDistanceCalculator } from '../../distance/distanceCalculator'; import { AbstractPaletteQuantizer } from '../paletteQuantizer'; import { PaletteQuantizerYieldValue } from '../paletteQuantizerYieldValue'; export declare class NeuQuantFloat extends AbstractPaletteQuantizer { private static readonly _prime1; private static readonly _prime2; private static readonly _prime3; private static readonly _prime4; private static readonly _minpicturebytes; private static readonly _nCycles; private static readonly _initialBiasShift; private static readonly _initialBias; private static readonly _gammaShift; private static readonly _betaShift; private static readonly _beta; private static readonly _betaGamma; private static readonly _radiusBiasShift; private static readonly _radiusBias; private static readonly _radiusDecrease; private static readonly _alphaBiasShift; private static readonly _initAlpha; private static readonly _radBiasShift; private static readonly _radBias; private static readonly _alphaRadBiasShift; private static readonly _alphaRadBias; private _pointArray; private readonly _networkSize; private _network; /** sampling factor 1..30 */ private readonly _sampleFactor; private _radPower; private _freq; private _bias; private readonly _distance; constructor(colorDistanceCalculator: AbstractDistanceCalculator, colors?: number); sample(pointContainer: PointContainer): void; quantize(): Generator; private _init; /** * Main Learning Loop */ private _learn; private _buildPalette; /** * Move adjacent neurons by precomputed alpha*(1-((i-j)^2/[r]^2)) in radpower[|i-j|] */ private _alterNeighbour; /** * Move neuron i towards biased (b,g,r) by factor alpha */ private _alterSingle; /** * Search for biased BGR values * description: * finds closest neuron (min dist) and updates freq * finds best neuron (min dist-bias) and returns position * for frequently chosen neurons, freq[i] is high and bias[i] is negative * bias[i] = _gamma*((1/this._networkSize)-freq[i]) * * Original distance equation: * dist = abs(dR) + abs(dG) + abs(dB) */ private _contest; } //# sourceMappingURL=neuquantFloat.d.ts.map