2015-12-18 16:20:47 +03:00
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/*
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* Copyright 2015 Alexander Nozik.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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package inr.numass.models;
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2016-07-24 21:44:57 +03:00
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import hep.dataforge.fitting.parametric.AbstractParametricFunction;
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import hep.dataforge.fitting.parametric.ParametricFunction;
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2015-12-18 16:20:47 +03:00
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import hep.dataforge.names.NamedUtils;
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2016-05-31 20:05:15 +03:00
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import hep.dataforge.values.NamedValueSet;
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import hep.dataforge.values.ValueProvider;
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2015-12-18 16:20:47 +03:00
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import java.util.ArrayList;
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import java.util.List;
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import org.apache.commons.math3.analysis.BivariateFunction;
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import org.slf4j.LoggerFactory;
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/**
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* Modular spectrum for any source spectrum with separate calculation for
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* different transmission components
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*
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* @author Darksnake
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*/
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public class ModularSpectrum extends AbstractParametricFunction {
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private static final String[] list = {"X", "trap"};
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private LossCalculator calculator;
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List<NamedSpectrumCaching> cacheList;
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NamedSpectrumCaching trappingCache;
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BivariateFunction resolution;
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RangedNamedSetSpectrum sourceSpectrum;
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BivariateFunction trappingFunction;
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2016-07-07 20:40:43 +03:00
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boolean caching = false;
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2015-12-18 16:20:47 +03:00
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double cacheMin;
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double cacheMax;
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/**
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*
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* @param source
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* @param resolution
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* @param cacheMin - нижняя граница кэширования. Должна быть с небольшим
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* запасом по отношению к данным
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* @param cacheMax - верхняя граница кэширования.
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*/
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public ModularSpectrum(RangedNamedSetSpectrum source, BivariateFunction resolution, double cacheMin, double cacheMax) {
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super(NamedUtils.combineNamesWithEquals(list, source.namesAsArray()));
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if (cacheMin >= cacheMax) {
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throw new IllegalArgumentException();
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}
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this.cacheMin = cacheMin;
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this.cacheMax = cacheMax;
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this.resolution = resolution;
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this.calculator = LossCalculator.instance();
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this.sourceSpectrum = source;
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setupCache();
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}
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public ModularSpectrum(RangedNamedSetSpectrum source, BivariateFunction resolution) {
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this(source, resolution, Double.NaN, Double.NaN);
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}
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/**
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*
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* @param source
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* @param resA - относительная ширина разрешения
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* @param cacheMin - нижняя граница кэширования. Должна быть с небольшим
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* запасом по отношению к данным
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* @param cacheMax - верхняя граница кэширования, может быть без запаса.
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*/
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public ModularSpectrum(RangedNamedSetSpectrum source, double resA, double cacheMin, double cacheMax) {
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this(source, new ResolutionFunction(resA), cacheMin, cacheMax);
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}
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public ModularSpectrum(RangedNamedSetSpectrum source, double resA) {
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this(source, new ResolutionFunction(resA));
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}
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public void setTrappingFunction(BivariateFunction trappingFunction) {
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this.trappingFunction = trappingFunction;
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LoggerFactory.getLogger(getClass()).info("Recalculating modular spectrum cache");
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setupCache();
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}
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2015-12-18 16:20:47 +03:00
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/**
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* Отдельный метод нужен на случай, если бета-спектр(FSS) или разрешение
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* будут меняться в процессе
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*/
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private void setupCache() {
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//обновляем кэши для трэппинга и упругого прохождения
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//Using external trappingCache function if provided
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BivariateFunction trapFunc = trappingFunction != null ? trappingFunction : LossCalculator.getTrapFunction();
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BivariateFunction trapRes = new LossResConvolution(trapFunc, resolution);
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ParametricFunction elasticSpectrum = new TransmissionConvolution(sourceSpectrum, resolution, sourceSpectrum);
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ParametricFunction trapSpectrum = new TransmissionConvolution(sourceSpectrum, trapRes, sourceSpectrum);
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/**
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* обнуляем кэш рассеяния
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*/
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cacheList = new ArrayList<>();
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//добавляем нулевой порядок - упругое рассеяние
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TritiumSpectrumCaching elasticCache = new TritiumSpectrumCaching(elasticSpectrum, cacheMin, cacheMax);
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elasticCache.setCachingEnabled(caching);
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cacheList.add(elasticCache);
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this.trappingCache = new TritiumSpectrumCaching(trapSpectrum, cacheMin, cacheMax);
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this.trappingCache.setCachingEnabled(caching);
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}
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/**
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* Обновляем кэш рассеяния если требуемый порядок выше, чем тот, что есть
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*
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* @param order
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*/
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private void updateScatterCache(int order) {
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if (order >= cacheList.size()) {
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LoggerFactory.getLogger(getClass())
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.debug("Updating scatter cache up to order of '{}'", order);
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// здесь можно сэкономить вызовы, начиная с cacheList.size(), но надо это?
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for (int i = 1; i < order + 1; i++) {
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BivariateFunction loss = calculator.getLossFunction(i);
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BivariateFunction lossRes = new LossResConvolution(loss, resolution);
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ParametricFunction inelasticSpectrum = new TransmissionConvolution(sourceSpectrum, lossRes, sourceSpectrum);
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TritiumSpectrumCaching spCatch = new TritiumSpectrumCaching(inelasticSpectrum, cacheMin, cacheMax);
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spCatch.setCachingEnabled(caching);
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spCatch.setSuppressWarnings(true);
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//TODO сделать пороверку
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cacheList.add(i, spCatch);
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}
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}
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}
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@Override
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public double derivValue(String parName, double U, NamedValueSet set) {
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if (U >= sourceSpectrum.max(set)) {
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return 0;
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}
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double X = this.getX(set);
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switch (parName) {
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case "X":
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List<Double> probDerivs = calculator.getLossProbDerivs(X);
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updateScatterCache(probDerivs.size() - 1);
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double derivSum = 0;
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for (int i = 0; i < probDerivs.size(); i++) {
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derivSum += probDerivs.get(i) * cacheList.get(i).value(U, set);
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}
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return derivSum;
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case "trap":
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return this.trappingCache.value(U, set);
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default:
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if (sourceSpectrum.names().contains(parName)) {
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List<Double> probs = calculator.getLossProbabilities(X);
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updateScatterCache(probs.size() - 1);
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double sum = 0;
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for (int i = 0; i < probs.size(); i++) {
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sum += probs.get(i) * cacheList.get(i).derivValue(parName, U, set);
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}
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sum += this.getTrap(set) * this.trappingCache.derivValue(parName, U, set);
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return sum;
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} else {
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return 0;
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}
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}
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}
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2016-05-31 20:05:15 +03:00
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private double getTrap(ValueProvider set) {
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return set.getDouble("trap");
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}
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private double getX(ValueProvider set) {
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return set.getDouble("X");
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}
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@Override
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public boolean providesDeriv(String name) {
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return sourceSpectrum.providesDeriv(name);
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}
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/**
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* Set the boundaries and recalculate cache
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*
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* @param cacheMin
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* @param cacheMax
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*/
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public void setCachingBoundaries(double cacheMin, double cacheMax) {
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this.cacheMin = cacheMin;
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this.cacheMax = cacheMax;
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setupCache();
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}
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public final void setCaching(boolean caching) {
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if (caching && (cacheMin == Double.NaN || cacheMax == Double.NaN)) {
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throw new IllegalStateException("Cahing boundaries are not defined");
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}
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2015-12-18 16:20:47 +03:00
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this.caching = caching;
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this.trappingCache.setCachingEnabled(caching);
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2016-06-29 19:01:10 +03:00
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this.cacheList.stream().forEach((sp) -> {
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sp.setCachingEnabled(caching);
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});
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2015-12-18 16:20:47 +03:00
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}
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2016-06-02 18:41:34 +03:00
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/**
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* Suppress warnings about cache recalculation
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* @param suppress
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*/
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public void setSuppressWarnings(boolean suppress) {
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this.trappingCache.setSuppressWarnings(suppress);
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this.cacheList.stream().forEach((sp) -> {
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sp.setSuppressWarnings(suppress);
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});
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}
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@Override
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public double value(double U, NamedValueSet set) {
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if (U >= sourceSpectrum.max(set)) {
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return 0;
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}
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double X = this.getX(set);
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List<Double> probs = calculator.getLossProbabilities(X);
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updateScatterCache(probs.size() - 1);
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double res = 0;
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for (int i = 0; i < probs.size(); i++) {
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res += probs.get(i) * cacheList.get(i).value(U, set);
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}
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2016-05-25 12:18:43 +03:00
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res += this.getTrap(set) * this.trappingCache.value(U, set);
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return res;
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}
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}
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