mirror of
https://github.com/DanilaFe/abacus
synced 2024-11-17 16:09:32 -08:00
Merge branch 'sig-fig'
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commit
0da14ee70e
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@ -128,5 +128,9 @@ public class NaiveNumber extends NumberInterface {
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return Double.toString(Math.round(value * shiftBy) / shiftBy);
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return Double.toString(Math.round(value * shiftBy) / shiftBy);
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}
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}
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@Override
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public NumberInterface getMaxError(){
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return new NaiveNumber(Math.pow(10, -18));
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}
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}
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}
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@ -255,4 +255,11 @@ public abstract class NumberInterface {
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return promoteToInternal(toClass);
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return promoteToInternal(toClass);
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}
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}
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/**
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* Returns the smallest error this instance can tolerate depending
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* on its precision and value.
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* @return the smallest error that should be permitted in calculations.
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*/
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public abstract NumberInterface getMaxError();
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}
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}
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@ -1,7 +1,7 @@
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package org.nwapw.abacus.number;
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package org.nwapw.abacus.number;
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import java.math.BigDecimal;
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import java.math.BigDecimal;
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import java.math.RoundingMode;
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import java.math.MathContext;
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/**
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/**
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* A number that uses a BigDecimal to store its value,
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* A number that uses a BigDecimal to store its value,
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@ -22,6 +22,21 @@ public class PreciseNumber extends NumberInterface {
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*/
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*/
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public static final PreciseNumber TEN = new PreciseNumber(BigDecimal.TEN);
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public static final PreciseNumber TEN = new PreciseNumber(BigDecimal.TEN);
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/**
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* The number of extra significant figures kept in calculations before rounding for output.
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*/
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private static int numExtraInternalSigFigs = 15;
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/**
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* MathContext that is used when rounding a number prior to output.
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*/
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private static MathContext outputContext = new MathContext(50);
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/**
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* MathContext that is actually used in calculations.
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*/
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private static MathContext internalContext = new MathContext(outputContext.getPrecision()+numExtraInternalSigFigs);
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/**
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/**
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* The value of the PreciseNumber.
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* The value of the PreciseNumber.
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*/
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*/
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@ -48,7 +63,7 @@ public class PreciseNumber extends NumberInterface {
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@Override
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@Override
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public int getMaxPrecision() {
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public int getMaxPrecision() {
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return 65;
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return internalContext.getPrecision();
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}
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}
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@Override
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@Override
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@ -58,7 +73,7 @@ public class PreciseNumber extends NumberInterface {
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@Override
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@Override
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public NumberInterface divideInternal(NumberInterface divisor) {
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public NumberInterface divideInternal(NumberInterface divisor) {
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return new PreciseNumber(value.divide(((PreciseNumber) divisor).value, this.getMaxPrecision(), RoundingMode.HALF_UP));
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return new PreciseNumber(value.divide(((PreciseNumber) divisor).value, internalContext));
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}
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}
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@Override
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@Override
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@ -147,7 +162,11 @@ public class PreciseNumber extends NumberInterface {
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@Override
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@Override
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public String toString() {
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public String toString() {
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BigDecimal rounded = value.setScale(getMaxPrecision() - 15, RoundingMode.HALF_UP);
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return value.round(outputContext).toString();
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return rounded.stripTrailingZeros().toPlainString();
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}
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@Override
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public NumberInterface getMaxError(){
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return new PreciseNumber(value.ulp()).multiplyInternal(TEN.intPowInternal(value.precision()-internalContext.getPrecision()));
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}
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}
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}
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}
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@ -188,7 +188,7 @@ public class StandardPlugin extends Plugin {
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*/
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*/
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private NumberInterface getLogPartialSum(NumberInterface x) {
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private NumberInterface getLogPartialSum(NumberInterface x) {
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NumberInterface maxError = getMaxError(x);
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NumberInterface maxError = x.getMaxError();
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x = x.subtract(NaiveNumber.ONE.promoteTo(x.getClass())); //Terms used are for log(x+1).
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x = x.subtract(NaiveNumber.ONE.promoteTo(x.getClass())); //Terms used are for log(x+1).
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NumberInterface currentNumerator = x, currentTerm = x, sum = x;
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NumberInterface currentNumerator = x, currentTerm = x, sum = x;
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int n = 1;
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int n = 1;
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@ -207,7 +207,7 @@ public class StandardPlugin extends Plugin {
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* @return the value of log(2) with the appropriate precision.
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* @return the value of log(2) with the appropriate precision.
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*/
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*/
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private NumberInterface getLog2(NumberInterface number) {
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private NumberInterface getLog2(NumberInterface number) {
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NumberInterface maxError = getMaxError(number);
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NumberInterface maxError = number.getMaxError();
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//NumberInterface errorBound = fromInt(number.getClass(), 1);
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//NumberInterface errorBound = fromInt(number.getClass(), 1);
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//We'll use the series \sigma_{n >= 1) ((1/3^n + 1/4^n) * 1/n)
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//We'll use the series \sigma_{n >= 1) ((1/3^n + 1/4^n) * 1/n)
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//In the following, a=1/3^n, b=1/4^n, c = 1/n.
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//In the following, a=1/3^n, b=1/4^n, c = 1/n.
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@ -301,16 +301,11 @@ public class StandardPlugin extends Plugin {
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@Override
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@Override
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protected NumberInterface applyInternal(NumberInterface[] params) {
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protected NumberInterface applyInternal(NumberInterface[] params) {
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NumberInterface maxError = getMaxError(params[0]);
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NumberInterface maxError = params[0].getMaxError();
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int n = 0;
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int n = 0;
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if (params[0].signum() <= 0) {
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if (params[0].signum() < 0) {
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NumberInterface currentTerm = NaiveNumber.ONE.promoteTo(params[0].getClass()), sum = currentTerm;
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NumberInterface[] negatedParams = {params[0].negate()};
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while (FUNCTION_ABS.apply(currentTerm).compareTo(maxError) > 0) {
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return fromInt(params[0].getClass(), 1).divide(applyInternal(negatedParams));
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n++;
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currentTerm = currentTerm.multiply(params[0]).divide((new NaiveNumber(n)).promoteTo(params[0].getClass()));
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sum = sum.add(currentTerm);
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}
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return sum;
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} else {
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} else {
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//We need n such that x^(n+1) * 3^ceil(x) <= maxError * (n+1)!.
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//We need n such that x^(n+1) * 3^ceil(x) <= maxError * (n+1)!.
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//right and left refer to lhs and rhs in the above inequality.
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//right and left refer to lhs and rhs in the above inequality.
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@ -352,7 +347,7 @@ public class StandardPlugin extends Plugin {
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return NaiveNumber.ONE.promoteTo(params[1].getClass());
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return NaiveNumber.ONE.promoteTo(params[1].getClass());
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//Detect integer bases:
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//Detect integer bases:
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if(params[0].fractionalPart().compareTo(fromInt(params[0].getClass(), 0)) == 0
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if(params[0].fractionalPart().compareTo(fromInt(params[0].getClass(), 0)) == 0
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&& FUNCTION_ABS.apply(params[0]).compareTo(fromInt(params[0].getClass(), Integer.MAX_VALUE)) < 0
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&& FUNCTION_ABS.apply(params[1]).compareTo(fromInt(params[0].getClass(), Integer.MAX_VALUE)) < 0
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&& FUNCTION_ABS.apply(params[1]).compareTo(fromInt(params[1].getClass(), 1)) >= 0){
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&& FUNCTION_ABS.apply(params[1]).compareTo(fromInt(params[1].getClass(), 1)) >= 0){
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NumberInterface[] newParams = {params[0], params[1].fractionalPart()};
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NumberInterface[] newParams = {params[0], params[1].fractionalPart()};
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return params[0].intPow(params[1].floor().intValue()).multiply(applyInternal(newParams));
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return params[0].intPow(params[1].floor().intValue()).multiply(applyInternal(newParams));
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@ -476,16 +471,6 @@ public class StandardPlugin extends Plugin {
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return sum;
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return sum;
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}
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}
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/**
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* Returns the maximum error based on the precision of the class of number.
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*
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* @param number Any instance of the NumberInterface in question (should return an appropriate precision).
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* @return the maximum error.
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*/
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private static NumberInterface getMaxError(NumberInterface number) {
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return fromInt(number.getClass(), 10).intPow(-number.getMaxPrecision());
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}
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/**
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/**
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* A factorial function that uses memoization for each number class; it efficiently
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* A factorial function that uses memoization for each number class; it efficiently
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* computes factorials of non-negative integers.
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* computes factorials of non-negative integers.
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@ -517,7 +502,7 @@ public class StandardPlugin extends Plugin {
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*/
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*/
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private static NumberInterface sinTaylor(NumberInterface x) {
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private static NumberInterface sinTaylor(NumberInterface x) {
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NumberInterface power = x, multiplier = x.multiply(x).negate(), currentTerm = x, sum = x;
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NumberInterface power = x, multiplier = x.multiply(x).negate(), currentTerm = x, sum = x;
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NumberInterface maxError = getMaxError(x);
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NumberInterface maxError = x.getMaxError();
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int n = 1;
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int n = 1;
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do {
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do {
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n += 2;
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n += 2;
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7
src/test/java/org/nwapw/abacus/tests/CalculationTests.java
Normal file → Executable file
7
src/test/java/org/nwapw/abacus/tests/CalculationTests.java
Normal file → Executable file
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@ -88,8 +88,8 @@ public class CalculationTests {
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public void testExp(){
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public void testExp(){
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testOutput("exp0", "exp(0)", "1");
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testOutput("exp0", "exp(0)", "1");
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testOutput("exp1", "exp(1)", "2.718281828459045235360287471352662497757247");
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testOutput("exp1", "exp(1)", "2.718281828459045235360287471352662497757247");
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testOutput("exp300", "exp(300)", "19424263952412559365842088360176992193662086");
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testOutput("exp300", "exp(300)", "1.9424263952412559365842088360176992193662086");
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testOutput("exp300", "exp(300)", "19424263952412559365842088360176992193662086");
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testOutput("exp(-500)", "exp((500)`)", "7.1245764067412855315491573771227552469277568");
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}
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}
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@Test
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@Test
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@ -99,6 +99,9 @@ public class CalculationTests {
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testOutput("2^1", "(2^1)", "2");
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testOutput("2^1", "(2^1)", "2");
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testOutput("2^-1", "(2^(1)`)", "0.5");
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testOutput("2^-1", "(2^(1)`)", "0.5");
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testOutput("2^50", "(2^50)", "112589990684262");
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testOutput("2^50", "(2^50)", "112589990684262");
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testOutput("7^(-sqrt2*17)", "(7^((sqrt(2)*17))`)", "4.81354609155297814551845300063563");
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testEvalError("0^0", "(0^0)");
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testEvalError("(-13)^.9999", "((13)`^0.9999)");
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}
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}
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}
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}
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