Christian Baltzer
5 years ago
9 changed files with 459 additions and 0 deletions
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6pom.xml
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156src/main/java/com/ugsbo/complexnumcalc/ComplexNumber.java
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71src/test/java/com/ugsbo/complexnumcalc/AbsoluteValueOfComplexNumbersTest.java
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31src/test/java/com/ugsbo/complexnumcalc/AddComplexNumbersTest.java
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31src/test/java/com/ugsbo/complexnumcalc/DivideComplexNumbersTest.java
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69src/test/java/com/ugsbo/complexnumcalc/EqualsComplexNumbersTest.java
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31src/test/java/com/ugsbo/complexnumcalc/MultiplyComplexNumbersTest.java
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31src/test/java/com/ugsbo/complexnumcalc/SubstractComplexNumbersTest.java
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33src/test/java/com/ugsbo/complexnumcalc/conjugationOfComplexNumbersTest.java
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package com.ugsbo.complexnumcalc; |
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public class ComplexNumber { |
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private Double realPart; |
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private Double imaginaryPart; |
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/** |
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* @param realPart The real part of the complex Number |
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* @param imaginaryPart The imaginary part of the complex Number |
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*/ |
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public ComplexNumber(Double realPart, Double imaginaryPart) { |
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this.realPart = realPart; |
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this.imaginaryPart = imaginaryPart; |
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} |
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/** |
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* @return the realPart |
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*/ |
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public Double getRealPart() { |
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return realPart; |
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} |
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/** |
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* @param realPart the realPart to set |
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*/ |
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public void setRealPart(Double realPart) { |
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this.realPart = realPart; |
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} |
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/** |
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* @return the imaginaryPart |
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*/ |
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public Double getImaginaryPart() { |
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return imaginaryPart; |
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} |
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/** |
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* @param imaginaryPart the imaginaryPart to set |
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*/ |
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public void setImaginaryPart(Double imaginaryPart) { |
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this.imaginaryPart = imaginaryPart; |
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} |
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/** |
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* Checks if the given complex Number is equal to this object. |
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* |
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* @param complexNumber The number wich gets compared with this Instance |
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* @return True if the complex Numbers are Equal |
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*/ |
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@Override |
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public boolean equals(Object complexNumber) { |
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if (complexNumber instanceof ComplexNumber){ |
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ComplexNumber that = (ComplexNumber) complexNumber; |
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return this.realPart.equals(that.realPart) && this.imaginaryPart.equals(that.imaginaryPart); |
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} else { |
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return false; |
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} |
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} |
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/** |
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* Adds two complex Numbers together. |
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* |
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* @param addend The complex Number. |
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* @return The result of adding the two complex Numbers together, as a conplex |
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* Number. |
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*/ |
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public ComplexNumber add(ComplexNumber addend) { |
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Double sumRealPart, sumImaginaryPart; |
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sumRealPart = this.realPart + addend.realPart; |
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sumImaginaryPart = this.imaginaryPart + addend.imaginaryPart; |
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ComplexNumber sum = new ComplexNumber(sumRealPart, sumImaginaryPart); |
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return sum; |
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} |
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/** |
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* Substracts the Subtrahend form this instance. |
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* |
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* @param subtrahend The Number wich will be substracted form the Minuend |
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* @return The Differenz of the Minuend and Subtrahend. |
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*/ |
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public ComplexNumber substract(ComplexNumber subtrahend) { |
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Double differenzRealPart, differenzImaginaryPart; |
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differenzRealPart = this.realPart - subtrahend.realPart; |
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differenzImaginaryPart = this.imaginaryPart - subtrahend.imaginaryPart; |
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ComplexNumber differenz = new ComplexNumber(differenzRealPart, differenzImaginaryPart); |
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return differenz; |
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} |
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/** |
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* Multiplies the faktor with this Instance. |
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* |
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* @param faktor The ComplexNumber by wich this Instance will get multiplyed |
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* @return The product of this Instance and the faktor |
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*/ |
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public ComplexNumber multiply(ComplexNumber faktor) { |
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Double productRealPart, productImaginaryPart; |
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productRealPart = this.realPart * faktor.realPart - this.imaginaryPart * faktor.imaginaryPart; |
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productImaginaryPart = this.realPart * faktor.imaginaryPart + this.imaginaryPart * faktor.realPart; |
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ComplexNumber product = new ComplexNumber(productRealPart, productImaginaryPart); |
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return product; |
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} |
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/** |
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* Divides the dividend by the divisor, the dividend is this Instance. |
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* |
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* @param divisor The ComplexNumber by wich this Instance will get divided |
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* @return The Qoutient of the Instance and the divisor |
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*/ |
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public ComplexNumber divide(ComplexNumber divisor) { |
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Double qoutientRealPart, qoutientImaginaryPart, tempDivisor; |
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tempDivisor = divisor.realPart * divisor.realPart + divisor.imaginaryPart * divisor.imaginaryPart; |
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qoutientRealPart = this.realPart * divisor.realPart + this.imaginaryPart * divisor.imaginaryPart; |
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qoutientImaginaryPart = this.imaginaryPart * divisor.realPart - this.realPart * divisor.imaginaryPart; |
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qoutientImaginaryPart /= tempDivisor; |
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qoutientRealPart /= tempDivisor; |
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ComplexNumber qoutient = new ComplexNumber(qoutientRealPart, qoutientImaginaryPart); |
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return qoutient; |
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} |
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/** |
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* Calucates the absolute value of this complex number |
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* @return the absolute value |
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*/ |
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public Double absolutValueOf(){ |
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Double absoluteValue = Math.sqrt(Math.pow(this.realPart, 2) + Math.pow(this.imaginaryPart, 2)) ; |
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return absoluteValue; |
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} |
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/** |
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* Calucates the absolute value of this complex number |
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* @return the absolute value |
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*/ |
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public ComplexNumber conjugationOf(){ |
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if(this.imaginaryPart.equals(Double.valueOf(0))){ |
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return this; |
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} else { |
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this.imaginaryPart *= (-1); |
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return this; |
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} |
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} |
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} |
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package com.ugsbo.complexnumcalc; |
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import static org.junit.Assert.assertEquals; |
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import org.junit.Test; |
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public class AbsoluteValueOfComplexNumbersTest { |
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@Test |
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public void TheAbsoluteValueOfAComplexNumberWithOnlyARealPart_IsNotTheAbsoluteValueOfTheRealPart() { |
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ComplexNumber complexNumber = new ComplexNumber(Double.valueOf(4), Double.valueOf(0)); |
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Double expected = Double.valueOf(4); |
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Double actual = complexNumber.absolutValueOf(); |
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assertEquals("The absolute value of an complex number with only an real part should be the absolute value of that real part", expected, actual); |
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} |
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@Test |
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public void TheAbsoluteValueOfAComplexNumberWithOnlyANegativeRealPart_IsNotTheAbsoluteValueOfTheRealPart() { |
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ComplexNumber complexNumber = new ComplexNumber(Double.valueOf(-4), Double.valueOf(0)); |
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Double expected = Double.valueOf(4); |
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Double actual = complexNumber.absolutValueOf(); |
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assertEquals("The absolute value of an complex number with only an negative real part should be the absolute value of that real part", expected, actual); |
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} |
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@Test |
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public void TheAbsoluteValueOfAComplexNumber_IsNotTheAbsoluteValueOfIt() { |
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ComplexNumber complexNumber = new ComplexNumber(Double.valueOf(4), Double.valueOf(3)); |
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Double expected = Double.valueOf(5); |
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Double actual = complexNumber.absolutValueOf(); |
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assertEquals("The absolute value of an complex number should be the square root of the sum of real " + |
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"part times real part and imaginary part times imaginary part ", expected, actual); |
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} |
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@Test |
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public void TheAbsoluteValueOfAComplexNumberWithNegativRealPart_IsNotTheAbsoluteValueOfIt() { |
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ComplexNumber complexNumber = new ComplexNumber(Double.valueOf(-4), Double.valueOf(3)); |
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Double expected = Double.valueOf(5); |
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Double actual = complexNumber.absolutValueOf(); |
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assertEquals("The absolute value of an complex number with negative real part should be the square root of the sum of real " + |
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"part times real part and imaginary part times imaginary part ", expected, actual); |
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} |
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@Test |
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public void TheAbsoluteValueOfAComplexNumberWithNegativImaginaryPart_IsNotTheAbsoluteValueOfIt() { |
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ComplexNumber complexNumber = new ComplexNumber(Double.valueOf(4), Double.valueOf(-3)); |
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Double expected = Double.valueOf(5); |
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Double actual = complexNumber.absolutValueOf(); |
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assertEquals("The absolute value of an complex number with negative imaginary part should be the square root of the sum of real " + |
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"part times real part and imaginary part times imaginary part ", expected, actual); |
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} |
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@Test |
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public void TheAbsoluteValueOfAComplexNumberWithNegativParts_IsNotTheAbsoluteValueOfIt() { |
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ComplexNumber complexNumber = new ComplexNumber(Double.valueOf(-4), Double.valueOf(-3)); |
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Double expected = Double.valueOf(5); |
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Double actual = complexNumber.absolutValueOf(); |
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assertEquals("The absolute value of an complex number with negative parts should be the square root of the sum of real " + |
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"part times real part and imaginary part times imaginary part ", expected, actual); |
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} |
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} |
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package com.ugsbo.complexnumcalc; |
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import static org.hamcrest.MatcherAssert.assertThat; |
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import static org.hamcrest.Matchers.*; |
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import org.junit.Test; |
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public class AddComplexNumbersTest { |
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@Test |
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public void addingTwoComplexNumbersWithoutImaginaryPart() { |
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ComplexNumber firstAddend = new ComplexNumber(Double.valueOf(5), Double.valueOf(0)); |
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ComplexNumber secoundAddend = new ComplexNumber(Double.valueOf(6), Double.valueOf(0)); |
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ComplexNumber expected = new ComplexNumber(Double.valueOf(11), Double.valueOf(0)); |
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ComplexNumber sum = firstAddend.add(secoundAddend); |
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assertThat("Dont sum to the sum", sum, equalTo(expected)); |
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} |
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@Test |
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public void addingTwoComplexNumbersWithImaginaryPart() { |
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ComplexNumber firstAddend = new ComplexNumber(Double.valueOf(5), Double.valueOf(3)); |
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ComplexNumber secoundAddend = new ComplexNumber(Double.valueOf(6), Double.valueOf(4)); |
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ComplexNumber expected = new ComplexNumber(Double.valueOf(11), Double.valueOf(7)); |
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ComplexNumber sum = firstAddend.add(secoundAddend); |
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assertThat("Dont sum to the sum", sum, equalTo(expected)); |
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} |
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} |
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package com.ugsbo.complexnumcalc; |
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import static org.hamcrest.MatcherAssert.assertThat; |
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import static org.hamcrest.Matchers.*; |
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import org.junit.Test; |
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public class DivideComplexNumbersTest { |
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@Test |
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public void divideTwoComplexNumbersWithoutImaginaryPart() { |
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ComplexNumber dividend = new ComplexNumber(Double.valueOf(30), Double.valueOf(0)); |
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ComplexNumber divisor = new ComplexNumber(Double.valueOf(6), Double.valueOf(0)); |
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ComplexNumber expected = new ComplexNumber(Double.valueOf(5), Double.valueOf(0)); |
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ComplexNumber quotient = dividend.divide(divisor); |
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assertThat("The quotient is not as expected", quotient, equalTo(expected)); |
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} |
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@Test |
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public void divideTwoComplexNumbersWithImaginaryPart() { |
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ComplexNumber dividend = new ComplexNumber(Double.valueOf(30), Double.valueOf(28)); |
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ComplexNumber divisor = new ComplexNumber(Double.valueOf(6), Double.valueOf(2)); |
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ComplexNumber expected = new ComplexNumber(Double.valueOf(5.9), Double.valueOf(2.7)); |
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ComplexNumber quotient = dividend.divide(divisor); |
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assertThat("The quotient is not as expected", quotient, equalTo(expected)); |
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} |
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} |
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package com.ugsbo.complexnumcalc; |
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import static org.junit.Assert.assertFalse; |
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import static org.junit.Assert.assertTrue; |
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import org.junit.Test; |
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public class EqualsComplexNumbersTest { |
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@Test |
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public void TwoEqualNumbersWithOnlyRealPart_AreNotDetectedAsEqual() { |
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ComplexNumber firstNumber = new ComplexNumber(Double.valueOf(5), Double.valueOf(0)); |
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ComplexNumber secoundNumber = new ComplexNumber(Double.valueOf(5), Double.valueOf(0)); |
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boolean actual = firstNumber.equals(secoundNumber); |
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assertTrue("TwoEqualNumbersShouldBeEqual", actual); |
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} |
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@Test |
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public void TwoNotEqualNumbersWithOnlyRealPart_AreDetectedAsEqual() { |
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ComplexNumber firstNumber = new ComplexNumber(Double.valueOf(5), Double.valueOf(0)); |
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ComplexNumber secoundNumber = new ComplexNumber(Double.valueOf(6), Double.valueOf(0)); |
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boolean actual = firstNumber.equals(secoundNumber); |
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assertFalse("TwoNotEqualNumbersShouldNotBeEqual", actual); |
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} |
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@Test |
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public void TwoEqualNumbersWithOnlyImaginaryPart_AreNotDetectedAsEqual() { |
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ComplexNumber firstNumber = new ComplexNumber(Double.valueOf(0), Double.valueOf(5)); |
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ComplexNumber secoundNumber = new ComplexNumber(Double.valueOf(0), Double.valueOf(5)); |
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boolean actual = firstNumber.equals(secoundNumber); |
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assertTrue("TwoEqualComplexNumbersShouldBeEqual", actual); |
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} |
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@Test |
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public void TwoNotEqualNumbersWithOnlyImaginaryPart_AreDetectedAsEqual() { |
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ComplexNumber firstNumber = new ComplexNumber(Double.valueOf(0), Double.valueOf(5)); |
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ComplexNumber secoundNumber = new ComplexNumber(Double.valueOf(0), Double.valueOf(6)); |
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boolean actual = firstNumber.equals(secoundNumber); |
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assertFalse("TwoNotEqualComplexNumbersShouldNotBeEqual", actual); |
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} |
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@Test |
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public void TwoEqualComplexNumbers_AreNotDetectedAsEqual() { |
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ComplexNumber firstNumber = new ComplexNumber(Double.valueOf(5), Double.valueOf(5)); |
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ComplexNumber secoundNumber = new ComplexNumber(Double.valueOf(5), Double.valueOf(5)); |
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boolean actual = firstNumber.equals(secoundNumber); |
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assertTrue("TwoEqualComplexNumbersShouldBeEqual", actual); |
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} |
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@Test |
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public void TwoNotEqualComplexNumbers_AreDetectedAsEqual() { |
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ComplexNumber firstNumber = new ComplexNumber(Double.valueOf(5), Double.valueOf(5)); |
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ComplexNumber secoundNumber = new ComplexNumber(Double.valueOf(6), Double.valueOf(6)); |
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boolean actual = firstNumber.equals(secoundNumber); |
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assertFalse("TwoNotEqualComplexNumbersShouldNotBeEqual", actual); |
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} |
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} |
@ -0,0 +1,31 @@ |
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package com.ugsbo.complexnumcalc; |
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import static org.hamcrest.MatcherAssert.assertThat; |
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import static org.hamcrest.Matchers.*; |
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import org.junit.Test; |
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public class MultiplyComplexNumbersTest { |
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@Test |
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public void multiplyTwoComplexNumbersWithoutImaginaryPart() { |
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ComplexNumber firstFaktor = new ComplexNumber(Double.valueOf(5), Double.valueOf(0)); |
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ComplexNumber secoundFaktor = new ComplexNumber(Double.valueOf(6), Double.valueOf(0)); |
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ComplexNumber expected = new ComplexNumber(Double.valueOf(30), Double.valueOf(0)); |
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ComplexNumber product = firstFaktor.multiply(secoundFaktor); |
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assertThat("The product is not as expected", product, equalTo(expected)); |
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} |
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@Test |
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public void multiplyTwoComplexNumbersWithImaginaryPart() { |
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ComplexNumber firstFaktor = new ComplexNumber(Double.valueOf(5), Double.valueOf(3)); |
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ComplexNumber secoundFaktor = new ComplexNumber(Double.valueOf(6), Double.valueOf(2)); |
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ComplexNumber expected = new ComplexNumber(Double.valueOf(24.0), Double.valueOf(28.0)); |
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ComplexNumber product = firstFaktor.multiply(secoundFaktor); |
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assertThat("The product is not as expected", product, equalTo(expected)); |
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} |
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} |
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package com.ugsbo.complexnumcalc; |
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import static org.hamcrest.MatcherAssert.assertThat; |
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import static org.hamcrest.Matchers.*; |
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import org.junit.Test; |
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public class SubstractComplexNumbersTest { |
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@Test |
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public void substractTwoComplexNumbersWithoutImaginaryPart() { |
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ComplexNumber minuend = new ComplexNumber(Double.valueOf(5), Double.valueOf(0)); |
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ComplexNumber subtrahend = new ComplexNumber(Double.valueOf(6), Double.valueOf(0)); |
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ComplexNumber expected = new ComplexNumber(Double.valueOf(-1), Double.valueOf(0)); |
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ComplexNumber difference = minuend.substract(subtrahend); |
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assertThat("The difference is not as expected", difference, equalTo(expected)); |
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} |
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@Test |
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public void substractTwoComplexNumbersWithImaginaryPart() { |
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ComplexNumber minuend = new ComplexNumber(Double.valueOf(5), Double.valueOf(5)); |
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ComplexNumber subtrahend = new ComplexNumber(Double.valueOf(6), Double.valueOf(4)); |
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ComplexNumber expected = new ComplexNumber(Double.valueOf(-1), Double.valueOf(1)); |
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ComplexNumber difference = minuend.substract(subtrahend); |
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assertThat("The difference is not as expected", difference, equalTo(expected)); |
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} |
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} |
@ -0,0 +1,33 @@ |
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package com.ugsbo.complexnumcalc; |
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import static org.hamcrest.MatcherAssert.assertThat; |
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import static org.hamcrest.Matchers.*; |
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import org.junit.Test; |
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public class conjugationOfComplexNumbersTest { |
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@Test |
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public void TheConjugatedComplexNumberOfAComplexNumberWithOnlyARealPartShouldBeTheRealPart_ButItIsNot() { |
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Double realPart = Double.valueOf(4); |
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Double imaginaryPart = Double.valueOf(0); |
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ComplexNumber complexNumber = new ComplexNumber(realPart, imaginaryPart); |
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ComplexNumber expected = new ComplexNumber(realPart, imaginaryPart); |
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ComplexNumber actual = complexNumber.conjugationOf(); |
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assertThat("The conjugated complex Number of a complex number with only a real part is the real part", expected, equalTo(actual)); |
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} |
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@Test |
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public void TheConjugatedComplexNumberOfAComplexNumberShouldBeTheComplexNumberWithSwapedSignImaginaryPart_ButItIsNot() { |
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Double realPart = Double.valueOf(4); |
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Double imaginaryPart = Double.valueOf(5); |
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ComplexNumber complexNumber = new ComplexNumber(realPart, imaginaryPart); |
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ComplexNumber expected = new ComplexNumber(realPart, -imaginaryPart); |
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ComplexNumber actual = complexNumber.conjugationOf(); |
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assertThat("The conjugated complex number of a complex number is the complex number with swaped sign in the imaginary part", expected, equalTo(actual)); |
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} |
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|
} |
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