O.o
/
UGSBO
3
2
Fork 1
Code Issues 15 Pull Requests Releases Activity
Browse Source

merged featureMatrixCalculator to pullrequest

pullrequest
Lukas Reichwein 5 years ago
parent
69e8e70deb 8339da416d
commit
934c8f9ab4
12 changed files with 1207 additions and 9 deletions
Whitespace
Show all changes Ignore whitespace when comparing lines Ignore changes in amount of whitespace Ignore changes in whitespace at EOL
Split View
Diff Options
Show Stats Download Patch File Download Diff File
  1. 12
      src/main/java/com/ugsbo/gui/BasicGuiController.java
  2. 12
      src/main/java/com/ugsbo/gui/MainApp.java
  3. 273
      src/main/java/com/ugsbo/matrixcalc/MatrixCalcController.java
  4. 97
      src/main/java/com/ugsbo/matrixcalc/MatrixCalcIOUtils.java
  5. 228
      src/main/java/com/ugsbo/matrixcalc/MatrixCalcMath.java
  6. 4
      src/main/resources/com/ugsbo/gui/BasicGui.fxml
  7. 37
      src/main/resources/com/ugsbo/gui/matrixCalcGui.fxml
  8. 156
      src/test/java/com/ugsbo/matrixcalc/MatrixAdditionAndSubstractionTest.java
  9. 61
      src/test/java/com/ugsbo/matrixcalc/MatrixCalcDeterminatTest.java
  10. 170
      src/test/java/com/ugsbo/matrixcalc/MatrixIOUtilsTest.java
  11. 109
      src/test/java/com/ugsbo/matrixcalc/MatrixMultiplicationTest.java
  12. 57
      src/test/java/com/ugsbo/matrixcalc/MatrixTransposeTest.java

12
src/main/java/com/ugsbo/gui/BasicGuiController.java
View File

@ -5,9 +5,9 @@ import javafx.scene.control.*;
public class BasicGuiController {
//Hier werden die fx:id Attribute verknuepft.
// Hier werden die fx:id Attribute verknuepft.
@FXML
private Button app1; //Fuer ToDoManager.
private Button matrixCalc;
@FXML
private Button app2; //Fuer VokabelKartenSchreiber
@FXML
@ -19,7 +19,7 @@ public class BasicGuiController {
* Konstructor is called before initialize()
*/
public BasicGuiController() {
//Setup of some Fields could be defined here.
// Setup of some Fields could be defined here.
}
/**
@ -28,9 +28,9 @@ public class BasicGuiController {
*/
@FXML
public void initialize() {
app1.setOnMouseClicked((event) -> {
//MainApp.startToDoMainGui();
System.out.println(event);
matrixCalc.setOnMouseClicked((event) -> {
MainApp.startMatrixCalcGUI();
// System.out.println(event);
});
app2.setOnMouseClicked((event) -> {
//System.out.println(event);

12
src/main/java/com/ugsbo/gui/MainApp.java
View File

@ -35,7 +35,7 @@ public class MainApp extends Application {
/**
* Loades the FXML file and the Default CSS.
*
* @param stage The Stage will be passed over from fxml
* @param stage The Stage will be passed over from JavaFx
* @param fxmlFileName Only the Filename of the fxml file wich sould be loaded
*/
private void createStageFromFXML(Stage stage, String fxmlFileName) {
@ -64,4 +64,14 @@ public class MainApp extends Application {
MainApp main = new MainApp();
main.createStageFromFXML(stage, "Voabelkartenschreiber");
}
/**
* Startet eine Instanz der MatrixCalcGui.
*/
public static void startMatrixCalcGUI() {
Stage stage = new Stage();
MainApp app = new MainApp();
app.createStageFromFXML(stage, "matrixCalcGui");
}
}

273
src/main/java/com/ugsbo/matrixcalc/MatrixCalcController.java
View File

@ -0,0 +1,273 @@
package com.ugsbo.matrixcalc;
import javafx.fxml.FXML;
import javafx.scene.control.*;
import javafx.scene.text.Text;
import javafx.scene.text.TextAlignment;
import java.util.ArrayList;
public class MatrixCalcController {
private static final String MULTIPLICATION_STRING = "multiplication";
private static final String ADDITION_STRING = "addition";
private static final String SUBSTRACTION_STRING = "substract";
private static final String TRANPOSE_STRING = "transpose";
private static final String CALCDETERMINAT_STRING = "calcDeterminate";
// The fx:id Attributes will be bind here.
@FXML
private Button multiplyButton, addButton, DetAButton, DetBButton, substractButton, transposeButton;
@FXML
private Text errorText, outputText;
@FXML
private TextArea matrixATextArea, matrixBTextArea;
private MatrixCalcMath math = new MatrixCalcMath();
private MatrixCalcIOUtils util = new MatrixCalcIOUtils();
/**
* Konstructor is called before initialize()
*/
public MatrixCalcController() {
// Setup of some Fields could be defined here.
}
/**
* Initializes the controller class. This method is automatically called after
* the fxml file has been loaded.
*/
@FXML
public void initialize() {
/**
* Convert Strings to matricies, multiply them and output the result.
*/
multiplyButton.setOnMouseClicked((event) -> {
String stringMatrixA = matrixATextArea.getText();
String stringMatrixB = matrixBTextArea.getText();
String[] stringMatrix = { stringMatrixA, stringMatrixB };
checkInputAndDisplayIfInputIsNotValid(stringMatrix, 2);
ArrayList<double[][]> matricies = new ArrayList<double[][]>();
matricies.add(util.stringToMatrix(stringMatrixA));
matricies.add(util.stringToMatrix(stringMatrixB));
invokeOperation(matricies, MULTIPLICATION_STRING);
});
/**
* Convert a String to a matrix, transpose it and output the result.
*/
transposeButton.setOnMouseClicked((event) -> {
String stringMatrixA = matrixATextArea.getText();
String[] stringMatrix = { stringMatrixA, "" };
checkInputAndDisplayIfInputIsNotValid(stringMatrix, 1);
ArrayList<double[][]> matricies = new ArrayList<double[][]>();
matricies.add(util.stringToMatrix(stringMatrixA));
invokeOperation(matricies, TRANPOSE_STRING);
});
/**
* Convert Strings to matricies, add them and output the result.
*/
addButton.setOnMouseClicked((event) -> {
String stringMatrixA = matrixATextArea.getText();
String stringMatrixB = matrixBTextArea.getText();
String[] stringMatrix = { stringMatrixA, stringMatrixB };
checkInputAndDisplayIfInputIsNotValid(stringMatrix, 2);
ArrayList<double[][]> matricies = new ArrayList<double[][]>();
matricies.add(util.stringToMatrix(stringMatrixA));
matricies.add(util.stringToMatrix(stringMatrixB));
invokeOperation(matricies, ADDITION_STRING);
});
/**
* Convert Strings to matricies, substract them and output the result.
*/
substractButton.setOnMouseClicked((event) -> {
String stringMatrixA = matrixATextArea.getText();
String stringMatrixB = matrixBTextArea.getText();
String[] stringMatrix = { stringMatrixA, stringMatrixB };
checkInputAndDisplayIfInputIsNotValid(stringMatrix, 2);
ArrayList<double[][]> matricies = new ArrayList<double[][]>();
matricies.add(util.stringToMatrix(stringMatrixA));
matricies.add(util.stringToMatrix(stringMatrixB));
invokeOperation(matricies, SUBSTRACTION_STRING);
});
/**
* Convert the String of the left inputField to a matrix, calculate the Determinate and output it.
*/
DetAButton.setOnMouseClicked((event) -> {
String stringMatrixA = matrixATextArea.getText();
String[] stringMatrix = { stringMatrixA, "" };
checkInputAndDisplayIfInputIsNotValid(stringMatrix, 1);
ArrayList<double[][]> matricies = new ArrayList<double[][]>();
matricies.add(util.stringToMatrix(stringMatrixA));
invokeOperation(matricies, CALCDETERMINAT_STRING);
});
/**
* Convert the String of the right inputField to a matrix, calculate the Determinate and output it.
*/
DetBButton.setOnMouseClicked((event) -> {
String stringMatrixB = matrixBTextArea.getText();
String[] stringMatrix = { "", stringMatrixB };
checkInputAndDisplayIfInputIsNotValid(stringMatrix, 1);
ArrayList<double[][]> matricies = new ArrayList<double[][]>();
matricies.add(util.stringToMatrix(stringMatrixB));
invokeOperation(matricies, CALCDETERMINAT_STRING);
});
}
/**
* Invokes the needed operations form the MatrixCalcMath class
* @param matricies Contains both Matricies or onely one Matrix
* @param operation One of the global Constats to select wich Operation is needed.
*/
private void invokeOperation(ArrayList<double[][]> matricies, String operation) {
if (matricies.size() == 2) {
if (operation.equals(MULTIPLICATION_STRING)) {
try {
double[][] result = math.matrixMultiplication(matricies.get(0), matricies.get(1));
String DisplayableString = util.outputMatrixToOutputText(result);
outputText.setText(DisplayableString);
outputText.setTextAlignment(TextAlignment.CENTER);
} catch (IllegalArgumentException e) {
outputText.setText(e.getMessage());
outputText.setTextAlignment(TextAlignment.CENTER);
}
} else if (operation.equals(ADDITION_STRING)) {
try {
double[][] result = math.matrixAddition(matricies.get(0), matricies.get(1));
String DisplayableString = util.outputMatrixToOutputText(result);
outputText.setText(DisplayableString);
outputText.setTextAlignment(TextAlignment.CENTER);
} catch (IllegalArgumentException e) {
outputText.setText(e.getMessage());
outputText.setTextAlignment(TextAlignment.CENTER);
}
} else if (operation.equals(SUBSTRACTION_STRING)) {
try {
double[][] result = math.matrixSubstraction(matricies.get(0), matricies.get(1));
String DisplayableString = util.outputMatrixToOutputText(result);
outputText.setText(DisplayableString);
outputText.setTextAlignment(TextAlignment.CENTER);
} catch (IllegalArgumentException e) {
outputText.setText(e.getMessage());
outputText.setTextAlignment(TextAlignment.CENTER);
}
}
}else if (matricies.size() == 1) {
if (operation.equals(TRANPOSE_STRING)) {
try {
double[][] result = math.matrixTransponation(matricies.get(0));
String DisplayableString = util.outputMatrixToOutputText(result);
outputText.setText(DisplayableString);
outputText.setTextAlignment(TextAlignment.CENTER);
} catch (IllegalArgumentException e) {
outputText.setText(e.getMessage());
outputText.setTextAlignment(TextAlignment.CENTER);
}
}
if (operation.equals(CALCDETERMINAT_STRING)) {
try {
double result = math.calcDeterminat(matricies.get(0));
String DisplayableString = Double.toString(result);
outputText.setText(DisplayableString);
outputText.setTextAlignment(TextAlignment.CENTER);
} catch (IllegalArgumentException e) {
outputText.setText(e.getMessage());
outputText.setTextAlignment(TextAlignment.CENTER);
} catch (Exception e){
outputText.setText(e.getMessage());
outputText.setTextAlignment(TextAlignment.CENTER);
}
}
}
}
/**
* Checks the Input and Displays it if the Input is valid.
*
* @param stringMatrix Contains both input matrices if
* numberOfMarriciesToMatch is 2. If the number
* is 1 than one of them has to be a empty String
* @param numberOfMatricesToMatch If the number is 1 onely one Marix will be
* verifyed and the other one needs to be an empty
* String in the stringMatrix
*/
private void checkInputAndDisplayIfInputIsNotValid(String[] stringMatrix, int numberOfMatricesToMatch) {
if (numberOfMatricesToMatch == 1 && !stringMatrix[0].equals("")) {
try {
util.checkInput(stringMatrix[0]);
} catch (Exception e) {
outputText.setText(e.getMessage() + "A");
outputText.setTextAlignment(TextAlignment.CENTER);
}
} else if (numberOfMatricesToMatch == 1 && !stringMatrix[1].equals("")) {
try {
util.checkInput(stringMatrix[1]);
} catch (Exception e) {
outputText.setText(e.getMessage() + "B");
outputText.setTextAlignment(TextAlignment.CENTER);
}
} else if (numberOfMatricesToMatch == 2 && !stringMatrix[0].equals("") && !stringMatrix[1].equals("")) {
try {
util.checkInput(stringMatrix[0]);
} catch (Exception e) {
outputText.setText(e.getMessage() + "A");
outputText.setTextAlignment(TextAlignment.CENTER);
}
try {
util.checkInput(stringMatrix[1]);
} catch (Exception e) {
outputText.setText(e.getMessage() + "B");
outputText.setTextAlignment(TextAlignment.CENTER);
}
} else if (stringMatrix[0].equals("")) {
outputText.setText("Pease insert MatrixA");
outputText.setTextAlignment(TextAlignment.CENTER);
} else if (stringMatrix[1].equals("")) {
outputText.setText("Pease insert MatrixB");
outputText.setTextAlignment(TextAlignment.CENTER);
}
}
}

97
src/main/java/com/ugsbo/matrixcalc/MatrixCalcIOUtils.java
View File

@ -0,0 +1,97 @@
package com.ugsbo.matrixcalc;
import java.util.ArrayList;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
public class MatrixCalcIOUtils {
/**
* Prints a given 2D-Array to the output Textfield.
*
* @param output2DArray The Array that gets Displayed
*/
protected String outputMatrixToOutputText(double[][] output2DArray) {
// convert array to String
String DisplayableString = convertsArrayToStringInOrderToDisplayIt(output2DArray);
// Display output
return DisplayableString;
}
/**
* Converts 2D-Array to String in order to Display it.
*
* @param array2D The array wich will be converted to an Displayable String
* @return The Displayable String
*/
protected String convertsArrayToStringInOrderToDisplayIt(double[][] array2D) {
String displayableString = "";
for (int i = 0; i < array2D.length; i++) {
for (int j = 0; j < array2D[0].length; j++) {
displayableString += array2D[i][j] + " ";
}
displayableString += "\n\n";
}
return displayableString;
}
/**
* Checks if the Input is Valid, with Regex. Returns true if the Matrix can be
* matched by the regular Expression.
*
* @param matrix It is the InputMatrix
* @return True if the Matrix is valid Input.
*/
protected void checkInput(String matrix) throws IllegalArgumentException {
if (matrix.length() == 0) {
throw new IllegalArgumentException("Please insert a Matrix");
}
// Matches digits witch following spaces 1 to 3 times
String row1 = "(\\d*\\u0020*){1,3}";
// Matches newlineCurrierReturn followed by digits witch following spaces 1 to
// 3 times
String row2 = "(\\n){0,3}(\\d*\\u0020*){0,3}";
String row3 = "(\\n){0,3}(\\d*\\u0020*){0,3}";
// TODO for verion 2 get the input check more stricktly missing matrix slots are allowed.
Pattern p = Pattern.compile(row1 + row2 + row3);
Matcher m = p.matcher(matrix);
if(!m.matches()){
throw new IllegalArgumentException("A Matrix is not in the right format, Matrix ");
}
}
/**
* Converts a String form the Inputfield to an 2D-Array aka Matrix.
*
* @param stringMatrix The String form the Inputfield
* @return Matrix as a 2D-Array
*/
public double[][] stringToMatrix(String stringMatrix) {
ArrayList<String[]> singleNumbersArr = new ArrayList<String[]>();
// Splitting the strings into their rows
String[] singleNumbers = null;
String[] rows = stringMatrix.split("\n");
for (int i = 0; i < rows.length; i++) {
// Splitting rows into their Numbers
singleNumbers = rows[i].split("\\s");
singleNumbersArr.add(singleNumbers);
}
int rowlength = singleNumbersArr.get(0).length;
int columCount = singleNumbersArr.size();
double[][] matrix = new double[columCount][rowlength];
for (int columIndex = 0; columIndex < columCount; columIndex++) {
for (int rowIndex = 0; rowIndex < singleNumbers.length; rowIndex++) {
matrix[columIndex][rowIndex] = Double.parseDouble(singleNumbersArr.get(columIndex)[rowIndex]);
}
}
return matrix;
}
}

228
src/main/java/com/ugsbo/matrixcalc/MatrixCalcMath.java
View File

@ -0,0 +1,228 @@
package com.ugsbo.matrixcalc;
/**
* Contains all basic matrix math calculations.
*/
public class MatrixCalcMath {
/**
* Mutliplys matrixA and matrixB.
*
* @param matrixA The Inputmatrix A (right TextArea in the GUI)
* @param matrixB The Inputmatrix B (left TextArea in the GUI)
* @return The Matrixproduct of the matricies A and B
*/
public double[][] matrixMultiplication(double[][] matrixA, double[][] matrixB) {
if (checkIfMatriciesAreLinked(matrixA, matrixB)) {
int rowOfResultMatrix = matrixA.length;
int columOfResultMatrix = matrixB[0].length;
int ColumsOfMatA = matrixA[0].length;
double[][] result = new double[rowOfResultMatrix][columOfResultMatrix];
for (int rowResult = 0; rowResult < rowOfResultMatrix; rowResult++) {
for (int columResult = 0; columResult < columOfResultMatrix; columResult++) {
for (int columOfA = 0; columOfA < ColumsOfMatA; columOfA++) {
result[rowResult][columResult] += matrixA[rowResult][columOfA] * matrixB[columOfA][columResult];
}
}
}
return result;
} else {
throw new IllegalArgumentException("Matricies must be linked");
}
}
/**
* checks if matrixA and matrixB are linked to know if it is possible to
* multiply them. If they are linked it is possible.
*
* @param matrixA The Inputmatrix A (right TextArea in the GUI)
* @param matrixB The Inputmatrix B (left TextArea in the GUI)
* @return true if you can Muliply A with B false if not.
*/
public boolean checkIfMatriciesAreLinked(double[][] matrixA, double[][] matrixB) {
if (matrixA == null) {
return false;
}
if (matrixA.length == 0) {
return false;
}
if (matrixA[0].length == matrixB.length) {
return true;
}
return false;
}
/**
* Adds two matroices A and B. Adding matrix A to matrix B is the same as adding
* B to A.
*
* @param matrixA The Inputmatrix A (right TextArea in the GUI)
* @param matrixB The Inputmatrix B (left TextArea in the GUI)
* @return The Matrixsum of matrix A and matrix B
*/
public double[][] matrixAddition(double[][] matrixA, double[][] matrixB) {
if (checkIfMatriciesAreTheSameDimension(matrixA, matrixB)) {
double[][] result = new double[matrixA.length][matrixA[0].length];
for (int rows = 0; rows < matrixA.length; rows++) {
for (int colums = 0; colums < matrixA[0].length; colums++) {
result[rows][colums] = matrixA[rows][colums] + matrixB[rows][colums];
}
}
return result;
} else {
throw new IllegalArgumentException("Matricies need to have the same Dimensions");
}
}
/**
* In order to adding two Matricies they must have the same Dimensions. This
* Methode checks if this is the case.
*
* @param matrixA The Inputmatrix A (right TextArea in the GUI)
* @param matrixB The Inputmatrix B (left TextArea in the GUI)
* @return true if the Dimensions of Matrix A equals the Dimensions Matrix B
*/
public boolean checkIfMatriciesAreTheSameDimension(double[][] matrixA, double[][] matrixB) {
if (matrixA == null || matrixA.length == 0) {
return false;
}
if (matrixA[0] == null) {
return false;
}
if (matrixA.length == matrixB.length && matrixA[0].length == matrixB[0].length) {
return true;
} else {
return false;
}
}
/**
* Substracts matrix A by the matrix B. Substaction for Matrices is just the
* substraction of each component with thier coorsponding component.
*
* @param matrixA The Inputmatrix A (right TextArea in the GUI)
* @param matrixB The Inputmatrix B (left TextArea in the GUI
* @return matrix A substracted by matrix B
*/
public double[][] matrixSubstraction(double[][] matrixA, double[][] matrixB) {
if (checkIfMatriciesAreTheSameDimension(matrixA, matrixB)) {
double[][] result = new double[matrixA.length][matrixA[0].length];
for (int rows = 0; rows < matrixA.length; rows++) {
for (int colums = 0; colums < matrixA[0].length; colums++) {
result[rows][colums] = matrixA[rows][colums] - matrixB[rows][colums];
}
}
return result;
} else {
throw new IllegalArgumentException("Matricies need to have the same Dimensions");
}
}
/**
* Transposes the Input Matrix. Swaps rows with colums.
*
* @param matrixA The Inputmatrix A wich will be Transposed
* @return The Transposed matrix of matrix A
*/
public double[][] matrixTransponation(double[][] matrixA) {
if (matrixA == null) {
throw new IllegalArgumentException("Matricies need to have the same Dimensions");
}
if (matrixA.length == 0) {
throw new IllegalArgumentException("Matricies need to have the same Dimensions");
}
if (matrixA[0] == null) {
throw new IllegalArgumentException("Matricies need to have the same Dimensions");
}
int columCountResult = matrixA.length;
int rowCountResult = matrixA[0].length;
double[][] result = new double[rowCountResult][columCountResult];
for (int row = 0; row < rowCountResult; row++) {
for (int colum = 0; colum < columCountResult; colum++) {
result[row][colum] = matrixA[colum][row];
}
}
return result;
}
/**
* Calculates the Determinant of a Matrix.
*
* @param matrixA The Inputmatrix
* @return The Determinant of the Matrix A
*/
public double calcDeterminat(double[][] matrixA) throws IllegalArgumentException{
// checking if a Determinant can be calculated.
double result = 0.0;
if (checkIfMatrixIsQuadradtic(matrixA)) {
if (getMatrixRowCount(matrixA) == 2) {
result = calc2by2Determinant(matrixA);
} else if (getMatrixRowCount(matrixA) == 3) {
result = calc3by3Determinant(matrixA);
} else {
throw new IllegalArgumentException("Matrix is not 2 by 2 or 3 by 3");
}
} else {
throw new IllegalArgumentException("Matrix must be Quadratic");
}
return result;
}
/**
* Calculates the Determinat of an three by three Matrix.
*
* @param matrixA The Inputmatrix form wich the Determinat will be calculated
* @return the Determinant of the Matrix
*/
private double calc3by3Determinant(double[][] matrixA) {
double result = matrixA[0][0] * matrixA[1][1] * matrixA[2][2] + matrixA[0][1] * matrixA[1][2] * matrixA[2][0]
+ matrixA[0][2] * matrixA[1][0] * matrixA[2][1] - matrixA[0][0] * matrixA[1][2] * matrixA[2][1]
- matrixA[0][1] * matrixA[1][0] * matrixA[2][2] - matrixA[0][2] * matrixA[1][1] * matrixA[2][0];
return result;
}
/**
* Calculates the Determinat of an two by two Matrix.
*
* @param matrixA The Inputmatrix form wich the Determinat will be calculated
* @return the Determinant of the Matrix
*/
private double calc2by2Determinant(double[][] matrixA) {
double result = matrixA[0][0] * matrixA[1][1] - matrixA[0][1] * matrixA[1][0];
return result;
}
/**
* Returns the Number of rows of a Matrix.
*
* @param matrixA the Inputmatrix form wich the rows will be counted
* @return Number of rows
*/
private int getMatrixRowCount(double[][] matrixA) {
return matrixA.length;
}
/**
* Checks if the rows and colums of an Matrix are equal. If they are equal the
* Matrix is Quadratic and the function will return true.
*
* @param matrixA the Inputmatrix for wich the rows and colums will be compared
* @return isQuadratic
*/
private boolean checkIfMatrixIsQuadradtic(double[][] matrixA) {
if (matrixA == null) {
return false;
}
if (matrixA[0] == null) {
return false;
}
if (matrixA.length == matrixA[0].length) {
return true;
}
return false;
}
}

4
src/main/resources/com/ugsbo/gui/BasicGui.fxml
View File

@ -27,8 +27,8 @@
</AnchorPane>
<AnchorPane maxHeight="1.7976931348623157E308" maxWidth="1.7976931348623157E308" minHeight="-Infinity" minWidth="-Infinity" prefHeight="300.0" prefWidth="200.0" AnchorPane.bottomAnchor="0.0" AnchorPane.leftAnchor="150.0" AnchorPane.rightAnchor="150.0" AnchorPane.topAnchor="50.0">
<children>
<Button fx:id="app1" maxHeight="-Infinity" maxWidth="1.7976931348623157E308" minHeight="-Infinity" minWidth="-Infinity" mnemonicParsing="false" prefHeight="30.0" prefWidth="260.0" text="ToDoListe" textAlignment="CENTER" AnchorPane.leftAnchor="19.0" AnchorPane.rightAnchor="19.0" AnchorPane.topAnchor="15.0" />
<Button fx:id="app2" maxHeight="-Infinity" minHeight="-Infinity" minWidth="-Infinity" mnemonicParsing="false" prefHeight="30.0" prefWidth="260.0" text="VokabelKartenSchreiber" textAlignment="CENTER" AnchorPane.leftAnchor="19.0" AnchorPane.rightAnchor="19.0" AnchorPane.topAnchor="60.0" />
<Button fx:id="matrixCalc" maxHeight="-Infinity" maxWidth="1.7976931348623157E308" minHeight="-Infinity" minWidth="-Infinity" mnemonicParsing="false" prefHeight="30.0" prefWidth="260.0" text="Matrix Calculator" textAlignment="CENTER" AnchorPane.leftAnchor="19.0" AnchorPane.rightAnchor="19.0" AnchorPane.topAnchor="15.0" />
<Button fx:id="app2" maxHeight="-Infinity" minHeight="-Infinity" minWidth="-Infinity" mnemonicParsing="false" prefHeight="30.0" prefWidth="260.0" text="App2" textAlignment="CENTER" AnchorPane.leftAnchor="19.0" AnchorPane.rightAnchor="19.0" AnchorPane.topAnchor="60.0" />
<Button fx:id="app3" maxHeight="-Infinity" minHeight="-Infinity" minWidth="-Infinity" mnemonicParsing="false" prefHeight="30.0" prefWidth="260.0" text="App3" textAlignment="CENTER" AnchorPane.leftAnchor="19.0" AnchorPane.rightAnchor="19.0" AnchorPane.topAnchor="105.0" />
<Button fx:id="app4" maxHeight="-Infinity" minHeight="-Infinity" minWidth="-Infinity" mnemonicParsing="false" prefHeight="30.0" prefWidth="260.0" text="App4" textAlignment="CENTER" AnchorPane.leftAnchor="19.0" AnchorPane.rightAnchor="19.0" AnchorPane.topAnchor="150.0" />
</children>

37
src/main/resources/com/ugsbo/gui/matrixCalcGui.fxml
View File

@ -0,0 +1,37 @@
<?xml version="1.0" encoding="UTF-8"?>
<?import java.lang.*?>
<?import javafx.scene.control.*?>
<?import javafx.scene.layout.*?>
<?import javafx.scene.text.*?>
<?import javafx.scene.control.Button?>
<?import javafx.scene.control.TextArea?>
<?import javafx.scene.layout.AnchorPane?>
<?import javafx.scene.text.Text?>
<AnchorPane maxHeight="-Infinity" maxWidth="-Infinity" minHeight="-Infinity" minWidth="-Infinity" prefHeight="400.0" prefWidth="600.0" xmlns="http://javafx.com/javafx/8" xmlns:fx="http://javafx.com/fxml/1" fx:controller="com.ugsbo.matrixcalc.MatrixCalcController">
<children>
<AnchorPane prefHeight="200.0" prefWidth="200.0" AnchorPane.leftAnchor="0.0" AnchorPane.topAnchor="0.0">
<children>
<TextArea fx:id="matrixATextArea" prefHeight="200.0" prefWidth="200.0" AnchorPane.bottomAnchor="10.0" AnchorPane.leftAnchor="10.0" AnchorPane.rightAnchor="10.0" AnchorPane.topAnchor="10.0" />
</children>
</AnchorPane>
<AnchorPane layoutX="200.0" prefHeight="200.0" prefWidth="200.0" AnchorPane.bottomAnchor="200.0" AnchorPane.leftAnchor="200.0" AnchorPane.rightAnchor="200.0" AnchorPane.topAnchor="0.0">
<children>
<Button fx:id="multiplyButton" layoutX="14.0" layoutY="27.0" mnemonicParsing="false" text="multiply" AnchorPane.leftAnchor="15.0" AnchorPane.topAnchor="27.0" />
<Button fx:id="addButton" layoutX="14.0" layoutY="62.0" mnemonicParsing="false" text="add" AnchorPane.leftAnchor="15.0" AnchorPane.topAnchor="67.0" />
<Button fx:id="substractButton" layoutX="99.0" layoutY="62.0" mnemonicParsing="false" text="Substract" AnchorPane.rightAnchor="15.0" AnchorPane.topAnchor="67.0" />
<Button fx:id="transposeButton" layoutX="97.0" layoutY="27.0" mnemonicParsing="false" text="Transpose" AnchorPane.rightAnchor="15.0" AnchorPane.topAnchor="27.0" />
<Button fx:id="DetAButton" layoutX="14.0" layoutY="95.0" mnemonicParsing="false" text="DetA" AnchorPane.leftAnchor="15.0" AnchorPane.topAnchor="107.0" />
<Button fx:id="DetBButton" layoutX="120.0" layoutY="107.0" mnemonicParsing="false" text="DetB" />
<Text fx:id="errorText" layoutX="14.0" layoutY="113.0" strokeType="OUTSIDE" strokeWidth="0.0" AnchorPane.bottomAnchor="10.0" AnchorPane.leftAnchor="10.0" AnchorPane.rightAnchor="10.0" AnchorPane.topAnchor="100.0" />
</children>
</AnchorPane>
<AnchorPane layoutX="400.0" prefHeight="200.0" prefWidth="200.0" AnchorPane.rightAnchor="0.0" AnchorPane.topAnchor="0.0">
<children>
<TextArea fx:id="matrixBTextArea" layoutX="-15.0" layoutY="30.0" prefHeight="200.0" prefWidth="200.0" AnchorPane.bottomAnchor="10.0" AnchorPane.leftAnchor="10.0" AnchorPane.rightAnchor="10.0" AnchorPane.topAnchor="10.0" />
</children>
</AnchorPane>
<Text fx:id="outputText" layoutX="14.0" layoutY="242.0" strokeType="OUTSIDE" strokeWidth="0.0" textAlignment="JUSTIFY" wrappingWidth="554.7294921875" AnchorPane.bottomAnchor="0.0" AnchorPane.leftAnchor="10.0" AnchorPane.rightAnchor="10.0" AnchorPane.topAnchor="210.0" />
</children>
</AnchorPane>

156
src/test/java/com/ugsbo/matrixcalc/MatrixAdditionAndSubstractionTest.java
View File

@ -0,0 +1,156 @@
package com.ugsbo.matrixcalc;
import static org.junit.Assert.assertArrayEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertTrue;
import org.junit.Before;
import org.junit.Test;
/**
* Tests the funktionality to add and substract two matricies
*/
public class MatrixAdditionAndSubstractionTest {
private MatrixCalcMath matrixMath;
@Before
public void setup() {
matrixMath = new MatrixCalcMath();
}
@Test
public void twoMatriciesHaveTheSameDimensions() {
double[][] matrixA = new double[1][1];
double[][] matrixB = new double[1][1];
boolean result = matrixMath.checkIfMatriciesAreTheSameDimension(matrixA, matrixB);
assertTrue("Two Matricies with the same Dimension were not detected as that", result);
}
@Test
public void twoMatriciesDONOTHaveTheSameDimensions() {
double[][] matrixA = new double[2][1];
double[][] matrixB = new double[1][1];
boolean result = matrixMath.checkIfMatriciesAreTheSameDimension(matrixA, matrixB);
assertFalse("Two Matricies without the same Dimension were detected as that", result);
}
@Test
public void addTwoMatriciesWithSameContent() {
double[][] matrixA = { { 1.0, 1.0 }, { 1.0, 1.0 } };
double[][] matrixB = { { 1.0, 1.0 }, { 1.0, 1.0 } };
double[][] matrixC = { { 2.0, 2.0 }, { 2.0, 2.0 } };
double[][] result = matrixMath.matrixAddition(matrixA, matrixB);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
}
@Test
public void addTwoMatriciesWithDiffrentContent() {
double[][] matrixA = { { 7.0, 3.0 }, { 2.0, 9.0 } };
double[][] matrixB = { { 6.0, 3.0 }, { 7.0, 11.0 } };
double[][] matrixC = { { 13.0, 6.0 }, { 9.0, 20.0 } };
double[][] result = matrixMath.matrixAddition(matrixA, matrixB);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
}
@Test(expected = IllegalArgumentException.class)
public void tryToAddTowEmptyMatricies() {
// A(0,0) B(0,0) => IllegalArgumentException
double[][] matrixA = new double[0][0];
double[][] matrixB = new double[0][0];
matrixMath.matrixAddition(matrixA, matrixB);
}
@Test(expected = IllegalArgumentException.class)
public void tryToAddTowNullMatrices() {
// A(0,0) B(0,0) => IllegalArgumentException
double[][] matrixA = null;
double[][] matrixB = null;
matrixMath.matrixAddition(matrixA, matrixB);
}
@Test(expected = IllegalArgumentException.class)
public void tryToAddTowMatricesWithDifferentDimensions() {
// A(0,0) B(0,0) => IllegalArgumentException
double[][] matrixA = { { 1.0, 2.0 } };
double[][] matrixB = { { 1.0 }, { 2.0 } };
matrixMath.matrixAddition(matrixA, matrixB);
}
@Test
public void substractTwoMatriciesWithSameContent() {
double[][] matrixA = { { 1.0, 1.0 }, { 1.0, 1.0 } };
double[][] matrixB = { { 1.0, 1.0 }, { 1.0, 1.0 } };
double[][] matrixC = { { 0.0, 0.0 }, { 0.0, 0.0 } };
double[][] result = matrixMath.matrixSubstraction(matrixA, matrixB);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
}
@Test
public void substractTwoMatriciesWithDiffrentContent() {
double[][] matrixA = { { 1.0, 2.0 }, { 3.0, 4.0 } };
double[][] matrixB = { { 5.0, 6.0 }, { 7.0, 8.0 } };
double[][] matrixC = { { -4.0, -4.0 }, { -4.0, -4.0 } };
double[][] result = matrixMath.matrixSubstraction(matrixA, matrixB);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
}
@Test
public void substractTwoMatriciesWithNegativeContent() {
double[][] matrixA = { { -1.0, -2.0 }, { -3.0, -4.0 } };
double[][] matrixB = { { 5.0, 6.0 }, { 7.0, 8.0 } };
double[][] matrixC = { { -6.0, -8.0 }, { -10.0, -12.0 } };
double[][] result = matrixMath.matrixSubstraction(matrixA, matrixB);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
}
@Test(expected = IllegalArgumentException.class)
public void tryToSubstractTowEmptyMatricies() {
// A(0,0) B(0,0) => IllegalArgumentException
double[][] matrixA = new double[0][0];
double[][] matrixB = new double[0][0];
matrixMath.matrixSubstraction(matrixA, matrixB);
}
@Test(expected = IllegalArgumentException.class)
public void tryToSubstractTowNullMatrices() {
// A(0,0) B(0,0) => IllegalArgumentException
double[][] matrixA = null;
double[][] matrixB = null;
matrixMath.matrixSubstraction(matrixA, matrixB);
}
@Test(expected = IllegalArgumentException.class)
public void tryToSubstractTowMatricesWithDifferentDimensions() {
// A(0,0) B(0,0) => IllegalArgumentException
double[][] matrixA = { { 1.0, 2.0 } };
double[][] matrixB = { { 1.0 }, { 2.0 } };
matrixMath.matrixSubstraction(matrixA, matrixB);
}
}

61
src/test/java/com/ugsbo/matrixcalc/MatrixCalcDeterminatTest.java
View File

@ -0,0 +1,61 @@
package com.ugsbo.matrixcalc;
import static org.junit.Assert.assertEquals;
import org.junit.Before;
import org.junit.Test;
/**
* Tests the funktionality to Calculate the Determinant of a Matrix.
*/
public class MatrixCalcDeterminatTest {
private MatrixCalcMath matrixMath;
@Before
public void setup() {
matrixMath = new MatrixCalcMath();
}
@Test
public void CalculatesTheDeterminanteOfA2by2Matrix() {
// A(2,2)
double[][] matrixA = { { 1.0, 2.0 }, { 3.0, 4.0 } };
double determinat = -2.0;
double delta = 0.01;
double result = matrixMath.calcDeterminat(matrixA);
assertEquals("The Determinant is not as it should be", determinat, result, delta);
}
@Test
public void CalculatesTheDeterminanteOfA3by3Matrix() {
// A(3,3)
double[][] matrixA = { { 1.0, 2.0, 1.0 }, { 3.0, 4.0, 0.0 }, { 5.0, 6.0, 0.0 } };
double determinat = -2.0;
double delta = 0.01;
double result = matrixMath.calcDeterminat(matrixA);
assertEquals("The Determinant is not as it should be", determinat, result, delta);
}
@Test(expected = IllegalArgumentException.class)
public void tryToCalculateA4by4Matrix_ShouldResulInIllegalArgumentException() {
// A(4,4)
double[][] matrixA = { { 1.0, 2.0, 1.0, 0.0 }, { 3.0, 4.0, 0.0, 0.0 }, { 5.0, 6.0, 0.0, 0.0 },
{ 5.0, 6.0, 0.0, 0.0 } };
matrixMath.calcDeterminat(matrixA);
}
@Test(expected = IllegalArgumentException.class)
public void tryToCalculateANonQuadraticMatrix_SouldResulInIllegalArgumentException() {
// A(2,4)
double[][] matrixA = { { 5.0, 6.0, 0.0, 0.0 }, { 5.0, 6.0, 0.0, 0.0 } };
matrixMath.calcDeterminat(matrixA);
}
}

170
src/test/java/com/ugsbo/matrixcalc/MatrixIOUtilsTest.java
View File

@ -0,0 +1,170 @@
package com.ugsbo.matrixcalc;
import static org.junit.Assert.assertArrayEquals;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertTrue;
import org.junit.Before;
import org.junit.Test;
/**
* Tests how well worng input can be determent.
*/
public class MatrixIOUtilsTest {
private MatrixCalcIOUtils util;
@Before
public void setup() {
util = new MatrixCalcIOUtils();
}
@Test(expected = IllegalArgumentException.class)
public void inputEmptySouldThrowAIllegalArgumentException() {
String input = "";
util.checkInput(input);
}
@Test
public void checkIfA1by3MatrixIsValidInput() {
String input = "1 2 3";
try {
// act
util.checkInput(input);
// assert
assertTrue("The 1 by 3 Matrix should be Matched as valid input.", true);
} catch (IllegalArgumentException e) {
assertFalse("The 1 by 3 Matrix should be Matched as valid input.", true);
}
}
@Test
public void checkIfA2by3MatrixIsValidInput() {
// arrange
String input = "1 2 3\n1 2 3";
try {
// act
util.checkInput(input);
// assert
assertTrue("The 2 by 3 Matrix should be Matched as valid input.", true);
} catch (IllegalArgumentException e) {
assertFalse("The 2 by 3 Matrix should be Matched as valid input.", true);
}
}
@Test
public void checkIfA3by3MatrixIsValidInput() {
String input = "1 2 3\n1 2 3\n1 2 3";
try {
util.checkInput(input);
assertTrue("The 3 by 3 Matrix should be Matched as valid input.", true);
} catch (IllegalArgumentException e) {
assertFalse("The 3 by 3 Matrix should be Matched as valid input.", true);
}
}
@Test
public void StringWithSingleDigitNumbersToMatrix_ReturnsEquivalentMatrix() {
String inputString = "1";
double[][] expected = { { 1.0 } };
double[][] result = util.stringToMatrix(inputString);
assertArrayEquals("The first row is not correct", expected[0], result[0], 0.1);
}
@Test
public void StringWithfourDigitNumbersToMatrix_ReturnsEquivalentMatrix() {
String inputString = "1 2\n3 4";
double[][] expected = { { 1.0, 2.0 }, { 3.0, 4.0 } };
double[][] result = util.stringToMatrix(inputString);
assertArrayEquals("The first row is not correct", expected[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", expected[1], result[1], 0.1);
}
@Test
public void StringWithSixDigitNumbersToMatrix_Returns1by6Matrix() {
String inputString = "1 2 3 4 5 6";
double[][] expected = { { 1.0, 2.0, 3.0, 4.0, 5.0, 6.0 } };
double[][] result = util.stringToMatrix(inputString);
assertArrayEquals("The first row is not correct", expected[0], result[0], 0.1);
}
@Test
public void StringWithSixDigitNumbersToMatrix_Returns2by3Matrix() {
String inputString = "1 2 3\n4 5 6";
double[][] expected = { { 1.0, 2.0, 3.0 }, { 4.0, 5.0, 6.0 } };
double[][] result = util.stringToMatrix(inputString);
assertArrayEquals("The first row is not correct", expected[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", expected[1], result[1], 0.1);
}
@Test
public void StringWithSixDigitNumbersToMatrix_Returns3by2Matrix() {
String inputString = "1 2\n3 4\n5 6";
double[][] expected = { { 1.0, 2.0 }, { 3.0, 4.0 }, { 5.0, 6.0 } };
double[][] result = util.stringToMatrix(inputString);
assertArrayEquals("The first row is not correct", expected[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", expected[1], result[1], 0.1);
assertArrayEquals("The therd row is not correct", expected[2], result[2], 0.1);
}
@Test
public void StringWithNineDigitNumbersToMatrix_Returns3by3Matrix() {
String inputString = "1 2 3\n4 5 6\n7 8 9";
double[][] expected = { { 1.0, 2.0, 3.0 }, { 4.0, 5.0, 6.0 }, { 7.0, 8.0, 9.0 } };
double[][] result = util.stringToMatrix(inputString);
assertArrayEquals("The first row is not correct", expected[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", expected[1], result[1], 0.1);
assertArrayEquals("The thierd row is not correct", expected[2], result[2], 0.1);
}
@Test
public void convertsArrayToString_SingleNumber() {
double[][] matrix = { { 1.0 } };
String expected = "1.0 \n\n";
String result = util.convertsArrayToStringInOrderToDisplayIt(matrix);
assertEquals("The Strings do not Match", expected, result);
}
@Test
public void convertsArrayToString_FourNumbersInARow() {
double[][] matrix = { { 1.0, 2.0, 3.0, 4.0 } };
String expected = "1.0 2.0 3.0 4.0 \n\n";
String result = util.convertsArrayToStringInOrderToDisplayIt(matrix);
assertEquals("The Strings do not Match", expected, result);
}
@Test
public void convertsArrayToString_FourNumbersInTwoRows() {
double[][] matrix = { { 1.0, 2.0 }, { 3.0, 4.0 } };
String expected = "1.0 2.0 \n\n3.0 4.0 \n\n";
String result = util.convertsArrayToStringInOrderToDisplayIt(matrix);
assertEquals("The Strings do not Match", expected, result);
}
}

109
src/test/java/com/ugsbo/matrixcalc/MatrixMultiplicationTest.java
View File

@ -0,0 +1,109 @@
package com.ugsbo.matrixcalc;
import static org.junit.Assert.assertArrayEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertTrue;
import org.junit.Before;
import org.junit.Test;
/**
* Testet die Matrix Multiplication funkionalität
*/
public class MatrixMultiplicationTest {
private MatrixCalcMath matrixMath;
@Before
public void setup() {
matrixMath = new MatrixCalcMath();
}
@Test
public void matrixAIsLinkedToMatrixBSouldBeTrue() {
double[][] matrixA = new double[1][2];
double[][] matrixB = new double[2][1];
boolean result = matrixMath.checkIfMatriciesAreLinked(matrixA, matrixB);
assertTrue("Matrix A is Linked to B but it is not detected that way", result);
}
@Test
public void matrixAAndMatrixBAreNullSouldReturnFalse() {
double[][] matrixA = null;
double[][] matrixB = null;
boolean result = matrixMath.checkIfMatriciesAreLinked(matrixA, matrixB);
assertFalse("Matrix A and B are null but detected as Linked", result);
}
@Test
public void matrixAAndMatrixBAreNotLinkedSouldReturnFalse() {
double[][] matrixA = new double[1][1];
double[][] matrixB = new double[2][1];
boolean result = matrixMath.checkIfMatriciesAreLinked(matrixA, matrixB);
assertFalse("Matrix A and B are not Linked but detected as Linked", result);
}
@Test
public void multiplyTwoMatriciesWithSameDimensionsAndSameContent() {
double[][] matrixA = { { 1.0, 1.0 }, { 1.0, 1.0 } };
double[][] matrixB = { { 1.0, 1.0 }, { 1.0, 1.0 } };
double[][] matrixC = { { 2.0, 2.0 }, { 2.0, 2.0 } };
double[][] result = matrixMath.matrixMultiplication(matrixA, matrixB);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
}
@Test
public void multiplyTowMatriciesWithDiffrentDimensions() {
// A(2,3) B(3,2) => C(2,2)
double[][] matrixA = { { 1.0, 1.0, 1.0 }, { 1.0, 1.0, 1.0 } };
double[][] matrixB = { { 1.0, 1.0 }, { 1.0, 1.0 }, { 1.0, 1.0 } };
double[][] matrixC = { { 3.0, 3.0 }, { 3.0, 3.0 } };
double[][] result = matrixMath.matrixMultiplication(matrixA, matrixB);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
}
@Test
public void multiplyTowMatriciesWithDiffrentDimensionsAndDiffentContent() {
// A(2,3) B(3,2) => C(2,2)
double[][] matrixA = { { 1.0, 2.0, 3.0 }, { 4.0, 5.0, 6.0 } };
double[][] matrixB = { { 7.0, 8.0 }, { 9.0, 10.0 }, { 11.0, 12.0 } };
double[][] matrixC = { { 58.0, 64.0 }, { 139.0, 154.0 } };
double[][] result = matrixMath.matrixMultiplication(matrixA, matrixB);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
}
@Test(expected = IllegalArgumentException.class)
public void tryToMultiplyTowEmptyMatricies() {
// A(0,0) B(0,0) => IllegalArgumentException
double[][] matrixA = new double[0][0];
double[][] matrixB = new double[0][0];
matrixMath.matrixMultiplication(matrixA, matrixB);
}
@Test(expected = IllegalArgumentException.class)
public void tryToMultiplyTowNullObjects() {
// null null => IllegalArgumentException
double[][] matrixA = null;
double[][] matrixB = null;
matrixMath.matrixMultiplication(matrixA, matrixB);
}
}

57
src/test/java/com/ugsbo/matrixcalc/MatrixTransposeTest.java
View File

@ -0,0 +1,57 @@
package com.ugsbo.matrixcalc;
import static org.junit.Assert.assertArrayEquals;
import org.junit.Before;
import org.junit.Test;
/**
* Tests the funktionality to Transpose a Matix
*/
public class MatrixTransposeTest {
private MatrixCalcMath matrixMath;
@Before
public void setup() {
matrixMath = new MatrixCalcMath();
}
@Test
public void TransformQuadraticMatrixA_ResultsInQuadraticMatrixC() {
// A(2,2) => C(2,2)
double[][] matrixA = { { 1.0, 2.0 }, { 3.0, 4.0 } };
double[][] matrixC = { { 1.0, 3.0 }, { 2.0, 4.0 } };
double[][] result = matrixMath.matrixTransponation(matrixA);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
}
@Test
public void Transform2by3MatrixA_ResultsIn3by2MatrixC() {
// A(2,3) => C(3,2)
double[][] matrixA = { { 1.0, 2.0, 3.0 }, { 4.0, 5.0, 6.0 } };
double[][] matrixC = { { 1.0, 4.0 }, { 2.0, 5.0 }, { 3.0, 6.0 } };
double[][] result = matrixMath.matrixTransponation(matrixA);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
assertArrayEquals("The third row is not correct", matrixC[2], result[2], 0.1);
}
@Test
public void Transform1by3MatrixA_ResultsIn3by1MatrixC() {
// A(1,3) => C(1,3)
double[][] matrixA = { { 1.0, 2.0, 3.0 } };
double[][] matrixC = { { 1.0 }, { 2.0 }, { 3.0 } };
double[][] result = matrixMath.matrixTransponation(matrixA);
assertArrayEquals("The first row is not correct", matrixC[0], result[0], 0.1);
assertArrayEquals("The second row is not correct", matrixC[1], result[1], 0.1);
assertArrayEquals("The third row is not correct", matrixC[2], result[2], 0.1);
}
}
Write Preview
Loading…
Cancel
Save