gr.uom.java.xmi.diff.SplitVariableRefactoring Maven / Gradle / Ivy
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RefactoringMiner is a library/API written in Java that can detect refactorings applied in the history of a Java project.
package gr.uom.java.xmi.diff;
import java.util.ArrayList;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Set;
import org.apache.commons.lang3.tuple.ImmutablePair;
import org.refactoringminer.api.Refactoring;
import org.refactoringminer.api.RefactoringType;
import gr.uom.java.xmi.VariableDeclarationContainer;
import gr.uom.java.xmi.decomposition.AbstractCodeMapping;
import gr.uom.java.xmi.decomposition.VariableDeclaration;
public class SplitVariableRefactoring implements Refactoring, ReferenceBasedRefactoring {
private Set splitVariables;
private VariableDeclaration oldVariable;
private VariableDeclarationContainer operationBefore;
private VariableDeclarationContainer operationAfter;
private Set variableReferences;
private boolean insideExtractedOrInlinedMethod;
public SplitVariableRefactoring(VariableDeclaration oldVariable, Set splitVariables,
VariableDeclarationContainer operationBefore, VariableDeclarationContainer operationAfter, Set variableReferences,
boolean insideExtractedOrInlinedMethod) {
this.splitVariables = splitVariables;
this.oldVariable = oldVariable;
this.operationBefore = operationBefore;
this.operationAfter = operationAfter;
this.variableReferences = variableReferences;
this.insideExtractedOrInlinedMethod = insideExtractedOrInlinedMethod;
}
public Set getSplitVariables() {
return splitVariables;
}
public VariableDeclaration getOldVariable() {
return oldVariable;
}
public VariableDeclarationContainer getOperationBefore() {
return operationBefore;
}
public VariableDeclarationContainer getOperationAfter() {
return operationAfter;
}
public Set getReferences() {
return variableReferences;
}
public boolean isInsideExtractedOrInlinedMethod() {
return insideExtractedOrInlinedMethod;
}
private boolean allVariablesAreParameters() {
for(VariableDeclaration declaration : splitVariables) {
if(!declaration.isParameter()) {
return false;
}
}
return oldVariable.isParameter();
}
@Override
public RefactoringType getRefactoringType() {
if(allVariablesAreParameters())
return RefactoringType.SPLIT_PARAMETER;
return RefactoringType.SPLIT_VARIABLE;
}
@Override
public String getName() {
return this.getRefactoringType().getDisplayName();
}
@Override
public Set> getInvolvedClassesBeforeRefactoring() {
Set> pairs = new LinkedHashSet>();
pairs.add(new ImmutablePair(getOperationBefore().getLocationInfo().getFilePath(), getOperationBefore().getClassName()));
return pairs;
}
@Override
public Set> getInvolvedClassesAfterRefactoring() {
Set> pairs = new LinkedHashSet>();
pairs.add(new ImmutablePair(getOperationAfter().getLocationInfo().getFilePath(), getOperationAfter().getClassName()));
return pairs;
}
public String toString() {
StringBuilder sb = new StringBuilder();
sb.append(getName()).append("\t");
sb.append(oldVariable);
sb.append(" to ");
sb.append(splitVariables);
String elementType = operationAfter.getElementType();
sb.append(" in " + elementType + " ");
sb.append(operationAfter);
sb.append(" from class ").append(operationAfter.getClassName());
return sb.toString();
}
@Override
public int hashCode() {
final int prime = 31;
int result = 1;
result = prime * result + ((oldVariable == null) ? 0 : oldVariable.hashCode());
result = prime * result + ((operationAfter == null) ? 0 : operationAfter.hashCode());
result = prime * result + ((operationBefore == null) ? 0 : operationBefore.hashCode());
result = prime * result + ((splitVariables == null) ? 0 : splitVariables.hashCode());
return result;
}
@Override
public boolean equals(Object obj) {
if (this == obj)
return true;
if (obj == null)
return false;
if (getClass() != obj.getClass())
return false;
SplitVariableRefactoring other = (SplitVariableRefactoring) obj;
if (oldVariable == null) {
if (other.oldVariable != null)
return false;
} else if (!oldVariable.equals(other.oldVariable))
return false;
if (operationAfter == null) {
if (other.operationAfter != null)
return false;
} else if (!operationAfter.equals(other.operationAfter))
return false;
if (operationBefore == null) {
if (other.operationBefore != null)
return false;
} else if (!operationBefore.equals(other.operationBefore))
return false;
if (splitVariables == null) {
if (other.splitVariables != null)
return false;
} else if (!splitVariables.equals(other.splitVariables))
return false;
return true;
}
@Override
public List leftSide() {
List ranges = new ArrayList();
ranges.add(oldVariable.codeRange()
.setDescription("original variable declaration")
.setCodeElement(oldVariable.toString()));
String elementType = operationBefore.getElementType();
ranges.add(operationBefore.codeRange()
.setDescription("original " + elementType + " declaration")
.setCodeElement(operationBefore.toString()));
return ranges;
}
@Override
public List rightSide() {
List ranges = new ArrayList();
for(VariableDeclaration splitVariable : splitVariables) {
ranges.add(splitVariable.codeRange()
.setDescription("split variable declaration")
.setCodeElement(splitVariable.toString()));
}
String elementType = operationAfter.getElementType();
ranges.add(operationAfter.codeRange()
.setDescription(elementType + " declaration with split variable")
.setCodeElement(operationAfter.toString()));
return ranges;
}
}