Endabgabe #20
@ -13,6 +13,7 @@ import org.antlr.v4.runtime.tree.ParseTree;
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import java.io.IOException;
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import java.io.IOException;
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import java.nio.file.Paths;
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import java.nio.file.Paths;
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import java.util.Optional;
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/**
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/**
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@ -20,9 +21,9 @@ import java.nio.file.Paths;
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* <p> <code> cd .\src\test\ </code>
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* <p> <code> cd .\src\test\ </code>
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* <p> <code> make clean compile-raupenpiler </code>
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* <p> <code> make clean compile-raupenpiler </code>
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* <p> Start Raupenpiler using jar:
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* <p> Start Raupenpiler using jar:
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* <p> <code> java.exe -jar path_to_jar\JavaCompiler-1.0-jar-with-dependencies.jar 'path_to_input_file.java' 'path_to_output_directory' </code>
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* <p> <code> java.exe -DgenJar=true_OR_false -DgenClass=true_OR_false -jar path_to_jar\JavaCompiler-1.0-jar-with-dependencies.jar 'path_to_input_file.java' 'path_to_output_directory' </code>
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* <p> Example (jar needs to be in the target directory, compile with make or mvn package first):
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* <p> Example (jar needs to be in the target directory, compile with make or mvn package first):
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* <code> java.exe -jar .\target\JavaCompiler-1.0-jar-with-dependencies.jar 'src/main/resources/input/CompilerInput.java' 'src/main/resources/output' </code>
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* <code> java.exe -DgenJar=true -DgenClass=true -jar .\target\JavaCompiler-1.0-jar-with-dependencies.jar 'src/main/resources/input/CompilerInput.java' 'src/main/resources/output' </code>
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*/
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*/
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public class Main {
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public class Main {
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public static void main(String[] args) throws Exception {
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public static void main(String[] args) throws Exception {
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@ -97,7 +98,11 @@ public class Main {
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/*------------------------- Bytecode Generator -> Bytecode -------------------------*/
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/*------------------------- Bytecode Generator -> Bytecode -------------------------*/
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// Use the ByteCodeGenerator to generate bytecode from the typed AST and output it to the specified directory
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// Use the ByteCodeGenerator to generate bytecode from the typed AST and output it to the specified directory
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ByteCodeGenerator byteCodeGenerator = new ByteCodeGenerator(outputDirectoryPath, true, true);
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final boolean genJar = Optional.ofNullable(System.getProperty("genJar")).map(String::toLowerCase).map(Boolean::parseBoolean).orElse(true);
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final boolean genClass = Optional.ofNullable(System.getProperty("genClass")).map(String::toLowerCase).map(Boolean::parseBoolean).orElse(true);
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ByteCodeGenerator byteCodeGenerator = new ByteCodeGenerator(outputDirectoryPath, genJar, genClass);
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assert typedAst != null;
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assert typedAst != null;
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byteCodeGenerator.visit((ProgramNode) typedAst);
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byteCodeGenerator.visit((ProgramNode) typedAst);
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// Log the bytecode generation
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// Log the bytecode generation
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@ -9,7 +9,7 @@ compile-javac:
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compile-raupenpiler:
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compile-raupenpiler:
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cd ../.. ; mvn -DskipTests install
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cd ../.. ; mvn -DskipTests install
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cd ../.. ; mvn exec:java -Dexec.mainClass="main.Main" -Dexec.args="'src/main/resources/input/CompilerInput.java' 'src/main/resources/output' "
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cd ../.. ; mvn exec:java -DgenJar=true -DgenClass=true -Dexec.mainClass="main.Main" -Dexec.args="'src/main/resources/input/CompilerInput.java' 'src/main/resources/output'"
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cp ../main/resources/output/CompilerInput.class .java/resources/output/raupenpiler
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cp ../main/resources/output/CompilerInput.class .java/resources/output/raupenpiler
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test: compile-javac compile-raupenpiler test-javac test-raupenpiler
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test: compile-javac compile-raupenpiler test-javac test-raupenpiler
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@ -2,112 +2,4 @@ package semantic;
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public class SemanticTest {
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public class SemanticTest {
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}
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public void test(){
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}
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public void test(int a, boolean b){
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}
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public void test(boolean b, int a){
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}
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// @Test
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// public void alreadyDeclaredLocalFieldVar() {
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// ProgramNode programNode = new ProgramNode();
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// List<ClassNode> classList = new ArrayList<>();
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// AccessTypeNode accessTypeNode = new AccessTypeNode(EnumAccessTypeNode.PUBLIC);
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// ClassNode classNode = new ClassNode(accessTypeNode, "testClass");
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//
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// SemanticAnalyzer semanticAnalyzer = new SemanticAnalyzer();
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// ASTNode tast = semanticAnalyzer.generateTast(ast);
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//
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// MemberNode memberNode2 = new FieldNode(accessTypeNode, new BaseTypeNode(EnumTypeNode.INT), "testVar");
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// classNode.members.add(memberNode2);
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//
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// classList.add(classNode);
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// programNode.classes = classList;
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//
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// ASTNode typedAst = SemanticAnalyzer.generateTast(programNode);
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//
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// assertEquals(1, SemanticAnalyzer.errors.size());
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// assertInstanceOf(AlreadyDeclaredException.class, SemanticAnalyzer.errors.getFirst());
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// assertNull(typedAst);
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// }
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//
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// @Test
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// public void shouldWorkWithNoError() {
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// ProgramNode programNode = new ProgramNode();
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// List<ClassNode> classList = new ArrayList<>();
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// AccessTypeNode accessTypeNode = new AccessTypeNode(EnumAccessTypeNode.PUBLIC);
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// ClassNode classNode = new ClassNode(accessTypeNode, "testClass");
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//
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// SemanticAnalyzer semanticAnalyzer = new SemanticAnalyzer();
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// ASTNode tast = semanticAnalyzer.generateTast(ast);
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//
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// assertEquals(semanticAnalyzer.errors.size(), 0);
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// assertNotNull(tast);
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//
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// MemberNode memberNode3 = getMemberNode(accessTypeNode);
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// classNode.members.add(memberNode3);
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//
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// classList.add(classNode);
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// programNode.classes = classList;
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//
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// ASTNode typedAst = SemanticAnalyzer.generateTast(programNode);
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//
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// assertEquals(0, SemanticAnalyzer.errors.size());
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// assertEquals(programNode, typedAst);
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// }
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//
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// /**
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// * This method is used to create a MemberNode representing a method.
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// * It first creates a list of ParameterNodes and adds a ParameterNode to it.
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// * Then, it creates a ParameterListNode using the list of ParameterNodes.
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// * After that, it creates a list of StatementNodes and adds a StatementNode to it by calling the getStatementNode method.
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// * Finally, it creates a MethodNode using the provided AccessTypeNode, a BaseTypeNode representing the return type of the method,
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// * the method name, the ParameterListNode, and the list of StatementNodes, and returns this MethodNode.
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// *
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// * @param accessTypeNode The AccessTypeNode representing the access type of the method.
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// * @return The created MemberNode representing the method.
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// */
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//private static MemberNode getMemberNode(AccessTypeNode accessTypeNode) {
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// List<ParameterNode> parameterNodeList = new ArrayList<>();
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// ParameterNode parameterNode1 = new ParameterNode(new BaseTypeNode(EnumTypeNode.INT), "param1");
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// parameterNodeList.add(parameterNode1);
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// ParameterListNode parameterListNode = new ParameterListNode(parameterNodeList);
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//
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// List<StatementNode> statementNodeList = new ArrayList<>();
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//
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// StatementNode statementNode1 = getStatementNode();
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// statementNodeList.add(statementNode1);
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//
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// return new MethodNode(accessTypeNode, new BaseTypeNode(EnumTypeNode.INT), "testVar2", parameterListNode, statementNodeList);
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//}
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//
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// /**
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// * This method is used to create a StatementNode for an assignment operation.
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// * It first creates two IdentifierExpressionNodes for 'this' and 'objectVar'.
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// * Then, it creates a BinaryExpressionNode to represent the operation 'this.objectVar'.
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// * After that, it creates a LiteralNode to represent the integer value 1.
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// * Finally, it creates another BinaryExpressionNode to represent the assignment operation 'this.objectVar = 1',
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// * and wraps this expression in an AssignmentStatementNode.
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// *
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// * @return The created AssignmentStatementNode representing the assignment operation 'this.objectVar = 1'.
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// */
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//private static StatementNode getStatementNode() {
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// ExpressionNode expressionNodeObjectVariableLeft = new IdentifierExpressionNode("this");
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// ExpressionNode expressionNodeObjectVariableRight = new IdentifierExpressionNode("objectVar");
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//
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// ExpressionNode expressionNodeLeft = new BinaryExpressionNode(expressionNodeObjectVariableLeft, expressionNodeObjectVariableRight, ExpresssionOperator.DOT);
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//
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// ExpressionNode expressionNodeRight = new LiteralNode(1);
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//
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// BinaryExpressionNode expressionNode = new BinaryExpressionNode(expressionNodeLeft, expressionNodeRight, ExpresssionOperator.ASSIGNMENT);
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//
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// return new AssignmentStatementNode(expressionNode);
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//}
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}
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