Documentation

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# Compiler design homework assignment
The goal is to create a compiler from a subset of Java (JavaLi) to 32bit Intel assembly. The structure is the following:
* HW0: write an assembly program that reads numbers (not graded). [PDF](./docs/hw0.pdf)
* HW1: implement a code generator that translates assignment statements to IA32. [PDF](./docs/hw1/hw1.pdf)
* HW2: construct a lexer (lexical analyzer) and a parser (syntax analyzer) for the complete JavaLi programming language. [PDF](./docs/hw2/hw2.pdf)
* HW3: develop a semantic analyzer. [PDF](./docs/hw3.pdf)
* HW4: build a IA32 back-end for the compiler, a generator of IA32 for the complete JavaLi language. [PDF](./docs/hw4.pdf)
* HWB: implement as many optimizations as possible (focusing on speed and correctness). [PDF](./docs/hw5.pdf)
* HWC: review the code of other teams for HW1 and write up a report. [PDF](./docs/hwc.pdf)
* HWD: review the code of other teams for HW4 and write up a report. [PDF](./docs/hwd.pdf)
## License
Copyright (c) 2018 Carlos Galindo, Levin Moser, teaching group of Compiler Design (ETH Zürich). All rights reserved.

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import java.lang.*;
abstract class TreeNode {
public int key;
public TreeNode leftchild;
public TreeNode rightchild;
public TreeNode(int k, TreeNode left, TreeNode right) {
key = k;
leftchild = left;
rightchild = right;
}
}
class BlueNode extends TreeNode {
public BlueNode(int k, TreeNode left, TreeNode right) { super(k, left, right); }
}
class GreenNode extends TreeNode {
public GreenNode(int k, TreeNode left, TreeNode right) { super(k, left, right); }
}
class Visitor {
public void visit(TreeNode node) {
System.out.print(node.key + ": ");
if (node instanceof BlueNode)
System.out.println("Blue");
else if (node instanceof GreenNode)
System.out.println("Green");
if (node.leftchild != null) visit(node.leftchild);
if (node.rightchild != null) visit(node.rightchild);
}
}
public class SimpleVisitor {
public static void main(String [] args) {
TreeNode root = new BlueNode(1,
new GreenNode(21,
new BlueNode(31, null, null),
new GreenNode(32, null, null)),
new GreenNode(22,
new BlueNode(33, null, null),
new GreenNode(34, null, null)));
Visitor v = new Visitor();
v.visit(root);
}
}

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import java.lang.*;
abstract class TreeNode {
public int key;
public TreeNode leftchild;
public TreeNode rightchild;
public TreeNode(int k, TreeNode left, TreeNode right) {
key = k;
leftchild = left;
rightchild = right;
}
public abstract void accept(Visitor v);
}
class BlueNode extends TreeNode {
public BlueNode(int k, TreeNode left, TreeNode right) { super(k, left, right); }
public void accept(Visitor v) {
v.blueNode(this);
}
}
class GreenNode extends TreeNode {
public GreenNode(int k, TreeNode left, TreeNode right) { super(k, left, right); }
public void accept(Visitor v) {
v.greenNode(this);
}
}
class Visitor {
public void blueNode(BlueNode node) {
System.out.print(node.key + ": ");
System.out.println("Blue");
if (node.leftchild != null) node.leftchild.accept(this);
if (node.rightchild != null) node.rightchild.accept(this);
}
public void greenNode(GreenNode node) {
System.out.print(node.key + ": ");
System.out.println("Green");
if (node.leftchild != null) node.leftchild.accept(this);
if (node.rightchild != null) node.rightchild.accept(this);
}
}
public class VisitorPattern {
public static void main(String [] args) {
TreeNode root = new BlueNode(1,
new GreenNode(21,
new BlueNode(31, null, null),
new GreenNode(32, null, null)),
new GreenNode(22,
new BlueNode(33, null, null),
new GreenNode(34, null, null)));
root.accept(new Visitor());
}
}

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