第6天 通过解释器执行程序
解释器从抽象语法树的根节点开始遍历该树直至叶节点,并计算各节点的内容
6.1 eval方法与环境对象
eval方法:eval是evaluate(求值)的缩写。eval方法将计算与该节点为根的子树对应的语句、表达式及子表达式,并返回执行结果。 eval方法递归调用子节点的eval方法 不同类型的节点的类,对eval方法有着不同的定义
eval方法的简化版本
public Object eval(Environment env){
Object left = left().eval(env);
Object right = right().eval(env);
return (Integer)letf + (Integer)right;
}
public Object eval(Environment env){ return value(); } // value()将返回该对象表示的整型字面量
类似深度优先树节点搜索算法
代码清单 6.1 环境对象的接口Environment.java
package chap6;
public interface Environment {
void put(String name, Object value);
Object get(String name);
}
代码清单 6.2 环境对象的类BasicEnv.java
package chap6;
import java.util.HashMap;
public class BasicEnv implements Environment {
protected HashMap<String,Object> values;
public BasicEnv() { values = new HashMap<String,Object>(); }
public void put(String name, Object value) { values.put(name, value); }
public Object get(String name) { return values.get(name); }
}
6.2 各种类型的eval方法
代码清单 6.3 新增的eval方法 (BasicEvaluator.java)
package chap6;
import stone.StoneException;
import stone.Token;
import stone.ast.*;
import javassist.gluonj.*;
import java.util.List;
@Reviser public class BasicEvaluator {
public static final int TRUE = 1;
public static final int FALSE = 0;
@Reviser public static abstract class ASTreeEx extends ASTree {
public abstract Object eval(Environment env);
}
@Reviser public static class ASTListEx extends ASTList {
public ASTListEx(List<ASTree> c) { super(c); }
public Object eval(Environment env) {
throw new StoneException("cannot eval: " + toString(), this);
}
}
@Reviser public static class ASTLeafEx extends ASTLeaf {
public ASTLeafEx(Token t) { super(t); }
public Object eval(Environment env) {
throw new StoneException("cannot eval: " + toString(), this);
}
}
@Reviser public static class NumberEx extends NumberLiteral {
public NumberEx(Token t) { super(t); }
public Object eval(Environment e) { return value(); }
}
@Reviser public static class StringEx extends StringLiteral {
public StringEx(Token t) { super(t); }
public Object eval(Environment e) { return value(); }
}
@Reviser public static class NameEx extends Name {
public NameEx(Token t) { super(t); }
public Object eval(Environment env) {
Object value = env.get(name());
if (value == null)
throw new StoneException("undefined name: " + name(), this);
else
return value;
}
}
@Reviser public static class NegativeEx extends NegativeExpr {
public NegativeEx(List<ASTree> c) { super(c); }
public Object eval(Environment env) {
Object v = ((ASTreeEx)operand()).eval(env);
if (v instanceof Integer)
return new Integer(-((Integer)v).intValue());
else
throw new StoneException("bad type for -", this);
}
}
@Reviser public static class BinaryEx extends BinaryExpr {
public BinaryEx(List<ASTree> c) { super(c); }
public Object eval(Environment env) {
String op = operator();
if ("=".equals(op)) {
Object right = ((ASTreeEx)right()).eval(env);
return computeAssign(env, right);
}
else {
Object left = ((ASTreeEx)left()).eval(env);
Object right = ((ASTreeEx)right()).eval(env);
return computeOp(left, op, right);
}
}
protected Object computeAssign(Environment env, Object rvalue) {
ASTree l = left();
if (l instanceof Name) {
env.put(((Name)l).name(), rvalue);
return rvalue;
}
else
throw new StoneException("bad assignment", this);
}
protected Object computeOp(Object left, String op, Object right) {
if (left instanceof Integer && right instanceof Integer) {
return computeNumber((Integer)left, op, (Integer)right);
}
else
if (op.equals("+"))
return String.valueOf(left) + String.valueOf(right);
else if (op.equals("==")) {
if (left == null)
return right == null ? TRUE : FALSE;
else
return left.equals(right) ? TRUE : FALSE;
}
else
throw new StoneException("bad type", this);
}
protected Object computeNumber(Integer left, String op, Integer right) {
int a = left.intValue();
int b = right.intValue();
if (op.equals("+"))
return a + b;
else if (op.equals("-"))
return a - b;
else if (op.equals("*"))
return a * b;
else if (op.equals("/"))
return a / b;
else if (op.equals("%"))
return a % b;
else if (op.equals("=="))
return a == b ? TRUE : FALSE;
else if (op.equals(">"))
return a > b ? TRUE : FALSE;
else if (op.equals("<"))
return a < b ? TRUE : FALSE;
else
throw new StoneException("bad operator", this);
}
}
@Reviser public static class BlockEx extends BlockStmnt {
public BlockEx(List<ASTree> c) { super(c); }
public Object eval(Environment env) {
Object result = 0;
for (ASTree t: this) {
if (!(t instanceof NullStmnt))
result = ((ASTreeEx)t).eval(env);
}
return result;
}
}
@Reviser public static class IfEx extends IfStmnt {
public IfEx(List<ASTree> c) { super(c); }
public Object eval(Environment env) {
Object c = ((ASTreeEx)condition()).eval(env);
if (c instanceof Integer && ((Integer)c).intValue() != FALSE)
return ((ASTreeEx)thenBlock()).eval(env);
else {
ASTree b = elseBlock();
if (b == null)
return 0;
else
return ((ASTreeEx)b).eval(env);
}
}
}
@Reviser public static class WhileEx extends WhileStmnt {
public WhileEx(List<ASTree> c) { super(c); }
public Object eval(Environment env) {
Object result = 0;
for (;;) {
Object c = ((ASTreeEx)condition()).eval(env);
if (c instanceof Integer && ((Integer)c).intValue() == FALSE)
return result;
else
result = ((ASTreeEx)body()).eval(env);
}
}
}
}
6.3 关于GluonJ
在GluonJ中,标有@Reviser的类称为修改器(reviser)。修改器看起来和子类很相似,实则不然,它将直接修改(reviser)所继承的类的定义。
6.4 执行程序
eval方法是Stone语言解释器的核心完成了eval方法的实现之后解释器只要读取程序并调用eval方法,就能执行Stone语言程序。
代码清单 6.4 Stone语言的解释器 BasicInterpreter.java
package chap6;
import stone.*;
import stone.ast.ASTree;
import stone.ast.NullStmnt;
public class BasicInterpreter {
public static void main(String[] args) throws ParseException {
run(new BasicParser(), new BasicEnv());
}
public static void run(BasicParser bp, Environment env)
throws ParseException
{
Lexer lexer = new Lexer(new CodeDialog());
while (lexer.peek(0) != Token.EOF) {
ASTree t = bp.parse(lexer);
if (!(t instanceof NullStmnt)) {
Object r = ((BasicEvaluator.ASTreeEx)t).eval(env);
System.out.println("=> " + r);
}
}
}
}
来源:oschina
链接:https://my.oschina.net/u/3715558/blog/3159807