private void parseCatch() {

    String symbol;
    JavaScriptToken token;
    ScriptOrFnScope currentScope;
    JavaScriptIdentifier identifier;

    token = getToken(-1);
    assert token.getType() == Token.CATCH;
    token = consumeToken();
    assert token.getType() == Token.LP;
    token = consumeToken();
    assert token.getType() == Token.NAME;

    symbol = token.getValue();
    currentScope = getCurrentScope();

    if (mode == BUILDING_SYMBOL_TREE) {
      // We must declare the exception identifier in the containing
      // function
      // scope to avoid errors related to the obfuscation process. No need
      // to
      // display a warning if the symbol was already declared here...
      currentScope.declareIdentifier(symbol, false);
    } else {
      identifier = getIdentifier(symbol, currentScope);
      identifier.incrementRefcount();
    }

    token = consumeToken();
    assert token.getType() == Token.RP;
  }
 /*
  * Returns the identifier for the specified symbol defined in the specified
  * scope or in any scope above it. Returns null if this symbol does not have
  * a corresponding identifier.
  */
 private JavaScriptIdentifier getIdentifier(String symbol, ScriptOrFnScope scope) {
   JavaScriptIdentifier identifier;
   while (scope != null) {
     identifier = scope.getIdentifier(symbol);
     if (identifier != null) {
       return identifier;
     }
     scope = scope.getParentScope(); // ??此代码不知何意
   }
   return null;
 }
  /*
   * If either 'eval' or 'with' is used in a local scope, we must make sure
   * that all containing local scopes don't get munged. Otherwise, the
   * obfuscation would potentially introduce bugs.
   */
  private void protectScopeFromObfuscation(ScriptOrFnScope scope) {
    assert scope != null;

    if (scope == globalScope) {
      // The global scope does not get obfuscated,
      // so we don't need to worry about it...
      return;
    }

    // Find the highest local scope containing the specified scope.
    while (scope.getParentScope() != globalScope) {
      scope = scope.getParentScope();
    }

    assert scope.getParentScope() == globalScope;
    scope.preventMunging();
  }
 private void manMung() { // 手动混淆,即由用户输入混淆变量
   JTable table = AnalyseWarnPanel.table;
   Set<ScriptOrFnScope> scopes = scopeSymbolMaping.keySet();
   Iterator<ScriptOrFnScope> scopesSetIt = scopes.iterator();
   int i = 0;
   while (scopesSetIt.hasNext()) {
     ScriptOrFnScope tmpScope = scopesSetIt.next();
     List<String> symbolList = scopeSymbolMaping.get(tmpScope);
     Iterator<String> symbolListIt = symbolList.iterator();
     while (symbolListIt.hasNext()) {
       String symbol = symbolListIt.next();
       JavaScriptIdentifier identifier = tmpScope.getIdentifier(symbol);
       String mungedValue = table.getValueAt(i, 1).toString().trim();
       if (identifier.isMarkedForMunging() && !mungedValue.equals("null")) {
         identifier.setMungedValue(mungedValue);
       }
       i++;
     }
   }
 }
  // 建立语法树
  public void buildSymbolTree() {
    offset = 0;
    braceNesting = 0; // 花括号嵌套
    scopes.clear(); // 清空栈
    indexedScopes.clear(); // 清空哈希表
    indexedScopes.put(new Integer(0), globalScope); // gloabalScope为ScriptOrFnScope对象,构造函数参数为-1,null
    mode = BUILDING_SYMBOL_TREE; // (BUILDING_SYMBOL_TREE值为1)
    parseScope(globalScope);

    globalScope.warning();
  }
  public void mungeSymboltree(boolean analyzed) {

    if (!munge) {
      return;
    }

    // One problem with obfuscation resides in the use of undeclared
    // and un-namespaced global symbols that are 3 characters or less
    // in length. Here is an example:
    //
    // var declaredGlobalVar;
    //
    // function declaredGlobalFn() {
    // var localvar;
    // localvar = abc; // abc is an undeclared global symbol
    // }
    //
    // In the example above, there is a slim chance that localvar may be
    // munged to 'abc', conflicting with the undeclared global symbol
    // abc, creating a potential bug. The following code detects such
    // global symbols. This must be done AFTER the entire file has been
    // parsed, and BEFORE munging the symbol tree. Note that declaring
    // extra symbols in the global scope won't hurt.
    //
    // Note: Since we go through all the tokens to do this, we also use
    // the opportunity to count how many times each identifier is used.

    offset = 0;
    braceNesting = 0;
    scopes.clear();
    mode = CHECKING_SYMBOL_TREE;
    parseScope(globalScope);

    if (analyzed) { // 进行了分析,说明用户想主动输入混淆变量,优先使用用户输入的混淆变量
      manMung();
    }
    globalScope.munge();
  }
  private void parseScope(ScriptOrFnScope scope) {

    String symbol;
    JavaScriptToken token;
    JavaScriptIdentifier identifier;

    int length = tokens.size();

    enterScope(scope); // 进入范围(将scope压入栈scopes中)

    while (offset < length) { // 在此函数调用前已设置为0

      token = consumeToken(); // 消费tokens,offset自增

      switch (token.getType()) {
        case Token.VAR: // 注意后面没有break;
          if (mode == BUILDING_SYMBOL_TREE) {
            scope.incrementVarCount(); // 当前范围内的var数量加1
          }

          /* FALLSTHROUGH(falls through) 失败 */

        case Token.CONST:

          // The var keyword is followed by at least one symbol name.
          // If several symbols follow, they are comma(逗号) separated.
          for (; ; ) {
            token = consumeToken();

            assert token.getType() == Token.NAME;
            // 判断关键字var、const后的变量是否已经定义,未定义则定义,已定义则输出警告
            if (mode == BUILDING_SYMBOL_TREE) {
              symbol = token.getValue();
              if (scope.getIdentifier(symbol) == null) {
                scope.declareIdentifier(symbol, true); // 声明标识符
              } else {
                warn("变量" + symbol + "已经在相同的作用域中声明", true);
              }
            }

            token = getToken(0); // offset不自增,token.getValue()的值一般为'='或';'

            assert token.getType() == Token.SEMI
                || token.getType() == Token.ASSIGN
                || token.getType() == Token.COMMA
                || token.getType() == Token.IN;

            if (token.getType() == Token.IN) {
              break;
            } else {
              parseExpression(); // 解释表达式(例如解释var a = 'u';或var a;)
              token = getToken(-1); // 得到的是';'
              if (token.getType() == Token.SEMI) { // 变量声明完成
                break;
              }
            }
          }
          break;

        case Token.FUNCTION:
          parseFunctionDeclaration();
          break;

        case Token.LC:
          braceNesting++;
          break;

        case Token.RC:
          braceNesting--;
          assert braceNesting >= scope.getBraceNesting();
          if (braceNesting == scope.getBraceNesting()) { // 说明要离开当前作用域了
            leaveCurrentScope(); // 离开当前作用域
            return;
          }
          break;

        case Token.WITH:
          if (mode == BUILDING_SYMBOL_TREE) {
            // Inside a 'with' block, it is impossible to figure out
            // statically whether a symbol is a local variable or an
            // object member. As a consequence, the only thing we can
            // do is turn the obfuscation off for the highest scope
            // containing the 'with' block.
            protectScopeFromObfuscation(scope);
            warn("不推荐使用with关键字。" + (munge ? " 使用with会降低压缩水平" : ""), true);
          }
          break;

        case Token.CATCH:
          parseCatch();
          break;

        case Token.CONDCOMMENT:
          if (mode == BUILDING_SYMBOL_TREE) {
            protectScopeFromObfuscation(scope);
            warn("不推荐使用JScript条件注释。" + (munge ? "使用JScript条件解释会降低压缩水平。" : ""), true);
          }
          break;

        case Token.NAME:
          symbol = token.getValue();

          if (mode == BUILDING_SYMBOL_TREE) {

            if (symbol.equals("eval")) {

              protectScopeFromObfuscation(scope);
              warn("不推荐使用'eval'关键字。" + (munge ? "使用'eval'会降低压缩水平!" : ""), true);
            }

          } else if (mode == CHECKING_SYMBOL_TREE) {

            if ((offset < 2 || getToken(-2).getType() != Token.DOT)
                && getToken(0).getType() != Token.OBJECTLIT) {

              identifier = getIdentifier(symbol, scope);

              if (identifier == null) {

                if (symbol.length() <= 3 && !builtin.contains(symbol)) {
                  // Here, we found an undeclared and
                  // un-namespaced symbol that is
                  // 3 characters or less in length. Declare it in
                  // the global scope.
                  // We don't need to declare longer symbols since
                  // they won't cause
                  // any conflict with other munged symbols.
                  globalScope.declareIdentifier(symbol, false);
                  // warn("Found an undeclared symbol: " + symbol,
                  // true);
                }

              } else {

                identifier.incrementRefcount();
              }
            }
          }
          break;
      }
    }
  }
  private void parseExpression() {

    // Parse the expression until we encounter a comma or a semi-colon
    // in the same brace nesting, bracket nesting(方括号嵌套) and paren nesting.
    // Parse functions if any...

    String symbol;
    JavaScriptToken token;
    ScriptOrFnScope currentScope;
    JavaScriptIdentifier identifier;

    int expressionBraceNesting = braceNesting; // 花括号嵌套
    int bracketNesting = 0; // 方括号嵌套
    int parensNesting = 0; //

    int length = tokens.size();

    while (offset < length) {

      token = consumeToken();

      currentScope = getCurrentScope(); // return scopes.peek();

      switch (token.getType()) {
        case Token.SEMI:
        case Token.COMMA:
          if (braceNesting == expressionBraceNesting && bracketNesting == 0 && parensNesting == 0) {
            return;
          }
          break;

        case Token.FUNCTION:
          parseFunctionDeclaration();
          break;

        case Token.LC:
          braceNesting++;
          break;

        case Token.RC:
          braceNesting--;
          assert braceNesting >= expressionBraceNesting;
          break;

        case Token.LB:
          bracketNesting++;
          break;

        case Token.RB:
          bracketNesting--;
          break;

        case Token.LP:
          parensNesting++;
          break;

        case Token.RP:
          parensNesting--;
          break;

        case Token.CONDCOMMENT:
          if (mode == BUILDING_SYMBOL_TREE) {
            protectScopeFromObfuscation(currentScope);
            warn("不推荐使用JScript条件注释。" + (munge ? "使用JScript条件注释会降低压缩水平!" : ""), true);
          }
          break;

        case Token.NAME:
          symbol = token.getValue();

          if (mode == BUILDING_SYMBOL_TREE) {

            if (symbol.equals("eval")) {

              protectScopeFromObfuscation(currentScope);
              warn("不推荐使用'eval'关键字。" + (munge ? "使用'eval'会降低压缩水平!" : ""), true);
            }

          } else if (mode == CHECKING_SYMBOL_TREE) {

            if ((offset < 2
                    || (getToken(-2).getType() != Token.DOT
                        && getToken(-2).getType() != Token.GET
                        && getToken(-2).getType() != Token.SET))
                && getToken(0).getType() != Token.OBJECTLIT) {

              identifier = getIdentifier(symbol, currentScope);

              if (identifier == null) {

                if (symbol.length() <= 3 && !builtin.contains(symbol)) {
                  // Here, we found an undeclared and
                  // un-namespaced symbol that is
                  // 3 characters or less in length. Declare it in
                  // the global scope.
                  // We don't need to declare longer symbols since
                  // they won't cause
                  // any conflict with other munged symbols.
                  globalScope.declareIdentifier(symbol, false);

                  // I removed the warning since was only being
                  // done when
                  // for identifiers 3 chars or less, and was just
                  // causing
                  // noise for people who happen to rely on an
                  // externally
                  // declared variable that happen to be that
                  // short. We either
                  // should always warn or never warn -- the fact
                  // that we
                  // declare the short symbols in the global space
                  // doesn't
                  // change anything.
                  // warn("Found an undeclared symbol: " + symbol,
                  // true);
                }

              } else {

                identifier.incrementRefcount();
              }
            }
          }
          break;
      }
    }
  }
  private void parseFunctionDeclaration() {

    String symbol;
    JavaScriptToken token;
    ScriptOrFnScope currentScope, fnScope;
    JavaScriptIdentifier identifier;

    currentScope = getCurrentScope(); // 得到此函数声明所在的域

    token = consumeToken();

    // 如果是函数名(说明这种函数的声明方式是:function funName(){})
    // 否则是:var varName = function(){}
    if (token.getType() == Token.NAME) {
      if (mode == BUILDING_SYMBOL_TREE) {
        // Get the name of the function and declare it in the current
        // scope.
        symbol = token.getValue(); // 得到的是函数名
        if (currentScope.getIdentifier(symbol) != null) {
          warn("函数" + symbol + "已经在相同的作用域中声明。", true);
        }
        currentScope.declareIdentifier(symbol, false); // 在本作用域中声明标识符
      }
      token = consumeToken(); // 得到左圆括号
    }

    assert token.getType() == Token.LP;
    if (mode == BUILDING_SYMBOL_TREE) {
      fnScope = new ScriptOrFnScope(braceNesting, currentScope); // 新建一个作用域,并把当前域传递过去最为父作用域
      indexedScopes.put(new Integer(offset), fnScope); // 圆括号的下一个索引映射到函数作用域
    } else {
      fnScope = indexedScopes.get(new Integer(offset));
    }

    // Parse function arguments.解释函数参数
    int argpos = 0;
    while ((token = consumeToken()).getType() != Token.RP) {
      assert token.getType() == Token.NAME || token.getType() == Token.COMMA;
      if (token.getType() == Token.NAME && mode == BUILDING_SYMBOL_TREE) {
        symbol = token.getValue();
        identifier = fnScope.declareIdentifier(symbol, false);
        if (symbol.equals("$super") && argpos == 0) {
          // Exception for Prototype 1.6...
          identifier.preventMunging();
        }
        argpos++;
      }
    }

    token = consumeToken(); // 得到函数的左花括号
    assert token.getType() == Token.LC;
    braceNesting++;

    token = getToken(0);
    if (token.getType() == Token.STRING && getToken(1).getType() == Token.SEMI) {
      // This is a hint. Hints are empty statements that look like
      // "localvar1:nomunge, localvar2:nomunge"; They allow developers
      // to prevent specific symbols from getting obfuscated (some heretic
      // implementations, such as Prototype 1.6, require specific variable
      // names, such as $super for example, in order to work
      // appropriately.
      // Note: right now, only "nomunge" is supported in the right hand
      // side
      // of a hint. However, in the future, the right hand side(右边) may
      // contain
      // other values.
      consumeToken();
      String hints = token.getValue();
      // Remove the leading and trailing quotes...
      hints = hints.substring(1, hints.length() - 1).trim();
      StringTokenizer st1 = new StringTokenizer(hints, ","); // Tokenizer分词器,以','为分词界限
      while (st1.hasMoreTokens()) {
        String hint = st1.nextToken();
        int idx = hint.indexOf(':');
        if (idx <= 0 || idx >= hint.length() - 1) {
          if (mode == BUILDING_SYMBOL_TREE) {
            // No need to report the error twice, hence the test...
            warn("提示语句有语法错误:" + hint, true);
          }
          break;
        }
        String variableName = hint.substring(0, idx).trim();
        String variableType = hint.substring(idx + 1).trim();
        if (mode == BUILDING_SYMBOL_TREE) {
          fnScope.addHint(variableName, variableType);
        } else if (mode == CHECKING_SYMBOL_TREE) {
          identifier = fnScope.getIdentifier(variableName);
          if (identifier != null) {
            if (variableType.equals("nomunge")) {
              identifier.preventMunging();
            } else {
              warn("不支持的提示指令: " + hint, true);
            }
          } else {
            warn("提示指令指向未知的标识符: " + hint, true);
          }
        }
      }
    }

    parseScope(fnScope); // 解释函数域
  }
 public Vector<Vector<String>> getOriginalValue() {
   Vector<Vector<String>> vt = new Vector<Vector<String>>();
   globalScope.getOriginalValue(vt, scopeSymbolMaping);
   return vt;
 }
 public String printMungeMapping() {
   StringBuffer sb = new StringBuffer();
   globalScope.getFullMapping(sb, "");
   return sb.toString();
 }
  public StringBuffer printSymbolTree(int linebreakpos, boolean preserveAllSemiColons)
      throws IOException {

    offset = 0;
    braceNesting = 0;
    scopes.clear();

    String symbol;
    JavaScriptToken token;
    // begin
    if (tokens.size() == 0) {
      StringBuffer result = new StringBuffer();
      return result;
    }
    // end
    JavaScriptToken lastToken = getToken(0);
    ScriptOrFnScope currentScope;
    JavaScriptIdentifier identifier;

    int length = tokens.size(); // 文本的长度
    StringBuffer result = new StringBuffer();

    int linestartpos = 0;

    enterScope(globalScope); // 将globalScope压入栈scopes中

    while (offset < length) {

      token = consumeToken();
      symbol = token.getValue();
      currentScope = getCurrentScope();
      switch (token.getType()) {
        case Token.GET:
        case Token.SET:
          lastToken = token; // 注意没有break;

        case Token.NAME:
          if (offset >= 2 && getToken(-2).getType() == Token.DOT
              || getToken(0).getType() == Token.OBJECTLIT) {

            result.append(symbol);

          } else {
            identifier = getIdentifier(symbol, currentScope);
            if (identifier != null) {
              if (identifier.getMungedValue() != null) {
                result.append(identifier.getMungedValue());
              } else {
                result.append(symbol);
              }
              if (currentScope != globalScope // 全局域中的变量可能被HTML文档使用,不需要发出警告
                  && identifier.getRefcount() == 0) {
                warn("标识符" + symbol + "已经声明但未使用 ", true);
              }
            } else {
              result.append(symbol);
            }
          }
          break;

        case Token.REGEXP:
        case Token.STRING:
          result.append(symbol);
          break;

        case Token.NUMBER:
          if (getToken(0).getType() == Token.DOT) {
            // calling methods on int requires a leading dot so JS
            // doesn't
            // treat the method as the decimal component of a float
            result.append('(');
            result.append(symbol);
            result.append(')');
          } else {
            result.append(symbol);
          }
          break;

        case Token.ADD:
        case Token.SUB:
          result.append(literals.get(new Integer(token.getType())));
          if (offset < length) {
            token = getToken(0);
            if (token.getType() == Token.INC
                || token.getType() == Token.DEC
                || token.getType() == Token.ADD
                || token.getType() == Token.DEC) {
              // Handle the case x +/- ++/-- y
              // We must keep a white space here. Otherwise, x +++ y
              // would be
              // interpreted as x ++ + y by the compiler, which is a
              // bug (due
              // to the implicit(隐式的) assignment being done on the
              // wrong variable)
              result.append(' ');
            } else if (token.getType() == Token.POS && getToken(-1).getType() == Token.ADD
                || token.getType() == Token.NEG && getToken(-1).getType() == Token.SUB) {
              // Handle the case x + + y and x - - y
              result.append(' ');
            }
          }
          break;

        case Token.FUNCTION:
          if (lastToken.getType() != Token.GET && lastToken.getType() != Token.SET) {
            result.append("function");
          }
          lastToken = token;
          token = consumeToken();
          if (token.getType() == Token.NAME) {
            result.append(' ');
            symbol = token.getValue();
            identifier = getIdentifier(symbol, currentScope);
            assert identifier != null;
            if (identifier.getMungedValue() != null) {
              result.append(identifier.getMungedValue());
            } else {
              result.append(symbol);
            }
            if (currentScope != globalScope && identifier.getRefcount() == 0) {
              warn("标识符" + symbol + "已经声明但未使用", true);
            }
            token = consumeToken();
          }
          assert token.getType() == Token.LP;
          result.append('(');
          currentScope = indexedScopes.get(new Integer(offset)); // 根据左圆括号的下一个索引映射得到函数作用域
          enterScope(currentScope);
          while ((token = consumeToken()).getType() != Token.RP) {
            assert token.getType() == Token.NAME || token.getType() == Token.COMMA;
            if (token.getType() == Token.NAME) {
              symbol = token.getValue();
              identifier = getIdentifier(symbol, currentScope);
              assert identifier != null;
              if (identifier.getMungedValue() != null) {
                result.append(identifier.getMungedValue());
              } else {
                result.append(symbol);
              }
            } else if (token.getType() == Token.COMMA) {
              result.append(',');
            }
          }
          result.append(')');
          token = consumeToken(); // 得到左花括号
          assert token.getType() == Token.LC;
          result.append("{"); // nomodify
          braceNesting++;
          token = getToken(0);
          if (token.getType() == Token.STRING && getToken(1).getType() == Token.SEMI) {
            // This is a hint. Skip it!
            consumeToken();
            consumeToken();
          }
          break;

        case Token.RETURN:
        case Token.TYPEOF:
          result.append(literals.get(new Integer(token.getType())));
          // No space needed after 'return' and 'typeof' when followed
          // by '(', '[', '{', a string or a regexp.
          if (offset < length) {
            token = getToken(0);
            if (token.getType() != Token.LP
                && token.getType() != Token.LB
                && token.getType() != Token.LC
                && token.getType() != Token.STRING
                && token.getType() != Token.REGEXP
                && token.getType() != Token.SEMI) {
              result.append(' ');
            }
          }
          break;

        case Token.CASE:
        case Token.THROW:
          result.append(literals.get(new Integer(token.getType())));
          // White-space needed after 'case' and 'throw' when not followed
          // by a string.
          if (offset < length && getToken(0).getType() != Token.STRING) {
            result.append(' ');
          }
          break;

        case Token.BREAK:
        case Token.CONTINUE:
          result.append(literals.get(new Integer(token.getType())));
          if (offset < length && getToken(0).getType() != Token.SEMI) {
            // If 'break' or 'continue' is not followed by a
            // semi-colon(分号), it must
            // be followed by a label, hence(因此) the need for a white
            // space.
            result.append(' ');
          }
          break;

        case Token.LC:
          result.append("{"); // nomodify
          braceNesting++;
          break;

        case Token.RC:
          result.append('}');
          braceNesting--;
          assert braceNesting >= currentScope.getBraceNesting();
          if (braceNesting == currentScope.getBraceNesting()) {
            leaveCurrentScope();
          }
          break;

        case Token.SEMI:
          // No need to output a semi-colon if the next character is a
          // right-curly...
          if (preserveAllSemiColons || offset < length && getToken(0).getType() != Token.RC) {
            result.append(';');
          }

          if (linebreakpos >= 0 && result.length() - linestartpos > linebreakpos) {
            // Some source control tools don't like it when files
            // containing lines longer
            // than, say 8000 characters, are checked in. The linebreak
            // option is used in
            // that case to split long lines after a specific column.
            result.append('\n');
            linestartpos = result.length();
          }
          break;

        case Token.COMMA:
          // No need to output a comma if the next character is a
          // right-curly or a right-square bracket
          if (offset < length
              && getToken(0).getType() != Token.RC
              && getToken(0).getType() != Token.RB) {
            result.append(',');
          }
          break;

        case Token.CONDCOMMENT:
        case Token.KEEPCOMMENT:
          if (result.length() > 0 && result.charAt(result.length() - 1) != '\n') {
            result.append("\n");
          }
          result.append("/*");
          if (token.getType() == Token.KEEPCOMMENT) {
            result.append("!");
          }
          result.append(symbol);
          result.append("*/\n");
          break;

          // begin--这个分支用于实现压扁控制流
          // 此分支将if(expression){...}else if(expression){...}else{...}转化为
          // switch(expression){case true:原if块;break;case false:原else块;break;}
        case Token.IF:
          if (!EditOptionPanel.checkBoxFlatten.isSelected()) {
            result.append(symbol);
            break;
          }
          FlattenIF flattenIF = new FlattenIF(offset, length, tokens, currentScope);
          String switchBlock = flattenIF.flattenIF();
          result.append(switchBlock);
          offset = flattenIF.offset;
          break;
        case Token.WHILE:
          if (!EditOptionPanel.checkBoxOpacity.isSelected()) {
            result.append(symbol);
            break;
          }
          result.append(symbol);
          OpacityPredicate opacityPredicateWhile =
              new OpacityPredicate(offset, tokens, currentScope);
          String whileBlock = opacityPredicateWhile.opacityPredicateWhile();
          result.append(whileBlock);
          offset = opacityPredicateWhile.offset;
          break;
        case Token.DO:
          if (!EditOptionPanel.checkBoxOpacity.isSelected()) {
            result.append(symbol);
            break;
          }
          result.append(symbol);
          OpacityPredicate opacityPredicateDoWhile =
              new OpacityPredicate(offset, tokens, currentScope);
          String doWhileBlock = opacityPredicateDoWhile.opacityPredicateDoWhile();
          result.append(doWhileBlock);
          offset = opacityPredicateDoWhile.offset;
          break;
          // end
        default:
          String literal = literals.get(new Integer(token.getType()));
          if (literal != null) {
            result.append(literal);
          } else {
            warn("此标志符不能被打印出来:" + symbol, true);
          }
          break;
      }
    }

    // Append a semi-colon at the end, even if unnecessary semi-colons are
    // supposed to be removed. This is especially useful when concatenating
    // several minified files (the absence of an ending semi-colon at the
    // end of one file may very likely cause a syntax error)
    /*if (!preserveAllSemiColons && result.length() > 0
    		&& getToken(-1).getType() != Token.CONDCOMMENT
    		&& getToken(-1).getType() != Token.KEEPCOMMENT) {
    	if (result.charAt(result.length() - 1) == '\n') {
    		result.setCharAt(result.length() - 1, ';');
    	} else {
    		result.append(';');
    	}
    }*/
    // 暂时用不上,注释掉

    return result;
  }