Exemplo n.º 1
0
void doCompare(ListIterator &i, ExprNode *&test)
{
  ExprNode *trueCase, *falseCase, *right;
  string comp;

  doSum(i, test);
  if(!i.ended())
    {
      if(i.token().tokenChar() == ")")
	i.advance();
    }
  if(!i.ended() && i.token().isOperator())
    {
      comp = i.token().tokenChar(); 
      i.advance();
      doSum(i, right);
      test = new Operation(test, comp, right);
    }
  if(!i.ended() && (i.token().tokenChar() == "?" || i.token().isOperator()))
    {
      i.advance();
      doSum(i, trueCase);
    }
  if(!i.ended() && (i.token().isOperator() || i.token().tokenChar() == ":"))
    {
      i.advance();
      doSum(i, falseCase);
      test = new Conditional(test, trueCase, falseCase);
    }

}
Exemplo n.º 2
0
void doCall(ListIterator &i, ExprNode *&node)
{
  string name;
  ExprNode *parameters[10];
  int p = 0;

  if(!i.ended())
    name = i.token().tokenChar();
  i.advance();
    if(!i.ended())
    doCompare(i, node);
  parameters[p] = node;
  p++;
  if(!i.ended()){
    while(!i.ended() && i.token().tokenChar() != ")")
      {
	if(!i.ended())
	  doCompare(i, node);
	parameters[p] = node;
	p++;
      }
  }

  for(; p < 10; p++)
    parameters[p] = NULL;
  node = new Function(name, parameters);
}
Exemplo n.º 3
0
void doSum(ListIterator &i, TokenList *pf)
{
  char oper;       // For holding the operator


  doProduct(i, pf); // Sum = product + product


  if(!i.ended())
    oper = i.token().tokenChar(); // Grab an operator, only if current != NULL
    
  while(((oper == '+') || (oper == '-')) && !i.ended() ) 
    {
      i.advance(); // Move to next token, an int or a '('
      doProduct(i, pf); 
    
      Token t(oper);
      pf->push_back(t); // Add the operator the the expression
      
      if(!i.ended())
	oper = i.token().tokenChar(); // Grab the next operator
	
    }

}
Exemplo n.º 4
0
void doAssign(ListIterator &i, ExprNode *&node)
{
  ExprNode *left, *right;
  string eq;
  ListIterator temp = i;

  node = new Variable(i.token().tokenChar());
  if(!i.ended())
    i.advance();
  if(!i.ended())
    eq = i.token().tokenChar();
    
  if(eq == "=" && !i.ended())
    {
      while(eq == "=" && !i.ended())
	{
	  if(!i.ended())
	    i.advance();
	  if(!i.ended())
	    doSum(i, right);
	  node = new Operation(node, eq, right);
	  if(!i.ended())
	    eq = i.token().tokenChar();
	  else
	    eq = "Done";
	}
    }
  else if(!i.ended() && (i.token().tokenChar() != "("))
    i = temp;
  else if(!i.ended() && (i.token().tokenChar() == "("))
    {
      i = temp;
      doCall(i, node);
    }
}
Exemplo n.º 5
0
void doDefine(ListIterator &i, FunctionDef &fmap)
{
  string n;
  string parameters[10];
  ExprNode *body;
  int p = 0;

  i.advance(); // i is now on the function name

  if(!i.ended())
    n = i.token().tokenChar(); 


  i.advance(); // i is now on open paren of parameters
  i.advance(); // i is now on the first parameter
  if(!i.ended())
    parameters[p] = i.token().tokenChar();
  p++;
  i.advance(); // i is now on comma separating parameters or close paren
  while(i.token().tokenChar() == "," && !i.ended())
    {
      i.advance(); // i is now on next parameter
      if(!i.ended())
	parameters[p] = i.token().tokenChar();
      p++;
      i.advance(); // i is on new comma or close paren
    }
  i.advance(); // i is now on "="
  i.advance();
  
  if(!i.ended())
    doCompare(i, body);

  fmap[n].name = n;
  for(int i = 0; i < p; i++)
    {
      fmap[n].parameter[i] = parameters[i];
    }
  fmap[n].functionBody = body;
  fmap[n].locals = new VarTree();

  cout << *fmap[n].functionBody << endl;
  
}
Exemplo n.º 6
0
void doProduct(ListIterator & i, ExprNode *&node)
{
  ExprNode *left, *right;
  string oper;

  doFactor(i, node);

  if(!i.ended())
    oper = i.token().tokenChar(); 
  while(oper == "*" || oper == "/" || oper == "%")
    {
      i.advance();
      doFactor(i, right);
      node = new Operation(node, oper, right);
      if(!i.ended())
	oper = i.token().tokenChar();
      else
	oper = "Done";
    }
}
Exemplo n.º 7
0
void doProduct(ListIterator &i, TokenList *pf) // Works exactly the same way as doSum(), except
{                           // here, left and right are factors
  int left, right;
  char oper;

  
  doFactor(i, pf); // product = factor * factor

  if(!i.ended())
    oper = i.token().tokenChar();
  while(((oper == '*') || (oper == '/') || (oper =='%')) && !i.ended())
    {
      i.advance();
      doFactor(i, pf);

      Token t(oper);
      pf->push_back(t);

      if(!i.ended())
	oper = i.token().tokenChar();
	
    }

}
Exemplo n.º 8
0
void doFactor(ListIterator &i, TokenList *pf) // Grabs a factor; evaluates if needed; return
{
  int left;
  // factor = int || factor = (int + int)

  if(i.token().tokenChar() == '(')
    {
      i.advance();     
      doSum(i, pf); 
    }
  else
    {
      left = i.token().integerValue(); // grab the factor
      Token t(left);
      pf->push_back(t);    // add it to the list
    }
  if(!i.ended())
    i.advance();

}
Exemplo n.º 9
0
void doFactor(ListIterator &i, ExprNode *&node)
{
  ExprNode *left;

  if(i.token().tokenChar() == "(")
    {
      i.advance();
      doSum(i, node);
    }

  else
    {
      if(i.token().isInteger())
	{
	  node = new Value(i.token().integerValue());
	}
      else if(!i.token().isOperator())
	doAssign(i, node);
      else
	doCompare(i, node);
    }
  if(!i.ended())
    i.advance();
}
Exemplo n.º 10
0
int evaluate(const char str[])
{
  TokenList l(str); // Declare and construct our linked list
  TokenList *pf = new TokenList;    // List for postfix expression
  static int ans = 0;   // For handling previous answers
  
  ListIterator i = l.begin();

  if((!i.token().isInteger()) && (i.token().tokenChar() != '(')) 
    { // Complicated condition: evaluates as true if l.head is an operator
      // but not a parenthesis. 
      // In this case, we want to push the previous answer to the front
      Token newHead(ans);
      l.push_front(newHead);
      i = l.begin();
    }

  
  doSum(i, pf);          // Here begins the Conversion

  cout << l << endl;
  cout << *pf << endl;

  TokenList *stack = new TokenList; // Stack for holding operators
  ListIterator eval = pf->begin();  // Iterator to parse postfix expression
  Token left, right;                // Containers

  while(!eval.ended())
    {
      if(eval.token().isInteger()) // While there are integers, push them onto the stack
	stack->push_front(eval.token());
      else
	{
	  right = stack->pop(); // grab the operands in order
	  left = stack->pop();
	  switch(eval.token().tokenChar()) // Evaluate each piece of postfix
	    {
	    case '+':
	      left = (left.integerValue() + right.integerValue());
	      break;
	    case '-':
	      left = (left.integerValue() - right.integerValue());
	      break;
	    case '*':
	      left = (left.integerValue() * right.integerValue());
	      break;
	    case '/':
	      left = (left.integerValue() / right.integerValue());
	      break;
	    case '%':
	      left = (left.integerValue() % right.integerValue());
	      break;
	    }
	  stack->push_front(left);
	}
      eval.advance();
      
    }
  
  ans = left.integerValue();

  return ans;
}