Exemplo n.º 1
0
TPParseTreeNode CFormulaParser::ParseOpenPPLRaiseByExpression() { 
	// There are 3 possibilities
	//   RAISE <Amount> FORCE
	//   RAISE <PercentagedPot>% FORCE
	//
	// Keyword RAISE got already consumed
	TPParseTreeNode action = new CParseTreeNode(_tokenizer.LineRelative());
	TPParseTreeNode expression;
	int _token_ID = _tokenizer.LookAhead();
	if ((_token_ID == kTokenNumber)
		  || (_token_ID == kTokenIdentifier)
		  || TokenIsBracketOpen(_token_ID)){
		expression = ParseExpression();
	} else {
    CParseErrors::Error("Missing expression after keyword RaiseBy.\n"
      "Expecting the betsize in big blinds or a potsize-expression.\n"
      "Example: WHEN ... RAISEBY 60% FORCE\n");
    return NULL;
  }
	_token_ID = _tokenizer.LookAhead();
	if (_token_ID == kTokenOperatorPercentage) {
		// Percentaged Potsize
		_tokenizer.GetToken();
		action->MakeRaiseByPercentagedPotsizeAction(expression);
		return action;
	}	else {
		// Raise by N big blinds
		action->MakeRaiseByAction(expression);
		return action;
	}
}
Exemplo n.º 2
0
TPParseTreeNode CFormulaParser::ParseExpression() {
  int token_ID = _tokenizer.LookAhead();
  TPParseTreeNode expression;
  // Handle brackets before unary, because brackets are also "unary"
  if (TokenIsBracketOpen(token_ID))	{
		expression = ParseBracketExpression();
	}	else if (TokenIsUnary(token_ID))	{
		expression = ParseUnaryExpression();
	}	else if ((token_ID == kTokenIdentifier)
		  || (token_ID == kTokenNumber)) {
		expression = ParseSimpleExpression();
	}	else {
		CParseErrors::Error("Unexpected token inside expression.\n" 
      "Expecting: opening bracket, unary operator, identifier or number.\n");
		return NULL;
	}
	token_ID = _tokenizer.LookAhead();
	if (TokenIsBinary(token_ID)) {
		_tokenizer.GetToken();
    // Special handling of percentaged potsized bets,
    // that look like modulo or percentage operators,
    // but lack a 2nd operand and have "Force" instead.
    // When ... RaiseBy 60% Force
    if (token_ID == kTokenOperatorPercentage) {
      int next_token_ID = _tokenizer.LookAhead();
      if (next_token_ID == kTokenKeywordForce) {
        // Now we should pushback the *2nd last* token  (percentage)
        _tokenizer.PushBackAdditionalPercentageOperator();
        // and return the expression we got so far
        return expression;
      }
    }
		TPParseTreeNode second_expression = ParseExpression();
		TPParseTreeNode binary_node = new CParseTreeNode(_tokenizer.LineRelative());
		binary_node->MakeBinaryOperator(token_ID, 
			expression, second_expression);
		write_log(preferences.debug_parser(), 
			"[FormulaParser] Binary node %i\n", binary_node);
		return binary_node;
	} else if (token_ID == kTokenOperatorConditionalIf) {
		// Ternary condition
		TPParseTreeNode then_expression;
		TPParseTreeNode else_expression;
		ParseConditionalPartialThenElseExpressions(
			&then_expression, &else_expression);
		TPParseTreeNode ternary_node = new CParseTreeNode(_tokenizer.LineRelative());
		ternary_node->MakeTernaryOperator(token_ID,
			expression, then_expression, else_expression);
		write_log(preferences.debug_parser(), 
			"[FormulaParser] Ternary node %i\n", ternary_node);
		return ternary_node;
	}	else {
		// We got the complete expression
		// No complex binary or ternary condition
		write_log(preferences.debug_parser(), 
			"[FormulaParser] Expression %i\n", expression);
		return expression;
	}
}
Exemplo n.º 3
0
TPParseTreeNode CFormulaParser::ParseBracketExpression() {
  // Bracket expressions, three different types () [] {}
	int opening_bracket = _tokenizer.GetToken();
	assert(TokenIsBracketOpen(opening_bracket));
	TPParseTreeNode expression = ParseExpression();
	ExpectMatchingBracketClose(opening_bracket);
	TPParseTreeNode bracket_node = new CParseTreeNode(_tokenizer.LineRelative());
	// Brackets get an unary node in the tree
	// This will lead to a simple way to handle precedence of operators.
	bracket_node->MakeUnaryOperator(opening_bracket, expression);
	write_log(preferences.debug_parser(), 
		"[FormulaParser] Bracket node %i\n", bracket_node);
	return bracket_node;
}
Exemplo n.º 4
0
void CFormulaParser::ExpectMatchingBracketClose(int opening_bracket){
	assert(TokenIsBracketOpen(opening_bracket));
	int expected_bracket_close = _tokenizer.GetToken();
	switch (opening_bracket) {
	case kTokenBracketOpen_1:
		if (expected_bracket_close == kTokenBracketClose_1) return;
	case kTokenBracketOpen_2:
		if (expected_bracket_close == kTokenBracketClose_2) return;
	case kTokenBracketOpen_3:
		if (expected_bracket_close == kTokenBracketClose_3) return;
	}
	CParseErrors::Error("Expecting a closing bracket\n" 
    "(or bracket of another type).\n"); 
}
Exemplo n.º 5
0
bool CParseTreeOperatorNode::EvaluatesToBinaryNumber() {
  if (TokenEvaluatesToBinaryNumber(_node_type)) {
    // Operation that evaluates to binary number,
    // e.g. bit-shift, logical and, etc.
    return true;
  } else if (TokenIsBracketOpen(_node_type)) {
    // Have a look at the sub-extreesopn
    TPParseTreeNode sub_expression = _first_sibbling;
    // There has to be an expresison inside the brackets
    assert (_first_sibbling != NULL);
    return _first_sibbling->EvaluatesToBinaryNumber();
  }
  // Nothing binary
  return false;
}
Exemplo n.º 6
0
TPParseTreeNode CFormulaParser::ParseOpenPPLRaiseToExpression() { 
  // RaiseTo N Force
	// Keyword RaiseTo got already consumed
	TPParseTreeNode action = new CParseTreeNode(_tokenizer.LineRelative());
	TPParseTreeNode expression;
	int _token_ID = _tokenizer.LookAhead();
	if ((_token_ID == kTokenNumber)
		  || (_token_ID == kTokenIdentifier)
		  || TokenIsBracketOpen(_token_ID)) {
		expression = ParseExpression();
	} else {
    CParseErrors::Error("Missing expression after keyword RaiseTo.\n"
      "Expecting the betsize in big blinds.\n");
    return NULL;
  }
	action->MakeRaiseToAction(expression);
	return action;
}
Exemplo n.º 7
0
void CFormulaParser::ErrorMissingAction(int token_ID) {
  CString error_message = "Missing action after when-condition\n";
  if (token_ID == kTokenNumber) {
    error_message += "Found a number. Probably missing operator\n";
  } else if (token_ID == TokenIsBracketOpen(token_ID)) {
    error_message += "Found a bracket. Probably missing operator\n";
  } else if (token_ID == kTokenIdentifier) {
    CString name = _tokenizer.GetTokenString();
    name.MakeLower();
    if (name.Left(4) == "user") {
      error_message += "Found a user-variable.\n";
      error_message += "Correct syntax: When <condition> Set user_xyz\n";
    } else {
      error_message += "\nFound an identifier. Probably missing operator\n";
    }
  }
  CParseErrors::Error(error_message);
}
Exemplo n.º 8
0
CString CParseTreeNode::Serialize()
{
  if (_node_type == kTokenIdentifier) {
    return _terminal_name;
  } else if (_node_type == kTokenNumber) {
    return Number2CString(_constant_value);
  } else if (TokenIsBracketOpen(_node_type)) {
    return ("(" + _first_sibbling->Serialize() + ")");
  } else if (TokenIsUnary(_node_type)) {
    assert(_first_sibbling != NULL);
    return TokenString(_node_type) + "(" + _first_sibbling->Serialize() + ")";
  } else if (TokenIsBinary(_node_type)) {
    assert(_first_sibbling != NULL);
    assert(_second_sibbling != NULL);
    return "(" + _first_sibbling->Serialize() + " "
      + TokenString(_node_type) + " " + _second_sibbling->Serialize() + ")";
  } else if (_node_type == kTokenOperatorConditionalIf) {
    assert(_first_sibbling != NULL);
    assert(_second_sibbling != NULL);
    assert(_third_sibbling != NULL);  
    return "(" + _first_sibbling->Serialize() + " ? "
      + _second_sibbling->Serialize() + " : "
      + _third_sibbling->Serialize() + ")";
  } else if (IsOpenEndedWhenCondition()) {
    return "WHEN: " + _first_sibbling->Serialize() + "\n"
      + (_second_sibbling? _second_sibbling->Serialize(): "")
      // No third sibbling to serialize, because this is the next open-ender
      // and TWO pointers point to it (one from a normal "when")
      + "WEND";
  } else if (IsWhenConditionWithAction()) {
    return "    WHEN: " + _first_sibbling->Serialize() + "WRETURN: "
      + (_second_sibbling? _second_sibbling->Serialize(): "") + "\n"
      // Third sibbling: either next when-condition or next open-ended when-condition
      + (_third_sibbling? _third_sibbling->Serialize(): "");
  } else {
    // Unhandled note-type, probably new and therefore not yet handled
    write_log(k_always_log_errors, "[CParseTreeNode] ERROR: Unhandled node-tzpe %i in serialiyation of parse-tree\n",
      _node_type);
    return "";
  }
}