def __repr__(self): p = "{0!r}, {1!r}".format(self.amount, self.max_value) if self.min_value != -self.max_value: p += ", {0!r}".format(self.min_value) return "{}({})".format(classname(self), p)
def __repr__(self): p = '{0!r}, {1!r}'.format(self.amount, self.max_value) if self.min_value != -self.max_value: p += ', {0!r}'.format(self.min_value) return "{}({})".format(classname(self), p)
def __repr__(self): return "{0}({1}, sides={2})".format( classname(self), str(self), self.sides)
def __repr__(self): return "{0}({1})".format( classname(self), ', '.join(map(str, self.orginal_operands)))
def __repr__(self): return "{0}({1}, random_element={2!r})".format( classname(self), str(self), self.random_element)
def __repr__(self): return "{0}({1})".format( classname(self), ", ".join(map(str, self.original_operands)) )
def __repr__(self): return "{0}({1}, random_element={2!r})".format( classname(self), str(self), self.random_element )
def __repr__(self): p = '{0!r}, {1!r}'.format(self.amount, self.max_value) if self.min_value != 1: p += ', {0!r}'.format(self.min_value) return "{}({})".format(classname(self), p)
def __repr__(self): return "{0}({1}, sides={2})".format(classname(self), str(self), self.sides)