class Search:
	class IsNodeBuilder(object):
		def __init__(self, name):
			self.name = name

		def __eq__(self, value):
			return self.is_equal(value)

		def is_equal(self, value):
			return Search.Node(self.name, {"is": value})

	class EqualityNodeBuilder(IsNodeBuilder):
		def __ne__(self, value):
			return self.is_not_equal(value)

		def is_not_equal(self, value):
			return Search.Node(self.name, {"is_not": value})

	class KeyValueNodeBuilder(object):
		def __init__(self, name):
			self.name = name

		def __eq__(self, value):
			return self.is_equal(value)

		def is_equal(self, value):
			return Search.Node(self.name, value)

		def __ne__(self, value):
			return self.is_not_equal(value)

		def is_not_equal(self, value):
			return Search.Node(self.name, not value)

	class PartialMatchNodeBuilder(EqualityNodeBuilder):
		def starts_with(self, value):
			return Search.Node(self.name, {"starts_with": value})

		def ends_with(self, value):
			return Search.Node(self.name, {"ends_with": value})

	class TextNodeBuilder(PartialMatchNodeBuilder):
		def contains(self, value):
			return Search.Node(self.name, {"contains": value})

	class Node(object):
		def __init__(self, name, dict):
			self.name = name
			self.dict = dict

		def to_param(self):
			return self.dict

	class MultipleValueNodeBuilder(object):
		def __init__(self, name, whitelist = []):
			self.name = name
			self.whitelist = whitelist

		def in_list(self, *values):
			if isinstance(values[0], list):
				values = values[0]

			invalid_args = set(values) - set(self.whitelist)
			if len(self.whitelist) > 0 and len(invalid_args) > 0:
				error_string = "Invalid argument(s) for %s: %s" % (self.name, ", ".join(invalid_args))
				raise AttributeError(error_string)
			return Search.Node(self.name, list(values))

		def __eq__(self, value):
			return self.in_list([value])

	class MultipleValueOrTextNodeBuilder(TextNodeBuilder, MultipleValueNodeBuilder):
		def __init__(self, name, whitelist = []):
			Search.MultipleValueNodeBuilder.__init__(self, name, whitelist)

	class RangeNodeBuilder(object):
		def __init__(self, name):
			self.name = name

		def __eq__(self, value):
			return self.is_equal(value)

		def is_equal(self, value):
			return Search.EqualityNodeBuilder(self.name) == value

		def __ge__(self, min):
			return self.greater_than_or_equal_to(min)

		def greater_than_or_equal_to(self, min):
			return Search.Node(self.name, {"min": min})

		def __le__(self, max):
			return self.less_than_or_equal_to(max)

		def less_than_or_equal_to(self, max):
			return Search.Node(self.name, {"max": max})

		def between(self, min, max):
			return Search.Node(self.name, {"min": min, "max": max})