The set type models the mathematical notion of a set. The set's basetype can only be an ordinal type of a certain size, namely: * ``int8``-``int16`` * ``uint8``/``byte``-``uint16`` * ``char`` * ``enum`` or equivalent. For signed integers the set's base type is defined to be in the range ``0 .. MaxSetElements-1`` where ``MaxSetElements`` is currently always 2^16. The reason is that sets are implemented as high performance bit vectors. Attempting to declare a set with a larger type will result in an error: .. code-block:: nim var s: set[int64] # Error: set is too large Sets can be constructed via the set constructor: ``{}`` is the empty set. The empty set is type compatible with any concrete set type. The constructor can also be used to include elements (and ranges of elements): .. code-block:: nim type CharSet = set[char] var x: CharSet x = {'a'..'z', '0'..'9'} # This constructs a set that contains the # letters from 'a' to 'z' and the digits # from '0' to '9' These operations are supported by sets: ================== ======================================================== operation meaning ================== ======================================================== ``A + B`` union of two sets ``A * B`` intersection of two sets ``A - B`` difference of two sets (A without B's elements) ``A == B`` set equality ``A <= B`` subset relation (A is subset of B or equal to B) ``A < B`` strict subset relation (A is a proper subset of B) ``e in A`` set membership (A contains element e) ``e notin A`` A does not contain element e ``contains(A, e)`` A contains element e ``card(A)`` the cardinality of A (number of elements in A) ``incl(A, elem)`` same as ``A = A + {elem}`` ``excl(A, elem)`` same as ``A = A - {elem}`` ================== ======================================================== Bit fields ~~~~~~~~~~ Sets are often used to define a type for the *flags* of a procedure. This is a cleaner (and type safe) solution than defining integer constants that have to be ``or``'ed together. Enum, sets and casting can be used together as in: .. code-block:: nim type MyFlag* {.size: sizeof(cint).} = enum A B C D MyFlags = set[MyFlag] proc toNum(f: MyFlags): int = cast[cint](f) proc toFlags(v: int): MyFlags = cast[MyFlags](v) assert toNum({}) == 0 assert toNum({A}) == 1 assert toNum({D}) == 8 assert toNum({A, C}) == 5 assert toFlags(0) == {} assert toFlags(7) == {A, B, C} Note how the set turns enum values into powers of 2. If using enums and sets with C, use distinct cint. For interoperability with C see also the `bitsize pragma `_.