I ‗occasionally‗, despite their inadequacies, find C#
Of these times, there have been reasons for dabbling in large
Tuples over more initially obvious approaches such as creating a specific class or struct or a general, for example tree like class.
They include being able to define
Tuples in more places/scopes. Usually in more local and/or temporary scopes such as inside functions right where needed and invisible elsewhere, or as return types, even in array definitions.
Tuples are also in some respects less bulky than normal classes and those with (instantiated?) nested classes. Sometimes, although often a weakness, even the data structure like feel of a
Tuples members being automatically named
Item2 etc... can be preferable.
Or more an issue of elegance, see 'motivation' above.
See this pseudo C# code:
var t = new Tuple< Tuple<float, float>, Tuple< Tuple<box, box, UInt16>, Tuple<float, float, float, float>>> ((1.5, 1.5), ( (new box(2, 2), new box(3, 2), 4), (1.5, 1.8, 1.6, 1.8)));
But as shown in the actual code below, the type name repetition required increases super-linearly to the number of nodes/members.
var t = new Tuple< Tuple<float, float>, Tuple< Tuple<Box, Box, UInt16>, Tuple<float, float, float, float>>> (new Tuple<float, float>(1.5, 1.5), new Tuple<Tuple<box, box, UInt16>, Tuple<float, float, float, float>>( new Tuple<box, box, UInt16>(new box(2, 2), new box(3, 2), 4), new Tuple<float, float, float, float>(1.5, 1.8, 1.6, 1.8)));
nodes: 14 that are leaves: 8 types stated in first example: 14 types stated in the C-Sharp code: 38 If all leaves were classes, like `box`: 45 In a 31 node, 16 leaf, binary tree: 113
It'll get worse still with more size, so far being 3.6x, imagine this line of code:
byte byte byte byt count = 4;
Is there a way to avoid this repetition of the specification of types?