--- id: sets-lists-touples title: Sets, Lists, Tuples --- Apart from complex data types such as `maps` and `records`, ligo also exposes `sets`, `lists` and `tuples`. > ⚠️ Make sure to pick the appropriate data type for your use case; it carries not only semantic but also gas related costs. ## Sets Sets are similar to lists. The main difference is that elements of a `set` must be *unique*. ### Defining a set ```pascaligo type int_set is set(int); const my_set: int_set = set 1; 2; 3; end ``` ```cameligo type int_set = int set let my_set: int_set = Set.add 3 (Set.add 2 (Set.add 1 (Set.empty: int set))) ``` ### Empty sets ```pascaligo const my_set: int_set = set end; const my_set_2: int_set = set_empty; ``` ```cameligo let my_set: int_set = (Set.empty: int set) ``` ### Checking if set contains an element ```pascaligo const contains_three: bool = my_set contains 3; // or alternatively const contains_three_fn: bool = set_mem(3, my_set); ``` ```cameligo let contains_three: bool = Set.mem 3 my_set ``` ### Obtaining the size of a set ```pascaligo const set_size: nat = size(my_set); ``` ```cameligo let set_size: nat = Set.size my_set ``` ### Modifying a set ```pascaligo const larger_set: int_set = set_add(4, my_set); const smaller_set: int_set = set_remove(3, my_set); ``` ```cameligo let larger_set: int_set = Set.add 4 my_set let smaller_set: int_set = Set.remove 3 my_set ``` ### Folding a set ```pascaligo function sum(const result: int; const i: int): int is result + i; // Outputs 6 const sum_of_a_set: int = set_fold(sum, my_set, 0); ``` ```cameligo let sum (result: int) (i: int) : int = result + i let sum_of_a_set: int = Set.fold sum my_set 0 ``` ## Lists Lists are similar to sets, but their elements don't need to be unique and they don't offer the same range of built-in functions. > 💡 Lists are useful when returning operations from a smart contract's entrypoint. ### Defining a list ```pascaligo type int_list is list(int); const my_list: int_list = list 1; 2; 3; end ``` ```cameligo type int_list = int list let my_list: int_list = [1; 2; 3] ``` ### Appending an element to a list ```pascaligo const larger_list: int_list = cons(4, my_list); const even_larger_list: int_list = 5 # larger_list; ``` ```cameligo let larger_list: int_list = 4 :: my_list (* CameLIGO doesn't have a List.cons *) ```
> 💡 Lists can be iterated, folded or mapped to different values. You can find additional examples [here](https://gitlab.com/ligolang/ligo/tree/dev/src/test/contracts) and other built-in operators [here](https://gitlab.com/ligolang/ligo/blob/dev/src/passes/operators/operators.ml#L59) ### Mapping of a list ```pascaligo function increment(const i: int): int is block { skip } with i + 1; // Creates a new list with elements incremented by 1 const incremented_list: int_list = list_map(increment, even_larger_list); ``` ```cameligo let increment (i: int) : int = i + 1 (* Creates a new list with elements incremented by 1 *) let incremented_list: int_list = List.map increment larger_list ``` ### Folding of a list: ```pascaligo function sum(const result: int; const i: int): int is block { skip } with result + i; // Outputs 6 const sum_of_a_list: int = list_fold(sum, my_list, 0); ``` ```cameligo let sum (result: int) (i: int) : int = result + i // Outputs 6 let sum_of_a_list: int = List.fold sum my_list 0 ``` ## Tuples Tuples are useful for data that belong together but don't have an index or a specific name. ### Defining a tuple ```pascaligo type full_name is string * string; const full_name: full_name = ("Alice", "Johnson"); ``` ```cameligo type full_name = string * string (* The parenthesis here are optional *) let full_name: full_name = ("Alice", "Johnson") ``` ### Accessing an element in a tuple ```pascaligo const first_name: string = full_name.1; ``` ```cameligo let first_name: string = full_name.1 ```