7.3 KiB
id | title |
---|---|
maps-records | Maps, Records |
So far we've seen pretty basic data types. LIGO also offers more complex built-in constructs, such as Maps and Records.
Maps
Maps are natively available in Michelson, and LIGO builds on top of them. A requirement for a Map is that its keys be of the same type, and that type must be comparable.
Here's how a custom map type is defined:
type ledger is map(address, tez);
type ledger = (address, tez) map
type ledger = map(address, tez);
And here's how a map value is populated:
const ledger: ledger = map
("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address) -> 1000mutez;
("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN": address) -> 2000mutez;
end
Notice the
->
between the key and its value and;
to separate individual map entries.
("<string value>": address)
means that we type-cast a string into an address.
let ledger: ledger = Map.literal
[ (("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address), 1000mutez) ;
(("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN": address), 2000mutez) ;
]
Map.literal constructs the map from a list of key-value pair tuples,
(<key>, <value>)
. Note also the;
to separate individual map entries.
("<string value>": address)
means that we type-cast a string into an address.
let ledger: ledger =
Map.literal([
("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address, 1000(mutez)),
("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN": address, 2000(mutez)),
]);
> Map.literal constructs the map from a list of key-value pair tuples, `(<key>, <value>)`.
>
> `("<string value>": address)` means that we type-cast a string into an address.
Accessing map values by key
If we want to access a balance from our ledger above, we can use the []
operator/accessor to read the associated tez
value. However, the value we'll get will be wrapped as an optional; in our case option(tez)
. Here's an example:
const balance: option(tez) = ledger[("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN": address)];
let balance: tez option = Map.find_opt ("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN": address) ledger
let balance: option(tez) =
Map.find_opt("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN": address, ledger);
Obtaining a map value forcefully
Accessing a value in a map yields an option, however you can also get the value directly:
const balance: tez = get_force(("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN": address), ledger);
let balance: tez = Map.find ("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN": address) ledger
let balance: tez =
Map.find("tz1gjaF81ZRRvdzjobyfVNsAeSC6PScjfQwN": address, ledger);
Iteration over the contents of a map
There are three kinds of iteration on LIGO maps, iter
, map
and fold
. iter
is an iteration over the map with no return value, its only use is to
generate side effects. This can be useful if for example you would like to check
that each value inside of a map is within a certain range, with an error thrown
otherwise.
function iter_op (const m : ledger) : unit is
block {
function aggregate (const i : address ; const j : tez) : unit is block
{ if (j > 100) then skip else failwith("fail") } with unit ;
} with map_iter(aggregate, m) ;
let iter_op (m : ledger) : unit =
let assert_eq = fun (i: address) (j: tez) -> assert (j > 100)
in Map.iter assert_eq m
let iter_op = (m: ledger): unit => {
let assert_eq = (i: address, j: tez) => assert(j > 100);
Map.iter(assert_eq, m);
};
map
is a way to create a new map by modifying the contents of an existing one.
function map_op (const m : ledger) : ledger is
block {
function increment (const i : address ; const j : tez) : tez is block { skip } with j + 1 ;
} with map_map(increment, m) ;
let map_op (m : ledger) : ledger =
let increment = fun (_: address) (j: tez) -> j+1
in Map.map increment m
let map_op = (m: ledger): ledger => {
let increment = (ignore: address, j: tez) => j + 1;
Map.map(increment, m);
};
fold
is an aggregation function that return the combination of a maps contents.
The fold is a loop which extracts an element of the map on each iteration. It then provides this element and an existing value to a folding function which combines them. On the first iteration, the existing value is an initial expression given by the programmer. On each subsequent iteration it is the result of the previous iteration. It eventually returns the result of combining all the elements.
function fold_op (const m : ledger) : tez is
block {
function aggregate (const i : address ; const j : (tez * tez)) : tez is block { skip } with j.0 + j.1 ;
} with map_fold(aggregate, m , 10)
let fold_op (m : ledger) : ledger =
let aggregate = fun (ignore: address) (j: tez * tez) -> j.0 + j.1
in Map.fold aggregate m 10
let fold_op = (m: ledger): ledger => {
let aggregate = (ignore: address, j: (tez, tez)) => j[0] + j[1];
Map.fold(aggregate, m, 10);
};
Records
Records are a construct introduced in LIGO, and are not natively available in Michelson. The LIGO compiler translates records into Michelson Pairs
.
Here's how a custom record type is defined:
type user is record
id: nat;
is_admin: bool;
name: string;
end
type user = {
id: nat;
is_admin: bool;
name: string;
}
type user = {
id: nat,
is_admin: bool,
name: string
};
And here's how a record value is populated:
const user: user = record
id = 1n;
is_admin = True;
name = "Alice";
end
let user: user = {
id = 1n;
is_admin = true;
name = "Alice";
}
let user: user = {
id: 1n,
is_admin: true,
name: "Alice"
};
Accessing record keys by name
If we want to obtain a value from a record for a given key, we can do the following:
const is_admin: bool = user.is_admin;
let is_admin: bool = user.is_admin
let is_admin: bool = user.is_admin;