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