124 lines
3.2 KiB
Markdown
124 lines
3.2 KiB
Markdown
---
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id: functions
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title: Functions
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---
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Writing code is fun as long as it doesn't get out of hand. To make sure our code doesn't turn into spaghetti we can group some logic into functions.
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## Instruction blocks
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With `block`(s) you can wrap *instructions* and *expressions* into an isolated scope.
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Each `block` needs to include at least one `instruction`, or a *placeholder* instruction called `skip`.
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<!--DOCUSAURUS_CODE_TABS-->
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<!--Pascaligo-->
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```pascaligo
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// shorthand syntax
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block { skip }
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// verbose syntax
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begin
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skip
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end
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```
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<!--END_DOCUSAURUS_CODE_TABS-->
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## Defining a function
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<!--DOCUSAURUS_CODE_TABS-->
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<!--Pascaligo-->
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Functions in PascaLIGO are defined using the `function` keyword followed by their `name`, `parameters` and `return` type definitions.
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Here's how you define a basic function that accepts two `ints` and returns a single `int`:
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```pascaligo
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function add(const a: int; const b: int): int is
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begin
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const result: int = a + b;
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end with result;
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```
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The function body consists of two parts:
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- `block {<code>}` - logic of the function
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- `with <value>` - the return value of the function
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#### Blockless functions
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Functions that can contain all of their logic into a single instruction/expression, can be defined without the surrounding `block`.
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Instead, you can inline the necessary logic directly, like this:
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```pascaligo
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function add(const a: int; const b: int): int is a + b
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```
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<!--Cameligo-->
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Functions in CameLIGO are defined using the `let` keyword, like value bindings.
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The difference is that after the value name a list of function parameters is provided,
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along with a return type.
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Here's how you define a basic function that accepts two `ints` and returns an `int` as well:
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```cameligo
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let add (a: int) (b: int) : int = a + b
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```
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The function body is a series of expressions, which are evaluated to give the return
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value.
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<!--ReasonLIGO-->
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Functions in ReasonLIGO are defined using the `let` keyword, like value bindings.
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The difference is that after the value name a list of function parameters is provided,
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along with a return type.
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Here's how you define a basic function that accepts two `ints` and returns an `int` as well:
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```reasonligo
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let add (a: int, b: int) : int = a + b;
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```
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The function body is a series of expressions, which are evaluated to give the return
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value.
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<!--END_DOCUSAURUS_CODE_TABS-->
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<!--DOCUSAURUS_CODE_TABS-->
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<!--Pascaligo-->
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```pascaligo
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const increment : (int -> int) = (function (const i : int) : int is i + 1);
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// a = 2
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const a: int = increment(1);
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```
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<!--END_DOCUSAURUS_CODE_TABS-->
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## Anonymous functions
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Functions without a name, also known as anonymous functions are useful in cases when you want to pass the function as an argument or assign it to a key in a record/map.
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Here's how to define an anonymous function assigned to a variable `increment`, with it's appropriate function type signature.
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<!--DOCUSAURUS_CODE_TABS-->
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<!--Pascaligo-->
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```pascaligo
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const increment : (int -> int) = (function (const i : int) : int is i + 1);
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// a = 2
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const a: int = increment(1);
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```
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<!--Cameligo-->
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```cameligo
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let increment : (int -> int) = fun (i: int) -> i + 1
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```
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<!--ReasonLIGO-->
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```reasonligo
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let increment: (int => int) = (i: int) => i + 1;
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```
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<!--END_DOCUSAURUS_CODE_TABS-->
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