6.1 KiB
id | title |
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functions | Functions |
Writing code is fun as long as it does not get out of hand. To make sure our code does not turn into spaghetti, we can structure some logic into functions.
Blocks
In PascaLIGO, blocks enable the sequential composition of
instructions into an isolated scope. Each block needs to include at
least one instruction. If we need a placeholder, we use the
instruction skip
which leaves the state unchanged. The rationale
for skip
instead of a truly empty block is that it prevents you from
writing an empty block by mistake.
// terse style
block { a := a + 1 }
// verbose style
begin
a := a + 1
end
Blocks are more versatile than simply containing instructions: they can also include declarations of values, like so:
// terse style
block { const a : int = 1 }
// verbose style
begin
const a : int = 1
end
Defining a function
Functions in PascaLIGO are defined using the function
keyword
followed by their name
, parameters
and return
type definitions.
Here is how you define a basic function that computes the sum of two integers:
function add (const a : int; const b : int) : int is
block {
const sum : int = a + b
} with sum
The function body consists of two parts:
block { <instructions and declarations> }
- logic of the functionwith <value>
- the value returned by the function
Blockless functions
Functions that can contain all of their logic into a single expression can be defined without a block. Instead of a block, you put an expression, whose value is implicitly returned by the function, like so:
function add (const a: int; const b : int) : int is a + b
You can call the function add
defined above using the LIGO compiler
like this:
ligo run-function gitlab-pages/docs/language-basics/src/functions/blockless.ligo add '(1,2)'
# Outputs: 3
Functions in CameLIGO are defined using the let
keyword, like other
values. The difference is that a succession of parameters is provided
after the value name, followed by the return type. This follows OCaml
syntax. For example:
let add (a : int) (b : int) : int = a + b
You can call the function add
defined above using the LIGO compiler
like this:
ligo run-function gitlab-pages/docs/language-basics/src/functions/blockless.mligo add '(1,2)'
# Outputs: 3
CameLIGO is a little different from other syntaxes when it comes to function parameters. In OCaml, functions can only take one parameter. To get functions with multiple arguments like we are used to in imperative programming languages, a technique called currying is used. Currying essentially translates a function with multiple arguments into a series of single argument functions, each returning a new function accepting the next argument until every parameter is filled. This is useful because it means that CameLIGO supports partial application.
Currying is however not the preferred way to pass function arguments in CameLIGO. While this approach is faithful to the original OCaml, it is costlier in Michelson than naive function execution accepting multiple arguments. Instead, for most functions with more than one parameter, we should gather the arguments in a tuple and pass the tuple in as a single parameter.
Here is how you define a basic function that accepts two ints
and
returns an int
as well:
let add (a, b : int * int) : int = a + b // Uncurried
let add_curry (a : int) (b : int) : int = add (a, b) // Curried
let increment (b : int) : int = add_curry 1 // Partial application
You can run the increment
function defined above using the LIGO
compiler like this:
ligo run-function gitlab-pages/docs/language-basics/src/functions/curry.mligo increment 5
# Outputs: 6
The function body is a single expression, whose value is returned.
Functions in ReasonLIGO are defined using the let
keyword, like
other values. The difference is that a succession of parameters is
provided after the value name, followed by the return type.
Here is how you define a basic function that sums two integers:
let add = ((a, b): (int, int)) : int => a + b;
You can call the function add
defined above using the LIGO compiler
like this:
ligo run-function gitlab-pages/docs/language-basics/src/functions/blockless.religo add '(1,2)'
# Outputs: 3
The function body is a single expression, whose value is returned.
Anonymous functions (a.k.a. lambdas)
It is possible to define functions without assigning them a name. They are useful when you want to pass them as arguments, or assign them to a key in a record or a map.
Here is how to define an anonymous function:
function increment (const b : int) : int is
(function (const a : int) : int is a + 1) (b)
const a : int = increment (1); // a = 2
You can check the value of a
defined above using the LIGO compiler
like this:
ligo evaluate-value gitlab-pages/docs/language-basics/src/functions/anon.ligo a
# Outputs: 2
let increment (b : int) : int = (fun (a : int) -> a + 1) b
let a : int = increment 1 // a = 2
You can check the value of a
defined above using the LIGO compiler
like this:
ligo evaluate-value gitlab-pages/docs/language-basics/src/functions/anon.mligo a
# Outputs: 2
let increment = (b : int) : int => ((a : int) : int => a + 1)(b);
let a : int = increment (1); // a = 2
You can check the value of a
defined above using the LIGO compiler
like this:
ligo evaluate-value gitlab-pages/docs/language-basics/src/functions/anon.religo a
# Outputs: 2