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2.6 KiB
2.6 KiB
Leo RFC 011: Scalar Type Accesses And Methods
Authors
The Aleo Team.
Status
FINAL
Summary
This RFC proposes three things:
- The scalar types in Leo (integers, fields, etc.) can have static methods.
- The scalar types in Leo (integers, fields, etc.) can have static constants.
- Expressions of scalar type can have instance methods called on them.
Motivation
This approach allows for a clean interface to provide built-in methods or static members for these basic types.
Design
Semantics
Firstly we would have to modify both the ABNF and parsing of Leo to allow static method calls onto a scalar type.
The ABNF would look as follows:
; This is an existing old rule.
scalar-type = boolean-type / arithmetic-type / address-type / character-type
; Add this rule.
named-type = identifier / self-type / scalar-type
; Modify this rule.
postfix-expression = primary-expression
/ postfix-expression "." natural
/ postfix-expression "." identifier
/ identifier function-arguments
/ postfix-expression "." identifier function-arguments
/ named-type "::" identifier function-arguments ; this used to be identifier-or-self-type
/ named-type "::" identifier ; this is new to allow member constants
/ postfix-expression "[" expression "]"
/ postfix-expression "[" [expression] ".." [expression] "]"
; Also need to add a new static member variable declaration rule to allow for static constant members.
member-constant-declaration = %s"static" %s"const" identifier ":" type = literal ";"
; We then need to modify the circuit declaration rule.
circuit-declaration = %s"circuit" identifier
"{" *member-constant-declaration
[ member-variable-declarations ]
*member-function-declaration "}"
Now methods and static members would be first-class citizens of scalar types and their values. For example, the following could be done:
let x = 1u8.to_bits(); // A method call on on a scalar value itself
let x = u8::MAX; // A constant value on the scalar type
let y = u8::to_bits(1u8); // A static method on the scalar type
It also allows for static constants for circuits in general:
circuit Point {
static SLOPE: u32 = 3;
x: u32;
y: u32;
function new(x: u32, y: u32) -> Self {
return Self {
x,
y: y + Self::SLOPE
};
}
}
Drawbacks
This change adds more complexity to the language.
Effect on Ecosystem
None. The new parsing changes would not break any older programs.
Alternatives
None.