mirror of https://github.com/ProvableHQ/leo.git synced 2024-09-19 01:37:34 +03:00

History

gluaxspeed 1d72107119 inclusive range		2021-07-23 15:14:37 -07:00
..
src	inclusive range	2021-07-23 15:14:37 -07:00
Cargo.toml	Bump indexmap from 1.6.2 to 1.7.0	2021-06-30 10:21:58 +00:00
LICENSE.md	Adds LICENSE.md	2021-02-10 22:23:45 -08:00
README.md	finish up ast readme, clean up old files and comments	2021-07-21 02:47:54 -07:00

leo-ast

This directory contains the code for the AST of a Leo Program.

Node Types

There are several types of nodes in the AST that then have further breakdowns.

All nodes store a Span, which is useful for tracking the lines and columns of where the node was taken from in the Leo Program.

Program/File

The top level nodes in a Leo Program.

Imports

Represents an import statement in a Leo Program. A list of these are stored on the Program. It stores the path to an import and what is being imported.

NOTE: The import does not contain the source code of the imported Leo Program.

A circuit node represents a defined Circuit in a Leo Program. A order preserving map of these are stored on the Program. Contains the Circuit's name, as well as it's members. The members are a function, or a variable. For both of them the Circuit preserves their names.

Decorators

An annotation node is a decorator that can be applied to a function. Stored on the function themselves despite being a top-level node. The node stores the name of the annotation, as well as any args passed to it.

Functions

A function node represents a defined function in a Leo Program. A order preserving map of these are stored on the Program. A function node stores the following information:

The annotations applied to the function.
An identifier the name of the function.
The inputs to the function, both their names and types.
The output of the function as a type if it exists.
The function body stored as a block statement.

Global Consts

A global const is a bit special and has no special node for itself, but rather is a definition statement. A order preserving map of these are stored on the Program.

Types

The different types in a Leo Program. Types themselves are not a node, but rather just information to be stored on a node.

Address

The address type follows the BIP_0173 format starting with aleo1.

Boolean

The boolean type consists of two values true and false.

Char

The char type resents a character from the inclusive range [0, 10FFFF].

Field

The field type an unsigned number up to the modulus length of the field.

Group

The group type a set of affine points on the elliptic curve passed.

IntegerType

The integer type represents a range of integer types.

U8

A integer in the inclusive range [0, 255].

U16

A integer in the inclusive range [0, 65535].

U32

A integer in the inclusive range [0, 4294967295].

U64

A integer in the inclusive range [0, 18446744073709551615].

U128

A integer in the inclusive range [0, 340282366920938463463374607431768211455].

I8

A integer in the inclusive range [-128, 127].

I16

A integer in the inclusive range [-32768, 32767].

I32

A integer in the inclusive range [-2147483648, 2147483647].

I64

A integer in the inclusive range [-9223372036854775808, 9223372036854775807].

I128

A integer in the inclusive range [-170141183460469231731687303715884105728, 170141183460469231731687303715884105727].

Array

The array type contains another type, then the number of elements of that type greater than 0.

Tuple

The tuple type contains n types, where n is greater than or equal to 0.

Circuit

The circuit type, every circuit represents a different type.

SelfType

The self type represented by Self and only usable inside a circuit.

Statements

The statement level nodes in a Leo Program.

Assignment Statements

An assignment statement node stores the following:

The operation.
- =
- +=
- -=
- =
- /=
- =
- &&=
- ||=
The assignee which is a variable that has context of any access expressions on it.
The value which is an expression.

Block Statements

A block statement node stores the following:

The list of statements inside the block.

Conditional Statements

A conditional statement node stores the following:

The condition which is an expression.
The block statement.
The next block of the conditional if it exists.

Console Statements

A console statement node stores the following:

The console function being called which stores the type of console function it is and its arguments.

Definition Statements

A definition statement node stores the following:

The declaration type:
- let for mutable definitions.
- const for cosntant definitions.
The names of the varaibles defined.
The optional type.
The values to be assigned to the varaibles.

Expression Statements

An expression statement node stores the following:

The expression.

Iteration Statements

A iteration statement node stores the following:

The loop iterator variable name.
The expression to define the starting loop value.
The expression to define the stoping loop value.
The block to run for the loop.

Return Statements

A return statement node stores the following:

The expression that is being returned.

Expressions

The expression nodes in a Leo Program.

ArrayAccess Expressions

An array access expression node stores the following:

The array expression.
The index represented by an expression.

ArrayInit Expressions

An array init expression node stores the following:

The element expression to fill the array with.
The dimensions of the array to build.

ArrayInline Expressions

An array inline expression node stores the following:

The elments of an array which is either an spread or an expression.

ArrayRangeAccess Expressions

An array range access expression node stores the following:

The array expression.
The optional left side of the range of the array bounds to access.
The optional right side of the range of the array bounds to access.

Binary Expressions

A binary expression node stores the following:

The left side of the expression.
The right side of the expression.
The binary operation of the expression:
- +
- -
- *
- /
- **
- ||
- &&
- ==
- !=
- >=
- >
- <=
- <