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344 lines
9.2 KiB
Markdown
344 lines
9.2 KiB
Markdown
# leo-ast
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[![Crates.io](https://img.shields.io/crates/v/leo-ast.svg?color=neon)](https://crates.io/crates/leo-ast)
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[![Authors](https://img.shields.io/badge/authors-Aleo-orange.svg)](../AUTHORS)
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[![License](https://img.shields.io/badge/License-GPLv3-blue.svg)](./LICENSE.md)
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This directory contains the code for the AST of a Leo Program.
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## Node Types
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There are several types of nodes in the AST that then have further breakdowns.
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All nodes store a Span, which is useful for tracking the lines and
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columns of where the node was taken from in the Leo Program.
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### [Program/File](./src/program.rs)
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The top level nodes in a Leo Program.
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#### [Imports](./src/imports/import.rs)
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Represents an import statement in a Leo Program.
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A list of these are stored on the Program.
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It stores the path to an import and what is being imported.
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**NOTE**: The import does not contain the source code of the imported Leo Program.
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#### [Circuits](./src/circuits/circuit.rs)
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A circuit node represents a defined Circuit in a Leo Program.
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A order preserving map of these are stored on the Program.
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Contains the Circuit's name, as well as it's members.
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The members are a function, or a variable.
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For both of them the Circuit preserves their names.
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#### [Decorators](./src/annotation.rs)
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An annotation node is a decorator that can be applied to a function.
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Stored on the function themselves despite being a top-level node.
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The node stores the name of the annotation, as well as any args passed to it.
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#### [Functions](./src/functions/function.rs)
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A function node represents a defined function in a Leo Program.
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A order preserving map of these are stored on the Program.
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A function node stores the following information:
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- The annotations applied to the function.
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- An identifier the name of the function.
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- The inputs to the function, both their names and types.
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- The output of the function as a type if it exists.
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- The function body stored as a block statement.
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#### [Global Consts](./src/program.rs)
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A global const is a bit special and has no special node for itself, but rather is a definition statement.
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A order preserving map of these are stored on the Program.
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### [Types](./src/types/type_.rs)
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The different types in a Leo Program.
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Types themselves are not a node, but rather just information to be stored on a node.
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#### Address
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The address type follows the [BIP_0173](https://en.bitcoin.it/wiki/BIP_0173) format starting with `aleo1`.
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#### Boolean
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The boolean type consists of two values **true** and **false**.
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#### Char
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The char type resents a character from the inclusive range [0, 10FFFF].
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#### Field
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The field type an unsigned number up to the modulus length of the field.
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#### Group
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The group type a set of affine points on the elliptic curve passed.
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#### [IntegerType](./src/types/integer_type.rs)
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The integer type represents a range of integer types.
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##### U8
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A integer in the inclusive range [0, 255].
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##### U16
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A integer in the inclusive range [0, 65535].
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##### U32
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A integer in the inclusive range [0, 4294967295].
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##### U64
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A integer in the inclusive range [0, 18446744073709551615].
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##### U128
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A integer in the inclusive range [0, 340282366920938463463374607431768211455].
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##### I8
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A integer in the inclusive range [-128, 127].
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##### I16
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A integer in the inclusive range [-32768, 32767].
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##### I32
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A integer in the inclusive range [-2147483648, 2147483647].
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##### I64
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A integer in the inclusive range [-9223372036854775808, 9223372036854775807].
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##### I128
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A integer in the inclusive range [-170141183460469231731687303715884105728, 170141183460469231731687303715884105727].
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#### Array
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The array type contains another type, then the number of elements of that type greater than 0.
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#### Tuple
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The tuple type contains n types, where n is greater than or equal to 0.
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#### Circuit
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The circuit type, every circuit represents a different type.
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#### SelfType
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The self type represented by `Self` and only usable inside a circuit.
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### [Statements](./src/statements/statement.rs)
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The statement level nodes in a Leo Program.
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#### [Assignment Statements](./src/statements/assign/)
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An assignment statement node stores the following:
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- The operation.
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- **=**
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- **+=**
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- **-=**
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- **=**
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- **/=**
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- **=**
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- **&&=**
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- **||=**
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- The assignee which is a variable that has context of any access expressions on it.
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- The value which is an expression.
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#### [Block Statements](./src/statements/block.rs)
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A block statement node stores the following:
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- The list of statements inside the block.
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#### [Conditional Statements](./src/statements/conditional.rs)
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A conditional statement node stores the following:
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- The condition which is an expression.
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- The block statement.
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- The next block of the conditional if it exists.
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#### [Console Statements](./src/statements/)
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A console statement node stores the following:
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- The console function being called which stores the type of console function it is and its arguments.
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#### [Definition Statements](./src/statements/definition/mod.rs)
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A definition statement node stores the following:
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- The declaration type:
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- `let` for mutable definitions.
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- `const` for cosntant definitions.
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- The names of the varaibles defined.
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- The optional type.
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- The values to be assigned to the varaibles.
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#### [Expression Statements](./src/statements/expression.rs)
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An expression statement node stores the following:
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- The expression.
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#### [Iteration Statements](./src/statements/iteration.rs)
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A iteration statement node stores the following:
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- The loop iterator variable name.
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- The expression to define the starting loop value.
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- The expression to define the stoping loop value.
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- The block to run for the loop.
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#### [Return Statements](./src/statements/return_statement.rs)
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A return statement node stores the following:
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- The expression that is being returned.
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### Expressions
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The expression nodes in a Leo Program.
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#### [ArrayAccess Expressions](./src/expression/array_acces.rs)
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An array access expression node stores the following:
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- The array expression.
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- The index represented by an expression.
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#### [ArrayInit Expressions](./src/expression/array_init.rs)
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An array init expression node stores the following:
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- The element expression to fill the array with.
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- The dimensions of the array to build.
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#### [ArrayInline Expressions](./src/expression/array_inline.rs)
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An array inline expression node stores the following:
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- The elments of an array which is either an spread or an expression.
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#### [ArrayRangeAccess Expressions](./src/expression/array_range_access.rs)
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An array range access expression node stores the following:
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- The array expression.
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- The optional left side of the range of the array bounds to access.
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- The optional right side of the range of the array bounds to access.
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#### [Binary Expressions](./src/expression/binary.rs)
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A binary expression node stores the following:
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- The left side of the expression.
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- The right side of the expression.
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- The binary operation of the expression:
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- **+**
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- **-**
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- **\***
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- **/**
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- **\*\***
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- **||**
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- **&&**
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- **==**
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- **!=**
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- **>=**
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- **>**
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- **<=**
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- **<**
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#### [Call Expressions](./src/expression/call.rs)
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A call expression node stores the following:
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- The function expression being called.
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- The aruments a list of expressions.
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#### [CircuitInit Expressions](./src/expression/circuit_init.rs)
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A circuit init expression node stores the following:
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- The name of the circuit expression being initialized.
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- The aruments a list of expressions.
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#### [CircuitMemberAccess Expressions](./src/expression/circuit_member_access.rs)
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A circuit member access expression node stores the following:
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- The circut expression being accessed.
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- The name of the expression being accessed from the circuit.
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#### [CircuitStaticFunctionAccess Expressions](./src/expression/circuit_static_function_access.rs)
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A circuit static function access expression node stores the following:
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- The circut expression being accessed.
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- The name of the expression being statically accessed from the circuit.
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#### [Identifier Expressions](./src/common/identifier.rs)
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An identifer expression node stores the following:
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- An identifier stores the string name.
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#### [Ternary Expressions](./src/expression/ternary.rs)
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A ternary expression node stores the following:
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- The condition of the ternary stored as an expression.
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- The expression returned if the condition is true.
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- The expression returned if the condition is false.
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#### [TupleAccess Expressions](./src/expression/tuple_access.rs)
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A tuple access expression node stores the following:
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- The tuple expression being accessed.
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- The index a positive number greater than or equal to 0.
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#### [TupleInit Expressions](./src/expression/tuple_init.rs)
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A tuple init expression node stores the following:
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- The element expressions to fill the tuple with.
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#### [Unary Expressions](./src/expression/unary.rs)
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An unary expression node stores the following:
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- The inner expression.
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- The unary operator:
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- **!**
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- **-**
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#### [Value Expressions](./src/expression/value.rs)
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A value expression node stores one of the following:
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- Address and its value and span.
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- Boolean and its value and span.
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- Char and its value and span.
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- Field and its value and span.
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- Group and its value and span.
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- Implicit and its value and span.
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- Integer and its value and span.
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- String and its value and span.
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