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Lifetimes are declared, now I gotta fix the lifetime issues

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This commit is contained in:
Devin Bidwell
2025-12-09 13:51:54 -07:00
parent d40b759442
commit d9a7a31306
4 changed files with 165 additions and 182 deletions
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201
rust_compiler/libs/parser/src/lib.rs
View File

@@ -4,7 +4,7 @@ mod test;
pub mod tree_node;
use crate::sys_call::{Math, System};
use std::io::SeekFrom;
use std::{borrow::Cow, io::SeekFrom};
use sys_call::SysCall;
use thiserror::Error;
use tokenizer::{
@@ -119,7 +119,7 @@ impl<'a> Parser<'a> {
}
/// Calculates a Span from a given Token reference.
fn token_to_span<'t>(t: &'t Token<'a>) -> Span {
fn token_to_span(t: &Token<'a>) -> Span {
Span {
start_line: t.line,
start_col: t.span.start,
@@ -141,7 +141,7 @@ impl<'a> Parser<'a> {
}
/// Helper to run a parsing closure and wrap the result in a Spanned struct
fn spanned<F, T>(&mut self, parser: F) -> Result<Spanned<T>, Error>
fn spanned<F, T>(&mut self, parser: F) -> Result<Spanned<T>, Error<'a>>
where
F: FnOnce(&mut Self) -> Result<T, Error>,
{
@@ -176,7 +176,7 @@ impl<'a> Parser<'a> {
})
}
fn synchronize(&mut self) -> Result<(), Error> {
fn synchronize(&mut self) -> Result<(), Error<'a>> {
self.assign_next()?;
while let Some(token) = &self.current_token {
@@ -202,14 +202,14 @@ impl<'a> Parser<'a> {
Ok(())
}
pub fn parse_all(&mut self) -> Result<Option<tree_node::Expression>, Error> {
pub fn parse_all(&mut self) -> Result<Option<tree_node::Expression<'a>>, Error<'a>> {
let first_token = self.tokenizer.peek().unwrap_or(None);
let (start_line, start_col) = first_token
.as_ref()
.map(|tok| (tok.line, tok.span.start))
.unwrap_or((0, 0));
let mut expressions = Vec::<Spanned<Expression>>::new();
let mut expressions = Vec::<Spanned<Expression<'a>>>::new();
loop {
match self.tokenizer.peek() {
@@ -253,7 +253,7 @@ impl<'a> Parser<'a> {
})))
}
pub fn parse(&mut self) -> Result<Option<Spanned<tree_node::Expression>>, Error> {
pub fn parse(&mut self) -> Result<Option<Spanned<tree_node::Expression<'a>>>, Error<'a>> {
self.assign_next()?;
if self.current_token.is_none() {
@@ -269,17 +269,17 @@ impl<'a> Parser<'a> {
Ok(expr)
}
fn assign_next(&'a mut self) -> Result<(), Error> {
fn assign_next(&'a mut self) -> Result<(), Error<'a>> {
self.current_token = self.tokenizer.next_token()?;
Ok(())
}
fn get_next(&'a mut self) -> Result<Option<Token>, Error> {
fn get_next(&'a mut self) -> Result<Option<Token<'a>>, Error<'a>> {
self.assign_next()?;
Ok(self.current_token.clone())
}
fn expression(&mut self) -> Result<Option<Spanned<tree_node::Expression>>, Error> {
fn expression(&mut self) -> Result<Option<Spanned<tree_node::Expression<'a>>>, Error<'a>> {
// Parse the Left Hand Side (unary/primary expression)
let lhs = self.unary()?;
@@ -310,8 +310,8 @@ impl<'a> Parser<'a> {
/// Handles dot notation chains: x.y.z()
fn parse_postfix(
&mut self,
mut lhs: Spanned<Expression>,
) -> Result<Spanned<Expression>, Error> {
mut lhs: Spanned<Expression<'a>>,
) -> Result<Spanned<Expression<'a>>, Error<'a>> {
loop {
if self_matches_peek!(self, TokenType::Symbol(Symbol::Dot)) {
self.assign_next()?; // consume Dot
@@ -332,7 +332,7 @@ impl<'a> Parser<'a> {
if self_matches_peek!(self, TokenType::Symbol(Symbol::LParen)) {
// Method Call
self.assign_next()?; // consume '('
let mut arguments = Vec::<Spanned<Expression>>::new();
let mut arguments = Vec::<Spanned<Expression<'a>>>::new();
while !token_matches!(
self.get_next()?.ok_or(Error::UnexpectedEOF)?,
@@ -417,7 +417,7 @@ impl<'a> Parser<'a> {
Ok(lhs)
}
fn unary(&mut self) -> Result<Option<Spanned<tree_node::Expression>>, Error> {
fn unary(&mut self) -> Result<Option<Spanned<tree_node::Expression<'a>>>, Error<'a>> {
macro_rules! matches_keyword {
($keyword:expr, $($pattern:pat),+) => {
matches!($keyword, $($pattern)|+)
@@ -574,17 +574,6 @@ impl<'a> Parser<'a> {
let start_span = self.current_span();
self.assign_next()?;
let inner_expr = self.unary()?.ok_or(Error::UnexpectedEOF)?;
// NOTE: Unary negation can also have postfix applied to the inner expression
// But generally -a.b parses as -(a.b), which is what parse_postfix ensures if called here.
// However, we call parse_postfix on the RESULT of unary in expression(), so
// `expression` sees `Negation`. `parse_postfix` doesn't apply to Negation node unless we allow it?
// Actually, `x.y` binds tighter than `-`. `postfix` logic belongs inside `unary` logic or
// `expression` logic.
// If I have `-x.y`, standard precedence says `-(x.y)`.
// `unary` returns `Negation(x)`. Then `expression` calls `postfix` on `Negation(x)`.
// `postfix` loop runs on `Negation`. This implies `(-x).y`. This is usually WRONG.
// `.` binds tighter than `-`.
// So `unary` must call `postfix` on the *operand* of the negation.
let inner_with_postfix = self.parse_postfix(inner_expr)?;
@@ -631,7 +620,7 @@ impl<'a> Parser<'a> {
Ok(expr)
}
fn get_infix_child_node(&mut self) -> Result<Spanned<tree_node::Expression>, Error> {
fn get_infix_child_node(&mut self) -> Result<Spanned<tree_node::Expression<'a>>, Error<'a>> {
let current_token = self.current_token.as_ref().ok_or(Error::UnexpectedEOF)?;
let start_span = self.current_span();
@@ -715,7 +704,7 @@ impl<'a> Parser<'a> {
self.parse_postfix(expr)
}
fn device(&mut self) -> Result<DeviceDeclarationExpression, Error> {
fn device(&mut self) -> Result<DeviceDeclarationExpression<'a>, Error<'a>> {
let current_token = self.current_token.as_ref().ok_or(Error::UnexpectedEOF)?;
if !self_matches_current!(self, TokenType::Keyword(Keyword::Device)) {
return Err(Error::UnexpectedToken(
@@ -730,7 +719,7 @@ impl<'a> Parser<'a> {
TokenType::Identifier(ref id) => id.clone(),
_ => {
return Err(Error::UnexpectedToken(
Self::token_to_span(identifier_token),
Self::token_to_span(&identifier_token),
identifier_token.clone(),
));
}
@@ -739,7 +728,7 @@ impl<'a> Parser<'a> {
let current_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(current_token, TokenType::Symbol(Symbol::Assign)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(current_token),
Self::token_to_span(&current_token),
current_token.clone(),
));
}
@@ -749,7 +738,7 @@ impl<'a> Parser<'a> {
TokenType::String(ref id) => id.clone(),
_ => {
return Err(Error::UnexpectedToken(
Self::token_to_span(device_token),
Self::token_to_span(&device_token),
device_token.clone(),
));
}
@@ -764,7 +753,10 @@ impl<'a> Parser<'a> {
})
}
fn infix(&mut self, previous: Spanned<Expression>) -> Result<Spanned<Expression>, Error> {
fn infix(
&mut self,
previous: Spanned<Expression<'a>>,
) -> Result<Spanned<Expression<'a>>, Error<'a>> {
let current_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?.clone();
match previous.node {
@@ -1072,7 +1064,7 @@ impl<'a> Parser<'a> {
expressions.pop().ok_or(Error::UnexpectedEOF)
}
fn priority(&mut self) -> Result<Option<Box<Spanned<Expression>>>, Error> {
fn priority(&mut self) -> Result<Option<Box<Spanned<Expression<'a>>>>, Error<'a>> {
let current_token = self.current_token.as_ref().ok_or(Error::UnexpectedEOF)?;
if !token_matches!(current_token, TokenType::Symbol(Symbol::LParen)) {
return Err(Error::UnexpectedToken(
@@ -1087,15 +1079,15 @@ impl<'a> Parser<'a> {
let current_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(current_token, TokenType::Symbol(Symbol::RParen)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(current_token),
current_token.clone(),
Self::token_to_span(&current_token),
current_token,
));
}
Ok(Some(boxed!(expression)))
}
fn invocation(&mut self) -> Result<InvocationExpression, Error> {
fn invocation(&mut self) -> Result<InvocationExpression<'a>, Error<'a>> {
let identifier_token = self.current_token.as_ref().ok_or(Error::UnexpectedEOF)?;
let identifier_span = Self::token_to_span(identifier_token);
let identifier = match identifier_token.token_type {
@@ -1111,8 +1103,8 @@ impl<'a> Parser<'a> {
let current_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(current_token, TokenType::Symbol(Symbol::LParen)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(current_token),
current_token.clone(),
Self::token_to_span(&current_token),
current_token,
));
}
@@ -1138,8 +1130,8 @@ impl<'a> Parser<'a> {
{
let next_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
return Err(Error::UnexpectedToken(
Self::token_to_span(next_token),
next_token.clone(),
Self::token_to_span(&next_token),
next_token,
));
}
@@ -1157,7 +1149,7 @@ impl<'a> Parser<'a> {
})
}
fn block(&mut self) -> Result<BlockExpression, Error> {
fn block(&mut self) -> Result<BlockExpression<'a>, Error<'a>> {
let mut expressions = Vec::<Spanned<Expression>>::new();
let current_token = self.current_token.as_ref().ok_or(Error::UnexpectedEOF)?;
@@ -1180,7 +1172,7 @@ impl<'a> Parser<'a> {
if token_matches!(current_token, TokenType::Keyword(Keyword::Return)) {
// Need to capture return span
let ret_start_span = Self::token_to_span(current_token);
let ret_start_span = Self::token_to_span(&current_token);
self.assign_next()?;
let expression = self.expression()?.ok_or(Error::UnexpectedEOF)?;
@@ -1199,25 +1191,19 @@ impl<'a> Parser<'a> {
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(next, TokenType::Symbol(Symbol::Semicolon)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(next, TokenType::Symbol(Symbol::RBrace)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
}
Ok(BlockExpression(expressions))
}
fn const_declaration(&mut self) -> Result<ConstDeclarationExpression, Error> {
fn const_declaration(&mut self) -> Result<ConstDeclarationExpression<'a>, Error<'a>> {
// const
let current_token = self.current_token.as_ref().ok_or(Error::UnexpectedEOF)?;
if !self_matches_current!(self, TokenType::Keyword(Keyword::Const)) {
@@ -1229,7 +1215,7 @@ impl<'a> Parser<'a> {
// variable_name
let ident_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
let ident_span = Self::token_to_span(ident_token);
let ident_span = Self::token_to_span(&ident_token);
let ident = match ident_token.token_type {
TokenType::Identifier(ref id) => id.clone(),
_ => return Err(Error::UnexpectedToken(ident_span, ident_token.clone())),
@@ -1287,7 +1273,7 @@ impl<'a> Parser<'a> {
}
}
fn declaration(&mut self) -> Result<Expression, Error> {
fn declaration(&mut self) -> Result<Expression<'a>, Error<'a>> {
let current_token = self.current_token.as_ref().ok_or(Error::UnexpectedEOF)?;
if !self_matches_current!(self, TokenType::Keyword(Keyword::Let)) {
return Err(Error::UnexpectedToken(
@@ -1296,13 +1282,13 @@ impl<'a> Parser<'a> {
));
}
let identifier_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
let identifier_span = Self::token_to_span(identifier_token);
let identifier_span = Self::token_to_span(&identifier_token);
let identifier = match identifier_token.token_type {
TokenType::Identifier(ref id) => id.clone(),
_ => {
return Err(Error::UnexpectedToken(
Self::token_to_span(identifier_token),
identifier_token.clone(),
Self::token_to_span(&identifier_token),
identifier_token,
));
}
};
@@ -1322,8 +1308,8 @@ impl<'a> Parser<'a> {
let current_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(current_token, TokenType::Symbol(Symbol::Semicolon)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(current_token),
current_token.clone(),
Self::token_to_span(&current_token),
current_token,
));
}
@@ -1336,7 +1322,7 @@ impl<'a> Parser<'a> {
))
}
fn literal(&mut self) -> Result<Literal, Error> {
fn literal(&mut self) -> Result<Literal<'a>, Error<'a>> {
let current_token = self.current_token.clone().ok_or(Error::UnexpectedEOF)?;
let literal = match current_token.token_type {
TokenType::Number(num) => Literal::Number(num),
@@ -1346,11 +1332,11 @@ impl<'a> Parser<'a> {
Some(Token {
token_type: TokenType::Number(num),
..
}) => Literal::Number(-*num),
}) => Literal::Number(-num),
Some(wrong_token) => {
return Err(Error::UnexpectedToken(
Self::token_to_span(wrong_token),
wrong_token.clone(),
Self::token_to_span(&wrong_token),
wrong_token,
));
}
None => return Err(Error::UnexpectedEOF),
@@ -1366,14 +1352,11 @@ impl<'a> Parser<'a> {
Ok(literal)
}
fn if_expression(&mut self) -> Result<IfExpression, Error> {
fn if_expression(&mut self) -> Result<IfExpression<'a>, Error<'a>> {
// 'if' is current
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(next, TokenType::Symbol(Symbol::LParen)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
self.assign_next()?;
@@ -1381,18 +1364,12 @@ impl<'a> Parser<'a> {
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(next, TokenType::Symbol(Symbol::RParen)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(next, TokenType::Symbol(Symbol::LBrace)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
let body = self.spanned(|p| p.block())?;
@@ -1417,10 +1394,7 @@ impl<'a> Parser<'a> {
}))
} else {
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
} else {
None
@@ -1433,13 +1407,10 @@ impl<'a> Parser<'a> {
})
}
fn loop_expression(&mut self) -> Result<LoopExpression, Error> {
fn loop_expression(&mut self) -> Result<LoopExpression<'a>, Error<'a>> {
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(next, TokenType::Symbol(Symbol::LBrace)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
let body = self.spanned(|p| p.block())?;
@@ -1447,13 +1418,10 @@ impl<'a> Parser<'a> {
Ok(LoopExpression { body })
}
fn while_expression(&mut self) -> Result<WhileExpression, Error> {
fn while_expression(&mut self) -> Result<WhileExpression<'a>, Error<'a>> {
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(next, TokenType::Symbol(Symbol::LParen)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
self.assign_next()?;
@@ -1461,18 +1429,12 @@ impl<'a> Parser<'a> {
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(next, TokenType::Symbol(Symbol::RParen)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(next, TokenType::Symbol(Symbol::LBrace)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
let body = self.block()?;
@@ -1483,29 +1445,26 @@ impl<'a> Parser<'a> {
})
}
fn function(&mut self) -> Result<FunctionExpression, Error> {
fn function(&mut self) -> Result<FunctionExpression<'a>, Error<'a>> {
// 'fn' is current
let fn_ident_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
let fn_ident_span = Self::token_to_span(fn_ident_token);
let fn_ident_span = Self::token_to_span(&fn_ident_token);
let fn_ident = match fn_ident_token.token_type {
TokenType::Identifier(ref id) => id.clone(),
_ => {
return Err(Error::UnexpectedToken(
Self::token_to_span(fn_ident_token),
fn_ident_token.clone(),
));
return Err(Error::UnexpectedToken(fn_ident_span, fn_ident_token));
}
};
let current_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(current_token, TokenType::Symbol(Symbol::LParen)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(current_token),
current_token.clone(),
Self::token_to_span(&current_token),
current_token,
));
}
let mut arguments = Vec::<Spanned<String>>::new();
let mut arguments = Vec::<Spanned<Cow<'a, str>>>::new();
while !token_matches!(
self.get_next()?.ok_or(Error::UnexpectedEOF)?,
@@ -1516,10 +1475,7 @@ impl<'a> Parser<'a> {
let argument = match current_token.token_type {
TokenType::Identifier(ref id) => id.clone(),
_ => {
return Err(Error::UnexpectedToken(
Self::token_to_span(current_token),
current_token.clone(),
));
return Err(Error::UnexpectedToken(arg_span, current_token.clone()));
}
};
@@ -1541,10 +1497,7 @@ impl<'a> Parser<'a> {
&& !self_matches_peek!(self, TokenType::Symbol(Symbol::RParen))
{
let next = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
return Err(Error::UnexpectedToken(
Self::token_to_span(next),
next.clone(),
));
return Err(Error::UnexpectedToken(Self::token_to_span(&next), next));
}
if !self_matches_peek!(self, TokenType::Symbol(Symbol::RParen)) {
@@ -1555,8 +1508,8 @@ impl<'a> Parser<'a> {
let current_token = self.get_next()?.ok_or(Error::UnexpectedEOF)?;
if !token_matches!(current_token, TokenType::Symbol(Symbol::LBrace)) {
return Err(Error::UnexpectedToken(
Self::token_to_span(current_token),
current_token.clone(),
Self::token_to_span(&current_token),
current_token,
));
};
@@ -1570,12 +1523,12 @@ impl<'a> Parser<'a> {
})
}
fn syscall(&mut self) -> Result<SysCall, Error> {
fn check_length(
parser: &Parser,
arguments: &[Spanned<Expression>],
fn syscall(&mut self) -> Result<SysCall<'a>, Error<'a>> {
fn check_length<'a>(
parser: &'a Parser,
arguments: &[Spanned<Expression<'a>>],
length: usize,
) -> Result<(), Error> {
) -> Result<(), Error<'a>> {
if arguments.len() != length {
return Err(Error::InvalidSyntax(
parser.current_span(),
@@ -1636,7 +1589,7 @@ impl<'a> Parser<'a> {
let invocation = self.invocation()?;
match invocation.name.node.as_str() {
match invocation.name.node.as_ref() {
// System SysCalls
"yield" => {
check_length(self, &invocation.arguments, 0)?;
@@ -1764,7 +1717,9 @@ impl<'a> Parser<'a> {
Ok(SysCall::System(sys_call::System::SetOnDevice(
device,
Spanned {
node: Literal::String(logic_type.node.to_string().replace("\"", "")),
node: Literal::String(Cow::from(
logic_type.node.to_string().replace("\"", ""),
)),
span: logic_type.span,
},
boxed!(variable),
@@ -1783,7 +1738,7 @@ impl<'a> Parser<'a> {
Ok(SysCall::System(sys_call::System::SetOnDeviceBatched(
device_hash,
Spanned {
node: Literal::String(logic_type.to_string().replace("\"", "")),
node: Literal::String(Cow::from(logic_type.to_string().replace("\"", ""))),
span: logic_type.span,
},
boxed!(variable),

78
rust_compiler/libs/parser/src/sys_call.rs
View File

@@ -4,73 +4,73 @@ use helpers::prelude::*;
documented! {
#[derive(Debug, PartialEq, Eq)]
pub enum Math {
pub enum Math<'a> {
/// Returns the angle in radians whose cosine is the specified number.
/// ## IC10
/// `acos r? a(r?|num)`
/// ## Slang
/// `let item = acos(number|var|expression);`
Acos(Box<Spanned<Expression>>),
Acos(Box<Spanned<Expression<'a>>>),
/// Returns the angle in radians whose sine is the specified number.
/// ## IC10
/// `asin r? a(r?|num)`
/// ## Slang
/// `let item = asin(number|var|expression);`
Asin(Box<Spanned<Expression>>),
Asin(Box<Spanned<Expression<'a>>>),
/// Returns the angle in radians whose tangent is the specified number.
/// ## IC10
/// `atan r? a(r?|num)`
/// ## Slang
/// `let item = atan(number|var|expression);`
Atan(Box<Spanned<Expression>>),
Atan(Box<Spanned<Expression<'a>>>),
/// Returns the angle in radians whose tangent is the quotient of the specified numbers.
/// ## IC10
/// `atan2 r? a(r?|num) b(r?|num)`
/// ## Slang
/// `let item = atan2((number|var|expression), (number|var|expression));`
Atan2(Box<Spanned<Expression>>, Box<Spanned<Expression>>),
Atan2(Box<Spanned<Expression<'a>>>, Box<Spanned<Expression<'a>>>),
/// Gets the absolute value of a number.
/// ## IC10
/// `abs r? a(r?|num)`
/// ## Slang
/// `let item = abs((number|var|expression));`
Abs(Box<Spanned<Expression>>),
Abs(Box<Spanned<Expression<'a>>>),
/// Rounds a number up to the nearest whole number.
/// ## IC10
/// `ceil r? a(r?|num)`
/// ## Slang
/// `let item = ceil((number|var|expression));`
Ceil(Box<Spanned<Expression>>),
Ceil(Box<Spanned<Expression<'a>>>),
/// Returns the cosine of the specified angle in radians.
/// ## IC10
/// `cos r? a(r?|num)`
/// ## Slang
/// `let item = cos((number|var|expression));`
Cos(Box<Spanned<Expression>>),
Cos(Box<Spanned<Expression<'a>>>),
/// Rounds a number down to the nearest whole number.
/// ## IC10
/// `floor r? a(r?|num)`
/// ## Slang
/// `let item = floor((number|var|expression));`
Floor(Box<Spanned<Expression>>),
Floor(Box<Spanned<Expression<'a>>>),
/// Computes the natural logarithm of a number.
/// ## IC10
/// `log r? a(r?|num)`
/// ## Slang
/// `let item = log((number|var|expression));`
Log(Box<Spanned<Expression>>),
Log(Box<Spanned<Expression<'a>>>),
/// Computes the maximum of two numbers.
/// ## IC10
/// `max r? a(r?|num) b(r?|num)`
/// ## Slang
/// `let item = max((number|var|expression), (number|var|expression));`
Max(Box<Spanned<Expression>>, Box<Spanned<Expression>>),
Max(Box<Spanned<Expression<'a>>>, Box<Spanned<Expression<'a>>>),
/// Computes the minimum of two numbers.
/// ## IC10
/// `min r? a(r?|num) b(r?|num)`
/// ## Slang
/// `let item = min((number|var|expression), (number|var|expression));`
Min(Box<Spanned<Expression>>, Box<Spanned<Expression>>),
Min(Box<Spanned<Expression<'a>>>, Box<Spanned<Expression<'a>>>),
/// Gets a random number between 0 and 1.
/// ## IC10
/// `rand r?`
@@ -82,29 +82,29 @@ documented! {
/// `sin r? a(r?|num)`
/// ## Slang
/// `let item = sin((number|var|expression));`
Sin(Box<Spanned<Expression>>),
Sin(Box<Spanned<Expression<'a>>>),
/// Computes the square root of a number.
/// ## IC10
/// `sqrt r? a(r?|num)`
/// ## Slang
/// `let item = sqrt((number|var|expression));`
Sqrt(Box<Spanned<Expression>>),
Sqrt(Box<Spanned<Expression<'a>>>),
/// Returns the tangent of the specified angle in radians.
/// ## IC10
/// `tan r? a(r?|num)`
/// ## Slang
/// `let item = tan((number|var|expression));`
Tan(Box<Spanned<Expression>>),
Tan(Box<Spanned<Expression<'a>>>),
/// Truncates a number by removing the decimal portion.
/// ## IC10
/// `trunc r? a(r?|num)`
/// ## Slang
/// `let item = trunc((number|var|expression));`
Trunc(Box<Spanned<Expression>>),
Trunc(Box<Spanned<Expression<'a>>>),
}
}
impl std::fmt::Display for Math {
impl<'a> std::fmt::Display for Math<'a> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Math::Acos(a) => write!(f, "acos({})", a),
@@ -129,7 +129,7 @@ impl std::fmt::Display for Math {
documented! {
#[derive(Debug, PartialEq, Eq)]
pub enum System {
pub enum System<'a> {
/// Pauses execution for exactly 1 tick and then resumes.
/// ## IC10
/// `yield`
@@ -141,7 +141,7 @@ documented! {
/// `sleep a(r?|num)`
/// ## Slang
/// `sleep(number|var);`
Sleep(Box<Spanned<Expression>>),
Sleep(Box<Spanned<Expression<'a>>>),
/// Gets the in-game hash for a specific prefab name. NOTE! This call is COMPLETELY
/// optimized away unless you bind it to a `let` variable. If you use a `const` variable
/// however, the hash is correctly computed at compile time and substitued automatically.
@@ -155,7 +155,7 @@ documented! {
/// const compDoor = hash("StructureCompositeDoor");
/// setOnDeviceBatched(compDoor, "Lock", true);
/// ```
Hash(Spanned<Literal>),
Hash(Spanned<Literal<'a>>),
/// Represents a function which loads a device variable into a register.
/// ## IC10
/// `l r? d? var`
@@ -163,7 +163,7 @@ documented! {
/// `let item = load(deviceHash, "LogicType");`
/// `let item = l(deviceHash, "LogicType");`
/// `let item = deviceAlias.LogicType;`
LoadFromDevice(Spanned<LiteralOrVariable>, Spanned<Literal>),
LoadFromDevice(Spanned<LiteralOrVariable<'a>>, Spanned<Literal<'a>>),
/// Function which gets a LogicType from all connected network devices that match
/// the provided device hash and name, aggregating them via a batchMode
/// ## IC10
@@ -172,10 +172,10 @@ documented! {
/// `loadBatchedNamed(deviceHash, deviceName, "LogicType", "BatchMode");`
/// `lbn(deviceHash, deviceName, "LogicType", "BatchMode");`
LoadBatchNamed(
Spanned<LiteralOrVariable>,
Spanned<LiteralOrVariable>,
Spanned<Literal>,
Spanned<Literal>,
Spanned<LiteralOrVariable<'a>>,
Spanned<LiteralOrVariable<'a>>,
Spanned<Literal<'a>>,
Spanned<Literal<'a>>,
),
/// Loads a LogicType from all connected network devices, aggregating them via a
/// BatchMode
@@ -184,7 +184,7 @@ documented! {
/// ## Slang
/// `loadBatched(deviceHash, "Variable", "LogicType");`
/// `lb(deviceHash, "Variable", "LogicType");`
LoadBatch(Spanned<LiteralOrVariable>, Spanned<Literal>, Spanned<Literal>),
LoadBatch(Spanned<LiteralOrVariable<'a>>, Spanned<Literal<'a>>, Spanned<Literal<'a>>),
/// Represents a function which stores a setting into a specific device.
/// ## IC10
/// `s d? logicType r?`
@@ -192,7 +192,7 @@ documented! {
/// `set(deviceHash, "LogicType", (number|var));`
/// `s(deviceHash, "LogicType", (number|var));`
/// `deviceAlias.LogicType = (number|var);`
SetOnDevice(Spanned<LiteralOrVariable>, Spanned<Literal>, Box<Spanned<Expression>>),
SetOnDevice(Spanned<LiteralOrVariable<'a>>, Spanned<Literal<'a>>, Box<Spanned<Expression<'a>>>),
/// Represents a function which stores a setting to all devices that match
/// the given deviceHash
/// ## IC10
@@ -200,7 +200,7 @@ documented! {
/// ## Slang
/// `setBatched(deviceHash, "LogicType", (number|var));`
/// `sb(deviceHash, "LogicType", (number|var));`
SetOnDeviceBatched(Spanned<LiteralOrVariable>, Spanned<Literal>, Box<Spanned<Expression>>),
SetOnDeviceBatched(Spanned<LiteralOrVariable<'a>>, Spanned<Literal<'a>>, Box<Spanned<Expression<'a>>>),
/// Represents a function which stores a setting to all devices that match
/// both the given deviceHash AND the given nameHash
/// ## IC10
@@ -209,15 +209,15 @@ documented! {
/// `setBatchedNamed(deviceHash, nameHash, "LogicType", (number|var));`
/// `sbn(deviceHash, nameHash, "LogicType", (number|var));`
SetOnDeviceBatchedNamed(
Spanned<LiteralOrVariable>,
Spanned<LiteralOrVariable>,
Spanned<Literal>,
Box<Spanned<Expression>>,
Spanned<LiteralOrVariable<'a>>,
Spanned<LiteralOrVariable<'a>>,
Spanned<Literal<'a>>,
Box<Spanned<Expression<'a>>>,
),
}
}
impl std::fmt::Display for System {
impl<'a> std::fmt::Display for System<'a> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
System::Yield => write!(f, "yield()"),
@@ -242,13 +242,13 @@ impl std::fmt::Display for System {
#[allow(clippy::large_enum_variant)]
#[derive(Debug, PartialEq, Eq)]
/// This represents built in functions that cannot be overwritten, but can be invoked by the user as functions.
pub enum SysCall {
System(System),
pub enum SysCall<'a> {
System(System<'a>),
/// Represents any mathmatical function that can be called.
Math(Math),
Math(Math<'a>),
}
impl Documentation for SysCall {
impl<'a> Documentation for SysCall<'a> {
fn docs(&self) -> String {
match self {
Self::System(s) => s.docs(),
@@ -264,7 +264,7 @@ impl Documentation for SysCall {
}
}
impl std::fmt::Display for SysCall {
impl<'a> std::fmt::Display for SysCall<'a> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
SysCall::System(s) => write!(f, "{}", s),
@@ -273,7 +273,7 @@ impl std::fmt::Display for SysCall {
}
}
impl SysCall {
impl<'a> SysCall<'a> {
pub fn is_syscall(identifier: &str) -> bool {
tokenizer::token::is_syscall(identifier)
}

6
rust_compiler/libs/parser/src/tree_node.rs
View File

@@ -213,7 +213,7 @@ impl<'a> std::fmt::Display for LiteralOrVariable<'a> {
#[derive(Debug, PartialEq, Eq)]
pub struct ConstDeclarationExpression<'a> {
pub name: Spanned<Cow<'a, str>>,
pub value: LiteralOr<'a, SysCall>,
pub value: LiteralOr<'a, SysCall<'a>>,
}
impl<'a> ConstDeclarationExpression<'a> {
@@ -365,8 +365,8 @@ pub enum Expression<'a> {
Negation(Box<Spanned<Expression<'a>>>),
Priority(Box<Spanned<Expression<'a>>>),
Return(Box<Spanned<Expression<'a>>>),
Syscall(Spanned<SysCall>),
Variable(Spanned<String>),
Syscall(Spanned<SysCall<'a>>),
Variable(Spanned<Cow<'a, str>>),
While(Spanned<WhileExpression<'a>>),
}