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use std::cell::Cell;
use bumpalo::Bump;
use crate::ast::Node;
use crate::lexer::token::{Token, TokenKind};
use crate::parser::definitions::{Arity, Associativity};
use crate::parser::error::ParserError::{MemoryFailure, UnexpectedToken, UnknownBuiltIn};
use crate::parser::error::ParserResult;
use crate::parser::iter::ParserIterator;
use crate::parser::standard::constants::{BINARY_OPERATORS, BUILT_INS, UNARY_OPERATORS};
mod constants;
pub struct StandardParser<'a, 'b>
where
'b: 'a,
{
iterator: ParserIterator<'a, 'b>,
bump: &'b Bump,
depth: Cell<u8>,
}
impl<'a, 'b> StandardParser<'a, 'b>
where
'b: 'a,
{
pub fn try_new(tokens: &'a Vec<Token>, bump: &'b Bump) -> ParserResult<Self> {
Ok(Self {
iterator: ParserIterator::try_new(tokens, bump)?,
bump,
depth: Cell::new(0),
})
}
pub fn parse(&self) -> ParserResult<&'b Node<'b>> {
self.parse_expression(0)
}
fn parse_expression(&self, precedence: u8) -> ParserResult<&'b Node<'b>> {
let mut node_left = self.parse_primary()?;
let mut token = self.iterator.current();
while !self.iterator.is_done() {
if token.kind == TokenKind::Operator {
if let Some(op) = BINARY_OPERATORS.get(token.value) {
if op.precedence >= precedence {
self.iterator.next()?;
let node_right = match op.associativity {
Associativity::Left => self.parse_expression(op.precedence + 1)?,
_ => self.parse_expression(op.precedence)?,
};
node_left = self.iterator.node(Node::Binary {
operator: self.iterator.str_value(token.value),
left: node_left,
right: node_right,
})?;
token = self.iterator.current();
continue;
}
}
}
break;
}
if precedence == 0 {
node_left = self.parse_conditional(node_left)?;
}
Ok(node_left)
}
fn parse_primary(&self) -> ParserResult<&'b Node<'b>> {
let token = self.iterator.current();
if token.kind == TokenKind::Operator {
if let Some(op) = UNARY_OPERATORS.get(token.value) {
self.iterator.next()?;
let expr = self.parse_expression(op.precedence)?;
let node = self.iterator.node(Node::Unary {
operator: self.iterator.str_value(token.value),
node: expr,
})?;
return self.parse_postfix(node);
}
}
if let Some(interval_node) = self.parse_interval()? {
return self.parse_postfix(interval_node);
}
if token.kind == TokenKind::Bracket && token.value == "(" {
self.iterator.next()?;
let expr = self.parse_expression(0)?;
self.iterator.expect(TokenKind::Bracket, Some(&[")"]))?;
return self.parse_postfix(expr);
}
if self.depth.get() > 0 {
if token.kind == TokenKind::Operator && (token.value == "#" || token.value == ".") {
if token.value == "#" {
self.iterator.next()?;
}
let node = self.iterator.node(Node::Pointer)?;
return self.parse_postfix(node);
}
} else if token.kind == TokenKind::Operator && (token.value == "#" || token.value == ".") {
return Err(UnexpectedToken {
expected: "anything but Operator(#, .)".to_string(),
received: format!("{token:?}"),
});
}
self.parse_primary_expression()
}
fn parse_conditional(&self, node: &'b Node<'b>) -> ParserResult<&'b Node<'b>> {
let mut nd = self.iterator.node(node.clone())?;
let mut expr1: &'b Node;
let mut expr2: &'b Node;
while self.iterator.current().kind == TokenKind::Operator
&& self.iterator.current().value == "?"
{
self.iterator.next()?;
let token = self.iterator.current();
if token.kind != TokenKind::Operator && token.value != ":" {
expr1 = self.parse_expression(0)?;
self.iterator.expect(TokenKind::Operator, Some(&[":"]))?;
expr2 = self.parse_expression(0)?;
} else {
self.iterator.next()?;
expr1 = node;
expr2 = self.parse_expression(0)?;
}
nd = self.iterator.node(Node::Conditional {
condition: nd,
on_true: expr1,
on_false: expr2,
})?;
}
Ok(nd)
}
fn parse_primary_expression(&self) -> ParserResult<&'b Node<'b>> {
let node: &'b Node;
let token = self.iterator.current();
match token.kind {
TokenKind::Identifier => {
self.iterator.next()?;
match token.value {
"true" | "false" => return self.iterator.bool(token),
"null" => return self.iterator.null(token),
_ => node = self.parse_identifier_expression(token)?,
}
}
TokenKind::Number => return self.iterator.number(token),
TokenKind::String => return self.iterator.string(token),
_ => {
if token.kind == TokenKind::Bracket && token.value == "[" {
node = self.parse_array(token)?;
} else {
return Err(UnexpectedToken {
expected: "identifier, string, number or opening bracket".to_string(),
received: format!("{token:?}"),
});
}
}
}
self.parse_postfix(node)
}
fn parse_interval(&self) -> ParserResult<Option<&'b Node<'b>>> {
if self.iterator.current().kind != TokenKind::Bracket {
return Ok(None);
}
if !self.iterator.lookup(2, TokenKind::Operator, Some(&[".."])) {
return Ok(None);
}
let left_bracket = self.iterator.current().value;
self.iterator.expect(TokenKind::Bracket, None)?;
let left = self.parse_primary_expression()?;
self.iterator.expect(TokenKind::Operator, Some(&[".."]))?;
let right = self.parse_primary_expression()?;
let right_bracket = self.iterator.current().value;
self.iterator.expect(TokenKind::Bracket, None)?;
let interval_node = self.iterator.node(Node::Interval {
left_bracket: self.iterator.str_value(left_bracket),
left,
right,
right_bracket: self.iterator.str_value(right_bracket),
})?;
Ok(Some(interval_node))
}
fn parse_identifier_expression(&self, token: &Token) -> ParserResult<&'b Node<'b>> {
if self.iterator.current().kind != TokenKind::Bracket
|| self.iterator.current().value != "("
{
return self
.iterator
.node(Node::Identifier(self.iterator.str_value(token.value)));
}
let builtin = BUILT_INS.get(token.value).ok_or_else(|| UnknownBuiltIn {
token: token.value.to_string(),
})?;
self.iterator.expect(TokenKind::Bracket, Some(&["("]))?;
return match builtin.arity {
Arity::Single => {
let arg = self.parse_expression(0)?;
self.iterator.expect(TokenKind::Bracket, Some(&[")"]))?;
self.iterator.node(Node::BuiltIn {
name: self.iterator.str_value(token.value),
arguments: self.bump.alloc_slice_copy(&[arg]),
})
}
Arity::Dual => {
let arg1 = self.parse_expression(0)?;
self.iterator.expect(TokenKind::Operator, Some(&[","]))?;
let arg2 = self.parse_primary_expression()?;
self.iterator.expect(TokenKind::Bracket, Some(&[")"]))?;
self.iterator.node(Node::BuiltIn {
name: self.iterator.str_value(token.value),
arguments: self.bump.alloc_slice_copy(&[arg1, arg2]),
})
}
Arity::Closure => {
let arg1 = self.parse_expression(0)?;
self.iterator.expect(TokenKind::Operator, Some(&[","]))?;
let arg2 = self.parse_closure()?;
self.iterator.expect(TokenKind::Bracket, Some(&[")"]))?;
self.iterator.node(Node::BuiltIn {
name: self.iterator.str_value(token.value),
arguments: self.bump.alloc_slice_copy(&[arg1, arg2]),
})
}
};
}
fn parse_array(&self, _token: &Token) -> ParserResult<&'b Node<'b>> {
let mut nodes = Vec::new();
self.iterator.expect(TokenKind::Bracket, Some(&["["]))?;
while self.iterator.current().kind != TokenKind::Bracket
&& self.iterator.current().value != "]"
{
if !nodes.is_empty() {
self.iterator.expect(TokenKind::Operator, Some(&[","]))?;
if self.iterator.current().value == "]" {
break;
}
}
nodes.push(self.parse_primary()?);
}
self.iterator.expect(TokenKind::Bracket, Some(&["]"]))?;
let node = Node::Array(self.bump.alloc_slice_copy(nodes.as_slice()));
self.iterator.node(node)
}
fn parse_closure(&self) -> ParserResult<&'b Node<'b>> {
self.depth.set(self.depth.get() + 1);
let node = self.parse_expression(0)?;
self.depth.set(self.depth.get() - 1);
return self.iterator.node(Node::Closure(node));
}
fn parse_postfix(&self, node: &'b Node<'b>) -> ParserResult<&'b Node<'b>> {
let mut postfix_token = self.iterator.current();
let mut nd = self.iterator.node(node.clone())?;
while postfix_token.kind == TokenKind::Bracket || postfix_token.kind == TokenKind::Operator
{
if postfix_token.value == "." {
self.iterator.next()?;
let property_token = self.iterator.current();
self.iterator.next()?;
if property_token.kind != TokenKind::Identifier
&& (property_token.kind != TokenKind::Operator
|| !is_valid_identifier(property_token.value))
{
return Err(UnexpectedToken {
expected: "member identifier token".to_string(),
received: format!("{postfix_token:?}"),
});
}
let property = self
.iterator
.node(Node::String(self.iterator.str_value(property_token.value)))?;
nd = self.iterator.node(Node::Member { node: nd, property })?;
} else if postfix_token.value == "[" {
self.iterator.next()?;
let mut from: Option<&'b Node<'b>> = None;
let mut to: Option<&'b Node<'b>> = None;
let mut c = self.iterator.current();
if c.kind == TokenKind::Operator && c.value == ":" {
self.iterator.next()?;
c = self.iterator.current();
if c.kind != TokenKind::Bracket && c.value != "]" {
to = Some(self.parse_expression(0)?);
}
nd = self.iterator.node(Node::Slice { node: nd, to, from })?;
self.iterator.expect(TokenKind::Bracket, Some(&["]"]))?;
} else {
from = Some(self.parse_expression(0)?);
c = self.iterator.current();
if c.kind == TokenKind::Operator && c.value == ":" {
self.iterator.next()?;
c = self.iterator.current();
if c.kind != TokenKind::Bracket && c.value != "]" {
to = Some(self.parse_expression(0)?);
}
nd = self.iterator.node(Node::Slice { node: nd, from, to })?;
self.iterator.expect(TokenKind::Bracket, Some(&["]"]))?;
} else {
nd = self.iterator.node(Node::Member {
node: nd,
property: from.ok_or(MemoryFailure)?,
})?;
self.iterator.expect(TokenKind::Bracket, Some(&["]"]))?;
}
}
} else {
break;
}
postfix_token = self.iterator.current();
}
Ok(nd)
}
}
fn is_valid_identifier(str: &str) -> bool {
matches!(str, "and" | "or" | "in" | "not")
}