Simplify parsing by expecting the tokens stream will never be exhausted.
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a4bf572d5a
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5aaaa7be3b
@ -178,7 +178,7 @@ fn optimize_stmt<'a>(stmt: Stmt, state: &mut State<'a>, preserve_result: bool) -
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Box::new(optimize_expr(expr, state)),
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Box::new(optimize_stmt(*if_block, state, true)),
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match optimize_stmt(*else_block, state, true) {
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stmt if matches!(stmt, Stmt::Noop(_)) => None, // Noop -> no else block
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Stmt::Noop(_) => None, // Noop -> no else block
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stmt => Some(Box::new(stmt)),
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},
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),
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190
src/parser.rs
190
src/parser.rs
@ -508,19 +508,17 @@ impl Expr {
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/// Consume a particular token, checking that it is the expected one.
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fn eat_token(input: &mut Peekable<TokenIterator>, token: Token) -> Position {
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if let Some((t, pos)) = input.next() {
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if t != token {
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panic!(
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"expecting {} (found {}) at {}",
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token.syntax(),
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t.syntax(),
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pos
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);
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}
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pos
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} else {
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panic!("expecting {} but already EOF", token.syntax());
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let (t, pos) = input.next().unwrap();
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if t != token {
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panic!(
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"expecting {} (found {}) at {}",
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token.syntax(),
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t.syntax(),
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pos
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);
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}
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pos
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}
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/// Match a particular token, consuming it if matched.
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@ -1269,103 +1267,91 @@ fn parse_binary_op<'a>(
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return Ok(current_lhs);
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}
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if let Some((op_token, pos)) = input.next() {
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let rhs = parse_unary(input, allow_stmt_expr)?;
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let (op_token, pos) = input.next().unwrap();
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let next_precedence = if let Some((next_op, _)) = input.peek() {
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next_op.precedence()
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} else {
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0
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};
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let rhs = parse_unary(input, allow_stmt_expr)?;
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// Bind to right if the next operator has higher precedence
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// If same precedence, then check if the operator binds right
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let rhs = if (current_precedence == next_precedence && bind_right)
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|| current_precedence < next_precedence
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{
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parse_binary_op(input, current_precedence, rhs, allow_stmt_expr)?
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} else {
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// Otherwise bind to left (even if next operator has the same precedence)
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rhs
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};
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let next_precedence = input.peek().unwrap().0.precedence();
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current_lhs = match op_token {
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Token::Plus => Expr::FunctionCall("+".into(), vec![current_lhs, rhs], None, pos),
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Token::Minus => Expr::FunctionCall("-".into(), vec![current_lhs, rhs], None, pos),
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Token::Multiply => {
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Expr::FunctionCall("*".into(), vec![current_lhs, rhs], None, pos)
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}
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Token::Divide => Expr::FunctionCall("/".into(), vec![current_lhs, rhs], None, pos),
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// Bind to right if the next operator has higher precedence
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// If same precedence, then check if the operator binds right
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let rhs = if (current_precedence == next_precedence && bind_right)
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|| current_precedence < next_precedence
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{
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parse_binary_op(input, current_precedence, rhs, allow_stmt_expr)?
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} else {
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// Otherwise bind to left (even if next operator has the same precedence)
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rhs
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};
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Token::LeftShift => {
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Expr::FunctionCall("<<".into(), vec![current_lhs, rhs], None, pos)
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}
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Token::RightShift => {
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Expr::FunctionCall(">>".into(), vec![current_lhs, rhs], None, pos)
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}
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Token::Modulo => Expr::FunctionCall("%".into(), vec![current_lhs, rhs], None, pos),
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Token::PowerOf => Expr::FunctionCall("~".into(), vec![current_lhs, rhs], None, pos),
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current_lhs = match op_token {
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Token::Plus => Expr::FunctionCall("+".into(), vec![current_lhs, rhs], None, pos),
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Token::Minus => Expr::FunctionCall("-".into(), vec![current_lhs, rhs], None, pos),
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Token::Multiply => Expr::FunctionCall("*".into(), vec![current_lhs, rhs], None, pos),
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Token::Divide => Expr::FunctionCall("/".into(), vec![current_lhs, rhs], None, pos),
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// Comparison operators default to false when passed invalid operands
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Token::EqualsTo => {
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Expr::FunctionCall("==".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::NotEqualsTo => {
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Expr::FunctionCall("!=".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::LessThan => {
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Expr::FunctionCall("<".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::LessThanEqualsTo => {
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Expr::FunctionCall("<=".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::GreaterThan => {
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Expr::FunctionCall(">".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::GreaterThanEqualsTo => {
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Expr::FunctionCall(">=".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::LeftShift => Expr::FunctionCall("<<".into(), vec![current_lhs, rhs], None, pos),
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Token::RightShift => Expr::FunctionCall(">>".into(), vec![current_lhs, rhs], None, pos),
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Token::Modulo => Expr::FunctionCall("%".into(), vec![current_lhs, rhs], None, pos),
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Token::PowerOf => Expr::FunctionCall("~".into(), vec![current_lhs, rhs], None, pos),
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Token::Or => Expr::Or(Box::new(current_lhs), Box::new(rhs), pos),
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Token::And => Expr::And(Box::new(current_lhs), Box::new(rhs), pos),
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Token::Ampersand => {
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Expr::FunctionCall("&".into(), vec![current_lhs, rhs], None, pos)
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}
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Token::Pipe => Expr::FunctionCall("|".into(), vec![current_lhs, rhs], None, pos),
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Token::XOr => Expr::FunctionCall("^".into(), vec![current_lhs, rhs], None, pos),
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// Comparison operators default to false when passed invalid operands
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Token::EqualsTo => {
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Expr::FunctionCall("==".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::NotEqualsTo => {
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Expr::FunctionCall("!=".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::LessThan => {
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Expr::FunctionCall("<".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::LessThanEqualsTo => {
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Expr::FunctionCall("<=".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::GreaterThan => {
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Expr::FunctionCall(">".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::GreaterThanEqualsTo => {
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Expr::FunctionCall(">=".into(), vec![current_lhs, rhs], Some(false.into()), pos)
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}
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Token::In => parse_in_expr(current_lhs, rhs, pos)?,
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Token::Or => Expr::Or(Box::new(current_lhs), Box::new(rhs), pos),
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Token::And => Expr::And(Box::new(current_lhs), Box::new(rhs), pos),
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Token::Ampersand => Expr::FunctionCall("&".into(), vec![current_lhs, rhs], None, pos),
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Token::Pipe => Expr::FunctionCall("|".into(), vec![current_lhs, rhs], None, pos),
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Token::XOr => Expr::FunctionCall("^".into(), vec![current_lhs, rhs], None, pos),
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#[cfg(not(feature = "no_object"))]
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Token::Period => {
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fn check_property(expr: Expr) -> Result<Expr, Box<ParseError>> {
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match expr {
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// xxx.lhs.rhs
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Expr::Dot(lhs, rhs, pos) => Ok(Expr::Dot(
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Box::new(check_property(*lhs)?),
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Box::new(check_property(*rhs)?),
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pos,
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)),
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// xxx.lhs[idx]
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Expr::Index(lhs, idx, pos) => {
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Ok(Expr::Index(Box::new(check_property(*lhs)?), idx, pos))
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}
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// xxx.id
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Expr::Variable(id, pos) => Ok(Expr::Property(id, pos)),
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// xxx.prop
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expr @ Expr::Property(_, _) => Ok(expr),
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// xxx.fn()
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expr @ Expr::FunctionCall(_, _, _, _) => Ok(expr),
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expr => Err(PERR::PropertyExpected.into_err(expr.position())),
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Token::In => parse_in_expr(current_lhs, rhs, pos)?,
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#[cfg(not(feature = "no_object"))]
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Token::Period => {
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fn check_property(expr: Expr) -> Result<Expr, Box<ParseError>> {
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match expr {
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// xxx.lhs.rhs
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Expr::Dot(lhs, rhs, pos) => Ok(Expr::Dot(
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Box::new(check_property(*lhs)?),
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Box::new(check_property(*rhs)?),
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pos,
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)),
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// xxx.lhs[idx]
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Expr::Index(lhs, idx, pos) => {
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Ok(Expr::Index(Box::new(check_property(*lhs)?), idx, pos))
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}
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// xxx.id
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Expr::Variable(id, pos) => Ok(Expr::Property(id, pos)),
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// xxx.prop
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expr @ Expr::Property(_, _) => Ok(expr),
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// xxx.fn()
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expr @ Expr::FunctionCall(_, _, _, _) => Ok(expr),
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expr => Err(PERR::PropertyExpected.into_err(expr.position())),
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}
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Expr::Dot(Box::new(current_lhs), Box::new(check_property(rhs)?), pos)
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}
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token => return Err(PERR::UnknownOperator(token.syntax().into()).into_err(pos)),
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};
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}
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Expr::Dot(Box::new(current_lhs), Box::new(check_property(rhs)?), pos)
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}
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token => return Err(PERR::UnknownOperator(token.syntax().into()).into_err(pos)),
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};
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}
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}
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@ -1439,7 +1425,7 @@ fn parse_if<'a>(
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// if guard { if_body } else ...
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let else_body = if match_token(input, Token::Else).unwrap_or(false) {
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Some(Box::new(if matches!(input.peek(), Some((Token::If, _))) {
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Some(Box::new(if let (Token::If, _) = input.peek().unwrap() {
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// if guard { if_body } else if ...
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parse_if(input, breakable, allow_stmt_expr)?
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} else {
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@ -1676,9 +1662,9 @@ fn parse_stmt<'a>(
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Token::Return | Token::Throw => {
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let pos = *pos;
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let return_type = match input.next() {
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Some((Token::Return, _)) => ReturnType::Return,
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Some((Token::Throw, _)) => ReturnType::Exception,
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let return_type = match input.next().unwrap() {
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(Token::Return, _) => ReturnType::Return,
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(Token::Throw, _) => ReturnType::Exception,
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_ => panic!("token should be return or throw"),
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};
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@ -1819,7 +1805,7 @@ fn parse_global_level<'a>(
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// Collect all the function definitions
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#[cfg(not(feature = "no_function"))]
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{
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if matches!(input.peek().expect("should not be None"), (Token::Fn, _)) {
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if let (Token::Fn, _) = input.peek().unwrap() {
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let f = parse_fn(input, true)?;
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functions.insert(calc_fn_def(&f.name, f.params.len()), f);
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continue;
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@ -991,6 +991,8 @@ impl<'a> TokenIterator<'a> {
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}
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('~', _) => return Some((Token::PowerOf, pos)),
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('\0', _) => panic!("should not be EOF"),
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(ch, _) if ch.is_whitespace() => (),
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(ch, _) => return Some((Token::LexError(Box::new(LERR::UnexpectedChar(ch))), pos)),
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}
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