Refine position display in error messages.

This commit is contained in:
Stephen Chung 2020-06-12 18:04:16 +08:00
parent 6cc27eb9f4
commit 9d91349513
12 changed files with 256 additions and 238 deletions

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@ -13,6 +13,7 @@ Breaking changes
* Callback closure passed to `Engine::on_progress` now takes `&u64` instead of `u64` to be consistent with other callback signatures.
* `Engine::register_indexer` is renamed to `Engine::register_indexer_get`.
* `Module::set_indexer_fn` is renamed to `Module::set_indexer_get_fn`.
* The tuple `ParseError` now exposes the internal fields and the `ParseError::error_type` and `ParseError::position` methods are removed. The first tuple field is the `ParseErrorType` and the second tuple field is the `Position`.
New features
------------

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@ -7,28 +7,27 @@ use std::io::{stdin, stdout, Write};
fn print_error(input: &str, err: EvalAltResult) {
let lines: Vec<_> = input.trim().split('\n').collect();
let pos = err.position();
let line_no = if lines.len() > 1 {
match err.position() {
p if p.is_none() => "".to_string(),
p => format!("{}: ", p.line().unwrap()),
if pos.is_none() {
"".to_string()
} else {
format!("{}: ", pos.line().unwrap())
}
} else {
"".to_string()
};
// Print error
let pos = err.position();
let pos_text = format!(" ({})", pos);
match pos {
p if p.is_none() => {
if pos.is_none() {
// No position
println!("{}", err);
}
p => {
} else {
// Specific position
println!("{}{}", line_no, lines[p.line().unwrap() - 1]);
println!("{}{}", line_no, lines[pos.line().unwrap() - 1]);
let err_text = match err {
EvalAltResult::ErrorRuntime(err, _) if !err.is_empty() => {
@ -40,12 +39,11 @@ fn print_error(input: &str, err: EvalAltResult) {
println!(
"{0:>1$} {2}",
"^",
line_no.len() + p.position().unwrap(),
line_no.len() + pos.position().unwrap(),
err_text.replace(&pos_text, "")
);
}
}
}
fn print_help() {
println!("help => print this help");

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@ -1,4 +1,4 @@
use rhai::{Engine, EvalAltResult};
use rhai::{Engine, EvalAltResult, Position};
#[cfg(not(feature = "no_optimize"))]
use rhai::OptimizationLevel;
@ -6,15 +6,17 @@ use rhai::OptimizationLevel;
use std::{env, fs::File, io::Read, process::exit};
fn eprint_error(input: &str, err: EvalAltResult) {
fn eprint_line(lines: &[&str], line: usize, pos: usize, err: &str) {
fn eprint_line(lines: &[&str], pos: Position, err: &str) {
let line = pos.line().unwrap();
let line_no = format!("{}: ", line);
let pos_text = format!(" (line {}, position {})", line, pos);
let pos_text = format!(" ({})", pos);
eprintln!("{}{}", line_no, lines[line - 1]);
eprintln!(
"{:>1$} {2}",
"^",
line_no.len() + pos,
line_no.len() + pos.position().unwrap(),
err.replace(&pos_text, "")
);
eprintln!("");
@ -25,12 +27,10 @@ fn eprint_error(input: &str, err: EvalAltResult) {
// Print error
let pos = err.position();
match pos {
p if p.is_none() => {
if pos.is_none() {
// No position
eprintln!("{}", err);
}
p => {
} else {
// Specific position
let err_text = match err {
EvalAltResult::ErrorRuntime(err, _) if !err.is_empty() => {
@ -39,8 +39,7 @@ fn eprint_error(input: &str, err: EvalAltResult) {
err => err.to_string(),
};
eprint_line(&lines, p.line().unwrap(), p.position().unwrap(), &err_text)
}
eprint_line(&lines, pos, &err_text)
}
}

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@ -871,9 +871,7 @@ impl Engine {
// If new functions are defined within the eval string, it is an error
if ast.lib().num_fn() != 0 {
return Err(Box::new(EvalAltResult::ErrorParsing(
ParseErrorType::WrongFnDefinition.into_err(Position::none()),
)));
return Err(ParseErrorType::WrongFnDefinition.into());
}
let statements = mem::take(ast.statements_mut());

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@ -1,5 +1,6 @@
//! Module containing error definitions for the parsing process.
use crate::result::EvalAltResult;
use crate::token::Position;
use crate::stdlib::{boxed::Box, char, error::Error, fmt, string::String};
@ -123,113 +124,111 @@ impl ParseErrorType {
pub(crate) fn into_err(self, pos: Position) -> ParseError {
ParseError(Box::new(self), pos)
}
pub(crate) fn desc(&self) -> &str {
match self {
Self::BadInput(p) => p,
Self::UnexpectedEOF => "Script is incomplete",
Self::UnknownOperator(_) => "Unknown operator",
Self::MissingToken(_, _) => "Expecting a certain token that is missing",
Self::MalformedCallExpr(_) => "Invalid expression in function call arguments",
Self::MalformedIndexExpr(_) => "Invalid index in indexing expression",
Self::MalformedInExpr(_) => "Invalid 'in' expression",
Self::DuplicatedProperty(_) => "Duplicated property in object map literal",
Self::ForbiddenConstantExpr(_) => "Expecting a constant",
Self::PropertyExpected => "Expecting name of a property",
Self::VariableExpected => "Expecting name of a variable",
Self::ExprExpected(_) => "Expecting an expression",
Self::FnMissingName => "Expecting name in function declaration",
Self::FnMissingParams(_) => "Expecting parameters in function declaration",
Self::FnDuplicatedParam(_,_) => "Duplicated parameters in function declaration",
Self::FnMissingBody(_) => "Expecting body statement block for function declaration",
Self::WrongFnDefinition => "Function definitions must be at global level and cannot be inside a block or another function",
Self::DuplicatedExport(_) => "Duplicated variable/function in export statement",
Self::WrongExport => "Export statement can only appear at global level",
Self::AssignmentToCopy => "Only a copy of the value is change with this assignment",
Self::AssignmentToConstant(_) => "Cannot assign to a constant value",
Self::ExprTooDeep => "Expression exceeds maximum complexity",
Self::LoopBreak => "Break statement should only be used inside a loop"
}
}
}
impl fmt::Display for ParseErrorType {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::BadInput(s) | ParseErrorType::MalformedCallExpr(s) => {
write!(f, "{}", if s.is_empty() { self.desc() } else { s })
}
Self::ForbiddenConstantExpr(s) => {
write!(f, "Expecting a constant to assign to '{}'", s)
}
Self::UnknownOperator(s) => write!(f, "{}: '{}'", self.desc(), s),
Self::MalformedIndexExpr(s) => {
write!(f, "{}", if s.is_empty() { self.desc() } else { s })
}
Self::MalformedInExpr(s) => write!(f, "{}", if s.is_empty() { self.desc() } else { s }),
Self::DuplicatedProperty(s) => {
write!(f, "Duplicated property '{}' for object map literal", s)
}
Self::ExprExpected(s) => write!(f, "Expecting {} expression", s),
Self::FnMissingParams(s) => write!(f, "Expecting parameters for function '{}'", s),
Self::FnMissingBody(s) => {
write!(f, "Expecting body statement block for function '{}'", s)
}
Self::FnDuplicatedParam(s, arg) => {
write!(f, "Duplicated parameter '{}' for function '{}'", arg, s)
}
Self::DuplicatedExport(s) => write!(
f,
"Duplicated variable/function '{}' in export statement",
s
),
Self::MissingToken(token, s) => write!(f, "Expecting '{}' {}", token, s),
Self::AssignmentToConstant(s) if s.is_empty() => write!(f, "{}", self.desc()),
Self::AssignmentToConstant(s) => write!(f, "Cannot assign to constant '{}'", s),
_ => write!(f, "{}", self.desc()),
}
}
}
/// Error when parsing a script.
#[derive(Debug, Eq, PartialEq, Clone, Hash)]
pub struct ParseError(pub(crate) Box<ParseErrorType>, pub(crate) Position);
impl ParseError {
/// Get the parse error.
pub fn error_type(&self) -> &ParseErrorType {
&self.0
}
/// Get the location in the script of the error.
pub fn position(&self) -> Position {
self.1
}
pub(crate) fn desc(&self) -> &str {
match self.0.as_ref() {
ParseErrorType::BadInput(p) => p,
ParseErrorType::UnexpectedEOF => "Script is incomplete",
ParseErrorType::UnknownOperator(_) => "Unknown operator",
ParseErrorType::MissingToken(_, _) => "Expecting a certain token that is missing",
ParseErrorType::MalformedCallExpr(_) => "Invalid expression in function call arguments",
ParseErrorType::MalformedIndexExpr(_) => "Invalid index in indexing expression",
ParseErrorType::MalformedInExpr(_) => "Invalid 'in' expression",
ParseErrorType::DuplicatedProperty(_) => "Duplicated property in object map literal",
ParseErrorType::ForbiddenConstantExpr(_) => "Expecting a constant",
ParseErrorType::PropertyExpected => "Expecting name of a property",
ParseErrorType::VariableExpected => "Expecting name of a variable",
ParseErrorType::ExprExpected(_) => "Expecting an expression",
ParseErrorType::FnMissingName => "Expecting name in function declaration",
ParseErrorType::FnMissingParams(_) => "Expecting parameters in function declaration",
ParseErrorType::FnDuplicatedParam(_,_) => "Duplicated parameters in function declaration",
ParseErrorType::FnMissingBody(_) => "Expecting body statement block for function declaration",
ParseErrorType::WrongFnDefinition => "Function definitions must be at global level and cannot be inside a block or another function",
ParseErrorType::DuplicatedExport(_) => "Duplicated variable/function in export statement",
ParseErrorType::WrongExport => "Export statement can only appear at global level",
ParseErrorType::AssignmentToCopy => "Only a copy of the value is change with this assignment",
ParseErrorType::AssignmentToConstant(_) => "Cannot assign to a constant value",
ParseErrorType::ExprTooDeep => "Expression exceeds maximum complexity",
ParseErrorType::LoopBreak => "Break statement should only be used inside a loop"
}
}
}
pub struct ParseError(pub Box<ParseErrorType>, pub Position);
impl Error for ParseError {}
impl fmt::Display for ParseError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self.0.as_ref() {
ParseErrorType::BadInput(s) | ParseErrorType::MalformedCallExpr(s) => {
write!(f, "{}", if s.is_empty() { self.desc() } else { s })?
}
ParseErrorType::ForbiddenConstantExpr(s) => {
write!(f, "Expecting a constant to assign to '{}'", s)?
}
ParseErrorType::UnknownOperator(s) => write!(f, "{}: '{}'", self.desc(), s)?,
fmt::Display::fmt(&self.0, f)?;
ParseErrorType::MalformedIndexExpr(s) => {
write!(f, "{}", if s.is_empty() { self.desc() } else { s })?
}
ParseErrorType::MalformedInExpr(s) => {
write!(f, "{}", if s.is_empty() { self.desc() } else { s })?
}
ParseErrorType::DuplicatedProperty(s) => {
write!(f, "Duplicated property '{}' for object map literal", s)?
}
ParseErrorType::ExprExpected(s) => write!(f, "Expecting {} expression", s)?,
ParseErrorType::FnMissingParams(s) => {
write!(f, "Expecting parameters for function '{}'", s)?
}
ParseErrorType::FnMissingBody(s) => {
write!(f, "Expecting body statement block for function '{}'", s)?
}
ParseErrorType::FnDuplicatedParam(s, arg) => {
write!(f, "Duplicated parameter '{}' for function '{}'", arg, s)?
}
ParseErrorType::DuplicatedExport(s) => write!(
f,
"Duplicated variable/function '{}' in export statement",
s
)?,
ParseErrorType::MissingToken(token, s) => write!(f, "Expecting '{}' {}", token, s)?,
ParseErrorType::AssignmentToConstant(s) if s.is_empty() => {
write!(f, "{}", self.desc())?
}
ParseErrorType::AssignmentToConstant(s) => {
write!(f, "Cannot assign to constant '{}'", s)?
}
_ => write!(f, "{}", self.desc())?,
}
if !self.1.is_none() {
// Do not write any position if None
if !self.1.is_none() {
write!(f, " ({})", self.1)?;
}
Ok(())
} else {
write!(f, " ({})", self.1)
}
}
impl From<ParseErrorType> for Box<EvalAltResult> {
fn from(err: ParseErrorType) -> Self {
Box::new(EvalAltResult::ErrorParsing(err, Position::none()))
}
}
impl From<ParseError> for Box<EvalAltResult> {
fn from(err: ParseError) -> Self {
Box::new(EvalAltResult::ErrorParsing(*err.0, err.1))
}
}

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@ -1,7 +1,7 @@
//! Module containing error definitions for the evaluation process.
use crate::any::Dynamic;
use crate::error::ParseError;
use crate::error::ParseErrorType;
use crate::parser::INT;
use crate::token::Position;
@ -23,7 +23,7 @@ use crate::stdlib::path::PathBuf;
#[derive(Debug)]
pub enum EvalAltResult {
/// Syntax error.
ErrorParsing(ParseError),
ErrorParsing(ParseErrorType, Position),
/// Error reading from a script file. Wrapped value is the path of the script file.
///
@ -101,7 +101,7 @@ impl EvalAltResult {
#[cfg(not(feature = "no_std"))]
Self::ErrorReadingScriptFile(_, _, _) => "Cannot read from script file",
Self::ErrorParsing(p) => p.desc(),
Self::ErrorParsing(p, _) => p.desc(),
Self::ErrorInFunctionCall(_, _, _) => "Error in called function",
Self::ErrorFunctionNotFound(_, _) => "Function not found",
Self::ErrorBooleanArgMismatch(_, _) => "Boolean operator expects boolean operands",
@ -153,95 +153,89 @@ impl Error for EvalAltResult {}
impl fmt::Display for EvalAltResult {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let desc = self.desc();
let pos = self.position();
match self {
#[cfg(not(feature = "no_std"))]
Self::ErrorReadingScriptFile(path, pos, err) if pos.is_none() => {
write!(f, "{} '{}': {}", desc, path.display(), err)
}
#[cfg(not(feature = "no_std"))]
Self::ErrorReadingScriptFile(path, pos, err) => {
write!(f, "{} '{}': {} ({})", desc, path.display(), err, pos)
Self::ErrorReadingScriptFile(path, _, err) => {
write!(f, "{} '{}': {}", desc, path.display(), err)?
}
Self::ErrorParsing(p) => write!(f, "Syntax error: {}", p),
Self::ErrorParsing(p, _) => write!(f, "Syntax error: {}", p)?,
Self::ErrorInFunctionCall(s, err, pos) => {
write!(f, "Error in call to function '{}' ({}): {}", s, pos, err)
Self::ErrorInFunctionCall(s, err, _) => {
write!(f, "Error in call to function '{}' : {}", s, err)?
}
Self::ErrorFunctionNotFound(s, pos)
| Self::ErrorVariableNotFound(s, pos)
| Self::ErrorModuleNotFound(s, pos) => write!(f, "{}: '{}' ({})", desc, s, pos),
Self::ErrorFunctionNotFound(s, _)
| Self::ErrorVariableNotFound(s, _)
| Self::ErrorModuleNotFound(s, _) => write!(f, "{}: '{}'", desc, s)?,
Self::ErrorDotExpr(s, pos) if !s.is_empty() => write!(f, "{} {} ({})", desc, s, pos),
Self::ErrorDotExpr(s, _) if !s.is_empty() => write!(f, "{} {}", desc, s)?,
Self::ErrorIndexingType(_, pos)
| Self::ErrorNumericIndexExpr(pos)
| Self::ErrorStringIndexExpr(pos)
| Self::ErrorImportExpr(pos)
| Self::ErrorLogicGuard(pos)
| Self::ErrorFor(pos)
| Self::ErrorAssignmentToUnknownLHS(pos)
| Self::ErrorInExpr(pos)
| Self::ErrorDotExpr(_, pos)
| Self::ErrorTooManyOperations(pos)
| Self::ErrorTooManyModules(pos)
| Self::ErrorStackOverflow(pos)
| Self::ErrorTerminated(pos) => write!(f, "{} ({})", desc, pos),
Self::ErrorIndexingType(_, _)
| Self::ErrorNumericIndexExpr(_)
| Self::ErrorStringIndexExpr(_)
| Self::ErrorImportExpr(_)
| Self::ErrorLogicGuard(_)
| Self::ErrorFor(_)
| Self::ErrorAssignmentToUnknownLHS(_)
| Self::ErrorInExpr(_)
| Self::ErrorDotExpr(_, _)
| Self::ErrorTooManyOperations(_)
| Self::ErrorTooManyModules(_)
| Self::ErrorStackOverflow(_)
| Self::ErrorTerminated(_) => write!(f, "{}", desc)?,
Self::ErrorRuntime(s, pos) => {
write!(f, "{} ({})", if s.is_empty() { desc } else { s }, pos)
Self::ErrorRuntime(s, _) => write!(f, "{}", if s.is_empty() { desc } else { s })?,
Self::ErrorAssignmentToConstant(s, _) => write!(f, "{}: '{}'", desc, s)?,
Self::ErrorMismatchOutputType(s, _) => write!(f, "{}: {}", desc, s)?,
Self::ErrorArithmetic(s, _) => write!(f, "{}", s)?,
Self::ErrorLoopBreak(_, _) => write!(f, "{}", desc)?,
Self::Return(_, _) => write!(f, "{}", desc)?,
Self::ErrorBooleanArgMismatch(op, _) => {
write!(f, "{} operator expects boolean operands", op)?
}
Self::ErrorAssignmentToConstant(s, pos) => write!(f, "{}: '{}' ({})", desc, s, pos),
Self::ErrorMismatchOutputType(s, pos) => write!(f, "{}: {} ({})", desc, s, pos),
Self::ErrorArithmetic(s, pos) => write!(f, "{} ({})", s, pos),
Self::ErrorLoopBreak(_, pos) => write!(f, "{} ({})", desc, pos),
Self::Return(_, pos) => write!(f, "{} ({})", desc, pos),
Self::ErrorBooleanArgMismatch(op, pos) => {
write!(f, "{} operator expects boolean operands ({})", op, pos)
Self::ErrorCharMismatch(_) => write!(f, "string indexing expects a character value")?,
Self::ErrorArrayBounds(_, index, _) if *index < 0 => {
write!(f, "{}: {} < 0", desc, index)?
}
Self::ErrorCharMismatch(pos) => {
write!(f, "string indexing expects a character value ({})", pos)
}
Self::ErrorArrayBounds(_, index, pos) if *index < 0 => {
write!(f, "{}: {} < 0 ({})", desc, index, pos)
}
Self::ErrorArrayBounds(0, _, pos) => write!(f, "{} ({})", desc, pos),
Self::ErrorArrayBounds(1, index, pos) => write!(
Self::ErrorArrayBounds(0, _, _) => write!(f, "{}", desc)?,
Self::ErrorArrayBounds(1, index, _) => write!(
f,
"Array index {} is out of bounds: only one element in the array ({})",
index, pos
),
Self::ErrorArrayBounds(max, index, pos) => write!(
"Array index {} is out of bounds: only one element in the array",
index
)?,
Self::ErrorArrayBounds(max, index, _) => write!(
f,
"Array index {} is out of bounds: only {} elements in the array ({})",
index, max, pos
),
Self::ErrorStringBounds(_, index, pos) if *index < 0 => {
write!(f, "{}: {} < 0 ({})", desc, index, pos)
"Array index {} is out of bounds: only {} elements in the array",
index, max
)?,
Self::ErrorStringBounds(_, index, _) if *index < 0 => {
write!(f, "{}: {} < 0", desc, index)?
}
Self::ErrorStringBounds(0, _, pos) => write!(f, "{} ({})", desc, pos),
Self::ErrorStringBounds(1, index, pos) => write!(
Self::ErrorStringBounds(0, _, _) => write!(f, "{}", desc)?,
Self::ErrorStringBounds(1, index, _) => write!(
f,
"String index {} is out of bounds: only one character in the string ({})",
index, pos
),
Self::ErrorStringBounds(max, index, pos) => write!(
"String index {} is out of bounds: only one character in the string",
index
)?,
Self::ErrorStringBounds(max, index, _) => write!(
f,
"String index {} is out of bounds: only {} characters in the string ({})",
index, max, pos
),
}
}
"String index {} is out of bounds: only {} characters in the string",
index, max
)?,
}
impl From<ParseError> for Box<EvalAltResult> {
fn from(err: ParseError) -> Self {
Box::new(EvalAltResult::ErrorParsing(err))
// Do not write any position if None
if !pos.is_none() {
write!(f, " ({})", pos)?;
}
Ok(())
}
}
@ -261,9 +255,8 @@ impl EvalAltResult {
#[cfg(not(feature = "no_std"))]
Self::ErrorReadingScriptFile(_, pos, _) => *pos,
Self::ErrorParsing(err) => err.position(),
Self::ErrorFunctionNotFound(_, pos)
Self::ErrorParsing(_, pos)
| Self::ErrorFunctionNotFound(_, pos)
| Self::ErrorInFunctionCall(_, _, pos)
| Self::ErrorBooleanArgMismatch(_, pos)
| Self::ErrorCharMismatch(pos)
@ -299,9 +292,8 @@ impl EvalAltResult {
#[cfg(not(feature = "no_std"))]
Self::ErrorReadingScriptFile(_, pos, _) => *pos = new_position,
Self::ErrorParsing(err) => err.1 = new_position,
Self::ErrorFunctionNotFound(_, pos)
Self::ErrorParsing(_, pos)
| Self::ErrorFunctionNotFound(_, pos)
| Self::ErrorInFunctionCall(_, _, pos)
| Self::ErrorBooleanArgMismatch(_, pos)
| Self::ErrorCharMismatch(pos)

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@ -1,19 +1,17 @@
#![cfg(not(feature = "no_function"))]
use rhai::{Engine, EvalAltResult, Func, ParseErrorType, Scope, INT};
use rhai::{Engine, EvalAltResult, Func, ParseError, ParseErrorType, Scope, INT};
#[test]
fn test_fn() -> Result<(), Box<EvalAltResult>> {
let engine = Engine::new();
// Expect duplicated parameters error
match engine
assert!(matches!(
engine
.compile("fn hello(x, x) { x }")
.expect_err("should be error")
.error_type()
{
ParseErrorType::FnDuplicatedParam(f, p) if f == "hello" && p == "x" => (),
_ => assert!(false, "wrong error"),
}
.expect_err("should be error"),
ParseError(x, _) if *x == ParseErrorType::FnDuplicatedParam("hello".to_string(), "x".to_string())
));
Ok(())
}

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@ -7,14 +7,16 @@ fn test_constant() -> Result<(), Box<EvalAltResult>> {
assert_eq!(engine.eval::<INT>("const x = 123; x")?, 123);
assert!(matches!(
*engine.eval::<INT>("const x = 123; x = 42;").expect_err("expects error"),
EvalAltResult::ErrorParsing(err) if err.error_type() == &ParseErrorType::AssignmentToConstant("x".to_string())
*engine
.eval::<INT>("const x = 123; x = 42;")
.expect_err("expects error"),
EvalAltResult::ErrorParsing(ParseErrorType::AssignmentToConstant(x), _) if x == "x"
));
#[cfg(not(feature = "no_index"))]
assert!(matches!(
*engine.eval::<INT>("const x = [1, 2, 3, 4, 5]; x[2] = 42;").expect_err("expects error"),
EvalAltResult::ErrorParsing(err) if err.error_type() == &ParseErrorType::AssignmentToConstant("x".to_string())
EvalAltResult::ErrorParsing(ParseErrorType::AssignmentToConstant(x), _) if x == "x"
));
Ok(())

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@ -21,6 +21,8 @@ fn test_expressions() -> Result<(), Box<EvalAltResult>> {
assert!(engine.eval_expression::<()>("x = 42").is_err());
assert!(engine.compile_expression("let x = 42").is_err());
engine.compile("40 + { let x = 2; x }")?;
Ok(())
}

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@ -1,4 +1,4 @@
use rhai::{Engine, EvalAltResult, INT};
use rhai::{Engine, EvalAltResult, ParseError, ParseErrorType, INT};
#[test]
fn test_loop() -> Result<(), Box<EvalAltResult>> {
@ -26,5 +26,15 @@ fn test_loop() -> Result<(), Box<EvalAltResult>> {
21
);
assert!(matches!(
engine.compile("let x = 0; break;").expect_err("should error"),
ParseError(x, _) if *x == ParseErrorType::LoopBreak
));
assert!(matches!(
engine.compile("let x = 0; if x > 0 { continue; }").expect_err("should error"),
ParseError(x, _) if *x == ParseErrorType::LoopBreak
));
Ok(())
}

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@ -1,5 +1,7 @@
#![cfg(not(feature = "no_module"))]
use rhai::{module_resolvers, Engine, EvalAltResult, Module, Scope, INT};
use rhai::{
module_resolvers, Engine, EvalAltResult, Module, ParseError, ParseErrorType, Scope, INT,
};
#[test]
fn test_module() {
@ -231,3 +233,20 @@ fn test_module_from_ast() -> Result<(), Box<EvalAltResult>> {
Ok(())
}
#[test]
fn test_module_export() -> Result<(), Box<EvalAltResult>> {
let engine = Engine::new();
assert!(matches!(
engine.compile(r"let x = 10; { export x; }").expect_err("should error"),
ParseError(x, _) if *x == ParseErrorType::WrongExport
));
assert!(matches!(
engine.compile(r"fn abc(x) { export x; }").expect_err("should error"),
ParseError(x, _) if *x == ParseErrorType::WrongExport
));
Ok(())
}

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