//! Module containing error definitions for the parsing process. use crate::tokenizer::is_valid_identifier; use crate::{Position, RhaiError, ERR}; #[cfg(feature = "no_std")] use core_error::Error; #[cfg(not(feature = "no_std"))] use std::error::Error; use std::fmt; #[cfg(feature = "no_std")] use std::prelude::v1::*; /// Error encountered when tokenizing the script text. #[derive(Debug, Eq, PartialEq, Clone, Hash)] #[non_exhaustive] pub enum LexError { /// An unexpected symbol is encountered when tokenizing the script text. UnexpectedInput(String), /// A string literal is not terminated before a new-line or EOF. UnterminatedString, /// An identifier is in an invalid format. StringTooLong(usize), /// An string/character/numeric escape sequence is in an invalid format. MalformedEscapeSequence(String), /// An numeric literal is in an invalid format. MalformedNumber(String), /// An character literal is in an invalid format. MalformedChar(String), /// An identifier is in an invalid format. MalformedIdentifier(String), /// Bad symbol encountered when tokenizing the script text. ImproperSymbol(String, String), } impl Error for LexError {} impl fmt::Display for LexError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { Self::UnexpectedInput(s) => write!(f, "Unexpected '{}'", s), Self::MalformedEscapeSequence(s) => write!(f, "Invalid escape sequence: '{}'", s), Self::MalformedNumber(s) => write!(f, "Invalid number: '{}'", s), Self::MalformedChar(s) => write!(f, "Invalid character: '{}'", s), Self::MalformedIdentifier(s) => write!(f, "Variable name is not proper: '{}'", s), Self::UnterminatedString => f.write_str("Open string is not terminated"), Self::StringTooLong(max) => write!( f, "Length of string literal exceeds the maximum limit ({})", max ), Self::ImproperSymbol(s, d) if d.is_empty() => { write!(f, "Invalid symbol encountered: '{}'", s) } Self::ImproperSymbol(.., d) => f.write_str(d), } } } impl LexError { /// Convert a [`LexError`] into a [`ParseError`]. #[inline(always)] #[must_use] pub fn into_err(self, pos: Position) -> ParseError { ParseError(Box::new(self.into()), pos) } } /// Error encountered when parsing a script. /// /// Some errors never appear when certain features are turned on. /// They still exist so that the application can turn features on and off without going through /// massive code changes to remove/add back enum variants in match statements. #[derive(Debug, Eq, PartialEq, Clone, Hash)] #[non_exhaustive] pub enum ParseErrorType { /// The script ends prematurely. UnexpectedEOF, /// Error in the script text. Wrapped value is the lex error. BadInput(LexError), /// An unknown operator is encountered. Wrapped value is the operator. UnknownOperator(String), /// Expecting a particular token but not finding one. Wrapped values are the token and description. MissingToken(String, String), /// Expecting a particular symbol but not finding one. Wrapped value is the description. MissingSymbol(String), /// An expression in function call arguments `()` has syntax error. Wrapped value is the error /// description (if any). MalformedCallExpr(String), /// An expression in indexing brackets `[]` has syntax error. Wrapped value is the error /// description (if any). MalformedIndexExpr(String), /// An expression in an `in` expression has syntax error. Wrapped value is the error description (if any). MalformedInExpr(String), /// A capturing has syntax error. Wrapped value is the error description (if any). MalformedCapture(String), /// A map definition has duplicated property names. Wrapped value is the property name. DuplicatedProperty(String), /// A `switch` case is duplicated. DuplicatedSwitchCase, /// A variable name is duplicated. Wrapped value is the variable name. DuplicatedVariable(String), /// An integer case of a `switch` statement is in an appropriate place. WrongSwitchIntegerCase, /// The default case of a `switch` statement is in an appropriate place. WrongSwitchDefaultCase, /// The case condition of a `switch` statement is not appropriate. WrongSwitchCaseCondition, /// Missing a property name for custom types and maps. PropertyExpected, /// Missing a variable name after the `let`, `const`, `for` or `catch` keywords. VariableExpected, /// Forbidden variable name. Wrapped value is the variable name. ForbiddenVariable(String), /// An identifier is a reserved symbol. Reserved(String), /// An expression is of the wrong type. /// Wrapped values are the type requested and type of the actual result. MismatchedType(String, String), /// Missing an expression. Wrapped value is the expression type. ExprExpected(String), /// Defining a doc-comment in an appropriate place (e.g. not at global level). WrongDocComment, /// Defining a function `fn` in an appropriate place (e.g. inside another function). WrongFnDefinition, /// Defining a function with a name that conflicts with an existing function. /// Wrapped values are the function name and number of parameters. FnDuplicatedDefinition(String, usize), /// Missing a function name after the `fn` keyword. FnMissingName, /// A function definition is missing the parameters list. Wrapped value is the function name. FnMissingParams(String), /// A function definition has duplicated parameters. Wrapped values are the function name and /// parameter name. FnDuplicatedParam(String, String), /// A function definition is missing the body. Wrapped value is the function name. FnMissingBody(String), /// Export statement not at global level. WrongExport, /// Assignment to an a constant variable. Wrapped value is the constant variable name. AssignmentToConstant(String), /// Assignment to an inappropriate LHS (left-hand-side) expression. /// Wrapped value is the error message (if any). AssignmentToInvalidLHS(String), /// A variable is already defined. /// /// Only appears when variables shadowing is disabled. VariableExists(String), /// A variable is not found. /// /// Only appears when strict variables mode is enabled. VariableUndefined(String), /// An imported module is not found. /// /// Only appears when strict variables mode is enabled. ModuleUndefined(String), /// Expression exceeding the maximum levels of complexity. ExprTooDeep, /// Literal exceeding the maximum size. Wrapped values are the data type name and the maximum size. LiteralTooLarge(String, usize), /// Break statement not inside a loop. LoopBreak, } impl ParseErrorType { /// Make a [`ParseError`] using the current type and position. #[inline(always)] #[must_use] pub(crate) fn into_err(self, pos: Position) -> ParseError { ParseError(self.into(), pos) } } impl fmt::Display for ParseErrorType { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { Self::BadInput(err) => write!(f, "{}", err), Self::UnknownOperator(s) => write!(f, "Unknown operator: '{}'", s), Self::MalformedCallExpr(s) => match s.as_str() { "" => f.write_str("Invalid expression in function call arguments"), s => f.write_str(s) }, Self::MalformedIndexExpr(s) => match s.as_str() { "" => f.write_str("Invalid index in indexing expression"), s => f.write_str(s) }, Self::MalformedInExpr(s) => match s.as_str() { "" => f.write_str("Invalid 'in' expression"), s => f.write_str(s) }, Self::MalformedCapture(s) => match s.as_str() { "" => f.write_str("Invalid capturing"), s => f.write_str(s) }, Self::FnDuplicatedDefinition(s, n) => { write!(f, "Function {} with ", s)?; match n { 0 => f.write_str("no parameters already exists"), 1 => f.write_str("1 parameter already exists"), _ => write!(f, "{} parameters already exists", n), } } Self::FnMissingBody(s) => match s.as_str() { "" => f.write_str("Expecting body statement block for anonymous function"), s => write!(f, "Expecting body statement block for function {}", s) }, Self::FnMissingParams(s) => write!(f, "Expecting parameters for function {}", s), Self::FnDuplicatedParam(s, arg) => write!(f, "Duplicated parameter {} for function {}", arg, s), Self::DuplicatedProperty(s) => write!(f, "Duplicated property for object map literal: {}", s), Self::DuplicatedSwitchCase => f.write_str("Duplicated switch case"), Self::DuplicatedVariable(s) => write!(f, "Duplicated variable name: {}", s), Self::VariableExists(s) => write!(f, "Variable already defined: {}", s), Self::VariableUndefined(s) => write!(f, "Undefined variable: {}", s), Self::ModuleUndefined(s) => write!(f, "Undefined module: {}", s), Self::MismatchedType(r, a) => write!(f, "Expecting {}, not {}", r, a), Self::ExprExpected(s) => write!(f, "Expecting {} expression", s), Self::MissingToken(token, s) => write!(f, "Expecting '{}' {}", token, s), Self::MissingSymbol(s) if s.is_empty() => f.write_str("Expecting a symbol"), Self::MissingSymbol(s) => f.write_str(s), Self::AssignmentToConstant(s) => match s.as_str() { "" => f.write_str("Cannot assign to a constant value"), s => write!(f, "Cannot assign to constant {}", s) }, Self::AssignmentToInvalidLHS(s) => match s.as_str() { "" => f.write_str("Expression cannot be assigned to"), s => f.write_str(s) }, Self::LiteralTooLarge(typ, max) => write!(f, "{} exceeds the maximum limit ({})", typ, max), Self::Reserved(s) if is_valid_identifier(s.chars()) => write!(f, "'{}' is a reserved keyword", s), Self::Reserved(s) => write!(f, "'{}' is a reserved symbol", s), Self::UnexpectedEOF => f.write_str("Script is incomplete"), Self::WrongSwitchIntegerCase => f.write_str("Integer switch case cannot follow a range case"), Self::WrongSwitchDefaultCase => f.write_str("Default switch case must be the last"), Self::WrongSwitchCaseCondition => f.write_str("This switch case cannot have a condition"), Self::PropertyExpected => f.write_str("Expecting name of a property"), Self::VariableExpected => f.write_str("Expecting name of a variable"), Self::ForbiddenVariable(s) => write!(f, "Forbidden variable name: {}", s), Self::WrongFnDefinition => f.write_str("Function definitions must be at global level and cannot be inside a block or another function"), Self::FnMissingName => f.write_str("Expecting function name in function declaration"), Self::WrongDocComment => f.write_str("Doc-comment must be followed immediately by a function definition"), Self::WrongExport => f.write_str("Export statement can only appear at global level"), Self::ExprTooDeep => f.write_str("Expression exceeds maximum complexity"), Self::LoopBreak => f.write_str("Break statement should only be used inside a loop"), } } } impl From for ParseErrorType { #[inline(never)] fn from(err: LexError) -> Self { match err { LexError::StringTooLong(max) => { Self::LiteralTooLarge("Length of string literal".to_string(), max) } _ => Self::BadInput(err), } } } /// Error when parsing a script. #[derive(Debug, Eq, PartialEq, Clone, Hash)] pub struct ParseError(pub Box, pub Position); impl Error for ParseError {} impl fmt::Display for ParseError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { fmt::Display::fmt(&self.0, f)?; // Do not write any position if None if !self.1.is_none() { write!(f, " ({})", self.1)?; } Ok(()) } } impl From for RhaiError { #[inline(always)] fn from(err: ParseErrorType) -> Self { Box::new(err.into()) } } impl From for ERR { #[inline(always)] fn from(err: ParseErrorType) -> Self { ERR::ErrorParsing(err, Position::NONE) } } impl From for RhaiError { #[inline(always)] fn from(err: ParseError) -> Self { Box::new(err.into()) } } impl From for ERR { #[inline(always)] fn from(err: ParseError) -> Self { ERR::ErrorParsing(*err.0, err.1) } }