use std::env; use std::fmt; use std::fs; use std::io; use std::path::{Path, PathBuf}; #[non_exhaustive] #[derive(Debug)] pub enum ErrorKind { FmtError(fmt::Error), IoError(io::Error), RustSyntaxError(syn::Error), ConfigError(String), ParseError(String), AnalyzeError(String), Unimplemented(String), Other(String), } impl fmt::Display for ErrorKind { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { ErrorKind::FmtError(ref e) => e.fmt(f), ErrorKind::IoError(ref e) => e.fmt(f), ErrorKind::RustSyntaxError(ref e) => write!(f, "Rust Syntax Error ({})", e), ErrorKind::ConfigError(ref e) => write!(f, "Invalid configuration ({})", e), ErrorKind::ParseError(ref msg) => write!(f, "Parse error ({})", msg), ErrorKind::AnalyzeError(ref msg) => write!(f, "Analyzation error ({})", msg), ErrorKind::Unimplemented(ref msg) => f.write_str(msg), ErrorKind::Other(ref msg) => f.write_str(msg), } } } macro_rules! impl_errorkind_conversion { ($source:ty, $kind:ident, $conv:expr, [ $($lifetimes:tt),* ]) => { impl<$($lifetimes),*> From<$source> for ErrorKind { #[inline] fn from(other: $source) -> Self { ErrorKind::$kind($conv(other)) } } }; ($source:ty, $kind:ident) => { impl_errorkind_conversion!($source, $kind, std::convert::identity, []); } } impl_errorkind_conversion!(fmt::Error, FmtError); impl_errorkind_conversion!(io::Error, IoError); impl_errorkind_conversion!(syn::Error, RustSyntaxError); impl_errorkind_conversion!(String, Other); impl_errorkind_conversion!(&'a str, Other, |s: &str| s.to_owned(), ['a]); #[derive(Debug, Default)] pub struct Error { pub(crate) source_file: Option, pub(crate) source: Option, pub(crate) offset: Option, pub(crate) chains: Vec, } impl Error { pub fn from_kind(kind: ErrorKind) -> Self { Self { chains: vec![kind], ..Self::default() } } pub fn kind(&self) -> &ErrorKind { self.chains.last().unwrap() } pub fn iter(&self) -> impl Iterator { self.chains.iter().rev() } } impl From for Error where ErrorKind: From, { fn from(other: T) -> Self { Self::from_kind(ErrorKind::from(other)) } } impl fmt::Display for Error { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let source = match (self.source.as_ref(), self.source_file.as_deref()) { (Some(s), _) => Some(s.to_owned()), (None, Some(f)) => fs::read_to_string(f).ok(), (None, None) => None, }; writeln!(f, "{}", self.chains.last().unwrap())?; for e in self.chains.iter().rev().skip(1) { writeln!(f, "caused by: {}", e)?; } f.write_str("\n")?; if let Some(ref source_file) = self.source_file { let source_file = if env::var("SAILFISH_INTEGRATION_TESTS").map_or(false, |s| s == "1") { match source_file.file_name() { Some(f) => Path::new(f), None => Path::new(""), } } else { source_file }; writeln!(f, "file: {}", source_file.display())?; } if let (Some(ref source), Some(offset)) = (source, self.offset) { let (lineno, colno) = into_line_column(source, offset); writeln!(f, "position: line {}, column {}\n", lineno, colno)?; // TODO: display adjacent lines let line = source.lines().nth(lineno - 1).unwrap(); let lpad = count_digits(lineno); writeln!(f, "{: { fn chain_err(self, kind: F) -> Result where F: FnOnce() -> EK, EK: Into; } impl ResultExt for Result { fn chain_err(self, kind: F) -> Result where F: FnOnce() -> EK, EK: Into, { self.map_err(|mut e| { e.chains.push(kind().into()); e }) } } impl> ResultExt for Result { fn chain_err(self, kind: F) -> Result where F: FnOnce() -> EK, EK: Into, { self.map_err(|e| { let mut e = Error::from(e.into()); e.chains.push(kind().into()); e }) } } fn into_line_column(source: &str, offset: usize) -> (usize, usize) { assert!( offset <= source.len(), "Internal error: error position offset overflow (error code: 56066)" ); let mut lineno = 1; let mut colno = 1; let mut current = 0; for line in source.lines() { let end = current + line.len() + 1; if offset < end { colno = offset - current + 1; break; } lineno += 1; current = end; } (lineno, colno) } fn count_digits(n: usize) -> usize { let mut current = 10; let mut digits = 1; while current <= n { current *= 10; digits += 1; } digits } macro_rules! make_error { ($kind:expr) => { $crate::Error::from_kind($kind) }; ($kind:expr, $($remain:tt)*) => {{ #[allow(unused_mut)] let mut err = $crate::Error::from_kind($kind); make_error!(@opt err $($remain)*); err }}; (@opt $var:ident $key:ident = $value:expr, $($remain:tt)*) => { $var.$key = Some($value.into()); make_error!(@opt $var $($remain)*); }; (@opt $var:ident $key:ident = $value:expr) => { $var.$key = Some($value.into()); }; (@opt $var:ident $key:ident, $($remain:tt)*) => { $var.$key = Some($key); make_error!(@opt $var $($remain)*); }; (@opt $var:ident $key:ident) => { $var.$key = Some($key); }; (@opt $var:ident) => {}; } #[cfg(test)] mod tests { use super::*; use pretty_assertions::assert_eq; #[test] fn display_error() { let mut err = make_error!( ErrorKind::AnalyzeError("mismatched types".to_owned()), source_file = PathBuf::from("apple.rs"), source = "fn func() {\n 1\n}".to_owned(), offset = 16usize ); err.chains.push(ErrorKind::Other("some error".to_owned())); assert!(matches!(err.kind(), &ErrorKind::Other(_))); assert_eq!( err.to_string(), r#"some error caused by: Analyzation error (mismatched types) file: apple.rs position: line 2, column 5 | 2 | 1 | ^ "# ); } }