// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. //! This mod provides DenoError to unify errors across Deno. use crate::colors::cyan; use crate::colors::italic_bold; use crate::colors::red; use crate::colors::yellow; use deno_core::error::format_file_name; use deno_core::error::JsError; use deno_core::error::JsStackFrame; use std::fmt::Write as _; #[derive(Debug, Clone)] struct ErrorReference<'a> { from: &'a JsError, to: &'a JsError, } #[derive(Debug, Clone)] struct IndexedErrorReference<'a> { reference: ErrorReference<'a>, index: usize, } // Keep in sync with `/core/error.js`. pub fn format_location(frame: &JsStackFrame) -> String { let _internal = frame .file_name .as_ref() .map(|f| f.starts_with("ext:")) .unwrap_or(false); if frame.is_native { return cyan("native").to_string(); } let mut result = String::new(); let file_name = frame.file_name.clone().unwrap_or_default(); if !file_name.is_empty() { result += &cyan(&format_file_name(&file_name)).to_string(); } else { if frame.is_eval { result += &(cyan(&frame.eval_origin.as_ref().unwrap()).to_string() + ", "); } result += &cyan("").to_string(); } if let Some(line_number) = frame.line_number { write!(result, ":{}", yellow(&line_number.to_string())).unwrap(); if let Some(column_number) = frame.column_number { write!(result, ":{}", yellow(&column_number.to_string())).unwrap(); } } result } fn format_frame(frame: &JsStackFrame) -> String { let _internal = frame .file_name .as_ref() .map(|f| f.starts_with("ext:")) .unwrap_or(false); let is_method_call = !(frame.is_top_level.unwrap_or_default() || frame.is_constructor); let mut result = String::new(); if frame.is_async { result += "async "; } if frame.is_promise_all { result += &italic_bold(&format!( "Promise.all (index {})", frame.promise_index.unwrap_or_default() )) .to_string(); return result; } if is_method_call { let mut formatted_method = String::new(); if let Some(function_name) = &frame.function_name { if let Some(type_name) = &frame.type_name { if !function_name.starts_with(type_name) { write!(formatted_method, "{type_name}.").unwrap(); } } formatted_method += function_name; if let Some(method_name) = &frame.method_name { if !function_name.ends_with(method_name) { write!(formatted_method, " [as {method_name}]").unwrap(); } } } else { if let Some(type_name) = &frame.type_name { write!(formatted_method, "{type_name}.").unwrap(); } if let Some(method_name) = &frame.method_name { formatted_method += method_name } else { formatted_method += ""; } } result += &italic_bold(&formatted_method).to_string(); } else if frame.is_constructor { result += "new "; if let Some(function_name) = &frame.function_name { write!(result, "{}", italic_bold(&function_name)).unwrap(); } else { result += &cyan("").to_string(); } } else if let Some(function_name) = &frame.function_name { result += &italic_bold(&function_name).to_string(); } else { result += &format_location(frame); return result; } write!(result, " ({})", format_location(frame)).unwrap(); result } /// Take an optional source line and associated information to format it into /// a pretty printed version of that line. fn format_maybe_source_line( source_line: Option<&str>, column_number: Option, is_error: bool, level: usize, ) -> String { if source_line.is_none() || column_number.is_none() { return "".to_string(); } let source_line = source_line.unwrap(); // sometimes source_line gets set with an empty string, which then outputs // an empty source line when displayed, so need just short circuit here. if source_line.is_empty() { return "".to_string(); } if source_line.contains("Couldn't format source line: ") { return format!("\n{source_line}"); } let mut s = String::new(); let column_number = column_number.unwrap(); if column_number as usize > source_line.len() { return format!( "\n{} Couldn't format source line: Column {} is out of bounds (source may have changed at runtime)", yellow("Warning"), column_number, ); } for _i in 0..(column_number - 1) { if source_line.chars().nth(_i as usize).unwrap() == '\t' { s.push('\t'); } else { s.push(' '); } } s.push('^'); let color_underline = if is_error { red(&s).to_string() } else { cyan(&s).to_string() }; let indent = format!("{:indent$}", "", indent = level); format!("\n{indent}{source_line}\n{indent}{color_underline}") } fn find_recursive_cause(js_error: &JsError) -> Option { let mut history = Vec::<&JsError>::new(); let mut current_error: &JsError = js_error; while let Some(cause) = ¤t_error.cause { history.push(current_error); if let Some(seen) = history.iter().find(|&el| cause.is_same_error(el)) { return Some(ErrorReference { from: current_error, to: seen, }); } else { current_error = cause; } } None } fn format_aggregated_error( aggregated_errors: &Vec, circular_reference_index: usize, ) -> String { let mut s = String::new(); let mut nested_circular_reference_index = circular_reference_index; for js_error in aggregated_errors { let aggregated_circular = find_recursive_cause(js_error); if aggregated_circular.is_some() { nested_circular_reference_index += 1; } let error_string = format_js_error_inner( js_error, aggregated_circular.map(|reference| IndexedErrorReference { reference, index: nested_circular_reference_index, }), false, ); for line in error_string.trim_start_matches("Uncaught ").lines() { write!(s, "\n {line}").unwrap(); } } s } fn format_js_error_inner( js_error: &JsError, circular: Option, include_source_code: bool, ) -> String { let mut s = String::new(); s.push_str(&js_error.exception_message); if let Some(circular) = &circular { if js_error.is_same_error(circular.reference.to) { write!(s, " {}", cyan(format!("", circular.index))).unwrap(); } } if let Some(aggregated) = &js_error.aggregated { let aggregated_message = format_aggregated_error( aggregated, circular .as_ref() .map(|circular| circular.index) .unwrap_or(0), ); s.push_str(&aggregated_message); } let column_number = js_error .source_line_frame_index .and_then(|i| js_error.frames.get(i).unwrap().column_number); s.push_str(&format_maybe_source_line( if include_source_code { js_error.source_line.as_deref() } else { None }, column_number, true, 0, )); for frame in &js_error.frames { write!(s, "\n at {}", format_frame(frame)).unwrap(); } if let Some(cause) = &js_error.cause { let is_caused_by_circular = circular .as_ref() .map(|circular| js_error.is_same_error(circular.reference.from)) .unwrap_or(false); let error_string = if is_caused_by_circular { cyan(format!("[Circular *{}]", circular.unwrap().index)).to_string() } else { format_js_error_inner(cause, circular, false) }; write!( s, "\nCaused by: {}", error_string.trim_start_matches("Uncaught ") ) .unwrap(); } s } /// Format a [`JsError`] for terminal output. pub fn format_js_error(js_error: &JsError) -> String { let circular = find_recursive_cause(js_error).map(|reference| IndexedErrorReference { reference, index: 1, }); format_js_error_inner(js_error, circular, true) } #[cfg(test)] mod tests { use super::*; use test_util::strip_ansi_codes; #[test] fn test_format_none_source_line() { let actual = format_maybe_source_line(None, None, false, 0); assert_eq!(actual, ""); } #[test] fn test_format_some_source_line() { let actual = format_maybe_source_line(Some("console.log('foo');"), Some(9), true, 0); assert_eq!( strip_ansi_codes(&actual), "\nconsole.log(\'foo\');\n ^" ); } }