use nu_engine::CallExt; use nu_protocol::ast::Call; use nu_protocol::engine::{Command, EngineState, Stack}; use nu_protocol::{ Category, Example, ListStream, PipelineData, ShellError, Signature, Span, Spanned, SyntaxShape, Value, }; use regex::Regex; #[derive(Clone)] pub struct Parse; impl Command for Parse { fn name(&self) -> &str { "parse" } fn usage(&self) -> &str { "Parse columns from string data using a simple pattern." } fn signature(&self) -> nu_protocol::Signature { Signature::build("parse") .required( "pattern", SyntaxShape::String, "the pattern to match. Eg) \"{foo}: {bar}\"", ) .switch("regex", "use full regex syntax for patterns", Some('r')) .category(Category::Strings) } fn examples(&self) -> Vec { let result = Value::List { vals: vec![Value::Record { cols: vec!["foo".to_string(), "bar".to_string()], vals: vec![Value::test_string("hi"), Value::test_string("there")], span: Span::test_data(), }], span: Span::test_data(), }; vec![ Example { description: "Parse a string into two named columns", example: "echo \"hi there\" | parse \"{foo} {bar}\"", result: Some(result.clone()), }, Example { description: "Parse a string using regex pattern", example: "echo \"hi there\" | parse -r \"(?P\\w+) (?P\\w+)\"", result: Some(result), }, ] } fn run( &self, engine_state: &EngineState, stack: &mut Stack, call: &Call, input: PipelineData, ) -> Result { operate(engine_state, stack, call, input) } } fn operate( engine_state: &EngineState, stack: &mut Stack, call: &Call, input: PipelineData, ) -> Result { let head = call.head; let pattern: Spanned = call.req(engine_state, stack, 0)?; let regex: bool = call.has_flag("regex"); let ctrlc = engine_state.ctrlc.clone(); let pattern_item = pattern.item; let pattern_span = pattern.span; let item_to_parse = if regex { pattern_item } else { build_regex(&pattern_item, pattern_span)? }; let regex_pattern = Regex::new(&item_to_parse).map_err(|e| parse_regex_error(e, pattern_span))?; let columns = column_names(®ex_pattern); let mut parsed: Vec = Vec::new(); for v in input { match v.as_string() { Ok(s) => { let results = regex_pattern.captures_iter(&s); for c in results { let mut cols = Vec::with_capacity(columns.len()); let mut vals = Vec::with_capacity(c.len()); for (column_name, cap) in columns.iter().zip(c.iter().skip(1)) { let cap_string = cap.map(|v| v.as_str()).unwrap_or("").to_string(); cols.push(column_name.clone()); vals.push(Value::String { val: cap_string, span: v.span()?, }); } parsed.push(Value::Record { cols, vals, span: head, }); } } Err(_) => { return Err(ShellError::PipelineMismatch( "string".into(), head, v.span()?, )) } } } Ok(PipelineData::ListStream( ListStream::from_stream(parsed.into_iter(), ctrlc), None, )) } fn build_regex(input: &str, span: Span) -> Result { let mut output = "(?s)\\A".to_string(); //let mut loop_input = input; let mut loop_input = input.chars().peekable(); loop { let mut before = String::new(); while let Some(c) = loop_input.next() { if c == '{' { // If '{{', still creating a plaintext parse command, but just for a single '{' char if loop_input.peek() == Some(&'{') { let _ = loop_input.next(); } else { break; } } before.push(c); } if !before.is_empty() { output.push_str(®ex::escape(&before)); } // Look for column as we're now at one let mut column = String::new(); while let Some(c) = loop_input.next() { if c == '}' { break; } column.push(c); if loop_input.peek().is_none() { return Err(ShellError::DelimiterError( "Found opening `{` without an associated closing `}`".to_owned(), span, )); } } if !column.is_empty() { output.push_str("(?P<"); output.push_str(&column); output.push_str(">.*?)"); } if before.is_empty() && column.is_empty() { break; } } output.push_str("\\z"); Ok(output) } fn column_names(regex: &Regex) -> Vec { regex .capture_names() .enumerate() .skip(1) .map(|(i, name)| { name.map(String::from) .unwrap_or_else(|| format!("Capture{}", i)) }) .collect() } fn parse_regex_error(e: regex::Error, base_span: Span) -> ShellError { match e { regex::Error::Syntax(msg) => { let mut lines = msg.lines(); let main_msg = lines .next() .map(|l| l.replace(':', "")) .expect("invalid regex pattern"); let span = lines.nth(1).and_then(|l| l.find('^')).map(|space| { let start = base_span.start + space - 3; Span::new(start, start + 1) }); let msg = lines .next() .and_then(|l| l.split(':').nth(1)) .map(|s| format!("{}: {}", main_msg, s.trim())); match (msg, span) { (Some(msg), Some(span)) => ShellError::DelimiterError(msg, span), _ => ShellError::DelimiterError("Invalid regex".to_owned(), base_span), } } _ => ShellError::DelimiterError("Invalid regex".to_owned(), base_span), } } #[cfg(test)] mod test { use super::*; #[test] fn test_examples() { crate::test_examples(Parse) } }