use crate::math::{avg::average, utils::run_with_function}; use nu_engine::command_prelude::*; use std::cmp::Ordering; #[derive(Clone)] pub struct SubCommand; impl Command for SubCommand { fn name(&self) -> &str { "math median" } fn signature(&self) -> Signature { Signature::build("math median") .input_output_types(vec![ (Type::List(Box::new(Type::Number)), Type::Number), (Type::List(Box::new(Type::Duration)), Type::Duration), (Type::List(Box::new(Type::Filesize)), Type::Filesize), (Type::Range, Type::Number), (Type::table(), Type::record()), (Type::record(), Type::record()), ]) .allow_variants_without_examples(true) .category(Category::Math) } fn usage(&self) -> &str { "Computes the median of a list of numbers." } fn search_terms(&self) -> Vec<&str> { vec!["middle", "statistics"] } fn is_const(&self) -> bool { true } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, call: &Call, input: PipelineData, ) -> Result { run_with_function(call, input, median) } fn run_const( &self, _working_set: &StateWorkingSet, call: &Call, input: PipelineData, ) -> Result { run_with_function(call, input, median) } fn examples(&self) -> Vec { vec![ Example { description: "Compute the median of a list of numbers", example: "[3 8 9 12 12 15] | math median", result: Some(Value::test_float(10.5)), }, Example { description: "Compute the medians of the columns of a table", example: "[{a: 1 b: 3} {a: 2 b: -1} {a: -3 b: 5}] | math median", result: Some(Value::test_record(record! { "a" => Value::test_int(1), "b" => Value::test_int(3), })), }, Example { description: "Find the median of a list of file sizes", example: "[5KB 10MB 200B] | math median", result: Some(Value::test_filesize(5 * 1_000)), }, ] } } enum Pick { MedianAverage, Median, } pub fn median(values: &[Value], span: Span, head: Span) -> Result { let take = if values.len() % 2 == 0 { Pick::MedianAverage } else { Pick::Median }; let mut sorted = vec![]; for item in values { sorted.push(item.clone()); } if let Some(Err(values)) = values .windows(2) .map(|elem| { if elem[0].partial_cmp(&elem[1]).is_none() { return Err(ShellError::OperatorMismatch { op_span: head, lhs_ty: elem[0].get_type().to_string(), lhs_span: elem[0].span(), rhs_ty: elem[1].get_type().to_string(), rhs_span: elem[1].span(), }); } Ok(elem[0].partial_cmp(&elem[1]).unwrap_or(Ordering::Equal)) }) .find(|elem| elem.is_err()) { return Err(values); } sorted.sort_by(|a, b| a.partial_cmp(b).unwrap_or(Ordering::Equal)); match take { Pick::Median => { let idx = (values.len() as f64 / 2.0).floor() as usize; let out = sorted .get(idx) .ok_or_else(|| ShellError::UnsupportedInput { msg: "Empty input".to_string(), input: "value originates from here".into(), msg_span: head, input_span: span, })?; Ok(out.clone()) } Pick::MedianAverage => { let idx_end = values.len() / 2; let idx_start = idx_end - 1; let left = sorted .get(idx_start) .ok_or_else(|| ShellError::UnsupportedInput { msg: "Empty input".to_string(), input: "value originates from here".into(), msg_span: head, input_span: span, })? .clone(); let right = sorted .get(idx_end) .ok_or_else(|| ShellError::UnsupportedInput { msg: "Empty input".to_string(), input: "value originates from here".into(), msg_span: head, input_span: span, })? .clone(); average(&[left, right], span, head) } } } #[cfg(test)] mod test { use super::*; #[test] fn test_examples() { use crate::test_examples; test_examples(SubCommand {}) } }