use crate::commands::math::utils::run_with_function; use crate::commands::WholeStreamCommand; use crate::prelude::*; use crate::utils::data_processing::{reducer_for, Reduce}; use bigdecimal::{FromPrimitive, Zero}; use nu_errors::ShellError; use nu_protocol::{ hir::{convert_number_to_u64, Number, Operator}, Primitive, Signature, UntaggedValue, Value, }; pub struct SubCommand; #[async_trait] impl WholeStreamCommand for SubCommand { fn name(&self) -> &str { "math median" } fn signature(&self) -> Signature { Signature::build("math median") } fn usage(&self) -> &str { "Gets the median of a list of numbers" } async fn run( &self, args: CommandArgs, registry: &CommandRegistry, ) -> Result { run_with_function( RunnableContext { input: args.input, registry: registry.clone(), shell_manager: args.shell_manager, host: args.host, ctrl_c: args.ctrl_c, current_errors: args.current_errors, name: args.call_info.name_tag, raw_input: args.raw_input, }, median, ) .await } fn examples(&self) -> Vec { vec![Example { description: "Get the median of a list of numbers", example: "echo [3 8 9 12 12 15] | math median", result: Some(vec![UntaggedValue::decimal(10.5).into()]), }] } } enum Pick { MedianAverage, Median, } pub fn median(values: &[Value], name: &Tag) -> 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()); } crate::commands::sort_by::sort(&mut sorted, &[], name)?; match take { Pick::Median => { let idx = (values.len() as f64 / 2.0).floor() as usize; let out = sorted.get(idx).ok_or_else(|| { ShellError::labeled_error( "could not extract value", "could not extract value", &name.span, ) })?; Ok(out.clone()) } Pick::MedianAverage => { let idx_end = (values.len() / 2) as usize; let idx_start = idx_end - 1; let left = sorted .get(idx_start) .ok_or_else(|| { ShellError::labeled_error( "could not extract value", "could not extract value", &name.span, ) })? .clone(); let right = sorted .get(idx_end) .ok_or_else(|| { ShellError::labeled_error( "could not extract value", "could not extract value", &name.span, ) })? .clone(); compute_average(&[left, right], name) } } } fn compute_average(values: &[Value], name: impl Into) -> Result { let name = name.into(); let sum = reducer_for(Reduce::Summation); let number = BigDecimal::from_usize(2).ok_or_else(|| { ShellError::labeled_error( "could not convert to big decimal", "could not convert to big decimal", &name, ) })?; let total_rows = UntaggedValue::decimal(number); let total = sum(Value::zero(), values.to_vec())?; match total { Value { value: UntaggedValue::Primitive(Primitive::Filesize(num)), .. } => { let left = UntaggedValue::from(Primitive::Int(num.into())); let result = crate::data::value::compute_values(Operator::Divide, &left, &total_rows); match result { Ok(UntaggedValue::Primitive(Primitive::Decimal(result))) => { let number = Number::Decimal(result); let number = convert_number_to_u64(&number); Ok(UntaggedValue::filesize(number).into_value(name)) } Ok(_) => Err(ShellError::labeled_error( "could not calculate median of non-numeric or unrelated types", "source", name, )), Err((left_type, right_type)) => Err(ShellError::coerce_error( left_type.spanned(name.span), right_type.spanned(name.span), )), } } Value { value: UntaggedValue::Primitive(other), .. } => { let left = UntaggedValue::from(other); let result = crate::data::value::compute_values(Operator::Divide, &left, &total_rows); match result { Ok(value) => Ok(value.into_value(name)), Err((left_type, right_type)) => Err(ShellError::coerce_error( left_type.spanned(name.span), right_type.spanned(name.span), )), } } _ => Err(ShellError::labeled_error( "could not calculate median of non-numeric or unrelated types", "source", name, )), } } #[cfg(test)] mod tests { use super::SubCommand; #[test] fn examples_work_as_expected() { use crate::examples::test as test_examples; test_examples(SubCommand {}) } }