use nu_engine::{command_prelude::*, ClosureEval}; use nu_protocol::engine::Closure; #[derive(Clone)] pub struct Generate; impl Command for Generate { fn name(&self) -> &str { "generate" } fn signature(&self) -> Signature { Signature::build("generate") .input_output_types(vec![ (Type::Nothing, Type::list(Type::Any)), (Type::list(Type::Any), Type::list(Type::Any)), (Type::table(), Type::list(Type::Any)), (Type::Range, Type::list(Type::Any)), ]) .required( "closure", SyntaxShape::Closure(Some(vec![SyntaxShape::Any, SyntaxShape::Any])), "Generator function.", ) .optional("initial", SyntaxShape::Any, "Initial value.") .allow_variants_without_examples(true) .category(Category::Generators) } fn description(&self) -> &str { "Generate a list of values by successively invoking a closure." } fn extra_description(&self) -> &str { r#"The generator closure accepts a single argument and returns a record containing two optional keys: 'out' and 'next'. Each invocation, the 'out' value, if present, is added to the stream. If a 'next' key is present, it is used as the next argument to the closure, otherwise generation stops. Additionally, if an input stream is provided, the generator closure accepts two arguments. On each invocation an element of the input stream is provided as the first argument. The second argument is the `next` value from the last invocation. In this case, generation also stops when the input stream stops."# } fn search_terms(&self) -> Vec<&str> { vec!["unfold", "stream", "yield", "expand", "state", "scan"] } fn examples(&self) -> Vec { vec![ Example { example: "generate {|i| if $i <= 10 { {out: $i, next: ($i + 2)} }} 0", description: "Generate a sequence of numbers", result: Some(Value::list( vec![ Value::test_int(0), Value::test_int(2), Value::test_int(4), Value::test_int(6), Value::test_int(8), Value::test_int(10), ], Span::test_data(), )), }, Example { example: "generate {|fib| {out: $fib.0, next: [$fib.1, ($fib.0 + $fib.1)]} } [0, 1]", description: "Generate a continuous stream of Fibonacci numbers", result: None, }, Example { example: "generate {|fib=[0, 1]| {out: $fib.0, next: [$fib.1, ($fib.0 + $fib.1)]} }", description: "Generate a continuous stream of Fibonacci numbers, using default parameters", result: None, }, Example { example: "1..5 | generate {|e, sum=0| let sum = $e + $sum; {out: $sum, next: $sum} }", description: "Generate a running sum of the inputs", result: Some(Value::test_list(vec![ Value::test_int(1), Value::test_int(3), Value::test_int(6), Value::test_int(10), Value::test_int(15), ])), }, ] } fn run( &self, engine_state: &EngineState, stack: &mut Stack, call: &Call, input: PipelineData, ) -> Result { let head = call.head; let closure: Closure = call.req(engine_state, stack, 0)?; let initial: Option = call.opt(engine_state, stack, 1)?; let block = engine_state.get_block(closure.block_id); let mut closure = ClosureEval::new(engine_state, stack, closure); match input { PipelineData::Empty => { // A type of Option is used to represent state. Invocation // will stop on None. Using Option allows functions to output // one final value before stopping. let mut state = Some(get_initial_state(initial, &block.signature, call.head)?); let iter = std::iter::from_fn(move || { let state_arg = state.take()?; let closure_result = closure .add_arg(state_arg) .run_with_input(PipelineData::Empty); let (output, next_input) = parse_closure_result(closure_result, head); // We use `state` to control when to stop, not `output`. By wrapping // it in a `Some`, we allow the generator to output `None` as a valid output // value. state = next_input; Some(output) }); Ok(iter .flatten() .into_pipeline_data(call.head, engine_state.signals().clone())) } input @ (PipelineData::Value(Value::Range { .. }, ..) | PipelineData::Value(Value::List { .. }, ..) | PipelineData::ListStream(..)) => { let mut state = Some(get_initial_state(initial, &block.signature, call.head)?); let iter = input.into_iter().map_while(move |item| { let state_arg = state.take()?; let closure_result = closure .add_arg(item) .add_arg(state_arg) .run_with_input(PipelineData::Empty); let (output, next_input) = parse_closure_result(closure_result, head); state = next_input; Some(output) }); Ok(iter .flatten() .into_pipeline_data(call.head, engine_state.signals().clone())) } _ => Err(ShellError::PipelineMismatch { exp_input_type: "nothing".to_string(), dst_span: head, src_span: input.span().unwrap_or(head), }), } } } fn get_initial_state( initial: Option, signature: &Signature, span: Span, ) -> Result { match initial { Some(v) => Ok(v), None => { // the initial state should be referred from signature if !signature.optional_positional.is_empty() && signature.optional_positional[0].default_value.is_some() { Ok(signature.optional_positional[0] .default_value .clone() .expect("Already checked default value")) } else { Err(ShellError::GenericError { error: "The initial value is missing".to_string(), msg: "Missing initial value".to_string(), span: Some(span), help: Some( "Provide an value as an argument to generate, or assign a default value to the closure parameter" .to_string(), ), inner: vec![], }) } } } } fn parse_closure_result( closure_result: Result, head: Span, ) -> (Option, Option) { match closure_result { // no data -> output nothing and stop. Ok(PipelineData::Empty) => (None, None), Ok(PipelineData::Value(value, ..)) => { let span = value.span(); match value { // {out: ..., next: ...} -> output and continue Value::Record { val, .. } => { let iter = val.into_owned().into_iter(); let mut out = None; let mut next = None; let mut err = None; for (k, v) in iter { if k.eq_ignore_ascii_case("out") { out = Some(v); } else if k.eq_ignore_ascii_case("next") { next = Some(v); } else { let error = ShellError::GenericError { error: "Invalid block return".into(), msg: format!("Unexpected record key '{}'", k), span: Some(span), help: None, inner: vec![], }; err = Some(Value::error(error, head)); break; } } if err.is_some() { (err, None) } else { (out, next) } } // some other value -> error and stop _ => { let error = ShellError::GenericError { error: "Invalid block return".into(), msg: format!("Expected record, found {}", value.get_type()), span: Some(span), help: None, inner: vec![], }; (Some(Value::error(error, head)), None) } } } Ok(other) => { let error = other .into_value(head) .map(|val| ShellError::GenericError { error: "Invalid block return".into(), msg: format!("Expected record, found {}", val.get_type()), span: Some(val.span()), help: None, inner: vec![], }) .unwrap_or_else(|err| err); (Some(Value::error(error, head)), None) } // error -> error and stop Err(error) => (Some(Value::error(error, head)), None), } } #[cfg(test)] mod test { use super::*; #[test] fn test_examples() { use crate::test_examples; test_examples(Generate {}) } }