#![allow(clippy::needless_lifetimes)] use crate::starlark::values::ValueLike; use crate::ArgType; use allocative::Allocative; use derive_more::derive::Display; use starlark::any::ProvidesStaticType; use starlark::values::starlark_value; use starlark::values::AllocValue; use starlark::values::Heap; use starlark::values::NoSerialize; use starlark::values::StarlarkValue; use starlark::values::UnpackValue; use starlark::values::Value; /// Command line option that takes a value. #[derive(Clone, Debug, Display, PartialEq, Eq, ProvidesStaticType, NoSerialize, Allocative)] #[display("opt({})", opt)] pub struct Opt { /// The option as typed on the command line, e.g., `-h` or `--help`. If /// it can be used in the `--name=value` format, then this should be /// `--name` (though this is subject to change). pub opt: String, pub meta: OptMeta, pub required: bool, } /// When defining an Opt, use as specific an OptMeta as possible. #[derive(Clone, Debug, Display, PartialEq, Eq, ProvidesStaticType, NoSerialize, Allocative)] #[display("{}", self)] pub enum OptMeta { /// Option does not take a value. Flag, /// Option takes a single value matching the specified type. Value(ArgType), } impl Opt { pub fn new(opt: String, meta: OptMeta, required: bool) -> Self { Self { opt, meta, required, } } pub fn name(&self) -> &str { &self.opt } } #[starlark_value(type = "Opt")] impl<'v> StarlarkValue<'v> for Opt { type Canonical = Opt; } impl<'v> UnpackValue<'v> for Opt { type Error = starlark::Error; fn unpack_value_impl(value: Value<'v>) -> starlark::Result<Option<Self>> { // TODO(mbolin): It fels like this should be doable without cloning? // Cannot simply consume the value? Ok(value.downcast_ref::<Opt>().cloned()) } } impl<'v> AllocValue<'v> for Opt { fn alloc_value(self, heap: &'v Heap) -> Value<'v> { heap.alloc_simple(self) } } #[starlark_value(type = "OptMeta")] impl<'v> StarlarkValue<'v> for OptMeta { type Canonical = OptMeta; }