use crate::Pickable; use std::marker::PhantomData; /// Represents a constraint definition for a parameter selection. /// /// This structure describes the constraints that a command-line parameter (Picker parameter item) /// should satisfy, including its full name list (with aliases), short name form, and whether it is /// positional. /// /// # Field Descriptions /// /// - `full`: Full name or alias list. For example, `["config", "cfg"]` means the parameter can be /// matched with either `--config` or `--cfg`. Must contain at least one non-empty string. /// /// - `short`: Short name (single character). For example, `Some('c')` means it can be passed using /// the `-c` form. If set to `None`, the short name form is not supported. /// /// - `positional`: Whether the parameter is positional (i.e., an argument without a flag). /// - `true`: The parameter is positional; it is matched by its position in the command line rather /// than by a `--name` or `-n` flag. /// - `false`: The parameter is a named (flag-based) parameter. /// /// - `_type`: PhantomData to hold the type parameter. #[derive(Default, Clone, Copy)] pub struct PickerFlag<'a, Type> where Type: Pickable<'a>, { /// Full name, may include variant names (aliases), e.g., `["config", "cfg"]`. pub full: &'a [&'a str], /// Short name, e.g., `'c'`. pub short: Option, /// Whether the parameter is positional (no flag, matched by position). pub positional: bool, /// PhantomData to hold the type parameter. pub internal_type: PhantomData, } impl<'a, Type> PickerFlag<'a, Type> where Type: Pickable<'a>, { /// Creates a new `PickerFlag` with the provided parameters. pub fn new(full: &'a [&'a str], short: Option, positional: bool) -> Self { Self { full, short, positional, internal_type: PhantomData, } } /// Returns the full name list (including aliases). pub fn full(&self) -> &'a [&'a str] { self.full } /// Returns the short name, if any. pub fn short(&self) -> Option { self.short } /// Returns whether the parameter is positional. /// /// If `full` is empty or `short` is `None`, the parameter is considered positional /// regardless of the stored value. pub fn is_positional(&self) -> bool { if self.full.is_empty() && self.short.is_none() { true } else { self.positional } } /// Sets the full name list. pub fn set_full(&mut self, full: &'a [&'a str]) { self.full = full; } /// Sets the short name. pub fn set_short(&mut self, short: Option) { self.short = short; } /// Sets whether the parameter is positional. pub fn set_positional(&mut self, positional: bool) { self.positional = positional; } /// Sets the full name list and returns self. pub fn with_full(mut self, full: &'a [&'a str]) -> Self { self.full = full; self } /// Clears the full name list (sets it to an empty slice) and returns self. pub fn without_full(mut self) -> Self { self.full = &[]; self } /// Sets the short name to the given character and returns self. pub fn with_short(mut self, short: char) -> Self { self.short = Some(short); self } /// Clears the short name (sets it to None) and returns self. pub fn without_short(mut self) -> Self { self.short = None; self } /// Sets whether the parameter is positional and returns self. pub fn with_positional(mut self, positional: bool) -> Self { self.positional = positional; self } } /// Describes the attribute (behavior) of a command-line parameter. /// /// The ordering reflects parse priority (higher = parsed first): /// `Positional < PositionalMulti < Flag < Single < Multi` #[derive(Debug, Default, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)] pub enum PickerFlagAttr { /// Positional argument matched by its position (e.g., an input file). #[default] Positional, /// Positional argument that accepts multiple values (e.g., multiple input files). PositionalMulti, /// Boolean flag with no associated value (e.g., `--verbose`). Flag, /// Accepts a single value (e.g., `--name Alice`). Single, /// Accepts multiple values (e.g., `--file a.txt --file b.txt`). Multi, } impl PickerFlagAttr { /// Determines if the given `PickerFlag` represents a positional parameter. /// /// If the flag is positional (determined by `flag.is_positional()`), returns /// `PickerFlagAttr::Positional`. Otherwise, invokes the `other` closure to /// produce and return a `PickerFlagAttr`. /// /// # Parameters /// /// - `flag`: A reference to the [`PickerFlag`] to evaluate. /// - `other`: A closure that returns a [`PickerFlagAttr`] when the flag is /// **not** positional. #[inline(always)] pub fn positional_or_else<'a, T>( flag: &PickerFlag<'a, T>, other: fn() -> PickerFlagAttr, ) -> PickerFlagAttr where T: Pickable<'a>, { if flag.is_positional() { PickerFlagAttr::Positional } else { other() } } /// Determines if the given `PickerFlag` represents a positional parameter and returns /// `PickerFlagAttr::Positional` if so. Otherwise, returns the provided `default` attribute. /// /// # Parameters /// /// - `flag`: A reference to the [`PickerFlag`] to evaluate. /// - `default`: The [`PickerFlagAttr`] to return if the flag is not positional. #[inline(always)] pub fn positional_or<'a, T>(flag: &PickerFlag<'a, T>, default: PickerFlagAttr) -> PickerFlagAttr where T: Pickable<'a>, { if flag.is_positional() { PickerFlagAttr::Positional } else { default } } /// Determines if the given `PickerFlag` represents a positional parameter and returns /// `PickerFlagAttr::Positional` if so. Otherwise, returns `PickerFlagAttr::Single`. /// /// # Parameters /// /// - `flag`: A reference to the [`PickerFlag`] to evaluate. #[inline(always)] pub fn positional_or_single<'a, T>(flag: &PickerFlag<'a, T>) -> PickerFlagAttr where T: Pickable<'a>, { if flag.is_positional() { PickerFlagAttr::Positional } else { PickerFlagAttr::Single } } /// Determines if the given `PickerFlag` represents a positional parameter and returns /// `PickerFlagAttr::PositionalMulti` if so. Otherwise, returns `PickerFlagAttr::Multi`. /// /// # Parameters /// /// - `flag`: A reference to the [`PickerFlag`] to evaluate. #[inline(always)] pub fn positional_or_multi<'a, T>(flag: &PickerFlag<'a, T>) -> PickerFlagAttr where T: Pickable<'a>, { if flag.is_positional() { PickerFlagAttr::PositionalMulti } else { PickerFlagAttr::Multi } } } #[cfg(test)] mod tests { use super::*; #[test] fn test_picker_flag_attr_ordering() { // Multi > Single > Flag > PositionalMulti > Positional assert!(PickerFlagAttr::Multi > PickerFlagAttr::Single); assert!(PickerFlagAttr::Multi > PickerFlagAttr::Flag); assert!(PickerFlagAttr::Multi > PickerFlagAttr::PositionalMulti); assert!(PickerFlagAttr::Multi > PickerFlagAttr::Positional); assert!(PickerFlagAttr::Single > PickerFlagAttr::Flag); assert!(PickerFlagAttr::Single > PickerFlagAttr::PositionalMulti); assert!(PickerFlagAttr::Single > PickerFlagAttr::Positional); assert!(PickerFlagAttr::Flag > PickerFlagAttr::PositionalMulti); assert!(PickerFlagAttr::Flag > PickerFlagAttr::Positional); assert!(PickerFlagAttr::PositionalMulti > PickerFlagAttr::Positional); // PartialOrd assert!(PickerFlagAttr::Multi >= PickerFlagAttr::Single); assert!(PickerFlagAttr::Single >= PickerFlagAttr::Flag); assert!(PickerFlagAttr::Flag >= PickerFlagAttr::PositionalMulti); assert!(PickerFlagAttr::PositionalMulti >= PickerFlagAttr::Positional); assert!(PickerFlagAttr::Positional < PickerFlagAttr::PositionalMulti); assert!(PickerFlagAttr::PositionalMulti < PickerFlagAttr::Flag); assert!(PickerFlagAttr::Flag < PickerFlagAttr::Single); assert!(PickerFlagAttr::Single < PickerFlagAttr::Multi); } #[test] fn test_picker_flag_attr_sorting() { // Sort let mut values = vec![ PickerFlagAttr::Flag, PickerFlagAttr::Single, PickerFlagAttr::Positional, PickerFlagAttr::Multi, PickerFlagAttr::PositionalMulti, ]; values.sort(); assert_eq!( values, vec![ PickerFlagAttr::Positional, PickerFlagAttr::PositionalMulti, PickerFlagAttr::Flag, PickerFlagAttr::Single, PickerFlagAttr::Multi, ] ); } }