use super::*;
#[derive(Default, Clone, Copy)]
#[must_use]
pub struct Formattable<'a> {
#[cfg(any(feature = "debug", feature = "number"))]
debug: Option<&'a dyn Debug>,
display: Option<&'a dyn Display>,
#[cfg(feature = "number")]
binary: Option<&'a dyn Binary>,
#[cfg(feature = "number")]
lower_exp: Option<&'a dyn LowerExp>,
#[cfg(feature = "number")]
lower_hex: Option<&'a dyn LowerHex>,
#[cfg(feature = "number")]
octal: Option<&'a dyn Octal>,
#[cfg(feature = "number")]
upper_exp: Option<&'a dyn UpperExp>,
#[cfg(feature = "number")]
upper_hex: Option<&'a dyn UpperHex>,
#[cfg(feature = "pointer")]
pointer: Option<PointerWrapper<'a>>,
#[cfg(feature = "iter")]
iter: Option<&'a [Formattable<'a>]>,
}
struct PlainString(&'static str);
impl Debug for PlainString {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{}", self.0)
}
}
macro_rules! formattable_debug {
($($field:ident $(: $feature:literal)?),+ $(,)?) => {
impl Debug for Formattable<'_> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let mut tuple = f.debug_tuple("Formattable");
$(
$(#[cfg(feature = $feature)])?
if self.$field.is_some() {
tuple.field(&PlainString(stringify!($field)));
}
)*
tuple.finish()
}
}
};
}
formattable_debug! {
debug: "debug",
display,
binary: "number",
lower_exp: "number",
lower_hex: "number",
octal: "number",
upper_exp: "number",
upper_hex: "number",
pointer: "pointer",
iter: "iter"
}
macro_rules! formattable_fn {
(($($cfg:tt)*), ($doc:expr), $name:ident, $builder:ident, $setter:ident <$($traits:ident),*> $($fields:ident),+) => {
#[doc = $doc]
$($cfg)* pub fn $name<T: $($traits+)*>(value: &'a T) -> Self {
#[allow(clippy::needless_update)]
Self {
$($fields: Some(value),)*
..Default::default()
}
}
#[doc = $doc]
$($cfg)* pub fn $builder<T: $($traits+)*>(mut self, value: &'a T) -> Self {
$(self.$fields = Some(value);)*
self
}
#[doc = $doc]
$($cfg)* pub fn $setter<T: $($traits+)*>(&mut self, value: &'a T) {
$(self.$fields = Some(value);)*
}
};
(($($cfg:tt)*), (), $name:ident, $builder:ident, $setter:ident, $getter:ident<$trait:ident>) => {
formattable_fn!(($($cfg)*), (concat!("[`",stringify!($trait),"`]")), $name, $builder, $setter<$trait> $name);
$($cfg)* pub(crate) fn $getter(&self) -> Result<&dyn $trait, Trait> {
self.$name.ok_or(Trait::$trait)
}
};
}
macro_rules! formattable {
[$($($cfg:literal, $($doc:literal,)?)? $name:ident, $builder:ident, $setter:ident $(, $getter:ident)?<$($traits:ident),*> $($fields:ident),*;)*] => {
impl<'a> Formattable<'a> {
$(formattable_fn!(($(#[cfg(feature=$cfg)])?), ($($($doc)?)?), $name, $builder, $setter $(, $getter)?<$($traits),*> $($fields),*);)*
}
};
}
formattable![
"debug", "[`Debug`] and [`Display`]", debug_display, and_debug_display, set_debug_display<Debug, Display> debug, display;
"debug", debug, and_debug, set_debug, get_debug<Debug>;
display, and_display, set_display, get_display<Display>;
"number", "[`Debug`], [`Display`], [`Octal`], [`LowerHex`], [`UpperHex`], [`Binary`], [`LowerExp`] and [`UpperExp`]", integer, and_integer, set_integer<Binary, Debug, Display, LowerExp, LowerHex, Octal, UpperExp, UpperHex>
binary, debug, display, lower_exp, lower_hex, octal, upper_exp, upper_hex;
"number", "[`Debug`], [`Display`], [`LowerExp`] and [`UpperExp`]", float, and_float, set_float<Debug, Display, LowerExp, UpperExp>
debug, display, lower_exp, upper_exp;
"number", binary, and_binary, set_binary, get_binary<Binary>;
"number", lower_exp, and_lower_exp, set_lower_exp, get_lower_exp<LowerExp>;
"number", lower_hex, and_lower_hex, set_lower_hex, get_lower_hex<LowerHex>;
"number", octal, and_octal, set_octal, get_octal<Octal>;
"number", upper_exp, and_upper_exp, set_upper_exp, get_upper_exp<UpperExp>;
"number", upper_hex, and_upper_hex, set_upper_hex, get_upper_hex<UpperHex>;
];
#[cfg(feature = "pointer")]
impl<'a> Formattable<'a> {
pub fn pointer<T: Pointer>(value: &'a T) -> Self {
Self::default().and_pointer(value)
}
pub fn and_pointer<T: Pointer>(mut self, value: &'a T) -> Self {
self.pointer = Some(PointerWrapper(value));
self
}
pub fn set_pointer<T: Pointer>(&mut self, value: &'a T) {
self.pointer = Some(PointerWrapper(value));
}
pub(crate) fn get_pointer(&self) -> Result<PointerWrapper, Trait> {
self.pointer.ok_or(Trait::Pointer)
}
}
#[cfg(feature = "iter")]
impl<'a> Formattable<'a> {
pub fn iter(value: &'a [Formattable<'a>]) -> Self {
Self::default().and_iter(value)
}
pub fn and_iter(mut self, value: &'a [Formattable<'a>]) -> Self {
self.iter = Some(value);
self
}
pub fn set_iter(&mut self, value: &'a [Formattable<'a>]) {
self.iter = Some(value);
}
pub(crate) fn get_iter(&self) -> Result<&'a [Formattable<'a>], Trait> {
self.iter.ok_or(Trait::Iter)
}
}
#[cfg(feature = "pointer")]
#[derive(Clone, Copy)]
pub(crate) struct PointerWrapper<'a>(&'a dyn Pointer);
#[cfg(feature = "pointer")]
impl Pointer for PointerWrapper<'_> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
Pointer::fmt(self.0, f)
}
}
#[cfg(all(feature = "display", feature = "debug"))]
impl<'a, T: Display + Debug> From<&'a T> for Formattable<'a> {
fn from(value: &'a T) -> Self {
Self::debug_display(value)
}
}