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//! Macros for use within the library. They are not publicly available.
/// Helper macro for easily implementing `OpAssign`.
macro_rules! __impl_assign {
($sym:tt $op:ident $fn:ident $target:ty : $($(#[$attr:meta])* $t:ty),+) => {$(
#[allow(unused_qualifications)]
$(#[$attr])*
impl core::ops::$op<$t> for $target {
fn $fn(&mut self, rhs: $t) {
*self = *self $sym rhs;
}
}
)+};
}
/// Implement `AddAssign` for the provided types.
macro_rules! impl_add_assign {
($target:ty : $($(#[$attr:meta])* $t:ty),+ $(,)?) => {
$crate::internal_macros::__impl_assign!(
+ AddAssign add_assign $target : $($(#[$attr])* $t),+
);
};
}
/// Implement `SubAssign` for the provided types.
macro_rules! impl_sub_assign {
($target:ty : $($(#[$attr:meta])* $t:ty),+ $(,)?) => {
$crate::internal_macros::__impl_assign!(
- SubAssign sub_assign $target : $($(#[$attr])* $t),+
);
};
}
/// Implement `MulAssign` for the provided types.
macro_rules! impl_mul_assign {
($target:ty : $($(#[$attr:meta])* $t:ty),+ $(,)?) => {
$crate::internal_macros::__impl_assign!(
* MulAssign mul_assign $target : $($(#[$attr])* $t),+
);
};
}
/// Implement `DivAssign` for the provided types.
macro_rules! impl_div_assign {
($target:ty : $($(#[$attr:meta])* $t:ty),+ $(,)?) => {
$crate::internal_macros::__impl_assign!(
/ DivAssign div_assign $target : $($(#[$attr])* $t),+
);
};
}
/// Division of integers, rounding the resulting value towards negative infinity.
macro_rules! div_floor {
($a:expr, $b:expr) => {{
let _a = $a;
let _b = $b;
let (_quotient, _remainder) = (_a / _b, _a % _b);
if (_remainder > 0 && _b < 0) || (_remainder < 0 && _b > 0) {
_quotient - 1
} else {
_quotient
}
}};
}
/// Cascade an out-of-bounds value.
macro_rules! cascade {
(@ordinal ordinal) => {};
(@year year) => {};
// Cascade an out-of-bounds value from "from" to "to".
($from:ident in $min:literal.. $max:expr => $to:tt) => {
#[allow(unused_comparisons, unused_assignments)]
let min = $min;
let max = $max;
if $from >= max {
$from -= max - min;
$to += 1;
} else if $from < min {
$from += max - min;
$to -= 1;
}
};
// Special case the ordinal-to-year cascade, as it has different behavior.
($ordinal:ident => $year:ident) => {
// We need to actually capture the idents. Without this, macro hygiene causes errors.
cascade!(@ordinal $ordinal);
cascade!(@year $year);
#[allow(unused_assignments)]
if $ordinal > crate::util::days_in_year($year) as i16 {
$ordinal -= crate::util::days_in_year($year) as i16;
$year += 1;
} else if $ordinal < 1 {
$year -= 1;
$ordinal += crate::util::days_in_year($year) as i16;
}
};
}
/// Constructs a ranged integer, returning a `ComponentRange` error if the value is out of range.
macro_rules! ensure_ranged {
($type:ident : $value:ident) => {
match $type::new($value) {
Some(val) => val,
None => {
#[allow(trivial_numeric_casts)]
return Err(crate::error::ComponentRange {
name: stringify!($value),
minimum: $type::MIN.get() as _,
maximum: $type::MAX.get() as _,
value: $value as _,
conditional_range: false,
});
}
}
};
($type:ident : $value:ident $(as $as_type:ident)? * $factor:expr) => {
match ($value $(as $as_type)?).checked_mul($factor) {
Some(val) => match $type::new(val) {
Some(val) => val,
None => {
#[allow(trivial_numeric_casts)]
return Err(crate::error::ComponentRange {
name: stringify!($value),
minimum: $type::MIN.get() as i64 / $factor as i64,
maximum: $type::MAX.get() as i64 / $factor as i64,
value: $value as _,
conditional_range: false,
});
}
},
None => {
return Err(crate::error::ComponentRange {
name: stringify!($value),
minimum: $type::MIN.get() as i64 / $factor as i64,
maximum: $type::MAX.get() as i64 / $factor as i64,
value: $value as _,
conditional_range: false,
});
}
}
};
}
/// Try to unwrap an expression, returning if not possible.
///
/// This is similar to the `?` operator, but does not perform `.into()`. Because of this, it is
/// usable in `const` contexts.
macro_rules! const_try {
($e:expr) => {
match $e {
Ok(value) => value,
Err(error) => return Err(error),
}
};
}
/// Try to unwrap an expression, returning if not possible.
///
/// This is similar to the `?` operator, but is usable in `const` contexts.
macro_rules! const_try_opt {
($e:expr) => {
match $e {
Some(value) => value,
None => return None,
}
};
}
/// Try to unwrap an expression, panicking if not possible.
///
/// This is similar to `$e.expect($message)`, but is usable in `const` contexts.
macro_rules! expect_opt {
($e:expr, $message:literal) => {
match $e {
Some(value) => value,
None => crate::expect_failed($message),
}
};
}
/// `unreachable!()`, but better.
#[cfg(any(feature = "formatting", feature = "parsing"))]
macro_rules! bug {
() => { compile_error!("provide an error message to help fix a possible bug") };
($descr:literal $($rest:tt)?) => {
panic!(concat!("internal error: ", $descr) $($rest)?)
}
}
#[cfg(any(feature = "formatting", feature = "parsing"))]
pub(crate) use bug;
pub(crate) use {
__impl_assign, cascade, const_try, const_try_opt, div_floor, ensure_ranged, expect_opt,
impl_add_assign, impl_div_assign, impl_mul_assign, impl_sub_assign,
};