macro_rules! max_of {
($name:ident) => { ::std::$name::MAX };
}
macro_rules! min_of {
($name:ident) => { ::std::$name::MIN };
}
macro_rules! approx_blind {
(($($attrs:tt)*), $src:ty, $dst:ty, $scheme:ty) => {
as_item! {
$($attrs)*
impl ::ApproxFrom<$src, $scheme> for $dst {
type Err = ::errors::NoError;
#[inline]
fn approx_from(src: $src) -> Result<$dst, Self::Err> {
Ok(src as $dst)
}
}
}
};
}
macro_rules! approx_z_to_dmax {
(($($attrs:tt)*), $src:ty, $dst:ident, $scheme:ty) => {
as_item! {
$($attrs)*
impl ::ApproxFrom<$src, $scheme> for $dst {
type Err = ::errors::RangeError<$src>;
#[inline]
fn approx_from(src: $src) -> Result<$dst, Self::Err> {
if !(0 <= src) {
return Err(::errors::RangeError::NegOverflow(src));
}
if !(src <= max_of!($dst) as $src) {
return Err(::errors::RangeError::PosOverflow(src));
}
Ok(src as $dst)
}
}
}
};
}
macro_rules! approx_to_dmax {
(($($attrs:tt)*), $src:ty, $dst:ident, $scheme:ty) => {
as_item! {
$($attrs)*
impl ::ApproxFrom<$src, $scheme> for $dst {
type Err = ::errors::PosOverflow<$src>;
#[inline]
fn approx_from(src: $src) -> Result<$dst, Self::Err> {
if !(src <= max_of!($dst) as $src) {
return Err(::errors::PosOverflow(src));
}
Ok(src as $dst)
}
}
}
};
}
macro_rules! approx_dmin_to_dmax {
(($($attrs:tt)*), $src:ty, $dst:ident, $scheme:ty) => {
as_item! {
$($attrs)*
impl ::ApproxFrom<$src, $scheme> for $dst {
type Err = ::errors::RangeError<$src>;
#[inline]
fn approx_from(src: $src) -> Result<$dst, Self::Err> {
if !(min_of!($dst) as $src <= src) {
return Err(::errors::RangeError::NegOverflow(src));
}
if !(src <= max_of!($dst) as $src) {
return Err(::errors::RangeError::PosOverflow(src));
}
Ok(src as $dst)
}
}
}
}
}
macro_rules! approx_z_up {
(($($attrs:tt)*), $src:ty, $dst:ident, $scheme:ty) => {
as_item! {
$($attrs)*
impl ::ApproxFrom<$src, $scheme> for $dst {
type Err = ::errors::NegOverflow<$src>;
#[inline]
fn approx_from(src: $src) -> Result<$dst, Self::Err> {
if !(0 <= src) {
return Err(::errors::NegOverflow(src));
}
Ok(src as $dst)
}
}
}
};
}
macro_rules! approx_dmin_to_dmax_no_nan {
(($($attrs:tt)*), $src:ty, $dst:ident, $scheme:ty) => {
approx_dmin_to_dmax_no_nan! { ($($attrs)*), $src, $dst, $scheme, approx: |s| s }
};
(($($attrs:tt)*), $src:ty, $dst:ident, $scheme:ty, approx: |$src_name:ident| $conv:expr) => {
approx_range_no_nan! {
($($attrs)*), $src,
$dst, [min_of!($dst) as $src, max_of!($dst) as $src],
$scheme, approx: |$src_name| $conv
}
};
}
macro_rules! approx_range_no_nan {
(($($attrs:tt)*), $src:ty, $dst:ident, [$min:expr, $max:expr], $scheme:ty) => {
approx_range_no_nan! { ($($attrs)*), $src, $dst, [$min, $max], $scheme, approx: |s| s }
};
(($($attrs:tt)*), $src:ty, $dst:ident, [$min:expr, $max:expr], $scheme:ty, approx: |$src_name:ident| $conv:expr) => {
as_item! {
$($attrs)*
impl ::ApproxFrom<$src, $scheme> for $dst {
type Err = ::errors::FloatError<$src>;
#[inline]
fn approx_from(src: $src) -> Result<$dst, Self::Err> {
if src.is_nan() {
return Err(::errors::FloatError::NotANumber(src));
}
let approx = { let $src_name = src; $conv };
if !($min <= approx) {
return Err(::errors::FloatError::NegOverflow(src));
}
if !(approx <= $max) {
return Err(::errors::FloatError::PosOverflow(src));
}
Ok(approx as $dst)
}
}
}
};
}
macro_rules! num_conv {
(@ $src:ty=> $(,)*) => {};
(@ $src:ty=> #[32] $($tail:tt)*) => {
num_conv! { @ $src=> (#[cfg(target_pointer_width="32")]) $($tail)* }
};
(@ $src:ty=> #[64] $($tail:tt)*) => {
num_conv! { @ $src=> (#[cfg(target_pointer_width="64")]) $($tail)* }
};
(@ $src:ty=> e $($tail:tt)*) => { num_conv! { @ $src=> () e $($tail)* } };
(@ $src:ty=> n+ $($tail:tt)*) => { num_conv! { @ $src=> () n+ $($tail)* } };
(@ $src:ty=> n $($tail:tt)*) => { num_conv! { @ $src=> () n $($tail)* } };
(@ $src:ty=> w+ $($tail:tt)*) => { num_conv! { @ $src=> () w+ $($tail)* } };
(@ $src:ty=> w $($tail:tt)*) => { num_conv! { @ $src=> () w $($tail)* } };
(@ $src:ty=> aW $($tail:tt)*) => { num_conv! { @ $src=> () aW $($tail)* } };
(@ $src:ty=> nf $($tail:tt)*) => { num_conv! { @ $src=> () nf $($tail)* } };
(@ $src:ty=> fan $($tail:tt)*) => { num_conv! { @ $src=> () fan $($tail)* } };
(@ $src:ty=> ($($attrs:tt)*) e $dst:ty, $($tail:tt)*) => {
as_item! {
approx_blind! { ($($attrs)*), $src, $dst, ::DefaultApprox }
approx_blind! { ($($attrs)*), $src, $dst, ::Wrapping }
$($attrs)*
impl ::ValueFrom<$src> for $dst {
type Err = ::errors::NoError;
#[inline]
fn value_from(src: $src) -> Result<$dst, Self::Err> {
Ok(src as $dst)
}
}
}
num_conv! { @ $src=> $($tail)* }
};
(@ $src:ty=> ($($attrs:tt)*) n+ $dst:ident, $($tail:tt)*) => {
as_item! {
approx_z_to_dmax! { ($($attrs)*), $src, $dst, ::DefaultApprox }
approx_blind! { ($($attrs)*), $src, $dst, ::Wrapping }
$($attrs)*
impl ::ValueFrom<$src> for $dst {
type Err = ::errors::RangeError<$src>;
#[inline]
fn value_from(src: $src) -> Result<$dst, Self::Err> {
if !(0 <= src) {
return Err(::errors::RangeError::NegOverflow(src));
}
if !(src <= max_of!($dst) as $src) {
return Err(::errors::RangeError::PosOverflow(src));
}
Ok(src as $dst)
}
}
}
num_conv! { @ $src=> $($tail)* }
};
(@ $src:ty=> ($($attrs:tt)*) n- $dst:ident, $($tail:tt)*) => {
as_item! {
approx_to_dmax! { ($($attrs)*), $src, $dst, ::DefaultApprox }
approx_blind! { ($($attrs)*), $src, $dst, ::Wrapping }
$($attrs)*
impl ::ValueFrom<$src> for $dst {
type Err = ::errors::PosOverflow<$src>;
#[inline]
fn value_from(src: $src) -> Result<$dst, Self::Err> {
if !(src <= max_of!($dst) as $src) {
return Err(::errors::PosOverflow(src));
}
Ok(src as $dst)
}
}
}
num_conv! { @ $src=> $($tail)* }
};
(@ $src:ty=> ($($attrs:tt)*) n $dst:ident, $($tail:tt)*) => {
as_item! {
approx_dmin_to_dmax! { ($($attrs)*), $src, $dst, ::DefaultApprox }
approx_blind! { ($($attrs)*), $src, $dst, ::Wrapping }
$($attrs)*
impl ::ValueFrom<$src> for $dst {
type Err = ::errors::RangeError<$src>;
#[inline]
fn value_from(src: $src) -> Result<$dst, Self::Err> {
if !(min_of!($dst) as $src <= src) {
return Err(::errors::RangeError::NegOverflow(src));
}
if !(src <= max_of!($dst) as $src) {
return Err(::errors::RangeError::PosOverflow(src));
}
Ok(src as $dst)
}
}
}
num_conv! { @ $src=> $($tail)* }
};
(@ $src:ty=> ($($attrs:tt)*) w+ $dst:ident, $($tail:tt)*) => {
as_item! {
approx_z_up! { ($($attrs)*), $src, $dst, ::DefaultApprox }
approx_blind! { ($($attrs)*), $src, $dst, ::Wrapping }
$($attrs)*
impl ::ValueFrom<$src> for $dst {
type Err = ::errors::NegOverflow<$src>;
#[inline]
fn value_from(src: $src) -> Result<$dst, Self::Err> {
if !(0 <= src) {
return Err(::errors::NegOverflow(src));
}
Ok(src as $dst)
}
}
}
num_conv! { @ $src=> $($tail)* }
};
(@ $src:ty=> ($($attrs:tt)*) w $dst:ident, $($tail:tt)*) => {
as_item! {
approx_blind! { ($($attrs)*), $src, $dst, ::DefaultApprox }
approx_blind! { ($($attrs)*), $src, $dst, ::Wrapping }
$($attrs)*
impl ::ValueFrom<$src> for $dst {
type Err = ::errors::NoError;
#[inline]
fn value_from(src: $src) -> Result<$dst, Self::Err> {
Ok(src as $dst)
}
}
}
num_conv! { @ $src=> $($tail)* }
};
(@ $src:ty=> ($($attrs:tt)*) nf [+- $bound:expr] $dst:ident, $($tail:tt)*) => {
as_item! {
approx_blind! { ($($attrs)*), $src, $dst, ::DefaultApprox }
$($attrs)*
impl ::ValueFrom<$src> for $dst {
type Err = ::errors::RangeError<$src>;
#[inline]
fn value_from(src: $src) -> Result<$dst, Self::Err> {
if !(-$bound <= src) {
return Err(::errors::RangeError::NegOverflow(src));
}
if !(src <= $bound) {
return Err(::errors::RangeError::PosOverflow(src));
}
Ok(src as $dst)
}
}
}
num_conv! { @ $src=> $($tail)* }
};
(@ $src:ty=> ($($attrs:tt)*) nf [, $max:expr] $dst:ident, $($tail:tt)*) => {
as_item! {
approx_blind! { ($($attrs)*), $src, $dst, ::DefaultApprox }
$($attrs)*
impl ::ValueFrom<$src> for $dst {
type Err = ::errors::PosOverflow<$src>;
#[inline]
fn value_from(src: $src) -> Result<$dst, Self::Err> {
if !(src <= $max) {
return Err(::errors::PosOverflow(src));
}
Ok(src as $dst)
}
}
}
num_conv! { @ $src=> $($tail)* }
};
(@ $src:ty=> ($($attrs:tt)*) fan [$min:expr, $max:expr] $dst:ident, $($tail:tt)*) => {
as_item! {
approx_range_no_nan! { ($($attrs)*), $src, $dst, [$min, $max],
::DefaultApprox }
approx_range_no_nan! { ($($attrs)*), $src, $dst, [$min, $max],
::RoundToNearest, approx: |s| s.round() }
approx_range_no_nan! { ($($attrs)*), $src, $dst, [$min, $max],
::RoundToNegInf, approx: |s| s.floor() }
approx_range_no_nan! { ($($attrs)*), $src, $dst, [$min, $max],
::RoundToPosInf, approx: |s| s.ceil() }
approx_range_no_nan! { ($($attrs)*), $src, $dst, [$min, $max],
::RoundToZero, approx: |s| s.trunc() }
}
num_conv! { @ $src=> $($tail)* }
};
(@ $src:ty=> ($($attrs:tt)*) fan $dst:ident, $($tail:tt)*) => {
as_item! {
approx_dmin_to_dmax_no_nan! { ($($attrs)*), $src, $dst, ::DefaultApprox }
approx_dmin_to_dmax_no_nan! { ($($attrs)*), $src, $dst, ::RoundToNearest,
approx: |s| s.round() }
approx_dmin_to_dmax_no_nan! { ($($attrs)*), $src, $dst, ::RoundToNegInf,
approx: |s| s.floor() }
approx_dmin_to_dmax_no_nan! { ($($attrs)*), $src, $dst, ::RoundToPosInf,
approx: |s| s.ceil() }
approx_dmin_to_dmax_no_nan! { ($($attrs)*), $src, $dst, ::RoundToZero,
approx: |s| s.trunc() }
}
num_conv! { @ $src=> $($tail)* }
};
($src:ty=> $($tail:tt)*) => {
num_conv! { @ $src=> $($tail)*, }
};
}
mod lang_ints {
num_conv! { i8=> w i16, w i32, w i64, w+u8, w+u16, w+u32, w+u64, w isize, w+usize }
num_conv! { i16=> n i8, w i32, w i64, n+u8, w+u16, w+u32, w+u64, w isize, w+usize }
num_conv! { i32=> n i8, n i16, w i64, n+u8, n+u16, w+u32, w+u64 }
num_conv! { i64=> n i8, n i16, n i32, n+u8, n+u16, n+u32, w+u64 }
num_conv! { i32=> #[32] e isize, #[64] w isize, w+usize }
num_conv! { i64=> #[32] n isize, #[64] e isize, #[32] n+usize, #[64] w+usize }
num_conv! { u8=> n-i8, w i16, w i32, w i64, w u16, w u32, w u64, w isize, w usize }
num_conv! { u16=> n-i8, n-i16, w i32, w i64, n-u8, w u32, w u64, w isize, w usize }
num_conv! { u32=> n-i8, n-i16, n-i32, w i64, n-u8, n-u16, w u64 }
num_conv! { u64=> n-i8, n-i16, n-i32, n-i64, n-u8, n-u16, n-u32 }
num_conv! { u32=> #[32] n-isize, #[64] w isize, #[32] e usize, #[64] w usize }
num_conv! { u64=> n-isize, #[32] n-usize, #[64] e usize }
num_conv! { isize=> n i8, n i16, #[32] e i32, #[32] w i64, #[64] n i32, #[64] e i64 }
num_conv! { isize=> n+u8, n+u16, #[32] w+u32, #[32] w+u64, #[64] n+u32, #[64] w+u64 }
num_conv! { isize=> w+usize }
num_conv! { usize=> n-i8, n-i16, #[32] n-i32, #[32] w i64, #[64] n-i32, #[64] n-i64 }
num_conv! { usize=> n-u8, n-u16, #[32] e u32, #[32] w u64, #[64] n-u32, #[64] e u64 }
num_conv! { usize=> n-isize }
}
mod lang_floats {
use {ApproxFrom, ApproxScheme};
use ValueFrom;
use errors::{NoError, RangeError};
impl<Scheme> ApproxFrom<f32, Scheme> for f64
where Scheme: ApproxScheme {
type Err = NoError;
#[inline]
fn approx_from(src: f32) -> Result<f64, Self::Err> {
Ok(src as f64)
}
}
impl ValueFrom<f32> for f64 {
type Err = NoError;
#[inline]
fn value_from(src: f32) -> Result<f64, Self::Err> {
Ok(src as f64)
}
}
impl ApproxFrom<f64> for f32 {
type Err = RangeError<f64>;
#[inline]
fn approx_from(src: f64) -> Result<f32, Self::Err> {
if !src.is_finite() {
return Ok(src as f32);
}
if !(::std::f32::MIN as f64 <= src) {
return Err(RangeError::NegOverflow(src));
}
if !(src <= ::std::f32::MAX as f64) {
return Err(RangeError::PosOverflow(src));
}
Ok(src as f32)
}
}
}
mod lang_int_to_float {
num_conv! { i8=> w f32, w f64 }
num_conv! { i16=> w f32, w f64 }
num_conv! { i32=> nf [+- 16_777_216] f32, w f64 }
num_conv! { i64=> nf [+- 16_777_216] f32, nf [+- 9_007_199_254_740_992] f64 }
num_conv! { u8=> w f32, w f64 }
num_conv! { u16=> w f32, w f64 }
num_conv! { u32=> nf [, 16_777_216] f32, w f64 }
num_conv! { u64=> nf [, 16_777_216] f32, nf [, 9_007_199_254_740_992] f64 }
num_conv! { isize=> nf [+- 16_777_216] f32,
#[32] w f64, #[64] nf [+- 9_007_199_254_740_992] f64 }
num_conv! { usize=> nf [, 16_777_216] f32,
#[32] w f64, #[64] nf [, 9_007_199_254_740_992] f64 }
}
mod lang_float_to_int {
num_conv! { f32=> fan i8, fan i16,
fan [-2.1474836e9, 2.1474835e9] i32,
fan [-9.223372e18, 9.2233715e18] i64 }
num_conv! { f32=> fan u8, fan u16,
fan [0.0, 4.294967e9] u32,
fan [0.0, 1.8446743e19] u64 }
num_conv! { f32=>
#[32] fan [-2.1474836e9, 2.1474835e9] isize,
#[32] fan [0.0, 4.294967e9] usize,
#[64] fan [-9.223372e18, 9.2233715e18] isize,
#[64] fan [0.0, 1.8446743e19] usize }
num_conv! { f64=> fan i8, fan i16, fan i32,
fan [-9.223372036854776e18, 9.223372036854775e18] i64 }
num_conv! { f64=> fan u8, fan u16, fan u32,
fan [0.0, 1.844674407370955e19] u64 }
num_conv! { f64=>
#[32] fan isize, #[32] fan usize,
#[64] fan [-9.223372036854776e18, 9.223372036854775e18] isize,
#[64] fan [0.0, 1.844674407370955e19] usize }
}
mod lang_char_to_int {
use TryFrom;
use ValueFrom;
use errors::{NoError, PosOverflow};
impl TryFrom<char> for u32 {
type Err = NoError;
#[inline]
fn try_from(src: char) -> Result<u32, Self::Err> {
Ok(src as u32)
}
}
impl TryFrom<char> for usize {
type Err = NoError;
#[inline]
fn try_from(src: char) -> Result<usize, Self::Err> {
Ok(src as usize)
}
}
impl TryFrom<char> for isize {
type Err = NoError;
#[inline]
fn try_from(src: char) -> Result<isize, Self::Err> {
Ok(src as isize)
}
}
macro_rules! conv_char_to_int {
($($ts:ty),* $(,)*) => {
$(
impl TryFrom<char> for $ts {
type Err = PosOverflow<char>;
#[inline]
fn try_from(src: char) -> Result<$ts, Self::Err> {
<$ts as ValueFrom<_>>::value_from(src as u32)
.map_err(|_| PosOverflow(src))
}
}
)*
};
}
macro_rules! conv_char_to_int_wide {
($($ts:ty),* $(,)*) => {
$(
impl TryFrom<char> for $ts {
type Err = NoError;
#[inline]
fn try_from(src: char) -> Result<$ts, Self::Err> {
<$ts as ValueFrom<_>>::value_from(src as u32)
}
}
)*
};
}
conv_char_to_int! { i8, i16, i32, u8, u16 }
conv_char_to_int_wide! { i64, u64 }
}
mod lang_int_to_char {
use TryFrom;
use ValueFrom;
use errors::{NoError, Unrepresentable, UnwrapOk};
impl TryFrom<u8> for char {
type Err = NoError;
#[inline]
fn try_from(src: u8) -> Result<char, Self::Err> {
Ok(src as char)
}
}
impl TryFrom<u16> for char {
type Err = Unrepresentable<u16>;
#[inline]
fn try_from(src: u16) -> Result<char, Self::Err> {
TryFrom::try_from(
<u32 as ValueFrom<_>>::value_from(src).unwrap_ok()
).map_err(|_| Unrepresentable(src))
}
}
impl TryFrom<u32> for char {
type Err = Unrepresentable<u32>;
#[inline]
fn try_from(src: u32) -> Result<char, Self::Err> {
::std::char::from_u32(src).ok_or_else(|| Unrepresentable(src))
}
}
macro_rules! conv_int_to_char {
($($ts:ty),* $(,)*) => {
$(
impl TryFrom<$ts> for char {
type Err = Unrepresentable<$ts>;
#[inline]
fn try_from(src: $ts) -> Result<char, Self::Err> {
<u32 as ValueFrom<_>>::value_from(src)
.map_err(|_| Unrepresentable(src))
.and_then(|usv| TryFrom::try_from(usv)
.map_err(|_| Unrepresentable(src)))
}
}
)*
};
}
conv_int_to_char! { i8, i16, i32, i64, isize, u64, usize }
}