Auto merge of #190 - rust-num:private-crates, r=cuviper
num: remove `pub` from sub-crates
Rust 1.4 through 1.7 will issue warnings that `pub extern crate` does
not work as expected, although it appears to be fine. But Rust 1.8 and
later issue `#[warn(private_in_public)]` for `pub use num_foo as foo` if
that crate isn't public, and that's headed toward a hard error.
@bluss suggested instead `pub mod foo { pub use num_foo::*; }`, which
I thought I had tried before, but it appears to work fine on all
versions of Rust. Let's do it!
A small downside is that docs for `num::foo` now just show the wildcard
reexport, instead of direct documentation, but at least there's a link
to follow to the sub-crate.
It's a breaking change that `num::num_foo` paths are no longer public,
but we didn't really want those exposed in the first place. I consider
this minor -- people should either use the `num::foo` module as before
the split-up, or use the `num_foo` crate directly.
Fixes #189.
This commit is contained in:
Homu
commit
4bbc34b083
41
src/lib.rs
41
src/lib.rs
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@ -57,15 +57,15 @@
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html_root_url = "http://rust-num.github.io/num/",
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html_playground_url = "http://play.rust-lang.org/")]
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pub extern crate num_traits;
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pub extern crate num_integer;
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pub extern crate num_iter;
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extern crate num_traits;
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extern crate num_integer;
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extern crate num_iter;
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#[cfg(feature = "num-complex")]
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pub extern crate num_complex;
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extern crate num_complex;
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#[cfg(feature = "num-bigint")]
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pub extern crate num_bigint;
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extern crate num_bigint;
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#[cfg(feature = "num-rational")]
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pub extern crate num_rational;
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extern crate num_rational;
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#[cfg(feature = "num-bigint")]
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pub use num_bigint::{BigInt, BigUint};
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@ -84,14 +84,31 @@ pub use num_traits::{Num, Zero, One, Signed, Unsigned, Bounded,
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use std::ops::{Mul};
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#[cfg(feature = "num-bigint")]
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pub use num_bigint as bigint;
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pub mod bigint {
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pub use num_bigint::*;
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}
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#[cfg(feature = "num-complex")]
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pub use num_complex as complex;
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pub use num_integer as integer;
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pub use num_iter as iter;
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pub use num_traits as traits;
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pub mod complex {
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pub use num_complex::*;
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}
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pub mod integer {
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pub use num_integer::*;
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}
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pub mod iter {
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pub use num_iter::*;
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}
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pub mod traits {
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pub use num_traits::*;
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}
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#[cfg(feature = "num-rational")]
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pub use num_rational as rational;
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pub mod rational {
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pub use num_rational::*;
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}
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/// Returns the additive identity, `0`.
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#[inline(always)] pub fn zero<T: Zero>() -> T { Zero::zero() }
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