Files

cfg_if

lib.rs

libm

math

acos.rsacosf.rsacosh.rsacoshf.rsasin.rsasinf.rsasinh.rsasinhf.rsatan.rsatan2.rsatan2f.rsatanf.rsatanh.rsatanhf.rscbrt.rscbrtf.rsceil.rsceilf.rscopysign.rscopysignf.rscos.rscosf.rscosh.rscoshf.rserf.rserff.rsexp.rsexp10.rsexp10f.rsexp2.rsexp2f.rsexpf.rsexpm1.rsexpm1f.rsexpo2.rsfabs.rsfabsf.rsfdim.rsfdimf.rsfenv.rsfloor.rsfloorf.rsfma.rsfmaf.rsfmax.rsfmaxf.rsfmin.rsfminf.rsfmod.rsfmodf.rsfrexp.rsfrexpf.rshypot.rshypotf.rsilogb.rsilogbf.rsj0.rsj0f.rsj1.rsj1f.rsjn.rsjnf.rsk_cos.rsk_cosf.rsk_expo2.rsk_expo2f.rsk_sin.rsk_sinf.rsk_tan.rsk_tanf.rsldexp.rsldexpf.rslgamma.rslgamma_r.rslgammaf.rslgammaf_r.rslog.rslog10.rslog10f.rslog1p.rslog1pf.rslog2.rslog2f.rslogf.rsmod.rsmodf.rsmodff.rspow.rspowf.rsrem_pio2.rsrem_pio2_large.rsrem_pio2f.rsremquo.rsremquof.rsround.rsroundf.rsscalbn.rsscalbnf.rssin.rssincos.rssincosf.rssinf.rssinh.rssinhf.rssqrt.rssqrtf.rstan.rstanf.rstanh.rstanhf.rstgamma.rstgammaf.rstrunc.rstruncf.rs

lib.rs

packed_simd_2

api

cast

macros.rsv128.rsv16.rsv256.rsv32.rsv512.rsv64.rs

cmp

eq.rsord.rspartial_eq.rspartial_ord.rsvertical.rs

fmt

binary.rsdebug.rslower_hex.rsoctal.rsupper_hex.rs

from

from_array.rsfrom_vector.rs

into_bits

arch_specific.rsmacros.rsv128.rsv16.rsv256.rsv32.rsv512.rsv64.rs

math

float

abs.rsconsts.rscos.rsexp.rsln.rsmul_add.rsmul_adde.rspowf.rsrecpre.rsrsqrte.rssin.rssqrt.rssqrte.rstanh.rs

float.rs

minimal

iuf.rsmask.rsptr.rs

ops

scalar_arithmetic.rsscalar_bitwise.rsscalar_mask_bitwise.rsscalar_shifts.rsvector_arithmetic.rsvector_bitwise.rsvector_float_min_max.rsvector_int_min_max.rsvector_mask_bitwise.rsvector_neg.rsvector_rotates.rsvector_shifts.rs

ptr

gather_scatter.rs

reductions

bitwise.rsfloat_arithmetic.rsinteger_arithmetic.rsmask.rsmin_max.rs

slice

from_slice.rswrite_to_slice.rs

bit_manip.rsbitmask.rscast.rscmp.rsdefault.rsfmt.rsfrom.rshash.rsinto_bits.rsmath.rsminimal.rsops.rsptr.rsreductions.rsselect.rsshuffle.rsshuffle1_dyn.rsslice.rsswap_bytes.rs

codegen

math

float

abs.rscos.rscos_pi.rsexp.rsln.rsmacros.rsmul_add.rsmul_adde.rspowf.rssin.rssin_cos_pi.rssin_pi.rssqrt.rssqrte.rstanh.rs

float.rs

reductions

mask

x86

sse.rssse2.rs

fallback_impl.rsx86.rs

mask.rs

bit_manip.rsllvm.rsmath.rspointer_sized_int.rsreductions.rsshuffle.rsshuffle1_dyn.rsswap_bytes.rsv128.rsv16.rsv256.rsv32.rsv512.rsv64.rsvPtr.rsvSize.rs

testing

macros.rs

api.rscodegen.rslib.rsmasks.rssealed.rstesting.rsv128.rsv16.rsv256.rsv32.rsv512.rsv64.rsvPtr.rsvSize.rs

>

//! Implements methods to read a vector type from a slice.

macro_rules! impl_slice_from_slice {
    ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => {
        impl $id {
            /// Instantiates a new vector with the values of the `slice`.
            ///
            /// # Panics
            ///
            /// If `slice.len() < Self::lanes()` or `&slice[0]` is not aligned
            /// to an `align_of::<Self>()` boundary.
            #[inline]
            pub fn from_slice_aligned(slice: &[$elem_ty]) -> Self {
                unsafe {
                    assert!(slice.len() >= $elem_count);
                    let target_ptr = slice.get_unchecked(0) as *const $elem_ty;
                    assert_eq!(target_ptr.align_offset(crate::mem::align_of::<Self>()), 0);
                    Self::from_slice_aligned_unchecked(slice)
                }
            }

            /// Instantiates a new vector with the values of the `slice`.
            ///
            /// # Panics
            ///
            /// If `slice.len() < Self::lanes()`.
            #[inline]
            pub fn from_slice_unaligned(slice: &[$elem_ty]) -> Self {
                unsafe {
                    assert!(slice.len() >= $elem_count);
                    Self::from_slice_unaligned_unchecked(slice)
                }
            }

            /// Instantiates a new vector with the values of the `slice`.
            ///
            /// # Safety
            ///
            /// If `slice.len() < Self::lanes()` or `&slice[0]` is not aligned
            /// to an `align_of::<Self>()` boundary, the behavior is undefined.
            #[inline]
            pub unsafe fn from_slice_aligned_unchecked(slice: &[$elem_ty]) -> Self {
                debug_assert!(slice.len() >= $elem_count);
                let target_ptr = slice.get_unchecked(0) as *const $elem_ty;
                debug_assert_eq!(target_ptr.align_offset(crate::mem::align_of::<Self>()), 0);

                #[allow(clippy::cast_ptr_alignment)]
                *(target_ptr as *const Self)
            }

            /// Instantiates a new vector with the values of the `slice`.
            ///
            /// # Safety
            ///
            /// If `slice.len() < Self::lanes()` the behavior is undefined.
            #[inline]
            pub unsafe fn from_slice_unaligned_unchecked(slice: &[$elem_ty]) -> Self {
                use crate::mem::size_of;
                debug_assert!(slice.len() >= $elem_count);
                let target_ptr = slice.get_unchecked(0) as *const $elem_ty as *const u8;
                let mut x = Self::splat(0 as $elem_ty);
                let self_ptr = &mut x as *mut Self as *mut u8;
                crate::ptr::copy_nonoverlapping(target_ptr, self_ptr, size_of::<Self>());
                x
            }
        }

        test_if! {
            $test_tt:
            paste::item! {
                // Comparisons use integer casts within mantissa^1 range.
                #[allow(clippy::float_cmp)]
                pub mod [<$id _slice_from_slice>] {
                    use super::*;
                    use crate::iter::Iterator;

                    #[cfg_attr(not(target_arch = "wasm32"), test)]
                    #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)]
                    fn from_slice_unaligned() {
                        let mut unaligned = [42 as $elem_ty; $id::lanes() + 1];
                        unaligned[0] = 0 as $elem_ty;
                        let vec = $id::from_slice_unaligned(&unaligned[1..]);
                        for (index, &b) in unaligned.iter().enumerate() {
                            if index == 0 {
                                assert_eq!(b, 0 as $elem_ty);
                            } else {
                                assert_eq!(b, 42 as $elem_ty);
                                assert_eq!(b, vec.extract(index - 1));
                            }
                        }
                    }

                    // FIXME: wasm-bindgen-test does not support #[should_panic]
                    // #[cfg_attr(not(target_arch = "wasm32"), test)]
                    // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)]
                    #[cfg(not(target_arch = "wasm32"))]
                    #[test]
                    #[should_panic]
                    fn from_slice_unaligned_fail() {
                        let mut unaligned = [42 as $elem_ty; $id::lanes() + 1];
                        unaligned[0] = 0 as $elem_ty;
                        // the slice is not large enough => panic
                        let _vec = $id::from_slice_unaligned(&unaligned[2..]);
                    }

                    union A {
                        data: [$elem_ty; 2 * $id::lanes()],
                        _vec: $id,
                    }

                    #[cfg_attr(not(target_arch = "wasm32"), test)]
                    #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)]
                    fn from_slice_aligned() {
                        let mut aligned = A {
                            data: [0 as $elem_ty; 2 * $id::lanes()],
                        };
                        for i in $id::lanes()..(2 * $id::lanes()) {
                            unsafe {
                                aligned.data[i] = 42 as $elem_ty;
                            }
                        }

                        let vec = unsafe {
                            $id::from_slice_aligned(
                                &aligned.data[$id::lanes()..]
                            )
                        };
                        for (index, &b) in
                            unsafe { aligned.data.iter().enumerate() } {
                            if index < $id::lanes() {
                                assert_eq!(b, 0 as $elem_ty);
                            } else {
                                assert_eq!(b, 42 as $elem_ty);
                                assert_eq!(
                                    b, vec.extract(index - $id::lanes())
                                );
                            }
                        }
                    }

                    // FIXME: wasm-bindgen-test does not support #[should_panic]
                    // #[cfg_attr(not(target_arch = "wasm32"), test)]
                    // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)]
                    #[cfg(not(target_arch = "wasm32"))]
                    #[test]
                    #[should_panic]
                    fn from_slice_aligned_fail_lanes() {
                        let aligned = A {
                            data: [0 as $elem_ty; 2 * $id::lanes()],
                        };
                        let _vec = unsafe {
                            $id::from_slice_aligned(
                                &aligned.data[2 * $id::lanes()..]
                            )
                        };
                    }

                    // FIXME: wasm-bindgen-test does not support #[should_panic]
                    // #[cfg_attr(not(target_arch = "wasm32"), test)]
                    // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)]
                    #[cfg(not(target_arch = "wasm32"))]
                    #[test]
                    #[should_panic]
                    fn from_slice_aligned_fail_align() {
                        unsafe {
                            let aligned = A {
                                data: [0 as $elem_ty; 2 * $id::lanes()],
                            };

                            // get a pointer to the front of data
                            let ptr: *const $elem_ty = aligned.data.as_ptr()
                                as *const $elem_ty;
                            // offset pointer by one element
                            let ptr = ptr.wrapping_add(1);

                            if ptr.align_offset(
                                crate::mem::align_of::<$id>()
                            ) == 0 {
                                // the pointer is properly aligned, so
                                // from_slice_aligned won't fail here (e.g. this
                                // can happen for i128x1). So we panic to make
                                // the "should_fail" test pass:
                                panic!("ok");
                            }

                            // create a slice - this is safe, because the
                            // elements of the slice exist, are properly
                            // initialized, and properly aligned:
                            let s: &[$elem_ty] = slice::from_raw_parts(
                                ptr, $id::lanes()
                            );
                            // this should always panic because the slice
                            // alignment does not match the alignment
                            // requirements for the vector type:
                            let _vec = $id::from_slice_aligned(s);
                        }
                    }
                }
            }
        }
    };
}