1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
// Copyright 2022 The Fuchsia Authors
//
// Licensed under a BSD-style license <LICENSE-BSD>, Apache License, Version 2.0
// <LICENSE-APACHE or https://www.apache.org/licenses/LICENSE-2.0>, or the MIT
// license <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your option.
// This file may not be copied, modified, or distributed except according to
// those terms.

//! Utilities used by macros and by `zerocopy-derive`.
//!
//! These are defined here `zerocopy` rather than in code generated by macros or
//! by `zerocopy-derive` so that they can be compiled once rather than
//! recompiled for every invocation (e.g., if they were defined in generated
//! code, then deriving `AsBytes` and `FromBytes` on three different types would
//! result in the code in question being emitted and compiled six different
//! times).

#![allow(missing_debug_implementations)]

use core::{marker::PhantomData, mem::ManuallyDrop};

// TODO(#29), TODO(https://github.com/rust-lang/rust/issues/69835): Remove this
// `cfg` when `size_of_val_raw` is stabilized.
#[cfg(__INTERNAL_USE_ONLY_NIGHLTY_FEATURES_IN_TESTS)]
use core::ptr::{self, NonNull};

/// A compile-time check that should be one particular value.
pub trait ShouldBe<const VALUE: bool> {}

/// A struct for checking whether `T` contains padding.
pub struct HasPadding<T: ?Sized, const VALUE: bool>(PhantomData<T>);

impl<T: ?Sized, const VALUE: bool> ShouldBe<VALUE> for HasPadding<T, VALUE> {}

/// A type whose size is equal to `align_of::<T>()`.
#[repr(C)]
pub struct AlignOf<T> {
    // This field ensures that:
    // - The size is always at least 1 (the minimum possible alignment).
    // - If the alignment is greater than 1, Rust has to round up to the next
    //   multiple of it in order to make sure that `Align`'s size is a multiple
    //   of that alignment. Without this field, its size could be 0, which is a
    //   valid multiple of any alignment.
    _u: u8,
    _a: [T; 0],
}

impl<T> AlignOf<T> {
    #[inline(never)] // Make `missing_inline_in_public_items` happy.
    pub fn into_t(self) -> T {
        unreachable!()
    }
}

/// A type whose size is equal to `max(align_of::<T>(), align_of::<U>())`.
#[repr(C)]
pub union MaxAlignsOf<T, U> {
    _t: ManuallyDrop<AlignOf<T>>,
    _u: ManuallyDrop<AlignOf<U>>,
}

impl<T, U> MaxAlignsOf<T, U> {
    #[inline(never)] // Make `missing_inline_in_public_items` happy.
    pub fn new(_t: T, _u: U) -> MaxAlignsOf<T, U> {
        unreachable!()
    }
}

const _64K: usize = 1 << 16;

// TODO(#29), TODO(https://github.com/rust-lang/rust/issues/69835): Remove this
// `cfg` when `size_of_val_raw` is stabilized.
#[cfg(__INTERNAL_USE_ONLY_NIGHLTY_FEATURES_IN_TESTS)]
#[repr(C, align(65536))]
struct Aligned64kAllocation([u8; _64K]);

/// A pointer to an aligned allocation of size 2^16.
///
/// # Safety
///
/// `ALIGNED_64K_ALLOCATION` is guaranteed to point to the entirety of an
/// allocation with size and alignment 2^16, and to have valid provenance.
// TODO(#29), TODO(https://github.com/rust-lang/rust/issues/69835): Remove this
// `cfg` when `size_of_val_raw` is stabilized.
#[cfg(__INTERNAL_USE_ONLY_NIGHLTY_FEATURES_IN_TESTS)]
pub const ALIGNED_64K_ALLOCATION: NonNull<[u8]> = {
    const REF: &Aligned64kAllocation = &Aligned64kAllocation([0; _64K]);
    let ptr: *const Aligned64kAllocation = REF;
    let ptr: *const [u8] = ptr::slice_from_raw_parts(ptr.cast(), _64K);
    // SAFETY:
    // - `ptr` is derived from a Rust reference, which is guaranteed to be
    //   non-null.
    // - `ptr` is derived from an `&Aligned64kAllocation`, which has size and
    //   alignment `_64K` as promised. Its length is initialized to `_64K`,
    //   which means that it refers to the entire allocation.
    // - `ptr` is derived from a Rust reference, which is guaranteed to have
    //   valid provenance.
    //
    // TODO(#429): Once `NonNull::new_unchecked` docs document that it preserves
    // provenance, cite those docs.
    // TODO: Replace this `as` with `ptr.cast_mut()` once our MSRV >= 1.65
    #[allow(clippy::as_conversions)]
    unsafe {
        NonNull::new_unchecked(ptr as *mut _)
    }
};

/// Computes the offset of the base of the field `$trailing_field_name` within
/// the type `$ty`.
///
/// `trailing_field_offset!` produces code which is valid in a `const` context.
// TODO(#29), TODO(https://github.com/rust-lang/rust/issues/69835): Remove this
// `cfg` when `size_of_val_raw` is stabilized.
#[cfg(__INTERNAL_USE_ONLY_NIGHLTY_FEATURES_IN_TESTS)]
#[doc(hidden)] // `#[macro_export]` bypasses this module's `#[doc(hidden)]`.
#[macro_export]
macro_rules! trailing_field_offset {
    ($ty:ty, $trailing_field_name:tt) => {{
        let min_size = {
            let zero_elems: *const [()] =
                $crate::macro_util::core_reexport::ptr::slice_from_raw_parts(
                    $crate::macro_util::core_reexport::ptr::NonNull::<()>::dangling()
                        .as_ptr()
                        .cast_const(),
                    0,
                );
            // SAFETY:
            // - If `$ty` is `Sized`, `size_of_val_raw` is always safe to call.
            // - Otherwise:
            //   - If `$ty` is not a slice DST, this pointer conversion will
            //     fail due to "mismatched vtable kinds", and compilation will
            //     fail.
            //   - If `$ty` is a slice DST, the safety requirement is that "the
            //     length of the slice tail must be an initialized integer, and
            //     the size of the entire value (dynamic tail length +
            //     statically sized prefix) must fit in isize." The length is
            //     initialized to 0 above, and Rust guarantees that no type's
            //     minimum size may overflow `isize`. [1]
            //
            // [1] TODO(#429),
            // TODO(https://github.com/rust-lang/unsafe-code-guidelines/issues/465#issuecomment-1782206516):
            // Citation for this?
            unsafe {
                #[allow(clippy::as_conversions)]
                $crate::macro_util::core_reexport::mem::size_of_val_raw(zero_elems as *const $ty)
            }
        };

        assert!(min_size <= _64K);

        #[allow(clippy::as_conversions)]
        let ptr = ALIGNED_64K_ALLOCATION.as_ptr() as *const $ty;

        // SAFETY:
        // - Thanks to the preceding `assert!`, we know that the value with zero
        //   elements fits in `_64K` bytes, and thus in the allocation addressed
        //   by `ALIGNED_64K_ALLOCATION`. The offset of the trailing field is
        //   guaranteed to be no larger than this size, so this field projection
        //   is guaranteed to remain in-bounds of its allocation.
        // - Because the minimum size is no larger than `_64K` bytes, and
        //   because an object's size must always be a multiple of its alignment
        //   [1], we know that `$ty`'s alignment is no larger than `_64K`. The
        //   allocation addressed by `ALIGNED_64K_ALLOCATION` is guaranteed to
        //   be aligned to `_64K`, so `ptr` is guaranteed to satisfy `$ty`'s
        //   alignment.
        //
        //   Note that, as of [2], this requirement is technically unnecessary
        //   for Rust versions >= 1.75.0, but no harm in guaranteeing it anyway
        //   until we bump our MSRV.
        //
        // [1] Per https://doc.rust-lang.org/reference/type-layout.html:
        //
        //   The size of a value is always a multiple of its alignment.
        //
        // [2] https://github.com/rust-lang/reference/pull/1387
        let field = unsafe {
            $crate::macro_util::core_reexport::ptr::addr_of!((*ptr).$trailing_field_name)
        };
        // SAFETY:
        // - Both `ptr` and `field` are derived from the same allocated object.
        // - By the preceding safety comment, `field` is in bounds of that
        //   allocated object.
        // - The distance, in bytes, between `ptr` and `field` is required to be
        //   a multiple of the size of `u8`, which is trivially true because
        //   `u8`'s size is 1.
        // - The distance, in bytes, cannot overflow `isize`. This is guaranteed
        //   because no allocated object can have a size larger than can fit in
        //   `isize`. [1]
        // - The distance being in-bounds cannot rely on wrapping around the
        //   address space. This is guaranteed because the same is guaranteed of
        //   allocated objects. [1]
        //
        // [1] TODO(#429), TODO(https://github.com/rust-lang/rust/pull/116675):
        //     Once these are guaranteed in the Reference, cite it.
        let offset = unsafe { field.cast::<u8>().offset_from(ptr.cast::<u8>()) };
        // Guaranteed not to be lossy: `field` comes after `ptr`, so the offset
        // from `ptr` to `field` is guaranteed to be positive.
        assert!(offset >= 0);
        Some(
            #[allow(clippy::as_conversions)]
            {
                offset as usize
            },
        )
    }};
}

/// Computes alignment of `$ty: ?Sized`.
///
/// `align_of!` produces code which is valid in a `const` context.
// TODO(#29), TODO(https://github.com/rust-lang/rust/issues/69835): Remove this
// `cfg` when `size_of_val_raw` is stabilized.
#[cfg(__INTERNAL_USE_ONLY_NIGHLTY_FEATURES_IN_TESTS)]
#[doc(hidden)] // `#[macro_export]` bypasses this module's `#[doc(hidden)]`.
#[macro_export]
macro_rules! align_of {
    ($ty:ty) => {{
        // SAFETY: `OffsetOfTrailingIsAlignment` is `repr(C)`, and its layout is
        // guaranteed [1] to begin with the single-byte layout for `_byte`,
        // followed by the padding needed to align `_trailing`, then the layout
        // for `_trailing`, and finally any trailing padding bytes needed to
        // correctly-align the entire struct.
        //
        // This macro computes the alignment of `$ty` by counting the number of
        // bytes preceeding `_trailing`. For instance, if the alignment of `$ty`
        // is `1`, then no padding is required align `_trailing` and it will be
        // located immediately after `_byte` at offset 1. If the alignment of
        // `$ty` is 2, then a single padding byte is required before
        // `_trailing`, and `_trailing` will be located at offset 2.

        // This correspondence between offset and alignment holds for all valid
        // Rust alignments, and we confirm this exhaustively (or, at least up to
        // the maximum alignment supported by `trailing_field_offset!`) in
        // `test_align_of_dst`.
        //
        // [1]: https://doc.rust-lang.org/nomicon/other-reprs.html#reprc

        #[repr(C)]
        struct OffsetOfTrailingIsAlignment {
            _byte: u8,
            _trailing: $ty,
        }

        trailing_field_offset!(OffsetOfTrailingIsAlignment, _trailing)
    }};
}

/// Does the struct type `$t` have padding?
///
/// `$ts` is the list of the type of every field in `$t`. `$t` must be a
/// struct type, or else `struct_has_padding!`'s result may be meaningless.
///
/// Note that `struct_has_padding!`'s results are independent of `repr` since
/// they only consider the size of the type and the sizes of the fields.
/// Whatever the repr, the size of the type already takes into account any
/// padding that the compiler has decided to add. Structs with well-defined
/// representations (such as `repr(C)`) can use this macro to check for padding.
/// Note that while this may yield some consistent value for some `repr(Rust)`
/// structs, it is not guaranteed across platforms or compilations.
#[doc(hidden)] // `#[macro_export]` bypasses this module's `#[doc(hidden)]`.
#[macro_export]
macro_rules! struct_has_padding {
    ($t:ty, $($ts:ty),*) => {
        core::mem::size_of::<$t>() > 0 $(+ core::mem::size_of::<$ts>())*
    };
}

/// Does the union type `$t` have padding?
///
/// `$ts` is the list of the type of every field in `$t`. `$t` must be a
/// union type, or else `union_has_padding!`'s result may be meaningless.
///
/// Note that `union_has_padding!`'s results are independent of `repr` since
/// they only consider the size of the type and the sizes of the fields.
/// Whatever the repr, the size of the type already takes into account any
/// padding that the compiler has decided to add. Unions with well-defined
/// representations (such as `repr(C)`) can use this macro to check for padding.
/// Note that while this may yield some consistent value for some `repr(Rust)`
/// unions, it is not guaranteed across platforms or compilations.
#[doc(hidden)] // `#[macro_export]` bypasses this module's `#[doc(hidden)]`.
#[macro_export]
macro_rules! union_has_padding {
    ($t:ty, $($ts:ty),*) => {
        false $(|| core::mem::size_of::<$t>() != core::mem::size_of::<$ts>())*
    };
}

/// Does `t` have alignment greater than or equal to `u`?  If not, this macro
/// produces a compile error. It must be invoked in a dead codepath. This is
/// used in `transmute_ref!` and `transmute_mut!`.
#[doc(hidden)] // `#[macro_export]` bypasses this module's `#[doc(hidden)]`.
#[macro_export]
macro_rules! assert_align_gt_eq {
    ($t:ident, $u: ident) => {{
        // The comments here should be read in the context of this macro's
        // invocations in `transmute_ref!` and `transmute_mut!`.
        if false {
            // The type wildcard in this bound is inferred to be `T` because
            // `align_of.into_t()` is assigned to `t` (which has type `T`).
            let align_of: $crate::macro_util::AlignOf<_> = unreachable!();
            $t = align_of.into_t();
            // `max_aligns` is inferred to have type `MaxAlignsOf<T, U>` because
            // of the inferred types of `t` and `u`.
            let mut max_aligns = $crate::macro_util::MaxAlignsOf::new($t, $u);

            // This transmute will only compile successfully if
            // `align_of::<T>() == max(align_of::<T>(), align_of::<U>())` - in
            // other words, if `align_of::<T>() >= align_of::<U>()`.
            //
            // SAFETY: This code is never run.
            max_aligns = unsafe { $crate::macro_util::core_reexport::mem::transmute(align_of) };
        } else {
            loop {}
        }
    }};
}

/// Do `t` and `u` have the same size?  If not, this macro produces a compile
/// error. It must be invoked in a dead codepath. This is used in
/// `transmute_ref!` and `transmute_mut!`.
#[doc(hidden)] // `#[macro_export]` bypasses this module's `#[doc(hidden)]`.
#[macro_export]
macro_rules! assert_size_eq {
    ($t:ident, $u: ident) => {{
        // The comments here should be read in the context of this macro's
        // invocations in `transmute_ref!` and `transmute_mut!`.
        if false {
            // SAFETY: This code is never run.
            $u = unsafe {
                // Clippy: It's okay to transmute a type to itself.
                #[allow(clippy::useless_transmute)]
                $crate::macro_util::core_reexport::mem::transmute($t)
            };
        } else {
            loop {}
        }
    }};
}

/// Transmutes a reference of one type to a reference of another type.
///
/// # Safety
///
/// The caller must guarantee that:
/// - `Src: AsBytes`
/// - `Dst: FromBytes`
/// - `size_of::<Src>() == size_of::<Dst>()`
/// - `align_of::<Src>() >= align_of::<Dst>()`
#[inline(always)]
pub const unsafe fn transmute_ref<'dst, 'src: 'dst, Src: 'src, Dst: 'dst>(
    src: &'src Src,
) -> &'dst Dst {
    let src: *const Src = src;
    let dst = src.cast::<Dst>();
    // SAFETY:
    // - We know that it is sound to view the target type of the input reference
    //   (`Src`) as the target type of the output reference (`Dst`) because the
    //   caller has guaranteed that `Src: AsBytes`, `Dst: FromBytes`, and
    //   `size_of::<Src>() == size_of::<Dst>()`.
    // - We know that there are no `UnsafeCell`s, and thus we don't have to
    //   worry about `UnsafeCell` overlap, because `Src: AsBytes` and `Dst:
    //   FromBytes` both forbid `UnsafeCell`s.
    // - The caller has guaranteed that alignment is not increased.
    // - We know that the returned lifetime will not outlive the input lifetime
    //   thanks to the lifetime bounds on this function.
    unsafe { &*dst }
}

/// Transmutes a mutable reference of one type to a mutable reference of another
/// type.
///
/// # Safety
///
/// The caller must guarantee that:
/// - `Src: FromBytes + AsBytes`
/// - `Dst: FromBytes + AsBytes`
/// - `size_of::<Src>() == size_of::<Dst>()`
/// - `align_of::<Src>() >= align_of::<Dst>()`
#[inline(always)]
pub unsafe fn transmute_mut<'dst, 'src: 'dst, Src: 'src, Dst: 'dst>(
    src: &'src mut Src,
) -> &'dst mut Dst {
    let src: *mut Src = src;
    let dst = src.cast::<Dst>();
    // SAFETY:
    // - We know that it is sound to view the target type of the input reference
    //   (`Src`) as the target type of the output reference (`Dst`) and
    //   vice-versa because the caller has guaranteed that `Src: FromBytes +
    //   AsBytes`, `Dst: FromBytes + AsBytes`, and `size_of::<Src>() ==
    //   size_of::<Dst>()`.
    // - We know that there are no `UnsafeCell`s, and thus we don't have to
    //   worry about `UnsafeCell` overlap, because `Src: FromBytes + AsBytes`
    //   and `Dst: FromBytes + AsBytes` forbid `UnsafeCell`s.
    // - The caller has guaranteed that alignment is not increased.
    // - We know that the returned lifetime will not outlive the input lifetime
    //   thanks to the lifetime bounds on this function.
    unsafe { &mut *dst }
}

// NOTE: We can't change this to a `pub use core as core_reexport` until [1] is
// fixed or we update to a semver-breaking version (as of this writing, 0.8.0)
// on the `main` branch.
//
// [1] https://github.com/obi1kenobi/cargo-semver-checks/issues/573
pub mod core_reexport {
    pub use core::*;

    pub mod mem {
        pub use core::mem::*;
    }
}

#[cfg(test)]
mod tests {
    use core::mem;

    use super::*;
    use crate::util::testutil::*;

    #[test]
    fn test_align_of() {
        macro_rules! test {
            ($ty:ty) => {
                assert_eq!(mem::size_of::<AlignOf<$ty>>(), mem::align_of::<$ty>());
            };
        }

        test!(());
        test!(u8);
        test!(AU64);
        test!([AU64; 2]);
    }

    #[test]
    fn test_max_aligns_of() {
        macro_rules! test {
            ($t:ty, $u:ty) => {
                assert_eq!(
                    mem::size_of::<MaxAlignsOf<$t, $u>>(),
                    core::cmp::max(mem::align_of::<$t>(), mem::align_of::<$u>())
                );
            };
        }

        test!(u8, u8);
        test!(u8, AU64);
        test!(AU64, u8);
    }

    #[test]
    fn test_typed_align_check() {
        // Test that the type-based alignment check used in
        // `assert_align_gt_eq!` behaves as expected.

        macro_rules! assert_t_align_gteq_u_align {
            ($t:ty, $u:ty, $gteq:expr) => {
                assert_eq!(
                    mem::size_of::<MaxAlignsOf<$t, $u>>() == mem::size_of::<AlignOf<$t>>(),
                    $gteq
                );
            };
        }

        assert_t_align_gteq_u_align!(u8, u8, true);
        assert_t_align_gteq_u_align!(AU64, AU64, true);
        assert_t_align_gteq_u_align!(AU64, u8, true);
        assert_t_align_gteq_u_align!(u8, AU64, false);
    }

    // TODO(#29), TODO(https://github.com/rust-lang/rust/issues/69835): Remove
    // this `cfg` when `size_of_val_raw` is stabilized.
    #[allow(clippy::decimal_literal_representation)]
    #[cfg(__INTERNAL_USE_ONLY_NIGHLTY_FEATURES_IN_TESTS)]
    #[test]
    fn test_trailing_field_offset() {
        assert_eq!(mem::align_of::<Aligned64kAllocation>(), _64K);

        macro_rules! test {
            (#[$cfg:meta] ($($ts:ty),* ; $trailing_field_ty:ty) => $expect:expr) => {{
                #[$cfg]
                struct Test($($ts,)* $trailing_field_ty);
                assert_eq!(test!(@offset $($ts),* ; $trailing_field_ty), $expect);
            }};
            (#[$cfg:meta] $(#[$cfgs:meta])* ($($ts:ty),* ; $trailing_field_ty:ty) => $expect:expr) => {
                test!(#[$cfg] ($($ts),* ; $trailing_field_ty) => $expect);
                test!($(#[$cfgs])* ($($ts),* ; $trailing_field_ty) => $expect);
            };
            (@offset ; $_trailing:ty) => { trailing_field_offset!(Test, 0) };
            (@offset $_t:ty ; $_trailing:ty) => { trailing_field_offset!(Test, 1) };
        }

        test!(#[repr(C)] #[repr(transparent)] #[repr(packed)](; u8) => Some(0));
        test!(#[repr(C)] #[repr(transparent)] #[repr(packed)](; [u8]) => Some(0));
        test!(#[repr(C)] #[repr(packed)] (u8; u8) => Some(1));
        test!(#[repr(C)] (; AU64) => Some(0));
        test!(#[repr(C)] (; [AU64]) => Some(0));
        test!(#[repr(C)] (u8; AU64) => Some(8));
        test!(#[repr(C)] (u8; [AU64]) => Some(8));
        test!(#[repr(C)] (; Nested<u8, AU64>) => Some(0));
        test!(#[repr(C)] (; Nested<u8, [AU64]>) => Some(0));
        test!(#[repr(C)] (u8; Nested<u8, AU64>) => Some(8));
        test!(#[repr(C)] (u8; Nested<u8, [AU64]>) => Some(8));

        // Test that `packed(N)` limits the offset of the trailing field.
        test!(#[repr(C, packed(        1))] (u8; elain::Align<        2>) => Some(        1));
        test!(#[repr(C, packed(        2))] (u8; elain::Align<        4>) => Some(        2));
        test!(#[repr(C, packed(        4))] (u8; elain::Align<        8>) => Some(        4));
        test!(#[repr(C, packed(        8))] (u8; elain::Align<       16>) => Some(        8));
        test!(#[repr(C, packed(       16))] (u8; elain::Align<       32>) => Some(       16));
        test!(#[repr(C, packed(       32))] (u8; elain::Align<       64>) => Some(       32));
        test!(#[repr(C, packed(       64))] (u8; elain::Align<      128>) => Some(       64));
        test!(#[repr(C, packed(      128))] (u8; elain::Align<      256>) => Some(      128));
        test!(#[repr(C, packed(      256))] (u8; elain::Align<      512>) => Some(      256));
        test!(#[repr(C, packed(      512))] (u8; elain::Align<     1024>) => Some(      512));
        test!(#[repr(C, packed(     1024))] (u8; elain::Align<     2048>) => Some(     1024));
        test!(#[repr(C, packed(     2048))] (u8; elain::Align<     4096>) => Some(     2048));
        test!(#[repr(C, packed(     4096))] (u8; elain::Align<     8192>) => Some(     4096));
        test!(#[repr(C, packed(     8192))] (u8; elain::Align<    16384>) => Some(     8192));
        test!(#[repr(C, packed(    16384))] (u8; elain::Align<    32768>) => Some(    16384));
        test!(#[repr(C, packed(    32768))] (u8; elain::Align<    65536>) => Some(    32768));
        test!(#[repr(C, packed(    65536))] (u8; elain::Align<   131072>) => Some(    65536));
        /* Alignments above 65536 are not yet supported.
        test!(#[repr(C, packed(   131072))] (u8; elain::Align<   262144>) => Some(   131072));
        test!(#[repr(C, packed(   262144))] (u8; elain::Align<   524288>) => Some(   262144));
        test!(#[repr(C, packed(   524288))] (u8; elain::Align<  1048576>) => Some(   524288));
        test!(#[repr(C, packed(  1048576))] (u8; elain::Align<  2097152>) => Some(  1048576));
        test!(#[repr(C, packed(  2097152))] (u8; elain::Align<  4194304>) => Some(  2097152));
        test!(#[repr(C, packed(  4194304))] (u8; elain::Align<  8388608>) => Some(  4194304));
        test!(#[repr(C, packed(  8388608))] (u8; elain::Align< 16777216>) => Some(  8388608));
        test!(#[repr(C, packed( 16777216))] (u8; elain::Align< 33554432>) => Some( 16777216));
        test!(#[repr(C, packed( 33554432))] (u8; elain::Align< 67108864>) => Some( 33554432));
        test!(#[repr(C, packed( 67108864))] (u8; elain::Align< 33554432>) => Some( 67108864));
        test!(#[repr(C, packed( 33554432))] (u8; elain::Align<134217728>) => Some( 33554432));
        test!(#[repr(C, packed(134217728))] (u8; elain::Align<268435456>) => Some(134217728));
        test!(#[repr(C, packed(268435456))] (u8; elain::Align<268435456>) => Some(268435456));
        */

        // Test that `align(N)` does not limit the offset of the trailing field.
        test!(#[repr(C, align(        1))] (u8; elain::Align<        2>) => Some(        2));
        test!(#[repr(C, align(        2))] (u8; elain::Align<        4>) => Some(        4));
        test!(#[repr(C, align(        4))] (u8; elain::Align<        8>) => Some(        8));
        test!(#[repr(C, align(        8))] (u8; elain::Align<       16>) => Some(       16));
        test!(#[repr(C, align(       16))] (u8; elain::Align<       32>) => Some(       32));
        test!(#[repr(C, align(       32))] (u8; elain::Align<       64>) => Some(       64));
        test!(#[repr(C, align(       64))] (u8; elain::Align<      128>) => Some(      128));
        test!(#[repr(C, align(      128))] (u8; elain::Align<      256>) => Some(      256));
        test!(#[repr(C, align(      256))] (u8; elain::Align<      512>) => Some(      512));
        test!(#[repr(C, align(      512))] (u8; elain::Align<     1024>) => Some(     1024));
        test!(#[repr(C, align(     1024))] (u8; elain::Align<     2048>) => Some(     2048));
        test!(#[repr(C, align(     2048))] (u8; elain::Align<     4096>) => Some(     4096));
        test!(#[repr(C, align(     4096))] (u8; elain::Align<     8192>) => Some(     8192));
        test!(#[repr(C, align(     8192))] (u8; elain::Align<    16384>) => Some(    16384));
        test!(#[repr(C, align(    16384))] (u8; elain::Align<    32768>) => Some(    32768));
        test!(#[repr(C, align(    32768))] (u8; elain::Align<    65536>) => Some(    65536));
        /* Alignments above 65536 are not yet supported.
        test!(#[repr(C, align(    65536))] (u8; elain::Align<   131072>) => Some(   131072));
        test!(#[repr(C, align(   131072))] (u8; elain::Align<   262144>) => Some(   262144));
        test!(#[repr(C, align(   262144))] (u8; elain::Align<   524288>) => Some(   524288));
        test!(#[repr(C, align(   524288))] (u8; elain::Align<  1048576>) => Some(  1048576));
        test!(#[repr(C, align(  1048576))] (u8; elain::Align<  2097152>) => Some(  2097152));
        test!(#[repr(C, align(  2097152))] (u8; elain::Align<  4194304>) => Some(  4194304));
        test!(#[repr(C, align(  4194304))] (u8; elain::Align<  8388608>) => Some(  8388608));
        test!(#[repr(C, align(  8388608))] (u8; elain::Align< 16777216>) => Some( 16777216));
        test!(#[repr(C, align( 16777216))] (u8; elain::Align< 33554432>) => Some( 33554432));
        test!(#[repr(C, align( 33554432))] (u8; elain::Align< 67108864>) => Some( 67108864));
        test!(#[repr(C, align( 67108864))] (u8; elain::Align< 33554432>) => Some( 33554432));
        test!(#[repr(C, align( 33554432))] (u8; elain::Align<134217728>) => Some(134217728));
        test!(#[repr(C, align(134217728))] (u8; elain::Align<268435456>) => Some(268435456));
        */
    }

    // TODO(#29), TODO(https://github.com/rust-lang/rust/issues/69835): Remove
    // this `cfg` when `size_of_val_raw` is stabilized.
    #[allow(clippy::decimal_literal_representation)]
    #[cfg(__INTERNAL_USE_ONLY_NIGHLTY_FEATURES_IN_TESTS)]
    #[test]
    fn test_align_of_dst() {
        // Test that `align_of!` correctly computes the alignment of DSTs.
        assert_eq!(align_of!([elain::Align<1>]), Some(1));
        assert_eq!(align_of!([elain::Align<2>]), Some(2));
        assert_eq!(align_of!([elain::Align<4>]), Some(4));
        assert_eq!(align_of!([elain::Align<8>]), Some(8));
        assert_eq!(align_of!([elain::Align<16>]), Some(16));
        assert_eq!(align_of!([elain::Align<32>]), Some(32));
        assert_eq!(align_of!([elain::Align<64>]), Some(64));
        assert_eq!(align_of!([elain::Align<128>]), Some(128));
        assert_eq!(align_of!([elain::Align<256>]), Some(256));
        assert_eq!(align_of!([elain::Align<512>]), Some(512));
        assert_eq!(align_of!([elain::Align<1024>]), Some(1024));
        assert_eq!(align_of!([elain::Align<2048>]), Some(2048));
        assert_eq!(align_of!([elain::Align<4096>]), Some(4096));
        assert_eq!(align_of!([elain::Align<8192>]), Some(8192));
        assert_eq!(align_of!([elain::Align<16384>]), Some(16384));
        assert_eq!(align_of!([elain::Align<32768>]), Some(32768));
        assert_eq!(align_of!([elain::Align<65536>]), Some(65536));
        /* Alignments above 65536 are not yet supported.
        assert_eq!(align_of!([elain::Align<131072>]), Some(131072));
        assert_eq!(align_of!([elain::Align<262144>]), Some(262144));
        assert_eq!(align_of!([elain::Align<524288>]), Some(524288));
        assert_eq!(align_of!([elain::Align<1048576>]), Some(1048576));
        assert_eq!(align_of!([elain::Align<2097152>]), Some(2097152));
        assert_eq!(align_of!([elain::Align<4194304>]), Some(4194304));
        assert_eq!(align_of!([elain::Align<8388608>]), Some(8388608));
        assert_eq!(align_of!([elain::Align<16777216>]), Some(16777216));
        assert_eq!(align_of!([elain::Align<33554432>]), Some(33554432));
        assert_eq!(align_of!([elain::Align<67108864>]), Some(67108864));
        assert_eq!(align_of!([elain::Align<33554432>]), Some(33554432));
        assert_eq!(align_of!([elain::Align<134217728>]), Some(134217728));
        assert_eq!(align_of!([elain::Align<268435456>]), Some(268435456));
        */
    }

    #[test]
    fn test_struct_has_padding() {
        // Test that, for each provided repr, `struct_has_padding!` reports the
        // expected value.
        macro_rules! test {
            (#[$cfg:meta] ($($ts:ty),*) => $expect:expr) => {{
                #[$cfg]
                struct Test($($ts),*);
                assert_eq!(struct_has_padding!(Test, $($ts),*), $expect);
            }};
            (#[$cfg:meta] $(#[$cfgs:meta])* ($($ts:ty),*) => $expect:expr) => {
                test!(#[$cfg] ($($ts),*) => $expect);
                test!($(#[$cfgs])* ($($ts),*) => $expect);
            };
        }

        test!(#[repr(C)] #[repr(transparent)] #[repr(packed)] () => false);
        test!(#[repr(C)] #[repr(transparent)] #[repr(packed)] (u8) => false);
        test!(#[repr(C)] #[repr(transparent)] #[repr(packed)] (u8, ()) => false);
        test!(#[repr(C)] #[repr(packed)] (u8, u8) => false);

        test!(#[repr(C)] (u8, AU64) => true);
        // Rust won't let you put `#[repr(packed)]` on a type which contains a
        // `#[repr(align(n > 1))]` type (`AU64`), so we have to use `u64` here.
        // It's not ideal, but it definitely has align > 1 on /some/ of our CI
        // targets, and this isn't a particularly complex macro we're testing
        // anyway.
        test!(#[repr(packed)] (u8, u64) => false);
    }

    #[test]
    fn test_union_has_padding() {
        // Test that, for each provided repr, `union_has_padding!` reports the
        // expected value.
        macro_rules! test {
            (#[$cfg:meta] {$($fs:ident: $ts:ty),*} => $expect:expr) => {{
                #[$cfg]
                #[allow(unused)] // fields are never read
                union Test{ $($fs: $ts),* }
                assert_eq!(union_has_padding!(Test, $($ts),*), $expect);
            }};
            (#[$cfg:meta] $(#[$cfgs:meta])* {$($fs:ident: $ts:ty),*} => $expect:expr) => {
                test!(#[$cfg] {$($fs: $ts),*} => $expect);
                test!($(#[$cfgs])* {$($fs: $ts),*} => $expect);
            };
        }

        test!(#[repr(C)] #[repr(packed)] {a: u8} => false);
        test!(#[repr(C)] #[repr(packed)] {a: u8, b: u8} => false);

        // Rust won't let you put `#[repr(packed)]` on a type which contains a
        // `#[repr(align(n > 1))]` type (`AU64`), so we have to use `u64` here.
        // It's not ideal, but it definitely has align > 1 on /some/ of our CI
        // targets, and this isn't a particularly complex macro we're testing
        // anyway.
        test!(#[repr(C)] #[repr(packed)] {a: u8, b: u64} => true);
    }
}