Auto merge of #122785 - the8472:const-select-specialized-impl, r=Amanieu

select Vec::from_iter impls in a const block to optimize compile times

Ignoring whitespace diffs should make this easier to review.

This relies on the trick from #122301
Split out from #120682

library/alloc/src/vec/in_place_collect.rs

@@ -229,96 +229,106 @@ where
  I: Iterator<Item = T> + InPlaceCollect,
  <I as SourceIter>::Source: AsVecIntoIter,
 {
- default fn from_iter(mut iterator: I) -> Self {
- // See "Layout constraints" section in the module documentation. We rely on const
- // optimization here since these conditions currently cannot be expressed as trait bounds
- if const { !in_place_collectible::<T, I::Src>(I::MERGE_BY, I::EXPAND_BY) } {
- // fallback to more generic implementations
- return SpecFromIterNested::from_iter(iterator);
- }
-
- let (src_buf, src_ptr, src_cap, mut dst_buf, dst_end, dst_cap) = unsafe {
- let inner = iterator.as_inner().as_into_iter();
- (
- inner.buf.as_ptr(),
- inner.ptr,
- inner.cap,
- inner.buf.as_ptr() as *mut T,
- inner.end as *const T,
- inner.cap * mem::size_of::<I::Src>() / mem::size_of::<T>(),
- )
+ default fn from_iter(iterator: I) -> Self {
+ // Select the implementation in const eval to avoid codegen of the dead branch to improve compile times.
+ let fun: fn(I) -> Vec<T> = const {
+ // See "Layout constraints" section in the module documentation. We use const conditions here
+ // since these conditions currently cannot be expressed as trait bounds
+ if in_place_collectible::<T, I::Src>(I::MERGE_BY, I::EXPAND_BY) {
+ from_iter_in_place
+ } else {
+ // fallback
+ SpecFromIterNested::<T, I>::from_iter
+ }
  };
 
- // SAFETY: `dst_buf` and `dst_end` are the start and end of the buffer.
- let len = unsafe { SpecInPlaceCollect::collect_in_place(&mut iterator, dst_buf, dst_end) };
+ fun(iterator)
+ }
+}
 
- let src = unsafe { iterator.as_inner().as_into_iter() };
- // check if SourceIter contract was upheld
- // caveat: if they weren't we might not even make it to this point
- debug_assert_eq!(src_buf, src.buf.as_ptr());
- // check InPlaceIterable contract. This is only possible if the iterator advanced the
- // source pointer at all. If it uses unchecked access via TrustedRandomAccess
- // then the source pointer will stay in its initial position and we can't use it as reference
- if src.ptr != src_ptr {
- debug_assert!(
- unsafe { dst_buf.add(len) as *const _ } <= src.ptr.as_ptr(),
- "InPlaceIterable contract violation, write pointer advanced beyond read pointer"
- );
- }
+fn from_iter_in_place<I, T>(mut iterator: I) -> Vec<T>
+where
+ I: Iterator<Item = T> + InPlaceCollect,
+ <I as SourceIter>::Source: AsVecIntoIter,
+{
+ let (src_buf, src_ptr, src_cap, mut dst_buf, dst_end, dst_cap) = unsafe {
+ let inner = iterator.as_inner().as_into_iter();
+ (
+ inner.buf.as_ptr(),
+ inner.ptr,
+ inner.cap,
+ inner.buf.as_ptr() as *mut T,
+ inner.end as *const T,
+ inner.cap * mem::size_of::<I::Src>() / mem::size_of::<T>(),
+ )
+ };
 
- // The ownership of the source allocation and the new `T` values is temporarily moved into `dst_guard`.
- // This is safe because
- // * `forget_allocation_drop_remaining` immediately forgets the allocation
- // before any panic can occur in order to avoid any double free, and then proceeds to drop
- // any remaining values at the tail of the source.
- // * the shrink either panics without invalidating the allocation, aborts or
- // succeeds. In the last case we disarm the guard.
- //
- // Note: This access to the source wouldn't be allowed by the TrustedRandomIteratorNoCoerce
- // contract (used by SpecInPlaceCollect below). But see the "O(1) collect" section in the
- // module documentation why this is ok anyway.
- let dst_guard =
- InPlaceDstDataSrcBufDrop { ptr: dst_buf, len, src_cap, src: PhantomData::<I::Src> };
- src.forget_allocation_drop_remaining();
+ // SAFETY: `dst_buf` and `dst_end` are the start and end of the buffer.
+ let len = unsafe { SpecInPlaceCollect::collect_in_place(&mut iterator, dst_buf, dst_end) };
 
-  // Adjust the allocation if the source had a capacity in bytes that wasn't a multiple
-  // of the destination type size.
-  // Since the discrepancy should generally be small this should only result in some
-  // bookkeeping updates and no memmove.
-  if needs_realloc::<I::Src, T>(src_cap, dst_cap) {
-  let alloc = Global;
-  debug_assert_ne!(src_cap, 0);
-  debug_assert_ne!(dst_cap, 0);
-  unsafe {
-  // The old allocation exists, therefore it must have a valid layout.
-  let src_align = mem::align_of::<I::Src>();
-  let src_size = mem::size_of::<I::Src>().unchecked_mul(src_cap);
-  let old_layout = Layout::from_size_align_unchecked(src_size, src_align);
+ let src = unsafe { iterator.as_inner().as_into_iter() };
+ // check if SourceIter contract was upheld
+ // caveat: if they weren't we might not even make it to this point
+ debug_assert_eq!(src_buf, src.buf.as_ptr());
+ // check InPlaceIterable contract. This is only possible if the iterator advanced the
+ // source pointer at all. If it uses unchecked access via TrustedRandomAccess
+ // then the source pointer will stay in its initial position and we can't use it as reference
+ if src.ptr != src_ptr {
+ debug_assert!(
+ unsafe { dst_buf.add(len) as *const _ } <= src.ptr.as_ptr(),
+ "InPlaceIterable contract violation, write pointer advanced beyond read pointer"
+ );
+ }
 
- // The allocation must be equal or smaller for in-place iteration to be possible
- // therefore the new layout must be ≤ the old one and therefore valid.
- let dst_align = mem::align_of::<T>();
- let dst_size = mem::size_of::<T>().unchecked_mul(dst_cap);
- let new_layout = Layout::from_size_align_unchecked(dst_size, dst_align);
+ // The ownership of the source allocation and the new `T` values is temporarily moved into `dst_guard`.
+ // This is safe because
+ // * `forget_allocation_drop_remaining` immediately forgets the allocation
+ // before any panic can occur in order to avoid any double free, and then proceeds to drop
+ // any remaining values at the tail of the source.
+ // * the shrink either panics without invalidating the allocation, aborts or
+ // succeeds. In the last case we disarm the guard.
+ //
+ // Note: This access to the source wouldn't be allowed by the TrustedRandomIteratorNoCoerce
+ // contract (used by SpecInPlaceCollect below). But see the "O(1) collect" section in the
+ // module documentation why this is ok anyway.
+ let dst_guard =
+ InPlaceDstDataSrcBufDrop { ptr: dst_buf, len, src_cap, src: PhantomData::<I::Src> };
+ src.forget_allocation_drop_remaining();
 
- let result = alloc.shrink(
- NonNull::new_unchecked(dst_buf as *mut u8),
- old_layout,
- new_layout,
- );
- let Ok(reallocated) = result else { handle_alloc_error(new_layout) };
- dst_buf = reallocated.as_ptr() as *mut T;
- }
- } else {
- debug_assert_eq!(src_cap * mem::size_of::<I::Src>(), dst_cap * mem::size_of::<T>());
+ // Adjust the allocation if the source had a capacity in bytes that wasn't a multiple
+ // of the destination type size.
+ // Since the discrepancy should generally be small this should only result in some
+ // bookkeeping updates and no memmove.
+ if needs_realloc::<I::Src, T>(src_cap, dst_cap) {
+ let alloc = Global;
+ debug_assert_ne!(src_cap, 0);
+ debug_assert_ne!(dst_cap, 0);
+ unsafe {
+ // The old allocation exists, therefore it must have a valid layout.
+ let src_align = mem::align_of::<I::Src>();
+ let src_size = mem::size_of::<I::Src>().unchecked_mul(src_cap);
+ let old_layout = Layout::from_size_align_unchecked(src_size, src_align);
+
+ // The allocation must be equal or smaller for in-place iteration to be possible
+ // therefore the new layout must be ≤ the old one and therefore valid.
+ let dst_align = mem::align_of::<T>();
+ let dst_size = mem::size_of::<T>().unchecked_mul(dst_cap);
+ let new_layout = Layout::from_size_align_unchecked(dst_size, dst_align);
+
+ let result =
+ alloc.shrink(NonNull::new_unchecked(dst_buf as *mut u8), old_layout, new_layout);
+ let Ok(reallocated) = result else { handle_alloc_error(new_layout) };
+ dst_buf = reallocated.as_ptr() as *mut T;
  }
+ } else {
+ debug_assert_eq!(src_cap * mem::size_of::<I::Src>(), dst_cap * mem::size_of::<T>());
+ }
 
-  mem::forget(dst_guard);
+ mem::forget(dst_guard);
 
-  let vec = unsafe { Vec::from_raw_parts(dst_buf, len, dst_cap) };
+ let vec = unsafe { Vec::from_raw_parts(dst_buf, len, dst_cap) };
 
- vec
- }
+ vec
 }
 
 fn write_in_place_with_drop<T>(