Module std::slice

1.0.0 · source ·
Expand description

Utilities for the slice primitive type.

See also the slice primitive type.

Most of the structs in this module are iterator types which can only be created using a certain function. For example, slice.iter() yields an Iter.

A few functions are provided to create a slice from a value reference or from a raw pointer.

Structs§

  • An iterator over slice in (non-overlapping) chunks separated by a predicate.
  • An iterator over slice in (non-overlapping) mutable chunks separated by a predicate.
  • An iterator over a slice in (non-overlapping) chunks (chunk_size elements at a time), starting at the beginning of the slice.
  • An iterator over a slice in (non-overlapping) chunks (chunk_size elements at a time), starting at the beginning of the slice.
  • An iterator over a slice in (non-overlapping) mutable chunks (chunk_size elements at a time), starting at the beginning of the slice.
  • An iterator over a slice in (non-overlapping) mutable chunks (chunk_size elements at a time), starting at the beginning of the slice.
  • An iterator over the escaped version of a byte slice.
  • Immutable slice iterator
  • Mutable slice iterator.
  • An iterator over a slice in (non-overlapping) chunks (chunk_size elements at a time), starting at the end of the slice.
  • An iterator over a slice in (non-overlapping) chunks (chunk_size elements at a time), starting at the end of the slice.
  • An iterator over a slice in (non-overlapping) mutable chunks (chunk_size elements at a time), starting at the end of the slice.
  • An iterator over a slice in (non-overlapping) mutable chunks (chunk_size elements at a time), starting at the end of the slice.
  • An iterator over subslices separated by elements that match a predicate function, starting from the end of the slice.
  • An iterator over the subslices of the vector which are separated by elements that match pred, starting from the end of the slice.
  • An iterator over subslices separated by elements that match a predicate function, limited to a given number of splits, starting from the end of the slice.
  • An iterator over subslices separated by elements that match a predicate function, limited to a given number of splits, starting from the end of the slice.
  • An iterator over subslices separated by elements that match a predicate function.
  • An iterator over subslices separated by elements that match a predicate function. Unlike Split, it contains the matched part as a terminator of the subslice.
  • An iterator over the mutable subslices of the vector which are separated by elements that match pred. Unlike SplitMut, it contains the matched parts in the ends of the subslices.
  • An iterator over the mutable subslices of the vector which are separated by elements that match pred.
  • An iterator over subslices separated by elements that match a predicate function, limited to a given number of splits.
  • An iterator over subslices separated by elements that match a predicate function, limited to a given number of splits.
  • An iterator over overlapping subslices of length size.
  • ArrayChunksExperimental
    An iterator over a slice in (non-overlapping) chunks (N elements at a time), starting at the beginning of the slice.
  • ArrayChunksMutExperimental
    An iterator over a slice in (non-overlapping) mutable chunks (N elements at a time), starting at the beginning of the slice.
  • ArrayWindowsExperimental
    A windowed iterator over a slice in overlapping chunks (N elements at a time), starting at the beginning of the slice

Traits§

Functions§

  • Converts a reference to T into a slice of length 1 (without copying).
  • Forms a slice from a pointer and a length.
  • Performs the same functionality as from_raw_parts, except that a mutable slice is returned.
  • Converts a reference to T into a slice of length 1 (without copying).
  • from_mut_ptr_rangeExperimental
    Forms a mutable slice from a pointer range.
  • from_ptr_rangeExperimental
    Forms a slice from a pointer range.
  • rangeExperimental
    Performs bounds-checking of a range.