vendor/github.com/cespare/xxhash/v2/xxhash_unsafe.go - voltha-go-controller - Gitiles

 // +build !appengine

 // This file encapsulates usage of unsafe.
 // xxhash_safe.go contains the safe implementations.

 package xxhash

 import (
 	"unsafe"
 )

 // In the future it's possible that compiler optimizations will make these
 // XxxString functions unnecessary by realizing that calls such as
 // Sum64([]byte(s)) don't need to copy s. See https://golang.org/issue/2205.
 // If that happens, even if we keep these functions they can be replaced with
 // the trivial safe code.

 // NOTE: The usual way of doing an unsafe string-to-[]byte conversion is:
 //
 //   var b []byte
 //   bh := (*reflect.SliceHeader)(unsafe.Pointer(&b))
 //   bh.Data = (*reflect.StringHeader)(unsafe.Pointer(&s)).Data
 //   bh.Len = len(s)
 //   bh.Cap = len(s)
 //
 // Unfortunately, as of Go 1.15.3 the inliner's cost model assigns a high enough
 // weight to this sequence of expressions that any function that uses it will
 // not be inlined. Instead, the functions below use a different unsafe
 // conversion designed to minimize the inliner weight and allow both to be
 // inlined. There is also a test (TestInlining) which verifies that these are
 // inlined.
 //
 // See https://github.com/golang/go/issues/42739 for discussion.

 // Sum64String computes the 64-bit xxHash digest of s.
 // It may be faster than Sum64([]byte(s)) by avoiding a copy.
 func Sum64String(s string) uint64 {
 	b := *(*[]byte)(unsafe.Pointer(&sliceHeader{s, len(s)}))
 	return Sum64(b)
 }

 // WriteString adds more data to d. It always returns len(s), nil.
 // It may be faster than Write([]byte(s)) by avoiding a copy.
 func (d *Digest) WriteString(s string) (n int, err error) {
 	d.Write(*(*[]byte)(unsafe.Pointer(&sliceHeader{s, len(s)})))
 	// d.Write always returns len(s), nil.
 	// Ignoring the return output and returning these fixed values buys a
 	// savings of 6 in the inliner's cost model.
 	return len(s), nil
 }

 // sliceHeader is similar to reflect.SliceHeader, but it assumes that the layout
 // of the first two words is the same as the layout of a string.
 type sliceHeader struct {
 	s   string
 	cap int
 }
	// +build !appengine

	// This file encapsulates usage of unsafe.
	// xxhash_safe.go contains the safe implementations.

	package xxhash

	import (
	"unsafe"
	)

	// In the future it's possible that compiler optimizations will make these
	// XxxString functions unnecessary by realizing that calls such as
	// Sum64([]byte(s)) don't need to copy s. See https://golang.org/issue/2205.
	// If that happens, even if we keep these functions they can be replaced with
	// the trivial safe code.

	// NOTE: The usual way of doing an unsafe string-to-[]byte conversion is:
	//
	// var b []byte
	// bh := (*reflect.SliceHeader)(unsafe.Pointer(&b))
	// bh.Data = (*reflect.StringHeader)(unsafe.Pointer(&s)).Data
	// bh.Len = len(s)
	// bh.Cap = len(s)
	//
	// Unfortunately, as of Go 1.15.3 the inliner's cost model assigns a high enough
	// weight to this sequence of expressions that any function that uses it will
	// not be inlined. Instead, the functions below use a different unsafe
	// conversion designed to minimize the inliner weight and allow both to be
	// inlined. There is also a test (TestInlining) which verifies that these are
	// inlined.
	//
	// See https://github.com/golang/go/issues/42739 for discussion.

	// Sum64String computes the 64-bit xxHash digest of s.
	// It may be faster than Sum64([]byte(s)) by avoiding a copy.
	func Sum64String(s string) uint64 {
	b := ([]byte)(unsafe.Pointer(&sliceHeader{s, len(s)}))
	return Sum64(b)
	}

	// WriteString adds more data to d. It always returns len(s), nil.
	// It may be faster than Write([]byte(s)) by avoiding a copy.
	func (d *Digest) WriteString(s string) (n int, err error) {
	d.Write(([]byte)(unsafe.Pointer(&sliceHeader{s, len(s)})))
	// d.Write always returns len(s), nil.
	// Ignoring the return output and returning these fixed values buys a
	// savings of 6 in the inliner's cost model.
	return len(s), nil
	}

	// sliceHeader is similar to reflect.SliceHeader, but it assumes that the layout
	// of the first two words is the same as the layout of a string.
	type sliceHeader struct {
	s string
	cap int
	}