vendor/github.com/modern-go/reflect2/unsafe_link.go - voltha-go - Gitiles

 package reflect2

 import "unsafe"

 //go:linkname unsafe_New reflect.unsafe_New
 func unsafe_New(rtype unsafe.Pointer) unsafe.Pointer

 //go:linkname typedmemmove reflect.typedmemmove
 func typedmemmove(rtype unsafe.Pointer, dst, src unsafe.Pointer)

 //go:linkname unsafe_NewArray reflect.unsafe_NewArray
 func unsafe_NewArray(rtype unsafe.Pointer, length int) unsafe.Pointer

 // typedslicecopy copies a slice of elemType values from src to dst,
 // returning the number of elements copied.
 //go:linkname typedslicecopy reflect.typedslicecopy
 //go:noescape
 func typedslicecopy(elemType unsafe.Pointer, dst, src sliceHeader) int

 //go:linkname mapassign reflect.mapassign
 //go:noescape
 func mapassign(rtype unsafe.Pointer, m unsafe.Pointer, key, val unsafe.Pointer)

 //go:linkname mapaccess reflect.mapaccess
 //go:noescape
 func mapaccess(rtype unsafe.Pointer, m unsafe.Pointer, key unsafe.Pointer) (val unsafe.Pointer)

 // m escapes into the return value, but the caller of mapiterinit
 // doesn't let the return value escape.
 //go:noescape
 //go:linkname mapiterinit reflect.mapiterinit
 func mapiterinit(rtype unsafe.Pointer, m unsafe.Pointer) *hiter

 //go:noescape
 //go:linkname mapiternext reflect.mapiternext
 func mapiternext(it *hiter)

 //go:linkname ifaceE2I reflect.ifaceE2I
 func ifaceE2I(rtype unsafe.Pointer, src interface{}, dst unsafe.Pointer)

 // A hash iteration structure.
 // If you modify hiter, also change cmd/internal/gc/reflect.go to indicate
 // the layout of this structure.
 type hiter struct {
 	key   unsafe.Pointer // Must be in first position.  Write nil to indicate iteration end (see cmd/internal/gc/range.go).
 	value unsafe.Pointer // Must be in second position (see cmd/internal/gc/range.go).
 	// rest fields are ignored
 }

 // add returns p+x.
 //
 // The whySafe string is ignored, so that the function still inlines
 // as efficiently as p+x, but all call sites should use the string to
 // record why the addition is safe, which is to say why the addition
 // does not cause x to advance to the very end of p's allocation
 // and therefore point incorrectly at the next block in memory.
 func add(p unsafe.Pointer, x uintptr, whySafe string) unsafe.Pointer {
 	return unsafe.Pointer(uintptr(p) + x)
 }

 // arrayAt returns the i-th element of p,
 // an array whose elements are eltSize bytes wide.
 // The array pointed at by p must have at least i+1 elements:
 // it is invalid (but impossible to check here) to pass i >= len,
 // because then the result will point outside the array.
 // whySafe must explain why i < len. (Passing "i < len" is fine;
 // the benefit is to surface this assumption at the call site.)
 func arrayAt(p unsafe.Pointer, i int, eltSize uintptr, whySafe string) unsafe.Pointer {
 	return add(p, uintptr(i)*eltSize, "i < len")
 }
	package reflect2

	import "unsafe"

	//go:linkname unsafe_New reflect.unsafe_New
	func unsafe_New(rtype unsafe.Pointer) unsafe.Pointer

	//go:linkname typedmemmove reflect.typedmemmove
	func typedmemmove(rtype unsafe.Pointer, dst, src unsafe.Pointer)

	//go:linkname unsafe_NewArray reflect.unsafe_NewArray
	func unsafe_NewArray(rtype unsafe.Pointer, length int) unsafe.Pointer

	// typedslicecopy copies a slice of elemType values from src to dst,
	// returning the number of elements copied.
	//go:linkname typedslicecopy reflect.typedslicecopy
	//go:noescape
	func typedslicecopy(elemType unsafe.Pointer, dst, src sliceHeader) int

	//go:linkname mapassign reflect.mapassign
	//go:noescape
	func mapassign(rtype unsafe.Pointer, m unsafe.Pointer, key, val unsafe.Pointer)

	//go:linkname mapaccess reflect.mapaccess
	//go:noescape
	func mapaccess(rtype unsafe.Pointer, m unsafe.Pointer, key unsafe.Pointer) (val unsafe.Pointer)

	// m escapes into the return value, but the caller of mapiterinit
	// doesn't let the return value escape.
	//go:noescape
	//go:linkname mapiterinit reflect.mapiterinit
	func mapiterinit(rtype unsafe.Pointer, m unsafe.Pointer) *hiter

	//go:noescape
	//go:linkname mapiternext reflect.mapiternext
	func mapiternext(it *hiter)

	//go:linkname ifaceE2I reflect.ifaceE2I
	func ifaceE2I(rtype unsafe.Pointer, src interface{}, dst unsafe.Pointer)

	// A hash iteration structure.
	// If you modify hiter, also change cmd/internal/gc/reflect.go to indicate
	// the layout of this structure.
	type hiter struct {
	key unsafe.Pointer // Must be in first position. Write nil to indicate iteration end (see cmd/internal/gc/range.go).
	value unsafe.Pointer // Must be in second position (see cmd/internal/gc/range.go).
	// rest fields are ignored
	}

	// add returns p+x.
	//
	// The whySafe string is ignored, so that the function still inlines
	// as efficiently as p+x, but all call sites should use the string to
	// record why the addition is safe, which is to say why the addition
	// does not cause x to advance to the very end of p's allocation
	// and therefore point incorrectly at the next block in memory.
	func add(p unsafe.Pointer, x uintptr, whySafe string) unsafe.Pointer {
	return unsafe.Pointer(uintptr(p) + x)
	}

	// arrayAt returns the i-th element of p,
	// an array whose elements are eltSize bytes wide.
	// The array pointed at by p must have at least i+1 elements:
	// it is invalid (but impossible to check here) to pass i >= len,
	// because then the result will point outside the array.
	// whySafe must explain why i < len. (Passing "i < len" is fine;
	// the benefit is to surface this assumption at the call site.)
	func arrayAt(p unsafe.Pointer, i int, eltSize uintptr, whySafe string) unsafe.Pointer {
	return add(p, uintptr(i)*eltSize, "i < len")
	}