// Copyright 2014 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package sys // NOTE: keep in sync with cmd/compile/internal/types.CalcSize // to make the compiler recognize this as an intrinsic type. type nih struct{} // NotInHeap is a type must never be allocated from the GC'd heap or on the stack, // and is called not-in-heap. // // Other types can embed NotInHeap to make it not-in-heap. Specifically, pointers // to these types must always fail the `runtime.inheap` check. The type may be used // for global variables, or for objects in unmanaged memory (e.g., allocated with // `sysAlloc`, `persistentalloc`, `fixalloc`, or from a manually-managed span). // // Specifically: // // 1. `new(T)`, `make([]T)`, `append([]T, ...)` and implicit heap // allocation of T are disallowed. (Though implicit allocations are // disallowed in the runtime anyway.) // // 2. A pointer to a regular type (other than `unsafe.Pointer`) cannot be // converted to a pointer to a not-in-heap type, even if they have the // same underlying type. // // 3. Any type that containing a not-in-heap type is itself considered as not-in-heap. // // - Structs and arrays are not-in-heap if their elements are not-in-heap. // - Maps and channels contains no-in-heap types are disallowed. // // 4. Write barriers on pointers to not-in-heap types can be omitted. // // The last point is the real benefit of NotInHeap. The runtime uses // it for low-level internal structures to avoid memory barriers in the // scheduler and the memory allocator where they are illegal or simply // inefficient. This mechanism is reasonably safe and does not compromise // the readability of the runtime. type NotInHeap struct{ _ nih }