Crates.io | get-size2 |
lib.rs | get-size2 |
version | 0.1.2 |
source | src |
created_at | 2024-09-13 13:16:01.103023 |
updated_at | 2024-09-14 23:12:40.920373 |
description | Determine the size in bytes an object occupies inside RAM. |
homepage | |
repository | https://github.com/bircni/get-size2/tree/main/get-size2 |
max_upload_size | |
id | 1373642 |
size | 56,667 |
This repo is a fork of get-size, as it is not maintained anymore. The original repo can be found here
Determine the size in bytes an object occupies inside RAM.
The GetSize
trait can be used to determine the size of an object inside the stack as well as in the heap. The size_of
function provided by the standard library can already be used to determine the size of an object in the stack, but many application (e.g. for caching) do also need to know the number of bytes occupied inside the heap, for which this library provides an appropriate trait.
We use GetSize
to determine number of bytes occupied by both a String
and a Vec
of bytes. Note that the Vec
has already allocated a capacity of 1024
bytes, and does thus correctly show a heap size of 1024
, even if only 1
byte is currently in use.
use get_size2::GetSize;
fn main() {
let value = String::from("Hello World!");
assert_eq!(String::get_stack_size(), std::mem::size_of::<String>());
assert_eq!(value.get_heap_size(), 12);
assert_eq!(value.get_size(), std::mem::size_of::<String>() + 12);
let mut buffer = Vec::with_capacity(1024); // 1KB allocated on the heap.
buffer.push(1u8); // 1 byte in use.
assert_eq!(buffer.len(), 1);
assert_eq!(buffer.get_heap_size(), 1024);
}
This library follows the idea that only bytes owned by a certain object should be accounted for, and not bytes owned by different objects which are only borrowed. This means in particular that objects referenced by pointers are ignored.
On the other hand references implemented as shared ownership are treated as owned values. It is your responsibility to ensure that the bytes occupied by them are not counted twice in your application. The ignore
attribute might be helpful, see below.
The GetSize
trait is already implemented for most objects defined by the standard library, like Vec
, HashMap
, String
as well as all the primitive values, like u8
, i32
etc.
Unless you have a complex datastructure which requires a manual implementation, you can easily derive GetSize
for your own structs and enums. The derived implementation will implement get_heap_size
by simply calling get_heap_size
on all values contained inside the struct or enum variant and return the sum of them.
You will need to activate the derive
feature first, which is disabled by default. Add the following to your cargo.toml
:
get-size2 = { version = "^0.1", features = ["derive"] }
Note that the derive macro does not support unions. You have to manually implement it for them.
The derive macro does also work with generics. The generated trait implementation will by default require all generic types to implement GetSize
themselves, but this can be changed.
Deriving GetSize
is straight forward if all the types contained in your data structure implement GetSize
themselves, but this might not always be the case. For that reason the derive macro offers some helpers to assist you in that case.
Note that the helpers are currently only available for regular structs, that is they do neither support tuple structs nor enums.
You can tell the derive macro to ignore certain struct fields by adding the ignore
attribute to them. The generated implementation of get_heap_size
will then simple skip this field.
But you may also use this as a band aid, if a certain struct fields type does not implement GetSize
.
Be aware though that this will result in an implementation which will return incorrect results, unless the heap size of that type is indeed always zero and can thus be ignored. It is therefor advisable to use one of the next two helper options instead.
In same cases you may be dealing with external types which allocate a fixed amount of bytes at the heap. In this case you may use the size
attribute to always account the given field with a fixed value.
In same cases you may be dealing with an external data structure for which you know how to calculate its heap size using its public methods. In that case you may either use the newtype pattern to implement GetSize
for it directly, or you can use the size_fn
attribute, which will call the given function in order to calculate the fields heap size.
The latter is especially usefull if you can make use of a certain trait to calculate the heap size for multiple types.
Note that unlike in other crates, the name of the function to be called is not encapsulated by double-quotes ("), but rather given directly.
If your struct uses generics, but the fields at which they are stored are ignored or get handled by helpers because the generic does not implement GetSize
, you will have to mark these generics with a special struct level ignore
attribute. Otherwise the derived GetSize
implementation would still require these generics to implement GetSize
, even through there is no need for it.
This library is licensed under the MIT license.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in this library by you, shall be licensed as MIT, without any additional terms or conditions.