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smallnum

crates.io docs.rs GitHub Actions License: MIT

Compile-time size optimization for numeric primitives. Macros return smallest numeric type capable of fitting a static bounds. For unsigned integers, macro input is a maximum. For signed integers, macro input may be a maximum or a minimum.

  • Can save memory at zero runtime cost.
  • Embedded-friendly: !#[no_std].
  • Safe: #![forbid(unsafe_code)].

What is this for?

  • Saving memory: aiding the compiler in memory layout optimization (aka "struct packing").

    • See zero-cost examples below.
  • Improving ergonomics: creating APIs that abstract away the underlying integer type.

    • E.g. method params/returns use usize, but stored as u16 internally. Upcast is free. Downcast checks for loss of precision.

Doesn't #[repr(packed)] already save memory?

Not safely. The difference is subtle but important:

  • #[repr(packed)] removes all padding between struct fields. This incurs a performance penalty for misaligned accesses at best, and causes undefined behavior at worst. It's something you generally want to avoid.

  • smallnum aids packing while maintaining the target's native alignment, without removing padding. It can actually improve [data cache] performance while being fully safe.

For extreme size optimization, you're free to combine smallnum with #[repr(packed)].

Example: Collection Index

When the size of a collection is known at compile-time, the variable used to index it can be size-optimized.

  • Target: Value for collection/container index operator
  • Yield: x * 1 where:
    • x < size_of<usize>()
use smallnum::{small_unsigned, SmallUnsigned};
use core::mem::size_of_val;

const MAX_SIZE: usize = 500;
let mut my_array: [u8; MAX_SIZE] = [0x00; MAX_SIZE];

let idx: usize = 5;
let small_idx: small_unsigned!(MAX_SIZE) = 5;

// Equivalent values
my_array[idx] = 0xff;
assert_eq!(my_array[idx], my_array[small_idx.usize()]);

// Memory savings (6 bytes on a 64-bit system)
#[cfg(target_pointer_width = "64")]
assert_eq!(size_of_val(&idx) - size_of_val(&small_idx), 6);

Notice that having the trait SmallUnsigned in scope allows small_idx.usize() to be called. This function returns a usize for convenient indexing, regardless of which type the macro selected (u16 in the above example, hence the 6 byte savings over a 64-bit host's u64).

Example: Tree Node Metadata

When the maximum capacity of a tree is known at compile time, metadata stored in every node can be size-optimized.

  • Target: Internal metatdata
  • Yield: x * n where:
    • x <= size_of<usize>()
    • n == node_cnt
use smallnum::small_unsigned;
use core::mem::size_of;

const MAX_CAPACITY: usize = 50_000;

// Regular node in a binary tree
pub struct BinTree<T> {
    value: T,
    left_child: Option<Box<BinTree<T>>>,
    right_child: Option<Box<BinTree<T>>>,
    subtree_size: usize,
}

// Node with size-optimized metadata
pub struct SmallBinTree<T> {
    value: T,
    left_child: Option<Box<SmallBinTree<T>>>,
    right_child: Option<Box<SmallBinTree<T>>>,
    subtree_size: small_unsigned!(MAX_CAPACITY),
}

// Per-node memory savings (8 bytes on a 64-bit system)
#[cfg(target_pointer_width = "64")]
assert_eq!(size_of::<BinTree<i16>>() - size_of::<SmallBinTree<i16>>(), 8);

Example: Index-based Graphs

When implementing an {index,arena}-based graph whose maximum capacity is known at compile-time, indexes stored in every structure (edge or node) can be size-optimized.

  • Target: Internal "pointer" representation
  • Yield: (x + y) * n where:
    • x <= size_of<usize>()
    • y <= size_of<Option<usize>>()
    • n == edge_cnt
use smallnum::small_unsigned;
use core::mem::size_of;

const MAX_CAPACITY: usize = 50_000;

// Based on "Modeling graphs in Rust using vector indices" by Niko Matsakis (April 2015)
// http://smallcultfollowing.com/babysteps/blog/2015/04/06/modeling-graphs-in-rust-using-vector-indices/

// Unoptimized indexes
pub type NodeIdx = usize;
pub type EdgeIdx = usize;

pub struct EdgeData {
    target: NodeIdx,
    next_outgoing_edge: Option<EdgeIdx>
}

// Optimized indexes
pub type SmallNodeIdx = small_unsigned!(MAX_CAPACITY);
pub type SmallEdgeIdx = small_unsigned!(MAX_CAPACITY);

pub struct SmallEdgeData {
    target: SmallNodeIdx,
    next_outgoing_edge: Option<SmallEdgeIdx>
}

// Per-edge memory savings (18 bytes on a 64-bit system)
#[cfg(target_pointer_width = "64")]
assert_eq!(size_of::<EdgeData>() - size_of::<SmallEdgeData>(), 18);

Advanced Examples

See examples/ directory, cargo run --example <file_name>.

Macro <-> Type Selection Set

  • small_unsigned! <-> (u8, u16, u32, u64, u128)
  • small_signed! <-> (i8, i16, i32, i64, i128)

License and Contributing

Licensed under the MIT license. Contributions are welcome!

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Compile-time size optimization for numeric primitives.

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