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avo
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Generate x86 Assembly with Go

avo makes high-performance Go assembly easier to write, review and maintain. The avo package presents a familiar assembly-like interface that simplifies development without sacrificing performance:

  • Use Go control structures for assembly generation; avo programs are Go programs
  • Register allocation: write functions with virtual registers and avo assigns physical registers for you
  • Automatically load arguments and store return values: ensure memory offsets are correct for complex structures
  • Generation of stub files to interface with your Go package

For more about avo:

Note: APIs subject to change while avo is still in an experimental phase. You can use it to build real things but we suggest you pin a version with your package manager of choice.

Quick Start

Install avo with go get:

$ go get -u github.com/mmcloughlin/avo

avo assembly generators are pure Go programs. Here's a function that adds two uint64 values:

//go:build ignore

package main

import . "github.com/mmcloughlin/avo/build"

func main() {
	TEXT("Add", NOSPLIT, "func(x, y uint64) uint64")
	Doc("Add adds x and y.")
	x := Load(Param("x"), GP64())
	y := Load(Param("y"), GP64())
	ADDQ(x, y)
	Store(y, ReturnIndex(0))
	RET()
	Generate()
}

go run this code to see the assembly output. To integrate this into the rest of your Go package we recommend a go:generate line to produce the assembly and the corresponding Go stub file.

//go:generate go run asm.go -out add.s -stubs stub.go

After running go generate the add.s file will contain the Go assembly.

// Code generated by command: go run asm.go -out add.s -stubs stub.go. DO NOT EDIT.

#include "textflag.h"

// func Add(x uint64, y uint64) uint64
TEXT ·Add(SB), NOSPLIT, $0-24
	MOVQ x+0(FP), AX
	MOVQ y+8(FP), CX
	ADDQ AX, CX
	MOVQ CX, ret+16(FP)
	RET

The same call will produce the stub file stub.go which will enable the function to be called from your Go code.

// Code generated by command: go run asm.go -out add.s -stubs stub.go. DO NOT EDIT.

package add

// Add adds x and y.
func Add(x uint64, y uint64) uint64

See the examples/add directory for the complete working example.

Examples

See examples for the full suite of examples.

Slice Sum

Sum a slice of uint64s:

func main() {
	TEXT("Sum", NOSPLIT, "func(xs []uint64) uint64")
	Doc("Sum returns the sum of the elements in xs.")
	ptr := Load(Param("xs").Base(), GP64())
	n := Load(Param("xs").Len(), GP64())

	Comment("Initialize sum register to zero.")
	s := GP64()
	XORQ(s, s)

	Label("loop")
	Comment("Loop until zero bytes remain.")
	CMPQ(n, Imm(0))
	JE(LabelRef("done"))

	Comment("Load from pointer and add to running sum.")
	ADDQ(Mem{Base: ptr}, s)

	Comment("Advance pointer, decrement byte count.")
	ADDQ(Imm(8), ptr)
	DECQ(n)
	JMP(LabelRef("loop"))

	Label("done")
	Comment("Store sum to return value.")
	Store(s, ReturnIndex(0))
	RET()
	Generate()
}

The result from this code generator is:

// Code generated by command: go run asm.go -out sum.s -stubs stub.go. DO NOT EDIT.

#include "textflag.h"

// func Sum(xs []uint64) uint64
TEXT ·Sum(SB), NOSPLIT, $0-32
	MOVQ xs_base+0(FP), AX
	MOVQ xs_len+8(FP), CX

	// Initialize sum register to zero.
	XORQ DX, DX

loop:
	// Loop until zero bytes remain.
	CMPQ CX, $0x00
	JE   done

	// Load from pointer and add to running sum.
	ADDQ (AX), DX

	// Advance pointer, decrement byte count.
	ADDQ $0x08, AX
	DECQ CX
	JMP  loop

done:
	// Store sum to return value.
	MOVQ DX, ret+24(FP)
	RET

Full example at examples/sum.

Features

For demonstrations of avo features:

  • args: Loading function arguments.
  • returns: Building return values.
  • complex: Working with complex{64,128} types.
  • data: Defining DATA sections.
  • ext: Interacting with types from external packages.
  • pragma: Apply compiler directives to generated functions.

Real Examples

Implementations of full algorithms:

Adopters

Popular projects1 using avo:

golang / go ⭐ 123.8k

The Go programming language

klauspost / compress ⭐ 4.8k

Optimized Go Compression Packages

golang / crypto ⭐ 3k

[mirror] Go supplementary cryptography libraries

klauspost / reedsolomon ⭐ 1.9k

Reed-Solomon Erasure Coding in Go

bytedance / gopkg ⭐ 1.7k

Universal Utilities for Go

cloudflare / circl ⭐ 1.3k

CIRCL: Cloudflare Interoperable Reusable Cryptographic Library

segmentio / asm ⭐ 870

Go library providing algorithms optimized to leverage the characteristics of modern CPUs

zeebo / xxh3 ⭐ 406

XXH3 algorithm in Go

zeebo / blake3 ⭐ 398

Pure Go implementation of BLAKE3 with AVX2 and SSE4.1 acceleration

lukechampine / blake3 ⭐ 356

An AVX-512 accelerated implementation of the BLAKE3 cryptographic hash function

See the full list of projects using avo.

Contributing

Contributions to avo are welcome:

Credits

Inspired by the PeachPy and asmjit projects. Thanks to Damian Gryski for advice, and his extensive library of PeachPy Go projects.

License

avo is available under the BSD 3-Clause License.

Footnotes

  1. Projects drawn from the avo third-party test suite. Popularity estimated from Github star count collected on Nov 1, 2024.