xs/vendor/github.com/klauspost/reedsolomon/options.go

package reedsolomon

import (
	"runtime"

	"github.com/klauspost/cpuid"
)

// Option allows to override processing parameters.
type Option func(*options)

type options struct {
	maxGoroutines                         int
	minSplitSize                          int
	useAVX512, useAVX2, useSSSE3, useSSE2 bool
	usePAR1Matrix                         bool
	useCauchy                             bool
	shardSize                             int
}

var defaultOptions = options{
	maxGoroutines: 384,
	minSplitSize:  1024,
}

func init() {
	if runtime.GOMAXPROCS(0) <= 1 {
		defaultOptions.maxGoroutines = 1
	}
	// Detect CPU capabilities.
	defaultOptions.useSSSE3 = cpuid.CPU.SSSE3()
	defaultOptions.useSSE2 = cpuid.CPU.SSE2()
	defaultOptions.useAVX2 = cpuid.CPU.AVX2()
	defaultOptions.useAVX512 = cpuid.CPU.AVX512F() && cpuid.CPU.AVX512BW() && amd64
}

// WithMaxGoroutines is the maximum number of goroutines number for encoding & decoding.
// Jobs will be split into this many parts, unless each goroutine would have to process
// less than minSplitSize bytes (set with WithMinSplitSize).
// For the best speed, keep this well above the GOMAXPROCS number for more fine grained
// scheduling.
// If n <= 0, it is ignored.
func WithMaxGoroutines(n int) Option {
	return func(o *options) {
		if n > 0 {
			o.maxGoroutines = n
		}
	}
}

// WithAutoGoroutines will adjust the number of goroutines for optimal speed with a
// specific shard size.
// Send in the shard size you expect to send. Other shard sizes will work, but may not
// run at the optimal speed.
// Overwrites WithMaxGoroutines.
// If shardSize <= 0, it is ignored.
func WithAutoGoroutines(shardSize int) Option {
	return func(o *options) {
		o.shardSize = shardSize
	}
}

// WithMinSplitSize is the minimum encoding size in bytes per goroutine.
// See WithMaxGoroutines on how jobs are split.
// If n <= 0, it is ignored.
func WithMinSplitSize(n int) Option {
	return func(o *options) {
		if n > 0 {
			o.minSplitSize = n
		}
	}
}

func withSSE3(enabled bool) Option {
	return func(o *options) {
		o.useSSSE3 = enabled
	}
}

func withAVX2(enabled bool) Option {
	return func(o *options) {
		o.useAVX2 = enabled
	}
}

func withSSE2(enabled bool) Option {
	return func(o *options) {
		o.useSSE2 = enabled
	}
}

func withAVX512(enabled bool) Option {
	return func(o *options) {
		o.useAVX512 = enabled
	}
}

// WithPAR1Matrix causes the encoder to build the matrix how PARv1
// does. Note that the method they use is buggy, and may lead to cases
// where recovery is impossible, even if there are enough parity
// shards.
func WithPAR1Matrix() Option {
	return func(o *options) {
		o.usePAR1Matrix = true
		o.useCauchy = false
	}
}

// WithCauchyMatrix will make the encoder build a Cauchy style matrix.
// The output of this is not compatible with the standard output.
// A Cauchy matrix is faster to generate. This does not affect data throughput,
// but will result in slightly faster start-up time.
func WithCauchyMatrix() Option {
	return func(o *options) {
		o.useCauchy = true
		o.usePAR1Matrix = false
	}
}
1/3 Updated Makefile to allow VENDOR flag (adds -vendor to version string) 2/3 Added vendor/ dir to lock down dependent pkg versions. The author of git.schwanenlied.me/yawning/{chacha20,newhope,kyber}.git has copied their repos to gitlab.com/yawning/ but some imports of chacha20 from newhope still inconsistently refer to git.schwanenlied.me/, breaking build. Licenses for chacha20 also changed from CC0 to AGPL, which may or may not be an issue. Until the two aforementioned issues are resolved, locking to last-good versions is probably the best way forward for now. To build with vendored deps, use make VENDOR=1 clean all 3/3 Moved body of CI push script into bacillus/ 2020-01-29 21:25:14 +00:00			`package reedsolomon`

			`import (`
			`"runtime"`

			`"github.com/klauspost/cpuid"`
			`)`

			`// Option allows to override processing parameters.`
			`type Option func(*options)`

			`type options struct {`
			`maxGoroutines int`
			`minSplitSize int`
			`useAVX512, useAVX2, useSSSE3, useSSE2 bool`
			`usePAR1Matrix bool`
			`useCauchy bool`
			`shardSize int`
			`}`

			`var defaultOptions = options{`
			`maxGoroutines: 384,`
			`minSplitSize: 1024,`
			`}`

			`func init() {`
			`if runtime.GOMAXPROCS(0) <= 1 {`
			`defaultOptions.maxGoroutines = 1`
			`}`
			`// Detect CPU capabilities.`
			`defaultOptions.useSSSE3 = cpuid.CPU.SSSE3()`
			`defaultOptions.useSSE2 = cpuid.CPU.SSE2()`
			`defaultOptions.useAVX2 = cpuid.CPU.AVX2()`
			`defaultOptions.useAVX512 = cpuid.CPU.AVX512F() && cpuid.CPU.AVX512BW() && amd64`
			`}`

			`// WithMaxGoroutines is the maximum number of goroutines number for encoding & decoding.`
			`// Jobs will be split into this many parts, unless each goroutine would have to process`
			`// less than minSplitSize bytes (set with WithMinSplitSize).`
			`// For the best speed, keep this well above the GOMAXPROCS number for more fine grained`
			`// scheduling.`
			`// If n <= 0, it is ignored.`
			`func WithMaxGoroutines(n int) Option {`
			`return func(o *options) {`
			`if n > 0 {`
			`o.maxGoroutines = n`
			`}`
			`}`
			`}`

			`// WithAutoGoroutines will adjust the number of goroutines for optimal speed with a`
			`// specific shard size.`
			`// Send in the shard size you expect to send. Other shard sizes will work, but may not`
			`// run at the optimal speed.`
			`// Overwrites WithMaxGoroutines.`
			`// If shardSize <= 0, it is ignored.`
			`func WithAutoGoroutines(shardSize int) Option {`
			`return func(o *options) {`
			`o.shardSize = shardSize`
			`}`
			`}`

			`// WithMinSplitSize is the minimum encoding size in bytes per goroutine.`
			`// See WithMaxGoroutines on how jobs are split.`
			`// If n <= 0, it is ignored.`
			`func WithMinSplitSize(n int) Option {`
			`return func(o *options) {`
			`if n > 0 {`
			`o.minSplitSize = n`
			`}`
			`}`
			`}`

			`func withSSE3(enabled bool) Option {`
			`return func(o *options) {`
			`o.useSSSE3 = enabled`
			`}`
			`}`

			`func withAVX2(enabled bool) Option {`
			`return func(o *options) {`
			`o.useAVX2 = enabled`
			`}`
			`}`

			`func withSSE2(enabled bool) Option {`
			`return func(o *options) {`
			`o.useSSE2 = enabled`
			`}`
			`}`

			`func withAVX512(enabled bool) Option {`
			`return func(o *options) {`
			`o.useAVX512 = enabled`
			`}`
			`}`

			`// WithPAR1Matrix causes the encoder to build the matrix how PARv1`
			`// does. Note that the method they use is buggy, and may lead to cases`
			`// where recovery is impossible, even if there are enough parity`
			`// shards.`
			`func WithPAR1Matrix() Option {`
			`return func(o *options) {`
			`o.usePAR1Matrix = true`
			`o.useCauchy = false`
			`}`
			`}`

			`// WithCauchyMatrix will make the encoder build a Cauchy style matrix.`
			`// The output of this is not compatible with the standard output.`
			`// A Cauchy matrix is faster to generate. This does not affect data throughput,`
			`// but will result in slightly faster start-up time.`
			`func WithCauchyMatrix() Option {`
			`return func(o *options) {`
			`o.useCauchy = true`
			`o.usePAR1Matrix = false`
			`}`
			`}`