mirror of https://gogs.blitter.com/RLabs/xs
187 lines
5.0 KiB
Go
187 lines
5.0 KiB
Go
package reedsolomon
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import (
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"runtime"
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"github.com/klauspost/cpuid/v2"
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)
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// Option allows to override processing parameters.
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type Option func(*options)
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type options struct {
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maxGoroutines int
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minSplitSize int
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shardSize int
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perRound int
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useAVX512, useAVX2, useSSSE3, useSSE2 bool
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usePAR1Matrix bool
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useCauchy bool
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fastOneParity bool
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inversionCache bool
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// stream options
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concReads bool
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concWrites bool
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streamBS int
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}
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var defaultOptions = options{
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maxGoroutines: 384,
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minSplitSize: -1,
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fastOneParity: false,
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inversionCache: true,
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// Detect CPU capabilities.
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useSSSE3: cpuid.CPU.Supports(cpuid.SSSE3),
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useSSE2: cpuid.CPU.Supports(cpuid.SSE2),
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useAVX2: cpuid.CPU.Supports(cpuid.AVX2),
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useAVX512: cpuid.CPU.Supports(cpuid.AVX512F, cpuid.AVX512BW),
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}
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func init() {
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if runtime.GOMAXPROCS(0) <= 1 {
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defaultOptions.maxGoroutines = 1
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}
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}
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// WithMaxGoroutines is the maximum number of goroutines number for encoding & decoding.
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// Jobs will be split into this many parts, unless each goroutine would have to process
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// less than minSplitSize bytes (set with WithMinSplitSize).
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// For the best speed, keep this well above the GOMAXPROCS number for more fine grained
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// scheduling.
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// If n <= 0, it is ignored.
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func WithMaxGoroutines(n int) Option {
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return func(o *options) {
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if n > 0 {
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o.maxGoroutines = n
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}
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}
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}
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// WithAutoGoroutines will adjust the number of goroutines for optimal speed with a
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// specific shard size.
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// Send in the shard size you expect to send. Other shard sizes will work, but may not
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// run at the optimal speed.
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// Overwrites WithMaxGoroutines.
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// If shardSize <= 0, it is ignored.
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func WithAutoGoroutines(shardSize int) Option {
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return func(o *options) {
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o.shardSize = shardSize
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}
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}
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// WithMinSplitSize is the minimum encoding size in bytes per goroutine.
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// By default this parameter is determined by CPU cache characteristics.
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// See WithMaxGoroutines on how jobs are split.
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// If n <= 0, it is ignored.
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func WithMinSplitSize(n int) Option {
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return func(o *options) {
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if n > 0 {
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o.minSplitSize = n
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}
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}
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}
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// WithConcurrentStreams will enable concurrent reads and writes on the streams.
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// Default: Disabled, meaning only one stream will be read/written at the time.
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// Ignored if not used on a stream input.
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func WithConcurrentStreams(enabled bool) Option {
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return func(o *options) {
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o.concReads, o.concWrites = enabled, enabled
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}
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}
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// WithConcurrentStreamReads will enable concurrent reads from the input streams.
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// Default: Disabled, meaning only one stream will be read at the time.
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// Ignored if not used on a stream input.
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func WithConcurrentStreamReads(enabled bool) Option {
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return func(o *options) {
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o.concReads = enabled
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}
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}
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// WithConcurrentStreamWrites will enable concurrent writes to the the output streams.
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// Default: Disabled, meaning only one stream will be written at the time.
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// Ignored if not used on a stream input.
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func WithConcurrentStreamWrites(enabled bool) Option {
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return func(o *options) {
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o.concWrites = enabled
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}
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}
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// WithInversionCache allows to control the inversion cache.
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// This will cache reconstruction matrices so they can be reused.
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// Enabled by default.
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func WithInversionCache(enabled bool) Option {
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return func(o *options) {
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o.inversionCache = enabled
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}
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}
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// WithStreamBlockSize allows to set a custom block size per round of reads/writes.
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// If not set, any shard size set with WithAutoGoroutines will be used.
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// If WithAutoGoroutines is also unset, 4MB will be used.
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// Ignored if not used on stream.
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func WithStreamBlockSize(n int) Option {
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return func(o *options) {
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o.streamBS = n
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}
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}
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func withSSSE3(enabled bool) Option {
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return func(o *options) {
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o.useSSSE3 = enabled
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}
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}
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func withAVX2(enabled bool) Option {
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return func(o *options) {
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o.useAVX2 = enabled
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}
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}
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func withSSE2(enabled bool) Option {
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return func(o *options) {
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o.useSSE2 = enabled
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}
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}
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func withAVX512(enabled bool) Option {
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return func(o *options) {
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o.useAVX512 = enabled
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}
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}
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// WithPAR1Matrix causes the encoder to build the matrix how PARv1
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// does. Note that the method they use is buggy, and may lead to cases
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// where recovery is impossible, even if there are enough parity
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// shards.
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func WithPAR1Matrix() Option {
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return func(o *options) {
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o.usePAR1Matrix = true
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o.useCauchy = false
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}
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}
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// WithCauchyMatrix will make the encoder build a Cauchy style matrix.
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// The output of this is not compatible with the standard output.
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// A Cauchy matrix is faster to generate. This does not affect data throughput,
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// but will result in slightly faster start-up time.
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func WithCauchyMatrix() Option {
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return func(o *options) {
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o.useCauchy = true
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o.usePAR1Matrix = false
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}
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}
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// WithFastOneParityMatrix will switch the matrix to a simple xor
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// if there is only one parity shard.
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// The PAR1 matrix already has this property so it has little effect there.
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func WithFastOneParityMatrix() Option {
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return func(o *options) {
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o.fastOneParity = true
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}
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}
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