+// Copyright (C) The Lightning Authors. All rights reserved.
+//
+// SPDX-License-Identifier: AGPL-3.0
+
package lightning
import (
retainNoCalls bool
skipOOO bool
retainTileSequences bool
+ useDups bool
taglib *tagLibrary
variant [][][blake2b.Size256]byte
variants int64
// if non-nil, write out any tile variants added while tiling
encoder *gob.Encoder
+ // set Ref flag when writing new variants to encoder
+ encodeRef bool
+
+ onAddTileVariant func(libref tileLibRef, hash [blake2b.Size256]byte, seq []byte) error
+ onAddGenome func(CompactGenome) error
+ onAddRefseq func(CompactSequence) error
mtx sync.RWMutex
vlock []sync.Locker
for _, tv := range tvs {
// Assign a new variant ID (unique across all inputs)
// for each input variant.
- variantmap[tileLibRef{Tag: tv.Tag, Variant: tv.Variant}] = tilelib.getRef(tv.Tag, tv.Sequence).Variant
+ variantmap[tileLibRef{Tag: tv.Tag, Variant: tv.Variant}] = tilelib.getRef(tv.Tag, tv.Sequence, tv.Ref).Variant
}
return nil
}
-func (tilelib *tileLibrary) loadCompactGenomes(cgs []CompactGenome, variantmap map[tileLibRef]tileVariantID, onLoadGenome func(CompactGenome)) error {
+func (tilelib *tileLibrary) loadCompactGenomes(cgs []CompactGenome, variantmap map[tileLibRef]tileVariantID) error {
log.Debugf("loadCompactGenomes: %d", len(cgs))
var wg sync.WaitGroup
errs := make(chan error, 1)
// log.Tracef("loadCompactGenomes: cg %s tag %d variant %d => %d", cg.Name, tag, variant, newvariant)
cg.Variants[i] = newvariant
}
- if onLoadGenome != nil {
- onLoadGenome(cg)
+ if tilelib.onAddGenome != nil {
+ err := tilelib.onAddGenome(cg)
+ if err != nil {
+ select {
+ case errs <- err:
+ default:
+ }
+ return
+ }
}
if tilelib.encoder != nil {
err := tilelib.encoder.Encode(LibraryEntry{
return err
}
}
+ if tilelib.onAddRefseq != nil {
+ err := tilelib.onAddRefseq(cseq)
+ if err != nil {
+ return err
+ }
+ }
log.Infof("loadCompactSequences: checking %s done", cseq.Name)
}
tilelib.mtx.Lock()
return nil
}
-func (tilelib *tileLibrary) LoadDir(ctx context.Context, path string, onLoadGenome func(CompactGenome)) error {
+func allFiles(path string, re *regexp.Regexp) ([]string, error) {
var files []string
- var walk func(string) error
- walk = func(path string) error {
- f, err := open(path)
- if err != nil {
- return err
- }
- defer f.Close()
- fis, err := f.Readdir(-1)
- if err != nil {
- files = append(files, path)
- return nil
- }
- for _, fi := range fis {
- if fi.Name() == "." || fi.Name() == ".." {
- continue
- } else if child := path + "/" + fi.Name(); fi.IsDir() {
- err = walk(child)
- if err != nil {
- return err
- }
- } else if strings.HasSuffix(child, ".gob") || strings.HasSuffix(child, ".gob.gz") {
- files = append(files, child)
+ f, err := open(path)
+ if err != nil {
+ return nil, err
+ }
+ defer f.Close()
+ fis, err := f.Readdir(-1)
+ if err != nil {
+ return []string{path}, nil
+ }
+ for _, fi := range fis {
+ if fi.Name() == "." || fi.Name() == ".." {
+ continue
+ } else if child := path + "/" + fi.Name(); fi.IsDir() {
+ add, err := allFiles(child, re)
+ if err != nil {
+ return nil, err
}
+ files = append(files, add...)
+ } else if re == nil || re.MatchString(child) {
+ files = append(files, child)
}
- return nil
}
+ sort.Strings(files)
+ return files, nil
+}
+
+var matchGobFile = regexp.MustCompile(`\.gob(\.gz)?$`)
+
+func (tilelib *tileLibrary) LoadDir(ctx context.Context, path string) error {
log.Infof("LoadDir: walk dir %s", path)
- err := walk(path)
+ files, err := allFiles(path, matchGobFile)
if err != nil {
return err
}
mtx.Unlock()
}
for _, tv := range ent.TileVariants {
- variantmap[tileLibRef{Tag: tv.Tag, Variant: tv.Variant}] = tilelib.getRef(tv.Tag, tv.Sequence).Variant
+ variantmap[tileLibRef{Tag: tv.Tag, Variant: tv.Variant}] = tilelib.getRef(tv.Tag, tv.Sequence, tv.Ref).Variant
}
cgs = append(cgs, ent.CompactGenomes...)
cseqs = append(cseqs, ent.CompactSequences...)
for _, cgs := range allcgs {
flatcgs = append(flatcgs, cgs...)
}
- err = tilelib.loadCompactGenomes(flatcgs, allvariantmap, onLoadGenome)
+ err = tilelib.loadCompactGenomes(flatcgs, allvariantmap)
if err != nil {
return err
}
}
func (tilelib *tileLibrary) WriteDir(dir string) error {
- nfiles := 128 + len(tilelib.refseqs)
+ ntilefiles := 128
+ nfiles := ntilefiles + len(tilelib.refseqs)
files := make([]*os.File, nfiles)
for i := range files {
f, err := os.OpenFile(fmt.Sprintf("%s/library.%04d.gob.gz", dir, i), os.O_CREATE|os.O_WRONLY, 0666)
errs <- err
return
}
- if refidx := start - (nfiles - len(tilelib.refseqs)); refidx >= 0 {
+ if refidx := start - ntilefiles; refidx >= 0 {
// write each ref to its own file
// (they seem to load very slowly)
name := refnames[refidx]
}}})
return
}
- for i := start; i < len(cgnames); i += nfiles {
+ for i := start; i < len(cgnames); i += ntilefiles {
err := encoders[start].Encode(LibraryEntry{CompactGenomes: []CompactGenome{{
Name: cgnames[i],
Variants: tilelib.compactGenomes[cgnames[i]],
}
}
tvs := []TileVariant{}
- for tag := start; tag < len(tilelib.variant) && ctx.Err() == nil; tag += nfiles {
+ for tag := start; tag < len(tilelib.variant) && ctx.Err() == nil; tag += ntilefiles {
tvs = tvs[:0]
for idx, hash := range tilelib.variant[tag] {
tvs = append(tvs, TileVariant{
// Load library data from rdr. Tile variants might be renumbered in
// the process; in that case, genomes variants will be renumbered to
// match.
-//
-// If onLoadGenome is non-nil, call it on each CompactGenome entry.
-func (tilelib *tileLibrary) LoadGob(ctx context.Context, rdr io.Reader, gz bool, onLoadGenome func(CompactGenome)) error {
+func (tilelib *tileLibrary) LoadGob(ctx context.Context, rdr io.Reader, gz bool) error {
cgs := []CompactGenome{}
cseqs := []CompactSequence{}
variantmap := map[tileLibRef]tileVariantID{}
if ctx.Err() != nil {
return ctx.Err()
}
- err = tilelib.loadCompactGenomes(cgs, variantmap, onLoadGenome)
+ err = tilelib.loadCompactGenomes(cgs, variantmap)
if err != nil {
return err
}
}
type importStats struct {
- InputFile string
- InputLabel string
- InputLength int
- InputCoverage int
- PathLength int
- DroppedOutOfOrderTiles int
+ InputFile string
+ InputLabel string
+ InputLength int
+ InputCoverage int
+ PathLength int
+ DroppedRepeatedTags int
+ DroppedOutOfOrderTags int
}
-func (tilelib *tileLibrary) TileFasta(filelabel string, rdr io.Reader, matchChromosome *regexp.Regexp) (tileSeq, []importStats, error) {
+func (tilelib *tileLibrary) TileFasta(filelabel string, rdr io.Reader, matchChromosome *regexp.Regexp, isRef bool) (tileSeq, []importStats, error) {
ret := tileSeq{}
type jobT struct {
label string
}
todo := make(chan jobT, 1)
scanner := bufio.NewScanner(rdr)
+ scanner.Buffer(make([]byte, 256), 1<<29) // 512 MiB, in case fasta does not have line breaks
go func() {
defer close(todo)
var fasta []byte
todo <- jobT{seqlabel, append([]byte(nil), fasta...)}
seqlabel, fasta = strings.SplitN(string(buf[1:]), " ", 2)[0], fasta[:0]
log.Debugf("%s %s reading fasta", filelabel, seqlabel)
+ } else if len(buf) > 0 && buf[0] == '#' {
+ // ignore testdata comment
} else {
fasta = append(fasta, bytes.ToLower(buf)...)
}
log.Warnf("%s %s no tags found", filelabel, job.label)
}
- skipped := 0
+ droppedDup := 0
+ if !tilelib.useDups {
+ // Remove any tags that appeared more than once
+ dup := map[tagID]bool{}
+ for _, ft := range found {
+ _, dup[ft.tagid] = dup[ft.tagid]
+ }
+ dst := 0
+ for _, ft := range found {
+ if !dup[ft.tagid] {
+ found[dst] = ft
+ dst++
+ }
+ }
+ droppedDup = len(found) - dst
+ log.Infof("%s %s dropping %d non-unique tags", filelabel, job.label, droppedDup)
+ found = found[:dst]
+ }
+
+ droppedOOO := 0
if tilelib.skipOOO {
- log.Infof("%s %s keeping longest increasing subsequence", filelabel, job.label)
keep := longestIncreasingSubsequence(len(found), func(i int) int { return int(found[i].tagid) })
for i, x := range keep {
found[i] = found[x]
}
- skipped = len(found) - len(keep)
+ droppedOOO = len(found) - len(keep)
+ log.Infof("%s %s dropping %d out-of-order tags", filelabel, job.label, droppedOOO)
found = found[:len(keep)]
}
} else {
endpos = found[i+1].pos + taglen
}
- path[i] = tilelib.getRef(f.tagid, job.fasta[startpos:endpos])
+ path[i] = tilelib.getRef(f.tagid, job.fasta[startpos:endpos], isRef)
if countBases(job.fasta[startpos:endpos]) != endpos-startpos {
atomic.AddInt64(&lowquality, 1)
}
ret[job.label] = pathcopy
basesIn := countBases(job.fasta)
- log.Infof("%s %s fasta in %d coverage in %d path len %d low-quality %d skipped-out-of-order %d", filelabel, job.label, len(job.fasta), basesIn, len(path), lowquality, skipped)
+ log.Infof("%s %s fasta in %d coverage in %d path len %d low-quality %d", filelabel, job.label, len(job.fasta), basesIn, len(path), lowquality)
stats = append(stats, importStats{
- InputFile: filelabel,
- InputLabel: job.label,
- InputLength: len(job.fasta),
- InputCoverage: basesIn,
- PathLength: len(path),
- DroppedOutOfOrderTiles: skipped,
+ InputFile: filelabel,
+ InputLabel: job.label,
+ InputLength: len(job.fasta),
+ InputCoverage: basesIn,
+ PathLength: len(path),
+ DroppedOutOfOrderTags: droppedOOO,
+ DroppedRepeatedTags: droppedDup,
})
totalPathLen += len(path)
// Return a tileLibRef for a tile with the given tag and sequence,
// adding the sequence to the library if needed.
-func (tilelib *tileLibrary) getRef(tag tagID, seq []byte) tileLibRef {
+func (tilelib *tileLibrary) getRef(tag tagID, seq []byte, usedByRef bool) tileLibRef {
dropSeq := false
if !tilelib.retainNoCalls {
for _, b := range seq {
locker.Unlock()
}
+ saveSeq := seq
+ if dropSeq {
+ // Save the hash, but not the sequence
+ saveSeq = nil
+ }
if tilelib.encoder != nil {
- saveSeq := seq
- if dropSeq {
- // Save the hash, but not the sequence
- saveSeq = nil
- }
tilelib.encoder.Encode(LibraryEntry{
TileVariants: []TileVariant{{
Tag: tag,
+ Ref: usedByRef,
Variant: variant,
Blake2b: seqhash,
Sequence: saveSeq,
}},
})
}
+ if tilelib.onAddTileVariant != nil {
+ tilelib.onAddTileVariant(tileLibRef{tag, variant}, seqhash, saveSeq)
+ }
return tileLibRef{Tag: tag, Variant: variant}
}