// identify function - brings a new matcher into existence func (b *Matcher) identify(buf *siegreader.Buffer, quit chan struct{}, r chan core.Result) { buf.Quit = quit incoming := b.scorer(buf, quit, r) rdr := siegreader.LimitReaderFrom(buf, b.maxBOF) // First test BOF frameset bfchan := b.bofFrames.index(buf, false, quit) for bf := range bfchan { if config.Debug() { fmt.Fprintln(config.Out(), strike{b.bofFrames.testTreeIndex[bf.idx], 0, bf.off, bf.length, false, true}) } incoming <- strike{b.bofFrames.testTreeIndex[bf.idx], 0, bf.off, bf.length, false, true} } select { case <-quit: // the matcher has called quit for _ = range bfchan { } // drain first close(incoming) return default: } // Do an initial check of BOF sequences b.start(true) // start bof matcher if not yet started var bchan chan wac.Result bchan = b.bAho.Index(rdr) for br := range bchan { if br.Index[0] == -1 { incoming <- progressStrike(br.Offset, false) if br.Offset > 131072 && (b.maxBOF < 0 || b.maxBOF > b.maxEOF*5) { // del buf.Stream break } } else { if config.Debug() { fmt.Fprintln(config.Out(), strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false}) } incoming <- strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false} } } select { case <-quit: // the matcher has called quit for _ = range bchan { } // drain first close(incoming) return default: } // Setup EOF tests efchan := b.eofFrames.index(buf, true, quit) b.start(false) rrdr := siegreader.LimitReverseReaderFrom(buf, b.maxEOF) echan := b.eAho.Index(rrdr) // if we have a maximum value on EOF do a sequential search if b.maxEOF >= 0 { if b.maxEOF != 0 { _, _ = buf.CanSeek(0, true) // force a full read to enable EOF scan to proceed for streams } for ef := range efchan { if config.Debug() { fmt.Fprintln(config.Out(), strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true}) } incoming <- strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true} } // Scan complete EOF for er := range echan { if er.Index[0] == -1 { incoming <- progressStrike(er.Offset, true) } else { if config.Debug() { fmt.Fprintln(config.Out(), strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false}) } incoming <- strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false} } } // send a final progress strike with the maximum EOF incoming <- progressStrike(int64(b.maxEOF), true) // Finally, finish BOF scan for br := range bchan { if br.Index[0] == -1 { incoming <- progressStrike(br.Offset, false) } else { if config.Debug() { fmt.Fprintln(config.Out(), strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false}) } incoming <- strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false} } } close(incoming) return } // If no maximum on EOF do a parallel search for { select { case br, ok := <-bchan: if !ok { if b.maxBOF < 0 && b.maxEOF != 0 { _, _ = buf.CanSeek(0, true) // if we've a limit BOF reader, force a full read to enable EOF scan to proceed for streams } bchan = nil } else { if br.Index[0] == -1 { incoming <- progressStrike(br.Offset, false) } else { if config.Debug() { fmt.Fprintln(config.Out(), strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false}) } incoming <- strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false} } } case ef, ok := <-efchan: if !ok { efchan = nil } else { if config.Debug() { fmt.Fprintln(config.Out(), strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true}) } incoming <- strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true} } case er, ok := <-echan: if !ok { echan = nil } else { if er.Index[0] == -1 { incoming <- progressStrike(er.Offset, true) } else { if config.Debug() { fmt.Fprintln(config.Out(), strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false}) } incoming <- strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false} } } } if bchan == nil && efchan == nil && echan == nil { close(incoming) return } } }
// Identify function - brings a new matcher into existence func (b *Matcher) identify(buf siegreader.Buffer, quit chan struct{}, r chan core.Result) { buf.SetQuit(quit) incoming := b.newScorer(buf, quit, r) rdr := siegreader.LimitReaderFrom(buf, b.maxBOF) // First test BOF frameset bfchan := b.bofFrames.index(buf, false, quit) for bf := range bfchan { if config.Debug() { fmt.Println(strike{b.bofFrames.testTreeIndex[bf.idx], 0, bf.off, bf.length, false, true, true}) } incoming <- strike{b.bofFrames.testTreeIndex[bf.idx], 0, bf.off, bf.length, false, true, true} } select { case <-quit: // the matcher has called quit close(incoming) return default: } // Do an initial check of BOF sequences b.start(true) // start bof matcher if not yet started var bchan chan wac.Result bchan = b.bAho.Index(rdr) for br := range bchan { if br.Index[0] == -1 { incoming <- progressStrike(br.Offset, false) if br.Offset > 2048 { break } } else { if config.Debug() { fmt.Println(strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false, br.Final}) } incoming <- strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false, br.Final} } } select { case <-quit: // the matcher has called quit for _ = range bchan { } // drain first close(incoming) return default: } // Check EOF frame tests efchan := b.eofFrames.index(buf, true, quit) for ef := range efchan { if config.Debug() { fmt.Println(strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true, true}) } incoming <- strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true, true} } // Setup EOF sequences test b.start(false) rrdr := siegreader.LimitReverseReaderFrom(buf, b.maxEOF) echan := b.eAho.Index(rrdr) // Now enter main search loop for { select { case br, ok := <-bchan: if !ok { bchan = nil } else { if br.Index[0] == -1 { incoming <- progressStrike(br.Offset, false) } else { if config.Debug() { fmt.Println(strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false, br.Final}) } incoming <- strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false, br.Final} } } case er, ok := <-echan: if !ok { echan = nil } else { if er.Index[0] == -1 { incoming <- progressStrike(er.Offset, true) } else { if config.Debug() { fmt.Println(strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false, er.Final}) } incoming <- strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false, er.Final} } } } if bchan == nil && echan == nil { close(incoming) return } } }
// Identify function - brings a new matcher into existence func (b *Matcher) identify(buf siegreader.Buffer, quit chan struct{}, r chan core.Result) { buf.SetQuit(quit) incoming := b.scorer(buf, quit, r) rdr := siegreader.LimitReaderFrom(buf, b.maxBOF) // First test BOF frameset bfchan := b.bofFrames.index(buf, false, quit) for bf := range bfchan { if config.Debug() { fmt.Println(strike{b.bofFrames.testTreeIndex[bf.idx], 0, bf.off, bf.length, false, true}) } incoming <- strike{b.bofFrames.testTreeIndex[bf.idx], 0, bf.off, bf.length, false, true} } select { case <-quit: // the matcher has called quit for _ = range bfchan { } // drain first close(incoming) return default: } // Do an initial check of BOF sequences b.start(true) // start bof matcher if not yet started var bchan chan wac.Result bchan = b.bAho.Index(rdr) for br := range bchan { if br.Index[0] == -1 { incoming <- progressStrike(br.Offset, false) if !buf.Stream() && br.Offset > 131072 && (b.maxBOF < 0 || b.maxBOF > b.maxEOF*5) { break } } else { if config.Debug() { fmt.Println(strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false}) } incoming <- strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false} } } select { case <-quit: // the matcher has called quit for _ = range bchan { } // drain first close(incoming) return default: } // Setup EOF tests efchan := b.eofFrames.index(buf, true, quit) b.start(false) rrdr := siegreader.LimitReverseReaderFrom(buf, b.maxEOF) echan := b.eAho.Index(rrdr) // if we have a maximum value on EOF do a sequential search if b.maxEOF >= 0 { for ef := range efchan { if config.Debug() { fmt.Println(strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true}) } incoming <- strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true} } // Scan complete EOF for er := range echan { if er.Index[0] == -1 { incoming <- progressStrike(er.Offset, true) } else { if config.Debug() { fmt.Println(strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false}) } incoming <- strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false} } } // let the scorer known we have reached the end of the EOF scan incoming <- progressStrike(-1, true) // Finally, finish BOF scan for br := range bchan { if br.Index[0] == -1 { incoming <- progressStrike(br.Offset, false) } else { if config.Debug() { fmt.Println(strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false}) } incoming <- strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false} } } close(incoming) return } // If no maximum on EOF do a parallel search for { select { case br, ok := <-bchan: if !ok { bchan = nil } else { if br.Index[0] == -1 { incoming <- progressStrike(br.Offset, false) } else { if config.Debug() { fmt.Println(strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false}) } incoming <- strike{b.bofSeq.testTreeIndex[br.Index[0]], br.Index[1], br.Offset, br.Length, false, false} } } case ef, ok := <-efchan: if !ok { efchan = nil } else { if config.Debug() { fmt.Println(strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true}) } incoming <- strike{b.eofFrames.testTreeIndex[ef.idx], 0, ef.off, ef.length, true, true} } case er, ok := <-echan: if !ok { echan = nil } else { if er.Index[0] == -1 { incoming <- progressStrike(er.Offset, true) } else { if config.Debug() { fmt.Println(strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false}) } incoming <- strike{b.eofSeq.testTreeIndex[er.Index[0]], er.Index[1], er.Offset, er.Length, true, false} } } } if bchan == nil && efchan == nil && echan == nil { close(incoming) return } } }