Esempio n. 1
0
  public void testGetUrls() {
    HashSet stringCollection = new HashSet();
    stringCollection.add("test");

    AuState auState =
        makeAuState(mau, -1, -1, -1, -1, 123, stringCollection, 1, -1.0, 1.0, historyRepo);
    Collection col = auState.getCrawlUrls();
    Iterator colIter = col.iterator();
    assertTrue(colIter.hasNext());
    assertEquals("test", colIter.next());
    assertFalse(colIter.hasNext());
  }
Esempio n. 2
0
  private void outputSummary(String baseUrl, Set fetched, Set toCrawl, long elapsedTime) {
    int fetchCount = fetched.size();
    outputMessage(
        "\n\nSummary for starting Url: " + baseUrl + " and depth: " + m_crawlDepth,
        TEST_SUMMARY_MESSAGE);
    outputMessage(
        "\nUrls fetched: " + fetchCount + "    Urls extracted: " + m_extracted.size(),
        PLAIN_MESSAGE);

    outputMessage("\nDepth  Fetched  Parsed  New URLs", PLAIN_MESSAGE);
    for (int depth = 1; depth <= m_crawlDepth; depth++) {
      PrintfFormat pf = new PrintfFormat("%5d  %7d  %6d  %8d");
      Integer[] args =
          new Integer[] {
            new Integer(depth),
            new Integer(depth_fetched[depth - 1]),
            new Integer(depth_parsed[depth - 1]),
            new Integer(depth_incl[depth - 1]),
          };
      String s = pf.sprintf(args);
      outputMessage(s, PLAIN_MESSAGE);
    }

    outputMessage("\nRemaining unfetched: " + toCrawl.size(), PLAIN_MESSAGE);
    if (false) {
      for (Iterator iter = toCrawl.iterator(); iter.hasNext(); ) {
        String url = (String) iter.next();
        outputMessage(url, PLAIN_MESSAGE);
      }
    }
    long secs = elapsedTime / Constants.SECOND;
    long fetchRate = 0;
    if (secs > 0) {
      fetchRate = fetchCount * 60 * Constants.SECOND / elapsedTime;
    }
    outputMessage(
        "\nElapsed Time: " + secs + " secs." + "    Fetch Rate: " + fetchRate + " p/m",
        PLAIN_MESSAGE);
  }
Esempio n. 3
0
  private Set outputUrlResults(String url, Set m_inclset, Set m_exclset) {
    Set new_incls = new TreeSet(CollectionUtils.subtract(m_inclset, m_reported));
    Set new_excls = new TreeSet(CollectionUtils.subtract(m_exclset, m_reported));
    if (!m_inclset.isEmpty()) {
      outputMessage(
          "\nIncluded Urls: ("
              + new_incls.size()
              + " new, "
              + (m_inclset.size() - new_incls.size())
              + " old)",
          URL_SUMMARY_MESSAGE);
      depth_incl[m_curDepth - 1] += new_incls.size();
    }
    for (Iterator it = new_incls.iterator(); it.hasNext(); ) {
      outputMessage(it.next().toString(), PLAIN_MESSAGE);
    }

    if (!m_exclset.isEmpty()) {
      outputMessage(
          "\nExcluded Urls: ("
              + new_excls.size()
              + " new, "
              + (m_exclset.size() - new_excls.size())
              + " old)",
          URL_SUMMARY_MESSAGE);
    }
    for (Iterator it = new_excls.iterator(); it.hasNext(); ) {
      outputMessage(it.next().toString(), PLAIN_MESSAGE);
    }
    m_reported.addAll(new_incls);
    m_reported.addAll(new_excls);

    if (m_outWriter != null) {
      try {
        m_outWriter.flush();
      } catch (IOException ex) {
      }
    }
    return new_incls;
  }
 protected void initMimeMap() throws PluginException.InvalidDefinition {
   for (Iterator iter = definitionMap.entrySet().iterator(); iter.hasNext(); ) {
     Map.Entry ent = (Map.Entry) iter.next();
     String key = (String) ent.getKey();
     Object val = ent.getValue();
     if (key.endsWith(DefinableArchivalUnit.SUFFIX_LINK_EXTRACTOR_FACTORY)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_LINK_EXTRACTOR_FACTORY);
       if (val instanceof String) {
         String factName = (String) val;
         log.debug(mime + " link extractor: " + factName);
         MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
         LinkExtractorFactory fact =
             (LinkExtractorFactory) newAuxClass(factName, LinkExtractorFactory.class);
         mti.setLinkExtractorFactory(fact);
       }
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_CRAWL_FILTER_FACTORY)) {
       // XXX This clause must precede the one for SUFFIX_HASH_FILTER_FACTORY
       // XXX unless/until that key is changed to not be a terminal substring
       // XXX of this one
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_CRAWL_FILTER_FACTORY);
       if (val instanceof String) {
         String factName = (String) val;
         log.debug(mime + " crawl filter: " + factName);
         MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
         FilterFactory fact = (FilterFactory) newAuxClass(factName, FilterFactory.class);
         mti.setCrawlFilterFactory(fact);
       }
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_HASH_FILTER_FACTORY)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_HASH_FILTER_FACTORY);
       if (val instanceof String) {
         String factName = (String) val;
         log.debug(mime + " filter: " + factName);
         MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
         FilterFactory fact = (FilterFactory) newAuxClass(factName, FilterFactory.class);
         mti.setHashFilterFactory(fact);
       }
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_FETCH_RATE_LIMIT)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_FETCH_RATE_LIMIT);
       if (val instanceof String) {
         String rate = (String) val;
         log.debug(mime + " fetch rate: " + rate);
         MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
         RateLimiter limit = mti.getFetchRateLimiter();
         if (limit != null) {
           limit.setRate(rate);
         } else {
           mti.setFetchRateLimiter(new RateLimiter(rate));
         }
       }
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_LINK_REWRITER_FACTORY)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_LINK_REWRITER_FACTORY);
       String factName = (String) val;
       log.debug(mime + " link rewriter: " + factName);
       MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
       LinkRewriterFactory fact =
           (LinkRewriterFactory) newAuxClass(factName, LinkRewriterFactory.class);
       mti.setLinkRewriterFactory(fact);
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_METADATA_EXTRACTOR_FACTORY_MAP)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_METADATA_EXTRACTOR_FACTORY_MAP);
       Map factNameMap = (Map) val;
       Map factClassMap = new HashMap();
       MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
       for (Iterator it = factNameMap.keySet().iterator(); it.hasNext(); ) {
         String mdTypes = (String) it.next();
         String factName = (String) factNameMap.get(mdTypes);
         log.debug(mime + " (" + mdTypes + ") metadata extractor: " + factName);
         for (String mdType : (List<String>) StringUtil.breakAt(mdTypes, ";")) {
           setMdTypeFact(factClassMap, mdType, factName);
         }
       }
       mti.setFileMetadataExtractorFactoryMap(factClassMap);
     }
   }
 }