void LogStatistics::add(LogBufferElement *e) {
    log_id_t log_id = e->getLogId();
    unsigned short size = e->getMsgLen();
    mSizes[log_id] += size;
    ++mElements[log_id];

    uid_t uid = e->getUid();
    unsigned short dropped = e->getDropped();
    android::hash_t hash = android::hash_type(uid);
    uidTable_t &table = uidTable[log_id];
    ssize_t index = table.find(-1, hash, uid);
    if (index == -1) {
        UidEntry initEntry(uid);
        initEntry.add(size);
        initEntry.add_dropped(dropped);
        table.add(hash, initEntry);
    } else {
        UidEntry &entry = table.editEntryAt(index);
        entry.add(size);
        entry.add_dropped(dropped);
    }

    mSizesTotal[log_id] += size;
    ++mElementsTotal[log_id];

    if (!enable) {
        return;
    }

    pid_t pid = e->getPid();
    hash = android::hash_type(pid);
    index = pidTable.find(-1, hash, pid);
    if (index == -1) {
        PidEntry initEntry(pid, uid, android::pidToName(pid));
        initEntry.add(size);
        initEntry.add_dropped(dropped);
        pidTable.add(hash, initEntry);
    } else {
        PidEntry &entry = pidTable.editEntryAt(index);
        if (entry.getUid() != uid) {
            entry.setUid(uid);
            entry.setName(android::pidToName(pid));
        } else if (!entry.getName()) {
            char *name = android::pidToName(pid);
            if (name) {
                entry.setName(name);
            }
        }
        entry.add(size);
        entry.add_dropped(dropped);
    }
}
Esempio n. 2
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void addSA(ENTRY* S1,ENTRY* S2,ENTRY* S3) {
	while(1)
	{
	if(empty(S1) && empty(S2))
		break;
    if(nempty(S1) && empty(S2))
	{
         while(1)
		 {
         if (nempty(S1))
		 {
			e1 = S2; 
			S3 = e1;
		 }
         if (empty(S1))
			break;
         }
         break;
    }
    if (empty(S1) && nempty(S2))
	{
         while(1)
		 {
         if (nempty(S2))
		 {	
			e2 = S2; 
			S3 = e2;
		 }
         if (empty(S2))
			break;
         }
         break;
	}
    if (nempty(S1) && nempty(S2)) 
	{
         e1 = S1;
         e2 = S2;
         if ((e1.row == e2.row) && (e1.col == e2.col))
		 {
            e1 = S1;
            e2 = S2;
            initEntry(S3, e1.row, e1.col, e1.value + e2.value);
		}
		 if ((e1.row < e2.row) || ((e1.row == e2.row) && (e1.col < e2.col)))
		 {
            e1 = S1;
			S3 = e1;
		}
        else
		{
            e2 = S2; 
			S3 = e2;
		}
	}
	}
}
Esempio n. 3
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   bool buildOverviews()
   {
      bool result = false;
      if(!initEntry()) return result;
      ossimRefPtr<ossimOverviewBuilderBase> builder = ossimOverviewBuilderFactoryRegistry::instance()->createBuilder(theOverviewType);
      if(!builder.valid())
      {
         return result;
      }
      
      ossimPropertyInterface* builderProp = (ossimPropertyInterface*)builder.get();
      builderProp->setProperty(ossimKeywordNames::OUTPUT_TILE_SIZE_KW, theOverviewTileSize.toString());
      builderProp->setProperty(ossimKeywordNames::COMPRESSION_TYPE_KW, theCompressionType);
      builderProp->setProperty(ossimKeywordNames::COMPRESSION_QUALITY_KW, ossimString::toString(theCompressionQuality));
      builder->setInputSource(theHandler.get());
      
      if(!theQuietFlag)
      {
         builder->addListener((ossimProcessListener*)this);
      }
      else
      {
     //    ossimPushNotifyFlags();
      //   ossimDisableNotify();
      }

      if(theUseFastHistogramStagingFlag)
      {
         builder->setHistogramMode(OSSIM_HISTO_MODE_FAST);
      }
      else
      {
         builder->setHistogramMode(OSSIM_HISTO_MODE_NORMAL);
      }
      if(theOverviewFilename.path().isWriteable())
      {
         result = true;
         theCurrentProcessInterface = builder.get();
         builder->setOutputFile(theOverviewFilename);
         builder->execute();
      }
		
      if(!theQuietFlag) 
      {
        builder->removeListener((ossimProcessListener*)this);	
      }
      else
      {
       //  ossimPopNotifyFlags();
      }
      theCurrentProcessInterface = 0;
      
      return result;
   }
Esempio n. 4
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static void insertHashRF(unsigned int *bitVector,
                         pllHashTable *h,
                         unsigned int vectorLength,
                         int treeNumber,
                         int treeVectorLength,
                         hashNumberType position,
                         int support,
                         boolean computeWRF)
{
    pllBipartitionEntry * e;
    pllHashItem * hitem;

    if(h->Items[position] != NULL)
    {
        for (hitem = h->Items[position]; hitem; hitem = hitem->next)
        {
            e = (pllBipartitionEntry *)(hitem->data);

            if (!memcmp(bitVector, e->bitVector, vectorLength * sizeof(unsigned int)))
            {
                e->treeVector[treeNumber / PLL_MASK_LENGTH] |= mask32[treeNumber % PLL_MASK_LENGTH];
                if(computeWRF)
                {
                    e->supportVector[treeNumber] = support;
                    assert(0 <= treeNumber && treeNumber < treeVectorLength * PLL_MASK_LENGTH);
                }
                return;
            }
        }
    }
    e = initEntry();

    rax_posix_memalign ((void **)&(e->bitVector), PLL_BYTE_ALIGNMENT, (size_t)vectorLength * sizeof(unsigned int));
    memset(e->bitVector, 0, vectorLength * sizeof(unsigned int));

    e->treeVector = (unsigned int*)rax_calloc((size_t)treeVectorLength, sizeof(unsigned int));
    if(computeWRF)
        e->supportVector = (int*)rax_calloc((size_t)treeVectorLength * PLL_MASK_LENGTH, sizeof(int));

    e->treeVector[treeNumber / PLL_MASK_LENGTH] |= mask32[treeNumber % PLL_MASK_LENGTH];
    if(computeWRF)
    {
        e->supportVector[treeNumber] = support;

        assert(0 <= treeNumber && treeNumber < treeVectorLength * PLL_MASK_LENGTH);
    }

    memcpy(e->bitVector, bitVector, sizeof(unsigned int) * vectorLength);

    pllHashAdd (h, position, NULL, (void *)e);
}
uid_t LogStatistics::pidToUid(pid_t pid) {
    uid_t uid;
    android::hash_t hash = android::hash_type(pid);
    ssize_t index = pidTable.find(-1, hash, pid);
    if (index == -1) {
        uid = android::pidToUid(pid);
        PidEntry initEntry(pid, uid, android::pidToName(pid));
        pidTable.add(hash, initEntry);
    } else {
        PidEntry &entry = pidTable.editEntryAt(index);
        if (!entry.getName()) {
            char *name = android::pidToName(pid);
            if (name) {
                entry.setName(name);
            }
        }
        uid = entry.getUid();
    }
    return uid;
}
Esempio n. 6
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 void setDefaults()
 {
    if(!theHandler.valid())
    {
       initHandler();
       initEntry();
    }
    ossim::defaultTileSize(theOverviewTileSize);
    theStageHistogramFlag = false;
    theStageOverviewFlag = false;
    theHistogramFilename = "";
    theOverviewFilename = "";
    if(theHandler.valid())
    {
       theStageOverviewFlag  = !(theHandler->hasOverviews());
       theOverviewFilename   = theHandler->createDefaultOverviewFilename();
       theHistogramFilename  = theHandler->createDefaultHistogramFilename();
       theStageHistogramFlag = !(theHistogramFilename.exists());
    }
 }
Esempio n. 7
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 bool buildHistograms()
 {
    if(!initEntry()) return false;
    ossimRefPtr<ossimImageHistogramSource> histoSource = new ossimImageHistogramSource;
    ossimRefPtr<ossimHistogramWriter> writer = new ossimHistogramWriter;
    histoSource->connectMyInputTo(0, theHandler.get());
    histoSource->enableSource();
    if (theUseFastHistogramStagingFlag)
    {
       histoSource->setComputationMode(OSSIM_HISTO_MODE_FAST);
    }
    writer->connectMyInputTo(0, histoSource.get());
    
    writer->setFilename(theHistogramFilename);
    if(!theQuietFlag)
    {
      writer->addListener((ossimProcessListener*)this); 
    } 
    else
    {
       //ossimPushNotifyFlags();
       //ossimDisableNotify();
    }
    theCurrentProcessInterface = writer.get();
    writer->execute();
    if(!theQuietFlag)
    {
       writer->removeListener((ossimProcessListener*)this);
    }
    else
    {
       //ossimPopNotifyFlags();
    }
    writer->disconnect();
    histoSource->disconnect();
    theCurrentProcessInterface = 0;
    
    return true;
 }
Esempio n. 8
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void P() {
	int i;
	ENTRY e, e1, e2;

	initEntry(sa1, 0, 1, -5);
	initEntry(sa1, 0, 3, 8);
	initEntry(sa1, 2, 0, 20);
	initEntry(sa1, 3, 3, -3);
	printf("Sparse array 1:\n");
    printSA(sa1);

	initEntry(sa2, 0, 2, -2);
	initEntry(sa2, 0, 3, 5);
	initEntry(sa2, 2, 0, -15);
	printf("Sparse array 2:\n");
    printSA(sa2);

	addSA(sa1, sa2, sa3);
	printf("Sparse array 3:\n");
    printSA(sa3);
}
// caller must free character string
char *LogStatistics::pidToName(pid_t pid) {
    char *name;

    android::hash_t hash = android::hash_type(pid);
    ssize_t index = pidTable.find(-1, hash, pid);
    if (index == -1) {
        name = android::pidToName(pid);
        PidEntry initEntry(pid, android::pidToUid(pid), name ? strdup(name) : NULL);
        pidTable.add(hash, initEntry);
    } else {
        PidEntry &entry = pidTable.editEntryAt(index);
        const char *n = entry.getName();
        if (n) {
            name = strdup(n);
        } else {
            name = android::pidToName(pid);
            if (name) {
                entry.setName(strdup(name));
            }
        }
    }

    return name;
}
Esempio n. 10
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static void insertHashRF(unsigned int *bitVector, hashtable *h, unsigned int vectorLength, int treeNumber, int treeVectorLength, hashNumberType position, int support, 
			 boolean computeWRF)
{     
  if(h->table[position] != NULL)
    {
      entry *e = h->table[position];     

      do
	{	 
	  unsigned int i;
	  
	  for(i = 0; i < vectorLength; i++)
	    if(bitVector[i] != e->bitVector[i])
	      break;
	  
	  if(i == vectorLength)
	    {
	      e->treeVector[treeNumber / MASK_LENGTH] |= mask32[treeNumber % MASK_LENGTH];
	      if(computeWRF)
		{
		  e->supportVector[treeNumber] = support;
		 
		  assert(0 <= treeNumber && treeNumber < treeVectorLength * MASK_LENGTH);
		}
	      return;
	    }
	  
	  e = e->next;
	}
      while(e != (entry*)NULL); 

      e = initEntry(); 
       
      /*e->bitVector  = (unsigned int*)calloc(vectorLength, sizeof(unsigned int));*/
      e->bitVector = (unsigned int*)malloc_aligned(vectorLength * sizeof(unsigned int));
      memset(e->bitVector, 0, vectorLength * sizeof(unsigned int));


      e->treeVector = (unsigned int*)calloc(treeVectorLength, sizeof(unsigned int));
      if(computeWRF)
	e->supportVector = (int*)calloc(treeVectorLength * MASK_LENGTH, sizeof(int));

      e->treeVector[treeNumber / MASK_LENGTH] |= mask32[treeNumber % MASK_LENGTH];
      if(computeWRF)
	{
	  e->supportVector[treeNumber] = support;
	 
	  assert(0 <= treeNumber && treeNumber < treeVectorLength * MASK_LENGTH);
	}

      memcpy(e->bitVector, bitVector, sizeof(unsigned int) * vectorLength);
     
      e->next = h->table[position];
      h->table[position] = e;          
    }
  else
    {
      entry *e = initEntry(); 
       
      /*e->bitVector  = (unsigned int*)calloc(vectorLength, sizeof(unsigned int)); */

      e->bitVector = (unsigned int*)malloc_aligned(vectorLength * sizeof(unsigned int));
      memset(e->bitVector, 0, vectorLength * sizeof(unsigned int));

      e->treeVector = (unsigned int*)calloc(treeVectorLength, sizeof(unsigned int));
      if(computeWRF)	
	e->supportVector = (int*)calloc(treeVectorLength * MASK_LENGTH, sizeof(int));


      e->treeVector[treeNumber / MASK_LENGTH] |= mask32[treeNumber % MASK_LENGTH];
      if(computeWRF)
	{
	  e->supportVector[treeNumber] = support;
	 
	  assert(0 <= treeNumber && treeNumber < treeVectorLength * MASK_LENGTH);
	}

      memcpy(e->bitVector, bitVector, sizeof(unsigned int) * vectorLength);     

      h->table[position] = e;
    }

  h->entryCount =  h->entryCount + 1;
}
Esempio n. 11
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void
ringbufferEntry(RingBufferType t, uint64_t funcId, int offset) {
    (void) initEntry(t, funcId, offset);
}
Esempio n. 12
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void
ringbufferMsg(const char* msg, size_t msgLen, RingBufferType t) {
    RingBufferEntry* rb = initEntry(t);
    rb->m_msg = msg;
    rb->m_len = msgLen;
}
Esempio n. 13
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void
ringbufferEntry(RingBufferType t, uint64_t sk, uint64_t data) {
  (void) initEntry(t, sk, data);
}