import java.util.List;
import java.util.Map;
+import compbio.cassandra.ProteinBean;
import compbio.cassandra.CassandraNativeConnector;
import compbio.cassandra.CassandraReader;
import compbio.cassandra.DataBase;
import compbio.cassandra.Pair;
import compbio.cassandra.StructureJobLog;
-import compbio.cassandra.StructureProteinPrediction;
public class CassandraRequester {
private CassandraReader db = new CassandraReader();
private ArrayList<DataBase> query;
private static long currentDate = 0;
private static long earlestDate = 0;
+ private final static SimpleDateFormat formatYYMMDD = new SimpleDateFormat("yyyy/MM/dd");
+ private final static SimpleDateFormat formatDDMMYY = new SimpleDateFormat("dd/MM/yyyy");
/*
* query: execution time for the period from date1 till date2
if (null == date2) {
date1 = "2100/1/1";
}
- if (!isThisDateValid(date1) || !isThisDateValid(date2)) {
+ if (!isThisDateValid(date1,formatYYMMDD) || !isThisDateValid(date2,formatYYMMDD)) {
System.out.println("Wrong date: point 3");
return null;
}
SetDateRange();
int nbins = 5;
- long dateStart = DateParsing(date1);
- long dateEnd = DateParsing(date2);
+ long dateStart = DateParsing(date1, formatYYMMDD);
+ long dateEnd = DateParsing(date2, formatYYMMDD);
if (dateEnd < earlestDate || dateStart > currentDate || dateStart > dateEnd)
return null;
if (dateStart < earlestDate)
if (null == date2) {
date1 = "2100/1/1";
}
- if (!isThisDateValid(date1) || !isThisDateValid(date2)) {
+ if (!isThisDateValid(date1, formatYYMMDD) || !isThisDateValid(date2, formatYYMMDD)) {
System.out.println("Wrong date: point 3");
return null;
}
SetDateRange();
- long dateStart = DateParsing(date1);
- long dateEnd = DateParsing(date2);
+ long dateStart = DateParsing(date1, formatYYMMDD);
+ long dateEnd = DateParsing(date2, formatYYMMDD);
if (dateEnd < earlestDate || dateStart > currentDate || dateStart > dateEnd)
return null;
if (dateStart < earlestDate)
query = new ArrayList<DataBase>();
for (Date date = start.getTime(); !start.after(end); start.add(Calendar.DATE, 1), date = start.getTime()) {
List<Long> res = db.ReadDateTable(date.getTime());
+ if (res == null)
+ continue;
DataBase bean = new DataBase();
bean.setTotal((int)(long)res.get(0));
bean.setTotalOK((int)(long)res.get(1));
System.out.println("StatisticsProt.readLength: total number of dates = " + query.size());
return query;
}
+
+ /*
+ * query: jobs and sequence at date
+ */
+ public List<DataBase> readJobByDay (String date) {
+ System.out.println(date);
+ if (null == date) {
+ return null;
+ }
+ if (!isThisDateValid(date, formatDDMMYY)) {
+ System.out.println("Wrong date: point 3");
+ return null;
+ }
+ SetDateRange();
+ long day = DateParsing(date, formatDDMMYY);
+ System.out.println(day);
+ if (day < earlestDate || day > currentDate)
+ return null;
+ List<Pair<String, String>> res = db.ReadProteinData(day);
+ if (res == null)
+ return null;
+ query = new ArrayList<DataBase>();
+ for (Pair<String, String> entry : res) {
+ DataBase bean = new DataBase();
+ bean.setDate(date);
+ bean.setId(entry.getElement0());
+ bean.setProt(entry.getElement1());
+ query.add(bean);
+ }
+ System.out.println("StatisticsProt.readLength: total number of dates = " + query.size());
+ return query;
+ }
+
+
/*
* query: protein sequence
* */
- public List<DataBase> readProteins(String protIn, String flag) {
- query = new ArrayList<DataBase>();
- List<StructureProteinPrediction> res;
+ public List<ProteinBean> readProteins(String protIn, String flag) {
+ List<ProteinBean> result;
if (flag.equals("whole"))
- res = db.ReadWholeSequence(protIn);
+ result = db.ReadWholeSequence(protIn);
else
- res = db.ReadPartOfSequence(protIn);
- for (StructureProteinPrediction entry : res) {
- Map<String,String> pred = entry.getPrediction();
- Iterator it = pred.entrySet().iterator();
- while (it.hasNext()) {
- DataBase db = new DataBase();
- db.setProt(entry.getSequence());
- Map.Entry pairs = (Map.Entry)it.next();
- db.setId(entry.getJobid());
- db.setJpred(pairs.getValue().toString());
- if (flag.equals("part"))
- db.setSubProt(CreateSubprot (entry.getSequence(), protIn));
- query.add(db);
+ result = db.ReadPartOfSequence(protIn);
+ if (result == null)
+ return null;
+
+ if (flag.equals("part")) {
+ for (ProteinBean entry : result) {
+ entry.setSubProt(CreateSubprot(entry.getSequence(), protIn));
}
- }
- return query;
+ }
+ return result;
}
+
/*
* query protein sequences with number of jobs
*/
return query;
}
+ /*
+ * query ip with number of jobs
+ */
+ public List<DataBase> readIpByCounter(Integer minimalcounter) {
+ query = new ArrayList<DataBase>();
+ Map<String, Integer> map = db.ReadIpByCounter();
+ if (minimalcounter == null)
+ minimalcounter = 0;
+ if (map == null)
+ return null;
+ for (Map.Entry<String, Integer> entry : map.entrySet()) {
+ if (entry.getValue() > minimalcounter) {
+ DataBase bean = new DataBase();
+ bean.setTotalId(entry.getValue());
+ bean.setIp(entry.getKey());
+ query.add(bean);
+ }
+ }
+ return query;
+ }
/*
* query jobs log info
*/
public DataBase readJobLog(String jobid) {
- // query = new ArrayList<DataBase>();
+ if (jobid == null)
+ return null;
StructureJobLog res = db.ReadJobLog(jobid);
+ if (res == null)
+ return null;
DataBase query = new DataBase();
query.setLogInfo(res);
- // query.setres);
return query;
}
+
+
+ /*
+ * query jobs by ipStructureJobLog
+ */
+ public List<DataBase> readIp(String ip) {
+ if (ip == null)
+ return null;
+ List<Pair<String, String>> res = db.ReadIpWithJobs(ip);
+ // System.out.println(res.size());
+ if (res == null)
+ return null;
+ query = new ArrayList<DataBase>();
+ for (Pair<String, String> entry : res) {
+ System.out.println("ip " + ip);
+ System.out.println("id " + entry.getElement0());
+ DataBase bean = new DataBase();
+ bean.setIp(ip);
+ bean.setId(entry.getElement0());
+ bean.setProt(entry.getElement1());
+ query.add(bean);
+ }
+ System.out.println(query.size());
+ return query;
+ }
+
/*
* create list of parts of protein sequence;
*/
/*
* convert String date into long date (miliseconds since the epoch start)
*/
- private static long DateParsing(String datInput) {
+ private static long DateParsing(String datInput, SimpleDateFormat formatter) {
if (datInput == null) {
return 0;
}
long dateWorkSt = 0;
- SimpleDateFormat formatter = new SimpleDateFormat("yyyy/MM/dd");
+
try {
dateWorkSt = formatter.parse(datInput).getTime();
} catch (ParseException e) {
*/
private static void SetDateRange() {
Calendar cal = Calendar.getInstance();
- currentDate = DateParsing(cal.get(Calendar.YEAR) + "/" + (cal.get(Calendar.MONTH) + 1) + "/" + cal.get(Calendar.DAY_OF_MONTH));
+ currentDate = DateParsing(cal.get(Calendar.YEAR) + "/" + (cal.get(Calendar.MONTH) + 1) + "/" + cal.get(Calendar.DAY_OF_MONTH), formatYYMMDD);
if (0 == earlestDate) {
CassandraRequester cr = new CassandraRequester();
earlestDate = cr.earliestDate();
}
}
- public boolean isThisDateValid(String dateToValidate) {
+ public boolean isThisDateValid(String dateToValidate, SimpleDateFormat sdf) {
if (dateToValidate == null || dateToValidate.equals("")) {
System.out.println("Undefined date");
return false;
}
- SimpleDateFormat sdf = new SimpleDateFormat("yyyy/MM/dd");
try {
// if not valid, this will throw ParseException
sdf.setLenient(false);