public String updateModifiedOnlySql(ValueObject obj, String[] fields) throws SQLException {
if ((obj instanceof PT_KICA_ERR_LOGEntity) == false) {
throw new SQLException("DAO 에러(1): PT_KICA_ERR_LOG : updateModifiedOnly() ");
}
PT_KICA_ERR_LOGEntity entity = (PT_KICA_ERR_LOGEntity) obj;
HashMap clobs = new HashMap();
if (fields == null) throw new SQLException("Field Name can not be Null");
StringBuffer setString = new StringBuffer();
boolean flag = false;
for (int i = 0; i < fields.length; i++) {
if (fields[i] == null) throw new SQLException("Field Name can not be Null");
if (default_update_field.containsKey(fields[i]) == false) {
if (flag) setString.append(",");
flag = true;
if (clobs.containsKey(fields[i])) {
setString.append(fields[i]).append("=?");
} else {
setString.append(fields[i]).append("=").append(toDB(entity.getByName(fields[i])));
}
}
}
if (flag = false) throw new SQLException("Nothing to update");
StringBuffer sb = new StringBuffer();
sb.append("update PT_KICA_ERR_LOG set ").append(setString.toString()).append(" where 1=1 ");
sb.append(" and SEQ = ").append(toDB(entity.getSEQ()));
return sb.toString();
}
public static void main(String[] args) throws IOException {
BufferedReader in = new BufferedReader(new InputStreamReader(System.in));
String[] temp = in.readLine().split(" ");
int n = Integer.parseInt(temp[0]);
int s = Integer.parseInt(temp[1]);
HashMap<Integer, Integer> buy = new HashMap<>();
HashMap<Integer, Integer> sell = new HashMap<>();
for (int i = 1; i <= n; i++) {
temp = in.readLine().split(" ");
int p = Integer.parseInt(temp[1]);
int q = Integer.parseInt(temp[2]);
if (temp[0].charAt(0) == 'B') {
if (buy.containsKey(p)) buy.put(p, buy.get(p) + q);
else buy.put(p, q);
} else {
if (sell.containsKey(p)) sell.put(p, sell.get(p) + q);
else sell.put(p, q);
}
}
ArrayList<Integer> buyArr = new ArrayList<>();
ArrayList<Integer> sellArr = new ArrayList<>();
for (Integer i : buy.keySet()) buyArr.add(i);
for (Integer i : sell.keySet()) sellArr.add(i);
Collections.sort(buyArr, Comparator.reverseOrder());
Collections.sort(sellArr);
for (int i = Math.min(s, sellArr.size()) - 1; i >= 0; i--)
System.out.println("S " + sellArr.get(i) + " " + sell.get(sellArr.get(i)));
for (int i = 0; i < s && i < buyArr.size(); i++)
System.out.println("B " + buyArr.get(i) + " " + buy.get(buyArr.get(i)));
}
public boolean hasRestoration(Player player) {
UUID uuid = player.getUniqueId();
if (multipleInventories()) {
return RESTORATIONS.containsKey(uuid + "." + getWorldGroups(player));
}
return RESTORATIONS.containsKey(uuid.toString());
}
@Override
public void reduce(Text key, Iterable<HMapStIW> values, Context context)
throws IOException, InterruptedException {
Iterator<HMapStIW> iter = values.iterator();
HMapStIW map = new HMapStIW();
while (iter.hasNext()) {
map.plus(iter.next());
}
HMapStFW writeMap = new HMapStFW();
double pmi = 0.0;
for (MapKI.Entry<String> entry : map.entrySet()) {
String k = entry.getKey();
if (map.get(k) >= 10) {
if (wordCounts.containsKey(key.toString()) && wordCounts.containsKey(k)) {
int px = wordCounts.get(key.toString());
int py = wordCounts.get(k);
pmi = Math.log10(((double) (map.get(k)) / (px * py)) * wordCounts.get("numLines*"));
writeMap.put(k, (float) pmi);
}
}
}
if (writeMap.size() > 0) {
context.write(key, writeMap);
}
}
public final String correct(String word) {
if (nWords.containsKey(word)) return word;
ArrayList<String> list = edits(word);
HashMap<Integer, String> candidates = new HashMap<Integer, String>();
for (String s : list) if (nWords.containsKey(s)) candidates.put(nWords.get(s), s);
if (candidates.size() > 0) return candidates.get(Collections.max(candidates.keySet()));
return candidates.size() > 0 ? candidates.get(Collections.max(candidates.keySet())) : word;
}
public static void main(String[] args) throws IOException {
BufferedReader in = new BufferedReader(new FileReader("milk2.in"));
PrintWriter out = new PrintWriter(new BufferedWriter(new FileWriter("milk2.out")));
int num = Integer.parseInt(in.readLine());
HashMap<Integer, Integer> times = new HashMap<Integer, Integer>(num * 2);
int startTime = 1000000, endTime = 0;
// ArrayList<Integer> duplicates = new ArrayList<Integer>();
for (int i = 0; i < num; i++) {
StringTokenizer line = new StringTokenizer(in.readLine());
int s = Integer.parseInt(line.nextToken());
if (times.containsKey(s)) times.put(s, times.get(s) + 1);
else times.put(s, 1);
if (s < startTime) startTime = s;
int e = Integer.parseInt(line.nextToken());
if (times.containsKey(e)) times.put(e, times.get(e) - 1);
else times.put(e, -1);
if (e > endTime) endTime = e;
}
in.close();
/*for (int i = 0; i < duplicates.size(); i++)
times.remove(duplicates.get(i));*/
// System.out.println(startTime + " " + endTime);
int starts = 0, ends = 0, milkTime = 0, idleTime = 0, maxMilkTime = 0, maxIdleTime = 0;
for (int t = startTime; t < endTime; t++) {
if (times.containsKey(t)) {
if (times.get(t) > 0) {
starts += times.get(t);
}
if (times.get(t) < 0) {
ends -= times.get(t);
}
// System.out.println(t + " " + times.get(t));
}
if (starts > ends) {
milkTime++;
if (milkTime > maxMilkTime) maxMilkTime = milkTime;
if (idleTime != 0) idleTime = 0;
} else {
idleTime++;
if (idleTime > maxIdleTime) maxIdleTime = idleTime;
if (milkTime != 0) milkTime = 0;
}
}
// System.out.println(starts + " " + ends);
out.println(maxMilkTime + " " + maxIdleTime);
out.close();
System.exit(0);
}
public static Element gene_Info(Document doc, String symbol) {
Element genes = doc.createElement(Consts.XML_TAG_GENES);
doc.getElementsByTagName(Consts.DATA_ROOT).item(0).appendChild(genes);
if (SymbolMap.containsKey(symbol)) {
int index = SymbolMap.get(symbol);
Element gene = doc.createElement(Consts.XML_TAG_GENE);
gene.setAttribute(Consts.XML_TAG_ID, Symbols[index]);
genes.appendChild(gene);
XmlWriter.append_text_element(doc, gene, Consts.XML_TAG_CHROMOSOME, ChrList[Chrs[index]]);
XmlWriter.append_text_element(
doc, gene, Consts.XML_TAG_FROM, Integer.toString(Starts[index] + 1));
XmlWriter.append_text_element(doc, gene, Consts.XML_TAG_TO, Integer.toString(Ends[index]));
if (!RefSeqs[index].equals(""))
XmlWriter.append_text_element(doc, gene, Consts.XML_TAG_REFSEQ, RefSeqs[index]);
if (!UCSCs[index].equals(""))
XmlWriter.append_text_element(doc, gene, Consts.XML_TAG_UCSC, UCSCs[index]);
if (!Ensembls[index].equals(""))
XmlWriter.append_text_element(doc, gene, Consts.XML_TAG_ENSEMBL, Ensembls[index]);
if (!Entrezs[index].equals(""))
XmlWriter.append_text_element(doc, gene, Consts.XML_TAG_ENTREZ, Entrezs[index]);
XmlWriter.append_text_element(doc, gene, Consts.XML_TAG_HGNC, HGNCs[index]);
XmlWriter.append_text_element(doc, gene, Consts.XML_TAG_NAME, Names[index]);
}
return genes;
}
public static Element overlap_Genes(
Document doc, String chr, int start, int end, IndividualStat is) {
Element genes = doc.createElement(Consts.XML_TAG_GENES);
doc.getElementsByTagName(Consts.DATA_ROOT).item(0).appendChild(genes);
if (ChrMap.containsKey(chr)) {
int[] range = binarySearchOverlap(ChrMap.get(chr), start, end);
if (range != null) {
float[] scores = null;
if (is != null) scores = is.get_GeneScores(range[1], range[0]);
for (int i = range[0]; i <= range[1]; i++) {
Element gene = doc.createElement(Consts.XML_TAG_GENE);
gene.setAttribute(Consts.XML_TAG_ID, Symbols[i]);
XmlWriter.append_text_element(
doc, gene, Consts.XML_TAG_FROM, Integer.toString(Starts[i] + 1));
XmlWriter.append_text_element(doc, gene, Consts.XML_TAG_TO, Integer.toString(Ends[i]));
if (is != null)
XmlWriter.append_text_element(
doc,
gene,
Consts.XML_TAG_SCORE,
Float.toString(Math.round(scores[i - range[0]] * 10) / 10));
genes.appendChild(gene);
}
}
}
return genes;
}
/**
* Process key presses. If the toolbox contains a SprayTool associated with this key, the
* SprayTool is used.
*
* @param c
* @return true if the ToolBox fired a SprayTool
*/
public boolean hotKeyPressed(char c) {
if (toolKeys.containsKey(c)) {
currentTool = toolKeys.get(c);
return true;
}
return false;
}
public static void countPairs(Integer[] arr) {
HashMap<Integer, Integer> seenElements = new HashMap<Integer, Integer>();
// ArrayList<Integer> countList = new ArrayList<Integer
for (int i = 0; i < arr.length; i++) {
if (!seenElements.containsKey(arr[i])) {
seenElements.put(arr[i], 1);
} else {
seenElements.put(arr[i], seenElements.get(arr[i]) + 1);
}
}
BigInteger count = null;
for (int element : seenElements.keySet()) {
if (seenElements.get(element) > 1) {
System.out.println("count is :" + seenElements.get(element));
count.add(
factorial(seenElements.get(element)).divide(factorial(seenElements.get(element) - 2)));
System.out.println(count);
}
}
if (count == null) {
System.out.println("0");
}
}
private void write(List<String> words, String documentsName) throws DictionaryException {
for (int i = 0; i < words.size(); i++) {
HashMap<String, Integer> hashMap = new HashMap<String, Integer>();
if (dictionary.containsKey(words.get(i))) {
hashMap = dictionary.get(words.get(i));
int countWords;
if (hashMap.containsKey(documentsName)) {
countWords = hashMap.get(documentsName);
countWords += 1;
hashMap.remove(documentsName);
hashMap.put(documentsName, countWords);
} else {
hashMap.put(documentsName, 1);
}
dictionary.remove(words.get(i));
dictionary.put(words.get(i), hashMap);
} else {
hashMap.put(documentsName, 1);
dictionary.put(words.get(i), hashMap);
}
}
writeToFile();
}
public String hasSameContent(JarFile2 file, JarEntry entry) throws IOException {
String thisName = null;
Long crcL = new Long(entry.getCrc());
// check if this jar contains files with the passed in entry's crc
if (_crcToEntryMap.containsKey(crcL)) {
// get the Linked List with files with the crc
LinkedList ll = (LinkedList) _crcToEntryMap.get(crcL);
// go through the list and check for content match
ListIterator li = ll.listIterator(0);
if (li != null) {
while (li.hasNext()) {
JarEntry thisEntry = (JarEntry) li.next();
// check for content match
InputStream oldIS = getJarFile().getInputStream(thisEntry);
InputStream newIS = file.getJarFile().getInputStream(entry);
if (!differs(oldIS, newIS)) {
thisName = thisEntry.getName();
return thisName;
}
}
}
}
return thisName;
}
public static ArrayList<ArrayList<TaggedWord>> getPhrasesNaive(
String sentence, LexicalizedParser lp, AbstractSequenceClassifier<CoreLabel> classifier) {
ArrayList<ArrayList<TaggedWord>> newList = new ArrayList<ArrayList<TaggedWord>>();
ArrayList<TaggedWord> taggedWords = StanfordNER.parse(sentence, lp, classifier);
HashMap<String, String> phraseBoundaries = new HashMap<String, String>();
phraseBoundaries.put(",", ",");
phraseBoundaries.put("\"", "\"");
phraseBoundaries.put("''", "''");
phraseBoundaries.put("``", "``");
phraseBoundaries.put("--", "--");
// List<Tree> leaves = parse.getLeaves();
ArrayList<TaggedWord> temp = new ArrayList<TaggedWord>();
int index = 0;
while (index < taggedWords.size()) {
if ((phraseBoundaries.containsKey(taggedWords.get(index).word()))) {
if (temp.size() > 0) {
// System.out.println(temp);
ArrayList<TaggedWord> tempCopy = new ArrayList<TaggedWord>(temp);
newList.add(Preprocess(tempCopy));
}
temp.clear();
} else {
// System.out.println(taggedWords.get(index).toString());
temp.add(taggedWords.get(index));
}
index += 1;
}
if (temp.size() > 0) {
ArrayList<TaggedWord> tempCopy = new ArrayList<TaggedWord>(temp);
newList.add(Preprocess(tempCopy));
}
// System.out.println(newList);
return newList;
}
public static ArrayList<TaggedWord> StopWordRemoval(ArrayList<TaggedWord> taggedWords) {
ArrayList<TaggedWord> newList = new ArrayList<TaggedWord>();
try {
String path = "data/nltk_stoplist.txt";
File textFile = new File(path);
BufferedReader br = new BufferedReader(new FileReader(textFile));
String stopwordsLine = br.readLine();
br.close();
String[] stopwords = stopwordsLine.split(",");
HashMap<String, String> stopwordsDict = new HashMap<String, String>();
for (int i = 0; i < stopwords.length; i++) {
stopwordsDict.put(stopwords[i], stopwords[i]);
}
for (int i = 0; i < taggedWords.size(); i++) {
String word = taggedWords.get(i).word();
String posTag = taggedWords.get(i).tag();
if (!stopwordsDict.containsKey(word.toLowerCase())) {
String newWord, newPosTag;
newWord = word;
newPosTag = posTag;
newList.add(new TaggedWord(newWord, newPosTag));
}
}
} catch (Exception ex) {
ex.printStackTrace();
}
return newList;
}
public static void main(String[] args) throws IOException {
BufferedReader in = new BufferedReader(new InputStreamReader(System.in));
int[] marbles;
HashMap<Integer, Integer> positions;
int n, m;
StringTokenizer r;
int cases = 1;
StringBuilder output = new StringBuilder();
while (true) {
r = new StringTokenizer(in.readLine());
n = Integer.parseInt(r.nextToken());
m = Integer.parseInt(r.nextToken());
if (n == 0 && m == 0) break;
marbles = new int[n];
positions = new HashMap<Integer, Integer>();
for (int i = 0; i < n; i++) marbles[i] = Integer.parseInt(in.readLine());
Arrays.sort(marbles);
for (int i = n - 1; i >= 0; i--) positions.put(marbles[i], i + 1);
output.append("CASE# ").append(cases++).append(":").append("\n");
for (int i = 0; i < m; i++) {
n = Integer.parseInt(in.readLine());
if (positions.containsKey(n))
output.append(n).append(" found at ").append(positions.get(n)).append("\n");
else output.append(n).append(" not found").append("\n");
}
}
System.out.print(output);
in.close();
System.exit(0);
}
private static void convertToInlinkMap(
HashMap<String, Set<String>> outlinkmapping, HashMap<String, JSONArray> inlinkmapping)
throws Exception, FileNotFoundException {
Iterator<String> keys = outlinkmapping.keySet().iterator();
System.out.println("outlink map count " + outlinkmapping.size());
while (keys.hasNext()) {
String key = (String) keys.next();
Set<String> s = outlinkmapping.get(key);
ArrayList<String> a = new ArrayList<String>(s);
// System.out.println("Started for "+count++ + + outlinkmapping.size() +a.size());
for (int i = 0; i < a.size(); i++) {
String inlink = a.get(i);
if (outlinkmapping.containsKey(inlink)) {
Object inlinks =
inlinkmapping.containsKey(inlink) ? inlinkmapping.get(inlink) : new JSONArray();
((JSONArray) inlinks).add(key);
inlinkmapping.put(inlink, (JSONArray) inlinks);
}
}
// System.out.println("Endded for "+count++ + " " + outlinkmapping.size() +" "+a.size());
}
System.out.println("inlink map count " + inlinkmapping.size());
System.out.println("Done");
}
/**
* Construct the <code>BufferedImage</code> from the given file. The file can be given as an URL,
* or a reference to local image file. If this image has been loaded already, use the saved
* version.
*
* @param filename the file name for the desired image
*/
public ImageMaker(String filename) {
/** now we set up the image file for the user to process */
try {
this.inputfile = new File(filename);
String abs = inputfile.getCanonicalPath();
if (loadedImages.containsKey(abs)) {
this.image = loadedImages.get(abs);
this.width = this.image.getWidth();
this.height = this.image.getHeight();
} else {
this.imageSource = ImageIO.read(this.inputfile);
this.width = this.imageSource.getWidth();
this.height = this.imageSource.getHeight();
this.cmodel = this.imageSource.getColorModel();
this.image = new BufferedImage(this.width, this.height, BufferedImage.TYPE_INT_ARGB);
this.colorOp =
new ColorConvertOp(
this.cmodel.getColorSpace(), image.getColorModel().getColorSpace(), null);
this.colorOp.filter(this.imageSource, this.image);
loadedImages.put(abs, this.image);
}
} catch (IOException e) {
System.out.println("Could not open the file");
}
}
// keyboard discovery code
private void _mapKey(char charCode, int keyindex, boolean shift, boolean altgraph) {
log("_mapKey: " + charCode);
// if character is not in map, add it
if (!charMap.containsKey(new Integer(charCode))) {
log("Notified: " + (char) charCode);
KeyEvent event =
new KeyEvent(
applet(),
0,
0,
(shift ? KeyEvent.SHIFT_MASK : 0) + (altgraph ? KeyEvent.ALT_GRAPH_MASK : 0),
((Integer) vkKeys.get(keyindex)).intValue(),
(char) charCode);
charMap.put(new Integer(charCode), event);
log("Mapped char " + (char) charCode + " to KeyEvent " + event);
if (((char) charCode) >= 'a' && ((char) charCode) <= 'z') {
// put shifted version of a-z in automatically
int uppercharCode = (int) Character.toUpperCase((char) charCode);
event =
new KeyEvent(
applet(),
0,
0,
KeyEvent.SHIFT_MASK + (altgraph ? KeyEvent.ALT_GRAPH_MASK : 0),
((Integer) vkKeys.get(keyindex)).intValue(),
(char) uppercharCode);
charMap.put(new Integer(uppercharCode), event);
log("Mapped char " + (char) uppercharCode + " to KeyEvent " + event);
}
}
}
// methodes covoiturage
// renvoie le cout vers un chemin en particulier a partir de la hashmap
public double cout_vers(Sommet S) {
if (maplabel.containsKey(S)) {
return maplabel.get(S).getCout();
} else {
return Double.MAX_VALUE;
}
}
/**
* Marshalls the mgf file object to a file. If the file already exists it will be overwritten.
*
* @param file The file to marshall the mgf file to.
*/
public void marshallToFile(File file) throws JMzReaderException {
try {
// create the object to write the file
BufferedWriter writer = new BufferedWriter(new FileWriter(file));
// process all additional parameters
String parameters = marshallAdditionalParameters();
// write the parameters
writer.write(parameters);
// process the pmf spectra
for (PmfQuery q : pmfQueries) writer.write(q.toString() + "\n");
writer.write("\n");
// write the spectra
for (Integer index = 0; index < 1000000; index++) {
if (!ms2Queries.containsKey(index)) continue;
writer.write(ms2Queries.get(index).toString() + "\n");
}
writer.close();
} catch (IOException e) {
throw new JMzReaderException("Failed to write output file", e);
}
}
void handleConfigEvent(HashMap map) {
if (map == null) {
return;
}
if (map.containsKey("additional_data")) {
additional_data = (byte[]) map.get("additional_data");
}
if (map.containsKey("send_buf_size")) {
mcast_send_buf_size = ((Integer) map.get("send_buf_size")).intValue();
ucast_send_buf_size = mcast_send_buf_size;
}
if (map.containsKey("recv_buf_size")) {
mcast_recv_buf_size = ((Integer) map.get("recv_buf_size")).intValue();
ucast_recv_buf_size = mcast_recv_buf_size;
}
setBufferSizes();
}
public Monster getMonsterById(String id) {
if (monsters.containsKey(id)) {
Monster monster = monsters.get(id);
return monster;
} else {
return null;
}
}
static void pf(int n) {
int c = 0;
for (int i = 2; i * i <= n; i++)
if ((n % i == 0)) {
c = 0;
while ((n % i == 0)) {
c++;
n /= i;
}
if (hm.containsKey(i)) hm.put(i, Math.max((int) hm.get(i), c));
else hm.put(i, c);
}
if (n > 1) {
if (hm.containsKey(n)) hm.put(n, Math.max((int) hm.get(n), 1));
else hm.put(n, 1);
}
}
public void add(Transferable t) {
DataFlavor[] f = t.getTransferDataFlavors();
for (int i = 0; i < f.length; i++) {
if (!transferables.containsKey(f[i])) {
flavors.add(f[i]);
}
transferables.put(f[i], t);
}
}
@Override
public void notify(
String filename, String event, FileWatcher.Watch watch, boolean isDir) {
String path = watch.fspec.startsWith("web/") ? watch.fspec.substring(4) : watch.fspec;
if (templates.containsKey(path)) {
templates.put(path, compile(getInputStream(path)));
LOGGER.info("Recompiling template: {}", path);
}
}
/**
* Obtient le socket enregistré correspondant à l'addresse IP donnée.
*
* @return le socket correspondant à l'IP source donnée s'il a été enregistré null sinon.
*/
public Socket popSocket(InetAddress addr) {
String addrname = toId(addr);
if (acceptedSockets.containsKey(addrname)) {
Socket sock = acceptedSockets.get(addrname);
acceptedSockets.remove(addrname);
return sock;
}
return null;
}
public List getSuccsOf(Object s) {
if (!unitToSuccs.containsKey(s)) {
return new ArrayList();
// throw new RuntimeException("Invalid stmt:" + s);
}
return unitToSuccs.get(s);
}
public ArrayList getPointList(long handId) {
ArrayList curList;
if (_pointLists.containsKey(handId)) curList = (ArrayList) _pointLists.get(handId);
else {
curList = new ArrayList(_maxPoints);
_pointLists.put(handId, curList);
}
return curList;
}
// Returns the correct person for a given name and gender from the HashMap storing all popularity
// rank data
public Person getPerson(String name, String gender) {
String nameGender = "";
nameGender += name;
nameGender += gender;
if (persons.containsKey(nameGender)) {
return persons.get(nameGender);
} else {
return null;
}
}
public void processMonsterUpdateUDP(UDPMonster up) {
if (up != null) {
if (monsters.containsKey(up.id)) {
Monster monster = monsters.get(up.id);
if (monster != null) {
monster.processUpdate(up);
}
}
}
}