nomic-ai/cornstack-java-v1 · Datasets at Hugging Face

query stringlengths 7 33.1k	document stringlengths 7 335k	metadata dict	negatives listlengths 3 101	negative_scores listlengths 3 101	document_score stringlengths 3 10	document_rank stringclasses 102 values
FIND ALL FLIGHTS find all entities	List<Flight> findAllFlights();	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "List<TransportEntity> getAllEntityOfQuery();", "List<WebCrawlerData> retrieveAllEntity();", "public List<Flight> fetchFlights() {\n\t\tSession session = SessionBuilder.buildSession();\n\t\tString query = \"from Flight\";\n\t\tQuery q = session.createQuery(query);\n\t\tList<Flight> flights = q.getResultList();\...	[ "0.58980507", "0.5739583", "0.569785", "0.5680651", "0.56668526", "0.56583345", "0.5645099", "0.55677867", "0.5564338", "0.5547493", "0.55358386", "0.5513301", "0.5511514", "0.5500344", "0.54248774", "0.54123205", "0.54122835", "0.54109806", "0.53888905", "0.53790176", "0.537...	0.58951986	1
Add steward to flight	Flight addStewardToFlight(Flight flight, Steward steward);	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "void insertFlightseat(AirFlightseat dRef);", "public void bookFlight(){\n //Steps\n //1 Show the available flights. (at least one seat with 0)\n //2 User select a flight, and the system automatically set the seat with his id. he is not able to select the seat\n //3 User confirm the re...	[ "0.60065764", "0.57747436", "0.5735861", "0.55893445", "0.5562254", "0.55509526", "0.5545575", "0.5520484", "0.5513133", "0.5509838", "0.548876", "0.5479571", "0.5445324", "0.5428199", "0.5397296", "0.53663546", "0.5345749", "0.53438556", "0.53407013", "0.5336883", "0.5307525...	0.8872268	0
Validate Flight parameters steward availibility, airplane availibility and time	boolean validateFlight(Flight flight);	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private void validate() throws FlightCreationException {\n validateNotNull(\"number\", number);\n validateNotNull(\"company name\", companyName);\n validateNotNull(\"aircraft\", aircraft);\n validateNotNull(\"pilot\", pilot);\n validateNotNull(\"origin\", origin);\n valida...	[ "0.68103987", "0.60651565", "0.56858623", "0.56714994", "0.56280434", "0.56141436", "0.5612667", "0.5560385", "0.551301", "0.5504334", "0.5491156", "0.5467965", "0.5459695", "0.5417644", "0.5407046", "0.5385279", "0.5381938", "0.5380206", "0.53660905", "0.53507614", "0.534377...	0.64929986	1
.appscode.kubernetes.v1beta2.Meta meta = 1;	boolean hasMeta();	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "com.appscode.api.kubernetes.v1beta2.Meta getMeta();", "com.appscode.api.kubernetes.v1beta2.MetaOrBuilder getMetaOrBuilder();", "public Object getMeta() {\n return meta;\n }", "public void setMeta (boolean meta) {\n\tthis.meta = meta;\n }", "public void setMeta(org.thdl.lex.component.Meta meta);", ...	[ "0.840164", "0.77114445", "0.6447995", "0.6434399", "0.636537", "0.6283877", "0.6151779", "0.607437", "0.6063908", "0.6041019", "0.59978956", "0.59543705", "0.593035", "0.5923061", "0.58797395", "0.586517", "0.5833123", "0.5794263", "0.5772853", "0.5747371", "0.57468265", "...	0.5188533	76
.appscode.kubernetes.v1beta2.Meta meta = 1;	com.appscode.api.kubernetes.v1beta2.Meta getMeta();	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "com.appscode.api.kubernetes.v1beta2.MetaOrBuilder getMetaOrBuilder();", "public Object getMeta() {\n return meta;\n }", "public void setMeta (boolean meta) {\n\tthis.meta = meta;\n }", "public void setMeta(org.thdl.lex.component.Meta meta);", "default @org.jetbrains.annotations.Nullable imports.k8s....	[ "0.77100915", "0.6446217", "0.64315665", "0.6363506", "0.6283592", "0.61509615", "0.6073143", "0.60623497", "0.60402894", "0.59977263", "0.59517795", "0.5928647", "0.59208447", "0.58776945", "0.58625346", "0.58303875", "0.5794218", "0.5771239", "0.5745612", "0.5744357", "0.57...	0.8400092	0
.appscode.kubernetes.v1beta2.Meta meta = 1;	com.appscode.api.kubernetes.v1beta2.MetaOrBuilder getMetaOrBuilder();	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "com.appscode.api.kubernetes.v1beta2.Meta getMeta();", "public Object getMeta() {\n return meta;\n }", "public void setMeta (boolean meta) {\n\tthis.meta = meta;\n }", "public void setMeta(org.thdl.lex.component.Meta meta);", "default @org.jetbrains.annotations.Nullable imports.k8s.ObjectMeta getMeta...	[ "0.84015614", "0.6446532", "0.64301836", "0.6361175", "0.6284969", "0.61524224", "0.60744894", "0.60640615", "0.6040436", "0.59993744", "0.595063", "0.59297776", "0.59229", "0.5878918", "0.586408", "0.58311355", "0.57959616", "0.5769778", "0.57466024", "0.57450056", "0.573377...	0.77115244	1
repeated .appscode.kubernetes.v1beta2.Rule rules = 2;	java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> getRulesList();	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> \n getRulesOrBuilderList();", "com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);", "com.appscode.api.kubernetes.v1beta2.RuleOrBuilder getRulesOrBuilder(\n int index);", "public Rules getRules()\r\n {\r\n ret...	[ "0.6758241", "0.66073847", "0.6288047", "0.5882989", "0.58308566", "0.58160627", "0.56775767", "0.5629937", "0.5585979", "0.558538", "0.5547636", "0.5541968", "0.553581", "0.5533254", "0.55036545", "0.55036545", "0.55036545", "0.5481315", "0.54485416", "0.5419642", "0.5347619...	0.6324158	2
repeated .appscode.kubernetes.v1beta2.Rule rules = 2;	com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> \n getRulesOrBuilderList();", "java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> \n getRulesList();", "com.appscode.api.kubernetes.v1beta2.RuleOrBuilder getRulesOrBuilder(\n int index);", "public Rules getRules(...	[ "0.6759394", "0.6326128", "0.62893647", "0.58856606", "0.58349943", "0.58201325", "0.5679799", "0.5631358", "0.55889016", "0.5586249", "0.5550243", "0.55422217", "0.5539352", "0.5535983", "0.5505566", "0.5505566", "0.5505566", "0.54821724", "0.54510593", "0.54220575", "0.5349...	0.66089016	1
repeated .appscode.kubernetes.v1beta2.Rule rules = 2;	int getRulesCount();	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> \n getRulesOrBuilderList();", "com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);", "java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> \n getRulesList();", "com.appscode.api.kubernetes.v1beta2.RuleOrBuilde...	[ "0.6761806", "0.66100097", "0.63280153", "0.6291458", "0.5889406", "0.5837983", "0.5822912", "0.56824654", "0.5633473", "0.55924577", "0.5551186", "0.55422986", "0.5541291", "0.5538316", "0.55086076", "0.55086076", "0.55086076", "0.5485106", "0.5454866", "0.5424918", "0.53517...	0.55871236	10
repeated .appscode.kubernetes.v1beta2.Rule rules = 2;	java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> getRulesOrBuilderList();	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);", "java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> \n getRulesList();", "com.appscode.api.kubernetes.v1beta2.RuleOrBuilder getRulesOrBuilder(\n int index);", "public Rules getRules()\r\n {\r\n return rules;\r\n }", "publi...	[ "0.66073847", "0.6324158", "0.6288047", "0.5882989", "0.58308566", "0.58160627", "0.56775767", "0.5629937", "0.5585979", "0.558538", "0.5547636", "0.5541968", "0.553581", "0.5533254", "0.55036545", "0.55036545", "0.55036545", "0.5481315", "0.54485416", "0.5419642", "0.5347619...	0.6758241	0
repeated .appscode.kubernetes.v1beta2.Rule rules = 2;	com.appscode.api.kubernetes.v1beta2.RuleOrBuilder getRulesOrBuilder( int index);	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> \n getRulesOrBuilderList();", "com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);", "java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> \n getRulesList();", "public Rules getRules()\r\n {\r\n return rul...	[ "0.6758241", "0.66073847", "0.6324158", "0.5882989", "0.58308566", "0.58160627", "0.56775767", "0.5629937", "0.5585979", "0.558538", "0.5547636", "0.5541968", "0.553581", "0.5533254", "0.55036545", "0.55036545", "0.55036545", "0.5481315", "0.54485416", "0.5419642", "0.5347619...	0.6288047	3
System.out.println("The fruit has grown!");	private void grow(){ berries.replaceAll((p, v) -> v + 1); apples.replaceAll((p, v) -> v + 1); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void eat(){\r\n System.out.println(\"Life Isn't Precious\");}", "public static void hello() {\n System.out.println(\"The coffee machine has:\\n\" +\n waterStock + \" of water\\n\" +\n milkStock + \" of milk\\n\" +\n coffeeBeansStock + \" of coffee bea...	[ "0.74794567", "0.7289995", "0.7145635", "0.7130762", "0.7112249", "0.7046853", "0.7033056", "0.70148575", "0.7006731", "0.69436455", "0.6899001", "0.68963724", "0.6873571", "0.68690366", "0.68643004", "0.6855284", "0.6854645", "0.68394834", "0.68291503", "0.682691", "0.682437...	0.0	-1
If a snake is within SNAKE_ATTACK_RANGE tiles of truman, it will hunt him down.	private boolean shouldSnakeSeekTruman(Point snake, int trux, int truy){ return (Math.abs(snake.x - trux) < SNAKE_ATTACK_RANGE && Math.abs(snake.y - truy) < SNAKE_ATTACK_RANGE); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private boolean tryAttack(Tile fromTile) {\r\n\t\tint size = getBoard().getTiles().length;\r\n\r\n\t\t// if attacker is on power-up tile\r\n\t\tif (fromTile.getTileType().equals(\"PowerUp\")) {\r\n\t\t\tif (fromTile.getPiece().getLEAGUE() == League.SHARK && fromTile.getTer().territoryName().equals(\"Shark\")) {\r\...	[ "0.64716566", "0.6229715", "0.61977965", "0.6124987", "0.6123417", "0.61195", "0.60738456", "0.6067385", "0.6058956", "0.60506517", "0.60373944", "0.59920955", "0.5984228", "0.59727776", "0.59462583", "0.59460056", "0.59346056", "0.5874751", "0.587433", "0.5872102", "0.585495...	0.6558092	0
Binary content data coding. The default value is (&x60;0&x60;) for GSM7. Example: (&x60;8&x60;) for Unicode data.	public Integer getDataCoding() { return dataCoding; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public String getEncoding() {\r\n return \"B\";\r\n }", "private void storeHeaderDataToByte() {\n\t\tString byteNumStr = String.format(\"%24s\",\n\t\t\t\tInteger.toBinaryString(encodedByte.length)).replace(' ',\n\t\t\t\t'0');\n\t\tencodedByte[encodingIndex++] = convert8BitsStrToByte(byteNumStr\n\t\t\t\...	[ "0.5862878", "0.5805442", "0.573985", "0.5736735", "0.5736735", "0.5736735", "0.5736735", "0.57291955", "0.5601688", "0.54967755", "0.5482488", "0.5457795", "0.54381704", "0.5430763", "0.5388963", "0.53576136", "0.5331874", "0.53302455", "0.5329283", "0.53191245", "0.5314022"...	0.53224444	19
Hexadecimal string. This is the representation of your binary data. Two hex digits represent one byte. They should be separated by the space character (Example: &x60;0f c2 4a bf 34 13 ba&x60;).	public String getHex() { return hex; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public String toString() {\n return Util.bytesToHex(getByteArray());\n }", "private String hexify(byte bytes[]) {\n\n char[] hexDigits = {'0', '1', '2', '3', '4', '5', '6', '7',\n '8', '9', 'a', 'b', 'c', 'd', 'e', 'f'};\n\n StringBuilder buf = new StringBuilder(bytes.length ...	[ "0.67399853", "0.6658015", "0.6637555", "0.6591403", "0.654938", "0.6547397", "0.6538596", "0.65359914", "0.64754957", "0.6447616", "0.6371127", "0.63298565", "0.6286104", "0.62561166", "0.62071806", "0.6199627", "0.6189633", "0.6161902", "0.6153057", "0.61526644", "0.6149657...	0.6289131	12
Convert the given object to string with each line indented by 4 spaces (except the first line).	private String toIndentedString(Object o) { if (o == null) { return "null"; } return o.toString().replace("\n", "\n "); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private String toIndentedString(Object object) {\n if (object == null) {\n return EndpointCentralConstants.NULL_STRING;\n }\n return object.toString().replace(EndpointCentralConstants.LINE_BREAK,\n EndpointCentralConstants.LINE_BREAK + EndpointCentralConstants.TAB_SPA...	[ "0.7884939", "0.7549351", "0.74972624" ]	0.0	-1
fungsi untuk mengubah board ke string	public String convertBoardToString(){ String tmp= ""; for (int i=0; i<30; i++){ for (int j=0; j<80; j++){ if (board.getCharacter(j,i)==0){ tmp += '-'; } else { tmp += board.getCharacter(j,i); } } } return tmp; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "String getBoardString();", "String drawBoard();", "String getBoard();", "String displayMyBoard();", "public void drawBoard() {\n String[][] strBoard= new String[4][4];\n for(int x= 0; x<4; x++) {\n for(int y= 0; y<4; y++) {\n if(board[x][y]==0) {\n ...	[ "0.7321755", "0.67984915", "0.677307", "0.66825396", "0.64890915", "0.64670163", "0.63954437", "0.6357363", "0.6355943", "0.6337652", "0.631623", "0.6298542", "0.629096", "0.62777436", "0.6257378", "0.6251178", "0.62420046", "0.6238704", "0.62253994", "0.6205695", "0.61700034...	0.6362809	7
prosedur untuk menampilkan board ke layar	public void displayToScreen(){ System.out.println(convertBoardToString()); delay(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void showBoard() {\n for (int i = 0; i < booleanBoard.length; i++) {\n for (int j = 0; j < booleanBoard.length; j++) {\n if (strBoard[i][j].equals(\"possible move\") \|\| strBoard[i][j].equals(\"castling\")) {\n gA.getBoard()[i][j].setBackgroundResource(R.co...	[ "0.72060794", "0.7087646", "0.6987039", "0.6886608", "0.68652135", "0.6816263", "0.6811079", "0.6746709", "0.6643165", "0.6611248", "0.65996975", "0.6598536", "0.65755093", "0.65742624", "0.65522", "0.6532221", "0.64692664", "0.6461921", "0.64498705", "0.6444937", "0.64328325...	0.0	-1
prosedur untuk menyimpan display ke file	public void displayToFile(){ String data = ""; try{ FileWriter fstream = new FileWriter("output.txt", true); BufferedWriter out = new BufferedWriter(fstream); for (int i=0 ; i<40; i++) { for (int j=0; j<146 ;j++ ){ if (board.getCharacter(j,i) == '0') { data += '-'; } else { data += board.getCharacter(j,i); } } out.write(data); data = ""; } out.close(); } catch (Exception e){ System.err.println("Error: " + e.getMessage()); } }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void loadShow(File f) {\n \n }", "private void viewFileChooser() {\n try {\n JFileChooser chooser = new JFileChooser();\n chooser.showOpenDialog(null);\n f = chooser.getSelectedFile();\n// this.attachmentName = f.getName();\n// this.attachm...	[ "0.70695585", "0.70277697", "0.69791394", "0.69362324", "0.6858723", "0.67330796", "0.6684322", "0.66314495", "0.6608295", "0.6573775", "0.65235466", "0.6518369", "0.6508273", "0.649684", "0.6440556", "0.6424596", "0.6415781", "0.6403392", "0.6388428", "0.6365537", "0.6334392...	0.0	-1
int ret = 0;	public int videoStitching(int[][] clips, int t) { if (clips == null \|\| clips.length == 0) return -1; if (t <= 0) return t < 0 ? -1 : 0; int n = clips.length; // int[] dp = new int[t + 1]; int maxEnd = 0; TreeMap<Integer, Integer> startPos = new TreeMap<>(); TreeMap<Integer, Integer> endPos = new TreeMap<>(); for (int i = 0; i < n; ++i) { int[] clip = clips[i]; addPos(clips, startPos, i, true); addPos(clips, endPos, i, false); if (maxEnd < clip[1]) { maxEnd = clip[1]; } // Set<Integer> set1 = endPos.computeIfAbsent(clip[1], e -> new TreeSet<>()); // set1.add(len); } if (!startPos.containsKey(0) \|\| t > maxEnd) return -1; int start = 0; int end = t; Set<Integer> selectedClip = new HashSet<>(); while (start < end) { NavigableMap<Integer, Integer> headMap = startPos.headMap(start, true); if (headMap.size() == 0) return -1; start = searchMaxLen(headMap, clips, true, selectedClip); if (start >= end) break; NavigableMap<Integer, Integer> tailMap = endPos.tailMap(end, true); if (tailMap.size() == 0) return -1; end = searchMaxLen(tailMap, clips, false, selectedClip); } return selectedClip.size(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "int return0() ;", "public int get_return(){\r\n return local_return;\r\n }", "int exitValue();", "public int result() {\n return 0;\n }", "public int getresult(){\n return result;}", "public int getReturnValue() {\n if (success)...	[ "0.8403072", "0.727131", "0.7147548", "0.7129657", "0.710408", "0.69162786", "0.6890128", "0.6889988", "0.6723391", "0.6699951", "0.6682897", "0.66500914", "0.66357076", "0.66156125", "0.6601039", "0.65983737", "0.65911335", "0.6564893", "0.652666", "0.6515095", "0.6508227", ...	0.0	-1
Convert from CMY color space to RGB color space	public static double[] cmyToRgb(double[] cmy) { assert(cmy != null && cmy.length == 3); double[] rgb = new double[3]; rgb[0] = (1-cmy[0]) * 255; rgb[1] = (1-cmy[1]) * 255; rgb[2] = (1-cmy[2]) * 255; return rgb; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public abstract RGBIColor toRGBColor();", "static private int[] YCbCrtoRGB(int[] YCbCr) {\n int[] RGB = new int[3];\n\n float Y = (float) YCbCr[0];\n float CB = (float) YCbCr[1];\n float CR = (float) YCbCr[2];\n\n float R = (float) (Y + 1.402 * (CR - 128));\n float G = (...	[ "0.7616944", "0.7099386", "0.68859655", "0.66625154", "0.6479533", "0.64303076", "0.6382099", "0.63611907", "0.6294044", "0.6274821", "0.62351775", "0.61981386", "0.61393213", "0.60744804", "0.6057305", "0.6028522", "0.60034066", "0.59884006", "0.59776336", "0.5973182", "0.59...	0.6903662	2
Convert from HSV color space to RGB color space	public static double[] hsvToRgb(double[] hsv) { double h = hsv[0]; double s = hsv[1]; double v = hsv[2]; double r,g,b; if (s == 0) { r = v * 255; g = v * 255; b = v * 255; } else { double varH = h / 60; if ((int)varH == 6) { varH = 0; } int varI = (int)(varH); double var1 = v * (1 - s); double var2 = v * (1 - s * (varH - varI)); double var3 = v * (1 - s * (1 - (varH - varI))); double varR, varG, varB; switch (varI) { case 0: varR = v; varG = var3; varB = var1; break; case 1: varR = var2; varG = v; varB = var1; break; case 2: varR = var1; varG = v; varB = var3; break; case 3: varR = var1; varG = var2; varB = v; break; case 4: varR = var3; varG = var1; varB = v; break; default: varR = v; varG = var1; varB = var2; } r = varR * 255; g = varG * 255; b = varB * 255; } double[] result = {r,g,b}; return result; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static double[] rgbToHsv(int rgb[]) {\n\t\tdouble temp[] = new double[3];\n\t\tdouble hsv[] = new double[3];\n\t\t\n\t\ttemp[0] = (double)rgb[0]/255;\n\t\ttemp[1] = (double)rgb[1]/255;\n\t\ttemp[2] = (double)rgb[2]/255;\n\t\t\n\t\tdouble max = Math.max(temp[0], Math.max(temp[1], temp[2]));\n\t\tdouble min =...	[ "0.73704934", "0.7099642", "0.7077565", "0.6938358", "0.69081855", "0.6859896", "0.6767003", "0.66153425", "0.65059745", "0.6475775", "0.64259535", "0.6364422", "0.63375443", "0.63205993", "0.62631077", "0.6238345", "0.6129053", "0.5969119", "0.5872557", "0.57994324", "0.5780...	0.778027	0
Convert an RGB array to an int value that represents RGB which can be used in BufferedImage setRGB() method	public static int rgbArrayToRgbInt(double[] array) { if (array == null) { return 0 ; } if (array.length != 3) { return 0; } return (255 & 0xFF) << 24 + ((int)array[0] & 0xFF) << 16 + ((int)array[1] & 0xFF) << 8 + ((int)array[2] & 0xFF); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static int rgbArrayToRgbInt(int[] array) {\n\t\tif (array == null) {\n\t\t\treturn 0;\n\t\t}\n\t\tif (array.length != 3) {\n\t\t\treturn 0;\n\t\t}\n\t\tdouble[] doubleArray = {array[0], array[1], array[2]};\n\t\treturn ColorConverter.rgbArrayToRgbInt(doubleArray);\n\t}", "int[] getStartRGB();", "public ...	[ "0.8086974", "0.6744437", "0.66964453", "0.6666481", "0.6512728", "0.65079445", "0.64741135", "0.64678127", "0.6463723", "0.6431115", "0.6426185", "0.63876903", "0.6336825", "0.628355", "0.62781", "0.6266843", "0.6265148", "0.621372", "0.6176449", "0.6170444", "0.61661685", ...	0.7770057	1
Convert an RGB int value to RGB array	public static double[] rgbIntToRgbArray(int rgb) { double[] rgbArray = new double[3]; rgbArray[0] = (rgb >> 16) & 0xFF; rgbArray[1] = (rgb >> 8) & 0xFF; rgbArray[2] = (rgb) & 0xFF; return rgbArray; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static int[] hexToRgb(int value) {\r\n // int[] v = { (value / 65536), ((value - value / 65536 * 65536) / 256),\r\n // (value - value / 65536 * 65536 - (value - value / 65536 * 65536) /\r\n // 256 * 256), 0 };\r\n\r\n return new int[] { (value >> 16) & 0xFF, (value >> 8) & 0xFF, ...	[ "0.7462477", "0.71654934", "0.7095958", "0.7026143", "0.70001394", "0.69524354", "0.6770394", "0.65391684", "0.6521993", "0.6508968", "0.6486071", "0.6371465", "0.6371166", "0.63696754", "0.6349078", "0.63256216", "0.62597764", "0.6244847", "0.6238903", "0.6220685", "0.620587...	0.6710411	7
Convert an RGB array to an int value that represents RGB which can be used in BufferedImage setRGB() method	public static int rgbArrayToRgbInt(int[] array) { if (array == null) { return 0; } if (array.length != 3) { return 0; } double[] doubleArray = {array[0], array[1], array[2]}; return ColorConverter.rgbArrayToRgbInt(doubleArray); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static int rgbArrayToRgbInt(double[] array) {\n\t\tif (array == null) {\n\t\t\treturn 0 ;\n\t\t}\n\t\tif (array.length != 3) {\n\t\t\treturn 0;\n\t\t}\n\t\treturn (255 & 0xFF) << 24 +\n\t\t\t\t((int)array[0] & 0xFF) << 16 +\n\t\t\t\t((int)array[1] & 0xFF) << 8 +\n\t\t\t\t((int)array[2] & 0xFF);\n\t}", "in...	[ "0.7770907", "0.67422575", "0.6695676", "0.6665606", "0.65120995", "0.65079314", "0.647346", "0.6468218", "0.64622086", "0.6430217", "0.64245456", "0.6387409", "0.63352615", "0.6282497", "0.62779206", "0.6264637", "0.626284", "0.6212993", "0.61757356", "0.6170119", "0.6164967...	0.80884475	0
Convert from RGB color space to CMY color space	public static double[] rgbToCmy(double[] rgb) { assert(rgb != null && rgb.length == 3); double[] cmy = new double[3]; cmy[0] = 1 - (rgb[0] / 255); cmy[1] = 1 - (rgb[1] / 255); cmy[2] = 1 - (rgb[2] / 255); return cmy; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public abstract RGBIColor toRGBColor();", "public static float[] rgb2cmyk(int rgb) {\r\n float r = (rgb >> 16) & 0xFF;\r\n float g = (rgb >> 8) & 0xFF;\r\n float b = rgb & 0xFF;\r\n float C = 1.0f - (r / 255);\r\n float M = 1.0f - (g / 255);\r\n float Y = 1.0f - (b / 255...	[ "0.7129924", "0.68627024", "0.6643241", "0.6607214", "0.65567124", "0.65268075", "0.65125126", "0.6481612", "0.6481612", "0.6474144", "0.63531506", "0.63375723", "0.63190895", "0.62859344", "0.61237675", "0.6092153", "0.60118127", "0.6003794", "0.58916944", "0.5787757", "0.57...	0.689081	1
Convert rgb color space to hsv color space h: degree s,v: percentage	public static double[] rgbToHsv(int rgb[]) { double temp[] = new double[3]; double hsv[] = new double[3]; temp[0] = (double)rgb[0]/255; temp[1] = (double)rgb[1]/255; temp[2] = (double)rgb[2]/255; double max = Math.max(temp[0], Math.max(temp[1], temp[2])); double min = Math.min(temp[0], Math.min(temp[1], temp[2])); double delta = max-min; if (delta == 0) { hsv[0] = 0; } else if (max == temp[0]) { hsv[0] = (60(temp[1]-temp[2])/delta)+360; while (hsv[0] >= 360) { hsv[0] -= 360; } } else if (max == temp[1]) { hsv[0] = 60 (temp[2]-temp[0]) / delta + 120; } else if (max == temp[2]) { hsv[0] = 60 * (temp[0]-temp[1]) / delta + 240; } if (max == 0) { hsv[1] = 0; } else { hsv[1] = delta/max; } hsv[2] = max; return hsv; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static double[] hsvToRgb(double[] hsv) {\n\t\tdouble h = hsv[0];\n\t\tdouble s = hsv[1];\n\t\tdouble v = hsv[2];\n\t\tdouble r,g,b;\n\t\t\n\t\tif (s == 0) {\n\t\t\tr = v * 255;\n\t\t\tg = v * 255;\n\t\t\tb = v * 255;\n\t\t} else {\n\t\t\tdouble varH = h / 60;\n\t\t\tif ((int)varH == 6) {\n\t\t\t\tvarH = 0;\...	[ "0.6905241", "0.6846411", "0.68152815", "0.6618406", "0.6526629", "0.6507404", "0.64499885", "0.63663334", "0.61383796", "0.6113904", "0.6046668", "0.5965715", "0.5921343", "0.59153706", "0.5743641", "0.5712803", "0.5678187", "0.5646805", "0.56276023", "0.5548634", "0.5545582...	0.73325783	0
Convert from RGB color space to XYZ color space	public static double[] rgbToXyz(double[] rgb) { double r = rgb[0]/255; double g = rgb[0]/255; double b = rgb[0]/255; if (r > 0.04045) { r = Math.pow((r+0.055)/1.055, 2.4); } else { r = r/ 12.92; } if (g > 0.04045) { g = Math.pow((g+0.055)/1.055, 2.4); } else { g = g/ 12.92; } if (b > 0.04045) { b = Math.pow((b+0.055)/1.055, 2.4); } else { b = b/ 12.92; } r = 100; g = 100; b = 100; double[] xyz = new double[3]; xyz[0] = r 0.4124 + g * 0.3576 + b * 0.1805; xyz[1] = r * 0.2126 + g * 0.7152 + b * 0.0722; xyz[2] = r * 0.0193 + g * 0.1192 + b * 0.9505; return xyz; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "protected abstract void toSpace( float[] rgb );", "protected abstract float[] getRgbLut();", "public abstract RGBIColor toRGBColor();", "static private int[] YCbCrtoRGB(int[] YCbCr) {\n int[] RGB = new int[3];\n\n float Y = (float) YCbCr[0];\n float CB = (float) YCbCr[1];\n float ...	[ "0.6855772", "0.61641574", "0.5870734", "0.5809777", "0.5767378", "0.57059187", "0.5689943", "0.55988324", "0.5544058", "0.552904", "0.55266494", "0.5521459", "0.5496563", "0.5389459", "0.53595716", "0.5274974", "0.52711785", "0.52501786", "0.523635", "0.52266693", "0.5226333...	0.7175052	0
/ Display a prompt for the player's next move (see examples)	public void showNextMovePrompt() { if(model.isXTurn()){ resultLabel.setText("X's Turn"); } else{ resultLabel.setText("O's Turn"); } }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private void displayConfirmMove(int direction) {\n\t\t \n\t\t switch(direction) {\n\t\t \n\t\t\t //enter case 1\n\t\t\t case 1:\tSystem.out.println(\"\\nYou've successfully moved to the next Room.\\n\");\n\t\t\t \t\t\tbreak;\n\t\t\t \t\t\t\n\t\t\t //enter case 2\n\t\t\t case 2:\tSystem.out.println(\"\\nYo...	[ "0.70453066", "0.69903094", "0.682807", "0.6685021", "0.6621955", "0.6611249", "0.63251746", "0.61592686", "0.6158325", "0.61457646", "0.6095878", "0.60689974", "0.6068644", "0.60647947", "0.60510075", "0.6049253", "0.6039178", "0.6034848", "0.60299665", "0.60195297", "0.6013...	0.7885591	0
/ Display an error if input is invalid (see examples)	public void showInputError() { resultLabel.setText("Choose another space!"); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void invalid() {\r\n\t\tSystem.out.println(\"Please enter a valid input\");\r\n\t}", "public static String invalidInput() {\n return \"Invalid input!\";\n }", "public static void printErrorForInvalidCommand(String userInput) {\n System.out.println(\"Aw man! I am unable to \" + userInput...	[ "0.7695867", "0.74156547", "0.7179793", "0.7164079", "0.7048511", "0.6959371", "0.69351494", "0.6901", "0.68647707", "0.6857352", "0.68289316", "0.6816304", "0.6816304", "0.6750743", "0.6691428", "0.6662059", "0.6635057", "0.6634648", "0.66161567", "0.6592291", "0.6591387", ...	0.6968151	5
Creates new form PantallaPrincipalEnfermeria	public PantallaPrincipalEnfermeria(Usuario usuario) { initComponents(); this.setResizable(false); Image icon = new ImageIcon(getClass().getResource("/Vistas/imagenes/pinaricono.jpg")).getImage(); setIconImage(icon); this.usuario = usuario; controladorEventos = new ControladorCalendario(); personal = usuario.getPersonal(); controlador = new ControladorConsultarSugerencia(); this.setLocationRelativeTo(null); textodeBienvenida2.setText("Bienvenido " + usuario.getPersonal().getNombre() + " " + usuario.getPersonal().getApellido() + " Al area " + usuario.getPersonal().getArea().getNombreArea()); start(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public PantallaPrincipal() {\n initComponents();\n }", "public frm_tutor_subida_prueba() {\n }", "public frmPrincipal() {\n initComponents(); \n inicializar();\n \n }", "public VentanaPrincipal() {\n initComponents();\n\n idUsuariosControlador = Fabrica.getI...	[ "0.6641977", "0.65608174", "0.6558945", "0.65453005", "0.64930385", "0.6477853", "0.64029384", "0.63834363", "0.632518", "0.6290638", "0.62693995", "0.6268008", "0.6256322", "0.62090844", "0.6190969", "0.61750025", "0.61326593", "0.61171275", "0.61039346", "0.608629", "0.6084...	0.5787483	57
This method is called from within the constructor to initialize the form. WARNING: Do NOT modify this code. The content of this method is always regenerated by the Form Editor.	@SuppressWarnings("unchecked") // <editor-fold defaultstate="collapsed" desc="Generated Code">//GEN-BEGIN:initComponents private void initComponents() { jPanel8 = new Background("/Vistas/imagenes/fondoPantallaPrincipal.jpg"); jLabel11 = new javax.swing.JLabel(); textodeBienvenida2 = new javax.swing.JLabel(); jLabel12 = new javax.swing.JLabel(); jScrollPane4 = new javax.swing.JScrollPane(); jPanel9 = new Background("/Vistas/imagenes/fondoPantallaPrincipaljpanel2.jpg"); jLabel13 = new javax.swing.JLabel(); jLabel14 = new javax.swing.JLabel(); jLabel15 = new javax.swing.JLabel(); jButton5 = new javax.swing.JButton(); jButton6 = new javax.swing.JButton(); jLabel2 = new javax.swing.JLabel(); jScrollPane2 = new javax.swing.JScrollPane(); jPanel5 = new Background("/Vistas/imagenes/fondoPantallaPrincipaljpanel2.jpg"); jLabel7 = new javax.swing.JLabel(); jCalendar1 = new com.toedter.calendar.JCalendar(); jButton7 = new javax.swing.JButton(); jButton4 = new javax.swing.JButton(); jLabel8 = new javax.swing.JLabel(); botonRealizarInterconsulta = new javax.swing.JButton(); jMenuBar1 = new javax.swing.JMenuBar(); jMenu1 = new javax.swing.JMenu(); jMenuItem7 = new javax.swing.JMenuItem(); setDefaultCloseOperation(javax.swing.WindowConstants.EXIT_ON_CLOSE); setMaximumSize(new java.awt.Dimension(1110, 832)); jPanel8.setMaximumSize(new java.awt.Dimension(1110, 950)); jPanel8.setPreferredSize(new java.awt.Dimension(1280, 800)); jLabel11.setFont(new java.awt.Font("Arial", 1, 36)); // NOI18N jLabel11.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel11.setText("Sistema Interno"); textodeBienvenida2.setFont(new java.awt.Font("Andalus", 1, 24)); // NOI18N textodeBienvenida2.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel12.setFont(new java.awt.Font("Tahoma", 1, 14)); // NOI18N jLabel12.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel12.setText("Lista de avisos de pacientes a revisar"); jScrollPane4.setHorizontalScrollBarPolicy(javax.swing.ScrollPaneConstants.HORIZONTAL_SCROLLBAR_NEVER); jScrollPane4.setPreferredSize(new java.awt.Dimension(908, 195)); jPanel9.setPreferredSize(new java.awt.Dimension(908, 215)); javax.swing.GroupLayout jPanel9Layout = new javax.swing.GroupLayout(jPanel9); jPanel9.setLayout(jPanel9Layout); jPanel9Layout.setHorizontalGroup( jPanel9Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGap(0, 908, Short.MAX_VALUE) ); jPanel9Layout.setVerticalGroup( jPanel9Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGap(0, 215, Short.MAX_VALUE) ); jScrollPane4.setViewportView(jPanel9); jLabel13.setFont(new java.awt.Font("Tahoma", 0, 14)); // NOI18N jLabel13.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel13.setText("Menu principal"); jLabel14.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel14.setText("Realizar reporte de enfermeria"); jLabel15.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel15.setText("Consultar historial clinico del paciente"); jButton5.setIcon(new javax.swing.ImageIcon(getClass().getResource("/Vistas/imagenes/informe.png"))); // NOI18N jButton5.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jButton5ActionPerformed(evt); } }); jButton6.setIcon(new javax.swing.ImageIcon(getClass().getResource("/Vistas/imagenes/historialclinico.jpg"))); // NOI18N jButton6.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jButton6ActionPerformed(evt); } }); jLabel2.setFont(new java.awt.Font("Tahoma", 1, 14)); // NOI18N jLabel2.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel2.setText("Lista de sugerencias"); jScrollPane2.setHorizontalScrollBarPolicy(javax.swing.ScrollPaneConstants.HORIZONTAL_SCROLLBAR_NEVER); javax.swing.GroupLayout jPanel5Layout = new javax.swing.GroupLayout(jPanel5); jPanel5.setLayout(jPanel5Layout); jPanel5Layout.setHorizontalGroup( jPanel5Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGap(0, 311, Short.MAX_VALUE) ); jPanel5Layout.setVerticalGroup( jPanel5Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGap(0, 387, Short.MAX_VALUE) ); jScrollPane2.setViewportView(jPanel5); jLabel7.setFont(new java.awt.Font("Tahoma", 1, 14)); // NOI18N jLabel7.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel7.setText("Calendario"); jCalendar1.setMaximumSize(new java.awt.Dimension(184, 157)); jCalendar1.setMinimumSize(new java.awt.Dimension(1, 1)); jButton7.setFont(new java.awt.Font("Tahoma", 0, 9)); // NOI18N jButton7.setText("Consultar evento"); jButton7.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jButton7ActionPerformed(evt); } }); jButton4.setIcon(new javax.swing.ImageIcon(getClass().getResource("/Vistas/imagenes/organizarEnfermeria.jpg"))); // NOI18N jButton4.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jButton4ActionPerformed(evt); } }); jLabel8.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel8.setText("Organizar Evento en calendario."); botonRealizarInterconsulta.setText("Realizar sugerencia"); botonRealizarInterconsulta.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { botonRealizarInterconsultaActionPerformed(evt); } }); javax.swing.GroupLayout jPanel8Layout = new javax.swing.GroupLayout(jPanel8); jPanel8.setLayout(jPanel8Layout); jPanel8Layout.setHorizontalGroup( jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel11, javax.swing.GroupLayout.PREFERRED_SIZE, 1070, javax.swing.GroupLayout.PREFERRED_SIZE) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(4, 4, 4) .addComponent(textodeBienvenida2, javax.swing.GroupLayout.PREFERRED_SIZE, 1060, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(30, 30, 30) .addComponent(jLabel12, javax.swing.GroupLayout.PREFERRED_SIZE, 670, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(10, 10, 10) .addComponent(jLabel7, javax.swing.GroupLayout.PREFERRED_SIZE, 400, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(29, 29, 29) .addComponent(jScrollPane4, javax.swing.GroupLayout.PREFERRED_SIZE, 670, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(11, 11, 11) .addComponent(jCalendar1, javax.swing.GroupLayout.PREFERRED_SIZE, 400, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(860, 860, 860) .addComponent(jButton7)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(770, 770, 770) .addComponent(jLabel2, javax.swing.GroupLayout.PREFERRED_SIZE, 305, javax.swing.GroupLayout.PREFERRED_SIZE))) .addGap(0, 0, Short.MAX_VALUE)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(4, 4, 4) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel13, javax.swing.GroupLayout.PREFERRED_SIZE, 760, javax.swing.GroupLayout.PREFERRED_SIZE) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(20, 20, 20) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addComponent(jButton5, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(66, 66, 66) .addComponent(jButton6, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(50, 50, 50) .addComponent(jButton4, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGroup(jPanel8Layout.createSequentialGroup() .addComponent(jLabel14, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(66, 66, 66) .addComponent(jLabel15, javax.swing.GroupLayout.PREFERRED_SIZE, 214, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(36, 36, 36) .addComponent(jLabel8, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE))))) .addGap(18, 18, 18) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(botonRealizarInterconsulta, javax.swing.GroupLayout.PREFERRED_SIZE, 310, javax.swing.GroupLayout.PREFERRED_SIZE) .addComponent(jScrollPane2, javax.swing.GroupLayout.PREFERRED_SIZE, 305, javax.swing.GroupLayout.PREFERRED_SIZE)) .addContainerGap(javax.swing.GroupLayout.DEFAULT_SIZE, Short.MAX_VALUE)) ); jPanel8Layout.setVerticalGroup( jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addComponent(jLabel11, javax.swing.GroupLayout.PREFERRED_SIZE, 40, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(6, 6, 6) .addComponent(textodeBienvenida2, javax.swing.GroupLayout.PREFERRED_SIZE, 19, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(5, 5, 5) .addComponent(jLabel2) .addGap(8, 8, 8) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addComponent(jLabel13) .addGap(38, 38, 38) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(5, 5, 5) .addComponent(jButton5, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE)) .addComponent(jButton6, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE) .addComponent(jButton4, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGap(11, 11, 11) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel14) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(4, 4, 4) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel15) .addComponent(jLabel8))))) .addComponent(jScrollPane2, javax.swing.GroupLayout.PREFERRED_SIZE, 389, javax.swing.GroupLayout.PREFERRED_SIZE)) .addPreferredGap(javax.swing.LayoutStyle.ComponentPlacement.RELATED) .addComponent(botonRealizarInterconsulta) .addGap(7, 7, 7) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel12) .addComponent(jLabel7)) .addGap(3, 3, 3) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(1, 1, 1) .addComponent(jScrollPane4, javax.swing.GroupLayout.PREFERRED_SIZE, 210, javax.swing.GroupLayout.PREFERRED_SIZE)) .addComponent(jCalendar1, javax.swing.GroupLayout.PREFERRED_SIZE, 222, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGap(8, 8, 8) .addComponent(jButton7, javax.swing.GroupLayout.PREFERRED_SIZE, 30, javax.swing.GroupLayout.PREFERRED_SIZE)) ); jMenu1.setText("Menu"); jMenuItem7.setText("Cerrar Sesion"); jMenuItem7.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jMenuItem7ActionPerformed(evt); } }); jMenu1.add(jMenuItem7); jMenuBar1.add(jMenu1); setJMenuBar(jMenuBar1); javax.swing.GroupLayout layout = new javax.swing.GroupLayout(getContentPane()); getContentPane().setLayout(layout); layout.setHorizontalGroup( layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jPanel8, javax.swing.GroupLayout.DEFAULT_SIZE, 1110, Short.MAX_VALUE) ); layout.setVerticalGroup( layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(layout.createSequentialGroup() .addComponent(jPanel8, javax.swing.GroupLayout.PREFERRED_SIZE, javax.swing.GroupLayout.DEFAULT_SIZE, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(0, 8, Short.MAX_VALUE)) ); pack(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public Form() {\n initComponents();\n }", "public MainForm() {\n initComponents();\n }", "public MainForm() {\n initComponents();\n }", "public MainForm() {\n initComponents();\n }", "public frmRectangulo() {\n initComponents();\n }", "public form() {\n ...	[ "0.7321342", "0.7292121", "0.7292121", "0.7292121", "0.72863305", "0.7249828", "0.7213628", "0.7209084", "0.7197292", "0.71912086", "0.7185135", "0.7159969", "0.7148876", "0.70944786", "0.70817256", "0.7057678", "0.69884527", "0.69786763", "0.69555986", "0.69548863", "0.69453...	0.0	-1
hasa Launch the application.	public static void main(String[] args) { EventQueue.invokeLater(new Runnable() { public void run() { try { AtmLogin frame = new AtmLogin(); frame.setVisible(true); } catch (Exception e) { e.printStackTrace(); } } }); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "void launchApp();", "public static void main(String[] args) \r\n\t {\r\n\t\tApplication.launch(args);\r\n\t }", "void launch();", "void launch();", "void launch();", "public static void main(String[] args) {\n\t\t\n\t\tApplication.launch(args);\n\t\t\n\t\t\n\t\t\n\n\t}", "public static void main(String...	[ "0.8138296", "0.7401657", "0.7313135", "0.7313135", "0.7313135", "0.73116744", "0.7288523", "0.72311825", "0.7189435", "0.71800053", "0.71800053", "0.71480554", "0.7107671", "0.7107671", "0.7107671", "0.7094954", "0.70776993", "0.7022026", "0.69748455", "0.69666046", "0.69051...	0.0	-1
Default constructor for objects of class PersonWithZip	public PersonWithZip(String firstName, String lastName, int zipCode) { this.firstName = firstName; this.lastName = lastName; this.zipCode = zipCode; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private ZipCodes() {}", "public /* synthetic */ Employee(Integer num, String str, String str2, String str3, int i, DefaultConstructorMarker defaultConstructorMarker) {\n this((i & 1) != 0 ? null : num, (i & 2) != 0 ? null : str, (i & 4) != 0 ? null : str2, (i & 8) != 0 ? null : str3);\n }", "public A...	[ "0.62724674", "0.6058396", "0.59817904", "0.5911467", "0.58130854", "0.5639886", "0.55438197", "0.55321735", "0.54999006", "0.54627275", "0.5456735", "0.5435577", "0.5365916", "0.5361765", "0.5359376", "0.53397495", "0.53315836", "0.5317366", "0.5314967", "0.5302169", "0.5301...	0.7746075	0
public, private, protected, default	public static void main(String[] args) { Scope obj = new Scope(); obj.test1(); obj.test2(); Scope.test2(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private Default()\n {}", "private Public() {\n super(\"public\", null);\n }", "private stendhal() {\n\t}", "public static void main(String[] args) {\n ClassDefault claseDefault = new ClassDefault(\"hola\");\n claseDefault.setAttrPrivate(\"Modigficado atrr privado\");\n S...	[ "0.70222855", "0.67293847", "0.67007345", "0.6445357", "0.6434178", "0.6374214", "0.6374214", "0.6281644", "0.6163077", "0.6152848", "0.61501396", "0.61044836", "0.6083276", "0.5985646", "0.5978308", "0.5962879", "0.59581023", "0.5949553", "0.59405863", "0.59375966", "0.59122...	0.0	-1
What happens if I uncomment this?	@Override public boolean equals(Object obj) { if (super.equals(obj)) return true; if (!obj.getClass().equals(this.getClass())) return false; Point p = (Point) obj; if ((this.x == p.x) && (this.y == p.y)) { return true; } return false; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public final void mo51373a() {\n }", "private void m50366E() {\n }", "public final void mo91715d() {\n }", "@Override\n\tpublic void sacrifier() {\n\t\t\n\t}", "public boolean method_4132() {\n return false;\n }", "public boolean method_2453() {\r\n return false;\r\n }", "pub...	[ "0.69371724", "0.67744094", "0.67652553", "0.6717996", "0.66980207", "0.6696502", "0.66506755", "0.6650032", "0.6641723", "0.65978765", "0.6596692", "0.657968", "0.6575881", "0.65110713", "0.64943236", "0.6482621", "0.6463863", "0.6462292", "0.64187443", "0.64019626", "0.6395...	0.0	-1
Provides a synchronous method of connecting to a server	public void connect();	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static void doConnect() {\r\n\t\tlogger.info(\"Connecting to server......\");\r\n\t\tChannelFuture future = null;\r\n\t\ttry {\r\n\t\t\tfuture = bootstrap.connect(new InetSocketAddress(host, port));\r\n\t\t\tfuture.addListener(channelFutureListener);\r\n\r\n\t\t} catch (Exception e) {\r\n\t\t\te.printStackT...	[ "0.6853442", "0.67947346", "0.6767561", "0.65208256", "0.6494176", "0.63263386", "0.6256023", "0.6243111", "0.6232915", "0.620291", "0.61955047", "0.6152016", "0.6122587", "0.6101149", "0.6094804", "0.60908014", "0.6083017", "0.60704833", "0.60643893", "0.6032996", "0.5991671...	0.59366494	29
Disconnects the user from the server	public void disconnect();	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "void onDisconnect(User user);", "public void disconnectUser(User user) {\n connect();\n\n try {\n doStream.writeUTF(\"DISCONNECT\");\n doStream.writeUTF(user.getUserName());\n } catch (IOException e) {\n e.printStackTrace();\n }\n\n disconnect()...	[ "0.7844574", "0.7474776", "0.74110466", "0.73744607", "0.7225879", "0.72018456", "0.717484", "0.7073774", "0.69697934", "0.6962878", "0.69394284", "0.6935819", "0.6922965", "0.6907675", "0.6902322", "0.6889131", "0.68588924", "0.6854834", "0.68214613", "0.6799853", "0.6760999...	0.662966	37
Is null. Test if the list L is null.	protected static <C> boolean isNull(LIST<C> L) { if ( L == null \|\| L.list == null ) { return true; } return false; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> boolean isEmpty(LIST<C> L) {\n if ( isNull( L ) \|\| L.list.isEmpty() ) {\n return true;\n }\n if ( L.iter != null ) {\n return ! L.iter.hasNext();\n }\n return false;\n }", "public boolean checkListNull() {\n\t\treturn ((drawerItems == null) ? tru...	[ "0.7143222", "0.64819425", "0.64312476", "0.6243514", "0.6216216", "0.6211726", "0.60178304", "0.5992227", "0.596381", "0.59514886", "0.59409064", "0.5923334", "0.5904397", "0.5821576", "0.5809719", "0.5770501", "0.5770501", "0.5754592", "0.57461315", "0.57264525", "0.5718357...	0.8266369	0
Is empty. Test if the list L is empty.	public static <C> boolean isEmpty(LIST<C> L) { if ( isNull( L ) \|\| L.list.isEmpty() ) { return true; } if ( L.iter != null ) { return ! L.iter.hasNext(); } return false; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public boolean empty() {\n\t\treturn list.size() == 0;\n\t}", "public boolean isEmpty() {\r\n\t\treturn al.listSize == 0;\r\n\t}", "public boolean isEmpty() {\n\t\tif (l.getHead() == null)\n\t\t\treturn true;\n\t\telse\n\t\t\treturn false;\n\t}", "@Override\n\tpublic boolean isEmpty() {\n\t\treturn list.isEm...	[ "0.7741785", "0.7646552", "0.7598765", "0.7560948", "0.7560948", "0.75468314", "0.7525958", "0.7483644", "0.74823105", "0.74795204", "0.74503225", "0.7440221", "0.7438049", "0.73805964", "0.7375598", "0.73694396", "0.7368101", "0.73575157", "0.73570913", "0.73436725", "0.7321...	0.82103825	0
Length. L is a list. Returns length(L).	public static <C> int LENGTH(LIST<C> L) { if ( isNull( L ) ) { return 0; } return L.list.size(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public int length() {\n int ret_val = 1;\n LinkedList i = this;\n\n while (i.next != null) {\n i = i.next;\n ret_val++;\n }\n return ret_val;\n }", "public int length()\n {\n if(integerList == null)\n return 0;\n else\n ...	[ "0.7560005", "0.7465551", "0.722733", "0.71681535", "0.71616167", "0.71373314", "0.711873", "0.70766425", "0.70754635", "0.6964959", "0.6963664", "0.68816614", "0.6876111", "0.68549615", "0.68470615", "0.6800773", "0.67994434", "0.67808616", "0.6750099", "0.6745024", "0.67280...	0.83824116	0
First. L is a nonnull list. a is the first element of L.	public static <C> C FIRST(LIST<C> L) { if ( isNull( L ) ) { return null; } if ( L.iter != null ) { if ( L.iter.hasNext() ) { return L.iter.next(); } else { L.iter = null; return null; } } return L.list.getFirst(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> void SFIRST(LIST<C> L, C a) {\n if ( ! isNull( L ) ) {\n L.list.set(0,a);\n }\n }", "public A getFirst() { return first; }", "public static <T> T getFirst(List<T> list) {\n\t\treturn list != null && !list.isEmpty() ? list.get(0) : null;\n\t}", "protected T getFi...	[ "0.7846548", "0.68014914", "0.6682725", "0.651607", "0.64689815", "0.6391207", "0.63318765", "0.62992615", "0.6250293", "0.62256515", "0.6216466", "0.618322", "0.6130841", "0.6099694", "0.60825443", "0.60598195", "0.603255", "0.6020179", "0.59836674", "0.5973045", "0.59713507...	0.73293406	1
Reductum. L is a nonnull list. Returns the reductum of L.	public static <C> LIST<C> RED(LIST<C> L) { if ( isNull( L ) ) { return L; } LIST<C> LP = L; // ok: LP = new LIST<C>( L.list.subList(1,L.list.size()) ); if ( L.iter == null ) { LP = new LIST<C>( L.list ); LP.iter = LP.list.iterator(); C x = LP.iter.next(); //System.out.println("x = " + x); } // else noop return LP; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static IntList incrListR(IntList L, int x) {\n if (L == null) {\n return null;\n }\n //each recursive run will create a new IntList until L.rest.rest.rest... = null meaning reaching the last item in\n //the original list\n return new IntList(L.first + x, incrLis...	[ "0.56394637", "0.5558543", "0.55196357", "0.52432096", "0.5226929", "0.5212463", "0.51823825", "0.5172757", "0.5156533", "0.51019496", "0.5070165", "0.5063125", "0.5063125", "0.5021543", "0.5001901", "0.49995425", "0.49880746", "0.49601316", "0.49587783", "0.4945828", "0.4921...	0.544393	3
Set first. L is a nonnull list. a is a list. The first element of L is changed to a.	public static <C> void SFIRST(LIST<C> L, C a) { if ( ! isNull( L ) ) { L.list.set(0,a); } }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void addFirst(Comparable o){\n\t\t head=new ListElement(o,head);\n\t }", "@Override\r\n\t\tpublic E setFirst(E first) {\n\t\t\treturn pair.setFirst(first);\r\n\t\t}", "public void addFirst(T t) {\n if (size == elements.length) // checks potential overflow\n ensureCapacity(); // inc...	[ "0.62781423", "0.6132157", "0.6093037", "0.6055526", "0.6041971", "0.5942738", "0.59338295", "0.591775", "0.5865389", "0.5807783", "0.57773554", "0.57515025", "0.5741566", "0.57402855", "0.5728336", "0.57217056", "0.56890744", "0.56616724", "0.5657371", "0.5549167", "0.552764...	0.8328525	0
Set reductum. L is a nonnull list. LP is a list. The reductum of L is changed to LP.	public static <C> void SRED(LIST<C> L, LIST<C> LP) { if ( ! isNull( L ) ) { L.list.subList(1,L.list.size()).clear(); if ( ! isEmpty( LP ) ) { L.list.addAll( LP.list ); } } }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "static void opration(){ \n System.out.println(\"Final veriable value l:\"+l+\"\\nj:\"+j);\n // l=l+2; erorr it can't change it's value\n \n }", "public static IntList dincrList(IntList L, int x) { //iteratively\n /* Your code here. */\n IntList p = L;\n ...	[ "0.5922759", "0.585279", "0.57712793", "0.5437019", "0.54314846", "0.53938997", "0.53141844", "0.5282478", "0.5275923", "0.523078", "0.5199114", "0.5195297", "0.5170128", "0.5159032", "0.5138073", "0.5137042", "0.5126499", "0.5094191", "0.50859815", "0.5068944", "0.50663465",...	0.62285423	0
Composition. a is an object. L is a list. Returns the composition of a and L.	public static <C> LIST<C> COMP(C a, LIST<C> L) { LIST<C> LP = L; if ( L == null ) { LP = new LIST<C>(); } LP.list.addFirst( a ); return LP; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "T compose(AbsonObject abson);", "public static <C> LIST<C> COMP3(C a, C b, C c, LIST<C> L) {\n LIST<C> LP = L;\n if ( L == null ) {\n LP = new LIST<C>();\n }\n LP.list.addFirst( c );\n LP.list.addFirst( b );\n LP.list.addFirst( a );\n return LP;\n }",...	[ "0.6243726", "0.58172107", "0.5556377", "0.5490528", "0.52791566", "0.5025056", "0.4994038", "0.4918212", "0.4918212", "0.49003032", "0.48715198", "0.48396274", "0.48327363", "0.48236364", "0.47565156", "0.47477186", "0.46774486", "0.46326098", "0.46198252", "0.46181813", "0....	0.5914617	1
Reductum. A is a list. i is a nonnegative betainteger not less than LENGTH(A). B=A, if i=0. Otherwise, B is the ith reductum of A.	public static <C> LIST<C> REDUCT(LIST<C> L, int i) { LIST<C> LP = null; if ( ! isNull( L ) ) { LP = new LIST<C>( L.list.subList(i,L.list.size()) ); } return LP; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public ArrayList<Integer> repeatedNumber(final List<Integer> a) {\n long sum = 0, ssum = 0;\n for(int i = 0 ; i < a.size(); i++){\n long curi = i+1; // importnt to prevent overflow.\n long curn = a.get(i); // importnt to prevent overflow.\n sum += curn - curi;\n ...	[ "0.6037224", "0.54052216", "0.53711635", "0.5364657", "0.5350913", "0.5340524", "0.5289646", "0.5247846", "0.5184684", "0.5115846", "0.509741", "0.5080157", "0.50783485", "0.4998411", "0.49600595", "0.48838308", "0.48704815", "0.48451123", "0.4824658", "0.48144388", "0.479777...	0.5256041	7
Reductum 2. L is a list of length 2 or more. LP=RED(RED(L)).	public static <C> LIST<C> RED2(LIST<C> L, int i) { LIST<C> LP = null; if ( ! isNull( L ) ) { LP = new LIST<C>( L.list.subList(2,L.list.size()) ); } return LP; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> LIST<C> RED(LIST<C> L) {\n if ( isNull( L ) ) {\n return L;\n }\n LIST<C> LP = L;\n // ok: LP = new LIST<C>( L.list.subList(1,L.list.size()) );\n if ( L.iter == null ) {\n LP = new LIST<C>( L.list );\n LP.iter = LP.list.iterator();\n ...	[ "0.6483622", "0.62686694", "0.6068899", "0.5727168", "0.5691414", "0.5511055", "0.54217637", "0.53945816", "0.53456753", "0.526925", "0.5266473", "0.52168024", "0.52168024", "0.52144957", "0.5169757", "0.51426494", "0.5140016", "0.51361877", "0.51347154", "0.51258534", "0.512...	0.67684364	0
Reductum 3. L is a list of length 3 or more. M is the third reductum of L.	public static <C> LIST<C> RED3(LIST<C> L, int i) { LIST<C> LP = null; if ( ! isNull( L ) ) { LP = new LIST<C>( L.list.subList(3,L.list.size()) ); } return LP; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static int stepThree(ArrayList<Integer> list) {\n\t\t\n\t\tint sum = 0;\n\t\tint passNumber = 0;\n\t\t\n\t\t//iterate through arraylist from right to left\n\t\tfor(int i = list.size()-1; i >= 0; i--) {\n\n\t\t\tint num = list.get(i);\n\t\t\tpassNumber++;\n\t\t\t\n\t\t\t//sum every other number beginning wit...	[ "0.5882034", "0.56357807", "0.55846566", "0.55714077", "0.55136466", "0.5422189", "0.5341031", "0.5320821", "0.5303391", "0.52888006", "0.52437246", "0.5215795", "0.52127576", "0.52093107", "0.51563114", "0.51339304", "0.509821", "0.5068483", "0.50513566", "0.5045004", "0.504...	0.555088	4
Reductum 4. L is a list of length 4 or more. M is the fourth reductum of L.	public static <C> LIST<C> RED4(LIST<C> L, int i) { LIST<C> LP = null; if ( ! isNull( L ) ) { LP = new LIST<C>( L.list.subList(42,L.list.size()) ); } return LP; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "protected void reduce4( T mrt ) {\n // Reduce any AppendableVecs\n if( _noutputs > 0 )\n for( int i=0; i<_appendables.length; i++ )\n _appendables[i].reduce(mrt._appendables[i]);\n // User's reduction\n reduce(mrt);\n }", "int main()\n{\n int n;\n cin >>n;\n int m = 11;\n for(int i=0...	[ "0.5725322", "0.57090926", "0.57021654", "0.55133796", "0.53472257", "0.5310767", "0.5152118", "0.5141349", "0.5138144", "0.51298445", "0.51206523", "0.51042825", "0.5085492", "0.5072985", "0.50682867", "0.5031558", "0.49809492", "0.49793038", "0.49735427", "0.49231872", "0.4...	0.5091785	12
Clock. Returns the current CPU clock reading in milliseconds. Intervalls are system dependent.	public static long CLOCK() { return java.lang.System.currentTimeMillis(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public double readClock()\n {\n return (System.currentTimeMillis() - startingTime) / 1000.0;\n }", "public double readClock()\n {\n\tif (frameByFrameClock) {\n\t return frameNumber * (1/30.0f);\n\t} else {\n\t long elapsed;\n\t \n\t if (drawAnimation.value) {\n\t\t// Time during anima...	[ "0.77281773", "0.7401253", "0.7107181", "0.6964717", "0.6919307", "0.6744156", "0.6633479", "0.6542255", "0.64850104", "0.6453351", "0.64501506", "0.64179105", "0.63931465", "0.63151205", "0.63001776", "0.6296023", "0.6253491", "0.6240508", "0.62323755", "0.62320787", "0.6213...	0.7682375	1
List element. A is a list. 1 le i le LENGTH(A). a is the ith element of A.	public static <C> C LELT(LIST<C> L, int i) { C x = null; if ( ! isNull( L ) ) { x = L.list.get(i); } return x; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private static void retriveElementInArrayList() {\n\t\tLinkedList<Integer> list = new LinkedList<Integer>();\n\t\tlist.add(10);\n\t\tlist.add(20);\n\t\tlist.add(30);\n\t\tlist.add(40);\n\t\tlist.add(50);\n\t\tSystem.out.println(\"LinkedList is : \" + list);\n\t\tSystem.out.println(list.get(3));\n\n\t}", "public ...	[ "0.6294271", "0.6247621", "0.6237301", "0.60004824", "0.6000365", "0.59417504", "0.5785549", "0.5678938", "0.56644505", "0.5589501", "0.5437808", "0.53843784", "0.5364543", "0.53418666", "0.53300136", "0.53241336", "0.53114736", "0.52887255", "0.5262357", "0.525275", "0.52441...	0.0	-1
Second. L is a list of length 2 or more. a is the second element of L.	public static <C> C SECOND(LIST<C> L) { C x = null; if ( ! isNull( L ) ) { x = L.list.get(2); } return x; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> void SFIRST(LIST<C> L, C a) {\n if ( ! isNull( L ) ) {\n L.list.set(0,a);\n }\n }", "public static <C> LIST<C> LIST2(C a, C b) {\n LIST<C> L = new LIST<C>();\n L.list.addFirst( b );\n L.list.addFirst( a );\n return L;\n }", "public No...	[ "0.6153564", "0.5994707", "0.5694097", "0.5685094", "0.5677983", "0.56449807", "0.5499404", "0.54988337", "0.5491624", "0.53914577", "0.53880346", "0.53349257", "0.53230995", "0.52917874", "0.52526295", "0.52371174", "0.52371174", "0.51902723", "0.5175224", "0.5161644", "0.51...	0.68171346	0
Third. L is a list of length 3 or more. a is the third element of L.	public static <C> C THIRD(LIST<C> L) { C x = null; if ( ! isNull( L ) ) { x = L.list.get(3); } return x; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> LIST<C> LIST3(C a, C b, C c) {\n LIST<C> L = new LIST<C>();\n L.list.addFirst( c );\n L.list.addFirst( b );\n L.list.addFirst( a );\n return L;\n }", "public static <C> LIST<C> RED3(LIST<C> L, int i) {\n LIST<C> LP = null;\n if ( ! isNull( L )...	[ "0.648155", "0.6417614", "0.6026944", "0.594748", "0.58115107", "0.57039595", "0.567752", "0.56734467", "0.5653802", "0.5532257", "0.5527946", "0.5475109", "0.54111236", "0.53862464", "0.53478974", "0.5316013", "0.5275119", "0.52714425", "0.52713686", "0.5262269", "0.5242195"...	0.6768725	0
Fourth. L is a list of length 4 or more. a is the fourth element of L.	public static <C> C FOURTH(LIST<C> L) { C x = null; if ( ! isNull( L ) ) { x = L.list.get(4); } return x; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> LIST<C> LIST4(C a, C b, C c, C d) {\n LIST<C> L = new LIST<C>();\n L.list.addFirst( d );\n L.list.addFirst( c );\n L.list.addFirst( b );\n L.list.addFirst( a );\n return L;\n }", "public static void m4(ArrayList<? super Integer> al)\n\t{\n\t\t//al.ad...	[ "0.6361381", "0.5953475", "0.58533424", "0.5747742", "0.56943446", "0.56608933", "0.5648718", "0.56334627", "0.5307459", "0.5242253", "0.5235607", "0.52091426", "0.51670134", "0.512797", "0.50844395", "0.5076924", "0.5070704", "0.50634724", "0.504553", "0.50155795", "0.499819...	0.6264394	1
Constructive concatenation. L1 and L2 are lists. L is the concatenation of L1 and L2. The list L is constructed.	public static <C> LIST<C> CCONC(LIST<C> L1, LIST<C> L2) { if ( isNull( L1 ) ) { return L2; } if ( isNull( L2 ) ) { return L1; } LinkedList<C> list = new LinkedList<C>( L1.list ); list.addAll( L2.list ); return new LIST<C>( list ); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "static List<StateRef> append(List<StateRef> l1, List<StateRef> l2) {\n l1.addAll(l2);\n return l1;\n }", "public static <C> LIST<C> CONC(LIST<C> L1, LIST<C> L2) {\n if ( isNull( L1 ) ) {\n return L2;\n }\n if ( isNull( L2 ) ) {\n return L1;\n }\n ...	[ "0.69484395", "0.6859995", "0.64343953", "0.63054436", "0.61534774", "0.6002471", "0.59152395", "0.58914375", "0.58914375", "0.5888656", "0.58396935", "0.5703513", "0.5699124", "0.56711274", "0.5581037", "0.5572743", "0.55308497", "0.5464244", "0.5456919", "0.5446202", "0.543...	0.6505443	2
Constructive inverse. L is a list. M=INV(L). M is constructed using COMP.	public static <C> LIST<C> CINV(LIST<C> L) { if ( isNull( L ) ) { return L; } LinkedList<C> list = new LinkedList<C>(L.list); Collections.reverse( list ); return new LIST<C>( list ); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> LIST<C> INV(LIST<C> L) {\n if ( isNull( L ) ) {\n return L;\n }\n Collections.reverse( L.list );\n return L;\n }", "public Matrix inverse() {\n int n = L.getNrows();\n Matrix inv = Matrix.identity(n);\n solve(inv);\n return in...	[ "0.6835238", "0.6669466", "0.63580745", "0.6350922", "0.6093458", "0.5946079", "0.5832552", "0.58227986", "0.57891285", "0.5761281", "0.57512665", "0.57275313", "0.5674034", "0.56292635", "0.55051655", "0.5472056", "0.5444921", "0.544134", "0.54335636", "0.5396351", "0.538208...	0.71771574	0
Inverse. L is a list. The inverse of L is returned. The list L is modified.	public static <C> LIST<C> INV(LIST<C> L) { if ( isNull( L ) ) { return L; } Collections.reverse( L.list ); return L; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public Matrix inverse() {\n int n = L.getNrows();\n Matrix inv = Matrix.identity(n);\n solve(inv);\n return inv;\n }", "public Matrix inverse() {\n\t\tMatrix a = copy();\n\t\tif (a.M != a.N) {\n\t\t\tthrow new RuntimeException(\"This matrix is not square!\");\n\t\t}\n\t\tMatrix i =...	[ "0.7564506", "0.6757969", "0.67244816", "0.64072543", "0.63701767", "0.6134623", "0.6091005", "0.59330726", "0.59237045", "0.59163076", "0.59013665", "0.5878698", "0.58578986", "0.58323085", "0.58096194", "0.5794093", "0.57905334", "0.57629704", "0.5736586", "0.56793", "0.567...	0.7188756	1
Composition 2. a and b are objects. L is a list. M=COMP(a,COMP(b,L)).	public static <C> LIST<C> COMP2(C a, C b, LIST<C> L) { LIST<C> LP = L; if ( L == null ) { LP = new LIST<C>(); } LP.list.addFirst( b ); LP.list.addFirst( a ); return LP; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> LIST<C> COMP3(C a, C b, C c, LIST<C> L) {\n LIST<C> LP = L;\n if ( L == null ) {\n LP = new LIST<C>();\n }\n LP.list.addFirst( c );\n LP.list.addFirst( b );\n LP.list.addFirst( a );\n return LP;\n }", "public static <C> LIST<C> COMP(...	[ "0.6101663", "0.6070566", "0.5877071", "0.5872279", "0.5499033", "0.5468141", "0.5381728", "0.5342602", "0.52525645", "0.5249411", "0.5186162", "0.51689583", "0.5099442", "0.50707626", "0.5041345", "0.5030202", "0.5023685", "0.5000756", "0.49871615", "0.49679995", "0.4967619"...	0.6768915	0
Composition 3. a1, a2 and a3 are objects. L is a list. M=COMP(a1,COMP(a2,COMP(a3,L))).	public static <C> LIST<C> COMP3(C a, C b, C c, LIST<C> L) { LIST<C> LP = L; if ( L == null ) { LP = new LIST<C>(); } LP.list.addFirst( c ); LP.list.addFirst( b ); LP.list.addFirst( a ); return LP; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> LIST<C> COMP3(C a, C b, C c, C d, LIST<C> L) {\n LIST<C> LP = L;\n if ( L == null ) {\n LP = new LIST<C>();\n }\n LP.list.addFirst( d );\n LP.list.addFirst( c );\n LP.list.addFirst( b );\n LP.list.addFirst( a );\n return LP;\n }...	[ "0.6334946", "0.5670821", "0.5169463", "0.50813574", "0.50300276", "0.50034386", "0.49219579", "0.48779383", "0.4876558", "0.48477435", "0.48330453", "0.47945538", "0.47922415", "0.47652495", "0.47227395", "0.47074777", "0.46889466", "0.46507242", "0.46479303", "0.46464252", ...	0.65274453	0
Composition 4. a1, a2, a3 and a4 are objects. L is a list. M=COMP(a1,COMP(a2,COMP(a3,COMP(a4,l)))).	public static <C> LIST<C> COMP3(C a, C b, C c, C d, LIST<C> L) { LIST<C> LP = L; if ( L == null ) { LP = new LIST<C>(); } LP.list.addFirst( d ); LP.list.addFirst( c ); LP.list.addFirst( b ); LP.list.addFirst( a ); return LP; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "T compose(AbsonObject abson);", "static void m11180a(List<Component<?>> list) {\n Set<C3246b> c = m11182c(list);\n Set<C3246b> b = m11181b(c);\n int i = 0;\n while (!b.isEmpty()) {\n C3246b next = b.iterator().next();\n b.remove(next);\n i++;\n ...	[ "0.5363483", "0.5201708", "0.5178615", "0.49331474", "0.48113453", "0.4809156", "0.48059472", "0.47542253", "0.47213256", "0.46850678", "0.46812648", "0.46792457", "0.46697402", "0.4624743", "0.46167877", "0.46139616", "0.4608819", "0.4588922", "0.4582169", "0.4571173", "0.45...	0.59165955	0
Concatenation. L1 and L2 are lists. L=CONC(L1,L2). The list L1 is modified.	public static <C> LIST<C> CONC(LIST<C> L1, LIST<C> L2) { if ( isNull( L1 ) ) { return L2; } if ( isNull( L2 ) ) { return L1; } L1.list.addAll( L2.list ); return L1; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> LIST<C> CCONC(LIST<C> L1, LIST<C> L2) {\n if ( isNull( L1 ) ) {\n return L2;\n }\n if ( isNull( L2 ) ) {\n return L1;\n }\n LinkedList<C> list = new LinkedList<C>( L1.list );\n list.addAll( L2.list );\n return new LIST<C>( list ...	[ "0.7436265", "0.5783339", "0.57699883", "0.56459516", "0.56148434", "0.55010927", "0.52782834", "0.5272584", "0.526601", "0.5257537", "0.5253442", "0.51780933", "0.5172641", "0.5140439", "0.5118318", "0.5056666", "0.5039516", "0.50333786", "0.50333786", "0.5033124", "0.500409...	0.71113074	1
Equal. a and b are objects. t=true if a and b are equal and otherwise t=false.	public static <C> boolean EQUAL(LIST<C> L1, LIST<C> L2) { if ( isNull( L1 ) ) { return isNull(L2); } if ( isNull( L2 ) ) { return isNull(L1); } return L1.list.equals( L2.list ); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private static final boolean equal(Object a, Object b) {\n if (a == b)\n return true;\n if (a == null)\n return false;\n if (b == null)\n return false;\n return a.equals(b);\n }", "public static boolean equal(Object a, Object b) {\r\n\t\tif (a == b)...	[ "0.747396", "0.7235944", "0.7174194", "0.71322244", "0.7020478", "0.6928014", "0.68555593", "0.6772668", "0.6768714", "0.6721156", "0.67174655", "0.6701181", "0.6665632", "0.66653264", "0.6663617", "0.6662005", "0.661443", "0.6594803", "0.6591346", "0.65650266", "0.6562761", ...	0.0	-1
Extent. L is a list. n the number of cells of L.	public static <C> int EXTENT(LIST<C> L) { if ( isNull( L ) ) { return 0; } int n = 0; for ( C a : L.list ) { if ( a instanceof LIST ) { LIST<C> LP = null; try { LP = (LIST<C>) a; } catch(ClassCastException e) { } if ( isNull( LP ) ) { n++; } else { n += EXTENT( LP ); } } else { n++; } } return n; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void setExtent(int n) {\r\n\r\n int newExtent = Math.max(0, n);\r\n int value = getValue();\r\n if (value + newExtent > max) {\r\n\r\n newExtent = max - value;\r\n\r\n }\r\n setRangeProperties(value, newExtent, min, max, isAdjusting);\r\n }", "private stati...	[ "0.59436387", "0.5293044", "0.51633334", "0.50700843", "0.50336885", "0.49174008", "0.49100474", "0.48886782", "0.4801832", "0.47672066", "0.4757295", "0.4749807", "0.47475857", "0.4745389", "0.47300404", "0.4727076", "0.47158173", "0.4693661", "0.46867257", "0.4682313", "0.4...	0.5172792	2
List, 1 element. a in an object. L is the list (a).	public static <C> LIST<C> LIST1(C a) { LIST<C> L = new LIST<C>(); L.list.addFirst( a ); return L; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "@Override\n\tpublic void acheter(List<Object> la) {\n\t\t\n\t}", "public List getList1(List<String> list,String a) {\n\t\tlist.add(a);\r\n\t\treturn list;\r\n\t}", "Object getTolist();", "public static <C> void SFIRST(LIST<C> L, C a) {\n if ( ! isNull( L ) ) {\n L.list.set(0,a);\n }\...	[ "0.65538204", "0.6461382", "0.6460003", "0.62225896", "0.61684614", "0.60351515", "0.60071546", "0.5977009", "0.5880128", "0.5869337", "0.5861221", "0.5856423", "0.58222497", "0.58044523", "0.5797193", "0.57728755", "0.5706885", "0.5705572", "0.56885856", "0.56837523", "0.568...	0.70726115	0
List, 10 elements. a1, a2, a3, a4, a5, a6, a7, a8, a9 and a10 are objects. L is the list (a1,a2,a3,a4,a5,a6,a7,a8,a9,a10).	public static <C> LIST<C> LIST10(C a1, C a2, C a3, C a4, C a5, C a6, C a7, C a8, C a9, C a10) { LIST<C> L = new LIST<C>(); L.list.addFirst( a10 ); L.list.addFirst( a9 ); L.list.addFirst( a8 ); L.list.addFirst( a7 ); L.list.addFirst( a6 ); L.list.addFirst( a5 ); L.list.addFirst( a4 ); L.list.addFirst( a3 ); L.list.addFirst( a2 ); L.list.addFirst( a1 ); return L; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public TiraList() {\n this.list = new Object[8];\n this.nextindex = 0;\n this.startIndex = 0;\n }", "public List()\n {\n list = new Object [10];\n }", "public ElementIterator(List l) {\n\t myList = l;\n\t }", "public static void createListFromLong(ArrayList<Inte...	[ "0.6265448", "0.61348236", "0.60693264", "0.60358584", "0.60113406", "0.6010691", "0.58563", "0.5818642", "0.5807837", "0.5804645", "0.5787764", "0.5709417", "0.5705628", "0.5705628", "0.5687511", "0.56874084", "0.5665215", "0.5630513", "0.56276304", "0.56180763", "0.5617955"...	0.67606294	0
List, 2 elements. a and b are objects. L is the list (a,b).	public static <C> LIST<C> LIST2(C a, C b) { LIST<C> L = new LIST<C>(); L.list.addFirst( b ); L.list.addFirst( a ); return L; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private static <T> List<T> pairList(T a, T b) {\n ArrayList<T> res = new ArrayList<T>();\n res.add(a);\n res.add(b);\n return res;\n }", "public static <C> LIST<C> COMP2(C a, C b, LIST<C> L) {\n LIST<C> LP = L;\n if ( L == null ) {\n LP = new LIST<C>();\n ...	[ "0.73503894", "0.650576", "0.6287755", "0.6273733", "0.6112813", "0.6078012", "0.6059259", "0.60570216", "0.5975102", "0.5974593", "0.59307414", "0.5897497", "0.58708894", "0.5801315", "0.57840234", "0.5776042", "0.5772432", "0.5772432", "0.5765626", "0.57246757", "0.570864",...	0.7197076	1
List, 3 elements. a1, a2 and a3 are objects. L=(a1,a2,a3).	public static <C> LIST<C> LIST3(C a, C b, C c) { LIST<C> L = new LIST<C>(); L.list.addFirst( c ); L.list.addFirst( b ); L.list.addFirst( a ); return L; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> LIST<C> RED3(LIST<C> L, int i) {\n LIST<C> LP = null;\n if ( ! isNull( L ) ) {\n LP = new LIST<C>( L.list.subList(3,L.list.size()) );\n }\n return LP;\n }", "public static <C> LIST<C> COMP3(C a, C b, C c, C d, LIST<C> L) {\n LIST<C> LP = L;\n ...	[ "0.6238501", "0.5927336", "0.5913764", "0.5877604", "0.5861876", "0.5698794", "0.5686152", "0.56546295", "0.56020457", "0.5569726", "0.5550479", "0.5546194", "0.55331045", "0.5527251", "0.5517762", "0.55049115", "0.5501676", "0.54699373", "0.546785", "0.545436", "0.5435255", ...	0.59710485	1
List, 4 elements. a1, a2, a3 and a4 are objects. L is the list (a1,a2,a3,a4).	public static <C> LIST<C> LIST4(C a, C b, C c, C d) { LIST<C> L = new LIST<C>(); L.list.addFirst( d ); L.list.addFirst( c ); L.list.addFirst( b ); L.list.addFirst( a ); return L; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static <C> LIST<C> RED4(LIST<C> L, int i) {\n LIST<C> LP = null;\n if ( ! isNull( L ) ) {\n LP = new LIST<C>( L.list.subList(42,L.list.size()) );\n }\n return LP;\n }", "public static <T> List<T> createList(T item1, T item2, T item3, T item4) {\n\t\tList<T> list =...	[ "0.60464853", "0.5932842", "0.5841588", "0.57861847", "0.5780979", "0.56780523", "0.56314105", "0.55900604", "0.55688936", "0.5537401", "0.552836", "0.5511499", "0.54977363", "0.5486811", "0.5463111", "0.5438943", "0.5433648", "0.53973144", "0.53771", "0.5375682", "0.5372109"...	0.6530204	0
List, 5 elements. a1,a2,a3,a4 and a5 are objects. L is the list (a1,a2,a3,a4,a5).	public static <C> LIST<C> LIST5(C a, C b, C c, C d, C e) { LIST<C> L = new LIST<C>(); L.list.addFirst( e ); L.list.addFirst( d ); L.list.addFirst( c ); L.list.addFirst( b ); L.list.addFirst( a ); return L; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "static void print5(ArrayList<? extends A> list) {\n\n\t}", "public ArrayList() {\n\t\tthis.elements = new Object[5];\n\t\tthis.last = -1;\n\t}", "public static <T> List<T> createList(T item1, T item2, T item3, T item4, T item5) {\n\t\tList<T> list = new ArrayList<T>();\n\t\tlist.add(item1);\n\t\tlist.add(item2...	[ "0.6298018", "0.5987221", "0.5957067", "0.59065515", "0.58344054", "0.5804994", "0.5763832", "0.5733914", "0.5683057", "0.562965", "0.5628671", "0.5587071", "0.55081946", "0.54463005", "0.5443719", "0.5441558", "0.54138976", "0.5410302", "0.54013634", "0.54013634", "0.5369684...	0.6432096	0
Order. L is a list. maximal depth of L.	public static <C> int ORDER(LIST<C> L) { if ( isNull( L ) ) { return 0; } int n = 0; for ( C a : L.list ) { if ( a instanceof LIST ) { LIST<C> LP = null; try { LP = (LIST<C>) a; } catch(ClassCastException e) { } if ( !isNull( LP ) ) { int o = ORDER( LP ); if ( o > n ) { // max n = o; } } } } return n+1; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static void main(String[] args){\n TreeNode root = new TreeNode(1);\n root.left = new TreeNode(2);\n root.right = new TreeNode(2);\n root.left.left = new TreeNode(6);\n root.left.right = new TreeNode(4);\n root.right.left = new TreeNode(4);\n root.right.ri...	[ "0.6379123", "0.626354", "0.6241978", "0.62338436", "0.6231334", "0.6188527", "0.617469", "0.6114486", "0.6087084", "0.60832685", "0.6072685", "0.6051304", "0.60392153", "0.60301095", "0.60198563", "0.597864", "0.5936533", "0.59087867", "0.5838491", "0.58331704", "0.5821624",...	0.7243442	0
TODO Autogenerated method stub	public static void main(String[] args) { Scanner sc = new Scanner(System.in); int n = sc.nextInt(); int arr[] = new int[n]; for(int i = 0 ; i < n ; i++) { arr[i] = sc.nextInt(); } int num = sc.nextInt(); int start = 0 , end = n-1; while(start<end) { int mid = (start + end)/2; if(arr[mid] < num) { start = mid+1; }else if(arr[mid] > num) { end = mid-1; }else if(arr[mid] == num) { System.out.println(1); return; } } System.out.println(-1); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "@Override\r\n\tpublic void comer() \r\n\t{\n\t\t\r\n\t}", "@Override\n\tpublic void comer() {\n\t\t\n\t}", "@Override\n public void perish() {\n \n }", "@Override\r\n\t\t\tpublic void annadir() {\n\r\n\t\t\t}", "@Override\n\tpublic void anular() {\n\n\t}", "@Override\n\tprotected void getExr...	[ "0.6671074", "0.6567672", "0.6523024", "0.6481211", "0.6477082", "0.64591026", "0.64127725", "0.63762105", "0.6276059", "0.6254286", "0.623686", "0.6223679", "0.6201336", "0.61950207", "0.61950207", "0.61922914", "0.6186996", "0.6173591", "0.61327106", "0.61285484", "0.608016...	0.0	-1
account reactive service with proto messages	public interface AccountService { Mono<Account> findById(Int32Value id); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "net.nyhm.protonet.example.proto.AccountProto.Account getAccount();", "net.nyhm.protonet.example.proto.AccountProto.Account getAccount();", "net.nyhm.protonet.example.proto.AccountProto.AccountOrBuilder getAccountOrBuilder();", "net.nyhm.protonet.example.proto.AccountProto.AccountOrBuilder getAccountOrBuilder...	[ "0.6756809", "0.6756809", "0.6099323", "0.6099323", "0.5877325", "0.5788913", "0.57066095", "0.5696846", "0.56912255", "0.5632148", "0.55934495", "0.55553114", "0.54836714", "0.5480304", "0.5422708", "0.5420736", "0.53967184", "0.53511053", "0.53511053", "0.53510785", "0.5343...	0.6389555	2
On create new grouped code list.	public void onCreateNewGroupedCodeList(CreateNewGroupedCodeListEvent event);	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "ch.crif_online.www.webservices.crifsoapservice.v1_00.FinancialStatement addNewFinancialStatementsGroup();", "public void markCsgListCreate() throws JNCException {\n markLeafCreate(\"csgList\");\n }", "ManageCodeListDetailModel getGroupedCodeList(String key);", "protected void insertCode(SketchCode ...	[ "0.58631074", "0.5852631", "0.5775123", "0.57570344", "0.57028836", "0.5638782", "0.55895716", "0.5543759", "0.55340207", "0.5531684", "0.54737824", "0.54436594", "0.5435627", "0.5425857", "0.53588027", "0.53580266", "0.53144455", "0.527495", "0.52603114", "0.5222885", "0.521...	0.77724934	0
Repository class for Main domain objects All method names are compliant with Spring Data naming conventions so this interface can easily be extended for Spring Data See here: jpa.repositories.htmljpa.querymethods.querycreation	public interface MainRepository { Main getMain(Main main) throws DataAccessException; void putMain(Main main) throws DataAccessException; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "@Repository\npublic interface UserRepository extends JpaRepository<User,Integer> {\n //implementation will be provided to run time\n}", "@Repository\npublic interface RepositoryMain extends CrudRepository<Roulette, Long>{\n\n}", "@Repository\npublic interface MainItemOrderedRepository extends CrudRepository...	[ "0.69902205", "0.6965019", "0.67033464", "0.665901", "0.6556525", "0.653344", "0.6518989", "0.6512587", "0.65015745", "0.6486261", "0.64713675", "0.6463939", "0.64634037", "0.64618266", "0.6443021", "0.64343065", "0.64283913", "0.6418771", "0.6418369", "0.6409615", "0.6406872...	0.72288907	0
Create a new generator.	public UniformRandomGenerator(RandomGenerator generator) { this.generator = generator; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public Generator(){}", "public JsonGenerator createGenerator(OutputStream out)\n/* / throws IOException\n/ / {\n/ 1110 / return createGenerator(out, JsonEncoding.UTF8);\n/ / }", "public JsonGenerator createGenerator(Writer w)\n/ / throws IOException\n/ */ {\...	[ "0.82688093", "0.6844001", "0.6842914", "0.67557436", "0.6710047", "0.6558444", "0.64893824", "0.64893824", "0.64893824", "0.64893824", "0.64893824", "0.64502573", "0.6383732", "0.63639903", "0.62867033", "0.616838", "0.6135685", "0.6099266", "0.6099032", "0.60609424", "0.604...	0.51749617	87
Generate a random scalar with null mean and unit standard deviation. The number generated is uniformly distributed between &sqrt;(3) and +&sqrt;(3).	public double nextNormalizedDouble() { return SQRT3 * (2 * generator.nextDouble() - 1.0); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static double uniform() {\r\n return random.nextDouble();\r\n }", "public static double uniform() {\n return random.nextDouble();\n }", "public float gaussianRandom() {\n\t\treturn (CCMath.constrain((float)nextGaussian() / 4,-1 ,1 ) + 1) / 2;\n\t}", "public static double random() {...	[ "0.67865336", "0.67642844", "0.67279464", "0.6666359", "0.6662028", "0.65746355", "0.6363786", "0.62028915", "0.61638635", "0.6127528", "0.6125472", "0.6071064", "0.6051004", "0.6048811", "0.6043657", "0.60257125", "0.6010919", "0.60023034", "0.5950551", "0.5931928", "0.59213...	0.6034058	15
Wake the sender thread upon receiving routing information for a given chunk.	protected void unlock() { synchronized ( lock ) { lock.notify(); } }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void run() {\n\t\ttry {\n\t\t\twhile (!abort) {\n\t\t\t\tlong dest = outgoingAddressBuffer.take();\n\t\t\t\tbyte[] msg = outgoingMessageBuffer.take();\n\t\t\t\tif (dest == 0) // Break signal\n\t\t\t\t{\n\t\t\t\t\tLog.d(TAG, \"Dest is 0\");\n\t\t\t\t\tbreak;\n\t\t\t\t}\n\n\t\t\t\twhile (rm.isDiscovering()) {...	[ "0.5861621", "0.53013414", "0.5300419", "0.52926695", "0.5280362", "0.52406347", "0.5207455", "0.518188", "0.51473093", "0.51407355", "0.5104282", "0.50649786", "0.50383157", "0.50107944", "0.5005783", "0.4947818", "0.49199477", "0.4906895", "0.49023122", "0.48938468", "0.487...	0.0	-1
Calling method checked for validity of routes;	protected void setRoutes(WriteFileResponse response) { routes[ response.getSequence() ] = response.getRoutingPath(); if ( ableToWrite && totalReceived.incrementAndGet() == routes.length ) { unlock(); } }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void invalidRoute() \n {\n validRoute = false;\n }", "boolean hasRoute();", "public boolean hasValidRoute() \n {\n return validRoute;\n }", "public boolean areRoutesValid() {\n return valid;\n }", "private boolean checkPermissions(HttpServletRequest request, Route...	[ "0.6874613", "0.66570973", "0.6583172", "0.65481246", "0.60401106", "0.5655919", "0.5516416", "0.54973", "0.547578", "0.54584676", "0.5439637", "0.5427005", "0.5412428", "0.5356606", "0.53479654", "0.5330235", "0.5318731", "0.5309659", "0.5306227", "0.5278017", "0.5240219", ...	0.0	-1
Iterate through the files and send them to the chunk servers a chunk at a time. A request to the controller will provide details of which servers to communicate with.	public void send(List<File> files) { SimpleDateFormat sdf = new SimpleDateFormat( "yyyy-MM-dd HH:mm:ss.SSS" ); int numberOfFiles = files.size(); LOG.info( "Started uploading " + numberOfFiles + " file(s) at " + sdf.format( System.currentTimeMillis() ) ); ConnectionUtilities connections = new ConnectionUtilities(); for ( File file : files ) { ableToWrite = true; totalReceived.set( 0 ); try ( InputStream is = new FileInputStream( file ) ) { processIndividualFile( file, is, connections ); } catch ( IOException \| ClientWriteException \| NumberFormatException e ) { LOG.error( "Unable to process the file " + file.getName() + ". " + e.getMessage() ); try { // sleep to allow stale messages to be send before reading next file TimeUnit.SECONDS.sleep( 1 ); } catch ( InterruptedException e0 ) { LOG.error( e0.getMessage() ); } --numberOfFiles; } catch ( InterruptedException e ) { LOG.error( e.getMessage() ); Thread.currentThread().interrupt(); } } LOG.info( "Finished uploading " + numberOfFiles + " file(s) at " + sdf.format( System.currentTimeMillis() ) + "\n" ); connections.setAbleToClear( true ); connections.closeCachedConnections(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "@Override\r\n\tpublic void run() {\r\n\t\t// TODO Auto-generated method stub\r\n\t\t//Get a list of pairs. The pair will be a chunkname with a chunkserver \r\n\t\t/*for(Pair<String, String> p: EventFactory.hostToFiles.getChunkLocations(message.getContent())){\r\n\t\t\tSystem.out.println(\"The location is: \" + p.g...	[ "0.6898086", "0.6591681", "0.6340665", "0.6225596", "0.6207414", "0.6201325", "0.61206824", "0.5989807", "0.5972283", "0.5919013", "0.59131473", "0.5906974", "0.587747", "0.5811016", "0.57571894", "0.5596435", "0.5565466", "0.55623925", "0.54995054", "0.54880565", "0.5462487"...	0.6423516	2
Process an individual file by traversing the chunks of bytes within. This is accomplished via the following steps: read the next chunk of the file send request to controller for details of where to write the chunk. wait for a reply from the controller the client will notify this thread connect to the first item chunk server returned by the controller, and send the data request	private void processIndividualFile(File file, InputStream is, ConnectionUtilities connections) throws IOException, InterruptedException, ClientWriteException, NumberFormatException { SimpleDateFormat sdf = new SimpleDateFormat( "yyyy-MM-dd HH:mm:ss.SSS" ); LOG.debug( "The file: " + file.getAbsolutePath() + " was last modified at " + sdf.format( file.lastModified() ) ); int filelength = ( int ) file.length(); int numberOfChunks = ( int ) Math.ceil( ( double ) filelength / Constants.CHUNK_SIZE ); routes = new String[ numberOfChunks ][]; WriteFileRequest request = new WriteFileRequest( file.getAbsolutePath(), 0, filelength, numberOfChunks ); for ( int sequence = 0; sequence < numberOfChunks; ++sequence ) { request.setSequence( sequence ); this.node.getControllerConnection().getTCPSender() .sendData( request.getBytes() ); } // wait for response from controller containing routing information. synchronized ( lock ) { lock.wait(); } if ( !ableToWrite ) { throw new ClientWriteException( "The controller has not" + " received file chunk locations for the original file yet." ); } sendWriteChunkRequest( file, is, connections, numberOfChunks ); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "@Override\r\n\tpublic void run() {\r\n\t\t// TODO Auto-generated method stub\r\n\t\t//Get a list of pairs. The pair will be a chunkname with a chunkserver \r\n\t\t/*for(Pair<String, String> p: EventFactory.hostToFiles.getChunkLocations(message.getContent())){\r\n\t\t\tSystem.out.println(\"The location is: \" + p.g...	[ "0.6385211", "0.62118596", "0.6117816", "0.60939723", "0.60930246", "0.5946223", "0.5921548", "0.5887961", "0.58732975", "0.58058554", "0.5756273", "0.57541424", "0.5733393", "0.5731499", "0.5729741", "0.57159555", "0.5701703", "0.5685239", "0.56637895", "0.56365746", "0.5633...	0.6051661	5
Send the individual chunks to only the initial destination for each chunk / fragment. The metadata is set with temporary version number ( the server will detect the difference and update if necessary )	private void sendWriteChunkRequest(File file, InputStream is, ConnectionUtilities connections, int numberOfChunks) throws NumberFormatException, IOException { byte[] message = new byte[ Constants.CHUNK_SIZE ]; ProgressBar progress = new ProgressBar( file.getName() ); WriteChunkRequest request = new WriteChunkRequest( file.getAbsolutePath(), 0, null, file.lastModified(), 1, null ); int sequence = 0, length = 0; while ( ( length = is.read( message ) ) != -1 ) { // Only send to the first connection, whom will forward the rest String[] initialConnection = routes[ sequence ][ 0 ].split( ":" ); TCPConnection connection = connections.cacheConnection( node, initialConnection, false ); // Pad elements b[k] through b[b.length-1] with zeros Arrays.fill( message, length, Constants.CHUNK_SIZE, ( byte ) 0 ); byte[][] messageToSend = new byte[][] { message }; if ( Properties.SYSTEM_DESIGN_SCHEMA .equals( Constants.SYSTEM_TYPE_ERASURE ) ) { messageToSend = ReedSolomonUtilities.encode( message ); } request.setMessage( messageToSend ); request.setRoutes( routes[ sequence ] ); request.setSequence( sequence ); connection.getTCPSender().sendData( request.getBytes() ); progress.update( sequence, numberOfChunks ); ++sequence; } }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "void sendChunkRequest(int chunkX, int chunkY);", "@Override public void onStreamUpdate(final Set<Long> updatedChunks) {\n }", "@Override\n public void finishMessageSending() {\n for (int i = 0; i < fragNum; ++i) {\n long bytesWriten = cacheOut[i].bytesWriten();\n cacheOut[i].fi...	[ "0.62546", "0.5919376", "0.58786166", "0.5836947", "0.57594585", "0.5708803", "0.56590956", "0.5625272", "0.5623952", "0.5586952", "0.5582656", "0.5490847", "0.54405445", "0.53450817", "0.53257304", "0.5280769", "0.5272249", "0.5258895", "0.5258895", "0.5258895", "0.5258895",...	0.5965999	1
This boolean holds the verdict of a whitelist condition, on checking 1 complete rule. The verdict starts at false, but can change during the loop through all rule components.	public Boolean isWhiteListed(Map<String,Object> alertFieldsAndValues) { Boolean isWhiteListedSoFar = false; Iterator<Map.Entry<String,String>> it = ruleAsJSON.entrySet().iterator(); while (it.hasNext()) { Map.Entry<String, String> ruleComponent = it.next(); //A complete WL rule also contains fields that are meant to be appended to the stream //but are not rule components that can be checked if (ruleComponent.getKey().toString().startsWith("wl_")) { continue; } String[] rulePartKeyComponents = ruleComponent.getKey().split("\\."); String ruleField = rulePartKeyComponents[0]; String ruleFilter = rulePartKeyComponents[1]; // ruleComponent (key) cannot be checked: field is missing in alert // OR // ruleValue itself is NULL if (!alertFieldsAndValues.containsKey(ruleField) \|\| alertFieldsAndValues.get(ruleField) == null) { if (LOG.isDebugEnabled()) { LOG.debug("WhiteListEval Detail : [" + new JSONObject(alertFieldsAndValues).toJSONString() + "] not whitelisted [exit 1] : ruleField [" + ruleField + "] not found in field values"); } return false; } String ruleValue = ruleComponent.getValue(); Object alertValue = alertFieldsAndValues.get(ruleField); //Rule DSL notation allows for single value or multiple comma separated values, we don't care String[] ruleComponentValues = ruleValue.split(","); if (ruleField.equals("timestamp")) { //early exit, cause whatever the rule might grant based on alert field values, the specified timerange does not fit if (!timeRange.isAlertInWhiteListRange(Long.parseLong(alertValue.toString()))) { return false; } isWhiteListedSoFar = true; } else if (ruleField.equals("ip_src_addr") \|\| ruleField.equals("ip_dst_addr")) { //Specific check for alert values of ip type for (String s : ruleComponentValues) { SubnetUtils utils; try { utils = new SubnetUtils(s); } catch (IllegalArgumentException e) { LOG.warn(String.format("Invalid cidr address: [%s]. %s", s, e)); break; } utils.setInclusiveHostCount(true); // if one value matched, early exit if (utils.getInfo().isInRange((String)alertValue)) { isWhiteListedSoFar = true; break; } } } else { boolean matchingValue = false; for (int i = 0; i < ruleComponentValues.length && !matchingValue; i++) { matchingValue = alertValue.toString().equalsIgnoreCase(ruleComponentValues[i]); } isWhiteListedSoFar = matchingValue; } // on exclude flip isWhiteListed isWhiteListedSoFar = ruleFilter.equals("exclude") ? !isWhiteListedSoFar : isWhiteListedSoFar; // early exit, if after checking 1 complete rule component the verdict isWhiteListedSoFar is still false, we can exit the rule as //it can never apply if (!isWhiteListedSoFar) { return false; } } return isWhiteListedSoFar; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "@NotNull\n @Generated\n @Selector(\"needRulesVerdict\")\n public static native NEFilterNewFlowVerdict needRulesVerdict();", "public boolean C_trueCond(ListOfParameterLists parameterLists) {\n if(debug)\n System.out.println(\"Condition: TRUE\");\n return true;\n }", "@NotNull\n @Generated\...	[ "0.5440778", "0.53602564", "0.5301816", "0.52661127", "0.5232236", "0.52316236", "0.52057934", "0.52000445", "0.5166974", "0.5155233", "0.51438504", "0.50978947", "0.5095857", "0.50958395", "0.508209", "0.5080303", "0.50627536", "0.50520384", "0.50435716", "0.502867", "0.5021...	0.0	-1
/ All if conditions are true and all statements are executed	@Test public void method1SC() { System.out.println(FaultyClass.method1(3)); assertEquals(1, FaultyClass.method1(3)); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "protected void evaluateConditions()\n {\n ensureConditionContinuity() ;\n checkComponentList() ;\n\n for ( int liCondCtr = 1 ; liCondCtr <= 5 ; liCondCtr++ )\n {\n checkCondition( liCondCtr ) ;\n } /* end for */\n\n }", "@Override\r\n\tpublic boolean CheckConditions() {\n\t\t...	[ "0.75013685", "0.66420925", "0.653926", "0.6364895", "0.61819696", "0.61380804", "0.6104452", "0.6032339", "0.5976952", "0.5951171", "0.5936671", "0.58592826", "0.58539724", "0.585007", "0.5821002", "0.5817896", "0.58037573", "0.58027154", "0.5800678", "0.5796141", "0.5758405...	0.0	-1
/ 1st assert all if statements are false, 2nd assert all if statements are true the 2 assert statements cover the branches in the code	@Test public void method1BC() { assertEquals(-2, FaultyClass.method1(-2)); assertEquals(1, FaultyClass.method1(3)); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private void assertAll() {\n\t\t\n\t}", "public void testPreConditions() {\r\n\t //fail(\"Precondition check not implemented!\");\r\n\t assertEquals(true,true);\r\n\t }", "@Test(enabled = false)\n\tpublic void HardAssert(){\n\t\t\t\t\n\t\tSystem.out.println(\"Hard Asset Step 1\");\n\t\tAssert.assertEqu...	[ "0.7223622", "0.7222011", "0.6752789", "0.65157473", "0.65157473", "0.65157473", "0.6496341", "0.64889586", "0.6485339", "0.6412468", "0.6407731", "0.6384091", "0.6362207", "0.6300283", "0.62969893", "0.6285335", "0.6283997", "0.62366784", "0.62301904", "0.62301904", "0.62267...	0.0	-1
/ because there are only 2 if statements in the code the possible pats are 2^2 = 4. Therefore path test should cover all 4 possible paths. The test below illustrates the 2 paths not covered by path coverage	@Test public void method1PC() { assertEquals(-2, FaultyClass.method1(-2)); assertEquals(1, FaultyClass.method1(3)); //test 1st IF TRUE, 2nd IF FALSE assertEquals(1, FaultyClass.method1(3));; //test 1st IF FALSE, 2nd IF TRUE //Arithmetic Exception and 100 path coverage here FaultyClass.method1(-1); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "@Test\n public void finiteUTurnCosts() {\n int right0 = graph.edge(0, 1).setDistance(10).set(speedEnc, 10, 10).getEdge();\n graph.edge(1, 2).setDistance(10).set(speedEnc, 10, 10);\n graph.edge(2, 3).setDistance(10).set(speedEnc, 10, 10);\n graph.edge(3, 4).setDistance(10).set(speedEn...	[ "0.6314642", "0.61095977", "0.61049557", "0.60981244", "0.60571975", "0.6055202", "0.60317445", "0.60214317", "0.6020346", "0.6010904", "0.59091675", "0.59033275", "0.59006464", "0.58916765", "0.58711416", "0.58656836", "0.58518606", "0.5840483", "0.5835638", "0.58320165", "0...	0.620794	1
send msg to jdbc	public void send(String topic,Object content,String actionType) { //maxkey.server.message.queue , if not none if(applicationConfig.isProvisionSupport()) { ProvisionMessage message = new ProvisionMessage( UUID.randomUUID().toString(), //message id as uuid topic, //TOPIC actionType, //action of content DateUtils.getCurrentDateTimeAsString(), //send time null, //content Object to json message content content ); //sand msg to provision topic Thread thread = null; if(applicationConfig.isProvisionSupport()) { _logger.trace("message..."); thread = new ProvisioningThread(jdbcTemplate,message); thread.start(); }else{ _logger.trace("no send message..."); } } }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public boolean send_message(String SID, String RID, String message)\r\n {\r\n DBConnect db = new DBConnect();\r\n try\r\n {\r\n \r\n String SQL = \"insert into MESSAGES(SID, RID,message) values ('\" + SID + \"', '\" + RID + \"', '\"+ message + ...	[ "0.68866587", "0.64458144", "0.6393537", "0.634242", "0.63128644", "0.6279478", "0.6215945", "0.62011516", "0.5920801", "0.5887", "0.5835484", "0.5819493", "0.5817988", "0.5792407", "0.57780564", "0.57328314", "0.57208276", "0.57171154", "0.56699485", "0.5660236", "0.56546974...	0.0	-1
write your code in Java SE 8	public String solution(String s) { Stream<Character> tmp = s.chars().mapToObj(value -> (char)value); return tmp.collect(Collectors.groupingBy(Function.identity(), Collectors.counting())).entrySet().stream().filter(characterLongEntry -> characterLongEntry.getValue() == 2).findFirst().get().getKey().toString(); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static void main(String[] args) {\n\t\tnew Action() {\r\n\r\n\t\t\t@Override\r\n\t\t\tpublic void execute(String content) {\r\n\t\t\t\t// TODO Auto-generated method stub\r\n\t\t\t\tSystem.out.println(content);\r\n\t\t\t}\r\n\t\t\t\r\n\t\t}.execute(\"jdk1.8之前匿名内部类实现方式\");\r\n\t\t\r\n\t\t\r\n\t\t//lambda\r\n\...	[ "0.5890391", "0.58054996", "0.57008785", "0.56167847", "0.54946315", "0.54761344", "0.524263", "0.52340496", "0.5233149", "0.52029705", "0.5160466", "0.51574665", "0.5143396", "0.5094738", "0.5084682", "0.5069909", "0.50661004", "0.50645214", "0.5064437", "0.50475377", "0.504...	0.0	-1
Once you use Dynamic Programming, map will have right numbers. Without Dynamic Programming, values in the map will be overwritten.	@SuppressWarnings("Duplicates") private static int findMax_with_included_pieces_printed_brute_force(int[] prices, int[] pieceLengths, int start, int end, int expectedRodLength, Map<Integer, Integer> map) { // exit condition if (expectedRodLength <= 0) return 0; // reducing the problem by 1. Selecting last pieceLength and its price. int pieceLength = pieceLengths[end]; int priceOfSelectedPiece = prices[end]; // exit condition if (end == start) {//there is only one possible pieceLength possible of the rod if (pieceLength <= expectedRodLength) { if ((expectedRodLength % pieceLength) != 0) { return 0; } int num = expectedRodLength / pieceLength; map.put(pieceLength, num); return num * priceOfSelectedPiece; } return 0; } if (pieceLength == expectedRodLength) { int maxPriceExcludingThisPiece = findMax_with_included_pieces_printed_brute_force(prices, pieceLengths, start, end - 1, expectedRodLength, map); if (priceOfSelectedPiece >= maxPriceExcludingThisPiece) { map.put(pieceLength, 1); return priceOfSelectedPiece; } return maxPriceExcludingThisPiece; } if (pieceLength > expectedRodLength) { return findMax_easy_brute_force(prices, pieceLengths, start, end - 1, expectedRodLength); } int maxPriceIncludingThisPiece = priceOfSelectedPiece + findMax_with_included_pieces_printed_brute_force(prices, pieceLengths, start, end, expectedRodLength - pieceLength, map); int maxPriceExcludingThisPiece = findMax_with_included_pieces_printed_brute_force(prices, pieceLengths, start, end - 1, expectedRodLength, map); if (maxPriceExcludingThisPiece >= maxPriceIncludingThisPiece) { return maxPriceExcludingThisPiece; } map.put(pieceLength, 1); return maxPriceIncludingThisPiece; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public static void main(String[] args) {\n Scanner read = new Scanner(System.in);\n int n = read.nextInt();\n int d = read.nextInt();\n int[] arr = new int[n];\n for(int i=0;i<n;i++)\n arr[i]=read.nextInt();\n \n int[] a = new int[n];\n int temp=0;...	[ "0.66290194", "0.654606", "0.6540295", "0.63944775", "0.62326187", "0.6230195", "0.6170948", "0.6081278", "0.60781366", "0.6068297", "0.6043623", "0.6019857", "0.6005615", "0.5979523", "0.5961223", "0.5930301", "0.59269595", "0.59188175", "0.59145916", "0.59087634", "0.588163...	0.0	-1
pointWorld = lambda(from + affineCoordto)	public Hit(SceneGraphPath path, double[] pointWorld, double dist, double affineCoord, int pickType, int index,int triIndex) { this.path = (SceneGraphPath) path; Matrix m = new Matrix(); path.getInverseMatrix(m.getArray()); this.pointWorld= pointWorld; this.pointObject=m.multiplyVector(pointWorld); this.dist = dist; this.affineCoordinate = affineCoord; this.pickType=pickType; this.index=index; this.triIndex=triIndex; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "int apply(int x, int y, int origin);", "public void transform(float a11, float a12, float a21, float a22, float x, float y);", "public Point2D translatePoint( Figure f, Point2D p, Point2D dir);", "public boolean apply(int x0, int y0, int x, int y);", "public void translate(int x, int y);", "void vector...	[ "0.6675117", "0.63655883", "0.62077236", "0.59934294", "0.59528476", "0.5895141", "0.58521163", "0.58069664", "0.5724362", "0.5716514", "0.5654389", "0.56370926", "0.5630497", "0.5619618", "0.5616817", "0.5601036", "0.5581008", "0.5531946", "0.5507602", "0.5500463", "0.549827...	0.0	-1
/ calc barycentric coordinates bary for point x in anElement el, not necessarily 0 <= b[i] <= 1	public static boolean convertToBary( double[] bary, double[] x0, double[] x1, double[] x2, double[] x) { //TODO: use exception handling for degenerate situations //TODO: the return type should be void or double which should give // distance from plane int i0 = 0, i1 = 1, i2 = 2; double det; /* find two linear independent rows / for (;;) { det = x1[i0] x2[i1] - x1[i1] * x2[i0] - (x0[i0] * x2[i1] - x0[i1] * x2[i0]) + x0[i0] * x1[i1] - x0[i1] * x1[i0]; if (Math.abs(det) > EPS) break; if (i1 == 1) { i1 = 2; i2 = 1; } else if (i0 == 0) { i0 = 1; i2 = 0; } else { LoggingSystem.getLogger(Hit.class).fine("mBaryInElementConvertFromVec3: triangle degenerated?"); // // fprintf(stderr, "gmBaryInElementConvertFromVec3: triangle // degenerated?\n"); // fprintf(stderr, "\tcan't compute barycentric // coordinates.\n"); // fprintf(stderr, "vertex0: (%f, %f, %f)\n", x0[0], x0[1], // x0[2]); // fprintf(stderr, "vertex1: (%f, %f, %f)\n", x1[0], x1[1], // x1[2]); // fprintf(stderr, "vertex2: (%f, %f, %f)\n", x2[0], x2[1], // x2[2]); // fprintf(stderr, "point : (%f, %f, %f)\n", x[0], x[1], x[2]); // fflush(stderr); return false; } } /* calculate barycentric coordinates / bary[0] = (x1[i0] x2[i1]- x1[i1] * x2[i0] - (x[i0] * x2[i1] - x[i1] * x2[i0]) + x[i0] * x1[i1]- x[i1] * x1[i0]) / det; bary[1] = (x[i0] * x2[i1] - x[i1] * x2[i0] - (x0[i0] * x2[i1] - x0[i1] * x2[i0]) + x0[i0] * x[i1] - x0[i1] * x[i0]) / det; bary[2] = 1.0 - bary[0] - bary[1]; /* test third row / if (Math .abs(x0[i2] bary[0] + x1[i2] * bary[1] + x2[i2] * bary[2] - x[i2]) > 1.e-3) { // this is not an error and should not in my opinion be set to info level -gunn 18.5.6 LoggingSystem.getLogger(Hit.class).fine("gmBaryInElementConvertFromVec3: test for third row failed." +Math.abs(x0[i2] * bary[0] + x1[i2] * bary[1] + x2[i2] * bary[2] - x[i2]) ); return false; } correct(bary); return true; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private Vector3D convexCellBarycenter(final Vertex start) {\n\n int n = 0;\n Vector3D sumB = Vector3D.ZERO;\n\n // loop around the cell\n for (Edge e = start.getOutgoing(); n == 0 \|\| e.getStart() != start; e = e.getEnd().getOutgoing()) {\n sumB = new Vector3D(1, sumB, e.getLe...	[ "0.56154954", "0.5396701", "0.532483", "0.52513105", "0.5160451", "0.5130184", "0.5126725", "0.51222444", "0.508614", "0.5055969", "0.49959713", "0.4942878", "0.4927618", "0.49258378", "0.49005273", "0.48754507", "0.4857296", "0.4853208", "0.4832719", "0.481046", "0.47946295"...	0.63776416	0
metodos metodo para crear persona	public void crearPersona(){ persona = new Persona(); persona.setNombre("Jose"); persona.setCedula(12345678); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "void crearNuevaPersona(Persona persona);", "public void create(Person p) {\n\t\t\n\t}", "@Override\r\n\tpublic void create(Person p) \r\n\t{\n\t\t\r\n\t}", "public void CreatePerson(Person p){\n\t\tWeddingConnectionPoolManager con = new WeddingConnectionPoolManager(); \n\t\t Person p1 = new Person(p.getId()...	[ "0.846484", "0.80131274", "0.7738949", "0.7567291", "0.74563205", "0.74136966", "0.73838246", "0.7132897", "0.7132897", "0.71080065", "0.70631105", "0.70286447", "0.6969133", "0.69430655", "0.6909666", "0.69018984", "0.6895878", "0.6892319", "0.6888734", "0.6885759", "0.68643...	0.8181106	1
metodo para mostrar datos de la persona	public void mostrarPersona(){ System.out.println("Nombre: " + persona.getNombre()); System.out.println("Cedula: " + persona.getCedula()); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void mostrarDatos() {\r\n System.out.println(\"El nombre del cliente es: \" + this.getNombre());\r\n System.out.println(\"El primer apellido es: \" + this.getPrimerApellido());\r\n System.out.println(\"El segundo apellido es: \" + this.getSegundoApellido());\r\n System.out.printl...	[ "0.71626145", "0.70909446", "0.7070012", "0.7046698", "0.69264066", "0.6896772", "0.68578243", "0.6791878", "0.6654108", "0.65558094", "0.65314245", "0.6465523", "0.6444806", "0.6439064", "0.64377224", "0.6426238", "0.63977075", "0.63788766", "0.635563", "0.63499695", "0.6330...	0.8234247	0
metodo para crear automovil	public void crearAutomovil(){ automovil = new Vehiculo(); automovil.setMarca("BMW"); automovil.setModelo(2010); automovil.setPlaca("TWS435"); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public abstract Anuncio creaAnuncioTematico();", "public abstract Anuncio creaAnuncioGeneral();", "public void create() {\n\t\t\n\t}", "Oracion createOracion();", "Compleja createCompleja();", "@Override\r\n\tpublic void crearVehiculo() {\n\t\t\r\n\t}", "public abstract Anuncio creaAnuncioIndividualiza...	[ "0.6495235", "0.6465843", "0.6300872", "0.62493575", "0.6218243", "0.6177469", "0.6171597", "0.6149347", "0.61437875", "0.6106166", "0.6100428", "0.6085236", "0.60710365", "0.6054169", "0.605316", "0.60436237", "0.6006945", "0.5987459", "0.5944883", "0.5912858", "0.5906271", ...	0.7457805	0
metodo para mostrar datos del automovil	public void mostrarAutomovil(){ System.out.println("Marca: " + automovil.getMarca()); System.out.println("Modelo: " + automovil.getModelo()); System.out.println("Placa: " + automovil.getPlaca()); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "@Override\n\tpublic void mostrarDados() {\n\t\t\n\t}", "public void mostrarDatos() {\r\n System.out.println(\"El nombre del cliente es: \" + this.getNombre());\r\n System.out.println(\"El primer apellido es: \" + this.getPrimerApellido());\r\n System.out.println(\"El segundo apellido es: \" ...	[ "0.66572124", "0.6620795", "0.6592598", "0.65058166", "0.6485971", "0.6419216", "0.6412213", "0.63943726", "0.6351781", "0.63425666", "0.63200814", "0.6319772", "0.63195103", "0.6269425", "0.62653375", "0.6250371", "0.6222847", "0.6190443", "0.6183661", "0.61735153", "0.61643...	0.79724735	0
asignar la clase persona a la clase automovil	public void asignarAutomovilPersona(){ persona.setAutomovil(automovil); }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "public void asignarClase(int clase);", "public void construirCargo() {\n persona.setCargo(Cargos.SUPERVISOR);\n }", "public void nascitaAgnello() {\n\t\tpecore.add(new Agnello());\n\t\tnumeroAgelli++;\n\t}", "public void automovil(){\r\n System.out.println(\"Ingrese placa: \");\r\n pl...	[ "0.6787596", "0.6338639", "0.61755264", "0.60794157", "0.6039141", "0.6011293", "0.6004293", "0.5960204", "0.59417737", "0.5926485", "0.5919156", "0.588521", "0.5838728", "0.58335435", "0.5811737", "0.578345", "0.5780884", "0.5768974", "0.5767288", "0.57577556", "0.57033026",...	0.79091865	0
Creates the ActiveMQ Broker, which is listening on the URL BROKER_URL	@Bean BrokerService broker() throws Exception { BrokerService broker = new BrokerService(); // configure the broker broker.addConnector(BROKER_URL); broker.start(); return broker; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private static DatacenterBroker createBroker(){\n\n\t\tDatacenterBroker broker = null;\n\t\ttry {\n\t\t\tbroker = new DatacenterBroker(\"Broker\");\n\t\t} catch (Exception e) {\n\t\t\te.printStackTrace();\n\t\t\treturn null;\n\t\t}\n\t\treturn broker;\n\t}", "private void setupBroker(String uri) {\n try {...	[ "0.6762005", "0.65469784", "0.6217145", "0.61282694", "0.59298044", "0.5877603", "0.58518803", "0.57685536", "0.57525164", "0.5575111", "0.5558444", "0.554343", "0.55341285", "0.5475879", "0.54596865", "0.53898007", "0.53711146", "0.5367868", "0.5359284", "0.5335837", "0.5333...	0.71919197	0
Creates the connection factory to connect to the broker	@Bean ActiveMQConnectionFactory connectionFactory() { ActiveMQConnectionFactory connectionFactory = new ActiveMQConnectionFactory(BROKER_URL); return connectionFactory; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private void createConnection() {\n this.callbacks = getCallbacks();\n\n Properties props = new Properties();\n props.putAll(getTestProps());\n props.putAll(getProps());\n this.connection = Connections.create((ConnectionCallbacks) callbacks, props);\n configureConnection(c...	[ "0.69724345", "0.66450566", "0.66145205", "0.6519932", "0.6463706", "0.6403766", "0.63509065", "0.63258374", "0.61197156", "0.61143327", "0.6104527", "0.6101801", "0.6055812", "0.605495", "0.60024875", "0.5970798", "0.59413904", "0.5913599", "0.5899801", "0.58669376", "0.5836...	0.66582954	1
Message listener adapter to listen on new messages	@Bean MessageListenerAdapter adapter(final Receiver receiver) { MessageListenerAdapter messageListener = new MessageListenerAdapter(receiver); messageListener.setDefaultListenerMethod("receiveMessage"); return messageListener; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "@Override\n\tpublic void addMessageReceivedListener(MessageReceivedListener messageReceivedListener) {\n\n\t}", "@Override\r\n public void setListener() {\n input.setInputListener(this);\r\n\r\n //bind load more listener, it will track scroll up\r\n messagesAdapter.setLoadMoreListener(thi...	[ "0.76486737", "0.7607106", "0.725911", "0.723076", "0.6966563", "0.6946663", "0.6865775", "0.6861961", "0.68415713", "0.68190736", "0.6737756", "0.6735256", "0.670578", "0.6683428", "0.6664629", "0.664691", "0.6641266", "0.66146946", "0.6604346", "0.65853626", "0.65735894", ...	0.63067585	45
Creates the listener container which connects the listener with the destination	@Bean SimpleMessageListenerContainer container(final MessageListenerAdapter messageListener, final ConnectionFactory connectionFactory) { SimpleMessageListenerContainer container = new SimpleMessageListenerContainer(); container.setMessageListener(messageListener); container.setConnectionFactory(connectionFactory); container.setDestinationName(DESTINATION); return container; }	{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }	[ "private void createAndListen() {\n\n\t\t\n\t}", "@Override\r\n\tnative long createListenerProxy(EventSink eventSink);", "WithCreate withDestination(EventChannelDestination destination);", "public SimpleMessageListenerContainer() {\n\t}", "Future<CreateListenerResponse> createListener(\n CreateLi...	[ "0.65735394", "0.5930692", "0.5914101", "0.57666457", "0.5678457", "0.5656262", "0.5619613", "0.5604012", "0.53921604", "0.5345176", "0.53274935", "0.53188217", "0.53182876", "0.529274", "0.5271293", "0.5267569", "0.52647835", "0.52456933", "0.5214078", "0.51640326", "0.51597...	0.612895	1

FIND ALL FLIGHTS find all entities

List<Flight> findAllFlights();

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "List<TransportEntity> getAllEntityOfQuery();", "List<WebCrawlerData> retrieveAllEntity();", "public List<Flight> fetchFlights() {\n\t\tSession session = SessionBuilder.buildSession();\n\t\tString query = \"from Flight\";\n\t\tQuery q = session.createQuery(query);\n\t\tList<Flight> flights = q.getResultList();\...

[ "0.58980507", "0.5739583", "0.569785", "0.5680651", "0.56668526", "0.56583345", "0.5645099", "0.55677867", "0.5564338", "0.5547493", "0.55358386", "0.5513301", "0.5511514", "0.5500344", "0.54248774", "0.54123205", "0.54122835", "0.54109806", "0.53888905", "0.53790176", "0.537...

0.58951986

1

Add steward to flight

Flight addStewardToFlight(Flight flight, Steward steward);

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "void insertFlightseat(AirFlightseat dRef);", "public void bookFlight(){\n //Steps\n //1 Show the available flights. (at least one seat with 0)\n //2 User select a flight, and the system automatically set the seat with his id. he is not able to select the seat\n //3 User confirm the re...

[ "0.60065764", "0.57747436", "0.5735861", "0.55893445", "0.5562254", "0.55509526", "0.5545575", "0.5520484", "0.5513133", "0.5509838", "0.548876", "0.5479571", "0.5445324", "0.5428199", "0.5397296", "0.53663546", "0.5345749", "0.53438556", "0.53407013", "0.5336883", "0.5307525...

0.8872268

0

Validate Flight parameters steward availibility, airplane availibility and time

boolean validateFlight(Flight flight);

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private void validate() throws FlightCreationException {\n validateNotNull(\"number\", number);\n validateNotNull(\"company name\", companyName);\n validateNotNull(\"aircraft\", aircraft);\n validateNotNull(\"pilot\", pilot);\n validateNotNull(\"origin\", origin);\n valida...

[ "0.68103987", "0.60651565", "0.56858623", "0.56714994", "0.56280434", "0.56141436", "0.5612667", "0.5560385", "0.551301", "0.5504334", "0.5491156", "0.5467965", "0.5459695", "0.5417644", "0.5407046", "0.5385279", "0.5381938", "0.5380206", "0.53660905", "0.53507614", "0.534377...

0.64929986

1

.appscode.kubernetes.v1beta2.Meta meta = 1;

boolean hasMeta();

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "com.appscode.api.kubernetes.v1beta2.Meta getMeta();", "com.appscode.api.kubernetes.v1beta2.MetaOrBuilder getMetaOrBuilder();", "public Object getMeta() {\n return meta;\n }", "public void setMeta (boolean meta) {\n\tthis.meta = meta;\n }", "public void setMeta(org.thdl.lex.component.Meta meta);", ...

[ "0.840164", "0.77114445", "0.6447995", "0.6434399", "0.636537", "0.6283877", "0.6151779", "0.607437", "0.6063908", "0.6041019", "0.59978956", "0.59543705", "0.593035", "0.5923061", "0.58797395", "0.586517", "0.5833123", "0.5794263", "0.5772853", "0.5747371", "0.57468265", "...

0.5188533

76

.appscode.kubernetes.v1beta2.Meta meta = 1;

com.appscode.api.kubernetes.v1beta2.Meta getMeta();

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "com.appscode.api.kubernetes.v1beta2.MetaOrBuilder getMetaOrBuilder();", "public Object getMeta() {\n return meta;\n }", "public void setMeta (boolean meta) {\n\tthis.meta = meta;\n }", "public void setMeta(org.thdl.lex.component.Meta meta);", "default @org.jetbrains.annotations.Nullable imports.k8s....

[ "0.77100915", "0.6446217", "0.64315665", "0.6363506", "0.6283592", "0.61509615", "0.6073143", "0.60623497", "0.60402894", "0.59977263", "0.59517795", "0.5928647", "0.59208447", "0.58776945", "0.58625346", "0.58303875", "0.5794218", "0.5771239", "0.5745612", "0.5744357", "0.57...

0.8400092

0

.appscode.kubernetes.v1beta2.Meta meta = 1;

com.appscode.api.kubernetes.v1beta2.MetaOrBuilder getMetaOrBuilder();

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "com.appscode.api.kubernetes.v1beta2.Meta getMeta();", "public Object getMeta() {\n return meta;\n }", "public void setMeta (boolean meta) {\n\tthis.meta = meta;\n }", "public void setMeta(org.thdl.lex.component.Meta meta);", "default @org.jetbrains.annotations.Nullable imports.k8s.ObjectMeta getMeta...

[ "0.84015614", "0.6446532", "0.64301836", "0.6361175", "0.6284969", "0.61524224", "0.60744894", "0.60640615", "0.6040436", "0.59993744", "0.595063", "0.59297776", "0.59229", "0.5878918", "0.586408", "0.58311355", "0.57959616", "0.5769778", "0.57466024", "0.57450056", "0.573377...

0.77115244

1

repeated .appscode.kubernetes.v1beta2.Rule rules = 2;

java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> getRulesList();

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> \n getRulesOrBuilderList();", "com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);", "com.appscode.api.kubernetes.v1beta2.RuleOrBuilder getRulesOrBuilder(\n int index);", "public Rules getRules()\r\n {\r\n ret...

[ "0.6758241", "0.66073847", "0.6288047", "0.5882989", "0.58308566", "0.58160627", "0.56775767", "0.5629937", "0.5585979", "0.558538", "0.5547636", "0.5541968", "0.553581", "0.5533254", "0.55036545", "0.55036545", "0.55036545", "0.5481315", "0.54485416", "0.5419642", "0.5347619...

0.6324158

2

repeated .appscode.kubernetes.v1beta2.Rule rules = 2;

com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> \n getRulesOrBuilderList();", "java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> \n getRulesList();", "com.appscode.api.kubernetes.v1beta2.RuleOrBuilder getRulesOrBuilder(\n int index);", "public Rules getRules(...

[ "0.6759394", "0.6326128", "0.62893647", "0.58856606", "0.58349943", "0.58201325", "0.5679799", "0.5631358", "0.55889016", "0.5586249", "0.5550243", "0.55422217", "0.5539352", "0.5535983", "0.5505566", "0.5505566", "0.5505566", "0.54821724", "0.54510593", "0.54220575", "0.5349...

0.66089016

1

repeated .appscode.kubernetes.v1beta2.Rule rules = 2;

int getRulesCount();

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> \n getRulesOrBuilderList();", "com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);", "java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> \n getRulesList();", "com.appscode.api.kubernetes.v1beta2.RuleOrBuilde...

[ "0.6761806", "0.66100097", "0.63280153", "0.6291458", "0.5889406", "0.5837983", "0.5822912", "0.56824654", "0.5633473", "0.55924577", "0.5551186", "0.55422986", "0.5541291", "0.5538316", "0.55086076", "0.55086076", "0.55086076", "0.5485106", "0.5454866", "0.5424918", "0.53517...

0.55871236

10

repeated .appscode.kubernetes.v1beta2.Rule rules = 2;

java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> getRulesOrBuilderList();

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);", "java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> \n getRulesList();", "com.appscode.api.kubernetes.v1beta2.RuleOrBuilder getRulesOrBuilder(\n int index);", "public Rules getRules()\r\n {\r\n return rules;\r\n }", "publi...

[ "0.66073847", "0.6324158", "0.6288047", "0.5882989", "0.58308566", "0.58160627", "0.56775767", "0.5629937", "0.5585979", "0.558538", "0.5547636", "0.5541968", "0.553581", "0.5533254", "0.55036545", "0.55036545", "0.55036545", "0.5481315", "0.54485416", "0.5419642", "0.5347619...

0.6758241

0

repeated .appscode.kubernetes.v1beta2.Rule rules = 2;

com.appscode.api.kubernetes.v1beta2.RuleOrBuilder getRulesOrBuilder( int index);

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "java.util.List<? extends com.appscode.api.kubernetes.v1beta2.RuleOrBuilder> \n getRulesOrBuilderList();", "com.appscode.api.kubernetes.v1beta2.Rule getRules(int index);", "java.util.List<com.appscode.api.kubernetes.v1beta2.Rule> \n getRulesList();", "public Rules getRules()\r\n {\r\n return rul...

[ "0.6758241", "0.66073847", "0.6324158", "0.5882989", "0.58308566", "0.58160627", "0.56775767", "0.5629937", "0.5585979", "0.558538", "0.5547636", "0.5541968", "0.553581", "0.5533254", "0.55036545", "0.55036545", "0.55036545", "0.5481315", "0.54485416", "0.5419642", "0.5347619...

0.6288047

3

System.out.println("The fruit has grown!");

private void grow(){ berries.replaceAll((p, v) -> v + 1); apples.replaceAll((p, v) -> v + 1); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void eat(){\r\n System.out.println(\"Life Isn't Precious\");}", "public static void hello() {\n System.out.println(\"The coffee machine has:\\n\" +\n waterStock + \" of water\\n\" +\n milkStock + \" of milk\\n\" +\n coffeeBeansStock + \" of coffee bea...

[ "0.74794567", "0.7289995", "0.7145635", "0.7130762", "0.7112249", "0.7046853", "0.7033056", "0.70148575", "0.7006731", "0.69436455", "0.6899001", "0.68963724", "0.6873571", "0.68690366", "0.68643004", "0.6855284", "0.6854645", "0.68394834", "0.68291503", "0.682691", "0.682437...

0.0

-1

If a snake is within SNAKE_ATTACK_RANGE tiles of truman, it will hunt him down.

private boolean shouldSnakeSeekTruman(Point snake, int trux, int truy){ return (Math.abs(snake.x - trux) < SNAKE_ATTACK_RANGE && Math.abs(snake.y - truy) < SNAKE_ATTACK_RANGE); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private boolean tryAttack(Tile fromTile) {\r\n\t\tint size = getBoard().getTiles().length;\r\n\r\n\t\t// if attacker is on power-up tile\r\n\t\tif (fromTile.getTileType().equals(\"PowerUp\")) {\r\n\t\t\tif (fromTile.getPiece().getLEAGUE() == League.SHARK && fromTile.getTer().territoryName().equals(\"Shark\")) {\r\...

[ "0.64716566", "0.6229715", "0.61977965", "0.6124987", "0.6123417", "0.61195", "0.60738456", "0.6067385", "0.6058956", "0.60506517", "0.60373944", "0.59920955", "0.5984228", "0.59727776", "0.59462583", "0.59460056", "0.59346056", "0.5874751", "0.587433", "0.5872102", "0.585495...

0.6558092

0

Binary content data coding. The default value is (&x60;0&x60;) for GSM7. Example: (&x60;8&x60;) for Unicode data.

public Integer getDataCoding() { return dataCoding; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public String getEncoding() {\r\n return \"B\";\r\n }", "private void storeHeaderDataToByte() {\n\t\tString byteNumStr = String.format(\"%24s\",\n\t\t\t\tInteger.toBinaryString(encodedByte.length)).replace(' ',\n\t\t\t\t'0');\n\t\tencodedByte[encodingIndex++] = convert8BitsStrToByte(byteNumStr\n\t\t\t\...

[ "0.5862878", "0.5805442", "0.573985", "0.5736735", "0.5736735", "0.5736735", "0.5736735", "0.57291955", "0.5601688", "0.54967755", "0.5482488", "0.5457795", "0.54381704", "0.5430763", "0.5388963", "0.53576136", "0.5331874", "0.53302455", "0.5329283", "0.53191245", "0.5314022"...

0.53224444

19

Hexadecimal string. This is the representation of your binary data. Two hex digits represent one byte. They should be separated by the space character (Example: &x60;0f c2 4a bf 34 13 ba&x60;).

public String getHex() { return hex; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public String toString() {\n return Util.bytesToHex(getByteArray());\n }", "private String hexify(byte bytes[]) {\n\n char[] hexDigits = {'0', '1', '2', '3', '4', '5', '6', '7',\n '8', '9', 'a', 'b', 'c', 'd', 'e', 'f'};\n\n StringBuilder buf = new StringBuilder(bytes.length ...

[ "0.67399853", "0.6658015", "0.6637555", "0.6591403", "0.654938", "0.6547397", "0.6538596", "0.65359914", "0.64754957", "0.6447616", "0.6371127", "0.63298565", "0.6286104", "0.62561166", "0.62071806", "0.6199627", "0.6189633", "0.6161902", "0.6153057", "0.61526644", "0.6149657...

0.6289131

12

Convert the given object to string with each line indented by 4 spaces (except the first line).

private String toIndentedString(Object o) { if (o == null) { return "null"; } return o.toString().replace("\n", "\n "); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private String toIndentedString(Object object) {\n if (object == null) {\n return EndpointCentralConstants.NULL_STRING;\n }\n return object.toString().replace(EndpointCentralConstants.LINE_BREAK,\n EndpointCentralConstants.LINE_BREAK + EndpointCentralConstants.TAB_SPA...

[ "0.7884939", "0.7549351", "0.74972624" ]

0.0

-1

fungsi untuk mengubah board ke string

public String convertBoardToString(){ String tmp= ""; for (int i=0; i<30; i++){ for (int j=0; j<80; j++){ if (board.getCharacter(j,i)==0){ tmp += '-'; } else { tmp += board.getCharacter(j,i); } } } return tmp; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "String getBoardString();", "String drawBoard();", "String getBoard();", "String displayMyBoard();", "public void drawBoard() {\n String[][] strBoard= new String[4][4];\n for(int x= 0; x<4; x++) {\n for(int y= 0; y<4; y++) {\n if(board[x][y]==0) {\n ...

[ "0.7321755", "0.67984915", "0.677307", "0.66825396", "0.64890915", "0.64670163", "0.63954437", "0.6357363", "0.6355943", "0.6337652", "0.631623", "0.6298542", "0.629096", "0.62777436", "0.6257378", "0.6251178", "0.62420046", "0.6238704", "0.62253994", "0.6205695", "0.61700034...

0.6362809

7

prosedur untuk menampilkan board ke layar

public void displayToScreen(){ System.out.println(convertBoardToString()); delay(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void showBoard() {\n for (int i = 0; i < booleanBoard.length; i++) {\n for (int j = 0; j < booleanBoard.length; j++) {\n if (strBoard[i][j].equals(\"possible move\") || strBoard[i][j].equals(\"castling\")) {\n gA.getBoard()[i][j].setBackgroundResource(R.co...

[ "0.72060794", "0.7087646", "0.6987039", "0.6886608", "0.68652135", "0.6816263", "0.6811079", "0.6746709", "0.6643165", "0.6611248", "0.65996975", "0.6598536", "0.65755093", "0.65742624", "0.65522", "0.6532221", "0.64692664", "0.6461921", "0.64498705", "0.6444937", "0.64328325...

0.0

-1

prosedur untuk menyimpan display ke file

public void displayToFile(){ String data = ""; try{ FileWriter fstream = new FileWriter("output.txt", true); BufferedWriter out = new BufferedWriter(fstream); for (int i=0 ; i<40; i++) { for (int j=0; j<146 ;j++ ){ if (board.getCharacter(j,i) == '0') { data += '-'; } else { data += board.getCharacter(j,i); } } out.write(data); data = ""; } out.close(); } catch (Exception e){ System.err.println("Error: " + e.getMessage()); } }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void loadShow(File f) {\n \n }", "private void viewFileChooser() {\n try {\n JFileChooser chooser = new JFileChooser();\n chooser.showOpenDialog(null);\n f = chooser.getSelectedFile();\n// this.attachmentName = f.getName();\n// this.attachm...

[ "0.70695585", "0.70277697", "0.69791394", "0.69362324", "0.6858723", "0.67330796", "0.6684322", "0.66314495", "0.6608295", "0.6573775", "0.65235466", "0.6518369", "0.6508273", "0.649684", "0.6440556", "0.6424596", "0.6415781", "0.6403392", "0.6388428", "0.6365537", "0.6334392...

0.0

-1

int ret = 0;

public int videoStitching(int[][] clips, int t) { if (clips == null || clips.length == 0) return -1; if (t <= 0) return t < 0 ? -1 : 0; int n = clips.length; // int[] dp = new int[t + 1]; int maxEnd = 0; TreeMap<Integer, Integer> startPos = new TreeMap<>(); TreeMap<Integer, Integer> endPos = new TreeMap<>(); for (int i = 0; i < n; ++i) { int[] clip = clips[i]; addPos(clips, startPos, i, true); addPos(clips, endPos, i, false); if (maxEnd < clip[1]) { maxEnd = clip[1]; } // Set<Integer> set1 = endPos.computeIfAbsent(clip[1], e -> new TreeSet<>()); // set1.add(len); } if (!startPos.containsKey(0) || t > maxEnd) return -1; int start = 0; int end = t; Set<Integer> selectedClip = new HashSet<>(); while (start < end) { NavigableMap<Integer, Integer> headMap = startPos.headMap(start, true); if (headMap.size() == 0) return -1; start = searchMaxLen(headMap, clips, true, selectedClip); if (start >= end) break; NavigableMap<Integer, Integer> tailMap = endPos.tailMap(end, true); if (tailMap.size() == 0) return -1; end = searchMaxLen(tailMap, clips, false, selectedClip); } return selectedClip.size(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "int return0() ;", "public int get_return(){\r\n return local_return;\r\n }", "int exitValue();", "public int result() {\n return 0;\n }", "public int getresult(){\n return result;}", "public int getReturnValue() {\n if (success)...

[ "0.8403072", "0.727131", "0.7147548", "0.7129657", "0.710408", "0.69162786", "0.6890128", "0.6889988", "0.6723391", "0.6699951", "0.6682897", "0.66500914", "0.66357076", "0.66156125", "0.6601039", "0.65983737", "0.65911335", "0.6564893", "0.652666", "0.6515095", "0.6508227", ...

0.0

-1

Convert from CMY color space to RGB color space

public static double[] cmyToRgb(double[] cmy) { assert(cmy != null && cmy.length == 3); double[] rgb = new double[3]; rgb[0] = (1-cmy[0]) * 255; rgb[1] = (1-cmy[1]) * 255; rgb[2] = (1-cmy[2]) * 255; return rgb; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public abstract RGBIColor toRGBColor();", "static private int[] YCbCrtoRGB(int[] YCbCr) {\n int[] RGB = new int[3];\n\n float Y = (float) YCbCr[0];\n float CB = (float) YCbCr[1];\n float CR = (float) YCbCr[2];\n\n float R = (float) (Y + 1.402 * (CR - 128));\n float G = (...

[ "0.7616944", "0.7099386", "0.68859655", "0.66625154", "0.6479533", "0.64303076", "0.6382099", "0.63611907", "0.6294044", "0.6274821", "0.62351775", "0.61981386", "0.61393213", "0.60744804", "0.6057305", "0.6028522", "0.60034066", "0.59884006", "0.59776336", "0.5973182", "0.59...

0.6903662

2

Convert from HSV color space to RGB color space

public static double[] hsvToRgb(double[] hsv) { double h = hsv[0]; double s = hsv[1]; double v = hsv[2]; double r,g,b; if (s == 0) { r = v * 255; g = v * 255; b = v * 255; } else { double varH = h / 60; if ((int)varH == 6) { varH = 0; } int varI = (int)(varH); double var1 = v * (1 - s); double var2 = v * (1 - s * (varH - varI)); double var3 = v * (1 - s * (1 - (varH - varI))); double varR, varG, varB; switch (varI) { case 0: varR = v; varG = var3; varB = var1; break; case 1: varR = var2; varG = v; varB = var1; break; case 2: varR = var1; varG = v; varB = var3; break; case 3: varR = var1; varG = var2; varB = v; break; case 4: varR = var3; varG = var1; varB = v; break; default: varR = v; varG = var1; varB = var2; } r = varR * 255; g = varG * 255; b = varB * 255; } double[] result = {r,g,b}; return result; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static double[] rgbToHsv(int rgb[]) {\n\t\tdouble temp[] = new double[3];\n\t\tdouble hsv[] = new double[3];\n\t\t\n\t\ttemp[0] = (double)rgb[0]/255;\n\t\ttemp[1] = (double)rgb[1]/255;\n\t\ttemp[2] = (double)rgb[2]/255;\n\t\t\n\t\tdouble max = Math.max(temp[0], Math.max(temp[1], temp[2]));\n\t\tdouble min =...

[ "0.73704934", "0.7099642", "0.7077565", "0.6938358", "0.69081855", "0.6859896", "0.6767003", "0.66153425", "0.65059745", "0.6475775", "0.64259535", "0.6364422", "0.63375443", "0.63205993", "0.62631077", "0.6238345", "0.6129053", "0.5969119", "0.5872557", "0.57994324", "0.5780...

0.778027

0

Convert an RGB array to an int value that represents RGB which can be used in BufferedImage setRGB() method

public static int rgbArrayToRgbInt(double[] array) { if (array == null) { return 0 ; } if (array.length != 3) { return 0; } return (255 & 0xFF) << 24 + ((int)array[0] & 0xFF) << 16 + ((int)array[1] & 0xFF) << 8 + ((int)array[2] & 0xFF); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static int rgbArrayToRgbInt(int[] array) {\n\t\tif (array == null) {\n\t\t\treturn 0;\n\t\t}\n\t\tif (array.length != 3) {\n\t\t\treturn 0;\n\t\t}\n\t\tdouble[] doubleArray = {array[0], array[1], array[2]};\n\t\treturn ColorConverter.rgbArrayToRgbInt(doubleArray);\n\t}", "int[] getStartRGB();", "public ...

[ "0.8086974", "0.6744437", "0.66964453", "0.6666481", "0.6512728", "0.65079445", "0.64741135", "0.64678127", "0.6463723", "0.6431115", "0.6426185", "0.63876903", "0.6336825", "0.628355", "0.62781", "0.6266843", "0.6265148", "0.621372", "0.6176449", "0.6170444", "0.61661685", ...

0.7770057

1

Convert an RGB int value to RGB array

public static double[] rgbIntToRgbArray(int rgb) { double[] rgbArray = new double[3]; rgbArray[0] = (rgb >> 16) & 0xFF; rgbArray[1] = (rgb >> 8) & 0xFF; rgbArray[2] = (rgb) & 0xFF; return rgbArray; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static int[] hexToRgb(int value) {\r\n // int[] v = { (value / 65536), ((value - value / 65536 * 65536) / 256),\r\n // (value - value / 65536 * 65536 - (value - value / 65536 * 65536) /\r\n // 256 * 256), 0 };\r\n\r\n return new int[] { (value >> 16) & 0xFF, (value >> 8) & 0xFF, ...

[ "0.7462477", "0.71654934", "0.7095958", "0.7026143", "0.70001394", "0.69524354", "0.6770394", "0.65391684", "0.6521993", "0.6508968", "0.6486071", "0.6371465", "0.6371166", "0.63696754", "0.6349078", "0.63256216", "0.62597764", "0.6244847", "0.6238903", "0.6220685", "0.620587...

0.6710411

7

Convert an RGB array to an int value that represents RGB which can be used in BufferedImage setRGB() method

public static int rgbArrayToRgbInt(int[] array) { if (array == null) { return 0; } if (array.length != 3) { return 0; } double[] doubleArray = {array[0], array[1], array[2]}; return ColorConverter.rgbArrayToRgbInt(doubleArray); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static int rgbArrayToRgbInt(double[] array) {\n\t\tif (array == null) {\n\t\t\treturn 0 ;\n\t\t}\n\t\tif (array.length != 3) {\n\t\t\treturn 0;\n\t\t}\n\t\treturn (255 & 0xFF) << 24 +\n\t\t\t\t((int)array[0] & 0xFF) << 16 +\n\t\t\t\t((int)array[1] & 0xFF) << 8 +\n\t\t\t\t((int)array[2] & 0xFF);\n\t}", "in...

[ "0.7770907", "0.67422575", "0.6695676", "0.6665606", "0.65120995", "0.65079314", "0.647346", "0.6468218", "0.64622086", "0.6430217", "0.64245456", "0.6387409", "0.63352615", "0.6282497", "0.62779206", "0.6264637", "0.626284", "0.6212993", "0.61757356", "0.6170119", "0.6164967...

0.80884475

0

Convert from RGB color space to CMY color space

public static double[] rgbToCmy(double[] rgb) { assert(rgb != null && rgb.length == 3); double[] cmy = new double[3]; cmy[0] = 1 - (rgb[0] / 255); cmy[1] = 1 - (rgb[1] / 255); cmy[2] = 1 - (rgb[2] / 255); return cmy; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public abstract RGBIColor toRGBColor();", "public static float[] rgb2cmyk(int rgb) {\r\n float r = (rgb >> 16) & 0xFF;\r\n float g = (rgb >> 8) & 0xFF;\r\n float b = rgb & 0xFF;\r\n float C = 1.0f - (r / 255);\r\n float M = 1.0f - (g / 255);\r\n float Y = 1.0f - (b / 255...

[ "0.7129924", "0.68627024", "0.6643241", "0.6607214", "0.65567124", "0.65268075", "0.65125126", "0.6481612", "0.6481612", "0.6474144", "0.63531506", "0.63375723", "0.63190895", "0.62859344", "0.61237675", "0.6092153", "0.60118127", "0.6003794", "0.58916944", "0.5787757", "0.57...

0.689081

1

Convert rgb color space to hsv color space h: degree s,v: percentage

public static double[] rgbToHsv(int rgb[]) { double temp[] = new double[3]; double hsv[] = new double[3]; temp[0] = (double)rgb[0]/255; temp[1] = (double)rgb[1]/255; temp[2] = (double)rgb[2]/255; double max = Math.max(temp[0], Math.max(temp[1], temp[2])); double min = Math.min(temp[0], Math.min(temp[1], temp[2])); double delta = max-min; if (delta == 0) { hsv[0] = 0; } else if (max == temp[0]) { hsv[0] = (60*(temp[1]-temp[2])/delta)+360; while (hsv[0] >= 360) { hsv[0] -= 360; } } else if (max == temp[1]) { hsv[0] = 60 * (temp[2]-temp[0]) / delta + 120; } else if (max == temp[2]) { hsv[0] = 60 * (temp[0]-temp[1]) / delta + 240; } if (max == 0) { hsv[1] = 0; } else { hsv[1] = delta/max; } hsv[2] = max; return hsv; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static double[] hsvToRgb(double[] hsv) {\n\t\tdouble h = hsv[0];\n\t\tdouble s = hsv[1];\n\t\tdouble v = hsv[2];\n\t\tdouble r,g,b;\n\t\t\n\t\tif (s == 0) {\n\t\t\tr = v * 255;\n\t\t\tg = v * 255;\n\t\t\tb = v * 255;\n\t\t} else {\n\t\t\tdouble varH = h / 60;\n\t\t\tif ((int)varH == 6) {\n\t\t\t\tvarH = 0;\...

[ "0.6905241", "0.6846411", "0.68152815", "0.6618406", "0.6526629", "0.6507404", "0.64499885", "0.63663334", "0.61383796", "0.6113904", "0.6046668", "0.5965715", "0.5921343", "0.59153706", "0.5743641", "0.5712803", "0.5678187", "0.5646805", "0.56276023", "0.5548634", "0.5545582...

0.73325783

0

Convert from RGB color space to XYZ color space

public static double[] rgbToXyz(double[] rgb) { double r = rgb[0]/255; double g = rgb[0]/255; double b = rgb[0]/255; if (r > 0.04045) { r = Math.pow((r+0.055)/1.055, 2.4); } else { r = r/ 12.92; } if (g > 0.04045) { g = Math.pow((g+0.055)/1.055, 2.4); } else { g = g/ 12.92; } if (b > 0.04045) { b = Math.pow((b+0.055)/1.055, 2.4); } else { b = b/ 12.92; } r *= 100; g *= 100; b *= 100; double[] xyz = new double[3]; xyz[0] = r * 0.4124 + g * 0.3576 + b * 0.1805; xyz[1] = r * 0.2126 + g * 0.7152 + b * 0.0722; xyz[2] = r * 0.0193 + g * 0.1192 + b * 0.9505; return xyz; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "protected abstract void toSpace( float[] rgb );", "protected abstract float[] getRgbLut();", "public abstract RGBIColor toRGBColor();", "static private int[] YCbCrtoRGB(int[] YCbCr) {\n int[] RGB = new int[3];\n\n float Y = (float) YCbCr[0];\n float CB = (float) YCbCr[1];\n float ...

[ "0.6855772", "0.61641574", "0.5870734", "0.5809777", "0.5767378", "0.57059187", "0.5689943", "0.55988324", "0.5544058", "0.552904", "0.55266494", "0.5521459", "0.5496563", "0.5389459", "0.53595716", "0.5274974", "0.52711785", "0.52501786", "0.523635", "0.52266693", "0.5226333...

0.7175052

0

/ Display a prompt for the player's next move (see examples)

public void showNextMovePrompt() { if(model.isXTurn()){ resultLabel.setText("X's Turn"); } else{ resultLabel.setText("O's Turn"); } }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private void displayConfirmMove(int direction) {\n\t\t \n\t\t switch(direction) {\n\t\t \n\t\t\t //enter case 1\n\t\t\t case 1:\tSystem.out.println(\"\\nYou've successfully moved to the next Room.\\n\");\n\t\t\t \t\t\tbreak;\n\t\t\t \t\t\t\n\t\t\t //enter case 2\n\t\t\t case 2:\tSystem.out.println(\"\\nYo...

[ "0.70453066", "0.69903094", "0.682807", "0.6685021", "0.6621955", "0.6611249", "0.63251746", "0.61592686", "0.6158325", "0.61457646", "0.6095878", "0.60689974", "0.6068644", "0.60647947", "0.60510075", "0.6049253", "0.6039178", "0.6034848", "0.60299665", "0.60195297", "0.6013...

0.7885591

0

/ Display an error if input is invalid (see examples)

public void showInputError() { resultLabel.setText("Choose another space!"); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void invalid() {\r\n\t\tSystem.out.println(\"Please enter a valid input\");\r\n\t}", "public static String invalidInput() {\n return \"Invalid input!\";\n }", "public static void printErrorForInvalidCommand(String userInput) {\n System.out.println(\"Aw man! I am unable to \" + userInput...

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0.6968151

5

Creates new form PantallaPrincipalEnfermeria

public PantallaPrincipalEnfermeria(Usuario usuario) { initComponents(); this.setResizable(false); Image icon = new ImageIcon(getClass().getResource("/Vistas/imagenes/pinaricono.jpg")).getImage(); setIconImage(icon); this.usuario = usuario; controladorEventos = new ControladorCalendario(); personal = usuario.getPersonal(); controlador = new ControladorConsultarSugerencia(); this.setLocationRelativeTo(null); textodeBienvenida2.setText("Bienvenido " + usuario.getPersonal().getNombre() + " " + usuario.getPersonal().getApellido() + " Al area " + usuario.getPersonal().getArea().getNombreArea()); start(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public PantallaPrincipal() {\n initComponents();\n }", "public frm_tutor_subida_prueba() {\n }", "public frmPrincipal() {\n initComponents(); \n inicializar();\n \n }", "public VentanaPrincipal() {\n initComponents();\n\n idUsuariosControlador = Fabrica.getI...

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0.5787483

57

This method is called from within the constructor to initialize the form. WARNING: Do NOT modify this code. The content of this method is always regenerated by the Form Editor.

@SuppressWarnings("unchecked") // <editor-fold defaultstate="collapsed" desc="Generated Code">//GEN-BEGIN:initComponents private void initComponents() { jPanel8 = new Background("/Vistas/imagenes/fondoPantallaPrincipal.jpg"); jLabel11 = new javax.swing.JLabel(); textodeBienvenida2 = new javax.swing.JLabel(); jLabel12 = new javax.swing.JLabel(); jScrollPane4 = new javax.swing.JScrollPane(); jPanel9 = new Background("/Vistas/imagenes/fondoPantallaPrincipaljpanel2.jpg"); jLabel13 = new javax.swing.JLabel(); jLabel14 = new javax.swing.JLabel(); jLabel15 = new javax.swing.JLabel(); jButton5 = new javax.swing.JButton(); jButton6 = new javax.swing.JButton(); jLabel2 = new javax.swing.JLabel(); jScrollPane2 = new javax.swing.JScrollPane(); jPanel5 = new Background("/Vistas/imagenes/fondoPantallaPrincipaljpanel2.jpg"); jLabel7 = new javax.swing.JLabel(); jCalendar1 = new com.toedter.calendar.JCalendar(); jButton7 = new javax.swing.JButton(); jButton4 = new javax.swing.JButton(); jLabel8 = new javax.swing.JLabel(); botonRealizarInterconsulta = new javax.swing.JButton(); jMenuBar1 = new javax.swing.JMenuBar(); jMenu1 = new javax.swing.JMenu(); jMenuItem7 = new javax.swing.JMenuItem(); setDefaultCloseOperation(javax.swing.WindowConstants.EXIT_ON_CLOSE); setMaximumSize(new java.awt.Dimension(1110, 832)); jPanel8.setMaximumSize(new java.awt.Dimension(1110, 950)); jPanel8.setPreferredSize(new java.awt.Dimension(1280, 800)); jLabel11.setFont(new java.awt.Font("Arial", 1, 36)); // NOI18N jLabel11.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel11.setText("Sistema Interno"); textodeBienvenida2.setFont(new java.awt.Font("Andalus", 1, 24)); // NOI18N textodeBienvenida2.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel12.setFont(new java.awt.Font("Tahoma", 1, 14)); // NOI18N jLabel12.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel12.setText("Lista de avisos de pacientes a revisar"); jScrollPane4.setHorizontalScrollBarPolicy(javax.swing.ScrollPaneConstants.HORIZONTAL_SCROLLBAR_NEVER); jScrollPane4.setPreferredSize(new java.awt.Dimension(908, 195)); jPanel9.setPreferredSize(new java.awt.Dimension(908, 215)); javax.swing.GroupLayout jPanel9Layout = new javax.swing.GroupLayout(jPanel9); jPanel9.setLayout(jPanel9Layout); jPanel9Layout.setHorizontalGroup( jPanel9Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGap(0, 908, Short.MAX_VALUE) ); jPanel9Layout.setVerticalGroup( jPanel9Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGap(0, 215, Short.MAX_VALUE) ); jScrollPane4.setViewportView(jPanel9); jLabel13.setFont(new java.awt.Font("Tahoma", 0, 14)); // NOI18N jLabel13.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel13.setText("Menu principal"); jLabel14.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel14.setText("Realizar reporte de enfermeria"); jLabel15.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel15.setText("Consultar historial clinico del paciente"); jButton5.setIcon(new javax.swing.ImageIcon(getClass().getResource("/Vistas/imagenes/informe.png"))); // NOI18N jButton5.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jButton5ActionPerformed(evt); } }); jButton6.setIcon(new javax.swing.ImageIcon(getClass().getResource("/Vistas/imagenes/historialclinico.jpg"))); // NOI18N jButton6.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jButton6ActionPerformed(evt); } }); jLabel2.setFont(new java.awt.Font("Tahoma", 1, 14)); // NOI18N jLabel2.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel2.setText("Lista de sugerencias"); jScrollPane2.setHorizontalScrollBarPolicy(javax.swing.ScrollPaneConstants.HORIZONTAL_SCROLLBAR_NEVER); javax.swing.GroupLayout jPanel5Layout = new javax.swing.GroupLayout(jPanel5); jPanel5.setLayout(jPanel5Layout); jPanel5Layout.setHorizontalGroup( jPanel5Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGap(0, 311, Short.MAX_VALUE) ); jPanel5Layout.setVerticalGroup( jPanel5Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGap(0, 387, Short.MAX_VALUE) ); jScrollPane2.setViewportView(jPanel5); jLabel7.setFont(new java.awt.Font("Tahoma", 1, 14)); // NOI18N jLabel7.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel7.setText("Calendario"); jCalendar1.setMaximumSize(new java.awt.Dimension(184, 157)); jCalendar1.setMinimumSize(new java.awt.Dimension(1, 1)); jButton7.setFont(new java.awt.Font("Tahoma", 0, 9)); // NOI18N jButton7.setText("Consultar evento"); jButton7.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jButton7ActionPerformed(evt); } }); jButton4.setIcon(new javax.swing.ImageIcon(getClass().getResource("/Vistas/imagenes/organizarEnfermeria.jpg"))); // NOI18N jButton4.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jButton4ActionPerformed(evt); } }); jLabel8.setHorizontalAlignment(javax.swing.SwingConstants.CENTER); jLabel8.setText("Organizar Evento en calendario."); botonRealizarInterconsulta.setText("Realizar sugerencia"); botonRealizarInterconsulta.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { botonRealizarInterconsultaActionPerformed(evt); } }); javax.swing.GroupLayout jPanel8Layout = new javax.swing.GroupLayout(jPanel8); jPanel8.setLayout(jPanel8Layout); jPanel8Layout.setHorizontalGroup( jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel11, javax.swing.GroupLayout.PREFERRED_SIZE, 1070, javax.swing.GroupLayout.PREFERRED_SIZE) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(4, 4, 4) .addComponent(textodeBienvenida2, javax.swing.GroupLayout.PREFERRED_SIZE, 1060, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(30, 30, 30) .addComponent(jLabel12, javax.swing.GroupLayout.PREFERRED_SIZE, 670, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(10, 10, 10) .addComponent(jLabel7, javax.swing.GroupLayout.PREFERRED_SIZE, 400, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(29, 29, 29) .addComponent(jScrollPane4, javax.swing.GroupLayout.PREFERRED_SIZE, 670, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(11, 11, 11) .addComponent(jCalendar1, javax.swing.GroupLayout.PREFERRED_SIZE, 400, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(860, 860, 860) .addComponent(jButton7)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(770, 770, 770) .addComponent(jLabel2, javax.swing.GroupLayout.PREFERRED_SIZE, 305, javax.swing.GroupLayout.PREFERRED_SIZE))) .addGap(0, 0, Short.MAX_VALUE)) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(4, 4, 4) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel13, javax.swing.GroupLayout.PREFERRED_SIZE, 760, javax.swing.GroupLayout.PREFERRED_SIZE) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(20, 20, 20) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addComponent(jButton5, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(66, 66, 66) .addComponent(jButton6, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(50, 50, 50) .addComponent(jButton4, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGroup(jPanel8Layout.createSequentialGroup() .addComponent(jLabel14, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(66, 66, 66) .addComponent(jLabel15, javax.swing.GroupLayout.PREFERRED_SIZE, 214, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(36, 36, 36) .addComponent(jLabel8, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE))))) .addGap(18, 18, 18) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(botonRealizarInterconsulta, javax.swing.GroupLayout.PREFERRED_SIZE, 310, javax.swing.GroupLayout.PREFERRED_SIZE) .addComponent(jScrollPane2, javax.swing.GroupLayout.PREFERRED_SIZE, 305, javax.swing.GroupLayout.PREFERRED_SIZE)) .addContainerGap(javax.swing.GroupLayout.DEFAULT_SIZE, Short.MAX_VALUE)) ); jPanel8Layout.setVerticalGroup( jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addComponent(jLabel11, javax.swing.GroupLayout.PREFERRED_SIZE, 40, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(6, 6, 6) .addComponent(textodeBienvenida2, javax.swing.GroupLayout.PREFERRED_SIZE, 19, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(5, 5, 5) .addComponent(jLabel2) .addGap(8, 8, 8) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addComponent(jLabel13) .addGap(38, 38, 38) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(5, 5, 5) .addComponent(jButton5, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE)) .addComponent(jButton6, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE) .addComponent(jButton4, javax.swing.GroupLayout.PREFERRED_SIZE, 200, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGap(11, 11, 11) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel14) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(4, 4, 4) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel15) .addComponent(jLabel8))))) .addComponent(jScrollPane2, javax.swing.GroupLayout.PREFERRED_SIZE, 389, javax.swing.GroupLayout.PREFERRED_SIZE)) .addPreferredGap(javax.swing.LayoutStyle.ComponentPlacement.RELATED) .addComponent(botonRealizarInterconsulta) .addGap(7, 7, 7) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jLabel12) .addComponent(jLabel7)) .addGap(3, 3, 3) .addGroup(jPanel8Layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(jPanel8Layout.createSequentialGroup() .addGap(1, 1, 1) .addComponent(jScrollPane4, javax.swing.GroupLayout.PREFERRED_SIZE, 210, javax.swing.GroupLayout.PREFERRED_SIZE)) .addComponent(jCalendar1, javax.swing.GroupLayout.PREFERRED_SIZE, 222, javax.swing.GroupLayout.PREFERRED_SIZE)) .addGap(8, 8, 8) .addComponent(jButton7, javax.swing.GroupLayout.PREFERRED_SIZE, 30, javax.swing.GroupLayout.PREFERRED_SIZE)) ); jMenu1.setText("Menu"); jMenuItem7.setText("Cerrar Sesion"); jMenuItem7.addActionListener(new java.awt.event.ActionListener() { public void actionPerformed(java.awt.event.ActionEvent evt) { jMenuItem7ActionPerformed(evt); } }); jMenu1.add(jMenuItem7); jMenuBar1.add(jMenu1); setJMenuBar(jMenuBar1); javax.swing.GroupLayout layout = new javax.swing.GroupLayout(getContentPane()); getContentPane().setLayout(layout); layout.setHorizontalGroup( layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addComponent(jPanel8, javax.swing.GroupLayout.DEFAULT_SIZE, 1110, Short.MAX_VALUE) ); layout.setVerticalGroup( layout.createParallelGroup(javax.swing.GroupLayout.Alignment.LEADING) .addGroup(layout.createSequentialGroup() .addComponent(jPanel8, javax.swing.GroupLayout.PREFERRED_SIZE, javax.swing.GroupLayout.DEFAULT_SIZE, javax.swing.GroupLayout.PREFERRED_SIZE) .addGap(0, 8, Short.MAX_VALUE)) ); pack(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public Form() {\n initComponents();\n }", "public MainForm() {\n initComponents();\n }", "public MainForm() {\n initComponents();\n }", "public MainForm() {\n initComponents();\n }", "public frmRectangulo() {\n initComponents();\n }", "public form() {\n ...

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0.0

-1

hasa Launch the application.

public static void main(String[] args) { EventQueue.invokeLater(new Runnable() { public void run() { try { AtmLogin frame = new AtmLogin(); frame.setVisible(true); } catch (Exception e) { e.printStackTrace(); } } }); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

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0.0

-1

Default constructor for objects of class PersonWithZip

public PersonWithZip(String firstName, String lastName, int zipCode) { this.firstName = firstName; this.lastName = lastName; this.zipCode = zipCode; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

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0.7746075

0

public, private, protected, default

public static void main(String[] args) { Scope obj = new Scope(); obj.test1(); obj.test2(); Scope.test2(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

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0.0

-1

What happens if I uncomment this?

@Override public boolean equals(Object obj) { if (super.equals(obj)) return true; if (!obj.getClass().equals(this.getClass())) return false; Point p = (Point) obj; if ((this.x == p.x) && (this.y == p.y)) { return true; } return false; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public final void mo51373a() {\n }", "private void m50366E() {\n }", "public final void mo91715d() {\n }", "@Override\n\tpublic void sacrifier() {\n\t\t\n\t}", "public boolean method_4132() {\n return false;\n }", "public boolean method_2453() {\r\n return false;\r\n }", "pub...

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0.0

-1

Provides a synchronous method of connecting to a server

public void connect();

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static void doConnect() {\r\n\t\tlogger.info(\"Connecting to server......\");\r\n\t\tChannelFuture future = null;\r\n\t\ttry {\r\n\t\t\tfuture = bootstrap.connect(new InetSocketAddress(host, port));\r\n\t\t\tfuture.addListener(channelFutureListener);\r\n\r\n\t\t} catch (Exception e) {\r\n\t\t\te.printStackT...

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0.59366494

29

Disconnects the user from the server

public void disconnect();

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "void onDisconnect(User user);", "public void disconnectUser(User user) {\n connect();\n\n try {\n doStream.writeUTF(\"DISCONNECT\");\n doStream.writeUTF(user.getUserName());\n } catch (IOException e) {\n e.printStackTrace();\n }\n\n disconnect()...

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0.662966

37

Is null. Test if the list L is null.

protected static <C> boolean isNull(LIST<C> L) { if ( L == null || L.list == null ) { return true; } return false; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> boolean isEmpty(LIST<C> L) {\n if ( isNull( L ) || L.list.isEmpty() ) {\n return true;\n }\n if ( L.iter != null ) {\n return ! L.iter.hasNext();\n }\n return false;\n }", "public boolean checkListNull() {\n\t\treturn ((drawerItems == null) ? tru...

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0.8266369

0

Is empty. Test if the list L is empty.

public static <C> boolean isEmpty(LIST<C> L) { if ( isNull( L ) || L.list.isEmpty() ) { return true; } if ( L.iter != null ) { return ! L.iter.hasNext(); } return false; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public boolean empty() {\n\t\treturn list.size() == 0;\n\t}", "public boolean isEmpty() {\r\n\t\treturn al.listSize == 0;\r\n\t}", "public boolean isEmpty() {\n\t\tif (l.getHead() == null)\n\t\t\treturn true;\n\t\telse\n\t\t\treturn false;\n\t}", "@Override\n\tpublic boolean isEmpty() {\n\t\treturn list.isEm...

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0.82103825

0

Length. L is a list. Returns length(L).

public static <C> int LENGTH(LIST<C> L) { if ( isNull( L ) ) { return 0; } return L.list.size(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public int length() {\n int ret_val = 1;\n LinkedList i = this;\n\n while (i.next != null) {\n i = i.next;\n ret_val++;\n }\n return ret_val;\n }", "public int length()\n {\n if(integerList == null)\n return 0;\n else\n ...

[ "0.7560005", "0.7465551", "0.722733", "0.71681535", "0.71616167", "0.71373314", "0.711873", "0.70766425", "0.70754635", "0.6964959", "0.6963664", "0.68816614", "0.6876111", "0.68549615", "0.68470615", "0.6800773", "0.67994434", "0.67808616", "0.6750099", "0.6745024", "0.67280...

0.83824116

0

First. L is a nonnull list. a is the first element of L.

public static <C> C FIRST(LIST<C> L) { if ( isNull( L ) ) { return null; } if ( L.iter != null ) { if ( L.iter.hasNext() ) { return L.iter.next(); } else { L.iter = null; return null; } } return L.list.getFirst(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> void SFIRST(LIST<C> L, C a) {\n if ( ! isNull( L ) ) {\n L.list.set(0,a);\n }\n }", "public A getFirst() { return first; }", "public static <T> T getFirst(List<T> list) {\n\t\treturn list != null && !list.isEmpty() ? list.get(0) : null;\n\t}", "protected T getFi...

[ "0.7846548", "0.68014914", "0.6682725", "0.651607", "0.64689815", "0.6391207", "0.63318765", "0.62992615", "0.6250293", "0.62256515", "0.6216466", "0.618322", "0.6130841", "0.6099694", "0.60825443", "0.60598195", "0.603255", "0.6020179", "0.59836674", "0.5973045", "0.59713507...

0.73293406

1

Reductum. L is a nonnull list. Returns the reductum of L.

public static <C> LIST<C> RED(LIST<C> L) { if ( isNull( L ) ) { return L; } LIST<C> LP = L; // ok: LP = new LIST<C>( L.list.subList(1,L.list.size()) ); if ( L.iter == null ) { LP = new LIST<C>( L.list ); LP.iter = LP.list.iterator(); C x = LP.iter.next(); //System.out.println("x = " + x); } // else noop return LP; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static IntList incrListR(IntList L, int x) {\n if (L == null) {\n return null;\n }\n //each recursive run will create a new IntList until L.rest.rest.rest... = null meaning reaching the last item in\n //the original list\n return new IntList(L.first + x, incrLis...

[ "0.56394637", "0.5558543", "0.55196357", "0.52432096", "0.5226929", "0.5212463", "0.51823825", "0.5172757", "0.5156533", "0.51019496", "0.5070165", "0.5063125", "0.5063125", "0.5021543", "0.5001901", "0.49995425", "0.49880746", "0.49601316", "0.49587783", "0.4945828", "0.4921...

0.544393

3

Set first. L is a nonnull list. a is a list. The first element of L is changed to a.

public static <C> void SFIRST(LIST<C> L, C a) { if ( ! isNull( L ) ) { L.list.set(0,a); } }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void addFirst(Comparable o){\n\t\t head=new ListElement(o,head);\n\t }", "@Override\r\n\t\tpublic E setFirst(E first) {\n\t\t\treturn pair.setFirst(first);\r\n\t\t}", "public void addFirst(T t) {\n if (size == elements.length) // checks potential overflow\n ensureCapacity(); // inc...

[ "0.62781423", "0.6132157", "0.6093037", "0.6055526", "0.6041971", "0.5942738", "0.59338295", "0.591775", "0.5865389", "0.5807783", "0.57773554", "0.57515025", "0.5741566", "0.57402855", "0.5728336", "0.57217056", "0.56890744", "0.56616724", "0.5657371", "0.5549167", "0.552764...

0.8328525

0

Set reductum. L is a nonnull list. LP is a list. The reductum of L is changed to LP.

public static <C> void SRED(LIST<C> L, LIST<C> LP) { if ( ! isNull( L ) ) { L.list.subList(1,L.list.size()).clear(); if ( ! isEmpty( LP ) ) { L.list.addAll( LP.list ); } } }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "static void opration(){ \n System.out.println(\"Final veriable value l:\"+l+\"\\nj:\"+j);\n // l=l+2; erorr it can't change it's value\n \n }", "public static IntList dincrList(IntList L, int x) { //iteratively\n /* Your code here. */\n IntList p = L;\n ...

[ "0.5922759", "0.585279", "0.57712793", "0.5437019", "0.54314846", "0.53938997", "0.53141844", "0.5282478", "0.5275923", "0.523078", "0.5199114", "0.5195297", "0.5170128", "0.5159032", "0.5138073", "0.5137042", "0.5126499", "0.5094191", "0.50859815", "0.5068944", "0.50663465",...

0.62285423

0

Composition. a is an object. L is a list. Returns the composition of a and L.

public static <C> LIST<C> COMP(C a, LIST<C> L) { LIST<C> LP = L; if ( L == null ) { LP = new LIST<C>(); } LP.list.addFirst( a ); return LP; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "T compose(AbsonObject abson);", "public static <C> LIST<C> COMP3(C a, C b, C c, LIST<C> L) {\n LIST<C> LP = L;\n if ( L == null ) {\n LP = new LIST<C>();\n }\n LP.list.addFirst( c );\n LP.list.addFirst( b );\n LP.list.addFirst( a );\n return LP;\n }",...

[ "0.6243726", "0.58172107", "0.5556377", "0.5490528", "0.52791566", "0.5025056", "0.4994038", "0.4918212", "0.4918212", "0.49003032", "0.48715198", "0.48396274", "0.48327363", "0.48236364", "0.47565156", "0.47477186", "0.46774486", "0.46326098", "0.46198252", "0.46181813", "0....

0.5914617

1

Reductum. A is a list. i is a nonnegative betainteger not less than LENGTH(A). B=A, if i=0. Otherwise, B is the ith reductum of A.

public static <C> LIST<C> REDUCT(LIST<C> L, int i) { LIST<C> LP = null; if ( ! isNull( L ) ) { LP = new LIST<C>( L.list.subList(i,L.list.size()) ); } return LP; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public ArrayList<Integer> repeatedNumber(final List<Integer> a) {\n long sum = 0, ssum = 0;\n for(int i = 0 ; i < a.size(); i++){\n long curi = i+1; // importnt to prevent overflow.\n long curn = a.get(i); // importnt to prevent overflow.\n sum += curn - curi;\n ...

[ "0.6037224", "0.54052216", "0.53711635", "0.5364657", "0.5350913", "0.5340524", "0.5289646", "0.5247846", "0.5184684", "0.5115846", "0.509741", "0.5080157", "0.50783485", "0.4998411", "0.49600595", "0.48838308", "0.48704815", "0.48451123", "0.4824658", "0.48144388", "0.479777...

0.5256041

7

Reductum 2. L is a list of length 2 or more. LP=RED(RED(L)).

public static <C> LIST<C> RED2(LIST<C> L, int i) { LIST<C> LP = null; if ( ! isNull( L ) ) { LP = new LIST<C>( L.list.subList(2,L.list.size()) ); } return LP; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> LIST<C> RED(LIST<C> L) {\n if ( isNull( L ) ) {\n return L;\n }\n LIST<C> LP = L;\n // ok: LP = new LIST<C>( L.list.subList(1,L.list.size()) );\n if ( L.iter == null ) {\n LP = new LIST<C>( L.list );\n LP.iter = LP.list.iterator();\n ...

[ "0.6483622", "0.62686694", "0.6068899", "0.5727168", "0.5691414", "0.5511055", "0.54217637", "0.53945816", "0.53456753", "0.526925", "0.5266473", "0.52168024", "0.52168024", "0.52144957", "0.5169757", "0.51426494", "0.5140016", "0.51361877", "0.51347154", "0.51258534", "0.512...

0.67684364

0

Reductum 3. L is a list of length 3 or more. M is the third reductum of L.

public static <C> LIST<C> RED3(LIST<C> L, int i) { LIST<C> LP = null; if ( ! isNull( L ) ) { LP = new LIST<C>( L.list.subList(3,L.list.size()) ); } return LP; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static int stepThree(ArrayList<Integer> list) {\n\t\t\n\t\tint sum = 0;\n\t\tint passNumber = 0;\n\t\t\n\t\t//iterate through arraylist from right to left\n\t\tfor(int i = list.size()-1; i >= 0; i--) {\n\n\t\t\tint num = list.get(i);\n\t\t\tpassNumber++;\n\t\t\t\n\t\t\t//sum every other number beginning wit...

[ "0.5882034", "0.56357807", "0.55846566", "0.55714077", "0.55136466", "0.5422189", "0.5341031", "0.5320821", "0.5303391", "0.52888006", "0.52437246", "0.5215795", "0.52127576", "0.52093107", "0.51563114", "0.51339304", "0.509821", "0.5068483", "0.50513566", "0.5045004", "0.504...

0.555088

4

Reductum 4. L is a list of length 4 or more. M is the fourth reductum of L.

public static <C> LIST<C> RED4(LIST<C> L, int i) { LIST<C> LP = null; if ( ! isNull( L ) ) { LP = new LIST<C>( L.list.subList(42,L.list.size()) ); } return LP; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "protected void reduce4( T mrt ) {\n // Reduce any AppendableVecs\n if( _noutputs > 0 )\n for( int i=0; i<_appendables.length; i++ )\n _appendables[i].reduce(mrt._appendables[i]);\n // User's reduction\n reduce(mrt);\n }", "int main()\n{\n int n;\n cin >>n;\n int m = 11;\n for(int i=0...

[ "0.5725322", "0.57090926", "0.57021654", "0.55133796", "0.53472257", "0.5310767", "0.5152118", "0.5141349", "0.5138144", "0.51298445", "0.51206523", "0.51042825", "0.5085492", "0.5072985", "0.50682867", "0.5031558", "0.49809492", "0.49793038", "0.49735427", "0.49231872", "0.4...

0.5091785

12

Clock. Returns the current CPU clock reading in milliseconds. Intervalls are system dependent.

public static long CLOCK() { return java.lang.System.currentTimeMillis(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public double readClock()\n {\n return (System.currentTimeMillis() - startingTime) / 1000.0;\n }", "public double readClock()\n {\n\tif (frameByFrameClock) {\n\t return frameNumber * (1/30.0f);\n\t} else {\n\t long elapsed;\n\t \n\t if (drawAnimation.value) {\n\t\t// Time during anima...

[ "0.77281773", "0.7401253", "0.7107181", "0.6964717", "0.6919307", "0.6744156", "0.6633479", "0.6542255", "0.64850104", "0.6453351", "0.64501506", "0.64179105", "0.63931465", "0.63151205", "0.63001776", "0.6296023", "0.6253491", "0.6240508", "0.62323755", "0.62320787", "0.6213...

0.7682375

1

List element. A is a list. 1 le i le LENGTH(A). a is the ith element of A.

public static <C> C LELT(LIST<C> L, int i) { C x = null; if ( ! isNull( L ) ) { x = L.list.get(i); } return x; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private static void retriveElementInArrayList() {\n\t\tLinkedList<Integer> list = new LinkedList<Integer>();\n\t\tlist.add(10);\n\t\tlist.add(20);\n\t\tlist.add(30);\n\t\tlist.add(40);\n\t\tlist.add(50);\n\t\tSystem.out.println(\"LinkedList is : \" + list);\n\t\tSystem.out.println(list.get(3));\n\n\t}", "public ...

[ "0.6294271", "0.6247621", "0.6237301", "0.60004824", "0.6000365", "0.59417504", "0.5785549", "0.5678938", "0.56644505", "0.5589501", "0.5437808", "0.53843784", "0.5364543", "0.53418666", "0.53300136", "0.53241336", "0.53114736", "0.52887255", "0.5262357", "0.525275", "0.52441...

0.0

-1

Second. L is a list of length 2 or more. a is the second element of L.

public static <C> C SECOND(LIST<C> L) { C x = null; if ( ! isNull( L ) ) { x = L.list.get(2); } return x; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> void SFIRST(LIST<C> L, C a) {\n if ( ! isNull( L ) ) {\n L.list.set(0,a);\n }\n }", "public static <C> LIST<C> LIST2(C a, C b) {\n LIST<C> L = new LIST<C>();\n L.list.addFirst( b );\n L.list.addFirst( a );\n return L;\n }", "public No...

[ "0.6153564", "0.5994707", "0.5694097", "0.5685094", "0.5677983", "0.56449807", "0.5499404", "0.54988337", "0.5491624", "0.53914577", "0.53880346", "0.53349257", "0.53230995", "0.52917874", "0.52526295", "0.52371174", "0.52371174", "0.51902723", "0.5175224", "0.5161644", "0.51...

0.68171346

0

Third. L is a list of length 3 or more. a is the third element of L.

public static <C> C THIRD(LIST<C> L) { C x = null; if ( ! isNull( L ) ) { x = L.list.get(3); } return x; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> LIST<C> LIST3(C a, C b, C c) {\n LIST<C> L = new LIST<C>();\n L.list.addFirst( c );\n L.list.addFirst( b );\n L.list.addFirst( a );\n return L;\n }", "public static <C> LIST<C> RED3(LIST<C> L, int i) {\n LIST<C> LP = null;\n if ( ! isNull( L )...

[ "0.648155", "0.6417614", "0.6026944", "0.594748", "0.58115107", "0.57039595", "0.567752", "0.56734467", "0.5653802", "0.5532257", "0.5527946", "0.5475109", "0.54111236", "0.53862464", "0.53478974", "0.5316013", "0.5275119", "0.52714425", "0.52713686", "0.5262269", "0.5242195"...

0.6768725

0

Fourth. L is a list of length 4 or more. a is the fourth element of L.

public static <C> C FOURTH(LIST<C> L) { C x = null; if ( ! isNull( L ) ) { x = L.list.get(4); } return x; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> LIST<C> LIST4(C a, C b, C c, C d) {\n LIST<C> L = new LIST<C>();\n L.list.addFirst( d );\n L.list.addFirst( c );\n L.list.addFirst( b );\n L.list.addFirst( a );\n return L;\n }", "public static void m4(ArrayList<? super Integer> al)\n\t{\n\t\t//al.ad...

[ "0.6361381", "0.5953475", "0.58533424", "0.5747742", "0.56943446", "0.56608933", "0.5648718", "0.56334627", "0.5307459", "0.5242253", "0.5235607", "0.52091426", "0.51670134", "0.512797", "0.50844395", "0.5076924", "0.5070704", "0.50634724", "0.504553", "0.50155795", "0.499819...

0.6264394

1

Constructive concatenation. L1 and L2 are lists. L is the concatenation of L1 and L2. The list L is constructed.

public static <C> LIST<C> CCONC(LIST<C> L1, LIST<C> L2) { if ( isNull( L1 ) ) { return L2; } if ( isNull( L2 ) ) { return L1; } LinkedList<C> list = new LinkedList<C>( L1.list ); list.addAll( L2.list ); return new LIST<C>( list ); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "static List<StateRef> append(List<StateRef> l1, List<StateRef> l2) {\n l1.addAll(l2);\n return l1;\n }", "public static <C> LIST<C> CONC(LIST<C> L1, LIST<C> L2) {\n if ( isNull( L1 ) ) {\n return L2;\n }\n if ( isNull( L2 ) ) {\n return L1;\n }\n ...

[ "0.69484395", "0.6859995", "0.64343953", "0.63054436", "0.61534774", "0.6002471", "0.59152395", "0.58914375", "0.58914375", "0.5888656", "0.58396935", "0.5703513", "0.5699124", "0.56711274", "0.5581037", "0.5572743", "0.55308497", "0.5464244", "0.5456919", "0.5446202", "0.543...

0.6505443

2

Constructive inverse. L is a list. M=INV(L). M is constructed using COMP.

public static <C> LIST<C> CINV(LIST<C> L) { if ( isNull( L ) ) { return L; } LinkedList<C> list = new LinkedList<C>(L.list); Collections.reverse( list ); return new LIST<C>( list ); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> LIST<C> INV(LIST<C> L) {\n if ( isNull( L ) ) {\n return L;\n }\n Collections.reverse( L.list );\n return L;\n }", "public Matrix inverse() {\n int n = L.getNrows();\n Matrix inv = Matrix.identity(n);\n solve(inv);\n return in...

[ "0.6835238", "0.6669466", "0.63580745", "0.6350922", "0.6093458", "0.5946079", "0.5832552", "0.58227986", "0.57891285", "0.5761281", "0.57512665", "0.57275313", "0.5674034", "0.56292635", "0.55051655", "0.5472056", "0.5444921", "0.544134", "0.54335636", "0.5396351", "0.538208...

0.71771574

0

Inverse. L is a list. The inverse of L is returned. The list L is modified.

public static <C> LIST<C> INV(LIST<C> L) { if ( isNull( L ) ) { return L; } Collections.reverse( L.list ); return L; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public Matrix inverse() {\n int n = L.getNrows();\n Matrix inv = Matrix.identity(n);\n solve(inv);\n return inv;\n }", "public Matrix inverse() {\n\t\tMatrix a = copy();\n\t\tif (a.M != a.N) {\n\t\t\tthrow new RuntimeException(\"This matrix is not square!\");\n\t\t}\n\t\tMatrix i =...

[ "0.7564506", "0.6757969", "0.67244816", "0.64072543", "0.63701767", "0.6134623", "0.6091005", "0.59330726", "0.59237045", "0.59163076", "0.59013665", "0.5878698", "0.58578986", "0.58323085", "0.58096194", "0.5794093", "0.57905334", "0.57629704", "0.5736586", "0.56793", "0.567...

0.7188756

1

Composition 2. a and b are objects. L is a list. M=COMP(a,COMP(b,L)).

public static <C> LIST<C> COMP2(C a, C b, LIST<C> L) { LIST<C> LP = L; if ( L == null ) { LP = new LIST<C>(); } LP.list.addFirst( b ); LP.list.addFirst( a ); return LP; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> LIST<C> COMP3(C a, C b, C c, LIST<C> L) {\n LIST<C> LP = L;\n if ( L == null ) {\n LP = new LIST<C>();\n }\n LP.list.addFirst( c );\n LP.list.addFirst( b );\n LP.list.addFirst( a );\n return LP;\n }", "public static <C> LIST<C> COMP(...

[ "0.6101663", "0.6070566", "0.5877071", "0.5872279", "0.5499033", "0.5468141", "0.5381728", "0.5342602", "0.52525645", "0.5249411", "0.5186162", "0.51689583", "0.5099442", "0.50707626", "0.5041345", "0.5030202", "0.5023685", "0.5000756", "0.49871615", "0.49679995", "0.4967619"...

0.6768915

0

Composition 3. a1, a2 and a3 are objects. L is a list. M=COMP(a1,COMP(a2,COMP(a3,L))).

public static <C> LIST<C> COMP3(C a, C b, C c, LIST<C> L) { LIST<C> LP = L; if ( L == null ) { LP = new LIST<C>(); } LP.list.addFirst( c ); LP.list.addFirst( b ); LP.list.addFirst( a ); return LP; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> LIST<C> COMP3(C a, C b, C c, C d, LIST<C> L) {\n LIST<C> LP = L;\n if ( L == null ) {\n LP = new LIST<C>();\n }\n LP.list.addFirst( d );\n LP.list.addFirst( c );\n LP.list.addFirst( b );\n LP.list.addFirst( a );\n return LP;\n }...

[ "0.6334946", "0.5670821", "0.5169463", "0.50813574", "0.50300276", "0.50034386", "0.49219579", "0.48779383", "0.4876558", "0.48477435", "0.48330453", "0.47945538", "0.47922415", "0.47652495", "0.47227395", "0.47074777", "0.46889466", "0.46507242", "0.46479303", "0.46464252", ...

0.65274453

0

Composition 4. a1, a2, a3 and a4 are objects. L is a list. M=COMP(a1,COMP(a2,COMP(a3,COMP(a4,l)))).

public static <C> LIST<C> COMP3(C a, C b, C c, C d, LIST<C> L) { LIST<C> LP = L; if ( L == null ) { LP = new LIST<C>(); } LP.list.addFirst( d ); LP.list.addFirst( c ); LP.list.addFirst( b ); LP.list.addFirst( a ); return LP; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "T compose(AbsonObject abson);", "static void m11180a(List<Component<?>> list) {\n Set<C3246b> c = m11182c(list);\n Set<C3246b> b = m11181b(c);\n int i = 0;\n while (!b.isEmpty()) {\n C3246b next = b.iterator().next();\n b.remove(next);\n i++;\n ...

[ "0.5363483", "0.5201708", "0.5178615", "0.49331474", "0.48113453", "0.4809156", "0.48059472", "0.47542253", "0.47213256", "0.46850678", "0.46812648", "0.46792457", "0.46697402", "0.4624743", "0.46167877", "0.46139616", "0.4608819", "0.4588922", "0.4582169", "0.4571173", "0.45...

0.59165955

0

Concatenation. L1 and L2 are lists. L=CONC(L1,L2). The list L1 is modified.

public static <C> LIST<C> CONC(LIST<C> L1, LIST<C> L2) { if ( isNull( L1 ) ) { return L2; } if ( isNull( L2 ) ) { return L1; } L1.list.addAll( L2.list ); return L1; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> LIST<C> CCONC(LIST<C> L1, LIST<C> L2) {\n if ( isNull( L1 ) ) {\n return L2;\n }\n if ( isNull( L2 ) ) {\n return L1;\n }\n LinkedList<C> list = new LinkedList<C>( L1.list );\n list.addAll( L2.list );\n return new LIST<C>( list ...

[ "0.7436265", "0.5783339", "0.57699883", "0.56459516", "0.56148434", "0.55010927", "0.52782834", "0.5272584", "0.526601", "0.5257537", "0.5253442", "0.51780933", "0.5172641", "0.5140439", "0.5118318", "0.5056666", "0.5039516", "0.50333786", "0.50333786", "0.5033124", "0.500409...

0.71113074

1

Equal. a and b are objects. t=true if a and b are equal and otherwise t=false.

public static <C> boolean EQUAL(LIST<C> L1, LIST<C> L2) { if ( isNull( L1 ) ) { return isNull(L2); } if ( isNull( L2 ) ) { return isNull(L1); } return L1.list.equals( L2.list ); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private static final boolean equal(Object a, Object b) {\n if (a == b)\n return true;\n if (a == null)\n return false;\n if (b == null)\n return false;\n return a.equals(b);\n }", "public static boolean equal(Object a, Object b) {\r\n\t\tif (a == b)...

[ "0.747396", "0.7235944", "0.7174194", "0.71322244", "0.7020478", "0.6928014", "0.68555593", "0.6772668", "0.6768714", "0.6721156", "0.67174655", "0.6701181", "0.6665632", "0.66653264", "0.6663617", "0.6662005", "0.661443", "0.6594803", "0.6591346", "0.65650266", "0.6562761", ...

0.0

-1

Extent. L is a list. n the number of cells of L.

public static <C> int EXTENT(LIST<C> L) { if ( isNull( L ) ) { return 0; } int n = 0; for ( C a : L.list ) { if ( a instanceof LIST ) { LIST<C> LP = null; try { LP = (LIST<C>) a; } catch(ClassCastException e) { } if ( isNull( LP ) ) { n++; } else { n += EXTENT( LP ); } } else { n++; } } return n; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void setExtent(int n) {\r\n\r\n int newExtent = Math.max(0, n);\r\n int value = getValue();\r\n if (value + newExtent > max) {\r\n\r\n newExtent = max - value;\r\n\r\n }\r\n setRangeProperties(value, newExtent, min, max, isAdjusting);\r\n }", "private stati...

[ "0.59436387", "0.5293044", "0.51633334", "0.50700843", "0.50336885", "0.49174008", "0.49100474", "0.48886782", "0.4801832", "0.47672066", "0.4757295", "0.4749807", "0.47475857", "0.4745389", "0.47300404", "0.4727076", "0.47158173", "0.4693661", "0.46867257", "0.4682313", "0.4...

0.5172792

2

List, 1 element. a in an object. L is the list (a).

public static <C> LIST<C> LIST1(C a) { LIST<C> L = new LIST<C>(); L.list.addFirst( a ); return L; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "@Override\n\tpublic void acheter(List<Object> la) {\n\t\t\n\t}", "public List getList1(List<String> list,String a) {\n\t\tlist.add(a);\r\n\t\treturn list;\r\n\t}", "Object getTolist();", "public static <C> void SFIRST(LIST<C> L, C a) {\n if ( ! isNull( L ) ) {\n L.list.set(0,a);\n }\...

[ "0.65538204", "0.6461382", "0.6460003", "0.62225896", "0.61684614", "0.60351515", "0.60071546", "0.5977009", "0.5880128", "0.5869337", "0.5861221", "0.5856423", "0.58222497", "0.58044523", "0.5797193", "0.57728755", "0.5706885", "0.5705572", "0.56885856", "0.56837523", "0.568...

0.70726115

0

List, 10 elements. a1, a2, a3, a4, a5, a6, a7, a8, a9 and a10 are objects. L is the list (a1,a2,a3,a4,a5,a6,a7,a8,a9,a10).

public static <C> LIST<C> LIST10(C a1, C a2, C a3, C a4, C a5, C a6, C a7, C a8, C a9, C a10) { LIST<C> L = new LIST<C>(); L.list.addFirst( a10 ); L.list.addFirst( a9 ); L.list.addFirst( a8 ); L.list.addFirst( a7 ); L.list.addFirst( a6 ); L.list.addFirst( a5 ); L.list.addFirst( a4 ); L.list.addFirst( a3 ); L.list.addFirst( a2 ); L.list.addFirst( a1 ); return L; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public TiraList() {\n this.list = new Object[8];\n this.nextindex = 0;\n this.startIndex = 0;\n }", "public List()\n {\n list = new Object [10];\n }", "public ElementIterator(List l) {\n\t myList = l;\n\t }", "public static void createListFromLong(ArrayList<Inte...

[ "0.6265448", "0.61348236", "0.60693264", "0.60358584", "0.60113406", "0.6010691", "0.58563", "0.5818642", "0.5807837", "0.5804645", "0.5787764", "0.5709417", "0.5705628", "0.5705628", "0.5687511", "0.56874084", "0.5665215", "0.5630513", "0.56276304", "0.56180763", "0.5617955"...

0.67606294

0

List, 2 elements. a and b are objects. L is the list (a,b).

public static <C> LIST<C> LIST2(C a, C b) { LIST<C> L = new LIST<C>(); L.list.addFirst( b ); L.list.addFirst( a ); return L; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private static <T> List<T> pairList(T a, T b) {\n ArrayList<T> res = new ArrayList<T>();\n res.add(a);\n res.add(b);\n return res;\n }", "public static <C> LIST<C> COMP2(C a, C b, LIST<C> L) {\n LIST<C> LP = L;\n if ( L == null ) {\n LP = new LIST<C>();\n ...

[ "0.73503894", "0.650576", "0.6287755", "0.6273733", "0.6112813", "0.6078012", "0.6059259", "0.60570216", "0.5975102", "0.5974593", "0.59307414", "0.5897497", "0.58708894", "0.5801315", "0.57840234", "0.5776042", "0.5772432", "0.5772432", "0.5765626", "0.57246757", "0.570864",...

0.7197076

1

List, 3 elements. a1, a2 and a3 are objects. L=(a1,a2,a3).

public static <C> LIST<C> LIST3(C a, C b, C c) { LIST<C> L = new LIST<C>(); L.list.addFirst( c ); L.list.addFirst( b ); L.list.addFirst( a ); return L; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> LIST<C> RED3(LIST<C> L, int i) {\n LIST<C> LP = null;\n if ( ! isNull( L ) ) {\n LP = new LIST<C>( L.list.subList(3,L.list.size()) );\n }\n return LP;\n }", "public static <C> LIST<C> COMP3(C a, C b, C c, C d, LIST<C> L) {\n LIST<C> LP = L;\n ...

[ "0.6238501", "0.5927336", "0.5913764", "0.5877604", "0.5861876", "0.5698794", "0.5686152", "0.56546295", "0.56020457", "0.5569726", "0.5550479", "0.5546194", "0.55331045", "0.5527251", "0.5517762", "0.55049115", "0.5501676", "0.54699373", "0.546785", "0.545436", "0.5435255", ...

0.59710485

1

List, 4 elements. a1, a2, a3 and a4 are objects. L is the list (a1,a2,a3,a4).

public static <C> LIST<C> LIST4(C a, C b, C c, C d) { LIST<C> L = new LIST<C>(); L.list.addFirst( d ); L.list.addFirst( c ); L.list.addFirst( b ); L.list.addFirst( a ); return L; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static <C> LIST<C> RED4(LIST<C> L, int i) {\n LIST<C> LP = null;\n if ( ! isNull( L ) ) {\n LP = new LIST<C>( L.list.subList(42,L.list.size()) );\n }\n return LP;\n }", "public static <T> List<T> createList(T item1, T item2, T item3, T item4) {\n\t\tList<T> list =...

[ "0.60464853", "0.5932842", "0.5841588", "0.57861847", "0.5780979", "0.56780523", "0.56314105", "0.55900604", "0.55688936", "0.5537401", "0.552836", "0.5511499", "0.54977363", "0.5486811", "0.5463111", "0.5438943", "0.5433648", "0.53973144", "0.53771", "0.5375682", "0.5372109"...

0.6530204

0

List, 5 elements. a1,a2,a3,a4 and a5 are objects. L is the list (a1,a2,a3,a4,a5).

public static <C> LIST<C> LIST5(C a, C b, C c, C d, C e) { LIST<C> L = new LIST<C>(); L.list.addFirst( e ); L.list.addFirst( d ); L.list.addFirst( c ); L.list.addFirst( b ); L.list.addFirst( a ); return L; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "static void print5(ArrayList<? extends A> list) {\n\n\t}", "public ArrayList() {\n\t\tthis.elements = new Object[5];\n\t\tthis.last = -1;\n\t}", "public static <T> List<T> createList(T item1, T item2, T item3, T item4, T item5) {\n\t\tList<T> list = new ArrayList<T>();\n\t\tlist.add(item1);\n\t\tlist.add(item2...

[ "0.6298018", "0.5987221", "0.5957067", "0.59065515", "0.58344054", "0.5804994", "0.5763832", "0.5733914", "0.5683057", "0.562965", "0.5628671", "0.5587071", "0.55081946", "0.54463005", "0.5443719", "0.5441558", "0.54138976", "0.5410302", "0.54013634", "0.54013634", "0.5369684...

0.6432096

0

Order. L is a list. maximal depth of L.

public static <C> int ORDER(LIST<C> L) { if ( isNull( L ) ) { return 0; } int n = 0; for ( C a : L.list ) { if ( a instanceof LIST ) { LIST<C> LP = null; try { LP = (LIST<C>) a; } catch(ClassCastException e) { } if ( !isNull( LP ) ) { int o = ORDER( LP ); if ( o > n ) { // max n = o; } } } } return n+1; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static void main(String[] args){\n TreeNode root = new TreeNode(1);\n root.left = new TreeNode(2);\n root.right = new TreeNode(2);\n root.left.left = new TreeNode(6);\n root.left.right = new TreeNode(4);\n root.right.left = new TreeNode(4);\n root.right.ri...

[ "0.6379123", "0.626354", "0.6241978", "0.62338436", "0.6231334", "0.6188527", "0.617469", "0.6114486", "0.6087084", "0.60832685", "0.6072685", "0.6051304", "0.60392153", "0.60301095", "0.60198563", "0.597864", "0.5936533", "0.59087867", "0.5838491", "0.58331704", "0.5821624",...

0.7243442

0

TODO Autogenerated method stub

public static void main(String[] args) { Scanner sc = new Scanner(System.in); int n = sc.nextInt(); int arr[] = new int[n]; for(int i = 0 ; i < n ; i++) { arr[i] = sc.nextInt(); } int num = sc.nextInt(); int start = 0 , end = n-1; while(start<end) { int mid = (start + end)/2; if(arr[mid] < num) { start = mid+1; }else if(arr[mid] > num) { end = mid-1; }else if(arr[mid] == num) { System.out.println(1); return; } } System.out.println(-1); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "@Override\r\n\tpublic void comer() \r\n\t{\n\t\t\r\n\t}", "@Override\n\tpublic void comer() {\n\t\t\n\t}", "@Override\n public void perish() {\n \n }", "@Override\r\n\t\t\tpublic void annadir() {\n\r\n\t\t\t}", "@Override\n\tpublic void anular() {\n\n\t}", "@Override\n\tprotected void getExr...

[ "0.6671074", "0.6567672", "0.6523024", "0.6481211", "0.6477082", "0.64591026", "0.64127725", "0.63762105", "0.6276059", "0.6254286", "0.623686", "0.6223679", "0.6201336", "0.61950207", "0.61950207", "0.61922914", "0.6186996", "0.6173591", "0.61327106", "0.61285484", "0.608016...

0.0

-1

account reactive service with proto messages

public interface AccountService { Mono<Account> findById(Int32Value id); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "net.nyhm.protonet.example.proto.AccountProto.Account getAccount();", "net.nyhm.protonet.example.proto.AccountProto.Account getAccount();", "net.nyhm.protonet.example.proto.AccountProto.AccountOrBuilder getAccountOrBuilder();", "net.nyhm.protonet.example.proto.AccountProto.AccountOrBuilder getAccountOrBuilder...

[ "0.6756809", "0.6756809", "0.6099323", "0.6099323", "0.5877325", "0.5788913", "0.57066095", "0.5696846", "0.56912255", "0.5632148", "0.55934495", "0.55553114", "0.54836714", "0.5480304", "0.5422708", "0.5420736", "0.53967184", "0.53511053", "0.53511053", "0.53510785", "0.5343...

0.6389555

2

On create new grouped code list.

public void onCreateNewGroupedCodeList(CreateNewGroupedCodeListEvent event);

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "ch.crif_online.www.webservices.crifsoapservice.v1_00.FinancialStatement addNewFinancialStatementsGroup();", "public void markCsgListCreate() throws JNCException {\n markLeafCreate(\"csgList\");\n }", "ManageCodeListDetailModel getGroupedCodeList(String key);", "protected void insertCode(SketchCode ...

[ "0.58631074", "0.5852631", "0.5775123", "0.57570344", "0.57028836", "0.5638782", "0.55895716", "0.5543759", "0.55340207", "0.5531684", "0.54737824", "0.54436594", "0.5435627", "0.5425857", "0.53588027", "0.53580266", "0.53144455", "0.527495", "0.52603114", "0.5222885", "0.521...

0.77724934

0

Repository class for Main domain objects All method names are compliant with Spring Data naming conventions so this interface can easily be extended for Spring Data See here: jpa.repositories.htmljpa.querymethods.querycreation

public interface MainRepository { Main getMain(Main main) throws DataAccessException; void putMain(Main main) throws DataAccessException; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "@Repository\npublic interface UserRepository extends JpaRepository<User,Integer> {\n //implementation will be provided to run time\n}", "@Repository\npublic interface RepositoryMain extends CrudRepository<Roulette, Long>{\n\n}", "@Repository\npublic interface MainItemOrderedRepository extends CrudRepository...

[ "0.69902205", "0.6965019", "0.67033464", "0.665901", "0.6556525", "0.653344", "0.6518989", "0.6512587", "0.65015745", "0.6486261", "0.64713675", "0.6463939", "0.64634037", "0.64618266", "0.6443021", "0.64343065", "0.64283913", "0.6418771", "0.6418369", "0.6409615", "0.6406872...

0.72288907

0

Create a new generator.

public UniformRandomGenerator(RandomGenerator generator) { this.generator = generator; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public Generator(){}", "public JsonGenerator createGenerator(OutputStream out)\n/* */ throws IOException\n/* */ {\n/* 1110 */ return createGenerator(out, JsonEncoding.UTF8);\n/* */ }", "public JsonGenerator createGenerator(Writer w)\n/* */ throws IOException\n/* */ {\...

[ "0.82688093", "0.6844001", "0.6842914", "0.67557436", "0.6710047", "0.6558444", "0.64893824", "0.64893824", "0.64893824", "0.64893824", "0.64893824", "0.64502573", "0.6383732", "0.63639903", "0.62867033", "0.616838", "0.6135685", "0.6099266", "0.6099032", "0.60609424", "0.604...

0.51749617

87

Generate a random scalar with null mean and unit standard deviation. The number generated is uniformly distributed between &sqrt;(3) and +&sqrt;(3).

public double nextNormalizedDouble() { return SQRT3 * (2 * generator.nextDouble() - 1.0); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static double uniform() {\r\n return random.nextDouble();\r\n }", "public static double uniform() {\n return random.nextDouble();\n }", "public float gaussianRandom() {\n\t\treturn (CCMath.constrain((float)nextGaussian() / 4,-1 ,1 ) + 1) / 2;\n\t}", "public static double random() {...

[ "0.67865336", "0.67642844", "0.67279464", "0.6666359", "0.6662028", "0.65746355", "0.6363786", "0.62028915", "0.61638635", "0.6127528", "0.6125472", "0.6071064", "0.6051004", "0.6048811", "0.6043657", "0.60257125", "0.6010919", "0.60023034", "0.5950551", "0.5931928", "0.59213...

0.6034058

15

Wake the sender thread upon receiving routing information for a given chunk.

protected void unlock() { synchronized ( lock ) { lock.notify(); } }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void run() {\n\t\ttry {\n\t\t\twhile (!abort) {\n\t\t\t\tlong dest = outgoingAddressBuffer.take();\n\t\t\t\tbyte[] msg = outgoingMessageBuffer.take();\n\t\t\t\tif (dest == 0) // Break signal\n\t\t\t\t{\n\t\t\t\t\tLog.d(TAG, \"Dest is 0\");\n\t\t\t\t\tbreak;\n\t\t\t\t}\n\n\t\t\t\twhile (rm.isDiscovering()) {...

[ "0.5861621", "0.53013414", "0.5300419", "0.52926695", "0.5280362", "0.52406347", "0.5207455", "0.518188", "0.51473093", "0.51407355", "0.5104282", "0.50649786", "0.50383157", "0.50107944", "0.5005783", "0.4947818", "0.49199477", "0.4906895", "0.49023122", "0.48938468", "0.487...

0.0

-1

Calling method checked for validity of routes;

protected void setRoutes(WriteFileResponse response) { routes[ response.getSequence() ] = response.getRoutingPath(); if ( ableToWrite && totalReceived.incrementAndGet() == routes.length ) { unlock(); } }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void invalidRoute() \n {\n validRoute = false;\n }", "boolean hasRoute();", "public boolean hasValidRoute() \n {\n return validRoute;\n }", "public boolean areRoutesValid() {\n return valid;\n }", "private boolean checkPermissions(HttpServletRequest request, Route...

[ "0.6874613", "0.66570973", "0.6583172", "0.65481246", "0.60401106", "0.5655919", "0.5516416", "0.54973", "0.547578", "0.54584676", "0.5439637", "0.5427005", "0.5412428", "0.5356606", "0.53479654", "0.5330235", "0.5318731", "0.5309659", "0.5306227", "0.5278017", "0.5240219", ...

0.0

-1

Iterate through the files and send them to the chunk servers a chunk at a time. A request to the controller will provide details of which servers to communicate with.

public void send(List<File> files) { SimpleDateFormat sdf = new SimpleDateFormat( "yyyy-MM-dd HH:mm:ss.SSS" ); int numberOfFiles = files.size(); LOG.info( "Started uploading " + numberOfFiles + " file(s) at " + sdf.format( System.currentTimeMillis() ) ); ConnectionUtilities connections = new ConnectionUtilities(); for ( File file : files ) { ableToWrite = true; totalReceived.set( 0 ); try ( InputStream is = new FileInputStream( file ) ) { processIndividualFile( file, is, connections ); } catch ( IOException | ClientWriteException | NumberFormatException e ) { LOG.error( "Unable to process the file " + file.getName() + ". " + e.getMessage() ); try { // sleep to allow stale messages to be send before reading next file TimeUnit.SECONDS.sleep( 1 ); } catch ( InterruptedException e0 ) { LOG.error( e0.getMessage() ); } --numberOfFiles; } catch ( InterruptedException e ) { LOG.error( e.getMessage() ); Thread.currentThread().interrupt(); } } LOG.info( "Finished uploading " + numberOfFiles + " file(s) at " + sdf.format( System.currentTimeMillis() ) + "\n" ); connections.setAbleToClear( true ); connections.closeCachedConnections(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "@Override\r\n\tpublic void run() {\r\n\t\t// TODO Auto-generated method stub\r\n\t\t//Get a list of pairs. The pair will be a chunkname with a chunkserver \r\n\t\t/*for(Pair<String, String> p: EventFactory.hostToFiles.getChunkLocations(message.getContent())){\r\n\t\t\tSystem.out.println(\"The location is: \" + p.g...

[ "0.6898086", "0.6591681", "0.6340665", "0.6225596", "0.6207414", "0.6201325", "0.61206824", "0.5989807", "0.5972283", "0.5919013", "0.59131473", "0.5906974", "0.587747", "0.5811016", "0.57571894", "0.5596435", "0.5565466", "0.55623925", "0.54995054", "0.54880565", "0.5462487"...

0.6423516

2

Process an individual file by traversing the chunks of bytes within. This is accomplished via the following steps: read the next chunk of the file send request to controller for details of where to write the chunk. wait for a reply from the controller the client will notify this thread connect to the first item chunk server returned by the controller, and send the data request

private void processIndividualFile(File file, InputStream is, ConnectionUtilities connections) throws IOException, InterruptedException, ClientWriteException, NumberFormatException { SimpleDateFormat sdf = new SimpleDateFormat( "yyyy-MM-dd HH:mm:ss.SSS" ); LOG.debug( "The file: " + file.getAbsolutePath() + " was last modified at " + sdf.format( file.lastModified() ) ); int filelength = ( int ) file.length(); int numberOfChunks = ( int ) Math.ceil( ( double ) filelength / Constants.CHUNK_SIZE ); routes = new String[ numberOfChunks ][]; WriteFileRequest request = new WriteFileRequest( file.getAbsolutePath(), 0, filelength, numberOfChunks ); for ( int sequence = 0; sequence < numberOfChunks; ++sequence ) { request.setSequence( sequence ); this.node.getControllerConnection().getTCPSender() .sendData( request.getBytes() ); } // wait for response from controller containing routing information. synchronized ( lock ) { lock.wait(); } if ( !ableToWrite ) { throw new ClientWriteException( "The controller has not" + " received file chunk locations for the original file yet." ); } sendWriteChunkRequest( file, is, connections, numberOfChunks ); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "@Override\r\n\tpublic void run() {\r\n\t\t// TODO Auto-generated method stub\r\n\t\t//Get a list of pairs. The pair will be a chunkname with a chunkserver \r\n\t\t/*for(Pair<String, String> p: EventFactory.hostToFiles.getChunkLocations(message.getContent())){\r\n\t\t\tSystem.out.println(\"The location is: \" + p.g...

[ "0.6385211", "0.62118596", "0.6117816", "0.60939723", "0.60930246", "0.5946223", "0.5921548", "0.5887961", "0.58732975", "0.58058554", "0.5756273", "0.57541424", "0.5733393", "0.5731499", "0.5729741", "0.57159555", "0.5701703", "0.5685239", "0.56637895", "0.56365746", "0.5633...

0.6051661

5

Send the individual chunks to only the initial destination for each chunk / fragment. The metadata is set with temporary version number ( the server will detect the difference and update if necessary )

private void sendWriteChunkRequest(File file, InputStream is, ConnectionUtilities connections, int numberOfChunks) throws NumberFormatException, IOException { byte[] message = new byte[ Constants.CHUNK_SIZE ]; ProgressBar progress = new ProgressBar( file.getName() ); WriteChunkRequest request = new WriteChunkRequest( file.getAbsolutePath(), 0, null, file.lastModified(), 1, null ); int sequence = 0, length = 0; while ( ( length = is.read( message ) ) != -1 ) { // Only send to the first connection, whom will forward the rest String[] initialConnection = routes[ sequence ][ 0 ].split( ":" ); TCPConnection connection = connections.cacheConnection( node, initialConnection, false ); // Pad elements b[k] through b[b.length-1] with zeros Arrays.fill( message, length, Constants.CHUNK_SIZE, ( byte ) 0 ); byte[][] messageToSend = new byte[][] { message }; if ( Properties.SYSTEM_DESIGN_SCHEMA .equals( Constants.SYSTEM_TYPE_ERASURE ) ) { messageToSend = ReedSolomonUtilities.encode( message ); } request.setMessage( messageToSend ); request.setRoutes( routes[ sequence ] ); request.setSequence( sequence ); connection.getTCPSender().sendData( request.getBytes() ); progress.update( sequence, numberOfChunks ); ++sequence; } }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "void sendChunkRequest(int chunkX, int chunkY);", "@Override public void onStreamUpdate(final Set<Long> updatedChunks) {\n }", "@Override\n public void finishMessageSending() {\n for (int i = 0; i < fragNum; ++i) {\n long bytesWriten = cacheOut[i].bytesWriten();\n cacheOut[i].fi...

[ "0.62546", "0.5919376", "0.58786166", "0.5836947", "0.57594585", "0.5708803", "0.56590956", "0.5625272", "0.5623952", "0.5586952", "0.5582656", "0.5490847", "0.54405445", "0.53450817", "0.53257304", "0.5280769", "0.5272249", "0.5258895", "0.5258895", "0.5258895", "0.5258895",...

0.5965999

1

This boolean holds the verdict of a whitelist condition, on checking 1 complete rule. The verdict starts at false, but can change during the loop through all rule components.

public Boolean isWhiteListed(Map<String,Object> alertFieldsAndValues) { Boolean isWhiteListedSoFar = false; Iterator<Map.Entry<String,String>> it = ruleAsJSON.entrySet().iterator(); while (it.hasNext()) { Map.Entry<String, String> ruleComponent = it.next(); //A complete WL rule also contains fields that are meant to be appended to the stream //but are not rule components that can be checked if (ruleComponent.getKey().toString().startsWith("wl_")) { continue; } String[] rulePartKeyComponents = ruleComponent.getKey().split("\\."); String ruleField = rulePartKeyComponents[0]; String ruleFilter = rulePartKeyComponents[1]; // ruleComponent (key) cannot be checked: field is missing in alert // OR // ruleValue itself is NULL if (!alertFieldsAndValues.containsKey(ruleField) || alertFieldsAndValues.get(ruleField) == null) { if (LOG.isDebugEnabled()) { LOG.debug("WhiteListEval Detail : [" + new JSONObject(alertFieldsAndValues).toJSONString() + "] not whitelisted [exit 1] : ruleField [" + ruleField + "] not found in field values"); } return false; } String ruleValue = ruleComponent.getValue(); Object alertValue = alertFieldsAndValues.get(ruleField); //Rule DSL notation allows for single value or multiple comma separated values, we don't care String[] ruleComponentValues = ruleValue.split(","); if (ruleField.equals("timestamp")) { //early exit, cause whatever the rule might grant based on alert field values, the specified timerange does not fit if (!timeRange.isAlertInWhiteListRange(Long.parseLong(alertValue.toString()))) { return false; } isWhiteListedSoFar = true; } else if (ruleField.equals("ip_src_addr") || ruleField.equals("ip_dst_addr")) { //Specific check for alert values of ip type for (String s : ruleComponentValues) { SubnetUtils utils; try { utils = new SubnetUtils(s); } catch (IllegalArgumentException e) { LOG.warn(String.format("Invalid cidr address: [%s]. %s", s, e)); break; } utils.setInclusiveHostCount(true); // if one value matched, early exit if (utils.getInfo().isInRange((String)alertValue)) { isWhiteListedSoFar = true; break; } } } else { boolean matchingValue = false; for (int i = 0; i < ruleComponentValues.length && !matchingValue; i++) { matchingValue = alertValue.toString().equalsIgnoreCase(ruleComponentValues[i]); } isWhiteListedSoFar = matchingValue; } // on exclude flip isWhiteListed isWhiteListedSoFar = ruleFilter.equals("exclude") ? !isWhiteListedSoFar : isWhiteListedSoFar; // early exit, if after checking 1 complete rule component the verdict isWhiteListedSoFar is still false, we can exit the rule as //it can never apply if (!isWhiteListedSoFar) { return false; } } return isWhiteListedSoFar; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "@NotNull\n @Generated\n @Selector(\"needRulesVerdict\")\n public static native NEFilterNewFlowVerdict needRulesVerdict();", "public boolean C_trueCond(ListOfParameterLists parameterLists) {\n if(debug)\n System.out.println(\"Condition: TRUE\");\n return true;\n }", "@NotNull\n @Generated\...

[ "0.5440778", "0.53602564", "0.5301816", "0.52661127", "0.5232236", "0.52316236", "0.52057934", "0.52000445", "0.5166974", "0.5155233", "0.51438504", "0.50978947", "0.5095857", "0.50958395", "0.508209", "0.5080303", "0.50627536", "0.50520384", "0.50435716", "0.502867", "0.5021...

0.0

-1

/ All if conditions are true and all statements are executed

@Test public void method1SC() { System.out.println(FaultyClass.method1(3)); assertEquals(1, FaultyClass.method1(3)); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "protected void evaluateConditions()\n {\n ensureConditionContinuity() ;\n checkComponentList() ;\n\n for ( int liCondCtr = 1 ; liCondCtr <= 5 ; liCondCtr++ )\n {\n checkCondition( liCondCtr ) ;\n } /* end for */\n\n }", "@Override\r\n\tpublic boolean CheckConditions() {\n\t\t...

[ "0.75013685", "0.66420925", "0.653926", "0.6364895", "0.61819696", "0.61380804", "0.6104452", "0.6032339", "0.5976952", "0.5951171", "0.5936671", "0.58592826", "0.58539724", "0.585007", "0.5821002", "0.5817896", "0.58037573", "0.58027154", "0.5800678", "0.5796141", "0.5758405...

0.0

-1

/ 1st assert all if statements are false, 2nd assert all if statements are true the 2 assert statements cover the branches in the code

@Test public void method1BC() { assertEquals(-2, FaultyClass.method1(-2)); assertEquals(1, FaultyClass.method1(3)); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private void assertAll() {\n\t\t\n\t}", "public void testPreConditions() {\r\n\t //fail(\"Precondition check not implemented!\");\r\n\t assertEquals(true,true);\r\n\t }", "@Test(enabled = false)\n\tpublic void HardAssert(){\n\t\t\t\t\n\t\tSystem.out.println(\"Hard Asset Step 1\");\n\t\tAssert.assertEqu...

[ "0.7223622", "0.7222011", "0.6752789", "0.65157473", "0.65157473", "0.65157473", "0.6496341", "0.64889586", "0.6485339", "0.6412468", "0.6407731", "0.6384091", "0.6362207", "0.6300283", "0.62969893", "0.6285335", "0.6283997", "0.62366784", "0.62301904", "0.62301904", "0.62267...

0.0

-1

/ because there are only 2 if statements in the code the possible pats are 2^2 = 4. Therefore path test should cover all 4 possible paths. The test below illustrates the 2 paths not covered by path coverage

@Test public void method1PC() { assertEquals(-2, FaultyClass.method1(-2)); assertEquals(1, FaultyClass.method1(3)); //test 1st IF TRUE, 2nd IF FALSE assertEquals(1, FaultyClass.method1(3));; //test 1st IF FALSE, 2nd IF TRUE //Arithmetic Exception and 100 path coverage here FaultyClass.method1(-1); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "@Test\n public void finiteUTurnCosts() {\n int right0 = graph.edge(0, 1).setDistance(10).set(speedEnc, 10, 10).getEdge();\n graph.edge(1, 2).setDistance(10).set(speedEnc, 10, 10);\n graph.edge(2, 3).setDistance(10).set(speedEnc, 10, 10);\n graph.edge(3, 4).setDistance(10).set(speedEn...

[ "0.6314642", "0.61095977", "0.61049557", "0.60981244", "0.60571975", "0.6055202", "0.60317445", "0.60214317", "0.6020346", "0.6010904", "0.59091675", "0.59033275", "0.59006464", "0.58916765", "0.58711416", "0.58656836", "0.58518606", "0.5840483", "0.5835638", "0.58320165", "0...

0.620794

1

send msg to jdbc

public void send(String topic,Object content,String actionType) { //maxkey.server.message.queue , if not none if(applicationConfig.isProvisionSupport()) { ProvisionMessage message = new ProvisionMessage( UUID.randomUUID().toString(), //message id as uuid topic, //TOPIC actionType, //action of content DateUtils.getCurrentDateTimeAsString(), //send time null, //content Object to json message content content ); //sand msg to provision topic Thread thread = null; if(applicationConfig.isProvisionSupport()) { _logger.trace("message..."); thread = new ProvisioningThread(jdbcTemplate,message); thread.start(); }else{ _logger.trace("no send message..."); } } }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public boolean send_message(String SID, String RID, String message)\r\n {\r\n DBConnect db = new DBConnect();\r\n try\r\n {\r\n \r\n String SQL = \"insert into MESSAGES(SID, RID,message) values ('\" + SID + \"', '\" + RID + \"', '\"+ message + ...

[ "0.68866587", "0.64458144", "0.6393537", "0.634242", "0.63128644", "0.6279478", "0.6215945", "0.62011516", "0.5920801", "0.5887", "0.5835484", "0.5819493", "0.5817988", "0.5792407", "0.57780564", "0.57328314", "0.57208276", "0.57171154", "0.56699485", "0.5660236", "0.56546974...

0.0

-1

write your code in Java SE 8

public String solution(String s) { Stream<Character> tmp = s.chars().mapToObj(value -> (char)value); return tmp.collect(Collectors.groupingBy(Function.identity(), Collectors.counting())).entrySet().stream().filter(characterLongEntry -> characterLongEntry.getValue() == 2).findFirst().get().getKey().toString(); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static void main(String[] args) {\n\t\tnew Action() {\r\n\r\n\t\t\t@Override\r\n\t\t\tpublic void execute(String content) {\r\n\t\t\t\t// TODO Auto-generated method stub\r\n\t\t\t\tSystem.out.println(content);\r\n\t\t\t}\r\n\t\t\t\r\n\t\t}.execute(\"jdk1.8之前匿名内部类实现方式\");\r\n\t\t\r\n\t\t\r\n\t\t//lambda\r\n\...

[ "0.5890391", "0.58054996", "0.57008785", "0.56167847", "0.54946315", "0.54761344", "0.524263", "0.52340496", "0.5233149", "0.52029705", "0.5160466", "0.51574665", "0.5143396", "0.5094738", "0.5084682", "0.5069909", "0.50661004", "0.50645214", "0.5064437", "0.50475377", "0.504...

0.0

-1

Once you use Dynamic Programming, map will have right numbers. Without Dynamic Programming, values in the map will be overwritten.

@SuppressWarnings("Duplicates") private static int findMax_with_included_pieces_printed_brute_force(int[] prices, int[] pieceLengths, int start, int end, int expectedRodLength, Map<Integer, Integer> map) { // exit condition if (expectedRodLength <= 0) return 0; // reducing the problem by 1. Selecting last pieceLength and its price. int pieceLength = pieceLengths[end]; int priceOfSelectedPiece = prices[end]; // exit condition if (end == start) {//there is only one possible pieceLength possible of the rod if (pieceLength <= expectedRodLength) { if ((expectedRodLength % pieceLength) != 0) { return 0; } int num = expectedRodLength / pieceLength; map.put(pieceLength, num); return num * priceOfSelectedPiece; } return 0; } if (pieceLength == expectedRodLength) { int maxPriceExcludingThisPiece = findMax_with_included_pieces_printed_brute_force(prices, pieceLengths, start, end - 1, expectedRodLength, map); if (priceOfSelectedPiece >= maxPriceExcludingThisPiece) { map.put(pieceLength, 1); return priceOfSelectedPiece; } return maxPriceExcludingThisPiece; } if (pieceLength > expectedRodLength) { return findMax_easy_brute_force(prices, pieceLengths, start, end - 1, expectedRodLength); } int maxPriceIncludingThisPiece = priceOfSelectedPiece + findMax_with_included_pieces_printed_brute_force(prices, pieceLengths, start, end, expectedRodLength - pieceLength, map); int maxPriceExcludingThisPiece = findMax_with_included_pieces_printed_brute_force(prices, pieceLengths, start, end - 1, expectedRodLength, map); if (maxPriceExcludingThisPiece >= maxPriceIncludingThisPiece) { return maxPriceExcludingThisPiece; } map.put(pieceLength, 1); return maxPriceIncludingThisPiece; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public static void main(String[] args) {\n Scanner read = new Scanner(System.in);\n int n = read.nextInt();\n int d = read.nextInt();\n int[] arr = new int[n];\n for(int i=0;i<n;i++)\n arr[i]=read.nextInt();\n \n int[] a = new int[n];\n int temp=0;...

[ "0.66290194", "0.654606", "0.6540295", "0.63944775", "0.62326187", "0.6230195", "0.6170948", "0.6081278", "0.60781366", "0.6068297", "0.6043623", "0.6019857", "0.6005615", "0.5979523", "0.5961223", "0.5930301", "0.59269595", "0.59188175", "0.59145916", "0.59087634", "0.588163...

0.0

-1

pointWorld = lambda(from + affineCoordto)

public Hit(SceneGraphPath path, double[] pointWorld, double dist, double affineCoord, int pickType, int index,int triIndex) { this.path = (SceneGraphPath) path; Matrix m = new Matrix(); path.getInverseMatrix(m.getArray()); this.pointWorld= pointWorld; this.pointObject=m.multiplyVector(pointWorld); this.dist = dist; this.affineCoordinate = affineCoord; this.pickType=pickType; this.index=index; this.triIndex=triIndex; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "int apply(int x, int y, int origin);", "public void transform(float a11, float a12, float a21, float a22, float x, float y);", "public Point2D translatePoint( Figure f, Point2D p, Point2D dir);", "public boolean apply(int x0, int y0, int x, int y);", "public void translate(int x, int y);", "void vector...

[ "0.6675117", "0.63655883", "0.62077236", "0.59934294", "0.59528476", "0.5895141", "0.58521163", "0.58069664", "0.5724362", "0.5716514", "0.5654389", "0.56370926", "0.5630497", "0.5619618", "0.5616817", "0.5601036", "0.5581008", "0.5531946", "0.5507602", "0.5500463", "0.549827...

0.0

-1

/ calc barycentric coordinates bary for point x in anElement el, not necessarily 0 <= b[i] <= 1

public static boolean convertToBary( double[] bary, double[] x0, double[] x1, double[] x2, double[] x) { //TODO: use exception handling for degenerate situations //TODO: the return type should be void or double which should give // distance from plane int i0 = 0, i1 = 1, i2 = 2; double det; /* find two linear independent rows */ for (;;) { det = x1[i0] * x2[i1] - x1[i1] * x2[i0] - (x0[i0] * x2[i1] - x0[i1] * x2[i0]) + x0[i0] * x1[i1] - x0[i1] * x1[i0]; if (Math.abs(det) > EPS) break; if (i1 == 1) { i1 = 2; i2 = 1; } else if (i0 == 0) { i0 = 1; i2 = 0; } else { LoggingSystem.getLogger(Hit.class).fine("mBaryInElementConvertFromVec3: triangle degenerated?"); // // fprintf(stderr, "gmBaryInElementConvertFromVec3: triangle // degenerated?\n"); // fprintf(stderr, "\tcan't compute barycentric // coordinates.\n"); // fprintf(stderr, "vertex0: (%f, %f, %f)\n", x0[0], x0[1], // x0[2]); // fprintf(stderr, "vertex1: (%f, %f, %f)\n", x1[0], x1[1], // x1[2]); // fprintf(stderr, "vertex2: (%f, %f, %f)\n", x2[0], x2[1], // x2[2]); // fprintf(stderr, "point : (%f, %f, %f)\n", x[0], x[1], x[2]); // fflush(stderr); return false; } } /* calculate barycentric coordinates */ bary[0] = (x1[i0] * x2[i1]- x1[i1] * x2[i0] - (x[i0] * x2[i1] - x[i1] * x2[i0]) + x[i0] * x1[i1]- x[i1] * x1[i0]) / det; bary[1] = (x[i0] * x2[i1] - x[i1] * x2[i0] - (x0[i0] * x2[i1] - x0[i1] * x2[i0]) + x0[i0] * x[i1] - x0[i1] * x[i0]) / det; bary[2] = 1.0 - bary[0] - bary[1]; /* test third row */ if (Math .abs(x0[i2] * bary[0] + x1[i2] * bary[1] + x2[i2] * bary[2] - x[i2]) > 1.e-3) { // this is not an error and should not in my opinion be set to info level -gunn 18.5.6 LoggingSystem.getLogger(Hit.class).fine("gmBaryInElementConvertFromVec3: test for third row failed." +Math.abs(x0[i2] * bary[0] + x1[i2] * bary[1] + x2[i2] * bary[2] - x[i2]) ); return false; } correct(bary); return true; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private Vector3D convexCellBarycenter(final Vertex start) {\n\n int n = 0;\n Vector3D sumB = Vector3D.ZERO;\n\n // loop around the cell\n for (Edge e = start.getOutgoing(); n == 0 || e.getStart() != start; e = e.getEnd().getOutgoing()) {\n sumB = new Vector3D(1, sumB, e.getLe...

[ "0.56154954", "0.5396701", "0.532483", "0.52513105", "0.5160451", "0.5130184", "0.5126725", "0.51222444", "0.508614", "0.5055969", "0.49959713", "0.4942878", "0.4927618", "0.49258378", "0.49005273", "0.48754507", "0.4857296", "0.4853208", "0.4832719", "0.481046", "0.47946295"...

0.63776416

0

metodos metodo para crear persona

public void crearPersona(){ persona = new Persona(); persona.setNombre("Jose"); persona.setCedula(12345678); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "void crearNuevaPersona(Persona persona);", "public void create(Person p) {\n\t\t\n\t}", "@Override\r\n\tpublic void create(Person p) \r\n\t{\n\t\t\r\n\t}", "public void CreatePerson(Person p){\n\t\tWeddingConnectionPoolManager con = new WeddingConnectionPoolManager(); \n\t\t Person p1 = new Person(p.getId()...

[ "0.846484", "0.80131274", "0.7738949", "0.7567291", "0.74563205", "0.74136966", "0.73838246", "0.7132897", "0.7132897", "0.71080065", "0.70631105", "0.70286447", "0.6969133", "0.69430655", "0.6909666", "0.69018984", "0.6895878", "0.6892319", "0.6888734", "0.6885759", "0.68643...

0.8181106

1

metodo para mostrar datos de la persona

public void mostrarPersona(){ System.out.println("Nombre: " + persona.getNombre()); System.out.println("Cedula: " + persona.getCedula()); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void mostrarDatos() {\r\n System.out.println(\"El nombre del cliente es: \" + this.getNombre());\r\n System.out.println(\"El primer apellido es: \" + this.getPrimerApellido());\r\n System.out.println(\"El segundo apellido es: \" + this.getSegundoApellido());\r\n System.out.printl...

[ "0.71626145", "0.70909446", "0.7070012", "0.7046698", "0.69264066", "0.6896772", "0.68578243", "0.6791878", "0.6654108", "0.65558094", "0.65314245", "0.6465523", "0.6444806", "0.6439064", "0.64377224", "0.6426238", "0.63977075", "0.63788766", "0.635563", "0.63499695", "0.6330...

0.8234247

0

metodo para crear automovil

public void crearAutomovil(){ automovil = new Vehiculo(); automovil.setMarca("BMW"); automovil.setModelo(2010); automovil.setPlaca("TWS435"); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public abstract Anuncio creaAnuncioTematico();", "public abstract Anuncio creaAnuncioGeneral();", "public void create() {\n\t\t\n\t}", "Oracion createOracion();", "Compleja createCompleja();", "@Override\r\n\tpublic void crearVehiculo() {\n\t\t\r\n\t}", "public abstract Anuncio creaAnuncioIndividualiza...

[ "0.6495235", "0.6465843", "0.6300872", "0.62493575", "0.6218243", "0.6177469", "0.6171597", "0.6149347", "0.61437875", "0.6106166", "0.6100428", "0.6085236", "0.60710365", "0.6054169", "0.605316", "0.60436237", "0.6006945", "0.5987459", "0.5944883", "0.5912858", "0.5906271", ...

0.7457805

0

metodo para mostrar datos del automovil

public void mostrarAutomovil(){ System.out.println("Marca: " + automovil.getMarca()); System.out.println("Modelo: " + automovil.getModelo()); System.out.println("Placa: " + automovil.getPlaca()); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "@Override\n\tpublic void mostrarDados() {\n\t\t\n\t}", "public void mostrarDatos() {\r\n System.out.println(\"El nombre del cliente es: \" + this.getNombre());\r\n System.out.println(\"El primer apellido es: \" + this.getPrimerApellido());\r\n System.out.println(\"El segundo apellido es: \" ...

[ "0.66572124", "0.6620795", "0.6592598", "0.65058166", "0.6485971", "0.6419216", "0.6412213", "0.63943726", "0.6351781", "0.63425666", "0.63200814", "0.6319772", "0.63195103", "0.6269425", "0.62653375", "0.6250371", "0.6222847", "0.6190443", "0.6183661", "0.61735153", "0.61643...

0.79724735

0

asignar la clase persona a la clase automovil

public void asignarAutomovilPersona(){ persona.setAutomovil(automovil); }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "public void asignarClase(int clase);", "public void construirCargo() {\n persona.setCargo(Cargos.SUPERVISOR);\n }", "public void nascitaAgnello() {\n\t\tpecore.add(new Agnello());\n\t\tnumeroAgelli++;\n\t}", "public void automovil(){\r\n System.out.println(\"Ingrese placa: \");\r\n pl...

[ "0.6787596", "0.6338639", "0.61755264", "0.60794157", "0.6039141", "0.6011293", "0.6004293", "0.5960204", "0.59417737", "0.5926485", "0.5919156", "0.588521", "0.5838728", "0.58335435", "0.5811737", "0.578345", "0.5780884", "0.5768974", "0.5767288", "0.57577556", "0.57033026",...

0.79091865

0

Creates the ActiveMQ Broker, which is listening on the URL BROKER_URL

@Bean BrokerService broker() throws Exception { BrokerService broker = new BrokerService(); // configure the broker broker.addConnector(BROKER_URL); broker.start(); return broker; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private static DatacenterBroker createBroker(){\n\n\t\tDatacenterBroker broker = null;\n\t\ttry {\n\t\t\tbroker = new DatacenterBroker(\"Broker\");\n\t\t} catch (Exception e) {\n\t\t\te.printStackTrace();\n\t\t\treturn null;\n\t\t}\n\t\treturn broker;\n\t}", "private void setupBroker(String uri) {\n try {...

[ "0.6762005", "0.65469784", "0.6217145", "0.61282694", "0.59298044", "0.5877603", "0.58518803", "0.57685536", "0.57525164", "0.5575111", "0.5558444", "0.554343", "0.55341285", "0.5475879", "0.54596865", "0.53898007", "0.53711146", "0.5367868", "0.5359284", "0.5335837", "0.5333...

0.71919197

0

Creates the connection factory to connect to the broker

@Bean ActiveMQConnectionFactory connectionFactory() { ActiveMQConnectionFactory connectionFactory = new ActiveMQConnectionFactory(BROKER_URL); return connectionFactory; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private void createConnection() {\n this.callbacks = getCallbacks();\n\n Properties props = new Properties();\n props.putAll(getTestProps());\n props.putAll(getProps());\n this.connection = Connections.create((ConnectionCallbacks) callbacks, props);\n configureConnection(c...

[ "0.69724345", "0.66450566", "0.66145205", "0.6519932", "0.6463706", "0.6403766", "0.63509065", "0.63258374", "0.61197156", "0.61143327", "0.6104527", "0.6101801", "0.6055812", "0.605495", "0.60024875", "0.5970798", "0.59413904", "0.5913599", "0.5899801", "0.58669376", "0.5836...

0.66582954

1

Message listener adapter to listen on new messages

@Bean MessageListenerAdapter adapter(final Receiver receiver) { MessageListenerAdapter messageListener = new MessageListenerAdapter(receiver); messageListener.setDefaultListenerMethod("receiveMessage"); return messageListener; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "@Override\n\tpublic void addMessageReceivedListener(MessageReceivedListener messageReceivedListener) {\n\n\t}", "@Override\r\n public void setListener() {\n input.setInputListener(this);\r\n\r\n //bind load more listener, it will track scroll up\r\n messagesAdapter.setLoadMoreListener(thi...

[ "0.76486737", "0.7607106", "0.725911", "0.723076", "0.6966563", "0.6946663", "0.6865775", "0.6861961", "0.68415713", "0.68190736", "0.6737756", "0.6735256", "0.670578", "0.6683428", "0.6664629", "0.664691", "0.6641266", "0.66146946", "0.6604346", "0.65853626", "0.65735894", ...

0.63067585

45

Creates the listener container which connects the listener with the destination

@Bean SimpleMessageListenerContainer container(final MessageListenerAdapter messageListener, final ConnectionFactory connectionFactory) { SimpleMessageListenerContainer container = new SimpleMessageListenerContainer(); container.setMessageListener(messageListener); container.setConnectionFactory(connectionFactory); container.setDestinationName(DESTINATION); return container; }

{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }

[ "private void createAndListen() {\n\n\t\t\n\t}", "@Override\r\n\tnative long createListenerProxy(EventSink eventSink);", "WithCreate withDestination(EventChannelDestination destination);", "public SimpleMessageListenerContainer() {\n\t}", "Future<CreateListenerResponse> createListener(\n CreateLi...

[ "0.65735394", "0.5930692", "0.5914101", "0.57666457", "0.5678457", "0.5656262", "0.5619613", "0.5604012", "0.53921604", "0.5345176", "0.53274935", "0.53188217", "0.53182876", "0.529274", "0.5271293", "0.5267569", "0.52647835", "0.52456933", "0.5214078", "0.51640326", "0.51597...

0.612895

1