hay otro metodo para implementar
thread que tiene que mirar constantemente a una carpeta «Mis Documentos»
esto mediante el uso de java.nio.file.WatchService
, para saber mas sobre esta funcionalidad leer este tutorial de Oracle este nos permite de una forma mas eficiente registrar un "File Watcher" que nos permite correr un loop a la espera de cambios a un Folder en particular. pero esto solo funciona para archivos que se modifican o agregan si el folder ya posee archivos que hay que procesar debemos usar java.nio.file.DirectoryStream
aqui mas sobre el DirectoryStream
para mostrar un demo no implemente la parte de Base de datos puesto no poseo los detalles de estas clases pero si implemente la parte de inspecionar los folder y leer los archivos .txt en formato Csv.
import java.io.IOException;
import java.nio.file.DirectoryStream;
import java.nio.file.FileSystems;
import java.nio.file.Files;
import java.nio.file.Path;
import java.nio.file.PathMatcher;
import java.nio.file.Paths;
import static java.nio.file.StandardWatchEventKinds.ENTRY_MODIFY;
//import static java.nio.file.StandardWatchEventKinds.ENTRY_CREATE;
import java.nio.file.WatchEvent;
import java.nio.file.WatchKey;
import java.nio.file.WatchService;
import java.util.HashMap;
import java.util.LinkedList;
import java.util.Optional;
public class Watcher {
private final static PathMatcher TXTMATCHER = FileSystems.getDefault().getPathMatcher("glob:*.txt");
private final WatchService watcher;
private final HashMap<WatchKey, Path> keys;
private boolean trace = false;
@SuppressWarnings("unchecked")
static <T> WatchEvent<T> cast(WatchEvent<?> event) {
return (WatchEvent<T>) event;
}
public Watcher(Path dir) throws IOException {
this.watcher = FileSystems.getDefault().newWatchService();
this.keys = new HashMap<>();
register(dir);
this.trace = true;
}
/**
* Register the given directory with the WatchService
*/
private void register(Path dir) throws IOException {
WatchKey key = dir.register(watcher, ENTRY_MODIFY);//o ENTRY_CREATE
if (trace) {
Path prev = keys.get(key);
if (prev == null) {
System.out.format("register: %s\n", dir);
} else {
if (!dir.equals(prev)) {
System.out.format("update: %s -> %s\n", prev, dir);
}
}
}
keys.put(key, dir);
}
/**
* Process all events for keys queued to the watcher
*/
void processEvents() {
while (true) {
//esperar a un evento de "archivo creado, modificado"
WatchKey key;
try {
key = watcher.take();
} catch (InterruptedException x) {
return;
}
Path dir = keys.get(key);
if (dir == null) {
System.err.println("Folder no Reconocido!!");
continue;
}
key.pollEvents().forEach((event) -> {
WatchEvent.Kind kind = event.kind();
WatchEvent<Path> ev = cast(event);
Path name = ev.context();
Path child = dir.resolve(name);
System.out.format("%s: %s\n", event.kind().name(), child);
if (TXTMATCHER.matches(name)) {
procesartxt(child);
}
});
// reset la llave de watcher a manera de asegurar si aun es necesario esperar eventos dentro del folder
boolean valid = key.reset();
if (!valid) {
keys.remove(key);
if (keys.isEmpty()) {
// si ya no hay folders a escuchar salir del loop/thread
break;
}
}
}
}
public static void main(String[] args) throws IOException {
//leer los archivos que YA estan en el folder
Path dir = Paths.get("C:\\Desktop\\test");
try (DirectoryStream<Path> stream = Files.newDirectoryStream(dir, "*.txt")) {
stream.forEach(txtpath -> {
procesartxt(txtpath);
});
}
//Logear un visor espera de que se "edite o agregen datos al folder"
new Watcher(dir).processEvents();
}
private static void procesartxt(Path child) {
CsvParser parser = new CsvParser(child, Optional.empty());
LinkedList<LinkedList<String>> csvdata = parser.Parse();
if (csvdata != null) {
csvdata.forEach(a -> {
a.forEach(b -> {
System.out.printf("\"%s\",", b);
});
System.out.println();
});
}
}
}
luego utilize una version lijeramente modifica de esta clase para leer los CSV
import java.io.BufferedReader;
import java.io.IOException;
import java.nio.charset.Charset;
import java.nio.file.Files;
import java.nio.file.Path;
import java.util.LinkedList;
import java.util.Objects;
import java.util.Optional;
import java.util.logging.Level;
import java.util.logging.Logger;
/**
* CvsParser. a CSV File parser compliance with
* <a href="https://tools.ietf.org/html/rfc4180">RFC4180</a>
*
* @see <a href="https://tools.ietf.org/html/rfc4180">RFC4180</a>
* @author Eduardo
*/
public class CsvParser {
/**
* The CSV Separator as defined by RFC4180
*/
public static final char SEPARATOR = (char) 0x2C;
/**
* Line limiter(s) for File as per definition on RFC4180 RFC4180 DEFINES
* that the rows NEEDS to be separated by CRLF HOWEVER this is not followed
* by all implementations some might use just CR others might only use LF,
* we will warn if only one is present but will try our best to use either.
*/
public static final char CR = '\r', LF = '\n';
/**
* the escape character as define in RFC4180
*/
public static final char ESCAPE_CHR = '"';
/**
* Path to Read/write the Files.
*/
private final Path ReadPath;
/**
* Character Set Used to Decode the File Characters from Raw Bytes this is
* required to ensure the right Character is printed or "understood" by Java
* UTF-16 characters if none is provided we will use the Java Default set on
* this VM (likely "UTF-8" or "UTF-16")
*/
private final Charset FileCharset;
/**
* Initialize the CvsParser instance using the
*
* @param Read Path to the csv file to be read
* @param FileCharset the Optional Parameter to set for the Character Set
* used to decode the file into Java Characters
*/
public CsvParser(final Path Read, Optional<Charset> FileCharset) {
//check non null
this.ReadPath = Objects.requireNonNull(Read, "Read Path is Null! please provide a valid Path");
//check we can read from Read File
if (!Files.isReadable(ReadPath)) {
Logger.getLogger(CsvParser.class.getName()).log(Level.WARNING, "Warning File does not exist, Permissions are missing, or is not Readable ");
}
if (FileCharset == null) {
//wtf! this is just lazy!
FileCharset = Optional.empty();
}
this.FileCharset = FileCharset.orElse(Charset.defaultCharset());
}
/**
* Parse the Text File using CSV format into a grid(a LinkedList of rows)
* the LinkedList is of "rows"(a grid), each row is represented by a
* LinkedList of Strings
*
* @return a grid(LinkedList of Rows)
*/
public LinkedList<LinkedList<String>> Parse() {
LinkedList<LinkedList<String>> grid = null;
//try with resourse
try (BufferedReader br = Files.newBufferedReader(ReadPath, FileCharset)) {
grid = new LinkedList<>();
StringBuilder buffer = new StringBuilder();
boolean escaped = false;
int read;
while ((read = br.read()) >= 0) {
char readchr = (char) read;
//lets see what kind if Character it is.
switch (readchr) {
case ESCAPE_CHR:
escaped = parseEscape(escaped, buffer, br, readchr);
break;
case SEPARATOR:
parseSeparator(escaped, grid, buffer, readchr);
break;
/*here we check for the "row" separator...
RFC4180 DEFINES that the Row separator SHOULD have CR followed by LF
however there are CSV that use only one of them either CR or LF
and some are formal and use both.
for better support lets asume we have a file that is a colash of separators
HOWEVER we will warn about this on the logs
*/
case CR:
case LF:
ParseLine(escaped, grid, buffer, br, readchr);
break;
//for any other character just feed it into the buffer.
default:
buffer.append(readchr);
break;
}
}
//while finish, however there might be uncommited data
//on the buffer that needs to go into the csvdata
if (buffer.length() > 0) {
commitBuffer(grid, buffer);
buffer = null;
}
} catch (IOException ex) {
Logger.getLogger(CsvParser.class.getName()).log(Level.SEVERE, "Error Reading The CSV File.", ex);
}
//try with resource will close the Stream on its own. no need for finally statement.
return grid;
}
/**
* this method is to be called when a Escape is detected, this method will
* review if the escape is set. if it is set it will then check if the
* escape character is on itself "escape" so it should be handled as literal
* and just be added into the buffer (and ignore the duplicate value as it
* is intended to escape.) as per
* <a href="https://tools.ietf.org/html/rfc4180">RFC4180</a>
* definition.
*
* @param escape the status of the Escape flag, if set to true will check if
* the escape character is followed by another escape character and handle
* it as a literal adding it to the buffer. otherwise setting and returning
* the flag as false;<\br>
* if the flag status is False it will set as true until another escape is
* detected.
* @param buffer the buffer to add the Characters into. if a flag is to be
* handled as literal it will be appended to this buffer.
* @param br the bufferedReader to read Characters from needed to read the
* next character to determine if is a end escaping or to be handle as
* literal
* @param readchr the read character (a escape character can be inferred)
* @return the Flag new status This should be used as escape is passed as
* value not as a reference.
* @throws IOException if an Exception is detected upon read the buffer.
*/
private boolean parseEscape(boolean escape, StringBuilder buffer,
BufferedReader br, char readchr) throws IOException {
//it is a escape Charater, if we are Alredy escaping lets
//handle if it is a quotation
if (escape) {
//lets set a bookmark to return if we need to undo.
br.mark(2);
char nextchar = (char) br.read();
if (nextchar == readchr) {
//this is a quote character on the field. so its not to finish the "escaping"
//so we merge this 2 character to a single "double quote"
buffer.append(readchr);
} else {
//this character is not a 2DQUOTE thefore this ends the escaping
escape = false;
//lets go back to the bookmark we did as we need to process that nextchar on the next loop
br.reset();
}
} else {
//we are not yet escaping, so since we found a ESCAPECHAR lets begin
escape = true;
}
return escape;
}
/**
* Commits the Data from the StringBuilder buffer into the Grid. this is
* done in the following manner if the grid is empty (no rows on the grid) a
* new Row(LinkedList<String>) will be added. next it will take the Last row
* from the Grid and add the buffer data into the Row. next will set the
* buffer length to 0 (to clean the buffer in a computation efficient
* manner)
*
* @param grid a LinkedList<LinkedList<String>> that represents the Grid of
* data.
* @param buff a StringBuilder that holds the buffer (read data from the
* file to be committed into the grid)
*/
private void commitBuffer(LinkedList<LinkedList<String>> grid, StringBuilder buff) {
if (grid.isEmpty()) {
//if the grid is empty we need to add the first row and start filling its content
grid.add(new LinkedList<>());
}
//get the "last known row" and add a Cell(the String data) to the end of the Row
grid.getLast().add(buff.toString());
//for perforance, lets "clean the lenght of the buffer"
//this is not "secure", but is quite efficient
buff.setLength(0);
//if the data needs to be nulled "secure" but slow use this line
//buff.trimToSize(); //clear the underline Array
}
/**
* this method is to be called when a Separator is detected, this method
* will review if the escape is set. if it is set it will add the separator
* as a character into the buffer as per defined on the standard
* <a href="https://tools.ietf.org/html/rfc4180">RFC4180</a>
* definition. otherwise it will mean that the Cell is completed and
* therefore needs to commit the Buffer into the grid. by calling
* commitBuffer(grid, buffer);
*
* @param escape the status of the Escape flag, if true will add the
* character into the buffer otherwise commit the data.
* @param grid a LinkedList<LinkedList<String>> that represents the Grid of
* data.
* @param buff a StringBuilder that holds the buffer (read data from the
* file to be committed into the grid)
* @param readchr the character read. can be inferred it is a SEPARATOR
*/
private void parseSeparator(boolean escape, LinkedList<LinkedList<String>> grid, StringBuilder buffer, char readchr) {
//its a SEPARATOR HOWEVER is it escaped?
if (escape) {
//if escaped just add into the buffer
buffer.append(readchr);
} else {
//not escaped so this is a SEPARATOR then lets flush the text buffer
//into the Row data as a new "cell"
commitBuffer(grid, buffer);
}
}
/**
*
* @param escape the status of the Escape flag, if true will add the
* character into the buffer otherwise commit the data. and add a new Row to
* be filled
* @param grid a LinkedList<LinkedList<String>> that represents the Grid of
* data.
* @param buff a StringBuilder that holds the buffer (read data from the
* file to be committed into the grid)
* @param br the bufferedReader to read Characters from needed to read the
* next character to determine and consume the next character if the Line is
* correctly terminated.
* @param readchr the Read character from BufferedReader, this can be either
* if the characters that consist of a Line limiter (CR or LF)
* @throws IOException if an Exception is detected upon read the buffer.
*/
private void ParseLine(boolean escape, LinkedList<LinkedList<String>> grid,
StringBuilder buffer, BufferedReader br, char readchr) throws IOException {
//its a Carriage Return or a Line Feed
if (escape) {
//if escaped just add into the buffer
buffer.append(readchr);
} else {
//not escaped so this should be CR or LF (or CR followed by LF)
if (readchr == CR) {
br.mark(2);
char nextchar = (char) br.read();
if (nextchar != LF) {
Logger.getLogger(CsvParser.class.getName()).log(Level.WARNING,
"WARNING there is a Carriage Return but is not Followed by Line Feed!");
br.reset();
}
} else {
Logger.getLogger(CsvParser.class.getName()).log(Level.WARNING,
"WARNING there is a Line Feed but is not Preceded by Carriage Return!");
}
commitBuffer(grid, buffer);
grid.add(new LinkedList<>());
}
}
}