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Formatted code to GoogleCodeStyle. Fixed misc warnings

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This commit is contained in:
nathan 2014-11-16 21:07:03 +01:00
parent d647d23829
commit 90ee355958
11 changed files with 1137 additions and 1162 deletions
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61
src/dorkbox/util/input/Encoding.java
View File

@ -14,36 +14,37 @@ package dorkbox.util.input;
import java.nio.charset.Charset; import java.nio.charset.Charset;
public class Encoding { public class Encoding {
/**
* Get the default encoding. Will first look at the LC_CTYPE environment variable, then the input.encoding
* system property, then the default charset according to the JVM.
*
* @return The default encoding to use when none is specified.
*/
public static String get() {
// LC_CTYPE is usually in the form en_US.UTF-8
String envEncoding = extractEncodingFromCtype(System.getenv("LC_CTYPE"));
if (envEncoding != null) {
return envEncoding;
}
return System.getProperty("input.encoding", Charset.defaultCharset().name());
}
/** /**
* Parses the LC_CTYPE value to extract the encoding according to the POSIX standard, which says that the LC_CTYPE * Get the default encoding. Will first look at the LC_CTYPE environment variable, then the input.encoding system
* environment variable may be of the format <code>[language[_territory][.codeset][@modifier]]</code> * property, then the default charset according to the JVM.
* *
* @param ctype The ctype to parse, may be null * @return The default encoding to use when none is specified.
* @return The encoding, if one was present, otherwise null */
*/ public static String get() {
private static String extractEncodingFromCtype(String ctype) { // LC_CTYPE is usually in the form en_US.UTF-8
if (ctype != null && ctype.indexOf('.') > 0) { String envEncoding = extractEncodingFromCtype(System.getenv("LC_CTYPE"));
String encodingAndModifier = ctype.substring(ctype.indexOf('.') + 1); if (envEncoding != null) {
if (encodingAndModifier.indexOf('@') > 0) { return envEncoding;
return encodingAndModifier.substring(0, encodingAndModifier.indexOf('@'));
}
return encodingAndModifier;
}
return null;
} }
return System.getProperty("input.encoding", Charset.defaultCharset().name());
}
/**
* Parses the LC_CTYPE value to extract the encoding according to the POSIX standard, which says that the LC_CTYPE
* environment variable may be of the format <code>[language[_territory][.codeset][@modifier]]</code>
*
* @param ctype The ctype to parse, may be null
* @return The encoding, if one was present, otherwise null
*/
private static String extractEncodingFromCtype(String ctype) {
if (ctype != null && ctype.indexOf('.') > 0) {
String encodingAndModifier = ctype.substring(ctype.indexOf('.') + 1);
if (encodingAndModifier.indexOf('@') > 0) {
return encodingAndModifier.substring(0, encodingAndModifier.indexOf('@'));
}
return encodingAndModifier;
}
return null;
}
} }

880
src/dorkbox/util/input/InputConsole.java
View File

@ -15,6 +15,10 @@
*/ */
package dorkbox.util.input; package dorkbox.util.input;
import org.fusesource.jansi.Ansi;
import org.fusesource.jansi.AnsiConsole;
import org.slf4j.Logger;
import java.io.File; import java.io.File;
import java.io.IOException; import java.io.IOException;
import java.io.InputStream; import java.io.InputStream;
@ -25,10 +29,6 @@ import java.security.ProtectionDomain;
import java.util.List; import java.util.List;
import java.util.concurrent.CopyOnWriteArrayList; import java.util.concurrent.CopyOnWriteArrayList;
import org.fusesource.jansi.Ansi;
import org.fusesource.jansi.AnsiConsole;
import org.slf4j.Logger;
import dorkbox.util.OS; import dorkbox.util.OS;
import dorkbox.util.bytes.ByteBuffer2; import dorkbox.util.bytes.ByteBuffer2;
import dorkbox.util.bytes.ByteBuffer2Poolable; import dorkbox.util.bytes.ByteBuffer2Poolable;
@ -40,485 +40,491 @@ import dorkbox.util.objectPool.ObjectPoolFactory;
import dorkbox.util.objectPool.ObjectPoolHolder; import dorkbox.util.objectPool.ObjectPoolHolder;
public class InputConsole { public class InputConsole {
private static final org.slf4j.Logger logger = org.slf4j.LoggerFactory.getLogger(InputConsole.class);
private static final InputConsole consoleProxyReader = new InputConsole();
private static final char[] emptyLine = new char[0];
/** private static final org.slf4j.Logger logger = org.slf4j.LoggerFactory.getLogger(InputConsole.class);
* empty method to allow code to initialize the input console. private static final InputConsole consoleProxyReader = new InputConsole();
*/ private static final char[] emptyLine = new char[0];
public static void init() {
}
// this is run by our init... // this is run by our init...
{ static {
AnsiConsole.systemInstall(); AnsiConsole.systemInstall();
Thread consoleThread = new Thread(new Runnable() { Thread consoleThread = new Thread(new Runnable() {
@Override @Override
public void run() { public void run() {
consoleProxyReader.run(); consoleProxyReader.run();
} }
}); });
consoleThread.setDaemon(true); consoleThread.setDaemon(true);
consoleThread.setName("Console Input Reader"); consoleThread.setName("Console Input Reader");
consoleThread.start(); consoleThread.start();
// has to be NOT DAEMON thread, since it must run before the app closes. // has to be NOT DAEMON thread, since it must run before the app closes.
// don't forget we have to shut down the ansi console as well // don't forget we have to shut down the ansi console as well
// alternatively, shut everything down when the JVM closes. // alternatively, shut everything down when the JVM closes.
Thread shutdownThread = new Thread() { Thread shutdownThread = new Thread() {
@Override @Override
public void run() { public void run() {
AnsiConsole.systemUninstall(); AnsiConsole.systemUninstall();
consoleProxyReader.shutdown0(); consoleProxyReader.shutdown0();
} }
};
shutdownThread.setName("Console Input Shutdown");
Runtime.getRuntime().addShutdownHook(shutdownThread);
}
/** return null if no data */
public static final String readLine() {
char[] line = consoleProxyReader.readLine0();
return new String(line);
}
private static InputStream wrappedInputStream = new InputStream() {
@Override
public int read() throws IOException {
return consoleProxyReader.read0();
}
@Override
public void close() throws IOException {
consoleProxyReader.release0();
}
}; };
shutdownThread.setName("Console Input Shutdown");
Runtime.getRuntime().addShutdownHook(shutdownThread);
}
/**
* Permit our InputConsole to be initialized
*/
public static void init() {
if (logger.isDebugEnabled()) {
logger.debug("Created Terminal: {} ({}w x {}h)", consoleProxyReader.terminal.getClass().getSimpleName(),
consoleProxyReader.terminal.getWidth(),
consoleProxyReader.terminal.getHeight());
}
}
/** return -1 if no data */ /**
public static final int read() { * return null if no data
return consoleProxyReader.read0(); */
public static String readLine() {
char[] line = consoleProxyReader.readLine0();
return new String(line);
}
private static InputStream wrappedInputStream = new InputStream() {
@Override
public int read() throws IOException {
return consoleProxyReader.read0();
} }
/** return null if no data */ @Override
public static final char[] readLinePassword() { public void close() throws IOException {
return consoleProxyReader.readLinePassword0(); consoleProxyReader.release0();
}
};
/**
* return -1 if no data
*/
public static int read() {
return consoleProxyReader.read0();
}
/**
* return null if no data
*/
public static char[] readLinePassword() {
return consoleProxyReader.readLinePassword0();
}
public static InputStream getInputStream() {
return wrappedInputStream;
}
public static void echo(boolean enableEcho) {
consoleProxyReader.echo0(enableEcho);
}
public static boolean echo() {
return consoleProxyReader.echo0();
}
private final Object inputLock = new Object();
private final Object inputLockSingle = new Object();
private final Object inputLockLine = new Object();
private final ObjectPool<ByteBuffer2> pool;
private ThreadLocal<ObjectPoolHolder<ByteBuffer2>> readBuff = new ThreadLocal<ObjectPoolHolder<ByteBuffer2>>();
private List<ObjectPoolHolder<ByteBuffer2>> readBuffers = new CopyOnWriteArrayList<ObjectPoolHolder<ByteBuffer2>>();
private ThreadLocal<Integer> threadBufferCounter = new ThreadLocal<Integer>();
private ThreadLocal<ObjectPoolHolder<ByteBuffer2>> readLineBuff = new ThreadLocal<ObjectPoolHolder<ByteBuffer2>>();
private List<ObjectPoolHolder<ByteBuffer2>>
readLineBuffers =
new CopyOnWriteArrayList<ObjectPoolHolder<ByteBuffer2>>();
private final Terminal terminal;
private final Boolean enableBackspace;
private InputConsole() {
Logger logger = InputConsole.logger;
String readers = System.getProperty(TerminalType.READERS);
int readers2 = 32;
if (readers != null) {
try {
readers2 = Integer.parseInt(readers);
} catch (Exception e) {
e.printStackTrace();
}
}
this.pool = ObjectPoolFactory.create(new ByteBuffer2Poolable(), readers2);
String type = System.getProperty(TerminalType.TYPE, TerminalType.AUTO).toLowerCase();
if ("dumb".equals(System.getenv("TERM"))) {
type = TerminalType.NONE;
if (logger.isTraceEnabled()) {
logger.trace("System environment 'TERM'=dumb, creating type=" + type);
}
} else {
if (logger.isTraceEnabled()) {
logger.trace("Creating terminal, type=" + type);
}
} }
public static InputStream getInputStream() { Terminal t;
return wrappedInputStream; try {
} if (type.equals(TerminalType.UNIX)) {
t = new UnixTerminal();
public static void echo(boolean enableEcho) { } else if (type.equals(TerminalType.WIN) || type.equals(TerminalType.WINDOWS)) {
consoleProxyReader.echo0(enableEcho); t = new WindowsTerminal();
} } else if (type.equals(TerminalType.NONE) || type.equals(TerminalType.OFF) || type.equals(TerminalType.FALSE)) {
t = new UnsupportedTerminal();
public static boolean echo() { } else {
return consoleProxyReader.echo0(); if (isIDEAutoDetect()) {
} logger.debug(
"Terminal is in UNSUPPORTED (best guess). Unable to support single key input. Only line input available.");
private final Object inputLock = new Object(); t = new UnsupportedTerminal();
private final Object inputLockSingle = new Object();
private final Object inputLockLine = new Object();
private final ObjectPool<ByteBuffer2> pool;
private ThreadLocal<ObjectPoolHolder<ByteBuffer2>> readBuff = new ThreadLocal<ObjectPoolHolder<ByteBuffer2>>();
private List<ObjectPoolHolder<ByteBuffer2>> readBuffers = new CopyOnWriteArrayList<ObjectPoolHolder<ByteBuffer2>>();
private ThreadLocal<Integer> threadBufferCounter = new ThreadLocal<Integer>();
private ThreadLocal<ObjectPoolHolder<ByteBuffer2>> readLineBuff = new ThreadLocal<ObjectPoolHolder<ByteBuffer2>>();
private List<ObjectPoolHolder<ByteBuffer2>> readLineBuffers = new CopyOnWriteArrayList<ObjectPoolHolder<ByteBuffer2>>();
private final Terminal terminal;
private final Boolean enableBackspace;
private InputConsole() {
Logger logger = InputConsole.logger;
String readers = System.getProperty(TerminalType.READERS);
int readers2 = 32;
if (readers != null) {
try {
readers2 = Integer.parseInt(readers);
} catch (Exception e) {
}
}
this.pool = ObjectPoolFactory.create(new ByteBuffer2Poolable(), readers2);
String type = System.getProperty(TerminalType.TYPE, TerminalType.AUTO).toLowerCase();
if ("dumb".equals(System.getenv("TERM"))) {
type = TerminalType.NONE;
if (logger.isTraceEnabled()) {
logger.trace("System environment 'TERM'=dumb, creating type=" + type);
}
} else { } else {
if (logger.isTraceEnabled()) { if (OS.isWindows()) {
logger.trace("Creating terminal, type=" + type); t = new WindowsTerminal();
} } else {
t = new UnixTerminal();
}
} }
}
} catch (Exception e) {
Terminal t; logger.error("Failed to construct terminal, falling back to unsupported");
try { t = new UnsupportedTerminal();
if (type.equals(TerminalType.UNIX)) {
t = new UnixTerminal();
}
else if (type.equals(TerminalType.WIN) || type.equals(TerminalType.WINDOWS)) {
t = new WindowsTerminal();
}
else if (type.equals(TerminalType.NONE) || type.equals(TerminalType.OFF) || type.equals(TerminalType.FALSE)) {
t = new UnsupportedTerminal();
} else {
if (isIDEAutoDetect()) {
logger.debug("Terminal is in UNSUPPORTED (best guess). Unable to support single key input. Only line input available.");
t = new UnsupportedTerminal();
} else {
if (OS.isWindows()) {
t = new WindowsTerminal();
} else {
t = new UnixTerminal();
}
}
}
}
catch (Exception e) {
logger.error("Failed to construct terminal, falling back to unsupported");
t = new UnsupportedTerminal();
}
try {
t.init();
}
catch (Throwable e) {
logger.error("Terminal initialization failed, falling back to unsupported");
t = new UnsupportedTerminal();
try {
t.init();
} catch (IOException e1) {
// UnsupportedTerminal can't do this
}
}
t.setEchoEnabled(true);
this.terminal = t;
this.enableBackspace = Boolean.parseBoolean(System.getProperty(TerminalType.ENABLE_BACKSPACE, "true"));
logger.debug("Created Terminal: {} ({}x{})", t.getClass().getSimpleName(), t.getWidth(), t.getHeight());
} }
// called when the JVM is shutting down. try {
private void shutdown0() { t.init();
} catch (Throwable e) {
logger.error("Terminal initialization failed, falling back to unsupported");
t = new UnsupportedTerminal();
try {
t.init();
} catch (IOException e1) {
// UnsupportedTerminal can't do this
}
}
t.setEchoEnabled(true);
this.terminal = t;
this.enableBackspace = Boolean.parseBoolean(System.getProperty(TerminalType.ENABLE_BACKSPACE, "true"));
}
// called when the JVM is shutting down.
private void shutdown0() {
synchronized (this.inputLockSingle) {
this.inputLockSingle.notifyAll();
}
synchronized (this.inputLockLine) {
this.inputLockLine.notifyAll();
}
try {
InputConsole inputConsole = InputConsole.this;
inputConsole.terminal.restore();
// this will 'hang' our shutdown, and honestly, who cares? We're shutting down anyways.
// inputConsole.reader.close(); // hangs on shutdown
} catch (IOException ignored) {
ignored.printStackTrace();
}
}
private void echo0(boolean enableEcho) {
this.terminal.setEchoEnabled(enableEcho);
}
private boolean echo0() {
return this.terminal.isEchoEnabled();
}
/**
* return -1 if no data or bunged-up
*/
private int read0() {
Integer bufferCounter = this.threadBufferCounter.get();
ObjectPoolHolder<ByteBuffer2> objectPoolHolder = this.readBuff.get();
ByteBuffer2 buffer;
if (objectPoolHolder == null) {
bufferCounter = 0;
this.threadBufferCounter.set(bufferCounter);
ObjectPoolHolder<ByteBuffer2> holder = this.pool.take();
buffer = holder.getValue();
buffer.clear();
this.readBuff.set(holder);
this.readBuffers.add(holder);
} else {
buffer = objectPoolHolder.getValue();
}
if (bufferCounter == buffer.position()) {
synchronized (this.inputLockSingle) {
buffer.setPosition(0);
this.threadBufferCounter.set(0);
try {
this.inputLockSingle.wait();
} catch (InterruptedException e) {
return -1;
}
}
}
bufferCounter = this.threadBufferCounter.get();
char c = buffer.readChar(bufferCounter);
bufferCounter += 2;
this.threadBufferCounter.set(bufferCounter);
return c;
}
/**
* return empty char[] if no data
*/
private char[] readLinePassword0() {
// don't bother in an IDE. it won't work.
boolean echoEnabled = this.terminal.isEchoEnabled();
this.terminal.setEchoEnabled(false);
char[] readLine0 = readLine0();
this.terminal.setEchoEnabled(echoEnabled);
return readLine0;
}
/**
* return empty char[] if no data
*/
private char[] readLine0() {
synchronized (this.inputLock) {
// empty here, because we don't want to register a readLine WHILE we are still processing
// the current line info.
// the threadBufferForRead getting added is the part that is important
if (this.readLineBuff.get() == null) {
ObjectPoolHolder<ByteBuffer2> holder = this.pool.take();
this.readLineBuff.set(holder);
this.readLineBuffers.add(holder);
} else {
this.readLineBuff.get().getValue().clear();
}
}
synchronized (this.inputLockLine) {
try {
this.inputLockLine.wait();
} catch (InterruptedException e) {
return emptyLine;
}
}
ObjectPoolHolder<ByteBuffer2> objectPoolHolder = this.readLineBuff.get();
ByteBuffer2 buffer = objectPoolHolder.getValue();
int len = buffer.position();
if (len == 0) {
return emptyLine;
}
buffer.rewind();
char[] readChars = buffer.readChars(len / 2); // java always stores chars in 2 bytes
// dump the chars in the buffer (safer for passwords, etc)
buffer.clearSecure();
this.readLineBuffers.remove(objectPoolHolder);
this.pool.release(objectPoolHolder);
this.readLineBuff.set(null);
return readChars;
}
/**
* releases any thread still waiting.
*/
private void release0() {
synchronized (this.inputLockSingle) {
this.inputLockSingle.notifyAll();
}
synchronized (this.inputLockLine) {
this.inputLockLine.notifyAll();
}
}
private void run() {
Logger logger2 = logger;
final boolean ansiEnabled = Ansi.isEnabled();
Ansi ansi = Ansi.ansi();
PrintStream out = AnsiConsole.out;
int typedChar;
char asChar;
// don't type ; in a bash shell, it quits everything
// \n is replaced by \r in unix terminal?
while ((typedChar = this.terminal.read()) != -1) {
synchronized (this.inputLock) {
// don't let anyone add a new reader while we are still processing the current actions
asChar = (char) typedChar;
if (logger2.isTraceEnabled()) {
logger2.trace("READ: {} ({})", asChar, typedChar);
}
// notify everyone waiting for a character.
synchronized (this.inputLockSingle) { synchronized (this.inputLockSingle) {
this.inputLockSingle.notifyAll(); // have to do readChar first (readLine has to deal with \b and \n
for (ObjectPoolHolder<ByteBuffer2> objectPoolHolder : this.readBuffers) {
ByteBuffer2 buffer = objectPoolHolder.getValue();
buffer.writeChar(asChar);
}
this.inputLockSingle.notifyAll();
} }
synchronized (this.inputLockLine) { // now to handle readLine stuff
// if we type a backspace key, swallow it + previous in READLINE. READCHAR will have it passed.
if (this.enableBackspace && asChar == '\b') {
int position = 0;
// clear ourself + one extra.
if (ansiEnabled) {
for (ObjectPoolHolder<ByteBuffer2> objectPoolHolder : this.readLineBuffers) {
ByteBuffer2 buffer = objectPoolHolder.getValue();
// size of the buffer BEFORE our backspace was typed
int length = buffer.position();
int amtToOverwrite = 2 * 2; // backspace is always 2 chars (^?) * 2 because it's bytes
if (length > 1) {
char charAt = buffer.readChar(length - 2);
amtToOverwrite += getPrintableCharacters(charAt);
// delete last item in our buffer
length -= 2;
buffer.setPosition(length);
// now figure out where the cursor is really at.
// this is more memory friendly than buf.toString.length
for (int i = 0; i < length; i += 2) {
charAt = buffer.readChar(i);
position += getPrintableCharacters(charAt);
}
position++;
}
char[] overwrite = new char[amtToOverwrite];
char c = ' ';
for (int i = 0; i < amtToOverwrite; i++) {
overwrite[i] = c;
}
// move back however many, over write, then go back again
out.print(ansi.cursorToColumn(position));
out.print(overwrite);
out.print(ansi.cursorToColumn(position));
out.flush();
}
}
} else if (asChar == '\n') {
// ignoring \r, because \n is ALWAYS the last character in a new line sequence. (even for windows)
synchronized (this.inputLockLine) {
this.inputLockLine.notifyAll(); this.inputLockLine.notifyAll();
} }
try {
InputConsole inputConsole = InputConsole.this;
inputConsole.terminal.restore();
// this will 'hang' our shutdown, and honestly, who cares? We're shutting down anyways.
// inputConsole.reader.close(); // hangs on shutdown
} catch (IOException ignored) {
ignored.printStackTrace();
}
}
private void echo0(boolean enableEcho) {
this.terminal.setEchoEnabled(enableEcho);
}
private boolean echo0() {
return this.terminal.isEchoEnabled();
}
/** return -1 if no data or bunged-up */
private final int read0() {
Integer bufferCounter = this.threadBufferCounter.get();
ObjectPoolHolder<ByteBuffer2> objectPoolHolder = this.readBuff.get();
ByteBuffer2 buffer = null;
if (objectPoolHolder == null) {
bufferCounter = 0;
this.threadBufferCounter.set(bufferCounter);
ObjectPoolHolder<ByteBuffer2> holder = this.pool.take();
buffer = holder.getValue();
buffer.clear();
this.readBuff.set(holder);
this.readBuffers.add(holder);
} else { } else {
buffer = objectPoolHolder.getValue(); // only append if we are not a new line.
// our windows console PREVENTS us from returning '\r' (it truncates '\r\n', and returns just '\n')
for (ObjectPoolHolder<ByteBuffer2> objectPoolHolder : this.readLineBuffers) {
ByteBuffer2 buffer = objectPoolHolder.getValue();
buffer.writeChar(asChar);
}
} }
}
}
}
if (bufferCounter == buffer.position()) { /**
synchronized (this.inputLockSingle) { * try to guess if we are running inside an IDE
buffer.setPosition(0); */
this.threadBufferCounter.set(0); private boolean isIDEAutoDetect() {
try {
// Get the location of this class
ProtectionDomain pDomain = getClass().getProtectionDomain();
CodeSource cSource = pDomain.getCodeSource();
URL loc = cSource.getLocation(); // file:/X:/workspace/xxxx/classes/ when it's in eclipse
try { // if we are in eclipse, this won't be a jar -- it will be a class directory.
this.inputLockSingle.wait(); File locFile = new File(loc.getFile());
} catch (InterruptedException e) { return locFile.isDirectory();
return -1;
}
}
}
bufferCounter = this.threadBufferCounter.get(); } catch (Exception ignored) {
char c = buffer.readChar(bufferCounter);
bufferCounter += 2;
this.threadBufferCounter.set(bufferCounter);
return c;
} }
/** return empty char[] if no data */ // fall-back to unsupported
private final char[] readLinePassword0() { return true;
// don't bother in an IDE. it won't work. }
boolean echoEnabled = this.terminal.isEchoEnabled();
this.terminal.setEchoEnabled(false);
char[] readLine0 = readLine0();
this.terminal.setEchoEnabled(echoEnabled);
return readLine0;
}
/** return empty char[] if no data */
private final char[] readLine0() {
synchronized (this.inputLock) {
// empty here, because we don't want to register a readLine WHILE we are still processing
// the current line info.
// the threadBufferForRead getting added is the part that is important
if (this.readLineBuff.get() == null) {
ObjectPoolHolder<ByteBuffer2> holder = this.pool.take();
this.readLineBuff.set(holder);
this.readLineBuffers.add(holder);
} else {
this.readLineBuff.get().getValue().clear();
}
}
synchronized (this.inputLockLine) {
try {
this.inputLockLine.wait();
} catch (InterruptedException e) {
return emptyLine;
}
}
ObjectPoolHolder<ByteBuffer2> objectPoolHolder = this.readLineBuff.get();
ByteBuffer2 buffer = objectPoolHolder.getValue();
int len = buffer.position();
if (len == 0) {
return emptyLine;
}
buffer.rewind();
char[] readChars = buffer.readChars(len/2); // java always stores chars in 2 bytes
// dump the chars in the buffer (safer for passwords, etc)
buffer.clearSecure();
this.readLineBuffers.remove(objectPoolHolder);
this.pool.release(objectPoolHolder);
this.readLineBuff.set(null);
return readChars;
}
/**
* releases any thread still waiting.
*/
private void release0() {
synchronized (this.inputLockSingle) {
this.inputLockSingle.notifyAll();
}
synchronized (this.inputLockLine) {
this.inputLockLine.notifyAll();
}
}
private final void run() {
Logger logger2 = logger;
final boolean ansiEnabled = Ansi.isEnabled();
Ansi ansi = Ansi.ansi();
PrintStream out = AnsiConsole.out;
int typedChar;
char asChar;
// don't type ; in a bash shell, it quits everything
// \n is replaced by \r in unix terminal?
while ((typedChar = this.terminal.read()) != -1) {
synchronized (this.inputLock) {
// don't let anyone add a new reader while we are still processing the current actions
asChar = (char) typedChar;
if (logger2.isTraceEnabled()) {
logger2.trace("READ: {} ({})", asChar, typedChar);
}
// notify everyone waiting for a character.
synchronized (this.inputLockSingle) {
// have to do readChar first (readLine has to deal with \b and \n
for (ObjectPoolHolder<ByteBuffer2> objectPoolHolder : this.readBuffers) {
ByteBuffer2 buffer = objectPoolHolder.getValue();
buffer.writeChar(asChar);
}
this.inputLockSingle.notifyAll();
}
// now to handle readLine stuff /**
* Return the number of characters that will be printed when the specified character is echoed to the screen
// if we type a backspace key, swallow it + previous in READLINE. READCHAR will have it passed. *
if (this.enableBackspace && asChar == '\b') { * Adapted from cat by Torbjorn Granlund, as repeated in stty by David MacKenzie.
int position = 0; */
private static int getPrintableCharacters(final int ch) {
// clear ourself + one extra.
if (ansiEnabled) {
for (ObjectPoolHolder<ByteBuffer2> objectPoolHolder : this.readLineBuffers) {
ByteBuffer2 buffer = objectPoolHolder.getValue();
// size of the buffer BEFORE our backspace was typed
int length = buffer.position();
int amtToOverwrite = 2 * 2; // backspace is always 2 chars (^?) * 2 because it's bytes
if (length > 1) {
char charAt = buffer.readChar(length-2);
amtToOverwrite += getPrintableCharacters(charAt);
// delete last item in our buffer
length -= 2;
buffer.setPosition(length);
// now figure out where the cursor is really at.
// this is more memory friendly than buf.toString.length
for (int i=0;i<length;i+=2) {
charAt = buffer.readChar(i);
position += getPrintableCharacters(charAt);
}
position++;
}
char[] overwrite = new char[amtToOverwrite];
char c = ' ';
for (int i=0;i<amtToOverwrite;i++) {
overwrite[i] = c;
}
// move back however many, over write, then go back again
out.print(ansi.cursorToColumn(position));
out.print(overwrite);
out.print(ansi.cursorToColumn(position));
out.flush();
}
}
}
else if (asChar == '\n') {
// ignoring \r, because \n is ALWAYS the last character in a new line sequence. (even for windows)
synchronized (this.inputLockLine) {
this.inputLockLine.notifyAll();
}
}
else {
// only append if we are not a new line.
// our windows console PREVENTS us from returning '\r' (it truncates '\r\n', and returns just '\n')
for (ObjectPoolHolder<ByteBuffer2> objectPoolHolder : this.readLineBuffers) {
ByteBuffer2 buffer = objectPoolHolder.getValue();
buffer.writeChar(asChar);
}
}
}
}
}
/**
* try to guess if we are running inside an IDE
*/
private boolean isIDEAutoDetect() {
try {
// Get the location of this class
ProtectionDomain pDomain = getClass().getProtectionDomain();
CodeSource cSource = pDomain.getCodeSource();
URL loc = cSource.getLocation(); // file:/X:/workspace/xxxx/classes/ when it's in eclipse
// if we are in eclipse, this won't be a jar -- it will be a class directory.
File locFile = new File(loc.getFile());
return locFile.isDirectory();
} catch (Exception e) {
}
// fall-back to unsupported
return true;
}
/**
* Return the number of characters that will be printed when the specified
* character is echoed to the screen
*
* Adapted from cat by Torbjorn Granlund, as repeated in stty by David MacKenzie.
*/
public static int getPrintableCharacters(final int ch) {
// StringBuilder sbuff = new StringBuilder(); // StringBuilder sbuff = new StringBuilder();
if (ch >= 32) { if (ch >= 32) {
if (ch < 127) { if (ch < 127) {
// sbuff.append((char) ch); // sbuff.append((char) ch);
return 1; return 1;
} } else if (ch == 127) {
else if (ch == 127) {
// sbuff.append('^'); // sbuff.append('^');
// sbuff.append('?'); // sbuff.append('?');
return 2; return 2;
} } else {
else {
// sbuff.append('M'); // sbuff.append('M');
// sbuff.append('-'); // sbuff.append('-');
int count = 2; int count = 2;
if (ch >= 128 + 32) { if (ch >= 128 + 32) {
if (ch < 128 + 127) { if (ch < 128 + 127) {
// sbuff.append((char) (ch - 128)); // sbuff.append((char) (ch - 128));
count++; count++;
} } else {
else {
// sbuff.append('^'); // sbuff.append('^');
// sbuff.append('?'); // sbuff.append('?');
count += 2; count += 2;
} }
} } else {
else {
// sbuff.append('^'); // sbuff.append('^');
// sbuff.append((char) (ch - 128 + 64)); // sbuff.append((char) (ch - 128 + 64));
count += 2; count += 2;
}
return count;
}
} }
else { return count;
}
} else {
// sbuff.append('^'); // sbuff.append('^');
// sbuff.append((char) (ch + 64)); // sbuff.append((char) (ch + 64));
return 2; return 2;
} }
// return sbuff; // return sbuff;
} }
} }

42
src/dorkbox/util/input/Terminal.java
View File

@ -18,34 +18,36 @@ package dorkbox.util.input;
import java.io.IOException; import java.io.IOException;
public abstract class Terminal { public abstract class Terminal {
protected final org.slf4j.Logger logger = org.slf4j.LoggerFactory.getLogger(getClass());
protected final org.slf4j.Logger logger = org.slf4j.LoggerFactory.getLogger(getClass());
public static final int DEFAULT_WIDTH = 80; protected static final int DEFAULT_WIDTH = 80;
public static final int DEFAULT_HEIGHT = 24; protected static final int DEFAULT_HEIGHT = 24;
private volatile boolean echoEnabled; private volatile boolean echoEnabled;
public Terminal() { protected Terminal() {
} }
public abstract void init() throws IOException; public abstract void init() throws IOException;
public abstract void restore() throws IOException; public abstract void restore() throws IOException;
public void setEchoEnabled(boolean enabled) { public void setEchoEnabled(boolean enabled) {
this.echoEnabled = enabled; this.echoEnabled = enabled;
} }
public boolean isEchoEnabled() { public boolean isEchoEnabled() {
return this.echoEnabled; return this.echoEnabled;
} }
public abstract int getWidth(); public abstract int getWidth();
public abstract int getHeight();
/** public abstract int getHeight();
* @return a character from whatever underlying input method the terminal has available.
*/ /**
public abstract int read(); * @return a character from whatever underlying input method the terminal has available.
*/
public abstract int read();
} }

21
src/dorkbox/util/input/TerminalType.java
View File

@ -16,16 +16,17 @@
package dorkbox.util.input; package dorkbox.util.input;
public class TerminalType { public class TerminalType {
public static final String TYPE = "input.terminal";
public static final String READERS = "input.terminal.readers";
public static final String ENABLE_BACKSPACE = "input.enableBackspace";
public static final String AUTO = "auto"; public static final String TYPE = "input.terminal";
public static final String UNIX = "unix"; public static final String READERS = "input.terminal.readers";
public static final String WIN = "win"; public static final String ENABLE_BACKSPACE = "input.enableBackspace";
public static final String WINDOWS = "windows";
public static final String NONE = "none"; public static final String AUTO = "auto";
public static final String OFF = "off"; public static final String UNIX = "unix";
public static final String FALSE = "false"; public static final String WIN = "win";
public static final String WINDOWS = "windows";
public static final String NONE = "none";
public static final String OFF = "off";
public static final String FALSE = "false";
} }

548
src/dorkbox/util/input/posix/InputStreamReader.java
View File

@ -32,319 +32,283 @@ import java.nio.charset.UnmappableCharacterException;
/** /**
* * NOTE for JLine: the default InputStreamReader that comes from the JRE usually read more bytes than needed from the
* NOTE for JLine: the default InputStreamReader that comes from the JRE * input stream, which is not usable in a character per character model used in the console. We thus use the harmony
* usually read more bytes than needed from the input stream, which * code which only reads the minimal number of bytes, with a modification to ensure we can read larger characters
* is not usable in a character per character model used in the console. * (UTF-16 has up to 4 bytes, and UTF-32, rare as it is, may have up to 8).
* We thus use the harmony code which only reads the minimal number of bytes,
* with a modification to ensure we can read larger characters (UTF-16 has
* up to 4 bytes, and UTF-32, rare as it is, may have up to 8).
* *
* *
* A class for turning a byte stream into a character stream. Data read from the * A class for turning a byte stream into a character stream. Data read from the source input stream is converted into
* source input stream is converted into characters by either a default or a * characters by either a default or a provided character converter. The default encoding is taken from the
* provided character converter. The default encoding is taken from the * "file.encoding" system property. {@code InputStreamReader} contains a buffer of bytes read from the source stream and
* "file.encoding" system property. {@code InputStreamReader} contains a buffer * converts these into characters as needed. The buffer size is 8K.
* of bytes read from the source stream and converts these into characters as
* needed. The buffer size is 8K.
* *
* @see OutputStreamWriter * @see OutputStreamWriter
*/ */
public class InputStreamReader extends Reader { @SuppressWarnings("ALL")
private InputStream in; class InputStreamReader extends Reader {
private static final int BUFFER_SIZE = 8192; private InputStream in;
private boolean endOfInput = false; private static final int BUFFER_SIZE = 8192;
String encoding; private boolean endOfInput = false;
CharsetDecoder decoder; String encoding;
ByteBuffer bytes = ByteBuffer.allocate(BUFFER_SIZE); CharsetDecoder decoder;
/** ByteBuffer bytes = ByteBuffer.allocate(BUFFER_SIZE);
* Constructs a new {@code InputStreamReader} on the {@link InputStream}
* {@code in}. This constructor sets the character converter to the encoding
* specified in the "file.encoding" property and falls back to ISO 8859_1
* (ISO-Latin-1) if the property doesn't exist.
*
* @param in
* the input stream from which to read characters.
*/
public InputStreamReader(InputStream in) {
super(in);
this.in = in;
// FIXME: This should probably use Configuration.getFileEncoding()
this.encoding = System.getProperty("file.encoding", "ISO8859_1"); //$NON-NLS-1$//$NON-NLS-2$
this.decoder = Charset.forName(this.encoding).newDecoder().onMalformedInput(
CodingErrorAction.REPLACE).onUnmappableCharacter(
CodingErrorAction.REPLACE);
this.bytes.limit(0);
}
/** /**
* Constructs a new InputStreamReader on the InputStream {@code in}. The * Constructs a new {@code InputStreamReader} on the {@link InputStream} {@code in}. This constructor sets the
* character converter that is used to decode bytes into characters is * character converter to the encoding specified in the "file.encoding" property and falls back to ISO 8859_1
* identified by name by {@code enc}. If the encoding cannot be found, an * (ISO-Latin-1) if the property doesn't exist.
* UnsupportedEncodingException error is thrown. *
* * @param in the input stream from which to read characters.
* @param in */
* the InputStream from which to read characters. public InputStreamReader(InputStream in) {
* @param enc super(in);
* identifies the character converter to use. this.in = in;
* @throws NullPointerException // FIXME: This should probably use Configuration.getFileEncoding()
* if {@code enc} is {@code null}. this.encoding = System.getProperty("file.encoding", "ISO8859_1"); //$NON-NLS-1$//$NON-NLS-2$
* @throws UnsupportedEncodingException this.decoder = Charset.forName(this.encoding).newDecoder().onMalformedInput(
* if the encoding specified by {@code enc} cannot be found. CodingErrorAction.REPLACE).onUnmappableCharacter(
*/ CodingErrorAction.REPLACE);
public InputStreamReader(InputStream in, final String enc) this.bytes.limit(0);
}
/**
* Constructs a new InputStreamReader on the InputStream {@code in}. The character converter that is used to decode
* bytes into characters is identified by name by {@code enc}. If the encoding cannot be found, an
* UnsupportedEncodingException error is thrown.
*
* @param in the InputStream from which to read characters.
* @param enc identifies the character converter to use.
* @throws NullPointerException if {@code enc} is {@code null}.
* @throws UnsupportedEncodingException if the encoding specified by {@code enc} cannot be found.
*/
public InputStreamReader(InputStream in, final String enc)
// throws UnsupportedEncodingException // throws UnsupportedEncodingException
{ {
super(in); super(in);
if (enc == null) { if (enc == null) {
throw new NullPointerException(); throw new NullPointerException();
} }
this.in = in; this.in = in;
try { try {
this.decoder = Charset.forName(enc).newDecoder().onMalformedInput( this.decoder = Charset.forName(enc).newDecoder().onMalformedInput(
CodingErrorAction.REPLACE).onUnmappableCharacter( CodingErrorAction.REPLACE).onUnmappableCharacter(
CodingErrorAction.REPLACE); CodingErrorAction.REPLACE);
} catch (IllegalArgumentException e) { } catch (IllegalArgumentException e) {
e.printStackTrace(); e.printStackTrace();
// throw (UnsupportedEncodingException) // throw (UnsupportedEncodingException)
// new UnsupportedEncodingException(enc).initCause(e); // new UnsupportedEncodingException(enc).initCause(e);
}
this.bytes.limit(0);
}
/**
* Constructs a new InputStreamReader on the InputStream {@code in} and CharsetDecoder {@code dec}.
*
* @param in the source InputStream from which to read characters.
* @param dec the CharsetDecoder used by the character conversion.
*/
public InputStreamReader(InputStream in, CharsetDecoder dec) {
super(in);
dec.averageCharsPerByte();
this.in = in;
this.decoder = dec;
this.bytes.limit(0);
}
/**
* Constructs a new InputStreamReader on the InputStream {@code in} and Charset {@code charset}.
*
* @param in the source InputStream from which to read characters.
* @param charset the Charset that defines the character converter
*/
public InputStreamReader(InputStream in, Charset charset) {
super(in);
this.in = in;
this.decoder = charset.newDecoder().onMalformedInput(
CodingErrorAction.REPLACE).onUnmappableCharacter(
CodingErrorAction.REPLACE);
this.bytes.limit(0);
}
/**
* Closes this reader. This implementation closes the source InputStream and releases all local storage.
*
* @throws IOException if an error occurs attempting to close this reader.
*/
@Override
public void close() throws IOException {
synchronized (this.lock) {
this.decoder = null;
if (this.in != null) {
this.in.close();
this.in = null;
}
}
}
/**
* Returns the name of the encoding used to convert bytes into characters. The value {@code null} is returned if this
* reader has been closed.
*
* @return the name of the character converter or {@code null} if this reader is closed.
*/
public String getEncoding() {
if (!isOpen()) {
return null;
}
return this.encoding;
}
/**
* Reads a single character from this reader and returns it as an integer with the two higher-order bytes set to 0.
* Returns -1 if the end of the reader has been reached. The byte value is either obtained from converting bytes in
* this reader's buffer or by first filling the buffer from the source InputStream and then reading from the buffer.
*
* @return the character read or -1 if the end of the reader has been reached.
* @throws IOException if this reader is closed or some other I/O error occurs.
*/
@Override
public int read() throws IOException {
synchronized (this.lock) {
if (!isOpen()) {
throw new IOException("InputStreamReader is closed.");
}
char buf[] = new char[4];
return read(buf, 0, 4) != -1 ? Character.codePointAt(buf, 0) : -1;
}
}
/**
* Reads at most {@code length} characters from this reader and stores them at position {@code offset} in the
* character array {@code buf}. Returns the number of characters actually read or -1 if the end of the reader has been
* reached. The bytes are either obtained from converting bytes in this reader's buffer or by first filling the buffer
* from the source InputStream and then reading from the buffer.
*
* @param buf the array to store the characters read.
* @param offset the initial position in {@code buf} to store the characters read from this reader.
* @param length the maximum number of characters to read.
* @return the number of characters read or -1 if the end of the reader has been reached.
* @throws IndexOutOfBoundsException if {@code offset < 0} or {@code length < 0}, or if {@code offset + length} is
* greater than the length of {@code buf}.
* @throws IOException if this reader is closed or some other I/O error occurs.
*/
@Override
public int read(char[] buf, int offset, int length) throws IOException {
synchronized (this.lock) {
if (!isOpen()) {
throw new IOException("InputStreamReader is closed.");
}
if (offset < 0 || offset > buf.length - length || length < 0) {
throw new IndexOutOfBoundsException();
}
if (length == 0) {
return 0;
}
CharBuffer out = CharBuffer.wrap(buf, offset, length);
CoderResult result = CoderResult.UNDERFLOW;
// bytes.remaining() indicates number of bytes in buffer
// when 1-st time entered, it'll be equal to zero
boolean needInput = !this.bytes.hasRemaining();
while (out.hasRemaining()) {
// fill the buffer if needed
if (needInput) {
try {
if (this.in.available() == 0
&& out.position() > offset) {
// we could return the result without blocking read
break;
}
} catch (IOException e) {
// available didn't work so just try the read
}
int to_read = this.bytes.capacity() - this.bytes.limit();
int off = this.bytes.arrayOffset() + this.bytes.limit();
int was_red = this.in.read(this.bytes.array(), off, to_read);
if (was_red == -1) {
this.endOfInput = true;
break;
} else if (was_red == 0) {
break;
}
this.bytes.limit(this.bytes.limit() + was_red);
needInput = false;
} }
this.bytes.limit(0);
}
/** // decode bytes
* Constructs a new InputStreamReader on the InputStream {@code in} and result = this.decoder.decode(this.bytes, out, false);
* CharsetDecoder {@code dec}.
*
* @param in
* the source InputStream from which to read characters.
* @param dec
* the CharsetDecoder used by the character conversion.
*/
public InputStreamReader(InputStream in, CharsetDecoder dec) {
super(in);
dec.averageCharsPerByte();
this.in = in;
this.decoder = dec;
this.bytes.limit(0);
}
/** if (result.isUnderflow()) {
* Constructs a new InputStreamReader on the InputStream {@code in} and // compact the buffer if no space left
* Charset {@code charset}. if (this.bytes.limit() == this.bytes.capacity()) {
* this.bytes.compact();
* @param in this.bytes.limit(this.bytes.position());
* the source InputStream from which to read characters. this.bytes.position(0);
* @param charset }
* the Charset that defines the character converter needInput = true;
*/ } else {
public InputStreamReader(InputStream in, Charset charset) { break;
super(in);
this.in = in;
this.decoder = charset.newDecoder().onMalformedInput(
CodingErrorAction.REPLACE).onUnmappableCharacter(
CodingErrorAction.REPLACE);
this.bytes.limit(0);
}
/**
* Closes this reader. This implementation closes the source InputStream and
* releases all local storage.
*
* @throws IOException
* if an error occurs attempting to close this reader.
*/
@Override
public void close() throws IOException {
synchronized (this.lock) {
this.decoder = null;
if (this.in != null) {
this.in.close();
this.in = null;
}
} }
}
if (result == CoderResult.UNDERFLOW && this.endOfInput) {
result = this.decoder.decode(this.bytes, out, true);
this.decoder.flush(out);
this.decoder.reset();
}
if (result.isMalformed()) {
throw new MalformedInputException(result.length());
} else if (result.isUnmappable()) {
throw new UnmappableCharacterException(result.length());
}
return out.position() - offset == 0 ? -1 : out.position() - offset;
} }
}
/** /*
* Returns the name of the encoding used to convert bytes into characters. * Answer a boolean indicating whether or not this InputStreamReader is
* The value {@code null} is returned if this reader has been closed. * open.
* */
* @return the name of the character converter or {@code null} if this private boolean isOpen() {
* reader is closed. return this.in != null;
*/ }
public String getEncoding() {
if (!isOpen()) { /**
return null; * Indicates whether this reader is ready to be read without blocking. If the result is {@code true}, the next {@code
} * read()} will not block. If the result is {@code false} then this reader may or may not block when {@code read()} is
return this.encoding; * called. This implementation returns {@code true} if there are bytes available in the buffer or the source stream
* has bytes available.
*
* @return {@code true} if the receiver will not block when {@code read()} is called, {@code false} if unknown or
* blocking will occur.
* @throws IOException if this reader is closed or some other I/O error occurs.
*/
@Override
public boolean ready() throws IOException {
synchronized (this.lock) {
if (this.in == null) {
throw new IOException("InputStreamReader is closed.");
}
try {
return this.bytes.hasRemaining() || this.in.available() > 0;
} catch (IOException e) {
return false;
}
} }
}
/** }
* Reads a single character from this reader and returns it as an integer
* with the two higher-order bytes set to 0. Returns -1 if the end of the
* reader has been reached. The byte value is either obtained from
* converting bytes in this reader's buffer or by first filling the buffer
* from the source InputStream and then reading from the buffer.
*
* @return the character read or -1 if the end of the reader has been
* reached.
* @throws IOException
* if this reader is closed or some other I/O error occurs.
*/
@Override
public int read() throws IOException {
synchronized (this.lock) {
if (!isOpen()) {
throw new IOException("InputStreamReader is closed.");
}
char buf[] = new char[4];
return read(buf, 0, 4) != -1 ? Character.codePointAt(buf, 0) : -1;
}
}
/**
* Reads at most {@code length} characters from this reader and stores them
* at position {@code offset} in the character array {@code buf}. Returns
* the number of characters actually read or -1 if the end of the reader has
* been reached. The bytes are either obtained from converting bytes in this
* reader's buffer or by first filling the buffer from the source
* InputStream and then reading from the buffer.
*
* @param buf
* the array to store the characters read.
* @param offset
* the initial position in {@code buf} to store the characters
* read from this reader.
* @param length
* the maximum number of characters to read.
* @return the number of characters read or -1 if the end of the reader has
* been reached.
* @throws IndexOutOfBoundsException
* if {@code offset < 0} or {@code length < 0}, or if
* {@code offset + length} is greater than the length of
* {@code buf}.
* @throws IOException
* if this reader is closed or some other I/O error occurs.
*/
@Override
public int read(char[] buf, int offset, int length) throws IOException {
synchronized (this.lock) {
if (!isOpen()) {
throw new IOException("InputStreamReader is closed.");
}
if (offset < 0 || offset > buf.length - length || length < 0) {
throw new IndexOutOfBoundsException();
}
if (length == 0) {
return 0;
}
CharBuffer out = CharBuffer.wrap(buf, offset, length);
CoderResult result = CoderResult.UNDERFLOW;
// bytes.remaining() indicates number of bytes in buffer
// when 1-st time entered, it'll be equal to zero
boolean needInput = !this.bytes.hasRemaining();
while (out.hasRemaining()) {
// fill the buffer if needed
if (needInput) {
try {
if (this.in.available() == 0
&& out.position() > offset) {
// we could return the result without blocking read
break;
}
} catch (IOException e) {
// available didn't work so just try the read
}
int to_read = this.bytes.capacity() - this.bytes.limit();
int off = this.bytes.arrayOffset() + this.bytes.limit();
int was_red = this.in.read(this.bytes.array(), off, to_read);
if (was_red == -1) {
this.endOfInput = true;
break;
} else if (was_red == 0) {
break;
}
this.bytes.limit(this.bytes.limit() + was_red);
needInput = false;
}
// decode bytes
result = this.decoder.decode(this.bytes, out, false);
if (result.isUnderflow()) {
// compact the buffer if no space left
if (this.bytes.limit() == this.bytes.capacity()) {
this.bytes.compact();
this.bytes.limit(this.bytes.position());
this.bytes.position(0);
}
needInput = true;
} else {
break;
}
}
if (result == CoderResult.UNDERFLOW && this.endOfInput) {
result = this.decoder.decode(this.bytes, out, true);
this.decoder.flush(out);
this.decoder.reset();
}
if (result.isMalformed()) {
throw new MalformedInputException(result.length());
} else if (result.isUnmappable()) {
throw new UnmappableCharacterException(result.length());
}
return out.position() - offset == 0 ? -1 : out.position() - offset;
}
}
/*
* Answer a boolean indicating whether or not this InputStreamReader is
* open.
*/
private boolean isOpen() {
return this.in != null;
}
/**
* Indicates whether this reader is ready to be read without blocking. If
* the result is {@code true}, the next {@code read()} will not block. If
* the result is {@code false} then this reader may or may not block when
* {@code read()} is called. This implementation returns {@code true} if
* there are bytes available in the buffer or the source stream has bytes
* available.
*
* @return {@code true} if the receiver will not block when {@code read()}
* is called, {@code false} if unknown or blocking will occur.
* @throws IOException
* if this reader is closed or some other I/O error occurs.
*/
@Override
public boolean ready() throws IOException {
synchronized (this.lock) {
if (this.in == null) {
throw new IOException("InputStreamReader is closed.");
}
try {
return this.bytes.hasRemaining() || this.in.available() > 0;
} catch (IOException e) {
return false;
}
}
}
}

106
src/dorkbox/util/input/posix/PosixTerminalControl.java
View File

@ -15,69 +15,71 @@
*/ */
package dorkbox.util.input.posix; package dorkbox.util.input.posix;
import java.nio.ByteBuffer;
import com.sun.jna.Library; import com.sun.jna.Library;
public interface PosixTerminalControl extends Library { import java.nio.ByteBuffer;
public static final int TCSANOW = 0;
public static final int TBUFLEN = 124;
// Definitions at: http://linux.die.net/man/3/termios @SuppressWarnings("ALL")
// also: http://code.metager.de/source/xref/DragonFly-BSD/sys/sys/termios.h interface PosixTerminalControl extends Library {
public static final int IGNBRK = 0x00000001; /* ignore BREAK condition */
public static final int BRKINT = 0x00000002; /* map BREAK to SIGINTR */ public static final int TCSANOW = 0;
public static final int TBUFLEN = 124;
// Definitions at: http://linux.die.net/man/3/termios
// also: http://code.metager.de/source/xref/DragonFly-BSD/sys/sys/termios.h
public static final int IGNBRK = 0x00000001; /* ignore BREAK condition */
public static final int BRKINT = 0x00000002; /* map BREAK to SIGINTR */
public static final int ISIG = 0000001; public static final int ISIG = 0000001;
public static final int ICANON = 0000002; public static final int ICANON = 0000002;
public static final int ECHO = 0000010; public static final int ECHO = 0000010;
public static final int IXON = 0002000; public static final int IXON = 0002000;
public static final int VINTR = 0; public static final int VINTR = 0;
public static final int VQUIT = 1; public static final int VQUIT = 1;
public static final int VERASE = 2; public static final int VERASE = 2;
public static final int VKILL = 3; public static final int VKILL = 3;
public static final int VEOF = 4; public static final int VEOF = 4;
public static final int VTIME = 5; public static final int VTIME = 5;
public static final int VMIN = 6; public static final int VMIN = 6;
public static final int VSWTC = 7; public static final int VSWTC = 7;
public static final int VSTART = 8; public static final int VSTART = 8;
public static final int VSTOP = 9; public static final int VSTOP = 9;
public static final int VSUSP = 10; public static final int VSUSP = 10;
public static final int VEOL = 11; public static final int VEOL = 11;
public static final int VREPRINT = 12; public static final int VREPRINT = 12;
public static final int VDISCARD = 13; public static final int VDISCARD = 13;
public static final int VWERASE = 14; public static final int VWERASE = 14;
public static final int VLNEXT = 15; public static final int VLNEXT = 15;
public static final int VEOL2 = 16; public static final int VEOL2 = 16;
// MAGIC! // MAGIC!
public static final int TIOCGWINSZ = System.getProperty("os.name").equalsIgnoreCase("linux") ? 0x5413 : 1074295912; public static final int TIOCGWINSZ = System.getProperty("os.name").equalsIgnoreCase("linux") ? 0x5413 : 1074295912;
public int open(String path, int flags); public int open(String path, int flags);
public int close(int fd); public int close(int fd);
/** /**
* Original signature : <code>int ioctl(int, int, char*)</code><br> * Original signature : <code>int ioctl(int, int, char*)</code><br>
*/ */
public int ioctl(int d, int request, ByteBuffer data); public int ioctl(int d, int request, ByteBuffer data);
/** /**
* Put the state of FD into *TERMIOS_P.<br> * Put the state of FD into *TERMIOS_P.<br>
* *
* Original signature : <code>int tcgetattr(int, char*)</code><br> * Original signature : <code>int tcgetattr(int, char*)</code><br>
*/ */
public int tcgetattr(int fd, TermiosStruct termios_p); public int tcgetattr(int fd, TermiosStruct termios_p);
/** /**
* Set the state of FD to *TERMIOS_P.<br> * Set the state of FD to *TERMIOS_P.<br>
* *
* Values for OPTIONAL_ACTIONS (TCSA*) are in <bits/termios.h>.<br> * Values for OPTIONAL_ACTIONS (TCSA*) are in <bits/termios.h>.<br>
* *
* Original signature : <code>int tcsetattr(int, int, char*)</code><br> * Original signature : <code>int tcsetattr(int, int, char*)</code><br>
*/ */
public int tcsetattr(int fd, int optional_actions, TermiosStruct termios_p); public int tcsetattr(int fd, int optional_actions, TermiosStruct termios_p);
} }

86
src/dorkbox/util/input/posix/TermiosStruct.java
View File

@ -15,45 +15,63 @@
*/ */
package dorkbox.util.input.posix; package dorkbox.util.input.posix;
import com.sun.jna.Structure;
import java.util.Arrays; import java.util.Arrays;
import java.util.List; import java.util.List;
import com.sun.jna.Structure; @SuppressWarnings("ALL")
class TermiosStruct extends Structure {
public class TermiosStruct extends Structure { /**
/** input mode flags */ * input mode flags
public int c_iflag; */
/** output mode flags */ public int c_iflag;
public int c_oflag; /**
/** control mode flags */ * output mode flags
public int c_cflag; */
/** local mode flags */ public int c_oflag;
public int c_lflag; /**
/** line discipline */ * control mode flags
public byte c_line; */
public int c_cflag;
/**
* local mode flags
*/
public int c_lflag;
/**
* line discipline
*/
public byte c_line;
/** control characters */ /**
public byte[] c_cc = new byte[32]; * control characters
*/
public byte[] c_cc = new byte[32];
/** input speed */ /**
public int c_ispeed; * input speed
/** output speed */ */
public int c_ospeed; public int c_ispeed;
/**
* output speed
*/
public int c_ospeed;
public TermiosStruct() { public TermiosStruct() {
} }
@Override @Override
protected List<String> getFieldOrder() { protected List<String> getFieldOrder() {
return Arrays.asList( return Arrays.asList(
"c_iflag", "c_iflag",
"c_oflag", "c_oflag",
"c_cflag", "c_cflag",
"c_lflag", "c_lflag",
"c_line", "c_line",
"c_cc", "c_cc",
"c_ispeed", "c_ispeed",
"c_ospeed" "c_ospeed"
); );
} }
} }

182
src/dorkbox/util/input/posix/UnixTerminal.java
View File

@ -15,50 +15,50 @@
*/ */
package dorkbox.util.input.posix; package dorkbox.util.input.posix;
import com.sun.jna.Native;
import java.io.IOException; import java.io.IOException;
import java.io.Reader; import java.io.Reader;
import java.nio.ByteBuffer; import java.nio.ByteBuffer;
import com.sun.jna.Native;
import dorkbox.util.input.Encoding; import dorkbox.util.input.Encoding;
import dorkbox.util.input.Terminal; import dorkbox.util.input.Terminal;
/** /**
* Terminal that is used for unix platforms. Terminal initialization * Terminal that is used for unix platforms. Terminal initialization is handled via JNA and
* is handled via JNA and ioctl/tcgetattr/tcsetattr/cfmakeraw. * ioctl/tcgetattr/tcsetattr/cfmakeraw.
* *
* This implementation should work for an reasonable POSIX system. * This implementation should work for an reasonable POSIX system.
*/ */
public class UnixTerminal extends Terminal { public class UnixTerminal extends Terminal {
private volatile TermiosStruct termInfoDefault = new TermiosStruct(); private volatile TermiosStruct termInfoDefault = new TermiosStruct();
private volatile TermiosStruct termInfo = new TermiosStruct(); private volatile TermiosStruct termInfo = new TermiosStruct();
private Reader reader; private final Reader reader;
private PosixTerminalControl term; private final PosixTerminalControl term;
private ByteBuffer windowSizeBuffer = ByteBuffer.allocate(8); private ByteBuffer windowSizeBuffer = ByteBuffer.allocate(8);
public UnixTerminal() throws Exception { public UnixTerminal() throws Exception {
String encoding = Encoding.get(); String encoding = Encoding.get();
this.reader = new InputStreamReader(System.in, encoding); this.reader = new InputStreamReader(System.in, encoding);
this.term = (PosixTerminalControl) Native.loadLibrary("c", PosixTerminalControl.class); this.term = (PosixTerminalControl) Native.loadLibrary("c", PosixTerminalControl.class);
// save off the defaults // save off the defaults
if (this.term.tcgetattr(0, this.termInfoDefault) !=0) { if (this.term.tcgetattr(0, this.termInfoDefault) != 0) {
throw new IOException("Failed to get terminal info"); throw new IOException("Failed to get terminal info");
}
} }
}
@Override @Override
public void init() throws IOException { public void init() throws IOException {
// COMPARABLE TO (from upstream) // COMPARABLE TO (from upstream)
//settings.set("-icanon min 1 -ixon"); //settings.set("-icanon min 1 -ixon");
//settings.set("dsusp undef"); //settings.set("dsusp undef");
/* /*
* NOT done in constructor, since our unit test DOES NOT use this! * NOT done in constructor, since our unit test DOES NOT use this!
@ -77,90 +77,86 @@ public class UnixTerminal extends Terminal {
// t->c_cc[VMIN] = 1; // t->c_cc[VMIN] = 1;
// t->c_cc[VTIME] = 0; // t->c_cc[VTIME] = 0;
if (this.term.tcgetattr(0, this.termInfo) !=0) { if (this.term.tcgetattr(0, this.termInfo) != 0) {
throw new IOException("Failed to get terminal info"); throw new IOException("Failed to get terminal info");
} }
this.termInfo.c_iflag &= ~PosixTerminalControl.IXON; // DISABLE - flow control mediated by ^S and ^Q this.termInfo.c_iflag &= ~PosixTerminalControl.IXON; // DISABLE - flow control mediated by ^S and ^Q
// struct.c_iflag |= PosixTerminalControl.IUTF8; // DISABLE - flow control mediated by ^S and ^Q // struct.c_iflag |= PosixTerminalControl.IUTF8; // DISABLE - flow control mediated by ^S and ^Q
this.termInfo.c_lflag &= ~PosixTerminalControl.ICANON; // DISABLE - canonical mode (pass chars straight through to terminal) this.termInfo.c_lflag &=
~PosixTerminalControl.ICANON; // DISABLE - canonical mode (pass chars straight through to terminal)
// struct.c_lflag &= ~PosixTerminalControl.ISIG; // DISABLE - When any of the characters INTR, QUIT, SUSP, or DSUSP are received, generate the corresponding signal. // struct.c_lflag &= ~PosixTerminalControl.ISIG; // DISABLE - When any of the characters INTR, QUIT, SUSP, or DSUSP are received, generate the corresponding signal.
// If MIN > 0 and TIME = 0, MIN sets the number of characters to receive before the read is satisfied. As TIME is zero, the timer is not used.
this.termInfo.c_cc[PosixTerminalControl.VMIN] = 1; // Minimum number of characters for noncanonical read (MIN).
this.termInfo.c_cc[PosixTerminalControl.VTIME] = 0; // Timeout in deciseconds for noncanonical read (TIME).
// If MIN > 0 and TIME = 0, MIN sets the number of characters to receive before the read is satisfied. As TIME is zero, the timer is not used. this.termInfo.c_cc[PosixTerminalControl.VSUSP] = 0; // suspend disabled
this.termInfo.c_cc[PosixTerminalControl.VMIN] = 1; // Minimum number of characters for noncanonical read (MIN). this.termInfo.c_cc[PosixTerminalControl.VEOF] = 0; // eof disabled
this.termInfo.c_cc[PosixTerminalControl.VTIME] = 0; // Timeout in deciseconds for noncanonical read (TIME). this.termInfo.c_cc[PosixTerminalControl.VEOL] = 0; // eol disabled
this.termInfo.c_cc[PosixTerminalControl.VSUSP] = 0; // suspend disabled if (this.term.tcsetattr(0, PosixTerminalControl.TCSANOW, this.termInfo) != 0) {
this.termInfo.c_cc[PosixTerminalControl.VEOF] = 0; // eof disabled throw new IOException("Can not set terminal flags");
this.termInfo.c_cc[PosixTerminalControl.VEOL] = 0; // eol disabled }
}
/**
* Restore the original terminal configuration, which can be used when shutting down the console reader. The
* ConsoleReader cannot be used after calling this method.
*/
@Override
public final void restore() throws IOException {
if (this.term.tcsetattr(0, PosixTerminalControl.TCSANOW, this.termInfoDefault) != 0) {
throw new IOException("Can not reset terminal to defaults");
}
}
if (this.term.tcsetattr(0, PosixTerminalControl.TCSANOW, this.termInfo) != 0) { /**
throw new IOException("Can not set terminal flags"); * Returns number of columns in the terminal.
} */
@Override
public final int getWidth() {
if (this.term.ioctl(0, PosixTerminalControl.TIOCGWINSZ, this.windowSizeBuffer) != 0) {
return DEFAULT_WIDTH;
} }
/** return (short) (0x000000FF & this.windowSizeBuffer.get(2) + (0x000000FF & this.windowSizeBuffer.get(3)) * 256);
* Restore the original terminal configuration, which can be used when }
* shutting down the console reader. The ConsoleReader cannot be
* used after calling this method. /**
*/ * Returns number of rows in the terminal.
@Override */
public final void restore() throws IOException { @Override
if (this.term.tcsetattr(0, PosixTerminalControl.TCSANOW, this.termInfoDefault) != 0) { public final int getHeight() {
throw new IOException("Can not reset terminal to defaults"); if (this.term.ioctl(0, PosixTerminalControl.TIOCGWINSZ, this.windowSizeBuffer) != 0) {
} return DEFAULT_HEIGHT;
} }
/** return
* Returns number of columns in the terminal. (short) (0x000000FF & this.windowSizeBuffer.get(0) + (0x000000FF & this.windowSizeBuffer.get(1)) * 256);
*/ }
@Override
public final int getWidth() {
if (this.term.ioctl(0, PosixTerminalControl.TIOCGWINSZ, this.windowSizeBuffer) != 0) {
return DEFAULT_WIDTH;
}
short columns = (short)(0x000000FF &this.windowSizeBuffer.get(2) + (0x000000FF & this.windowSizeBuffer.get(3)) * 256); @Override
return columns; public final synchronized void setEchoEnabled(final boolean enabled) {
// have to reget them, since flags change everything
if (this.term.tcgetattr(0, this.termInfo) != 0) {
this.logger.error("Failed to get terminal info");
} }
/** if (enabled) {
* Returns number of rows in the terminal. this.termInfo.c_lflag |= PosixTerminalControl.ECHO; // ENABLE Echo input characters.
*/ } else {
@Override this.termInfo.c_lflag &= ~PosixTerminalControl.ECHO; // DISABLE Echo input characters.
public final int getHeight() {
if (this.term.ioctl(0, PosixTerminalControl.TIOCGWINSZ, this.windowSizeBuffer) != 0) {
return DEFAULT_HEIGHT;
}
short rows = (short)(0x000000FF &this.windowSizeBuffer.get(0) + (0x000000FF & this.windowSizeBuffer.get(1)) * 256);
return rows;
} }
@Override if (this.term.tcsetattr(0, PosixTerminalControl.TCSANOW, this.termInfo) != 0) {
public final synchronized void setEchoEnabled(final boolean enabled) { this.logger.error("Can not set terminal flags");
// have to reget them, since flags change everything
if (this.term.tcgetattr(0, this.termInfo) !=0) {
this.logger.error("Failed to get terminal info");
}
if (enabled) {
this.termInfo.c_lflag |= PosixTerminalControl.ECHO; // ENABLE Echo input characters.
}
else {
this.termInfo.c_lflag &= ~PosixTerminalControl.ECHO; // DISABLE Echo input characters.
}
if (this.term.tcsetattr(0, PosixTerminalControl.TCSANOW, this.termInfo) != 0) {
this.logger.error("Can not set terminal flags");
}
super.setEchoEnabled(enabled);
} }
super.setEchoEnabled(enabled);
}
// public final void disableInterruptCharacter() { // public final void disableInterruptCharacter() {
// // have to re-get them, since flags change everything // // have to re-get them, since flags change everything
// if (this.term.tcgetattr(0, this.termInfo) !=0) { // if (this.term.tcgetattr(0, this.termInfo) !=0) {
@ -187,12 +183,12 @@ public class UnixTerminal extends Terminal {
// } // }
// } // }
@Override @Override
public final int read() { public final int read() {
try { try {
return this.reader.read(); return this.reader.read();
} catch (IOException ignored) { } catch (IOException ignored) {
return -1; return -1;
}
} }
}
} }

106
src/dorkbox/util/input/unsupported/UnsupportedTerminal.java
View File

@ -23,68 +23,66 @@ import dorkbox.util.input.Terminal;
public class UnsupportedTerminal extends Terminal { public class UnsupportedTerminal extends Terminal {
private ByteBuffer2 buffer = new ByteBuffer2(8, -1); private final ByteBuffer2 buffer = new ByteBuffer2(8, -1);
private int readerCount = -1; private int readerCount = -1;
private InputStream in; private final InputStream in;
public UnsupportedTerminal() { public UnsupportedTerminal() {
this.in = System.in; this.in = System.in;
} }
@Override @Override
public final void init() throws IOException { public final void init() throws IOException {
} }
@Override @Override
public final void restore() { public final void restore() {
} }
@Override @Override
public final int getWidth() { public final int getWidth() {
return 0; return 0;
} }
@Override @Override
public final int getHeight() { public final int getHeight() {
return 0; return 0;
} }
@Override @Override
public final int read() { public final int read() {
// if we are reading data (because we are in IDE mode), we want to return ALL the chars of the line! // if we are reading data (because we are in IDE mode), we want to return ALL the chars of the line!
// so, 'readerCount' is REALLY the index at which we return letters (until the whole string is returned) // so, 'readerCount' is REALLY the index at which we return letters (until the whole string is returned)
if (this.readerCount == -1) { if (this.readerCount == -1) {
// we have to wait for more data. // we have to wait for more data.
try { try {
InputStream sysIn = this.in; InputStream sysIn = this.in;
int read; int read;
char asChar; char asChar;
this.buffer.clearSecure(); this.buffer.clearSecure();
while ((read = sysIn.read()) != -1) { while ((read = sysIn.read()) != -1) {
asChar = (char)read; asChar = (char) read;
if (asChar == '\n') { if (asChar == '\n') {
this.readerCount = this.buffer.position(); this.readerCount = this.buffer.position();
this.buffer.rewind(); this.buffer.rewind();
break; break;
} else { } else {
this.buffer.writeChar(asChar); this.buffer.writeChar(asChar);
} }
}
} catch (IOException e1) {
}
}
// EACH thread will have it's own count!
if (this.readerCount == this.buffer.position()) {
this.readerCount = -1;
return '\n';
} else {
char c = this.buffer.readChar();
return c;
} }
} catch (IOException ignored) {
}
} }
}
// EACH thread will have it's own count!
if (this.readerCount == this.buffer.position()) {
this.readerCount = -1;
return '\n';
} else {
return this.buffer.readChar();
}
}
}

80
src/dorkbox/util/input/windows/ConsoleMode.java
View File

@ -12,57 +12,47 @@
package dorkbox.util.input.windows; package dorkbox.util.input.windows;
/** /**
* Console mode * Console mode <p/> Constants copied <tt>wincon.h</tt>.
* <p/>
* Constants copied <tt>wincon.h</tt>.
*/ */
public enum ConsoleMode { public enum ConsoleMode {
/** /**
* The ReadFile or ReadConsole function returns only when a carriage return * The ReadFile or ReadConsole function returns only when a carriage return character is read. If this mode is
* character is read. If this mode is disable, the functions return when one * disable, the functions return when one or more characters are available.
* or more characters are available. */
*/ ENABLE_LINE_INPUT(2),
ENABLE_LINE_INPUT(2),
/** /**
* Characters read by the ReadFile or ReadConsole function are written to * Characters read by the ReadFile or ReadConsole function are written to the active screen buffer as they are read.
* the active screen buffer as they are read. This mode can be used only if * This mode can be used only if the ENABLE_LINE_INPUT mode is also enabled.
* the ENABLE_LINE_INPUT mode is also enabled. */
*/ ENABLE_ECHO_INPUT(4),
ENABLE_ECHO_INPUT(4),
/** /**
* CTRL+C is processed by the system and is not placed in the input buffer. * CTRL+C is processed by the system and is not placed in the input buffer. If the input buffer is being read by
* If the input buffer is being read by ReadFile or ReadConsole, other * ReadFile or ReadConsole, other control keys are processed by the system and are not returned in the ReadFile or
* control keys are processed by the system and are not returned in the * ReadConsole buffer. If the ENABLE_LINE_INPUT mode is also enabled, backspace, carriage return, and linefeed
* ReadFile or ReadConsole buffer. If the ENABLE_LINE_INPUT mode is also * characters are handled by the system.
* enabled, backspace, carriage return, and linefeed characters are handled */
* by the system. ENABLE_PROCESSED_INPUT(1),
*/
ENABLE_PROCESSED_INPUT(1),
/** /**
* User interactions that change the size of the console screen buffer are * User interactions that change the size of the console screen buffer are reported in the console's input buffee.
* reported in the console's input buffee. Information about these events * Information about these events can be read from the input buffer by applications using theReadConsoleInput
* can be read from the input buffer by applications using * function, but not by those using ReadFile orReadConsole.
* theReadConsoleInput function, but not by those using ReadFile */
* orReadConsole. ENABLE_WINDOW_INPUT(8),
*/
ENABLE_WINDOW_INPUT(8),
/** /**
* If the mouse pointer is within the borders of the console window and the * If the mouse pointer is within the borders of the console window and the window has the keyboard focus, mouse
* window has the keyboard focus, mouse events generated by mouse movement * events generated by mouse movement and button presses are placed in the input buffer. These events are discarded by
* and button presses are placed in the input buffer. These events are * ReadFile or ReadConsole, even when this mode is enabled.
* discarded by ReadFile or ReadConsole, even when this mode is enabled. */
*/ ENABLE_MOUSE_INPUT(16),;
ENABLE_MOUSE_INPUT(16),
;
public final int code; public final int code;
ConsoleMode(final int code) { ConsoleMode(final int code) {
this.code = code; this.code = code;
} }
} }

187
src/dorkbox/util/input/windows/WindowsTerminal.java
View File

@ -11,117 +11,114 @@
*/ */
package dorkbox.util.input.windows; package dorkbox.util.input.windows;
import java.io.IOException;
import java.io.PrintStream;
import org.fusesource.jansi.internal.Kernel32.INPUT_RECORD; import org.fusesource.jansi.internal.Kernel32.INPUT_RECORD;
import org.fusesource.jansi.internal.Kernel32.KEY_EVENT_RECORD; import org.fusesource.jansi.internal.Kernel32.KEY_EVENT_RECORD;
import org.fusesource.jansi.internal.WindowsSupport; import org.fusesource.jansi.internal.WindowsSupport;
import java.io.IOException;
import java.io.PrintStream;
import dorkbox.util.input.Terminal; import dorkbox.util.input.Terminal;
/** /**
* Terminal implementation for Microsoft Windows. Terminal initialization in * Terminal implementation for Microsoft Windows. Terminal initialization in {@link #init} is accomplished by calling
* {@link #init} is accomplished by calling the Win32 APIs <a * the Win32 APIs <a href="http://msdn.microsoft.com/library/default.asp? url=/library/en-us/dllproc/base/setconsolemode.asp">SetConsoleMode</a>
* href="http://msdn.microsoft.com/library/default.asp? * and <a href="http://msdn.microsoft.com/library/default.asp? url=/library/en-us/dllproc/base/getconsolemode.asp">GetConsoleMode</a>
* url=/library/en-us/dllproc/base/setconsolemode.asp">SetConsoleMode</a> and * to disable character echoing. <p/>
* <a href="http://msdn.microsoft.com/library/default.asp? *
* url=/library/en-us/dllproc/base/getconsolemode.asp">GetConsoleMode</a> to
* disable character echoing.
* <p/>
* @since 2.0 (customized) * @since 2.0 (customized)
*/ */
public class WindowsTerminal extends Terminal { public class WindowsTerminal extends Terminal {
private volatile int originalMode;
private final PrintStream out;
public WindowsTerminal() { private volatile int originalMode;
this.out = System.out; private final PrintStream out;
public WindowsTerminal() {
this.out = System.out;
}
@Override
public final void init() throws IOException {
this.originalMode = WindowsSupport.getConsoleMode();
// Must set these four modes at the same time to make it work fine.
WindowsSupport.setConsoleMode(this.originalMode |
ConsoleMode.ENABLE_LINE_INPUT.code |
ConsoleMode.ENABLE_ECHO_INPUT.code |
ConsoleMode.ENABLE_PROCESSED_INPUT.code |
ConsoleMode.ENABLE_WINDOW_INPUT.code);
}
/**
* Restore the original terminal configuration, which can be used when shutting down the console reader. The
* ConsoleReader cannot be used after calling this method.
*/
@Override
public final void restore() throws IOException {
// restore the old console mode
WindowsSupport.setConsoleMode(this.originalMode);
}
@Override
public final int getWidth() {
int w = WindowsSupport.getWindowsTerminalWidth();
return w < 1 ? DEFAULT_WIDTH : w;
}
@Override
public final int getHeight() {
int h = WindowsSupport.getWindowsTerminalHeight();
return h < 1 ? DEFAULT_HEIGHT : h;
}
@Override
public final int read() {
int input = readInput();
if (isEchoEnabled()) {
char asChar = (char) input;
if (asChar == '\n') {
this.out.println();
} else {
this.out.print(asChar);
}
// have to flush, otherwise we'll never see the chars on screen
this.out.flush();
} }
@Override return input;
public final void init() throws IOException { }
this.originalMode = WindowsSupport.getConsoleMode();
// Must set these four modes at the same time to make it work fine. private int readInput() {
WindowsSupport.setConsoleMode(this.originalMode | // this HOOKS the input event, and prevents it from going to the console "proper"
ConsoleMode.ENABLE_LINE_INPUT.code | try {
ConsoleMode.ENABLE_ECHO_INPUT.code | INPUT_RECORD[] events;
ConsoleMode.ENABLE_PROCESSED_INPUT.code | while (true) {
ConsoleMode.ENABLE_WINDOW_INPUT.code); // we ALWAYS read until we have an event we care about!
} events = WindowsSupport.readConsoleInput(1);
/** if (events != null) {
* Restore the original terminal configuration, which can be used when for (int i = 0; i < events.length; i++) {
* shutting down the console reader. The ConsoleReader cannot be KEY_EVENT_RECORD keyEvent = events[i].keyEvent;
* used after calling this method. //Log.trace(keyEvent.keyDown? "KEY_DOWN" : "KEY_UP", "key code:", keyEvent.keyCode, "char:", (long)keyEvent.uchar);
*/ if (keyEvent.keyDown) {
@Override if (keyEvent.uchar > 0) {
public final void restore() throws IOException { char uchar = keyEvent.uchar;
// restore the old console mode if (uchar == '\r') {
WindowsSupport.setConsoleMode(this.originalMode); // we purposefully swallow input after \r, and substitute it with \n
} return '\n';
@Override
public final int getWidth() {
int w = WindowsSupport.getWindowsTerminalWidth();
return w < 1 ? DEFAULT_WIDTH : w;
}
@Override
public final int getHeight() {
int h = WindowsSupport.getWindowsTerminalHeight();
return h < 1 ? DEFAULT_HEIGHT : h;
}
@Override
public final int read() {
int input = readInput();
if (isEchoEnabled()) {
char asChar = (char) input;
if (asChar == '\n') {
this.out.println();
} else {
this.out.print(asChar);
}
// have to flush, otherwise we'll never see the chars on screen
this.out.flush();
}
return input;
}
private final int readInput() {
// this HOOKS the input event, and prevents it from going to the console "proper"
try {
INPUT_RECORD[] events = null;
while (true) {
// we ALWAYS read until we have an event we care about!
events = WindowsSupport.readConsoleInput(1);
if (events != null) {
for (int i = 0; i < events.length; i++ ) {
KEY_EVENT_RECORD keyEvent = events[i].keyEvent;
//Log.trace(keyEvent.keyDown? "KEY_DOWN" : "KEY_UP", "key code:", keyEvent.keyCode, "char:", (long)keyEvent.uchar);
if (keyEvent.keyDown) {
if (keyEvent.uchar > 0) {
char uchar = keyEvent.uchar;
if (uchar == '\r') {
// we purposefully swallow input after \r, and substitute it with \n
return '\n';
}
return uchar;
}
}
}
} }
}
} catch (IOException e) {
this.logger.error("Windows console input error: ", e);
}
return -1; return uchar;
}
}
}
}
}
} catch (IOException e) {
this.logger.error("Windows console input error: ", e);
} }
return -1;
}
} }