package org.openslx.util;
import java.util.regex.Pattern;
import org.apache.logging.log4j.LogManager;
import org.apache.logging.log4j.Logger;
public class Util
{
private static Logger log = LogManager.getLogger( Util.class );
/**
* Check if the given object is null, abort program if true. An optional
* message to be printed can be passed. A stack trace will be printed, too.
* Finally the application terminates with exit code 2.
*
* This comes in handy if something must not be null, and you want user
* friendly output. A perfect example would be reading settings from a
* config file. You can use this on mandatory fields.
*
* @param something the object to compare to null
* @param message the message to be printed if something is null
*/
public static void notNullFatal( Object something, String message )
{
if ( something == null ) {
if ( message != null )
log.fatal( "[NOTNULL] " + message );
log.warn( "Fatal null pointer exception", new NullPointerException() );
System.exit( 2 );
}
}
private static Pattern nonprintableExp = Pattern.compile( "[\\p{C}\\p{Zl}\\p{Zp}]" );
private static Pattern nonSpaceExp = Pattern.compile( "[^\\p{C}\\p{Z}]" );
/**
* Whether the given string contains only printable characters.
*/
public static boolean isPrintable( String string )
{
return !nonprintableExp.matcher( string ).find();
}
/**
* Whether given string is null, empty, or only matches space-like
* characters.
*/
public static boolean isEmptyString( String string )
{
return string == null || !nonSpaceExp.matcher( string ).find();
}
/**
* Check if given string is null or empty and abort program if so.
*
* @param something String to check
* @param message Error message to display on abort
*/
public static void notNullOrEmptyFatal( String something, String message )
{
if ( isEmptyString( something ) ) {
if ( message != null )
log.fatal( "[NOTNULL] " + message );
log.warn( "Fatal null pointer or empty exception", new NullPointerException() );
System.exit( 2 );
}
}
/**
* Parse the given String as a base10 integer.
* If the string does not represent a valid integer, return the given
* default value.
*
* @param value string representation to parse to an int
* @param defaultValue fallback value if given string can't be parsed
*/
public static int parseInt( String value, int defaultValue )
{
try {
return Integer.parseInt( value );
} catch ( Exception e ) {
return defaultValue;
}
}
/**
* Parse the given String as a base10 long.
* If the string does not represent a valid long, return the given
* default value.
*
* @param value string representation to parse to a long
* @param defaultValue fallback value if given string can't be parsed
*/
public static long parseLong( String value, long defaultValue )
{
try {
return Long.parseLong( value );
} catch ( Exception e ) {
return defaultValue;
}
}
public static void safeClose( AutoCloseable... closeable )
{
for ( AutoCloseable c : closeable ) {
if ( c == null )
continue;
try {
c.close();
} catch ( Throwable t ) {
}
}
}
public static boolean sleep( int millis )
{
try {
Thread.sleep( millis );
return true;
} catch ( InterruptedException e ) {
Thread.currentThread().interrupt();
return false;
}
}
public static boolean joinThread( Thread t )
{
try {
t.join();
return true;
} catch ( InterruptedException e ) {
return false;
}
}
/**
* Number of seconds elapsed since 1970-01-01 UTC.
*/
public static long unixTime()
{
return System.currentTimeMillis() / 1000;
}
/**
* Monotonic tick count in milliseconds, not bound to RTC.
*/
public static long tickCount()
{
return System.nanoTime() / 1000_000;
}
private static final String[] UNITS = new String[] { "B", "KB", "MB", "GB", "TB", "PB", "???" };
public static String formatBytes( double val )
{
int unit = 0;
while ( Math.abs(val) > 1024 ) {
val /= 1024;
unit++;
}
if (unit >= UNITS.length) {
unit = UNITS.length - 1;
}
return String.format( "%.1f %s", val, UNITS[unit] );
}
}
