test.it.unimi.dsi.fastutil.longs.LongArraysTest Maven / Gradle / Ivy
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package it.unimi.dsi.fastutil.longs;
import static org.junit.Assert.assertTrue;
import java.util.Random;
import org.junit.Test;
public class LongArraysTest {
private static long[] identity( int n ) {
final long[] a = new long[ n ];
while( n-- != 0 ) a[ n ] = n;
return a;
}
@Test
public void testRadixSort1() {
long[] t = { 2, 1, 0, 4 };
LongArrays.radixSort( t );
for( int i = t.length - 1; i-- != 0; ) assertTrue( t[ i ] <= t[ i + 1 ] );
t = new long[] { 2, -1, 0, -4 };
LongArrays.radixSort( t );
for( int i = t.length - 1; i-- != 0; ) assertTrue( t[ i ] <= t[ i + 1 ] );
t = LongArrays.shuffle( identity( 100 ), new Random( 0 ) );
LongArrays.radixSort( t );
for( int i = t.length - 1; i-- != 0; ) assertTrue( t[ i ] <= t[ i + 1 ] );
t = new long[ 100 ];
Random random = new Random( 0 );
for( int i = t.length; i-- != 0; ) t[ i ] = random.nextLong();
LongArrays.radixSort( t );
for( int i = t.length - 1; i-- != 0; ) assertTrue( t[ i ] <= t[ i + 1 ] );
t = new long[ 100000 ];
random = new Random( 0 );
for( int i = t.length; i-- != 0; ) t[ i ] = random.nextLong();
LongArrays.radixSort( t );
for( int i = t.length - 1; i-- != 0; ) assertTrue( t[ i ] <= t[ i + 1 ] );
t = new long[ 10000000 ];
random = new Random( 0 );
for( int i = t.length; i-- != 0; ) t[ i ] = random.nextLong();
LongArrays.radixSort( t );
for( int i = t.length - 1; i-- != 0; ) assertTrue( t[ i ] <= t[ i + 1 ] );
}
@Test
public void testRadixSort2() {
long[][] d = new long[ 2 ][];
d[ 0 ] = new long[ 10 ];
for( int i = d[ 0 ].length; i-- != 0; ) d[ 0 ][ i ] = 3 - i % 3;
d[ 1 ] = LongArrays.shuffle( identity( 10 ), new Random( 0 ) );
LongArrays.radixSort( d[ 0 ], d[ 1 ] );
for( int i = d[ 0 ].length - 1; i-- != 0; ) assertTrue( Long.toString( i ) + ": <" + d[ 0 ][ i ] + ", " + d[ 1 ][ i ] + ">, <" + d[ 0 ][ i + 1 ] + ", " + d[ 1 ][ i + 1 ] + ">", d[ 0 ][ i ] < d[ 0 ][ i + 1 ] || d[ 0 ][ i ] == d[ 0 ][ i + 1 ] && d[ 1 ][ i ] <= d[ 1 ][ i + 1 ] );
d[ 0 ] = new long[ 100000 ];
for( int i = d[ 0 ].length; i-- != 0; ) d[ 0 ][ i ] = 100 - i % 100;
d[ 1 ] = LongArrays.shuffle( identity( 100000 ), new Random( 6 ) );
LongArrays.radixSort( d[ 0 ], d[ 1 ] );
for( int i = d[ 0 ].length - 1; i-- != 0; ) assertTrue( Long.toString( i ) + ": <" + d[ 0 ][ i ] + ", " + d[ 1 ][ i ] + ">, <" + d[ 0 ][ i + 1 ] + ", " + d[ 1 ][ i + 1 ] + ">", d[ 0 ][ i ] < d[ 0 ][ i + 1 ] || d[ 0 ][ i ] == d[ 0 ][ i + 1 ] && d[ 1 ][ i ] <= d[ 1 ][ i + 1 ] );
d[ 0 ] = new long[ 10 ];
for( int i = d[ 0 ].length; i-- != 0; ) d[ 0 ][ i ] = i % 3 - 2;
Random random = new Random( 0 );
d[ 1 ] = new long[ d[ 0 ].length ];
for( int i = d.length; i-- != 0; ) d[ 1 ][ i ] = random.nextLong();
LongArrays.radixSort( d[ 0 ], d[ 1 ] );
for( int i = d[ 0 ].length - 1; i-- != 0; ) assertTrue( Long.toString( i ) + ": <" + d[ 0 ][ i ] + ", " + d[ 1 ][ i ] + ">, <" + d[ 0 ][ i + 1 ] + ", " + d[ 1 ][ i + 1 ] + ">", d[ 0 ][ i ] < d[ 0 ][ i + 1 ] || d[ 0 ][ i ] == d[ 0 ][ i + 1 ] && d[ 1 ][ i ] <= d[ 1 ][ i + 1 ] );
d[ 0 ] = new long[ 100000 ];
random = new Random( 0 );
for( int i = d[ 0 ].length; i-- != 0; ) d[ 0 ][ i ] = random.nextLong();
d[ 1 ] = new long[ d[ 0 ].length ];
for( int i = d.length; i-- != 0; ) d[ 1 ][ i ] = random.nextLong();
LongArrays.radixSort( d[ 0 ], d[ 1 ] );
for( int i = d[ 0 ].length - 1; i-- != 0; ) assertTrue( Long.toString( i ) + ": <" + d[ 0 ][ i ] + ", " + d[ 1 ][ i ] + ">, <" + d[ 0 ][ i + 1 ] + ", " + d[ 1 ][ i + 1 ] + ">", d[ 0 ][ i ] < d[ 0 ][ i + 1 ] || d[ 0 ][ i ] == d[ 0 ][ i + 1 ] && d[ 1 ][ i ] <= d[ 1 ][ i + 1 ] );
}
@Test
public void testRadixSort() {
long[][] t = { { 2, 1, 0, 4 } };
LongArrays.radixSort( t );
for( int i = t[ 0 ].length - 1; i-- != 0; ) assertTrue( t[ 0 ][ i ] <= t[ 0 ][ i + 1 ] );
t[ 0 ] = LongArrays.shuffle( identity( 100 ), new Random( 0 ) );
LongArrays.radixSort( t );
for( int i = t[ 0 ].length - 1; i-- != 0; ) assertTrue( t[ 0 ][ i ] <= t[ 0 ][ i + 1 ] );
long[][] d = new long[ 2 ][];
d[ 0 ] = new long[ 10 ];
for( int i = d[ 0 ].length; i-- != 0; ) d[ 0 ][ i ] = 3 - i % 3;
d[ 1 ] = LongArrays.shuffle( identity( 10 ), new Random( 0 ) );
LongArrays.radixSort( d );
for( int i = d[ 0 ].length - 1; i-- != 0; ) assertTrue( Long.toString( i ) + ": <" + d[ 0 ][ i ] + ", " + d[ 1 ][ i ] + ">, <" + d[ 0 ][ i + 1 ] + ", " + d[ 1 ][ i + 1 ] + ">", d[ 0 ][ i ] < d[ 0 ][ i + 1 ] || d[ 0 ][ i ] == d[ 0 ][ i + 1 ] && d[ 1 ][ i ] <= d[ 1 ][ i + 1 ] );
d[ 0 ] = new long[ 100000 ];
for( int i = d[ 0 ].length; i-- != 0; ) d[ 0 ][ i ] = 100 - i % 100;
d[ 1 ] = LongArrays.shuffle( identity( 100000 ), new Random( 6 ) );
LongArrays.radixSort( d );
for( int i = d[ 0 ].length - 1; i-- != 0; ) assertTrue( Long.toString( i ) + ": <" + d[ 0 ][ i ] + ", " + d[ 1 ][ i ] + ">, <" + d[ 0 ][ i + 1 ] + ", " + d[ 1 ][ i + 1 ] + ">", d[ 0 ][ i ] < d[ 0 ][ i + 1 ] || d[ 0 ][ i ] == d[ 0 ][ i + 1 ] && d[ 1 ][ i ] <= d[ 1 ][ i + 1 ] );
d[ 0 ] = new long[ 10 ];
Random random = new Random( 0 );
for( int i = d[ 0 ].length; i-- != 0; ) d[ 0 ][ i ] = random.nextLong();
d[ 1 ] = new long[ d[ 0 ].length ];
for( int i = d.length; i-- != 0; ) d[ 1 ][ i ] = random.nextLong();
LongArrays.radixSort( d );
for( int i = d[ 0 ].length - 1; i-- != 0; ) assertTrue( Long.toString( i ) + ": <" + d[ 0 ][ i ] + ", " + d[ 1 ][ i ] + ">, <" + d[ 0 ][ i + 1 ] + ", " + d[ 1 ][ i + 1 ] + ">", d[ 0 ][ i ] < d[ 0 ][ i + 1 ] || d[ 0 ][ i ] == d[ 0 ][ i + 1 ] && d[ 1 ][ i ] <= d[ 1 ][ i + 1 ] );
d[ 0 ] = new long[ 100000 ];
random = new Random( 0 );
for( int i = d[ 0 ].length; i-- != 0; ) d[ 0 ][ i ] = random.nextLong();
d[ 1 ] = new long[ d[ 0 ].length ];
for( int i = d.length; i-- != 0; ) d[ 1 ][ i ] = random.nextLong();
LongArrays.radixSort( d );
for( int i = d[ 0 ].length - 1; i-- != 0; ) assertTrue( Long.toString( i ) + ": <" + d[ 0 ][ i ] + ", " + d[ 1 ][ i ] + ">, <" + d[ 0 ][ i + 1 ] + ", " + d[ 1 ][ i + 1 ] + ">", d[ 0 ][ i ] < d[ 0 ][ i + 1 ] || d[ 0 ][ i ] == d[ 0 ][ i + 1 ] && d[ 1 ][ i ] <= d[ 1 ][ i + 1 ] );
}
}
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