//returns true if addr is in a given range including boundary.
/**
* This returns true if addr is between start and end in a ring.
* IsBetweenFrom*() excludes both start and end, but InRange() includes both.
* @param addr, this node's address
* @param start, the beginning address of range
* @param end, the ending address of range
*/
public bool InRange(AHAddress addr, AHAddress start, AHAddress end) {
bool betw = addr.IsBetweenFromLeft(start,end);
if (addr == start || addr == end) {return true;}
else { return betw; }
}
public void Test() {
byte[] buf1 = new byte[20];
for (int i = 0; i <= 18; i++)
{
buf1[i] = 0x00;
}
buf1[19] = 0x0A;
AHAddress test_address_1 = new AHAddress( MemBlock.Reference(buf1, 0, buf1.Length) );
byte[] buf2 = new byte[20];
for (int i = 0; i <= 18; i++) {
buf2[i] = 0xFF;
}
buf2[19] = 0xFE;
AHAddress test_address_2 = new AHAddress( MemBlock.Reference(buf2, 0, buf2.Length) );
//test_address_1 is to the left of test_address_2
//because it only a few steps in the clockwise direction:
Assert.IsTrue( test_address_1.IsLeftOf( test_address_2 ), "IsLeftOf");
Assert.IsTrue( test_address_2.IsRightOf( test_address_1 ), "IsRightOf");
//This distance is twelve:
Assert.AreEqual( test_address_2.DistanceTo( test_address_1),
new BigInteger(12), "DistanceTo");
Assert.IsTrue( test_address_1.CompareTo(test_address_2) < 0, "CompareTo");
Assert.IsTrue( test_address_2.CompareTo(test_address_1) > 0, "CompareTo");
byte[] buf3 = new byte[Address.MemSize];
test_address_2.CopyTo(buf3);
AHAddress test3 = new AHAddress(MemBlock.Reference(buf3,0,buf3.Length));
Assert.IsTrue( test3.CompareTo( test_address_2 ) == 0 , "CompareTo");
Assert.IsTrue( test3.CompareTo( test3 ) == 0, "CompareTo");
//As long as the address does not wrap around, adding should increase it:
AHAddress a4 = new AHAddress( test_address_1.ToBigInteger() + 100 );
Assert.IsTrue( a4.CompareTo( test_address_1 ) > 0, "adding increases");
Assert.IsTrue( a4.CompareTo( test_address_2 ) < 0, "smaller than biggest");
//Here are some consistency tests:
for( int i = 0; i < 100; i++) {
System.Random r = new Random();
byte[] b1 = new byte[Address.MemSize];
r.NextBytes(b1);
//Make sure it is class 0:
Address.SetClass(b1, 0);
byte[] b2 = new byte[Address.MemSize];
r.NextBytes(b2);
//Make sure it is class 0:
Address.SetClass(b2, 0);
byte[] b3 = new byte[Address.MemSize];
r.NextBytes(b3);
//Make sure it is class 0:
Address.SetClass(b3, 0);
AHAddress a5 = new AHAddress( MemBlock.Reference(b1,0,b1.Length) );
AHAddress a6 = new AHAddress( MemBlock.Reference(b2,0,b2.Length) );
AHAddress a7 = new AHAddress( MemBlock.Reference(b3,0,b3.Length) );
Assert.IsTrue( a5.CompareTo(a6) == -1 * a6.CompareTo(a5), "consistency");
//Nothing is between the same address:
Assert.IsFalse( a5.IsBetweenFromLeft(a6, a6), "Empty Between Left");
Assert.IsFalse( a5.IsBetweenFromRight(a7, a7), "Empty Between Right");
//Endpoints are not between:
Assert.IsFalse( a6.IsBetweenFromLeft(a6, a7), "End point Between Left");
Assert.IsFalse( a6.IsBetweenFromRight(a6, a7), "End point Between Right");
Assert.IsFalse( a7.IsBetweenFromLeft(a6, a7), "End point Between Left");
Assert.IsFalse( a7.IsBetweenFromRight(a6, a7), "End point Between Right");
if ( a5.IsBetweenFromLeft(a6, a7) ) {
//Then the following must be true:
Assert.IsTrue( a6.LeftDistanceTo(a5) < a6.LeftDistanceTo(a7),
"BetweenLeft true");
}
else {
//Then the following must be false:
Assert.IsFalse( a6.LeftDistanceTo(a5) < a6.LeftDistanceTo(a7),
"BetweenLeft false");
}
if ( a5.IsBetweenFromRight(a6, a7) ) {
//Then the following must be true:
Assert.IsTrue( a6.RightDistanceTo(a5) < a6.RightDistanceTo(a7),
"BetweenRight true");
}
else {
//Then the following must be false:
Assert.IsFalse( a6.RightDistanceTo(a5) < a6.RightDistanceTo(a7),
"BetweenRight false");
}
Assert.IsFalse(a5.IsBetweenFromLeft(a6, a7) ==
a5.IsBetweenFromRight(a6, a7),
"can't be between left and between right");
}
}
/**
* When a node is out of the range, this method is called.
* This method tries to find the nearest node to the middle of range using greedty algorithm.
* return list of MapReduceInfo
*/
private ArrayList GenerateTreeOutRange(AHAddress start, AHAddress end, MapReduceArgs mr_args, int timeout) {
ArrayList retval = new ArrayList();
BigInteger up = start.ToBigInteger();
BigInteger down = end.ToBigInteger();
BigInteger mid_range = (up + down) /2;
if (mid_range % 2 == 1) {mid_range = mid_range -1; }
AHAddress mid_addr = new AHAddress(mid_range);
if (!mid_addr.IsBetweenFromLeft(start, end) ) {
mid_range += Address.Half;
mid_addr = new AHAddress(mid_range);
}
ArrayList gen_arg = new ArrayList();
if (NextGreedyClosest(mid_addr) != null ) {
AHGreedySender ags = new AHGreedySender(_node, mid_addr);
string start_range = start.ToString();
string end_range = end.ToString();
gen_arg.Add(start_range);
gen_arg.Add(end_range);
MapReduceInfo mr_info = new MapReduceInfo( (ISender) ags,
new MapReduceArgs(this.TaskName,
mr_args.MapArg,
gen_arg,
mr_args.ReduceArg,
timeout));
Log("{0}: {1}, out of range, moving to the closest node to mid_range: {2} to target node, range start: {3}, range end: {4}",
this.TaskName, _node.Address, mid_addr, start, end);
retval.Add(mr_info);
}
else {
// cannot find a node in the range.
}
return retval;
}
