Xincrol algorithm solves this problem. Explanation + source code:

http://openpatent.blogspot.co.il/2013/04/xincrol-unique-and-random-number.html

```
/**
* Xincrol - Unique and Random Number Generator
* Xincrol.java
* Purpose: Generating unique random numbers in specified range.
*
* @author Tofig Kareemov
* @version 1.2 2013.04.28
*/
package androphic.estereos.lib.algs;
public class Xincrol {
// Private Data...
private int iUniqueSeed = 0;
private int[] iKey = new int[8];
private int iSet = 0;
private int iSystemID = 0;
// Constructor
public Xincrol() {
iSystemID = System.getProperties().toString().hashCode();
for (int i = 0; i < iKey.length; ++i) {
iKey[i] = i;
}
reset(Integer.MAX_VALUE);
}
// .
// Private Methods...
private void reset(int iBase) {
iUniqueSeed = 0;
iKey[0] ^= iSystemID;
iKey[1] ^= (int) System.nanoTime();
iKey[2] ^= (int) (System.nanoTime() >> 32);
iKey[3] ^= (int) System.currentTimeMillis();
iKey[4] ^= (int) (System.currentTimeMillis() >> 32);
iKey[5] ^= 0xa5a5a5a5;
iKey[6] ^= 0x5a5a5a5a;
iKey[7] ^= 0xff00ff00;
int iGlue = iKey[iKey.length - 1];
int iBaseMask = iBase - 1;
for (int i1 = 0; i1 < 2; ++i1) {
for (int i = 0; i < iKey.length; ++i) {
iGlue = iGlue ^ iKey[i] ^ i;
if ((iKey[i] & 1) == 0) {
iGlue = INC(iGlue, iBaseMask);
} else {
iGlue = DEC(iGlue, iBaseMask);
}
if ((iKey[i] & 2) == 0) {
iGlue = ROL(iGlue, iBaseMask);
} else {
iGlue = ROR(iGlue, iBaseMask);
}
iKey[i] = XOR(iGlue, iKey[i], iBaseMask);
}
}
iSet = iKey[iKey.length - 1] & 3;
}
// Set 1 Function
private int XOR(int iA, int iB, int iBaseMask) {
return ((iA ^ iB) & iBaseMask);
}
private int INC(int iA, int iBaseMask) {
return ((++iA) & iBaseMask);
}
private int ROL(int iA, int iBaseMask) {
iA <<= 1;
if (iA > iBaseMask) {
iA |= 1;
}
return (iA & iBaseMask);
}
// .
// Set 2 Functions
private int DEC(int iA, int iBaseMask) {
return ((--iA) & iBaseMask);
}
private int ROR(int iA, int iBaseMask) {
if ((iA & 0x00000001) == 1) {
return ((iA >>> 1) & iBaseMask) | ((iBaseMask + 1) >>> 1);
} else {
return ((iA >>> 1) & iBaseMask);
}
}
// .
// .
// Public Methods
public synchronized void randomize(int iRange) {
int iBase = 1;
if (iRange <= 0) {
return;
}
for (; iBase < iRange; iBase <<= 1) {
}
reset(iBase);
}
public int incdec(int iA, int iSet, int iBaseMask) {
switch (iSet) {
case 0:
return INC(iA, iBaseMask);
case 1:
return DEC(iA, iBaseMask);
case 2:
return INC(iA, iBaseMask);
case 3:
return DEC(iA, iBaseMask);
default:
return 0;
}
}
public int rolror(int iA, int iSet, int iBaseMask) {
switch (iSet) {
case 0:
return ROL(iA, iBaseMask);
case 1:
return ROL(iA, iBaseMask);
case 2:
return ROR(iA, iBaseMask);
case 3:
return ROR(iA, iBaseMask);
default:
return 0;
}
}
public synchronized int next(int iRange) {
int iResult = iRange;
int iBase = 1;
for (; iBase < iRange; iBase <<= 1) {
}
if ((iKey == null) || (iUniqueSeed >= iBase)) {
reset(iBase);
}
int iBaseMask = iBase - 1;
for (int i = 0; (i < iBase) && (iResult >= iRange); ++i) {
iUniqueSeed = (++iUniqueSeed) % iBase;
iResult = iUniqueSeed;
for (int i1 = 0; i1 < iKey.length; ++i1) {
iResult = XOR(iResult, iKey[i1], iBaseMask);
for (int i2 = iKey[i1] | iBase; i2 > 1; i2 >>>= 1) {
if ((i2 & 1) == 1) {
iResult = incdec(iResult, iSet, iBaseMask);
} else {
iResult = rolror(iResult, iSet, iBaseMask);
}
}
}
}
return iResult;
}
public synchronized int prev(int iRange) {
int iResult = iRange;
int iBase = 1;
if (iRange <= 0) {
return 0;
}
for (; iBase < iRange; iBase <<= 1) {
}
if ((iKey == null) || (iUniqueSeed >= iBase)) {
reset(iBase);
}
int iBaseMask = iBase - 1;
for (int i = 0; (i < iBase) && (iResult >= iRange); ++i) {
iUniqueSeed = (--iUniqueSeed) % iBase;
iResult = iUniqueSeed;
for (int i1 = 0; i1 < iKey.length; ++i1) {
iResult = XOR(iResult, iKey[i1], iBaseMask);
for (int i2 = iKey[i1] | iBase; i2 > 1; i2 >>>= 1) {
if ((i2 & 1) == 1) {
iResult = incdec(iResult, iSet, iBaseMask);
} else {
iResult = rolror(iResult, iSet, iBaseMask);
}
}
}
}
return iResult;
}
public synchronized int random(int iRange) {
randomize(iRange);
return iKey[iKey.length - 1];
}
// .
public static void main(String[] args) {
Xincrol oXincrol = new Xincrol();
int iRange = 10;
int iTries = 100;
int iValueStringLength = ("" + (iRange - 1)).length();
int[] iTest = new int[iRange];
for (int i1 = 0; i1 < iTries; ++i1) {
for (int i2 = 0; i2 < iRange; ++i2) {
// Printing progress
if (i2 == 0) {
System.out.print("" + (i1 * 100 / iTries) + "%, " + i1
+ ": ");
}
// Generating
iTest[i2] = oXincrol.next(iRange);
// Printing values
String s = "" + iTest[i2];
for (; s.length() < iValueStringLength; s = " " + s) {
}
System.out.print(s);
// Printing end of line
if (i2 == iRange - 1) {
System.out.println();
// Testing for successful generation
boolean bSuccess = false;
for (int i3 = 0; i3 < iTest.length; ++i3) {
bSuccess = false;
for (int i4 = 0; i4 < iTest.length; ++i4) {
if (iTest[i4] == i3) {
bSuccess = true;
}
}
if (!bSuccess) {
System.out.println("Error!!!");
System.exit(1);
}
}
// Randomizing for the next line
System.out.flush();
oXincrol.randomize(iRange);
} else {
System.out.print(",");
}
}
}
System.out.println("Success!!!");
}
}
```