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MarginaliaSearch/code/libraries/array/java/nu/marginalia/array/algo/LongArraySearch.java
Viktor Lofgren 19163fa883 (array) Clean up the Array library 
IntArray gets the YAGNI axe.   The array library had two implementations, one for longs which was used, and one for ints, which only ever saw bit rot.   Removing the latter, as all it ever did was clutter up the codebase and add technical debt.  If we need int arrays, we fork LongArray again (or add int capabilities to it)

Also cleaning up the interfaces, removing layers of redundant abstractions and adding javadocs.

Finally adding sz=2 specializations to the quick- and insertion sort algorithms.  It seems the JIT isn't optimizing these particularly well, this is an attempt to help it out a bit.
2024-05-18 13:23:06 +02:00

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package nu.marginalia.array.algo;
import nu.marginalia.array.page.LongQueryBuffer;
public interface LongArraySearch extends LongArrayBase {
default long binarySearch(long key, long fromIndex, long toIndex) {
long low = 0;
long high = (toIndex - fromIndex) - 1;
long len = high - low;
while (len > 0) {
var half = len / 2;
if (get(fromIndex + low + half) < key) {
low += len - half;
}
len = half;
}
return fromIndex + low;
}
default long binarySearchN(int sz, long key, long fromIndex, long toIndex) {
long low = 0;
long high = (toIndex - fromIndex)/sz - 1;
long len = high - low;
while (len > 0) {
var half = len / 2;
if (get(fromIndex + sz * (low + half)) < key) {
low += len - half;
}
len = half;
}
return fromIndex + sz * low;
}
default void retain(LongQueryBuffer buffer, long boundary, long searchStart, long searchEnd) {
if (searchStart >= searchEnd) return;
long bv = buffer.currentValue();
long av = get(searchStart);
long pos = searchStart;
while (bv <= boundary && buffer.hasMore()) {
if (bv < av) {
if (!buffer.rejectAndAdvance()) break;
bv = buffer.currentValue();
continue;
}
else if (bv == av) {
if (!buffer.retainAndAdvance()) break;
bv = buffer.currentValue();
continue;
}
if (++pos < searchEnd) {
av = get(pos);
}
else {
break;
}
}
}
default void retainN(LongQueryBuffer buffer, int sz, long boundary, long searchStart, long searchEnd) {
if (searchStart >= searchEnd) return;
long bv = buffer.currentValue();
long av = get(searchStart);
long pos = searchStart;
while (bv <= boundary && buffer.hasMore()) {
if (bv < av) {
if (!buffer.rejectAndAdvance()) break;
bv = buffer.currentValue();
continue;
}
else if (bv == av) {
if (!buffer.retainAndAdvance()) break;
bv = buffer.currentValue();
continue;
}
pos += sz;
if (pos < searchEnd) {
av = get(pos);
}
else {
break;
}
}
}
default void reject(LongQueryBuffer buffer, long boundary, long searchStart, long searchEnd) {
if (searchStart >= searchEnd) return;
long bv = buffer.currentValue();
long av = get(searchStart);
long pos = searchStart;
while (bv <= boundary && buffer.hasMore()) {
if (bv < av) {
if (!buffer.retainAndAdvance()) break;
bv = buffer.currentValue();
continue;
}
else if (bv == av) {
if (!buffer.rejectAndAdvance()) break;
bv = buffer.currentValue();
continue;
}
if (++pos < searchEnd) {
av = get(pos);
}
else {
break;
}
}
}
default void rejectN(LongQueryBuffer buffer, int sz, long boundary, long searchStart, long searchEnd) {
if (searchStart >= searchEnd) return;
long bv = buffer.currentValue();
long av = get(searchStart);
long pos = searchStart;
while (bv <= boundary && buffer.hasMore()) {
if (bv < av) {
if (!buffer.retainAndAdvance()) break;
bv = buffer.currentValue();
continue;
}
else if (bv == av) {
if (!buffer.rejectAndAdvance()) break;
bv = buffer.currentValue();
continue;
}
pos += sz;
if (pos < searchEnd) {
av = get(pos);
}
else {
break;
}
}
}
}
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