geforkt von Mirrors/FastAsyncWorldEdit
Further non-standard selection fixes as per #393
- Fix incorrect usage of initChunk (it's run in the right place now) - Fix poorly implemented //sel sphere "improvements"
Dieser Commit ist enthalten in:
Ursprung
b52fc46f19
Commit
330fc39dde
@ -148,7 +148,7 @@ public interface IQueueExtent<T extends IChunk> extends Flushable, Trimable, ICh
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if (newChunk != null) {
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chunk = newChunk;
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if (block == null) {
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block = this.initFilterBlock().initChunk(chunkX, chunkZ);
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block = this.initFilterBlock();
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}
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chunk.filterBlocks(filter, block, region, full);
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}
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@ -20,11 +20,11 @@
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package com.sk89q.worldedit.regions;
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import com.boydti.fawe.beta.implementation.filter.block.ChunkFilterBlock;
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import com.boydti.fawe.beta.Filter;
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import com.boydti.fawe.beta.IChunk;
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import com.boydti.fawe.beta.IChunkGet;
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import com.boydti.fawe.beta.IChunkSet;
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import com.boydti.fawe.beta.implementation.filter.block.ChunkFilterBlock;
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import com.boydti.fawe.util.MathMan;
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import com.sk89q.worldedit.math.BlockVector2;
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import com.sk89q.worldedit.math.BlockVector3;
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@ -34,7 +34,6 @@ import com.sk89q.worldedit.world.storage.ChunkStore;
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import java.util.HashSet;
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import java.util.Set;
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import org.jetbrains.annotations.Range;
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/**
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* Represents an ellipsoid region.
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@ -69,7 +68,7 @@ public class EllipsoidRegion extends AbstractRegion {
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/**
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* Construct a new instance of this ellipsoid region.
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*
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* @param world the world
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* @param world the world
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* @param center the center
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* @param radius the radius
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*/
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@ -95,7 +94,8 @@ public class EllipsoidRegion extends AbstractRegion {
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@Override
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public int getArea() {
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return (int) Math.floor((4.0 / 3.0) * Math.PI * radius.getX() * radius.getY() * radius.getZ());
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return (int) Math
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.floor((4.0 / 3.0) * Math.PI * radius.getX() * radius.getY() * radius.getZ());
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}
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@Override
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@ -118,7 +118,7 @@ public class EllipsoidRegion extends AbstractRegion {
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if ((diff.getBlockX() & 1) + (diff.getBlockY() & 1) + (diff.getBlockZ() & 1) != 0) {
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throw new RegionOperationException(
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"Ellipsoid changes must be even for each dimensions.");
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"Ellipsoid changes must be even for each dimensions.");
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}
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return diff.divide(2).floor();
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@ -185,15 +185,10 @@ public class EllipsoidRegion extends AbstractRegion {
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* @param radius the radius
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*/
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public void setRadius(Vector3 radius) {
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this.radius = radius;
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this.radius = radius.add(0.5, 0.5, 0.5);
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radiusSqr = radius.multiply(radius);
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radiusLengthSqr = (int) radiusSqr.getX();
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this.sphere = radius.getY() == radius.getX() && radius.getX() == radius.getZ();
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if (radius.getY() == radius.getX() && radius.getX() == radius.getZ()) {
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this.sphere = true;
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} else {
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this.sphere = false;
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}
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inverseRadius = Vector3.ONE.divide(radius);
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}
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@ -207,44 +202,42 @@ public class EllipsoidRegion extends AbstractRegion {
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for (int x = min.getBlockX(); x <= max.getBlockX(); ++x) {
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for (int z = min.getBlockZ(); z <= max.getBlockZ(); ++z) {
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if (!contains(BlockVector3.at(x, centerY, z))) {
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if (!contains(x, centerY, z)) {
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continue;
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}
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chunks.add(BlockVector2.at(
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x >> ChunkStore.CHUNK_SHIFTS,
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z >> ChunkStore.CHUNK_SHIFTS
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));
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chunks.add(
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BlockVector2.at(x >> ChunkStore.CHUNK_SHIFTS, z >> ChunkStore.CHUNK_SHIFTS));
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}
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}
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return chunks;
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}
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@Override
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public boolean contains(int x, int y, int z) {
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int cx = x - center.getBlockX();
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int cx2 = cx * cx;
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if (cx2 > radiusSqr.getBlockX()) {
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return false;
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}
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int cz = z - center.getBlockZ();
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int cz2 = cz * cz;
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if (cz2 > radiusSqr.getBlockZ()) {
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return false;
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}
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int cy = y - center.getBlockY();
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int cy2 = cy * cy;
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if (radiusSqr.getBlockY() < 255 && cy2 > radiusSqr.getBlockY()) {
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return false;
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}
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if (sphere) {
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return cx2 + cy2 + cz2 <= radiusLengthSqr;
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}
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double cxd = cx2 * inverseRadius.getX();
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double cyd = cy2 * inverseRadius.getY();
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double czd = cz2 * inverseRadius.getZ();
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return cxd + cyd + czd <= 1;
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@Override
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public boolean contains(int x, int y, int z) {
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int cx = x - center.getBlockX();
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int cx2 = cx * cx;
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if (cx2 > radiusSqr.getBlockX()) {
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return false;
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}
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int cz = z - center.getBlockZ();
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int cz2 = cz * cz;
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if (cz2 > radiusSqr.getBlockZ()) {
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return false;
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}
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int cy = y - center.getBlockY();
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int cy2 = cy * cy;
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if (radiusSqr.getBlockY() < 255 && cy2 > radiusSqr.getBlockY()) {
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return false;
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}
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if (sphere) {
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return cx2 + cy2 + cz2 <= radiusLengthSqr;
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}
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double cxd = cx2 * inverseRadius.getX();
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double cyd = cy2 * inverseRadius.getY();
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double czd = cz2 * inverseRadius.getZ();
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return cxd + cyd + czd <= 1;
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}
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/*
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@ -272,9 +265,6 @@ public class EllipsoidRegion extends AbstractRegion {
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if (cz2 > radiusSqr.getBlockZ()) {
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return false;
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}
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if (sphere) {
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return cx2 + cz2 <= radiusLengthSqr;
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}
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double cxd = cx2 * inverseRadius.getX();
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double czd = cz2 * inverseRadius.getZ();
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return cxd + czd <= 1;
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@ -300,18 +290,34 @@ public class EllipsoidRegion extends AbstractRegion {
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return (EllipsoidRegion) super.clone();
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}
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private void filterSpherePartial(int y1, int y2, int bx, int bz, Filter filter, ChunkFilterBlock block, IChunkGet get, IChunkSet set) {
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int sectionStart = y1 >> 4;
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int sectionEnd = y2 >> 4;
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private void filterSpherePartial(int y1, int y2, int bx, int bz, Filter filter,
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ChunkFilterBlock block, IChunkGet get, IChunkSet set) {
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int minSection = y1 >> 4;
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int maxSection = y2 >> 4;
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int yStart = (y1 & 15);
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int yEnd = (y2 & 15);
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for (int layer = sectionStart; layer < sectionEnd; layer++) {
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int yStart = Math.max(layer << 4, y1);
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int yEnd = Math.min((layer << 4) + 15, y2);
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filterSpherePartial(layer, yStart, yEnd, bx, bz, filter, block, get, set);
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if (minSection == maxSection) {
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filterSpherePartial(minSection, 0, 15, bx, bz, filter, block, get, set);
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}
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if (yStart != 0) {
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filterSpherePartial(minSection, yStart, 15, bx, bz, filter, block, get, set);
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minSection++;
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}
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if (yEnd != 15) {
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filterSpherePartial(maxSection, 0, yEnd, bx, bz, filter, block, get, set);
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maxSection--;
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}
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for (int layer = minSection; layer <= maxSection; layer++) {
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filterSpherePartial(layer, 0, 15, bx, bz, filter, block, get, set);
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}
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}
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private void filterSpherePartial(int layer, int y1, int y2, int bx, int bz, Filter filter, ChunkFilterBlock block, IChunkGet get, IChunkSet set) {
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private void filterSpherePartial(int layer, int y1, int y2, int bx, int bz, Filter filter,
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ChunkFilterBlock block, IChunkGet get, IChunkSet set) {
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int cx = center.getBlockX();
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int cy = center.getBlockY();
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int cz = center.getBlockZ();
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@ -323,26 +329,29 @@ public class EllipsoidRegion extends AbstractRegion {
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for (int y = y1, yy = by + y1; y <= y2; y++, yy++) {
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diffY = cy - yy;
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int remainderY = radiusLengthSqr - (diffY * diffY);
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if (remainderY >= 0) {
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for (int z = 0; z < 16; z++) {
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int zz = z + bz;
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int diffZ = cz - zz;
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int remainderZ = remainderY - (diffZ * diffZ);
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if (remainderZ >= 0) {
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int diffX = MathMan.usqrt(remainderZ);
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int minX = Math.max(0, cx - diffX - bx);
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int maxX = Math.min(15, cx + diffX - bx);
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if (minX != maxX) {
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block.filter(filter, minX, y, z, maxX, y, z);
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}
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}
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if (remainderY < 0) {
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continue;
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}
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for (int z = 0; z < 16; z++) {
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int zz = z + bz;
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int diffZ = cz - zz;
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int remainderZ = remainderY - (diffZ * diffZ);
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if (remainderZ < 0) {
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continue;
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}
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int diffX, minX, maxX;
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diffX = (int) Math.floor(Math.sqrt(remainderZ));
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minX = Math.max(0, cx - diffX - bx);
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maxX = Math.min(15, cx + diffX - bx);
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block.filter(filter, minX, y, z, maxX, y, z);
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}
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}
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}
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@Override
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public void filter(IChunk chunk, Filter filter, ChunkFilterBlock block, IChunkGet get, IChunkSet set, boolean full) {
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public void filter(IChunk chunk, Filter filter, ChunkFilterBlock block, IChunkGet get,
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IChunkSet set, boolean full) {
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// Check bounds
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// This needs to be able to perform 50M blocks/sec otherwise it becomes a bottleneck
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int cx = center.getBlockX();
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@ -351,67 +360,72 @@ public class EllipsoidRegion extends AbstractRegion {
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int bz = chunk.getZ() << 4;
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int tx = bx + 15;
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int tz = bz + 15;
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int cx1 = bx - cx;
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int cx2 = tx - cx;
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int cx1 = Math.abs(bx - cx);
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int cx2 = Math.abs(tx - cx);
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int cxMax, cxMin;
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if (cx1 < cx2) {
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cxMin = cx1;
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cxMax = cx2;
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} else {
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cxMin = cx2;
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cxMax = cx1;
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}
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cxMin = Math.min(cx1, cx2);
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cxMax = Math.max(cx1, cx2);
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int cxMin2 = cxMin * cxMin;
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int cxMax2 = cxMax * cxMax;
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int cz1 = bz - cz;
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int cz2 = tz - cz;
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int cz1 = Math.abs(bz - cz);
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int cz2 = Math.abs(tz - cz);
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int czMax, czMin;
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if (cz1 < cz2) {
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czMin = cz1;
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czMax = cz2;
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} else {
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czMin = cz2;
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czMax = cz1;
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}
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czMin = Math.min(cz1, cz2);
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czMax = Math.max(cz1, cz2);
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int czMin2 = czMin * czMin;
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int czMax2 = czMax * czMax;
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if (sphere) {
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// Does not contain chunk
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// Does not contain whole chunk
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if (cxMin2 + czMin2 >= radiusLengthSqr) {
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super.filter(chunk, filter, block, get, set, full);
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return;
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}
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int diffY2 = radiusLengthSqr - cxMax2 - czMax2;
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// (shortcut) Contains all of certain layers
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if (diffY2 >= 0) {
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// Get the solid layers
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int cy = center.getBlockY();
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int diffYFull = MathMan.usqrt(diffY2);
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int yBotFull = Math.max(0, cy - diffYFull);
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int yTopFull = Math.min(255, cy + diffYFull);
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// Set those layers
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filter(chunk, filter, block, get, set, yBotFull, yTopFull, full);
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// Fill the remaining layers
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if (yBotFull != 0 || yTopFull != 255) {
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int diffYPartial = MathMan.usqrt(radiusLengthSqr - cxMin * cxMin - czMin * czMin);
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if (yBotFull != 0) {
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int yBotPartial = Math.max(0, cy - diffYPartial);
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filterSpherePartial(yBotPartial, yBotFull - 1, bx, bz, filter, block, get, set);
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}
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if (yTopFull != 255) {
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int yTopPartial = Math.min(255, cy + diffYPartial);
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filterSpherePartial(yTopFull + 1, yTopPartial - 1, bx, bz, filter, block, get, set);
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}
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}
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// Does not contain whole chunk
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if (diffY2 < 0) {
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super.filter(chunk, filter, block, get, set, full);
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return;
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}
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block = block.initChunk(chunk.getX(), chunk.getZ());
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// Get the solid layers
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int cy = center.getBlockY();
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int diffYFull = MathMan.usqrt(diffY2);
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int yBotFull = Math.max(0, cy - diffYFull);
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int yTopFull = Math.min(255, cy + diffYFull);
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if (yBotFull == yTopFull || yBotFull > yTopFull) {
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System.out.println("aa");
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}
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// Set those layers
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filter(chunk, filter, block, get, set, yBotFull, yTopFull, full);
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if (yBotFull == 0 && yTopFull == 255) {
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return;
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}
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int diffYPartial = MathMan.usqrt(radiusLengthSqr - cxMin * cxMin - czMin * czMin);
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//Fill the remaining layers
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if (yBotFull != 0) {
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int yBotPartial = Math.max(0, cy - diffYPartial);
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filterSpherePartial(yBotPartial, yBotFull - 1, bx, bz, filter, block, get, set);
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}
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if (yTopFull != 255) {
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int yTopPartial = Math.min(255, cy + diffYPartial);
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filterSpherePartial(yTopFull + 1, yTopPartial, bx, bz, filter, block, get, set);
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}
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} else {
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super.filter(chunk, filter, block, get, set, full); // TODO optimize non spheres
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super.filter(chunk, filter, block, get, set, full);
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}
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}
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}
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@ -203,6 +203,7 @@ public interface Region extends Iterable<BlockVector3>, Cloneable, IBatchProcess
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default void filter(final IChunk chunk, final Filter filter, ChunkFilterBlock block, final IChunkGet get, final IChunkSet set, boolean full) {
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int minSection = Math.max(0, getMinimumY() >> 4);
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int maxSection = Math.min(15, getMaximumY() >> 4);
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block = block.initChunk(chunk.getX(), chunk.getZ());
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for (int layer = minSection; layer <= maxSection; layer++) {
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if ((!full && !get.hasSection(layer)) || !filter.appliesLayer(chunk, layer)) return;
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block = block.initLayer(get, set, layer);
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