Java Code Examples for it.unimi.dsi.fastutil.longs.Long2ObjectMap#containsKey()
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it.unimi.dsi.fastutil.longs.Long2ObjectMap#containsKey() .
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Example 1
| Source File: SchematicWorldRenderingNotifier.java From litematica with GNU Lesser General Public License v3.0 | 6 votes |
|
@Override
public void updateBetweenY(int minY, int maxY)
{
World world = SchematicWorldHandler.getSchematicWorld();
if (world != null)
{
RenderGlobal rg = LitematicaRenderer.getInstance().getWorldRenderer();
Long2ObjectMap<Chunk> schematicChunks = ((IMixinChunkProviderClient) (Object) world.getChunkProvider()).getLoadedChunks();
Long2ObjectMap<Chunk> clientChunks = ((IMixinChunkProviderClient) (Object) Minecraft.getMinecraft().world.getChunkProvider()).getLoadedChunks();
for (Chunk chunk : schematicChunks.values())
{
// Only mark chunks that are actually rendered (if the schematic world contains more chunks)
if (chunk.isEmpty() == false && clientChunks.containsKey(ChunkPos.asLong(chunk.x, chunk.z)))
{
rg.markBlockRangeForRenderUpdate((chunk.x << 4) - 1, minY, (chunk.z << 4) - 1, (chunk.x << 4) + 16, maxY, (chunk.z << 4) + 16);
}
}
}
}
Example 2
| Source File: SchematicWorldRenderingNotifier.java From litematica with GNU Lesser General Public License v3.0 | 6 votes |
|
public static void markSchematicChunkForRenderUpdate(SubChunkPos chunkPos)
{
World world = SchematicWorldHandler.getSchematicWorld();
if (world != null)
{
Long2ObjectMap<Chunk> schematicChunks = ((IMixinChunkProviderClient) (Object) world.getChunkProvider()).getLoadedChunks();
Long2ObjectMap<Chunk> clientChunks = ((IMixinChunkProviderClient) (Object) Minecraft.getMinecraft().world.getChunkProvider()).getLoadedChunks();
long key = ChunkPos.asLong(chunkPos.getX(), chunkPos.getZ());
if (schematicChunks.containsKey(key) && clientChunks.containsKey(key))
{
RenderGlobal rg = LitematicaRenderer.getInstance().getWorldRenderer();
rg.markBlockRangeForRenderUpdate((chunkPos.getX() << 4) - 1, (chunkPos.getY() << 4) - 1, (chunkPos.getZ() << 4) - 1,
(chunkPos.getX() << 4) + 1, (chunkPos.getY() << 4) + 1, (chunkPos.getZ() << 4) + 1);
}
}
}
Example 3
| Source File: SchematicWorldRenderingNotifier.java From litematica with GNU Lesser General Public License v3.0 | 6 votes |
|
public static void markSchematicChunksForRenderUpdate(ChunkPos chunkPos)
{
World world = SchematicWorldHandler.getSchematicWorld();
if (world != null)
{
Long2ObjectMap<Chunk> schematicChunks = ((IMixinChunkProviderClient) (Object) world.getChunkProvider()).getLoadedChunks();
Long2ObjectMap<Chunk> clientChunks = ((IMixinChunkProviderClient) (Object) Minecraft.getMinecraft().world.getChunkProvider()).getLoadedChunks();
long key = ChunkPos.asLong(chunkPos.x, chunkPos.z);
if (schematicChunks.containsKey(key) && clientChunks.containsKey(key))
{
RenderGlobal rg = LitematicaRenderer.getInstance().getWorldRenderer();
rg.markBlockRangeForRenderUpdate((chunkPos.x << 4) - 1, 0, (chunkPos.z << 4) - 1,
(chunkPos.x << 4) + 1, 255, (chunkPos.z << 4) + 1);
}
}
}
Example 4
| Source File: SchematicWorldRenderingNotifier.java From litematica with GNU Lesser General Public License v3.0 | 6 votes |
|
public static void markSchematicChunkForRenderUpdate(BlockPos pos)
{
World world = SchematicWorldHandler.getSchematicWorld();
if (world != null)
{
Long2ObjectMap<Chunk> schematicChunks = ((IMixinChunkProviderClient) (Object) world.getChunkProvider()).getLoadedChunks();
Long2ObjectMap<Chunk> clientChunks = ((IMixinChunkProviderClient) (Object) Minecraft.getMinecraft().world.getChunkProvider()).getLoadedChunks();
long key = ChunkPos.asLong(pos.getX() >> 4, pos.getZ() >> 4);
if (schematicChunks.containsKey(key) && clientChunks.containsKey(key))
{
RenderGlobal rg = LitematicaRenderer.getInstance().getWorldRenderer();
rg.markBlockRangeForRenderUpdate(pos.getX() - 1, pos.getY() - 1, pos.getZ() - 1,pos.getX() + 1, pos.getY() + 1, pos.getZ() + 1);
}
}
}
Example 5
| Source File: AgreeSetGenerator.java From metanome-algorithms with Apache License 2.0 | 6 votes |
|
private void calculateRelationship(StrippedPartition partitions, Long2ObjectMap<TupleEquivalenceClassRelation> relationships) {
int partitionNr = 0;
for (IntList partition : partitions.getValues()) {
if (this.debugSysout)
System.out.println(".");
for (long index : partition) {
if (!relationships.containsKey(index)) {
relationships.put(index, new TupleEquivalenceClassRelation());
}
relationships.get(index).addNewRelationship(partitions.getAttributeID(), partitionNr);
}
partitionNr++;
}
}
Example 6
| Source File: AgreeSetGenerator.java From metanome-algorithms with Apache License 2.0 | 6 votes |
|
private void handleList(IntList list, Long2ObjectMap<Set<IntList>> maxSets, boolean firstStep) {
for (int i = 0; i < list.size(); i++) {
int removedElement = list.removeInt(i);
if (maxSets.containsKey(list.size()) && maxSets.get(list.size()).contains(list))
maxSets.get(list.size()).remove(list);
else {
if (list.size() > 2) {
this.handleList(list, maxSets, false);
}
}
list.add(i, removedElement);
}
if (firstStep)
maxSets.get(list.size()).add(list);
}
Example 7
| Source File: BipartiteGraphTestHelper.java From GraphJet with Apache License 2.0 | 6 votes |
|
/**
* Build a random bipartite graph of given left and right sizes.
*
* @param leftSize is the left hand size of the bipartite graph
* @param rightSize is the right hand size of the bipartite graph
* @param random is the random number generator to use for constructing the graph
* @return a random bipartite graph
*/
public static StaticBipartiteGraph buildRandomBipartiteGraph(
int leftSize, int rightSize, double edgeProbability, Random random) {
Long2ObjectMap<LongList> leftSideGraph = new Long2ObjectOpenHashMap<LongList>(leftSize);
Long2ObjectMap<LongList> rightSideGraph = new Long2ObjectOpenHashMap<LongList>(rightSize);
int averageLeftDegree = (int) (rightSize * edgeProbability);
int averageRightDegree = (int) (leftSize * edgeProbability);
for (int i = 0; i < leftSize; i++) {
leftSideGraph.put(i, new LongArrayList(averageLeftDegree));
for (int j = 0; j < rightSize; j++) {
if (random.nextDouble() < edgeProbability) {
leftSideGraph.get(i).add(j);
if (rightSideGraph.containsKey(j)) {
rightSideGraph.get(j).add(i);
} else {
LongList rightSideList = new LongArrayList(averageRightDegree);
rightSideList.add(i);
rightSideGraph.put(j, rightSideList);
}
}
}
}
return new StaticBipartiteGraph(leftSideGraph, rightSideGraph);
}
Example 8
| Source File: SchematicWorldRenderingNotifier.java From litematica with GNU Lesser General Public License v3.0 | 5 votes |
|
@Override
public void updateBetweenX(int minX, int maxX)
{
World world = SchematicWorldHandler.getSchematicWorld();
if (world != null)
{
final int xMin = Math.min(minX, maxX);
final int xMax = Math.max(minX, maxX);
final int cxMin = (xMin >> 4);
final int cxMax = (xMax >> 4);
RenderGlobal rg = LitematicaRenderer.getInstance().getWorldRenderer();
Long2ObjectMap<Chunk> schematicChunks = ((IMixinChunkProviderClient) (Object) world.getChunkProvider()).getLoadedChunks();
Long2ObjectMap<Chunk> clientChunks = ((IMixinChunkProviderClient) (Object) Minecraft.getMinecraft().world.getChunkProvider()).getLoadedChunks();
for (Chunk chunk : schematicChunks.values())
{
// Only mark chunks that are actually rendered (if the schematic world contains more chunks)
if (chunk.x >= cxMin && chunk.x <= cxMax && chunk.isEmpty() == false &&
clientChunks.containsKey(ChunkPos.asLong(chunk.x, chunk.z)))
{
minX = Math.max( chunk.x << 4 , xMin);
maxX = Math.min((chunk.x << 4) + 15, xMax);
rg.markBlockRangeForRenderUpdate(minX, 0, (chunk.z << 4), maxX, 255, (chunk.z << 4) + 15);
}
}
}
}
Example 9
| Source File: SchematicWorldRenderingNotifier.java From litematica with GNU Lesser General Public License v3.0 | 5 votes |
|
@Override
public void updateBetweenZ(int minZ, int maxZ)
{
World world = SchematicWorldHandler.getSchematicWorld();
if (world != null)
{
final int zMin = Math.min(minZ, maxZ);
final int zMax = Math.max(minZ, maxZ);
final int czMin = (zMin >> 4);
final int czMax = (zMax >> 4);
RenderGlobal rg = LitematicaRenderer.getInstance().getWorldRenderer();
Long2ObjectMap<Chunk> schematicChunks = ((IMixinChunkProviderClient) (Object) world.getChunkProvider()).getLoadedChunks();
Long2ObjectMap<Chunk> clientChunks = ((IMixinChunkProviderClient) (Object) Minecraft.getMinecraft().world.getChunkProvider()).getLoadedChunks();
for (Chunk chunk : schematicChunks.values())
{
// Only mark chunks that are actually rendered (if the schematic world contains more chunks)
if (chunk.z >= czMin && chunk.z <= czMax && chunk.isEmpty() == false &&
clientChunks.containsKey(ChunkPos.asLong(chunk.x, chunk.z)))
{
minZ = Math.max( chunk.z << 4 , zMin);
maxZ = Math.min((chunk.z << 4) + 15, zMax);
rg.markBlockRangeForRenderUpdate((chunk.x << 4), 0, minZ, (chunk.x << 4) + 15, 255, maxZ);
}
}
}
}
Example 10
| Source File: AgreeSetGenerator.java From metanome-algorithms with Apache License 2.0 | 5 votes |
|
private void handlePartition(IntList actuelList, long position, Long2ObjectMap<LongSet> index, Set<IntList> max) {
if (!this.isSubset(actuelList, index)) {
max.add(actuelList);
for (long e : actuelList) {
if (!index.containsKey(e)) {
index.put(e, new LongArraySet());
}
index.get(e).add(position);
}
}
}
Example 11
| Source File: FastCollectionsUtils.java From fastjgame with Apache License 2.0 | 4 votes |
|
public static <V> void requireNotContains(Long2ObjectMap<V> map, long key, String msg) {
if (map.containsKey(key)) {
throw new IllegalArgumentException("duplicate " + msg + "-" + key);
}
}
Example 12
| Source File: FastCollectionsUtils.java From fastjgame with Apache License 2.0 | 4 votes |
|
public static <V> void requireContains(Long2ObjectMap<V> map, long key, String msg) {
if (!map.containsKey(key)) {
throw new IllegalArgumentException("nonexistent " + msg + "-" + key);
}
}
Example 13
| Source File: AgreeSetGenerator.java From metanome-algorithms with Apache License 2.0 | 4 votes |
|
public Set<IntList> computeMaximumSetsAlternative(List<StrippedPartition> partitions) {
if (this.debugSysout) {
System.out.println("\tstartet calculation of maximal partitions");
}
long start = System.currentTimeMillis();
Set<IntList> sortedPartitions = new TreeSet<IntList>(new ListComparator());
for (StrippedPartition p : partitions) {
sortedPartitions.addAll(p.getValues());
}
Iterator<IntList> it = sortedPartitions.iterator();
Long2ObjectMap<Set<IntList>> maxSets = new Long2ObjectOpenHashMap<Set<IntList>>();
long remainingPartitions = sortedPartitions.size();
if (this.debugSysout) {
System.out.println("\tNumber of Partitions: " + remainingPartitions);
}
if (it.hasNext()) {
IntList actuelList = it.next();
long minSize = actuelList.size();
Set<IntList> set = new HashSet<IntList>();
set.add(actuelList);
while ((actuelList = it.next()) != null && (actuelList.size() == minSize)) {
if (this.debugSysout) {
System.out.println("\tremaining: " + --remainingPartitions);
}
set.add(actuelList);
}
maxSets.put(minSize, set);
if (actuelList != null) {
maxSets.put(actuelList.size(), new HashSet<IntList>());
if (this.debugSysout) {
System.out.println("\tremaining: " + --remainingPartitions);
}
this.handleList(actuelList, maxSets, true);
while (it.hasNext()) {
actuelList = it.next();
if (this.debugSysout) {
System.out.println("\tremaining: " + --remainingPartitions);
}
if (!maxSets.containsKey(actuelList.size()))
maxSets.put(actuelList.size(), new HashSet<IntList>());
this.handleList(actuelList, maxSets, true);
}
}
}
long end = System.currentTimeMillis();
if (this.debugSysout)
System.out.println("\tTime needed: " + (end - start));
Set<IntList> max = this.mergeResult(maxSets);
maxSets.clear();
sortedPartitions.clear();
return max;
}
