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Paper/patches/server/1008-Optimize-Pathfinder-Remove-Streams-Optimized-collect.patch

134 Zeilen
7.0 KiB
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From 0000000000000000000000000000000000000000 Mon Sep 17 00:00:00 2001
From: Aikar <aikar@aikar.co>
Date: Tue, 4 Aug 2020 22:24:15 +0200
Subject: [PATCH] Optimize Pathfinder - Remove Streams / Optimized collections
I utilized the IDE to convert streams to non streams code, so shouldn't
be any risk of behavior change. Only did minor optimization of the
generated code set to remove unnecessary things.
I expect us to just drop this patch on next major update and re-apply
it with the IDE again and re-apply the collections optimization.
Optimize collection by creating a list instead of a set of the key and value.
This lets us get faster foreach iteration, as well as avoids map lookups on
the values when needed.
diff --git a/src/main/java/net/minecraft/world/level/pathfinder/PathFinder.java b/src/main/java/net/minecraft/world/level/pathfinder/PathFinder.java
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index 8a483c8d2a54617d78af19de32fa0ded71b3223a..18bbb3f8f99849333ff4bc020c8ce758a69312a5 100644
--- a/src/main/java/net/minecraft/world/level/pathfinder/PathFinder.java
+++ b/src/main/java/net/minecraft/world/level/pathfinder/PathFinder.java
@@ -38,8 +38,12 @@ public class PathFinder {
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if (node == null) {
return null;
} else {
- Map<Target, BlockPos> map = positions.stream()
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- .collect(Collectors.toMap(pos -> this.nodeEvaluator.getTarget((double)pos.getX(), (double)pos.getY(), (double)pos.getZ()), Function.identity()));
+ // Paper start - Perf: remove streams and optimize collection
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+ List<Map.Entry<Target, BlockPos>> map = Lists.newArrayList();
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+ for (final BlockPos pos : positions) {
+ map.add(new java.util.AbstractMap.SimpleEntry<>(this.nodeEvaluator.getTarget(pos.getX(), pos.getY(), pos.getZ()), pos));
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+ }
+ // Paper end - Perf: remove streams and optimize collection
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Path path = this.findPath(world.getProfiler(), node, map, followRange, distance, rangeMultiplier);
this.nodeEvaluator.done();
return path;
@@ -47,18 +51,19 @@ public class PathFinder {
}
@Nullable
- private Path findPath(ProfilerFiller profiler, Node startNode, Map<Target, BlockPos> positions, float followRange, int distance, float rangeMultiplier) {
+ // Paper start - Perf: remove streams and optimize collection
+ private Path findPath(ProfilerFiller profiler, Node startNode, List<Map.Entry<Target, BlockPos>> positions, float followRange, int distance, float rangeMultiplier) {
profiler.push("find_path");
profiler.markForCharting(MetricCategory.PATH_FINDING);
- Set<Target> set = positions.keySet();
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+ // Set<Target> set = positions.keySet();
startNode.g = 0.0F;
- startNode.h = this.getBestH(startNode, set);
+ startNode.h = this.getBestH(startNode, positions); // Paper - optimize collection
startNode.f = startNode.h;
this.openSet.clear();
this.openSet.insert(startNode);
- Set<Node> set2 = ImmutableSet.of();
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+ // Set<Node> set2 = ImmutableSet.of(); // Paper - unused - diff on change
int i = 0;
- Set<Target> set3 = Sets.newHashSetWithExpectedSize(set.size());
+ List<Map.Entry<Target, BlockPos>> entryList = Lists.newArrayListWithExpectedSize(positions.size()); // Paper - optimize collection
int j = (int)((float)this.maxVisitedNodes * rangeMultiplier);
while (!this.openSet.isEmpty()) {
@@ -69,14 +74,18 @@ public class PathFinder {
Node node = this.openSet.pop();
node.closed = true;
- for (Target target : set) {
+ // Paper start - optimize collection
+ for (int i1 = 0; i1 < positions.size(); i1++) {
+ final Map.Entry<Target, BlockPos> entry = positions.get(i1);
+ Target target = entry.getKey();
if (node.distanceManhattan(target) <= (float)distance) {
target.setReached();
- set3.add(target);
+ entryList.add(entry);
+ // Paper end - Perf: remove streams and optimize collection
}
}
- if (!set3.isEmpty()) {
+ if (!entryList.isEmpty()) { // Paper - Perf: remove streams and optimize collection; rename
break;
}
@@ -91,7 +100,7 @@ public class PathFinder {
if (node2.walkedDistance < followRange && (!node2.inOpenSet() || g < node2.g)) {
node2.cameFrom = node;
node2.g = g;
- node2.h = this.getBestH(node2, set) * 1.5F;
+ node2.h = this.getBestH(node2, positions) * 1.5F; // Paper - Perf: remove streams and optimize collection
if (node2.inOpenSet()) {
this.openSet.changeCost(node2, node2.g + node2.h);
} else {
@@ -103,23 +112,32 @@ public class PathFinder {
}
}
- Optional<Path> optional = !set3.isEmpty()
- ? set3.stream().map(node -> this.reconstructPath(node.getBestNode(), positions.get(node), true)).min(Comparator.comparingInt(Path::getNodeCount))
- : set.stream()
- .map(targetx -> this.reconstructPath(targetx.getBestNode(), positions.get(targetx), false))
- .min(Comparator.comparingDouble(Path::getDistToTarget).thenComparingInt(Path::getNodeCount));
+ // Paper start - Perf: remove streams and optimize collection
+ Path best = null;
+ boolean entryListIsEmpty = entryList.isEmpty();
+ Comparator<Path> comparator = entryListIsEmpty ? Comparator.comparingInt(Path::getNodeCount)
+ : Comparator.comparingDouble(Path::getDistToTarget).thenComparingInt(Path::getNodeCount);
+ for (Map.Entry<Target, BlockPos> entry : entryListIsEmpty ? positions : entryList) {
+ Path path = this.reconstructPath(entry.getKey().getBestNode(), entry.getValue(), !entryListIsEmpty);
+ if (best == null || comparator.compare(path, best) < 0)
+ best = path;
+ }
profiler.pop();
- return optional.isEmpty() ? null : optional.get();
+ return best;
+ // Paper end - Perf: remove streams and optimize collection
}
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protected float distance(Node a, Node b) {
return a.distanceTo(b);
}
- private float getBestH(Node node, Set<Target> targets) {
+ private float getBestH(Node node, List<Map.Entry<Target, BlockPos>> targets) { // Paper - Perf: remove streams and optimize collection; Set<Target> -> List<Map.Entry<Target, BlockPos>>
float f = Float.MAX_VALUE;
- for (Target target : targets) {
+ // Paper start - Perf: remove streams and optimize collection
+ for (int i = 0, targetsSize = targets.size(); i < targetsSize; i++) {
+ final Target target = targets.get(i).getKey();
+ // Paper end - Perf: remove streams and optimize collection
float g = node.distanceTo(target);
target.updateBest(g, node);
f = Math.min(g, f);