update Optimize Pathfinder - Remove Streams / Optimized collections

2024-12-28 23:38:25 +01:00 · 2021-06-15 00:43:03 -07:00 · 2021-06-15 00:43:03 -07:00 · e73e1393f4
commit e73e1393f4
parent a5fd0e69b4
1 changed files with 130 additions and 0 deletions
--- a/patches/server/Optimize-Pathfinder-Remove-Streams-Optimized-collect.patch
+++ b/patches/server/Optimize-Pathfinder-Remove-Streams-Optimized-collect.patch
@ -0,0 +1,130 @@
+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
+
+1.17 Update: Please do this k thx bb
+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
+index 0000000000000000000000000000000000000000..0000000000000000000000000000000000000000 100644
+--- a/src/main/java/net/minecraft/world/level/pathfinder/PathFinder.java
+++ b/src/main/java/net/minecraft/world/level/pathfinder/PathFinder.java
+@@ -0,0 +0,0 @@ public class PathFinder {
+         this.openSet.clear();
+         this.nodeEvaluator.prepare(world, mob);
+         Node node = this.nodeEvaluator.getStart();
+-        Map<Target, BlockPos> map = positions.stream().collect(Collectors.toMap((blockPos) -> {
+-            return this.nodeEvaluator.getGoal((double)blockPos.getX(), (double)blockPos.getY(), (double)blockPos.getZ());
+-        }, Function.identity()));
+        // Paper start - remove streams - and optimize collection
+        List<Map.Entry<Target, BlockPos>> map = Lists.newArrayList();
+        for (BlockPos blockPos : positions) {
+            map.add(new java.util.AbstractMap.SimpleEntry<>(this.nodeEvaluator.getGoal(blockPos.getX(), blockPos.getY(), blockPos.getZ()), blockPos));
+        }
+        // Paper end
+         Path path = this.findPath(world.getProfiler(), node, map, followRange, distance, rangeMultiplier);
+         this.nodeEvaluator.done();
+         return path;
+     }
+ 
+     @Nullable
+-    private Path findPath(ProfilerFiller profiler, Node startNode, Map<Target, BlockPos> positions, float followRange, int distance, float rangeMultiplier) {
+    // Paper start - 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();
+        //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();
+        //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()) {
+@@ -0,0 +0,0 @@ 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
+                 }
+             }
+ 
+-            if (!set3.isEmpty()) {
+            if (!entryList.isEmpty()) { // Paper - rename variable
+                 break;
+             }
+ 
+@@ -0,0 +0,0 @@ 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 - list instead of set
+                         if (node2.inOpenSet()) {
+                             this.openSet.changeCost(node2, node2.g + node2.h);
+                         } else {
+@@ -0,0 +0,0 @@ public class PathFinder {
+             }
+         }
+ 
+-        Optional<Path> optional = !set3.isEmpty() ? set3.stream().map((target) -> {
+-            return this.reconstructPath(target.getBestNode(), positions.get(target), true);
+-        }).min(Comparator.comparingInt(Path::getNodeCount)) : set.stream().map((target) -> {
+-            return this.reconstructPath(target.getBestNode(), positions.get(target), false);
+-        }).min(Comparator.comparingDouble(Path::getDistToTarget).thenComparingInt(Path::getNodeCount));
+-        profiler.pop();
+-        return !optional.isPresent() ? null : optional.get();
+        // Paper start - 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;
+        }
+        return best;
+        // Paper end
+     }
+ 
+-    private float getBestH(Node node, Set<Target> targets) {
+    private float getBestH(Node node, List<Map.Entry<Target, BlockPos>> targets) { // Paper - optimize collection - Set<Target> -> List<Map.Entry<Target, BlockPos>>
+         float f = Float.MAX_VALUE;
+ 
+-        for(Target target : targets) {
+        // Paper start - optimize collection
+        for (int i = 0, targetsSize = targets.size(); i < targetsSize; i++) {
+            final Target target = targets.get(i).getKey();
+            // Paper end
+             float g = node.distanceTo(target);
+             target.updateBest(g, node);
+             f = Math.min(g, f);