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19 Commits

Author SHA1 Message Date
Julian Krings eff598d005 update headless dev command 2025-04-02 16:42:39 +02:00
Julian Krings d86ec7b1cd Merge remote-tracking branch 'origin/dev' into feat/headless
# Conflicts:
#	core/src/main/java/com/volmit/iris/core/commands/CommandDeveloper.java
#	core/src/main/java/com/volmit/iris/core/commands/CommandIris.java
#	core/src/main/java/com/volmit/iris/core/nms/v1X/NMSBinding1X.java
#	core/src/main/java/com/volmit/iris/core/tools/IrisPackBenchmarking.java
#	nms/v1_20_R1/src/main/java/com/volmit/iris/core/nms/v1_20_R1/NMSBinding.java
#	nms/v1_20_R2/src/main/java/com/volmit/iris/core/nms/v1_20_R2/NMSBinding.java
#	nms/v1_20_R3/src/main/java/com/volmit/iris/core/nms/v1_20_R3/NMSBinding.java
#	nms/v1_20_R4/src/main/java/com/volmit/iris/core/nms/v1_20_R4/NMSBinding.java
#	nms/v1_21_R1/src/main/java/com/volmit/iris/core/nms/v1_21_R1/NMSBinding.java
#	nms/v1_21_R2/src/main/java/com/volmit/iris/core/nms/v1_21_R2/NMSBinding.java
#	nms/v1_21_R3/src/main/java/com/volmit/iris/core/nms/v1_21_R3/NMSBinding.java
2025-04-02 16:33:51 +02:00
Julian Krings 0d9a45dfd9 disable headless pregen on world creation for benchmark worlds 2025-03-18 16:12:09 +01:00
Julian Krings 8a55bbfd20 Merge branch 'dev' into feat/headless
# Conflicts:
#	core/src/main/java/com/volmit/iris/core/commands/CommandIris.java
2025-03-07 16:17:23 +01:00
Julian Krings 5934c43b70 Merge branch 'dev' into feat/headless 2025-02-18 17:10:23 +01:00
Julian Krings 11567b13d3 potentially fix chunk position bug 2025-02-18 17:08:08 +01:00
Julian Krings 2087ba88b1 fix adding chunks to region while being saved 2025-02-09 12:33:20 +01:00
Julian Krings e9d1b9f18e prevent Biome.CUSTOM from being resolved on <1.21.3 2025-02-08 21:45:51 +01:00
Julian Krings 6e84d38680 set chunk status to full AFTER generation 2025-02-08 20:59:20 +01:00
Julian Krings 22622f6e8a set chunk status to full on creation 2025-02-08 20:22:18 +01:00
Julian Krings 735203aa95 exclude asm from shadowJar 2025-02-08 12:20:27 +01:00
Julian Krings 013bc365a9 implement headless on all supported versions 2025-02-08 12:07:13 +01:00
Julian Krings c2dfbac641 refactor headless to decrease duplicate code in nms bindings 2025-02-07 21:51:23 +01:00
Julian Krings 7d472c0b13 Merge branch 'dev' into feat/headless
# Conflicts:
#	core/src/main/java/com/volmit/iris/core/commands/CommandIris.java
2025-02-06 23:29:22 +01:00
Julian Krings 5b4ab0a3c1 add headless pregen dev command 2025-02-04 10:55:39 +01:00
Julian Krings e8dd81b014 add headless to world creation 2025-01-29 16:36:04 +01:00
Julian Krings d32cc281e3 fix compile after merge 2025-01-29 14:32:04 +01:00
Julian Krings 2ff6b59271 Merge branch 'dev' into feat/headless 2025-01-29 14:30:17 +01:00
Julian Krings 3ff87566f5 implement headless for 1.21.4 2025-01-26 14:28:59 +01:00
183 changed files with 11171 additions and 9249 deletions
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/*
* Iris is a World Generator for Minecraft Bukkit Servers
* Copyright (c) 2021 Arcane Arts (Volmit Software)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
buildscript() {
repositories {
maven { url 'https://jitpack.io'}
}
dependencies {
classpath 'com.github.VolmitSoftware:NMSTools:1.0.1'
}
}
plugins {
id 'java'
id 'java-library'
id "io.github.goooler.shadow" version "8.1.7"
id "de.undercouch.download" version "5.0.1"
}
version '3.6.5-1.20.1-1.21.4'
// ADD YOURSELF AS A NEW LINE IF YOU WANT YOUR OWN BUILD TASK GENERATED
// ======================== WINDOWS =============================
registerCustomOutputTask('Cyberpwn', 'C://Users/cyberpwn/Documents/development/server/plugins')
registerCustomOutputTask('Psycho', 'C://Dan/MinecraftDevelopment/Server/plugins')
registerCustomOutputTask('ArcaneArts', 'C://Users/arcane/Documents/development/server/plugins')
registerCustomOutputTask('Coco', 'D://mcsm/plugins')
registerCustomOutputTask('Strange', 'D://Servers/1.17 Test Server/plugins')
registerCustomOutputTask('Vatuu', 'D://Minecraft/Servers/1.19.4/plugins')
registerCustomOutputTask('CrazyDev22', 'C://Users/Julian/Desktop/server/plugins')
registerCustomOutputTask('PixelFury', 'C://Users/repix/workplace/Iris/1.21.3 - Development-Public-v3/plugins')
registerCustomOutputTask('PixelFuryDev', 'C://Users/repix/workplace/Iris/1.21 - Development-v3/plugins')
// ========================== UNIX ==============================
registerCustomOutputTaskUnix('CyberpwnLT', '/Users/danielmills/development/server/plugins')
registerCustomOutputTaskUnix('PsychoLT', '/Users/brianfopiano/Developer/RemoteGit/Server/plugins')
registerCustomOutputTaskUnix('PixelMac', '/Users/test/Desktop/mcserver/plugins')
registerCustomOutputTaskUnix('CrazyDev22LT', '/home/julian/Desktop/server/plugins')
// ==============================================================
def NMS_BINDINGS = Map.of(
"v1_21_R3", "1.21.4-R0.1-SNAPSHOT",
"v1_21_R2", "1.21.3-R0.1-SNAPSHOT",
"v1_21_R1", "1.21.1-R0.1-SNAPSHOT",
"v1_20_R4", "1.20.6-R0.1-SNAPSHOT",
"v1_20_R3", "1.20.4-R0.1-SNAPSHOT",
"v1_20_R2", "1.20.2-R0.1-SNAPSHOT",
"v1_20_R1", "1.20.1-R0.1-SNAPSHOT",
)
def JVM_VERSION = Map.of()
NMS_BINDINGS.each { nms ->
project(":nms:${nms.key}") {
apply plugin: 'java'
apply plugin: 'com.volmit.nmstools'
nmsTools {
it.jvm = JVM_VERSION.getOrDefault(nms.key, 21)
it.version = nms.value
}
dependencies {
implementation project(":core")
}
}
}
shadowJar {
NMS_BINDINGS.each {
dependsOn(":nms:${it.key}:remap")
from("${project(":nms:${it.key}").layout.buildDirectory.asFile.get()}/libs/${it.key}-mapped.jar")
}
//minimize()
append("plugin.yml")
relocate 'com.dfsek.paralithic', 'com.volmit.iris.util.paralithic'
relocate 'io.papermc.lib', 'com.volmit.iris.util.paper'
relocate 'net.kyori', 'com.volmit.iris.util.kyori'
relocate 'org.bstats', 'com.volmit.util.metrics'
archiveFileName.set("Iris-${project.version}.jar")
dependencies {
exclude(dependency("org.ow2.asm:asm:"))
exclude(dependency("org.jetbrains:"))
}
}
dependencies {
implementation project(':core')
}
configurations.configureEach {
resolutionStrategy.cacheChangingModulesFor 60, 'minutes'
resolutionStrategy.cacheDynamicVersionsFor 60, 'minutes'
}
allprojects {
apply plugin: 'java'
repositories {
mavenCentral()
maven { url "https://repo.papermc.io/repository/maven-public/" }
maven { url "https://repo.codemc.org/repository/maven-public" }
maven { url "https://mvn.lumine.io/repository/maven-public/" }
maven { url "https://jitpack.io" }
maven { url "https://s01.oss.sonatype.org/content/repositories/snapshots" }
maven { url "https://mvn.lumine.io/repository/maven/" }
maven { url "https://repo.triumphteam.dev/snapshots" }
maven { url "https://repo.mineinabyss.com/releases" }
maven { url 'https://hub.jeff-media.com/nexus/repository/jeff-media-public/' }
maven { url "https://repo.nexomc.com/snapshots/" }
maven { url "https://libraries.minecraft.net" }
}
dependencies {
// Provided or Classpath
compileOnly 'org.projectlombok:lombok:1.18.36'
annotationProcessor 'org.projectlombok:lombok:1.18.36'
// Shaded
implementation 'com.dfsek:paralithic:0.8.1'
implementation 'io.papermc:paperlib:1.0.5'
implementation "net.kyori:adventure-text-minimessage:4.17.0"
implementation 'net.kyori:adventure-platform-bukkit:4.3.4'
implementation 'net.kyori:adventure-api:4.17.0'
implementation 'org.bstats:bstats-bukkit:3.1.0'
//implementation 'org.bytedeco:javacpp:1.5.10'
//implementation 'org.bytedeco:cuda-platform:12.3-8.9-1.5.10'
compileOnly 'io.lumine:Mythic-Dist:5.2.1'
compileOnly 'io.lumine:MythicCrucible-Dist:2.0.0'
// Dynamically Loaded
compileOnly 'io.timeandspace:smoothie-map:2.0.2'
compileOnly 'it.unimi.dsi:fastutil:8.5.8'
compileOnly 'com.googlecode.concurrentlinkedhashmap:concurrentlinkedhashmap-lru:1.4.2'
compileOnly 'org.zeroturnaround:zt-zip:1.14'
compileOnly 'com.google.code.gson:gson:2.10.1'
compileOnly 'org.ow2.asm:asm:9.2'
compileOnly 'com.google.guava:guava:33.0.0-jre'
compileOnly 'bsf:bsf:2.4.0'
compileOnly 'rhino:js:1.7R2'
compileOnly 'com.github.ben-manes.caffeine:caffeine:3.0.6'
compileOnly 'org.apache.commons:commons-lang3:3.12.0'
compileOnly 'com.github.oshi:oshi-core:6.6.5'
}
/**
* We need parameter meta for the decree command system
*/
compileJava {
options.compilerArgs << '-parameters'
options.encoding = "UTF-8"
}
javadoc {
options.encoding = "UTF-8"
options.addStringOption('Xdoclint:none', '-quiet')
}
task sourcesJar(type: Jar, dependsOn: classes) {
archiveClassifier.set('sources')
from sourceSets.main.allSource
}
task javadocJar(type: Jar, dependsOn: javadoc) {
archiveClassifier.set('javadoc')
from javadoc.destinationDir
}
}
if (JavaVersion.current().toString() != "21") {
System.err.println()
System.err.println("=========================================================================================================")
System.err.println("You must run gradle on Java 21. You are using " + JavaVersion.current())
System.err.println()
System.err.println("=== For IDEs ===")
System.err.println("1. Configure the project for Java 21")
System.err.println("2. Configure the bundled gradle to use Java 21 in settings")
System.err.println()
System.err.println("=== For Command Line (gradlew) ===")
System.err.println("1. Install JDK 21 from https://www.oracle.com/java/technologies/javase/jdk21-archive-downloads.html")
System.err.println("2. Set JAVA_HOME environment variable to the new jdk installation folder such as C:\\Program Files\\Java\\jdk-21.0.4")
System.err.println("3. Open a new command prompt window to get the new environment variables if need be.")
System.err.println("=========================================================================================================")
System.err.println()
System.exit(69);
}
task iris(type: Copy) {
group "iris"
from new File(layout.buildDirectory.asFile.get(), "libs/Iris-${version}.jar")
into layout.buildDirectory.asFile.get()
dependsOn(build)
}
// with classifier: 'javadoc' and 'sources'
task irisDev(type: Copy) {
group "iris"
from("core/build/libs/core-javadoc.jar", "core/build/libs/core-sources.jar")
rename { String fileName ->
fileName.replace("core", "Iris-${version}")
}
into layout.buildDirectory.asFile.get()
dependsOn(iris)
dependsOn("core:sourcesJar")
dependsOn("core:javadocJar")
}
def registerCustomOutputTask(name, path) {
if (!System.properties['os.name'].toLowerCase().contains('windows')) {
return;
}
tasks.register('build' + name, Copy) {
group('development')
outputs.upToDateWhen { false }
dependsOn(iris)
from(new File(buildDir, "Iris-" + version + ".jar"))
into(file(path))
rename { String fileName ->
fileName.replace("Iris-" + version + ".jar", "Iris.jar")
}
}
}
def registerCustomOutputTaskUnix(name, path) {
if (System.properties['os.name'].toLowerCase().contains('windows')) {
return;
}
tasks.register('build' + name, Copy) {
group('development')
outputs.upToDateWhen { false }
dependsOn(iris)
from(new File(buildDir, "Iris-" + version + ".jar"))
into(file(path))
rename { String fileName ->
fileName.replace("Iris-" + version + ".jar", "Iris.jar")
}
}
}
tasks.build.dependsOn(shadowJar)
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@@ -1,280 +0,0 @@
import com.volmit.nmstools.NMSToolsExtension
import com.volmit.nmstools.NMSToolsPlugin
import de.undercouch.gradle.tasks.download.Download
import xyz.jpenilla.runpaper.task.RunServer
import kotlin.system.exitProcess
/*
* Iris is a World Generator for Minecraft Bukkit Servers
* Copyright (c) 2021 Arcane Arts (Volmit Software)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
buildscript {
repositories.maven("https://jitpack.io")
dependencies.classpath("com.github.VolmitSoftware:NMSTools:c5cbc46ce6")
}
plugins {
java
`java-library`
alias(libs.plugins.shadow)
alias(libs.plugins.sentry)
alias(libs.plugins.download)
alias(libs.plugins.runPaper)
}
group = "com.volmit"
version = "3.7.0-1.20.1-1.21.7"
apply<ApiGenerator>()
// ADD YOURSELF AS A NEW LINE IF YOU WANT YOUR OWN BUILD TASK GENERATED
// ======================== WINDOWS =============================
registerCustomOutputTask("Cyberpwn", "C://Users/cyberpwn/Documents/development/server/plugins")
registerCustomOutputTask("Psycho", "C://Dan/MinecraftDevelopment/Server/plugins")
registerCustomOutputTask("ArcaneArts", "C://Users/arcane/Documents/development/server/plugins")
registerCustomOutputTask("Coco", "D://mcsm/plugins")
registerCustomOutputTask("Strange", "D://Servers/1.17 Test Server/plugins")
registerCustomOutputTask("Vatuu", "D://Minecraft/Servers/1.19.4/plugins")
registerCustomOutputTask("CrazyDev22", "C://Users/Julian/Desktop/server/plugins")
registerCustomOutputTask("PixelFury", "C://Users/repix/workplace/Iris/1.21.3 - Development-Public-v3/plugins")
registerCustomOutputTask("PixelFuryDev", "C://Users/repix/workplace/Iris/1.21 - Development-v3/plugins")
// ========================== UNIX ==============================
registerCustomOutputTaskUnix("CyberpwnLT", "/Users/danielmills/development/server/plugins")
registerCustomOutputTaskUnix("PsychoLT", "/Users/brianfopiano/Developer/RemoteGit/Server/plugins")
registerCustomOutputTaskUnix("PixelMac", "/Users/test/Desktop/mcserver/plugins")
registerCustomOutputTaskUnix("CrazyDev22LT", "/home/julian/Desktop/server/plugins")
// ==============================================================
val serverMinHeap = "2G"
val serverMaxHeap = "8G"
//Valid values are: none, truecolor, indexed256, indexed16, indexed8
val color = "truecolor"
val errorReporting = false
val nmsBindings = mapOf(
"v1_21_R5" to "1.21.7-R0.1-SNAPSHOT",
"v1_21_R4" to "1.21.5-R0.1-SNAPSHOT",
"v1_21_R3" to "1.21.4-R0.1-SNAPSHOT",
"v1_21_R2" to "1.21.3-R0.1-SNAPSHOT",
"v1_21_R1" to "1.21.1-R0.1-SNAPSHOT",
"v1_20_R4" to "1.20.6-R0.1-SNAPSHOT",
"v1_20_R3" to "1.20.4-R0.1-SNAPSHOT",
"v1_20_R2" to "1.20.2-R0.1-SNAPSHOT",
"v1_20_R1" to "1.20.1-R0.1-SNAPSHOT",
)
val jvmVersion = mapOf<String, Int>()
nmsBindings.forEach { key, value ->
project(":nms:$key") {
apply<JavaPlugin>()
apply<NMSToolsPlugin>()
repositories {
maven("https://libraries.minecraft.net")
}
extensions.configure(NMSToolsExtension::class) {
jvm = jvmVersion.getOrDefault(key, 21)
version = value
}
dependencies {
compileOnly(project(":core"))
compileOnly(rootProject.libs.annotations)
compileOnly(rootProject.libs.byteBuddy.core)
}
}
tasks.register<RunServer>("runServer-$key") {
group = "servers"
minecraftVersion(value.split("-")[0])
minHeapSize = serverMinHeap
maxHeapSize = serverMaxHeap
pluginJars(tasks.jar.flatMap { it.archiveFile })
javaLauncher = javaToolchains.launcherFor { languageVersion = JavaLanguageVersion.of(jvmVersion.getOrDefault(key, 21))}
runDirectory.convention(layout.buildDirectory.dir("run/$key"))
systemProperty("disable.watchdog", "")
systemProperty("net.kyori.ansi.colorLevel", color)
systemProperty("com.mojang.eula.agree", true)
systemProperty("iris.suppressReporting", !errorReporting)
jvmArgs("-javaagent:${project(":core:agent").tasks.jar.flatMap { it.archiveFile }.get().asFile.absolutePath}")
}
}
tasks {
jar {
duplicatesStrategy = DuplicatesStrategy.EXCLUDE
nmsBindings.forEach { key, _ ->
from(project(":nms:$key").tasks.named("remap").map { zipTree(it.outputs.files.singleFile) })
}
from(project(":core").tasks.shadowJar.flatMap { it.archiveFile }.map { zipTree(it) })
from(project(":core:agent").tasks.jar.flatMap { it.archiveFile })
archiveFileName.set("Iris-${project.version}.jar")
}
register<Copy>("iris") {
group = "iris"
dependsOn("jar")
from(layout.buildDirectory.file("libs/Iris-${project.version}.jar"))
into(layout.buildDirectory)
}
register<Copy>("irisDev") {
group = "iris"
from(project(":core").layout.buildDirectory.files("libs/core-javadoc.jar", "libs/core-sources.jar"))
rename { it.replace("core", "Iris-${project.version}") }
into(layout.buildDirectory)
dependsOn(":core:sourcesJar")
dependsOn(":core:javadocJar")
}
val cli = file("sentry-cli.exe")
register<Download>("downloadCli") {
group = "io.sentry"
src("https://release-registry.services.sentry.io/apps/sentry-cli/latest?response=download&arch=x86_64&platform=${System.getProperty("os.name")}&package=sentry-cli")
dest(cli)
doLast {
cli.setExecutable(true)
}
}
register("release") {
group = "io.sentry"
dependsOn("downloadCli")
doLast {
val authToken = project.findProperty("sentry.auth.token") ?: System.getenv("SENTRY_AUTH_TOKEN")
val org = "volmit-software"
val projectName = "iris"
exec(cli, "releases", "new", "--auth-token", authToken, "-o", org, "-p", projectName, version)
exec(cli, "releases", "set-commits", "--auth-token", authToken, "-o", org, "-p", projectName, version, "--auto", "--ignore-missing")
exec(cli, "releases", "finalize", "--auth-token", authToken, "-o", org, "-p", projectName, version)
cli.delete()
}
}
}
fun exec(vararg command: Any) {
val p = ProcessBuilder(command.map { it.toString() })
.start()
p.inputStream.reader().useLines { it.forEach(::println) }
p.errorStream.reader().useLines { it.forEach(::println) }
p.waitFor()
}
configurations.configureEach {
resolutionStrategy.cacheChangingModulesFor(60, "minutes")
resolutionStrategy.cacheDynamicVersionsFor(60, "minutes")
}
allprojects {
apply<JavaPlugin>()
repositories {
mavenCentral()
maven("https://repo.papermc.io/repository/maven-public/")
maven("https://repo.codemc.org/repository/maven-public/")
maven("https://jitpack.io") // EcoItems, score
maven("https://repo.nexomc.com/releases/") // nexo
maven("https://maven.devs.beer/") // itemsadder
maven("https://repo.extendedclip.com/releases/") // placeholderapi
maven("https://mvn.lumine.io/repository/maven-public/") // mythic
maven("https://nexus.phoenixdevt.fr/repository/maven-public/") //MMOItems
maven("https://repo.onarandombox.com/content/groups/public/") //Multiverse Core
}
dependencies {
// Provided or Classpath
compileOnly(rootProject.libs.lombok)
annotationProcessor(rootProject.libs.lombok)
}
/**
* We need parameter meta for the decree command system
*/
tasks {
compileJava {
options.compilerArgs.add("-parameters")
options.encoding = "UTF-8"
}
javadoc {
options.encoding = "UTF-8"
options.quiet()
//options.addStringOption("Xdoclint:none") // TODO: Re-enable this
}
register<Jar>("sourcesJar") {
archiveClassifier.set("sources")
from(sourceSets.main.map { it.allSource })
}
register<Jar>("javadocJar") {
archiveClassifier.set("javadoc")
from(javadoc.map { it.destinationDir!! })
}
}
}
if (JavaVersion.current().toString() != "21") {
System.err.println()
System.err.println("=========================================================================================================")
System.err.println("You must run gradle on Java 21. You are using " + JavaVersion.current())
System.err.println()
System.err.println("=== For IDEs ===")
System.err.println("1. Configure the project for Java 21")
System.err.println("2. Configure the bundled gradle to use Java 21 in settings")
System.err.println()
System.err.println("=== For Command Line (gradlew) ===")
System.err.println("1. Install JDK 21 from https://www.oracle.com/java/technologies/javase/jdk21-archive-downloads.html")
System.err.println("2. Set JAVA_HOME environment variable to the new jdk installation folder such as C:\\Program Files\\Java\\jdk-21.0.4")
System.err.println("3. Open a new command prompt window to get the new environment variables if need be.")
System.err.println("=========================================================================================================")
System.err.println()
exitProcess(69)
}
fun registerCustomOutputTask(name: String, path: String) {
if (!System.getProperty("os.name").lowercase().contains("windows")) {
return
}
tasks.register<Copy>("build$name") {
group = "development"
outputs.upToDateWhen { false }
dependsOn("iris")
from(layout.buildDirectory.file("Iris-${project.version}.jar"))
into(file(path))
rename { "Iris.jar" }
}
}
fun registerCustomOutputTaskUnix(name: String, path: String) {
if (System.getProperty("os.name").lowercase().contains("windows")) {
return
}
tasks.register<Copy>("build$name") {
group = "development"
outputs.upToDateWhen { false }
dependsOn("iris")
from(layout.buildDirectory.file("Iris-${project.version}.jar"))
into(file(path))
rename { "Iris.jar" }
}
}
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@@ -1,11 +0,0 @@
plugins {
kotlin("jvm") version "2.0.20"
}
repositories {
mavenCentral()
}
dependencies {
implementation("org.ow2.asm:asm:9.8")
}
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@@ -1,121 +0,0 @@
import org.gradle.api.DefaultTask
import org.gradle.api.Plugin
import org.gradle.api.Project
import org.gradle.api.publish.PublishingExtension
import org.gradle.api.publish.maven.MavenPublication
import org.gradle.api.tasks.InputFile
import org.gradle.api.tasks.OutputFile
import org.gradle.api.tasks.TaskAction
import org.gradle.jvm.tasks.Jar
import org.objectweb.asm.*
import java.io.File
import java.util.jar.JarFile
import java.util.jar.JarOutputStream
class ApiGenerator : Plugin<Project> {
override fun apply(target: Project): Unit = with(target) {
plugins.apply("maven-publish")
val task = tasks.register("irisApi", GenerateApiTask::class.java)
extensions.findByType(PublishingExtension::class.java)!!.apply {
repositories.maven {
it.name = "deployDir"
it.url = targetDirectory.toURI()
}
publications.create("maven", MavenPublication::class.java) {
it.groupId = name
it.version = version.toString()
it.artifact(task)
}
}
}
}
abstract class GenerateApiTask : DefaultTask() {
init {
group = "iris"
dependsOn("jar")
finalizedBy("publishMavenPublicationToDeployDirRepository")
doLast {
logger.lifecycle("The API is located at ${outputFile.absolutePath}")
}
}
@InputFile
val inputFile: File = project.tasks
.named("jar", Jar::class.java)
.get()
.archiveFile
.get()
.asFile
@OutputFile
val outputFile: File = project.targetDirectory.resolve(inputFile.name)
@TaskAction
fun generate() {
JarFile(inputFile).use { jar ->
JarOutputStream(outputFile.apply { parentFile?.mkdirs() }.outputStream()).use { out ->
jar.stream()
.parallel()
.filter { !it.isDirectory }
.filter { it.name.endsWith(".class") }
.forEach {
val bytes = jar.getInputStream(it).use { input ->
val writer = ClassWriter(ClassWriter.COMPUTE_MAXS)
val visitor = MethodClearingVisitor(writer)
ClassReader(input).accept(visitor, 0)
writer.toByteArray()
}
synchronized(out) {
out.putNextEntry(it)
out.write(bytes)
out.closeEntry()
}
}
}
}
}
}
val Project.targetDirectory: File get() {
val dir = System.getenv("DEPLOY_DIR") ?: return project.layout.buildDirectory.dir("api").get().asFile
return File(dir)
}
private class MethodClearingVisitor(
cv: ClassVisitor
) : ClassVisitor(Opcodes.ASM9, cv) {
override fun visitMethod(
access: Int,
name: String?,
descriptor: String?,
signature: String?,
exceptions: Array<out String>?
) = ExceptionThrowingMethodVisitor(super.visitMethod(access, name, descriptor, signature, exceptions))
}
private class ExceptionThrowingMethodVisitor(
mv: MethodVisitor
) : MethodVisitor(Opcodes.ASM9, mv) {
override fun visitCode() {
if (mv == null) return
mv.visitCode()
mv.visitTypeInsn(Opcodes.NEW, "java/lang/IllegalStateException")
mv.visitInsn(Opcodes.DUP)
mv.visitLdcInsn("Only API")
mv.visitMethodInsn(
Opcodes.INVOKESPECIAL,
"java/lang/IllegalStateException",
"<init>", "(Ljava/lang/String;)V", false
)
mv.visitInsn(Opcodes.ATHROW)
mv.visitMaxs(0, 0)
mv.visitEnd()
}
}
-12
View File
@@ -1,12 +0,0 @@
plugins {
java
}
tasks.jar {
manifest.attributes(
"Agent-Class" to "com.volmit.iris.util.agent.Installer",
"Premain-Class" to "com.volmit.iris.util.agent.Installer",
"Can-Redefine-Classes" to true,
"Can-Retransform-Classes" to true
)
}
@@ -1,29 +0,0 @@
package com.volmit.iris.util.agent;
import java.lang.instrument.Instrumentation;
public class Installer {
private static volatile Instrumentation instrumentation;
public static Instrumentation getInstrumentation() {
Instrumentation instrumentation = Installer.instrumentation;
if (instrumentation == null) {
throw new IllegalStateException("The agent is not loaded or this method is not called via the system class loader");
}
return instrumentation;
}
public static void premain(String arguments, Instrumentation instrumentation) {
doMain(instrumentation);
}
public static void agentmain(String arguments, Instrumentation instrumentation) {
doMain(instrumentation);
}
private static synchronized void doMain(Instrumentation instrumentation) {
if (Installer.instrumentation != null)
return;
Installer.instrumentation = instrumentation;
}
}
+95
View File
@@ -0,0 +1,95 @@
/*
* Iris is a World Generator for Minecraft Bukkit Servers
* Copyright (c) 2021 Arcane Arts (Volmit Software)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
plugins {
id 'java'
id 'java-library'
id "io.freefair.lombok" version "8.6"
}
def apiVersion = '1.19'
def main = 'com.volmit.iris.Iris'
/**
* We need parameter meta for the decree command system
*/
compileJava {
options.compilerArgs << '-parameters'
options.encoding = "UTF-8"
}
repositories {
maven { url 'https://nexus.phoenixdevt.fr/repository/maven-public/'}
maven { url 'https://repo.auxilor.io/repository/maven-public/' }
}
/**
* Dependencies.
*
* Provided or classpath dependencies are not shaded and are available on the runtime classpath
*
* Shaded dependencies are not available at runtime, nor are they available on mvn central so they
* need to be shaded into the jar (increasing binary size)
*
* Dynamically loaded dependencies are defined in the plugin.yml (updating these must be updated in the
* plugin.yml also, otherwise they wont be available). These do not increase binary size). Only declare
* these dependencies if they are available on mvn central.
*/
dependencies {
// Provided or Classpath
compileOnly 'org.spigotmc:spigot-api:1.20.1-R0.1-SNAPSHOT'
compileOnly 'org.apache.logging.log4j:log4j-api:2.19.0'
compileOnly 'org.apache.logging.log4j:log4j-core:2.19.0'
compileOnly 'commons-io:commons-io:2.13.0'
compileOnly 'commons-lang:commons-lang:2.6'
compileOnly 'com.github.oshi:oshi-core:5.8.5'
compileOnly 'org.lz4:lz4-java:1.8.0'
// Third Party Integrations
compileOnly 'com.ticxo.playeranimator:PlayerAnimator:R1.2.7'
compileOnly 'com.nexomc:nexo:1.0.0-dev.38'
compileOnly 'com.github.LoneDev6:api-itemsadder:3.4.1-r4'
compileOnly 'com.github.PlaceholderAPI:placeholderapi:2.11.3'
compileOnly 'com.github.Ssomar-Developement:SCore:4.23.10.8'
compileOnly 'net.Indyuce:MMOItems-API:6.9.5-SNAPSHOT'
compileOnly 'com.willfp:EcoItems:5.44.0'
//implementation files('libs/CustomItems.jar')
}
java {
disableAutoTargetJvm()
}
/**
* Gradle is weird sometimes, we need to delete the plugin yml from the build folder to actually filter properly.
*/
file(jar.archiveFile.get().getAsFile().getParentFile().getParentFile().getParentFile().getAbsolutePath() + '/build/resources/main/plugin.yml').delete()
/**
* Expand properties into plugin yml
*/
processResources {
filesMatching('**/plugin.yml') {
expand(
'name': rootProject.name.toString(),
'version': rootProject.version.toString(),
'main': main.toString(),
'apiversion': apiVersion.toString()
)
}
}
-158
View File
@@ -1,158 +0,0 @@
import io.github.slimjar.func.slimjar
import io.github.slimjar.resolver.data.Mirror
import java.net.URI
/*
* Iris is a World Generator for Minecraft Bukkit Servers
* Copyright (c) 2021 Arcane Arts (Volmit Software)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
plugins {
java
`java-library`
alias(libs.plugins.shadow)
alias(libs.plugins.sentry)
alias(libs.plugins.slimjar)
}
val apiVersion = "1.19"
val main = "com.volmit.iris.Iris"
val lib = "com.volmit.iris.util"
/**
* Dependencies.
*
* Provided or classpath dependencies are not shaded and are available on the runtime classpath
*
* Shaded dependencies are not available at runtime, nor are they available on mvn central so they
* need to be shaded into the jar (increasing binary size)
*
* Dynamically loaded dependencies are defined in the plugin.yml (updating these must be updated in the
* plugin.yml also, otherwise they wont be available). These do not increase binary size). Only declare
* these dependencies if they are available on mvn central.
*/
dependencies {
// Provided or Classpath
compileOnly(libs.spigot)
compileOnly(libs.log4j.api)
compileOnly(libs.log4j.core)
// Third Party Integrations
compileOnly(libs.nexo)
compileOnly(libs.itemsadder)
compileOnly(libs.placeholderApi)
compileOnly(libs.score)
compileOnly(libs.mmoitems)
compileOnly(libs.ecoitems)
compileOnly(libs.mythic)
compileOnly(libs.mythicChrucible)
compileOnly(libs.kgenerators) {
isTransitive = false
}
compileOnly(libs.multiverseCore)
// Shaded
implementation(slimjar())
// Dynamically Loaded
slim(libs.paralithic)
slim(libs.paperlib)
slim(libs.adventure.api)
slim(libs.adventure.minimessage)
slim(libs.adventure.platform)
slim(libs.bstats)
slim(libs.sentry)
slim(libs.commons.io)
slim(libs.commons.lang)
slim(libs.commons.lang3)
slim(libs.oshi)
slim(libs.lz4)
slim(libs.fastutil)
slim(libs.lru)
slim(libs.zip)
slim(libs.gson)
slim(libs.asm)
slim(libs.bsf)
slim(libs.rhino)
slim(libs.caffeine)
slim(libs.byteBuddy.core)
slim(libs.byteBuddy.agent)
}
java {
disableAutoTargetJvm()
}
sentry {
autoInstallation.enabled = false
includeSourceContext = true
org = "volmit-software"
projectName = "iris"
authToken = findProperty("sentry.auth.token") as String? ?: System.getenv("SENTRY_AUTH_TOKEN")
}
slimJar {
mirrors = listOf(Mirror(
URI.create("https://maven-central.storage-download.googleapis.com/maven2").toURL(),
URI.create("https://repo.maven.apache.org/maven2/").toURL()
))
relocate("com.dfsek.paralithic", "$lib.paralithic")
relocate("io.papermc.lib", "$lib.paper")
relocate("net.kyori", "$lib.kyori")
relocate("org.bstats", "$lib.metrics")
relocate("io.sentry", "$lib.sentry")
}
tasks {
/**
* We need parameter meta for the decree command system
*/
compileJava {
options.compilerArgs.add("-parameters")
options.encoding = "UTF-8"
}
/**
* Expand properties into plugin yml
*/
processResources {
inputs.properties(
"name" to rootProject.name,
"version" to rootProject.version,
"apiVersion" to apiVersion,
"main" to main,
)
filesMatching("**/plugin.yml") {
expand(inputs.properties)
}
}
shadowJar {
mergeServiceFiles()
//minimize()
relocate("io.github.slimjar", "$lib.slimjar")
}
}
/**
* Gradle is weird sometimes, we need to delete the plugin yml from the build folder to actually filter properly.
*/
afterEvaluate {
layout.buildDirectory.file("resources/main/plugin.yml").get().asFile.delete()
}
File diff suppressed because it is too large Load Diff
@@ -23,9 +23,8 @@ import com.volmit.iris.Iris;
import com.volmit.iris.util.io.IO;
import com.volmit.iris.util.json.JSONException;
import com.volmit.iris.util.json.JSONObject;
import com.volmit.iris.util.misc.SlimJar;
import com.volmit.iris.util.misc.getHardware;
import com.volmit.iris.util.plugin.VolmitSender;
import com.volmit.iris.util.scheduling.ChronoLatch;
import lombok.AllArgsConstructor;
import lombok.Data;
import lombok.NoArgsConstructor;
@@ -46,8 +45,6 @@ public class IrisSettings {
private IrisSettingsStudio studio = new IrisSettingsStudio();
private IrisSettingsPerformance performance = new IrisSettingsPerformance();
private IrisSettingsUpdater updater = new IrisSettingsUpdater();
private IrisSettingsPregen pregen = new IrisSettingsPregen();
private IrisSettingsSentry sentry = new IrisSettingsSentry();
public static int getThreadCount(int c) {
return switch (c) {
@@ -87,7 +84,6 @@ public class IrisSettings {
Iris.error("Configuration Error in settings.json! " + ee.getClass().getSimpleName() + ": " + ee.getMessage());
}
}
SlimJar.debug(settings.general.debug);
return settings;
}
@@ -134,46 +130,21 @@ public class IrisSettings {
public boolean markerEntitySpawningSystem = true;
public boolean effectSystem = true;
public boolean worldEditWandCUI = true;
public boolean globalPregenCache = false;
}
@Data
public static class IrisSettingsConcurrency {
public int parallelism = -1;
public int worldGenParallelism = -1;
public int getWorldGenThreads() {
return getThreadCount(worldGenParallelism);
}
}
@Data
public static class IrisSettingsPregen {
public boolean useCacheByDefault = true;
public boolean useHighPriority = false;
public boolean useVirtualThreads = false;
public boolean useTicketQueue = true;
public int maxConcurrency = 256;
}
@Data
public static class IrisSettingsPerformance {
private IrisSettingsEngineSVC engineSVC = new IrisSettingsEngineSVC();
public boolean trimMantleInStudio = false;
public int mantleKeepAlive = 30;
public int cacheSize = 4_096;
public int resourceLoaderCacheSize = 1_024;
public int objectLoaderCacheSize = 4_096;
public int scriptLoaderCacheSize = 512;
public int tectonicPlateSize = -1;
public int mantleCleanupDelay = 200;
public int getTectonicPlateSize() {
if (tectonicPlateSize > 0)
return tectonicPlateSize;
return (int) (getHardware.getProcessMemory() / 200L);
}
}
@Data
@@ -205,7 +176,6 @@ public class IrisSettings {
public boolean DoomsdayAnnihilationSelfDestructMode = false;
public boolean commandSounds = true;
public boolean debug = false;
public boolean dumpMantleOnError = false;
public boolean disableNMS = false;
public boolean pluginMetrics = true;
public boolean splashLogoStartup = true;
@@ -225,13 +195,6 @@ public class IrisSettings {
}
}
@Data
public static class IrisSettingsSentry {
public boolean includeServerId = true;
public boolean disableAutoReporting = false;
public boolean debug = false;
}
@Data
public static class IrisSettingsGUI {
public boolean useServerLaunchedGuis = true;
@@ -253,14 +216,4 @@ public class IrisSettings {
public boolean disableTimeAndWeather = true;
public boolean autoStartDefaultStudio = false;
}
@Data
public static class IrisSettingsEngineSVC {
public boolean useVirtualThreads = true;
public int priority = Thread.NORM_PRIORITY;
public int getPriority() {
return Math.max(Math.min(priority, Thread.MAX_PRIORITY), Thread.MIN_PRIORITY);
}
}
}
@@ -1,79 +0,0 @@
package com.volmit.iris.core;
import com.google.gson.Gson;
import com.google.gson.GsonBuilder;
import com.google.gson.reflect.TypeToken;
import com.volmit.iris.Iris;
import com.volmit.iris.engine.data.cache.AtomicCache;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.io.IO;
import org.bukkit.Bukkit;
import java.io.File;
import java.io.IOException;
import java.io.OutputStreamWriter;
import java.lang.reflect.Type;
import java.util.Objects;
import java.util.stream.Stream;
public class IrisWorlds {
private static final AtomicCache<IrisWorlds> cache = new AtomicCache<>();
private static final Gson GSON = new GsonBuilder().setPrettyPrinting().create();
private static final Type TYPE = TypeToken.getParameterized(KMap.class, String.class, String.class).getType();
private final KMap<String, String> worlds;
private volatile boolean dirty = false;
private IrisWorlds(KMap<String, String> worlds) {
this.worlds = worlds;
save();
}
public static IrisWorlds get() {
return cache.aquire(() -> {
File file = Iris.instance.getDataFile("worlds.json");
if (!file.exists()) {
return new IrisWorlds(new KMap<>());
}
try {
String json = IO.readAll(file);
KMap<String, String> worlds = GSON.fromJson(json, TYPE);
return new IrisWorlds(Objects.requireNonNullElseGet(worlds, KMap::new));
} catch (Throwable e) {
Iris.error("Failed to load worlds.json!");
e.printStackTrace();
Iris.reportError(e);
}
return new IrisWorlds(new KMap<>());
});
}
public void put(String name, String type) {
String old = worlds.put(name, type);
if (!type.equals(old))
dirty = true;
save();
}
public Stream<File> getFolders() {
return worlds.keySet().stream().map(k -> new File(Bukkit.getWorldContainer(), k));
}
public void clean() {
dirty = worlds.entrySet().removeIf(entry -> !new File(Bukkit.getWorldContainer(), entry.getKey() + "/iris/pack/dimensions/" + entry.getValue() + ".json").exists());
}
public synchronized void save() {
clean();
if (!dirty) return;
try {
IO.write(Iris.instance.getDataFile("worlds.json"), OutputStreamWriter::new, writer -> GSON.toJson(worlds, TYPE, writer));
dirty = false;
} catch (IOException e) {
Iris.error("Failed to save worlds.json!");
e.printStackTrace();
Iris.reportError(e);
}
}
}
@@ -23,7 +23,10 @@ import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.core.nms.INMS;
import com.volmit.iris.core.nms.datapack.DataVersion;
import com.volmit.iris.core.nms.datapack.IDataFixer;
import com.volmit.iris.engine.object.*;
import com.volmit.iris.engine.object.IrisBiome;
import com.volmit.iris.engine.object.IrisBiomeCustom;
import com.volmit.iris.engine.object.IrisDimension;
import com.volmit.iris.engine.object.IrisRange;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.collection.KSet;
@@ -31,8 +34,8 @@ import com.volmit.iris.util.format.C;
import com.volmit.iris.util.misc.ServerProperties;
import com.volmit.iris.util.plugin.VolmitSender;
import com.volmit.iris.util.scheduling.J;
import lombok.Data;
import lombok.NonNull;
import lombok.SneakyThrows;
import org.bukkit.Bukkit;
import org.bukkit.configuration.InvalidConfigurationException;
import org.bukkit.configuration.file.FileConfiguration;
@@ -42,13 +45,12 @@ import org.jetbrains.annotations.Nullable;
import java.io.File;
import java.io.IOException;
import java.nio.file.Files;
import java.nio.file.Path;
import java.util.Objects;
import java.util.Arrays;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicIntegerArray;
import java.util.stream.Stream;
import static com.volmit.iris.core.nms.datapack.IDataFixer.Dimension.*;
public class ServerConfigurator {
public static void configure() {
IrisSettings.IrisSettingsAutoconfiguration s = IrisSettings.get().getAutoConfiguration();
@@ -69,12 +71,10 @@ public class ServerConfigurator {
f.load(spigotConfig);
long tt = f.getLong("settings.timeout-time");
long spigotTimeout = TimeUnit.MINUTES.toSeconds(5);
if (tt < spigotTimeout) {
Iris.warn("Updating spigot.yml timeout-time: " + tt + " -> " + spigotTimeout + " (5 minutes)");
if (tt < TimeUnit.MINUTES.toSeconds(5)) {
Iris.warn("Updating spigot.yml timeout-time: " + tt + " -> " + TimeUnit.MINUTES.toSeconds(20) + " (5 minutes)");
Iris.warn("You can disable this change (autoconfigureServer) in Iris settings, then change back the value.");
f.set("settings.timeout-time", spigotTimeout);
f.set("settings.timeout-time", TimeUnit.MINUTES.toSeconds(5));
f.save(spigotConfig);
}
}
@@ -84,11 +84,10 @@ public class ServerConfigurator {
f.load(spigotConfig);
long tt = f.getLong("watchdog.early-warning-delay");
long watchdog = TimeUnit.MINUTES.toMillis(3);
if (tt < watchdog) {
Iris.warn("Updating paper.yml watchdog early-warning-delay: " + tt + " -> " + watchdog + " (3 minutes)");
if (tt < TimeUnit.MINUTES.toMillis(3)) {
Iris.warn("Updating paper.yml watchdog early-warning-delay: " + tt + " -> " + TimeUnit.MINUTES.toMillis(15) + " (3 minutes)");
Iris.warn("You can disable this change (autoconfigureServer) in Iris settings, then change back the value.");
f.set("watchdog.early-warning-delay", watchdog);
f.set("watchdog.early-warning-delay", TimeUnit.MINUTES.toMillis(3));
f.save(spigotConfig);
}
}
@@ -108,25 +107,19 @@ public class ServerConfigurator {
}
public static void installDataPacks(IDataFixer fixer, boolean fullInstall) {
if (fixer == null) {
Iris.error("Unable to install datapacks, fixer is null!");
return;
}
Iris.info("Checking Data Packs...");
DimensionHeight height = new DimensionHeight(fixer);
KList<File> folders = getDatapacksFolder();
KMap<String, KSet<String>> biomes = new KMap<>();
try (Stream<IrisData> stream = allPacks()) {
stream.flatMap(height::merge)
.parallel()
.forEach(dim -> {
Iris.verbose(" Checking Dimension " + dim.getLoadFile().getPath());
dim.installBiomes(fixer, dim::getLoader, folders, biomes.computeIfAbsent(dim.getLoadKey(), k -> new KSet<>()));
dim.installDimensionType(fixer, folders);
});
}
allPacks().flatMap(height::merge)
.parallel()
.forEach(dim -> {
Iris.verbose(" Checking Dimension " + dim.getLoadFile().getPath());
dim.installBiomes(fixer, dim::getLoader, folders, biomes.computeIfAbsent(dim.getLoadKey(), k -> new KSet<>()));
});
IrisDimension.writeShared(folders, height);
Iris.info("Data Packs Setup!");
if (fullInstall)
@@ -134,22 +127,19 @@ public class ServerConfigurator {
}
private static void verifyDataPacksPost(boolean allowRestarting) {
try (Stream<IrisData> stream = allPacks()) {
boolean bad = stream
.map(data -> {
Iris.verbose("Checking Pack: " + data.getDataFolder().getPath());
var loader = data.getDimensionLoader();
return loader.loadAll(loader.getPossibleKeys())
.stream()
.filter(Objects::nonNull)
.map(ServerConfigurator::verifyDataPackInstalled)
.toList()
.contains(false);
})
.toList()
.contains(true);
if (!bad) return;
}
boolean bad = allPacks()
.map(data -> {
Iris.verbose("Checking Pack: " + data.getDataFolder().getPath());
var loader = data.getDimensionLoader();
return loader.loadAll(loader.getPossibleKeys())
.stream()
.map(ServerConfigurator::verifyDataPackInstalled)
.toList()
.contains(false);
})
.toList()
.contains(true);
if (!bad) return;
if (allowRestarting) {
@@ -223,11 +213,6 @@ public class ServerConfigurator {
}
}
if (INMS.get().missingDimensionTypes(dimension.getDimensionTypeKey())) {
Iris.warn("The Dimension Type for " + dimension.getLoadFile() + " is not registered on the server.");
warn = true;
}
if (warn) {
Iris.error("The Pack " + key + " is INCAPABLE of generating custom biomes");
Iris.error("If not done automatically, restart your server before generating with this pack!");
@@ -237,13 +222,9 @@ public class ServerConfigurator {
}
public static Stream<IrisData> allPacks() {
return Stream.concat(listFiles(Iris.instance.getDataFolder("packs")),
IrisWorlds.get().getFolders().map(w -> new File(w, "iris/pack")))
return Stream.concat(listFiles(new File("plugins/Iris/packs")),
listFiles(Bukkit.getWorldContainer()).map(w -> new File(w, "iris/pack")))
.filter(File::isDirectory)
.filter( base -> {
var content = new File(base, "dimensions").listFiles();
return content != null && content.length > 0;
})
.map(IrisData::get);
}
@@ -258,58 +239,49 @@ public class ServerConfigurator {
return path.substring(worldContainer.length(), path.length() - l);
}
@SneakyThrows
private static Stream<File> listFiles(File parent) {
if (!parent.isDirectory()) return Stream.empty();
return Files.walk(parent.toPath()).map(Path::toFile);
var files = parent.listFiles();
return files == null ? Stream.empty() : Arrays.stream(files);
}
@Data
public static class DimensionHeight {
private final IDataFixer fixer;
private final AtomicIntegerArray[] dimensions = new AtomicIntegerArray[3];
public DimensionHeight(IDataFixer fixer) {
this.fixer = fixer;
for (int i = 0; i < 3; i++) {
dimensions[i] = new AtomicIntegerArray(new int[]{
Integer.MAX_VALUE, Integer.MIN_VALUE, Integer.MIN_VALUE
});
}
}
private IrisRange overworld = new IrisRange();
private IrisRange nether = new IrisRange();
private IrisRange end = new IrisRange();
private int logicalOverworld = 0;
private int logicalNether = 0;
private int logicalEnd = 0;
public Stream<IrisDimension> merge(IrisData data) {
Iris.verbose("Checking Pack: " + data.getDataFolder().getPath());
var loader = data.getDimensionLoader();
return loader.loadAll(loader.getPossibleKeys())
.stream()
.filter(Objects::nonNull)
.peek(this::merge);
}
public void merge(IrisDimension dimension) {
AtomicIntegerArray array = dimensions[dimension.getBaseDimension().ordinal()];
array.updateAndGet(0, min -> Math.min(min, dimension.getMinHeight()));
array.updateAndGet(1, max -> Math.max(max, dimension.getMaxHeight()));
array.updateAndGet(2, logical -> Math.max(logical, dimension.getLogicalHeight()));
overworld.merge(dimension.getDimensionHeight());
nether.merge(dimension.getDimensionHeight());
end.merge(dimension.getDimensionHeight());
logicalOverworld = Math.max(logicalOverworld, dimension.getLogicalHeight());
logicalNether = Math.max(logicalNether, dimension.getLogicalHeightNether());
logicalEnd = Math.max(logicalEnd, dimension.getLogicalHeightEnd());
}
public String[] jsonStrings() {
var dims = IDataFixer.Dimension.values();
var arr = new String[3];
for (int i = 0; i < 3; i++) {
arr[i] = jsonString(dims[i]);
}
return arr;
public String overworldType() {
return fixer.createDimension(OVERRWORLD, overworld, logicalOverworld).toString(4);
}
public String jsonString(IDataFixer.Dimension dimension) {
var data = dimensions[dimension.ordinal()];
int minY = data.get(0);
int maxY = data.get(1);
int logicalHeight = data.get(2);
if (minY == Integer.MAX_VALUE || maxY == Integer.MIN_VALUE || Integer.MIN_VALUE == logicalHeight)
return null;
return fixer.createDimension(dimension, minY, maxY - minY, logicalHeight, null).toString(4);
public String netherType() {
return fixer.createDimension(NETHER, nether, logicalNether).toString(4);
}
public String endType() {
return fixer.createDimension(THE_END, end, logicalEnd).toString(4);
}
}
}
@@ -0,0 +1,134 @@
/*
* Iris is a World Generator for Minecraft Bukkit Servers
* Copyright (c) 2022 Arcane Arts (Volmit Software)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
package com.volmit.iris.core.commands;
import com.volmit.iris.Iris;
import com.volmit.iris.core.pregenerator.DeepSearchPregenerator;
import com.volmit.iris.core.pregenerator.PregenTask;
import com.volmit.iris.core.pregenerator.TurboPregenerator;
import com.volmit.iris.core.tools.IrisToolbelt;
import com.volmit.iris.util.data.Dimension;
import com.volmit.iris.util.decree.DecreeExecutor;
import com.volmit.iris.util.decree.annotations.Decree;
import com.volmit.iris.util.decree.annotations.Param;
import com.volmit.iris.util.format.C;
import com.volmit.iris.util.math.Position2;
import org.bukkit.Bukkit;
import org.bukkit.World;
import org.bukkit.util.Vector;
import java.io.File;
import java.io.IOException;
@Decree(name = "DeepSearch", aliases = "search", description = "Pregenerate your Iris worlds!")
public class CommandDeepSearch implements DecreeExecutor {
public String worldName;
@Decree(description = "DeepSearch a world")
public void start(
@Param(description = "The radius of the pregen in blocks", aliases = "size")
int radius,
@Param(description = "The world to pregen", contextual = true)
World world,
@Param(aliases = "middle", description = "The center location of the pregen. Use \"me\" for your current location", defaultValue = "0,0")
Vector center
) {
worldName = world.getName();
File worldDirectory = new File(Bukkit.getWorldContainer(), world.getName());
File TurboFile = new File(worldDirectory, "DeepSearch.json");
if (TurboFile.exists()) {
if (DeepSearchPregenerator.getInstance() != null) {
sender().sendMessage(C.BLUE + "DeepSearch is already in progress");
Iris.info(C.YELLOW + "DeepSearch is already in progress");
return;
} else {
try {
TurboFile.delete();
} catch (Exception e){
Iris.error("Failed to delete the old instance file of DeepSearch!");
return;
}
}
}
try {
if (sender().isPlayer() && access() == null) {
sender().sendMessage(C.RED + "The engine access for this world is null!");
sender().sendMessage(C.RED + "Please make sure the world is loaded & the engine is initialized. Generate a new chunk, for example.");
}
DeepSearchPregenerator.DeepSearchJob DeepSearchJob = DeepSearchPregenerator.DeepSearchJob.builder()
.world(world)
.radiusBlocks(radius)
.position(0)
.build();
File SearchGenFile = new File(worldDirectory, "DeepSearch.json");
DeepSearchPregenerator pregenerator = new DeepSearchPregenerator(DeepSearchJob, SearchGenFile);
pregenerator.start();
String msg = C.GREEN + "DeepSearch started in " + C.GOLD + worldName + C.GREEN + " of " + C.GOLD + (radius * 2) + C.GREEN + " by " + C.GOLD + (radius * 2) + C.GREEN + " blocks from " + C.GOLD + center.getX() + "," + center.getZ();
sender().sendMessage(msg);
Iris.info(msg);
} catch (Throwable e) {
sender().sendMessage(C.RED + "Epic fail. See console.");
Iris.reportError(e);
e.printStackTrace();
}
}
@Decree(description = "Stop the active DeepSearch task", aliases = "x")
public void stop(@Param(aliases = "world", description = "The world to pause") World world) throws IOException {
DeepSearchPregenerator DeepSearchInstance = DeepSearchPregenerator.getInstance();
File worldDirectory = new File(Bukkit.getWorldContainer(), world.getName());
File turboFile = new File(worldDirectory, "DeepSearch.json");
if (DeepSearchInstance != null) {
DeepSearchInstance.shutdownInstance(world);
sender().sendMessage(C.LIGHT_PURPLE + "Closed Turbogen instance for " + world.getName());
} else if (turboFile.exists() && turboFile.delete()) {
sender().sendMessage(C.LIGHT_PURPLE + "Closed Turbogen instance for " + world.getName());
} else if (turboFile.exists()) {
Iris.error("Failed to delete the old instance file of Turbo Pregen!");
} else {
sender().sendMessage(C.YELLOW + "No active pregeneration tasks to stop");
}
}
@Decree(description = "Pause / continue the active pregeneration task", aliases = {"t", "resume", "unpause"})
public void pause(
@Param(aliases = "world", description = "The world to pause")
World world
) {
if (TurboPregenerator.getInstance() != null) {
TurboPregenerator.setPausedTurbo(world);
sender().sendMessage(C.GREEN + "Paused/unpaused Turbo Pregen, now: " + (TurboPregenerator.isPausedTurbo(world) ? "Paused" : "Running") + ".");
} else {
File worldDirectory = new File(Bukkit.getWorldContainer(), world.getName());
File TurboFile = new File(worldDirectory, "DeepSearch.json");
if (TurboFile.exists()){
TurboPregenerator.loadTurboGenerator(world.getName());
sender().sendMessage(C.YELLOW + "Started DeepSearch back up!");
} else {
sender().sendMessage(C.YELLOW + "No active DeepSearch tasks to pause/unpause.");
}
}
}
}
@@ -20,13 +20,16 @@ package com.volmit.iris.core.commands;
import com.volmit.iris.Iris;
import com.volmit.iris.core.ServerConfigurator;
import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.core.nms.datapack.DataVersion;
import com.volmit.iris.core.pregenerator.PregenTask;
import com.volmit.iris.core.pregenerator.methods.HeadlessPregenMethod;
import com.volmit.iris.core.service.IrisEngineSVC;
import com.volmit.iris.core.tools.IrisPackBenchmarking;
import com.volmit.iris.core.tools.IrisToolbelt;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.engine.object.IrisDimension;
import com.volmit.iris.util.context.IrisContext;
import com.volmit.iris.engine.platform.PlatformChunkGenerator;
import com.volmit.iris.util.decree.DecreeExecutor;
import com.volmit.iris.util.decree.DecreeOrigin;
import com.volmit.iris.util.decree.annotations.Decree;
@@ -36,7 +39,7 @@ import com.volmit.iris.util.format.Form;
import com.volmit.iris.util.io.CountingDataInputStream;
import com.volmit.iris.util.io.IO;
import com.volmit.iris.util.mantle.TectonicPlate;
import com.volmit.iris.util.math.M;
import com.volmit.iris.util.math.Position2;
import com.volmit.iris.util.nbt.mca.MCAFile;
import com.volmit.iris.util.nbt.mca.MCAUtil;
import com.volmit.iris.util.parallel.MultiBurst;
@@ -49,6 +52,7 @@ import org.apache.commons.lang.RandomStringUtils;
import org.bukkit.Bukkit;
import org.bukkit.Chunk;
import org.bukkit.World;
import org.bukkit.util.Vector;
import java.io.*;
import java.net.InetAddress;
@@ -63,56 +67,57 @@ import java.util.zip.GZIPOutputStream;
@Decree(name = "Developer", origin = DecreeOrigin.BOTH, description = "Iris World Manager", aliases = {"dev"})
public class CommandDeveloper implements DecreeExecutor {
private CommandTurboPregen turboPregen;
private CommandLazyPregen lazyPregen;
private CommandUpdater updater;
@Decree(description = "Get Loaded TectonicPlates Count", origin = DecreeOrigin.BOTH, sync = true)
public void EngineStatus() {
Iris.service(IrisEngineSVC.class)
.engineStatus(sender());
}
List<World> IrisWorlds = new ArrayList<>();
int TotalLoadedChunks = 0;
int TotalQueuedTectonicPlates = 0;
int TotalNotQueuedTectonicPlates = 0;
int TotalTectonicPlates = 0;
@Decree(description = "Send a test exception to sentry")
public void Sentry() {
Engine engine = engine();
if (engine != null) IrisContext.getOr(engine);
Iris.reportError(new Exception("This is a test"));
}
long lowestUnloadDuration = 0;
long highestUnloadDuration = 0;
@Decree(description = "Test")
public void dumpThreads() {
try {
File fi = Iris.instance.getDataFile("dump", "td-" + new java.sql.Date(M.ms()) + ".txt");
FileOutputStream fos = new FileOutputStream(fi);
Map<Thread, StackTraceElement[]> f = Thread.getAllStackTraces();
PrintWriter pw = new PrintWriter(fos);
pw.println(Thread.activeCount() + "/" + f.size());
var run = Runtime.getRuntime();
pw.println("Memory:");
pw.println("\tMax: " + run.maxMemory());
pw.println("\tTotal: " + run.totalMemory());
pw.println("\tFree: " + run.freeMemory());
pw.println("\tUsed: " + (run.totalMemory() - run.freeMemory()));
for (Thread i : f.keySet()) {
pw.println("========================================");
pw.println("Thread: '" + i.getName() + "' ID: " + i.getId() + " STATUS: " + i.getState().name());
for (StackTraceElement j : f.get(i)) {
pw.println(" @ " + j.toString());
for (World world : Bukkit.getWorlds()) {
try {
if (IrisToolbelt.access(world).getEngine() != null) {
IrisWorlds.add(world);
}
pw.println("========================================");
pw.println();
pw.println();
} catch (Exception e) {
// no
}
pw.close();
Iris.info("DUMPED! See " + fi.getAbsolutePath());
} catch (Throwable e) {
e.printStackTrace();
}
for (World world : IrisWorlds) {
Engine engine = IrisToolbelt.access(world).getEngine();
TotalQueuedTectonicPlates += (int) engine.getMantle().getToUnload();
TotalNotQueuedTectonicPlates += (int) engine.getMantle().getNotQueuedLoadedRegions();
TotalTectonicPlates += engine.getMantle().getLoadedRegionCount();
if (highestUnloadDuration <= (long) engine.getMantle().getTectonicDuration()) {
highestUnloadDuration = (long) engine.getMantle().getTectonicDuration();
}
if (lowestUnloadDuration >= (long) engine.getMantle().getTectonicDuration()) {
lowestUnloadDuration = (long) engine.getMantle().getTectonicDuration();
}
for (Chunk chunk : world.getLoadedChunks()) {
if (chunk.isLoaded()) {
TotalLoadedChunks++;
}
}
}
Iris.info("-------------------------");
Iris.info(C.DARK_PURPLE + "Engine Status");
Iris.info(C.DARK_PURPLE + "Total Loaded Chunks: " + C.LIGHT_PURPLE + TotalLoadedChunks);
Iris.info(C.DARK_PURPLE + "Tectonic Limit: " + C.LIGHT_PURPLE + IrisEngineSVC.getTectonicLimit());
Iris.info(C.DARK_PURPLE + "Tectonic Total Plates: " + C.LIGHT_PURPLE + TotalTectonicPlates);
Iris.info(C.DARK_PURPLE + "Tectonic Active Plates: " + C.LIGHT_PURPLE + TotalNotQueuedTectonicPlates);
Iris.info(C.DARK_PURPLE + "Tectonic ToUnload: " + C.LIGHT_PURPLE + TotalQueuedTectonicPlates);
Iris.info(C.DARK_PURPLE + "Lowest Tectonic Unload Duration: " + C.LIGHT_PURPLE + Form.duration(lowestUnloadDuration));
Iris.info(C.DARK_PURPLE + "Highest Tectonic Unload Duration: " + C.LIGHT_PURPLE + Form.duration(highestUnloadDuration));
Iris.info(C.DARK_PURPLE + "Cache Size: " + C.LIGHT_PURPLE + Form.f(IrisData.cacheSize()));
Iris.info("-------------------------");
}
@Decree(description = "Test")
@@ -128,7 +133,7 @@ public class CommandDeveloper implements DecreeExecutor {
File tectonicplates = new File(folder, "mantle");
for (File i : Objects.requireNonNull(tectonicplates.listFiles())) {
TectonicPlate.read(maxHeight, i, true);
TectonicPlate.read(maxHeight, i);
c++;
Iris.info("Loaded count: " + c );
@@ -140,12 +145,16 @@ public class CommandDeveloper implements DecreeExecutor {
public void packBenchmark(
@Param(description = "The pack to bench", aliases = {"pack"}, defaultValue = "overworld")
IrisDimension dimension,
@Param(description = "Radius in regions", defaultValue = "2048")
int radius,
@Param(description = "Diameter in regions", defaultValue = "2048")
int diameter,
@Param(description = "Headless", defaultValue = "true")
boolean headless,
@Param(description = "Open GUI while benchmarking", defaultValue = "false")
boolean gui
) {
new IrisPackBenchmarking(dimension, radius, gui);
int rb = diameter << 9;
Iris.info("Benchmarking pack " + dimension.getName() + " with diameter: " + rb + "(" + diameter + ")");
new IrisPackBenchmarking(dimension, diameter, headless, gui);
}
@Decree(description = "Upgrade to another Minecraft version")
@@ -213,6 +222,42 @@ public class CommandDeveloper implements DecreeExecutor {
sender.sendMessage(C.RED + "Failed to load " + failed.get() + " of " + keys.length + " objects");
}
@Decree(description = "Pregenerate a world")
public void headless(
@Param(description = "The radius of the pregen in blocks", aliases = "size")
int radius,
@Param(description = "The world to pregen", contextual = true)
World world,
@Param(aliases = "middle", description = "The center location of the pregen. Use \"me\" for your current location", defaultValue = "0,0")
Vector center
) {
try {
var engine = Optional.ofNullable(IrisToolbelt.access(world))
.map(PlatformChunkGenerator::getEngine)
.orElse(null);
if (engine == null) {
sender().sendMessage(C.RED + "The engine access for this world is null!");
sender().sendMessage(C.RED + "Please make sure the world is loaded & the engine is initialized. Generate a new chunk, for example.");
}
radius = Math.max(radius, 1024);
IrisToolbelt.pregenerate(PregenTask
.builder()
.center(new Position2(center.getBlockX(), center.getBlockZ()))
.gui(true)
.radiusX(radius)
.radiusZ(radius)
.build(), new HeadlessPregenMethod(engine), engine);
String msg = C.GREEN + "Headless Pregen started in " + C.GOLD + world.getName() + C.GREEN + " of " + C.GOLD + (radius * 2) + C.GREEN + " by " + C.GOLD + (radius * 2) + C.GREEN + " blocks from " + C.GOLD + center.getX() + "," + center.getZ();
sender().sendMessage(msg);
Iris.info(msg);
} catch (Throwable e) {
sender().sendMessage(C.RED + "Epic fail. See console.");
Iris.reportError(e);
e.printStackTrace();
}
}
@Decree(description = "Test", aliases = {"ip"})
public void network() {
try {
@@ -234,8 +279,7 @@ public class CommandDeveloper implements DecreeExecutor {
@Param(description = "base IrisWorld") World world,
@Param(description = "raw TectonicPlate File") String path,
@Param(description = "Algorithm to Test") String algorithm,
@Param(description = "Amount of Tests") int amount,
@Param(description = "Is versioned", defaultValue = "false") boolean versioned) {
@Param(description = "Amount of Tests") int amount) {
if (!IrisToolbelt.isIrisWorld(world)) {
sender().sendMessage(C.RED + "This is not an Iris world. Iris worlds: " + String.join(", ", Bukkit.getServer().getWorlds().stream().filter(IrisToolbelt::isIrisWorld).map(World::getName).toList()));
return;
@@ -252,7 +296,7 @@ public class CommandDeveloper implements DecreeExecutor {
service.submit(() -> {
try {
CountingDataInputStream raw = CountingDataInputStream.wrap(new FileInputStream(file));
TectonicPlate plate = new TectonicPlate(height, raw, versioned);
TectonicPlate plate = new TectonicPlate(height, raw);
raw.close();
double d1 = 0;
@@ -271,7 +315,7 @@ public class CommandDeveloper implements DecreeExecutor {
size = tmp.length();
start = System.currentTimeMillis();
CountingDataInputStream din = createInput(tmp, algorithm);
new TectonicPlate(height, din, true);
new TectonicPlate(height, din);
din.close();
d2 += System.currentTimeMillis() - start;
tmp.delete();
File diff suppressed because it is too large Load Diff
@@ -241,8 +241,7 @@ public class CommandObject implements DecreeExecutor {
Location[] b = WandSVC.getCuboid(player());
if (b == null || b[0] == null || b[1] == null) {
sender().sendMessage("No area selected.");
if (b == null) {
return;
}
Location a1 = b[0].clone();
@@ -418,10 +417,6 @@ public class CommandObject implements DecreeExecutor {
}
Location[] b = WandSVC.getCuboid(player());
if (b == null || b[0] == null || b[1] == null) {
sender().sendMessage("No area selected.");
return;
}
Location a1 = b[0].clone();
Location a2 = b[1].clone();
Direction d = Direction.closest(player().getLocation().getDirection()).reverse();
@@ -482,10 +477,6 @@ public class CommandObject implements DecreeExecutor {
}
Location[] b = WandSVC.getCuboid(player());
if (b == null || b[0] == null || b[1] == null) {
sender().sendMessage("No area selected.");
return;
}
Location a1 = b[0].clone();
Location a2 = b[1].clone();
Location a1x = b[0].clone();
@@ -533,10 +524,6 @@ public class CommandObject implements DecreeExecutor {
}
Location[] b = WandSVC.getCuboid(player());
if (b == null || b[0] == null || b[1] == null) {
sender().sendMessage("No area selected.");
return;
}
b[0].add(new Vector(0, 1, 0));
b[1].add(new Vector(0, 1, 0));
Location a1 = b[0].clone();
@@ -39,9 +39,7 @@ public class CommandPregen implements DecreeExecutor {
@Param(description = "The world to pregen", contextual = true)
World world,
@Param(aliases = "middle", description = "The center location of the pregen. Use \"me\" for your current location", defaultValue = "0,0")
Vector center,
@Param(description = "Open the Iris pregen gui", defaultValue = "true")
boolean gui
Vector center
) {
try {
if (sender().isPlayer() && access() == null) {
@@ -52,7 +50,7 @@ public class CommandPregen implements DecreeExecutor {
IrisToolbelt.pregenerate(PregenTask
.builder()
.center(new Position2(center.getBlockX(), center.getBlockZ()))
.gui(gui)
.gui(true)
.radiusX(radius)
.radiusZ(radius)
.build(), world);
@@ -0,0 +1,82 @@
/*
* Iris is a World Generator for Minecraft Bukkit Servers
* Copyright (c) 2022 Arcane Arts (Volmit Software)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
package com.volmit.iris.core.commands;
import com.volmit.iris.Iris;
import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.core.pregenerator.ChunkUpdater;
import com.volmit.iris.core.service.IrisEngineSVC;
import com.volmit.iris.core.tools.IrisPackBenchmarking;
import com.volmit.iris.core.tools.IrisToolbelt;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.engine.object.IrisDimension;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.decree.DecreeExecutor;
import com.volmit.iris.util.decree.DecreeOrigin;
import com.volmit.iris.util.decree.annotations.Decree;
import com.volmit.iris.util.decree.annotations.Param;
import com.volmit.iris.util.format.C;
import com.volmit.iris.util.format.Form;
import com.volmit.iris.util.io.IO;
import com.volmit.iris.util.mantle.TectonicPlate;
import com.volmit.iris.util.misc.Hastebin;
import com.volmit.iris.util.misc.Platform;
import com.volmit.iris.util.misc.getHardware;
import com.volmit.iris.util.nbt.mca.MCAFile;
import com.volmit.iris.util.nbt.mca.MCAUtil;
import com.volmit.iris.util.plugin.VolmitSender;
import net.jpountz.lz4.LZ4BlockInputStream;
import net.jpountz.lz4.LZ4BlockOutputStream;
import net.jpountz.lz4.LZ4FrameInputStream;
import net.jpountz.lz4.LZ4FrameOutputStream;
import org.apache.commons.lang.RandomStringUtils;
import org.bukkit.Bukkit;
import org.bukkit.Chunk;
import org.bukkit.World;
import oshi.SystemInfo;
import java.io.*;
import java.net.InetAddress;
import java.net.NetworkInterface;
import java.util.*;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.zip.GZIPInputStream;
import java.util.zip.GZIPOutputStream;
@Decree(name = "Support", origin = DecreeOrigin.BOTH, description = "Iris World Manager", aliases = {"support"})
public class CommandSupport implements DecreeExecutor {
@Decree(description = "report")
public void report() {
try {
if (sender().isPlayer()) sender().sendMessage(C.GOLD + "Creating report..");
if (!sender().isPlayer()) Iris.info(C.GOLD + "Creating report..");
Hastebin.enviornment(sender());
} catch (Exception e) {
Iris.info(C.RED + "Something went wrong: ");
e.printStackTrace();
}
}
}
@@ -40,10 +40,7 @@ import java.awt.*;
import java.awt.event.KeyEvent;
import java.awt.event.KeyListener;
import java.awt.image.BufferedImage;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicReference;
import java.util.concurrent.locks.ReentrantLock;
import java.util.function.Consumer;
@@ -56,7 +53,7 @@ public class PregeneratorJob implements PregenListener {
private static final Color COLOR_NETWORK_GENERATING = parseColor("#836b8c");
private static final Color COLOR_GENERATED = parseColor("#65c295");
private static final Color COLOR_CLEANED = parseColor("#34eb93");
private static final AtomicReference<PregeneratorJob> instance = new AtomicReference<>();
public static PregeneratorJob instance;
private final MemoryMonitor monitor;
private final PregenTask task;
private final boolean saving;
@@ -67,21 +64,14 @@ public class PregeneratorJob implements PregenListener {
private final Position2 max;
private final ChronoLatch cl = new ChronoLatch(TimeUnit.MINUTES.toMillis(1));
private final Engine engine;
private final ExecutorService service;
private JFrame frame;
private PregenRenderer renderer;
private int rgc = 0;
private String[] info;
public PregeneratorJob(PregenTask task, PregeneratorMethod method, Engine engine) {
instance.updateAndGet(old -> {
if (old != null) {
old.pregenerator.close();
old.close();
}
return this;
});
this.engine = engine;
instance = this;
monitor = new MemoryMonitor(50);
saving = false;
info = new String[]{"Initializing..."};
@@ -106,44 +96,40 @@ public class PregeneratorJob implements PregenListener {
}, "Iris Pregenerator");
t.setPriority(Thread.MIN_PRIORITY);
t.start();
service = Executors.newVirtualThreadPerTaskExecutor();
}
public static boolean shutdownInstance() {
PregeneratorJob inst = instance.get();
if (inst == null) {
if (instance == null) {
return false;
}
J.a(inst.pregenerator::close);
J.a(() -> instance.pregenerator.close());
return true;
}
public static PregeneratorJob getInstance() {
return instance.get();
return instance;
}
public static boolean pauseResume() {
PregeneratorJob inst = instance.get();
if (inst == null) {
if (instance == null) {
return false;
}
if (isPaused()) {
inst.pregenerator.resume();
instance.pregenerator.resume();
} else {
inst.pregenerator.pause();
instance.pregenerator.pause();
}
return true;
}
public static boolean isPaused() {
PregeneratorJob inst = instance.get();
if (inst == null) {
if (instance == null) {
return true;
}
return inst.paused();
return instance.paused();
}
private static Color parseColor(String c) {
@@ -193,7 +179,7 @@ public class PregeneratorJob implements PregenListener {
J.a(() -> {
pregenerator.close();
close();
instance.compareAndSet(this, null);
instance = null;
});
}
@@ -233,10 +219,10 @@ public class PregeneratorJob implements PregenListener {
}
@Override
public void onTick(double chunksPerSecond, double chunksPerMinute, double regionsPerMinute, double percent, long generated, long totalChunks, long chunksRemaining, long eta, long elapsed, String method, boolean cached) {
public void onTick(double chunksPerSecond, double chunksPerMinute, double regionsPerMinute, double percent, int generated, int totalChunks, int chunksRemaining, long eta, long elapsed, String method) {
info = new String[]{
(paused() ? "PAUSED" : (saving ? "Saving... " : "Generating")) + " " + Form.f(generated) + " of " + Form.f(totalChunks) + " (" + Form.pc(percent, 0) + " Complete)",
"Speed: " + (cached ? "Cached " : "") + Form.f(chunksPerSecond, 0) + " Chunks/s, " + Form.f(regionsPerMinute, 1) + " Regions/m, " + Form.f(chunksPerMinute, 0) + " Chunks/m",
"Speed: " + Form.f(chunksPerSecond, 0) + " Chunks/s, " + Form.f(regionsPerMinute, 1) + " Regions/m, " + Form.f(chunksPerMinute, 0) + " Chunks/m",
Form.duration(eta, 2) + " Remaining " + " (" + Form.duration(elapsed, 2) + " Elapsed)",
"Generation Method: " + method,
"Memory: " + Form.memSize(monitor.getUsedBytes(), 2) + " (" + Form.pc(monitor.getUsagePercent(), 0) + ") Pressure: " + Form.memSize(monitor.getPressure(), 0) + "/s",
@@ -254,16 +240,13 @@ public class PregeneratorJob implements PregenListener {
}
@Override
public void onChunkGenerated(int x, int z, boolean cached) {
if (renderer == null || frame == null || !frame.isVisible()) return;
service.submit(() -> {
if (engine != null) {
draw(x, z, engine.draw((x << 4) + 8, (z << 4) + 8));
return;
}
public void onChunkGenerated(int x, int z) {
if (engine != null) {
draw(x, z, engine.draw((x << 4) + 8, (z << 4) + 8));
return;
}
draw(x, z, COLOR_GENERATED);
});
draw(x, z, COLOR_GENERATED);
}
@Override
@@ -321,9 +304,8 @@ public class PregeneratorJob implements PregenListener {
@Override
public void onClose() {
close();
instance.compareAndSet(this, null);
instance = null;
whenDone.forEach(Runnable::run);
service.shutdownNow();
}
@Override
@@ -1,88 +0,0 @@
package com.volmit.iris.core.link;
import com.volmit.iris.core.service.ExternalDataSVC;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.data.B;
import com.volmit.iris.util.data.IrisCustomData;
import me.kryniowesegryderiusz.kgenerators.Main;
import me.kryniowesegryderiusz.kgenerators.api.KGeneratorsAPI;
import me.kryniowesegryderiusz.kgenerators.generators.locations.objects.GeneratorLocation;
import org.bukkit.Material;
import org.bukkit.block.Block;
import org.bukkit.block.data.BlockData;
import org.bukkit.inventory.ItemStack;
import org.jetbrains.annotations.NotNull;
import java.util.MissingResourceException;
public class KGeneratorsDataProvider extends ExternalDataProvider {
public KGeneratorsDataProvider() {
super("KGenerators");
}
@Override
public void init() {
}
@Override
public @NotNull BlockData getBlockData(@NotNull Identifier blockId, @NotNull KMap<String, String> state) throws MissingResourceException {
if (Main.getGenerators().get(blockId.key()) == null) throw new MissingResourceException("Failed to find BlockData!", blockId.namespace(), blockId.key());
return new IrisCustomData(Material.STRUCTURE_VOID.createBlockData(), ExternalDataSVC.buildState(blockId, state));
}
@Override
public @NotNull ItemStack getItemStack(@NotNull Identifier itemId, @NotNull KMap<String, Object> customNbt) throws MissingResourceException {
var gen = Main.getGenerators().get(itemId.key());
if (gen == null) throw new MissingResourceException("Failed to find ItemData!", itemId.namespace(), itemId.key());
return gen.getGeneratorItem();
}
@Override
public void processUpdate(@NotNull Engine engine, @NotNull Block block, @NotNull Identifier blockId) {
if (block.getType() != Material.STRUCTURE_VOID) return;
var existing = KGeneratorsAPI.getLoadedGeneratorLocation(block.getLocation());
if (existing != null) return;
block.setBlockData(B.getAir(), false);
var gen = Main.getGenerators().get(blockId.key());
if (gen == null) return;
var loc = new GeneratorLocation(-1, gen, block.getLocation(), Main.getPlacedGenerators().getChunkInfo(block.getChunk()), null, null);
Main.getDatabases().getDb().saveGenerator(loc);
Main.getPlacedGenerators().addLoaded(loc);
Main.getSchedules().schedule(loc, true);
}
@Override
public @NotNull Identifier[] getBlockTypes() {
return Main.getGenerators().getAll().stream()
.map(gen -> new Identifier("kgenerators", gen.getId()))
.filter(i -> {
try {
return getBlockData(i) != null;
} catch (MissingResourceException e) {
return false;
}
})
.toArray(Identifier[]::new);
}
@Override
public @NotNull Identifier[] getItemTypes() {
return Main.getGenerators().getAll().stream()
.map(gen -> new Identifier("kgenerators", gen.getId()))
.filter(i -> {
try {
return getItemStack(i) != null;
} catch (MissingResourceException e) {
return false;
}
})
.toArray(Identifier[]::new);
}
@Override
public boolean isValidProvider(@NotNull Identifier id, boolean isItem) {
return "kgenerators".equalsIgnoreCase(id.namespace());
}
}
@@ -18,60 +18,126 @@
package com.volmit.iris.core.link;
import lombok.SneakyThrows;
import com.volmit.iris.Iris;
import com.volmit.iris.engine.object.IrisDimension;
import com.volmit.iris.util.collection.KMap;
import org.bukkit.Bukkit;
import org.bukkit.World;
import org.mvplugins.multiverse.core.MultiverseCoreApi;
import org.mvplugins.multiverse.core.world.MultiverseWorld;
import org.mvplugins.multiverse.core.world.WorldManager;
import org.mvplugins.multiverse.core.world.options.ImportWorldOptions;
import org.bukkit.WorldType;
import org.bukkit.plugin.Plugin;
import java.lang.reflect.Field;
import java.lang.reflect.Method;
import java.util.Map;
public class MultiverseCoreLink {
private final boolean active;
private final KMap<String, String> worldNameTypes = new KMap<>();
public MultiverseCoreLink() {
active = Bukkit.getPluginManager().getPlugin("Multiverse-Core") != null;
}
public boolean addWorld(String worldName, IrisDimension dim, String seed) {
if (!isSupported()) {
return false;
}
try {
Plugin p = getMultiverse();
Object mvWorldManager = p.getClass().getDeclaredMethod("getMVWorldManager").invoke(p);
Method m = mvWorldManager.getClass().getDeclaredMethod("addWorld",
String.class, World.Environment.class, String.class, WorldType.class, Boolean.class, String.class, boolean.class);
boolean b = (boolean) m.invoke(mvWorldManager, worldName, dim.getEnvironment(), seed, WorldType.NORMAL, false, "Iris", false);
saveConfig();
return b;
} catch (Throwable e) {
Iris.reportError(e);
e.printStackTrace();
}
return false;
}
@SuppressWarnings("unchecked")
public Map<String, ?> getList() {
try {
Plugin p = getMultiverse();
Object mvWorldManager = p.getClass().getDeclaredMethod("getMVWorldManager").invoke(p);
Field f = mvWorldManager.getClass().getDeclaredField("worldsFromTheConfig");
f.setAccessible(true);
return (Map<String, ?>) f.get(mvWorldManager);
} catch (Throwable e) {
Iris.reportError(e);
e.printStackTrace();
}
return null;
}
public void removeFromConfig(World world) {
removeFromConfig(world.getName());
if (!isSupported()) {
return;
}
getList().remove(world.getName());
saveConfig();
}
public void removeFromConfig(String world) {
if (!active) return;
var manager = worldManager();
manager.removeWorld(world).onSuccess(manager::saveWorldsConfig);
}
@SneakyThrows
public void updateWorld(World bukkitWorld, String pack) {
if (!active) return;
var generator = "Iris:" + pack;
var manager = worldManager();
var world = manager.getWorld(bukkitWorld).getOrElse(() -> {
var options = ImportWorldOptions.worldName(bukkitWorld.getName())
.generator(generator)
.environment(bukkitWorld.getEnvironment())
.useSpawnAdjust(false);
return manager.importWorld(options).get();
});
world.setAutoLoad(false);
if (!generator.equals(world.getGenerator())) {
var field = MultiverseWorld.class.getDeclaredField("worldConfig");
field.setAccessible(true);
var config = field.get(world);
config.getClass()
.getDeclaredMethod("setGenerator", String.class)
.invoke(config, generator);
if (!isSupported()) {
return;
}
manager.saveWorldsConfig();
getList().remove(world);
saveConfig();
}
private WorldManager worldManager() {
var api = MultiverseCoreApi.get();
return api.getWorldManager();
public void saveConfig() {
try {
Plugin p = getMultiverse();
Object mvWorldManager = p.getClass().getDeclaredMethod("getMVWorldManager").invoke(p);
mvWorldManager.getClass().getDeclaredMethod("saveWorldsConfig").invoke(mvWorldManager);
} catch (Throwable e) {
Iris.reportError(e);
e.printStackTrace();
}
}
public void assignWorldType(String worldName, String type) {
worldNameTypes.put(worldName, type);
}
public String getWorldNameType(String worldName, String defaultType) {
try {
String t = worldNameTypes.get(worldName);
return t == null ? defaultType : t;
} catch (Throwable e) {
Iris.reportError(e);
return defaultType;
}
}
public boolean isSupported() {
return getMultiverse() != null;
}
public Plugin getMultiverse() {
return Bukkit.getPluginManager().getPlugin("Multiverse-Core");
}
public String envName(World.Environment environment) {
if (environment == null) {
return "normal";
}
return switch (environment) {
case NORMAL -> "normal";
case NETHER -> "nether";
case THE_END -> "end";
default -> environment.toString().toLowerCase();
};
}
}
@@ -18,33 +18,20 @@
package com.volmit.iris.core.link;
import com.google.common.collect.Sets;
import com.volmit.iris.Iris;
import com.volmit.iris.core.tools.IrisToolbelt;
import io.lumine.mythic.api.adapters.AbstractLocation;
import io.lumine.mythic.api.config.MythicLineConfig;
import io.lumine.mythic.api.skills.conditions.ILocationCondition;
import io.lumine.mythic.bukkit.MythicBukkit;
import io.lumine.mythic.bukkit.adapters.BukkitWorld;
import io.lumine.mythic.bukkit.events.MythicConditionLoadEvent;
import io.lumine.mythic.core.skills.SkillCondition;
import io.lumine.mythic.core.utils.annotations.MythicCondition;
import io.lumine.mythic.core.utils.annotations.MythicField;
import org.bukkit.Bukkit;
import org.bukkit.Location;
import org.bukkit.entity.Entity;
import org.bukkit.event.EventHandler;
import org.bukkit.event.Listener;
import org.bukkit.plugin.Plugin;
import javax.annotation.Nullable;
import java.util.*;
import java.util.Collection;
import java.util.List;
public class MythicMobsLink {
public MythicMobsLink() {
if (getPlugin() == null) return;
Iris.instance.registerListener(new ConditionListener());
}
public boolean isEnabled() {
@@ -62,70 +49,12 @@ public class MythicMobsLink {
* @param location The location
* @return The mob, or null if it can't be spawned
*/
public @Nullable Entity spawnMob(String mob, Location location) {
public @Nullable
Entity spawnMob(String mob, Location location) {
return isEnabled() ? MythicBukkit.inst().getMobManager().spawnMob(mob, location).getEntity().getBukkitEntity() : null;
}
public Collection<String> getMythicMobTypes() {
return isEnabled() ? MythicBukkit.inst().getMobManager().getMobNames() : List.of();
}
private static class ConditionListener implements Listener {
@EventHandler
public void on(MythicConditionLoadEvent event) {
switch (event.getConditionName()) {
case "irisbiome" -> event.register(new IrisBiomeCondition(event.getConditionName(), event.getConfig()));
case "irisregion" -> event.register(new IrisRegionCondition(event.getConditionName(), event.getConfig()));
}
}
}
@MythicCondition(author = "CrazyDev22", name = "irisbiome", description = "Tests if the target is within the given list of biomes")
public static class IrisBiomeCondition extends SkillCondition implements ILocationCondition {
@MythicField(name = "biome", aliases = {"b"}, description = "A list of biomes to check")
private Set<String> biomes = Sets.newConcurrentHashSet();
@MythicField(name = "surface", aliases = {"s"}, description = "If the biome check should only be performed on the surface")
private boolean surface;
public IrisBiomeCondition(String line, MythicLineConfig mlc) {
super(line);
String b = mlc.getString(new String[]{"biome", "b"}, "");
biomes.addAll(Arrays.asList(b.split(",")));
surface = mlc.getBoolean(new String[]{"surface", "s"}, false);
}
@Override
public boolean check(AbstractLocation target) {
var access = IrisToolbelt.access(((BukkitWorld) target.getWorld()).getBukkitWorld());
if (access == null) return false;
var engine = access.getEngine();
if (engine == null) return false;
var biome = surface ?
engine.getSurfaceBiome(target.getBlockX(), target.getBlockZ()) :
engine.getBiomeOrMantle(target.getBlockX(), target.getBlockY() - engine.getMinHeight(), target.getBlockZ());
return biomes.contains(biome.getLoadKey());
}
}
@MythicCondition(author = "CrazyDev22", name = "irisbiome", description = "Tests if the target is within the given list of biomes")
public static class IrisRegionCondition extends SkillCondition implements ILocationCondition {
@MythicField(name = "region", aliases = {"r"}, description = "A list of regions to check")
private Set<String> regions = Sets.newConcurrentHashSet();
public IrisRegionCondition(String line, MythicLineConfig mlc) {
super(line);
String b = mlc.getString(new String[]{"region", "r"}, "");
regions.addAll(Arrays.asList(b.split(",")));
}
@Override
public boolean check(AbstractLocation target) {
var access = IrisToolbelt.access(((BukkitWorld) target.getWorld()).getBukkitWorld());
if (access == null) return false;
var engine = access.getEngine();
if (engine == null) return false;
var region = engine.getRegion(target.getBlockX(), target.getBlockZ());
return regions.contains(region.getLoadKey());
}
}
}
@@ -47,7 +47,6 @@ public class WorldEditLink {
} catch (Throwable e) {
Iris.error("Could not get selection");
e.printStackTrace();
Iris.reportError(e);
active.reset();
active.aquire(() -> false);
}
@@ -44,8 +44,6 @@ import lombok.Data;
import java.io.File;
import java.io.FileReader;
import java.io.IOException;
import java.nio.file.Files;
import java.nio.file.Path;
import java.util.Objects;
import java.util.function.Function;
@@ -302,7 +300,6 @@ public class IrisData implements ExclusionStrategy, TypeAdapterFactory {
return r;
} catch (Throwable e) {
Iris.reportError(e);
e.printStackTrace();
Iris.error("Failed to create loader! " + registrant.getCanonicalName());
}
@@ -363,7 +360,6 @@ public class IrisData implements ExclusionStrategy, TypeAdapterFactory {
for (ResourceLoader<?> i : loaders.values()) {
i.clearList();
}
possibleSnippets.clear();
}
public String toLoadKey(File f) {
@@ -430,7 +426,8 @@ public class IrisData implements ExclusionStrategy, TypeAdapterFactory {
File f = new File(getDataFolder(), r + ".json");
if (f.exists()) {
try (JsonReader snippetReader = new JsonReader(new FileReader(f))){
try {
JsonReader snippetReader = new JsonReader(new FileReader(f));
return adapter.read(snippetReader);
} catch (Throwable e) {
Iris.error("Couldn't read snippet " + r + " in " + reader.getPath() + " (" + e.getMessage() + ")");
@@ -464,20 +461,11 @@ public class IrisData implements ExclusionStrategy, TypeAdapterFactory {
KList<String> l = new KList<>();
File snippetFolder = new File(getDataFolder(), "snippet/" + f);
if (!snippetFolder.exists()) return l;
String absPath = snippetFolder.getAbsolutePath();
try (var stream = Files.walk(snippetFolder.toPath())) {
stream.filter(Files::isRegularFile)
.map(Path::toAbsolutePath)
.map(Path::toString)
.filter(s -> s.endsWith(".json"))
.map(s -> s.substring(absPath.length() + 1))
.map(s -> s.replace("\\", "/"))
.map(s -> s.split("\\Q.\\E")[0])
.forEach(s -> l.add("snippet/" + f + "/" + s));
} catch (Throwable e) {
e.printStackTrace();
if (snippetFolder.exists() && snippetFolder.isDirectory()) {
for (File i : snippetFolder.listFiles()) {
l.add("snippet/" + f + "/" + i.getName().split("\\Q.\\E")[0]);
}
}
return l;
@@ -45,7 +45,6 @@ import lombok.ToString;
import java.io.*;
import java.util.Locale;
import java.util.Objects;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicReference;
import java.util.function.Consumer;
@@ -241,10 +240,8 @@ public class ResourceLoader<T extends IrisRegistrant> implements MeteredCache {
for (String i : s) {
burst.queue(() -> {
T t = load(i);
if (t == null)
return;
synchronized (m) {
if (t != null) {
m.add(t);
}
});
@@ -34,13 +34,9 @@ public class INMS {
"1.21.1", "v1_21_R1",
"1.21.2", "v1_21_R2",
"1.21.3", "v1_21_R2",
"1.21.4", "v1_21_R3",
"1.21.5", "v1_21_R4",
"1.21.6", "v1_21_R5",
"1.21.7", "v1_21_R5"
"1.21.4", "v1_21_R3"
);
private static final List<Version> PACKS = List.of(
new Version(21, 5, "31100"),
new Version(21, 4, "31020"),
new Version(21, 2, "31000"),
new Version(20, 1, "3910")
@@ -18,10 +18,12 @@
package com.volmit.iris.core.nms;
import com.volmit.iris.core.nms.container.AutoClosing;
import com.volmit.iris.core.nms.container.BiomeColor;
import com.volmit.iris.core.nms.container.Pair;
import com.volmit.iris.core.nms.datapack.DataVersion;
import com.volmit.iris.core.nms.headless.IRegionStorage;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.engine.platform.PlatformChunkGenerator;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.mantle.Mantle;
@@ -36,7 +38,6 @@ import org.bukkit.entity.EntityType;
import org.bukkit.event.entity.CreatureSpawnEvent;
import org.bukkit.generator.ChunkGenerator;
import org.bukkit.inventory.ItemStack;
import org.jetbrains.annotations.Nullable;
import java.awt.Color;
@@ -90,10 +91,12 @@ public interface INMSBinding {
MCABiomeContainer newBiomeContainer(int min, int max);
default World createWorld(WorldCreator c) {
if (c.generator() instanceof PlatformChunkGenerator gen
&& missingDimensionTypes(gen.getTarget().getDimension().getDimensionTypeKey()))
throw new IllegalStateException("Missing dimension types to create world");
return c.createWorld();
if (missingDimensionTypes(true, true, true))
throw new IllegalStateException("Missing dimenstion types to create world");
try (var ignored = injectLevelStems()) {
return c.createWorld();
}
}
int countCustomBiomes();
@@ -126,11 +129,13 @@ public interface INMSBinding {
return 441;
}
IRegionStorage createRegionStorage(Engine engine);
KList<String> getStructureKeys();
boolean missingDimensionTypes(String... keys);
AutoClosing injectLevelStems();
default boolean injectBukkit() {
return true;
}
Pair<Integer, AutoClosing> injectUncached(boolean overworld, boolean nether, boolean end);
boolean missingDimensionTypes(boolean overworld, boolean nether, boolean end);
}
@@ -1,6 +1,5 @@
package com.volmit.iris.core.nms.container;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.function.NastyRunnable;
import lombok.AllArgsConstructor;
@@ -8,7 +7,6 @@ import java.util.concurrent.atomic.AtomicBoolean;
@AllArgsConstructor
public class AutoClosing implements AutoCloseable {
private static final KMap<Thread, AutoClosing> CONTEXTS = new KMap<>();
private final AtomicBoolean closed = new AtomicBoolean();
private final NastyRunnable action;
@@ -16,24 +14,9 @@ public class AutoClosing implements AutoCloseable {
public void close() {
if (closed.getAndSet(true)) return;
try {
removeContext();
action.run();
} catch (Throwable e) {
throw new RuntimeException(e);
}
}
public void storeContext() {
CONTEXTS.put(Thread.currentThread(), this);
}
public void removeContext() {
CONTEXTS.values().removeIf(c -> c == this);
}
public static void closeContext() {
AutoClosing closing = CONTEXTS.remove(Thread.currentThread());
if (closing == null) return;
closing.close();
}
}
@@ -13,7 +13,6 @@ import java.util.function.Supplier;
//https://minecraft.wiki/w/Pack_format
@Getter
public enum DataVersion {
UNSUPPORTED("0.0.0", 0, () -> null),
V1192("1.19.2", 10, DataFixerV1192::new),
V1205("1.20.6", 41, DataFixerV1206::new),
V1213("1.21.3", 57, DataFixerV1213::new);
@@ -1,31 +1,28 @@
package com.volmit.iris.core.nms.datapack;
import com.volmit.iris.engine.object.IrisBiomeCustom;
import com.volmit.iris.engine.object.IrisDimensionTypeOptions;
import com.volmit.iris.engine.object.IrisRange;
import com.volmit.iris.util.json.JSONObject;
import org.jetbrains.annotations.Nullable;
public interface IDataFixer {
default JSONObject fixCustomBiome(IrisBiomeCustom biome, JSONObject json) {
return json;
}
JSONObject resolve(Dimension dimension, @Nullable IrisDimensionTypeOptions options);
JSONObject rawDimension(Dimension dimension);
void fixDimension(Dimension dimension, JSONObject json);
default JSONObject createDimension(Dimension base, int minY, int height, int logicalHeight, @Nullable IrisDimensionTypeOptions options) {
JSONObject obj = resolve(base, options);
obj.put("min_y", minY);
obj.put("height", height);
default JSONObject createDimension(Dimension dimension, IrisRange height, int logicalHeight) {
JSONObject obj = rawDimension(dimension);
obj.put("min_y", height.getMin());
obj.put("height", height.getMax() - height.getMin());
obj.put("logical_height", logicalHeight);
fixDimension(base, obj);
return obj;
}
enum Dimension {
OVERWORLD,
OVERRWORLD,
NETHER,
END
THE_END
}
}
@@ -1,104 +1,81 @@
package com.volmit.iris.core.nms.datapack.v1192;
import com.volmit.iris.core.nms.datapack.IDataFixer;
import com.volmit.iris.engine.object.IrisDimensionTypeOptions;
import com.volmit.iris.util.json.JSONObject;
import org.jetbrains.annotations.Nullable;
import java.util.Map;
import static com.volmit.iris.engine.object.IrisDimensionTypeOptions.TriState.*;
public class DataFixerV1192 implements IDataFixer {
private static final Map<Dimension, IrisDimensionTypeOptions> OPTIONS = Map.of(
Dimension.OVERWORLD, new IrisDimensionTypeOptions(
FALSE,
TRUE,
FALSE,
FALSE,
TRUE,
TRUE,
TRUE,
FALSE,
1d,
0f,
null,
192,
0),
Dimension.NETHER, new IrisDimensionTypeOptions(
TRUE,
FALSE,
TRUE,
TRUE,
FALSE,
FALSE,
FALSE,
TRUE,
8d,
0.1f,
18000L,
null,
15),
Dimension.END, new IrisDimensionTypeOptions(
FALSE,
FALSE,
FALSE,
FALSE,
FALSE,
TRUE,
FALSE,
FALSE,
1d,
0f,
6000L,
null,
0)
);
private static final Map<Dimension, String> DIMENSIONS = Map.of(
Dimension.OVERWORLD, """
Dimension.OVERRWORLD, """
{
"ambient_light": 0.0,
"bed_works": true,
"coordinate_scale": 1.0,
"effects": "minecraft:overworld",
"has_ceiling": false,
"has_raids": true,
"has_skylight": true,
"infiniburn": "#minecraft:infiniburn_overworld",
"monster_spawn_block_light_limit": 0,
"monster_spawn_light_level": {
"type": "minecraft:uniform",
"value": {
"max_inclusive": 7,
"min_inclusive": 0
}
}
},
"natural": true,
"piglin_safe": false,
"respawn_anchor_works": false,
"ultrawarm": false
}""",
Dimension.NETHER, """
{
"ambient_light": 0.1,
"bed_works": false,
"coordinate_scale": 8.0,
"effects": "minecraft:the_nether",
"fixed_time": 18000,
"has_ceiling": true,
"has_raids": false,
"has_skylight": false,
"infiniburn": "#minecraft:infiniburn_nether",
"monster_spawn_block_light_limit": 15,
"monster_spawn_light_level": 7,
"natural": false,
"piglin_safe": true,
"respawn_anchor_works": true,
"ultrawarm": true
}""",
Dimension.END, """
Dimension.THE_END, """
{
"ambient_light": 0.0,
"bed_works": false,
"coordinate_scale": 1.0,
"effects": "minecraft:the_end",
"fixed_time": 6000,
"has_ceiling": false,
"has_raids": true,
"has_skylight": false,
"infiniburn": "#minecraft:infiniburn_end",
"monster_spawn_block_light_limit": 0,
"monster_spawn_light_level": {
"type": "minecraft:uniform",
"value": {
"max_inclusive": 7,
"min_inclusive": 0
}
}
},
"natural": false,
"piglin_safe": false,
"respawn_anchor_works": false,
"ultrawarm": false
}"""
);
@Override
public JSONObject resolve(Dimension dimension, @Nullable IrisDimensionTypeOptions options) {
return options == null ? OPTIONS.get(dimension).toJson() : options.resolve(OPTIONS.get(dimension)).toJson();
}
@Override
public void fixDimension(Dimension dimension, JSONObject json) {
var missing = new JSONObject(DIMENSIONS.get(dimension));
for (String key : missing.keySet()) {
if (json.has(key)) continue;
json.put(key, missing.get(key));
}
public JSONObject rawDimension(Dimension dimension) {
return new JSONObject(DIMENSIONS.get(dimension));
}
}
@@ -45,12 +45,13 @@ public class DataFixerV1206 extends DataFixerV1192 {
}
@Override
public void fixDimension(Dimension dimension, JSONObject json) {
super.fixDimension(dimension, json);
public JSONObject rawDimension(Dimension dimension) {
JSONObject json = super.rawDimension(dimension);
if (!(json.get("monster_spawn_light_level") instanceof JSONObject lightLevel))
return;
return json;
var value = (JSONObject) lightLevel.remove("value");
lightLevel.put("max_inclusive", value.get("max_inclusive"));
lightLevel.put("min_inclusive", value.get("min_inclusive"));
return json;
}
}
@@ -0,0 +1,17 @@
package com.volmit.iris.core.nms.headless;
import com.volmit.iris.util.documentation.ChunkCoordinates;
import lombok.NonNull;
import java.io.IOException;
public interface IRegion extends AutoCloseable {
@ChunkCoordinates
boolean exists(int x, int z);
void write(@NonNull SerializableChunk chunk) throws IOException;
@Override
void close();
}
@@ -0,0 +1,27 @@
package com.volmit.iris.core.nms.headless;
import com.volmit.iris.util.context.ChunkContext;
import com.volmit.iris.util.documentation.ChunkCoordinates;
import com.volmit.iris.util.documentation.RegionCoordinates;
import lombok.NonNull;
import org.jetbrains.annotations.Nullable;
import java.io.IOException;
public interface IRegionStorage {
@ChunkCoordinates
boolean exists(int x, int z);
@Nullable
@RegionCoordinates
IRegion getRegion(int x, int z, boolean existingOnly) throws IOException;
@NonNull
@ChunkCoordinates
SerializableChunk createChunk(int x, int z);
void fillBiomes(@NonNull SerializableChunk chunk, @Nullable ChunkContext ctx);
void close();
}
@@ -0,0 +1,12 @@
package com.volmit.iris.core.nms.headless;
import com.volmit.iris.engine.data.chunk.TerrainChunk;
import com.volmit.iris.util.math.Position2;
public interface SerializableChunk extends TerrainChunk {
Position2 getPos();
Object serialize();
void mark();
}
@@ -20,8 +20,10 @@ package com.volmit.iris.core.nms.v1X;
import com.volmit.iris.Iris;
import com.volmit.iris.core.nms.INMSBinding;
import com.volmit.iris.core.nms.container.AutoClosing;
import com.volmit.iris.core.nms.container.BiomeColor;
import com.volmit.iris.core.nms.datapack.DataVersion;
import com.volmit.iris.core.nms.headless.IRegionStorage;
import com.volmit.iris.core.nms.container.Pair;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KMap;
@@ -110,6 +112,11 @@ public class NMSBinding1X implements INMSBinding {
return Color.GREEN;
}
@Override
public IRegionStorage createRegionStorage(Engine engine) {
return null;
}
@Override
public KList<String> getStructureKeys() {
var list = StreamSupport.stream(Registry.STRUCTURE.spliterator(), false)
@@ -120,7 +127,17 @@ public class NMSBinding1X implements INMSBinding {
}
@Override
public boolean missingDimensionTypes(String... keys) {
public AutoClosing injectLevelStems() {
return new AutoClosing(() -> {});
}
@Override
public Pair<Integer, AutoClosing> injectUncached(boolean overworld, boolean nether, boolean end) {
return new Pair<>(0, new AutoClosing(() -> {}));
}
@Override
public boolean missingDimensionTypes(boolean overworld, boolean nether, boolean end) {
return false;
}
@@ -208,11 +225,6 @@ public class NMSBinding1X implements INMSBinding {
return true;
}
@Override
public DataVersion getDataVersion() {
return DataVersion.UNSUPPORTED;
}
@Override
public int getBiomeId(Biome biome) {
return biome.ordinal();
@@ -28,7 +28,6 @@ import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicLong;
public class ChunkUpdater {
private static final String REGION_PATH = "region" + File.separator + "r.";
private final AtomicBoolean paused = new AtomicBoolean();
private final AtomicBoolean cancelled = new AtomicBoolean();
private final KMap<Long, Pair<Long, AtomicInteger>> lastUse = new KMap<>();
@@ -109,7 +108,6 @@ public class ChunkUpdater {
}
}
} catch (Exception e) {
Iris.reportError(e);
e.printStackTrace();
}
}, 0, 3, TimeUnit.SECONDS);
@@ -164,12 +162,12 @@ public class ChunkUpdater {
J.sleep(50);
}
if (rX < dimensions.min.getX() ||
rX > dimensions.max.getX() ||
rZ < dimensions.min.getZ() ||
rZ > dimensions.max.getZ() ||
!new File(world.getWorldFolder(), REGION_PATH + rX + "." + rZ + ".mca").exists()
) return;
if (rX < dimensions.min.getX() || rX > dimensions.max.getX() || rZ < dimensions.min.getZ() || rZ > dimensions.max.getZ()) {
return;
}
if (!new File(world.getWorldFolder(), "region" + File.separator + rX + "." + rZ + ".mca").exists()) {
return;
}
task.iterateChunks(rX, rZ, (x, z) -> {
while (paused.get() && !cancelled.get()) {
@@ -315,7 +313,6 @@ public class ChunkUpdater {
world.save();
}).get();
} catch (Throwable e) {
Iris.reportError(e);
e.printStackTrace();
}
}
@@ -0,0 +1,80 @@
package com.volmit.iris.core.pregenerator;
public class EmptyListener implements PregenListener {
public static PregenListener INSTANCE = new EmptyListener();
@Override
public void onTick(double chunksPerSecond, double chunksPerMinute, double regionsPerMinute, double percent, int generated, int totalChunks, int chunksRemaining, long eta, long elapsed, String method) {
}
@Override
public void onChunkGenerating(int x, int z) {
}
@Override
public void onChunkGenerated(int x, int z) {
}
@Override
public void onRegionGenerated(int x, int z) {
}
@Override
public void onRegionGenerating(int x, int z) {
}
@Override
public void onChunkCleaned(int x, int z) {
}
@Override
public void onRegionSkipped(int x, int z) {
}
@Override
public void onNetworkStarted(int x, int z) {
}
@Override
public void onNetworkFailed(int x, int z) {
}
@Override
public void onNetworkReclaim(int revert) {
}
@Override
public void onNetworkGeneratedChunk(int x, int z) {
}
@Override
public void onNetworkDownloaded(int x, int z) {
}
@Override
public void onClose() {
}
@Override
public void onSaving() {
}
@Override
public void onChunkExistsInRegionGen(int x, int z) {
}
}
@@ -31,33 +31,28 @@ import com.volmit.iris.util.math.RollingSequence;
import com.volmit.iris.util.scheduling.ChronoLatch;
import com.volmit.iris.util.scheduling.J;
import com.volmit.iris.util.scheduling.Looper;
import com.volmit.iris.util.scheduling.PrecisionStopwatch;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicLong;
import java.util.concurrent.atomic.AtomicReference;
public class IrisPregenerator {
private static final double INVALID = 9223372036854775807d;
private final PregenTask task;
private final PregeneratorMethod generator;
private final PregenListener listener;
private final Looper ticker;
private final AtomicBoolean paused;
private final AtomicBoolean shutdown;
private final RollingSequence cachedPerSecond;
private final RollingSequence chunksPerSecond;
private final RollingSequence chunksPerMinute;
private final RollingSequence regionsPerMinute;
private final KList<Integer> chunksPerSecondHistory;
private final AtomicLong generated;
private final AtomicLong generatedLast;
private final AtomicLong generatedLastMinute;
private final AtomicLong cached;
private final AtomicLong cachedLast;
private final AtomicLong cachedLastMinute;
private final AtomicLong totalChunks;
private static AtomicInteger generated;
private final AtomicInteger generatedLast;
private final AtomicInteger generatedLastMinute;
private static AtomicInteger totalChunks;
private final AtomicLong startTime;
private final ChronoLatch minuteLatch;
private final AtomicReference<String> currentGeneratorMethod;
@@ -66,10 +61,8 @@ public class IrisPregenerator {
private final KSet<Position2> net;
private final ChronoLatch cl;
private final ChronoLatch saveLatch = new ChronoLatch(30000);
private final IrisPackBenchmarking benchmarking;
public IrisPregenerator(PregenTask task, PregeneratorMethod generator, PregenListener listener) {
benchmarking = IrisPackBenchmarking.getInstance();
this.listener = listenify(listener);
cl = new ChronoLatch(5000);
generatedRegions = new KSet<>();
@@ -81,71 +74,46 @@ public class IrisPregenerator {
net = new KSet<>();
currentGeneratorMethod = new AtomicReference<>("Void");
minuteLatch = new ChronoLatch(60000, false);
cachedPerSecond = new RollingSequence(5);
chunksPerSecond = new RollingSequence(10);
chunksPerMinute = new RollingSequence(10);
regionsPerMinute = new RollingSequence(10);
chunksPerSecondHistory = new KList<>();
generated = new AtomicLong(0);
generatedLast = new AtomicLong(0);
generatedLastMinute = new AtomicLong(0);
cached = new AtomicLong();
cachedLast = new AtomicLong(0);
cachedLastMinute = new AtomicLong(0);
totalChunks = new AtomicLong(0);
generated = new AtomicInteger(0);
generatedLast = new AtomicInteger(0);
generatedLastMinute = new AtomicInteger(0);
totalChunks = new AtomicInteger(0);
task.iterateAllChunks((_a, _b) -> totalChunks.incrementAndGet());
startTime = new AtomicLong(M.ms());
ticker = new Looper() {
@Override
protected long loop() {
long eta = computeETA();
long secondCached = cached.get() - cachedLast.get();
cachedLast.set(cached.get());
cachedPerSecond.put(secondCached);
long secondGenerated = generated.get() - generatedLast.get() - secondCached;
int secondGenerated = generated.get() - generatedLast.get();
generatedLast.set(generated.get());
if (secondCached == 0 || secondGenerated != 0) {
chunksPerSecond.put(secondGenerated);
chunksPerSecondHistory.add((int) secondGenerated);
}
chunksPerSecond.put(secondGenerated);
chunksPerSecondHistory.add(secondGenerated);
if (minuteLatch.flip()) {
long minuteCached = cached.get() - cachedLastMinute.get();
cachedLastMinute.set(cached.get());
long minuteGenerated = generated.get() - generatedLastMinute.get() - minuteCached;
int minuteGenerated = generated.get() - generatedLastMinute.get();
generatedLastMinute.set(generated.get());
if (minuteCached == 0 || minuteGenerated != 0) {
chunksPerMinute.put(minuteGenerated);
regionsPerMinute.put((double) minuteGenerated / 1024D);
}
chunksPerMinute.put(minuteGenerated);
regionsPerMinute.put((double) minuteGenerated / 1024D);
}
boolean cached = cachedPerSecond.getAverage() != 0;
listener.onTick(
cached ? cachedPerSecond.getAverage() : chunksPerSecond.getAverage(),
chunksPerMinute.getAverage(),
listener.onTick(chunksPerSecond.getAverage(), chunksPerMinute.getAverage(),
regionsPerMinute.getAverage(),
(double) generated.get() / (double) totalChunks.get(), generated.get(),
totalChunks.get(),
totalChunks.get() - generated.get(), eta, M.ms() - startTime.get(), currentGeneratorMethod.get(),
cached);
(double) generated.get() / (double) totalChunks.get(),
generated.get(), totalChunks.get(),
totalChunks.get() - generated.get(),
eta, M.ms() - startTime.get(), currentGeneratorMethod.get());
if (cl.flip()) {
double percentage = ((double) generated.get() / (double) totalChunks.get()) * 100;
Iris.info("%s: %s of %s (%.0f%%), %s/s ETA: %s",
benchmarking != null ? "Benchmarking" : "Pregen",
Form.f(generated.get()),
Form.f(totalChunks.get()),
percentage,
cached ?
"Cached " + Form.f((int) cachedPerSecond.getAverage()) :
Form.f((int) chunksPerSecond.getAverage()),
Form.duration(eta, 2)
);
if (!IrisPackBenchmarking.benchmarkInProgress) {
Iris.info("Pregen: " + Form.f(generated.get()) + " of " + Form.f(totalChunks.get()) + " (%.0f%%) " + Form.f((int) chunksPerSecond.getAverage()) + "/s ETA: " + Form.duration(eta, 2), percentage);
} else {
Iris.info("Benchmarking: " + Form.f(generated.get()) + " of " + Form.f(totalChunks.get()) + " (%.0f%%) " + Form.f((int) chunksPerSecond.getAverage()) + "/s ETA: " + Form.duration(eta, 2), percentage);
}
}
return 1000;
}
@@ -153,12 +121,12 @@ public class IrisPregenerator {
}
private long computeETA() {
double d = (long) (generated.get() > 1024 ? // Generated chunks exceed 1/8th of total?
return (long) (totalChunks.get() > 1024 ? // Generated chunks exceed 1/8th of total?
// If yes, use smooth function (which gets more accurate over time since its less sensitive to outliers)
((totalChunks.get() - generated.get()) * ((double) (M.ms() - startTime.get()) / (double) generated.get())) :
// If no, use quick function (which is less accurate over time but responds better to the initial delay)
((totalChunks.get() - generated.get()) / chunksPerSecond.getAverage()) * 1000);
return Double.isFinite(d) && d != INVALID ? (long) d : 0;
((totalChunks.get() - generated.get()) / chunksPerSecond.getAverage()) * 1000
);
}
@@ -170,15 +138,13 @@ public class IrisPregenerator {
init();
ticker.start();
checkRegions();
var p = PrecisionStopwatch.start();
task.iterateRegions((x, z) -> visitRegion(x, z, true));
task.iterateRegions((x, z) -> visitRegion(x, z, false));
Iris.info("Pregen took " + Form.duration((long) p.getMilliseconds()));
shutdown();
if (benchmarking == null) {
if (!IrisPackBenchmarking.benchmarkInProgress) {
Iris.info(C.IRIS + "Pregen stopped.");
} else {
benchmarking.finishedBenchmark(chunksPerSecondHistory);
IrisPackBenchmarking.instance.finishedBenchmark(chunksPerSecondHistory);
}
}
@@ -268,8 +234,8 @@ public class IrisPregenerator {
private PregenListener listenify(PregenListener listener) {
return new PregenListener() {
@Override
public void onTick(double chunksPerSecond, double chunksPerMinute, double regionsPerMinute, double percent, long generated, long totalChunks, long chunksRemaining, long eta, long elapsed, String method, boolean cached) {
listener.onTick(chunksPerSecond, chunksPerMinute, regionsPerMinute, percent, generated, totalChunks, chunksRemaining, eta, elapsed, method, cached);
public void onTick(double chunksPerSecond, double chunksPerMinute, double regionsPerMinute, double percent, int generated, int totalChunks, int chunksRemaining, long eta, long elapsed, String method) {
listener.onTick(chunksPerSecond, chunksPerMinute, regionsPerMinute, percent, generated, totalChunks, chunksRemaining, eta, elapsed, method);
}
@Override
@@ -278,10 +244,9 @@ public class IrisPregenerator {
}
@Override
public void onChunkGenerated(int x, int z, boolean c) {
listener.onChunkGenerated(x, z, c);
public void onChunkGenerated(int x, int z) {
listener.onChunkGenerated(x, z);
generated.addAndGet(1);
if (c) cached.addAndGet(1);
}
@Override
@@ -19,15 +19,11 @@
package com.volmit.iris.core.pregenerator;
public interface PregenListener {
void onTick(double chunksPerSecond, double chunksPerMinute, double regionsPerMinute, double percent, long generated, long totalChunks, long chunksRemaining, long eta, long elapsed, String method, boolean cached);
void onTick(double chunksPerSecond, double chunksPerMinute, double regionsPerMinute, double percent, int generated, int totalChunks, int chunksRemaining, long eta, long elapsed, String method);
void onChunkGenerating(int x, int z);
default void onChunkGenerated(int x, int z) {
onChunkGenerated(x, z, false);
}
void onChunkGenerated(int x, int z, boolean cached);
void onChunkGenerated(int x, int z);
void onRegionGenerated(int x, int z);
@@ -1,70 +0,0 @@
package com.volmit.iris.core.pregenerator.cache;
import com.volmit.iris.util.documentation.ChunkCoordinates;
import com.volmit.iris.util.documentation.RegionCoordinates;
import java.io.File;
public interface PregenCache {
default boolean isThreadSafe() {
return false;
}
@ChunkCoordinates
boolean isChunkCached(int x, int z);
@RegionCoordinates
boolean isRegionCached(int x, int z);
@ChunkCoordinates
void cacheChunk(int x, int z);
@RegionCoordinates
void cacheRegion(int x, int z);
void write();
static PregenCache create(File directory) {
if (directory == null) return EMPTY;
return new PregenCacheImpl(directory);
}
default PregenCache sync() {
if (isThreadSafe()) return this;
return new SynchronizedCache(this);
}
PregenCache EMPTY = new PregenCache() {
@Override
public boolean isThreadSafe() {
return true;
}
@Override
public boolean isChunkCached(int x, int z) {
return false;
}
@Override
public boolean isRegionCached(int x, int z) {
return false;
}
@Override
public void cacheChunk(int x, int z) {
}
@Override
public void cacheRegion(int x, int z) {
}
@Override
public void write() {
}
};
}
@@ -1,218 +0,0 @@
package com.volmit.iris.core.pregenerator.cache;
import com.github.benmanes.caffeine.cache.Caffeine;
import com.github.benmanes.caffeine.cache.LoadingCache;
import com.github.benmanes.caffeine.cache.RemovalCause;
import com.volmit.iris.Iris;
import com.volmit.iris.util.data.Varint;
import com.volmit.iris.util.documentation.ChunkCoordinates;
import com.volmit.iris.util.documentation.RegionCoordinates;
import com.volmit.iris.util.io.IO;
import com.volmit.iris.util.parallel.HyperLock;
import lombok.RequiredArgsConstructor;
import net.jpountz.lz4.LZ4BlockInputStream;
import net.jpountz.lz4.LZ4BlockOutputStream;
import org.jetbrains.annotations.Nullable;
import javax.annotation.concurrent.NotThreadSafe;
import java.io.*;
import java.util.concurrent.TimeUnit;
import java.util.function.Predicate;
@NotThreadSafe
@RequiredArgsConstructor
class PregenCacheImpl implements PregenCache {
private static final int SIZE = 32;
private final File directory;
private final HyperLock hyperLock = new HyperLock(SIZE * 2, true);
private final LoadingCache<Pos, Plate> cache = Caffeine.newBuilder()
.expireAfterAccess(10, TimeUnit.SECONDS)
.maximumSize(SIZE)
.removalListener(this::onRemoval)
.evictionListener(this::onRemoval)
.build(this::load);
@ChunkCoordinates
public boolean isChunkCached(int x, int z) {
var plate = cache.get(new Pos(x >> 10, z >> 10));
if (plate == null) return false;
return plate.isCached((x >> 5) & 31, (z >> 5) & 31, r -> r.isCached(x & 31, z & 31));
}
@RegionCoordinates
public boolean isRegionCached(int x, int z) {
var plate = cache.get(new Pos(x >> 5, z >> 5));
if (plate == null) return false;
return plate.isCached(x & 31, z & 31, Region::isCached);
}
@ChunkCoordinates
public void cacheChunk(int x, int z) {
var plate = cache.get(new Pos(x >> 10, z >> 10));
plate.cache((x >> 5) & 31, (z >> 5) & 31, r -> r.cache(x & 31, z & 31));
}
@RegionCoordinates
public void cacheRegion(int x, int z) {
var plate = cache.get(new Pos(x >> 5, z >> 5));
plate.cache(x & 31, z & 31, Region::cache);
}
public void write() {
cache.asMap().values().forEach(this::write);
}
private Plate load(Pos key) {
hyperLock.lock(key.x, key.z);
try {
File file = fileForPlate(key);
if (!file.exists()) return new Plate(key);
try (var in = new DataInputStream(new LZ4BlockInputStream(new FileInputStream(file)))) {
return new Plate(key, in);
} catch (IOException e){
Iris.error("Failed to read pregen cache " + file);
Iris.reportError(e);
e.printStackTrace();
return new Plate(key);
}
} finally {
hyperLock.unlock(key.x, key.z);
}
}
private void write(Plate plate) {
hyperLock.lock(plate.pos.x, plate.pos.z);
try {
File file = fileForPlate(plate.pos);
try {
IO.write(file, out -> new DataOutputStream(new LZ4BlockOutputStream(out)), plate::write);
} catch (IOException e) {
Iris.error("Failed to write pregen cache " + file);
Iris.reportError(e);
e.printStackTrace();
}
} finally {
hyperLock.unlock(plate.pos.x, plate.pos.z);
}
}
private void onRemoval(@Nullable Pos key, @Nullable Plate plate, RemovalCause cause) {
if (plate == null) return;
write(plate);
}
private File fileForPlate(Pos pos) {
if (!directory.exists() && !directory.mkdirs())
throw new IllegalStateException("Cannot create directory: " + directory.getAbsolutePath());
return new File(directory, "c." + pos.x + "." + pos.z + ".lz4b");
}
private static class Plate {
private final Pos pos;
private short count;
private Region[] regions;
public Plate(Pos pos) {
this.pos = pos;
count = 0;
regions = new Region[1024];
}
public Plate(Pos pos, DataInput in) throws IOException {
this.pos = pos;
count = (short) Varint.readSignedVarInt(in);
if (count == 1024) return;
regions = new Region[1024];
for (int i = 0; i < 1024; i++) {
if (in.readBoolean()) continue;
regions[i] = new Region(in);
}
}
public boolean isCached(int x, int z, Predicate<Region> predicate) {
if (count == 1024) return true;
Region region = regions[x * 32 + z];
if (region == null) return false;
return predicate.test(region);
}
public void cache(int x, int z, Predicate<Region> predicate) {
if (count == 1024) return;
Region region = regions[x * 32 + z];
if (region == null) regions[x * 32 + z] = region = new Region();
if (predicate.test(region)) count++;
}
public void write(DataOutput out) throws IOException {
Varint.writeSignedVarInt(count, out);
if (count == 1024) return;
for (Region region : regions) {
out.writeBoolean(region == null);
if (region == null) continue;
region.write(out);
}
}
}
private static class Region {
private short count;
private long[] words;
public Region() {
count = 0;
words = new long[64];
}
public Region(DataInput in) throws IOException {
count = (short) Varint.readSignedVarInt(in);
if (count == 1024) return;
words = new long[64];
for (int i = 0; i < 64; i++) {
words[i] = Varint.readUnsignedVarLong(in);
}
}
public boolean cache() {
if (count == 1024) return false;
count = 1024;
words = null;
return true;
}
public boolean cache(int x, int z) {
if (count == 1024) return false;
int i = x * 32 + z;
int w = i >> 6;
long b = 1L << (i & 63);
var cur = (words[w] & b) != 0;
if (cur) return false;
if (++count == 1024) {
words = null;
return true;
} else words[w] |= b;
return false;
}
public boolean isCached() {
return count == 1024;
}
public boolean isCached(int x, int z) {
int i = x * 32 + z;
return count == 1024 || (words[i >> 6] & 1L << (i & 63)) != 0;
}
public void write(DataOutput out) throws IOException {
Varint.writeSignedVarInt(count, out);
if (isCached()) return;
for (long word : words) {
Varint.writeUnsignedVarLong(word, out);
}
}
}
private record Pos(int x, int z) {}
}
@@ -1,48 +0,0 @@
package com.volmit.iris.core.pregenerator.cache;
import lombok.AllArgsConstructor;
@AllArgsConstructor
class SynchronizedCache implements PregenCache {
private final PregenCache cache;
@Override
public boolean isThreadSafe() {
return true;
}
@Override
public boolean isChunkCached(int x, int z) {
synchronized (cache) {
return cache.isChunkCached(x, z);
}
}
@Override
public boolean isRegionCached(int x, int z) {
synchronized (cache) {
return cache.isRegionCached(x, z);
}
}
@Override
public void cacheChunk(int x, int z) {
synchronized (cache) {
cache.cacheChunk(x, z);
}
}
@Override
public void cacheRegion(int x, int z) {
synchronized (cache) {
cache.cacheRegion(x, z);
}
}
@Override
public void write() {
synchronized (cache) {
cache.write();
}
}
}
@@ -19,7 +19,6 @@
package com.volmit.iris.core.pregenerator.methods;
import com.volmit.iris.Iris;
import com.volmit.iris.core.IrisSettings;
import com.volmit.iris.core.pregenerator.PregenListener;
import com.volmit.iris.core.pregenerator.PregeneratorMethod;
import com.volmit.iris.core.tools.IrisToolbelt;
@@ -32,32 +31,24 @@ import io.papermc.lib.PaperLib;
import org.bukkit.Chunk;
import org.bukkit.World;
import java.lang.reflect.InvocationTargetException;
import java.util.ArrayList;
import java.util.Map;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.Semaphore;
import java.util.concurrent.atomic.AtomicInteger;
public class AsyncPregenMethod implements PregeneratorMethod {
private static final AtomicInteger THREAD_COUNT = new AtomicInteger();
private final World world;
private final Executor executor;
private final MultiBurst burst;
private final Semaphore semaphore;
private final int threads;
private final boolean urgent;
private final Map<Chunk, Long> lastUse;
public AsyncPregenMethod(World world, int unusedThreads) {
public AsyncPregenMethod(World world, int threads) {
if (!PaperLib.isPaper()) {
throw new UnsupportedOperationException("Cannot use PaperAsync on non paper!");
}
this.world = world;
this.executor = IrisSettings.get().getPregen().isUseTicketQueue() ? new TicketExecutor() : new ServiceExecutor();
this.threads = IrisSettings.get().getPregen().getMaxConcurrency();
this.semaphore = new Semaphore(this.threads, true);
this.urgent = IrisSettings.get().getPregen().useHighPriority;
burst = new MultiBurst("Iris Async Pregen", Thread.MIN_PRIORITY);
semaphore = new Semaphore(256);
this.lastUse = new KMap<>();
}
@@ -69,18 +60,13 @@ public class AsyncPregenMethod implements PregeneratorMethod {
return;
}
long minTime = M.ms() - 10_000;
lastUse.entrySet().removeIf(i -> {
final Chunk chunk = i.getKey();
final Long lastUseTime = i.getValue();
if (!chunk.isLoaded() || lastUseTime == null)
return true;
if (lastUseTime < minTime) {
chunk.unload();
return true;
for (Chunk i : new ArrayList<>(lastUse.keySet())) {
Long lastUseTime = lastUse.get(i);
if (!i.isLoaded() || (lastUseTime != null && M.ms() - lastUseTime >= 10000)) {
i.unload();
lastUse.remove(i);
}
return false;
});
}
world.save();
}).get();
} catch (Throwable e) {
@@ -88,10 +74,24 @@ public class AsyncPregenMethod implements PregeneratorMethod {
}
}
private void completeChunk(int x, int z, PregenListener listener) {
try {
PaperLib.getChunkAtAsync(world, x, z, true).thenAccept((i) -> {
lastUse.put(i, M.ms());
listener.onChunkGenerated(x, z);
listener.onChunkCleaned(x, z);
}).get();
} catch (InterruptedException ignored) {
} catch (Throwable e) {
e.printStackTrace();
} finally {
semaphore.release();
}
}
@Override
public void init() {
unloadAndSaveAllChunks();
increaseWorkerThreads();
}
@Override
@@ -101,10 +101,9 @@ public class AsyncPregenMethod implements PregeneratorMethod {
@Override
public void close() {
semaphore.acquireUninterruptibly(threads);
semaphore.acquireUninterruptibly(256);
unloadAndSaveAllChunks();
executor.shutdown();
resetWorkerThreads();
burst.close();
}
@Override
@@ -130,7 +129,7 @@ public class AsyncPregenMethod implements PregeneratorMethod {
} catch (InterruptedException e) {
return;
}
executor.generate(x, z, listener);
burst.complete(() -> completeChunk(x, z, listener));
}
@Override
@@ -141,100 +140,4 @@ public class AsyncPregenMethod implements PregeneratorMethod {
return null;
}
public static void increaseWorkerThreads() {
THREAD_COUNT.updateAndGet(i -> {
if (i > 0) return 1;
var adjusted = IrisSettings.get().getConcurrency().getWorldGenThreads();
try {
var field = Class.forName("ca.spottedleaf.moonrise.common.util.MoonriseCommon").getDeclaredField("WORKER_POOL");
var pool = field.get(null);
var threads = ((Thread[]) pool.getClass().getDeclaredMethod("getCoreThreads").invoke(pool)).length;
if (threads >= adjusted) return 0;
pool.getClass().getDeclaredMethod("adjustThreadCount", int.class).invoke(pool, adjusted);
return threads;
} catch (Throwable e) {
Iris.warn("Failed to increase worker threads, if you are on paper or a fork of it please increase it manually to " + adjusted);
Iris.warn("For more information see https://docs.papermc.io/paper/reference/global-configuration#chunk_system_worker_threads");
if (e instanceof InvocationTargetException) {
Iris.reportError(e);
e.printStackTrace();
}
}
return 0;
});
}
public static void resetWorkerThreads() {
THREAD_COUNT.updateAndGet(i -> {
if (i == 0) return 0;
try {
var field = Class.forName("ca.spottedleaf.moonrise.common.util.MoonriseCommon").getDeclaredField("WORKER_POOL");
var pool = field.get(null);
var method = pool.getClass().getDeclaredMethod("adjustThreadCount", int.class);
method.invoke(pool, i);
return 0;
} catch (Throwable e) {
Iris.reportError(e);
Iris.error("Failed to reset worker threads");
e.printStackTrace();
}
return i;
});
}
private interface Executor {
void generate(int x, int z, PregenListener listener);
default void shutdown() {}
}
private class ServiceExecutor implements Executor {
private final ExecutorService service = IrisSettings.get().getPregen().isUseVirtualThreads() ?
Executors.newVirtualThreadPerTaskExecutor() :
new MultiBurst("Iris Async Pregen", Thread.MIN_PRIORITY);
public void generate(int x, int z, PregenListener listener) {
service.submit(() -> {
try {
PaperLib.getChunkAtAsync(world, x, z, true, urgent).thenAccept((i) -> {
listener.onChunkGenerated(x, z);
listener.onChunkCleaned(x, z);
if (i == null) return;
lastUse.put(i, M.ms());
}).get();
} catch (InterruptedException ignored) {
} catch (Throwable e) {
Iris.reportError(e);
e.printStackTrace();
} finally {
semaphore.release();
}
});
}
@Override
public void shutdown() {
service.shutdown();
}
}
private class TicketExecutor implements Executor {
@Override
public void generate(int x, int z, PregenListener listener) {
PaperLib.getChunkAtAsync(world, x, z, true, urgent)
.exceptionally(e -> {
Iris.reportError(e);
e.printStackTrace();
return null;
})
.thenAccept(i -> {
semaphore.release();
listener.onChunkGenerated(x, z);
listener.onChunkCleaned(x, z);
if (i == null) return;
lastUse.put(i, M.ms());
});
}
}
}
@@ -1,86 +0,0 @@
package com.volmit.iris.core.pregenerator.methods;
import com.volmit.iris.Iris;
import com.volmit.iris.core.pregenerator.PregenListener;
import com.volmit.iris.core.pregenerator.PregeneratorMethod;
import com.volmit.iris.core.pregenerator.cache.PregenCache;
import com.volmit.iris.core.service.GlobalCacheSVC;
import com.volmit.iris.util.mantle.Mantle;
import lombok.AllArgsConstructor;
@AllArgsConstructor
public class CachedPregenMethod implements PregeneratorMethod {
private final PregeneratorMethod method;
private final PregenCache cache;
public CachedPregenMethod(PregeneratorMethod method, String worldName) {
this.method = method;
var cache = Iris.service(GlobalCacheSVC.class).get(worldName);
if (cache == null) {
Iris.debug("Could not find existing cache for " + worldName + " creating fallback");
cache = GlobalCacheSVC.createDefault(worldName);
}
this.cache = cache;
}
@Override
public void init() {
method.init();
}
@Override
public void close() {
method.close();
cache.write();
}
@Override
public void save() {
method.save();
cache.write();
}
@Override
public boolean supportsRegions(int x, int z, PregenListener listener) {
return cache.isRegionCached(x, z) || method.supportsRegions(x, z, listener);
}
@Override
public String getMethod(int x, int z) {
return method.getMethod(x, z);
}
@Override
public void generateRegion(int x, int z, PregenListener listener) {
if (cache.isRegionCached(x, z)) {
listener.onRegionGenerated(x, z);
int rX = x << 5, rZ = z << 5;
for (int cX = 0; cX < 32; cX++) {
for (int cZ = 0; cZ < 32; cZ++) {
listener.onChunkGenerated(rX + cX, rZ + cZ, true);
listener.onChunkCleaned(rX + cX, rZ + cZ);
}
}
return;
}
method.generateRegion(x, z, listener);
cache.cacheRegion(x, z);
}
@Override
public void generateChunk(int x, int z, PregenListener listener) {
if (cache.isChunkCached(x, z)) {
listener.onChunkGenerated(x, z, true);
listener.onChunkCleaned(x, z);
return;
}
method.generateChunk(x, z, listener);
cache.cacheChunk(x, z);
}
@Override
public Mantle getMantle() {
return method.getMantle();
}
}
@@ -0,0 +1,112 @@
/*
* Iris is a World Generator for Minecraft Bukkit Servers
* Copyright (c) 2024 Arcane Arts (Volmit Software)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
package com.volmit.iris.core.pregenerator.methods;
import com.volmit.iris.Iris;
import com.volmit.iris.core.IrisSettings;
import com.volmit.iris.core.pregenerator.PregenListener;
import com.volmit.iris.core.pregenerator.PregeneratorMethod;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.engine.object.IrisHeadless;
import com.volmit.iris.util.mantle.Mantle;
import com.volmit.iris.util.parallel.MultiBurst;
import java.io.IOException;
import java.util.concurrent.Semaphore;
public class HeadlessPregenMethod implements PregeneratorMethod {
private final Engine engine;
private final IrisHeadless headless;
private final Semaphore semaphore;
private final int max;
private final MultiBurst burst;
public HeadlessPregenMethod(Engine engine) {
this(engine, IrisSettings.getThreadCount(IrisSettings.get().getConcurrency().getParallelism()));
}
public HeadlessPregenMethod(Engine engine, int threads) {
this.max = Math.max(threads, 4);
this.engine = engine;
this.headless = new IrisHeadless(engine);
burst = new MultiBurst("HeadlessPregen", 8);
this.semaphore = new Semaphore(max);
}
@Override
public void init() {
}
@Override
public void close() {
try {
semaphore.acquire(max);
} catch (InterruptedException ignored) {
}
try {
headless.close();
} catch (IOException e) {
Iris.error("Failed to close headless");
e.printStackTrace();
}
burst.close();
}
@Override
public void save() {
}
@Override
public boolean supportsRegions(int x, int z, PregenListener listener) {
return false;
}
@Override
public String getMethod(int x, int z) {
return "Headless";
}
@Override
public void generateRegion(int x, int z, PregenListener listener) {
}
@Override
public void generateChunk(int x, int z, PregenListener listener) {
try {
semaphore.acquire();
} catch (InterruptedException ignored) {
return;
}
burst.complete(() -> {
try {
listener.onChunkGenerating(x, z);
headless.generateChunk(x, z);
listener.onChunkGenerated(x, z);
} finally {
semaphore.release();
}
});
}
@Override
public Mantle getMantle() {
return engine.getMantle().getMantle();
}
}
@@ -377,17 +377,17 @@ public class IrisProject {
KSet<IrisLootTable> loot = new KSet<>();
KSet<IrisBlockData> blocks = new KSet<>();
for (String i : dm.getBlockLoader().getPossibleKeys()) {
for (String i : dm.getDimensionLoader().getPossibleKeys()) {
blocks.add(dm.getBlockLoader().load(i));
}
dimension.getRegions().forEach((i) -> regions.add(dm.getRegionLoader().load(i)));
dimension.getLoot().getTables().forEach((i) -> loot.add(dm.getLootLoader().load(i)));
regions.forEach((i) -> biomes.addAll(i.getAllBiomes(() -> dm)));
regions.forEach((i) -> biomes.addAll(i.getAllBiomes(null)));
regions.forEach((r) -> r.getLoot().getTables().forEach((i) -> loot.add(dm.getLootLoader().load(i))));
regions.forEach((r) -> r.getEntitySpawners().forEach((sp) -> spawners.add(dm.getSpawnerLoader().load(sp))));
dimension.getEntitySpawners().forEach((sp) -> spawners.add(dm.getSpawnerLoader().load(sp)));
biomes.forEach((i) -> i.getGenerators().forEach((j) -> generators.add(j.getCachedGenerator(() -> dm))));
biomes.forEach((i) -> i.getGenerators().forEach((j) -> generators.add(j.getCachedGenerator(null))));
biomes.forEach((r) -> r.getLoot().getTables().forEach((i) -> loot.add(dm.getLootLoader().load(i))));
biomes.forEach((r) -> r.getEntitySpawners().forEach((sp) -> spawners.add(dm.getSpawnerLoader().load(sp))));
spawners.forEach((i) -> i.getSpawns().forEach((j) -> entities.add(dm.getEntityLoader().load(j.getEntity()))));
@@ -140,8 +140,6 @@ public class SchemaBuilder {
JSONObject property = buildProperty(k, c);
if (property.getBoolean("!required"))
required.put(k.getName());
property.remove("!required");
properties.put(k.getName(), property);
}
@@ -153,7 +151,19 @@ public class SchemaBuilder {
o.put("properties", properties);
return buildSnippet(o, c);
if (c.isAnnotationPresent(Snippet.class)) {
JSONObject anyOf = new JSONObject();
JSONArray arr = new JSONArray();
JSONObject str = new JSONObject();
str.put("type", "string");
arr.put(o);
arr.put(str);
anyOf.put("anyOf", arr);
return anyOf;
}
return o;
}
private JSONObject buildProperty(Field k, Class<?> cl) {
@@ -466,26 +476,6 @@ public class SchemaBuilder {
items.put("$ref", "#/definitions/" + key);
prop.put("items", items);
description.add(SYMBOL_TYPE__N + " Must be a valid Enchantment Type (use ctrl+space for auto complete!)");
} else if (k.isAnnotationPresent(RegistryListFunction.class)) {
var functionClass = k.getDeclaredAnnotation(RegistryListFunction.class).value();
try {
var instance = functionClass.getDeclaredConstructor().newInstance();
String key = instance.key();
fancyType = instance.fancyName();
if (!definitions.containsKey(key)) {
JSONObject j = new JSONObject();
j.put("enum", instance.apply(data));
definitions.put(key, j);
}
JSONObject items = new JSONObject();
items.put("$ref", "#/definitions/" + key);
prop.put("items", items);
description.add(SYMBOL_TYPE__N + " Must be a valid " + fancyType + " (use ctrl+space for auto complete!)");
} catch (Throwable e) {
Iris.error("Could not execute apply method in " + functionClass.getName());
}
} else if (t.type().equals(PotionEffectType.class)) {
fancyType = "List of Potion Effect Types";
String key = "enum-potion-effect-type";
@@ -522,16 +512,8 @@ public class SchemaBuilder {
d.add(fancyType);
d.add(getDescription(k.getType()));
Snippet snippet = k.getType().getDeclaredAnnotation(Snippet.class);
if (snippet == null) {
ArrayType array = k.getType().getDeclaredAnnotation(ArrayType.class);
if (array != null) {
snippet = array.type().getDeclaredAnnotation(Snippet.class);
}
}
if (snippet != null) {
String sm = snippet.value();
if (k.getType().isAnnotationPresent(Snippet.class)) {
String sm = k.getType().getDeclaredAnnotation(Snippet.class).value();
d.add(" ");
d.add("You can instead specify \"snippet/" + sm + "/some-name.json\" to use a snippet file instead of specifying it here.");
}
@@ -559,36 +541,35 @@ public class SchemaBuilder {
description.forEach((g) -> d.add(g.trim()));
prop.put("type", type);
prop.put("description", d.toString("\n"));
return buildSnippet(prop, k.getType());
}
private JSONObject buildSnippet(JSONObject prop, Class<?> type) {
Snippet snippet = type.getDeclaredAnnotation(Snippet.class);
if (snippet == null) return prop;
if (k.getType().isAnnotationPresent(Snippet.class)) {
JSONObject anyOf = new JSONObject();
JSONArray arr = new JSONArray();
JSONObject str = new JSONObject();
str.put("type", "string");
String key = "enum-snippet-" + k.getType().getDeclaredAnnotation(Snippet.class).value();
str.put("$ref", "#/definitions/" + key);
JSONObject anyOf = new JSONObject();
JSONArray arr = new JSONArray();
JSONObject str = new JSONObject();
str.put("type", "string");
String key = "enum-snippet-" + snippet.value();
str.put("$ref", "#/definitions/" + key);
if (!definitions.containsKey(key)) {
JSONObject j = new JSONObject();
JSONArray snl = new JSONArray();
data.getPossibleSnippets(k.getType().getDeclaredAnnotation(Snippet.class).value()).forEach(snl::put);
j.put("enum", snl);
definitions.put(key, j);
}
if (!definitions.containsKey(key)) {
JSONObject j = new JSONObject();
JSONArray snl = new JSONArray();
data.getPossibleSnippets(snippet.value()).forEach(snl::put);
j.put("enum", snl);
definitions.put(key, j);
arr.put(prop);
arr.put(str);
prop.put("description", d.toString("\n"));
str.put("description", d.toString("\n"));
anyOf.put("anyOf", arr);
anyOf.put("description", d.toString("\n"));
anyOf.put("!required", k.isAnnotationPresent(Required.class));
return anyOf;
}
arr.put(prop);
arr.put(str);
str.put("description", prop.getString("description"));
anyOf.put("anyOf", arr);
anyOf.put("description", prop.getString("description"));
anyOf.put("!required", type.isAnnotationPresent(Required.class));
return anyOf;
return prop;
}
@NotNull
@@ -2,14 +2,8 @@ package com.volmit.iris.core.safeguard;
import com.volmit.iris.Iris;
import com.volmit.iris.core.IrisSettings;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KMap;
import io.papermc.lib.PaperLib;
import java.util.concurrent.atomic.AtomicBoolean;
public class IrisSafeguard {
private static final AtomicBoolean sfg = new AtomicBoolean(false);
public static boolean unstablemode = false;
public static boolean warningmode = false;
public static boolean stablemode = false;
@@ -19,46 +13,12 @@ public class IrisSafeguard {
ServerBootSFG.BootCheck();
}
public static void splash(boolean early) {
if (early && (ServerBootSFG.safeguardPassed || IrisSettings.get().getGeneral().DoomsdayAnnihilationSelfDestructMode))
public static void earlySplash() {
if (ServerBootSFG.safeguardPassed || IrisSettings.get().getGeneral().DoomsdayAnnihilationSelfDestructMode)
return;
if (!sfg.getAndSet(true)) {
Iris.instance.splash();
UtilsSFG.splash();
}
}
public static String mode() {
if (unstablemode) {
return "unstable";
} else if (warningmode) {
return "warning";
} else {
return "stable";
}
}
public static void suggestPaper() {
PaperLib.suggestPaper(Iris.instance);
}
public static KMap<String, Object> asContext() {
KMap<String, Object> m = new KMap<>();
m.put("diskSpace", !ServerBootSFG.hasEnoughDiskSpace);
m.put("javaVersion", !ServerBootSFG.isCorrectJDK);
m.put("jre", ServerBootSFG.isJRE);
m.put("missingAgent", ServerBootSFG.missingAgent);
m.put("missingDimensionTypes", ServerBootSFG.missingDimensionTypes);
m.put("failedInjection", ServerBootSFG.failedInjection);
m.put("unsupportedVersion", ServerBootSFG.unsuportedversion);
m.put("serverSoftware", !ServerBootSFG.passedserversoftware);
KList<String> incompatiblePlugins = new KList<>();
ServerBootSFG.incompatibilities.forEach((plugin, present) -> {
if (present) incompatiblePlugins.add(plugin);
});
m.put("plugins", incompatiblePlugins);
return m;
Iris.instance.splash();
UtilsSFG.splash();
}
}
@@ -1,15 +1,10 @@
package com.volmit.iris.core.safeguard;
import com.volmit.iris.Iris;
import com.volmit.iris.core.IrisSettings;
import com.volmit.iris.core.nms.INMS;
import com.volmit.iris.core.nms.v1X.NMSBinding1X;
import com.volmit.iris.engine.object.IrisDimension;
import com.volmit.iris.util.agent.Agent;
import com.volmit.iris.util.collection.KSet;
import com.volmit.iris.util.misc.ServerProperties;
import com.volmit.iris.engine.object.IrisContextInjector;
import org.bukkit.Bukkit;
import org.bukkit.configuration.file.YamlConfiguration;
import org.bukkit.plugin.Plugin;
import org.bukkit.plugin.PluginManager;
import javax.tools.JavaCompiler;
@@ -20,7 +15,10 @@ import java.nio.file.Files;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.nio.file.StandardOpenOption;
import java.util.*;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.StringJoiner;
import static com.volmit.iris.Iris.getJavaVersion;
import static com.volmit.iris.core.safeguard.IrisSafeguard.*;
@@ -33,8 +31,6 @@ public class ServerBootSFG {
public static boolean hasPrivileges = true;
public static boolean unsuportedversion = false;
public static boolean missingDimensionTypes = false;
public static boolean missingAgent = false;
public static boolean failedInjection = false;
protected static boolean safeguardPassed;
public static boolean passedserversoftware = true;
protected static int count;
@@ -49,7 +45,9 @@ public class ServerBootSFG {
Plugin[] plugins = pluginManager.getPlugins();
incompatibilities.clear();
incompatibilities.put("Multiverse-Core", false);
incompatibilities.put("dynmap", false);
incompatibilities.put("TerraformGenerator", false);
incompatibilities.put("Stratos", false);
String pluginName;
@@ -114,21 +112,10 @@ public class ServerBootSFG {
severityMedium++;
}
if (!Agent.install()) {
missingAgent = true;
joiner.add("Missing Java Agent");
if (IrisContextInjector.isMissingDimensionTypes()) {
missingDimensionTypes = true;
joiner.add("Missing Dimension Types");
severityHigh++;
} else {
if (missingDimensionTypes()) {
missingDimensionTypes = true;
joiner.add("Missing Dimension Types");
severityHigh++;
}
if (!INMS.get().injectBukkit()) {
failedInjection = true;
joiner.add("Failed Bukkit Injection");
severityHigh++;
}
}
allIncompatibilities = joiner.toString();
@@ -173,41 +160,17 @@ public class ServerBootSFG {
}
public static boolean enoughDiskSpace() {
File freeSpace = Bukkit.getWorldContainer();
File freeSpace = new File(Bukkit.getWorldContainer() + ".");
double gigabytes = freeSpace.getFreeSpace() / (1024.0 * 1024.0 * 1024.0);
return gigabytes > 3;
if (gigabytes > 3){
return true;
} else {
return false;
}
}
private static boolean checkJavac(String path) {
return !path.isEmpty() && (new File(path, "javac").exists() || new File(path, "javac.exe").exists());
}
private static boolean missingDimensionTypes() {
return INMS.get().missingDimensionTypes(getDimensionTypes().toArray(String[]::new));
}
private static KSet<String> getDimensionTypes() {
var bukkit = YamlConfiguration.loadConfiguration(ServerProperties.BUKKIT_YML);
var worlds = bukkit.getConfigurationSection("worlds");
if (worlds == null) return new KSet<>();
var types = new KSet<String>();
for (String world : worlds.getKeys(false)) {
var gen = worlds.getString(world + ".generator");
if (gen == null) continue;
String loadKey;
if (gen.equalsIgnoreCase("iris")) {
loadKey = IrisSettings.get().getGenerator().getDefaultWorldType();
} else if (gen.startsWith("Iris:")) {
loadKey = gen.substring(5);
} else continue;
IrisDimension dimension = Iris.loadDimension(world, loadKey);
if (dimension == null) continue;
types.add(dimension.getDimensionTypeKey());
}
return types;
}
}
@@ -1,7 +1,6 @@
package com.volmit.iris.core.safeguard;
import com.volmit.iris.Iris;
import com.volmit.iris.util.agent.Agent;
import com.volmit.iris.util.format.C;
public class UtilsSFG {
@@ -10,9 +9,7 @@ public class UtilsSFG {
}
public static void printIncompatibleWarnings() {
String[] parts = Iris.instance.getDescription().getVersion().split("-");
String minVersion = parts[1];
String maxVersion = parts[2];
// String SupportedIrisVersion = getDescription().getVersion(); //todo Automatic version
if (ServerBootSFG.safeguardPassed) {
Iris.safeguard(C.BLUE + "0 Conflicts found");
@@ -24,29 +21,29 @@ public class UtilsSFG {
Iris.safeguard(C.YELLOW + "" + ServerBootSFG.count + " Conflicts found");
}
if (ServerBootSFG.incompatibilities.get("Multiverse-Core")) {
Iris.safeguard(C.RED + "Multiverse");
Iris.safeguard(C.RED + "- The plugin Multiverse is not compatible with the server.");
Iris.safeguard(C.RED + "- If you want to have a world manager, consider using PhantomWorlds or MyWorlds instead.");
}
if (ServerBootSFG.incompatibilities.get("dynmap")) {
Iris.safeguard(C.RED + "Dynmap");
Iris.safeguard(C.RED + "- The plugin Dynmap is not compatible with the server.");
Iris.safeguard(C.RED + "- If you want to have a map plugin like Dynmap, consider Bluemap.");
}
if (ServerBootSFG.incompatibilities.get("Stratos")) {
Iris.safeguard(C.YELLOW + "Stratos");
if (ServerBootSFG.incompatibilities.get("TerraformGenerator") || ServerBootSFG.incompatibilities.get("Stratos")) {
Iris.safeguard(C.YELLOW + "Terraform Generator / Stratos");
Iris.safeguard(C.YELLOW + "- Iris is not compatible with other worldgen plugins.");
}
if (ServerBootSFG.unsuportedversion) {
Iris.safeguard(C.RED + "Server Version");
Iris.safeguard(C.RED + "- Iris only supports " + minVersion + " > " + maxVersion);
Iris.safeguard(C.RED + "- Iris only supports 1.20.1 > 1.21.4");
}
if (ServerBootSFG.missingDimensionTypes) {
Iris.safeguard(C.RED + "Dimension Types");
Iris.safeguard(C.RED + "- Required Iris dimension types were not loaded.");
Iris.safeguard(C.RED + "- If this still happens after a restart please contact support.");
}
if (ServerBootSFG.missingAgent) {
Iris.safeguard(C.RED + "Java Agent");
Iris.safeguard(C.RED + "- Please enable dynamic agent loading by adding -XX:+EnableDynamicAgentLoading to your jvm arguments.");
Iris.safeguard(C.RED + "- or add the jvm argument -javaagent:" + Agent.AGENT_JAR.getPath());
}
if (!ServerBootSFG.passedserversoftware) {
Iris.safeguard(C.YELLOW + "Unsupported Server Software");
Iris.safeguard(C.YELLOW + "- Please consider using Paper or Purpur instead.");
@@ -75,10 +75,6 @@ public class ExternalDataSVC implements IrisService {
if (Bukkit.getPluginManager().getPlugin("EcoItems") != null) {
Iris.info("EcoItems found, loading EcoItemsDataProvider...");
}
providers.add(new KGeneratorsDataProvider());
if (Bukkit.getPluginManager().getPlugin("KGenerators") != null) {
Iris.info("KGenerators found, loading KGeneratorsDataProvider...");
}
for (ExternalDataProvider p : providers) {
if (p.isReady()) {
@@ -1,108 +0,0 @@
package com.volmit.iris.core.service;
import com.github.benmanes.caffeine.cache.Cache;
import com.github.benmanes.caffeine.cache.Caffeine;
import com.volmit.iris.core.IrisSettings;
import com.volmit.iris.core.pregenerator.cache.PregenCache;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.plugin.IrisService;
import lombok.NonNull;
import org.bukkit.Bukkit;
import org.bukkit.World;
import org.bukkit.event.EventHandler;
import org.bukkit.event.EventPriority;
import org.bukkit.event.world.ChunkLoadEvent;
import org.bukkit.event.world.WorldInitEvent;
import org.bukkit.event.world.WorldUnloadEvent;
import org.jetbrains.annotations.Nullable;
import java.io.File;
import java.util.function.Function;
public class GlobalCacheSVC implements IrisService {
private static final Cache<String, PregenCache> REFERENCE_CACHE = Caffeine.newBuilder().weakValues().build();
private final KMap<String, PregenCache> globalCache = new KMap<>();
private transient boolean lastState;
private static boolean disabled = true;
@Override
public void onEnable() {
disabled = false;
lastState = !IrisSettings.get().getWorld().isGlobalPregenCache();
if (lastState) return;
Bukkit.getWorlds().forEach(this::createCache);
}
@Override
public void onDisable() {
disabled = true;
globalCache.qclear((world, cache) -> cache.write());
}
@Nullable
public PregenCache get(@NonNull World world) {
return globalCache.get(world.getName());
}
@Nullable
public PregenCache get(@NonNull String world) {
return globalCache.get(world);
}
@EventHandler(priority = EventPriority.MONITOR)
public void on(WorldInitEvent event) {
if (isDisabled()) return;
createCache(event.getWorld());
}
@EventHandler(priority = EventPriority.MONITOR)
public void on(WorldUnloadEvent event) {
var cache = globalCache.remove(event.getWorld().getName());
if (cache == null) return;
cache.write();
}
@EventHandler(priority = EventPriority.MONITOR)
public void on(ChunkLoadEvent event) {
var cache = get(event.getWorld());
if (cache == null) return;
cache.cacheChunk(event.getChunk().getX(), event.getChunk().getZ());
}
private void createCache(World world) {
globalCache.computeIfAbsent(world.getName(), GlobalCacheSVC::createDefault);
}
private boolean isDisabled() {
boolean conf = IrisSettings.get().getWorld().isGlobalPregenCache();
if (lastState != conf)
return lastState;
if (conf) {
Bukkit.getWorlds().forEach(this::createCache);
} else {
globalCache.values().removeIf(cache -> {
cache.write();
return true;
});
}
return lastState = !conf;
}
@NonNull
public static PregenCache createCache(@NonNull String worldName, @NonNull Function<String, PregenCache> provider) {
return REFERENCE_CACHE.get(worldName, provider);
}
@NonNull
public static PregenCache createDefault(@NonNull String worldName) {
return createCache(worldName, GlobalCacheSVC::createDefault0);
}
private static PregenCache createDefault0(String worldName) {
if (disabled) return PregenCache.EMPTY;
return PregenCache.create(new File(Bukkit.getWorldContainer(), String.join(File.separator, worldName, "iris", "pregen"))).sync();
}
}
@@ -1,246 +1,317 @@
package com.volmit.iris.core.service;
import com.google.common.util.concurrent.AtomicDouble;
import com.volmit.iris.Iris;
import com.volmit.iris.core.IrisSettings;
import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.core.tools.IrisToolbelt;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.engine.platform.PlatformChunkGenerator;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.format.C;
import com.volmit.iris.util.format.Form;
import com.volmit.iris.util.math.RNG;
import com.volmit.iris.util.mantle.TectonicPlate;
import com.volmit.iris.util.misc.getHardware;
import com.volmit.iris.util.plugin.IrisService;
import com.volmit.iris.util.plugin.VolmitSender;
import com.volmit.iris.util.scheduling.ChronoLatch;
import com.volmit.iris.util.scheduling.Looper;
import lombok.Synchronized;
import com.volmit.iris.util.scheduling.PrecisionStopwatch;
import org.bukkit.Bukkit;
import org.bukkit.World;
import org.bukkit.event.EventHandler;
import org.bukkit.event.server.PluginDisableEvent;
import org.bukkit.event.server.ServerLoadEvent;
import org.bukkit.event.world.WorldLoadEvent;
import org.bukkit.event.world.WorldUnloadEvent;
import org.jetbrains.annotations.Nullable;
import org.checkerframework.checker.units.qual.A;
import java.util.concurrent.*;
import java.util.*;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicLong;
import java.util.concurrent.locks.ReentrantLock;
import java.util.function.Supplier;
public class IrisEngineSVC implements IrisService {
private final AtomicInteger tectonicLimit = new AtomicInteger(30);
private final AtomicInteger tectonicPlates = new AtomicInteger();
private final AtomicInteger queuedTectonicPlates = new AtomicInteger();
private final AtomicInteger trimmerAlive = new AtomicInteger();
private final AtomicInteger unloaderAlive = new AtomicInteger();
private final AtomicInteger totalWorlds = new AtomicInteger();
private final AtomicDouble maxIdleDuration = new AtomicDouble();
private final AtomicDouble minIdleDuration = new AtomicDouble();
private final AtomicLong loadedChunks = new AtomicLong();
private final KMap<World, Registered> worlds = new KMap<>();
private ScheduledExecutorService service;
public static IrisEngineSVC instance;
public boolean isServerShuttingDown = false;
public boolean isServerLoaded = false;
private static final AtomicInteger tectonicLimit = new AtomicInteger(30);
private ReentrantLock lastUseLock;
private KMap<World, Long> lastUse;
private List<World> IrisWorlds;
private Looper cacheTicker;
private Looper trimTicker;
private Looper unloadTicker;
private Looper updateTicker;
private PrecisionStopwatch trimAlive;
private PrecisionStopwatch unloadAlive;
public PrecisionStopwatch trimActiveAlive;
public PrecisionStopwatch unloadActiveAlive;
private AtomicInteger TotalTectonicPlates;
private AtomicInteger TotalQueuedTectonicPlates;
private AtomicInteger TotalNotQueuedTectonicPlates;
private AtomicBoolean IsUnloadAlive;
private AtomicBoolean IsTrimAlive;
ChronoLatch cl;
public List<World> corruptedIrisWorlds = new ArrayList<>();
@Override
public void onEnable() {
var settings = IrisSettings.get().getPerformance();
var engine = settings.getEngineSVC();
service = Executors.newScheduledThreadPool(0,
(engine.isUseVirtualThreads()
? Thread.ofVirtual()
: Thread.ofPlatform().priority(engine.getPriority()))
.name("Iris EngineSVC-", 0)
.factory());
tectonicLimit.set(settings.getTectonicPlateSize());
Bukkit.getWorlds().forEach(this::add);
setup();
this.cl = new ChronoLatch(5000);
lastUse = new KMap<>();
lastUseLock = new ReentrantLock();
IrisWorlds = new ArrayList<>();
IsUnloadAlive = new AtomicBoolean(true);
IsTrimAlive = new AtomicBoolean(true);
trimActiveAlive = new PrecisionStopwatch();
unloadActiveAlive = new PrecisionStopwatch();
trimAlive = new PrecisionStopwatch();
unloadAlive = new PrecisionStopwatch();
TotalTectonicPlates = new AtomicInteger();
TotalQueuedTectonicPlates = new AtomicInteger();
TotalNotQueuedTectonicPlates = new AtomicInteger();
tectonicLimit.set(2);
long t = getHardware.getProcessMemory();
while (t > 200) {
tectonicLimit.getAndAdd(1);
t = t - 200;
}
this.setup();
this.TrimLogic();
this.UnloadLogic();
trimAlive.begin();
unloadAlive.begin();
trimActiveAlive.begin();
unloadActiveAlive.begin();
updateTicker.start();
cacheTicker.start();
//trimTicker.start();
//unloadTicker.start();
instance = this;
}
@Override
public void onDisable() {
service.shutdown();
updateTicker.interrupt();
worlds.keySet().forEach(this::remove);
worlds.clear();
public void engineStatus() {
boolean trimAlive = trimTicker.isAlive();
boolean unloadAlive = unloadTicker.isAlive();
Iris.info("Status:");
Iris.info("- Trim: " + trimAlive);
Iris.info("- Unload: " + unloadAlive);
}
public void engineStatus(VolmitSender sender) {
sender.sendMessage(C.DARK_PURPLE + "-------------------------");
sender.sendMessage(C.DARK_PURPLE + "Status:");
sender.sendMessage(C.DARK_PURPLE + "- Service: " + C.LIGHT_PURPLE + (service.isShutdown() ? "Shutdown" : "Running"));
sender.sendMessage(C.DARK_PURPLE + "- Updater: " + C.LIGHT_PURPLE + (updateTicker.isAlive() ? "Running" : "Stopped"));
sender.sendMessage(C.DARK_PURPLE + "- Trimmers: " + C.LIGHT_PURPLE + trimmerAlive.get());
sender.sendMessage(C.DARK_PURPLE + "- Unloaders: " + C.LIGHT_PURPLE + unloaderAlive.get());
sender.sendMessage(C.DARK_PURPLE + "Tectonic Plates:");
sender.sendMessage(C.DARK_PURPLE + "- Limit: " + C.LIGHT_PURPLE + tectonicLimit.get());
sender.sendMessage(C.DARK_PURPLE + "- Total: " + C.LIGHT_PURPLE + tectonicPlates.get());
sender.sendMessage(C.DARK_PURPLE + "- Queued: " + C.LIGHT_PURPLE + queuedTectonicPlates.get());
sender.sendMessage(C.DARK_PURPLE + "- Max Idle Duration: " + C.LIGHT_PURPLE + Form.duration(maxIdleDuration.get(), 2));
sender.sendMessage(C.DARK_PURPLE + "- Min Idle Duration: " + C.LIGHT_PURPLE + Form.duration(minIdleDuration.get(), 2));
sender.sendMessage(C.DARK_PURPLE + "Other:");
sender.sendMessage(C.DARK_PURPLE + "- Iris Worlds: " + C.LIGHT_PURPLE + totalWorlds.get());
sender.sendMessage(C.DARK_PURPLE + "- Loaded Chunks: " + C.LIGHT_PURPLE + loadedChunks.get());
sender.sendMessage(C.DARK_PURPLE + "- Cache Size: " + C.LIGHT_PURPLE + Form.f(IrisData.cacheSize()));
sender.sendMessage(C.DARK_PURPLE + "-------------------------");
public static int getTectonicLimit() {
return tectonicLimit.get();
}
@EventHandler
public void onWorldUnload(WorldUnloadEvent event) {
remove(event.getWorld());
updateWorlds();
}
@EventHandler
public void onWorldLoad(WorldLoadEvent event) {
add(event.getWorld());
updateWorlds();
}
private void remove(World world) {
var entry = worlds.remove(world);
if (entry == null) return;
entry.close();
@EventHandler
public void onServerBoot(ServerLoadEvent event) {
isServerLoaded = true;
}
private void add(World world) {
var access = IrisToolbelt.access(world);
if (access == null) return;
worlds.put(world, new Registered(world.getName(), access));
@EventHandler
public void onPluginDisable(PluginDisableEvent event) {
if (event.getPlugin().equals(Iris.instance)) {
isServerShuttingDown = true;
}
}
private synchronized void setup() {
if (updateTicker != null && updateTicker.isAlive())
return;
public void updateWorlds() {
for (World world : Bukkit.getWorlds()) {
try {
if (IrisToolbelt.access(world).getEngine() != null) {
IrisWorlds.add(world);
}
} catch (Exception e) {
// no
}
}
}
private void setup() {
cacheTicker = new Looper() {
@Override
protected long loop() {
long now = System.currentTimeMillis();
lastUseLock.lock();
try {
for (World key : new ArrayList<>(lastUse.keySet())) {
Long last = lastUse.get(key);
if (last == null)
continue;
if (now - last > 60000) {
lastUse.remove(key);
}
}
} finally {
lastUseLock.unlock();
}
return 1000;
}
};
updateTicker = new Looper() {
@Override
protected long loop() {
try {
queuedTectonicPlates.set(0);
tectonicPlates.set(0);
loadedChunks.set(0);
unloaderAlive.set(0);
trimmerAlive.set(0);
totalWorlds.set(0);
double maxDuration = Long.MIN_VALUE;
double minDuration = Long.MAX_VALUE;
for (var entry : worlds.entrySet()) {
var registered = entry.getValue();
if (registered.closed) continue;
totalWorlds.incrementAndGet();
unloaderAlive.addAndGet(registered.unloaderAlive() ? 1 : 0);
trimmerAlive.addAndGet(registered.trimmerAlive() ? 1 : 0);
var engine = registered.getEngine();
if (engine == null) continue;
queuedTectonicPlates.addAndGet((int) engine.getMantle().getUnloadRegionCount());
tectonicPlates.addAndGet(engine.getMantle().getLoadedRegionCount());
loadedChunks.addAndGet(entry.getKey().getLoadedChunks().length);
double duration = engine.getMantle().getAdjustedIdleDuration();
if (duration > maxDuration) maxDuration = duration;
if (duration < minDuration) minDuration = duration;
TotalQueuedTectonicPlates.set(0);
TotalNotQueuedTectonicPlates.set(0);
TotalTectonicPlates.set(0);
for (World world : IrisWorlds) {
Engine engine = Objects.requireNonNull(IrisToolbelt.access(world)).getEngine();
TotalQueuedTectonicPlates.addAndGet((int) engine.getMantle().getToUnload());
TotalNotQueuedTectonicPlates.addAndGet((int) engine.getMantle().getNotQueuedLoadedRegions());
TotalTectonicPlates.addAndGet(engine.getMantle().getLoadedRegionCount());
}
maxIdleDuration.set(maxDuration);
minIdleDuration.set(minDuration);
if (!isServerShuttingDown && isServerLoaded) {
if (!trimTicker.isAlive()) {
Iris.info(C.RED + "TrimTicker found dead! Booting it up!");
try {
TrimLogic();
} catch (Exception e) {
Iris.error("What happened?");
e.printStackTrace();
}
}
worlds.values().forEach(Registered::update);
} catch (Throwable e) {
e.printStackTrace();
if (!unloadTicker.isAlive()) {
Iris.info(C.RED + "UnloadTicker found dead! Booting it up!");
try {
UnloadLogic();
} catch (Exception e) {
Iris.error("What happened?");
e.printStackTrace();
}
}
}
} catch (Exception e) {
return -1;
}
return 1000;
}
};
updateTicker.start();
}
public void TrimLogic() {
if (trimTicker == null || !trimTicker.isAlive()) {
trimTicker = new Looper() {
private final Supplier<Engine> supplier = createSupplier();
private final class Registered {
private final String name;
private final PlatformChunkGenerator access;
private transient ScheduledFuture<?> trimmer;
private transient ScheduledFuture<?> unloader;
private transient boolean closed;
private Registered(String name, PlatformChunkGenerator access) {
this.name = name;
this.access = access;
update();
}
private boolean unloaderAlive() {
return unloader != null && !unloader.isDone() && !unloader.isCancelled();
}
private boolean trimmerAlive() {
return trimmer != null && !trimmer.isDone() && !trimmer.isCancelled();
}
@Synchronized
private void update() {
if (closed || service == null || service.isShutdown())
return;
if (trimmer == null || trimmer.isDone() || trimmer.isCancelled()) {
trimmer = service.scheduleAtFixedRate(() -> {
Engine engine = getEngine();
if (engine == null || !engine.getMantle().getMantle().shouldReduce(engine))
return;
@Override
protected long loop() {
long start = System.currentTimeMillis();
trimAlive.reset();
try {
engine.getMantle().trim(tectonicLimit());
} catch (Throwable e) {
Iris.reportError(e);
Iris.error("EngineSVC: Failed to trim for " + name);
e.printStackTrace();
}
}, RNG.r.nextInt(1000), 1000, TimeUnit.MILLISECONDS);
}
if (unloader == null || unloader.isDone() || unloader.isCancelled()) {
unloader = service.scheduleAtFixedRate(() -> {
Engine engine = getEngine();
if (engine == null || !engine.getMantle().getMantle().shouldReduce(engine))
return;
try {
long unloadStart = System.currentTimeMillis();
int count = engine.getMantle().unloadTectonicPlate(tectonicLimit());
if (count > 0) {
Iris.debug(C.GOLD + "Unloaded " + C.YELLOW + count + " TectonicPlates in " + C.RED + Form.duration(System.currentTimeMillis() - unloadStart, 2));
Engine engine = supplier.get();
if (engine != null) {
engine.getMantle().trim(tectonicLimit.get() / lastUse.size());
}
} catch (Throwable e) {
Iris.reportError(e);
Iris.error("EngineSVC: Failed to unload for " + name);
Iris.info(C.RED + "EngineSVC: Failed to trim.");
e.printStackTrace();
return -1;
}
}, RNG.r.nextInt(1000), 1000, TimeUnit.MILLISECONDS);
}
}
private int tectonicLimit() {
return tectonicLimit.get() / Math.max(worlds.size(), 1);
}
@Synchronized
private void close() {
if (closed) return;
closed = true;
if (trimmer != null) {
trimmer.cancel(false);
trimmer = null;
}
if (unloader != null) {
unloader.cancel(false);
unloader = null;
}
}
@Nullable
private Engine getEngine() {
if (closed) return null;
return access.getEngine();
int size = lastUse.size();
long time = (size > 0 ? 1000 / size : 1000) - (System.currentTimeMillis() - start);
if (time <= 0)
return 0;
return time;
}
};
trimTicker.start();
}
}
public void UnloadLogic() {
if (unloadTicker == null || !unloadTicker.isAlive()) {
unloadTicker = new Looper() {
private final Supplier<Engine> supplier = createSupplier();
@Override
protected long loop() {
long start = System.currentTimeMillis();
unloadAlive.reset();
try {
Engine engine = supplier.get();
if (engine != null) {
long unloadStart = System.currentTimeMillis();
int count = engine.getMantle().unloadTectonicPlate(tectonicLimit.get() / lastUse.size());
if (count > 0) {
Iris.debug(C.GOLD + "Unloaded " + C.YELLOW + count + " TectonicPlates in " + C.RED + Form.duration(System.currentTimeMillis() - unloadStart, 2));
}
}
} catch (Throwable e) {
Iris.reportError(e);
Iris.info(C.RED + "EngineSVC: Failed to unload.");
e.printStackTrace();
return -1;
}
int size = lastUse.size();
long time = (size > 0 ? 1000 / size : 1000) - (System.currentTimeMillis() - start);
if (time <= 0)
return 0;
return time;
}
};
unloadTicker.start();
}
}
private Supplier<Engine> createSupplier() {
AtomicInteger i = new AtomicInteger();
return () -> {
List<World> worlds = Bukkit.getWorlds();
if (i.get() >= worlds.size()) {
i.set(0);
}
try {
for (int j = 0; j < worlds.size(); j++) {
World world = worlds.get(i.getAndIncrement());
PlatformChunkGenerator generator = IrisToolbelt.access(world);
if (i.get() >= worlds.size()) {
i.set(0);
}
if (generator != null) {
Engine engine = generator.getEngine();
boolean closed = engine.getMantle().getData().isClosed();
if (engine != null && !engine.isStudio() && !closed) {
lastUseLock.lock();
lastUse.put(world, System.currentTimeMillis());
lastUseLock.unlock();
return engine;
}
}
}
} catch (Throwable e) {
Iris.info(C.RED + "EngineSVC: Failed to create supplier.");
e.printStackTrace();
Iris.reportError(e);
}
return null;
};
}
@Override
public void onDisable() {
cacheTicker.interrupt();
trimTicker.interrupt();
unloadTicker.interrupt();
lastUse.clear();
}
}
@@ -18,6 +18,7 @@
package com.volmit.iris.core.service;
import com.google.gson.Gson;
import com.google.gson.JsonSyntaxException;
import com.volmit.iris.Iris;
import com.volmit.iris.core.IrisSettings;
@@ -249,25 +250,30 @@ public class StudioSVC implements IrisService {
return;
}
IrisData data = IrisData.get(dir);
String[] dimensions = data.getDimensionLoader().getPossibleKeys();
File dimensions = new File(dir, "dimensions");
if (dimensions == null || dimensions.length == 0) {
if (!(dimensions.exists() && dimensions.isDirectory())) {
sender.sendMessage("Invalid Format. Missing dimensions folder");
return;
}
if (dimensions.listFiles() == null) {
sender.sendMessage("No dimension file found in the extracted zip file.");
sender.sendMessage("Check it is there on GitHub and report this to staff!");
} else if (dimensions.length != 1) {
} else if (dimensions.listFiles().length != 1) {
sender.sendMessage("Dimensions folder must have 1 file in it");
return;
}
IrisDimension d = data.getDimensionLoader().load(dimensions[0]);
File dim = dimensions.listFiles()[0];
if (d == null) {
if (!dim.isFile()) {
sender.sendMessage("Invalid dimension (folder) in dimensions folder");
return;
}
String key = d.getLoadKey();
String key = dim.getName().split("\\Q.\\E")[0];
IrisDimension d = new Gson().fromJson(IO.readAll(dim), IrisDimension.class);
sender.sendMessage("Importing " + d.getName() + " (" + key + ")");
File packEntry = new File(packs, key);
@@ -51,7 +51,6 @@ import org.bukkit.util.Vector;
import java.awt.Color;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Objects;
import java.util.concurrent.CountDownLatch;
@@ -81,8 +80,6 @@ public class WandSVC implements IrisService {
try {
Location[] f = getCuboid(p);
if (f == null || f[0] == null || f[1] == null)
return null;
Cuboid c = new Cuboid(f[0], f[1]);
IrisObject s = new IrisObject(c.getSizeX(), c.getSizeY(), c.getSizeZ());
@@ -201,9 +198,7 @@ public class WandSVC implements IrisService {
public static Location stringToLocation(String s) {
try {
String[] f = s.split("\\Q in \\E");
if (f.length != 2) return null;
String[] g = f[0].split("\\Q,\\E");
if (g.length != 3) return null;
return new Location(Bukkit.getWorld(f[1]), Integer.parseInt(g[0]), Integer.parseInt(g[1]), Integer.parseInt(g[2]));
} catch (Throwable e) {
Iris.reportError(e);
@@ -362,7 +357,6 @@ public class WandSVC implements IrisService {
try {
if ((IrisSettings.get().getWorld().worldEditWandCUI && isHoldingWand(p)) || isWand(p.getInventory().getItemInMainHand())) {
Location[] d = getCuboid(p);
if (d == null || d[0] == null || d[1] == null) return;
new WandSelection(new Cuboid(d[0], d[1]), p).draw();
}
} catch (Throwable e) {
@@ -0,0 +1,625 @@
package com.volmit.iris.core.tools;
import com.volmit.iris.Iris;
import com.volmit.iris.util.format.C;
import oshi.SystemInfo;
import oshi.hardware.CentralProcessor;
import oshi.hardware.GlobalMemory;
import oshi.hardware.HWDiskStore;
import oshi.software.os.OperatingSystem;
import java.io.*;
import java.lang.management.ManagementFactory;
import java.lang.management.MemoryMXBean;
import java.lang.management.MemoryUsage;
import java.security.SecureRandom;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Base64;
import java.util.List;
import java.util.concurrent.atomic.AtomicReference;
import java.util.stream.IntStream;
import java.util.zip.Deflater;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ExecutionException;
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
import static com.google.common.math.LongMath.isPrime;
import static com.volmit.iris.util.misc.getHardware.getCPUModel;
public class IrisBenchmarking {
static String ServerOS;
static String filePath = "benchmark.dat";
static double avgWriteSpeedMBps;
static double avgReadSpeedMBps;
static double highestWriteSpeedMBps;
static double highestReadSpeedMBps;
static double lowestWriteSpeedMBps;
static double lowestReadSpeedMBps;
static double calculateIntegerMath;
static double calculateFloatingPoint;
static double calculatePrimeNumbers;
static double calculateStringSorting;
static double calculateDataEncryption;
static double calculateDataCompression;
static String currentRunning = "None";
static int BenchmarksCompleted = 0;
static int BenchmarksTotal = 7;
static int totalTasks = 10;
static int currentTasks = 0;
static double WindowsCPUCompression;
static double WindowsCPUEncryption;
static double WindowsCPUCSHA1;
static double elapsedTimeNs;
static boolean Winsat = false;
static boolean WindowsDiskSpeed = false;
public static boolean inProgress = false;
static double startTime;
// Good enough for now. . .
public static void runBenchmark() throws InterruptedException {
inProgress = true;
getServerOS();
deleteTestFile(filePath);
AtomicReference<Double> doneCalculateDiskSpeed = new AtomicReference<>((double) 0);
startBenchmarkTimer();
Iris.info("Benchmark Started!");
Iris.warn("Although it may seem momentarily paused, it's actively processing.");
BenchmarksCompleted = 0;
CompletableFuture<Void> future = CompletableFuture.runAsync(() -> {
currentRunning = "calculateDiskSpeed";
progressBar();
if (ServerOS.contains("Windows") && isRunningAsAdmin()) {
WindowsDiskSpeed = true;
WindowsDiskSpeedTest();
} else {
warningFallback();
try {
Thread.sleep(10);
} catch (InterruptedException e) {
throw new RuntimeException(e);
}
doneCalculateDiskSpeed.set(roundToTwoDecimalPlaces(calculateDiskSpeed()));
BenchmarksCompleted++;
}
}).thenRun(() -> {
currentRunning = "WindowsCpuSpeedTest";
progressBar();
if (ServerOS.contains("Windows") && isRunningAsAdmin()) {
Winsat = true;
WindowsCpuSpeedTest();
} else {
Iris.info("Skipping:" + C.BLUE + " Windows System Assessment Tool Benchmarks");
if (!ServerOS.contains("Windows")) {
Iris.info("Required Software:" + C.BLUE + " Windows");
BenchmarksTotal = 6;
}
if (!isRunningAsAdmin()) {
Iris.info(C.RED + "ERROR: " + C.DARK_RED + "Elevated privileges missing");
BenchmarksTotal = 6;
}
}
}).thenRun(() -> {
currentRunning = "calculateIntegerMath";
progressBar();
calculateIntegerMath = roundToTwoDecimalPlaces(calculateIntegerMath());
BenchmarksCompleted++;
}).thenRun(() -> {
currentRunning = "calculateFloatingPoint";
progressBar();
calculateFloatingPoint = roundToTwoDecimalPlaces(calculateFloatingPoint());
BenchmarksCompleted++;
}).thenRun(() -> {
currentRunning = "calculateStringSorting";
progressBar();
calculateStringSorting = roundToTwoDecimalPlaces(calculateStringSorting());
BenchmarksCompleted++;
}).thenRun(() -> {
currentRunning = "calculatePrimeNumbers";
progressBar();
calculatePrimeNumbers = roundToTwoDecimalPlaces(calculatePrimeNumbers());
BenchmarksCompleted++;
}).thenRun(() -> {
currentRunning = "calculateDataEncryption";
progressBar();
calculateDataEncryption = roundToTwoDecimalPlaces(calculateDataEncryption());
BenchmarksCompleted++;
}).thenRun(() -> {
currentRunning = "calculateDataCompression";
progressBar();
calculateDataCompression = roundToTwoDecimalPlaces(calculateDataCompression());
BenchmarksCompleted++;
}).thenRun(() -> {
elapsedTimeNs = stopBenchmarkTimer();
results();
inProgress = false;
});
try {
future.get();
} catch (InterruptedException | ExecutionException e) {
e.printStackTrace();
}
}
public static void progressBar() {
Iris.info("-----------------------------------------------------");
Iris.info("Currently Running: " + C.BLUE + currentRunning);
// Iris.info("Tasks: " + "Current Tasks: " + C.BLUE + currentTasks + C.WHITE + " / " + "Total Tasks: " + C.BLUE + totalTasks);
Iris.info("Benchmarks Completed: " + C.BLUE + BenchmarksCompleted + C.WHITE + " / " + "Total: " + C.BLUE + BenchmarksTotal);
Iris.info("-----------------------------------------------------");
}
public static void results() {
SystemInfo systemInfo = new SystemInfo();
GlobalMemory globalMemory = systemInfo.getHardware().getMemory();
long totalMemoryMB = globalMemory.getTotal() / (1024 * 1024);
long availableMemoryMB = globalMemory.getAvailable() / (1024 * 1024);
long totalPageSize = globalMemory.getPageSize() / (1024 * 1024);
long usedMemoryMB = totalMemoryMB - availableMemoryMB;
MemoryMXBean memoryMXBean = ManagementFactory.getMemoryMXBean();
Iris.info("OS: " + ServerOS);
if (!isRunningAsAdmin() || !ServerOS.contains("Windows")) {
Iris.info(C.GOLD + "For the full results use Windows + Admin Rights..");
}
Iris.info("CPU Model: " + getCPUModel());
Iris.info("CPU Score: " + "WIP");
Iris.info("- Integer Math: " + calculateIntegerMath + " MOps/Sec");
Iris.info("- Floating Point Math: " + calculateFloatingPoint + " MOps/Sec");
Iris.info("- Find Prime Numbers: " + calculatePrimeNumbers + " Primes/Sec");
Iris.info("- Random String Sorting: " + calculateStringSorting + " Thousand Strings/Sec");
Iris.info("- Data Encryption: " + formatDouble(calculateDataEncryption) + " MBytes/Sec");
Iris.info("- Data Compression: " + formatDouble(calculateDataCompression) + " MBytes/Sec");
if (WindowsDiskSpeed) {
//Iris.info("Disk Model: " + getDiskModel());
Iris.info(C.BLUE + "- Running with Windows System Assessment Tool");
Iris.info("- Sequential 64.0 Write: " + C.BLUE + formatDouble(avgWriteSpeedMBps) + " Mbps");
Iris.info("- Sequential 64.0 Read: " + C.BLUE + formatDouble(avgReadSpeedMBps) + " Mbps");
} else {
// Iris.info("Disk Model: " + getDiskModel());
Iris.info(C.GREEN + "- Running in Native Mode");
Iris.info("- Average Write Speed: " + C.GREEN + formatDouble(avgWriteSpeedMBps) + " Mbps");
Iris.info("- Average Read Speed: " + C.GREEN + formatDouble(avgReadSpeedMBps) + " Mbps");
Iris.info("- Highest Write Speed: " + formatDouble(highestWriteSpeedMBps) + " Mbps");
Iris.info("- Highest Read Speed: " + formatDouble(highestReadSpeedMBps) + " Mbps");
Iris.info("- Lowest Write Speed: " + formatDouble(lowestWriteSpeedMBps) + " Mbps");
Iris.info("- Lowest Read Speed: " + formatDouble(lowestReadSpeedMBps) + " Mbps");
}
Iris.info("Ram Usage: ");
Iris.info("- Total Ram: " + totalMemoryMB + " MB");
Iris.info("- Used Ram: " + usedMemoryMB + " MB");
Iris.info("- Total Process Ram: " + C.BLUE + getMaxMemoryUsage() + " MB");
Iris.info("- Total Paging Size: " + totalPageSize + " MB");
if (Winsat) {
Iris.info(C.BLUE + "Windows System Assessment Tool: ");
Iris.info("- CPU LZW Compression:" + C.BLUE + formatDouble(WindowsCPUCompression) + " MB/s");
Iris.info("- CPU AES256 Encryption: " + C.BLUE + formatDouble(WindowsCPUEncryption) + " MB/s");
Iris.info("- CPU SHA1 Hash: " + C.BLUE + formatDouble(WindowsCPUCSHA1) + " MB/s");
Iris.info("Duration: " + roundToTwoDecimalPlaces(elapsedTimeNs) + " Seconds");
}
}
public static long getMaxMemoryUsage() {
MemoryMXBean memoryMXBean = ManagementFactory.getMemoryMXBean();
MemoryUsage heapMemoryUsage = memoryMXBean.getHeapMemoryUsage();
MemoryUsage nonHeapMemoryUsage = memoryMXBean.getNonHeapMemoryUsage();
long maxHeapMemory = heapMemoryUsage.getMax();
long maxNonHeapMemory = nonHeapMemoryUsage.getMax();
long maxMemoryUsageMB = (maxHeapMemory + maxNonHeapMemory) / (1024 * 1024);
return maxMemoryUsageMB;
}
public static void getServerOS() {
SystemInfo systemInfo = new SystemInfo();
OperatingSystem os = systemInfo.getOperatingSystem();
ServerOS = os.toString();
}
public static boolean isRunningAsAdmin() {
if (ServerOS.contains("Windows")) {
try {
Process process = Runtime.getRuntime().exec("winsat disk");
process.waitFor();
return process.exitValue() == 0;
} catch (IOException | InterruptedException e) {
// Hmm
}
}
return false;
}
public static void warningFallback() {
Iris.info(C.RED + "Using the " + C.DARK_RED + "FALLBACK" + C.RED + " method due to compatibility issues. ");
Iris.info(C.RED + "Please note that this may result in less accurate results.");
}
private static String formatDouble(double value) {
return String.format("%.2f", value);
}
private static void startBenchmarkTimer() {
startTime = System.nanoTime();
}
private static double stopBenchmarkTimer() {
long endTime = System.nanoTime();
return (endTime - startTime) / 1_000_000_000.0;
}
private static double calculateIntegerMath() {
final int numIterations = 1_000_000_000;
final int numRuns = 30;
double totalMopsPerSec = 0;
for (int run = 0; run < numRuns; run++) {
long startTime = System.nanoTime();
int result = 0;
for (int i = 0; i < numIterations; i++) {
result += i * 2;
result -= i / 2;
result ^= i;
result <<= 1;
result >>= 1;
}
long endTime = System.nanoTime();
double elapsedSeconds = (endTime - startTime) / 1_000_000_000.0;
double mopsPerSec = (numIterations / elapsedSeconds) / 1_000_000.0;
totalMopsPerSec += mopsPerSec;
}
double averageMopsPerSec = totalMopsPerSec / numRuns;
return averageMopsPerSec;
}
private static double calculateFloatingPoint() {
long numIterations = 85_000_000;
int numRuns = 30;
double totalMopsPerSec = 0;
for (int run = 0; run < numRuns; run++) {
double result = 0;
long startTime = System.nanoTime();
for (int i = 0; i < numIterations; i++) {
result += Math.sqrt(i) * Math.sin(i) / (i + 1);
}
long endTime = System.nanoTime();
double elapsedSeconds = (endTime - startTime) / 1_000_000_000.0;
double mopsPerSec = (numIterations / elapsedSeconds) / 1_000_000.0;
totalMopsPerSec += mopsPerSec;
}
double averageMopsPerSec = totalMopsPerSec / numRuns;
return averageMopsPerSec;
}
private static double calculatePrimeNumbers() {
int primeCount;
long numIterations = 1_000_000;
int numRuns = 30;
double totalMopsPerSec = 0;
for (int run = 0; run < numRuns; run++) {
primeCount = 0;
long startTime = System.nanoTime();
for (int num = 2; primeCount < numIterations; num++) {
if (isPrime(num)) {
primeCount++;
}
}
long endTime = System.nanoTime();
double elapsedSeconds = (endTime - startTime) / 1_000_000_000.0;
double mopsPerSec = (primeCount / elapsedSeconds) / 1_000_000.0;
totalMopsPerSec += mopsPerSec;
}
double averageMopsPerSec = totalMopsPerSec / numRuns;
return averageMopsPerSec;
}
private static double calculateStringSorting() {
int stringCount = 1_000_000;
int stringLength = 100;
int numRuns = 30;
double totalMopsPerSec = 0;
for (int run = 0; run < numRuns; run++) {
List<String> randomStrings = generateRandomStrings(stringCount, stringLength);
long startTime = System.nanoTime();
randomStrings.sort(String::compareTo);
long endTime = System.nanoTime();
double elapsedSeconds = (endTime - startTime) / 1_000_000_000.0;
double mopsPerSec = (stringCount / elapsedSeconds) / 1_000.0;
totalMopsPerSec += mopsPerSec;
}
double averageMopsPerSec = totalMopsPerSec / numRuns;
return averageMopsPerSec;
}
public static double calculateDataEncryption() {
int dataSizeMB = 100;
byte[] dataToEncrypt = generateRandomData(dataSizeMB * 1024 * 1024);
int numRuns = 20;
double totalMBytesPerSec = 0;
for (int run = 0; run < numRuns; run++) {
long startTime = System.nanoTime();
byte[] encryptedData = performEncryption(dataToEncrypt, 1);
long endTime = System.nanoTime();
double elapsedSeconds = (endTime - startTime) / 1_000_000_000.0;
double mbytesPerSec = (dataToEncrypt.length / (1024 * 1024.0)) / elapsedSeconds;
totalMBytesPerSec += mbytesPerSec;
}
double averageMBytesPerSec = totalMBytesPerSec / numRuns;
return averageMBytesPerSec;
}
private static byte[] performEncryption(byte[] data, int numRuns) {
byte[] key = "MyEncryptionKey".getBytes();
byte[] result = Arrays.copyOf(data, data.length);
for (int run = 0; run < numRuns; run++) {
for (int i = 0; i < result.length; i++) {
result[i] ^= key[i % key.length];
}
}
return result;
}
public static double calculateDataCompression() {
int dataSizeMB = 500;
byte[] dataToCompress = generateRandomData(dataSizeMB * 1024 * 1024);
long startTime = System.nanoTime();
byte[] compressedData = performCompression(dataToCompress);
long endTime = System.nanoTime();
double elapsedSeconds = (endTime - startTime) / 1e9;
double mbytesPerSec = (compressedData.length / (1024.0 * 1024.0)) / elapsedSeconds;
return mbytesPerSec;
}
private static byte[] performCompression(byte[] data) {
Deflater deflater = new Deflater();
deflater.setInput(data);
deflater.finish();
ByteArrayOutputStream outputStream = new ByteArrayOutputStream(data.length);
byte[] buffer = new byte[1024];
while (!deflater.finished()) {
int count = deflater.deflate(buffer);
outputStream.write(buffer, 0, count);
}
deflater.end();
return outputStream.toByteArray();
}
private static List<String> generateRandomStrings(int count, int length) {
SecureRandom random = new SecureRandom();
List<String> randomStrings = new ArrayList<>();
IntStream.range(0, count).forEach(i -> {
byte[] bytes = new byte[length];
random.nextBytes(bytes);
randomStrings.add(Base64.getEncoder().encodeToString(bytes));
});
return randomStrings;
}
private static byte[] generateRandomData(int size) {
SecureRandom random = new SecureRandom();
byte[] data = new byte[size];
random.nextBytes(data);
return data;
}
private static double roundToTwoDecimalPlaces(double value) {
return Double.parseDouble(String.format("%.2f", value));
}
private static double calculateCPUScore(long elapsedTimeNs) {
return 1.0 / (elapsedTimeNs / 1_000_000.0);
}
public static double calculateDiskSpeed() {
int numRuns = 10;
int fileSizeMB = 1000;
double[] writeSpeeds = new double[numRuns];
double[] readSpeeds = new double[numRuns];
for (int run = 0; run < numRuns; run++) {
long writeStartTime = System.nanoTime();
deleteTestFile(filePath);
createTestFile(filePath, fileSizeMB);
long writeEndTime = System.nanoTime();
long readStartTime = System.nanoTime();
readTestFile(filePath);
long readEndTime = System.nanoTime();
double writeSpeed = calculateDiskSpeedMBps(fileSizeMB, writeStartTime, writeEndTime);
double readSpeed = calculateDiskSpeedMBps(fileSizeMB, readStartTime, readEndTime);
writeSpeeds[run] = writeSpeed;
readSpeeds[run] = readSpeed;
if (run == 0) {
lowestWriteSpeedMBps = writeSpeed;
highestWriteSpeedMBps = writeSpeed;
lowestReadSpeedMBps = readSpeed;
highestReadSpeedMBps = readSpeed;
} else {
if (writeSpeed < lowestWriteSpeedMBps) {
lowestWriteSpeedMBps = writeSpeed;
}
if (writeSpeed > highestWriteSpeedMBps) {
highestWriteSpeedMBps = writeSpeed;
}
if (readSpeed < lowestReadSpeedMBps) {
lowestReadSpeedMBps = readSpeed;
}
if (readSpeed > highestReadSpeedMBps) {
highestReadSpeedMBps = readSpeed;
}
}
}
avgWriteSpeedMBps = calculateAverage(writeSpeeds);
avgReadSpeedMBps = calculateAverage(readSpeeds);
return 2;
}
public static void createTestFile(String filePath, int fileSizeMB) {
try {
File file = new File(filePath);
byte[] data = new byte[1024 * 1024];
Arrays.fill(data, (byte) 0);
FileOutputStream fos = new FileOutputStream(file);
for (int i = 0; i < fileSizeMB; i++) {
fos.write(data);
}
fos.close();
} catch (IOException e) {
e.printStackTrace();
}
}
public static void readTestFile(String filePath) {
try {
File file = new File(filePath);
FileInputStream fis = new FileInputStream(file);
byte[] buffer = new byte[1024];
while (fis.read(buffer) != -1) {
}
fis.close();
} catch (IOException e) {
e.printStackTrace();
}
}
public static void deleteTestFile(String filePath) {
File file = new File(filePath);
file.delete();
}
public static double calculateDiskSpeedMBps(int fileSizeMB, long startTime, long endTime) {
double elapsedSeconds = (endTime - startTime) / 1_000_000_000.0;
double writeSpeed = (fileSizeMB / elapsedSeconds);
return writeSpeed;
}
public static double calculateAverage(double[] values) {
double sum = 0;
for (double value : values) {
sum += value;
}
return sum / values.length;
}
public static void WindowsDiskSpeedTest() {
try {
String command = "winsat disk";
Process process = Runtime.getRuntime().exec(command);
BufferedReader reader = new BufferedReader(new InputStreamReader(process.getInputStream()));
String line;
while ((line = reader.readLine()) != null) {
Iris.debug(line);
if (line.contains("Disk Sequential 64.0 Read")) {
avgReadSpeedMBps = extractSpeed(line);
} else if (line.contains("Disk Sequential 64.0 Write")) {
avgWriteSpeedMBps = extractSpeed(line);
}
}
process.waitFor();
process.destroy();
Iris.debug("Sequential Read Speed: " + avgReadSpeedMBps + " MB/s");
Iris.debug("Sequential Write Speed: " + avgWriteSpeedMBps + " MB/s");
} catch (IOException | InterruptedException e) {
e.printStackTrace();
}
}
private static double extractSpeed(String line) {
String[] tokens = line.split("\\s+");
for (int i = 0; i < tokens.length; i++) {
if (tokens[i].endsWith("MB/s") && i > 0) {
try {
return Double.parseDouble(tokens[i - 1]);
} catch (NumberFormatException e) {
e.printStackTrace();
}
}
}
return 0.0;
}
public static void WindowsCpuSpeedTest() {
try {
String command = "winsat cpuformal";
Process process = Runtime.getRuntime().exec(command);
BufferedReader reader = new BufferedReader(new InputStreamReader(process.getInputStream()));
String line;
while ((line = reader.readLine()) != null) {
Iris.debug(line);
if (line.contains("CPU AES256 Encryption")) {
WindowsCPUEncryption = extractCpuInfo(line);
}
if (line.contains("CPU LZW Compression")) {
WindowsCPUCompression = extractCpuInfo(line);
}
if (line.contains("CPU SHA1 Hash")) {
WindowsCPUCSHA1 = extractCpuInfo(line);
}
}
process.waitFor();
process.destroy();
Iris.debug("Winsat Encryption: " + WindowsCPUEncryption + " MB/s");
} catch (IOException | InterruptedException e) {
e.printStackTrace();
}
}
private static double extractCpuInfo(String line) {
String[] tokens = line.split("\\s+");
for (int i = 0; i < tokens.length; i++) {
if (tokens[i].endsWith("MB/s") && i > 0) {
try {
return Double.parseDouble(tokens[i - 1]);
} catch (NumberFormatException e) {
e.printStackTrace();
}
}
}
return 0.0;
}
}
@@ -84,6 +84,11 @@ public class IrisCreator {
* Benchmark mode
*/
private boolean benchmark = false;
/**
* Radius of chunks to pregenerate in the headless mode
* if set to -1, headless mode is disabled
*/
private int headlessRadius = 10;
public static boolean removeFromBukkitYml(String name) throws IOException {
YamlConfiguration yml = YamlConfiguration.loadConfiguration(BUKKIT_YML);
@@ -127,7 +132,6 @@ public class IrisCreator {
Iris.service(StudioSVC.class).installIntoWorld(sender, d.getLoadKey(), new File(Bukkit.getWorldContainer(), name()));
}
PlatformChunkGenerator access;
AtomicReference<World> world = new AtomicReference<>();
AtomicDouble pp = new AtomicDouble(0);
O<Boolean> done = new O<>();
@@ -140,30 +144,56 @@ public class IrisCreator {
.create();
ServerConfigurator.installDataPacks(false);
access = (PlatformChunkGenerator) wc.generator();
PlatformChunkGenerator finalAccess1 = access;
PlatformChunkGenerator access = (PlatformChunkGenerator) wc.generator();
if (access == null) {
throw new IrisException("Access is null. Something bad happened.");
}
J.a(() ->
{
Supplier<Integer> g = () -> {
if (finalAccess1 == null || finalAccess1.getEngine() == null) {
return 0;
if (headlessRadius > 0 && !benchmark) {
AtomicBoolean failed = new AtomicBoolean(false);
J.a(() -> {
int generated = access.getGenerated();
double total = Math.pow(headlessRadius * 2 + 1, 2);
while (generated < total) {
if (failed.get()) return;
double v = (double) generated / total;
if (sender.isPlayer()) {
sender.sendProgress(v, "Generating headless chunks");
J.sleep(16);
} else {
sender.sendMessage(C.WHITE + "Generating headless chunks " + Form.pc(v) + ((C.GRAY + " (" + ((int) total - generated) + " Left)")));
J.sleep(1000);
}
generated = access.getGenerated();
}
return finalAccess1.getEngine().getGenerated();
};
if(!benchmark) {
if (finalAccess1 == null) return;
int req = finalAccess1.getSpawnChunks().join();
});
while (g.get() < req) {
double v = (double) g.get() / (double) req;
try {
access.prepareSpawnChunks(seed, headlessRadius);
} catch (Throwable e) {
Iris.error("Failed to prepare spawn chunks for " + name);
e.printStackTrace();
failed.set(true);
}
}
J.a(() -> {
if(!benchmark) {
int req = access.getSpawnChunks().join();
int generated = access.getGenerated();
while (generated < req) {
double v = (double) generated / (double) req;
if (sender.isPlayer()) {
sender.sendProgress(v, "Generating");
J.sleep(16);
} else {
sender.sendMessage(C.WHITE + "Generating " + Form.pc(v) + ((C.GRAY + " (" + (req - g.get()) + " Left)")));
sender.sendMessage(C.WHITE + "Generating " + Form.pc(v) + ((C.GRAY + " (" + (req - generated) + " Left)")));
J.sleep(1000);
}
generated = access.getGenerated();
}
}
});
@@ -199,10 +229,8 @@ public class IrisCreator {
world.get().setTime(6000);
}
});
} else {
} else
addToBukkitYml();
J.s(() -> Iris.linkMultiverseCore.updateWorld(world.get(), dimension));
}
if (pregen != null) {
CompletableFuture<Boolean> ff = new CompletableFuture<>();
@@ -2,9 +2,17 @@ package com.volmit.iris.core.tools;
import com.volmit.iris.Iris;
import com.volmit.iris.core.IrisSettings;
import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.core.pregenerator.PregenTask;
import com.volmit.iris.core.pregenerator.methods.HeadlessPregenMethod;
import com.volmit.iris.core.pregenerator.methods.HybridPregenMethod;
import com.volmit.iris.core.service.StudioSVC;
import com.volmit.iris.engine.IrisEngine;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.engine.framework.EngineTarget;
import com.volmit.iris.engine.object.IrisDimension;
import com.volmit.iris.engine.object.IrisWorld;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.exceptions.IrisException;
@@ -12,6 +20,7 @@ import com.volmit.iris.util.format.Form;
import com.volmit.iris.util.io.IO;
import com.volmit.iris.util.scheduling.J;
import com.volmit.iris.util.scheduling.PrecisionStopwatch;
import lombok.Getter;
import org.bukkit.Bukkit;
import java.io.File;
@@ -23,31 +32,34 @@ import java.util.Collections;
public class IrisPackBenchmarking {
private static final ThreadLocal<IrisPackBenchmarking> instance = new ThreadLocal<>();
@Getter
public static IrisPackBenchmarking instance;
public static boolean benchmarkInProgress = false;
private final PrecisionStopwatch stopwatch = new PrecisionStopwatch();
private final IrisDimension dimension;
private final int radius;
private final int diameter;
private final boolean gui;
private final boolean headless;
private transient Engine engine;
public IrisPackBenchmarking(IrisDimension dimension, int radius, boolean gui) {
public IrisPackBenchmarking(IrisDimension dimension, int diameter, boolean headless, boolean gui) {
instance = this;
this.dimension = dimension;
this.radius = radius;
this.diameter = diameter;
this.headless = headless;
this.gui = gui;
runBenchmark();
}
public static IrisPackBenchmarking getInstance() {
return instance.get();
}
private void runBenchmark() {
Thread.ofVirtual()
.name("PackBenchmarking")
.start(() -> {
Iris.info("Setting up benchmark environment ");
benchmarkInProgress = true;
IO.delete(new File(Bukkit.getWorldContainer(), "benchmark"));
createBenchmark();
while (!IrisToolbelt.isIrisWorld(Bukkit.getWorld("benchmark"))) {
while (!headless && !IrisToolbelt.isIrisWorld(Bukkit.getWorld("benchmark"))) {
J.sleep(1000);
Iris.debug("Iris PackBenchmark: Waiting...");
}
@@ -58,10 +70,13 @@ public class IrisPackBenchmarking {
}
public boolean getBenchmarkInProgress() {
return benchmarkInProgress;
}
public void finishedBenchmark(KList<Integer> cps) {
try {
String time = Form.duration((long) stopwatch.getMilliseconds());
Engine engine = IrisToolbelt.access(Bukkit.getWorld("benchmark")).getEngine();
String time = Form.duration(stopwatch.getMillis());
Iris.info("-----------------");
Iris.info("Results:");
Iris.info("- Total time: " + time);
@@ -71,7 +86,11 @@ public class IrisPackBenchmarking {
Iris.info(" - Lowest CPS: " + findLowest(cps));
Iris.info("-----------------");
Iris.info("Creating a report..");
File results = Iris.instance.getDataFile("packbenchmarks", dimension.getName() + " " + LocalDateTime.now(Clock.systemDefaultZone()).toString().replace(':', '-') + ".txt");
File profilers = new File("plugins" + File.separator + "Iris" + File.separator + "packbenchmarks");
profilers.mkdir();
File results = new File(profilers, dimension.getName() + " " + LocalDateTime.now(Clock.systemDefaultZone()).toString().replace(':', '-') + ".txt");
results.getParentFile().mkdirs();
KMap<String, Double> metrics = engine.getMetrics().pull();
try (FileWriter writer = new FileWriter(results)) {
writer.write("-----------------\n");
@@ -98,12 +117,16 @@ public class IrisPackBenchmarking {
e.printStackTrace();
}
J.s(() -> {
var world = Bukkit.getWorld("benchmark");
if (world == null) return;
IrisToolbelt.evacuate(world);
Bukkit.unloadWorld(world, true);
});
if (headless) {
engine.close();
} else {
J.s(() -> {
var world = Bukkit.getWorld("benchmark");
if (world == null) return;
IrisToolbelt.evacuate(world);
Bukkit.unloadWorld(world, true);
});
}
stopwatch.end();
} catch (Exception e) {
@@ -114,31 +137,53 @@ public class IrisPackBenchmarking {
private void createBenchmark() {
try {
IrisToolbelt.createWorld()
if (headless) {
Iris.info("Using headless benchmark!");
IrisWorld world = IrisWorld.builder()
.name("benchmark")
.minHeight(dimension.getMinHeight())
.maxHeight(dimension.getMaxHeight())
.seed(1337)
.worldFolder(new File(Bukkit.getWorldContainer(), "benchmark"))
.environment(dimension.getEnvironment())
.build();
Iris.service(StudioSVC.class).installIntoWorld(
Iris.getSender(),
dimension.getLoadKey(),
world.worldFolder());
var data = IrisData.get(new File(world.worldFolder(), "iris/pack"));
var dim = data.getDimensionLoader().load(dimension.getLoadKey());
engine = new IrisEngine(new EngineTarget(world, dim, data), false);
return;
}
engine = IrisToolbelt.access(IrisToolbelt.createWorld()
.dimension(dimension.getLoadKey())
.name("benchmark")
.seed(1337)
.studio(false)
.benchmark(true)
.create();
.create())
.getEngine();
} catch (IrisException e) {
throw new RuntimeException(e);
}
}
private void startBenchmark() {
try {
instance.set(this);
IrisToolbelt.pregenerate(PregenTask
.builder()
.gui(gui)
.radiusX(radius)
.radiusZ(radius)
.build(), Bukkit.getWorld("benchmark")
);
} finally {
instance.remove();
}
IrisToolbelt.pregenerate(PregenTask
.builder()
.gui(gui)
.radiusX(diameter)
.radiusZ(diameter)
.build(), headless ?
new HeadlessPregenMethod(engine) :
new HybridPregenMethod(
engine.getWorld().realWorld(),
IrisSettings.getThreadCount(IrisSettings.get().getConcurrency().getParallelism())
),
engine
);
}
private double calculateAverage(KList<Integer> list) {
@@ -24,7 +24,6 @@ import com.volmit.iris.core.gui.PregeneratorJob;
import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.core.pregenerator.PregenTask;
import com.volmit.iris.core.pregenerator.PregeneratorMethod;
import com.volmit.iris.core.pregenerator.methods.CachedPregenMethod;
import com.volmit.iris.core.pregenerator.methods.HybridPregenMethod;
import com.volmit.iris.core.service.StudioSVC;
import com.volmit.iris.engine.framework.Engine;
@@ -142,18 +141,7 @@ public class IrisToolbelt {
* @return the pregenerator job (already started)
*/
public static PregeneratorJob pregenerate(PregenTask task, PregeneratorMethod method, Engine engine) {
return pregenerate(task, method, engine, IrisSettings.get().getPregen().useCacheByDefault);
}
/**
* Start a pregenerator task
*
* @param task the scheduled task
* @param method the method to execute the task
* @return the pregenerator job (already started)
*/
public static PregeneratorJob pregenerate(PregenTask task, PregeneratorMethod method, Engine engine, boolean cached) {
return new PregeneratorJob(task, cached && engine != null ? new CachedPregenMethod(method, engine.getWorld().name()) : method, engine);
return new PregeneratorJob(task, method, engine);
}
/**
@@ -42,7 +42,6 @@ import org.bukkit.Material;
import org.bukkit.block.Biome;
import org.bukkit.block.data.BlockData;
import java.io.File;
import java.util.UUID;
@Data
@@ -109,15 +108,10 @@ public class IrisComplex implements DataProvider {
}
//@builder
if (focusRegion != null) {
focusRegion.getAllBiomes(this).forEach(this::registerGenerators);
} else {
engine.getDimension()
.getRegions()
.forEach(i -> data.getRegionLoader().load(i)
.getAllBiomes(this)
.forEach(this::registerGenerators));
}
engine.getDimension().getRegions().forEach((i) -> data.getRegionLoader().load(i)
.getAllBiomes(this).forEach((b) -> b
.getGenerators()
.forEach((c) -> registerGenerator(c.getCachedGenerator(this)))));
overlayStream = ProceduralStream.ofDouble((x, z) -> 0.0D).waste("Overlay Stream");
engine.getDimension().getOverlayNoise().forEach(i -> overlayStream = overlayStream.add((x, z) -> i.get(rng, getData(), x, z)));
rockStream = engine.getDimension().getRockPalette().getLayerGenerator(rng.nextParallelRNG(45), data).stream()
@@ -251,15 +245,7 @@ public class IrisComplex implements DataProvider {
}
}
String key = UUID.randomUUID().toString();
IrisRegion region = new IrisRegion();
region.getLandBiomes().add(focus.getLoadKey());
region.getSeaBiomes().add(focus.getLoadKey());
region.getShoreBiomes().add(focus.getLoadKey());
region.setLoadKey(key);
region.setLoader(data);
region.setLoadFile(new File(data.getDataFolder(), data.getRegionLoader().getFolderName() + "/" + key + ".json"));
return region;
return null;
}
private IrisDecorator decorateFor(IrisBiome b, double x, double z, IrisDecorationPart part) {
@@ -374,10 +360,6 @@ public class IrisComplex implements DataProvider {
return Math.max(Math.min(getInterpolatedHeight(engine, x, z, seed) + fluidHeight + overlayStream.get(x, z), engine.getHeight()), 0);
}
private void registerGenerators(IrisBiome biome) {
biome.getGenerators().forEach(c -> registerGenerator(c.getCachedGenerator(this)));
}
private void registerGenerator(IrisGenerator cachedGenerator) {
generators.computeIfAbsent(cachedGenerator.getInterpolator(), (k) -> new KSet<>()).add(cachedGenerator);
}
@@ -96,6 +96,7 @@ public class IrisEngine implements Engine {
private EngineExecutionEnvironment execution;
private EngineWorldManager worldManager;
private volatile int parallelism;
private volatile int minHeight;
private boolean failing;
private boolean closed;
private int cacheId;
@@ -128,6 +129,7 @@ public class IrisEngine implements Engine {
getData().setEngine(this);
getData().loadPrefetch(this);
Iris.info("Initializing Engine: " + target.getWorld().name() + "/" + target.getDimension().getLoadKey() + " (" + target.getDimension().getDimensionHeight() + " height) Seed: " + getSeedManager().getSeed());
minHeight = 0;
failing = false;
closed = false;
art = J.ar(this::tickRandomPlayer, 0);
@@ -178,10 +180,7 @@ public class IrisEngine implements Engine {
File[] roots = getData().getLoaders()
.values()
.stream()
.map(ResourceLoader::getFolderName)
.map(n -> new File(getData().getDataFolder(), n))
.filter(File::exists)
.filter(File::isDirectory)
.map(ResourceLoader::getRoot)
.toArray(File[]::new);
hash32.complete(IO.hashRecursive(roots));
});
@@ -305,6 +304,11 @@ public class IrisEngine implements Engine {
return generated.get();
}
@Override
public void addGenerated(int x, int z) {
generated.incrementAndGet();
}
@Override
public double getGeneratedPerSecond() {
if (perSecondLatch.flip()) {
@@ -473,7 +477,7 @@ public class IrisEngine implements Engine {
getEngineData().getStatistics().generatedChunk();
try {
PrecisionStopwatch p = PrecisionStopwatch.start();
Hunk<BlockData> blocks = vblocks.listen((xx, y, zz, t) -> catchBlockUpdates(x + xx, y, z + zz, t));
Hunk<BlockData> blocks = vblocks.listen((xx, y, zz, t) -> catchBlockUpdates(x + xx, y + getMinHeight(), z + zz, t));
if (getDimension().isDebugChunkCrossSections() && ((x >> 4) % getDimension().getDebugCrossSectionsMod() == 0 || (z >> 4) % getDimension().getDebugCrossSectionsMod() == 0)) {
for (int i = 0; i < 16; i++) {
@@ -29,9 +29,7 @@ import com.volmit.iris.engine.mantle.components.MantleJigsawComponent;
import com.volmit.iris.engine.mantle.components.MantleObjectComponent;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.collection.KSet;
import com.volmit.iris.util.mantle.Mantle;
import com.volmit.iris.util.mantle.MantleFlag;
import lombok.*;
import java.io.File;
@@ -46,7 +44,7 @@ public class IrisEngineMantle implements EngineMantle {
@Getter(AccessLevel.NONE)
private final KMap<Integer, KList<MantleComponent>> components;
private final AtomicCache<KList<Pair<KList<MantleComponent>, Integer>>> componentsCache = new AtomicCache<>();
private final AtomicCache<KSet<MantleFlag>> disabledFlags = new AtomicCache<>();
private final AtomicCache<Integer> radCache = new AtomicCache<>();
private final MantleObjectComponent object;
private final MantleJigsawComponent jigsaw;
@@ -103,20 +101,10 @@ public class IrisEngineMantle implements EngineMantle {
@Override
public void registerComponent(MantleComponent c) {
c.setEnabled(!getDimension().getDisabledComponents().contains(c.getFlag()));
components.computeIfAbsent(c.getPriority(), k -> new KList<>()).add(c);
componentsCache.reset();
}
@Override
public KList<MantleFlag> getComponentFlags() {
return components.values()
.stream()
.flatMap(KList::stream)
.map(MantleComponent::getFlag)
.collect(KList.collector());
}
@Override
public MantleJigsawComponent getJigsawComponent() {
return jigsaw;
@@ -55,7 +55,6 @@ import org.bukkit.event.block.BlockPlaceEvent;
import org.bukkit.event.player.PlayerTeleportEvent;
import org.bukkit.inventory.ItemStack;
import java.lang.ref.WeakReference;
import java.util.List;
import java.util.Map;
import java.util.Set;
@@ -368,7 +367,7 @@ public class IrisWorldManager extends EngineAssignedWorldManager {
private void spawn(IrisPosition pos, IrisEntitySpawn i) {
IrisSpawner ref = i.getReferenceSpawner();
if (!ref.canSpawn(getEngine(), pos.getX() >> 4, pos.getZ() >> 4))
if (!ref.canSpawn(getEngine(), pos.getX() >> 4, pos.getZ()))
return;
int s = i.spawn(getEngine(), pos, RNG.r);
@@ -423,16 +422,9 @@ public class IrisWorldManager extends EngineAssignedWorldManager {
return;
}
var ref = new WeakReference<>(e.getWorld());
int x = e.getX(), z = e.getZ();
J.s(() -> {
World world = ref.get();
if (world == null || !world.isChunkLoaded(x, z))
return;
energy += 0.3;
fixEnergy();
getEngine().cleanupMantleChunk(x, z);
}, IrisSettings.get().getPerformance().mantleCleanupDelay);
energy += 0.3;
fixEnergy();
getEngine().cleanupMantleChunk(e.getX(), e.getZ());
if (generated) {
//INMS.get().injectBiomesFromMantle(e, getMantle());
@@ -106,14 +106,6 @@ public class IrisTerrainNormalActuator extends EngineAssignedActuator<BlockData>
}
}
BlockData ore = biome.generateOres(realX, i, realZ, rng, getData(), true);
ore = ore == null ? region.generateOres(realX, i, realZ, rng, getData(), true) : ore;
ore = ore == null ? getDimension().generateOres(realX, i, realZ, rng, getData(), true) : ore;
if (ore != null) {
h.set(xf, i, zf, ore);
continue;
}
if (i > he && i <= hf) {
fdepth = hf - i;
@@ -146,9 +138,9 @@ public class IrisTerrainNormalActuator extends EngineAssignedActuator<BlockData>
continue;
}
ore = biome.generateOres(realX, i, realZ, rng, getData(), false);
ore = ore == null ? region.generateOres(realX, i, realZ, rng, getData(), false) : ore;
ore = ore == null ? getDimension().generateOres(realX, i, realZ, rng, getData(), false) : ore;
BlockData ore = biome.generateOres(realX, i, realZ, rng, getData());
ore = ore == null ? region.generateOres(realX, i, realZ, rng, getData()) : ore;
ore = ore == null ? getDimension().generateOres(realX, i, realZ, rng, getData()) : ore;
if (ore != null) {
h.set(xf, i, zf, ore);
@@ -75,9 +75,9 @@ import org.bukkit.entity.Player;
import org.bukkit.inventory.Inventory;
import org.bukkit.inventory.InventoryHolder;
import org.bukkit.inventory.ItemStack;
import org.jetbrains.annotations.Nullable;
import java.awt.Color;
import java.util.Arrays;
import java.util.Set;
import java.util.UUID;
import java.util.concurrent.CompletableFuture;
@@ -140,9 +140,7 @@ public interface Engine extends DataProvider, Fallible, LootProvider, BlockUpdat
return getTarget().getWorld().minHeight();
}
default void setMinHeight(int min) {
getTarget().getWorld().minHeight(min);
}
void setMinHeight(int min);
@BlockCoordinates
default void generate(int x, int z, TerrainChunk tc, boolean multicore) throws WrongEngineBroException {
@@ -289,79 +287,76 @@ public interface Engine extends DataProvider, Fallible, LootProvider, BlockUpdat
return;
}
var chunk = mantle.getChunk(c).use();
try {
Semaphore semaphore = new Semaphore(3);
chunk.raiseFlag(MantleFlag.ETCHED, () -> {
chunk.raiseFlag(MantleFlag.TILE, run(semaphore, () -> J.s(() -> {
mantle.iterateChunk(c.getX(), c.getZ(), TileWrapper.class, (x, y, z, v) -> {
int betterY = y + getWorld().minHeight();
if (!TileData.setTileState(c.getBlock(x, betterY, z), v.getData()))
Iris.warn("Failed to set tile entity data at [%d %d %d | %s] for tile %s!", x, betterY, z, c.getBlock(x, betterY, z).getBlockData().getMaterial().getKey(), v.getData().getMaterial().name());
});
})));
chunk.raiseFlag(MantleFlag.CUSTOM, run(semaphore, () -> J.s(() -> {
mantle.iterateChunk(c.getX(), c.getZ(), Identifier.class, (x, y, z, v) -> {
Iris.service(ExternalDataSVC.class).processUpdate(this, c.getBlock(x & 15, y + getWorld().minHeight(), z & 15), v);
});
})));
var chunk = mantle.getChunk(c);
if (chunk.isFlagged(MantleFlag.ETCHED)) return;
chunk.flag(MantleFlag.ETCHED, true);
chunk.raiseFlag(MantleFlag.UPDATE, run(semaphore, () -> J.s(() -> {
PrecisionStopwatch p = PrecisionStopwatch.start();
KMap<Long, Integer> updates = new KMap<>();
RNG r = new RNG(Cache.key(c.getX(), c.getZ()));
mantle.iterateChunk(c.getX(), c.getZ(), MatterCavern.class, (x, yf, z, v) -> {
int y = yf + getWorld().minHeight();
if (!B.isFluid(c.getBlock(x & 15, y, z & 15).getBlockData())) {
return;
}
boolean u = false;
if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.DOWN).getBlockData())) {
u = true;
} else if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.WEST).getBlockData())) {
u = true;
} else if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.EAST).getBlockData())) {
u = true;
} else if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.SOUTH).getBlockData())) {
u = true;
} else if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.NORTH).getBlockData())) {
u = true;
Semaphore semaphore = new Semaphore(3);
chunk.raiseFlag(MantleFlag.TILE, run(semaphore, () -> J.s(() -> {
mantle.iterateChunk(c.getX(), c.getZ(), TileWrapper.class, (x, y, z, v) -> {
int betterY = y + getWorld().minHeight();
if (!TileData.setTileState(c.getBlock(x, betterY, z), v.getData()))
Iris.warn("Failed to set tile entity data at [%d %d %d | %s] for tile %s!", x, betterY, z, c.getBlock(x, betterY, z).getBlockData().getMaterial().getKey(), v.getData().getMaterial().name());
});
})));
chunk.raiseFlag(MantleFlag.CUSTOM, run(semaphore, () -> J.s(() -> {
mantle.iterateChunk(c.getX(), c.getZ(), Identifier.class, (x, y, z, v) -> {
Iris.service(ExternalDataSVC.class).processUpdate(this, c.getBlock(x & 15, y + getWorld().minHeight(), z & 15), v);
});
})));
chunk.raiseFlag(MantleFlag.UPDATE, run(semaphore, () -> J.s(() -> {
PrecisionStopwatch p = PrecisionStopwatch.start();
KMap<Long, Integer> updates = new KMap<>();
RNG r = new RNG(Cache.key(c.getX(), c.getZ()));
mantle.iterateChunk(c.getX(), c.getZ(), MatterCavern.class, (x, yf, z, v) -> {
int y = yf + getWorld().minHeight();
if (!B.isFluid(c.getBlock(x & 15, y, z & 15).getBlockData())) {
return;
}
boolean u = false;
if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.DOWN).getBlockData())) {
u = true;
} else if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.WEST).getBlockData())) {
u = true;
} else if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.EAST).getBlockData())) {
u = true;
} else if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.SOUTH).getBlockData())) {
u = true;
} else if (B.isAir(c.getBlock(x & 15, y, z & 15).getRelative(BlockFace.NORTH).getBlockData())) {
u = true;
}
if (u) {
updates.compute(Cache.key(x & 15, z & 15), (k, vv) -> {
if (vv != null) {
return Math.max(vv, y);
}
if (u) {
updates.compute(Cache.key(x & 15, z & 15), (k, vv) -> {
if (vv != null) {
return Math.max(vv, y);
}
return y;
});
}
return y;
});
updates.forEach((k, v) -> update(Cache.keyX(k), v, Cache.keyZ(k), c, r));
mantle.iterateChunk(c.getX(), c.getZ(), MatterUpdate.class, (x, yf, z, v) -> {
int y = yf + getWorld().minHeight();
if (v != null && v.isUpdate()) {
int vx = x & 15;
int vz = z & 15;
update(x, y, z, c, new RNG(Cache.key(c.getX(), c.getZ())));
if (vx > 0 && vx < 15 && vz > 0 && vz < 15) {
updateLighting(x, y, z, c);
}
}
});
mantle.deleteChunkSlice(c.getX(), c.getZ(), MatterUpdate.class);
getMetrics().getUpdates().put(p.getMilliseconds());
}, RNG.r.i(0, 20))));
}
});
try {
semaphore.acquire(3);
} catch (InterruptedException ignored) {}
} finally {
chunk.release();
}
updates.forEach((k, v) -> update(Cache.keyX(k), v, Cache.keyZ(k), c, r));
mantle.iterateChunk(c.getX(), c.getZ(), MatterUpdate.class, (x, yf, z, v) -> {
int y = yf + getWorld().minHeight();
if (v != null && v.isUpdate()) {
int vx = x & 15;
int vz = z & 15;
update(x, y, z, c, new RNG(Cache.key(c.getX(), c.getZ())));
if (vx > 0 && vx < 15 && vz > 0 && vz < 15) {
updateLighting(x, y, z, c);
}
}
});
mantle.deleteChunkSlice(c.getX(), c.getZ(), MatterUpdate.class);
getMetrics().getUpdates().put(p.getMilliseconds());
}, RNG.r.i(0, 20))));
try {
semaphore.acquire(3);
} catch (InterruptedException ignored) {}
}
private static Runnable run(Semaphore semaphore, Runnable runnable) {
@@ -458,11 +453,14 @@ public interface Engine extends DataProvider, Fallible, LootProvider, BlockUpdat
}
}
for (int i = nitems.length; i > 1; i--) {
int j = rng.nextInt(i);
ItemStack tmp = nitems[i - 1];
nitems[i - 1] = nitems[j];
nitems[j] = tmp;
for (int i = 0; i < 4; i++) {
try {
Arrays.parallelSort(nitems, (a, b) -> rng.nextInt());
break;
} catch (Throwable e) {
Iris.reportError(e);
}
}
inventory.setContents(nitems);
@@ -612,6 +610,9 @@ public interface Engine extends DataProvider, Fallible, LootProvider, BlockUpdat
int getGenerated();
@ChunkCoordinates
void addGenerated(int x, int z);
CompletableFuture<Long> getHash32();
default <T> IrisPosition lookForStreamResult(T find, ProceduralStream<T> stream, Function2<T, T, Boolean> matcher, long timeout) {
@@ -854,25 +855,6 @@ public interface Engine extends DataProvider, Fallible, LootProvider, BlockUpdat
return getBiomeOrMantle(l.getBlockX(), l.getBlockY(), l.getBlockZ());
}
@Nullable
@BlockCoordinates
default Position2 getNearestStronghold(Position2 pos) {
KList<Position2> p = getDimension().getStrongholds(getSeedManager().getMantle());
if (p.isEmpty()) return null;
Position2 pr = null;
double d = Double.MAX_VALUE;
for (Position2 i : p) {
double dx = i.distance(pos);
if (dx < d) {
d = dx;
pr = i;
}
}
return pr;
}
default void gotoBiome(IrisBiome biome, Player player, boolean teleport) {
Set<String> regionKeys = getDimension()
.getAllRegions(this).stream()
@@ -893,10 +875,31 @@ public interface Engine extends DataProvider, Fallible, LootProvider, BlockUpdat
default void gotoJigsaw(IrisJigsawStructure s, Player player, boolean teleport) {
if (s.getLoadKey().equals(getDimension().getStronghold())) {
Position2 pr = getNearestStronghold(new Position2(player.getLocation().getBlockX(), player.getLocation().getBlockZ()));
if (pr == null) {
KList<Position2> p = getDimension().getStrongholds(getSeedManager().getMantle());
if (p.isEmpty()) {
player.sendMessage(C.GOLD + "No strongholds in world.");
} else {
}
Position2 px = new Position2(player.getLocation().getBlockX(), player.getLocation().getBlockZ());
Position2 pr = null;
double d = Double.MAX_VALUE;
Iris.debug("Ps: " + p.size());
for (Position2 i : p) {
Iris.debug("- " + i.getX() + " " + i.getZ());
}
for (Position2 i : p) {
double dx = i.distance(px);
if (dx < d) {
d = dx;
pr = i;
}
}
if (pr != null) {
Location ll = new Location(player.getWorld(), pr.getX(), 40, pr.getZ());
J.s(() -> player.teleport(ll));
}
@@ -97,6 +97,51 @@ public abstract class EngineAssignedWorldManager extends EngineAssignedComponent
}
}
@EventHandler
public void onItemUse(PlayerInteractEvent e) {
if (e.getItem() == null || e.getHand() != EquipmentSlot.HAND) {
return;
}
if (e.getAction() == Action.LEFT_CLICK_BLOCK || e.getAction() == Action.LEFT_CLICK_AIR) {
return;
}
if (e.getPlayer().getWorld().equals(getTarget().getWorld().realWorld()) && e.getItem().getType() == Material.ENDER_EYE) {
if (e.getClickedBlock() != null && e.getClickedBlock().getType() == Material.END_PORTAL_FRAME) {
return;
}
KList<Position2> positions = getEngine().getDimension().getStrongholds(getEngine().getSeedManager().getMantle());
if (positions.isEmpty()) {
return;
}
Position2 playerPos = new Position2(e.getPlayer().getLocation().getBlockX(), e.getPlayer().getLocation().getBlockZ());
Position2 pr = positions.get(0);
double d = pr.distance(playerPos);
for (Position2 pos : positions) {
double distance = pos.distance(playerPos);
if (distance < d) {
d = distance;
pr = pos;
}
}
if (e.getPlayer().getGameMode() != GameMode.CREATIVE) {
if (e.getItem().getAmount() > 1) {
e.getPlayer().getInventory().getItemInMainHand().setAmount(e.getItem().getAmount() - 1);
} else {
e.getPlayer().getInventory().setItemInMainHand(null);
}
}
EnderSignal eye = e.getPlayer().getWorld().spawn(e.getPlayer().getLocation().clone().add(0, 0.5F, 0), EnderSignal.class);
eye.setTargetLocation(new Location(e.getPlayer().getWorld(), pr.getX(), 40, pr.getZ()));
eye.getWorld().playSound(eye, Sound.ENTITY_ENDER_EYE_LAUNCH, 1, 1);
Iris.debug("ESignal: " + eye.getTargetLocation().getBlockX() + " " + eye.getTargetLocation().getBlockX());
}
}
@EventHandler
public void on(WorldUnloadEvent e) {
if (e.getWorld().equals(getTarget().getWorld().realWorld())) {
@@ -47,7 +47,9 @@ public class EnginePlayer {
}
public void tick() {
if (sample() || !IrisSettings.get().getWorld().isEffectSystem())
sample();
if (!IrisSettings.get().getWorld().isEffectSystem())
return;
J.a(() -> {
@@ -79,22 +81,22 @@ public class EnginePlayer {
return M.ms() - lastSample;
}
public boolean sample() {
Location current = player.getLocation().clone();
if (current.getWorld() != engine.getWorld().realWorld())
return true;
public void sample() {
try {
if (ticksSinceLastSample() > 55 && current.distanceSquared(lastLocation) > 9 * 9) {
lastLocation = current;
if (ticksSinceLastSample() > 55 && player.getLocation().distanceSquared(lastLocation) > 9 * 9) {
lastLocation = player.getLocation().clone();
lastSample = M.ms();
biome = engine.getBiome(current);
region = engine.getRegion(current);
sampleBiomeRegion();
}
return false;
} catch (Throwable e) {
Iris.reportError(e);
}
return true;
}
private void sampleBiomeRegion() {
Location l = player.getLocation();
biome = engine.getBiome(l);
region = engine.getRegion(l);
}
}
@@ -1,14 +0,0 @@
package com.volmit.iris.engine.mantle;
import com.volmit.iris.util.mantle.MantleFlag;
import java.lang.annotation.ElementType;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.annotation.Target;
@Target(ElementType.TYPE)
@Retention(RetentionPolicy.RUNTIME)
public @interface ComponentFlag {
MantleFlag value();
}
@@ -65,8 +65,6 @@ public interface EngineMantle extends IObjectPlacer {
void registerComponent(MantleComponent c);
KList<MantleFlag> getComponentFlags();
default int getHighest(int x, int z) {
return getHighest(x, z, getData());
}
@@ -229,9 +227,7 @@ public interface EngineMantle extends IObjectPlacer {
}
default void generateMantleComponent(MantleWriter writer, int x, int z, MantleComponent c, MantleChunk mc, ChunkContext context) {
mc.raiseFlag(c.getFlag(), () -> {
if (c.isEnabled()) c.generateLayer(writer, x, z, context);
});
mc.raiseFlag(c.getFlag(), () -> c.generateLayer(writer, x, z, context));
}
@ChunkCoordinates
@@ -293,25 +289,23 @@ public interface EngineMantle extends IObjectPlacer {
}
default void cleanupChunk(int x, int z) {
if (!isCovered(x, z)) return;
MantleChunk chunk = getMantle().getChunk(x, z).use();
try {
chunk.raiseFlag(MantleFlag.CLEANED, () -> {
chunk.deleteSlices(BlockData.class);
chunk.deleteSlices(String.class);
chunk.deleteSlices(MatterCavern.class);
chunk.deleteSlices(MatterFluidBody.class);
if (!getMantle().hasFlag(x, z, MantleFlag.CLEANED) && isCovered(x, z)) {
getMantle().raiseFlag(x, z, MantleFlag.CLEANED, () -> {
getMantle().deleteChunkSlice(x, z, BlockData.class);
getMantle().deleteChunkSlice(x, z, String.class);
getMantle().deleteChunkSlice(x, z, MatterCavern.class);
getMantle().deleteChunkSlice(x, z, MatterFluidBody.class);
});
} finally {
chunk.release();
}
}
default long getUnloadRegionCount() {
return getMantle().getUnloadRegionCount();
default long getToUnload(){
return getMantle().getToUnload().size();
}
default double getAdjustedIdleDuration() {
return getMantle().getAdjustedIdleDuration();
default long getNotQueuedLoadedRegions(){
return getMantle().getLoadedRegions().size() - getMantle().getToUnload().size();
}
default double getTectonicDuration(){
return getMantle().getAdjustedIdleDuration().get();
}
}
@@ -30,5 +30,4 @@ public abstract class IrisMantleComponent implements MantleComponent {
private final EngineMantle engineMantle;
private final MantleFlag flag;
private final int priority;
private boolean enabled = true;
}
@@ -61,10 +61,6 @@ public interface MantleComponent extends Comparable<MantleComponent> {
MantleFlag getFlag();
boolean isEnabled();
void setEnabled(boolean b);
@ChunkCoordinates
void generateLayer(MantleWriter writer, int x, int z, ChunkContext context);
@@ -60,9 +60,8 @@ public class MantleWriter implements IObjectPlacer, AutoCloseable {
this.x = x;
this.z = z;
int r = radius / 4;
for (int i = -r; i <= r; i++) {
for (int j = -r; j <= r; j++) {
for (int i = -radius; i <= radius; i++) {
for (int j = -radius; j <= radius; j++) {
cachedChunks.put(Cache.key(i + x, j + z), mantle.getChunk(i + x, j + z).use());
}
}
@@ -144,7 +143,7 @@ public class MantleWriter implements IObjectPlacer, AutoCloseable {
if (cx >= this.x - radius && cx <= this.x + radius
&& cz >= this.z - radius && cz <= this.z + radius) {
MantleChunk chunk = cachedChunks.computeIfAbsent(Cache.key(cx, cz), k -> mantle.getChunk(cx, cz).use());
MantleChunk chunk = cachedChunks.get(Cache.key(cx, cz));
if (chunk == null) {
Iris.error("Mantle Writer Accessed " + cx + "," + cz + " and came up null (and yet within bounds!)");
@@ -153,8 +152,6 @@ public class MantleWriter implements IObjectPlacer, AutoCloseable {
Matter matter = chunk.getOrCreate(y >> 4);
matter.slice(matter.getClass(t)).set(x & 15, y & 15, z & 15, t);
} else {
Iris.error("Mantle Writer Accessed chunk out of bounds" + cx + "," + cz);
}
}
@@ -642,10 +639,9 @@ public class MantleWriter implements IObjectPlacer, AutoCloseable {
@Override
public void close() {
var iterator = cachedChunks.values().iterator();
while (iterator.hasNext()) {
iterator.next().release();
iterator.remove();
}
cachedChunks.values().removeIf(c -> {
c.release();
return true;
});
}
}
@@ -19,7 +19,6 @@
package com.volmit.iris.engine.mantle.components;
import com.volmit.iris.engine.data.cache.Cache;
import com.volmit.iris.engine.mantle.ComponentFlag;
import com.volmit.iris.engine.mantle.EngineMantle;
import com.volmit.iris.engine.mantle.IrisMantleComponent;
import com.volmit.iris.engine.mantle.MantleWriter;
@@ -33,7 +32,6 @@ import com.volmit.iris.util.math.RNG;
import lombok.Getter;
@Getter
@ComponentFlag(MantleFlag.CARVED)
public class MantleCarvingComponent extends IrisMantleComponent {
private final int radius = computeRadius();
@@ -60,21 +58,21 @@ public class MantleCarvingComponent extends IrisMantleComponent {
@ChunkCoordinates
private void carve(IrisCarving carving, MantleWriter writer, RNG rng, int cx, int cz) {
carving.doCarving(writer, rng, getEngineMantle().getEngine(), cx << 4, -1, cz << 4, 0);
carving.doCarving(writer, rng, getEngineMantle().getEngine(), cx << 4, -1, cz << 4);
}
private int computeRadius() {
var dimension = getDimension();
int max = 0;
max = Math.max(max, dimension.getCarving().getMaxRange(getData(), 0));
max = Math.max(max, dimension.getCarving().getMaxRange(getData()));
for (var i : dimension.getAllRegions(this::getData)) {
max = Math.max(max, i.getCarving().getMaxRange(getData(), 0));
max = Math.max(max, i.getCarving().getMaxRange(getData()));
}
for (var i : dimension.getAllBiomes(this::getData)) {
max = Math.max(max, i.getCarving().getMaxRange(getData(), 0));
max = Math.max(max, i.getCarving().getMaxRange(getData()));
}
return max;
@@ -19,7 +19,6 @@
package com.volmit.iris.engine.mantle.components;
import com.volmit.iris.engine.data.cache.Cache;
import com.volmit.iris.engine.mantle.ComponentFlag;
import com.volmit.iris.engine.mantle.EngineMantle;
import com.volmit.iris.engine.mantle.IrisMantleComponent;
import com.volmit.iris.engine.mantle.MantleWriter;
@@ -33,7 +32,6 @@ import com.volmit.iris.util.math.RNG;
import lombok.Getter;
@Getter
@ComponentFlag(MantleFlag.FLUID_BODIES)
public class MantleFluidBodyComponent extends IrisMantleComponent {
private final int radius = computeRadius();
@@ -19,7 +19,6 @@
package com.volmit.iris.engine.mantle.components;
import com.volmit.iris.engine.jigsaw.PlannedStructure;
import com.volmit.iris.engine.mantle.ComponentFlag;
import com.volmit.iris.engine.mantle.EngineMantle;
import com.volmit.iris.engine.mantle.IrisMantleComponent;
import com.volmit.iris.engine.mantle.MantleWriter;
@@ -40,7 +39,6 @@ import org.jetbrains.annotations.Nullable;
import java.util.List;
@ComponentFlag(MantleFlag.JIGSAW)
public class MantleJigsawComponent extends IrisMantleComponent {
@Getter
private final int radius = computeRadius();
@@ -20,7 +20,6 @@ package com.volmit.iris.engine.mantle.components;
import com.volmit.iris.Iris;
import com.volmit.iris.engine.data.cache.Cache;
import com.volmit.iris.engine.mantle.ComponentFlag;
import com.volmit.iris.engine.mantle.EngineMantle;
import com.volmit.iris.engine.mantle.IrisMantleComponent;
import com.volmit.iris.engine.mantle.MantleWriter;
@@ -48,7 +47,6 @@ import java.util.Set;
import java.util.concurrent.atomic.AtomicInteger;
@Getter
@ComponentFlag(MantleFlag.OBJECT)
public class MantleObjectComponent extends IrisMantleComponent {
private final int radius = computeRadius();
@@ -43,6 +43,7 @@ import org.bukkit.block.data.BlockData;
public class IrisCarveModifier extends EngineAssignedModifier<BlockData> {
private final RNG rng;
private final BlockData AIR = Material.CAVE_AIR.createBlockData();
private final BlockData WATER = Material.WATER.createBlockData();
private final BlockData LAVA = Material.LAVA.createBlockData();
private final IrisDecorantActuator decorant;
@@ -102,7 +103,7 @@ public class IrisCarveModifier extends EngineAssignedModifier<BlockData> {
}
if (c.isWater()) {
output.set(rx, yy, rz, context.getFluid().get(rx, rz));
output.set(rx, yy, rz, WATER);
} else if (c.isLava()) {
output.set(rx, yy, rz, LAVA);
} else {
@@ -52,20 +52,16 @@ public class IrisDepositModifier extends EngineAssignedModifier<BlockData> {
BurstExecutor burst = burst().burst(multicore);
long seed = x * 341873128712L + z * 132897987541L;
long mask = 0;
for (IrisDepositGenerator k : getDimension().getDeposits()) {
long finalSeed = seed * ++mask;
burst.queue(() -> generate(k, terrain, rng.nextParallelRNG(finalSeed), x, z, false, context));
burst.queue(() -> generate(k, terrain, rng.nextParallelRNG(seed), x, z, false, context));
}
for (IrisDepositGenerator k : region.getDeposits()) {
long finalSeed = seed * ++mask;
burst.queue(() -> generate(k, terrain, rng.nextParallelRNG(finalSeed), x, z, false, context));
burst.queue(() -> generate(k, terrain, rng.nextParallelRNG(seed), x, z, false, context));
}
for (IrisDepositGenerator k : biome.getDeposits()) {
long finalSeed = seed * ++mask;
burst.queue(() -> generate(k, terrain, rng.nextParallelRNG(finalSeed), x, z, false, context));
burst.queue(() -> generate(k, terrain, rng.nextParallelRNG(seed), x, z, false, context));
}
burst.complete();
}
@@ -82,7 +78,7 @@ public class IrisDepositModifier extends EngineAssignedModifier<BlockData> {
if (k.getPerClumpSpawnChance() < rng.d())
continue;
IrisObject clump = k.getClump(getEngine(), rng, getData());
IrisObject clump = k.getClump(rng, getData());
int dim = clump.getW();
int min = dim / 2;
@@ -171,14 +171,12 @@ public class IrisBiome extends IrisRegistrant implements IRare {
@ArrayType(type = IrisOreGenerator.class, min = 1)
private KList<IrisOreGenerator> ores = new KList<>();
public BlockData generateOres(int x, int y, int z, RNG rng, IrisData data, boolean surface) {
public BlockData generateOres(int x, int y, int z, RNG rng, IrisData data) {
if (ores.isEmpty()) {
return null;
}
BlockData b = null;
for (IrisOreGenerator i : ores) {
if (i.isGenerateSurface() != surface)
continue;
b = i.generate(x, y, z, rng, data);
if (b != null) {
@@ -19,7 +19,6 @@
package com.volmit.iris.engine.object;
import com.volmit.iris.Iris;
import com.volmit.iris.core.link.Identifier;
import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.core.loader.IrisRegistrant;
import com.volmit.iris.core.nms.INMS;
@@ -35,8 +34,8 @@ import lombok.Data;
import lombok.EqualsAndHashCode;
import lombok.NoArgsConstructor;
import lombok.experimental.Accessors;
import org.bukkit.Material;
import org.bukkit.block.data.BlockData;
import org.bukkit.entity.EntityType;
import java.util.Map;
@@ -203,14 +202,6 @@ public class IrisBlockData extends IrisRegistrant {
public TileData tryGetTile(IrisData data) {
//TODO Do like a registry thing with the tile data registry. Also update the parsing of data to include **block** entities.
var type = getBlockData(data).getMaterial();
if (type == Material.SPAWNER && this.data.containsKey("entitySpawn")) {
String id = (String) this.data.get("entitySpawn");
if (tileData == null) tileData = new KMap<>();
KMap<String, Object> spawnData = (KMap<String, Object>) tileData.computeIfAbsent("SpawnData", k -> new KMap<>());
KMap<String, Object> entity = (KMap<String, Object>) spawnData.computeIfAbsent("entity", k -> new KMap<>());
entity.putIfAbsent("id", Identifier.fromString(id).toString());
}
if (!INMS.get().hasTile(type) || tileData == null || tileData.isEmpty())
return null;
return new TileData(type, this.tileData);
@@ -61,25 +61,21 @@ public class IrisCarving {
@BlockCoordinates
public void doCarving(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z, int depth) {
doCarving(writer, rng, engine, x, y, z, depth, -1);
public void doCarving(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z) {
doCarving(writer, rng, engine, x, y, z, -1);
}
@BlockCoordinates
public void doCarving(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z, int recursion, int waterHint) {
int nextRecursion = recursion + 1;
public void doCarving(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z, int waterHint) {
if (caves.isNotEmpty()) {
for (IrisCavePlacer i : caves) {
if (recursion > i.getMaxRecursion()) continue;
i.generateCave(writer, rng, engine, x, y, z, nextRecursion, waterHint);
i.generateCave(writer, rng, engine, x, y, z, waterHint);
}
}
if (ravines.isNotEmpty()) {
for (IrisRavinePlacer i : ravines) {
if (recursion > i.getMaxRecursion()) continue;
i.generateRavine(writer, rng, engine, x, y, z, nextRecursion, waterHint);
i.generateRavine(writer, rng, engine, x, y, z, waterHint);
}
}
@@ -108,18 +104,15 @@ public class IrisCarving {
}
}
public int getMaxRange(IrisData data, int recursion) {
public int getMaxRange(IrisData data) {
int max = 0;
int nextRecursion = recursion + 1;
for (IrisCavePlacer i : caves) {
if (recursion > i.getMaxRecursion()) continue;
max = Math.max(max, i.getSize(data, nextRecursion));
max = Math.max(max, i.getSize(data));
}
for (IrisRavinePlacer i : ravines) {
if (recursion > i.getMaxRecursion()) continue;
max = Math.max(max, i.getSize(data, nextRecursion));
max = Math.max(max, i.getSize(data));
}
if (elipsoids.isNotEmpty()) {
@@ -66,12 +66,14 @@ public class IrisCave extends IrisRegistrant {
}
public void generate(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z) {
generate(writer, rng, engine, x, y, z, 0, -1, true);
generate(writer, rng, engine, x, y, z, -1);
}
public void generate(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z, int recursion, int waterHint, boolean breakSurface) {
public void generate(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z, int waterHint) {
double girth = getWorm().getGirth().get(rng, x, z, engine.getData());
KList<IrisPosition> points = getWorm().generate(rng, engine.getData(), writer, verticalRange, x, y, z, breakSurface, girth + 9);
KList<IrisPosition> points = getWorm().generate(rng, engine.getData(), writer, verticalRange, x, y, z, (at) -> {
});
int highestWater = Math.max(waterHint, -1);
if (highestWater == -1) {
@@ -90,7 +92,7 @@ public class IrisCave extends IrisRegistrant {
int h = Math.min(Math.max(highestWater, waterHint), engine.getDimension().getFluidHeight());
for (IrisPosition i : points) {
fork.doCarving(writer, rng, engine, i.getX(), i.getY(), i.getZ(), recursion, h);
fork.doCarving(writer, rng, engine, i.getX(), i.getY(), i.getZ(), h);
}
MatterCavern c = new MatterCavern(true, customBiome, (byte) 0);
@@ -106,7 +108,7 @@ public class IrisCave extends IrisRegistrant {
}
public int getMaxSize(IrisData data, int depth) {
return getWorm().getMaxDistance() + fork.getMaxRange(data, depth);
public int getMaxSize(IrisData data) {
return getWorm().getMaxDistance() + fork.getMaxRange(data);
}
}
@@ -50,10 +50,6 @@ public class IrisCavePlacer implements IRare {
@Desc("The cave to place")
@RegistryListResource(IrisCave.class)
private String cave;
@MinNumber(1)
@MaxNumber(256)
@Desc("The maximum recursion depth")
private int maxRecursion = 16;
@Desc("If set to true, this cave is allowed to break the surface")
private boolean breakSurface = true;
@Desc("The height range this cave can spawn at. If breakSurface is false, the output of this range will be clamped by the current world height to prevent surface breaking.")
@@ -64,10 +60,10 @@ public class IrisCavePlacer implements IRare {
}
public void generateCave(MantleWriter mantle, RNG rng, Engine engine, int x, int y, int z) {
generateCave(mantle, rng, engine, x, y, z, 0, -1);
generateCave(mantle, rng, engine, x, y, z, -1);
}
public void generateCave(MantleWriter mantle, RNG rng, Engine engine, int x, int y, int z, int recursion, int waterHint) {
public void generateCave(MantleWriter mantle, RNG rng, Engine engine, int x, int y, int z, int waterHint) {
if (fail.get()) {
return;
}
@@ -86,24 +82,28 @@ public class IrisCavePlacer implements IRare {
}
if (y == -1) {
int h = (int) caveStartHeight.get(rng, x, z, data);
int ma = breakSurface ? h : (int) (engine.getComplex().getHeightStream().get(x, z) - 9);
y = Math.min(h, ma);
if(!breakSurface) {
int eH = engine.getHeight(x, z);
if (caveStartHeight.getMax() > eH) {
caveStartHeight.setMax(eH);
}
}
y = (int) caveStartHeight.get(rng, x, z, data);
}
try {
cave.generate(mantle, rng, engine, x + rng.nextInt(15), y, z + rng.nextInt(15), recursion, waterHint, breakSurface);
cave.generate(mantle, rng, engine, x + rng.nextInt(15), y, z + rng.nextInt(15), waterHint);
} catch (Throwable e) {
e.printStackTrace();
fail.set(true);
}
}
public int getSize(IrisData data, int depth) {
public int getSize(IrisData data) {
IrisCave cave = getRealCave(data);
if (cave != null) {
return cave.getMaxSize(data, depth);
return cave.getMaxSize(data);
}
return 32;
@@ -0,0 +1,77 @@
package com.volmit.iris.engine.object;
import com.volmit.iris.core.nms.INMS;
import com.volmit.iris.core.nms.container.AutoClosing;
import com.volmit.iris.util.misc.ServerProperties;
import lombok.Getter;
import org.bukkit.Bukkit;
import org.bukkit.configuration.ConfigurationSection;
import org.bukkit.configuration.file.YamlConfiguration;
import org.bukkit.event.EventHandler;
import org.bukkit.event.Listener;
import org.bukkit.event.world.WorldInitEvent;
import java.util.List;
import static com.volmit.iris.Iris.instance;
public class IrisContextInjector implements Listener {
@Getter
private static boolean missingDimensionTypes = false;
private AutoClosing autoClosing = null;
private final int totalWorlds;
private int worldCounter = 0;
public IrisContextInjector() {
if (!Bukkit.getWorlds().isEmpty()) {
totalWorlds = 0;
return;
}
String levelName = ServerProperties.LEVEL_NAME;
List<String> irisWorlds = irisWorlds();
boolean overworld = irisWorlds.contains(levelName);
boolean nether = irisWorlds.contains(levelName + "_nether");
boolean end = irisWorlds.contains(levelName + "_end");
int i = 1;
if (Bukkit.getAllowNether()) i++;
if (Bukkit.getAllowEnd()) i++;
if (INMS.get().missingDimensionTypes(overworld, nether, end)) {
missingDimensionTypes = true;
totalWorlds = 0;
return;
}
if (overworld || nether || end) {
var pair = INMS.get().injectUncached(overworld, nether, end);
i += pair.getA() - 3;
autoClosing = pair.getB();
}
totalWorlds = i;
instance.registerListener(this);
}
@EventHandler
public void on(WorldInitEvent event) {
if (++worldCounter < totalWorlds) return;
if (autoClosing != null) {
autoClosing.close();
autoClosing = null;
}
instance.unregisterListener(this);
}
private List<String> irisWorlds() {
var config = YamlConfiguration.loadConfiguration(ServerProperties.BUKKIT_YML);
ConfigurationSection section = config.getConfigurationSection("worlds");
if (section == null) return List.of();
return section.getKeys(false)
.stream()
.filter(k -> section.getString(k + ".generator", "").startsWith("Iris"))
.toList();
}
}
@@ -20,7 +20,6 @@ package com.volmit.iris.engine.object;
import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.engine.data.cache.AtomicCache;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.engine.object.annotations.*;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KSet;
@@ -88,10 +87,10 @@ public class IrisDepositGenerator {
@Desc("Ore varience is how many different objects clumps iris will create")
private int varience = 3;
public IrisObject getClump(Engine engine, RNG rng, IrisData rdata) {
public IrisObject getClump(RNG rng, IrisData rdata) {
KList<IrisObject> objects = this.objects.aquire(() ->
{
RNG rngv = new RNG(engine.getSeedManager().getDeposit() + hashCode());
RNG rngv = rng.nextParallelRNG(3957778);
KList<IrisObject> objectsf = new KList<>();
for (int i = 0; i < varience; i++) {
@@ -25,16 +25,13 @@ import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.core.loader.IrisRegistrant;
import com.volmit.iris.core.nms.INMS;
import com.volmit.iris.core.nms.datapack.IDataFixer;
import com.volmit.iris.core.nms.datapack.IDataFixer.Dimension;
import com.volmit.iris.engine.data.cache.AtomicCache;
import com.volmit.iris.engine.object.annotations.*;
import com.volmit.iris.engine.object.annotations.functions.ComponentFlagFunction;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KSet;
import com.volmit.iris.util.data.DataProvider;
import com.volmit.iris.util.io.IO;
import com.volmit.iris.util.json.JSONObject;
import com.volmit.iris.util.mantle.MantleFlag;
import com.volmit.iris.util.math.Position2;
import com.volmit.iris.util.math.RNG;
import com.volmit.iris.util.noise.CNG;
@@ -48,7 +45,8 @@ import org.bukkit.Material;
import org.bukkit.World.Environment;
import org.bukkit.block.data.BlockData;
import java.io.*;
import java.io.File;
import java.io.IOException;
@Accessors(chain = true)
@AllArgsConstructor
@@ -76,6 +74,10 @@ public class IrisDimension extends IrisRegistrant {
@MaxNumber(2032)
@Desc("Maximum height at which players can be teleported to through gameplay.")
private int logicalHeight = 256;
@Desc("Maximum height at which players can be teleported to through gameplay.")
private int logicalHeightEnd = 256;
@Desc("Maximum height at which players can be teleported to through gameplay.")
private int logicalHeightNether = 256;
@RegistryListResource(IrisJigsawStructure.class)
@Desc("If defined, Iris will place the given jigsaw structure where minecraft should place the overworld stronghold.")
private String stronghold;
@@ -164,8 +166,10 @@ public class IrisDimension extends IrisRegistrant {
private int fluidHeight = 63;
@Desc("Define the min and max Y bounds of this dimension. Please keep in mind that Iris internally generates from 0 to (max - min). \n\nFor example at -64 to 320, Iris is internally generating to 0 to 384, then on outputting chunks, it shifts it down by the min height (64 blocks). The default is -64 to 320. \n\nThe fluid height is placed at (fluid height + min height). So a fluid height of 63 would actually show up in the world at 1.")
private IrisRange dimensionHeight = new IrisRange(-64, 320);
@Desc("Define options for this dimension")
private IrisDimensionTypeOptions dimensionOptions = new IrisDimensionTypeOptions();
@Desc("Define the min and max Y bounds of this dimension. Please keep in mind that Iris internally generates from 0 to (max - min). \n\nFor example at -64 to 320, Iris is internally generating to 0 to 384, then on outputting chunks, it shifts it down by the min height (64 blocks). The default is -64 to 320. \n\nThe fluid height is placed at (fluid height + min height). So a fluid height of 63 would actually show up in the world at 1.")
private IrisRange dimensionHeightEnd = new IrisRange(-64, 320);
@Desc("Define the min and max Y bounds of this dimension. Please keep in mind that Iris internally generates from 0 to (max - min). \n\nFor example at -64 to 320, Iris is internally generating to 0 to 384, then on outputting chunks, it shifts it down by the min height (64 blocks). The default is -64 to 320. \n\nThe fluid height is placed at (fluid height + min height). So a fluid height of 63 would actually show up in the world at 1.")
private IrisRange dimensionHeightNether = new IrisRange(-64, 320);
@RegistryListResource(IrisBiome.class)
@Desc("Keep this either undefined or empty. Setting any biome name into this will force iris to only generate the specified biome. Great for testing.")
private String focus = "";
@@ -240,10 +244,6 @@ public class IrisDimension extends IrisRegistrant {
@MaxNumber(318)
@Desc("The Subterrain Fluid Layer Height")
private int caveLavaHeight = 8;
@RegistryListFunction(ComponentFlagFunction.class)
@ArrayType(type = MantleFlag.class)
@Desc("Collection of disabled components")
private KList<MantleFlag> disabledComponents = new KList<>();
public int getMaxHeight() {
return (int) getDimensionHeight().getMax();
@@ -253,14 +253,12 @@ public class IrisDimension extends IrisRegistrant {
return (int) getDimensionHeight().getMin();
}
public BlockData generateOres(int x, int y, int z, RNG rng, IrisData data, boolean surface) {
public BlockData generateOres(int x, int y, int z, RNG rng, IrisData data) {
if (ores.isEmpty()) {
return null;
}
BlockData b = null;
for (IrisOreGenerator i : ores) {
if (i.isGenerateSurface() != surface)
continue;
b = i.generate(x, y, z, rng, data);
if (b != null) {
@@ -412,39 +410,6 @@ public class IrisDimension extends IrisRegistrant {
});
}
public Dimension getBaseDimension() {
return switch (getEnvironment()) {
case NETHER -> Dimension.NETHER;
case THE_END -> Dimension.END;
default -> Dimension.OVERWORLD;
};
}
public String getDimensionTypeKey() {
return getDimensionType().key();
}
public IrisDimensionType getDimensionType() {
return new IrisDimensionType(getBaseDimension(), getDimensionOptions(), getLogicalHeight(), getMaxHeight() - getMinHeight(), getMinHeight());
}
public void installDimensionType(IDataFixer fixer, KList<File> folders) {
IrisDimensionType type = getDimensionType();
String json = type.toJson(fixer);
Iris.verbose(" Installing Data Pack Dimension Type: \"iris:" + type.key() + '"');
for (File datapacks : folders) {
File output = new File(datapacks, "iris/data/iris/dimension_type/" + type.key() + ".json");
output.getParentFile().mkdirs();
try {
IO.writeAll(output, json);
} catch (IOException e) {
Iris.reportError(e);
e.printStackTrace();
}
}
}
@Override
public String getFolderName() {
return "dimensions";
@@ -461,12 +426,11 @@ public class IrisDimension extends IrisRegistrant {
}
public static void writeShared(KList<File> folders, DimensionHeight height) {
Iris.verbose(" Installing Data Pack Vanilla Dimension Types");
String[] jsonStrings = height.jsonStrings();
Iris.verbose(" Installing Data Pack Dimension Types: \"iris:overworld\", \"iris:the_nether\", \"iris:the_end\"");
for (File datapacks : folders) {
write(datapacks, "overworld", jsonStrings[0]);
write(datapacks, "the_nether", jsonStrings[1]);
write(datapacks, "the_end", jsonStrings[2]);
write(datapacks, "overworld", height.overworldType());
write(datapacks, "the_nether", height.netherType());
write(datapacks, "the_end", height.endType());
}
String raw = """
@@ -491,9 +455,17 @@ public class IrisDimension extends IrisRegistrant {
}
private static void write(File datapacks, String type, String json) {
if (json == null) return;
File dimType = new File(datapacks, "iris/data/iris/dimension_type/" + type + ".json");
File dimTypeVanilla = new File(datapacks, "iris/data/minecraft/dimension_type/" + type + ".json");
dimType.getParentFile().mkdirs();
try {
IO.writeAll(dimType, json);
} catch (IOException e) {
Iris.reportError(e);
e.printStackTrace();
}
if (IrisSettings.get().getGeneral().adjustVanillaHeight || dimTypeVanilla.exists()) {
dimTypeVanilla.getParentFile().mkdirs();
try {
@@ -1,91 +0,0 @@
package com.volmit.iris.engine.object;
import com.volmit.iris.core.nms.datapack.IDataFixer;
import com.volmit.iris.util.data.Varint;
import com.volmit.iris.util.io.IO;
import lombok.*;
import lombok.experimental.Accessors;
import java.io.*;
@Getter
@ToString
@Accessors(fluent = true, chain = true)
@EqualsAndHashCode
public final class IrisDimensionType {
@NonNull
private final String key;
@NonNull
private final IDataFixer.Dimension base;
@NonNull
private final IrisDimensionTypeOptions options;
private final int logicalHeight;
private final int height;
private final int minY;
public IrisDimensionType(
@NonNull IDataFixer.Dimension base,
@NonNull IrisDimensionTypeOptions options,
int logicalHeight,
int height,
int minY
) {
if (logicalHeight > height) throw new IllegalArgumentException("Logical height cannot be greater than height");
if (logicalHeight < 0) throw new IllegalArgumentException("Logical height cannot be less than zero");
if (height < 16 || height > 4064 ) throw new IllegalArgumentException("Height must be between 16 and 4064");
if ((height & 15) != 0) throw new IllegalArgumentException("Height must be a multiple of 16");
if (minY < -2032 || minY > 2031) throw new IllegalArgumentException("Min Y must be between -2032 and 2031");
if ((minY & 15) != 0) throw new IllegalArgumentException("Min Y must be a multiple of 16");
this.base = base;
this.options = options;
this.logicalHeight = logicalHeight;
this.height = height;
this.minY = minY;
this.key = createKey();
}
public static IrisDimensionType fromKey(String key) {
var stream = new ByteArrayInputStream(IO.decode(key.replace(".", "=").toUpperCase()));
try (var din = new DataInputStream(stream)) {
return new IrisDimensionType(
IDataFixer.Dimension.values()[din.readUnsignedByte()],
new IrisDimensionTypeOptions().read(din),
Varint.readUnsignedVarInt(din),
Varint.readUnsignedVarInt(din),
Varint.readSignedVarInt(din)
);
} catch (IOException e) {
throw new RuntimeException("This is impossible", e);
}
}
public String toJson(IDataFixer fixer) {
return fixer.createDimension(
base,
minY,
height,
logicalHeight,
options.copy()
).toString(4);
}
private String createKey() {
var stream = new ByteArrayOutputStream(41);
try (var dos = new DataOutputStream(stream)) {
dos.writeByte(base.ordinal());
options.write(dos);
Varint.writeUnsignedVarInt(logicalHeight, dos);
Varint.writeUnsignedVarInt(height, dos);
Varint.writeSignedVarInt(minY, dos);
} catch (IOException e) {
throw new RuntimeException("This is impossible", e);
}
return IO.encode(stream.toByteArray()).replace("=", ".").toLowerCase();
}
public IrisDimensionTypeOptions options() {
return options.copy();
}
}
@@ -1,320 +0,0 @@
package com.volmit.iris.engine.object;
import com.volmit.iris.engine.object.annotations.Desc;
import com.volmit.iris.engine.object.annotations.MaxNumber;
import com.volmit.iris.engine.object.annotations.MinNumber;
import com.volmit.iris.util.data.Varint;
import com.volmit.iris.util.json.JSONObject;
import lombok.*;
import lombok.experimental.Accessors;
import org.jetbrains.annotations.Nullable;
import java.io.DataInput;
import java.io.DataOutput;
import java.io.IOException;
import java.util.Arrays;
import static com.volmit.iris.engine.object.IrisDimensionTypeOptions.TriState.*;
@Data
@NoArgsConstructor
@Accessors(fluent = true, chain = true)
@Desc("Optional options for the dimension type")
public class IrisDimensionTypeOptions {
@MinNumber(0.00001)
@MaxNumber(30000000)
@Desc("The multiplier applied to coordinates when leaving the dimension. Value between 0.00001 and 30000000.0 (both inclusive).")
private double coordinateScale = -1;
@MinNumber(0)
@MaxNumber(1)
@Desc("How much light the dimension has. When set to 0, it completely follows the light level; when set to 1, there is no ambient lighting.")
private float ambientLight = -1;
@Nullable
@MinNumber(0)
@MaxNumber(Long.MAX_VALUE)
@Desc("If this is set to an int, the time of the day is the specified value. To ensure a normal time cycle, set it to null.")
private Long fixedTime = -1L;
@Nullable
@MinNumber(-2032)
@MaxNumber(2031)
@Desc("Optional value between -2032 and 2031. If set, determines the lower edge of the clouds. If set to null, clouds are disabled in the dimension.")
private Integer cloudHeight = -1;
@MinNumber(0)
@MaxNumber(15)
@Desc("Value between 0 and 15 (both inclusive). Maximum block light required when the monster spawns.")
private int monsterSpawnBlockLightLimit = -1;
@NonNull
@Desc("Whether the dimensions behaves like the nether (water evaporates and sponges dry) or not. Also lets stalactites drip lava and causes lava to spread faster and thinner.")
private TriState ultrawarm = DEFAULT;
@NonNull
@Desc("When false, compasses spin randomly, and using a bed to set the respawn point or sleep, is disabled. When true, nether portals can spawn zombified piglins, and creaking hearts can spawn creakings.")
private TriState natural = DEFAULT;
@NonNull
@Desc("When false, Piglins and hoglins shake and transform to zombified entities.")
private TriState piglinSafe = DEFAULT;
@NonNull
@Desc("When false, the respawn anchor blows up when trying to set spawn point.")
private TriState respawnAnchorWorks = DEFAULT;
@NonNull
@Desc("When false, the bed blows up when trying to sleep.")
private TriState bedWorks = DEFAULT;
@NonNull
@Desc("Whether players with the Bad Omen effect can cause a raid.")
private TriState raids = DEFAULT;
@NonNull
@Desc("Whether the dimension has skylight or not.")
private TriState skylight = DEFAULT;
@NonNull
@Desc("Whether the dimension has a bedrock ceiling. Note that this is only a logical ceiling. It is unrelated with whether the dimension really has a block ceiling.")
private TriState ceiling = DEFAULT;
public IrisDimensionTypeOptions(
@NonNull TriState ultrawarm,
@NonNull TriState natural,
@NonNull TriState piglinSafe,
@NonNull TriState respawnAnchorWorks,
@NonNull TriState bedWorks,
@NonNull TriState raids,
@NonNull TriState skylight,
@NonNull TriState ceiling,
double coordinateScale,
float ambientLight,
@Nullable Long fixedTime,
@Nullable Integer cloudHeight,
int monsterSpawnBlockLightLimit
) {
if (coordinateScale != -1 && (coordinateScale < 0.00001 || coordinateScale > 30000000))
throw new IllegalArgumentException("Coordinate scale must be between 0.00001 and 30000000");
if (ambientLight != -1 && (ambientLight < 0 || ambientLight > 1))
throw new IllegalArgumentException("Ambient light must be between 0 and 1");
if (cloudHeight != null && cloudHeight != -1 && (cloudHeight < -2032 || cloudHeight > 2031))
throw new IllegalArgumentException("Cloud height must be between -2032 and 2031");
if (monsterSpawnBlockLightLimit != -1 && (monsterSpawnBlockLightLimit < 0 || monsterSpawnBlockLightLimit > 15))
throw new IllegalArgumentException("Monster spawn block light limit must be between 0 and 15");
this.ultrawarm = ultrawarm;
this.natural = natural;
this.piglinSafe = piglinSafe;
this.respawnAnchorWorks = respawnAnchorWorks;
this.bedWorks = bedWorks;
this.raids = raids;
this.skylight = skylight;
this.ceiling = ceiling;
this.coordinateScale = coordinateScale;
this.ambientLight = ambientLight;
this.fixedTime = fixedTime;
this.cloudHeight = cloudHeight;
this.monsterSpawnBlockLightLimit = monsterSpawnBlockLightLimit;
}
public IrisDimensionTypeOptions coordinateScale(double coordinateScale) {
if (coordinateScale != -1 && (coordinateScale < 0.00001 || coordinateScale > 30000000))
throw new IllegalArgumentException("Coordinate scale must be between 0.00001 and 30000000");
this.coordinateScale = coordinateScale;
return this;
}
public IrisDimensionTypeOptions ambientLight(float ambientLight) {
if (ambientLight != -1 && (ambientLight < 0 || ambientLight > 1))
throw new IllegalArgumentException("Ambient light must be between 0 and 1");
this.ambientLight = ambientLight;
return this;
}
public IrisDimensionTypeOptions cloudHeight(@Nullable Integer cloudHeight) {
if (cloudHeight != null && cloudHeight != -1 && (cloudHeight < -2032 || cloudHeight > 2031))
throw new IllegalArgumentException("Cloud height must be between -2032 and 2031");
this.cloudHeight = cloudHeight;
return this;
}
public IrisDimensionTypeOptions monsterSpawnBlockLightLimit(int monsterSpawnBlockLightLimit) {
if (monsterSpawnBlockLightLimit != -1 && (monsterSpawnBlockLightLimit < 0 || monsterSpawnBlockLightLimit > 15))
throw new IllegalArgumentException("Monster spawn block light limit must be between 0 and 15");
this.monsterSpawnBlockLightLimit = monsterSpawnBlockLightLimit;
return this;
}
public void write(DataOutput dos) throws IOException {
int bits = 0;
int index = 0;
for (TriState state : new TriState[]{
ultrawarm,
natural,
skylight,
ceiling,
piglinSafe,
bedWorks,
respawnAnchorWorks,
raids
}) {
if (state == DEFAULT) {
index++;
continue;
}
bits |= (short) (1 << index++);
if (state == TRUE)
bits |= (short) (1 << index++);
}
if (coordinateScale != -1)
bits |= (1 << index++);
if (ambientLight != -1)
bits |= (1 << index++);
if (monsterSpawnBlockLightLimit != -1)
bits |= (1 << index++);
if (fixedTime != null) {
bits |= (1 << index++);
if (fixedTime != -1L)
bits |= (1 << index++);
}
if (cloudHeight != null) {
bits |= (1 << index++);
if (cloudHeight != -1)
bits |= (1 << index);
}
Varint.writeSignedVarInt(bits, dos);
if (coordinateScale != -1)
Varint.writeUnsignedVarLong(Double.doubleToLongBits(coordinateScale), dos);
if (ambientLight != -1)
Varint.writeUnsignedVarInt(Float.floatToIntBits(ambientLight), dos);
if (monsterSpawnBlockLightLimit != -1)
Varint.writeSignedVarInt(monsterSpawnBlockLightLimit, dos);
if (fixedTime != null && fixedTime != -1L)
Varint.writeSignedVarLong(fixedTime, dos);
if (cloudHeight != null && cloudHeight != -1)
Varint.writeSignedVarInt(cloudHeight, dos);
}
public IrisDimensionTypeOptions read(DataInput dis) throws IOException {
TriState[] states = new TriState[8];
Arrays.fill(states, DEFAULT);
int bits = Varint.readSignedVarInt(dis);
int index = 0;
for (int i = 0; i < 8; i++) {
if ((bits & (1 << index++)) == 0)
continue;
states[i] = (bits & (1 << index++)) == 0 ? FALSE : TRUE;
}
ultrawarm = states[0];
natural = states[1];
skylight = states[2];
ceiling = states[3];
piglinSafe = states[4];
bedWorks = states[5];
respawnAnchorWorks = states[6];
raids = states[7];
coordinateScale = (bits & (1 << index++)) != 0 ? Double.longBitsToDouble(Varint.readUnsignedVarLong(dis)) : -1;
ambientLight = (bits & (1 << index++)) != 0 ? Float.intBitsToFloat(Varint.readUnsignedVarInt(dis)) : -1;
monsterSpawnBlockLightLimit = (bits & (1 << index++)) != 0 ? Varint.readSignedVarInt(dis) : -1;
fixedTime = (bits & (1 << index++)) != 0 ? (bits & (1 << index)) != 0 ? Varint.readSignedVarLong(dis) : -1L : null;
cloudHeight = (bits & (1 << index++)) != 0 ? (bits & (1 << index)) != 0 ? Varint.readSignedVarInt(dis) : -1 : null;
return this;
}
public IrisDimensionTypeOptions resolve(IrisDimensionTypeOptions other) {
if (ultrawarm == DEFAULT)
ultrawarm = other.ultrawarm;
if (natural == DEFAULT)
natural = other.natural;
if (piglinSafe == DEFAULT)
piglinSafe = other.piglinSafe;
if (respawnAnchorWorks == DEFAULT)
respawnAnchorWorks = other.respawnAnchorWorks;
if (bedWorks == DEFAULT)
bedWorks = other.bedWorks;
if (raids == DEFAULT)
raids = other.raids;
if (skylight == DEFAULT)
skylight = other.skylight;
if (ceiling == DEFAULT)
ceiling = other.ceiling;
if (coordinateScale == -1)
coordinateScale = other.coordinateScale;
if (ambientLight == -1)
ambientLight = other.ambientLight;
if (fixedTime != null && fixedTime == -1L)
fixedTime = other.fixedTime;
if (cloudHeight != null && cloudHeight == -1)
cloudHeight = other.cloudHeight;
if (monsterSpawnBlockLightLimit == -1)
monsterSpawnBlockLightLimit = other.monsterSpawnBlockLightLimit;
return this;
}
public JSONObject toJson() {
if (!isComplete()) throw new IllegalStateException("Cannot serialize incomplete options");
JSONObject json = new JSONObject();
json.put("ultrawarm", ultrawarm.bool());
json.put("natural", natural.bool());
json.put("piglin_safe", piglinSafe.bool());
json.put("respawn_anchor_works", respawnAnchorWorks.bool());
json.put("bed_works", bedWorks.bool());
json.put("has_raids", raids.bool());
json.put("has_skylight", skylight.bool());
json.put("has_ceiling", ceiling.bool());
json.put("coordinate_scale", coordinateScale);
json.put("ambient_light", ambientLight);
json.put("monster_spawn_block_light_limit", monsterSpawnBlockLightLimit);
if (fixedTime != null) json.put("fixed_time", fixedTime);
if (cloudHeight != null) json.put("cloud_height", cloudHeight);
return json;
}
public IrisDimensionTypeOptions copy() {
return new IrisDimensionTypeOptions(
ultrawarm,
natural,
piglinSafe,
respawnAnchorWorks,
bedWorks,
raids,
skylight,
ceiling,
coordinateScale,
ambientLight,
fixedTime,
cloudHeight,
monsterSpawnBlockLightLimit
);
}
public boolean isComplete() {
return ultrawarm != DEFAULT
&& natural != DEFAULT
&& piglinSafe != DEFAULT
&& respawnAnchorWorks != DEFAULT
&& bedWorks != DEFAULT
&& raids != DEFAULT
&& skylight != DEFAULT
&& ceiling != DEFAULT
&& coordinateScale != -1
&& ambientLight != -1
&& monsterSpawnBlockLightLimit != -1
&& (fixedTime == null || fixedTime != -1L)
&& (cloudHeight == null || cloudHeight != -1);
}
@Desc("Allows reusing the behavior of the base dimension")
public enum TriState {
@Desc("Follow the behavior of the base dimension")
DEFAULT,
@Desc("True")
TRUE,
@Desc("False")
FALSE;
public boolean bool() {
return this == TRUE;
}
}
}
@@ -28,6 +28,7 @@ import com.volmit.iris.util.math.RNG;
import com.volmit.iris.util.math.Vector3d;
import com.volmit.iris.util.matter.MatterMarker;
import com.volmit.iris.util.matter.slices.MarkerMatter;
import io.lumine.mythic.bukkit.adapters.BukkitEntity;
import lombok.AllArgsConstructor;
import lombok.Data;
import lombok.NoArgsConstructor;
@@ -37,6 +38,9 @@ import org.bukkit.Location;
import org.bukkit.Material;
import org.bukkit.World;
import org.bukkit.entity.Entity;
import org.bukkit.entity.EntityType;
import org.bukkit.entity.LivingEntity;
import org.bukkit.util.BoundingBox;
@Snippet("entity-spawn")
@Accessors(chain = true)
@@ -112,8 +116,8 @@ public class IrisEntitySpawn implements IRare {
World world = gen.getWorld().realWorld();
if (spawns > 0) {
if (referenceMarker != null && referenceMarker.shouldExhaust()) {
gen.getMantle().getMantle().remove(c.getX(), c.getY() - gen.getWorld().minHeight(), c.getZ(), MatterMarker.class);
if (referenceMarker != null) {
gen.getMantle().getMantle().remove(c.getX(), c.getY(), c.getZ(), MatterMarker.class);
}
for (int id = 0; id < spawns; id++) {
@@ -0,0 +1,325 @@
/*
* Iris is a World Generator for Minecraft Bukkit Servers
* Copyright (c) 2024 Arcane Arts (Volmit Software)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
package com.volmit.iris.engine.object;
import com.volmit.iris.Iris;
import com.volmit.iris.core.nms.INMS;
import com.volmit.iris.core.nms.headless.IRegion;
import com.volmit.iris.core.nms.headless.IRegionStorage;
import com.volmit.iris.core.nms.headless.SerializableChunk;
import com.volmit.iris.core.pregenerator.PregenListener;
import com.volmit.iris.engine.data.cache.Cache;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.engine.framework.EngineStage;
import com.volmit.iris.engine.framework.WrongEngineBroException;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.context.ChunkContext;
import com.volmit.iris.util.context.IrisContext;
import com.volmit.iris.util.documentation.BlockCoordinates;
import com.volmit.iris.util.documentation.RegionCoordinates;
import com.volmit.iris.util.hunk.Hunk;
import com.volmit.iris.util.hunk.view.BiomeGridHunkHolder;
import com.volmit.iris.util.hunk.view.SyncChunkDataHunkHolder;
import com.volmit.iris.util.mantle.MantleFlag;
import com.volmit.iris.util.math.M;
import com.volmit.iris.util.math.Position2;
import com.volmit.iris.util.parallel.MultiBurst;
import com.volmit.iris.util.scheduling.J;
import com.volmit.iris.util.scheduling.Looper;
import com.volmit.iris.util.scheduling.PrecisionStopwatch;
import org.bukkit.Material;
import org.bukkit.block.data.BlockData;
import java.io.IOException;
import java.util.concurrent.*;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicReference;
import java.util.concurrent.atomic.AtomicReferenceArray;
import java.util.function.Consumer;
public class IrisHeadless {
private final long KEEP_ALIVE = TimeUnit.SECONDS.toMillis(10L);
private final Engine engine;
private final IRegionStorage storage;
private final ExecutorService executor = Executors.newCachedThreadPool();
private final KMap<Long, Region> regions = new KMap<>();
private final AtomicInteger loadedChunks = new AtomicInteger();
private transient CompletingThread regionThread;
private transient boolean closed = false;
public IrisHeadless(Engine engine) {
this.engine = engine;
this.storage = INMS.get().createRegionStorage(engine);
if (storage == null) throw new IllegalStateException("Failed to create region storage!");
engine.getWorld().headless(this);
startRegionCleaner();
}
private void startRegionCleaner() {
var cleaner = new Looper() {
@Override
protected long loop() {
if (closed) return -1;
long time = M.ms() - KEEP_ALIVE;
regions.values()
.stream()
.filter(r -> r.lastEntry < time)
.forEach(Region::submit);
return closed ? -1 : 1000;
}
};
cleaner.setName("Iris Region Cleaner - " + engine.getWorld().name());
cleaner.setPriority(Thread.MIN_PRIORITY);
cleaner.start();
}
public int getLoadedChunks() {
return loadedChunks.get();
}
/**
* Checks if the mca plate is fully generated or not.
*
* @param x coord of the chunk
* @param z coord of the chunk
* @return true if the chunk exists in .mca
*/
public boolean exists(int x, int z) {
if (closed) return false;
if (engine.getWorld().hasRealWorld() && engine.getWorld().realWorld().isChunkLoaded(x, z))
return true;
return storage.exists(x, z);
}
public synchronized CompletableFuture<Void> generateRegion(MultiBurst burst, int x, int z, int maxConcurrent, PregenListener listener) {
if (closed) return CompletableFuture.completedFuture(null);
if (regionThread != null && !regionThread.future.isDone())
throw new IllegalStateException("Region generation already in progress");
regionThread = new CompletingThread(() -> {
boolean listening = listener != null;
Semaphore semaphore = new Semaphore(maxConcurrent);
CountDownLatch latch = new CountDownLatch(1024);
iterateRegion(x, z, pos -> {
try {
semaphore.acquire();
} catch (InterruptedException e) {
semaphore.release();
return;
}
burst.complete(() -> {
try {
if (listening) listener.onChunkGenerating(pos.getX(), pos.getZ());
generateChunk(pos.getX(), pos.getZ());
if (listening) listener.onChunkGenerated(pos.getX(), pos.getZ());
} finally {
semaphore.release();
latch.countDown();
}
});
});
try {
latch.await();
} catch (InterruptedException ignored) {}
if (listening) listener.onRegionGenerated(x, z);
}, "Region Generator - " + x + "," + z, Thread.MAX_PRIORITY);
return regionThread.future;
}
@RegionCoordinates
private static void iterateRegion(int x, int z, Consumer<Position2> chunkPos) {
int cX = x << 5;
int cZ = z << 5;
for (int xx = 0; xx < 32; xx++) {
for (int zz = 0; zz < 32; zz++) {
chunkPos.accept(new Position2(cX + xx, cZ + zz));
}
}
}
public void generateChunk(int x, int z) {
if (closed || exists(x, z)) return;
try {
var chunk = storage.createChunk(x, z);
loadedChunks.incrementAndGet();
SyncChunkDataHunkHolder blocks = new SyncChunkDataHunkHolder(chunk);
BiomeGridHunkHolder biomes = new BiomeGridHunkHolder(chunk, chunk.getMinHeight(), chunk.getMaxHeight());
ChunkContext ctx = generate(engine, x << 4, z << 4, blocks, biomes);
blocks.apply();
biomes.apply();
storage.fillBiomes(chunk, ctx);
chunk.mark();
long key = Cache.key(x >> 5, z >> 5);
regions.computeIfAbsent(key, Region::new)
.add(chunk);
} catch (Throwable e) {
loadedChunks.decrementAndGet();
Iris.error("Failed to generate " + x + ", " + z);
e.printStackTrace();
}
}
@BlockCoordinates
private ChunkContext generate(Engine engine, int x, int z, Hunk<BlockData> vblocks, Hunk<org.bukkit.block.Biome> vbiomes) throws WrongEngineBroException {
if (engine.isClosed()) {
throw new WrongEngineBroException();
}
engine.getContext().touch();
engine.getEngineData().getStatistics().generatedChunk();
ChunkContext ctx = null;
try {
PrecisionStopwatch p = PrecisionStopwatch.start();
Hunk<BlockData> blocks = vblocks.listen((xx, y, zz, t) -> engine.catchBlockUpdates(x + xx, y + engine.getMinHeight(), z + zz, t));
var dimension = engine.getDimension();
if (dimension.isDebugChunkCrossSections() && ((x >> 4) % dimension.getDebugCrossSectionsMod() == 0 || (z >> 4) % dimension.getDebugCrossSectionsMod() == 0)) {
for (int i = 0; i < 16; i++) {
for (int j = 0; j < 16; j++) {
blocks.set(i, 0, j, Material.CRYING_OBSIDIAN.createBlockData());
}
}
} else {
ctx = new ChunkContext(x, z, engine.getComplex());
IrisContext.getOr(engine).setChunkContext(ctx);
for (EngineStage i : engine.getMode().getStages()) {
i.generate(x, z, blocks, vbiomes, false, ctx);
}
}
engine.getMantle().getMantle().flag(x >> 4, z >> 4, MantleFlag.REAL, true);
engine.getMetrics().getTotal().put(p.getMilliseconds());
engine.addGenerated(x,z);
} catch (Throwable e) {
Iris.reportError(e);
engine.fail("Failed to generate " + x + ", " + z, e);
}
return ctx;
}
public void close() throws IOException {
if (closed) return;
try {
if (regionThread != null) {
regionThread.future.join();
regionThread = null;
}
regions.v().forEach(Region::submit);
Iris.info("Waiting for " + loadedChunks.get() + " chunks to unload...");
while (loadedChunks.get() > 0)
J.sleep(1);
Iris.info("All chunks unloaded");
executor.shutdown();
storage.close();
engine.getWorld().headless(null);
} finally {
closed = true;
}
}
private class Region implements Runnable {
private final int x, z;
private final long key;
private final AtomicReferenceArray<SerializableChunk> chunks = new AtomicReferenceArray<>(1024);
private final AtomicReference<Future<?>> full = new AtomicReference<>();
private transient int size;
private transient long lastEntry = M.ms();
public Region(long key) {
this.x = Cache.keyX(key);
this.z = Cache.keyZ(key);
this.key = key;
}
@Override
public void run() {
try (IRegion region = storage.getRegion(x, z, false)) {
assert region != null;
for (int i = 0; i < 1024; i++) {
SerializableChunk chunk = chunks.get(i);
if (chunk == null)
continue;
try {
region.write(chunk);
} catch (Throwable e) {
Iris.error("Failed to save chunk " + chunk.getPos());
e.printStackTrace();
}
loadedChunks.decrementAndGet();
}
} catch (Throwable e) {
Iris.error("Failed to load region file " + x + ", " + z);
e.printStackTrace();
loadedChunks.addAndGet(-size);
}
}
public synchronized void add(SerializableChunk chunk) {
lastEntry = M.ms();
if (chunks.getAndSet(index(chunk.getPos()), chunk) != null)
throw new IllegalStateException("Chunk " + chunk.getPos() + " already exists");
if (++size < 1024)
return;
submit();
}
public void submit() {
regions.remove(key);
full.getAndUpdate(future -> {
if (future != null) return future;
return executor.submit(this);
});
}
private int index(Position2 chunk) {
int x = chunk.getX() & 31;
int z = chunk.getZ() & 31;
return z * 32 + x;
}
}
private static class CompletingThread extends Thread {
private final CompletableFuture<Void> future = new CompletableFuture<>();
private CompletingThread(Runnable task, String name, int priority) {
super(task, name);
setPriority(priority);
start();
}
@Override
public void run() {
try {
super.run();
} finally {
future.complete(null);
}
}
}
}
@@ -51,10 +51,10 @@ public class IrisMarker extends IrisRegistrant {
private boolean emptyAbove = true;
@Desc("If this marker is used, what is the chance it removes itself. For example 25% (0.25) would mean that on average 4 uses will remove a specific marker. Set this below 0 (-1) to never exhaust & set this to 1 or higher to always exhaust on first use.")
private double exhaustionChance = 0;
private double exhaustionChance = 0.33;
public boolean shouldExhaust() {
return exhaustionChance > RNG.r.nextDouble();
return RNG.r.chance(exhaustionChance);
}
@Override
@@ -93,11 +93,12 @@ public class IrisRavine extends IrisRegistrant {
}
public void generate(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z) {
generate(writer, rng, engine, x, y, z, 0, -1);
generate(writer, rng, engine, x, y, z, -1);
}
public void generate(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z, int recursion, int waterHint) {
KList<IrisPosition> pos = getWorm().generate(rng, engine.getData(), writer, null, x, y, z, true, 0);
public void generate(MantleWriter writer, RNG rng, Engine engine, int x, int y, int z, int waterHint) {
KList<IrisPosition> pos = getWorm().generate(rng, engine.getData(), writer, null, x, y, z, (at) -> {
});
CNG dg = depthStyle.getGenerator().createNoCache(rng, engine.getData());
CNG bw = baseWidthStyle.getGenerator().createNoCache(rng, engine.getData());
int highestWater = Math.max(waterHint, -1);
@@ -134,7 +135,7 @@ public class IrisRavine extends IrisRegistrant {
int width = (int) Math.round(bw.fitDouble(baseWidthStyle.getMin(), baseWidthStyle.getMax(), p.getX(), p.getZ()));
int surface = (int) Math.round(rsurface - depth * 0.45);
fork.doCarving(writer, rng, engine, p.getX(), rng.i(surface - depth, surface), p.getZ(), recursion, Math.max(highestWater, waterHint));
fork.doCarving(writer, rng, engine, p.getX(), rng.i(surface - depth, surface), p.getZ(), Math.max(highestWater, waterHint));
for (int i = surface + depth; i >= surface; i--) {
if (i % ribThickness == 0) {
@@ -183,7 +184,7 @@ public class IrisRavine extends IrisRegistrant {
}
public int getMaxSize(IrisData data, int depth) {
return getWorm().getMaxDistance() + fork.getMaxRange(data, depth);
public int getMaxSize(IrisData data) {
return getWorm().getMaxDistance() + fork.getMaxRange(data);
}
}
@@ -50,20 +50,16 @@ public class IrisRavinePlacer implements IRare {
@Desc("The ravine to place")
@RegistryListResource(IrisRavine.class)
private String ravine;
@MinNumber(1)
@MaxNumber(256)
@Desc("The maximum recursion depth")
private int maxRecursion = 100;
public IrisRavine getRealRavine(IrisData data) {
return ravineCache.aquire(() -> data.getRavineLoader().load(getRavine()));
}
public void generateRavine(MantleWriter mantle, RNG rng, Engine engine, int x, int y, int z) {
generateRavine(mantle, rng, engine, x, y, z, 0, -1);
generateRavine(mantle, rng, engine, x, y, z, -1);
}
public void generateRavine(MantleWriter mantle, RNG rng, Engine engine, int x, int y, int z, int recursion, int waterHint) {
public void generateRavine(MantleWriter mantle, RNG rng, Engine engine, int x, int y, int z, int waterHint) {
if (fail.get()) {
return;
}
@@ -84,14 +80,14 @@ public class IrisRavinePlacer implements IRare {
try {
int xx = x + rng.nextInt(15);
int zz = z + rng.nextInt(15);
ravine.generate(mantle, rng, engine, xx, y, zz, recursion, waterHint);
ravine.generate(mantle, rng, engine, xx, y, zz, waterHint);
} catch (Throwable e) {
e.printStackTrace();
fail.set(true);
}
}
public int getSize(IrisData data, int depth) {
return getRealRavine(data).getMaxSize(data, depth);
public int getSize(IrisData data) {
return getRealRavine(data).getMaxSize(data);
}
}
@@ -151,14 +151,12 @@ public class IrisRegion extends IrisRegistrant implements IRare {
@ArrayType(type = IrisOreGenerator.class, min = 1)
private KList<IrisOreGenerator> ores = new KList<>();
public BlockData generateOres(int x, int y, int z, RNG rng, IrisData data, boolean surface) {
public BlockData generateOres(int x, int y, int z, RNG rng, IrisData data) {
if (ores.isEmpty()) {
return null;
}
BlockData b = null;
for (IrisOreGenerator i : ores) {
if (i.isGenerateSurface() != surface)
continue;
b = i.generate(x, y, z, rng, data);
if (b != null) {
@@ -48,6 +48,7 @@ public class IrisWorld {
private long seed;
private World.Environment environment;
private World realWorld;
private IrisHeadless headless;
private int minHeight;
private int maxHeight;
@@ -62,7 +62,7 @@ public class IrisWorm {
private IrisStyledRange girth = new IrisStyledRange().setMin(3).setMax(5)
.setStyle(new IrisGeneratorStyle(NoiseStyle.PERLIN));
public KList<IrisPosition> generate(RNG rng, IrisData data, MantleWriter writer, IrisRange verticalRange, int x, int y, int z, boolean breakSurface, double distance) {
public KList<IrisPosition> generate(RNG rng, IrisData data, MantleWriter writer, IrisRange verticalRange, int x, int y, int z, Consumer<IrisPosition> fork) {
int itr = maxIterations;
double jx, jy, jz;
double cx = x;
@@ -72,11 +72,12 @@ public class IrisWorm {
KList<IrisPosition> pos = new KList<>();
KSet<IrisPosition> check = allowLoops ? null : new KSet<>();
CNG gx = xStyle.getGenerator().createNoCache(new RNG(rng.lmax()), data);
CNG gy = yStyle.getGenerator().createNoCache(new RNG(rng.lmax()), data);
CNG gz = zStyle.getGenerator().createNoCache(new RNG(rng.lmax()), data);
CNG gy = xStyle.getGenerator().createNoCache(new RNG(rng.lmax()), data);
CNG gz = xStyle.getGenerator().createNoCache(new RNG(rng.lmax()), data);
while (itr-- > 0) {
IrisPosition current = new IrisPosition(Math.round(cx), Math.round(cy), Math.round(cz));
fork.accept(current);
pos.add(current);
if (check != null) {
@@ -91,10 +92,6 @@ public class IrisWorm {
cz += jz;
IrisPosition next = new IrisPosition(Math.round(cx), Math.round(cy), Math.round(cz));
if (!breakSurface && writer.getEngineMantle().getHighest(next.getX(), next.getZ(), true) <= next.getY() + distance) {
break;
}
if (verticalRange != null && !verticalRange.contains(next.getY())) {
break;
}
@@ -1,37 +0,0 @@
package com.volmit.iris.engine.object.annotations.functions;
import com.volmit.iris.Iris;
import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.engine.framework.ListFunction;
import com.volmit.iris.engine.mantle.ComponentFlag;
import com.volmit.iris.engine.mantle.MantleComponent;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.mantle.MantleFlag;
import java.util.Objects;
public class ComponentFlagFunction implements ListFunction<KList<String>> {
@Override
public String key() {
return "component-flag";
}
@Override
public String fancyName() {
return "Component Flag";
}
@Override
public KList<String> apply(IrisData data) {
var engine = data.getEngine();
if (engine != null) return engine.getMantle().getComponentFlags().toStringList();
return Iris.getClasses("com.volmit.iris.engine.mantle.components", ComponentFlag.class)
.stream()
.filter(MantleComponent.class::isAssignableFrom)
.map(c -> c.getDeclaredAnnotation(ComponentFlag.class))
.filter(Objects::nonNull)
.map(ComponentFlag::value)
.map(MantleFlag::toString)
.collect(KList.collector());
}
}
@@ -19,12 +19,12 @@
package com.volmit.iris.engine.platform;
import com.volmit.iris.Iris;
import com.volmit.iris.core.IrisWorlds;
import com.volmit.iris.core.loader.IrisData;
import com.volmit.iris.core.nms.INMS;
import com.volmit.iris.core.pregenerator.EmptyListener;
import com.volmit.iris.core.pregenerator.methods.HeadlessPregenMethod;
import com.volmit.iris.core.service.StudioSVC;
import com.volmit.iris.engine.IrisEngine;
import com.volmit.iris.engine.data.cache.AtomicCache;
import com.volmit.iris.engine.data.chunk.TerrainChunk;
import com.volmit.iris.engine.framework.Engine;
import com.volmit.iris.engine.framework.EngineTarget;
@@ -34,14 +34,16 @@ import com.volmit.iris.engine.object.StudioMode;
import com.volmit.iris.engine.platform.studio.StudioGenerator;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.data.IrisBiomeStorage;
import com.volmit.iris.util.format.C;
import com.volmit.iris.util.format.Form;
import com.volmit.iris.util.hunk.Hunk;
import com.volmit.iris.util.hunk.view.BiomeGridHunkHolder;
import com.volmit.iris.util.hunk.view.ChunkDataHunkHolder;
import com.volmit.iris.util.io.ReactiveFolder;
import com.volmit.iris.util.plugin.VolmitSender;
import com.volmit.iris.util.scheduling.ChronoLatch;
import com.volmit.iris.util.scheduling.J;
import com.volmit.iris.util.scheduling.Looper;
import io.papermc.lib.PaperLib;
import lombok.Data;
import lombok.EqualsAndHashCode;
import lombok.Setter;
@@ -51,7 +53,6 @@ import org.bukkit.block.data.BlockData;
import org.bukkit.entity.Entity;
import org.bukkit.entity.Player;
import org.bukkit.event.EventHandler;
import org.bukkit.event.EventPriority;
import org.bukkit.event.Listener;
import org.bukkit.event.world.WorldInitEvent;
import org.bukkit.generator.BiomeProvider;
@@ -62,6 +63,7 @@ import org.jetbrains.annotations.NotNull;
import org.jetbrains.annotations.Nullable;
import java.io.File;
import java.lang.reflect.Field;
import java.util.List;
import java.util.Random;
import java.util.concurrent.CompletableFuture;
@@ -87,13 +89,12 @@ public class BukkitChunkGenerator extends ChunkGenerator implements PlatformChun
private final boolean studio;
private final AtomicInteger a = new AtomicInteger(0);
private final CompletableFuture<Integer> spawnChunks = new CompletableFuture<>();
private final AtomicCache<EngineTarget> targetCache = new AtomicCache<>();
private volatile Engine engine;
private volatile Looper hotloader;
private volatile StudioMode lastMode;
private volatile DummyBiomeProvider dummyBiomeProvider;
private Engine engine;
private Looper hotloader;
private StudioMode lastMode;
private DummyBiomeProvider dummyBiomeProvider;
@Setter
private volatile StudioGenerator studioGenerator;
private StudioGenerator studioGenerator;
private boolean initialized = false;
@@ -112,96 +113,84 @@ public class BukkitChunkGenerator extends ChunkGenerator implements PlatformChun
Bukkit.getServer().getPluginManager().registerEvents(this, Iris.instance);
}
@EventHandler(priority = EventPriority.LOWEST)
public void onWorldInit(WorldInitEvent event) {
if (initialized || !world.name().equals(event.getWorld().getName()))
return;
world.setRawWorldSeed(event.getWorld().getSeed());
if (initialize(event.getWorld())) return;
Iris.warn("Failed to get Engine for " + event.getWorld().getName() + " re-trying...");
J.s(() -> {
if (!initialize(event.getWorld())) {
Iris.error("Failed to get Engine for " + event.getWorld().getName() + "!");
private static Field getField(Class clazz, String fieldName)
throws NoSuchFieldException {
try {
return clazz.getDeclaredField(fieldName);
} catch (NoSuchFieldException e) {
Class superClass = clazz.getSuperclass();
if (superClass == null) {
throw e;
} else {
return getField(superClass, fieldName);
}
}, 10);
}
}
private boolean initialize(World world) {
Engine engine = getEngine(world);
if (engine == null) return false;
@EventHandler
public void onWorldInit(WorldInitEvent event) {
try {
INMS.get().inject(world.getSeed(), engine, world);
Iris.info("Injected Iris Biome Source into " + world.getName());
if (initialized || !world.name().equals(event.getWorld().getName()))
return;
world.setRawWorldSeed(event.getWorld().getSeed());
Engine engine = getEngine(event.getWorld());
if (engine == null) {
Iris.warn("Failed to get Engine!");
J.s(() -> {
Engine engine1 = getEngine(event.getWorld());
if (engine1 != null) {
try {
INMS.get().inject(event.getWorld().getSeed(), engine1, event.getWorld());
Iris.info("Injected Iris Biome Source into " + event.getWorld().getName());
initialized = true;
} catch (Throwable e) {
e.printStackTrace();
}
}
}, 10);
} else {
INMS.get().inject(event.getWorld().getSeed(), engine, event.getWorld());
Iris.info("Injected Iris Biome Source into " + event.getWorld().getName());
spawnChunks.complete(INMS.get().getSpawnChunkCount(event.getWorld()));
initialized = true;
}
} catch (Throwable e) {
Iris.reportError(e);
Iris.error("Failed to inject biome source into " + world.getName());
e.printStackTrace();
}
spawnChunks.complete(INMS.get().getSpawnChunkCount(world));
Iris.instance.unregisterListener(this);
initialized = true;
IrisWorlds.get().put(world.getName(), dimensionKey);
return true;
}
@Nullable
@Override
public Location getFixedSpawnLocation(@NotNull World world, @NotNull Random random) {
Location location = new Location(world, 0, 64, 0);
PaperLib.getChunkAtAsync(location)
.thenAccept(c -> {
World w = c.getWorld();
if (!w.getSpawnLocation().equals(location))
return;
w.setSpawnLocation(location.add(0, w.getHighestBlockYAt(location) - 64, 0));
});
return location;
}
private void setupEngine() {
lastMode = StudioMode.NORMAL;
engine = new IrisEngine(getTarget(), studio);
populators.clear();
targetCache.reset();
}
IrisData data = IrisData.get(dataLocation);
IrisDimension dimension = data.getDimensionLoader().load(dimensionKey);
@NotNull
@Override
public EngineTarget getTarget() {
if (engine != null) return engine.getTarget();
if (dimension == null) {
Iris.error("Oh No! There's no pack in " + data.getDataFolder().getPath() + " or... there's no dimension for the key " + dimensionKey);
IrisDimension test = IrisData.loadAnyDimension(dimensionKey);
return targetCache.aquire(() -> {
IrisData data = IrisData.get(dataLocation);
IrisDimension dimension = data.getDimensionLoader().load(dimensionKey);
if (dimension == null) {
Iris.error("Oh No! There's no pack in " + data.getDataFolder().getPath() + " or... there's no dimension for the key " + dimensionKey);
IrisDimension test = IrisData.loadAnyDimension(dimensionKey);
if (test != null) {
Iris.warn("Looks like " + dimensionKey + " exists in " + test.getLoadFile().getPath() + " ");
Iris.service(StudioSVC.class).installIntoWorld(Iris.getSender(), dimensionKey, dataLocation.getParentFile().getParentFile());
Iris.warn("Attempted to install into " + data.getDataFolder().getPath());
data.dump();
data.clearLists();
test = data.getDimensionLoader().load(dimensionKey);
if (test != null) {
Iris.warn("Looks like " + dimensionKey + " exists in " + test.getLoadFile().getPath() + " ");
Iris.service(StudioSVC.class).installIntoWorld(Iris.getSender(), dimensionKey, dataLocation.getParentFile().getParentFile());
Iris.warn("Attempted to install into " + data.getDataFolder().getPath());
data.dump();
data.clearLists();
test = data.getDimensionLoader().load(dimensionKey);
if (test != null) {
Iris.success("Woo! Patched the Engine!");
dimension = test;
} else {
Iris.error("Failed to patch dimension!");
throw new RuntimeException("Missing Dimension: " + dimensionKey);
}
Iris.success("Woo! Patched the Engine!");
dimension = test;
} else {
Iris.error("Nope, you don't have an installation containing " + dimensionKey + " try downloading it?");
Iris.error("Failed to patch dimension!");
throw new RuntimeException("Missing Dimension: " + dimensionKey);
}
} else {
Iris.error("Nope, you don't have an installation containing " + dimensionKey + " try downloading it?");
throw new RuntimeException("Missing Dimension: " + dimensionKey);
}
}
return new EngineTarget(world, dimension, data);
});
lastMode = StudioMode.NORMAL;
engine = new IrisEngine(new EngineTarget(world, dimension, data), studio);
populators.clear();
}
@Override
@@ -268,6 +257,10 @@ public class BukkitChunkGenerator extends ChunkGenerator implements PlatformChun
}
private Engine getEngine(WorldInfo world) {
return getEngine(world.getSeed());
}
private Engine getEngine(long seed) {
if (setup.get()) {
return getEngine();
}
@@ -280,7 +273,7 @@ public class BukkitChunkGenerator extends ChunkGenerator implements PlatformChun
}
getWorld().setRawWorldSeed(world.getSeed());
getWorld().setRawWorldSeed(seed);
setupEngine();
setup.set(true);
this.hotloader = studio ? new Looper() {
@@ -313,9 +306,7 @@ public class BukkitChunkGenerator extends ChunkGenerator implements PlatformChun
hotloader.interrupt();
}
final Engine engine = getEngine();
if (engine != null && !engine.isClosed())
engine.close();
getEngine().close();
folder.clear();
populators.clear();
@@ -353,6 +344,21 @@ public class BukkitChunkGenerator extends ChunkGenerator implements PlatformChun
getEngine(world);
}
@Override
public void prepareSpawnChunks(long seed, int radius) {
if (radius < 0 || new File(world.worldFolder(), "level.dat").exists())
return;
var engine = getEngine(seed);
var headless = new HeadlessPregenMethod(engine, 4);
for (int x = -radius; x <= radius; x++) {
for (int z = -radius; z <= radius; z++) {
headless.generateChunk(x, z, EmptyListener.INSTANCE);
}
}
headless.close();
}
@Override
public void generateNoise(@NotNull WorldInfo world, @NotNull Random random, int x, int z, @NotNull ChunkGenerator.ChunkData d) {
try {
@@ -24,23 +24,21 @@ import com.volmit.iris.engine.framework.EngineTarget;
import com.volmit.iris.engine.framework.Hotloadable;
import com.volmit.iris.util.data.DataProvider;
import org.bukkit.World;
import org.jetbrains.annotations.NotNull;
import org.jetbrains.annotations.Nullable;
import java.util.concurrent.CompletableFuture;
import java.util.function.Consumer;
public interface PlatformChunkGenerator extends Hotloadable, DataProvider {
@Nullable
Engine getEngine();
@Override
default IrisData getData() {
return getTarget().getData();
return getEngine().getData();
}
@NotNull
EngineTarget getTarget();
default EngineTarget getTarget() {
return getEngine().getTarget();
}
void injectChunkReplacement(World world, int x, int z, Consumer<Runnable> jobs);
@@ -51,4 +49,12 @@ public interface PlatformChunkGenerator extends Hotloadable, DataProvider {
void touch(World world);
CompletableFuture<Integer> getSpawnChunks();
void prepareSpawnChunks(long seed, int radius);
default int getGenerated() {
Engine engine = getEngine();
if (engine == null) return 0;
return engine.getGenerated();
}
}

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