Add proof-of-concept dynamic fade

2026-01-17 10:16:38 -06:00
293 changed files with 5120 additions and 26214 deletions
@@ -0,0 +1,19 @@
 **/.git
 **/.gitlab
 **/.cache
 buildAllJars
 **/_Misc Files
 *.bat
 *.md
 *.sh
 *.txt
 coreSubProjects/*.md
 coreSubProjects/*.txt
 **/.gitignore
 **/.gitattributes
 **/.gitlab-cy.yml
 **/.gitmodules
@@ -25,8 +25,6 @@ hs_err_pid*
 Merged/
 # Folder created by the buildAll scripts
 buildAllJars/
 _buildAllJars/
 _buildWorkers/
 relocate_natives/.venv/
 relocate_natives/__pycache__/
@@ -1,10 +1,10 @@
 # use Eclipse's JDK
 # The ci should always use a unix(-like) OS to work
-image: eclipse-temurin:25
+image: eclipse-temurin:21
 # all stages need to be defined here
 # TODO: Make stages depend on what is in versionProperties
 stages:
  - translations
  - build
  - api
  - pages
@@ -33,31 +33,22 @@ variables:
 build:
  stage: build
  needs:
    - job: translations
      artifacts: true
  parallel:
    matrix:
      - MC_VER: [
      "26.1.2",
      "1.21.11", "1.21.10", "1.21.9", "1.21.8", "1.21.6", "1.21.5", "1.21.4", "1.21.3", "1.21.1", 
      "1.20.6", "1.20.4", "1.20.2", "1.20.1", 
      "1.19.4", "1.19.2",
      "1.18.2", 
      "1.17.1", 
-      "1.16.5",
+      "1.16.5"
      "1.12.2"
      ]
  before_script:
    # MC 1.12.2 needs both JDK 25 (for unimined) and JDK 8 (for MC 1.12)
    # hopefully downloading the JDK 8 like this will solve that problem?
    - apt-get update -q 
    - apt-get install -y openjdk-8-jdk
  script:
    # this both runs the unit tests and assembles the code
    - ./gradlew clean -PmcVer="${MC_VER}" -PinfoGitCommit="${CI_COMMIT_SHA}" -PinfoGitBranch="${CI_COMMIT_BRANCH}" -PinfoBuildSource="GitLab CI (${CI_PIPELINE_ID})" --gradle-user-home cache/;
    - ./gradlew build -PmcVer="${MC_VER}" -PinfoGitCommit="${CI_COMMIT_SHA}" -PinfoGitBranch="${CI_COMMIT_BRANCH}" -PinfoBuildSource="GitLab CI (${CI_PIPELINE_ID})" --gradle-user-home cache/;
-    - cp ./fabric/build/libs/* ./forge/build/libs/* ./neoforge/build/libs/* ./build/forgix/* . || true
+    - ./gradlew mergeJars -PmcVer="${MC_VER}" -PinfoGitCommit="${CI_COMMIT_SHA}" -PinfoGitBranch="${CI_COMMIT_BRANCH}" -PinfoBuildSource="GitLab CI (${CI_PIPELINE_ID})" --gradle-user-home cache/;
    - cp ./fabric/build/libs/* ./forge/build/libs/* ./neoforge/build/libs/* ./build/merged/* . || true
  artifacts:
    name: "NightlyBuild_${MC_VER}-${CI_COMMIT_SHORT_SHA}-${CI_COMMIT_TIMESTAMP}"
    paths:
@@ -111,17 +102,3 @@ pages:
      - public
  allow_failure: false
  extends: .build_java
 translations:
  stage: translations
  needs: []
  image: crowdin/cli:latest
  script:
    - if [ "$CI_COMMIT_BEFORE_SHA" = "0000000000000000000000000000000000000000" ] || git diff --name-only "$CI_COMMIT_BEFORE_SHA" "$CI_COMMIT_SHA" -- coreSubProjects/core/src/main/resources/assets/distanthorizons/lang | grep -q .; then crowdin upload sources; fi
    - crowdin download --export-only-approved --skip-untranslated-files
    - for f in coreSubProjects/core/src/main/resources/assets/distanthorizons/lang/*.json; do [ -e "$f" ] || continue; sed -i 's/\\\\n/\\n/g' "$f"; n="$(basename "$f" | tr '[:upper:]' '[:lower:]')"; [ "$(basename "$f")" = "$n" ] || mv "$f" "$(dirname "$f")/$n"; done
  artifacts:
    paths:
      - coreSubProjects/core/src/main/resources/assets/distanthorizons/lang/**
    expire_in: 1 day
    when: always
@@ -1,16 +0,0 @@
 # See mailmap docs: https://git-scm.com/docs/gitmailmap
 # Test with git shortlog --summary --email
 # Keep sorted for easier editing and smaller diffs
 Ada Aster <an.ada.poirier@gmail.com>
 CodeF53 <fseusb@gmail.com> <37855219+CodeF53@users.noreply.github.com>
 coolGi <me@coolgi.dev> <sasanaps@hotmail.com>
 James Seibel <jeseibel@gondtc.com> <jseibel@vertsys.com>
 Morippi <leoleo97@libero.it> <leoloe97@libero.it>
 Morippi <leoleo97@libero.it> <Morippi>
 Ran <43445785+Ran-Mewo@users.noreply.github.com> <10044908-_Ran@users.noreply.gitlab.com>
 Ran <43445785+Ran-Mewo@users.noreply.github.com> <43445785+Ran-Mewo@users.noreply.github.com>
 Ran <43445785+Ran-Mewo@users.noreply.github.com> <43445785+RanCraftPlayz@users.noreply.github.com>
 TomTheFurry <tomlee92502@yahoo.com>
 TomTheFurry <tomlee92502@yahoo.com> <46843632+TomTheFurry@users.noreply.github.com>
 Yeshi <yeshi@newengine.org>
@@ -1,7 +1,7 @@
 <component name="ProjectRunConfigurationManager">
  <configuration default="false" name="Fabric Client &amp; Server" type="CompoundRunConfigurationType">
-    <toRun name="distant-horizons [fabric:runClient]" type="GradleRunConfiguration" />
+    <toRun name="Fabric Client (:fabric)" type="Application" />
-    <toRun name="distant-horizons [fabric:runServer]" type="GradleRunConfiguration" />
+    <toRun name="Fabric Server (:fabric)" type="Application" />
    <method v="2" />
  </configuration>
 </component>
@@ -1,27 +0,0 @@
 <component name="ProjectRunConfigurationManager">
  <configuration default="false" name="distant-horizons [cleanroom:runClient]" type="GradleRunConfiguration" factoryName="Gradle">
    <ExternalSystemSettings>
      <option name="executionName" />
      <option name="externalProjectPath" value="$PROJECT_DIR$" />
      <option name="externalSystemIdString" value="GRADLE" />
      <option name="scriptParameters" value="" />
      <option name="taskDescriptions">
        <list />
      </option>
      <option name="taskNames">
        <list>
          <option value="cleanroom:runClient" />
        </list>
      </option>
      <option name="vmOptions" />
    </ExternalSystemSettings>
    <ExternalSystemDebugServerProcess>true</ExternalSystemDebugServerProcess>
    <ExternalSystemReattachDebugProcess>true</ExternalSystemReattachDebugProcess>
    <ExternalSystemDebugDisabled>false</ExternalSystemDebugDisabled>
    <DebugAllEnabled>false</DebugAllEnabled>
    <RunAsTest>false</RunAsTest>
    <GradleProfilingDisabled>false</GradleProfilingDisabled>
    <GradleCoverageDisabled>false</GradleCoverageDisabled>
    <method v="2" />
  </configuration>
 </component>
@@ -0,0 +1,12 @@
 FROM eclipse-temurin:17-jdk
 WORKDIR /home/build/
 COPY ./gradlew .
 RUN chmod +x ./gradlew
 CMD echo "\r========== [CLEAN: $MC_VER] ==========" && \
    ./gradlew clean -PmcVer="$MC_VER" --gradle-user-home .gradle-cache/ && \
    echo "\r========== [BUILD: $MC_VER] ==========" && \
    ./gradlew build -PmcVer="$MC_VER" --gradle-user-home .gradle-cache/ && \
    echo "\r========== [MERGE: $MC_VER] ==========" && \
    ./gradlew mergeJars -PmcVer="$MC_VER" --gradle-user-home .gradle-cache/ && \
    echo "\r========== [DONE:  $MC_VER] =========="
@@ -12,18 +12,91 @@ Below is a video demonstrating the system:
 <a href="https://youtu.be/SxQdbtjGEsc" target="_blank">![Distant Horizons - Alpha 2.0](https://i.ytimg.com/vi/SxQdbtjGEsc/hqdefault.jpg)</a>
-## Translations
+<br>
 ## Minecraft and Library Versions
 ### This branch supports the following versions of Minecraft:
 #### 1.20.4, 1.20.3 (Default)
 Fabric: 0.15.1\
 Fabric API: 0.91.2+1.20.4\
 Forge: 49.0.30\
 NeoForge: 118-beta\
 Parchment: 1.20.2:2023.12.10\
 Modmenu: 9.0.0-pre.1
 #### 1.20.2
 Fabric: 0.14.24\
 Fabric API: 0.90.4+1.20.2\
 Forge: 48.0.13\
 Parchment: 1.20.1:2023.09.03\
 Modmenu: 8.0.0
 #### 1.20.1, 1.20
 Fabric: 0.14.24\
 Fabric API: 0.90.4+1.20.1\
 Forge: 47.2.1\
 Parchment: 1.20.1:2023.09.03\
 Modmenu: 7.2.2
 #### 1.19.4
 Fabric: 0.14.24\
 Fabric API: 0.87.1+1.19.4\
 Forge: 45.2.4\
 Parchment: 1.19.4:2023.06.26\
 Modmenu: 6.3.1
 #### 1.19.2
 Fabric: 0.14.24\
 Fabric API: 0.76.1+1.19.2\
 Forge: 43.3.2\
 Parchment: 1.19.2:2022.11.27\
 Modmenu: 4.2.0-beta.2
 #### 1.18.2
 Fabric: 0.14.24\
 Fabric API: 0.76.0+1.18.2\
 Forge: 40.2.10\
 Parchment: 1.18.2:2022.11.06\
 Modmenu: 3.2.5
 #### 1.17.1, 1.17
 Fabric: 0.14.24\
 Fabric API: 0.46.1+1.17\
 Forge: 37.1.1\
 Parchment: 1.17.1:2021.12.12\
 Modmenu: 2.0.14
 #### 1.16.5, 1.16.4
 Fabric: 0.14.24\
 Fabric API: 0.42.0+1.16\
 Forge: 36.2.39\
 Parchment: 1.16.5:2022.03.06\
 Modmenu: 1.16.22
 ### Versions no longer supported
 - 1.18.1, 1.18
 - 1.19.1, 1.19
 - 1.19.3
 <br>
 ### Plugin and Library versions
 Gradle: 8.5\
 Fabric loom: 1.4-SNAPSHOT\
 Architectury loom (Forge gradle replacement): 1.4-SNAPSHOT\
 Sponge vanilla gradle: 0.2.1-SNAPSHOT\
 Java Preprocessor plugin: Manifold Preprocessor
 [![Crowdin](https://badges.crowdin.net/distant-horizons/localized.svg)](https://crowdin.com/project/distant-horizons)\
 Crowdin Project: [Distant Horizons](https://crowdin.com/project/distant-horizons)\
 Guidelines: [translations.md](translations.md)
 <br>
 ## Source Code Installation
 ### Prerequisites
-* A Java Development Kit (JDK) for Java 25 (recommended) or newer. <br>
+* A Java Development Kit (JDK) for Java 17 (recommended) or newer. <br>
  Visit https://www.oracle.com/java/technologies/downloads/ for installers.
 * Git or someway to clone git projects. <br> 
  Visit https://git-scm.com/ for installers.
@@ -31,10 +104,15 @@ Guidelines: [translations.md](translations.md)
 **If using IntelliJ:**
 1. Install the Manifold plugin
   - https://plugins.jetbrains.com/plugin/10057-manifold-ij
 2. Open IDEA and import the build.gradle
 3. Refresh the Gradle project in IDEA if required
 **If using Eclipse: (Note that Eclipse doesn't support Manifold's preprocessor!)**
 1. Run the command: `./gradlew geneclipseruns`
 2. Run the command: `./gradlew eclipse`
 3. Make sure eclipse has the JDK 17 installed. (This is needed so that eclipse can run minecraft)
 4. Import the project into eclipse
 <br>
 ## Switching Versions
@@ -49,42 +127,72 @@ In IntelliJ, you will also need to do a gradle sync if it didn't happen automati
 ## Compiling
 Prerequisites:
- JDK 25 or newer
+- JDK 17 or newer
 From the File Explorer:
 1. Download and extract the project zip
 2. Download the core from https://gitlab.com/distant-horizons-team/distant-horizons-core and extract into a folder called `coreSubProjects`
 3. Open a terminal emulator in the project folder (On Windows you can type `cmd` in the title bar)
 4. Run the commands: `./gradlew assemble` (You may need to use a `.\` on Windows)
 5. Merge the jars with `./gradlew mergeJars`
 6. The compiled jar file will be in the folder `Merged`
 From the command line:
 1. `git clone --recurse-submodules https://gitlab.com/distant-horizons-team/distant-horizons.git`
 2. `cd distant-horizons`
 3. `./gradlew assemble`
-5. The compiled jar file will be in the folder `\build\libs`
+4. `./gradlew mergeJars`
 5. The compiled jar file will be in the folder `Merged`
-From the File Explorer:
+Run tests with: `./gradlew test`
 1. Download and extract the project zip
 2. Download the core from https://gitlab.com/distant-horizons-team/distant-horizons-core and extract into a folder called `coreSubProjects`
 3. Open command prompt/terminal in the project folder
 4. Run the commands: `./gradlew assemble`
 6. The compiled jar file will be in the folder `\build\libs`
 >Note: You can add the argument `-PmcVer=?` to tell gradle to build a selected MC version instead of having to modify the `gradle.properties` file.\
 > For example: `./gradlew assemble -PmcVer=1.18.2`
 <br>
 ## Compiling with Docker
 `./compile <version>`
 You can also locally compile the DH jars without a Java environment by using Docker. Where `<version>` is the version of Minecraft to compile for (ie `1.20.1`), or the keyword `all`. See [Versions](#minecraft-and-library-versions) for a list of all supported values.
 <br>
 ## Other commands
 `./gradlew --refresh-dependencies` to refresh local dependencies.
 `./gradlew clean` to delete any compiled code.
 <br>
 ## Note to self
 The Minecraft source code is NOT added to your workspace in an editable way. Minecraft is treated like a normal Library. Sources are there for documentation and research purposes only.
 Source code uses Mojang mappings & [Parchment](https://parchmentmc.org/) mappings.
 To generate the source code run `./gradlew genSources` <br>
 If your IDE fails to auto-detect the source jars when browsing Minecraft classes; manually select the JAR file ending with -sources.jar when prompted by your IDE. <br>
 (In IntelliJ it's at the top where it says "choose sources" when browsing a Minecraft class)
 <br>
 ## Other Useful commands
 Run the standalone jar: `./gradlew run` <br>
 Build the standalone jar: `./gradlew core:build` <br>
 Only build Fabric: `./gradlew fabric:assemble` or `./gradlew fabric:build` <br>
 Only build Forge: `./gradlew forge:assemble` or `./gradlew forge:build` <br>
 Run the Fabric client (for debugging): `./gradlew fabric:runClient` <br>
 Run the Forge client (for debugging): `./gradlew forge:runClient` <br>
 Delete all compiled code: `./gradlew clean` <br>
 Refresh local dependencies: `./gradlew --refresh-dependencies`
-To build all versions: `./buildAll`
+To build all versions: `./buildAll` (all builds will end up in the `Merged` folder)
 <br>
-## Open Source Libraries
+## Open Source Acknowledgements
 Forgix (To merge multiple mod versions into one jar) [_Formerly_ [_DHJarMerger_](https://github.com/Ran-helo/DHJarMerger)]\
 https://github.com/PacifistMC/Forgix
@@ -100,18 +208,3 @@ https://github.com/blackears/svgSalamander
 sqlite-jdbc\
 https://github.com/xerial/sqlite-jdbc
 ## Acknowledgements
 Distant Horizons has been graciously provided an open source license for <a href="https://www.yourkit.com/java/profiler/">YourKit Java Profiler</a>.  
 > <img src="https://www.yourkit.com/images/yklogo.png">
 >
 > YourKit supports open source projects with innovative and intelligent tools
 for monitoring and profiling Java and .NET applications.
 YourKit is the creator of <a href="https://www.yourkit.com/java/profiler/">YourKit Java Profiler</a>,
 <a href="https://www.yourkit.com/dotnet-profiler/">YourKit .NET Profiler</a>,
 and <a href="https://www.yourkit.com/youmonitor/">YourKit YouMonitor</a>.
@@ -1,34 +1,730 @@
 import com.github.jengelman.gradle.plugins.shadow.transformers.Transformer
 import com.github.jengelman.gradle.plugins.shadow.transformers.TransformerContext
 import org.apache.tools.zip.ZipEntry
 import javax.annotation.Nonnull
 import org.apache.tools.zip.ZipOutputStream
 import java.util.function.Function
 import java.util.function.Predicate
 plugins {
-    id 'root'
+    id "java"
-    id 'io.github.pacifistmc.forgix' version '2.+'
+
    // Plugin to put dependencies inside our final jar
    id "com.github.johnrengelman.shadow" version '8.1.1' apply false
    // Plugin to create merged jars
    id "io.github.pacifistmc.forgix" version "1.3.4"
    // Manifold preprocessor
    id "systems.manifold.manifold-gradle-plugin" version "0.0.2-alpha"
    // Architectury is used here only as a replacement for forge's own loom
    id "dev.architectury.loom" version "1.13-SNAPSHOT" apply false
 }
 forgix {
    // add the mod loaders to the end of the jar
    // put together in the format: "a", "a-b", "a-b-c"
    int loaderCount = 0;
    String modLoaders = "";
    ((String) gradle.builds_for)
        .split(",")
        .each 
        { loader ->
            def loaderName = loader.trim()
            if (modLoaders != "")
            {
                modLoaders += "-";
            }
            modLoaders += loaderName;
-            loaderCount++;
+/**
 * Creates the list of preprocessors to use.
 *
 * @param mcVers array of all MC versions
 * @param mcIndex array index of the currently active MC version
 */
 def writeBuildGradlePredefine(List<String> mcVers, int mcIndex)
 {
    // Build the list of preprocessors to use
    StringBuilder sb = new StringBuilder();
    sb.append("# DON'T TOUCH THIS FILE, This is handled by the build script\n");
    for (int i = 0; i < mcVers.size(); i++)
    {
        String verStr = mcVers[i].replace(".", "_");
        sb.append("MC_" + verStr + "=" + i.toString() + "\n");
        if (mcIndex == i) 
        {
            sb.append("MC_VER=" + i.toString() + "\n");
        }
    }
    // Check if this is a development build
    if (mod_version.toLowerCase().contains("dev"))
    {
        // WARNING: only use this for logging, we don't want to have confusion
        // when a method doesn't work correctly in the release build.
        sb.append("DEV_BUILD=\n");
    }
    new File(projectDir, "build.properties").text = sb.toString()
 }
 // Transfers the values set in settings.gradle to the rest of the project
 project.gradle.ext.getProperties().each { prop ->
    rootProject.ext.set(prop.key, prop.value)
    //println "Added prop [key:" + prop.key + ", value:" + prop.value + "]"
 }
 // Sets up manifold stuff
 writeBuildGradlePredefine(rootProject.mcVers, rootProject.mcIndex)
 // Sets up the version string (the name we use for our jar)
 rootProject.versionStr = rootProject.mod_version + "-" + rootProject.minecraft_version // + "-" + new Date().format("yyyy_MM_dd_HH_mm")
 class NativeTransformer implements Transformer {
    private Predicate<String> fileMatcher
    private Function<String, String> filePathMapper
    private final HashMap<String, String> replacements = new HashMap()
    private final HashMap<String, byte[]> rewrittenFiles = new HashMap()
    private var nativeRelocator
    public File rootDir
    void matchFiles(Predicate<String> matcher) {
        fileMatcher = matcher
    }
    void mapPaths(Function<String, String> mapper) {
        filePathMapper = mapper
    }
    void relocateNative(String target, String replacement) {
        if (replacement.length() > target.length()) {
            throw new GradleException("Length of value \"${replacement}\" exceeds the length of \"${target}\": ${replacement.length()} > ${target.length()}")
        }
-    // run if there are multiple launchers that need merging
+        replacements.put(target, replacement)
-    autoRun = (loaderCount > 1);
+    }
-    
+
-    // merged jars are named in the format: 
+    @Override
-    // "DistantHorizons-3.0.1-b-dev-26.1-fabric-neoforge.jar"
+    boolean canTransformResource(@Nonnull FileTreeElement element) {
-    archiveClassifier = modLoaders
+        return fileMatcher.test(element.name)
    }
    @Override
    void transform(@Nonnull TransformerContext context) {
        byte[] content = context.is.readAllBytes()
        if (nativeRelocator == null) {
            nativeRelocator = new NativeRelocator(rootDir.toPath().resolve("relocate_natives"))
        }
        try {
            String path = filePathMapper != null
                ? filePathMapper.apply(context.path)
                : context.path
            content = nativeRelocator.processBinary(path, content, replacements)
            rewrittenFiles.put(path, content)
        }
        catch (Throwable e) {
            throw new GradleException("Failed to relocate", e)
        }
    }
    @Override
    boolean hasTransformedResource() { return !rewrittenFiles.isEmpty() }
    @Override
    void modifyOutputStream(@Nonnull ZipOutputStream os, boolean preserveFileTimestamps) {
        for (Map.Entry<String, byte[]> rewrittenFile : rewrittenFiles.entrySet()) {
            os.putNextEntry(new ZipEntry(rewrittenFile.key))
            os.write(rewrittenFile.value)
        }
    }
 }
 subprojects { p ->
    // Does the same as "p == project(":common") || p == project(":fabric") || p == project(":quilt")  || p == project(":forge") || p == project("WhateverWeAddLaterOn")"
    // Useful later on so we dont have duplicated code
    def isMinecraftSubProject = p != project(":core") && p != project(":api")
    // Apply plugins
    apply plugin: "java"
    apply plugin: "com.github.johnrengelman.shadow"
    if (isMinecraftSubProject)
        apply plugin: "systems.manifold.manifold-gradle-plugin"
    // Apply forge's loom
    if ((findProject(":forge") && p == project(":forge")) ||
        (findProject(":neoforge") && p == project(":neoforge"))
        )
    {
        apply plugin: "dev.architectury.loom"
    }
    // Set the manifold version (may not be required tough)
    manifold {
        manifoldVersion = rootProject.manifold_version
    }
    // set up custom configurations (configurations are a way to handle dependencies) 
    configurations {
        // extends the shadowJar configuration
        shadowMe
        // have implemented dependencies automatically embedded in the final jar
        implementation.extendsFrom(shadowMe)
        // Configuration fpr core & api
        coreProjects
        shadowMe.extendsFrom(coreProjects)
        // FIXME this additional configuration is necessary because forge 
        //  needs forgeRuntimeLibrary, although adding it to shadowMe
        //  causes runtime issues where the libraries aren't properly added
        forgeShadowMe
        // this should match shadowMe pretty closely
        implementation.extendsFrom(forgeShadowMe)
        shadowMe.extendsFrom(forgeShadowMe)
        forgeRuntimeLibrary.extendsFrom(forgeShadowMe)
        if (isMinecraftSubProject && p != project(":common")) {
            // Shadow common
            common
            shadowCommon // Don't use shadow from the shadow plugin because we don't want IDEA to index this.
            compileClasspath.extendsFrom common
            runtimeClasspath.extendsFrom common
            if (findProject(":forge"))
                developmentForge.extendsFrom common
            if (findProject(":neoforge"))
                developmentNeoForge.extendsFrom common
            compileClasspath.extendsFrom coreProjects
            runtimeClasspath.extendsFrom coreProjects
            if (findProject(":forge"))
                developmentForge.extendsFrom coreProjects
            if (findProject(":neoforge"))
                developmentNeoForge.extendsFrom coreProjects
            // TODO remove unused fabricLike
            if (findProject(":fabricLike") && p != project(":fabricLike")) {
                // Shadow fabricLike
                fabricLike
                shadowFabricLike
                compileClasspath.extendsFrom fabricLike
                runtimeClasspath.extendsFrom fabricLike
            }
        }
    }
    dependencies {
        //=====================//
        // shared dependencies //
        //=====================//
        // Manifold
        if (isMinecraftSubProject) {
            annotationProcessor("systems.manifold:manifold-preprocessor:${rootProject.manifold_version}")
        }
        // Log4j
        if (p == project(":core"))
        {
            // the standalone core jar needs logging shaded otherwise it won't run
            forgeShadowMe("org.apache.logging.log4j:log4j-api:${rootProject.log4j_version}")
            forgeShadowMe("org.apache.logging.log4j:log4j-core:${rootProject.log4j_version}")
        }
        else
        {
            // When running in MC, MC already includes logging
            implementation("org.apache.logging.log4j:log4j-api:${rootProject.log4j_version}")
            implementation("org.apache.logging.log4j:log4j-core:${rootProject.log4j_version}")
        }
        // JOML
        if (project.hasProperty("embed_joml") && embed_joml == "true")
            forgeShadowMe("org.joml:joml:${rootProject.joml_version}")
        else
            implementation("org.joml:joml:${rootProject.joml_version}")
        // JUnit tests
        implementation("org.junit.jupiter:junit-jupiter:5.8.2")
        implementation("org.junit.jupiter:junit-jupiter-engine:5.8.2")
        implementation("junit:junit:4.13")
        // FastUtil
        // Note: MC 1.16 uses 8.2.1, and versions after use 8.5.12
        // We cannot relocate this library since we call some MC classes that reference it
        implementation("it.unimi.dsi:fastutil:${rootProject.fastutil_version}")
        forgeShadowMe("com.github.luben:zstd-jni:${rootProject.zstd_version}")
        // Compression
        forgeShadowMe("org.lz4:lz4-java:${rootProject.lz4_version}") // LZ4
        forgeShadowMe("org.tukaani:xz:${rootProject.xz_version}") // LZMA
        // Sqlite Database
        forgeShadowMe("org.xerial:sqlite-jdbc:${rootProject.sqlite_jdbc_version}")
        // NightConfig (includes Toml & Json)
        forgeShadowMe("com.electronwill.night-config:toml:${rootProject.nightconfig_version}")
        forgeShadowMe("com.electronwill.night-config:json:${rootProject.nightconfig_version}")
        // SVG (not needed atm)
 //        forgeShadowMe("com.formdev:svgSalamander:${rootProject.svgSalamander_version}")
        // Netty
        implementation("io.netty:netty-buffer:${rootProject.netty_version}")
        // Remember, for lwjgl dependencies that arent included in Minecraft, you need to also need to add it to the ShadowJar thing
        forgeShadowMe("org.lwjgl:lwjgl-jawt:${rootProject.lwjgl_version}") {
            exclude group: "org.lwjgl", module: "lwjgl" // This module is imported by Minecraft so exclude it
        }
        //==========================//
        // conditional dependencies //
        //==========================//
        // Add core
        if (isMinecraftSubProject) {
            coreProjects(project(":core")) {
                // Remove Junit test libraries
                exclude group: "org.junit.jupiter", module: "junit-jupiter"
                exclude group: "org.junit.jupiter", module: "junit-jupiter-engine"
                exclude group: "junit", module: "junit"
                // Removed dependencies
                transitive false
            }
        }
        // Add the api
        if (p != project(":api")) {
            coreProjects(project(":api")) {
                // Remove Junit test libraries
                exclude group: "org.junit.jupiter", module: "junit-jupiter"
                exclude group: "org.junit.jupiter", module: "junit-jupiter-engine"
                exclude group: "junit", module: "junit"
                // Removed dependencies
                transitive false
            }
        }
        // Add common
        if (isMinecraftSubProject && p != project(":common")) {
            // Common
            common(project(":common")) { transitive false }
            shadowCommon(project(":common")) { transitive false }
            // FabricLike
            if (findProject(":fabricLike") && p != project(":fabricLike")) {
                fabricLike(project(path: ":fabricLike")) { transitive false }
                shadowFabricLike(project(path: ":fabricLike")) { transitive false }
            }
        }
    }
    shadowJar {
        configurations = [project.configurations.shadowMe]
        if (isMinecraftSubProject && p != project(":common")) {
            configurations.push(project.configurations.shadowCommon) // Shadow the common subproject
            relocate "com.seibel.distanthorizons.common", "loaderCommon.${p.name}.com.seibel.distanthorizons.common" // Move the loader files to a different location
            if (findProject(":fabricLike") && p != project(":fabricLike")) {
                configurations.push(project.configurations.shadowFabricLike) // Shadow the fabricLike subproject
                relocate "com.seibel.distanthorizons.fabriclike", "loaderCommon.${p.name}.com.seibel.distanthorizons.fabriclike" // Move the loader files to a different location
            }
        }
        def librariesLocation = "DistantHorizons.libraries"
        // LWJGL
        // Only ever shadow the dependencies we use otherwise some stuff would break when running on an external client
        relocate "org.lwjgl.system.jawt", "${librariesLocation}.lwjgl.system.jawt"
        // Compression (LZ4)
        relocate "net.jpountz", "${librariesLocation}.jpountz"
        // Logging
        relocate "org.slf4j", "${librariesLocation}.slf4j"
        // Sqlite Database
        // librariesLocation isn't used because it's too long for replacing paths in native libraries
        // Allowing strings larger than the original string would require shifting the entire binary's contents
        relocate "org.sqlite", "dh_sqlite", {
            exclude "org/sqlite/native/**"
        }
        relocate "jdbc:sqlite", "jdbc:dh_sqlite"
        transform(NativeTransformer) {
            rootDir = project.rootDir
            matchFiles { it.startsWith("org/sqlite") }
            mapPaths { it.replace("org/sqlite", "dh_sqlite") }
            relocateNative "org/sqlite", "dh_sqlite"
            relocateNative "org_sqlite", "dh_1sqlite"
        }
        // ZStd
        // librariesLocation isn't used because it's too long for replacing paths in native libraries
        // Allowing strings larger than the original string would require shifting the entire binary's contents
        relocate "com.github.luben", "dhcomgithubluben"
        relocate "libzstd-jni", "libzstd-jni_dh"
        relocate "zstd-jni", "zstd-jni_dh"
        transform(NativeTransformer) {
            rootDir = project.rootDir
            matchFiles { it.contains("libzstd-jni") && !it.contains("aix/ppc64") }
            mapPaths { it.replace("libzstd-jni", "libzstd-jni_dh") }
            relocateNative "com/github/luben", "dhcomgithubluben"
            relocateNative "com_github_luben", "dhcomgithubluben"
        }
        // JOML
        if (project.hasProperty("embed_joml") && embed_joml == "true")
            relocate "org.joml", "${librariesLocation}.joml"
        // NightConfig (includes Toml & Json)
        relocate "com.electronwill.nightconfig", "${librariesLocation}.electronwill.nightconfig"
        // SVG (not needed atm)
 //        relocate "com.kitfox.svg", "${librariesLocation}.kitfox.svg"
        // Netty
        // Don't relocate, it causes problems with using MC's FriendlyByteBufs
 //        relocate "io.netty", "${librariesLocation}.netty"
        mergeServiceFiles()
    }
    // Using jar.finalizedBy(shadowJar) causes issues so we do this scuffed bypass
    jar.dependsOn(shadowJar)
    // Put stuff from gradle.properties into the mod info
    processResources {
        def resourceTargets = [ // Location of where to inject the properties
                                // Holds info like git commit
                                // TODO: For some reason this script doesnt work with the core project
                                "build_info.json",
                                // Properties for each of the loaders
                                "fabric.mod.json",
                                "quilt.mod.json",
                                "META-INF/mods.toml",
                                "META-INF/neoforge.mods.toml",
                                // The mixins for each of the loaders
                                "DistantHorizons."+ p.name +".fabricLike.mixins.json"
        ]
        def intoTargets = ["$buildDir/resources/main/"] // Location of the built resources folder
        // Fix forge version numbering system as it is weird
        // For whatever reason forge uses [1.18, 1.18.1, 1.18.2) instead of the standard ["1.18", "1.18.1", "1.18.2"]
        def compatible_forgemc_versions = "${compatible_minecraft_versions}".replaceAll("\"", "").replaceAll("]", ",)")
 //        println compatible_forgemc_versions
        // Quilt's custom contributors system
        // This has to be like
        // "Person": "Developer", "Another person": "Developer"
        def quilt_contributors = []
        def mod_author_list = mod_authors.replaceAll("\"", "").replace("[", "").replace("]", "").split(",")
        for (dev in mod_author_list) {
            quilt_contributors.push("\"${dev.strip()}\": \"Developer\"")
        }
        quilt_contributors.reverse()
        //println quilt_contributors.join(", ")
        // TODO: Find something we can use so we can basically re-map only when the jar is shadowed and relocated
 //        println p.tasks.findByName('shadowJar')
        // These "hasProperty"'s are so that they can be passed through the cli (ie in the CI)
        try {
            if (infoGitCommit == "null")
                infoGitCommit = 'git rev-parse --verify HEAD'.execute().text.trim()
            if (infoGitBranch == "null")
                infoGitBranch = 'git symbolic-ref --short HEAD'.execute().text.trim()
        } catch (Exception e) {
            infoGitCommit = infoGitBranch = "Git not found"
            println "Git or Git project not found"
        }
        // The left side is what gets replaced in the mod info and the right side is where to get it from in the gradle.properties
        def replaceProperties = [
                version                      : mod_version,
                mod_name                     : mod_readable_name,
                group                        : maven_group,
                authors                      : mod_authors,
                description                  : mod_description,
                homepage                     : mod_homepage,
                source                       : mod_source,
                issues                       : mod_issues,
                discord                      : mod_discord,
                minecraft_version            : minecraft_version,
                compatible_minecraft_versions: compatible_minecraft_versions,
                compatible_forgemc_versions  : compatible_forgemc_versions,
                java_version                 : java_version,
                quilt_contributors           : "{"+quilt_contributors.join(", ")+"}",
                info_git_commit              : infoGitBranch,
                info_git_branch              : infoGitCommit,
                info_build_source            : infoBuildSource,
                fabric_incompatibility_list  : fabric_incompatibility_list,
                fabric_recommend_list        : fabric_recommend_list,
                neoforge_version_range       : neoforge_version_range,
        ]
        // replace any properties in the sub-projects with the values defined here
        inputs.properties replaceProperties
        replaceProperties.put "project", project
        filesMatching(resourceTargets) {
            expand replaceProperties
        }
        intoTargets.each { target ->
            if (file(target).exists()) {
                copy {
                    from(sourceSets.main.resources) {
                        include resourceTargets
                        expand replaceProperties
                    }
                    into target
                }
            }
        }
        // ==================== Delete un-needed files ====================
        exclude "DistantHorizons.fabricLike.mixins.json" // This isnt required atm, but we will be using it later
 //        exclude "*.distanthorizons.accesswidener"
 ////        include "${accessWidenerVersion}.distanthorizons.accesswidener"
        // Jank solution to remove all unused accesswideners
        // The line above would work..., except that (neo)forge (well, mainly architectury) requires the original accesswidener file, meaning we require this jank solution to keep it
        exclude { file ->
            if (file.name.contains(".distanthorizons.accesswidener") && file.name != "${accessWidenerVersion}.distanthorizons.accesswidener") {
                return true
            }
            return false
        }
    }
    // Adds the standalone jar's entrypoint
    jar {
        from "LICENSE.txt"
        manifest {
            attributes( 
                'Implementation-Title': rootProject.mod_name,
                'Implementation-Version': rootProject.mod_version,
                'Multi-Release': true, // needed for logging in the standalone core jar
                'Main-Class': 'com.seibel.distanthorizons.core.jar.JarMain', // When changing the main of the jar change this line
            )
        }
    }
    // this can be un-commented if we ever wanted to make DH modular (AKA use a module-info.java file) again
    /*
    // Tells gradle where to look for other modules
    // Why isn't the classpath added to the modules path by default?
    if (p == project(":core")) {
        compileJava {
            inputs.property('moduleName', 'dhApi')
            doFirst {
                options.compilerArgs = [
                        '--module-path', classpath.asPath
                ]
                classpath = files()
            }
        }
    }
    */
 }
 allprojects { p ->
    // Does the same as "p == project(":common") || p == project(":fabric") || p == project(":quilt")  || p == project(":forge") || p == project("WhateverWeAddLaterOn")"
    // Useful later on so we dont have duplicated code
    def isMinecraftSubProject = p != project(":core") && p != project(":api")
    apply plugin: "java"
    apply plugin: "maven-publish"
    // Sets the name of the jar, the version will contain the name of the project if it isn't the root project
    archivesBaseName = rootProject.mod_name
    version = (project == rootProject ? "" : project.name + "-") + rootProject.versionStr
    group = rootProject.maven_group
    // this is the text that appears at the top of the overview (home) page
    // and is used when bookmarking a page
    javadoc.title = rootProject.mod_name + "-" + project.name
    // Some annotations arent "technically" part of the official java standard,
    //  so we define it ourself here
    javadoc {
        configure( options ) {
            tags(
                    'todo:X"',
                    'apiNote:a:API Note:',
                    'implSpec:a:Implementation Requirements:',
                    'implNote:a:Implementation Note:'
            )
        }
    }
    repositories {
        // Mojang overrides (added to fix downloading the wrong LWJGL libs on M1 Mac's and potentially other arm64 based machines)
        maven { url "https://libraries.minecraft.net/" }
        // The central repo
        mavenCentral()
        // Used for Google's Collect library
        maven { url "https://repo.enonic.com/public/" }
        // For parchment mappings
        // versions can be found here: https://ldtteam.jfrog.io/ui/native/parchmentmc-public/org/parchmentmc/data/
        maven { url "https://maven.parchmentmc.org" }
        // For Architectury API
        maven { url "https://maven.architectury.dev" }
        // For Git repositories
        maven { url "https://jitpack.io" }
        // For Manifold Preprocessor
        maven { url "https://oss.sonatype.org/content/repositories/snapshots/" }
        // Required for importing Modrinth mods
        maven {
            name = "Modrinth"
            url = "https://api.modrinth.com/maven"
            content {
                includeGroup "maven.modrinth"
            }
        }
        // Required for importing CursedForge mods
        maven {
            url "https://www.cursemaven.com"
            content {
                includeGroup "curse.maven"
            }
        }
        // VanillaGradle and Mixins in common
        maven { url "https://repo.spongepowered.org/maven/" }
        // Canvas mod
        maven { url "https://maven.vram.io/" }
        // ModMenu mod
        maven { url "https://maven.terraformersmc.com/" }
        // neoforge
        maven { url "https://maven.neoforged.net/releases/" }
        // These 3 are for importing mods that arnt on CursedForge, Modrinth, GitHub, GitLab or anywhere opensource
        flatDir {
            dirs "${rootDir}/mods/fabric"
            content {
                includeGroup "fabric-mod"
            }
        }
        flatDir {
            dirs "${rootDir}/mods/quilt"
            content {
                includeGroup "quilt-mod"
            }
        }
        flatDir {
            dirs "${rootDir}/mods/forge"
            content {
                includeGroup "forge-mod"
            }
        }
        // TODO: If neoforged is ever needed, should we use that, or call it a forge mod?
    }
    // Adds some dependencies that are in vanilla but not in core
    if (p == project(":core")) {
        OperatingSystem os = org.gradle.nativeplatform.platform.internal.DefaultNativePlatform.currentOperatingSystem;
        // Set the OS lwjgl is using to the current os
        project.ext.lwjglNatives = "natives-" + os.toFamilyName()
        dependencies { // All of these dependencies are in Vanilla Minecraft, but we need to depend on it as we arent importing Minecraft in the core
            // Imports most of lwjgl's libraries (well, only the ones that we need)
            implementation platform("org.lwjgl:lwjgl-bom:${rootProject.lwjgl_version}") // TODO: Use Minecraft's version for lwjgl_version (which changes in nearly every version) instead of a hard defined version for all versions
            // REMEMBER: Dont shadow stuff here, these are just the libs that are included in Minecraft so that the core can use
            implementation "org.lwjgl:lwjgl"
            implementation "org.lwjgl:lwjgl-assimp"
            implementation "org.lwjgl:lwjgl-glfw"
            implementation "org.lwjgl:lwjgl-openal"
            implementation "org.lwjgl:lwjgl-opengl"
            implementation "org.lwjgl:lwjgl-stb"
            implementation "org.lwjgl:lwjgl-tinyfd"
            runtimeOnly "org.lwjgl:lwjgl::$lwjglNatives"
            runtimeOnly "org.lwjgl:lwjgl-assimp::$lwjglNatives"
            runtimeOnly "org.lwjgl:lwjgl-glfw::$lwjglNatives"
            runtimeOnly "org.lwjgl:lwjgl-openal::$lwjglNatives"
            runtimeOnly "org.lwjgl:lwjgl-opengl::$lwjglNatives"
            runtimeOnly "org.lwjgl:lwjgl-stb::$lwjglNatives"
            runtimeOnly "org.lwjgl:lwjgl-tinyfd::$lwjglNatives"
            implementation "org.joml:joml:${rootProject.joml_version}"
            // Some other dependencies
            implementation("org.jetbrains:annotations:16.0.2")
            implementation("com.google.code.findbugs:jsr305:3.0.2")
            implementation("com.google.common:google-collect:0.5")
            implementation("com.google.guava:guava:31.1-jre")
        }
    }
    task copyCommonLoaderResources(type: Copy) {
        from project(":common").file("src/main/resources/${accessWidenerVersion}.distanthorizons.accesswidener")
        into(file(p.file("build/resources/main")))
        rename "${accessWidenerVersion}.distanthorizons.accesswidener", "distanthorizons.accesswidener"
        // Move the fabricLike mixin to its different places for each subproject
        if (findProject(":fabricLike")) {
            from project(":fabricLike").file("src/main/resources/DistantHorizons.fabricLike.mixins.json")
            into(file(p.file("build/resources/main")))
            rename "DistantHorizons.fabricLike.mixins.json", "DistantHorizons." + p.name + ".fabricLike.mixins.json"
        }
    }
    task copyCoreResources(type: Copy) {
        from fileTree(project(":core").file("src/main/resources"))
        into p.file("build/resources/main")
    }
    tasks.withType(JavaCompile) {
        if (isMinecraftSubProject) {
            options.release = rootProject.java_version as Integer
        } else {
            options.release = 8; // Core & Api should use Java 8 no matter what
            //options.release = rootProject.java_version as Integer // But if you want to test some stuff, then this can be enabled
        }
        options.encoding = "UTF-8"
    }
    java {
        withSourcesJar()
    }
 }
@@ -3,7 +3,6 @@
 echo "==================== Note: All build jars will be in the folder called 'buildAllJars' ===================="
 mkdir -p buildAllJars
 rm -rf buildAllJars/*
 rm -rf build/forgix/*
 # Loop trough everything in the version properties folder
 for d in versionProperties/*; do
@@ -20,6 +19,10 @@ for d in versionProperties/*; do
  sh gradlew build -PmcVer=$version
  if [ $? != 0 ]; then continue; fi
  echo "==================== Merging $version ===================="
  sh gradlew mergeJars -PmcVer=$version
  if [ $? != 0 ]; then continue; fi
  echo "==================== Moving jar ===================="
-  mv build/forgix/*.jar buildAllJars/
+  mv build/merged/*.jar buildAllJars/
 done
@@ -6,7 +6,6 @@
 echo ==================== Note: All build jars will be in the folder called 'buildAllJars' ====================
 mkdir buildAllJars
 del buildAllJars/*
 del build/forgix/*
@rem Loop trough everything in the version properties folder
 for %%f in (versionProperties\*) do (
@@ -20,8 +19,11 @@ for %%f in (versionProperties\*) do (
 	echo ==================== Building !version! ====================
    call .\gradlew.bat build -PmcVer="!version!"
 	echo ==================== Merging !version! ====================
    call .\gradlew.bat mergeJars -PmcVer="!version!"
    echo ==================== Moving jar ====================
-    move build\forgix\*.jar buildAllJars\
+    move build\merged\*.jar buildAllJars\
 )
 endlocal
@@ -1,35 +0,0 @@
@echo off & setlocal enabledelayedexpansion
 echo ==================== Getting versions to build... ====================
 mkdir _buildAllJars 2>nul
 del _buildAllJars\* /Q 2>nul
 set "ROOT=%~dp0"
 set "WORK_DIR=%ROOT%_buildWorkers"
 mkdir "%WORK_DIR%" 2>nul
 REM get the number of versions to compile
 set count=0
 for %%f in (versionProperties\*) do set /a count+=1
 echo ==================== Found %count% versions to build in parallel ====================
 REM Launch a parallel job for each version
 for %%f in (%ROOT%versionProperties\*) do (
    set version=%%~nf
 	echo starting [!version!]...
    start "Build !version!" cmd /c ""%ROOT%build_worker.bat" "!version!" "%ROOT%" "%WORK_DIR%" ""..\..\_buildAllJars"""
 	REM Minor timeout between launches so we can stop the build early if we only want 
 	REM to test part of the script and to reduce startup load
 	timeout /t 3 /nobreak
 REM 2>nul to supress a harmless warning that the for loop
 REM "cannot find the drive specified"
 ) 2>nul
 echo ==================== All builds started... Completed Jars will be in _buildAllJars ====================
 endlocal
@@ -1,24 +0,0 @@
 plugins {
    id 'groovy-gradle-plugin'
 }
 repositories {
    gradlePluginPortal()
    mavenCentral()
    maven { url = 'https://maven.wagyourtail.xyz/releases' } // Jvmdowngrader & unimined libs
    maven { url = 'https://maven.outlands.top/releases' } // Hosts the kappa fork of unimined
    maven { url = 'https://maven.wagyourtail.xyz/snapshots' } // The manifold gradle plugin we use
    maven { url = 'https://maven.architectury.dev/' } // Minecraft mod libs
    maven { url = 'https://maven.fabricmc.net/' } // Fabric
    maven { url = 'https://maven.neoforged.net/releases/' } // NeoForge
    maven { url = 'https://maven.minecraftforge.net/' } // Forge
    maven { url = 'https://repo.spongepowered.org/repository/maven-public/' } // Hosts minecraft libs
    maven { url = 'https://oss.sonatype.org/content/repositories/snapshots/' } // Hosts a few dependencies we use
 }
 dependencies {
    implementation 'com.gradleup.shadow:shadow-gradle-plugin:9.0.0'
    implementation 'xyz.wagyourtail.unimined:xyz.wagyourtail.unimined.gradle.plugin:1.4.18-kappa'
    implementation 'xyz.wagyourtail:manifold-gradle:1.0.0-SNAPSHOT'
    implementation 'xyz.wagyourtail.jvmdowngrader:xyz.wagyourtail.jvmdowngrader.gradle.plugin:1.3.4'
 }
@@ -1,594 +0,0 @@
 import com.github.jengelman.gradle.plugins.shadow.transformers.ResourceTransformer
 import com.github.jengelman.gradle.plugins.shadow.transformers.TransformerContext
 import org.apache.tools.zip.ZipEntry
 import org.apache.tools.zip.ZipOutputStream
 import javax.annotation.Nonnull
 import java.util.function.Function
 import java.util.function.Predicate
 import groovy.json.JsonSlurper
 // Convention plugin for all MC-facing subprojects (common + loaders).
 // Common uses this directly; loaders use it via unimined-fabric/forge/neoforge.
 // IMPORTANT: unimined MUST be applied before shadow/jvmdowngrader
 // so its afterEvaluate runs first and can modify configs.
 plugins {
    id 'java'
    id 'maven-publish'
    id 'xyz.wagyourtail.unimined'
    id 'com.gradleup.shadow'
    id 'xyz.wagyourtail.manifold'
    id 'xyz.wagyourtail.jvmdowngrader'
 }
 def isNotCommonProject = project.name != "common"
 if (isNotCommonProject) {
    evaluationDependsOn(":common")
 }
 // ==================== Version Properties ====================
 project.gradle.ext.getProperties().each { prop ->
    rootProject.ext.set(prop.key, prop.value)
 }
 manifold {
    version = rootProject.manifold_version
 }
 // ==================== Repositories ====================
 repositories {
    maven { url "https://libraries.minecraft.net/" }
    mavenCentral()
    maven { url "https://repo.enonic.com/public/" }
    maven { url "https://maven.parchmentmc.org" }
    maven { url "https://maven.architectury.dev" }
    maven { url "https://jitpack.io" }
    maven { url "https://oss.sonatype.org/content/repositories/snapshots/" }
    maven {
        name = "Modrinth"
        url = "https://api.modrinth.com/maven"
        content { includeGroup "maven.modrinth" }
    }
    maven {
        url "https://www.cursemaven.com"
        content { includeGroup "curse.maven" }
    }
    maven {
        url "https://repo.spongepowered.org/maven/"
 		// exclusion is needed since sponge has a deprecated version of fabric
 		// that gradle would prefer to get over the up-to-date version modrinth provides
        content { excludeGroupByRegex "net\\.fabricmc(\\..*)?" }
    }
    maven { url "https://maven.terraformersmc.com/" }
    maven { url "https://maven.neoforged.net/releases/" }
    flatDir {
        dirs "${rootDir}/mods/fabric"
        content { includeGroup "fabric-mod" }
    }
    flatDir {
        dirs "${rootDir}/mods/quilt"
        content { includeGroup "quilt-mod" }
    }
    flatDir {
        dirs "${rootDir}/mods/forge"
        content { includeGroup "forge-mod" }
    }
 }
 // ==================== Java Config ====================
 tasks.withType(JavaCompile).configureEach {
    options.release = rootProject.java_version as Integer
    options.encoding = "UTF-8"
 }
 java {
    sourceCompatibility = JavaVersion.toVersion(gradle.ext.java_version as Integer)
    targetCompatibility = JavaVersion.toVersion(gradle.ext.java_version as Integer)
    withSourcesJar()
 }
 // ==================== Loader-Only Config ====================
 if (isNotCommonProject) {
    base { archivesName = rootProject.mod_name }
    rootProject.ext.versionStr = rootProject.mod_version + "-" + rootProject.minecraft_version
    version = project.name + "-" + rootProject.versionStr
    group = rootProject.maven_group
    javadoc.title = rootProject.mod_name + "-" + project.name
    tasks.withType(GenerateModuleMetadata).configureEach {
        enabled = false
    }
    tasks.withType(Test).configureEach {
        enabled = false
    }
    compileTestJava.enabled = false
    tasks.withType(Sign).configureEach {
        enabled = false
    }
    jar {
        from "LICENSE.txt"
        manifest {
            attributes(
                'Implementation-Title': rootProject.mod_name,
                'Implementation-Version': rootProject.mod_version,
                'Multi-Release': true,
                'Main-Class': 'com.seibel.distanthorizons.core.jar.JarMain',
            )
            if (project.name == "cleanroom") {
                attributes(
                    'ModType': 'CRL',
                    'MixinConfigs': "${mod_id}.default.mixin.json,${mod_id}.mod.mixin.json",
                    'FMLCorePlugin': 'com.seibel.distanthorizons.cleanroom.DistantHorizonsLoadingPlugin',
                    'FMLCorePluginContainsFMLMod': true,
                    'FMLAT': "${gradle.ext.accessWidenerVersion}.distanthorizons_at.cfg"
                )
            }
        }
    }
 }
 // ==================== Unimined Minecraft Config ====================
 unimined.minecraft(sourceSets.main, true) {
    version gradle.ext.minecraft_version
    if (gradle.ext.minecraft_version.startsWith("1.")) { // 26.1+ doesn't use obfuscation
        mappings {
            if(gradle.ext.minecraft_version.startsWith("1.12.2")){
                mcp("stable", "39-1.12")
            }
            else{
                mojmap()
                devNamespace "mojmap"
            }
        }
    }
 }
 if (isNotCommonProject) {
    // Mixin remapping and common project wiring
    unimined.minecraft(sourceSets.main, true) {
        mods.modImplementation {
            mixinRemap {
                reset()
                enableBaseMixin()
                enableMixinExtra()
            }
            // Some Fabric API modules ship AW in 'named' namespace instead of 'intermediary'
            catchAWNamespaceAssertion()
        }
    }
    dependencies {
        implementation(project(":common"))
    }
    processResources {
        from project(":common").sourceSets.main.resources
    }
    tasks.withType(JavaCompile).configureEach {
        source(project(":common").sourceSets.main.allSource)
    }
 } else {
    unimined.minecraft {
        if (gradle.ext.minecraft_version.equals("1.12.2")) {
            cleanroom {
                loader gradle.ext.cleanroom_loader_version
                accessTransformer  project.file("src/main/resources/${gradle.ext.accessWidenerVersion}.distanthorizons_at.cfg")
            }
        } else {
            fabric {
                loader gradle.ext.fabric_loader_version
                accessWidener project.file("src/main/resources/${gradle.ext.accessWidenerVersion}.distanthorizons.accesswidener")
            }
        }
        defaultRemapJar = false
        runs.off = true
    }
 }
 // ==================== Configurations ====================
 evaluationDependsOn(":core")
 configurations {
    shadowMe
    coreProjects
    shadowMe.extendsFrom(coreProjects)
    implementation.extendsFrom(shadowMe)
    common
    implementation.extendsFrom(common)
 }
 // ==================== Dependencies ====================
 // Copy core's compileOnly deps so MC-provided deps are visible without redeclaring them.
 project(":core").configurations.compileOnly.allDependencies.each { dep ->
    if (!(dep instanceof ProjectDependency))
        dependencies.add("compileOnly", dep)
 }
 dependencies {
    // Manifold preprocessor & strings
    annotationProcessor(manifold.module("preprocessor"))
    // NightConfig: implementation in core (bundled) but Unimined strips it from compile classpath
    compileOnly("com.electronwill.night-config:toml:${rootProject.nightconfig_version}")
    // Core & API projects — bundled into shadow jar
    coreProjects(project(":core"))
    coreProjects(project(":api"))
    // JOML: shadow for old MC versions that don't bundle it (core has it compileOnly already)
    if (project.hasProperty("embed_joml") && embed_joml == "true")
        shadowMe("org.joml:joml:${rootProject.joml_version}")
    // Common project dependency
    if (isNotCommonProject)
        common(project(":common")) { transitive false }
 }
 // ==================== NativeTransformer ====================
 class NativeTransformer implements ResourceTransformer {
    private Predicate<String> fileMatcher
    private Function<String, String> filePathMapper
    private final HashMap<String, String> replacements = new HashMap()
    private final HashMap<String, byte[]> rewrittenFiles = new HashMap()
    private nativeRelocator
    public File rootDir
    void matchFiles(Predicate<String> matcher) {
        fileMatcher = matcher
    }
    void mapPaths(Function<String, String> mapper) {
        filePathMapper = mapper
    }
    void relocateNative(String target, String replacement) {
        if (replacement.length() > target.length()) {
            throw new GradleException("Length of value \"${replacement}\" exceeds the length of \"${target}\": ${replacement.length()} > ${target.length()}")
        }
        replacements.put(target, replacement)
    }
    @Override
    boolean canTransformResource(@Nonnull FileTreeElement element) {
        return fileMatcher != null && fileMatcher.test(element.relativePath.pathString)
    }
    @Override
    void transform(@Nonnull TransformerContext context) {
        byte[] content = context.inputStream.readAllBytes()
        if (nativeRelocator == null) {
            nativeRelocator = new NativeRelocator(rootDir.toPath().resolve("relocate_natives"))
        }
        try {
            String path = filePathMapper != null
                ? filePathMapper.apply(context.path)
                : context.path
            content = nativeRelocator.processBinary(path, content, replacements)
            rewrittenFiles.put(path, content)
        }
        catch (Throwable e) {
            throw new GradleException("Failed to relocate", e)
        }
    }
    @Override
    boolean hasTransformedResource() { return !rewrittenFiles.isEmpty() }
    @Override
    void modifyOutputStream(@Nonnull ZipOutputStream os, boolean preserveFileTimestamps) {
        for (Map.Entry<String, byte[]> rewrittenFile : rewrittenFiles.entrySet()) {
            os.putNextEntry(new ZipEntry(rewrittenFile.key))
            os.write(rewrittenFile.value)
        }
    }
 }
 // ==================== Shadow JAR (loaders only) ====================
 if (isNotCommonProject) {
    shadowJar {
        configurations = [project.configurations.shadowMe]
        def librariesLocation = "DistantHorizons.libraries"
        // LZ4
        relocate "net.jpountz", "${librariesLocation}.jpountz"
        // SLF4J
        relocate "org.slf4j", "${librariesLocation}.slf4j"
        // SQLite
        relocate "org.sqlite", "dh_sqlite", { exclude "org/sqlite/native/**" }
        relocate "jdbc:sqlite", "jdbc:dh_sqlite"
        transform(NativeTransformer) {
            rootDir = project.rootDir
            matchFiles { it.startsWith("org/sqlite") }
            mapPaths { it.replace("org/sqlite", "dh_sqlite") }
            relocateNative "org/sqlite", "dh_sqlite"
            relocateNative "org_sqlite", "dh_1sqlite"
        }
        // ZStd
        relocate "com.github.luben", "dhcomgithubluben"
        relocate "libzstd-jni", "libzstd-jni_dh"
        relocate "zstd-jni", "zstd-jni_dh"
        transform(NativeTransformer) {
            rootDir = project.rootDir
            matchFiles { it.contains("libzstd-jni") && !it.contains("aix/ppc64") }
            mapPaths { it.replace("libzstd-jni", "libzstd-jni_dh") }
            relocateNative "com/github/luben", "dhcomgithubluben"
            relocateNative "com_github_luben", "dhcomgithubluben"
        }
        // JOML (conditional)
        if (project.hasProperty("embed_joml") && embed_joml == "true")
            relocate "org.joml", "${librariesLocation}.joml"
        // NightConfig
        relocate "com.electronwill.nightconfig", "${librariesLocation}.electronwill.nightconfig"
        mergeServiceFiles()
    }
    afterEvaluate {
        tasks.named("remapJar").configure {
            dependsOn(shadowJar)
            inputFile.set(shadowJar.archiveFile)
        }
        // Make run tasks use the shadow jar so relocated deps work in dev.
        // Filter out jars bundled in the shadow jar, but keep jars that the loader also
        // needs (e.g. NightConfig — DH relocates it, but NeoForge needs the original).
        def shadowedPaths = configurations.shadowMe.resolve().collect { it.path }.toSet()
        def loaderPaths = configurations.minecraftLibraries.resolve().collect { it.path }.toSet()
        tasks.withType(JavaExec).configureEach { runTask ->
            dependsOn(shadowJar)
            if (project.name != "cleanroom") {
                classpath = files(shadowJar.archiveFile) + classpath.filter { file ->
                    file != shadowJar.archiveFile.get().asFile &&
                        !file.path.contains(project.buildDir.path) &&
                        !file.path.contains("core${File.separator}build") &&
                        !file.path.contains("api${File.separator}build") &&
                        !file.path.contains("common${File.separator}build") &&
                        !(shadowedPaths.contains(file.path) && !loaderPaths.contains(file.path))
                }
            } else {
                // For cleanroom, don't put shadow jar on app classpath.
                // crl.dev.extrapath loads it via LaunchClassLoader instead.
                classpath = classpath.filter { file ->
                    !file.path.contains(project.buildDir.path) &&
                        !file.path.contains("core${File.separator}build") &&
                        !file.path.contains("api${File.separator}build") &&
                        !file.path.contains("common${File.separator}build") &&
                        !(shadowedPaths.contains(file.path) && !loaderPaths.contains(file.path))
                }
            }
            // Shared run directory so all loaders use the same worlds
            def isClient = runTask.name.toLowerCase().contains("client")
            runTask.workingDir = rootProject.file("run/${isClient ? 'client' : 'server'}")
            // Minecraft automatically has G1GC args present,
            // remove them so we can use ZGC instead
            def filteredArgs = runTask.jvmArgs.findAll { arg ->
                !arg.startsWith("-XX:+UseG1GC") &&
                !arg.startsWith("-XX:G1") &&
                !arg.startsWith("-XX:MaxGCPauseMillis")
            }
            runTask.jvmArgs = filteredArgs
            if(project.name == "forge" 
                || project.name == "neoforge" 
                || project.name == "cleanroom") 
            {
                // fix (Neo)forge, Cleanroom debug running
                doFirst {
                    def modsDir = rootProject.file("run/${isClient ? 'client' : 'server'}/mods")
                    modsDir.mkdirs()
                    // Remove any stale DH jars before copying the fresh one
                    modsDir.listFiles()?.each({ file ->
                        if (file.name.startsWith(rootProject.mod_name))
                        {
                            file.delete()
                        }
                    });
                    // Copy shadow jar into mods folder so (Neo)Forge discovers it properly
                    copy {
                        from shadowJar.archiveFile
                        into modsDir
                    }
                }
            }
            // JVM args
            runTask.jvmArgs(
                "-Dio.netty.leakDetection.level=advanced",
                // TODO only use for modern java versions
                "-XX:+UseZGC",
                // TODO don't use for even more modern-er java versions
                //"-XX:+ZGenerational",
                rootProject.minecraftMemoryJavaArg,
            )
            if (isClient) 
            {
                runTask.jvmArgs(
                    "-Dminecraft.api.auth.host=https://nope.invalid",
                    "-Dminecraft.api.account.host=https://nope.invalid",
                    "-Dminecraft.api.session.host=https://nope.invalid",
                    "-Dminecraft.api.services.host=https://nope.invalid",
                )
                runTask.args(
                    // use a consistent username for easier debugging in a given world (vs randomly teleporting to a new user each time the game boots)
                    "--username", "Dev",
                    // "--renderDebugLabels" is a Mojang command to show render names in RenderDoc
                    "--renderDebugLabels"
                    )
                // enabling tracy causes constant memory growth so it isn't always desired
                if (rootProject.minecraftEnableTracy == "true")
                {
                    // "--tracy" is a Mojang command to allow individual frames to be debugged using Tracy https://github.com/wolfpld/tracy/releases/tag/v0.13.1
                    runTask.args("--tracy")
                }
            }
        }
        tasks.downgradeJar.inputFile.set(tasks.named("remapJar").flatMap { it.archiveFile })
        tasks.jar.finalizedBy(tasks.named("remapJar"))
        tasks.named("remapJar").configure { finalizedBy(tasks.shadeDowngradedApi) }
    }
 }
 // ==================== Process Resources (loaders only) ====================
 if (isNotCommonProject) {
    processResources {
        def resourceTargets = [
            "build_info.json",
            "fabric.mod.json",
            "mcmod.info",
            "quilt.mod.json",
            "META-INF/mods.toml",
            "META-INF/neoforge.mods.toml",
        ]
        // incoming format: `["26.2.0","26.2-alpha.9"]`
        // outgoing format: `[26.2.0],[26.2-alpha.9]`
        def compatible_forgemc_versions = "${rootProject.compatible_minecraft_versions}"
            .replaceAll("\",\"", "],[")
            .replaceAll("\"", "")
        // Quilt contributors
        def quilt_contributors = []
        def mod_author_list = rootProject.mod_authors.replaceAll("\"", "").replace("[", "").replace("]", "").split(",")
        def cleanroom_author_list = rootProject.mod_authors.replace('[', '').replace(']', '').split(',').collect({ it.trim().replace('"', '') }).join('", "')
        for (dev in mod_author_list) {
            quilt_contributors.push("\"${dev.strip()}\": \"Developer\"")
        }
        quilt_contributors.reverse()
        try {
            if (rootProject.infoGitCommit == "null")
                rootProject.ext.infoGitCommit = 'git rev-parse --verify HEAD'.execute().text.trim()
            if (rootProject.infoGitBranch == "null")
                rootProject.ext.infoGitBranch = 'git symbolic-ref --short HEAD'.execute().text.trim()
        } catch (Exception e) {
            rootProject.ext.infoGitCommit = "Git not found"
            rootProject.ext.infoGitBranch = "Git not found"
        }
        def replaceProperties = [
            version                      : rootProject.mod_version,
            mod_id                       : rootProject.mod_id,
            mod_name                     : rootProject.mod_readable_name,
            group                        : rootProject.maven_group,
            authors                      : rootProject.mod_authors,
            cleanroom_authors            : cleanroom_author_list,
            description                  : rootProject.mod_description,
            homepage                     : rootProject.mod_homepage,
            source                       : rootProject.mod_source,
            issues                       : rootProject.mod_issues,
            discord                      : rootProject.mod_discord,
            minecraft_version            : rootProject.minecraft_version,
            accessWidenerVersion         : rootProject.accessWidenerVersion,
            compatible_minecraft_versions: rootProject.compatible_minecraft_versions,
            compatible_forgemc_versions  : compatible_forgemc_versions,
            java_version                 : rootProject.java_version,
            quilt_contributors           : "{" + quilt_contributors.join(", ") + "}",
            info_git_commit              : rootProject.infoGitBranch,
            info_git_branch              : rootProject.infoGitCommit,
            info_build_source            : rootProject.infoBuildSource,
            fabric_incompatibility_list  : rootProject.fabric_incompatibility_list,
            fabric_recommend_list        : rootProject.fabric_recommend_list,
            neoforge_version_range       : rootProject.neoforge_version_range,
            logo_path                    : "assets/distanthorizons/icon.png"
        ]
        inputs.properties replaceProperties
        replaceProperties.put "project", project
        filesMatching(resourceTargets) {
            expand replaceProperties
        }
        // Remove unused access wideners
        exclude { file ->
            if ((file.name.contains(".distanthorizons.accesswidener") && file.name != "${rootProject.accessWidenerVersion}.distanthorizons.accesswidener")) {
                return true
            }
            return false
        }
    }
    // ==================== Resource Copy Tasks ====================
    // task copyCommonLoaderResources(type: Copy) {
    //     from project(":common").file("src/main/resources/${rootProject.accessWidenerVersion}.distanthorizons.accesswidener")
    //     into(file(project.file("build/resources/main")))
    //     rename "${rootProject.accessWidenerVersion}.distanthorizons.accesswidener", "distanthorizons.accesswidener"
    // }
    task copyCoreResources(type: Copy) {
        from fileTree(project(":core").file("src/main/resources"))
        into project.file("build/resources/main")
    }
    tasks.register("convertJsonToLang") {
        dependsOn(copyCoreResources)
        File input = project.file("build/resources/main/assets/distanthorizons/lang/en_us.json")
        File output = project.file("build/resources/main/assets/distanthorizons/lang/en_us.lang")
        inputs.file(input)
        outputs.file(output)
        doLast {
            output.withWriter("UTF-8") { writer ->
                writer.writeLine("#PARSE_ESCAPES")
                new JsonSlurper()
                    .parse(input)
                    .each { key, value ->
                        def text = value.toString().replaceAll(/%(?!((\d+)\$)?s|%)/, "%%").replace("\n", "\\n")
                        writer.writeLine("${key}=${text}")
                    }
            }
        }
    }
    // ==================== JVMDowngrader ====================
    jvmdg.downgradeTo = JavaVersion.toVersion(rootProject.java_version)
    downgradeJar.archiveClassifier.set(null)
    shadeDowngradedApi.archiveClassifier.set(null)
 }
@@ -1,56 +0,0 @@
 plugins {
    id 'java'
 }
 // Transfer version properties from settings.gradle to project
 project.gradle.ext.getProperties().each { prop ->
    rootProject.ext.set(prop.key, prop.value)
 }
 // Version string for archives
 rootProject.ext.versionStr = rootProject.mod_version + "-" + rootProject.minecraft_version
 rootProject.allprojects {
    version = (it == rootProject ? "" : it.name + "-") + rootProject.versionStr
    group = rootProject.maven_group
    // Custom javadoc tags for all subprojects
    plugins.withType(JavaPlugin) {
        javadoc {
            options.tags(
                'todo:X"',
                'apiNote:a:API Note:',
                'implSpec:a:Implementation Requirements:',
                'implNote:a:Implementation Note:'
            )
        }
    }
 }
 // Create build.properties with preprocessor definitions
 def writePreprocessorDefinitions() {
    StringBuilder sb = new StringBuilder()
    sb.append("# DON'T TOUCH THIS FILE, This is handled by the build script\n")
    gradle.ext.mcVers.eachWithIndex { ver, idx ->
        sb.append("MC_${ver.replace('.', '_')}=${idx}\n")
        if (gradle.ext.mcIndex == idx)
            sb.append("MC_VER=${idx}\n")
    }
    if (rootProject.mod_version.toLowerCase().contains("dev")) {
        sb.append("DEV_BUILD=\n")
    }
    new File(rootDir, "build.properties").text = sb.toString()
 }
 writePreprocessorDefinitions()
 // Wire JVMDowngrader to process remapped jars
 gradle.projectsEvaluated {
    rootProject.subprojects.each {
        if (it.tasks.findByName('remapJar') == null) return
        it.tasks.downgradeJar.inputFile = it.tasks.remapJar.archiveFile
        it.tasks.jar.finalizedBy(it.tasks.remapJar)
        it.tasks.remapJar.finalizedBy(it.tasks.shadeDowngradedApi)
    }
 }
@@ -1,15 +0,0 @@
 plugins {
    id 'dh-loader'
 }
 unimined.minecraft {
    cleanroom {
        loader gradle.ext.cleanroom_loader_version
        useToolchains = false
        accessTransformer project(":common").file("src/main/resources/${gradle.ext.accessWidenerVersion}.distanthorizons_at.cfg")
        runs.all {
            systemProperty("crl.dev.mixin", "${mod_id}.default.mixin.json,${mod_id}.mod.mixin.json")
            systemProperty("fml.coreMods.load", "com.seibel.distanthorizons.cleanroom.DistantHorizonsLoadingPlugin")
        }
    }
 }
@@ -1,13 +0,0 @@
 plugins {
    id 'dh-loader'
 }
 unimined.minecraft {
    fabric {
        loader gradle.ext.fabric_loader_version
        accessWidener project(":common").file("src/main/resources/${gradle.ext.accessWidenerVersion}.distanthorizons.accesswidener")
    }
 }
 runClient.javaLauncher = null
 runServer.javaLauncher = null
@@ -1,17 +0,0 @@
 plugins {
    id 'dh-loader'
 }
 def awFile = project(":common").file("src/main/resources/${gradle.ext.accessWidenerVersion}.distanthorizons.accesswidener")
 unimined.minecraft {
    forge {
        loader gradle.ext.forge_version
        useToolchains = false
        mixinConfig("DistantHorizons.forge.mixins.json")
        accessTransformer aw2at(awFile)
    }
 }
 runClient.javaLauncher = null
 runServer.javaLauncher = null
@@ -1,16 +0,0 @@
 plugins {
    id 'dh-loader'
 }
 def awFile = project(":common").file("src/main/resources/${gradle.ext.accessWidenerVersion}.distanthorizons.accesswidener")
 unimined.minecraft {
    neoForged {
        loader gradle.ext.neoforge_version
        useToolchains = false
        accessTransformer aw2at(awFile)
    }
 }
 runClient.javaLauncher = null
 runServer.javaLauncher = null
@@ -1,41 +0,0 @@
@echo off & setlocal enabledelayedexpansion
 set "VERSION=%~1"
 set "ROOT=%~2"
 set "WORK_DIR=%~3"
 set "WORKER=%WORK_DIR%\%VERSION%"
 set "JAR_OUTPUT_DIR=%~4"
 REM remove the ending "\" from the root folder, otherwise the final quote
 REM in the robocopy command will be escaped and it won't run
 if "%ROOT:~-1%"=="\" set "ROOT=%ROOT:~0,-1%"
 set "WORKER=%~3\%~1"
 set "BUILT_JAR_DIR=%WORKER%\build\forgix"
 echo ==================== [%VERSION%] Copying workspace ====================
 mkdir "%WORKER%"
 robocopy "%ROOT%" "%WORKER%" /E /XD "%WORKER%" "_buildWorkers" "buildAllJars" ".gradle" "build" ".git" ".idea" ".gitlab" "run" "testScripts" /NFL /NDL
 echo ==================== [%VERSION%] Cleaning ====================
 cd /d "%WORKER%"
 call .\gradlew.bat clean 
 REM optional arg that can be added if we want to log the result to a file
 REM >"%WORK_DIR%\build_%VERSION%.log" 2>&1
 echo ==================== [%VERSION%] Assembling ====================
 call .\gradlew.bat assemble -PmcVer="%VERSION%" 
 REM optional arg that can be added if we want to log the result to a file
 REM >>"%WORK_DIR%\build_%VERSION%.log" 2>&1
 echo ==================== [%VERSION%] Exporting ====================
 mkdir "%JAR_OUTPUT_DIR%"
 robocopy "%BUILT_JAR_DIR%" "%JAR_OUTPUT_DIR%" /NFL /NDL
 echo ==================== [%VERSION%] Done ====================
 endlocal
 REM can be uncommented for debugging
 REM pause
@@ -1,48 +0,0 @@
 plugins {
    id 'unimined-cleanroom'
 }
 // ==================== Mod Dependency Helper ====================
 def addMod(path, enabled) {
    if (enabled == "2")
        dependencies { modImplementation(path) }
    else if (enabled == "1")
        dependencies { compileOnly(path) }
 }
 // ==================== Dependencies ====================
 dependencies {
 }
 // ==================== Tasks ====================
 task deleteResources(type: Delete) {
    delete file("build/resources/main")
 }
 processResources {
    rename '(.+_at.cfg)', 'META-INF/$1'
    dependsOn(copyCoreResources)
    dependsOn(convertJsonToLang)
    // dependsOn(copyCommonLoaderResources)
 }
 tasks.named('runClient') {
    dependsOn(copyCoreResources)
    // dependsOn(copyCommonLoaderResources)
    finalizedBy(deleteResources)
 }
 sourcesJar {
    def commonSources = project(":common").sourcesJar
    dependsOn commonSources
    from commonSources.archiveFile.map { zipTree(it) }
 }
@@ -1,214 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom;
 import com.seibel.distanthorizons.common.AbstractModInitializer;
 import com.seibel.distanthorizons.common.util.ProxyUtil;
 import com.seibel.distanthorizons.common.wrappers.chunk.ChunkWrapper;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftRenderWrapper;
 import com.seibel.distanthorizons.common.wrappers.world.ClientLevelWrapper;
 import com.seibel.distanthorizons.core.api.internal.ClientApi;
 import com.seibel.distanthorizons.core.api.internal.ServerApi;
 import com.seibel.distanthorizons.core.api.internal.SharedApi;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.logging.f3.F3Screen;
 import com.seibel.distanthorizons.core.network.messages.AbstractNetworkMessage;
 import com.seibel.distanthorizons.core.util.threading.ThreadPoolUtil;
 import com.seibel.distanthorizons.core.wrapperInterfaces.chunk.IChunkWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftClientWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.misc.IPluginPacketSender;
 import com.seibel.distanthorizons.core.wrapperInterfaces.misc.IServerPlayerWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.world.IClientLevelWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.world.ILevelWrapper;
 import net.minecraft.client.Minecraft;
 import net.minecraft.client.multiplayer.WorldClient;
 import net.minecraft.world.World;
 import net.minecraft.world.chunk.Chunk;
 import net.minecraftforge.client.event.RenderGameOverlayEvent;
 import net.minecraftforge.common.MinecraftForge;
 import net.minecraftforge.event.entity.player.PlayerInteractEvent;
 import net.minecraftforge.event.world.ChunkEvent;
 import net.minecraftforge.event.world.WorldEvent;
 import net.minecraftforge.fml.common.FMLCommonHandler;
 import net.minecraftforge.fml.common.eventhandler.SubscribeEvent;
 import net.minecraftforge.fml.common.gameevent.InputEvent;
 import net.minecraftforge.fml.common.gameevent.TickEvent;
 import org.jetbrains.annotations.NotNull;
 import org.lwjgl.glfw.GLFW;
 import org.lwjgl.opengl.GL32;
 import java.util.concurrent.AbstractExecutorService;
 public class CleanroomClientProxy implements AbstractModInitializer.IEventProxy
 {
 	private static final IMinecraftClientWrapper MC = SingletonInjector.INSTANCE.get(IMinecraftClientWrapper.class);
 	private static final CleanroomPluginPacketSender PACKET_SENDER = (CleanroomPluginPacketSender) SingletonInjector.INSTANCE.get(IPluginPacketSender.class);
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static World GetEventLevel(WorldEvent e) { return e.getWorld(); }
 	@Override
 	public void registerEvents()
 	{
 		MinecraftForge.EVENT_BUS.register(this);
 		MinecraftForge.EVENT_BUS.register(FMLCommonHandler.instance());
 		CleanroomPluginPacketSender.setPacketHandler(ClientApi.INSTANCE::pluginMessageReceived);
 	}
 	//==============//
 	// chunk events //
 	//==============//
 	//region
 	@SubscribeEvent
 	public void rightClickBlockEvent(PlayerInteractEvent.RightClickBlock event)
 	{
 		if (MC.clientConnectedToDedicatedServer())
 		{
 			World level = event.getWorld();
 			ILevelWrapper wrappedLevel = ProxyUtil.getLevelWrapper(level);
 			if (SharedApi.isChunkAtBlockPosAlreadyUpdating(wrappedLevel, event.getPos().getX(), event.getPos().getZ()))
 			{
 				return;
 			}
 			AbstractExecutorService executor = ThreadPoolUtil.getFileHandlerExecutor();
 			if (executor != null)
 			{
 				executor.execute(() ->
 				{
 					Chunk chunk = level.getChunk(event.getPos());
 					SharedApi.INSTANCE.applyChunkUpdate(new ChunkWrapper(chunk, wrappedLevel), wrappedLevel);
 				});
 			}
 		}
 	}
 	@SubscribeEvent
 	public void leftClickBlockEvent(PlayerInteractEvent.LeftClickBlock event)
 	{
 		if (MC.clientConnectedToDedicatedServer())
 		{
 			World level = event.getWorld();
 			ILevelWrapper wrappedLevel = ProxyUtil.getLevelWrapper(level);
 			if (SharedApi.isChunkAtBlockPosAlreadyUpdating(wrappedLevel, event.getPos().getX(), event.getPos().getZ()))
 			{
 				return;
 			}
 			AbstractExecutorService executor = ThreadPoolUtil.getFileHandlerExecutor();
 			if (executor != null)
 			{
 				executor.execute(() ->
 				{
 					Chunk chunk = level.getChunk(event.getPos());
 					SharedApi.INSTANCE.applyChunkUpdate(new ChunkWrapper(chunk, wrappedLevel), wrappedLevel);
 				});
 			}
 		}
 	}
 	@SubscribeEvent
 	public void clientChunkLoadEvent(ChunkEvent.Load event)
 	{
 		if (MC.clientConnectedToDedicatedServer())
 		{
 			ILevelWrapper wrappedLevel = ProxyUtil.getLevelWrapper(GetEventLevel(event));
 			IChunkWrapper chunkWrapper = new ChunkWrapper(event.getChunk(), wrappedLevel);
 			SharedApi.INSTANCE.applyChunkUpdate(chunkWrapper, wrappedLevel);
 		}
 	}
 	//endregion
 	//==============//
 	// key bindings //
 	//==============//
 	//region
 	@SubscribeEvent
 	public void registerKeyBindings(InputEvent.KeyInputEvent event)
 	{
 	/*	if (Minecraft.getMinecraft().player == null)
 		{
 			return;
 		}
 		if (event.getAction() != GLFW.GLFW_PRESS)
 		{
 			return;
 		}
 		ClientApi.INSTANCE.keyPressedEvent(event.getKey());*/
 	}
 	//endregion
 	//===========//
 	// rendering //
 	//===========//
 	//region
 	@SubscribeEvent
 	public void afterLevelRenderEvent(TickEvent.RenderTickEvent event)
 	{
 		if (event.type.equals(TickEvent.RenderTickEvent.Type.RENDER))
 		{
 			try
 			{
 				// should generally only need to be set once per game session
 				// allows DH to render directly to Optifine's level frame buffer,
 				// allowing better shader support
 				MinecraftRenderWrapper.INSTANCE.finalLevelFrameBufferId = GL32.glGetInteger(GL32.GL_FRAMEBUFFER_BINDING);
 			}
 			catch (Exception | Error e)
 			{
 				LOGGER.error("Unexpected error in afterLevelRenderEvent: "+e.getMessage(), e);
 			}
 		}
 	}
 	@SubscribeEvent
 	public void onRenderOverlay(RenderGameOverlayEvent.Text event) 
 	{
 		Minecraft mc = Minecraft.getMinecraft();
 		if (event.isCanceled() 
 			|| !mc.gameSettings.showDebugInfo)
 		{
 			return;
 		}
 		F3Screen.addStringToDisplay(event.getRight());
 	}
 	//endregion
 }
@@ -1,147 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom;
 import com.seibel.distanthorizons.cleanroom.modAccessor.ModChecker;
 import com.seibel.distanthorizons.common.AbstractModInitializer;
 import com.seibel.distanthorizons.common.commands.CommandInitializer;
 import com.seibel.distanthorizons.common.wrappers.worldGeneration.InternalServerGenerator;
 import com.seibel.distanthorizons.core.api.internal.ServerApi;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.wrapperInterfaces.misc.IPluginPacketSender;
 import com.seibel.distanthorizons.core.wrapperInterfaces.modAccessor.IModChecker;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import net.minecraft.server.MinecraftServer;
 import net.minecraft.world.World;
 import net.minecraftforge.common.ForgeChunkManager;
 import net.minecraftforge.fml.common.FMLCommonHandler;
 import net.minecraftforge.fml.common.Mod;
 import net.minecraftforge.fml.common.event.*;
 import org.apache.logging.log4j.Level;
 import org.apache.logging.log4j.core.config.Configurator;
 import java.util.List;
 import java.util.function.Consumer;
 /**
 * Initialize and setup the Mod. <br>
 * If you are looking for the real start of the mod
 * check out the ClientProxy.
 */
@Mod(modid = ModInfo.ID, name = ModInfo.NAME, version = ModInfo.VERSION)
 public class CleanroomMain extends AbstractModInitializer
 {
 	@Mod.Instance
 	public static CleanroomMain instance;
 	@Mod.EventHandler
 	public void preinit(FMLPreInitializationEvent event)
 	{
 		Configurator.setLevel("org.sqlite", Level.INFO);
 		ForgeChunkManager.setForcedChunkLoadingCallback(CleanroomMain.instance, (tickets, world) -> { });	
 	}
 	@Mod.EventHandler
 	public void init(FMLInitializationEvent event)
 	{
 		if (FMLCommonHandler.instance().getEffectiveSide().isClient())
 		{
 			this.onInitializeClient();
 		}
 		else
 		{
 			this.onInitializeServer();
 		}
 	}
 	@Override
 	protected void createInitialSharedBindings()
 	{
 		SingletonInjector.INSTANCE.bind(IModChecker.class, ModChecker.INSTANCE);
 		SingletonInjector.INSTANCE.bind(IPluginPacketSender.class, new CleanroomPluginPacketSender());
 	}
 	@Override
 	protected void createInitialClientBindings() { /* no additional setup needed currently */ }
 	@Override
 	protected IEventProxy createClientProxy() { return new CleanroomClientProxy(); }
 	@Override
 	protected IEventProxy createServerProxy(boolean isDedicated) { return new CleanroomServerProxy(isDedicated); }
 	@Override
 	protected void initializeModCompat()
 	{
 	}
 /*	@Override
 	protected void subscribeRegisterCommandsEvent(Consumer<CommandDispatcher<CommandSourceStack>> eventHandler)
 	{ MinecraftForge.EVENT_BUS.addListener((RegisterCommandsEvent e) -> { eventHandler.accept(e.getDispatcher()); }); }*/
 	@Override
 	protected void subscribeClientStartedEvent(Runnable eventHandler)
 	{
 		// Just run the event handler, since there are no proper ClientLifecycleEvent for the client 
 		// to signify readiness other than FmlClientSetupEvent
 		eventHandler.run();
 	}
 	@Mod.EventHandler
 	public void onServerStarting(FMLServerStartingEvent event)
 	{
 		event.registerServerCommand(CommandInitializer.initCommands());
 	}
 	@Mod.EventHandler
 	public void onServerAboutToStart(FMLServerAboutToStartEvent event)
 	{
 		if (eventHandlerStartServer != null)
 		{
 			eventHandlerStartServer.accept(event.getServer());
 		}
 	}
 	Consumer<MinecraftServer> eventHandlerStartServer;
 	@Override
 	protected void subscribeServerStartingEvent(Consumer<MinecraftServer> eventHandler)
 	{
 		eventHandlerStartServer = eventHandler;
 	}
 	@Override
 	protected void runDelayedSetup() { SingletonInjector.INSTANCE.runDelayedSetup(); }
 	// ServerWorldLoadEvent
 	@Mod.EventHandler
 	public void dedicatedWorldLoadEvent(FMLServerAboutToStartEvent event)
 	{
 		ServerApi.INSTANCE.serverLoadEvent(event.getServer().isDedicatedServer());
 	}
 	// ServerWorldUnloadEvent
 	@Mod.EventHandler
 	public void serverWorldUnloadEvent(FMLServerStoppingEvent event)
 	{
 		ServerApi.INSTANCE.serverUnloadEvent();
 	}
 }
@@ -1,136 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom;
 import com.seibel.distanthorizons.common.AbstractPluginPacketSender;
 import com.seibel.distanthorizons.common.wrappers.misc.ServerPlayerWrapper;
 import com.seibel.distanthorizons.core.network.messages.AbstractNetworkMessage;
 import com.seibel.distanthorizons.core.network.messages.MessageRegistry;
 import com.seibel.distanthorizons.core.wrapperInterfaces.misc.IServerPlayerWrapper;
 import io.netty.buffer.ByteBuf;
 import net.minecraft.entity.player.EntityPlayerMP;
 import net.minecraftforge.fml.common.network.NetworkRegistry;
 import net.minecraftforge.fml.common.network.simpleimpl.IMessage;
 import net.minecraftforge.fml.common.network.simpleimpl.IMessageHandler;
 import net.minecraftforge.fml.common.network.simpleimpl.MessageContext;
 import net.minecraftforge.fml.common.network.simpleimpl.SimpleNetworkWrapper;
 import net.minecraftforge.fml.relauncher.Side;
 import java.util.function.BiConsumer;
 import java.util.function.Consumer;
 public class CleanroomPluginPacketSender extends AbstractPluginPacketSender
 {
 	public static final SimpleNetworkWrapper PLUGIN_CHANNEL =
 		NetworkRegistry.INSTANCE.newSimpleChannel(
 			AbstractPluginPacketSender.WRAPPER_PACKET_RESOURCE
 		);
 	public static void setPacketHandler(Consumer<AbstractNetworkMessage> consumer)
 	{ setPacketHandler((player, message) -> consumer.accept(message)); }
 	static BiConsumer<IServerPlayerWrapper, AbstractNetworkMessage> consumerPacket;
 	public static void setPacketHandler(BiConsumer<IServerPlayerWrapper, AbstractNetworkMessage> consumer)
 	{
 		PLUGIN_CHANNEL.registerMessage(MessageWrapper.Handler.class, MessageWrapper.class, 0, Side.CLIENT);
 		PLUGIN_CHANNEL.registerMessage(MessageWrapper.Handler.class, MessageWrapper.class, 0, Side.SERVER);
 		consumerPacket = consumer;
 	}
 	@Override
 	public void sendToServer(AbstractNetworkMessage message)
 	{ PLUGIN_CHANNEL.sendToServer(new MessageWrapper(message)); }
 	@Override
 	public void sendToClient(EntityPlayerMP serverPlayer, AbstractNetworkMessage message)
 	{ PLUGIN_CHANNEL.sendTo(new MessageWrapper(message), serverPlayer); }
 	//================//
 	// helper classes //
 	//================//
 	//region
 	// Forge doesn't support using abstract classes
 	@SuppressWarnings({"ClassCanBeRecord", "RedundantSuppression"})
 	public static class MessageWrapper implements IMessage
 	{
 		public AbstractNetworkMessage message;
 		//=============//
 		// constructor //
 		//=============//
 		//region
 		public MessageWrapper(AbstractNetworkMessage message) { this.message = message; }
 		public MessageWrapper()
 		{
 			// For reflection
 		}
 		//endregion
 		@Override
 		public void fromBytes(ByteBuf buf) 
 		{
 			int messageId = buf.readByte();
 			message = MessageRegistry.INSTANCE.createMessage(messageId);
 			message.decode(buf);
 		}
 		@Override
 		public void toBytes(ByteBuf buf) 
 		{
 			buf.writeByte(MessageRegistry.INSTANCE.getMessageId(message));
 			message.encode(buf);
 		}
 		public static class Handler implements IMessageHandler<MessageWrapper, IMessage>
 		{
 			@Override
 			public IMessage onMessage(MessageWrapper wrapper, MessageContext context) 
 			{
 				if (wrapper.message != null)
 				{
 					if (context.side == Side.SERVER)
 					{
 						consumerPacket.accept(ServerPlayerWrapper.getWrapper(context.getServerHandler().player), wrapper.message);
 					}
 					else 
 					{
 						consumerPacket.accept(null, wrapper.message);
 					}
 				}
 				return null; // No response needed
 			}
 		}
 	}
 	//endregion
 }
@@ -1,181 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom;
 import com.seibel.distanthorizons.common.AbstractModInitializer;
 import com.seibel.distanthorizons.common.commands.CommandInitializer;
 import com.seibel.distanthorizons.common.commonMixins.MixinChunkMapCommon;
 import com.seibel.distanthorizons.common.util.ProxyUtil;
 import com.seibel.distanthorizons.common.wrappers.chunk.ChunkWrapper;
 import com.seibel.distanthorizons.common.wrappers.misc.ServerPlayerWrapper;
 import com.seibel.distanthorizons.common.wrappers.world.ServerLevelWrapper;
 import com.seibel.distanthorizons.common.wrappers.worldGeneration.InternalServerGenerator;
 import com.seibel.distanthorizons.core.api.internal.ServerApi;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.wrapperInterfaces.chunk.IChunkWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.misc.IPluginPacketSender;
 import com.seibel.distanthorizons.core.wrapperInterfaces.world.ILevelWrapper;
 import net.minecraft.entity.player.EntityPlayerMP;
 import net.minecraft.server.MinecraftServer;
 import net.minecraft.world.World;
 import net.minecraft.world.WorldServer;
 import net.minecraftforge.common.ForgeChunkManager;
 import net.minecraftforge.common.MinecraftForge;
 import net.minecraftforge.event.world.ChunkDataEvent;
 import net.minecraftforge.event.world.ChunkEvent;
 import net.minecraftforge.event.world.WorldEvent;
 import net.minecraftforge.fml.common.FMLCommonHandler;
 import net.minecraftforge.fml.common.Mod;
 import net.minecraftforge.fml.common.event.FMLServerAboutToStartEvent;
 import net.minecraftforge.fml.common.event.FMLServerStartingEvent;
 import net.minecraftforge.fml.common.event.FMLServerStoppingEvent;
 import net.minecraftforge.fml.common.eventhandler.SubscribeEvent;
 import net.minecraftforge.fml.common.gameevent.PlayerEvent;
 import java.lang.reflect.Field;
 import static com.seibel.distanthorizons.cleanroom.CleanroomMain.instance;
 public class CleanroomServerProxy implements AbstractModInitializer.IEventProxy
 {
 	private static final CleanroomPluginPacketSender PACKET_SENDER = (CleanroomPluginPacketSender) SingletonInjector.INSTANCE.get(IPluginPacketSender.class);
 	private static World GetEventLevel(WorldEvent e) { return e.getWorld(); }
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private final ServerApi serverApi = ServerApi.INSTANCE;
 	private final boolean isDedicated;
 	@Override
 	public void registerEvents()
 	{
 		MinecraftForge.EVENT_BUS.register(this);
 		FMLCommonHandler.instance().bus().register(this);
 		if (this.isDedicated)
 		{
 			PACKET_SENDER.setPacketHandler(ServerApi.INSTANCE::pluginMessageReceived);
 		}
 	}
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public CleanroomServerProxy(boolean isDedicated) { this.isDedicated = isDedicated; }
 	//endregion
 	//========//
 	// events //
 	//========//
 	//region
 	// ServerLevelLoadEvent
 	@SubscribeEvent
 	public void serverLevelLoadEvent(WorldEvent.Load event)
 	{
 		if (GetEventLevel(event) instanceof WorldServer)
 		{
 			this.serverApi.serverLevelLoadEvent(getServerLevelWrapper((WorldServer) GetEventLevel(event)));
 		}
 	}
 	// ServerLevelUnloadEvent
 	@SubscribeEvent
 	public void serverLevelUnloadEvent(WorldEvent.Unload event)
 	{
 		if (GetEventLevel(event) instanceof WorldServer)
 		{
 			this.serverApi.serverLevelUnloadEvent(getServerLevelWrapper((WorldServer) GetEventLevel(event)));
 		}
 	}
 	@SubscribeEvent
 	public void serverChunkLoadEvent(ChunkEvent.Load event)
 	{
 		ILevelWrapper levelWrapper = ProxyUtil.getLevelWrapper(GetEventLevel(event));
 		IChunkWrapper chunk = new ChunkWrapper(event.getChunk(), levelWrapper);
 		this.serverApi.serverChunkLoadEvent(chunk, levelWrapper);
 	}
 	@SubscribeEvent
 	public void serverChunkSaveEvent(ChunkDataEvent.Save event)
 	{
 		if (event.getWorld() instanceof WorldServer worldServer && event.getChunk().dirty)
 		{
 			MixinChunkMapCommon.onChunkSave(worldServer, event.getChunk());
 		}
 	}
 	@SubscribeEvent
 	public void playerLoggedInEvent(PlayerEvent.PlayerLoggedInEvent event)
 	{ this.serverApi.serverPlayerJoinEvent(getServerPlayerWrapper(event)); }
 	@SubscribeEvent
 	public void playerLoggedOutEvent(PlayerEvent.PlayerLoggedOutEvent event)
 	{ this.serverApi.serverPlayerDisconnectEvent(getServerPlayerWrapper(event)); }
 	@SubscribeEvent
 	public void playerChangedDimensionEvent(PlayerEvent.PlayerChangedDimensionEvent event)
 	{
 		this.serverApi.serverPlayerLevelChangeEvent(
 			getServerPlayerWrapper(event),
 			getServerLevelWrapper(event.fromDim, event),
 			getServerLevelWrapper(event.toDim, event)
 		);
 	}
 	//endregion
 	//================//
 	// helper methods //
 	//================//
 	//region
 	private static ServerLevelWrapper getServerLevelWrapper(WorldServer level) { return ServerLevelWrapper.getWrapper(level); }
 	private static ServerLevelWrapper getServerLevelWrapper(int dimensionId, PlayerEvent event)
 	{
 		MinecraftServer server = event.player.getServer();
 		if (server == null)
 		{
 			LOGGER.error("getServerLevelWrapper: server is null for player {}", event.player.getName());
 			return null;
 		}
 		return getServerLevelWrapper(server.getWorld(dimensionId));
 	}
 	private static ServerPlayerWrapper getServerPlayerWrapper(PlayerEvent event)
 	{ return ServerPlayerWrapper.getWrapper((EntityPlayerMP) event.player); }
 	//endregion
 }
@@ -1,56 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom;
 import net.minecraftforge.fml.common.Loader;
 import org.apache.logging.log4j.LogManager;
 import org.apache.logging.log4j.Logger;
 import org.objectweb.asm.tree.ClassNode;
 import org.spongepowered.asm.mixin.extensibility.IMixinConfigPlugin;
 import org.spongepowered.asm.mixin.extensibility.IMixinInfo;
 import java.util.List;
 import java.util.Set;
 public class DistantHorizonsConfigPlugin implements IMixinConfigPlugin
 {
 	private static final Logger LOGGER = LogManager.getLogger();
 	@Override
 	public void onLoad(String mixinPackage)
 	{ }
 	@Override
 	public boolean shouldApplyMixin(String targetClassName, String mixinClassName)
 	{
 /*		return switch (mixinClassName.split("\\.")[5]) {
 			case "mist" -> Loader.isModLoaded("mist");
 			default -> true;	
 		};*/
 		return true;
 	}
 	@Override public String getRefMapperConfig() { return null; }
 	@Override public void acceptTargets(Set<String> myTargets, Set<String> otherTargets) { }
 	@Override public List<String> getMixins() { return null; }
 	@Override public void preApply(String targetClassName, ClassNode classNode, String mixinClassName, IMixinInfo mixinInfo) { }
 	@Override public void postApply(String targetClassName, ClassNode classNode, String mixinClassName, IMixinInfo mixinInfo) { }
 }
@@ -1,52 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom;
 import net.minecraftforge.fml.relauncher.IFMLLoadingPlugin;
 import org.jetbrains.annotations.Nullable;
 import java.util.Map;
 public class DistantHorizonsLoadingPlugin implements IFMLLoadingPlugin
 {
 	@Override
 	public @Nullable String[] getASMTransformerClass()
 	{
 		return new String[0];
 	}
 	@Override
 	public @Nullable String getModContainerClass()
 	{
 		return null;
 	}
 	@Override
 	public @Nullable String getSetupClass()
 	{
 		return null;
 	}
 	@Override
 	public void injectData(Map<String, Object> data) { }
 	@Override
 	public @Nullable String getAccessTransformerClass()
 	{
 		return null;
 	}
 }
@@ -1,82 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom.mixins.client;
 import com.seibel.distanthorizons.common.commonMixins.MixinVanillaFogCommon;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.api.internal.ClientApi;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftClientWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import net.minecraft.client.Minecraft;
 import net.minecraft.client.renderer.EntityRenderer;
 import net.minecraft.client.renderer.GlStateManager;
 import net.minecraft.client.renderer.texture.DynamicTexture;
 import net.minecraft.init.MobEffects;
 import org.apache.logging.log4j.Logger;
 import org.spongepowered.asm.mixin.Final;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.Shadow;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
@Mixin(EntityRenderer.class)
 public class MixinEntityRenderer
 {
 	@Shadow
 	@Final
 	private DynamicTexture lightmapTexture;
 	@Shadow @Final private Minecraft mc;
 	@Shadow @Final private static Logger LOGGER;
 	private static final float A_REALLY_REALLY_BIG_VALUE = 420694206942069.F;
 	private static final float A_EVEN_LARGER_VALUE = 42069420694206942069.F;
 	@Inject(at = @At("TAIL"), method = "updateLightmap")
 	public void onUpdateLightmap(float patrialTicks, CallbackInfo ci)
 	{
 		IMinecraftClientWrapper mc = SingletonInjector.INSTANCE.get(IMinecraftClientWrapper.class);
 		if (mc == null || mc.getWrappedClientLevel() == null)
 		{
 			return;
 		}
 		MinecraftRenderWrapper renderWrapper = (MinecraftRenderWrapper)SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class);
 		renderWrapper.setLightmapId(lightmapTexture.getGlTextureId());
 	}
 	@Inject(at = @At("RETURN"), method = "setupFog")
 	private void disableSetupFog(int startCoords, float partialTicks, CallbackInfo ci)
 	{
 		boolean cancelFog = MixinVanillaFogCommon.cancelFog(startCoords, mc);
 		if (cancelFog)
 		{
 			GlStateManager.setFogStart(A_REALLY_REALLY_BIG_VALUE);
 			GlStateManager.setFogEnd(A_EVEN_LARGER_VALUE);
 			ClientApi.RENDER_STATE.vanillaFogEnabled = false;
 		}
 		else
 		{
 			ClientApi.RENDER_STATE.vanillaFogEnabled = true;
 		}
 	}
 }
@@ -1,24 +0,0 @@
 package com.seibel.distanthorizons.cleanroom.mixins.client;
 import com.seibel.distanthorizons.common.commonMixins.DhUpdateScreenBase;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import net.minecraft.client.Minecraft;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
@Mixin(Minecraft.class)
 public class MixinMinecraft
 {
 	@Inject(method = "init", at = @At("TAIL"))
 	private void onInit(CallbackInfo ci)
 	{
 		if(Config.Client.Advanced.AutoUpdater.enableAutoUpdater.get() && !ModInfo.IS_DEV_BUILD) // weird lib class not found error can occur if we don't check if we are in dev
 		{
 			DhUpdateScreenBase.tryShowUpdateScreenAndRunAutoUpdateStartup(null);
 		}
 	}
 }
@@ -1,46 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom.mixins.client;
 import com.seibel.distanthorizons.core.api.internal.ClientApi;
 import net.minecraft.client.network.NetHandlerPlayClient;
 import net.minecraft.network.play.server.SPacketJoinGame;
 import net.minecraft.util.text.ITextComponent;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
@Mixin(NetHandlerPlayClient.class)
 public class MixinNetHandlerPlayClient
 {
 	@Inject(method = "handleJoinGame", at = @At("RETURN"))
 	private void onHandleJoinGameEnd(SPacketJoinGame packet, CallbackInfo ci)
 	{
 		ClientApi.INSTANCE.onClientOnlyConnected();
 	}
 	@Inject(method = "onDisconnect", at = @At("RETURN"))
 	private void onDisconnect(ITextComponent reason, CallbackInfo ci)
 	{
 		ClientApi.INSTANCE.onClientOnlyDisconnected();
 	}
 }
@@ -1,83 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom.mixins.client;
 import com.seibel.distanthorizons.common.wrappers.gui.GetConfigScreen;
 import com.seibel.distanthorizons.common.wrappers.gui.TexturedButtonWidget;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import net.minecraft.client.Minecraft;
 import net.minecraft.client.gui.GuiButton;
 import net.minecraft.client.gui.GuiOptions;
 import net.minecraft.client.gui.GuiScreen;
 import net.minecraft.util.ResourceLocation;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.Unique;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
 /**
 * Adds a button to the menu to goto the config
 *
 * @author coolGi
 * @version 12-02-2021
 */
@Mixin(GuiOptions.class)
 public class MixinOptionsScreen extends GuiScreen
 {
 	// Get the texture for the button
 	@Unique private static final ResourceLocation ICON_TEXTURE = new ResourceLocation(ModInfo.ID, "textures/gui/button.png");
    @Unique private static final int button_id = 99;
 	@Inject(at = @At("HEAD"), method = "initGui")
 	private void lodconfig$init(CallbackInfo ci)
 	{
 		if (Config.Client.showDhOptionsButtonInMinecraftUi.get())
 			this.buttonList.add(
 					(new TexturedButtonWidget(
 							button_id,
 							// Where the button is on the screen
 							this.width / 2 - 180, this.height / 6 - 12,
 							// Width and height of the button
 							20, 20,
 							// Offset
 							0, 0,
 							// Some textuary stuff
 							20, ICON_TEXTURE, 20, 40,
 							// Create the button and tell it where to go
 							// For now it goes to the client option by default
 							// Add a title to the button
 							ModInfo.ID + ".title")));
 	}
    @Inject(at = @At("HEAD"), method = "actionPerformed", cancellable = true)
    private void lodconfig$actionPerformed(GuiButton button, CallbackInfo ci)
    {
        if (button.id == button_id)
        {
            Minecraft.getMinecraft().displayGuiScreen(GetConfigScreen.getScreen(this));
            ci.cancel();
        }
    }
 }
@@ -1,68 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom.mixins.client;
 import com.seibel.distanthorizons.common.wrappers.world.ClientLevelWrapper;
 import com.seibel.distanthorizons.core.api.internal.ClientApi;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import net.minecraft.client.multiplayer.WorldClient;
 import net.minecraft.client.renderer.RenderGlobal;
 import net.minecraft.entity.Entity;
 import net.minecraft.util.BlockRenderLayer;
 import org.lwjgl.opengl.GL32;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.Shadow;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfoReturnable;
@Mixin(RenderGlobal.class)
 public class MixinRenderGlobal
 {
 	@Shadow private WorldClient world;
 	@Inject(method = "renderBlockLayer(Lnet/minecraft/util/BlockRenderLayer;DILnet/minecraft/entity/Entity;)I", at = @At("HEAD"))
 	private void renderChunkLayer(BlockRenderLayer blockLayerIn, double partialTicks, int pass, Entity entityIn, CallbackInfoReturnable<Integer> cir)
 	{
 		if (blockLayerIn == BlockRenderLayer.SOLID)
 		{
 			float[] mcProjMatrixRaw = new float[16];
 			GL32.glGetFloatv(GL32.GL_PROJECTION_MATRIX, mcProjMatrixRaw);
 			ClientApi.RENDER_STATE.mcProjectionMatrix = new DhMat4f(mcProjMatrixRaw);
 			ClientApi.RENDER_STATE.mcProjectionMatrix.transpose();
 			float[] mcModelViewRaw = new float[16];
 			GL32.glGetFloatv(GL32.GL_MODELVIEW_MATRIX, mcModelViewRaw);
 			ClientApi.RENDER_STATE.mcModelViewMatrix = new DhMat4f(mcModelViewRaw);
 			ClientApi.RENDER_STATE.mcModelViewMatrix.transpose();
 			ClientApi.RENDER_STATE.partialTickTime = (float) partialTicks;
 			ClientApi.RENDER_STATE.clientLevelWrapper = ClientLevelWrapper.getWrapperIfDifferent(ClientApi.RENDER_STATE.clientLevelWrapper, this.world);
 			ClientApi.INSTANCE.renderLods();
 			//Some 1.12.2 rendering mods breaks if we don't unbind buffers
 			GL32.glBindVertexArray(0);
 			GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, 0);
 			GL32.glBindBuffer(GL32.GL_ELEMENT_ARRAY_BUFFER, 0);
 			GL32.glUseProgram(0);
 		}
 	}
 }
@@ -1,17 +0,0 @@
 package com.seibel.distanthorizons.cleanroom.mixins.common;
 import net.minecraft.world.storage.ThreadedFileIOBase;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Redirect;
@Mixin(ThreadedFileIOBase.class)
 public class MixinThreadedFileIOBase
 {
 	@Redirect(method = "processQueue", at = @At(value = "INVOKE", target = "Ljava/lang/Thread;sleep(J)V"))
 	private void reduceSleep(long millis) throws InterruptedException
 	{
 		// 0ms between chunks, 5ms when idle
 		Thread.sleep(millis == 25L ? 5L : 0L);
 	}
 }
@@ -1,66 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom.mixins.server;
 import com.seibel.distanthorizons.common.wrappers.misc.IMixinServerPlayer;
 import net.minecraft.entity.Entity;
 import net.minecraft.entity.player.EntityPlayerMP;
 import net.minecraft.server.MinecraftServer;
 import net.minecraft.world.WorldServer;
 import net.minecraftforge.common.util.ITeleporter;
 import org.jetbrains.annotations.Nullable;
 import org.spongepowered.asm.mixin.Final;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.Shadow;
 import org.spongepowered.asm.mixin.Unique;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfoReturnable;
@Mixin(EntityPlayerMP.class)
 public abstract class MixinEntityPlayerMP implements IMixinServerPlayer
 {
 	@Shadow 
 	@Final
 	public MinecraftServer server;
 	@Unique
 	@Nullable
 	private volatile WorldServer distantHorizons$dimensionChangeDestination;
 	@Override
 	@Nullable
 	public WorldServer distantHorizons$getDimensionChangeDestination()
 	{ return this.distantHorizons$dimensionChangeDestination; }
 	@Inject(at = @At("HEAD"), method = "changeDimension(ILnet/minecraftforge/common/util/ITeleporter;)Lnet/minecraft/entity/Entity;")
 	public void setDimensionChangeDestination(int destinationDimensionID, ITeleporter teleporter, CallbackInfoReturnable<Entity> cir)
 	{ this.distantHorizons$dimensionChangeDestination = this.server.getWorld(destinationDimensionID); }
 	@Inject(at = @At("RETURN"), method = "clearInvulnerableDimensionChange")
 	public void clearDimensionChangeDestination(CallbackInfo ci)
 	{ this.distantHorizons$dimensionChangeDestination = null; }
 }
@@ -1,52 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.cleanroom.modAccessor;
 import com.seibel.distanthorizons.core.wrapperInterfaces.modAccessor.IModChecker;
 import net.minecraftforge.fml.common.Loader;
 import net.minecraftforge.fml.common.ModContainer;
 import java.io.File;
 import java.util.Optional;
 import java.util.stream.Stream;
 public class ModChecker implements IModChecker
 {
 	public static final ModChecker INSTANCE = new ModChecker();
 	@Override
 	public boolean isModLoaded(String modid)
 	{
 		return Loader.isModLoaded(modid);
 	}
 	@Override
 	public File modLocation(String modid)
 	{
 		Stream<ModContainer> foundStream = Loader.instance().getModList().stream().filter(x -> x.getModId().equals(modid));
 		Optional<ModContainer> container = foundStream.findFirst();
 		if (!container.isPresent())
 		{
 			throw new RuntimeException("Mod not found: " + modid);
 		}
 		return container.get().getSource();
 	}
 }
@@ -1,20 +0,0 @@
 {
  "required": true,
  "package": "com.seibel.distanthorizons.cleanroom.mixins",
  "compatibilityLevel": "JAVA_8",
  "target": "@env(DEFAULT)",
  "mixins": [
    "common.MixinThreadedFileIOBase"
  ],
  "minVersion": "0.8.7",
  "server": [
    "server.MixinEntityPlayerMP"
  ],
  "client": [
    "client.MixinEntityRenderer",
    "client.MixinMinecraft",
    "client.MixinNetHandlerPlayClient",
    "client.MixinOptionsScreen",
    "client.MixinRenderGlobal"
  ]
 }
@@ -1,11 +0,0 @@
 {
    "required": false,
    "package": "com.seibel.distanthorizons.cleanroom.mixins.mod",
    "compatibilityLevel": "JAVA_8",
    "target": "@env(MOD)",
    "mixins": [],
    "minVersion": "0.8.7",
    "plugin": "com.seibel.distanthorizons.cleanroom.DistantHorizonsConfigPlugin",
    "client": [
    ]
 }
@@ -1,12 +0,0 @@
 [{
    "modid": "${mod_id}",
    "name": "${mod_name}",
    "version": "${version}",
    "mcversion": "1.12.2",
    "description": "${description}",
    "authorList": ["${cleanroom_authors}"],
    "credits": "",
    "url": "",
    "updateJSON": "",
    "logoFile": "${logo_path}"
 }]
@@ -1,6 +0,0 @@
 {
 	"pack": {
 		"description": "${mod_name} Resources",
 		"pack_format": 3
 	}
 }
@@ -1,3 +1,41 @@
-plugins {
+
-    id 'dh-loader'
+// temporary fix for broken spongepowered version
 buildscript {
    configurations.configureEach {
        resolutionStrategy {
            force 'org.spongepowered:vanillagradle:0.2.1-20240507.024226-82'
            // newer versions can be found by going to the link:
            // https://repo.spongepowered.org/#browse/browse:maven-public:org%2Fspongepowered%2Fvanillagradle%2F0.2.1-SNAPSHOT
        }
    }
 }
 plugins {
    id "org.spongepowered.gradle.vanilla" version "0.2.1-SNAPSHOT"
 }
 minecraft {
    accessWideners(project(":common").file("src/main/resources/${accessWidenerVersion}.distanthorizons.accesswidener"))
    version(rootProject.minecraft_version)
 }
 dependencies {
    // So mixins can be written in common
    compileOnly group:'org.spongepowered', name:'mixin', version:'0.8.5'
 }
 publishing {
    publications {
        mavenCommon(MavenPublication) {
            artifactId = rootProject.mod_readable_name
            from components.java
        }
    }
    // See https://docs.gradle.org/current/userguide/publishing_maven.html for information on how to set up publishing.
    repositories {
        // Add repositories to publish to here.
    }
 }
@@ -1,17 +1,14 @@
 package com.seibel.distanthorizons.common;
-import com.seibel.distanthorizons.api.enums.config.EDhApiMcRenderingFadeMode;
+import com.mojang.brigadier.CommandDispatcher;
 import com.seibel.distanthorizons.api.enums.config.EDhApiRenderingEngine;
 import com.seibel.distanthorizons.api.enums.worldGeneration.EDhApiDistantGeneratorMode;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.DhApiAfterDhInitEvent;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.DhApiBeforeDhInitEvent;
 import com.seibel.distanthorizons.common.commands.CommandInitializer;
 import com.seibel.distanthorizons.common.wrappers.DependencySetup;
 import com.seibel.distanthorizons.common.wrappers.gui.DhDebugScreenEntry;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftClientWrapper;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftServerWrapper;
 import com.seibel.distanthorizons.core.Initializer;
 import com.seibel.distanthorizons.core.api.internal.ClientApi;
 import com.seibel.distanthorizons.core.api.internal.SharedApi;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.config.ConfigHandler;
 import com.seibel.distanthorizons.core.config.eventHandlers.presets.ThreadPresetConfigEventHandler;
@@ -21,30 +18,18 @@ import com.seibel.distanthorizons.core.enums.MinecraftTextFormat;
 import com.seibel.distanthorizons.core.jar.ModJarInfo;
 import com.seibel.distanthorizons.core.jar.updater.SelfUpdater;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.renderer.AbstractDebugWireframeRenderer;
 import com.seibel.distanthorizons.core.render.renderer.StubDebugWireframeRenderer;
 import com.seibel.distanthorizons.common.wrappers.gui.NativeDialogUtil;
 import com.seibel.distanthorizons.core.util.ThreadUtil;
 import com.seibel.distanthorizons.core.wrapperInterfaces.IVersionConstants;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftClientWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.modAccessor.IIrisAccessor;
 import com.seibel.distanthorizons.core.wrapperInterfaces.modAccessor.IModAccessor;
 import com.seibel.distanthorizons.core.wrapperInterfaces.modAccessor.IModChecker;
 import com.seibel.distanthorizons.coreapi.DependencyInjection.ApiEventInjector;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import net.minecraft.commands.CommandSourceStack;
 import net.minecraft.server.MinecraftServer;
 import net.minecraft.server.dedicated.DedicatedServer;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import java.util.concurrent.CompletableFuture;
 import java.util.function.Consumer;
 import java.util.function.Supplier;
 #if MC_VER > MC_1_12_2
 import com.mojang.brigadier.CommandDispatcher;
 import net.minecraft.commands.CommandSourceStack;
 #endif
 /**
 * Base for all mod loader initializers 
 * and handles most setup. 
@@ -60,7 +45,6 @@ public abstract class AbstractModInitializer
 	//==================//
 	// abstract methods //
 	//==================//
 	//region
 	protected abstract void createInitialSharedBindings();
 	protected abstract void createInitialClientBindings();
@@ -68,22 +52,17 @@ public abstract class AbstractModInitializer
 	protected abstract IEventProxy createServerProxy(boolean isDedicated);
 	protected abstract void initializeModCompat();
 	#if MC_VER > MC_1_12_2
 	protected abstract void subscribeRegisterCommandsEvent(Consumer<CommandDispatcher<CommandSourceStack>> eventHandler);
 	#endif
 	protected abstract void subscribeClientStartedEvent(Runnable eventHandler);
 	protected abstract void subscribeServerStartingEvent(Consumer<MinecraftServer> eventHandler);
 	protected abstract void runDelayedSetup();
 	//endregion
 	//===================//
 	// initialize events //
 	//===================//
 	//region
 	public void onInitializeClient()
 	{
@@ -103,9 +82,7 @@ public abstract class AbstractModInitializer
 		// Client uses config for auto-updater, so it's initialized here instead of post-init stage
 		this.initConfig();
-		logIncompatibilityWarnings(); // needs to be called after config loading
+		logModIncompatibilityWarnings(); // needs to be called after config loading
 		setUnsupportedConfigsBasedOnMcVersion();
 		Initializer.postConfigInit();
 		LOGGER.info(ModInfo.READABLE_NAME + " client Initialized.");
@@ -116,7 +93,6 @@ public abstract class AbstractModInitializer
 		#endif
 		this.subscribeClientStartedEvent(this::postInit);
 		this.subscribeClientStartedEvent(this::postClientInit);
 	}
 	public void onInitializeServer()
@@ -139,49 +115,33 @@ public abstract class AbstractModInitializer
 		this.initializeModCompat();
 		LOGGER.info(ModInfo.READABLE_NAME + " server Initialized, adding event subscribers...");
 		#if MC_VER > MC_1_12_2
 		this.commandInitializer = new CommandInitializer();
 		this.subscribeRegisterCommandsEvent(dispatcher -> { this.commandInitializer.initCommands(dispatcher); });
 		#endif
 		this.subscribeServerStartingEvent(server -> 
 		{
 			MinecraftServerWrapper.INSTANCE.dedicatedServer = (DedicatedServer)server;
 			this.initConfig();
 			Initializer.postConfigInit();
 			this.postInit();
 			this.postServerInit();
 			#if MC_VER > MC_1_12_2
 			this.commandInitializer.onServerReady();
 			#endif
 			this.checkForUpdates();
-			String serverFolderPath;
+			LOGGER.info(ModInfo.READABLE_NAME + " server Initialized at " + server.getServerDirectory());
 			#if MC_VER <= MC_1_12_2
 			serverFolderPath = server.getDataDirectory() + "";
 			#else
 			serverFolderPath = server.getServerDirectory() + "";
 			#endif
 			LOGGER.info(ModInfo.READABLE_NAME + " server Initialized at " + serverFolderPath);
 		});
 	}
 	//endregion
 	//===========================//
 	// inner initializer methods //
 	//===========================//
 	//region
 	private void startup()
 	{
 		DependencySetup.createSharedBindings();
-		Initializer.preConfigInit();
+		SharedApi.init();
 		this.createInitialSharedBindings();
 	}
@@ -249,46 +209,11 @@ public abstract class AbstractModInitializer
 		ApiEventInjector.INSTANCE.fireAllEvents(DhApiAfterDhInitEvent.class, null);
 	}
 	private void postClientInit() 
 	{
 		CompletableFuture<Void> future = new CompletableFuture<>();
 		// This method may be called from either the render thread,
 		// or some other random setup thread depending on the mod loader.
 		// In order to avoid confusion/inconsistent problems, we're always going 
 		// to run setup on our own thread.
 		Thread dhSetupThread = new Thread(() -> 
 		{
 			try
 			{
 				DependencySetup.setRenderingApiBindings();
 			}
 			catch (Exception e)
 			{
 				NativeDialogUtil.showDialog(ModInfo.READABLE_NAME, e.getMessage(), "ok", "error");
 				MinecraftClientWrapper.INSTANCE.crashMinecraft(e.getMessage(), e);
 				future.completeExceptionally(e);
 			}
 			finally
 			{
 				future.complete(null);
 			}
 		});
 		dhSetupThread.setName(ThreadUtil.THREAD_NAME_PREFIX + "PostClientInit Thread");
 		dhSetupThread.start();
 		future.join();
 	}
 	private void postServerInit() { SingletonInjector.INSTANCE.bind(AbstractDebugWireframeRenderer.class, new StubDebugWireframeRenderer()); }
 	//endregion
-	
+	//==================================//
-	//======================//
+	// mod partial compatibility checks //
-	// compatibility checks //
+	//==================================//
 	//======================//
 	//region
 	/** 
 	 * Some mods will work with a few tweaks
@@ -296,7 +221,7 @@ public abstract class AbstractModInitializer
 	 * This method will log (and display to chat if enabled)
 	 * these warnings and potential fixes.
 	 */
-	private static void logIncompatibilityWarnings()
+	private static void logModIncompatibilityWarnings()
 	{
 		boolean showChatWarnings = Config.Common.Logging.Warning.showModCompatibilityWarningsOnStartup.get();
 		IModChecker modChecker = SingletonInjector.INSTANCE.get(IModChecker.class);
@@ -306,7 +231,6 @@ public abstract class AbstractModInitializer
 		// Alex's caves
 		//region
 		if (modChecker.isModLoaded("alexscaves"))
 		{
 			// There've been a few reports about this mod breaking DH at a few different points in time
@@ -323,10 +247,8 @@ public abstract class AbstractModInitializer
 			LOGGER.warn(startingString + "[Alex's Caves] may require some config changes in order to render Distant Horizons correctly.");
 		}
 		//endregion
 		// William Wythers' Overhauled Overworld (WWOO)
 		//region
 		if (modChecker.isModLoaded("wwoo"))
 		{
 			// WWOO has a bug with it's world gen that can't be fixed by DH or WWOO
@@ -347,11 +269,8 @@ public abstract class AbstractModInitializer
 			LOGGER.warn(startingString + "[WWOO] "+ wwooWarning);
 		}
 		//endregion
 		// Chunky //
 		//region
 		// Chunky
 		boolean chunkyPresent = false;
 		try
 		{
@@ -381,74 +300,17 @@ public abstract class AbstractModInitializer
 			LOGGER.warn(startingString + "[Chunky] "+ chunkyWarning);
 		}
 		//endregion
 		// iris //
 		//region
 		IIrisAccessor iris = ModAccessorInjector.INSTANCE.get(IIrisAccessor.class);
 		if (iris != null)
 		{
 			// get the currently selected rendering API
 			EDhApiRenderingEngine renderApi = Config.Client.Advanced.Graphics.Experimental.renderingEngine.get();
 			if (renderApi == EDhApiRenderingEngine.AUTO)
 			{
 				IVersionConstants versionConstants = SingletonInjector.INSTANCE.get(IVersionConstants.class);
 				renderApi = versionConstants.getDefaultRenderingEngine();
 			}
 			// Iris only supports native OpenGL
 			if (renderApi != EDhApiRenderingEngine.OPEN_GL)
 			{
 				String irisUnsupportedMessage = "Iris doesn't support DH when using the ["+ EDhApiRenderingEngine.BLAZE_3D+"] rendering engine, this will need to be fixed on Iris end. As a temporary fix please change the rendering engine to ["+ EDhApiRenderingEngine.OPEN_GL+"] in the DH config file.";
 				LOGGER.fatal(irisUnsupportedMessage);
 				NativeDialogUtil.showDialog(ModInfo.READABLE_NAME, irisUnsupportedMessage, "ok", "error");
 				IMinecraftClientWrapper mc = SingletonInjector.INSTANCE.get(IMinecraftClientWrapper.class);
 				String errorMessage = "loading Distant Horizons. "+irisUnsupportedMessage;
 				String exceptionError = "Distant Horizons conditional mod config Exception";
 				mc.crashMinecraft(errorMessage, new Exception(exceptionError));
 			}
 		}
 		//endregion
 	}
 	/**
 	 * Some Minecraft versions don't support all
 	 * DH options.
 	 * In that case we need to override what options are available.
 	 */
 	private static void setUnsupportedConfigsBasedOnMcVersion()
 	{
 		#if MC_VER <= MC_1_12_2
 		Config.Client.Advanced.Graphics.Experimental.renderingEngine.setMcVersionOverrideValue(EDhApiRenderingEngine.OPEN_GL);
 		Config.Client.Advanced.Graphics.Quality.vanillaFadeMode.setMcVersionOverrideValue(EDhApiMcRenderingFadeMode.NONE);
 		Config.Common.WorldGenerator.distantGeneratorMode.setMcVersionOverrideValue(EDhApiDistantGeneratorMode.INTERNAL_SERVER);
 		#elif MC_VER <= MC_1_21_10
 		Config.Client.Advanced.Graphics.Experimental.renderingEngine.setMcVersionOverrideValue(EDhApiRenderingEngine.OPEN_GL);
 		#else
 		#endif
 	}
 	//endregion
 	//================//
 	// helper classes //
 	//================//
 	//region
 	public interface IEventProxy
 	{
 		void registerEvents();
 	}
 	//endregion
 }
@@ -12,17 +12,10 @@ import com.seibel.distanthorizons.core.wrapperInterfaces.misc.IPluginPacketSende
 import com.seibel.distanthorizons.core.wrapperInterfaces.misc.IServerPlayerWrapper;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import io.netty.buffer.ByteBufUtil;
 #if MC_VER <= MC_1_12_2
 import net.minecraft.entity.player.EntityPlayerMP;
 import net.minecraft.network.PacketBuffer;
 #else
 import net.minecraft.network.FriendlyByteBuf;
 import net.minecraft.server.level.ServerPlayer;
 #endif
-#if MC_VER <= MC_1_12_2
+#if MC_VER <= MC_1_21_10
 import net.minecraft.util.ResourceLocation;
 #elif MC_VER <= MC_1_21_10
 import net.minecraft.resources.ResourceLocation;
 #else
 import net.minecraft.resources.Identifier;
@@ -37,9 +30,7 @@ public abstract class AbstractPluginPacketSender implements IPluginPacketSender
 			.fileLevelConfig(Config.Common.Logging.logNetworkEventToFile)
 			.build();
-	#if MC_VER <= MC_1_12_2
+	#if MC_VER <= MC_1_20_6
 	public static final String WRAPPER_PACKET_RESOURCE = ModInfo.RESOURCE_NAMESPACE + ModInfo.WRAPPER_PACKET_PATH;
 	#elif MC_VER <= MC_1_20_6
 	public static final ResourceLocation WRAPPER_PACKET_RESOURCE = new ResourceLocation(ModInfo.RESOURCE_NAMESPACE, ModInfo.WRAPPER_PACKET_PATH);
 	#elif  MC_VER <= MC_1_21_10
 	public static final ResourceLocation WRAPPER_PACKET_RESOURCE = ResourceLocation.fromNamespaceAndPath(ModInfo.RESOURCE_NAMESPACE, ModInfo.WRAPPER_PACKET_PATH);
@@ -61,28 +52,14 @@ public abstract class AbstractPluginPacketSender implements IPluginPacketSender
 	@Override
 	public final void sendToClient(IServerPlayerWrapper serverPlayer, AbstractNetworkMessage message)
 	{
 		#if MC_VER <= MC_1_12_2
 		this.sendToClient((EntityPlayerMP) serverPlayer.getWrappedMcObject(), message);
 		#else
 		this.sendToClient((ServerPlayer) serverPlayer.getWrappedMcObject(), message);
 		#endif
 	}
 	#if MC_VER <= MC_1_12_2
 	public abstract void sendToClient(EntityPlayerMP serverPlayer, AbstractNetworkMessage message);
 	#else
 	public abstract void sendToClient(ServerPlayer serverPlayer, AbstractNetworkMessage message);
 	#endif
 	@Override
 	public abstract void sendToServer(AbstractNetworkMessage message);
 	#if MC_VER <= MC_1_12_2
 	public AbstractNetworkMessage decodeMessage(PacketBuffer in)
 	#else
 	public AbstractNetworkMessage decodeMessage(FriendlyByteBuf in)
 	#endif
 	{
 		AbstractNetworkMessage message = null;
@@ -123,11 +100,7 @@ public abstract class AbstractPluginPacketSender implements IPluginPacketSender
 		}
 	}
 	#if MC_VER <= MC_1_12_2
 	public void encodeMessage(PacketBuffer out, AbstractNetworkMessage message) 
 	#else 
 	public void encodeMessage(FriendlyByteBuf out, AbstractNetworkMessage message)
 	#endif
 	{
 		// This is intentionally unhandled, because errors related to this are unlikely to appear in wild
 		Objects.requireNonNull(message);
@@ -1,9 +1,5 @@
 package com.seibel.distanthorizons.common.commands;
 #if MC_VER <= MC_1_12_2
 public abstract class AbstractCommand {}
 #else
 import com.mojang.brigadier.builder.LiteralArgumentBuilder;
 import com.mojang.brigadier.context.CommandContext;
 import com.seibel.distanthorizons.common.wrappers.misc.ServerPlayerWrapper;
@@ -104,4 +100,3 @@ public abstract class AbstractCommand
 	}
 }
 #endif
@@ -1,26 +1,12 @@
 package com.seibel.distanthorizons.common.commands;
-#if MC_VER <= MC_1_12_2
+
 import com.seibel.distanthorizons.core.config.ConfigHandler;
 import com.seibel.distanthorizons.core.config.types.AbstractConfigBase;
 import com.seibel.distanthorizons.core.config.types.ConfigEntry;
 import com.seibel.distanthorizons.core.logging.f3.F3Screen;
 import net.minecraft.command.CommandBase;
 import net.minecraft.command.ICommand;
 import net.minecraft.command.ICommandSender;
 import net.minecraft.server.MinecraftServer;
 import net.minecraft.util.text.TextComponentString;
 #else
 import com.mojang.brigadier.CommandDispatcher;
 import com.mojang.brigadier.builder.LiteralArgumentBuilder;
 import net.minecraft.commands.CommandSourceStack;
 import static net.minecraft.commands.Commands.literal;
 #endif
 import org.jetbrains.annotations.Nullable;
 import java.util.ArrayList;
 import java.util.List;
 import static com.seibel.distanthorizons.core.network.messages.MessageRegistry.DEBUG_CODEC_CRASH_MESSAGE;
 import static net.minecraft.commands.Commands.literal;
 #if MC_VER <= MC_1_21_10
 #else
@@ -39,70 +25,6 @@ public class CommandInitializer
 	#endif
 	#if MC_VER <= MC_1_12_2
 	public static ICommand initCommands()
 	{
 		return new CommandBase()
 		{
 			@Override
 			public String getName() { return "dh"; }
 			@Override
 			public String getUsage(ICommandSender sender) { return "/dh <debug|config|pregen>"; }
 			@Override
 			public void execute(MinecraftServer server, ICommandSender sender, String[] args)
 			{
 				if (args.length == 0)
 				{
 					if (DEBUG_CODEC_CRASH_MESSAGE)
 					{
 						sender.sendMessage(new TextComponentString("Usage: /dh <debug|config|crash|pregen>"));
 					}
 					else
 					{
 						sender.sendMessage(new TextComponentString("Usage: /dh <debug|config|pregen"));
 					}
 					return;
 				}
 				switch (args[0])
 				{
 					case "debug":
 						DebugCommand debugCommand = new DebugCommand();
 						debugCommand.execute(sender);
 						break;
 					case "config":
 						ConfigCommand configCommand = new ConfigCommand();
 						configCommand.execute(sender, args);
 						break;
 					case "crash":
 						if (DEBUG_CODEC_CRASH_MESSAGE)
 						{
 							CrashCommand crashCommand = new CrashCommand();
 							crashCommand.execute(sender, args);
 						}
 						break;
 					case "pregen":
 						if (!server.isDedicatedServer())
 						{
 							sender.sendMessage(new TextComponentString("Pregen command is only available on dedicated servers"));
 							break;
 						}
 						PregenCommand pregenCommand = new PregenCommand();
 						pregenCommand.execute(server, sender, args);
 						break;
 					default:
 						sender.sendMessage(new TextComponentString("Unknown subcommand: " + args[0]));
 				}
 			}
 		};
 	}
 	#else
 	/**
 	 * A received command dispatcher, which is held until the server is ready to initialize the commands.
 	 */
@@ -158,5 +80,5 @@ public class CommandInitializer
 		commandDispatcher.register(builder);
 	}
-	#endif
+	
 }
@@ -1,25 +1,13 @@
 package com.seibel.distanthorizons.common.commands;
 import com.seibel.distanthorizons.core.config.ConfigHandler;
 import com.seibel.distanthorizons.core.config.types.AbstractConfigBase;
 import com.seibel.distanthorizons.core.config.types.ConfigEntry;
 #if MC_VER <= MC_1_12_2
 import net.minecraft.command.ICommandSender;
 import net.minecraft.util.text.TextComponentString;
 #else
 import com.mojang.brigadier.arguments.*;
 import com.mojang.brigadier.builder.LiteralArgumentBuilder;
 import com.mojang.brigadier.context.CommandContext;
 import com.seibel.distanthorizons.core.config.ConfigHandler;
 import com.seibel.distanthorizons.core.config.types.AbstractConfigBase;
 import com.seibel.distanthorizons.core.config.types.ConfigEntry;
 import net.minecraft.commands.CommandSourceStack;
 import static com.mojang.brigadier.arguments.DoubleArgumentType.doubleArg;
 import static com.mojang.brigadier.arguments.IntegerArgumentType.integer;
 import static net.minecraft.commands.Commands.argument;
 import static net.minecraft.commands.Commands.literal;
 #endif
 import java.util.Arrays;
 import java.util.HashSet;
 import java.util.List;
@@ -28,75 +16,16 @@ import java.util.function.Function;
 import java.util.function.Supplier;
 import java.util.function.ToIntBiFunction;
-
+import static com.mojang.brigadier.arguments.DoubleArgumentType.doubleArg;
 import static com.mojang.brigadier.arguments.IntegerArgumentType.integer;
 import static net.minecraft.commands.Commands.argument;
 import static net.minecraft.commands.Commands.literal;
 /**
 * Command for managing config.
 */
 public class ConfigCommand extends AbstractCommand
 {
 	#if MC_VER <= MC_1_12_2
 	@SuppressWarnings({"unchecked", "rawtypes"})
 	private static void setConfigValue(ConfigEntry<?> configEntry, String value)
 	{
 		Class<?> type = configEntry.getType();
 		if (type == Boolean.class)       ((ConfigEntry) configEntry).set(Boolean.parseBoolean(value));
 		else if (type == Integer.class)  ((ConfigEntry) configEntry).set(Integer.parseInt(value));
 		else if (type == Double.class)   ((ConfigEntry) configEntry).set(Double.parseDouble(value));
 		else if (type == Float.class)    ((ConfigEntry) configEntry).set(Float.parseFloat(value));
 		else if (type == Long.class)     ((ConfigEntry) configEntry).set(Long.parseLong(value));
 		else if (type == String.class)   ((ConfigEntry) configEntry).set(value);
 		else if (type.isEnum())          ((ConfigEntry) configEntry).set(Enum.valueOf((Class<Enum>) type, value));
 		else throw new RuntimeException("Unsupported config type: " + type.getSimpleName());
 	}
 	public void execute(ICommandSender sender, String[] args)
 	{
 		if (args.length < 2)
 		{
 			sender.sendMessage(new TextComponentString("Usage: /dh config <name> [value]"));
 			return;
 		}
 		String configName = args[1];
 		AbstractConfigBase<?> found = null;
 		for (AbstractConfigBase<?> entry : ConfigHandler.INSTANCE.configBaseList)
 		{
 			if (entry instanceof ConfigEntry && configName.equals(((ConfigEntry<?>) entry).getChatCommandName()))
 			{
 				found = entry;
 				break;
 			}
 		}
 		if (found == null)
 		{
 			sender.sendMessage(new TextComponentString("Unknown config: " + configName));
 			return;
 		}
 		ConfigEntry<?> configEntry = (ConfigEntry<?>) found;
 		if (args.length == 2)
 		{
 			sender.sendMessage(new TextComponentString("Current value of " + configName + " is " + configEntry.get()));
 		}
 		else
 		{
 			String value = args[2];
 			try
 			{
 				setConfigValue(configEntry, value);
 				sender.sendMessage(new TextComponentString("Changed " + configName + " to " + value));
 			}
 			catch (Exception e)
 			{
 				sender.sendMessage(new TextComponentString("Invalid value: " + value));
 			}
 		}
 	}
 	#else
 	private static final List<CommandArgumentData<?>> commandArguments = Arrays.asList(
 			new CommandArgumentData<>(Integer.class, configEntry -> integer(configEntry.getMin(), configEntry.getMax()), IntegerArgumentType::getInteger),
 			new CommandArgumentData<>(Double.class, configEntry -> doubleArg(configEntry.getMin(), configEntry.getMax()), DoubleArgumentType::getDouble),
@@ -221,6 +150,5 @@ public class ConfigCommand extends AbstractCommand
 		}
 	}
 	#endif
-}
+}
@@ -1,60 +1,15 @@
 package com.seibel.distanthorizons.common.commands;
 import com.mojang.brigadier.builder.LiteralArgumentBuilder;
 import com.seibel.distanthorizons.core.api.internal.SharedApi;
 import com.seibel.distanthorizons.core.multiplayer.server.ServerPlayerState;
 import com.seibel.distanthorizons.core.network.messages.base.CodecCrashMessage;
 #if MC_VER <= MC_1_12_2
 import com.seibel.distanthorizons.common.wrappers.misc.ServerPlayerWrapper;
 import net.minecraft.command.ICommandSender;
 import net.minecraft.entity.player.EntityPlayerMP;
 import net.minecraft.util.text.TextComponentString;
 #else
 import net.minecraft.commands.CommandSourceStack;
 import com.mojang.brigadier.builder.LiteralArgumentBuilder;
 import static net.minecraft.commands.Commands.literal;
 #endif
 public class CrashCommand extends AbstractCommand
 {
 	#if MC_VER <= MC_1_12_2
 	public void execute(ICommandSender sender, String[] args)
 	{
 		if (!(sender instanceof EntityPlayerMP))
 		{
 			sender.sendMessage(new TextComponentString("This command can only be run by a player"));
 			return;
 		}
 		if (args.length < 2)
 		{
 			sender.sendMessage(new TextComponentString("Usage: /dh crash <encode|decode>"));
 			return;
 		}
 		if (SharedApi.tryGetDhServerWorld() == null) return;
 		ServerPlayerState serverPlayerState = SharedApi.tryGetDhServerWorld()
 			.getServerPlayerStateManager()
 			.getConnectedPlayer(ServerPlayerWrapper.getWrapper((EntityPlayerMP) sender));
 		if (serverPlayerState == null) return;
 		switch (args[1])
 		{
 			case "encode":
 				serverPlayerState.networkSession.sendMessage(new CodecCrashMessage(CodecCrashMessage.ECrashPhase.ENCODE));
 				break;
 			case "decode":
 				serverPlayerState.networkSession.sendMessage(new CodecCrashMessage(CodecCrashMessage.ECrashPhase.DECODE));
 				break;
 			default:
 				sender.sendMessage(new TextComponentString("Usage: /dh crash <encode|decode>"));
 		}
 	}
 	#else
 	@Override
 	public LiteralArgumentBuilder<CommandSourceStack> buildCommand()
 	{
@@ -85,6 +40,5 @@ public class CrashCommand extends AbstractCommand
 							return 1;
 						}));
 	}
 	#endif
 }
@@ -1,44 +1,25 @@
 package com.seibel.distanthorizons.common.commands;
 import com.seibel.distanthorizons.core.logging.f3.F3Screen;
 #if MC_VER <= MC_1_12_2
 import net.minecraft.command.ICommandSender;
 import net.minecraft.util.text.TextComponentString;
 #else
 import com.mojang.brigadier.builder.LiteralArgumentBuilder;
 import com.seibel.distanthorizons.core.logging.f3.F3Screen;
 import net.minecraft.commands.CommandSourceStack;
 import static net.minecraft.commands.Commands.literal;
 #endif
 import java.util.ArrayList;
 import java.util.List;
 import static net.minecraft.commands.Commands.literal;
 public class DebugCommand extends AbstractCommand
 {
 	private static String getDebugString()
 	{
 		List<String> lines = new ArrayList<>();
 		F3Screen.addStringToDisplay(lines);
 		return String.join("\n", lines);
 	}
 	#if MC_VER > MC_1_12_2
 	@Override
 	public LiteralArgumentBuilder<CommandSourceStack> buildCommand()
 	{
-      return literal("debug")
+		return literal("debug")
-            .executes(c -> {
+				.executes(c -> {
-                return this.sendSuccessResponse(c, getDebugString(), false);
+					List<String> lines = new ArrayList<>();
-            });
+					F3Screen.addStringToDisplay(lines);
 					return this.sendSuccessResponse(c, String.join("\n", lines), false);
 				});
 	}
 	#else
 	public void execute(ICommandSender sender)
 	{
 		sender.sendMessage(new TextComponentString(getDebugString()));
 	}
 	#endif
 }
@@ -1,140 +1,29 @@
 package com.seibel.distanthorizons.common.commands;
 import com.seibel.distanthorizons.common.wrappers.world.ServerLevelWrapper;
 import com.seibel.distanthorizons.core.api.internal.SharedApi;
 import com.seibel.distanthorizons.core.generation.PregenManager;
 import com.seibel.distanthorizons.core.pos.blockPos.DhBlockPos2D;
 import com.seibel.distanthorizons.core.world.DhServerWorld;
 #if MC_VER <= MC_1_12_2
 import net.minecraft.command.ICommandSender;
 import net.minecraft.server.MinecraftServer;
 import net.minecraft.util.text.TextComponentString;
 import net.minecraft.world.WorldServer;
 #else
 import com.mojang.brigadier.builder.LiteralArgumentBuilder;
 import com.mojang.brigadier.context.CommandContext;
 import com.mojang.brigadier.exceptions.CommandSyntaxException;
 import com.seibel.distanthorizons.common.wrappers.world.ServerLevelWrapper;
 import com.seibel.distanthorizons.core.generation.PregenManager;
 import com.seibel.distanthorizons.core.pos.blockPos.DhBlockPos2D;
 import net.minecraft.commands.CommandSourceStack;
 import net.minecraft.commands.arguments.DimensionArgument;
 import net.minecraft.commands.arguments.coordinates.ColumnPosArgument;
 import net.minecraft.server.level.ColumnPos;
 import net.minecraft.server.level.ServerLevel;
 import java.util.concurrent.CancellationException;
 import java.util.concurrent.CompletableFuture;
 import static com.mojang.brigadier.arguments.IntegerArgumentType.getInteger;
 import static com.mojang.brigadier.arguments.IntegerArgumentType.integer;
 import static net.minecraft.commands.Commands.argument;
 import static net.minecraft.commands.Commands.literal;
 #endif
 import java.util.Objects;
 import java.util.concurrent.CancellationException;
 import java.util.concurrent.CompletableFuture;
 public class PregenCommand extends AbstractCommand
 {
-	private PregenManager getPregenManager()
+	private final PregenManager pregenManager = new PregenManager();
 	{
 		DhServerWorld world = (DhServerWorld) Objects.requireNonNull(SharedApi.getAbstractDhWorld());
 		return world.getPregenManager();
 	}
 	#if MC_VER <= MC_1_12_2
 	public void execute(MinecraftServer server, ICommandSender sender, String[] args)
 	{
 		if (args.length < 2)
 		{
 			sender.sendMessage(new TextComponentString("Usage: /dh pregen <status|start|stop>"));
 			return;
 		}
 		switch (args[1])
 		{
 			case "status":
 			{
 				String statusString = this.getPregenManager().getStatusString();
 				sender.sendMessage(new TextComponentString(
 					statusString != null ? statusString : "Pregen is not running"));
 				break;
 			}
 			case "start":
 			{
 				if (args.length < 5)
 				{
 					sender.sendMessage(new TextComponentString("Usage: /dh pregen start <dimension> <x> <z> <chunkRadius>"));
 					return;
 				}
 				try
 				{
 					String dimensionName = args[2];
 					int x = Integer.parseInt(args[3]);
 					int z = Integer.parseInt(args[4]);
 					int chunkRadius = args.length >= 6 ? Integer.parseInt(args[5]) : 32;
 					// find the world by dimension name
 					WorldServer world = null;
 					for (WorldServer w : server.worlds)
 					{
 						if (w.provider.getDimensionType().getName().equals(dimensionName))
 						{
 							world = w;
 							break;
 						}
 					}
 					if (world == null)
 					{
 						sender.sendMessage(new TextComponentString("Unknown dimension: " + dimensionName));
 						return;
 					}
 					sender.sendMessage(new TextComponentString("Starting pregen. Progress will be in the server console."));
 					final ICommandSender finalSender = sender;
 					CompletableFuture<Void> future = this.getPregenManager().startPregen(
 						ServerLevelWrapper.getWrapper(world),
 						new DhBlockPos2D(x, z),
 						chunkRadius
 					);
 					future.whenComplete((result, throwable) -> {
 						if (throwable instanceof CancellationException)
 						{
 							finalSender.sendMessage(new TextComponentString("Pregen is cancelled"));
 							return;
 						}
 						else if (throwable != null)
 						{
 							finalSender.sendMessage(new TextComponentString("Pregen failed: " + throwable.getMessage()));
 							return;
 						}
 						finalSender.sendMessage(new TextComponentString("Pregen is complete"));
 					});
 				}
 				catch (NumberFormatException e)
 				{
 					sender.sendMessage(new TextComponentString("Invalid number format"));
 				}
 				break;
 			}
 			case "stop":
 			{
 				CompletableFuture<Void> runningPregen = this.getPregenManager().getRunningPregen();
 				if (runningPregen == null)
 				{
 					sender.sendMessage(new TextComponentString("Pregen is not running"));
 					return;
 				}
 				runningPregen.cancel(true);
 				break;
 			}
 			default:
 				sender.sendMessage(new TextComponentString("Unknown subcommand: " + args[1]));
 		}
 	}
    #else
 	@Override
 	public LiteralArgumentBuilder<CommandSourceStack> buildCommand()
 	{
@@ -159,7 +48,7 @@ public class PregenCommand extends AbstractCommand
 	private int pregenStatus(CommandContext<CommandSourceStack> c)
 	{
-		String statusString = this.getPregenManager().getStatusString();
+		String statusString = this.pregenManager.getStatusString();
 		//noinspection ReplaceNullCheck
 		if (statusString != null)
 		{
@@ -179,7 +68,7 @@ public class PregenCommand extends AbstractCommand
 		ColumnPos origin = ColumnPosArgument.getColumnPos(c, "origin");
 		int chunkRadius = getInteger(c, "chunkRadius");
-		CompletableFuture<Void> future = this.getPregenManager().startPregen(
+		CompletableFuture<Void> future = this.pregenManager.startPregen(
 				ServerLevelWrapper.getWrapper(level),
 				new DhBlockPos2D(#if MC_VER >= MC_1_19_2 origin.x(), origin.z() #else origin.x, origin.z #endif),
 				chunkRadius
@@ -205,7 +94,7 @@ public class PregenCommand extends AbstractCommand
 	private int pregenStop(CommandContext<CommandSourceStack> c)
 	{
-		CompletableFuture<Void> runningPregen = this.getPregenManager().getRunningPregen();
+		CompletableFuture<Void> runningPregen = this.pregenManager.getRunningPregen();
 		if (runningPregen == null)
 		{
 			return this.sendFailureResponse(c, "Pregen is not running");
@@ -214,5 +103,5 @@ public class PregenCommand extends AbstractCommand
 		runningPregen.cancel(true);
 		return 1;
 	}
-	#endif
+	
 }
@@ -1,101 +0,0 @@
 package com.seibel.distanthorizons.common.commonMixins;
 import com.seibel.distanthorizons.api.enums.config.EDhApiUpdateBranch;
 import com.seibel.distanthorizons.common.wrappers.gui.DhScreenUtil;
 import com.seibel.distanthorizons.common.wrappers.gui.updater.UpdateModScreen;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.jar.installer.GitlabGetter;
 import com.seibel.distanthorizons.core.jar.installer.ModrinthGetter;
 import com.seibel.distanthorizons.core.jar.updater.SelfUpdater;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.RenderThreadTaskHandler;
 import com.seibel.distanthorizons.core.wrapperInterfaces.IVersionConstants;
 import net.minecraft.client.Minecraft;
 #if MC_VER <= MC_1_12_2
 import net.minecraft.client.gui.GuiMainMenu;
 #else
 import net.minecraft.client.gui.screens.TitleScreen;
 #endif
 import java.util.ArrayList;
 public class DhUpdateScreenBase
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	#if MC_VER <= MC_1_12_2
 	private static final Minecraft MC = Minecraft.getMinecraft();
 	#else
 	private static final Minecraft MC = Minecraft.getInstance();
 	#endif
 	public static void tryShowUpdateScreenAndRunAutoUpdateStartup(Runnable runnable)
 	{
 		// always needs to be called, otherwise auto update setup won't be completed
 		boolean newUpdateAvailable = SelfUpdater.onStart();
 		if (!newUpdateAvailable)
 		{
 			return;
 		}
 		runnable = () ->
 		{
 			String versionId;
 			EDhApiUpdateBranch updateBranch = EDhApiUpdateBranch.convertAutoToStableOrNightly(Config.Client.Advanced.AutoUpdater.updateBranch.get());
 			if (updateBranch == EDhApiUpdateBranch.STABLE)
 			{
 				versionId = ModrinthGetter.getLatestIDForVersion(SingletonInjector.INSTANCE.get(IVersionConstants.class).getMinecraftVersion());
 			}
 			else
 			{
 				ArrayList<com.electronwill.nightconfig.core.Config> pipelines = GitlabGetter.INSTANCE.projectPipelines;
 				if (pipelines != null
 					&& pipelines.size() > 0)
 				{
 					versionId = pipelines.get(0).get("sha");
 				}
 				else
 				{
 					versionId = null;
 				}
 			}
 			if (versionId == null)
 			{
 				LOGGER.info("Unable to find new DH update for the ["+updateBranch+"] branch. Assuming DH is up to date...");
 				return;
 			}
 			// running on the render thread is required since setting the MC screen may trigger
 			// before its allowed, silently failing
 			RenderThreadTaskHandler.INSTANCE.queueRunningOnRenderThread("Update Screen", () -> 
 			{
 				try
 				{
 					#if MC_VER <= MC_1_12_2
 					DhScreenUtil.setScreen(new UpdateModScreen(
 						new GuiMainMenu(),
 						versionId
 					));
 					#else
 					DhScreenUtil.setScreen(new UpdateModScreen(
 						new TitleScreen(false),
 						versionId
 					));
 					#endif
 				}
 				catch (Exception e)
 				{
 					// info instead of error since this can be ignored and probably just means
 					// there isn't a new DH version available
 					LOGGER.error("Unable to show DH update screen, reason: ["+e.getMessage()+"].");
 				}
 			});
 		};
 		runnable.run();
 	}
 }
@@ -4,40 +4,17 @@ import com.seibel.distanthorizons.common.wrappers.chunk.ChunkWrapper;
 import com.seibel.distanthorizons.common.wrappers.world.ServerLevelWrapper;
 import com.seibel.distanthorizons.core.api.internal.ServerApi;
 import com.seibel.distanthorizons.core.api.internal.SharedApi;
 import com.seibel.distanthorizons.core.pos.DhChunkPos;
 import com.seibel.distanthorizons.core.wrapperInterfaces.world.IServerLevelWrapper;
 #if MC_VER <= MC_1_12_2
 import net.minecraft.world.WorldServer;
 import net.minecraft.world.chunk.Chunk;
 #else
 import net.minecraft.server.level.ServerLevel;
 import net.minecraft.world.level.chunk.ChunkAccess;
 import net.minecraft.world.level.chunk.ProtoChunk;
 #endif
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfoReturnable;
 public class MixinChunkMapCommon
 {
-	#if MC_VER <= MC_1_12_2
+	
 	public static void onChunkSave(WorldServer level, Chunk chunk)
 	#else
 	public static void onChunkSave(ServerLevel level, ChunkAccess chunk, CallbackInfoReturnable<Boolean> ci)
 	#endif
 	{
 		IServerLevelWrapper levelWrapper = ServerLevelWrapper.getWrapper(level);
 		int chunkPosX;
 		int chunkPosZ;
 		#if MC_VER <= MC_1_21_11
 		chunkPosX = chunk.getPos().x;
 		chunkPosZ = chunk.getPos().z;
 		#else
 		chunkPosX = chunk.getPos().x();
 		chunkPosZ = chunk.getPos().z();
 		#endif
 		// is this position already being updated?
-		if (SharedApi.isChunkAtChunkPosAlreadyUpdating(levelWrapper, chunkPosX, chunkPosZ))
+		if (SharedApi.isChunkAtChunkPosAlreadyUpdating(chunk.getPos().x, chunk.getPos().z))
 		{
 			return;
 		}
@@ -45,31 +22,30 @@ public class MixinChunkMapCommon
 		// is this chunk being saved to disk?
-		boolean savingChunkToDisk = #if MC_VER <= MC_1_12_2 true #else ci.getReturnValue() #endif;
+		boolean savingChunkToDisk = ci.getReturnValue();
 		// true means a chunk was saved to disk
 		if (!savingChunkToDisk)
 		{
 			return;
 		}
 		// TODO are the following validations necessary since we are checking above if 
 		//  the callback return value should state if the chunk was actually saved or not?
 		//  Do we trust it to always be correct?
 		// corrupt/incomplete chunk validation //
 		// MC has a tendency to try saving incomplete or corrupted chunks (which show up as empty or black chunks)
 		// this logic should prevent that from happening
-		#if MC_VER <= MC_1_12_2
+		#if MC_VER == MC_1_16_5 || MC_VER == MC_1_17_1
 		if (!chunk.isTerrainPopulated() || !chunk.isLightPopulated())
 		{
 			return;
 		}
 		#elif MC_VER <= MC_1_17_1
 		if (chunk.isUnsaved() || chunk.getUpgradeData() != null || !chunk.isLightCorrect())
 		{
 			return;
 		}
 		#else
-		if (chunk.isUnsaved() || chunk.isUpgrading() || !chunk.isLightCorrect() || chunk instanceof ProtoChunk)
+		if (chunk.isUnsaved() || chunk.isUpgrading() || !chunk.isLightCorrect())
 		{
 			return;
 		}
@@ -80,12 +56,7 @@ public class MixinChunkMapCommon
 		// biome validation //
 		// some chunks may be missing their biomes, which cause issues when attempting to save them
-		#if MC_VER <= MC_1_12_2
+		#if MC_VER == MC_1_16_5 || MC_VER == MC_1_17_1
 		if (chunk. getBiomeArray() == null)
 		{
 			return;
 		}
 		#elif MC_VER <= MC_1_17_1
 		if (chunk.getBiomes() == null)
 		{
 			return;
@@ -106,8 +77,8 @@ public class MixinChunkMapCommon
 		// submit the update event
 		ServerApi.INSTANCE.serverChunkSaveEvent(
-			new ChunkWrapper(chunk, levelWrapper),
+				new ChunkWrapper(chunk, ServerLevelWrapper.getWrapper(level)),
-			levelWrapper
+				ServerLevelWrapper.getWrapper(level)
 		);
 	}
@@ -1,62 +0,0 @@
 package com.seibel.distanthorizons.common.commonMixins;
 #if MC_VER > MC_1_12_2
 import com.seibel.distanthorizons.common.wrappers.McObjectConverter;
 import com.seibel.distanthorizons.common.wrappers.modAccessor.AbstractImmersivePortalsAccessorCommon;
 import com.seibel.distanthorizons.core.pos.blockPos.DhBlockPos;
 import com.seibel.distanthorizons.core.util.math.DhVec3d;
 import net.minecraft.client.Minecraft;
 import net.minecraft.core.BlockPos;
 import net.minecraft.world.level.ChunkPos;
 import net.minecraft.world.phys.Vec3;
 public class MixinImmersivePortalsRenderStatesCommon
 {
 	/**
 	 * Used to access variables that will change when rendering
 	 * different levels with Immersive Portals 
 	 * (ie player/camera position level reference)
 	 * but that we only want for the loaded level.
 	 */
 	public static void saveVolatileOriginals()
 	{
 		Minecraft mc = Minecraft.getInstance();
 		AbstractImmersivePortalsAccessorCommon.actualLevel = mc.level;
 		// clear everything if the player is missing
 		// (ie the world hasn't loaded yet)
 		if (mc.player == null) 
 		{
 			AbstractImmersivePortalsAccessorCommon.actualBlockPos = null;
 			AbstractImmersivePortalsAccessorCommon.actualChunkPos = null;
 			AbstractImmersivePortalsAccessorCommon.actualCameraPos = null;
 			return;
 		}
 		// player block pos
 		BlockPos playerBlockPos = mc.player.blockPosition();
 		AbstractImmersivePortalsAccessorCommon.actualBlockPos = new DhBlockPos(playerBlockPos.getX(), playerBlockPos.getY(), playerBlockPos.getZ());
 		// player chunk pos
 		#if MC_VER < MC_1_17_1
        ChunkPos playerChunkPos = new ChunkPos(mc.player.blockPosition());
        #else
 		ChunkPos playerChunkPos = mc.player.chunkPosition();
        #endif
 		AbstractImmersivePortalsAccessorCommon.actualChunkPos = McObjectConverter.Convert(playerChunkPos);
 		// camera pos
 		#if MC_VER <= MC_1_21_10
 		Vec3 cameraPos = mc.gameRenderer.getMainCamera().getPosition();
 		#elif MC_VER <= MC_26_1_2
 		Vec3 cameraPos = mc.gameRenderer.getMainCamera().position();
 		#else
 		Vec3 cameraPos = mc.gameRenderer.mainCamera().position();
 		#endif
 		AbstractImmersivePortalsAccessorCommon.actualCameraPos = new DhVec3d(cameraPos.x(), cameraPos.y(), cameraPos.z());
 	}
 }
 #endif
@@ -1,153 +0,0 @@
 package com.seibel.distanthorizons.common.commonMixins;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftClientWrapper;
 import com.seibel.distanthorizons.core.api.internal.ClientApi;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dependencyInjection.ModAccessorInjector;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftClientWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.modAccessor.IImmersivePortalsAccessor;
 import com.seibel.distanthorizons.core.wrapperInterfaces.world.IClientLevelWrapper;
 import net.minecraft.client.Minecraft;
 #if MC_VER <= MC_1_12_2
 #else
 import net.minecraft.client.Camera;
 import net.minecraft.world.effect.MobEffects;
 import net.minecraft.world.entity.Entity;
 import net.minecraft.world.entity.LivingEntity;
 #endif
 #if MC_VER <= MC_1_12_2
 import net.minecraft.client.entity.EntityPlayerSP;
 import net.minecraft.entity.Entity;
 import net.minecraft.init.MobEffects;
 import net.minecraft.util.math.BlockPos;
 import net.minecraftforge.fluids.IFluidBlock;
 import net.minecraft.block.state.IBlockState;
 #elif MC_VER < MC_1_17_1
 import net.minecraft.world.level.material.FluidState;
 import net.minecraft.client.renderer.FogRenderer;
 import net.minecraft.client.renderer.FogRenderer.FogMode;
 import com.mojang.blaze3d.systems.RenderSystem;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
 #elif MC_VER < MC_1_21_3
 import net.minecraft.world.level.material.FogType;
 import net.minecraft.client.renderer.FogRenderer;
 import net.minecraft.client.renderer.FogRenderer.FogMode;
 import com.mojang.blaze3d.systems.RenderSystem;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
 #elif MC_VER < MC_1_21_6
 import net.minecraft.world.level.material.FogType;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfoReturnable;
 import com.mojang.blaze3d.shaders.FogShape;
 import net.minecraft.client.renderer.FogRenderer;
 import net.minecraft.client.renderer.FogRenderer.FogMode;
 import net.minecraft.client.renderer.FogParameters;
 import org.joml.Vector4f;
 import com.mojang.blaze3d.systems.RenderSystem;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
 #else
 import net.minecraft.world.level.material.FogType;
 import net.minecraft.client.renderer.fog.FogRenderer;
 import net.minecraft.client.renderer.fog.FogData;
 import com.llamalad7.mixinextras.injector.wrapoperation.Operation;
 import com.llamalad7.mixinextras.injector.wrapoperation.WrapOperation;
 #endif
 public class MixinVanillaFogCommon
 {
 	#if MC_VER <= MC_1_12_2
 	public static boolean cancelFog(int startCoords, Minecraft mc)
 	#elif MC_VER < MC_1_21_6
 	public static boolean cancelFog(Camera camera, FogRenderer.FogMode fogMode)
 	#else
 	public static boolean cancelFog()
 	#endif
 	{
 		#if MC_VER <= MC_1_12_2
 		EntityPlayerSP entity = mc.player;
 		#elif MC_VER < MC_1_21_6
 		Entity entity = camera.getEntity();
 		#elif MC_VER <= MC_1_21_10
 		Camera camera = Minecraft.getInstance().gameRenderer.getMainCamera();
 		Entity entity = camera.getEntity();
 		#elif MC_VER <= MC_26_1_2
 		Camera camera = Minecraft.getInstance().gameRenderer.getMainCamera();
 		Entity entity = camera.entity();	
 		#else
 		Camera camera = Minecraft.getInstance().gameRenderer.mainCamera();
 		Entity entity = camera.entity();	
 		#endif
 		#if MC_VER <= MC_1_12_2
 		boolean cameraNotInFluid = cameraNotInFluid(mc);
 		#else
 		boolean cameraNotInFluid = cameraNotInFluid(camera);
 		#endif
 		#if MC_VER <= MC_1_12_2
 		boolean isSpecialFog = entity.isPotionActive(MobEffects.BLINDNESS);
 		#else
 		boolean isSpecialFog = (entity instanceof LivingEntity) && ((LivingEntity) entity).hasEffect(MobEffects.BLINDNESS);
 		#endif
 		boolean cancelFog = !isSpecialFog;
 		cancelFog = cancelFog && cameraNotInFluid;
 		#if MC_VER <= MC_1_12_2
 		cancelFog = cancelFog && startCoords == 0; // 0 = terrain fog
 		#elif MC_VER < MC_1_21_6
 		cancelFog = cancelFog && (fogMode == FogRenderer.FogMode.FOG_TERRAIN);
 		#endif
 		cancelFog = cancelFog && !SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class).isFogStateSpecial();
 		cancelFog = cancelFog && !Config.Client.Advanced.Graphics.Fog.enableVanillaFog.get();
 		// since DH won't render through immersive portals 
 		// the vanilla fog should be enabled
 		IImmersivePortalsAccessor immersivePortals = ModAccessorInjector.INSTANCE.get(IImmersivePortalsAccessor.class);
 		if (immersivePortals != null
 			&& immersivePortals.isRenderingPortal())
 		{
 			cancelFog = false;
 		}
 		return cancelFog;
 	}
 	#if MC_VER <= MC_1_12_2
 	private static boolean cameraNotInFluid(Minecraft mc)
 	#else
 	private static boolean cameraNotInFluid(Camera camera)
 	#endif
 	{
 		#if MC_VER <= MC_1_12_2
 		Entity view = mc.getRenderViewEntity();
 		if (view == null) return true;
 		IBlockState fluidState = mc.world.getBlockState(new BlockPos(view.getPositionEyes(mc.getRenderPartialTicks())));
 		boolean cameraNotInFluid = !(fluidState.getMaterial().isLiquid() || fluidState.getBlock() instanceof IFluidBlock);
 		#elif MC_VER < MC_1_17_1
 		FluidState fluidState = camera.getFluidInCamera();
 		boolean cameraNotInFluid = fluidState.isEmpty();
 		#else
 		FogType fogTypes = camera.getFluidInCamera();
 		boolean cameraNotInFluid = fogTypes == FogType.NONE;
 		#endif
 		return cameraNotInFluid;
 	}
 }
@@ -1,312 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.blaze;
 #if MC_VER <= MC_1_21_10
 public class BlazeDebugWireframeRenderer {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.buffers.GpuBufferSlice;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.mojang.blaze3d.vertex.VertexFormat;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazeDhVertexFormatUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.BlazeVertexFormatBuilder;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeUniformBufferWrapper;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.render.renderer.AbstractDebugWireframeRenderer;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import com.seibel.distanthorizons.core.util.math.DhVec3d;
 import com.seibel.distanthorizons.core.util.math.DhVec3f;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import java.nio.ByteBuffer;
 import java.nio.ByteOrder;
 /**
 * Handles rendering the wireframe particles 
 * that are used for seeing what the system's doing.
 */
 public class BlazeDebugWireframeRenderer extends AbstractDebugWireframeRenderer
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final IMinecraftRenderWrapper MC_RENDER = SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class);
 	private static final AbstractDhRenderApiDefinition RENDER_API_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	public static BlazeDebugWireframeRenderer INSTANCE = new BlazeDebugWireframeRenderer();
 	/** A box from 0,0,0 to 1,1,1 */
 	private static final float[] BOX_VERTICES = {
 		//region
 		// Pos x y z
 		0, 0, 0,
 		1, 0, 0,
 		1, 1, 0,
 		0, 1, 0,
 		0, 0, 1,
 		1, 0, 1,
 		1, 1, 1,
 		0, 1, 1,
 		//endregion
 	};
 	private static final int[] BOX_OUTLINE_INDICES = {
 		//region
 		0, 1,
 		1, 2,
 		2, 3,
 		3, 0,
 		4, 5,
 		5, 6,
 		6, 7,
 		7, 4,
 		0, 4,
 		1, 5,
 		2, 6,
 		3, 7,
 		//endregion
 	};
 	private static final DhMat4f TRANSFORM_MATRIX = new DhMat4f();
 	// rendering setup
 	private boolean init = false;
 	private RenderPipeline pipeline;
 	private GpuBuffer boxVertexBuffer;
 	private GpuBuffer boxIndexBuffer;
 	private final BlazeUniformBufferWrapper uniformBufferWrapper = new BlazeUniformBufferWrapper("debugWireframeUniformBlock");
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public BlazeDebugWireframeRenderer() { }
 	public void init()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		this.createPipelines();
 		this.createBuffers();
 	}
 	private void createPipelines()
 	{
 		RenderPipelineBuilderWrapper pipelineBuilder = new RenderPipelineBuilderWrapper();
 		{
 			pipelineBuilder.withFaceCulling(false);
 			pipelineBuilder.withDepthWrite(true);
 			if (RENDER_API_DEF.getRenderDepth() == EDhRenderDepth.FORWARD_Z)
 			{
 				pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.LESS);
 			}
 			else
 			{
 				pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.GREATER);
 			}
 			pipelineBuilder.withColorWrite(true);
 			pipelineBuilder.withoutBlend();
 			pipelineBuilder.withPolygonMode(RenderPipelineBuilderWrapper.EDhPolygonMode.WIREFRAME);
 			pipelineBuilder.withName("debug_wireframe_renderer");
 			pipelineBuilder.withVertexShader("debug/blaze/vert");
 			pipelineBuilder.withFragmentShader("debug/blaze/frag");
 			pipelineBuilder.withUniformBuffer("uniformBlock");
 			VertexFormat vertexFormat = new BlazeVertexFormatBuilder()
 				.add("vPosition", BlazeDhVertexFormatUtil.FLOAT_XYZ_POS)
 				.build();
 			pipelineBuilder.withVertexFormat(vertexFormat);
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.LINES);
 		}
 		this.pipeline = pipelineBuilder.build();
 	}
 	private void createBuffers()
 	{
 		GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 		CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 		// box vertices 
 		ByteBuffer boxVerticesBuffer = ByteBuffer.allocateDirect(BOX_VERTICES.length * Float.BYTES);
 		boxVerticesBuffer.order(ByteOrder.nativeOrder());
 		boxVerticesBuffer.asFloatBuffer().put(BOX_VERTICES);
 		boxVerticesBuffer.rewind();
 		// upload vertex data
 		{
 			int usage = GpuBuffer.USAGE_COPY_DST 
 				| GpuBuffer.USAGE_VERTEX;
 			int size = BOX_VERTICES.length * Float.BYTES;
 			this.boxVertexBuffer = GPU_DEVICE.createBuffer(() -> "distantHorizons:DebugWireframeBox", usage, size);
 			{
 				int length = BOX_VERTICES.length * Float.BYTES;
 				GpuBufferSlice bufferSlice = new GpuBufferSlice(this.boxVertexBuffer, /*offset*/ 0, length);
 				ByteBuffer byteBuffer = ByteBuffer.allocateDirect(BOX_VERTICES.length * Float.BYTES);
 				byteBuffer.order(ByteOrder.nativeOrder());
 				byteBuffer.asFloatBuffer().put(BOX_VERTICES);
 				byteBuffer.rewind();
 				COMMAND_ENCODER.writeToBuffer(bufferSlice, byteBuffer);
 			}
 		}
 		// box vertex indexes
 		{
 			ByteBuffer buffer = ByteBuffer.allocateDirect(BOX_OUTLINE_INDICES.length * Integer.BYTES);
 			buffer.order(ByteOrder.nativeOrder());
 			buffer.asIntBuffer().put(BOX_OUTLINE_INDICES);
 			buffer.rewind();
 			int usage = GpuBuffer.USAGE_COPY_DST 
 				| GpuBuffer.USAGE_VERTEX 
 				| GpuBuffer.USAGE_INDEX
 				| GpuBuffer.USAGE_UNIFORM;
 			this.boxIndexBuffer = GPU_DEVICE.createBuffer(() -> "DH Debug Index Buffer", usage, buffer.capacity());
 			int offset = 0;
 			GpuBufferSlice bufferSlice = new GpuBufferSlice(this.boxIndexBuffer, offset, buffer.capacity());
 			COMMAND_ENCODER.writeToBuffer(bufferSlice, buffer);
 		}
 	}
 	//endregion
 	//===========//
 	// rendering //
 	//===========//
 	//region
 	@Override
 	public void renderBox(Box box)
 	{
 		this.init();
 		//if (BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper.isEmpty()
 		//	|| BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper.isEmpty())
 		//{
 		//	return;
 		//}
 		// shouldn't happen, but just in case
 		if (box == null)
 		{
 			return;
 		}
 		// delayed getters since this class may be initialized before
 		// the GPU device has been set
 		GpuDevice gpuDevice = RenderSystem.getDevice();
 		CommandEncoder commandEncoder = gpuDevice.createCommandEncoder();
 		// uniforms
 		{
 			// create data //
 			DhVec3d camPos = MC_RENDER.getCameraExactPosition();
 			DhVec3f camPosFloatThisFrame = new DhVec3f((float) camPos.x, (float) camPos.y, (float) camPos.z);
 			DhMat4f boxTransform = DhMat4f.createTranslateMatrix(
 				box.minPos.x - camPosFloatThisFrame.x,
 				box.minPos.y - camPosFloatThisFrame.y,
 				box.minPos.z - camPosFloatThisFrame.z);
 			boxTransform.multiply(DhMat4f.createScaleMatrix(
 				box.maxPos.x - box.minPos.x,
 				box.maxPos.y - box.minPos.y,
 				box.maxPos.z - box.minPos.z));
 			TRANSFORM_MATRIX.set(this.dhMvmProjMatrixThisFrame);
 			TRANSFORM_MATRIX.multiply(boxTransform);
 			// upload data //
 			this.uniformBufferWrapper
 				.putMat4f(TRANSFORM_MATRIX) // uTransform
 				.putVec4f(
 					box.color.getRed() / 255.0f,
 					box.color.getGreen() / 255.0f,
 					box.color.getBlue() / 255.0f,
 					box.color.getAlpha() / 255.0f) // uColor
 				.finishAndUpload()
 			;
 		}
 		// render //
 		try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 			this::getRenderPassName,
 			BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper, 
 			BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper))
 		{
 			// Bind instance data //
 			renderPassWrapper.setUniform("uniformBlock", this.uniformBufferWrapper);
 			renderPassWrapper.setPipeline(this.pipeline);
 			renderPassWrapper.setIndexBuffer(this.boxIndexBuffer);
 			renderPassWrapper.setVertexBuffer(this.boxVertexBuffer);
 			renderPassWrapper.drawIndexed(BOX_OUTLINE_INDICES.length);
 		}
 	}
 	private String getRenderPassName() { return "distantHorizons:DebugRenderer"; }
 	//endregion
 }
 #endif
@@ -1,613 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.blaze;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhGenericObjectRenderer {}
 #else
 import com.mojang.blaze3d.pipeline.BlendFunction;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.mojang.blaze3d.vertex.VertexFormat;
 import com.seibel.distanthorizons.api.enums.rendering.EDhApiBlockMaterial;
 import com.seibel.distanthorizons.api.interfaces.render.IDhApiCustomRenderRegister;
 import com.seibel.distanthorizons.api.interfaces.render.IDhApiRenderableBoxGroup;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.DhApiBeforeGenericObjectRenderEvent;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.DhApiBeforeGenericRenderCleanupEvent;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.DhApiBeforeGenericRenderSetupEvent;
 import com.seibel.distanthorizons.api.methods.events.sharedParameterObjects.DhApiRenderParam;
 import com.seibel.distanthorizons.api.objects.math.DhApiVec3d;
 import com.seibel.distanthorizons.api.objects.render.DhApiRenderableBox;
 import com.seibel.distanthorizons.api.objects.render.DhApiRenderableBoxGroupShading;
 import com.seibel.distanthorizons.common.render.blaze.objects.BlazeGenericObjectVertexContainer;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazeDhVertexFormatUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.BlazeVertexFormatBuilder;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureViewWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeUniformBufferWrapper;
 import com.seibel.distanthorizons.common.wrappers.misc.LightMapWrapper;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.logging.f3.F3Screen;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.render.RenderThreadTaskHandler;
 import com.seibel.distanthorizons.core.render.renderer.GenericRenderObjectFactory;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IDhGenericObjectVertexBufferContainer;
 import com.seibel.distanthorizons.core.render.renderer.RenderableBoxGroup;
 import com.seibel.distanthorizons.core.util.LodUtil;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import com.seibel.distanthorizons.core.util.math.DhVec3d;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IProfilerWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhGenericRenderer;
 import com.seibel.distanthorizons.coreapi.DependencyInjection.ApiEventInjector;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import java.awt.*;
 import java.util.ArrayList;
 import java.util.Collection;
 import java.util.concurrent.ConcurrentHashMap;
 /**
 * Handles rendering generic groups of {@link DhApiRenderableBox}.
 * 
 * @see IDhApiCustomRenderRegister
 * @see DhApiRenderableBox
 */
 public class BlazeDhGenericObjectRenderer implements IDhGenericRenderer
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final IMinecraftRenderWrapper MC_RENDER = SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class);
 	private static final AbstractDhRenderApiDefinition RENDER_API_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	private static final DhApiRenderableBoxGroupShading DEFAULT_SHADING = DhApiRenderableBoxGroupShading.getUnshaded();
 	/** 
 	 * Can be used to troubleshoot the renderer. 
 	 * If enabled several debug objects will render around (0,150,0). 
 	 */
 	public static final boolean RENDER_DEBUG_OBJECTS = false;
 	private static final DhApiBeforeGenericObjectRenderEvent.EventParam EVENT_PARAM = new DhApiBeforeGenericObjectRenderEvent.EventParam();
 	private final ConcurrentHashMap<Long, RenderableBoxGroup> boxGroupById = new ConcurrentHashMap<>();
 	// rendering setup
 	private boolean init = false;
 	private RenderPipeline pipeline;
 	private final BlazeUniformBufferWrapper vertUniformBufferWrapper = new BlazeUniformBufferWrapper("vertUniformBlock");
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public BlazeDhGenericObjectRenderer() { }
 	public void init()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		this.createPipelines();
 		if (RENDER_DEBUG_OBJECTS)
 		{
 			this.addGenericDebugObjects();
 		}
 	}
 	private void createPipelines()
 	{
 		RenderPipelineBuilderWrapper pipelineBuilder = new RenderPipelineBuilderWrapper();
 		{
 			pipelineBuilder.withFaceCulling(true);
 			pipelineBuilder.withDepthWrite(true);
 			if (RENDER_API_DEF.getRenderDepth() == EDhRenderDepth.FORWARD_Z)
 			{
 				pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.LESS);
 			}
 			else
 			{
 				pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.GREATER);
 			}
 			pipelineBuilder.withBlend(BlendFunction.TRANSLUCENT); // TRANSLUCENT = new BlendFunction(SourceFactor.SRC_ALPHA, DestFactor.ONE_MINUS_SRC_ALPHA, SourceFactor.ONE, DestFactor.ONE_MINUS_SRC_ALPHA);
 			pipelineBuilder.withColorWrite(true);
 			pipelineBuilder.withPolygonMode(RenderPipelineBuilderWrapper.EDhPolygonMode.FILL);
 			pipelineBuilder.withName("generic_objects");
 			pipelineBuilder.withVertexShader("generic/blaze/vert");
 			pipelineBuilder.withFragmentShader("generic/blaze/frag");
 			pipelineBuilder.withSampler("uLightMap");
 			pipelineBuilder.withUniformBuffer("vertUniformBlock");
 			VertexFormat vertexFormat = new BlazeVertexFormatBuilder()
 				.add("vPosition", BlazeDhVertexFormatUtil.FLOAT_XYZ_POS)
 				.add("aColor", BlazeDhVertexFormatUtil.RGBA_UBYTE_COLOR)
 				.add("aMaterial", BlazeDhVertexFormatUtil.IRIS_MATERIAL)
 				.add("paddingOne", BlazeDhVertexFormatUtil.BYTE_PAD)
 				.add("paddingTwo", BlazeDhVertexFormatUtil.BYTE_PAD)
 				.add("paddingThree", BlazeDhVertexFormatUtil.BYTE_PAD)
 				.build();
 			pipelineBuilder.withVertexFormat(vertexFormat);
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.TRIANGLES);
 		}
 		this.pipeline = pipelineBuilder.build();
 	}
 	private void addGenericDebugObjects()
 	{
 		GenericRenderObjectFactory factory = GenericRenderObjectFactory.INSTANCE;
 		// single giant box
 		IDhApiRenderableBoxGroup singleGiantBoxGroup = factory.createForSingleBox(
 				ModInfo.NAME + ":CyanChunkBox",
 				new DhApiRenderableBox(
 						new DhApiVec3d(0,0,0), new DhApiVec3d(16,190,16),
 						new Color(Color.CYAN.getRed(), Color.CYAN.getGreen(), Color.CYAN.getBlue(), 125),
 						EDhApiBlockMaterial.WATER)
 		);
 		singleGiantBoxGroup.setSkyLight(LodUtil.MAX_MC_LIGHT);
 		singleGiantBoxGroup.setBlockLight(LodUtil.MAX_MC_LIGHT);
 		this.add(singleGiantBoxGroup);
 		// single slender box
 		IDhApiRenderableBoxGroup singleTallBoxGroup = factory.createForSingleBox(
 				ModInfo.NAME + ":GreenBeacon",
 				new DhApiRenderableBox(
 						new DhApiVec3d(16,0,31), new DhApiVec3d(17,2000,32),
 						new Color(Color.GREEN.getRed(), Color.GREEN.getGreen(), Color.GREEN.getBlue(), 125),
 						EDhApiBlockMaterial.ILLUMINATED)
 		);
 		singleTallBoxGroup.setSkyLight(LodUtil.MAX_MC_LIGHT);
 		singleTallBoxGroup.setBlockLight(LodUtil.MAX_MC_LIGHT);
 		this.add(singleTallBoxGroup);
 		// absolute box group
 		ArrayList<DhApiRenderableBox> absBoxList = new ArrayList<>();
 		for (int i = 0; i < 18; i++)
 		{
 			absBoxList.add(new DhApiRenderableBox(
 					new DhApiVec3d(i,150+i,24), new DhApiVec3d(1+i,151+i,25),
 					new Color(Color.ORANGE.getRed(), Color.ORANGE.getGreen(), Color.ORANGE.getBlue()),
 					EDhApiBlockMaterial.LAVA
 				)
 			);
 		}
 		IDhApiRenderableBoxGroup absolutePosBoxGroup = factory.createAbsolutePositionedGroup(ModInfo.NAME + ":OrangeStairs", absBoxList);
 		this.add(absolutePosBoxGroup);
 		// relative box group
 		ArrayList<DhApiRenderableBox> relBoxList = new ArrayList<>();
 		for (int i = 0; i < 8; i+=2)
 		{
 			relBoxList.add(new DhApiRenderableBox(
 					new DhApiVec3d(0,i,0), new DhApiVec3d(1,1+i,1),
 					new Color(Color.MAGENTA.getRed(), Color.MAGENTA.getGreen(), Color.MAGENTA.getBlue()),
 					EDhApiBlockMaterial.METAL
 				)
 			);
 		}
 		IDhApiRenderableBoxGroup relativePosBoxGroup = factory.createRelativePositionedGroup(
 				ModInfo.NAME + ":MovingMagentaGroup",
 				new DhApiVec3d(24, 140, 24),
 				relBoxList);
 		relativePosBoxGroup.setPreRenderFunc((event) ->
 		{
 			DhApiVec3d pos = relativePosBoxGroup.getOriginBlockPos();
 			pos.x += event.partialTicks / 2;
 			pos.x %= 32;
 			relativePosBoxGroup.setOriginBlockPos(pos);
 		});
 		this.add(relativePosBoxGroup);
 		// massive relative box group
 		ArrayList<DhApiRenderableBox> massRelBoxList = new ArrayList<>();
 		for (int x = 0; x < 50*2; x+=2)
 		{
 			for (int z = 0; z < 50*2; z+=2)
 			{
 				massRelBoxList.add(new DhApiRenderableBox(
 						new DhApiVec3d(-x, 0, -z), new DhApiVec3d(1-x, 1, 1-z),
 						new Color(Color.RED.getRed(), Color.RED.getGreen(), Color.RED.getBlue()),
 						EDhApiBlockMaterial.TERRACOTTA
 					)
 				);
 			}
 		}
 		IDhApiRenderableBoxGroup massRelativePosBoxGroup = factory.createRelativePositionedGroup(
 				ModInfo.NAME + ":MassRedGroup",
 				new DhApiVec3d(-25, 140, 0),
 				massRelBoxList);
 		massRelativePosBoxGroup.setPreRenderFunc((event) ->
 		{
 			DhApiVec3d blockPos = massRelativePosBoxGroup.getOriginBlockPos();
 			blockPos.y += event.partialTicks / 4;
 			if (blockPos.y > 150f)
 			{
 				blockPos.y = 140f;
 				Color newColor = (massRelativePosBoxGroup.get(0).color == Color.RED) ? Color.RED.darker() : Color.RED;
 				massRelativePosBoxGroup.forEach((box) -> { box.color = newColor; });
 				massRelativePosBoxGroup.triggerBoxChange();
 			}
 			massRelativePosBoxGroup.setOriginBlockPos(blockPos);
 		});
 		this.add(massRelativePosBoxGroup);
 	}
 	//endregion
 	//==============//
 	// registration //
 	//==============//
 	//region
 	@Override
 	public void add(IDhApiRenderableBoxGroup iBoxGroup) throws IllegalArgumentException 
 	{
 		if (!(iBoxGroup instanceof RenderableBoxGroup))
 		{
 			throw new IllegalArgumentException("Box group must be of type ["+ RenderableBoxGroup.class.getSimpleName()+"], type received: ["+(iBoxGroup != null ? iBoxGroup.getClass() : "NULL")+"].");
 		}
 		RenderableBoxGroup boxGroup = (RenderableBoxGroup) iBoxGroup;
 		if (boxGroup.size() != 0)
 		{
 			// trigger a box change to make sure the initial data is uploaded
 			boxGroup.triggerBoxChange();
 		}
 		long id = boxGroup.getId();
 		if (this.boxGroupById.containsKey(id))
 		{
 			throw new IllegalArgumentException("A box group with the ID [" + id + "] is already present.");
 		}
 		this.boxGroupById.put(id, boxGroup);
 	}
 	@Override
 	public IDhApiRenderableBoxGroup remove(long id) { return this.boxGroupById.remove(id); }
 	public void clear() { this.boxGroupById.clear(); }
 	//endregion
 	//===========//
 	// rendering //
 	//===========//
 	//region
 	/**
 	 * @param renderingWithSsao 
 	 *      if true that means this render call is happening before the SSAO pass
     *      and any objects rendered in this pass will have SSAO applied to them.
 	 */
 	@Override
 	public void render(RenderParams renderEventParam, IProfilerWrapper profiler, boolean renderingWithSsao)
 	{
 		try (IProfilerWrapper.IProfileBlock generic_profile = profiler.push("setup"))
 		{
 			//==============//
 			// render setup //
 			//==============//
 			//#region
 			this.init();
 			ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeGenericRenderSetupEvent.class, renderEventParam.apiCopy);
 			DhVec3d camPos = MC_RENDER.getCameraExactPosition();
 			//#endregion
 			if (BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper.isEmpty()
 				|| BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper.isEmpty())
 			{
 				return;
 			}
 			//===========//
 			// rendering //
 			//===========//
 			//#region
 			Collection<RenderableBoxGroup> boxList = this.boxGroupById.values();
 			for (RenderableBoxGroup boxGroup : boxList)
 			{
 				// validation //
 				// shouldn't happen, but just in case
 				if (boxGroup == null)
 				{
 					continue;
 				}
 				// skip boxes that shouldn't render this pass
 				if (boxGroup.ssaoEnabled != renderingWithSsao)
 				{
 					continue;
 				}
 				profiler.popPush("render prep");
 				boxGroup.preRender(renderEventParam); // called even if the group is inactive, so the group can be activate if desired
 				// ignore inactive groups
 				if (!boxGroup.active)
 				{
 					continue;
 				}
 				// allow API users to cancel this object's rendering
 				EVENT_PARAM.update(renderEventParam, boxGroup);
 				boolean cancelRendering = ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeGenericObjectRenderEvent.class, EVENT_PARAM);
 				if (cancelRendering)
 				{
 					continue;
 				}
 				// update instanced data if needed
 				{
 					boxGroup.tryUpdateInstancedDataAsync();
 					// skip groups that haven't been uploaded yet
 					if (boxGroup.vertexBufferContainer.getState() != IDhGenericObjectVertexBufferContainer.EState.RENDER)
 					{
 						continue;
 					}
 				}
 				DhApiRenderableBoxGroupShading shading = boxGroup.shading;
 				if (shading == null)
 				{
 					shading = DEFAULT_SHADING;
 				}
 				// uniforms
 				{
 					// create data //
 					DhMat4f projectionMvmMatrix = new DhMat4f(renderEventParam.dhProjectionMatrix);
 					projectionMvmMatrix.multiply(renderEventParam.dhModelViewMatrix);
 					// upload data //
 					this.vertUniformBufferWrapper
 						.putVec3i(
 							LodUtil.getChunkPosFromDouble(boxGroup.getOriginBlockPos().x),
 							LodUtil.getChunkPosFromDouble(boxGroup.getOriginBlockPos().y),
 							LodUtil.getChunkPosFromDouble(boxGroup.getOriginBlockPos().z)
 						) // uOffsetChunk
 						.putVec3f(
 							LodUtil.getSubChunkPosFromDouble(boxGroup.getOriginBlockPos().x),
 							LodUtil.getSubChunkPosFromDouble(boxGroup.getOriginBlockPos().y),
 							LodUtil.getSubChunkPosFromDouble(boxGroup.getOriginBlockPos().z)
 						) // uOffsetSubChunk
 						.putVec3i(
 							LodUtil.getChunkPosFromDouble(camPos.x),
 							LodUtil.getChunkPosFromDouble(camPos.y),
 							LodUtil.getChunkPosFromDouble(camPos.z)
 						) // uCameraPosChunk
 						.putVec3f(
 							LodUtil.getSubChunkPosFromDouble(camPos.x),
 							LodUtil.getSubChunkPosFromDouble(camPos.y),
 							LodUtil.getSubChunkPosFromDouble(camPos.z)
 						) // uCameraPosSubChunk
 						.putMat4f(projectionMvmMatrix) // uProjectionMvm
 						.putInt(boxGroup.getSkyLight()) // uSkyLight
 						.putInt(boxGroup.getBlockLight()) // uBlockLight
 						.putFloat(shading.north)
 						.putFloat(shading.south)
 						.putFloat(shading.east)
 						.putFloat(shading.west)
 						.putFloat(shading.top)
 						.putFloat(shading.bottom)
 						.finishAndUpload()
 					;
 				}
 				// render //
 				profiler.popPush("rendering");
 				try (IProfilerWrapper.IProfileBlock namespace_profile = profiler.push(boxGroup.getResourceLocationNamespace());
 					IProfilerWrapper.IProfileBlock location_profile = profiler.push(boxGroup.getResourceLocationPath()))
 				{
 					this.renderBoxGroupInstanced(renderEventParam, boxGroup, profiler);
 				}
 				boxGroup.postRender(renderEventParam);
 			}
 			//#endregion
 			//==========//
 			// clean up //
 			//==========//
 			//region
 			profiler.popPush("cleanup");
 			ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeGenericRenderCleanupEvent.class, renderEventParam);
 			//endregion
 		}
 	}
 	private String getRenderPassName() { return "distantHorizons:GenericObjectRenderer"; }
 	//endregion
 	//=====================//
 	// instanced rendering //
 	//=====================//
 	//region
 	private void renderBoxGroupInstanced(
 		RenderParams renderEventParam, 
 		RenderableBoxGroup boxGroup,
 		IProfilerWrapper profiler)
 	{
 		try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 			this::getRenderPassName,
 			BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper,
 			BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper))
 		{
 			// update instance data //
 			BlazeGenericObjectVertexContainer container = (BlazeGenericObjectVertexContainer) boxGroup.vertexBufferContainer;
 			LightMapWrapper lightMapWrapper = (LightMapWrapper) renderEventParam.lightmap;
 			BlazeTextureViewWrapper lightmapTextureViewWrapper = lightMapWrapper.getTextureViewWrapper();
 			renderPassWrapper.bindTexture("uLightMap", lightmapTextureViewWrapper);
 			// Bind instance data //
 			renderPassWrapper.setUniform("vertUniformBlock", this.vertUniformBufferWrapper);
 			// set pipeline
 			renderPassWrapper.setPipeline(this.pipeline);
 			renderPassWrapper.setIndexBuffer(container.indexGpuBuffer);
 			renderPassWrapper.setVertexBuffer(container.vboGpuBuffer);
 			// Draw instanced
 			if (container.uploadedBoxCount > 0)
 			{
 				// 36 = 6 faces * 6 verticies per face
 				renderPassWrapper.drawIndexed(container.uploadedBoxCount * 36);
 			}
 		}
 	}
 	//endregion
 	//=========//
 	// F3 menu //
 	//=========//
 	//region
 	public String getVboRenderDebugMenuString()
 	{
 		// get counts
 		int totalGroupCount = this.boxGroupById.size();
 		int totalBoxCount = 0;
 		int activeGroupCount = 0;
 		int activeBoxCount = 0;
 		for (long key : this.boxGroupById.keySet())
 		{
 			RenderableBoxGroup renderGroup = this.boxGroupById.get(key);
 			if (renderGroup.active)
 			{
 				activeGroupCount++;
 				activeBoxCount += renderGroup.size();
 			}
 			totalBoxCount += renderGroup.size();
 		}
 		return "Generic Obj #: " + F3Screen.NUMBER_FORMAT.format(activeGroupCount) + "/" + F3Screen.NUMBER_FORMAT.format(totalGroupCount) + ", " +
 				"Cube #: " + F3Screen.NUMBER_FORMAT.format(activeBoxCount) + "/" + F3Screen.NUMBER_FORMAT.format(totalBoxCount);
 	}
 	//endregion
 	//================//
 	// base overrides //
 	//================//
 	//region
 	@Override
 	public void close()
 	{
 		// close is called outside the render thread and buffer closing must be done on the render thread
 		RenderThreadTaskHandler.INSTANCE.queueRunningOnRenderThread("Generic Obj Cleanup", () ->
 		{
 			if (this.vertUniformBufferWrapper != null)
 			{
 				this.vertUniformBufferWrapper.close();
 			}
 		});
 	}
 	//endregion
 }
 #endif
@@ -1,122 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhMetaRenderer {}
 #else
 import com.mojang.blaze3d.textures.GpuTexture;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.DhApiAfterColorDepthTextureCreatedEvent;
 import com.seibel.distanthorizons.api.methods.events.sharedParameterObjects.DhApiTextureCreatedParam;
 import com.seibel.distanthorizons.common.render.blaze.apply.BlazeDhApplyRenderer;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureWrapper;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.coreapi.util.ColorUtil;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhMetaRenderer;
 import com.seibel.distanthorizons.coreapi.DependencyInjection.ApiEventInjector;
 import net.minecraft.client.Minecraft;
 import java.awt.*;
 public class BlazeDhMetaRenderer implements IDhMetaRenderer
 {
 	public static final BlazeDhMetaRenderer INSTANCE = new BlazeDhMetaRenderer();
 	private static final IMinecraftRenderWrapper MC_RENDER = SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class);
 	private BlazeDhApplyRenderer applyRenderer;
 	private final float clearDepth;
 	public final BlazeTextureWrapper dhDepthTextureWrapper = BlazeTextureWrapper.createDepth("DhDepthTexture");
 	public final BlazeTextureWrapper dhColorTextureWrapper = BlazeTextureWrapper.createColor("DhColorTexture");
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private BlazeDhMetaRenderer() 
 	{
 		AbstractDhRenderApiDefinition renderApiDefinition = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 		this.clearDepth = renderApiDefinition.getRenderDepth().farDepth;
 		this.applyRenderer = new BlazeDhApplyRenderer(
 			"dh_apply_to_mc",
 			null,
 			"apply/blaze/vert", "apply/blaze/frag"
 		);
 	}
 	//endregion
 	//=================//
 	// pre/post render //
 	//=================//
 	//region
 	@Override
 	public void runRenderPassSetup(RenderParams renderParams)
 	{
 		int oldWidth = this.dhDepthTextureWrapper.getWidth();
 		int oldHeight = this.dhDepthTextureWrapper.getHeight();
 		boolean texturesChanged = false;
 		texturesChanged = this.dhDepthTextureWrapper.tryCreateOrResize() | texturesChanged;
 		texturesChanged = this.dhColorTextureWrapper.tryCreateOrResize() | texturesChanged;
 		if (texturesChanged)
 		{
 			int newTextureWidth = MC_RENDER.getTargetFramebufferViewportWidth();
 			int newTextureHeight = MC_RENDER.getTargetFramebufferViewportHeight();
 			DhApiTextureCreatedParam textureCreatedParam = new DhApiTextureCreatedParam(
 				oldWidth, oldHeight,
 				newTextureWidth, newTextureHeight
 			);
 			ApiEventInjector.INSTANCE.fireAllEvents(DhApiAfterColorDepthTextureCreatedEvent.class, textureCreatedParam);
 		}
 	}
 	@Override
 	public void runRenderPassCleanup(RenderParams renderParams) {}
 	@Override
 	public void applyToMcTexture(RenderParams renderParams)
 	{
 		GpuTexture mcColorTexture = MinecraftRenderWrapper.INSTANCE.getRenderTarget().getColorTexture();
 		this.applyRenderer.render(this.dhColorTextureWrapper.texture, this.dhDepthTextureWrapper.texture, mcColorTexture);
 	}
 	//endregion
 	//================//
 	// clear textures //
 	//================//
 	//region
 	@Override
 	public void clearDhDepthAndColorTextures(RenderParams renderParams) 
 	{
 		this.dhDepthTextureWrapper.clearDepth(this.clearDepth);
 		Color color = MC_RENDER.getSkyColor();
 		this.dhColorTextureWrapper.clearColor(ColorUtil.toColorInt(color)); 
 	}
 	//endregion
 }
 #endif
@@ -1,114 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhRenderApiDefinition {}
 #else
 import com.seibel.distanthorizons.api.enums.config.EDhApiRenderingApi;
 import com.seibel.distanthorizons.common.render.blaze.objects.BlazeGenericObjectVertexContainer;
 import com.seibel.distanthorizons.common.render.blaze.postProcessing.BlazeDhFarFadeRenderer;
 import com.seibel.distanthorizons.common.render.blaze.postProcessing.BlazeDhFogRenderer;
 import com.seibel.distanthorizons.common.render.blaze.postProcessing.BlazeDhSsaoRenderer;
 import com.seibel.distanthorizons.common.render.blaze.postProcessing.BlazeVanillaFadeRenderer;
 import com.seibel.distanthorizons.common.render.blaze.test.BlazeDhTestTriangleRenderer;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.buffer.BlazeVertexBufferWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeLodUniformBufferWrapper;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.render.renderer.AbstractDebugWireframeRenderer;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IDhGenericObjectVertexBufferContainer;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.ILodContainerUniformBufferWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IVertexBufferWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.*;
 #if MC_VER <= MC_26_1_2
 #else
 #endif
 public class BlazeDhRenderApiDefinition extends AbstractDhRenderApiDefinition
 {
 	//=========//
 	// getters //
 	//=========//
 	//region
 	private final String engineName;
 	public String getEngineName() { return this.engineName; }
 	public EDhRenderDepth getRenderDepth()
 	{
 		#if MC_VER <= MC_26_1_2
 		return EDhRenderDepth.FORWARD_Z;
 		#else
 		return EDhRenderDepth.REVERSE_Z;
 		#endif
 	}
 	private final EDhApiRenderingApi renderApi;
 	public EDhApiRenderingApi getRenderApi() { return renderApi; }
 	public boolean isNativeRenderer() { return false; }
 	//endregion
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public BlazeDhRenderApiDefinition()
 	{
 		#if MC_VER <= MC_26_1_2
 		renderApi = EDhApiRenderingApi.OPEN_GL;
 		#else
 		// Blaze always uses the same rendering API as Minecraft
 		this.renderApi = MinecraftRenderWrapper.INSTANCE.getMcRenderingApi();
 		#endif
 		this.engineName = "Blaze3D: " + this.getRenderApi();
 	}
 	//endregion
 	//============//
 	// singletons //
 	//============//
 	//region
 	@Override public IDhMetaRenderer getMetaRenderer() { return BlazeDhMetaRenderer.INSTANCE; }
 	@Override public IDhTerrainRenderer getTerrainRenderer() { return BlazeDhTerrainRenderer.INSTANCE; }
 	@Override public IDhSsaoRenderer getSsaoRenderer() { return BlazeDhSsaoRenderer.INSTANCE; }
 	@Override public IDhFogRenderer getFogRenderer() { return BlazeDhFogRenderer.INSTANCE; }
 	@Override public IDhFarFadeRenderer getFarFadeRenderer() { return BlazeDhFarFadeRenderer.INSTANCE; }
 	@Override public AbstractDebugWireframeRenderer getDebugWireframeRenderer() { return BlazeDebugWireframeRenderer.INSTANCE; }
 	@Override public IDhVanillaFadeRenderer getVanillaFadeRenderer() { return BlazeVanillaFadeRenderer.INSTANCE; }
 	@Override public IDhTestTriangleRenderer getTestTriangleRenderer() { return BlazeDhTestTriangleRenderer.INSTANCE; }
 	//endregion
 	//===========//
 	// factories //
 	//===========//
 	//region
 	@Override public IDhGenericRenderer createGenericRenderer() { return new BlazeDhGenericObjectRenderer(); }
 	@Override public IVertexBufferWrapper createVboWrapper(String name) { return new BlazeVertexBufferWrapper(name); }
 	@Override public ILodContainerUniformBufferWrapper createLodContainerUniformWrapper() { return new BlazeLodUniformBufferWrapper(); }
 	@Override public IDhGenericObjectVertexBufferContainer createGenericVboContainer() { return new BlazeGenericObjectVertexContainer(); }
 	//endregion
 }
 #endif
@@ -1,338 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhTerrainRenderer {}
 #else
 import com.mojang.blaze3d.pipeline.BlendFunction;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.mojang.blaze3d.vertex.VertexFormat;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.DhApiBeforeBufferRenderEvent;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.DhApiBeforeRenderPassEvent;
 import com.seibel.distanthorizons.api.methods.events.sharedParameterObjects.DhApiRenderParam;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazeDhVertexFormatUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.BlazeVertexFormatBuilder;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureViewWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeLodUniformBufferWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.buffer.BlazeVertexBufferWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeUniformBufferWrapper;
 import com.seibel.distanthorizons.common.wrappers.misc.LightMapWrapper;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dataObjects.render.bufferBuilding.LodBufferContainer;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.pos.DhSectionPos;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.util.RenderUtil;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import com.seibel.distanthorizons.core.util.math.DhVec3d;
 import com.seibel.distanthorizons.core.util.math.DhVec3f;
 import com.seibel.distanthorizons.core.util.objects.SortedArraySet;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IProfilerWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhTerrainRenderer;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IVertexBufferWrapper;
 import com.seibel.distanthorizons.coreapi.DependencyInjection.ApiEventInjector;
 /** Renders rendering DH's LOD terrain. */
 public class BlazeDhTerrainRenderer implements IDhTerrainRenderer
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final AbstractDhRenderApiDefinition RENDER_API_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	public static final BlazeDhTerrainRenderer INSTANCE = new BlazeDhTerrainRenderer();
 	private static final DhVec3f MODEL_POS = new DhVec3f();
 	/** single event object used to reduce GC pressure */
 	private static final DhApiBeforeBufferRenderEvent.EventParam BEFORE_BUFFER_RENDER_EVENT_PARAM = new DhApiBeforeBufferRenderEvent.EventParam();
 	private RenderPipeline opaquePipeline;
 	private RenderPipeline transparentPipeline;
 	private boolean init = false;
 	private final BlazeUniformBufferWrapper fragUniformBufferWrapper = new BlazeUniformBufferWrapper("fragUniformBlock");
 	private final BlazeUniformBufferWrapper vertSharedUniformBufferWrapper = new BlazeUniformBufferWrapper("vertSharedUniformBlock");
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private BlazeDhTerrainRenderer() { }
 	private void tryInit()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		RenderPipelineBuilderWrapper opaquePipelineBuilder = new RenderPipelineBuilderWrapper();
 		RenderPipelineBuilderWrapper translucentPipelineBuilder = new RenderPipelineBuilderWrapper();
 		// apply shared options to both pipelines
 		for (int i = 0; i < 2; i++)
 		{
 			RenderPipelineBuilderWrapper pipelineBuilder = (i == 0) 
 				? opaquePipelineBuilder 
 				: translucentPipelineBuilder;
 			pipelineBuilder.withFaceCulling(true);
 			pipelineBuilder.withDepthWrite(true);
 			if (RENDER_API_DEF.getRenderDepth() == EDhRenderDepth.FORWARD_Z)
 			{
 				pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.LESS);
 			}
 			else
 			{
 				pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.GREATER);
 			}
 			pipelineBuilder.withColorWrite(true);
 			pipelineBuilder.withPolygonMode(RenderPipelineBuilderWrapper.EDhPolygonMode.FILL);
 			pipelineBuilder.withSampler("uLightMap");
 			pipelineBuilder.withVertexShader("lod/blaze/vert");
 			pipelineBuilder.withFragmentShader("lod/blaze/frag");
 			pipelineBuilder.withUniformBuffer("vertUniqueUniformBlock");
 			pipelineBuilder.withUniformBuffer("vertSharedUniformBlock");
 			pipelineBuilder.withUniformBuffer("fragUniformBlock");
 			VertexFormat vertexFormat = new BlazeVertexFormatBuilder()
 				.add("vPosition", BlazeDhVertexFormatUtil.SHORT_XYZ_POS)
 				.add("meta", BlazeDhVertexFormatUtil.META)
 				.add("vColor", BlazeDhVertexFormatUtil.RGBA_UBYTE_COLOR)
 				.add("irisMaterial", BlazeDhVertexFormatUtil.IRIS_MATERIAL)
 				.add("irisNormal", BlazeDhVertexFormatUtil.IRIS_NORMAL)
 				.add("paddingTwo", BlazeDhVertexFormatUtil.BYTE_PAD)
 				.add("paddingThree", BlazeDhVertexFormatUtil.BYTE_PAD) // padding is to make sure the format is a multiple of 4
 				.build();
 			pipelineBuilder.withVertexFormat(vertexFormat);
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.TRIANGLES);
 		}
 		// opaque
 		{
 			opaquePipelineBuilder.withName("opaque_terrain");
 			opaquePipelineBuilder.withoutBlend();
 			this.opaquePipeline = opaquePipelineBuilder.build();
 		}
 		// transparent
 		{
 			translucentPipelineBuilder.withName("transparent_terrain");
 			// TRANSLUCENT = new BlendFunction(SourceFactor.SRC_ALPHA, DestFactor.ONE_MINUS_SRC_ALPHA, SourceFactor.ONE, DestFactor.ONE_MINUS_SRC_ALPHA);
 			translucentPipelineBuilder.withBlend(BlendFunction.TRANSLUCENT);
 			this.transparentPipeline = translucentPipelineBuilder.build();
 		}
 		this.init = true;
 	}
 	//endregion
 	//========//
 	// render //
 	//========//
 	//region
 	@Override
 	public void render(
 		RenderParams renderEventParam, 
 		boolean opaquePass,
 		SortedArraySet<LodBufferContainer> bufferContainers,
 		IProfilerWrapper profiler)
 	{
 		this.tryInit();
 		try(IProfilerWrapper.IProfileBlock terrain_profile = profiler.push("terrain render"))
 		{
 			profiler.popPush("vert unique uniforms");
 			{
 				// create data //
 				for (int lodIndex = 0; lodIndex < bufferContainers.size(); lodIndex++)
 				{
 					LodBufferContainer bufferContainer = bufferContainers.get(lodIndex);
 					bufferContainer.uniformContainer.tryUpload(bufferContainer);
 				}
 			}
 			profiler.popPush("vert share uniforms");
 			{
 				DhMat4f combinedMatrix = new DhMat4f(renderEventParam.dhProjectionMatrix);
 				combinedMatrix.multiply(renderEventParam.dhModelViewMatrix);
 				float earthCurveRatio = Config.Client.Advanced.Graphics.Experimental.earthCurveRatio.get();
 				if (earthCurveRatio < -1.0f || earthCurveRatio > 1.0f)
 				{
 					earthCurveRatio = /*6371KM*/ 6371000.0f / earthCurveRatio;
 				}
 				else
 				{
 					// disable curvature if the config value is between -1 and 1
 					earthCurveRatio = 0.0f;
 				}
 				// upload data //
 				int i = Config.Client.Advanced.Debugging.enableWhiteWorld.get() ? 1 : 0;
 				this.vertSharedUniformBufferWrapper
 					.putInt(i) // uIsWhiteWorld
 					.putFloat((float) renderEventParam.worldYOffset) // uWorldYOffset
 					.putFloat(0.01f) // uMircoOffset // 0.01 block offset
 					.putFloat(earthCurveRatio) // uEarthRadius
 					.putVec3f(
 						(float) renderEventParam.exactCameraPosition.x,
 						(float) renderEventParam.exactCameraPosition.y,
 						(float) renderEventParam.exactCameraPosition.z) // uCameraPos
 					.putMat4f(combinedMatrix) // uCombinedMatrix
 					.finishAndUpload();
 			}
 			profiler.popPush("set frag uniforms");
 			{
 				// create data //
 				float dhNearClipDistance = RenderUtil.getNearClipPlaneInBlocks();
 				if (!Config.Client.Advanced.Debugging.lodOnlyMode.get())
 				{
 					// this added value prevents the near clip plane and discard circle from touching, which looks bad
 					dhNearClipDistance += 16f;
 				}
 				// upload data //
 				this.fragUniformBufferWrapper
 					.putFloat(dhNearClipDistance) // uClipDistance
 					.putFloat(Config.Client.Advanced.Graphics.NoiseTexture.noiseIntensity.get()) // uNoiseIntensity
 					.putInt(Config.Client.Advanced.Graphics.NoiseTexture.noiseSteps.get()) // uNoiseSteps
 					.putInt(Config.Client.Advanced.Graphics.NoiseTexture.noiseDropoff.get()) // uNoiseDropoff
 					.putInt(Config.Client.Advanced.Graphics.Quality.ditherDhFade.get() ? 1 : 0) // uDitherDhRendering
 					.putInt(Config.Client.Advanced.Graphics.NoiseTexture.enableNoiseTexture.get() ? 1 : 0) // uNoiseEnabled
 					.finishAndUpload()
 				;
 			}
 			// render pass setup
 			{
 				profiler.popPush("rendering");
 				ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeRenderPassEvent.class, renderEventParam.apiCopy);
 				// create a render pass
 				try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 					this::getRenderPassName,
 					BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper,
 					BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper)
 				)
 				{
 					LightMapWrapper lightMapWrapper = (LightMapWrapper) renderEventParam.lightmap;
 					BlazeTextureViewWrapper lightmapTextureViewWrapper = lightMapWrapper.getTextureViewWrapper();
 					renderPassWrapper.bindTexture("uLightMap", lightmapTextureViewWrapper);
 					// set pipeline
 					renderPassWrapper.setPipeline(opaquePass ? this.opaquePipeline : this.transparentPipeline);
 					// shared uniforms
 					renderPassWrapper.setUniform("fragUniformBlock", this.fragUniformBufferWrapper);
 					renderPassWrapper.setUniform("vertSharedUniformBlock", this.vertSharedUniformBufferWrapper);
 					for (int lodIndex = 0; lodIndex < bufferContainers.size(); lodIndex++)
 					{
 						LodBufferContainer bufferContainer = bufferContainers.get(lodIndex);
 						BlazeLodUniformBufferWrapper uniformWrapper = (BlazeLodUniformBufferWrapper) bufferContainer.uniformContainer;
 						boolean columnBuilderDebugEnabled = Config.Client.Advanced.Debugging.ColumnBuilderDebugging.columnBuilderDebugEnable.get();
 						if (columnBuilderDebugEnabled)
 						{
 							if (DhSectionPos.getDetailLevel(bufferContainer.pos) == Config.Client.Advanced.Debugging.ColumnBuilderDebugging.columnBuilderDebugDetailLevel.get()
 								&& DhSectionPos.getX(bufferContainer.pos) == Config.Client.Advanced.Debugging.ColumnBuilderDebugging.columnBuilderDebugXPos.get()
 								&& DhSectionPos.getZ(bufferContainer.pos) == Config.Client.Advanced.Debugging.ColumnBuilderDebugging.columnBuilderDebugZPos.get())
 							{
 								int breakpoint = 0;
 							}
 							else
 							{
 								continue;
 							}
 						}
 						renderPassWrapper.setUniform("vertUniqueUniformBlock", uniformWrapper);
 						// render each buffer
 						IVertexBufferWrapper[] bufferWrapperList = opaquePass ? bufferContainer.vboOpaqueWrappers : bufferContainer.vboTransparentWrappers;
 						for (int i = 0; i < bufferWrapperList.length; i++)
 						{
 							BlazeVertexBufferWrapper bufferWrapper = (BlazeVertexBufferWrapper) bufferWrapperList[i];
 							if (!bufferWrapper.uploaded
 								|| bufferWrapper.vertexCount == 0)
 							{
 								continue;
 							}
 							// fire render event
 							{
 								DhVec3d camPos = renderEventParam.exactCameraPosition;
 								MODEL_POS.set(
 									(float) (bufferContainer.minCornerBlockPos.getX() - camPos.x),
 									(float) (bufferContainer.minCornerBlockPos.getY() - camPos.y),
 									(float) (bufferContainer.minCornerBlockPos.getZ() - camPos.z));
 								BEFORE_BUFFER_RENDER_EVENT_PARAM.update(renderEventParam, MODEL_POS);
 								ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeBufferRenderEvent.class, BEFORE_BUFFER_RENDER_EVENT_PARAM);
 							}
 							renderPassWrapper.setIndexBuffer(bufferWrapper.getIndexGpuBuffer());
 							renderPassWrapper.setVertexBuffer(bufferWrapper.vertexGpuBuffer);
 							if (!bufferWrapper.vertexGpuBuffer.isClosed())
 							{
 								renderPassWrapper.drawIndexed(bufferWrapper.indexCount);
 							}
 						}
 					}
 				}
 			}
 		}
 	}
 	private String getIndexBufferName() { return "distantHorizons:LodIndexBuffer"; }
 	private String getRenderPassName() { return "distantHorizons:TerrainRenderer"; }
 	//endregion
 }
 #endif
@@ -1,284 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.blaze.apply;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhApplyRenderer {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.pipeline.BlendFunction;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.mojang.blaze3d.textures.*;
 import com.mojang.blaze3d.vertex.VertexFormat;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazeDhVertexFormatUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.BlazeVertexFormatBuilder;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureViewWrapper;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazePostProcessUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeUniformBufferWrapper;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import org.jetbrains.annotations.Nullable;
 import java.util.Arrays;
 /**
 * Copies the given color texture
 * where the depth (or another attribute) is valid.
 * Often used to apply post processing effects or
 * the DH texture to MC's color texture. <br><br>
 * 
 * @see BlazeDhCopyRenderer
 */
 public class BlazeDhApplyRenderer
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final AbstractDhRenderApiDefinition RENDER_API_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	private RenderPipeline pipeline;
 	private final BlazeUniformBufferWrapper fragUniformBufferWrapper = new BlazeUniformBufferWrapper("baseFragUniformBlock");
 	protected GpuBuffer vboGpuBuffer;
 	protected final String name;
 	protected final String identifierName;
 	public String getIdentifierName() { return this.identifierName; }
 	@Nullable
 	private final BlendFunction blendFunction;
 	private final String vertexShaderPath;
 	private final String fragmentShaderPath;
 	private final BlazeTextureViewWrapper sourceColorTextureViewWrapper = new BlazeTextureViewWrapper();
 	private final BlazeTextureViewWrapper sourceDepthTextureViewWrapper = new BlazeTextureViewWrapper();
 	private final BlazeTextureViewWrapper destinationColorTextureViewWrapper = new BlazeTextureViewWrapper();
 	/** We don't want to actually write any depth data, but blaze3D complains if we don't bind a depth texture. */
 	private final BlazeTextureWrapper dummyDepthTextureWrapper = BlazeTextureWrapper.createDepth("apply_dummy_depth");
 	/** 
 	 * Can be set for special application shaders that need 
 	 * extra information. <br><br>
 	 * 
 	 * will be an empty array if unneeded 
 	 */
 	private final String[] uniformNames;
 	/** will be an empty array if unneeded */
 	private final BlazeUniformBufferWrapper[] uniformBufferWrappers;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public BlazeDhApplyRenderer(
 		String name,
 		@Nullable BlendFunction blendFunction,
 		String vertexShaderPath, String fragmentShaderPath
 		)
 	{
 		this(
 			name,
 			blendFunction,
 			vertexShaderPath, fragmentShaderPath,
 			new String[0] // no extra uniforms
 		);
 	}
 	public BlazeDhApplyRenderer(
 		String name,
 		@Nullable BlendFunction blendFunction,
 		String vertexShaderPath, String fragmentShaderPath,
 		String[] uniformNames
 		)
 	{
 		this.name = name;
 		this.identifierName = "distanthorizons:"+this.name;
 		this.blendFunction = blendFunction;
 		this.vertexShaderPath = vertexShaderPath;
 		this.fragmentShaderPath = fragmentShaderPath;
 		this.uniformNames = uniformNames;
 		this.uniformBufferWrappers = new BlazeUniformBufferWrapper[this.uniformNames.length];
 	}
 	private void tryInit(
 		GpuTexture sourceColorTexture,
 		GpuTexture sourceDepthTexture,
 		GpuTexture destinationColorTexture)
 	{
 		// one-time setup
 		if (this.pipeline == null)
 		{
 			this.createPipeline();
 			this.vboGpuBuffer = BlazePostProcessUtil.createAndUploadScreenVertexData(this.name);
 		}
 		this.sourceColorTextureViewWrapper.tryWrap(sourceColorTexture);
 		this.sourceDepthTextureViewWrapper.tryWrap(sourceDepthTexture);
 		this.destinationColorTextureViewWrapper.tryWrap(destinationColorTexture);
 	}
 	private void createPipeline()
 	{
 		RenderPipelineBuilderWrapper pipelineBuilder = new RenderPipelineBuilderWrapper();
 		{
 			pipelineBuilder.withFaceCulling(false);
 			pipelineBuilder.withDepthWrite(false);
 			pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.NONE);
 			pipelineBuilder.withColorWrite(true);
 			if (this.blendFunction != null)
 			{
 				pipelineBuilder.withBlend(this.blendFunction);
 			}
 			else
 			{
 				pipelineBuilder.withoutBlend();
 			}
 			pipelineBuilder.withPolygonMode(RenderPipelineBuilderWrapper.EDhPolygonMode.FILL);
 			pipelineBuilder.withName(this.name);
 			pipelineBuilder.withVertexShader(this.vertexShaderPath);
 			pipelineBuilder.withFragmentShader(this.fragmentShaderPath);
 			for (int i = 0; i < this.uniformNames.length; i++)
 			{
 				String uniformName = this.uniformNames[i];
 				pipelineBuilder.withUniformBuffer(uniformName);
 			}
 			pipelineBuilder.withUniformBuffer("baseFragUniformBlock");
 			pipelineBuilder.withSampler("uSourceColorTexture");
 			pipelineBuilder.withSampler("uSourceDepthTexture");
 			VertexFormat vertexFormat = new BlazeVertexFormatBuilder()
 				.add("vPosition", BlazeDhVertexFormatUtil.SCREEN_POS)
 				.build();
 			pipelineBuilder.withVertexFormat(vertexFormat);
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.TRIANGLE_FAN);
 		}
 		this.pipeline = pipelineBuilder.build();
 	}
 	//endregion
 	//========//
 	// render //
 	//========//
 	//region
 	public void setUniform(String uniformName, BlazeUniformBufferWrapper uniformBufferWrapper)
 	{
 		// the uniform array should be short enough (less than 10 items)
 		// where a sequential search should be plenty fast
 		for (int i = 0; i < this.uniformNames.length; i++)
 		{
 			String nameAtIndex = this.uniformNames[i];
 			if (nameAtIndex.equals(uniformName))
 			{
 				this.uniformBufferWrappers[i] = uniformBufferWrapper;
 				break;
 			}
 		}
 	}
 	public void render(
 		GpuTexture sourceColorTexture,
 		GpuTexture sourceDepthTexture,
 		GpuTexture destinationColorTexture)
 	{
 		this.tryInit(sourceColorTexture, sourceDepthTexture, destinationColorTexture);
 		this.dummyDepthTextureWrapper.tryCreateOrResize();
 		this.fragUniformBufferWrapper
 			.putInt((RENDER_API_DEF.getRenderDepth() == EDhRenderDepth.REVERSE_Z) ? 1 : 0) // uIsReverseZDepth
 			.finishAndUpload();
 		;
 		try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 			this::getIdentifierName,
 			this.destinationColorTextureViewWrapper,
 			this.dummyDepthTextureWrapper))
 		{
 			renderPassWrapper.bindTexture("uSourceColorTexture", this.sourceColorTextureViewWrapper);
 			renderPassWrapper.bindTexture("uSourceDepthTexture", this.sourceDepthTextureViewWrapper);
 			for (int i = 0; i < this.uniformNames.length; i++)
 			{
 				String uniformName = this.uniformNames[i];
 				BlazeUniformBufferWrapper uniformBuffer = this.uniformBufferWrappers[i];
 				if (uniformBuffer == null)
 				{
 					throw new IllegalStateException("Missing uniform ["+uniformName+"], please set the uniform before rendering.");	
 				}
 				renderPassWrapper.setUniform(uniformName, uniformBuffer);
 			}
 			renderPassWrapper.setUniform("baseFragUniformBlock", this.fragUniformBufferWrapper);
 			renderPassWrapper.setVertexBuffer(this.vboGpuBuffer);
 			renderPassWrapper.setPipeline(this.pipeline);
 			renderPassWrapper.draw(4);
 		}
 		// clear the uniforms after rendering
 		// so we can check if they're missing during next frame's rendering
 		if (ModInfo.IS_DEV_BUILD)
 		{
 			Arrays.fill(this.uniformBufferWrappers, null);
 		}
 	}
 	//endregion
 }
 #endif
@@ -1,145 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.blaze.apply;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhCopyRenderer {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureViewWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureWrapper;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazePostProcessUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.IDhBlazeTexture;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 /**
 * Blindly copies one texture into another.
 *
 * @see BlazeDhApplyRenderer
 */
 public class BlazeDhCopyRenderer
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	public static final BlazeDhCopyRenderer INSTANCE = new BlazeDhCopyRenderer();
 	private RenderPipeline pipeline;
 	private boolean init = false;
 	private GpuBuffer vboGpuBuffer;
 	private BlazeTextureWrapper dummyDepthTextureWrapper;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private BlazeDhCopyRenderer() { }
 	private void tryInit()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		this.dummyDepthTextureWrapper = BlazeTextureWrapper.createDepth("dh_copy_depth_texture");
 		RenderPipelineBuilderWrapper pipelineBuilder = new RenderPipelineBuilderWrapper();
 		{
 			pipelineBuilder.withFaceCulling(false);
 			pipelineBuilder.withDepthWrite(false);
 			pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.NONE);
 			pipelineBuilder.withColorWrite(true);
 			pipelineBuilder.withoutBlend();
 			pipelineBuilder.withPolygonMode(RenderPipelineBuilderWrapper.EDhPolygonMode.FILL);
 			pipelineBuilder.withName("copy");
 			pipelineBuilder.withVertexShader("copy/blaze/vert");
 			pipelineBuilder.withFragmentShader("copy/blaze/frag");
 			pipelineBuilder.withSampler("uCopyTexture");
 			pipelineBuilder.withVertexFormat(BlazePostProcessUtil.createVertexFormat());
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.TRIANGLE_FAN);
 		}
 		this.pipeline = pipelineBuilder.build();
 		this.vboGpuBuffer = BlazePostProcessUtil.createAndUploadScreenVertexData("CopyRenderer");
 	}
 	//endregion
 	//========//
 	// render //
 	//========//
 	//region
 	public void render(
 		IDhBlazeTexture sourceColorTextureWrapper,
 		IDhBlazeTexture destinationColorTextureWrapper)
 	{
 		this.tryInit();
 		this.dummyDepthTextureWrapper.tryCreateOrResize();
 		try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 			this::getRenderPassName,
 			destinationColorTextureWrapper,
 			this.dummyDepthTextureWrapper))
 		{
 			renderPassWrapper.bindTexture("uCopyTexture", sourceColorTextureWrapper);
 			renderPassWrapper.setVertexBuffer(this.vboGpuBuffer); // vertex buffer can only be "0" lol
 			renderPassWrapper.setPipeline(this.pipeline);
 			renderPassWrapper.draw(4);
 		}
 	}
 	private String getRenderPassName() { return "distantHorizons:CopyRenderer"; }
 	//endregion
 }
 #endif
@@ -1,299 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.objects;
 #if MC_VER <= MC_1_21_10
 public class BlazeGenericObjectVertexContainer {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.buffers.GpuBufferSlice;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.seibel.distanthorizons.api.objects.render.DhApiRenderableBox;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.common.render.openGl.glObject.enums.GLEnums;
 import com.seibel.distanthorizons.core.render.RenderThreadTaskHandler;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IDhGenericObjectVertexBufferContainer;
 import com.seibel.distanthorizons.core.render.renderer.RenderableBoxGroup;
 import com.seibel.distanthorizons.coreapi.util.ColorUtil;
 import org.lwjgl.opengl.GL32;
 import java.nio.ByteBuffer;
 import java.nio.ByteOrder;
 import java.util.List;
 /**
 * For use by {@link RenderableBoxGroup} 
 * 
 * @see RenderableBoxGroup
 */
 public class BlazeGenericObjectVertexContainer implements IDhGenericObjectVertexBufferContainer
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	private static final int[] BOX_INDICES = {
 		//region
 		// min X, vertical face
 		2, 1, 0,
 		0, 3, 2,
 		// max X, vertical face
 		6, 5, 4,
 		4, 7, 6,
 		// min Z, vertical face
 		10, 9, 8,
 		8, 11, 10,
 		// max Z, vertical face
 		14, 13, 12,
 		12, 15, 14,
 		// min Y, horizontal face
 		18, 17, 16,
 		16, 19, 18,
 		// max Y, horizontal face
 		20, 21, 22,
 		22, 23, 20,
 		//endregion
 	};
 	public GpuBuffer vboGpuBuffer;
 	public GpuBuffer indexGpuBuffer;
 	private ByteBuffer vertexBuffer = ByteBuffer.allocateDirect(0);
 	private ByteBuffer indexBuffer = ByteBuffer.allocateDirect(0);
 	public int uploadedBoxCount = 0;
 	private EState state = EState.NEW;
 	@Override
 	public IDhGenericObjectVertexBufferContainer.EState getState() { return this.state; }
 	@Override
 	public void setState(IDhGenericObjectVertexBufferContainer.EState state) { this.state = state; }
 	//===========================//
 	// render building/uploading //
 	//===========================//
 	//region
 	@Override
 	public void updateVertexData(List<DhApiRenderableBox> uploadBoxList)
 	{
 		int boxCount = uploadBoxList.size();
 		// recreate the data arrays if their size is different
 		if (this.uploadedBoxCount != boxCount)
 		{
 			this.uploadedBoxCount = boxCount;
 			int vertexBufferSize = this.vertexBufferSize();
 			this.vertexBuffer = ByteBuffer.allocateDirect(vertexBufferSize);
 			this.vertexBuffer.order(ByteOrder.nativeOrder());
 			int indexBufferSize = this.indexBufferSize();
 			this.indexBuffer = ByteBuffer.allocateDirect(indexBufferSize);
 			this.indexBuffer.order(ByteOrder.nativeOrder());
 		}
 		this.vertexBuffer.position(0);
 		this.indexBuffer.position(0);
 		for (int boxIndex = 0; boxIndex < boxCount; boxIndex++)
 		{
 			// index
 			int indexOffset = (boxIndex * 24 /*24 is the number of vertices in a box*/);
 			for (int i = 0; i < BOX_INDICES.length; i++)
 			{
 				this.indexBuffer.putInt(BOX_INDICES[i] + indexOffset);
 			}
 			// vertex
 			DhApiRenderableBox box = uploadBoxList.get(boxIndex);
 			final double[] boxVertices = 
 			{
 				//region
 				// Pos x y z
 				// min X, vertical face
 				box.minPos.x, box.minPos.y, box.minPos.z,
 				box.maxPos.x, box.minPos.y, box.minPos.z,
 				box.maxPos.x, box.maxPos.y, box.minPos.z,
 				box.minPos.x, box.maxPos.y, box.minPos.z,
 				// max X, vertical face
 				box.minPos.x, box.maxPos.y, box.maxPos.z,
 				box.maxPos.x, box.maxPos.y, box.maxPos.z,
 				box.maxPos.x, box.minPos.y, box.maxPos.z,
 				box.minPos.x, box.minPos.y, box.maxPos.z,
 				// min Z, vertical face
 				box.minPos.x, box.minPos.y, box.maxPos.z,
 				box.minPos.x, box.minPos.y, box.minPos.z,
 				box.minPos.x, box.maxPos.y, box.minPos.z,
 				box.minPos.x, box.maxPos.y, box.maxPos.z,
 				// max Z, vertical face
 				box.maxPos.x, box.minPos.y, box.maxPos.z,
 				box.maxPos.x, box.maxPos.y, box.maxPos.z,
 				box.maxPos.x, box.maxPos.y, box.minPos.z,
 				box.maxPos.x, box.minPos.y, box.minPos.z,
 				// min Y, horizontal face
 				box.minPos.x, box.minPos.y, box.maxPos.z,
 				box.maxPos.x, box.minPos.y, box.maxPos.z,
 				box.maxPos.x, box.minPos.y, box.minPos.z,
 				box.minPos.x, box.minPos.y, box.minPos.z,
 				// max Y, horizontal face
 				box.minPos.x, box.maxPos.y, box.maxPos.z,
 				box.maxPos.x, box.maxPos.y, box.maxPos.z,
 				box.maxPos.x, box.maxPos.y, box.minPos.z,
 				box.minPos.x, box.maxPos.y, box.minPos.z,
 				//endregion
 			};
 			for (int vertexIndex = 0; vertexIndex < boxVertices.length; vertexIndex+=3)
 			{
 				this.vertexBuffer.putFloat((float)boxVertices[vertexIndex]); // x
 				this.vertexBuffer.putFloat((float)boxVertices[vertexIndex+1]); // y
 				this.vertexBuffer.putFloat((float)boxVertices[vertexIndex+2]); // z
 				int color = ColorUtil.toColorInt(box.color);
 				byte r = (byte) ColorUtil.getRed(color);
 				byte g = (byte) ColorUtil.getGreen(color);
 				byte b = (byte) ColorUtil.getBlue(color);
 				byte a = (byte) ColorUtil.getAlpha(color);
 				this.vertexBuffer.put(r);
 				this.vertexBuffer.put(g);
 				this.vertexBuffer.put(b);
 				this.vertexBuffer.put(a);
 				this.vertexBuffer.put(box.material);
 				// padding so the vertex format's byte count is a multiple of 4
 				this.vertexBuffer.put((byte)0);
 				this.vertexBuffer.put((byte)0);
 				this.vertexBuffer.put((byte)0);
 			}
 		}
 		this.vertexBuffer.flip();
 		this.indexBuffer.flip();
 	}
 	private int vertexBufferSize()
 	{
 		// minimum of 1 box to prevent trying to create a buffer of size 0
 		int boxCount = Math.max(this.uploadedBoxCount, 1);
 		int faceCount = boxCount * 6; // 6 faces on a cube
 		int vertexCount = faceCount * 6; // 6 vertices per cube
 		int byteSize = vertexCount * 3 * Float.BYTES; // x,y,z
 		byteSize += vertexCount * 4; // r,g,b,a
 		byteSize += 1; // material
 		return byteSize;
 	}
 	private int indexBufferSize()
 	{
 		// minimum of 1 box to prevent trying to create a buffer of size 0
 		int boxCount = Math.max(this.uploadedBoxCount, 1);
 		int quadCount = boxCount * 6 * 6; // 6 faces with 6 vertices each
 		int byteSize = quadCount * GLEnums.getTypeSize(GL32.GL_UNSIGNED_INT);
 		return byteSize;
 	}
 	@Override
 	public void uploadDataToGpu()
 	{
 		// vertex
 		{
 			int totalVertexByteSize = this.vertexBufferSize();
 			if (this.vboGpuBuffer == null
 				// recreating if the size changes is always necessary (even if we only need a smaller amount)
 				// due to a bug on Mac where it will attempt to render anything allocated in the buffer
 				|| this.vboGpuBuffer.size() != totalVertexByteSize)
 			{
 				if (this.vboGpuBuffer != null)
 				{
 					this.vboGpuBuffer.close();
 				}
 				int usage = GpuBuffer.USAGE_COPY_DST 
 					| GpuBuffer.USAGE_VERTEX;
 				this.vboGpuBuffer = GPU_DEVICE.createBuffer(this::getVertexBufferName, usage, totalVertexByteSize);
 			}
 			GpuBufferSlice bufferSlice = new GpuBufferSlice(this.vboGpuBuffer, /*offset*/0, totalVertexByteSize);
 			COMMAND_ENCODER.writeToBuffer(bufferSlice, this.vertexBuffer);
 		}
 		// index
 		{
 			int totalVertexByteSize = this.indexBufferSize();
 			if (this.indexGpuBuffer == null
 				// recreating if the size changes is always necessary (even if we only need a smaller amount)
 				// due to a bug on Mac where it will attempt to render anything allocated in the buffer
 				|| this.indexGpuBuffer.size() != totalVertexByteSize)
 			{
 				if (this.indexGpuBuffer != null)
 				{
 					this.indexGpuBuffer.close();
 				}
 				int usage = GpuBuffer.USAGE_COPY_DST 
 					| GpuBuffer.USAGE_INDEX;
 				this.indexGpuBuffer = GPU_DEVICE.createBuffer(this::getIndexBufferName, usage, totalVertexByteSize);
 			}
 			int offset = 0;
 			GpuBufferSlice bufferSlice = new GpuBufferSlice(this.indexGpuBuffer, offset, totalVertexByteSize);
 			COMMAND_ENCODER.writeToBuffer(bufferSlice, this.indexBuffer);
 		}
 	}
 	private String getVertexBufferName() { return "distantHorizons:GenericVertexBuffer"; }
 	private String getIndexBufferName() { return "distantHorizons:GenericIndexBuffer"; }
 	//endregion
 	//================//
 	// base overrides //
 	//================//
 	//region
 	@Override
 	public void close()
 	{
 		RenderThreadTaskHandler.INSTANCE.queueRunningOnRenderThread("BlazeGenericObjectVertexContainer close", () -> 
 		{
 			if (this.vboGpuBuffer != null)
 			{
 				this.vboGpuBuffer.close();
 			}
 			if (this.indexGpuBuffer != null)
 			{
 				this.indexGpuBuffer.close();
 			}
 		});
 	}
 	//endregion
 }
 #endif
@@ -1,207 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.blaze.postProcessing;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhFarFadeRenderer {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.seibel.distanthorizons.common.render.blaze.BlazeDhMetaRenderer;
 import com.seibel.distanthorizons.common.render.blaze.apply.BlazeDhCopyRenderer;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazePostProcessUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureViewWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeUniformBufferWrapper;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.util.RenderUtil;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhFarFadeRenderer;
 /**
 * Fades out DH's far clip plane
 */
 public class BlazeDhFarFadeRenderer implements IDhFarFadeRenderer
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build(); 
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	private static final AbstractDhRenderApiDefinition RENDER_API_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	public static final BlazeDhFarFadeRenderer INSTANCE = new BlazeDhFarFadeRenderer();
 	private RenderPipeline pipeline;
 	private boolean init = false;
 	private final BlazeUniformBufferWrapper fragUniformBufferWrapper = new BlazeUniformBufferWrapper("fragUniformBlock");
 	private GpuBuffer vboGpuBuffer;
 	private final BlazeTextureWrapper dhFadeColorTextureWrapper = BlazeTextureWrapper.createColor("dh_far_fade_color_texture");
 	/** We don't want to actually write any depth data, but blaze3D complains if we don't bind a depth texture. */
 	private final BlazeTextureWrapper dhFadeDepthTextureWrapper = BlazeTextureWrapper.createDepth("dh_far_fade_depth_texture");
 	private final BlazeTextureViewWrapper mcColorTextureViewWrapper = new BlazeTextureViewWrapper();
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private BlazeDhFarFadeRenderer() { }
 	private void tryInit()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		RenderPipelineBuilderWrapper pipelineBuilder = new RenderPipelineBuilderWrapper();
 		{
 			pipelineBuilder.withFaceCulling(false);
 			pipelineBuilder.withDepthWrite(false);
 			pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.NONE);
 			pipelineBuilder.withColorWrite(true);
 			pipelineBuilder.withoutBlend();
 			pipelineBuilder.withPolygonMode(RenderPipelineBuilderWrapper.EDhPolygonMode.FILL);
 			pipelineBuilder.withName("far_fade");
 			pipelineBuilder.withVertexShader("fade/blaze/vert");
 			pipelineBuilder.withFragmentShader("fade/blaze/dh_fade");
 			pipelineBuilder.withSampler("uMcColorTexture");
 			pipelineBuilder.withSampler("uDhDepthTexture");
 			pipelineBuilder.withSampler("uDhColorTexture");
 			pipelineBuilder.withUniformBuffer("fragUniformBlock");
 			pipelineBuilder.withVertexFormat(BlazePostProcessUtil.createVertexFormat());
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.TRIANGLE_FAN);
 		}
 		this.pipeline = pipelineBuilder.build();
 		this.vboGpuBuffer = BlazePostProcessUtil.createAndUploadScreenVertexData("DhFarFadeRenderer");
 	}
 	//endregion
 	//========//
 	// render //
 	//========//
 	//region
 	@Override
 	public void render(RenderParams renderParams)
 	{
 		this.tryInit();
 		if (BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper.isEmpty()
 			|| BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper.isEmpty())
 		{
 			return;	
 		}
 		// textures
 		this.dhFadeColorTextureWrapper.tryCreateOrResize();
 		this.mcColorTextureViewWrapper.tryWrap(MinecraftRenderWrapper.INSTANCE.getRenderTarget().getColorTexture());
 		this.dhFadeDepthTextureWrapper.tryCreateOrResize();
 		{
 			// create data //
 			float dhFarClipDistance = RenderUtil.getFarClipPlaneDistanceInBlocks();
 			float fadeStartDistance = dhFarClipDistance * 0.5f;
 			float fadeEndDistance = dhFarClipDistance * 0.9f;
 			// upload data //
 			fragUniformBufferWrapper
 				.putFloat(fadeStartDistance) // uStartFadeBlockDistance
 				.putFloat(fadeEndDistance) // uEndFadeBlockDistance
 				.putMat4f(renderParams.dhInverseMvmProjectionMatrix) // uDhInvMvmProj
 				.putInt((RENDER_API_DEF.getRenderDepth() == EDhRenderDepth.REVERSE_Z) ? 1 : 0) // uIsReverseZDepth
 				.finishAndUpload()
 			;
 		}
 		this.renderFadeToTexture();
 		BlazeDhCopyRenderer.INSTANCE.render(this.dhFadeColorTextureWrapper, BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper);
 	}
 	private void renderFadeToTexture()
 	{
 		try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 			this::getRenderPassName,
 			this.dhFadeColorTextureWrapper, 
 			this.dhFadeDepthTextureWrapper))
 		{
 			// MC texture
 			renderPassWrapper.bindTexture("uMcColorTexture", this.mcColorTextureViewWrapper);
 			// DH textures
 			renderPassWrapper.bindTexture("uDhDepthTexture", BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper);
 			renderPassWrapper.bindTexture("uDhColorTexture", BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper);
 			renderPassWrapper.setUniform("fragUniformBlock", this.fragUniformBufferWrapper);
 			renderPassWrapper.setVertexBuffer(this.vboGpuBuffer);
 			renderPassWrapper.setPipeline(this.pipeline);
 			renderPassWrapper.draw(4);
 		}
 	}
 	private String getRenderPassName() { return "distantHorizons:DhFarFadeRenderer"; }
 	//endregion
 }
 #endif
@@ -1,274 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.blaze.postProcessing;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhFogRenderer {}
 #else
 import com.seibel.distanthorizons.api.enums.rendering.EDhApiHeightFogMixMode;
 import com.seibel.distanthorizons.api.methods.events.sharedParameterObjects.DhApiFogRenderParam;
 import com.seibel.distanthorizons.common.render.blaze.BlazeDhMetaRenderer;
 import com.seibel.distanthorizons.common.render.blaze.apply.BlazeDhApplyRenderer;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureWrapper;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazePostProcessUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeUniformBufferWrapper;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.util.LodUtil;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftClientWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhFogRenderer;
 import java.awt.*;
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.pipeline.BlendFunction;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 #if MC_VER <= MC_26_1_2
 import com.mojang.blaze3d.platform.DestFactor;
 import com.mojang.blaze3d.platform.SourceFactor;
 #else
 import com.mojang.blaze3d.platform.BlendFactor;
 #endif
 /**
 * Renders fog onto the LODs.
 */
 public class BlazeDhFogRenderer implements IDhFogRenderer
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build(); 
 	private static final AbstractDhRenderApiDefinition RENDER_API_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	public static final BlazeDhFogRenderer INSTANCE = new BlazeDhFogRenderer();
 	private BlazeDhApplyRenderer applyRenderer;
 	private RenderPipeline pipeline;
 	private boolean init = false;
 	private final BlazeUniformBufferWrapper fragUniformBufferWrapper = new BlazeUniformBufferWrapper("dh_fog_frag_uniform");
 	private GpuBuffer vboGpuBuffer;
 	private final BlazeTextureWrapper fogColorTextureWrapper = BlazeTextureWrapper.createColor("dh_fog_color_texture");
 	/** We don't want to actually write any depth data, but blaze3D complains if we don't bind a depth texture. */
 	private final BlazeTextureWrapper fogDepthTextureWrapper = BlazeTextureWrapper.createDepth("dh_fog_depth_texture");
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private BlazeDhFogRenderer() { }
 	private void tryInit()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		BlendFunction blendFunc;
 		#if MC_VER <= MC_26_1_2
 		blendFunc = new BlendFunction(SourceFactor.SRC_ALPHA, DestFactor.ONE_MINUS_SRC_ALPHA, SourceFactor.ONE, DestFactor.ONE_MINUS_SRC_ALPHA);
 		#else
 		blendFunc = new BlendFunction(BlendFactor.SRC_ALPHA, BlendFactor.ONE_MINUS_SRC_ALPHA, BlendFactor.ONE, BlendFactor.ONE_MINUS_SRC_ALPHA);
 		#endif
 		this.applyRenderer = new BlazeDhApplyRenderer(
 			"fog_apply_to_dh",
 			blendFunc,
 			"apply/blaze/vert", "apply/blaze/frag"
 		);
 		RenderPipelineBuilderWrapper pipelineBuilder = new RenderPipelineBuilderWrapper();
 		{
 			pipelineBuilder.withFaceCulling(false);
 			pipelineBuilder.withDepthWrite(false);
 			pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.NONE);
 			pipelineBuilder.withColorWrite(true);
 			pipelineBuilder.withoutBlend();
 			pipelineBuilder.withPolygonMode(RenderPipelineBuilderWrapper.EDhPolygonMode.FILL);
 			pipelineBuilder.withName("fog_render");
 			pipelineBuilder.withVertexShader("fog/blaze/vert");
 			pipelineBuilder.withFragmentShader("fog/blaze/frag");
 			pipelineBuilder.withSampler("uDhDepthTexture");
 			pipelineBuilder.withUniformBuffer("fragUniformBlock");
 			pipelineBuilder.withVertexFormat(BlazePostProcessUtil.createVertexFormat());
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.TRIANGLE_FAN);
 		}
 		this.pipeline = pipelineBuilder.build();
 		this.vboGpuBuffer = BlazePostProcessUtil.createAndUploadScreenVertexData("FogRenderer");
 	}
 	//endregion
 	//========//
 	// render //
 	//========//
 	//region
 	@Override
 	public void render(RenderParams renderParams, DhApiFogRenderParam fogRenderParams)
 	{
 		this.tryInit();
 		if (BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper.isEmpty()
 			|| BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper.isEmpty())
 		{
 			return;	
 		}
 		this.fogColorTextureWrapper.tryCreateOrResize();
 		this.fogDepthTextureWrapper.tryCreateOrResize();
 		{
 			// create data //
 			int lodDrawDistance = Config.Client.Advanced.Graphics.Quality.lodChunkRenderDistanceRadius.get() * LodUtil.CHUNK_WIDTH;
 			DhMat4f inverseMvmProjMatrix = new DhMat4f(renderParams.dhMvmProjMatrix);
 			inverseMvmProjMatrix.invert();
 			EDhApiHeightFogMixMode heightFogMixingMode = fogRenderParams.getHeightFogMixingMode();
 			boolean heightFogEnabled = 
 				heightFogMixingMode != EDhApiHeightFogMixMode.SPHERICAL 
 				&& heightFogMixingMode != EDhApiHeightFogMixMode.CYLINDRICAL;
 			boolean useSphericalFog = heightFogMixingMode == EDhApiHeightFogMixMode.SPHERICAL;
 			Color fogColor = fogRenderParams.getFogColor();
 			// upload data //
 			this.fragUniformBufferWrapper
 				// fog uniforms
 				.putVec4f(
 					fogColor.getRed() / 255.0f, 
 					fogColor.getGreen() / 255.0f, 
 					fogColor.getBlue() / 255.0f, 
 					fogColor.getAlpha() / 255.0f) // uFogColor
 				.putFloat(1.f / lodDrawDistance) //uFogScale
 				.putFloat(1.f / renderParams.clientLevelWrapper.getMaxHeight()) //uFogVerticalScale
 				.putInt(0) //uFogDebugMode  // 0 = normal // 1 = render everything with fog color // 7 = use debug rendering
 				.putInt(fogRenderParams.getFarFogFalloff().value) //uFogFalloffType
 				// fog config
 				.putFloat(fogRenderParams.getFarFogStartPercent()) // uFarFogStart
 				.putFloat(fogRenderParams.getFarFogEndPercent() - fogRenderParams.getFarFogStartPercent()) // uFarFogLength
 				.putFloat(fogRenderParams.getFarFogMinThickness()) // uFarFogMin
 				.putFloat(fogRenderParams.getFarFogMaxThickness() - fogRenderParams.getFarFogMinThickness()) // uFarFogRange 
 				.putFloat(fogRenderParams.getFarFogDensity()) // uFarFogDensity
 				// height fog config
 				.putFloat(fogRenderParams.getHeightFogStartPercent()) // uHeightFogStart
 				.putFloat(fogRenderParams.getHeightFogEndPercent() - fogRenderParams.getHeightFogStartPercent()) // uHeightFogLength
 				.putFloat(fogRenderParams.getHeightFogMinThickness()) // uHeightFogMin
 				.putFloat(fogRenderParams.getHeightFogMaxThickness() - fogRenderParams.getHeightFogMinThickness()) // uHeightFogRange
 				.putFloat(fogRenderParams.getHeightFogDensity()) // uHeightFogDensity
 				// ??
 				.putInt(heightFogEnabled ? 1 : 0) // uHeightFogEnabled
 				.putInt(fogRenderParams.getHeightFogFalloff().value) // uHeightFogFalloffType
 				.putInt(fogRenderParams.getHeightFogDirection().basedOnCamera ? 1 : 0) // uHeightBasedOnCamera
 				.putFloat(fogRenderParams.getHeightFogBaseHeight()) // uHeightFogBaseHeight
 				.putInt(fogRenderParams.getHeightFogDirection().fogAppliesUp ? 1 : 0) // uHeightFogAppliesUp
 				.putInt(fogRenderParams.getHeightFogDirection().fogAppliesDown ? 1 : 0) // uHeightFogAppliesDown
 				.putInt(useSphericalFog ? 1 : 0) // uUseSphericalFog
 				.putInt(heightFogMixingMode.value) // uHeightFogMixingMode
 				.putFloat((float)renderParams.exactCameraPosition.y) // uCameraBlockYPos
 				.putMat4f(inverseMvmProjMatrix) // uInvMvmProj
 				.putInt((RENDER_API_DEF.getRenderDepth() == EDhRenderDepth.REVERSE_Z) ? 1 : 0) // uIsReverseZDepth
 				.finishAndUpload()
 			;
 		}
 		this.renderFogToTexture();
 		this.applyRenderer.render(this.fogColorTextureWrapper.texture, BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper.texture, BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper.texture);
 	}
 	private void renderFogToTexture()
 	{
 		try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 			this::getRenderPassName,
 			this.fogColorTextureWrapper, 
 			this.fogDepthTextureWrapper))
 		{
 			renderPassWrapper.bindTexture("uDhDepthTexture", BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper);
 			renderPassWrapper.setUniform("fragUniformBlock", this.fragUniformBufferWrapper);
 			renderPassWrapper.setVertexBuffer(this.vboGpuBuffer); // vertex buffer can only be "0" lol
 			renderPassWrapper.setPipeline(this.pipeline);
 			renderPassWrapper.draw(/*indexCount*/ 4);
 		}
 	}
 	private String getRenderPassName() { return "distantHorizons:FogRenderer"; }
 	//endregion
 }
 #endif
@@ -1,253 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.blaze.postProcessing;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhSsaoRenderer {}
 #else
 import com.seibel.distanthorizons.common.render.blaze.BlazeDhMetaRenderer;
 import com.seibel.distanthorizons.common.render.blaze.apply.BlazeDhApplyRenderer;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureWrapper;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazePostProcessUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeUniformBufferWrapper;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.util.RenderUtil;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhSsaoRenderer;
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.pipeline.BlendFunction;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 #if MC_VER <= MC_26_1_2
 import com.mojang.blaze3d.platform.DestFactor;
 import com.mojang.blaze3d.platform.SourceFactor;
 #else
 import com.mojang.blaze3d.platform.BlendFactor;
 #endif
 /** Renders SSAO to the DH LODs. */
 public class BlazeDhSsaoRenderer implements IDhSsaoRenderer
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build(); 
 	private static final IMinecraftRenderWrapper MC_RENDER = SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class);
 	private static final AbstractDhRenderApiDefinition RENDER_API_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	public static final BlazeDhSsaoRenderer INSTANCE = new BlazeDhSsaoRenderer();
 	private BlazeDhApplyRenderer applyRenderer;
 	private RenderPipeline pipeline;
 	private boolean init = false;
 	private final BlazeUniformBufferWrapper fragUniformBufferWrapper = new BlazeUniformBufferWrapper("fragUniformBlock");
 	private final BlazeUniformBufferWrapper applyFragUniformBufferWrapper = new BlazeUniformBufferWrapper("applyFragUniformBlock");
 	private GpuBuffer vboGpuBuffer;
 	private final BlazeTextureWrapper ssaoColorTextureWrapper = BlazeTextureWrapper.createColor("dh_ssao_color_texture");
 	/** We don't want to actually write any depth data, but blaze3D complains if we don't bind a depth texture. */
 	private final BlazeTextureWrapper ssaoDepthTextureWrapper = BlazeTextureWrapper.createDepth("dh_ssao_depth_texture");
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private BlazeDhSsaoRenderer() { }
 	private void tryInit()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		BlendFunction blendFunc;
 		#if MC_VER <= MC_26_1_2
 		blendFunc = new BlendFunction(SourceFactor.ZERO, DestFactor.SRC_ALPHA, SourceFactor.ZERO, DestFactor.ONE);
 		#else
 		blendFunc = new BlendFunction(BlendFactor.ZERO, BlendFactor.SRC_ALPHA, BlendFactor.ZERO, BlendFactor.ONE);
 		#endif
 		this.applyRenderer = new BlazeDhApplyRenderer(
 			"ssao_apply_to_dh",
 			blendFunc,
 			"apply/blaze/vert", "ssao/blaze/apply",
 			/*uniforms*/ new String[] { "applyFragUniformBlock" }
 		);
 		RenderPipelineBuilderWrapper pipelineBuilder = new RenderPipelineBuilderWrapper();
 		{
 			pipelineBuilder.withFaceCulling(false);
 			pipelineBuilder.withDepthWrite(false);
 			pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.NONE);
 			pipelineBuilder.withColorWrite(true);
 			pipelineBuilder.withoutBlend();
 			pipelineBuilder.withPolygonMode(RenderPipelineBuilderWrapper.EDhPolygonMode.FILL);
 			pipelineBuilder.withName("ssao_render");
 			pipelineBuilder.withVertexShader("ssao/blaze/vert");
 			pipelineBuilder.withFragmentShader("ssao/blaze/frag");
 			pipelineBuilder.withSampler("uDhDepthTexture");
 			pipelineBuilder.withUniformBuffer("fragUniformBlock");
 			pipelineBuilder.withVertexFormat(BlazePostProcessUtil.createVertexFormat());
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.TRIANGLE_FAN);
 		}
 		this.pipeline = pipelineBuilder.build();
 		this.vboGpuBuffer = BlazePostProcessUtil.createAndUploadScreenVertexData("McSsao");
 	}
 	//endregion
 	//========//
 	// render //
 	//========//
 	//region
 	@Override
 	public void render(RenderParams renderParams)
 	{
 		this.tryInit();
 		if (BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper.isEmpty()
 			|| BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper.isEmpty())
 		{
 			return;	
 		}
 		// textures
 		this.ssaoColorTextureWrapper.tryCreateOrResize();
 		this.ssaoDepthTextureWrapper.tryCreateOrResize();
 		// frag uniforms
 		{
 			// create data //
 			DhMat4f projMatrix = new DhMat4f(renderParams.dhProjectionMatrix);
 			DhMat4f invertedProjMatrix = new DhMat4f(renderParams.dhProjectionMatrix);
 			invertedProjMatrix.invert();
 			// upload data //
 			this.fragUniformBufferWrapper
 				.putInt(6) // uSampleCount
 				.putFloat(4.0f) // uRadius
 				.putFloat(0.2f) // uStrength
 				.putFloat(0.25f) // uMinLight
 				.putFloat(0.02f) // uBias
 				.putFloat(1_600.0f) // uFadeDistanceInBlocks
 				.putMat4f(invertedProjMatrix)
 				.putMat4f(projMatrix)
 				.putInt((RENDER_API_DEF.getRenderDepth() == EDhRenderDepth.REVERSE_Z) ? 1 : 0) // uIsReverseZDepth
 				.finishAndUpload()
 			;
 		}
 		// apply frag uniforms
 		{
 			// create data //
 			float viewWidth = (float)MC_RENDER.getTargetFramebufferViewportWidth();
 			float viewHeight = (float)MC_RENDER.getTargetFramebufferViewportHeight();
 			float nearClipPlane = RenderUtil.getNearClipPlaneInBlocks();
 			float farClipPlane = RenderUtil.getFarClipPlaneDistanceInBlocks();
 			// upload data //
 			this.applyFragUniformBufferWrapper
 				.putVec2f(viewWidth, viewHeight) // uViewSize
 				.putInt(2) // uBlurRadius
 				.putFloat(nearClipPlane) // uNearClipPlane
 				.putFloat(farClipPlane) // uFarClipPlane
 				.finishAndUpload()
 			;
 		}
 		this.renderSsaoToTexture();
 		this.applyRenderer.setUniform("applyFragUniformBlock", this.applyFragUniformBufferWrapper);
 		this.applyRenderer.render(this.ssaoColorTextureWrapper.texture, BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper.texture, BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper.texture);
 	}
 	private void renderSsaoToTexture()
 	{
 		try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 			this::getRenderPassName,
 			this.ssaoColorTextureWrapper,
 			this.ssaoDepthTextureWrapper))
 		{
 			renderPassWrapper.bindTexture("uDhDepthTexture", BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper);
 			renderPassWrapper.setUniform("fragUniformBlock", this.fragUniformBufferWrapper);
 			renderPassWrapper.setVertexBuffer(this.vboGpuBuffer);
 			renderPassWrapper.setPipeline(this.pipeline);
 			renderPassWrapper.draw(4);
 		}
 	}
 	private String getRenderPassName() { return "distantHorizons:SsaoRenderer"; }
 	//endregion
 }
 #endif
@@ -1,237 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.blaze.postProcessing;
 #if MC_VER <= MC_1_21_10
 public class BlazeVanillaFadeRenderer {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.seibel.distanthorizons.common.render.blaze.BlazeDhMetaRenderer;
 import com.seibel.distanthorizons.common.render.blaze.apply.BlazeDhCopyRenderer;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazePostProcessUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureViewWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeUniformBufferWrapper;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.util.RenderUtil;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhVanillaFadeRenderer;
 /**
 * Fades the vanilla chunks
 * into DH's LODs.
 */
 public class BlazeVanillaFadeRenderer implements IDhVanillaFadeRenderer
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build(); 
 	private static final IMinecraftRenderWrapper MC_RENDER = SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class);
 	private static final AbstractDhRenderApiDefinition RENDER_API_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	public static final BlazeVanillaFadeRenderer INSTANCE = new BlazeVanillaFadeRenderer();
 	private RenderPipeline pipeline;
 	private boolean init = false;
 	private final BlazeUniformBufferWrapper fragUniformBufferWrapper = new BlazeUniformBufferWrapper("fragUniformBlock");
 	private GpuBuffer vboGpuBuffer;
 	public final BlazeTextureWrapper fadeColorTextureWrapper = BlazeTextureWrapper.createColor("DhVanillaFadeColorTexture");
 	/** We don't want to actually write any depth data, but blaze3D complains if we don't bind a depth texture. */
 	private final BlazeTextureWrapper fadeDepthTextureWrapper = BlazeTextureWrapper.createDepth("DhVanillaFadeDepthTexture");
 	public final BlazeTextureViewWrapper mcDepthTextureWrapper = new BlazeTextureViewWrapper();
 	public final BlazeTextureViewWrapper mcColorTextureWrapper = new BlazeTextureViewWrapper();
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private BlazeVanillaFadeRenderer() { }
 	private void tryInit()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		RenderPipelineBuilderWrapper pipelineBuilder = new RenderPipelineBuilderWrapper();
 		{
 			pipelineBuilder.withFaceCulling(false);
 			pipelineBuilder.withDepthWrite(false);
 			pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.NONE);
 			pipelineBuilder.withColorWrite(true);
 			pipelineBuilder.withoutBlend();
 			pipelineBuilder.withPolygonMode(RenderPipelineBuilderWrapper.EDhPolygonMode.FILL);
 			pipelineBuilder.withName("vanilla_fade");
 			pipelineBuilder.withVertexShader("fade/blaze/vert");
 			pipelineBuilder.withFragmentShader("fade/blaze/vanilla_fade");
 			pipelineBuilder.withSampler("uMcDepthTexture");
 			pipelineBuilder.withSampler("uCombinedMcDhColorTexture");
 			pipelineBuilder.withSampler("uDhDepthTexture");
 			pipelineBuilder.withSampler("uDhColorTexture");
 			pipelineBuilder.withUniformBuffer("fragUniformBlock");
 			pipelineBuilder.withVertexFormat(BlazePostProcessUtil.createVertexFormat());
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.TRIANGLE_FAN);
 		}
 		this.pipeline = pipelineBuilder.build();
 		this.vboGpuBuffer = BlazePostProcessUtil.createAndUploadScreenVertexData("VanillaFadeRenderer");
 	}
 	//endregion
 	//========//
 	// render //
 	//========//
 	//region
 	@Override
 	public void render(RenderParams renderParams)
 	{
 		this.tryInit();
 		if (BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper.isEmpty()
 			|| BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper.isEmpty())
 		{
 			return;	
 		}
 		// textures
 		this.fadeColorTextureWrapper.tryCreateOrResize();
 		this.fadeDepthTextureWrapper.tryCreateOrResize();
 		this.mcDepthTextureWrapper.tryWrap(MinecraftRenderWrapper.INSTANCE.getRenderTarget().getDepthTexture());
 		this.mcColorTextureWrapper.tryWrap(MinecraftRenderWrapper.INSTANCE.getRenderTarget().getColorTexture());
 		{
 			// create data //
 			float dhNearClipDistance = RenderUtil.getNearClipPlaneInBlocks();
 			// this added value prevents the near clip plane and discard circle from touching, which looks bad
 			dhNearClipDistance += 16f;
 			// measured in blocks
 			// these multipliers in James' tests should provide a fairly smooth transition
 			// without having underdraw issues
 			float fadeStartDistance = dhNearClipDistance * 1.5f;
 			float fadeEndDistance = dhNearClipDistance * 1.9f;
 			DhMat4f inverseMcModelViewProjectionMatrix = new DhMat4f(renderParams.mcProjectionMatrix);
 			inverseMcModelViewProjectionMatrix.multiply(renderParams.mcModelViewMatrix);
 			inverseMcModelViewProjectionMatrix.invert();
 			DhMat4f inverseMcMvmProjMatrix = inverseMcModelViewProjectionMatrix;
 			DhMat4f inverseDhModelViewProjectionMatrix = new DhMat4f(renderParams.dhProjectionMatrix);
 			inverseDhModelViewProjectionMatrix.multiply(renderParams.dhModelViewMatrix);
 			inverseDhModelViewProjectionMatrix.invert();
 			DhMat4f inverseDhMvmProjMatrix = inverseDhModelViewProjectionMatrix;
 			// upload data //
 			this.fragUniformBufferWrapper
 				.putInt(Config.Client.Advanced.Debugging.lodOnlyMode.get() ? 1 : 0) // uOnlyRenderLods
 				.putFloat(fadeStartDistance) // uStartFadeBlockDistance
 				.putFloat(fadeEndDistance) // uEndFadeBlockDistance
 				.putFloat(renderParams.clientLevelWrapper.getMaxHeight()) // uMaxLevelHeight
 				.putMat4f(inverseDhMvmProjMatrix) // uDhInvMvmProj
 				.putMat4f(inverseMcMvmProjMatrix) // uMcInvMvmProj
 				.putInt((RENDER_API_DEF.getRenderDepth() == EDhRenderDepth.REVERSE_Z) ? 1 : 0) // uIsReverseZDepth
 				.finishAndUpload()
 			;
 		}
 		this.renderFadeToTexture();
 		BlazeDhCopyRenderer.INSTANCE.render(this.fadeColorTextureWrapper, this.mcColorTextureWrapper);
 	}
 	private void renderFadeToTexture()
 	{
 		try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 			this::getRenderPassName,
 			this.fadeColorTextureWrapper,
 			this.fadeDepthTextureWrapper))
 		{
 			renderPassWrapper.bindTexture("uMcDepthTexture", this.mcDepthTextureWrapper);
 			renderPassWrapper.bindTexture("uCombinedMcDhColorTexture", this.mcColorTextureWrapper);
 			renderPassWrapper.bindTexture("uDhDepthTexture", BlazeDhMetaRenderer.INSTANCE.dhDepthTextureWrapper);
 			renderPassWrapper.bindTexture("uDhColorTexture", BlazeDhMetaRenderer.INSTANCE.dhColorTextureWrapper);
 			renderPassWrapper.setUniform("fragUniformBlock", this.fragUniformBufferWrapper);
 			renderPassWrapper.setVertexBuffer(this.vboGpuBuffer);
 			renderPassWrapper.setPipeline(this.pipeline);
 			renderPassWrapper.draw(/*indexCount*/ 4);
 		}
 	}
 	private String getRenderPassName() { return "distantHorizons:VanillaFadeRenderer"; }
 	//endregion
 }
 #endif
@@ -1,190 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.blaze.test;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhTestTriangleRenderer {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.buffers.GpuBufferSlice;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.platform.PolygonMode;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderPass;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.mojang.blaze3d.textures.*;
 import com.mojang.blaze3d.vertex.VertexFormat;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazeDhVertexFormatUtil;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.BlazeVertexFormatBuilder;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPassWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.RenderPipelineBuilderWrapper;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.BlazeTextureViewWrapper;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhTestTriangleRenderer;
 import net.minecraft.client.Minecraft;
 import net.minecraft.resources.Identifier;
 import java.nio.ByteBuffer;
 import java.nio.ByteOrder;
 import java.util.OptionalDouble;
 import java.util.OptionalInt;
 #if MC_VER <= MC_1_21_11
 #else
 import com.mojang.blaze3d.pipeline.DepthStencilState;
 import com.mojang.blaze3d.platform.CompareOp;
 #endif
 /**
 * Renders the OpenGL/Vulkan triangle
 * to the center of the screen to confirm DH's
 * apply shader is running correctly
 */
 public class BlazeDhTestTriangleRenderer implements IDhTestTriangleRenderer
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	public static final BlazeDhTestTriangleRenderer INSTANCE = new BlazeDhTestTriangleRenderer();
 	private RenderPipeline pipeline;
 	private boolean init = false;
 	public final BlazeTextureViewWrapper mcColorTextureViewWrapper = new BlazeTextureViewWrapper();
 	public final BlazeTextureViewWrapper mcDepthTextureViewWrapper = new BlazeTextureViewWrapper();
 	private GpuBuffer vboGpuBuffer;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private BlazeDhTestTriangleRenderer() { }
 	private void tryInit()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		RenderPipelineBuilderWrapper pipelineBuilder = new RenderPipelineBuilderWrapper();
 		{
 			pipelineBuilder.withFaceCulling(false);
 			pipelineBuilder.withDepthWrite(false);
 			pipelineBuilder.withDepthTest(RenderPipelineBuilderWrapper.EDhDepthTest.NONE);
 			pipelineBuilder.withColorWrite(true);
 			pipelineBuilder.withoutBlend();
 			pipelineBuilder.withName("triangle_test");
 			pipelineBuilder.withVertexShader("test/blaze/vert");
 			pipelineBuilder.withFragmentShader("test/blaze/frag");
 			VertexFormat vertexFormat = new BlazeVertexFormatBuilder()
 				.add("vPosition", BlazeDhVertexFormatUtil.SCREEN_POS)
 				.add("vColor", BlazeDhVertexFormatUtil.RGBA_FLOAT_COLOR)
 				.build();
 			pipelineBuilder.withVertexFormat(vertexFormat);
 			pipelineBuilder.withVertexMode(RenderPipelineBuilderWrapper.EDhVertexMode.TRIANGLES);
 		}
 		this.pipeline = pipelineBuilder.build();
 		this.uploadVertexData();
 	}
 	private void uploadVertexData()
 	{
 		// vertices for the OpenGL/Vulkan Triangle
 		float[] vertices = new float[]
 			{
 				// PosX,Y,    ColorR,G,B,A
 				-0.5f, -0.5f,   1.0f, 0.0f, 0.0f, 1.0f,
 				0.5f, -0.5f,   0.0f, 1.0f, 0.0f, 1.0f,
 				0.0f,  0.5f,   0.0f, 0.0f, 1.0f, 1.0f,
 			};
 		int usage = GpuBuffer.USAGE_COPY_DST
 			| GpuBuffer.USAGE_VERTEX;
 		int size = vertices.length * Float.BYTES;
 		this.vboGpuBuffer = GPU_DEVICE.createBuffer(this::getRenderPassName, usage, size);
 		{
 			int offset = 0;
 			int length = vertices.length * Float.BYTES;
 			GpuBufferSlice bufferSlice = new GpuBufferSlice(this.vboGpuBuffer, offset, length);
 			ByteBuffer byteBuffer = ByteBuffer.allocateDirect(vertices.length * Float.BYTES);
 			// Fill buffer with vertices.
 			byteBuffer.order(ByteOrder.nativeOrder());
 			byteBuffer.asFloatBuffer().put(vertices);
 			byteBuffer.rewind();
 			COMMAND_ENCODER.writeToBuffer(bufferSlice, byteBuffer);
 		}
 	}
 	//endregion
 	//========//
 	// render //
 	//========//
 	//region
 	@Override
 	public void render(RenderParams renderParams)
 	{
 		this.tryInit();
 		this.mcColorTextureViewWrapper.tryWrap(MinecraftRenderWrapper.INSTANCE.getRenderTarget().getColorTexture());
 		this.mcDepthTextureViewWrapper.tryWrap(MinecraftRenderWrapper.INSTANCE.getRenderTarget().getDepthTexture());
 		try (RenderPassWrapper renderPassWrapper = new RenderPassWrapper(
 			this::getRenderPassName,
 			this.mcColorTextureViewWrapper,
 			this.mcDepthTextureViewWrapper))
 		{
 			renderPassWrapper.setVertexBuffer(this.vboGpuBuffer);
 			renderPassWrapper.setPipeline(this.pipeline);
 			renderPassWrapper.draw(3);
 		}
 	}
 	private String getRenderPassName() { return "distantHorizons:DhTestRenderer"; }
 	//endregion
 }
 #endif
@@ -1,158 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.util;
 #if MC_VER <= MC_1_21_10
 public class BlazeDhVertexFormatUtil {}
 #else
 import com.mojang.blaze3d.vertex.VertexFormatElement;
 import com.seibel.distanthorizons.api.enums.config.EDhApiRenderingEngine;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dataObjects.render.bufferBuilding.LodQuadBuilder;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.wrapperInterfaces.IVersionConstants;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftClientWrapper;
 import org.jetbrains.annotations.NotNull;
 #if MC_VER <= MC_26_1_2
 #else
 import com.mojang.blaze3d.GpuFormat;
 #endif
 /**
 * @see LodQuadBuilder
 */
@SuppressWarnings("DataFlowIssue") // ignore null setter warnings in the static constructor (those will only be null if the render API is GL and in that case we should never use these objects)
 public class BlazeDhVertexFormatUtil
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	@NotNull public static final VertexFormatElement SCREEN_POS;
 	@NotNull public static final VertexFormatElement RGBA_FLOAT_COLOR;
 	@NotNull public static final VertexFormatElement SHORT_XYZ_POS;
 	@NotNull public static final VertexFormatElement BYTE_PAD;
 	/** contains light and micro-offset */
 	@NotNull public static final VertexFormatElement META;
 	@NotNull public static final VertexFormatElement RGBA_UBYTE_COLOR;
 	@NotNull public static final VertexFormatElement IRIS_MATERIAL;
 	@NotNull public static final VertexFormatElement IRIS_NORMAL;
 	@NotNull public static final VertexFormatElement FLOAT_XYZ_POS;
 	static
 	{
 		EDhApiRenderingEngine renderingApi = Config.Client.Advanced.Graphics.Experimental.renderingEngine.get();
 		if (renderingApi == EDhApiRenderingEngine.AUTO)
 		{
 			IVersionConstants versionConstants = SingletonInjector.INSTANCE.get(IVersionConstants.class);
 			renderingApi = versionConstants.getDefaultRenderingEngine();
 		}
 		boolean register = (renderingApi == EDhApiRenderingEngine.BLAZE_3D);
 		if (register)
 		{
 			LOGGER.debug("Attempting to register ["+VertexFormatElement.class.getSimpleName()+"]...");
 			try
 			{
 				#if MC_VER <= MC_1_21_11
 				SCREEN_POS = VertexFormatElement.register(/*id*/22, /*index*/0, VertexFormatElement.Type.FLOAT, VertexFormatElement.Usage.POSITION, /*count*/ 2);
 				RGBA_FLOAT_COLOR = VertexFormatElement.register(/*id*/23, /*index*/0, VertexFormatElement.Type.FLOAT, VertexFormatElement.Usage.COLOR, /*count*/ 4);
 				SHORT_XYZ_POS = VertexFormatElement.register(/*id*/24, /*index*/0, VertexFormatElement.Type.USHORT, VertexFormatElement.Usage.POSITION, /*count*/ 3);
 				BYTE_PAD = VertexFormatElement.register(/*id*/25, /*index*/0, VertexFormatElement.Type.BYTE, VertexFormatElement.Usage.GENERIC, /*count*/ 1);
 				META = VertexFormatElement.register(/*id*/26, /*index*/0, VertexFormatElement.Type.USHORT, VertexFormatElement.Usage.GENERIC, /*count*/ 1);
 				RGBA_UBYTE_COLOR = VertexFormatElement.register(/*id*/27, /*index*/0, VertexFormatElement.Type.UBYTE, VertexFormatElement.Usage.COLOR, /*count*/ 4);
 				IRIS_MATERIAL = VertexFormatElement.register(/*id*/28, /*index*/0, VertexFormatElement.Type.BYTE, VertexFormatElement.Usage.GENERIC, /*count*/ 1);
 				IRIS_NORMAL = VertexFormatElement.register(/*id*/29, /*index*/0, VertexFormatElement.Type.BYTE, VertexFormatElement.Usage.GENERIC, /*count*/ 1);
 				FLOAT_XYZ_POS = VertexFormatElement.register(/*id*/30, /*index*/0, VertexFormatElement.Type.FLOAT, VertexFormatElement.Usage.POSITION, /*count*/ 3);
 				#elif MC_VER <= MC_26_1_2
 				SCREEN_POS = VertexFormatElement.register(/*id*/22, /*index*/0, VertexFormatElement.Type.FLOAT, false, /*count*/ 2);
 				RGBA_FLOAT_COLOR = VertexFormatElement.register(/*id*/23, /*index*/0, VertexFormatElement.Type.FLOAT, false, /*count*/ 4);
 				SHORT_XYZ_POS = VertexFormatElement.register(/*id*/24, /*index*/0, VertexFormatElement.Type.USHORT, false, /*count*/ 3);
 				BYTE_PAD = VertexFormatElement.register(/*id*/25, /*index*/0, VertexFormatElement.Type.BYTE, false, /*count*/ 1);
 				META = VertexFormatElement.register(/*id*/26, /*index*/0, VertexFormatElement.Type.USHORT, false, /*count*/ 1);
 				RGBA_UBYTE_COLOR = VertexFormatElement.register(/*id*/27, /*index*/0, VertexFormatElement.Type.UBYTE, true, /*count*/ 4);
 				IRIS_MATERIAL = VertexFormatElement.register(/*id*/28, /*index*/0, VertexFormatElement.Type.BYTE, false, /*count*/ 1);
 				IRIS_NORMAL = VertexFormatElement.register(/*id*/29, /*index*/0, VertexFormatElement.Type.BYTE, false, /*count*/ 1);
 				FLOAT_XYZ_POS = VertexFormatElement.register(/*id*/30, /*index*/0, VertexFormatElement.Type.FLOAT, false, /*count*/ 3);
 				#elif MC_VER <= MC_26_1_2
 				SCREEN_POS = VertexFormatElement.register(/*id*/22, /*index*/0, GpuFormat.RG32_FLOAT); // 2 floats
 				RGBA_FLOAT_COLOR = VertexFormatElement.register(/*id*/23, /*index*/0, GpuFormat.RGBA32_FLOAT); // 4 floats
 				SHORT_XYZ_POS = VertexFormatElement.register(/*id*/24, /*index*/0, GpuFormat.RGB16_UINT); // 3 ushorts
 				BYTE_PAD = VertexFormatElement.register(/*id*/25, /*index*/0, GpuFormat.R8_UINT); // 1 byte
 				META = VertexFormatElement.register(/*id*/26, /*index*/0, GpuFormat.R16_UINT); // 1 ushort
 				RGBA_UBYTE_COLOR = VertexFormatElement.register(/*id*/27, /*index*/0, GpuFormat.RGBA8_UNORM); // 4 ubytes
 				IRIS_MATERIAL = VertexFormatElement.register(/*id*/28, /*index*/0, GpuFormat.R8_UINT); // 1 byte
 				IRIS_NORMAL = VertexFormatElement.register(/*id*/29, /*index*/0, GpuFormat.R8_UINT); // 1 byte
 				FLOAT_XYZ_POS = VertexFormatElement.register(/*id*/30, /*index*/0, GpuFormat.RGB32_FLOAT); // 3 floats
 				#else
 				SCREEN_POS = new VertexFormatElement("Screen Pos", Float.BYTES * 2, GpuFormat.RG32_FLOAT);
 				RGBA_FLOAT_COLOR = new VertexFormatElement("RGBA Float Color", Float.BYTES * 4, GpuFormat.RGBA32_FLOAT);
 				SHORT_XYZ_POS = new VertexFormatElement("Short XYZ Pos", Short.BYTES * 3, GpuFormat.RGB16_UINT);
 				BYTE_PAD = new VertexFormatElement("Byte Pad", 1, GpuFormat.R8_UINT);
 				META = new VertexFormatElement("DH Meta", Short.BYTES, GpuFormat.R16_UINT);
 				RGBA_UBYTE_COLOR = new VertexFormatElement("Rgba Ubyte Color", 4, GpuFormat.RGBA8_UNORM);
 				IRIS_MATERIAL = new VertexFormatElement("Iris Material", 1, GpuFormat.R8_UINT);
 				IRIS_NORMAL = new VertexFormatElement("Iris Normal", 1, GpuFormat.R8_UINT);
 				FLOAT_XYZ_POS = new VertexFormatElement("Float XYZ Pos", Float.BYTES * 3, GpuFormat.RGB32_FLOAT);
 				#endif
 			}
 			catch (Exception e)
 			{
 				String message = "Unable to register one or more ["+VertexFormatElement.class.getSimpleName()+"] this is likely caused by another mod registering their own custom ["+VertexFormatElement.class.getSimpleName()+"]'s. This should be fixed in the next major Minecraft version.";
 				IMinecraftClientWrapper mc = SingletonInjector.INSTANCE.get(IMinecraftClientWrapper.class);
 				mc.crashMinecraft(message, new Exception(message, e));
 				// here to make the compiler happy, the process should shut down before this
 				throw new RuntimeException(e);
 			}
 			LOGGER.debug("Successfully registered ["+VertexFormatElement.class.getSimpleName()+"].");
 		}
 		else
 		{
 			// set to null so we can fail fast with a null pointer if we ever attempt to incorrectly use these
 			SCREEN_POS = null;
 			RGBA_FLOAT_COLOR = null;
 			SHORT_XYZ_POS = null;
 			BYTE_PAD = null;
 			META = null;
 			RGBA_UBYTE_COLOR = null;
 			IRIS_MATERIAL = null;
 			IRIS_NORMAL = null;
 			FLOAT_XYZ_POS = null;
 		}
 	}
 }
 #endif
@@ -1,82 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.util;
 #if MC_VER <= MC_1_21_10
 public class BlazePostProcessUtil {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.buffers.GpuBufferSlice;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.mojang.blaze3d.vertex.VertexFormat;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.BlazeVertexFormatBuilder;
 import java.nio.ByteBuffer;
 import java.nio.ByteOrder;
 import java.util.function.Supplier;
 /** Contains code that's used by all post-processing effects. */
 public class BlazePostProcessUtil
 {
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	// vertices for a full-screen quad
 	private static final float[] VERTICES = new float[]
 		{
 			// PosX,Y,
 			-1f, -1f,
 			1f, -1f,
 			1f,  1f,
 			-1f,  1f,
 		};
 	//=========//
 	// methods //
 	//=========//
 	//region
 	public static GpuBuffer createAndUploadScreenVertexData(String name)
 	{
 		Supplier<String> labelSupplier = () -> "distantHorizons:"+name;
 		int usage = GpuBuffer.USAGE_COPY_DST
 			| GpuBuffer.USAGE_VERTEX;
 		int size = VERTICES.length * Float.BYTES;
 		GpuBuffer vboGpuBuffer = GPU_DEVICE.createBuffer(labelSupplier, usage, size);
 		{
 			int length = VERTICES.length * Float.BYTES;
 			GpuBufferSlice bufferSlice = new GpuBufferSlice(vboGpuBuffer, /*offset*/ 0, length);
 			ByteBuffer byteBuffer = ByteBuffer.allocateDirect(VERTICES.length * Float.BYTES);
 			// Fill buffer with vertices.
 			byteBuffer.order(ByteOrder.nativeOrder());
 			byteBuffer.asFloatBuffer().put(VERTICES);
 			byteBuffer.rewind();
 			COMMAND_ENCODER.writeToBuffer(bufferSlice, byteBuffer);
 		}
 		return vboGpuBuffer;
 	}
 	public static VertexFormat createVertexFormat()
 	{
 		VertexFormat vertexFormat = new BlazeVertexFormatBuilder()
 			.add("vPosition", BlazeDhVertexFormatUtil.SCREEN_POS)
 			.build();
 		return vertexFormat;
 	}
 	//endregion
 }
 #endif
@@ -1,46 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.util;
 #if MC_VER <= MC_1_21_10
 public class BlazeUniformUtil {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 public class BlazeUniformUtil
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	public static GpuBuffer createBuffer(String uniformName, int size, GpuBuffer vboGpuBuffer)
 	{
 		// create VBO if needed
 		if (vboGpuBuffer == null
 			|| vboGpuBuffer.size() < size)
 		{
 			if (vboGpuBuffer != null)
 			{
 				vboGpuBuffer.close();
 			}
 			int usage = GpuBuffer.USAGE_COPY_DST 
 				| GpuBuffer.USAGE_VERTEX
 				| GpuBuffer.USAGE_UNIFORM;
 			vboGpuBuffer = GPU_DEVICE.createBuffer(() -> uniformName, usage, size);
 		}
 		return vboGpuBuffer;
 	}
 }
 #endif
@@ -1,58 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.wrappers;
 #if MC_VER <= MC_1_21_10
 public class BlazeVertexFormatBuilder {}
 #else
 import com.mojang.blaze3d.vertex.VertexFormat;
 import com.mojang.blaze3d.vertex.VertexFormatElement;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazeDhVertexFormatUtil;
 public class BlazeVertexFormatBuilder
 {
 	private final VertexFormat.Builder builder;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public BlazeVertexFormatBuilder()
 	{
 		#if MC_VER <= MC_26_1_2
 		this.builder = VertexFormat.builder();
 		#else
 		this.builder = VertexFormat.builder(0);
 		#endif
 	}
 	//endregion
 	//==========//
 	// building //
 	//==========//
 	//region
 	public BlazeVertexFormatBuilder add(String name, VertexFormatElement element)
 	{
 		#if MC_VER <= MC_26_1_2
 		this.builder.add(name, element);
 		#else
 		this.builder.addAttribute(name, element.format());
 		#endif
 		return this;
 	}
 	public VertexFormat build() { return this.builder.build(); }
 	//endregion
 }
 #endif
@@ -1,163 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.wrappers;
 #if MC_VER <= MC_1_21_10
 public class RenderPassWrapper {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.pipeline.RenderPipeline;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderPass;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.mojang.blaze3d.vertex.VertexFormat;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.texture.IDhBlazeTexture;
 import com.seibel.distanthorizons.common.render.blaze.wrappers.uniform.BlazeUniformBufferWrapper;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import java.util.Optional;
 import java.util.OptionalDouble;
 import java.util.OptionalInt;
 import java.util.function.Supplier;
 #if MC_VER <= MC_26_1_2
 #else
 import com.mojang.blaze3d.IndexType;
 #endif
 public class RenderPassWrapper implements AutoCloseable
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	private final RenderPass renderPass;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public RenderPassWrapper(
 		final Supplier<String> nameGetterFunc, 
 		final IDhBlazeTexture colorTexture, 
 		final IDhBlazeTexture depthTexture)
 	{
 		#if MC_VER <= MC_26_1_2
 		this.renderPass = COMMAND_ENCODER.createRenderPass(
 			nameGetterFunc,
 			colorTexture.getTextureView(),
 			/*optionalClearColorAsInt*/ OptionalInt.empty(),
 			depthTexture.getTextureView(),
 			/*optionalDepthValueAsDouble*/ OptionalDouble.empty());
 		#else
 		this.renderPass = COMMAND_ENCODER.createRenderPass(
 			nameGetterFunc,
 			colorTexture.getTextureView(),
 			/*clearColor*/ Optional.empty(),
 			depthTexture.getTextureView(),
 			/*clearDepth*/ OptionalDouble.empty());
 		#endif
 	}
 	//endregion
 	//=======//
 	// setup //
 	//=======//
 	//region
 	public void bindTexture(
 		final String name, 
 		final IDhBlazeTexture textureView) 
 	{
 		this.renderPass.bindTexture(
 			name,
 			textureView.getTextureView(),
 			textureView.getTextureSampler());
 	}
 	public void setVertexBuffer(GpuBuffer buffer)
 	{
 		#if MC_VER <= MC_26_1_2
 		this.renderPass.setVertexBuffer(/*slot*/0, buffer);
 		#else
 		this.renderPass.setVertexBuffer(/*slot*/0, buffer.slice());
 		#endif
 	}
 	public void setIndexBuffer(GpuBuffer buffer)
 	{
 		#if MC_VER <= MC_26_1_2
 		this.renderPass.setIndexBuffer(buffer, VertexFormat.IndexType.INT);
 		#else
 		this.renderPass.setIndexBuffer(buffer, IndexType.INT);
 		#endif
 	}
 	public void setUniform(String uniformName, BlazeUniformBufferWrapper uniformBuffer) { this.renderPass.setUniform(uniformName, uniformBuffer.getGpuBuffer()); }
 	public void setPipeline(RenderPipeline pipeline) { this.renderPass.setPipeline(pipeline); }
 	//endregion
 	//===========//
 	// rendering //
 	//===========//
 	//region
 	public void draw(int vertexCount)
 	{
 		#if MC_VER <= MC_26_1_2
 		this.renderPass.draw(0, vertexCount);
 		#else
 		this.renderPass.draw(vertexCount, /*instanceCount*/1, /*firstVertex*/0, /*firstInstance*/0);
 		#endif
 	}
 	public void drawIndexed(int indexCount)
 	{ 
 		#if MC_VER <= MC_26_1_2
 		this.renderPass.drawIndexed(
 			/*indexStart*/ 0,
 			/*firstIndex*/0,
 			indexCount,
 			/*instanceCount*/1);
 		#else
 		this.renderPass.drawIndexed(
 			indexCount,
 			/*instanceCount*/1,
 			/*firstVertex*/0,
 			/*vertexOffset*/0,
 			/*firstInstance*/0);
 		#endif
 	}
 	//endregion
 	//================//
 	// base overrides //
 	//================//
 	//region
 	@Override 
 	public void close() { this.renderPass.close(); }
 	//endregion
 }
 #endif
@@ -1,445 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.wrappers;
 #if MC_VER <= MC_1_21_10
 public class RenderPipelineBuilderWrapper {}
 #else
 import com.mojang.blaze3d.pipeline.*;
 import com.mojang.blaze3d.platform.PolygonMode;
 import com.mojang.blaze3d.shaders.UniformType;
 import com.mojang.blaze3d.vertex.VertexFormat;
 import net.minecraft.resources.Identifier;
 #if MC_VER <= MC_1_21_11
 import com.mojang.blaze3d.platform.DepthTestFunction;
 #elif MC_VER <= MC_26_1_2
 import com.mojang.blaze3d.platform.CompareOp;
 #else
 import com.mojang.blaze3d.platform.CompareOp;
 import com.mojang.blaze3d.GpuFormat;
 import com.mojang.blaze3d.PrimitiveTopology;
 #endif
 import java.io.IOException;
 import java.io.InputStream;
 import java.util.ArrayList;
 import java.util.Optional;
 public class RenderPipelineBuilderWrapper
 {
 	public static final String NAME_PREFIX = "distanthorizons:";
 	private static final String SHADER_RESOURCE_FOLDER = "assets/distanthorizons/shaders/";
 	private static final ClassLoader CLASS_LOADER = RenderPipelineBuilderWrapper.class.getClassLoader();
 	private final RenderPipeline.Builder blazePipelineBuilder;
 	// variables for specific builder options should be put next to their builder methods for simpler organization
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public RenderPipelineBuilderWrapper()
 	{
 		this.blazePipelineBuilder = RenderPipeline.builder();
 	}
 	//endregion
 	//==========//
 	// building //
 	//==========//
 	//region
 	private boolean writeDepth = false;
 	public RenderPipelineBuilderWrapper withDepthWrite(boolean write)
 	{
 		this.writeDepth = write;
 		return this;
 	}
 	private boolean writeColor = false;
 	public RenderPipelineBuilderWrapper withColorWrite(boolean write)
 	{
 		this.writeColor = write;
 		return this;
 	}
 	private BlendFunction blendFunction = null;
 	public RenderPipelineBuilderWrapper withBlend(BlendFunction blendFunction)
 	{
 		this.blendFunction = blendFunction;
 		return this;
 	}
 	public RenderPipelineBuilderWrapper withoutBlend()
 	{
 		this.blendFunction = null;
 		return this;
 	}
 	private EDhDepthTest depthTest;
 	public RenderPipelineBuilderWrapper withDepthTest(EDhDepthTest depthTest)
 	{
 		this.depthTest = depthTest;
 		return this;
 	}
 	public RenderPipelineBuilderWrapper withFaceCulling(boolean culling)
 	{
 		this.blazePipelineBuilder.withCull(culling);
 		return this;
 	}
 	public RenderPipelineBuilderWrapper withPolygonMode(EDhPolygonMode dhMode)
 	{
 		PolygonMode blazeMode;
 		switch (dhMode)
 		{
 			case FILL:
 				blazeMode = PolygonMode.FILL;
 				break;
 			case WIREFRAME:
 				blazeMode = PolygonMode.WIREFRAME;
 				break;
 			default:
 				throw new UnsupportedOperationException("No polygonMode defined for type ["+dhMode+"].");
 		}
 		this.blazePipelineBuilder.withPolygonMode(blazeMode);
 		return this;
 	}
 	public RenderPipelineBuilderWrapper withName(String name) throws IllegalArgumentException
 	{
 		// Identifiers must be of a specific format
 		if (!isValidIdentifier(name))
 		{
 			throw new IllegalArgumentException("Non [a-z0-9/._-] character in name: ["+name+"].");
 		}
 		this.blazePipelineBuilder.withLocation(Identifier.parse(NAME_PREFIX + name));
 		return this;
 	}
 	private final ArrayList<String> samplerNames = new ArrayList<>();
 	public RenderPipelineBuilderWrapper withSampler(String name) throws IllegalArgumentException
 	{
 		#if MC_VER <= MC_26_1_2
 		this.blazePipelineBuilder.withSampler(name);
 		#else
 		samplerNames.add(name);
 		#endif
 		return this;
 	}
 	private final ArrayList<String> uniformBufferNames = new ArrayList<>();
 	public RenderPipelineBuilderWrapper withUniformBuffer(String name) throws IllegalArgumentException
 	{
 		#if MC_VER <= MC_26_1_2
 		this.blazePipelineBuilder.withUniform(name, UniformType.UNIFORM_BUFFER);
 		#else
 		uniformBufferNames.add(name);
 		#endif
 		return this;
 	}
 	private VertexFormat vertexFormat = null;
 	public RenderPipelineBuilderWrapper withVertexFormat(VertexFormat vertexFormat)
 	{
 		this.vertexFormat = vertexFormat;
 		return this;
 	}
 	private EDhVertexMode vertexMode = null;
 	public RenderPipelineBuilderWrapper withVertexMode(EDhVertexMode vertexMode)
 	{
 		this.vertexMode = vertexMode;
 		return this;
 	}
 	public RenderPipelineBuilderWrapper withVertexShader(String scriptResourcePath) { return this.withShader(EDhShaderType.VERTEX, scriptResourcePath); }
 	public RenderPipelineBuilderWrapper withFragmentShader(String scriptResourcePath) { return this.withShader(EDhShaderType.FRAGMENT, scriptResourcePath); }
 	private RenderPipelineBuilderWrapper withShader(EDhShaderType shaderType, String scriptResourcePath)
 	{
 		String fullShaderResourcePath = SHADER_RESOURCE_FOLDER + scriptResourcePath + shaderType.fileExtension;
 		// confirm the shader file exists
 		try (InputStream scriptListInputStream = CLASS_LOADER.getResourceAsStream(fullShaderResourcePath))
 		{
 			if (scriptListInputStream == null)
 			{
 				throw new NullPointerException("Failed to find the SQL Script list file [" + fullShaderResourcePath + "], no auto update scripts can be run.");
 			}
 		}
 		catch (IOException e)
 		{
 			// shouldn't happen, but just in case
 			throw new RuntimeException("Unexpected issue closing resource stream for shader type: ["+shaderType+"] at: ["+fullShaderResourcePath+"], error: ["+e.getMessage()+"].", e);
 		}
 		if (shaderType == EDhShaderType.VERTEX)
 		{
 			this.blazePipelineBuilder.withVertexShader(Identifier.parse(NAME_PREFIX + scriptResourcePath));
 		}
 		else
 		{
 			this.blazePipelineBuilder.withFragmentShader(Identifier.parse(NAME_PREFIX + scriptResourcePath));
 		}
 		return this;
 	}
 	//endregion
 	//=====//
 	// end //
 	//=====//
 	//region
 	public RenderPipeline build() throws UnsupportedOperationException
 	{
 		// depth/color
 		{
 			#if MC_VER <= MC_1_21_11
 			this.blazePipelineBuilder.withDepthWrite(this.writeDepth);
 			this.blazePipelineBuilder.withColorWrite(this.writeColor);
 			if (this.blendFunction != null)
 			{
 				this.blazePipelineBuilder.withBlend(this.blendFunction);
 			}
 			else
 			{
 				this.blazePipelineBuilder.withoutBlend();
 			}
 			DepthTestFunction depthTestFunction;
 			switch (this.depthTest)
 			{
 				case NONE:
 					depthTestFunction = DepthTestFunction.NO_DEPTH_TEST;
 					break;
 				case LESS:
 					depthTestFunction = DepthTestFunction.LESS_DEPTH_TEST;
 					break;
 				default:
 					throw new UnsupportedOperationException("No depth test defined for type ["+this.depthTest+"].");
 			}
 			this.blazePipelineBuilder.withDepthTestFunction(depthTestFunction);
 			#else
 			CompareOp compareOp;
 			switch (this.depthTest)
 			{
 				case NONE:
 					compareOp = CompareOp.ALWAYS_PASS;
 					break;
 				case LESS:
 					compareOp = CompareOp.LESS_THAN;
 					break;
 				case GREATER:
 					compareOp = CompareOp.GREATER_THAN;
 					break;
 				default:
 					throw new UnsupportedOperationException("No depth test defined for type ["+this.depthTest+"].");
 			}
 			this.blazePipelineBuilder.withDepthStencilState(new DepthStencilState(compareOp, this.writeDepth));
 			#if MC_VER <= MC_26_1_2
 			this.blazePipelineBuilder.withColorTargetState(
 				new ColorTargetState(
 					Optional.ofNullable(this.blendFunction), 
 					this.writeColor ? ColorTargetState.WRITE_ALL : ColorTargetState.WRITE_NONE
 				)
 			);
 			#else
 			this.blazePipelineBuilder.withColorTargetState(
 				new ColorTargetState(
 					Optional.ofNullable(this.blendFunction),
 					GpuFormat.RGBA8_UNORM,
 					this.writeColor ? ColorTargetState.WRITE_ALL : ColorTargetState.WRITE_NONE
 				)
 			);
 			#endif
 			#endif
 		}
 		// vertex format
 		{
 			#if MC_VER <= MC_26_1_2
 			VertexFormat.Mode blazeVertexMode;
 			switch (this.vertexMode)
 			{
 				case TRIANGLES:
 					blazeVertexMode = VertexFormat.Mode.TRIANGLES;
 					break;
 				case TRIANGLE_FAN:
 					blazeVertexMode = VertexFormat.Mode.TRIANGLE_FAN;
 					break;
 				case LINES:
 					blazeVertexMode = VertexFormat.Mode.DEBUG_LINES;
 					break;
 				default:
 					throw new UnsupportedOperationException("No vertex mode defined for type ["+this.vertexMode+"].");
 			}
 			this.blazePipelineBuilder.withVertexFormat(vertexFormat, blazeVertexMode);
 			#else
 			PrimitiveTopology primitiveTopology;
 			switch (this.vertexMode)
 			{
 				case TRIANGLES:
 					primitiveTopology = PrimitiveTopology.TRIANGLES;
 					break;
 				case TRIANGLE_FAN:
 					primitiveTopology = PrimitiveTopology.TRIANGLE_FAN;
 					break;
 				case LINES:
 					primitiveTopology = PrimitiveTopology.DEBUG_LINES;
 					break;
 				default:
 					throw new UnsupportedOperationException("No PrimitiveTopology defined for type ["+this.vertexMode+"].");
 			}
 			this.blazePipelineBuilder.withVertexBinding(0, vertexFormat);
 			this.blazePipelineBuilder.withPrimitiveTopology(primitiveTopology);
 			#endif
 		}
 		// uniform buffers
 		{
 			#if MC_VER <= MC_26_1_2
 			// handled before this point
 			#else
 			BindGroupLayout.Builder bindGroupBuilder = BindGroupLayout.builder();
 			for (String name : this.samplerNames)
 			{
 				bindGroupBuilder.withSampler(name);
 			}
 			for (String name : this.uniformBufferNames)
 			{
 				bindGroupBuilder.withUniform(name, UniformType.UNIFORM_BUFFER);
 			}
 			BindGroupLayout bindGroup = bindGroupBuilder.build();
 			this.blazePipelineBuilder.withBindGroupLayout(bindGroup);
 			#endif
 		}
 		return this.blazePipelineBuilder.build();
 	}
 	//endregion
 	//================//
 	// helper methods //
 	//================//
 	//region
 	private static boolean isValidIdentifier(String identifier)
 	{
 		for (int i = 0; i < identifier.length(); i++)
 		{
 			char ch = identifier.charAt(i);
 			if (!isValidNamespaceChar(ch))
 			{
 				return false;
 			}
 		}
 		return true;
 	}
 	private static boolean isValidNamespaceChar(final char ch)
 	{
 		return ch == '_' 
 			|| ch == '-' 
 			// only lower case characters
 			|| (ch >= 'a' && ch <= 'z') 
 			|| (ch >= '0' && ch <= '9') 
 			|| ch == '.';
 	}
 	//endregion
 	//================//
 	// helper classes //
 	//================//
 	//region
 	public enum EDhPolygonMode
 	{
 		FILL,
 		WIREFRAME;
 	}
 	public enum EDhVertexMode
 	{
 		TRIANGLES,
 		TRIANGLE_FAN,
 		LINES;
 	}
 	public enum EDhDepthTest
 	{
 		NONE,
 		GREATER,
 		LESS;
 	}
 	private enum EDhShaderType
 	{
 		FRAGMENT(".fsh"),
 		VERTEX(".vsh");
 		public final String fileExtension;
 		EDhShaderType(String fileExtension)
 		{
 			this.fileExtension = fileExtension;
 		}
 	}
 	//endregion
 }
 #endif
@@ -1,210 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.wrappers.buffer;
 #if MC_VER <= MC_1_21_10
 public class BlazeVertexBufferWrapper {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.buffers.GpuBufferSlice;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.seibel.distanthorizons.core.dataObjects.render.bufferBuilding.IndexBufferBuilder;
 import com.seibel.distanthorizons.core.dataObjects.render.bufferBuilding.LodQuadBuilder;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.RenderThreadTaskHandler;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IVertexBufferWrapper;
 import java.nio.ByteBuffer;
 import java.util.concurrent.atomic.AtomicInteger;
 public class BlazeVertexBufferWrapper implements IVertexBufferWrapper
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final AbstractDhRenderApiDefinition RENDER_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	private static final AtomicInteger BUFFER_COUNT_REF = new AtomicInteger(0);
 	public final String name;
 	public String getName() { return this.name; }
 	public GpuBuffer vertexGpuBuffer = null;
 	public int vertexCount = -1;
 	public int indexCount = -1;
 	public boolean uploaded = false;
 	private GpuBuffer indexGpuBuffer = null;
 	private static GpuBuffer GLOBAL_INDEX_GPU_BUFFER = null;
 	public GpuBuffer getIndexGpuBuffer()
 	{
 		if (RENDER_DEF.useSingleIbo())
 		{
 			return GLOBAL_INDEX_GPU_BUFFER;
 		}
 		else
 		{
 			return this.indexGpuBuffer;
 		}
 	}
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	static
 	{
 		if (RENDER_DEF.useSingleIbo())
 		{
 			RenderThreadTaskHandler.INSTANCE.queueRunningOnRenderThread("Global IBO Creation", () ->
 			{
 				int maxSize = LodQuadBuilder.getMaxBufferByteSize();
 				int maxVertexCount = maxSize / LodQuadBuilder.BYTES_PER_VERTEX;
 				int maxQuadCount = (maxVertexCount / 4);
 				ByteBuffer indexBuffer = IndexBufferBuilder.createBuffer(maxQuadCount);
 				int usage = GpuBuffer.USAGE_COPY_DST
 					| GpuBuffer.USAGE_INDEX;
 				GLOBAL_INDEX_GPU_BUFFER = GPU_DEVICE.createBuffer(BlazeVertexBufferWrapper::getIndexBufferName, usage, indexBuffer.capacity());
 				GpuBufferSlice bufferSlice = new GpuBufferSlice(GLOBAL_INDEX_GPU_BUFFER, /*offset*/ 0, indexBuffer.capacity());
 				COMMAND_ENCODER.writeToBuffer(bufferSlice, indexBuffer);
 			});
 		}
 	}
 	public BlazeVertexBufferWrapper(String name) { this.name = name; }
 	//endregion
 	//========//
 	// upload //
 	//========//
 	//region
 	@Override
 	public void uploadVertexBuffer(ByteBuffer vertexBuffer, int vertexCount)
 	{
 		int oldVertexCount = this.vertexCount;
 		this.vertexCount = vertexCount;
 		// 4 vertices per face, but 6 indices (IE 2 triangles) per face, aka need to multiply by 1.5
 		this.indexCount = (int)(vertexCount * 1.5);
 		this.uploaded = true;
 		if (this.vertexGpuBuffer == null
 			// recreating if the size changes is always necessary (even if we only need a smaller amount)
 			// due to a bug on Mac where it will attempt to render anything allocated in the buffer
 			|| oldVertexCount != vertexCount)
 		{
 			if (this.vertexGpuBuffer == null)
 			{
 				BUFFER_COUNT_REF.incrementAndGet();
 				//LOGGER.info("Create, count: ["+BUFFER_COUNT_REF.get()+"]");
 			}
 			if (this.vertexGpuBuffer != null)
 			{
 				this.vertexGpuBuffer.close();
 			}
 			int usage = GpuBuffer.USAGE_COPY_DST
 				| GpuBuffer.USAGE_VERTEX;
 			int byteSize = (vertexBuffer.limit() - vertexBuffer.position());
 			this.vertexGpuBuffer = GPU_DEVICE.createBuffer(this::getName, usage, byteSize);
 			GpuBufferSlice bufferSlice = new GpuBufferSlice(this.vertexGpuBuffer, /*offset*/0, byteSize);
 			COMMAND_ENCODER.writeToBuffer(bufferSlice, vertexBuffer);
 		}
 	}
 	@Override 
 	public void uploadIndexBuffer(ByteBuffer indexBuffer, int vertexCount)
 	{
 		int oldIndexCount = this.indexCount;
 		// 4 vertices per face, but 6 indices (IE 2 triangles) per face, aka need to multiply by 1.5
 		this.indexCount = (int)(vertexCount * 1.5);
 		if (RENDER_DEF.useSingleIbo())
 		{
 			// ignore index uploading when running a single IBO
 			return;
 		}
 		// recreating if the size changes is always necessary (even if we only need a smaller amount)
 		// due to a bug on Mac where it will attempt to render anything allocated in the buffer
 		if (this.indexGpuBuffer == null
 			|| oldIndexCount != this.indexCount)
 		{
 			if (this.indexGpuBuffer == null)
 			{
 				BUFFER_COUNT_REF.incrementAndGet();
 			}
 			if (this.indexGpuBuffer != null)
 			{
 				this.indexGpuBuffer.close();
 			}
 			int usage = GpuBuffer.USAGE_COPY_DST
 				| GpuBuffer.USAGE_INDEX;
 			this.indexGpuBuffer = GPU_DEVICE.createBuffer(BlazeVertexBufferWrapper::getIndexBufferName, usage, indexBuffer.capacity());
 			GpuBufferSlice bufferSlice = new GpuBufferSlice(this.indexGpuBuffer, /*offset*/ 0, indexBuffer.capacity());
 			COMMAND_ENCODER.writeToBuffer(bufferSlice, indexBuffer);
 		}
 	}
 	private static String getIndexBufferName() { return "distantHorizons:LodIndexBuffer"; }
 	//endregion
 	//================//
 	// base overrides //
 	//================//
 	//region
 	@Override
 	public void close()
 	{
 		if (this.vertexGpuBuffer != null)
 		{
 			BUFFER_COUNT_REF.decrementAndGet();
 			this.vertexGpuBuffer.close();
 		}
 		if (this.indexGpuBuffer != null)
 		{
 			BUFFER_COUNT_REF.decrementAndGet();
 			this.indexGpuBuffer.close();
 		}
 		//LOGGER.info("Close, count: ["+BUFFER_COUNT_REF.get()+"]");
 	}
 	//endregion
 }
 #endif
@@ -1,75 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.wrappers.texture;
 #if MC_VER <= MC_1_21_10
 public class BlazeTextureViewWrapper {}
 #else
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.mojang.blaze3d.textures.*;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import java.util.OptionalDouble;
 public class BlazeTextureViewWrapper implements IDhBlazeTexture
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	private GpuTextureView textureView = null;
 	public GpuTextureView getTextureView() { return this.textureView; }
 	private GpuSampler textureSampler = null;
 	public GpuSampler getTextureSampler() { return this.textureSampler; }
 	//=======//
 	// setup //
 	//=======//
 	//region
 	/** does nothing if the texture is already wrapped */
 	public void tryWrap(GpuTexture texture)
 	{
 		this.tryRecreateTextureView(texture);
 		this.tryCreateSampler();
 	}
 	private void tryRecreateTextureView(GpuTexture texture)
 	{
 		if (this.textureView == null
 			|| this.textureView.texture() != texture)
 		{
 			if (this.textureView != null)
 			{
 				this.textureView.close();
 			}
 			this.textureView = GPU_DEVICE.createTextureView(texture);
 		}
 	}
 	private void tryCreateSampler()
 	{
 		if (this.textureSampler == null)
 		{
 			this.textureSampler = GPU_DEVICE.createSampler(
 				AddressMode.CLAMP_TO_EDGE, AddressMode.CLAMP_TO_EDGE, // U,V
 				FilterMode.LINEAR, FilterMode.LINEAR, // minFilter, magFilter
 				1, // maxAnisotropy 
 				OptionalDouble.empty() // maxLod
 			);
 		}
 	}
 	//endregion
 }
 #endif
@@ -1,223 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.wrappers.texture;
 #if MC_VER <= MC_1_21_10
 public class BlazeTextureWrapper {}
 #else
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.coreapi.util.ColorUtil;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import java.util.OptionalDouble;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.mojang.blaze3d.textures.*;
 #if MC_VER <= MC_26_1_2
 #else
 import com.mojang.blaze3d.GpuFormat;
 import org.joml.Vector4f;
 #endif
 public class BlazeTextureWrapper implements IDhBlazeTexture
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final IMinecraftRenderWrapper MC_RENDER = SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class);
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	public final String name;
 	#if MC_VER <= MC_26_1_2
 	public final TextureFormat textureFormat;
 	#else
 	public final GpuFormat textureFormat;
 	#endif
 	public GpuTexture texture = null;
 	private GpuTextureView textureView = null;
 	public GpuTextureView getTextureView() { return this.textureView; }
 	private GpuSampler textureSampler = null;
 	public GpuSampler getTextureSampler() { return this.textureSampler; }
 	private int width = -1;
 	private int height = -1;
 	//==============//
 	// constructors //
 	//==============//
 	//region
 	public static BlazeTextureWrapper createDepth(String name) 
 	{ 
 		#if MC_VER <= MC_26_1_2
 		return new BlazeTextureWrapper(name, TextureFormat.DEPTH32);
 		#else
 		return new BlazeTextureWrapper(name, GpuFormat.D32_FLOAT);
 		#endif 
 	}
 	public static BlazeTextureWrapper createColor(String name) 
 	{ 
 		#if MC_VER <= MC_26_1_2
 		return new BlazeTextureWrapper(name, TextureFormat.RGBA8);
 		#else
 		return new BlazeTextureWrapper(name, GpuFormat.RGBA8_UNORM);
 		#endif 
 	}
 	private BlazeTextureWrapper(
 		String name, 
 		#if MC_VER <= MC_26_1_2 TextureFormat #else GpuFormat #endif textureFormat
 		)
 	{
 		this.name = name;
 		this.textureFormat = textureFormat;
 	}
 	//endregion
 	//=========//
 	// getters //
 	//=========//
 	//region
 	public boolean isEmpty() { return this.texture == null; }
 	/** @return -1 if the texture is null */
 	public int getWidth() { return this.width; }
 	/** @return -1 if the texture is null */
 	public int getHeight() { return this.height; }
 	//endregion
 	//=======//
 	// setup //
 	//=======//
 	//region
 	/** 
 	 * does nothing if the texture is already created and the correct size 
 	 * @return true if the texture was (re)created
 	 */
 	public boolean tryCreateOrResize()
 	{
 		boolean textureChanged = this.tryCreateTexture();
 		this.tryCreateSampler();
 		return textureChanged;
 	}
 	private boolean tryCreateTexture()
 	{
 		int viewWidth = MC_RENDER.getTargetFramebufferViewportWidth();
 		int viewHeight = MC_RENDER.getTargetFramebufferViewportHeight();
 		if (this.texture != null
 			&& this.width == viewWidth
 			&& this.height == viewHeight)
 		{
 			// no changes needed
 			return false;
 		}
 		if (this.texture != null)
 		{
 			this.texture.close();
 			this.textureView.close();
 		}
 		this.width = viewWidth;
 		this.height = viewHeight;
 		int usage = GpuTexture.USAGE_COPY_DST
 			| GpuTexture.USAGE_TEXTURE_BINDING
 			| GpuTexture.USAGE_COPY_SRC
 			| GpuTexture.USAGE_RENDER_ATTACHMENT;
 		this.texture = GPU_DEVICE.createTexture(
 			this.name,
 			usage,
 			this.textureFormat,
 			viewWidth, viewHeight,
 			/*depthOrLayers*/ 1, /*mipLevels*/ 1
 		);
 		this.textureView = GPU_DEVICE.createTextureView(this.texture);
 		return true;
 	}
 	private void tryCreateSampler()
 	{
 		if (this.textureSampler == null)
 		{
 			this.textureSampler = GPU_DEVICE.createSampler(
 				AddressMode.CLAMP_TO_EDGE, AddressMode.CLAMP_TO_EDGE, // U,V
 				FilterMode.LINEAR, FilterMode.LINEAR, // minFilter, magFilter
 				1, // maxAnisotropy 
 				OptionalDouble.empty() // maxLod
 			);
 		}
 	}
 	//endregion
 	//==========//
 	// clearing //
 	//==========//
 	//region
 	/** 
 	 * Will throw an exception if not a color texture.
 	 * @see ColorUtil#argbToInt 
 	 */
 	public void clearColor(int clearArgbColor) 
 	{
 		if (this.texture != null)
 		{
 			#if MC_VER <= MC_26_1_2
 			COMMAND_ENCODER.clearColorTexture(this.texture, clearArgbColor);
 			#else
 			Vector4f clearColor = new Vector4f(
 				// color values should be between 0.0 and 1.0
 				ColorUtil.getRed(clearArgbColor) / 255.0f,
 				ColorUtil.getGreen(clearArgbColor) / 255.0f,
 				ColorUtil.getBlue(clearArgbColor) / 255.0f,
 				ColorUtil.getAlpha(clearArgbColor) / 255.0f
 			);
 			COMMAND_ENCODER.clearColorTexture(this.texture, clearColor);
 			#endif
 		}
 	}
 	/** Will throw an exception if not a depth texture. */
 	public void clearDepth(float depth) 
 	{
 		if (this.texture != null)
 		{
 			COMMAND_ENCODER.clearDepthTexture(this.texture, depth);
 		}
 	}
 	//endregion
 }
 #endif
@@ -1,17 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.wrappers.texture;
 #if MC_VER <= MC_1_21_10
 public interface IDhBlazeTexture {}
 #else
 import com.mojang.blaze3d.textures.GpuSampler;
 import com.mojang.blaze3d.textures.GpuTextureView;
 public interface IDhBlazeTexture
 {
 	GpuTextureView getTextureView();
 	GpuSampler getTextureSampler();
 }
 #endif
@@ -1,61 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.wrappers.uniform;
 #if MC_VER <= MC_1_21_10
 public class BlazeLodUniformBufferWrapper {}
 #else
 import com.seibel.distanthorizons.core.dataObjects.render.bufferBuilding.LodBufferContainer;
 import com.seibel.distanthorizons.core.util.math.DhVec3f;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.ILodContainerUniformBufferWrapper;
 public class BlazeLodUniformBufferWrapper extends BlazeUniformBufferWrapper implements ILodContainerUniformBufferWrapper
 {
 	private boolean uploaded = false;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public BlazeLodUniformBufferWrapper() { super(BlazeLodUniformBufferWrapper.class.getName()); }
 	//endregion
 	//========//
 	// upload //
 	//========//
 	//region
 	@Override
 	public void tryUpload(LodBufferContainer bufferContainer)
 	{
 		if (this.uploaded)
 		{
 			return;
 		}
 		DhVec3f modelOffset = new DhVec3f(
 			(float) (bufferContainer.minCornerBlockPos.getX()),
 			(float) (bufferContainer.minCornerBlockPos.getY()),
 			(float) (bufferContainer.minCornerBlockPos.getZ()));
 		// upload data //
 		this
 			.putVec3f(modelOffset.x, modelOffset.y, modelOffset.z) // uModelOffset
 			.finishAndUpload();
 		this.uploaded = true;
 	}
 	//endregion
 }
 #endif
@@ -1,237 +0,0 @@
 package com.seibel.distanthorizons.common.render.blaze.wrappers.uniform;
 #if MC_VER <= MC_1_21_10
 public class BlazeUniformBufferWrapper {}
 #else
 import com.mojang.blaze3d.buffers.GpuBuffer;
 import com.mojang.blaze3d.buffers.GpuBufferSlice;
 import com.mojang.blaze3d.buffers.Std140Builder;
 import com.mojang.blaze3d.buffers.Std140SizeCalculator;
 import com.mojang.blaze3d.systems.CommandEncoder;
 import com.mojang.blaze3d.systems.GpuDevice;
 import com.mojang.blaze3d.systems.RenderSystem;
 import com.seibel.distanthorizons.api.objects.math.DhApiMat4f;
 import com.seibel.distanthorizons.common.render.blaze.util.BlazeUniformUtil;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import java.nio.ByteBuffer;
 import java.nio.ByteOrder;
 import java.util.ArrayList;
 public class BlazeUniformBufferWrapper implements AutoCloseable
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final GpuDevice GPU_DEVICE = RenderSystem.getDevice();
 	private static final CommandEncoder COMMAND_ENCODER = GPU_DEVICE.createCommandEncoder();
 	private final String name;
 	/** measured in bytes */
 	private int bufferSize = 0;
 	private ByteBuffer cpuBuffer = null;
 	private GpuBuffer gpuBuffer = null;
 	public GpuBuffer getGpuBuffer() { return this.gpuBuffer; }
 	private GpuBufferSlice bufferSlice = null;
 	/** the element count the current CPU Buffer is sized for */
 	private int previousElementCount = 0;
 	/** how many elements are currently in flight (ie being added to the buffer right now) */
 	private int elementCount = 0;
 	/** used to resize the buffers dur first-time setup */
 	private final ArrayList<EUniformElement> uniformElementTypes = new ArrayList<>(0);
 	private Std140Builder uniformBufferBuilder = null;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public BlazeUniformBufferWrapper(String name) { this.name = name; }
 	//endregion
 	//=================//
 	// element builder //
 	//=================//
 	//region
 	public BlazeUniformBufferWrapper putVec2f(float x, float y)
 	{
 		this.putElement(EUniformElement.VEC2f);
 		this.uniformBufferBuilder.putVec2(x,y);
 		return this;
 	}
 	public BlazeUniformBufferWrapper putVec3i(int x, int y, int z)
 	{
 		this.putElement(EUniformElement.VEC3i);
 		this.uniformBufferBuilder.putIVec3(x,y,z);
 		return this;
 	}
 	public BlazeUniformBufferWrapper putVec3f(float x, float y, float z)
 	{
 		this.putElement(EUniformElement.VEC3f);
 		this.uniformBufferBuilder.putVec3(x,y,z);
 		return this;
 	}
 	public BlazeUniformBufferWrapper putVec4f(float x, float y, float z, float w)
 	{
 		this.putElement(EUniformElement.VEC4f);
 		this.uniformBufferBuilder.putVec4(x,y,z,w);
 		return this;
 	}
 	public BlazeUniformBufferWrapper putMat4f(DhApiMat4f matrix)
 	{
 		this.putElement(EUniformElement.MAT4f);
 		this.uniformBufferBuilder.putMat4f(DhMat4f.createJomlMatrix(matrix));
 		return this;
 	}
 	public BlazeUniformBufferWrapper putFloat(float f)
 	{
 		this.putElement(EUniformElement.FLOAT);
 		this.uniformBufferBuilder.putFloat(f);
 		return this;
 	}
 	public BlazeUniformBufferWrapper putInt(int i)
 	{
 		this.putElement(EUniformElement.INT);
 		this.uniformBufferBuilder.putInt(i);
 		return this;
 	}
 	private void putElement(EUniformElement elementTypeEnum)
 	{
 		this.uniformElementTypes.add(elementTypeEnum);
 		boolean createNewBuilder = (this.elementCount == 0);
 		this.elementCount++;
 		if (this.elementCount > this.previousElementCount)
 		{
 			this.recreateCpuBuffer();
 			createNewBuilder = true;
 		}
 		if (createNewBuilder)
 		{
 			this.uniformBufferBuilder = Std140Builder.intoBuffer(this.cpuBuffer);
 		}
 	}
 	private void recreateCpuBuffer()
 	{
 		ByteBuffer oldBuffer = this.cpuBuffer;
 		int size = calcBufferSize(this.uniformElementTypes);
 		this.cpuBuffer = ByteBuffer.allocateDirect(size);
 		this.cpuBuffer.order(ByteOrder.nativeOrder());
 		if (oldBuffer != null)
 		{
 			oldBuffer.position(0);
 			this.cpuBuffer.put(oldBuffer);
 		}
 		this.bufferSize = size;
 		this.previousElementCount = this.elementCount;
 	}
 	private static int calcBufferSize(ArrayList<EUniformElement> uniformElements)
 	{
 		Std140SizeCalculator calculator = new Std140SizeCalculator();
 		for (int i = 0; i < uniformElements.size(); i++)
 		{
 			EUniformElement element = uniformElements.get(i);
 			switch (element)
 			{
 				case VEC2f -> calculator.putVec2();
 				case VEC3i -> calculator.putIVec3();
 				case VEC3f -> calculator.putVec3();
 				case VEC4f -> calculator.putVec4();
 				case MAT4f -> calculator.putMat4f();
 				case INT -> calculator.putInt();
 				case FLOAT -> calculator.putFloat();
 				default -> throw new UnsupportedOperationException("No definition for element type ["+element.name()+"]");
 			}
 		}
 		return calculator.get();
 	}
 	public void finishAndUpload()
 	{
 		// re-create the GPU buffer if needed
 		GpuBuffer oldGpuBuffer = this.gpuBuffer;
 		this.gpuBuffer = BlazeUniformUtil.createBuffer(this.name, this.bufferSize, this.gpuBuffer);
 		boolean createNewBufferSlice = (this.bufferSlice == null || this.gpuBuffer != oldGpuBuffer);
 		if (createNewBufferSlice)
 		{
 			this.bufferSlice = new GpuBufferSlice(this.gpuBuffer, 0, this.bufferSize);
 		}
 		// upload to GPU
 		this.cpuBuffer.position(0);
 		COMMAND_ENCODER.writeToBuffer(this.bufferSlice, this.cpuBuffer);
 		// clear the element tracking for next time
 		this.elementCount = 0;
 		this.uniformElementTypes.clear();
 		this.uniformBufferBuilder = null;
 	}
 	//endregion
 	//================//
 	// base overrides //
 	//================//
 	//region
 	@Override
 	public void close()
 	{
 		if (this.gpuBuffer != null)
 		{
 			this.gpuBuffer.close();
 		}
 	}
 	//endregion
 	//================//
 	// helper classes //
 	//================//
 	//region
 	private enum EUniformElement
 	{
 		VEC2f,
 		VEC3f,
 		VEC3i,
 		VEC4f,
 		MAT4f,
 		INT,
 		FLOAT,
 	}
 	//endregion
 }
 #endif
@@ -1,197 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl;
 import com.seibel.distanthorizons.api.enums.config.EDhApiGpuUploadMethod;
 import com.seibel.distanthorizons.common.render.openGl.glObject.buffer.GLIndexBuffer;
 import com.seibel.distanthorizons.common.render.openGl.glObject.buffer.GLVertexBuffer;
 import com.seibel.distanthorizons.common.render.openGl.glObject.shader.GlShaderProgram;
 import com.seibel.distanthorizons.common.render.openGl.glObject.vertexAttribute.GlAbstractVertexAttribute;
 import com.seibel.distanthorizons.common.render.openGl.glObject.vertexAttribute.GlVertexPointer;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftGLWrapper;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.render.renderer.AbstractDebugWireframeRenderer;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import org.lwjgl.opengl.GL32;
 import java.nio.ByteBuffer;
 import java.nio.ByteOrder;
 /**
 * Handles rendering the wireframe particles 
 * that are used for seeing what the system's doing.
 */
 public class GlDhDebugWireframeRenderer extends AbstractDebugWireframeRenderer
 {
 	public static GlDhDebugWireframeRenderer INSTANCE = new GlDhDebugWireframeRenderer();
 	public static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final MinecraftGLWrapper GLMC = MinecraftGLWrapper.INSTANCE;
 	// rendering setup
 	private GlShaderProgram basicShader;
 	private GLVertexBuffer vertexBuffer;
 	private GLIndexBuffer indexBuffer;
 	private GlAbstractVertexAttribute va;
 	private boolean init = false;
 	/** A box from 0,0,0 to 1,1,1 */
 	private static final float[] BOX_VERTICES = {
 		//region
 			// Pos x y z
 			0, 0, 0,
 			1, 0, 0,
 			1, 1, 0,
 			0, 1, 0,
 			0, 0, 1,
 			1, 0, 1,
 			1, 1, 1,
 			0, 1, 1,
 		//endregion
 	};
 	private static final int[] BOX_OUTLINE_INDICES = {
 		//region
 			0, 1,
 			1, 2,
 			2, 3,
 			3, 0,
 			4, 5,
 			5, 6,
 			6, 7,
 			7, 4,
 			0, 4,
 			1, 5,
 			2, 6,
 			3, 7,
 		//endregion
 	};
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private GlDhDebugWireframeRenderer() { }
 	public void init()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		this.va = GlAbstractVertexAttribute.create();
 		this.va.bind();
 		// Pos
 		this.va.setVertexAttribute(0, 0, GlVertexPointer.addVec3Pointer(false));
 		this.va.completeAndCheck(Float.BYTES * 3);
 		this.basicShader = new GlShaderProgram(
 			"assets/distanthorizons/shaders/debug/gl/vert.vert",
 			"assets/distanthorizons/shaders/debug/gl/frag.frag",
 			"vPosition"
 		);
 		this.createBuffer();
 	}
 	private void createBuffer()
 	{
 		// box vertices 
 		ByteBuffer boxVerticesBuffer = ByteBuffer.allocateDirect(BOX_VERTICES.length * Float.BYTES);
 		boxVerticesBuffer.order(ByteOrder.nativeOrder());
 		boxVerticesBuffer.asFloatBuffer().put(BOX_VERTICES);
 		boxVerticesBuffer.rewind();
 		this.vertexBuffer = new GLVertexBuffer(false);
 		this.vertexBuffer.bind();
 		this.vertexBuffer.uploadBuffer(boxVerticesBuffer, 8, EDhApiGpuUploadMethod.DATA, BOX_VERTICES.length * Float.BYTES);
 		// outline vertex indexes
 		ByteBuffer boxOutlineBuffer = ByteBuffer.allocateDirect(BOX_OUTLINE_INDICES.length * Integer.BYTES);
 		boxOutlineBuffer.order(ByteOrder.nativeOrder());
 		boxOutlineBuffer.asIntBuffer().put(BOX_OUTLINE_INDICES);
 		boxOutlineBuffer.rewind();
 		this.indexBuffer = new GLIndexBuffer(false);
 		this.indexBuffer.uploadBuffer(boxOutlineBuffer, EDhApiGpuUploadMethod.DATA, BOX_OUTLINE_INDICES.length * Integer.BYTES, GL32.GL_STATIC_DRAW);
 	}
 	//endregion
 	//===========//
 	// rendering //
 	//===========//
 	//region
 	@Override
 	public void render(RenderParams renderParams)
 	{
 		this.init();
 		GL32.glPolygonMode(GL32.GL_FRONT_AND_BACK, GL32.GL_LINE);
 		GLMC.enableDepthTest();
 		this.basicShader.bind();
 		this.va.bind();
 		this.va.bindBufferToAllBindingPoints(this.vertexBuffer.getId());
 		this.indexBuffer.bind();
 		super.render(renderParams);
 		// revert to prevent issues with the following passes
 		GL32.glPolygonMode(GL32.GL_FRONT_AND_BACK, GL32.GL_FILL);
 	}
 	@Override
 	public void renderBox(Box box)
 	{
 		DhMat4f boxTransform = DhMat4f.createTranslateMatrix(box.minPos.x - this.camPosFloatThisFrame.x, box.minPos.y - this.camPosFloatThisFrame.y, box.minPos.z - this.camPosFloatThisFrame.z);
 		boxTransform.multiply(DhMat4f.createScaleMatrix(box.maxPos.x - box.minPos.x, box.maxPos.y - box.minPos.y, box.maxPos.z - box.minPos.z));
 		DhMat4f transformMatrix = this.dhMvmProjMatrixThisFrame.copy();
 		transformMatrix.multiply(boxTransform);
 		this.basicShader.setUniform(this.basicShader.getUniformLocation("uTransform"), transformMatrix);
 		this.basicShader.setUniform(this.basicShader.getUniformLocation("uColor"), box.color);
 		GL32.glDrawElements(GL32.GL_LINES, BOX_OUTLINE_INDICES.length, GL32.GL_UNSIGNED_INT, 0);
 	}
 	//endregion
 }
@@ -1,481 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl;
 import com.seibel.distanthorizons.api.enums.rendering.EDhApiRenderPass;
 import com.seibel.distanthorizons.api.interfaces.override.rendering.IDhApiFramebuffer;
 import com.seibel.distanthorizons.api.interfaces.override.rendering.IDhApiShaderProgram;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.*;
 import com.seibel.distanthorizons.api.methods.events.sharedParameterObjects.DhApiRenderParam;
 import com.seibel.distanthorizons.api.methods.events.sharedParameterObjects.DhApiTextureCreatedParam;
 import com.seibel.distanthorizons.common.render.openGl.glObject.GLProxy;
 import com.seibel.distanthorizons.common.render.openGl.glObject.GlDhFramebuffer;
 import com.seibel.distanthorizons.common.render.openGl.glObject.texture.*;
 import com.seibel.distanthorizons.common.render.openGl.postProcessing.apply.GlDhApplyShader;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftGLWrapper;
 import com.seibel.distanthorizons.common.wrappers.misc.LightMapWrapper;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dependencyInjection.ModAccessorInjector;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.DhApiRenderProxy;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.misc.ILightMapWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.modAccessor.IOptifineAccessor;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhMetaRenderer;
 import com.seibel.distanthorizons.coreapi.DependencyInjection.ApiEventInjector;
 import com.seibel.distanthorizons.coreapi.DependencyInjection.OverrideInjector;
 import org.jetbrains.annotations.Nullable;
 import org.lwjgl.opengl.GL32;
 public class GlDhMetaRenderer implements IDhMetaRenderer
 {
 	public static final DhLogger LOGGER = new DhLoggerBuilder()
 		.fileLevelConfig(Config.Common.Logging.logRendererEventToFile)
 		.build();
 	public static final DhLogger RATE_LIMITED_LOGGER = new DhLoggerBuilder()
 		.fileLevelConfig(Config.Common.Logging.logRendererEventToFile)
 		.maxCountPerSecond(4)
 		.build();
 	public static final GlDhMetaRenderer INSTANCE = new GlDhMetaRenderer();
 	private static final IMinecraftRenderWrapper MC_RENDER = SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class);
 	private static final MinecraftGLWrapper GLMC = MinecraftGLWrapper.INSTANCE;
 	private static final IOptifineAccessor OPTIFINE_ACCESSOR = ModAccessorInjector.INSTANCE.get(IOptifineAccessor.class);
 	private int activeFramebufferId = -1;
 	private int activeColorTextureId = -1;
 	private int activeDepthTextureId = -1;
 	private int textureWidth;
 	private int textureHeight;
 	// framebuffer and texture ID's for this renderer
 	private IDhApiFramebuffer framebuffer;
 	/** will be null if MC's framebuffer is being used since MC already has a color texture */
 	@Nullable
 	private GlDhColorTexture nullableColorTexture;
 	private GlDhDepthTexture depthTexture;
 	/**
 	 * If true the {@link GlDhMetaRenderer#framebuffer} is the same as MC's.
 	 * This should only be true in the case of Optifine so LODs won't be overwritten when shaders are enabled.
 	 */
 	private boolean usingMcFramebuffer = false;
 	private boolean renderObjectsCreated = false;
 	/** used in case there's an API override */
 	public IDhApiShaderProgram shaderProgramForThisFrame;
 	/** Older MC versions assume GL state is unchanged, so we must restore it after DH rendering */
 	#if MC_VER <= MC_1_12_2
 	private int previousBoundTextureId;
 	private int previousDepthFunc;
 	#endif
 	//============//
 	// pre render //
 	//============//
 	//region
 	@Override
 	public void runRenderPassSetup(RenderParams renderParams)
 	{
 		boolean firstPass =
 			(renderParams.renderPass == EDhApiRenderPass.OPAQUE
 			|| renderParams.renderPass == EDhApiRenderPass.OPAQUE_AND_TRANSPARENT);
 		if (!this.renderObjectsCreated)
 		{
 			boolean setupSuccess = this.createRenderObjects();
 			if (!setupSuccess)
 			{
 				// shouldn't normally happen, but just in case
 				return;
 			}
 			this.renderObjectsCreated = true;
 		}
 		this.shaderProgramForThisFrame = GlDhTerrainRenderer.INSTANCE.getTerrainShaderProgram();
 		IDhApiShaderProgram lodShaderProgramOverride = OverrideInjector.INSTANCE.get(IDhApiShaderProgram.class);
 		if (lodShaderProgramOverride != null && this.shaderProgramForThisFrame.overrideThisFrame())
 		{
 			this.shaderProgramForThisFrame = lodShaderProgramOverride;
 		}
 		this.setGLState(renderParams, firstPass);
 		this.bindLightmap(renderParams.lightmap);
 	}
 	private void setGLState(
 		DhApiRenderParam renderEventParam,
 		boolean firstPass)
 	{
 		#if MC_VER <= MC_1_12_2
 		this.previousBoundTextureId = GLMC.getActiveTexture();
 		this.previousDepthFunc = GLMC.getActiveDepthFunc();
 		#endif
 		//===================//
 		// framebuffer setup //
 		//===================//
 		// get the active framebuffer
 		IDhApiFramebuffer framebuffer = this.framebuffer;
 		IDhApiFramebuffer framebufferOverride = OverrideInjector.INSTANCE.get(IDhApiFramebuffer.class);
 		if (framebufferOverride != null && framebufferOverride.overrideThisFrame())
 		{
 			framebuffer = framebufferOverride;
 		}
 		this.setActiveFramebufferId(framebuffer.getId());
 		framebuffer.bind();
 		//==========//
 		// bindings //
 		//==========//
 		// by default draw everything as triangles
 		GL32.glPolygonMode(GL32.GL_FRONT_AND_BACK, GL32.GL_FILL);
 		GLMC.enableFaceCulling();
 		GLMC.glBlendFunc(GL32.GL_SRC_ALPHA, GL32.GL_ONE_MINUS_SRC_ALPHA);
 		GLMC.glBlendFuncSeparate(GL32.GL_SRC_ALPHA, GL32.GL_ONE_MINUS_SRC_ALPHA, GL32.GL_ONE, GL32.GL_ZERO);
 		GL32.glDisable(GL32.GL_SCISSOR_TEST);
 		// Enable depth test and depth mask
 		GLMC.enableDepthTest();
 		GLMC.glDepthFunc(GL32.GL_LESS);
 		GLMC.enableDepthMask();
 		// This is required for MC versions 1.21.5+
 		// due to MC updating the lightmap by changing the viewport size
 		GL32.glViewport(0, 0, this.textureWidth, this.textureHeight);
 		this.shaderProgramForThisFrame.bind();
 		//==========//
 		// uniforms //
 		//==========//
 		IDhApiShaderProgram shaderProgramOverride = OverrideInjector.INSTANCE.get(IDhApiShaderProgram.class);
 		if (shaderProgramOverride != null)
 		{
 			shaderProgramOverride.fillUniformData(renderEventParam);
 		}
 		this.shaderProgramForThisFrame.fillUniformData(renderEventParam);
 		//===============//
 		// texture setup //
 		//===============//
 		// resize the textures if needed
 		if (MC_RENDER.getTargetFramebufferViewportWidth() != this.textureWidth
 			|| MC_RENDER.getTargetFramebufferViewportHeight() != this.textureHeight)
 		{
 			// just resizing the textures doesn't work when Optifine is present,
 			// so recreate the textures with the new size instead
 			this.createAndBindTextures();
 		}
 		// set the active textures
 		int depthTextureId = this.depthTexture.getTextureId();
 		this.setActiveDepthTextureId(depthTextureId);
 		if (this.nullableColorTexture != null)
 		{
 			int colorTextureId = this.nullableColorTexture.getTextureId();
 			this.setActiveColorTextureId(colorTextureId);
 		}
 		else
 		{
 			// get MC's color texture 
 			int colorTextureId = GL32.glGetFramebufferAttachmentParameteri(GL32.GL_FRAMEBUFFER, GL32.GL_COLOR_ATTACHMENT0, GL32.GL_FRAMEBUFFER_ATTACHMENT_OBJECT_NAME);
 			this.setActiveColorTextureId(colorTextureId);
 		}
 		// needs to be fired after all the textures have been created/bound
 		boolean clearTextures = !ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeTextureClearEvent.class, renderEventParam);
 		if (clearTextures)
 		{
 			GL32.glClearDepth(1.0);
 			float[] clearColorValues = new float[4];
 			GL32.glGetFloatv(GL32.GL_COLOR_CLEAR_VALUE, clearColorValues);
 			GL32.glClearColor(clearColorValues[0], clearColorValues[1], clearColorValues[2], 1.0f);
 			if (this.usingMcFramebuffer && framebufferOverride == null)
 			{
 				// Due to using MC/Optifine's framebuffer we need to re-bind the depth texture,
 				// otherwise we'll be writing to MC/Optifine's depth texture which causes rendering issues
 				framebuffer.addDepthAttachment(this.depthTexture.getTextureId(), EGlDhDepthBufferFormat.DEPTH32F.isCombinedStencil());
 				// don't clear the color texture, that removes the sky 
 				GL32.glClear(GL32.GL_DEPTH_BUFFER_BIT);
 			}
 			else if (firstPass)
 			{
 				GL32.glClear(GL32.GL_COLOR_BUFFER_BIT | GL32.GL_DEPTH_BUFFER_BIT);
 			}
 		}
 	}
 	private boolean createRenderObjects()
 	{
 		if (this.renderObjectsCreated)
 		{
 			LOGGER.warn("Renderer setup called but it has already completed setup!");
 			return false;
 		}
 		// GLProxy should have already been created by this point, but just in case create it now
 		GLProxy.getInstance();
 		LOGGER.info("Setting up renderer");
 		// create or get the frame buffer
 		if (OPTIFINE_ACCESSOR != null)
 		{
 			// use MC/Optifine's default Framebuffer so shaders won't remove the LODs
 			int currentFramebufferId = MC_RENDER.getTargetFramebuffer();
 			this.framebuffer = new GlDhFramebuffer(currentFramebufferId);
 			this.usingMcFramebuffer = true;
 		}
 		else
 		{
 			// normal use case
 			this.framebuffer = new GlDhFramebuffer();
 			this.usingMcFramebuffer = false;
 		}
 		// create and bind the necessary textures
 		this.createAndBindTextures();
 		if(this.framebuffer.getStatus() != GL32.GL_FRAMEBUFFER_COMPLETE)
 		{
 			// This generally means something wasn't bound, IE missing either the color or depth texture
 			LOGGER.warn("Framebuffer ["+this.framebuffer.getId()+"] isn't complete.");
 			return false;
 		}
 		LOGGER.info("Renderer setup complete");
 		return true;
 	}
 	@SuppressWarnings( "deprecation" ) // done to ignore DhApiColorDepthTextureCreatedEvent
 	private void createAndBindTextures()
 	{
 		int oldWidth = this.textureWidth;
 		int oldHeight = this.textureHeight;
 		this.textureWidth = MC_RENDER.getTargetFramebufferViewportWidth();
 		this.textureHeight = MC_RENDER.getTargetFramebufferViewportHeight();
 		DhApiTextureCreatedParam textureCreatedParam = new DhApiTextureCreatedParam(
 			oldWidth, oldHeight,
 			this.textureWidth, this.textureHeight
 		);
 		// DhApiColorDepthTextureCreatedEvent needs to be kept around since old versions of Iris need it
 		ApiEventInjector.INSTANCE.fireAllEvents(DhApiColorDepthTextureCreatedEvent.class, new DhApiColorDepthTextureCreatedEvent.EventParam(textureCreatedParam));
 		ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeColorDepthTextureCreatedEvent.class, textureCreatedParam);
 		// also update the framebuffer override if present
 		IDhApiFramebuffer framebufferOverride = OverrideInjector.INSTANCE.get(IDhApiFramebuffer.class);
 		this.depthTexture = new GlDhDepthTexture(this.textureWidth, this.textureHeight, EGlDhDepthBufferFormat.DEPTH32F);
 		this.framebuffer.addDepthAttachment(this.depthTexture.getTextureId(), EGlDhDepthBufferFormat.DEPTH32F.isCombinedStencil());
 		if (framebufferOverride != null)
 		{
 			framebufferOverride.addDepthAttachment(this.depthTexture.getTextureId(), EGlDhDepthBufferFormat.DEPTH32F.isCombinedStencil());
 		}
 		// if we are using MC's frame buffer, a color texture is already present and shouldn't need to be bound
 		if (!this.usingMcFramebuffer)
 		{
 			this.nullableColorTexture = GlDhColorTexture.builder()
 				.setDimensions(this.textureWidth, this.textureHeight)
 				.setInternalFormat(EGlDhInternalTextureFormat.RGBA8)
 				.setPixelType(EGlDhPixelType.UNSIGNED_BYTE)
 				.setPixelFormat(EGlDhPixelFormat.RGBA)
 				.build();
 			this.framebuffer.addColorAttachment(0, this.nullableColorTexture.getTextureId());
 			if (framebufferOverride != null)
 			{
 				framebufferOverride.addColorAttachment(0, this.nullableColorTexture.getTextureId());
 			}
 		}
 		else
 		{
 			this.nullableColorTexture = null;
 		}
 		ApiEventInjector.INSTANCE.fireAllEvents(DhApiAfterColorDepthTextureCreatedEvent.class, textureCreatedParam);
 	}
 	//endregion
 	//=============//
 	// post render //
 	//=============//
 	//region
 	@Override
 	public void runRenderPassCleanup(RenderParams renderParams)
 	{
 		boolean runningDeferredPass = (renderParams.renderPass == EDhApiRenderPass.TRANSPARENT);
 		if (!runningDeferredPass)
 		{
 			//===================//
 			// optifine clean up //
 			//===================//
 			if (this.usingMcFramebuffer)
 			{
 				// If MC's framebuffer is being used the depth needs to be cleared to prevent rendering on top of MC.
 				// This should only happen when Optifine shaders are being used.
 				GL32.glClear(GL32.GL_DEPTH_BUFFER_BIT);
 			}
 		}
 		#if MC_VER <= MC_1_12_2
 		GLMC.glDepthFunc(previousDepthFunc);
 		#endif
 		this.unbindLightmap();
 		this.shaderProgramForThisFrame.unbind();
 	}
 	@Override
 	public void applyToMcTexture(RenderParams renderParams) { GlDhApplyShader.INSTANCE.render(renderParams); }
 	//endregion
 	//================//
 	// clear textures //
 	//================//
 	//region
 	@Override
 	public void clearDhDepthAndColorTextures(RenderParams renderParams) 
 	{
 		IDhApiFramebuffer framebufferOverride = OverrideInjector.INSTANCE.get(IDhApiFramebuffer.class);
 		boolean firstPass =
 			(renderParams.renderPass == EDhApiRenderPass.OPAQUE
 			|| renderParams.renderPass == EDhApiRenderPass.OPAQUE_AND_TRANSPARENT);
 		GL32.glClearDepth(1.0);
 		float[] clearColorValues = new float[4];
 		GL32.glGetFloatv(GL32.GL_COLOR_CLEAR_VALUE, clearColorValues);
 		GL32.glClearColor(clearColorValues[0], clearColorValues[1], clearColorValues[2], 1.0f);
 		if (this.usingMcFramebuffer 
 			&& framebufferOverride == null)
 		{
 			//// Due to using MC/Optifine's framebuffer we need to re-bind the depth texture,
 			//// otherwise we'll be writing to MC/Optifine's depth texture which causes rendering issues
 			//this.framebuffer.addDepthAttachment(this.depthTexture.getTextureId(), EDhDepthBufferFormat.DEPTH32F.isCombinedStencil());
 			// don't clear the color texture, that removes the sky 
 			GL32.glClear(GL32.GL_DEPTH_BUFFER_BIT);
 		}
 		else if (firstPass)
 		{
 			GL32.glClear(GL32.GL_COLOR_BUFFER_BIT | GL32.GL_DEPTH_BUFFER_BIT);
 		}
 	}
 	//endregion
 	//===============//
 	// API functions //
 	//===============//
 	//region
 	public void setActiveFramebufferId(int id) { this.activeFramebufferId = id; }
 	/** @return -1 if no frame buffer has been bound yet */
 	public int getActiveFramebufferId() { return this.activeFramebufferId; }
 	public void setActiveColorTextureId(int id)
 	{
 		this.activeColorTextureId = id;
 		DhApiRenderProxy.activeOpenGlDhColorTextureId = id;
 	}
 	/** @return -1 if no texture has been bound yet */
 	public int getActiveColorTextureId() { return this.activeColorTextureId; }
 	public void setActiveDepthTextureId(int id)
 	{
 		this.activeDepthTextureId = id;
 		DhApiRenderProxy.activeOpenGlDhDepthTextureId = id;
 	}
 	/** @return -1 if no texture has been bound yet */
 	public int getActiveDepthTextureId() { return this.activeDepthTextureId; }
 	//endregion
 	//================//
 	// helper methods //
 	//================//
 	//region
 	public void bindLightmap(ILightMapWrapper lightMapWrapper)
 	{
 		LightMapWrapper lightMap = (LightMapWrapper)lightMapWrapper;
 		GLMC.glActiveTexture(GL32.GL_TEXTURE0 + LightMapWrapper.GL_BOUND_INDEX);
 		GLMC.glBindTexture(lightMap.getOpenGlId());
 	}
 	public void unbindLightmap() 
 	{
 		// strange that we don't call "glActiveTexture" here but since it's working James isn't going to change it right now (2026-03-10)
 		#if MC_VER <= MC_1_12_2
 		GLMC.glBindTexture(previousBoundTextureId);
 		#else
 		GLMC.glBindTexture(0);
 		#endif
 	}
 	//endregion
 }
@@ -1,79 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl;
 import com.seibel.distanthorizons.api.enums.config.EDhApiRenderingApi;
 import com.seibel.distanthorizons.api.enums.config.EDhApiRenderingEngine;
 import com.seibel.distanthorizons.common.render.openGl.generic.GlGenericObjectRenderer;
 import com.seibel.distanthorizons.common.render.openGl.generic.GlGenericObjectVertexContainer;
 import com.seibel.distanthorizons.common.render.openGl.glObject.GlDummyUniformData;
 import com.seibel.distanthorizons.common.render.openGl.glObject.buffer.GLVertexBuffer;
 import com.seibel.distanthorizons.common.render.openGl.postProcessing.fade.GlDhFarFadeRenderer;
 import com.seibel.distanthorizons.common.render.openGl.postProcessing.fade.GlVanillaFadeRenderer;
 import com.seibel.distanthorizons.common.render.openGl.postProcessing.fog.GlDhFogRenderer;
 import com.seibel.distanthorizons.common.render.openGl.postProcessing.ssao.GlDhSSAORenderer;
 import com.seibel.distanthorizons.common.render.openGl.test.GlTestTriangleRenderer;
 import com.seibel.distanthorizons.core.render.EDhRenderDepth;
 import com.seibel.distanthorizons.core.render.renderer.AbstractDebugWireframeRenderer;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IDhGenericObjectVertexBufferContainer;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.ILodContainerUniformBufferWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IVertexBufferWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.*;
 public class GlDhRenderApiDefinition extends AbstractDhRenderApiDefinition
 {
 	//=========//
 	// getters //
 	//=========//
 	//region
 	public String getEngineName() { return "OpenGL"; }
 	public EDhRenderDepth getRenderDepth() 
 	{
 		// reversed Z shouldn't be supported on OpenGL due
 		// to that breaking Iris shaders
 		return EDhRenderDepth.FORWARD_Z; 
 	}
 	public EDhApiRenderingApi getRenderApi() { return EDhApiRenderingApi.OPEN_GL; }
 	public boolean isNativeRenderer() { return true; }
 	//endregion
 	//============//
 	// singletons //
 	//============//
 	//region
 	@Override public IDhMetaRenderer getMetaRenderer() { return GlDhMetaRenderer.INSTANCE; }
 	@Override public IDhTerrainRenderer getTerrainRenderer() { return GlDhTerrainRenderer.INSTANCE; }
 	@Override public IDhSsaoRenderer getSsaoRenderer() { return GlDhSSAORenderer.INSTANCE; }
 	@Override public IDhFogRenderer getFogRenderer() { return GlDhFogRenderer.INSTANCE; }
 	@Override public IDhFarFadeRenderer getFarFadeRenderer() { return GlDhFarFadeRenderer.INSTANCE; }
 	@Override public AbstractDebugWireframeRenderer getDebugWireframeRenderer() { return GlDhDebugWireframeRenderer.INSTANCE; }
 	@Override public IDhVanillaFadeRenderer getVanillaFadeRenderer() { return GlVanillaFadeRenderer.INSTANCE; }
 	@Override public IDhTestTriangleRenderer getTestTriangleRenderer() { return GlTestTriangleRenderer.INSTANCE; }
 	//endregion
 	//===========//
 	// factories //
 	//===========//
 	//region
 	@Override public IDhGenericRenderer createGenericRenderer() { return new GlGenericObjectRenderer(); }
 	@Override public IVertexBufferWrapper createVboWrapper(String name) { return new GLVertexBuffer(); }
 	@Override public ILodContainerUniformBufferWrapper createLodContainerUniformWrapper() { return new GlDummyUniformData(); }
 	@Override public IDhGenericObjectVertexBufferContainer createGenericVboContainer() { return new GlGenericObjectVertexContainer(); }
 	//endregion
 }
@@ -1,67 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl;
 import com.seibel.distanthorizons.common.render.openGl.terrain.GlDhTerrainShaderProgram;
 import com.seibel.distanthorizons.core.dataObjects.render.bufferBuilding.LodBufferContainer;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.util.objects.SortedArraySet;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IProfilerWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhTerrainRenderer;
 public class GlDhTerrainRenderer implements IDhTerrainRenderer
 {
 	public static final GlDhTerrainRenderer INSTANCE = new GlDhTerrainRenderer();
 	private GlDhTerrainShaderProgram terrainShaderProgram = null;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private GlDhTerrainRenderer() {}
 	//endregion
 	//=========//
 	// getters //
 	//=========//
 	//region
 	/** must be called on the render thread the first time so GL can run it's setup */
 	public GlDhTerrainShaderProgram getTerrainShaderProgram()
 	{
 		if (this.terrainShaderProgram == null)
 		{
 			this.terrainShaderProgram = new GlDhTerrainShaderProgram();
 		}
 		return this.terrainShaderProgram;
 	}
 	//endregion
 	//========//
 	// render //
 	//========//
 	//region
 	@Override 
 	public void render(RenderParams renderEventParam, boolean opaquePass, SortedArraySet<LodBufferContainer> bufferContainers, IProfilerWrapper profiler)
 	{
 		this.getTerrainShaderProgram();
 		this.terrainShaderProgram.tryInit();
 		this.terrainShaderProgram.render(renderEventParam, opaquePass, bufferContainers, profiler);
 	}
 	//endregion
 }
@@ -1,774 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.generic;
 import com.seibel.distanthorizons.api.enums.config.EDhApiGpuUploadMethod;
 import com.seibel.distanthorizons.api.enums.rendering.EDhApiBlockMaterial;
 import com.seibel.distanthorizons.api.interfaces.override.rendering.IDhApiGenericObjectShaderProgram;
 import com.seibel.distanthorizons.api.interfaces.render.IDhApiRenderableBoxGroup;
 import com.seibel.distanthorizons.api.interfaces.render.IDhApiCustomRenderRegister;
 import com.seibel.distanthorizons.api.methods.events.abstractEvents.*;
 import com.seibel.distanthorizons.api.methods.events.sharedParameterObjects.DhApiRenderParam;
 import com.seibel.distanthorizons.api.objects.math.DhApiVec3d;
 import com.seibel.distanthorizons.api.objects.render.DhApiRenderableBox;
 import com.seibel.distanthorizons.api.objects.render.DhApiRenderableBoxGroupShading;
 import com.seibel.distanthorizons.common.render.openGl.glObject.GLProxy;
 import com.seibel.distanthorizons.common.render.openGl.glObject.buffer.GLIndexBuffer;
 import com.seibel.distanthorizons.common.render.openGl.glObject.buffer.GLVertexBuffer;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftGLWrapper;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.jar.EPlatform;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.logging.f3.F3Screen;
 import com.seibel.distanthorizons.core.render.RenderParams;
 import com.seibel.distanthorizons.core.render.renderer.GenericRenderObjectFactory;
 import com.seibel.distanthorizons.core.render.renderer.RenderableBoxGroup;
 import com.seibel.distanthorizons.core.util.LodUtil;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftRenderWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IProfilerWrapper;
 import com.seibel.distanthorizons.core.util.math.DhVec3d;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.renderPass.IDhGenericRenderer;
 import com.seibel.distanthorizons.coreapi.DependencyInjection.ApiEventInjector;
 import com.seibel.distanthorizons.coreapi.DependencyInjection.OverrideInjector;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import org.lwjgl.opengl.ARBInstancedArrays;
 import org.lwjgl.opengl.GL32;
 import org.lwjgl.opengl.GL33;
 import java.awt.*;
 import java.nio.ByteBuffer;
 import java.nio.ByteOrder;
 import java.util.*;
 import java.util.concurrent.ConcurrentHashMap;
 /**
 * Handles rendering generic groups of {@link DhApiRenderableBox}.
 * 
 * @see IDhApiCustomRenderRegister
 * @see DhApiRenderableBox
 */
 public class GlGenericObjectRenderer implements IDhGenericRenderer
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final IMinecraftRenderWrapper MC_RENDER = SingletonInjector.INSTANCE.get(IMinecraftRenderWrapper.class);
 	private static final MinecraftGLWrapper GLMC = MinecraftGLWrapper.INSTANCE;
 	private static final DhApiRenderableBoxGroupShading DEFAULT_SHADING = DhApiRenderableBoxGroupShading.getUnshaded();
 	private static final DhApiBeforeGenericObjectRenderEvent.EventParam EVENT_PARAM = new DhApiBeforeGenericObjectRenderEvent.EventParam();
 	/** 
 	 * Can be used to troubleshoot the renderer. 
 	 * If enabled several debug objects will render around (0,150,0). 
 	 */
 	public static final boolean RENDER_DEBUG_OBJECTS = false;
 	// rendering setup
 	private boolean init = false;
 	private IDhApiGenericObjectShaderProgram instancedShaderProgram;
 	private IDhApiGenericObjectShaderProgram directShaderProgram;
 	private GLVertexBuffer boxVertexBuffer;
 	private GLIndexBuffer boxIndexBuffer;
 	private boolean instancedRenderingAvailable;
 	private boolean vertexAttribDivisorSupported;
 	private boolean instancedArraysSupported;
 	private final ConcurrentHashMap<Long, RenderableBoxGroup> boxGroupById = new ConcurrentHashMap<>();
 	/** A box from 0,0,0 to 1,1,1 */
 	private static final float[] BOX_VERTICES = {
 	//region
 			// Pos x y z
 			// min X, vertical face
 			0, 0, 0,
 			1, 0, 0,
 			1, 1, 0,
 			0, 1, 0,
 			// max X, vertical face
 			0, 1, 1,
 			1, 1, 1,
 			1, 0, 1,
 			0, 0, 1,
 			// min Z, vertical face
 			0, 0, 1,
 			0, 0, 0,
 			0, 1, 0,
 			0, 1, 1,
 			// max Z, vertical face
 			1, 0, 1,
 			1, 1, 1,
 			1, 1, 0,
 			1, 0, 0,
 			// min Y, horizontal face
 			0, 0, 1,
 			1, 0, 1,
 			1, 0, 0,
 			0, 0, 0,
 			// max Y, horizontal face
 			0, 1, 1,
 			1, 1, 1,
 			1, 1, 0,
 			0, 1, 0,
 	//endregion
 	};
 	private static final int[] BOX_INDICES = {
 	//region
 			// min X, vertical face
 			2, 1, 0,    
 			0, 3, 2,
 			// max X, vertical face
 			6, 5, 4,
 			4, 7, 6,
 			// min Z, vertical face
 			10, 9, 8,
 			8, 11, 10,
 			// max Z, vertical face
 			14, 13, 12,
 			12, 15, 14,
 			// min Y, horizontal face
 			18, 17, 16,
 			16, 19, 18,
 			// max Y, horizontal face
 			20, 21, 22, 
 			22, 23, 20,
 	//endregion
 	};
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public GlGenericObjectRenderer() { }
 	public void init()
 	{
 		if (this.init)
 		{
 			return;
 		}
 		this.init = true;
 		//===================================//
 		// is instanced rendering available? //
 		//===================================//
 		this.vertexAttribDivisorSupported = GLProxy.getInstance().vertexAttribDivisorSupported;
 		this.instancedArraysSupported = GLProxy.getInstance().instancedArraysSupported;
 		boolean isMac = (EPlatform.get() == EPlatform.MACOS);
 		if (isMac)
 		{
 			LOGGER.warn("Generic rendering not supported by Mac. Clouds, beacons, and some other effects will be disabled.");
 			Config.Client.Advanced.Graphics.GenericRendering.enableGenericRendering.setApiValue(false);
 			return;
 		}
 		this.instancedRenderingAvailable = (this.vertexAttribDivisorSupported || this.instancedArraysSupported) && !isMac;
 		if (!this.instancedRenderingAvailable)
 		{
 			LOGGER.warn("Instanced rendering not supported by this GPU, falling back to direct rendering. Generic object rendering will be slow and some effects may be disabled.");
 		}
 		//======================//
 		// startup the renderer //
 		//======================//
 		this.instancedShaderProgram = new GlGenericObjectShaderProgram(true);
 		this.directShaderProgram = new GlGenericObjectShaderProgram(false);
 		this.createBuffers();
 		if (RENDER_DEBUG_OBJECTS)
 		{
 			this.addGenericDebugObjects();
 		}
 	}
 	private void createBuffers()
 	{
 		// box vertices 
 		ByteBuffer boxVerticesBuffer = ByteBuffer.allocateDirect(BOX_VERTICES.length * Float.BYTES);
 		boxVerticesBuffer.order(ByteOrder.nativeOrder());
 		boxVerticesBuffer.asFloatBuffer().put(BOX_VERTICES);
 		boxVerticesBuffer.rewind();
 		this.boxVertexBuffer = new GLVertexBuffer(false);
 		this.boxVertexBuffer.bind();
 		this.boxVertexBuffer.uploadBuffer(boxVerticesBuffer, 8, EDhApiGpuUploadMethod.DATA, BOX_VERTICES.length * Float.BYTES);
 		// box vertex indexes
 		ByteBuffer solidIndexBuffer = ByteBuffer.allocateDirect(BOX_INDICES.length * Integer.BYTES);
 		solidIndexBuffer.order(ByteOrder.nativeOrder());
 		solidIndexBuffer.asIntBuffer().put(BOX_INDICES);
 		solidIndexBuffer.rewind();
 		this.boxIndexBuffer = new GLIndexBuffer(false);
 		this.boxIndexBuffer.uploadBuffer(solidIndexBuffer, EDhApiGpuUploadMethod.DATA, BOX_INDICES.length * Integer.BYTES, GL32.GL_STATIC_DRAW);
 		this.boxIndexBuffer.bind();
 	}
 	private void addGenericDebugObjects()
 	{
 		GenericRenderObjectFactory factory = GenericRenderObjectFactory.INSTANCE;
 		// single giant box
 		IDhApiRenderableBoxGroup singleGiantBoxGroup = factory.createForSingleBox(
 				ModInfo.NAME + ":CyanChunkBox",
 				new DhApiRenderableBox(
 						new DhApiVec3d(0,0,0), new DhApiVec3d(16,190,16),
 						new Color(Color.CYAN.getRed(), Color.CYAN.getGreen(), Color.CYAN.getBlue(), 125),
 						EDhApiBlockMaterial.WATER)
 		);
 		singleGiantBoxGroup.setSkyLight(LodUtil.MAX_MC_LIGHT);
 		singleGiantBoxGroup.setBlockLight(LodUtil.MAX_MC_LIGHT);
 		this.add(singleGiantBoxGroup);
 		// single slender box
 		IDhApiRenderableBoxGroup singleTallBoxGroup = factory.createForSingleBox(
 				ModInfo.NAME + ":GreenBeacon",
 				new DhApiRenderableBox(
 						new DhApiVec3d(16,0,31), new DhApiVec3d(17,2000,32),
 						new Color(Color.GREEN.getRed(), Color.GREEN.getGreen(), Color.GREEN.getBlue(), 125),
 						EDhApiBlockMaterial.ILLUMINATED)
 		);
 		singleTallBoxGroup.setSkyLight(LodUtil.MAX_MC_LIGHT);
 		singleTallBoxGroup.setBlockLight(LodUtil.MAX_MC_LIGHT);
 		this.add(singleTallBoxGroup);
 		// absolute box group
 		ArrayList<DhApiRenderableBox> absBoxList = new ArrayList<>();
 		for (int i = 0; i < 18; i++)
 		{
 			absBoxList.add(new DhApiRenderableBox(
 					new DhApiVec3d(i,150+i,24), new DhApiVec3d(1+i,151+i,25),
 					new Color(Color.ORANGE.getRed(), Color.ORANGE.getGreen(), Color.ORANGE.getBlue()),
 					EDhApiBlockMaterial.LAVA
 				)
 			);
 		}
 		IDhApiRenderableBoxGroup absolutePosBoxGroup = factory.createAbsolutePositionedGroup(ModInfo.NAME + ":OrangeStairs", absBoxList);
 		this.add(absolutePosBoxGroup);
 		// relative box group
 		ArrayList<DhApiRenderableBox> relBoxList = new ArrayList<>();
 		for (int i = 0; i < 8; i+=2)
 		{
 			relBoxList.add(new DhApiRenderableBox(
 					new DhApiVec3d(0,i,0), new DhApiVec3d(1,1+i,1),
 					new Color(Color.MAGENTA.getRed(), Color.MAGENTA.getGreen(), Color.MAGENTA.getBlue()),
 					EDhApiBlockMaterial.METAL
 				)
 			);
 		}
 		IDhApiRenderableBoxGroup relativePosBoxGroup = factory.createRelativePositionedGroup(
 				ModInfo.NAME + ":MovingMagentaGroup",
 				new DhApiVec3d(24, 140, 24),
 				relBoxList);
 		relativePosBoxGroup.setPreRenderFunc((event) ->
 		{
 			DhApiVec3d pos = relativePosBoxGroup.getOriginBlockPos();
 			pos.x += event.partialTicks / 2;
 			pos.x %= 32;
 			relativePosBoxGroup.setOriginBlockPos(pos);
 		});
 		this.add(relativePosBoxGroup);
 		// massive relative box group
 		ArrayList<DhApiRenderableBox> massRelBoxList = new ArrayList<>();
 		for (int x = 0; x < 50*2; x+=2)
 		{
 			for (int z = 0; z < 50*2; z+=2)
 			{
 				massRelBoxList.add(new DhApiRenderableBox(
 						new DhApiVec3d(-x, 0, -z), new DhApiVec3d(1-x, 1, 1-z),
 						new Color(Color.RED.getRed(), Color.RED.getGreen(), Color.RED.getBlue()),
 						EDhApiBlockMaterial.TERRACOTTA
 					)
 				);
 			}
 		}
 		IDhApiRenderableBoxGroup massRelativePosBoxGroup = factory.createRelativePositionedGroup(
 				ModInfo.NAME + ":MassRedGroup",
 				new DhApiVec3d(-25, 140, 0),
 				massRelBoxList);
 		massRelativePosBoxGroup.setPreRenderFunc((event) ->
 		{
 			DhApiVec3d blockPos = massRelativePosBoxGroup.getOriginBlockPos();
 			blockPos.y += event.partialTicks / 4;
 			if (blockPos.y > 150f)
 			{
 				blockPos.y = 140f;
 				Color newColor = (massRelativePosBoxGroup.get(0).color == Color.RED) ? Color.RED.darker() : Color.RED;
 				massRelativePosBoxGroup.forEach((box) -> { box.color = newColor; });
 				massRelativePosBoxGroup.triggerBoxChange();
 			}
 			massRelativePosBoxGroup.setOriginBlockPos(blockPos);
 		});
 		this.add(massRelativePosBoxGroup);
 	}
 	//endregion
 	//==============//
 	// registration //
 	//==============//
 	//region
 	@Override
 	public void add(IDhApiRenderableBoxGroup iBoxGroup) throws IllegalArgumentException 
 	{
 		if (!(iBoxGroup instanceof RenderableBoxGroup))
 		{
 			throw new IllegalArgumentException("Box group must be of type ["+ RenderableBoxGroup.class.getSimpleName()+"], type received: ["+(iBoxGroup != null ? iBoxGroup.getClass() : "NULL")+"].");
 		}
 		RenderableBoxGroup boxGroup = (RenderableBoxGroup) iBoxGroup;
 		if (boxGroup.size() != 0)
 		{
 			// trigger a box change to make sure the initial data is uploaded
 			boxGroup.triggerBoxChange();
 		}
 		long id = boxGroup.getId();
 		if (this.boxGroupById.containsKey(id))
 		{
 			throw new IllegalArgumentException("A box group with the ID [" + id + "] is already present.");
 		}
 		this.boxGroupById.put(id, boxGroup);
 	}
 	@Override
 	public IDhApiRenderableBoxGroup remove(long id) { return this.boxGroupById.remove(id); }
 	public void clear() { this.boxGroupById.clear(); }
 	//endregion
 	//===========//
 	// rendering //
 	//===========//
 	//region
 	/**
 	 * @param renderingWithSsao 
 	 *      if true that means this render call is happening before the SSAO pass
     *      and any objects rendered in this pass will have SSAO applied to them.
 	 */
 	@Override
 	public void render(RenderParams renderEventParam, IProfilerWrapper profiler, boolean renderingWithSsao)
 	{
 		// generic rendering (both instanced and direct) is extremely unstable on Mac, so don't render anything
 		if (EPlatform.get() == EPlatform.MACOS)
 		{
 			return;
 		}
 		// render setup //
 		try (IProfilerWrapper.IProfileBlock setup_profile = profiler.push("setup"))
 		{
 			this.init();
 			ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeGenericRenderSetupEvent.class, renderEventParam.apiCopy);
 			boolean renderWireframe = Config.Client.Advanced.Debugging.renderWireframe.get();
 			if (renderWireframe)
 			{
 				GL32.glPolygonMode(GL32.GL_FRONT_AND_BACK, GL32.GL_LINE);
 				GLMC.disableFaceCulling();
 			}
 			else
 			{
 				GL32.glPolygonMode(GL32.GL_FRONT_AND_BACK, GL32.GL_FILL);
 				GLMC.enableFaceCulling();
 			}
 			GLMC.enableBlend();
 			GL32.glBlendEquation(GL32.GL_FUNC_ADD);
 			GLMC.glBlendFuncSeparate(GL32.GL_SRC_ALPHA, GL32.GL_ONE_MINUS_SRC_ALPHA, GL32.GL_ONE, GL32.GL_ONE_MINUS_SRC_ALPHA);
 			IDhApiGenericObjectShaderProgram shaderProgram = this.instancedRenderingAvailable ? this.instancedShaderProgram : this.directShaderProgram;
 			IDhApiGenericObjectShaderProgram shaderProgramOverride = OverrideInjector.INSTANCE.get(IDhApiGenericObjectShaderProgram.class);
 			if (shaderProgramOverride != null && shaderProgram.overrideThisFrame())
 			{
 				shaderProgram = shaderProgramOverride;
 			}
 			shaderProgram.bind(renderEventParam);
 			shaderProgram.bindVertexBuffer(this.boxVertexBuffer.getId());
 			this.boxIndexBuffer.bind();
 			// rendering //
 			Collection<RenderableBoxGroup> boxList = this.boxGroupById.values();
 			for (RenderableBoxGroup boxGroup : boxList)
 			{
 				// validation //
 				// shouldn't happen, but just in case
 				if (boxGroup == null)
 				{
 					continue;
 				}
 				// skip boxes that shouldn't render this pass
 				if (boxGroup.ssaoEnabled != renderingWithSsao)
 				{
 					continue;
 				}
 				profiler.popPush("render prep");
 				boxGroup.preRender(renderEventParam); // called even if the group is inactive, so the group can be activate if desired
 				// ignore inactive groups
 				if (!boxGroup.active)
 				{
 					continue;
 				}
 				// allow API users to cancel this object's rendering
 				EVENT_PARAM.update(renderEventParam, boxGroup);
 				boolean cancelRendering = ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeGenericObjectRenderEvent.class, EVENT_PARAM);
 				if (cancelRendering)
 				{
 					continue;
 				}
 				// update instanced data if needed
 				if (this.instancedRenderingAvailable)
 				{
 					boxGroup.tryUpdateInstancedDataAsync();
 					// skip groups that haven't been uploaded yet
 					if (boxGroup.vertexBufferContainer.getState() != GlGenericObjectVertexContainer.EState.RENDER)
 					{
 						continue;
 					}
 				}
 				// render //
 				profiler.popPush("rendering");
 				try (IProfilerWrapper.IProfileBlock namespace_profile = profiler.push(boxGroup.getResourceLocationNamespace());
 					IProfilerWrapper.IProfileBlock location_profile = profiler.push(boxGroup.getResourceLocationPath()))
 				{
 					if (this.instancedRenderingAvailable)
 					{
 						this.renderBoxGroupInstanced(shaderProgram, renderEventParam, boxGroup, renderEventParam.exactCameraPosition, profiler);
 					}
 					else
 					{
 						this.renderBoxGroupDirect(shaderProgram, renderEventParam, boxGroup, renderEventParam.exactCameraPosition, profiler);
 					}
 				}
 				boxGroup.postRender(renderEventParam);
 			}
 			//==========//
 			// clean up //
 			//==========//
 			profiler.popPush("cleanup");
 			ApiEventInjector.INSTANCE.fireAllEvents(DhApiBeforeGenericRenderCleanupEvent.class, renderEventParam.apiCopy);
 			if (renderWireframe)
 			{
 				// default back to GL_FILL since all other rendering uses it 
 				GL32.glPolygonMode(GL32.GL_FRONT_AND_BACK, GL32.GL_FILL);
 				GLMC.enableFaceCulling();
 			}
 			shaderProgram.unbind();
 		}
 	}
 	//endregion
 	//=====================//
 	// instanced rendering //
 	//=====================//
 	//region
 	private void renderBoxGroupInstanced(
 			IDhApiGenericObjectShaderProgram shaderProgram, DhApiRenderParam renderEventParam, 
 			RenderableBoxGroup boxGroup, DhVec3d camPos,
 			IProfilerWrapper profiler)
 	{
 		try (IProfilerWrapper.IProfileBlock render_profile = profiler.push("vertex setup"))
 		{
 			// update instance data //
 			DhApiRenderableBoxGroupShading shading = boxGroup.shading;
 			if (shading == null)
 			{
 				shading = DEFAULT_SHADING;
 			}
 			shaderProgram.fillIndirectUniformData(
 				renderEventParam,
 				shading, boxGroup,
 				camPos);
 			// Bind instance data //
 			profiler.popPush("binding");
 			GlGenericObjectVertexContainer container = (GlGenericObjectVertexContainer) (boxGroup.vertexBufferContainer);
 			GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, container.color);
 			GL32.glEnableVertexAttribArray(1);
 			GL32.glVertexAttribPointer(1, 4, GL32.GL_FLOAT, false, 4 * Float.BYTES, 0);
 			this.vertexAttribDivisor(1, 1);
 			GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, container.scale);
 			GL32.glEnableVertexAttribArray(2);
 			this.vertexAttribDivisor(2, 1);
 			GL32.glVertexAttribPointer(2, 3, GL32.GL_FLOAT, false, 3 * Float.BYTES, 0);
 			GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, container.chunkPos);
 			GL32.glEnableVertexAttribArray(3);
 			this.vertexAttribDivisor(3, 1);
 			GL32.glVertexAttribIPointer(3, 3, GL32.GL_INT, 3 * Integer.BYTES, 0);
 			GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, container.subChunkPos);
 			GL32.glEnableVertexAttribArray(4);
 			this.vertexAttribDivisor(4, 1);
 			GL32.glVertexAttribPointer(4, 3, GL32.GL_FLOAT, false, 3 * Float.BYTES, 0);
 			GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, container.material);
 			GL32.glEnableVertexAttribArray(5);
 			this.vertexAttribDivisor(5, 1);
 			GL32.glVertexAttribIPointer(5, 1, GL32.GL_BYTE, Byte.BYTES, 0);
 			// Draw instanced
 			profiler.popPush("render");
 			if (container.uploadedBoxCount > 0)
 			{
 				GL32.glDrawElementsInstanced(GL32.GL_TRIANGLES, BOX_INDICES.length, GL32.GL_UNSIGNED_INT, 0, container.uploadedBoxCount);
 			}
 			// Clean up
 			profiler.popPush("cleanup");
 			GL32.glDisableVertexAttribArray(1);
 			GL32.glDisableVertexAttribArray(2);
 			GL32.glDisableVertexAttribArray(3);
 			GL32.glDisableVertexAttribArray(4);
 			GL32.glDisableVertexAttribArray(5);
 		}
 	}
 	/** 
 	 * Clean way to handle both {@link GL33#glVertexAttribDivisor} and {@link ARBInstancedArrays#glVertexAttribDivisorARB}
 	 * based on which one is supported.
 	 */
 	private void vertexAttribDivisor(int index, int divisor)
 	{
 		if (this.vertexAttribDivisorSupported)
 		{
 			GL33.glVertexAttribDivisor(index, divisor);	
 		}
 		else if(this.instancedArraysSupported)
 		{
 			ARBInstancedArrays.glVertexAttribDivisorARB(index, divisor);
 		}
 		else
 		{
 			throw new IllegalStateException("Instanced rendering isn't supported by this machine. Direct rendering should have been used instead.");
 		}
 	}
 	//endregion
 	//==================//
 	// direct rendering //
 	//==================//
 	//region
 	private void renderBoxGroupDirect(
 		IDhApiGenericObjectShaderProgram shaderProgram, 
 		DhApiRenderParam renderEventParam, 
 		RenderableBoxGroup boxGroup, DhVec3d camPos,
 		IProfilerWrapper profiler)
 	{
 		profiler.popPush("shared uniforms");
 		DhApiRenderableBoxGroupShading shading = boxGroup.shading;
 		if (shading == null)
 		{
 			shading = DhApiRenderableBoxGroupShading.getUnshaded();
 		}
 		shaderProgram.fillSharedDirectUniformData(renderEventParam, shading, boxGroup, camPos);
 		for (int i = 0; i < boxGroup.size(); i++)
 		{
 			try
 			{
 				DhApiRenderableBox box = boxGroup.get(i);
 				if (box != null)
 				{
 					profiler.popPush("direct uniforms");
 					shaderProgram.fillDirectUniformData(renderEventParam, boxGroup, box, camPos);
 					profiler.popPush("render");
 					GL32.glDrawElements(GL32.GL_TRIANGLES, BOX_INDICES.length, GL32.GL_UNSIGNED_INT, 0);
 				}
 			}
 			catch (IndexOutOfBoundsException e)
 			{
 				// Concurrency issue, the list was modified while rendering
 				// this can probably be ignored.
 				// However, if it does become a problem we can add locks to the box group. 
 				break;
 			}
 		}
 	}
 	//endregion
 	//=========//
 	// getters //
 	//=========//
 	//region
 	/** @throws IllegalStateException if {@link #init()} function hasn't been called yet */
 	public boolean getInstancedRenderingAvailable() throws IllegalStateException
 	{
 		if (!this.init)
 		{
 			throw new IllegalStateException("GL initialization hasn't been completed.");
 		}
 		return this.instancedRenderingAvailable; 
 	}
 	//endregion
 	//=========//
 	// F3 menu //
 	//=========//
 	//region
 	public String getVboRenderDebugMenuString()
 	{
 		// get counts
 		int totalGroupCount = this.boxGroupById.size();
 		int totalBoxCount = 0;
 		int activeGroupCount = 0;
 		int activeBoxCount = 0;
 		for (long key : this.boxGroupById.keySet())
 		{
 			RenderableBoxGroup renderGroup = this.boxGroupById.get(key);
 			if (renderGroup.active)
 			{
 				activeGroupCount++;
 				activeBoxCount += renderGroup.size();
 			}
 			totalBoxCount += renderGroup.size();
 		}
 		return "Generic Obj #: " + F3Screen.NUMBER_FORMAT.format(activeGroupCount) + "/" + F3Screen.NUMBER_FORMAT.format(totalGroupCount) + ", " +
 				"Cube #: " + F3Screen.NUMBER_FORMAT.format(activeBoxCount) + "/" + F3Screen.NUMBER_FORMAT.format(totalBoxCount);
 	}
 	//endregion
 	//================//
 	// base overrides //
 	//================//
 	//region
 	@Override 
 	public void close()
 	{
 		if (this.boxVertexBuffer != null)
 		{
 			this.boxVertexBuffer.close();
 		}
 		if (this.boxIndexBuffer != null)
 		{
 			this.boxIndexBuffer.close();
 		}
 	}
 	//endregion
 }
@@ -1,231 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl.generic;
 import com.seibel.distanthorizons.api.interfaces.override.rendering.IDhApiGenericObjectShaderProgram;
 import com.seibel.distanthorizons.api.interfaces.render.IDhApiRenderableBoxGroup;
 import com.seibel.distanthorizons.api.methods.events.sharedParameterObjects.DhApiRenderParam;
 import com.seibel.distanthorizons.api.objects.math.DhApiVec3d;
 import com.seibel.distanthorizons.api.objects.math.DhApiVec3i;
 import com.seibel.distanthorizons.api.objects.render.DhApiRenderableBox;
 import com.seibel.distanthorizons.api.objects.render.DhApiRenderableBoxGroupShading;
 import com.seibel.distanthorizons.common.render.openGl.glObject.shader.GlShaderProgram;
 import com.seibel.distanthorizons.common.render.openGl.glObject.vertexAttribute.GlAbstractVertexAttribute;
 import com.seibel.distanthorizons.common.render.openGl.glObject.vertexAttribute.GlVertexPointer;
 import com.seibel.distanthorizons.common.wrappers.misc.LightMapWrapper;
 import com.seibel.distanthorizons.core.util.LodUtil;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import com.seibel.distanthorizons.core.util.math.DhVec3f;
 public class GlGenericObjectShaderProgram extends GlShaderProgram implements IDhApiGenericObjectShaderProgram
 {
 	public static final String VERTEX_SHADER_INSTANCED_PATH = "assets/distanthorizons/shaders/generic/gl/instanced/vert.vert";
 	public static final String VERTEX_SHADER_DIRECT_PATH = "assets/distanthorizons/shaders/generic/gl/direct/vert.vert";
 	public static final String FRAGMENT_SHADER_INSTANCED_PATH = "assets/distanthorizons/shaders/generic/gl/instanced/frag.frag";
 	public static final String FRAGMENT_SHADER_DIRECT_PATH = "assets/distanthorizons/shaders/generic/gl/direct/frag.frag";
 	public final GlAbstractVertexAttribute va;
 	// shader uniforms
 	private final int directShaderTransformUniform;
 	private final int directShaderColorUniform;
 	private final int instancedShaderOffsetChunkUniform;
 	private final int instancedShaderOffsetSubChunkUniform;
 	private final int instancedShaderCameraChunkPosUniform;
 	private final int instancedShaderCameraSubChunkPosUniform;
 	private final int instancedShaderProjectionModelViewMatrixUniform;
 	private final int lightMapUniform;
 	private final int skyLightUniform;
 	private final int blockLightUniform;
 	private final int northShadingUniform;
 	private final int southShadingUniform;
 	private final int eastShadingUniform;
 	private final int westShadingUniform;
 	private final int topShadingUniform;
 	private final int bottomShadingUniform;
 	//=============//
 	// constructor //
 	//=============//
 	public GlGenericObjectShaderProgram(boolean useInstancedRendering)
 	{
 		super(
 				useInstancedRendering ? VERTEX_SHADER_INSTANCED_PATH : VERTEX_SHADER_DIRECT_PATH,
 				useInstancedRendering ? FRAGMENT_SHADER_INSTANCED_PATH : FRAGMENT_SHADER_DIRECT_PATH,
 				"vPosition"
 		);
 		this.va = GlAbstractVertexAttribute.create();
 		this.va.bind();
 		// Pos
 		this.va.setVertexAttribute(0, 0, GlVertexPointer.addVec3Pointer(false));
 		this.va.completeAndCheck(Float.BYTES * 3);
 		this.directShaderTransformUniform = this.tryGetUniformLocation("uTransform");
 		this.directShaderColorUniform = this.tryGetUniformLocation("uColor");
 		this.instancedShaderOffsetChunkUniform = this.tryGetUniformLocation("uOffsetChunk");
 		this.instancedShaderOffsetSubChunkUniform = this.tryGetUniformLocation("uOffsetSubChunk");
 		this.instancedShaderCameraChunkPosUniform = this.tryGetUniformLocation("uCameraPosChunk");
 		this.instancedShaderCameraSubChunkPosUniform = this.tryGetUniformLocation("uCameraPosSubChunk");
 		this.instancedShaderProjectionModelViewMatrixUniform = this.tryGetUniformLocation("uProjectionMvm");
 		this.lightMapUniform = this.getUniformLocation("uLightMap");
 		this.skyLightUniform = this.getUniformLocation("uSkyLight");
 		this.blockLightUniform = this.getUniformLocation("uBlockLight");
 		this.northShadingUniform = this.getUniformLocation("uNorthShading");
 		this.southShadingUniform = this.getUniformLocation("uSouthShading");
 		this.eastShadingUniform = this.getUniformLocation("uEastShading");
 		this.westShadingUniform = this.getUniformLocation("uWestShading");
 		this.topShadingUniform = this.getUniformLocation("uTopShading");
 		this.bottomShadingUniform = this.getUniformLocation("uBottomShading");
 	}
 	//=========//
 	// methods //
 	//=========//
 	@Override
 	public void bind(DhApiRenderParam renderEventParam)
 	{
 		super.bind();
 		this.va.bind();
 	}
 	@Override
 	public void unbind()
 	{
 		super.unbind();
 		this.va.unbind();
 	}
 	@Override
 	public void free()
 	{
 		this.va.free();
 		super.free();
 	}
 	@Override
 	public void bindVertexBuffer(int vbo) { this.va.bindBufferToAllBindingPoints(vbo); }
 	@Override
 	public void fillIndirectUniformData(
 			DhApiRenderParam renderParameters,
 			DhApiRenderableBoxGroupShading shading, IDhApiRenderableBoxGroup boxGroup,
 			DhApiVec3d camPos
 		)
 	{
 		DhMat4f projectionMvmMatrix = new DhMat4f(renderParameters.dhProjectionMatrix);
 		projectionMvmMatrix.multiply(renderParameters.dhModelViewMatrix);
 		super.bind();
 		this.setUniform(this.instancedShaderOffsetChunkUniform,
 				new DhApiVec3i(
 						LodUtil.getChunkPosFromDouble(boxGroup.getOriginBlockPos().x),
 						LodUtil.getChunkPosFromDouble(boxGroup.getOriginBlockPos().y),
 						LodUtil.getChunkPosFromDouble(boxGroup.getOriginBlockPos().z)
 				));
 		this.setUniform(this.instancedShaderOffsetSubChunkUniform,
 				new DhVec3f(
 						LodUtil.getSubChunkPosFromDouble(boxGroup.getOriginBlockPos().x),
 						LodUtil.getSubChunkPosFromDouble(boxGroup.getOriginBlockPos().y),
 						LodUtil.getSubChunkPosFromDouble(boxGroup.getOriginBlockPos().z)
 				));
 		this.setUniform(this.instancedShaderCameraChunkPosUniform,
 				new DhApiVec3i(
 						LodUtil.getChunkPosFromDouble(camPos.x),
 						LodUtil.getChunkPosFromDouble(camPos.y),
 						LodUtil.getChunkPosFromDouble(camPos.z)
 				));
 		this.setUniform(this.instancedShaderCameraSubChunkPosUniform,
 				new DhVec3f(
 						LodUtil.getSubChunkPosFromDouble(camPos.x),
 						LodUtil.getSubChunkPosFromDouble(camPos.y),
 						LodUtil.getSubChunkPosFromDouble(camPos.z)
 				));
 		this.setUniform(this.instancedShaderProjectionModelViewMatrixUniform, projectionMvmMatrix);
 		this.setUniform(this.lightMapUniform, LightMapWrapper.GL_BOUND_INDEX);
 		this.setUniform(this.skyLightUniform, boxGroup.getSkyLight());
 		this.setUniform(this.blockLightUniform, boxGroup.getBlockLight());
 		this.setUniform(this.northShadingUniform, shading.north);
 		this.setUniform(this.southShadingUniform, shading.south);
 		this.setUniform(this.eastShadingUniform, shading.east);
 		this.setUniform(this.westShadingUniform, shading.west);
 		this.setUniform(this.topShadingUniform, shading.top);
 		this.setUniform(this.bottomShadingUniform, shading.bottom);
 	}
 	@Override 
 	public void fillSharedDirectUniformData(
 			DhApiRenderParam renderParameters, 
 			DhApiRenderableBoxGroupShading shading, IDhApiRenderableBoxGroup boxGroup, 
 			DhApiVec3d camPos)
 	{
 		this.setUniform(this.lightMapUniform, LightMapWrapper.GL_BOUND_INDEX);
 		this.setUniform(this.skyLightUniform, boxGroup.getSkyLight());
 		this.setUniform(this.blockLightUniform, boxGroup.getBlockLight());
 		this.setUniform(this.northShadingUniform, shading.north);
 		this.setUniform(this.southShadingUniform, shading.south);
 		this.setUniform(this.eastShadingUniform, shading.east);
 		this.setUniform(this.westShadingUniform, shading.west);
 		this.setUniform(this.topShadingUniform, shading.top);
 		this.setUniform(this.bottomShadingUniform, shading.bottom);
 	}
 	public void fillDirectUniformData(
 			DhApiRenderParam renderParameters,
 			IDhApiRenderableBoxGroup boxGroup, DhApiRenderableBox box, 
 			DhApiVec3d camPos)
 	{
 		DhMat4f projectionMvmMatrix = new DhMat4f(renderParameters.dhProjectionMatrix);
 		projectionMvmMatrix.multiply(renderParameters.dhModelViewMatrix);
 		DhMat4f boxTransform = DhMat4f.createTranslateMatrix(
 				(float) (box.minPos.x + boxGroup.getOriginBlockPos().x - camPos.x),
 				(float) (box.minPos.y + boxGroup.getOriginBlockPos().y - camPos.y),
 				(float) (box.minPos.z + boxGroup.getOriginBlockPos().z - camPos.z));
 		boxTransform.multiply(DhMat4f.createScaleMatrix(
 				(float) (box.maxPos.x - box.minPos.x),
 				(float) (box.maxPos.y - box.minPos.y),
 				(float) (box.maxPos.z - box.minPos.z)));
 		projectionMvmMatrix.multiply(boxTransform);
 		this.setUniform(this.directShaderTransformUniform, projectionMvmMatrix);
 		this.setUniform(this.directShaderColorUniform, box.color);
 	}
 	@Override
 	public int getId() { return this.id; }
 	/** The base DH render program should always render */
 	@Override
 	public boolean overrideThisFrame() { return true; }
 }
@@ -1,177 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl.generic;
 import com.seibel.distanthorizons.api.objects.render.DhApiRenderableBox;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftGLWrapper;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.render.renderer.RenderableBoxGroup;
 import com.seibel.distanthorizons.core.util.LodUtil;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IDhGenericObjectVertexBufferContainer;
 import org.lwjgl.opengl.GL32;
 import java.awt.*;
 import java.util.List;
 /**
 * For use by {@link RenderableBoxGroup} 
 * 
 * @see RenderableBoxGroup
 */
 public class GlGenericObjectVertexContainer implements IDhGenericObjectVertexBufferContainer
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	private static final MinecraftGLWrapper GLMC = MinecraftGLWrapper.INSTANCE;
 	public int chunkPos = 0;
 	public int subChunkPos = 0;
 	public int scale = 0;
 	public int color = 0;
 	public int material = 0;
 	public int[] chunkPosData = new int[0];
 	public float[] subChunkPosData = new float[0];
 	public float[] scalingData = new float[0];
 	public float[] colorData = new float[0];
 	public int[] materialData = new int[0];
 	public int uploadedBoxCount = 0;
 	private EState state = EState.NEW;
 	@Override 
 	public EState getState() { return this.state; }
 	@Override 
 	public void setState(EState state) { this.state = state; }
 	//===========================//
 	// render building/uploading //
 	//===========================//
 	//region
 	public void updateVertexData(List<DhApiRenderableBox> uploadBoxList)
 	{
 		int boxCount = uploadBoxList.size();
 		// recreate the data arrays if their size is different
 		if (this.uploadedBoxCount != boxCount)
 		{
 			this.uploadedBoxCount = boxCount;
 			this.chunkPosData = new int[boxCount * 3]; // 3 elements XYZ
 			this.subChunkPosData = new float[boxCount * 3]; // 3 elements XYZ
 			this.scalingData = new float[boxCount * 3]; // 3 elements XYZ
 			this.colorData = new float[boxCount * 4]; // 4 elements, RGBA
 			this.materialData = new int[boxCount];
 		}
 		// transformation / scaling //
 		for (int i = 0; i < boxCount; i++)
 		{
 			DhApiRenderableBox box = uploadBoxList.get(i);
 			int dataIndex = i * 3;
 			this.chunkPosData[dataIndex] = LodUtil.getChunkPosFromDouble(box.minPos.x);
 			this.chunkPosData[dataIndex + 1] = LodUtil.getChunkPosFromDouble(box.minPos.y);
 			this.chunkPosData[dataIndex + 2] = LodUtil.getChunkPosFromDouble(box.minPos.z);
 			this.subChunkPosData[dataIndex] = LodUtil.getSubChunkPosFromDouble(box.minPos.x);
 			this.subChunkPosData[dataIndex + 1] = LodUtil.getSubChunkPosFromDouble(box.minPos.y);
 			this.subChunkPosData[dataIndex + 2] = LodUtil.getSubChunkPosFromDouble(box.minPos.z);
 			this.scalingData[dataIndex] = (float) (box.maxPos.x - box.minPos.x);
 			this.scalingData[dataIndex + 1] = (float) (box.maxPos.y - box.minPos.y);
 			this.scalingData[dataIndex + 2] = (float) (box.maxPos.z - box.minPos.z);
 		}
 		// colors/materials //
 		for (int i = 0; i < boxCount; i++)
 		{
 			DhApiRenderableBox box = uploadBoxList.get(i);
 			Color color = box.color;
 			int colorIndex = i * 4;
 			this.colorData[colorIndex] = color.getRed() / 255.0f;
 			this.colorData[colorIndex + 1] = color.getGreen() / 255.0f;
 			this.colorData[colorIndex + 2] = color.getBlue() / 255.0f;
 			this.colorData[colorIndex + 3] = color.getAlpha() / 255.0f;
 			this.materialData[i] = box.material;
 		}
 	}
 	@Override
 	public void uploadDataToGpu()
 	{
 		this.tryCreateBuffers();
 		// Upload transformation matrices
 		GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, this.chunkPos);
 		GL32.glBufferData(GL32.GL_ARRAY_BUFFER, this.chunkPosData, GL32.GL_DYNAMIC_DRAW);
 		GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, this.subChunkPos);
 		GL32.glBufferData(GL32.GL_ARRAY_BUFFER, this.subChunkPosData, GL32.GL_DYNAMIC_DRAW);
 		GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, this.scale);
 		GL32.glBufferData(GL32.GL_ARRAY_BUFFER, this.scalingData, GL32.GL_DYNAMIC_DRAW);
 		// Upload colors
 		GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, this.color);
 		GL32.glBufferData(GL32.GL_ARRAY_BUFFER, this.colorData, GL32.GL_DYNAMIC_DRAW);
 		// Upload materials
 		GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, this.material);
 		GL32.glBufferData(GL32.GL_ARRAY_BUFFER, this.materialData, GL32.GL_DYNAMIC_DRAW);
 	}
 	/** needs to be done on the render thread */
 	private void tryCreateBuffers()
 	{
 		if (this.chunkPos == 0)
 		{
 			this.chunkPos = GLMC.glGenBuffers();
 			this.subChunkPos = GLMC.glGenBuffers();
 			this.scale = GLMC.glGenBuffers();
 			this.color = GLMC.glGenBuffers();
 			this.material = GLMC.glGenBuffers();
 		}
 	}
 	//endregion
 	//================//
 	// base overrides //
 	//================//
 	//region
 	@Override
 	public void close()
 	{
 		tryDeleteBuffer(this.chunkPos);
 		tryDeleteBuffer(this.subChunkPos);
 		tryDeleteBuffer(this.scale);
 		tryDeleteBuffer(this.color);
 		tryDeleteBuffer(this.material);
 	}
 	private static void tryDeleteBuffer(int bufferId)
 	{
 		// usually unnecessary, but just in case
 		if (bufferId != 0)
 		{
 			GLMC.glDeleteBuffers(bufferId);
 		}
 	}
 	//endregion
 }
@@ -1,382 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.glObject;
 import com.seibel.distanthorizons.api.enums.config.EDhApiGLErrorHandlingMode;
 import com.seibel.distanthorizons.api.enums.config.EDhApiGpuUploadMethod;
 import com.seibel.distanthorizons.api.enums.config.EDhApiRenderingApi;
 import com.seibel.distanthorizons.api.enums.config.EDhApiRenderingEngine;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.dependencyInjection.ModAccessorInjector;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.jar.EPlatform;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.util.objects.GLMessages.*;
 import com.seibel.distanthorizons.core.wrapperInterfaces.minecraft.IMinecraftClientWrapper;
 import com.seibel.distanthorizons.core.wrapperInterfaces.modAccessor.IIrisAccessor;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import org.lwjgl.glfw.GLFW;
 import org.lwjgl.opengl.GL;
 import org.lwjgl.opengl.GL32;
 import org.lwjgl.opengl.GLCapabilities;
 import org.lwjgl.opengl.GLUtil;
 import java.io.PrintStream;
 import java.util.Collections;
 import java.util.Set;
 import java.util.concurrent.ConcurrentHashMap;
 /**
 * A singleton that holds references to different openGL contexts
 * and GPU capabilities.
 */
 public class GLProxy
 {
 	private static final IIrisAccessor IRIS_ACCESSOR = ModAccessorInjector.INSTANCE.get(IIrisAccessor.class);
 	private static final IMinecraftClientWrapper MC_CLIENT = SingletonInjector.INSTANCE.get(IMinecraftClientWrapper.class);
 	private static final AbstractDhRenderApiDefinition RENDER_API_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	public static final DhLogger LOGGER;
 	static
 	{
 		DhLoggerBuilder loggerBuilder = new DhLoggerBuilder();
 		loggerBuilder.fileLevelConfig(Config.Common.Logging.logRendererGLEventToFile);
 		// don't send chat messages if Iris is present since
 		// Iris is known to cause (harmless) GL errors
 		// and this can confuse users
 		boolean irisPresent = (IRIS_ACCESSOR != null);
 		if (!irisPresent)
 		{
 			loggerBuilder.chatLevelConfig(Config.Common.Logging.logRendererGLEventToChat);
 		}
 		LOGGER = loggerBuilder.build();
 		if (irisPresent)
 		{
 			LOGGER.info("Iris detected, Distant Horizons OpenGL error logging won't be sent in the chat due to Iris throwing known (harmless) OpenGL errors. This is a bug with Iris, not Distant Horizons.");
 		}
 	}
 	public static final Set<String> LOGGED_GL_MESSAGES = Collections.newSetFromMap(new ConcurrentHashMap<String, Boolean>());
 	private static GLProxy instance = null;
 	/** Minecraft's GL capabilities */
 	public final GLCapabilities glCapabilities;
 	public boolean namedObjectSupported = false; // ~OpenGL 4.5 (UNUSED CURRENTLY)
 	public boolean bufferStorageSupported = false; // ~OpenGL 4.4
 	public boolean vertexAttributeBufferBindingSupported = false; // ~OpenGL 4.3
 	public boolean instancedArraysSupported = false;
 	public boolean vertexAttribDivisorSupported = false; // OpenGL 3.3 or newer
 	private final EDhApiGpuUploadMethod preferredUploadMethod;
 	public final GLMessageBuilder vanillaDebugMessageBuilder = 
 		new GLMessageBuilder(
 			(type) ->
 			{
 				if (type == EGLMessageType.POP_GROUP)
 					return false;
 				else if (type == EGLMessageType.PUSH_GROUP)
 					return false;
 				else if (type == EGLMessageType.MARKER)
 					return false;
 				else
 					return true;
 			},
 			(severity) ->
 			{
 				// notifications can generally be ignored (if they are logged at all)
 				if (severity == EGLMessageSeverity.NOTIFICATION)
 					return false;
 				else
 					return true;
 			},
 			null
 	);
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	private GLProxy() throws IllegalStateException
 	{
 		if (RENDER_API_DEF.getRenderApi() != EDhApiRenderingApi.OPEN_GL)
 		{
 			throw new IllegalStateException("[" + GLProxy.class.getSimpleName() + "] was created with the wrong Rendering API ["+RENDER_API_DEF.getRenderApi()+"]!"); 
 		}
 		// this must be created on minecraft's render context to work correctly
 		if (GLFW.glfwGetCurrentContext() == 0L)
 		{
 			String message = "[" + GLProxy.class.getSimpleName() + "] was created outside the render thread!";
 			IllegalStateException exception = new IllegalStateException(message);
 			MC_CLIENT.crashMinecraft(message, exception);
 			throw exception;
 		}
 		LOGGER.info("Creating [" + GLProxy.class.getSimpleName() + "]... If this is the last message you see there must have been an OpenGL error.");
 		LOGGER.info("Lod Render OpenGL version [" + GL32.glGetString(GL32.GL_VERSION) + "].");
 		//============================//
 		// get Minecraft's GL context //
 		//============================//
 		// get Minecraft's capabilities
 		this.glCapabilities = GL.getCapabilities();
 		// crash the game if the GPU doesn't support OpenGL 3.2
 		if (!this.glCapabilities.OpenGL32)
 		{
 			String supportedVersionInfo = this.getFailedVersionInfo(this.glCapabilities);
 			// See full requirement at above.
 			String errorMessage = ModInfo.READABLE_NAME + " was initializing " + GLProxy.class.getSimpleName()
 					+ " and discovered this GPU doesn't meet the OpenGL requirements. Sorry I couldn't tell you sooner :(\n" +
 					"Additional info:\n" + supportedVersionInfo;
 			IMinecraftClientWrapper MC = SingletonInjector.INSTANCE.get(IMinecraftClientWrapper.class);
 			MC.crashMinecraft(errorMessage, new UnsupportedOperationException("Distant Horizon OpenGL requirements not met"));
 		}
 	 	LOGGER.info("minecraftGlCapabilities:\n" + this.versionInfoToString(this.glCapabilities));
 		if (Config.Client.Advanced.Debugging.OpenGl.overrideVanillaGLLogger.get())
 		{
 			GLUtil.setupDebugMessageCallback(new PrintStream(new GLMessageOutputStream(GLProxy::logMessage, this.vanillaDebugMessageBuilder), true));
 		}
 		//======================//
 		// get GPU capabilities //
 		//======================//
 		// UNUSED currently
 		// Check if we can use the named version of all calls, which is available in GL4.5 or after
 		this.namedObjectSupported = this.glCapabilities.glNamedBufferData != 0L; //Nullptr
 		// Check if we can use the Buffer Storage, which is available in GL4.4 or after
 		this.bufferStorageSupported = this.glCapabilities.glBufferStorage != 0L; // Nullptr
 		if (!this.bufferStorageSupported)
 		{
 			LOGGER.info("This GPU doesn't support Buffer Storage (OpenGL 4.4), falling back to using other methods.");
 		}
 		// Check if we can use the make-over version of Vertex Attribute, which is available in GL4.3 or after
 		this.vertexAttributeBufferBindingSupported = this.glCapabilities.glBindVertexBuffer != 0L; // Nullptr
 		// used by instanced rendering
 		this.vertexAttribDivisorSupported = this.glCapabilities.OpenGL33;
 		// denotes if ARBInstancedArrays.glVertexAttribDivisorARB() is available or not
 		// can be used as a backup if MC didn't create a GL 3.3+ context
 		this.instancedArraysSupported = this.glCapabilities.GL_ARB_instanced_arrays;
 		// get the best automatic upload method
 		String vendor = GL32.glGetString(GL32.GL_VENDOR).toUpperCase(); // example return: "NVIDIA CORPORATION"
 		if (EPlatform.get() != EPlatform.MACOS)
 		{
 			if (vendor.contains("NVIDIA") || vendor.contains("GEFORCE"))
 			{
 				// NVIDIA card
 				this.preferredUploadMethod = this.bufferStorageSupported ? EDhApiGpuUploadMethod.BUFFER_STORAGE : EDhApiGpuUploadMethod.SUB_DATA;
 			}
 			else
 			{
 				// AMD or Intel card
 				this.preferredUploadMethod = this.bufferStorageSupported ? EDhApiGpuUploadMethod.BUFFER_STORAGE : EDhApiGpuUploadMethod.DATA;
 			}
 		}
 		else
 		{
 			// Mac may have an issue with Buffer Storage, so default to the most basic
 			// form of uploading
 			this.preferredUploadMethod = EDhApiGpuUploadMethod.DATA;
 		}
 		LOGGER.info("GPU Vendor [" + vendor + "] with OS [" + EPlatform.get().getName() + "], Preferred upload method is [" + this.preferredUploadMethod + "].");
 		//==========//
 		// clean up //
 		//==========//
 		// GLProxy creation success
 		LOGGER.info(GLProxy.class.getSimpleName() + " creation successful. OpenGL smiles upon you this day.");
 	}
 	//endregion
 	//=========//
 	// getters //
 	//=========//
 	//region
 	public static boolean hasInstance() { return instance != null; }
 	/** @throws IllegalStateException if the Proxy hasn't been created yet and this is called outside the render thread */
 	public static GLProxy getInstance() throws IllegalStateException
 	{
 		if (instance == null)
 		{
 			instance = new GLProxy();
 		}
 		return instance;
 	}
 	public EDhApiGpuUploadMethod getGpuUploadMethod() { return this.preferredUploadMethod; }
 	public static boolean runningOnRenderThread()
 	{
 		long currentContext = GLFW.glfwGetCurrentContext();
 		return currentContext != 0L; // if the context isn't null, it's the MC context
 	}
 	//endregion
 	//=========//
 	// logging //
 	//=========//
 	//region
 	/** this method is called on the render thread at the point of the GL Error */
 	private static void logMessage(GLMessage glMessage)
 	{
 		EDhApiGLErrorHandlingMode errorHandlingMode = Config.Client.Advanced.Debugging.OpenGl.glErrorHandlingMode.get();
 		if (errorHandlingMode == EDhApiGLErrorHandlingMode.IGNORE)
 		{
 			return;
 		}
 		boolean onlyLogOnce = Config.Client.Advanced.Debugging.OpenGl.onlyLogGlErrorsOnce.get();
 		if (onlyLogOnce
 			&& !LOGGED_GL_MESSAGES.add(glMessage.message))
 		{
 			// this message has already been logged
 			return;
 		}
 		String errorMessage = "GL ERROR [" + glMessage.id + "] from [" + glMessage.source + "]: [" + glMessage.message + "].";
 		if (onlyLogOnce)
 		{
 			errorMessage += " This message will only be logged once.";
 			errorMessage += " Note: Distant Horizons will catch and log OpenGL errors from other mods, not just DH itself; if everything is rendering correctly these errors can probably be ignored.";
 		}
 		// create an exception so we get a stacktrace of where the message was triggered from
 		RuntimeException exception = new RuntimeException(errorMessage);
 		if (glMessage.type == EGLMessageType.ERROR || glMessage.type == EGLMessageType.UNDEFINED_BEHAVIOR)
 		{
 			// critical error
 			LOGGER.error(exception.getMessage(), exception);
 			if (errorHandlingMode == EDhApiGLErrorHandlingMode.LOG_THROW)
 			{
 				// will probably crash the game,
 				// good for quickly checking if there's a problem while preventing log spam
 				throw exception;
 			}
 		}
 		else
 		{
 			// non-critical log
 			EGLMessageSeverity severity = glMessage.severity;
 			if (severity == null)
 			{
 				// just in case the message was malformed
 				severity = EGLMessageSeverity.LOW;
 			}
 			switch (severity)
 			{
 				case HIGH:
 					LOGGER.error(exception.getMessage(), exception);
 					break;
 				case MEDIUM:
 					LOGGER.warn(exception.getMessage(), exception);
 					break;
 				case LOW:
 					LOGGER.info(exception.getMessage(), exception);
 					break;
 				case NOTIFICATION:
 					LOGGER.debug(exception.getMessage(), exception);
 					break;
 			}
 		}
 	}
 	//endregion
 	//================//
 	// helper methods //
 	//================//
 	//region
 	private String getFailedVersionInfo(GLCapabilities c)
 	{
 		return "Your OpenGL support:\n" +
 				"openGL version 3.2+: [" + c.OpenGL32 + "] <- REQUIRED\n" +
 				"Vertex Attribute Buffer Binding: [" + (c.glVertexAttribBinding != 0) + "] <- optional improvement\n" +
 				"Buffer Storage: [" + (c.glBufferStorage != 0) + "] <- optional improvement\n" +
 				"If you noticed that your computer supports higher OpenGL versions"
 				+ " but not the required version, try running the game in compatibility mode."
 				+ " (How you turn that on, I have no clue~)";
 	}
 	private String versionInfoToString(GLCapabilities c)
 	{
 		return "Your OpenGL support:\n" +
 				"openGL version 3.2+: [" + c.OpenGL32 + "] <- REQUIRED\n" +
 				"Vertex Attribute Buffer Binding: [" + (c.glVertexAttribBinding != 0) + "] <- optional improvement\n" +
 				"Buffer Storage: [" + (c.glBufferStorage != 0) + "] <- optional improvement\n";
 	}
 	//endregion
 }
@@ -1,273 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.glObject;
 import com.seibel.distanthorizons.common.render.openGl.glObject.enums.GLEnums;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftGLWrapper;
 import org.lwjgl.opengl.GL32;
 public class GLState implements AutoCloseable
 {
 	private static final MinecraftGLWrapper GLMC = MinecraftGLWrapper.INSTANCE;
 	public int program;
 	public int vao;
 	public int vbo;
 	public int ebo;
 	public int fbo;
 	public int texture2D;
 	/** IE: GL_TEXTURE0, GL_TEXTURE1, etc. */
 	public int activeTextureNumber;
 	public int texture0;
 	public int texture1;
 	public int texture2;
 	public int texture3;
 	public int frameBufferTexture0;
 	public int frameBufferTexture1;
 	public int frameBufferDepthTexture;
 	public boolean blend;
 	public boolean scissor;
 	public int blendEqRGB;
 	public int blendEqAlpha;
 	public int blendSrcColor;
 	public int blendSrcAlpha;
 	public int blendDstColor;
 	public int blendDstAlpha;
 	public boolean depth;
 	public boolean writeToDepthBuffer;
 	public int depthFunc;
 	public boolean stencil;
 	public int stencilFunc;
 	public int stencilRef;
 	public int stencilMask;
 	public int[] view;
 	public boolean cull;
 	public int cullMode;
 	public int polyMode;
 	public GLState() { this.saveState(); }
 	public void saveState()
 	{
 		this.program = GL32.glGetInteger(GL32.GL_CURRENT_PROGRAM);
 		this.vao = GL32.glGetInteger(GL32.GL_VERTEX_ARRAY_BINDING);
 		this.vbo = GL32.glGetInteger(GL32.GL_ARRAY_BUFFER_BINDING);
 		this.ebo = GL32.glGetInteger(GL32.GL_ELEMENT_ARRAY_BUFFER_BINDING);
 		this.fbo = GL32.glGetInteger(GL32.GL_FRAMEBUFFER_BINDING);
 		this.texture2D = GL32.glGetInteger(GL32.GL_TEXTURE_BINDING_2D);
 		this.activeTextureNumber = GL32.glGetInteger(GL32.GL_ACTIVE_TEXTURE);
 		GLMC.glActiveTexture(GL32.GL_TEXTURE0);
 		this.texture0 = GL32.glGetInteger(GL32.GL_TEXTURE_BINDING_2D);
 		GLMC.glActiveTexture(GL32.GL_TEXTURE1);
 		this.texture1 = GL32.glGetInteger(GL32.GL_TEXTURE_BINDING_2D);
 		GLMC.glActiveTexture(GL32.GL_TEXTURE2); // problem with Iris
 		this.texture2 = GL32.glGetInteger(GL32.GL_TEXTURE_BINDING_2D);
 		GLMC.glActiveTexture(GL32.GL_TEXTURE3);
 		this.texture3 = GL32.glGetInteger(GL32.GL_TEXTURE_BINDING_2D);
 		GLMC.glActiveTexture(this.activeTextureNumber);
 		if (this.fbo != 0)
 		{
 			this.frameBufferTexture0 = GL32.glGetFramebufferAttachmentParameteri(GL32.GL_FRAMEBUFFER, GL32.GL_COLOR_ATTACHMENT0, GL32.GL_FRAMEBUFFER_ATTACHMENT_OBJECT_NAME);
 			this.frameBufferTexture1 = GL32.glGetFramebufferAttachmentParameteri(GL32.GL_FRAMEBUFFER, GL32.GL_COLOR_ATTACHMENT1, GL32.GL_FRAMEBUFFER_ATTACHMENT_OBJECT_NAME);
 			int depthType = GL32.glGetFramebufferAttachmentParameteri(GL32.GL_FRAMEBUFFER, GL32.GL_DEPTH_ATTACHMENT, GL32.GL_FRAMEBUFFER_ATTACHMENT_OBJECT_TYPE);
 			this.frameBufferDepthTexture = (depthType == GL32.GL_TEXTURE) ? GL32.glGetFramebufferAttachmentParameteri(GL32.GL_FRAMEBUFFER, GL32.GL_DEPTH_ATTACHMENT, GL32.GL_FRAMEBUFFER_ATTACHMENT_OBJECT_NAME) : 0;
 		}
 		else
 		{
 			// attempting to get values from the default framebuffer can throw errors on Linux
 			this.frameBufferTexture0 = 0;
 			this.frameBufferTexture1 = 0;
 			this.frameBufferDepthTexture = 0;
 		}
 		this.blend = GL32.glIsEnabled(GL32.GL_BLEND);
 		this.scissor = GL32.glIsEnabled(GL32.GL_SCISSOR_TEST);
 		this.blendEqRGB = GL32.glGetInteger(GL32.GL_BLEND_EQUATION_RGB);
 		this.blendEqAlpha = GL32.glGetInteger(GL32.GL_BLEND_EQUATION_ALPHA);
 		this.blendSrcColor = GL32.glGetInteger(GL32.GL_BLEND_SRC_RGB);
 		this.blendSrcAlpha = GL32.glGetInteger(GL32.GL_BLEND_SRC_ALPHA);
 		this.blendDstColor = GL32.glGetInteger(GL32.GL_BLEND_DST_RGB);
 		this.blendDstAlpha = GL32.glGetInteger(GL32.GL_BLEND_DST_ALPHA);
 		this.depth = GL32.glIsEnabled(GL32.GL_DEPTH_TEST);
 		this.writeToDepthBuffer = GL32.glGetInteger(GL32.GL_DEPTH_WRITEMASK) == GL32.GL_TRUE;
 		this.depthFunc = GL32.glGetInteger(GL32.GL_DEPTH_FUNC);
 		this.stencil = GL32.glIsEnabled(GL32.GL_STENCIL_TEST);
 		this.stencilFunc = GL32.glGetInteger(GL32.GL_STENCIL_FUNC);
 		this.stencilRef = GL32.glGetInteger(GL32.GL_STENCIL_REF);
 		this.stencilMask = GL32.glGetInteger(GL32.GL_STENCIL_VALUE_MASK);
 		this.view = new int[4];
 		GL32.glGetIntegerv(GL32.GL_VIEWPORT, this.view);
 		this.cull = GL32.glIsEnabled(GL32.GL_CULL_FACE);
 		this.cullMode = GL32.glGetInteger(GL32.GL_CULL_FACE_MODE);
 		this.polyMode = GL32.glGetInteger(GL32.GL_POLYGON_MODE);
 	}
 	@Override 
 	public void close()
 	{
 		// explicitly unbinding the frame buffer is necessary to prevent GL_CLEAR calls from hitting the wrong buffer
 		GLMC.glBindFramebuffer(GL32.GL_FRAMEBUFFER, 0);
 		boolean frameBufferSet = false;
 		if (this.fbo != 0 && GL32.glIsFramebuffer(this.fbo))
 		{
 			GLMC.glBindFramebuffer(GL32.GL_FRAMEBUFFER, this.fbo);
 			frameBufferSet = true;
 		}
 		if (this.blend)
 		{
 			GLMC.enableBlend();
 		}
 		else
 		{
 			GLMC.disableBlend();
 		}
 		if (this.scissor)
 		{
 			GLMC.enableScissorTest();
 		}
 		else
 		{
 			GLMC.disableScissorTest();
 		}
 		GLMC.glActiveTexture(GL32.GL_TEXTURE0);
 		GLMC.glBindTexture(GL32.glIsTexture(this.texture0) ? this.texture0 : 0);
 		GLMC.glActiveTexture(GL32.GL_TEXTURE1);
 		GLMC.glBindTexture(GL32.glIsTexture(this.texture1) ? this.texture1 : 0);
 		GLMC.glActiveTexture(GL32.GL_TEXTURE2);
 		GLMC.glBindTexture(GL32.glIsTexture(this.texture2) ? this.texture2 : 0);
 		GLMC.glActiveTexture(GL32.GL_TEXTURE3);
 		GLMC.glBindTexture(GL32.glIsTexture(this.texture3) ? this.texture3 : 0);
 		GLMC.glActiveTexture(this.activeTextureNumber);
 		GLMC.glBindTexture(GL32.glIsTexture(this.texture2D) ? this.texture2D : 0);
 		// attempting to set textures on the default frame buffer (ID 0) will throw errors
 		if (frameBufferSet)
 		{
 			if (GL32.glIsTexture(this.frameBufferTexture0))
 			{
 				GL32.glFramebufferTexture2D(GL32.GL_FRAMEBUFFER, GL32.GL_COLOR_ATTACHMENT0, GL32.GL_TEXTURE_2D, this.frameBufferTexture0, 0);
 			}
 			if (this.frameBufferTexture1 != 0 && GL32.glIsTexture(this.frameBufferTexture1))
 			{
 				GL32.glFramebufferTexture2D(GL32.GL_FRAMEBUFFER, GL32.GL_COLOR_ATTACHMENT1, GL32.GL_TEXTURE_2D, this.frameBufferTexture1, 0);
 			}
 			if (GL32.glIsTexture(this.frameBufferDepthTexture))
 			{
 				GL32.glFramebufferTexture2D(GL32.GL_FRAMEBUFFER, GL32.GL_DEPTH_ATTACHMENT, GL32.GL_TEXTURE_2D, this.frameBufferDepthTexture, 0);
 			}
 		}
 		GL32.glBindVertexArray(GL32.glIsVertexArray(this.vao) ? this.vao : 0);
 		GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, GL32.glIsBuffer(this.vbo) ? this.vbo : 0);
 		GL32.glBindBuffer(GL32.GL_ELEMENT_ARRAY_BUFFER, GL32.glIsBuffer(this.ebo) ? this.ebo: 0);
 		GL32.glUseProgram(GL32.glIsProgram(this.program) ? this.program : 0);
 		if (this.writeToDepthBuffer)
 		{
 			GLMC.enableDepthMask();
 		}
 		else
 		{
 			GLMC.disableDepthMask();
 		}
 		GLMC.glBlendFunc(this.blendSrcColor, this.blendDstColor);
 		GL32.glBlendEquationSeparate(this.blendEqRGB, this.blendEqAlpha);
 		GLMC.glBlendFuncSeparate(this.blendSrcColor, this.blendDstColor, this.blendSrcAlpha, this.blendDstAlpha);
 		if (this.depth)
 		{
 			GLMC.enableDepthTest();
 		}
 		else
 		{
 			GLMC.disableDepthTest();
 		}
 		GLMC.glDepthFunc(this.depthFunc);
 		if (this.stencil)
 		{
 			GL32.glEnable(GL32.GL_STENCIL_TEST);
 		}
 		else
 		{
 			GL32.glDisable(GL32.GL_STENCIL_TEST);
 		}
 		GL32.glStencilFunc(this.stencilFunc, this.stencilRef, this.stencilMask);
 		GL32.glViewport(this.view[0], this.view[1], this.view[2], this.view[3]);
 		if (this.cull)
 		{
 			GLMC.enableFaceCulling();
 		}
 		else
 		{
 			GLMC.disableFaceCulling();
 		}
 		GL32.glCullFace(this.cullMode);
 		GL32.glPolygonMode(GL32.GL_FRONT_AND_BACK, this.polyMode);
 	}
 	@Override
 	public String toString()
 	{
 		return "GLState{" +
 			"program=" + this.program + ", vao=" + this.vao + ", vbo=" + this.vbo + ", ebo=" + this.ebo + ", fbo=" + this.fbo +
 			", text=" + GLEnums.getString(this.texture2D) + "@" + this.activeTextureNumber + ", text0=" + GLEnums.getString(this.texture0) +
 			", FB text0=" + this.frameBufferTexture0 +
 			", FB text1=" + this.frameBufferTexture1 +
 			", FB depth=" + this.frameBufferDepthTexture +
 			", blend=" + this.blend + ", scissor=" + this.scissor + ", blendMode=" + GLEnums.getString(this.blendSrcColor) + "," + GLEnums.getString(this.blendDstColor) +
 			", depth=" + this.depth +
 			", depthFunc=" + GLEnums.getString(this.depthFunc) + ", stencil=" + this.stencil +
 			", stencilFunc=" + GLEnums.getString(this.stencilFunc) + ", stencilRef=" + this.stencilRef + ", stencilMask=" + this.stencilMask +
 			", view={x:" + this.view[0] + ", y:" + this.view[1] +
 			", w:" + this.view[2] + ", h:" + this.view[3] + "}" + ", cull=" + this.cull +
 			", cullMode=" + GLEnums.getString(this.cullMode) + ", polyMode=" + GLEnums.getString(this.polyMode) +
 			'}';
 	}
 }
@@ -1,94 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl.glObject;
 import com.seibel.distanthorizons.api.interfaces.override.rendering.IDhApiFramebuffer;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftGLWrapper;
 import org.lwjgl.opengl.GL32;
 public class GlDhFramebuffer implements IDhApiFramebuffer
 {
 	private static final MinecraftGLWrapper GLMC = MinecraftGLWrapper.INSTANCE;
 	private int id;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public GlDhFramebuffer() { this.id = GL32.glGenFramebuffers(); }
 	/** For internal use by Iris, do not remove. */
 	public GlDhFramebuffer(int id) { this.id = id; }
 	//endregion
 	//=========//
 	// methods //
 	//=========//
 	//region
 	@Override
 	public void addDepthAttachment(int textureId, boolean isCombinedStencil) 
 	{
 		this.bind();
 		int depthAttachment = isCombinedStencil ? GL32.GL_DEPTH_STENCIL_ATTACHMENT : GL32.GL_DEPTH_ATTACHMENT;
 		GL32.glFramebufferTexture2D(GL32.GL_FRAMEBUFFER, depthAttachment, GL32.GL_TEXTURE_2D, textureId, 0);
 	}
 	@Override
 	public void addColorAttachment(int textureIndex, int textureId)
 	{
 		this.bind();
 		GL32.glFramebufferTexture2D(GL32.GL_FRAMEBUFFER, GL32.GL_COLOR_ATTACHMENT0 + textureIndex, GL32.GL_TEXTURE_2D, textureId, 0);
 	}
 	@Override
 	public void bind()
 	{
 		if (this.id == -1)
 		{
 			throw new IllegalStateException("Framebuffer does not exist!");
 		} 
 		GLMC.glBindFramebuffer(GL32.GL_FRAMEBUFFER, this.id);
 	}
 	@Override
 	public void destroy()
 	{
 		GL32.glDeleteFramebuffers(this.id); 
 		this.id = -1;
 	}
 	@Override
 	public int getStatus()
 	{
 		this.bind(); 
 		int status = GL32.glCheckFramebufferStatus(GL32.GL_FRAMEBUFFER);
 		return status;
 	}
 	@Override
 	public int getId() { return this.id; }
 	//endregion
 	//=============//
 	// API methods //
 	//=============//
 	//region
 	public boolean overrideThisFrame() { return true; }
 	//endregion
 }
@@ -1,15 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl.glObject;
 import com.seibel.distanthorizons.core.dataObjects.render.bufferBuilding.LodBufferContainer;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.ILodContainerUniformBufferWrapper;
 /**
 * With OpenGL all uniform data is uploaded during the rendering phase
 * so nothing is needed here.
 */
 public class GlDummyUniformData implements ILodContainerUniformBufferWrapper
 {
 	@Override public void tryUpload(LodBufferContainer bufferContainer) { }
 	@Override public void close() { }
 }
@@ -1,629 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.glObject.buffer;
 import com.seibel.distanthorizons.api.enums.config.EDhApiGpuUploadMethod;
 import com.seibel.distanthorizons.common.render.openGl.glObject.GLProxy;
 import com.seibel.distanthorizons.common.wrappers.minecraft.MinecraftGLWrapper;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.jar.EPlatform;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import com.seibel.distanthorizons.core.logging.f3.F3Screen;
 import com.seibel.distanthorizons.core.render.RenderThreadTaskHandler;
 import com.seibel.distanthorizons.core.util.LodUtil;
 import com.seibel.distanthorizons.core.util.ThreadUtil;
 import com.seibel.distanthorizons.core.util.objects.Pair;
 import com.seibel.distanthorizons.core.util.objects.pooling.PhantomLoggingHelper;
 import com.seibel.distanthorizons.coreapi.ModInfo;
 import com.seibel.distanthorizons.coreapi.util.StringUtil;
 import org.lwjgl.opengl.GL32;
 import org.lwjgl.opengl.GL44;
 import java.lang.ref.PhantomReference;
 import java.lang.ref.Reference;
 import java.lang.ref.ReferenceQueue;
 import java.nio.ByteBuffer;
 import java.util.ArrayList;
 import java.util.Arrays;
 import java.util.concurrent.ConcurrentHashMap;
 import java.util.concurrent.ThreadPoolExecutor;
 import java.util.concurrent.atomic.AtomicInteger;
 import java.util.concurrent.locks.StampedLock;
 public class GLBuffer implements AutoCloseable
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder()
 			.fileLevelConfig(Config.Common.Logging.logRendererGLEventToFile)
 			.chatLevelConfig(Config.Common.Logging.logRendererGLEventToChat)
 			.build();
 	private static final MinecraftGLWrapper GLMC = MinecraftGLWrapper.INSTANCE;
 	// TODO move to a shared location that can be handled by both GL and Blaze3D buffers
 	/** if enabled the number of GC'ed buffers will be logged */
 	private static final boolean LOG_PHANTOM_RECOVERY = ModInfo.IS_DEV_BUILD;
 	/** If enabled buffers allocation/upload stacks will be logged when GC'ed. */
 	private static final boolean LOG_PHANTOM_ALLOCATION_STACKS = false; // disabled by default due to the increased GC load
 	public static final double BUFFER_EXPANSION_MULTIPLIER = 1.3;
 	public static final double BUFFER_SHRINK_TRIGGER = BUFFER_EXPANSION_MULTIPLIER * BUFFER_EXPANSION_MULTIPLIER;
 	/**
 	 * On macOS the legacy OpenGL -> Metal bridge crashes with SIGBUS in
 	 * {@code _platform_memmove} when {@code glBufferData} or {@code glBufferSubData}
 	 * are called with a large ByteBuffer in one shot. To work around it, we split
 	 * the upload into smaller sub-data calls that each fit comfortably inside the
 	 * driver's internal staging path. <br>
 	 * 256 KiB tuned empirically against macOS 26.5 — a 1 MiB chunk still
 	 * tripped the same {@code _platform_memmove} crash inside
 	 * {@code glBufferSubData_Exec}, but 256 KiB consistently survives.
 	 */
 	public static final int MAC_UPLOAD_CHUNK_BYTES = 256 * 1024;
 	/** Threshold above which the chunked path kicks in on macOS. */
 	public static final int MAC_UPLOAD_CHUNK_THRESHOLD = MAC_UPLOAD_CHUNK_BYTES;
 	/** the number of active buffers, can be used for debugging */
 	public static AtomicInteger bufferCount = new AtomicInteger(0);
 	private static final int PHANTOM_REF_CHECK_TIME_IN_MS = 5 * 1000;
 	private static final ConcurrentHashMap<PhantomReference<? extends GLBuffer>, Integer> PHANTOM_TO_BUFFER_ID = new ConcurrentHashMap<>();
 	private static final ConcurrentHashMap<Integer, PhantomReference<? extends GLBuffer>> BUFFER_ID_TO_PHANTOM = new ConcurrentHashMap<>();
 	private static final ConcurrentHashMap<Integer, String> BUFFER_ID_TO_ALLOCATION_STRING = new ConcurrentHashMap<>();
 	private static final ReferenceQueue<GLBuffer> PHANTOM_REFERENCE_QUEUE = new ReferenceQueue<>();
 	private static final ThreadPoolExecutor CLEANUP_THREAD = ThreadUtil.makeSingleDaemonThreadPool("GLBuffer Cleanup");
 	protected volatile int id = 0;
 	public final int getId() { return this.id; }
 	protected int size = 0;
 	public int getSize() { return this.size; }
 	protected boolean bufferStorage;
 	protected boolean isMapped = false;
 	/**
 	 * Locking on the render thread isn't great, but is needed due to an inconsistent
 	 * race condition where VBOs can be marked as deleted outside the render thread. <br><br>
 	 * 
 	 * But, due to being a read-write lock the chance of freezing
 	 * the render thread is very low
 	 * and since this is a stamped lock, the optimistic read time is basically zero.
 	 * (The optimistic lock time doesn't even appear in the profiler).
 	 */
 	public final StampedLock renderStampLock = new StampedLock();
 	//==============//
 	// constructors //
 	//==============//
 	//region
 	static { CLEANUP_THREAD.execute(() -> runPhantomReferenceCleanupLoop()); }
 	public GLBuffer(boolean isBufferStorage) { this.destroyOldAndCreate(isBufferStorage); }
 	//endregion
 	//=========//
 	// methods //
 	//=========//
 	//region
 	// Should be override by subclasses
 	public int getBufferBindingTarget() { return GL32.GL_COPY_READ_BUFFER; }
 	public void bind() { GL32.glBindBuffer(this.getBufferBindingTarget(), this.id); }
 	public void unbind() { GL32.glBindBuffer(this.getBufferBindingTarget(), 0); }
 	//endregion
 	//====================//
 	// create and destroy //
 	//====================//
 	//region
 	protected void destroyOldAndCreate(boolean asBufferStorage)
 	{
 		if (!GLProxy.runningOnRenderThread())
 		{
 			LodUtil.assertNotReach("Thread ["+Thread.currentThread()+"] tried to create a GLBuffer outside the MC render thread.");
 		}
 		// lock to prevent the render thread from accessing the buffer's ID
 		// while we are removing it
 		long writeStamp = renderStampLock.writeLock();
 		try
 		{
 			final int oldId = this.id;
 			this.id = GLMC.glGenBuffers();
 			//LOGGER.info("created [" + newId + "].");
 			// destroy the old buffer
 			// after the new one has been created 
 			// to hopefully prevent a rare race conditions where the old ID
 			// is still used somewhere
 			if (oldId != 0)
 			{
 				// this ID doesn't need to be tracked anymore
 				tryRemoveBufferIdFromPhantom(oldId);
 				destroyBufferIdNow(oldId, "destroyOldAndCreate");
 			}
 			this.bufferStorage = asBufferStorage;
 			bufferCount.getAndIncrement();
 			PhantomReference<GLBuffer> phantom = new PhantomReference<>(this, PHANTOM_REFERENCE_QUEUE);
 			PHANTOM_TO_BUFFER_ID.put(phantom, this.id);
 			BUFFER_ID_TO_PHANTOM.put(this.id, phantom);
 			this.updateAllocationStackTrace();
 		}
 		finally
 		{
 			renderStampLock.unlock(writeStamp);
 		}
 	}
 	protected void destroyAsync()
 	{
 		// lock to prevent the render thread from accessing the buffer's ID
 		// while we are removing it
 		long writeStamp = renderStampLock.writeLock();
 		try
 		{
 			if (this.id == 0)
 			{
 				// the buffer has already been closed
 				return;
 			}
 			final int idToDelete = this.id; // saving the ID to a separate variable is necessary so it can be captured by the lambda
 			// remove the phantom tracking now so the phantom doesn't have the chance to
 			// get garbage collected before the render thread task runs
 			// (this can happen if MC is running at extremely low framerates like 1 fps via mods)
 			tryRemoveBufferIdFromPhantom(idToDelete);
 			// mark the old data is invalid before deleting to prevent a rare race condition
 			// where the queued on render thread task runs before the ID is cleared
 			this.id = 0;
 			this.size = 0;
 			//LOGGER.info("async destroy [" + idToDelete + "].");
 			RenderThreadTaskHandler.INSTANCE.queueRunningOnRenderThread("GLBuffer destroyAsync", () -> { destroyBufferIdNow(idToDelete, "destroyAsync"); });
 		}
 		finally
 		{
 			renderStampLock.unlock(writeStamp);
 		}
 	}
 	private static void destroyBufferIdNow(int id, String cause)
 	{
 		// only delete valid buffers
 		if (id == 0)
 		{
 			LOGGER.warn("Attempted to destroy a buffer with ID 0, VRAM memory leaks may occur, cause: ["+cause+"].");
 			return;
 		}
 		bufferCount.decrementAndGet();
 		GLMC.glDeleteBuffers(id);
 		if (Config.Client.Advanced.Debugging.logBufferGarbageCollection.get())
 		{
 			LOGGER.info("destroyed buffer [" + id + "], remaining: [" + BUFFER_ID_TO_PHANTOM.size() + "], cause: ["+cause+"].");
 		}
 	}
 	/** should be called before {@link GLBuffer#destroyBufferIdNow} */
 	private static void tryRemoveBufferIdFromPhantom(int id)
 	{
 		// will contain nothing if stack tracking isn't enabled
 		BUFFER_ID_TO_ALLOCATION_STRING.remove(id);
 		PhantomReference<? extends GLBuffer> phantom = BUFFER_ID_TO_PHANTOM.remove(id);
 		if (phantom != null)
 		{
 			// if we are manually closing this buffer, we don't want the phantom reference to accidentally close it again
 			// this can cause a race condition were we accidentally delete an in-use buffer and cause NVIDIA
 			// to throw an EXCEPTION_ACCESS_VIOLATION when we attempt to render it
 			phantom.clear();
 			Integer phantomId = PHANTOM_TO_BUFFER_ID.remove(phantom);
 			if (phantomId == null)
 			{
 				LOGGER.warn("No Phantom->ID binding stored for ID ["+id+"]");
 			}
 		}
 		else
 		{
 			LOGGER.warn("Unable to remove phantom GLBuffer with ID ["+id+"], buffer may have already been deleted.");
 		}
 	}
 	//endregion
 	//==================//
 	// buffer uploading //
 	//==================//
 	//region
 	/** 
 	 * Assumes the GL Context is already bound. <br> 
 	 * Will create the VBO if one exist.
 	 */
 	public void uploadBuffer(ByteBuffer bb, EDhApiGpuUploadMethod uploadMethod, int maxExpansionSize, int bufferHint)
 	{
 		LodUtil.assertTrue(!uploadMethod.useEarlyMapping, "UploadMethod signal that this should use Mapping instead of uploadBuffer!");
 		int bbSize = bb.limit() - bb.position();
 		if (bbSize > maxExpansionSize) 
 		{ 
 			LodUtil.assertNotReach("maxExpansionSize is [" + maxExpansionSize + "] but buffer size is [" + bbSize + "]!"); 
 		}
 		// Don't upload an empty buffer
 		if (bbSize == 0)
 		{
 			return;
 		}
 		// re-binding the old buffers is necessary for old MC versions for the following reasons:
 		// for 16.5 and older the screen may be black when on the home menu
 		// and for 1.19.2 - 1.21.4 the inventory/UI will render without a background
 		int vao = GL32.glGetInteger(GL32.GL_VERTEX_ARRAY_BINDING);
 		int vbo = GL32.glGetInteger(GL32.GL_ARRAY_BUFFER_BINDING);
 		int ebo = GL32.glGetInteger(GL32.GL_ELEMENT_ARRAY_BUFFER_BINDING);
 		try
 		{
 			// make sure the buffer is ready for uploading
 			this.createOrChangeBufferTypeForUpload(uploadMethod);
 			switch (uploadMethod)
 			{
 				case AUTO:
 					LodUtil.assertNotReach("GpuUploadMethod AUTO must be resolved before call to uploadBuffer()!");
 				case BUFFER_STORAGE:
 					this.uploadBufferStorage(bb);
 					break;
 				case DATA:
 					this.uploadBufferData(bb, bufferHint);
 					break;
 				case SUB_DATA:
 					this.uploadSubData(bb, maxExpansionSize, bufferHint);
 					break;
 				default:
 					LodUtil.assertNotReach("Unknown GpuUploadMethod!");
 			}
 		}
 		finally
 		{
 			GL32.glBindVertexArray(GL32.glIsVertexArray(vao) ? vao : 0);
 			GL32.glBindBuffer(GL32.GL_ARRAY_BUFFER, GL32.glIsBuffer(vbo) ? vbo : 0);
 			GL32.glBindBuffer(GL32.GL_ELEMENT_ARRAY_BUFFER, GL32.glIsBuffer(ebo) ? ebo: 0);
 		}
 	}
 	/** Requires the buffer to be bound */
 	protected void uploadBufferStorage(ByteBuffer bb)
 	{
 		LodUtil.assertTrue(this.bufferStorage, "Buffer is not bufferStorage but its trying to use bufferStorage upload method!");
 		int bbSize = bb.limit() - bb.position();
 		this.destroyOldAndCreate(true);
 		this.bind();
 		GL44.glBufferStorage(this.getBufferBindingTarget(), bb, 0);
 		this.size = bbSize;
 	}
 	/** Requires the buffer to be bound */
 	protected void uploadBufferData(ByteBuffer bb, int bufferDataHint)
 	{
 		LodUtil.assertTrue(!this.bufferStorage, "Buffer is bufferStorage but its trying to use bufferData upload method!");
 		int bbSize = bb.limit() - bb.position();
 		int target = this.getBufferBindingTarget();
 		if (shouldUploadToGpuInChunks(bbSize))
 		{
 			// Two-step path used on macOS to dodge the Apple OpenGL -> Metal
 			// memmove SIGBUS triggered by uploading a large ByteBuffer in one
 			// glBufferData call:
 			//   1) allocate-only with the size overload (no memcpy)
 			//   2) fill the buffer through chunked glBufferSubData calls
 			GL32.glBufferData(target, (long) bbSize, bufferDataHint);
 			subDataUploadInChunks(target, 0, bb, MAC_UPLOAD_CHUNK_BYTES);
 		}
 		else
 		{
 			GL32.glBufferData(target, bb, bufferDataHint);
 		}
 		this.size = bbSize;
 		this.updateAllocationStackTrace();
 	}
 	/** Requires the buffer to be bound */
 	protected void uploadSubData(ByteBuffer bb, int maxExpansionSize, int bufferDataHint)
 	{
 		LodUtil.assertTrue(!this.bufferStorage, "Buffer is bufferStorage but its trying to use subData upload method!");
 		int bbSize = bb.limit() - bb.position();
 		int target = this.getBufferBindingTarget();
 		if (this.size < bbSize || this.size > bbSize * BUFFER_SHRINK_TRIGGER)
 		{
 			int newSize = (int) (bbSize * BUFFER_EXPANSION_MULTIPLIER);
 			if (newSize > maxExpansionSize)
 			{
 				newSize = maxExpansionSize;
 			}
 			// allocate-only — no memcpy, safe on macOS regardless of size
 			GL32.glBufferData(target, (long) newSize, bufferDataHint);
 			this.size = newSize;
 		}
 		if (shouldUploadToGpuInChunks(bbSize))
 		{
 			subDataUploadInChunks(target, 0, bb, MAC_UPLOAD_CHUNK_BYTES);
 		}
 		else
 		{
 			GL32.glBufferSubData(target, 0, bb);
 		}
 		this.updateAllocationStackTrace();
 	}
 	//endregion
 	//================//
 	// base overrides //
 	//================//
 	//region
 	@Override
 	public void close() { this.destroyAsync(); }
 	@Override
 	public String toString()
 	{
 		return (this.bufferStorage ? "" : "Static-") + this.getClass().getSimpleName() +
 				"[id:" + this.id + ",size:" + this.size + (this.isMapped ? ",MAPPED" : "") + "]";
 	}
 	//endregion
 	//================//
 	// helper methods //
 	//================//
 	//region
 	/** 
 	 * Makes sure the buffer exists and is of the correct format
 	 * before uploading.
 	 */
 	private void createOrChangeBufferTypeForUpload(EDhApiGpuUploadMethod uploadMethod)
 	{
 		// create/change the buffer type if necessary
 		if (uploadMethod.useBufferStorage != this.bufferStorage)
 		{
 			// recreate if the buffer storage type changed
 			this.bind();
 			this.destroyOldAndCreate(uploadMethod.useBufferStorage);
 			this.bind();
 		}
 		else
 		{
 			// Prevent uploading to the null buffer (ID 0).
 			// This can happen if the buffer was deleted previously.
 			if (this.id == 0)
 			{
 				this.destroyOldAndCreate(this.bufferStorage);
 			}
 			this.bind();
 		}
 	}
 	/**
 	 * macOS-only mitigation for the SIGBUS in
 	 * {@code libsystem_platform.dylib _platform_memmove} that happens when the
 	 * Apple OpenGL -> Metal translation layer copies a single large ByteBuffer
 	 * out of LWJGL into driver memory. Splitting the copy into
 	 * {@link #MAC_UPLOAD_CHUNK_BYTES} slices keeps every memmove inside a size
 	 * the bridge handles reliably.
 	 */
 	private static boolean shouldUploadToGpuInChunks(int byteCount)
 	{
 		return EPlatform.get() == EPlatform.MACOS
 			&& byteCount > MAC_UPLOAD_CHUNK_THRESHOLD;
 	}
 	/**
 	 * Uploads {@code bb} into the currently bound buffer at {@code baseOffset}
 	 * using a sequence of {@link GL32#glBufferSubData(int, long, ByteBuffer)}
 	 * calls of at most {@code chunkBytes} each. The buffer's position/limit are
 	 * restored before returning.
 	 */
 	private static void subDataUploadInChunks(int target, int baseOffset, ByteBuffer bb, int chunkBytes)
 	{
 		final int origPos = bb.position();
 		final int origLimit = bb.limit();
 		try
 		{
 			final int total = origLimit - origPos;
 			int uploaded = 0;
 			while (uploaded < total)
 			{
 				int chunk = Math.min(chunkBytes, total - uploaded);
 				bb.position(origPos + uploaded);
 				bb.limit(origPos + uploaded + chunk);
 				GL32.glBufferSubData(target, (long) (baseOffset + uploaded), bb);
 				uploaded += chunk;
 				// Force the driver to drain its command queue between chunks
 				// so the OpenGL -> Metal bridge processes (and frees) each
 				// staging copy before the next sub-data call piles another
 				// memmove on top of it.
 				if (uploaded < total)
 				{
 					GL32.glFlush();
 				}
 			}
 		}
 		finally
 		{
 			bb.limit(origLimit);
 			bb.position(origPos);
 		}
 	}
 	/** 
 	 * used to help track down leaks where the buffer isn't properly closed
 	 * Note: this probably needs extending to accept a stack trace from outside where it's being called
 	 * since it's often called on the render thread in an un-helpful location.
 	 */
 	public void updateAllocationStackTrace()
 	{
 		if (LOG_PHANTOM_ALLOCATION_STACKS)
 		{
 			String stack;
 			RenderThreadTaskHandler.QueuedRunnable parentQueuedRunnable;
 			// if this is running on the render thread, try getting the render task's stack trace instead
 			// since it's a lot more helpful than wherever the render thread tasks themselves are being run from
 			if (RenderThreadTaskHandler.INSTANCE.isCurrentThread()
 				&& (parentQueuedRunnable = RenderThreadTaskHandler.INSTANCE.getCurrentlyRunningTask()) != null
 				&& parentQueuedRunnable.stackTrace != null)
 			{
 				// trim off the getStacktrace() and queueRunningOnRenderThread() methods
 				StackTraceElement[] trimmedElements = Arrays.copyOfRange(parentQueuedRunnable.stackTrace, 2, parentQueuedRunnable.stackTrace.length);
 				stack = StringUtil.join("\n", trimmedElements).intern();
 			}
 			else
 			{
 				// not running on the render thread, use the normal stack trace
 				StackTraceElement[] stackTraceElements = Thread.currentThread().getStackTrace();
 				stack = StringUtil.join("\n", stackTraceElements).intern();
 			}
 			BUFFER_ID_TO_ALLOCATION_STRING.put(this.id, stack);
 		}
 	}
 	//endregion
 	//================//
 	// static cleanup //
 	//================//
 	//region
 	private static void runPhantomReferenceCleanupLoop()
 	{
 		// these arrays are stored here so they don't have to be re-allocated each loop
 		ArrayList<Pair<String, AtomicInteger>> allocationStackTraceCountPairList = new ArrayList<>();
 		while (true)
 		{
 			allocationStackTraceCountPairList.clear();
 			try
 			{
 				try
 				{
 					Thread.sleep(PHANTOM_REF_CHECK_TIME_IN_MS);
 				}
 				catch (InterruptedException ignore) { }
 				int collectedCount = 0;
 				Reference<? extends GLBuffer> phantomRef = PHANTOM_REFERENCE_QUEUE.poll();
 				while (phantomRef != null)
 				{
 					// destroy the buffer if it hasn't been cleared yet
 					Integer idRef = PHANTOM_TO_BUFFER_ID.remove((PhantomReference<? extends GLBuffer>)phantomRef); // cast to make IntelliJ happy
 					if (idRef != null)
 					{
 						BUFFER_ID_TO_PHANTOM.remove(idRef);
 						final int id = idRef;
 						RenderThreadTaskHandler.INSTANCE.queueRunningOnRenderThread("GLBuffer phantom destroy", () -> { destroyBufferIdNow(id, "runPhantomReferenceCleanupLoop"); });
 						//LOGGER.info("Buffer Phantom collected, ID: ["+id+"]");
 						if (LOG_PHANTOM_ALLOCATION_STACKS) // stack trace shouldn't be null, but just in case
 						{
 							String stack = BUFFER_ID_TO_ALLOCATION_STRING.get(idRef);
 							PhantomLoggingHelper.putAndIncrementTrackingString(stack, allocationStackTraceCountPairList);
 						}
 					}
 					else
 					{
 						LOGGER.warn("Failed to find Buffer ID for phantom reference: ["+phantomRef+"]");
 					}
 					collectedCount++;
 					phantomRef = PHANTOM_REFERENCE_QUEUE.poll();
 				}
 				if (LOG_PHANTOM_RECOVERY)
 				{
 					// we only want to log when something has been returned
 					if (collectedCount != 0)
 					{
 						LOGGER.warn("GLBuffer phantom recovered: ["+ F3Screen.NUMBER_FORMAT.format(collectedCount)+"].");
 						// log stack traces if present
 						if (LOG_PHANTOM_ALLOCATION_STACKS)
 						{
 							PhantomLoggingHelper.LogAllocationStackTracePairCounts(LOGGER, allocationStackTraceCountPairList);
 						}
 					}
 				}
 			}
 			catch (Exception e)
 			{
 				LOGGER.error("Unexpected error in buffer cleanup thread: [" + e.getMessage() + "].", e);
 			}
 		}
 	}
 	//endregion
 }
@@ -1,56 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.glObject.buffer;
 import org.lwjgl.opengl.GL32;
 /**
 * AKA the GLElementBuffer
 *
 * @author James Seibel
 * @version 11-20-2021
 */
 public class GLIndexBuffer extends GLBuffer
 {
 	/**
 	 * When uploading to a buffer that is too small, recreate it this many times
 	 * bigger than the upload payload
 	 */
 	protected int indicesCount = 0;
 	protected int glType = GL32.GL_UNSIGNED_INT;
 	public int getGlType() { return this.glType; }
 	public GLIndexBuffer(boolean isBufferStorage) { super(isBufferStorage); }
 	@Override
 	public void destroyAsync()
 	{
 		super.destroyAsync();
 		this.indicesCount = 0;
 	}
 	@Override
 	public int getBufferBindingTarget() { return GL32.GL_ELEMENT_ARRAY_BUFFER; }
 }
@@ -1,192 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.glObject.buffer;
 import java.nio.ByteBuffer;
 import com.seibel.distanthorizons.common.render.openGl.glObject.GLProxy;
 import com.seibel.distanthorizons.core.dataObjects.render.bufferBuilding.IndexBufferBuilder;
 import com.seibel.distanthorizons.core.dataObjects.render.bufferBuilding.LodQuadBuilder;
 import com.seibel.distanthorizons.core.dependencyInjection.SingletonInjector;
 import com.seibel.distanthorizons.core.render.RenderThreadTaskHandler;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.AbstractDhRenderApiDefinition;
 import com.seibel.distanthorizons.core.wrapperInterfaces.render.objects.IVertexBufferWrapper;
 import org.lwjgl.opengl.GL32;
 import com.seibel.distanthorizons.api.enums.config.EDhApiGpuUploadMethod;
 /**
 * This is a container for a OpenGL
 * VBO (Vertex Buffer Object).
 *
 * @author James Seibel
 * @version 11-20-2021
 */
 public class GLVertexBuffer extends GLBuffer implements IVertexBufferWrapper
 {
 	private static final AbstractDhRenderApiDefinition RENDER_DEF = SingletonInjector.INSTANCE.get(AbstractDhRenderApiDefinition.class);
 	/**
 	 * When uploading to a buffer that is too small, recreate it this many times
 	 * bigger than the upload payload
 	 */
 	protected int vertexCount = 0;
 	public int getVertexCount() { return this.vertexCount; }
 	private GlQuadIndexBuffer quadIBO = null;
 	private static GlQuadIndexBuffer GLOBAL_QUAD_IBO = null;
 	public GlQuadIndexBuffer getQuadIBO()
 	{
 		if (RENDER_DEF.useSingleIbo())
 		{
 			return GLOBAL_QUAD_IBO;
 		}
 		else
 		{
 			return this.quadIBO;
 		}
 	}
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	static
 	{
 		if (RENDER_DEF.useSingleIbo())
 		{
 			RenderThreadTaskHandler.INSTANCE.queueRunningOnRenderThread("Global IBO Creation", () ->
 			{
 				GLOBAL_QUAD_IBO = new GlQuadIndexBuffer();
 				int maxSize = LodQuadBuilder.getMaxBufferByteSize();
 				int maxVertexCount = maxSize / LodQuadBuilder.BYTES_PER_VERTEX;
 				int maxQuadCount = (maxVertexCount / 4);
 				ByteBuffer buffer = IndexBufferBuilder.createBuffer(maxQuadCount);
 				GLOBAL_QUAD_IBO.upload(buffer, maxQuadCount);
 			});
 		}
 	}
 	public GLVertexBuffer() { this(GLProxy.getInstance().getGpuUploadMethod() == EDhApiGpuUploadMethod.BUFFER_STORAGE); }
 	public GLVertexBuffer(boolean isBufferStorage) { super(isBufferStorage); }
 	//endregion
 	//======================//
 	// uploading/destroying //
 	//======================//
 	//region
 	@Override
 	public int getBufferBindingTarget() { return GL32.GL_ARRAY_BUFFER; }
 	@Override
 	public void uploadVertexBuffer(ByteBuffer buffer, int vertexCount)
 	{
 		EDhApiGpuUploadMethod uploadMethod = GLProxy.getInstance().getGpuUploadMethod();
 		int maxBufferSize = LodQuadBuilder.getMaxBufferByteSize();
 		this.uploadBuffer(buffer, vertexCount, uploadMethod, maxBufferSize);
 	}
 	/**
 	 * bufferSize is the number of shared verticies. <br>
 	 * This number will be higher when actually rendered since each box's face needs 2 triangles 
 	 * with 2 shared verticies. 
 	 */
 	public void uploadBuffer(ByteBuffer byteBuffer, int vertexCount, EDhApiGpuUploadMethod uploadMethod, int maxExpansionSize)
 	{
 		if (vertexCount < 0)
 		{
 			throw new IllegalArgumentException("vertexCount is negative!");
 		}
 		// If size is zero, just ignore it.
 		if (byteBuffer.limit() - byteBuffer.position() != 0)
 		{
 			super.uploadBuffer(byteBuffer, uploadMethod, maxExpansionSize, uploadMethod.useBufferStorage ? 0 : GL32.GL_STATIC_DRAW);
 		}
 		this.vertexCount = vertexCount;
 	}
 	@Override
 	public void uploadIndexBuffer(ByteBuffer buffer, int vertexCount)
 	{
 		if (RENDER_DEF.useSingleIbo())
 		{
 			// ignore index uploading when running a single IBO
 			return;
 		}
 		// If size is zero, just ignore it.
 		if (vertexCount == 0)
 		{
 			return;
 		}
 		if (this.quadIBO != null)
 		{
 			this.quadIBO.close();
 		}
 		this.quadIBO = new GlQuadIndexBuffer();
 		int quadCount = (vertexCount / 4);
 		this.quadIBO.upload(buffer, quadCount);
 	}
 	//endregion
 	//================//
 	// base overrides //
 	//================//
 	//region
 	@Override
 	public void close() { this.destroyAsync(); }
 	@Override
 	public void destroyAsync()
 	{
 		super.destroyAsync();
 		if (this.quadIBO != null)
 		{
 			this.quadIBO.destroyAsync();
 		}
 		this.vertexCount = 0;
 	}
 	//endregion
 }
@@ -1,83 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.glObject.buffer;
 import com.seibel.distanthorizons.api.enums.config.EDhApiGpuUploadMethod;
 import com.seibel.distanthorizons.common.render.openGl.glObject.enums.GLEnums;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import org.lwjgl.opengl.GL32;
 import java.nio.ByteBuffer;
 /** aka GlQuadElementBuffer */
 public class GlQuadIndexBuffer extends GLIndexBuffer
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder().build();
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public GlQuadIndexBuffer() { super(false); }
 	public void upload(ByteBuffer buffer, int quadCount)
 	{
 		if (quadCount < 0)
 		{
 			throw new IllegalArgumentException("quadCount must be greater than 0");
 		}
 		if (quadCount == 0)
 		{
 			// shouldn't happen, but just in case
 			return;
 		}
 		this.indicesCount = quadCount * 6; // 2 triangles per quad
 		if (this.indicesCount >= this.getCapacity()
 			&& this.indicesCount < this.getCapacity() * BUFFER_SHRINK_TRIGGER)
 		{
 			return;
 		}
 		this.glType = GL32.GL_UNSIGNED_INT;
 		super.uploadBuffer(buffer, EDhApiGpuUploadMethod.DATA,
 			this.indicesCount * GLEnums.getTypeSize(this.glType), GL32.GL_STATIC_DRAW);
 	}
 	//endregion
 	//=========//
 	// getters //
 	//=========//
 	//region
 	public int getCapacity() { return super.getSize() / GLEnums.getTypeSize(this.getGlType()); }
 	//endregion
 }
@@ -1,9 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl.glObject.enums;
 public enum EGlVersion 
 {
 	GL_11,
 	GL_12,
 	GL_30,
 	GL_31
 }
@@ -1,261 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.glObject.enums;
 import static org.lwjgl.opengl.GL46.*;
 // Turns GL int enums back to readable strings
 public class GLEnums
 {
 	public static String getString(int glEnum)
 	{
 		// blend stuff
 		switch (glEnum)
 		{
 			case GL_ZERO:
 				return "GL_ZERO";
 			case GL_ONE:
 				return "GL_ONE";
 			case GL_SRC_COLOR:
 				return "GL_SRC_COLOR";
 			case GL_ONE_MINUS_SRC_COLOR:
 				return "GL_ONE_MINUS_SRC_COLOR";
 			case GL_DST_COLOR:
 				return "GL_DST_COLOR";
 			case GL_ONE_MINUS_DST_COLOR:
 				return "GL_ONE_MINUS_DST_COLOR";
 			case GL_SRC_ALPHA:
 				return "GL_SRC_ALPHA";
 			case GL_ONE_MINUS_SRC_ALPHA:
 				return "GL_ONE_MINUS_SRC_ALPHA";
 			case GL_DST_ALPHA:
 				return "GL_DST_ALPHA";
 			case GL_ONE_MINUS_DST_ALPHA:
 				return "GL_ONE_MINUS_DST_ALPHA";
 			case GL_CONSTANT_COLOR:
 				return "GL_CONSTANT_COLOR";
 			case GL_ONE_MINUS_CONSTANT_COLOR:
 				return "GL_ONE_MINUS_CONSTANT_COLOR";
 			case GL_CONSTANT_ALPHA:
 				return "GL_CONSTANT_ALPHA";
 			case GL_ONE_MINUS_CONSTANT_ALPHA:
 				return "GL_ONE_MINUS_CONSTANT_ALPHA";
 			default:
 		}
 		// shader stuff
 		switch (glEnum)
 		{
 			case GL_VERTEX_SHADER:
 				return "GL_VERTEX_SHADER";
 			case GL_GEOMETRY_SHADER:
 				return "GL_GEOMETRY_SHADER";
 			case GL_FRAGMENT_SHADER:
 				return "GL_FRAGMENT_SHADER";
 			default:
 		}
 		// stencil stuff
 		switch (glEnum)
 		{
 			case GL_KEEP:
 				return "GL_KEEP";
 			case GL_ZERO:
 				return "GL_ZERO";
 			case GL_REPLACE:
 				return "GL_REPLACE";
 			case GL_INCR:
 				return "GL_INCR";
 			case GL_DECR:
 				return "GL_DECR";
 			case GL_INVERT:
 				return "GL_INVERT";
 			case GL_INCR_WRAP:
 				return "GL_INCR_WRAP";
 			case GL_DECR_WRAP:
 				return "GL_DECR_WRAP";
 			default:
 		}
 		// depth stuff
 		switch (glEnum)
 		{
 			case GL_NEVER:
 				return "GL_NEVER";
 			case GL_LESS:
 				return "GL_LESS";
 			case GL_EQUAL:
 				return "GL_EQUAL";
 			case GL_LEQUAL:
 				return "GL_LEQUAL";
 			case GL_GREATER:
 				return "GL_GREATER";
 			case GL_NOTEQUAL:
 				return "GL_NOTEQUAL";
 			case GL_GEQUAL:
 				return "GL_GEQUAL";
 			case GL_ALWAYS:
 				return "GL_ALWAYS";
 			default:
 		}
 		// Texture binding points
 		switch (glEnum)
 		{
 			case GL_TEXTURE0:
 				return "GL_TEXTURE0";
 			case GL_TEXTURE1:
 				return "GL_TEXTURE1";
 			case GL_TEXTURE2:
 				return "GL_TEXTURE2";
 			case GL_TEXTURE3:
 				return "GL_TEXTURE3";
 			case GL_TEXTURE4:
 				return "GL_TEXTURE4";
 			case GL_TEXTURE5:
 				return "GL_TEXTURE5";
 			case GL_TEXTURE6:
 				return "GL_TEXTURE6";
 			case GL_TEXTURE7:
 				return "GL_TEXTURE7";
 			case GL_TEXTURE8:
 				return "GL_TEXTURE8";
 			case GL_TEXTURE9:
 				return "GL_TEXTURE9";
 			case GL_TEXTURE10:
 				return "GL_TEXTURE10";
 			case GL_TEXTURE11:
 				return "GL_TEXTURE11";
 			case GL_TEXTURE12:
 				return "GL_TEXTURE12";
 			case GL_TEXTURE13:
 				return "GL_TEXTURE13";
 			case GL_TEXTURE14:
 				return "GL_TEXTURE14";
 			case GL_TEXTURE15:
 				return "GL_TEXTURE15";
 			case GL_TEXTURE16:
 				return "GL_TEXTURE16";
 			case GL_TEXTURE17:
 				return "GL_TEXTURE17";
 			case GL_TEXTURE18:
 				return "GL_TEXTURE18";
 			case GL_TEXTURE19:
 				return "GL_TEXTURE19";
 			case GL_TEXTURE20:
 				return "GL_TEXTURE20";
 			case GL_TEXTURE21:
 				return "GL_TEXTURE21";
 			case GL_TEXTURE22:
 				return "GL_TEXTURE22";
 			case GL_TEXTURE23:
 				return "GL_TEXTURE23";
 			case GL_TEXTURE24:
 				return "GL_TEXTURE24";
 			case GL_TEXTURE25:
 				return "GL_TEXTURE25";
 			case GL_TEXTURE26:
 				return "GL_TEXTURE26";
 			case GL_TEXTURE27:
 				return "GL_TEXTURE27";
 			case GL_TEXTURE28:
 				return "GL_TEXTURE28";
 			case GL_TEXTURE29:
 				return "GL_TEXTURE29";
 			case GL_TEXTURE30:
 				return "GL_TEXTURE30";
 			case GL_TEXTURE31:
 				return "GL_TEXTURE31";
 			default:
 		}
 		// Polygon modes
 		switch (glEnum)
 		{
 			case GL_POINT:
 				return "GL_POINT";
 			case GL_LINE:
 				return "GL_LINE";
 			case GL_FILL:
 				return "GL_FILL";
 			default:
 		}
 		// Culling modes
 		switch (glEnum)
 		{
 			case GL_FRONT:
 				return "GL_FRONT";
 			case GL_BACK:
 				return "GL_BACK";
 			case GL_FRONT_AND_BACK:
 				return "GL_FRONT_AND_BACK";
 			default:
 		}
 		// Types
 		switch (glEnum)
 		{
 			case GL_BYTE:
 				return "GL_BYTE";
 			case GL_UNSIGNED_BYTE:
 				return "GL_UNSIGNED_BYTE";
 			case GL_SHORT:
 				return "GL_SHORT";
 			case GL_UNSIGNED_SHORT:
 				return "GL_UNSIGNED_SHORT";
 			case GL_INT:
 				return "GL_INT";
 			case GL_UNSIGNED_INT:
 				return "GL_UNSIGNED_INT";
 			case GL_FLOAT:
 				return "GL_FLOAT";
 			case GL_DOUBLE:
 				return "GL_DOUBLE";
 			default:
 		}
 		return "GL_UNKNOWN(" + glEnum + ")";
 	}
 	public static int getTypeSize(int glTypeEnum)
 	{
 		switch (glTypeEnum)
 		{
 			case GL_BYTE:
 			case GL_UNSIGNED_BYTE:
 				return 1;
 			case GL_SHORT:
 			case GL_UNSIGNED_SHORT:
 				return 2;
 			case GL_INT:
 			case GL_UNSIGNED_INT:
 				return 4;
 			case GL_FLOAT:
 				return 4;
 			case GL_DOUBLE:
 				return 8;
 			default:
 				throw new IllegalArgumentException("Unknown type enum: " + getString(glTypeEnum));
 		}
 	}
 }
@@ -1,184 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.glObject.shader;
 import java.io.BufferedReader;
 import java.io.FileInputStream;
 import java.io.FileNotFoundException;
 import java.io.IOException;
 import java.io.InputStream;
 import java.io.InputStreamReader;
 import java.nio.ByteBuffer;
 import com.seibel.distanthorizons.core.config.Config;
 import com.seibel.distanthorizons.core.logging.DhLogger;
 import com.seibel.distanthorizons.core.logging.DhLoggerBuilder;
 import org.lwjgl.PointerBuffer;
 import org.lwjgl.opengl.GL32;
 import org.lwjgl.opengl.GL32C;
 import org.lwjgl.system.MemoryStack;
 import org.lwjgl.system.MemoryUtil;
 import org.lwjgl.system.NativeType;
 /**
 * This object holds a OpenGL reference to a shader
 * and allows for reading in and compiling a shader file.
 */
 public class GlShader
 {
 	private static final DhLogger LOGGER = new DhLoggerBuilder()
 			.fileLevelConfig(Config.Common.Logging.logRendererGLEventToFile)
 			.chatLevelConfig(Config.Common.Logging.logRendererGLEventToChat)
 			.build();
 	/** OpenGL shader ID */
 	public final int id;
 	//==============//
 	// constructors //
 	//==============//
 	//region
 	/**
 	 * Creates a shader with specified type.
 	 *
 	 * @param type Either GL_VERTEX_SHADER or GL_FRAGMENT_SHADER.
 	 * @param sourceString File path of the shader
 	 * @throws RuntimeException if the shader fails to compile
 	 */
 	public GlShader(int type, String sourceString)
 	{
 		LOGGER.info("Loading shader with type: ["+type+"]");
 		LOGGER.debug("Source: \n["+sourceString+"]");
 		if (sourceString == null || sourceString.isEmpty())
 		{
 			throw new IllegalArgumentException("No shader source given.");
 		}
 		// Create an empty shader object
 		this.id = GL32.glCreateShader(type);
 		if (this.id == 0)
 		{
 			throw new IllegalArgumentException("Failed to create shader with type ["+type+"] and Source: \n["+sourceString+"].");
 		}
 		safeShaderSource(this.id, sourceString);
 		GL32.glCompileShader(this.id);
 		// check if the shader compiled
 		int status = GL32.glGetShaderi(this.id, GL32.GL_COMPILE_STATUS);
 		if (status != GL32.GL_TRUE)
 		{
 			String message = "Shader compiler error. Details: [" + GL32.glGetShaderInfoLog(this.id) + "]\n";
 			message += "Source: \n[" + sourceString + "]";
 			this.free(); // important!
 			throw new RuntimeException(message);
 		}
 		LOGGER.info("Shader loaded sucessfully.");
 	}
 	//endregion
 	//=========//
 	// helpers //
 	//=========//
 	//region
 	/**
 	 * Identical in function to {@link GL32C#glShaderSource(int, CharSequence)} but
 	 * passes a null pointer for string length to force the driver to rely on the null
 	 * terminator for string length.  This is a workaround for an apparent flaw with some
 	 * AMD drivers that don't receive or interpret the length correctly, resulting in
 	 * an access violation when the driver tries to read past the string memory.
 	 *
 	 * <p>Hat tip to fewizz for the find and the fix.
 	 * 
 	 * <p>Source: https://github.com/vram-guild/canvas/commit/820bf754092ccaf8d0c169620c2ff575722d7d96
 	 */
 	private static void safeShaderSource(@NativeType("GLuint") int glId, @NativeType("GLchar const **") CharSequence source)
 	{
 		final MemoryStack stack = MemoryStack.stackGet();
 		final int stackPointer = stack.getPointer();
 		try
 		{
 			final ByteBuffer sourceBuffer = MemoryUtil.memUTF8(source, true);
 			final PointerBuffer pointers = stack.mallocPointer(1);
 			pointers.put(sourceBuffer);
 			GL32.nglShaderSource(glId, 1, pointers.address0(), 0);
 			org.lwjgl.system.APIUtil.apiArrayFree(pointers.address0(), 1);
 		}
 		finally
 		{
 			stack.setPointer(stackPointer);
 		}
 	}
 	public void free() { GL32.glDeleteShader(this.id); }
 	public static String loadFile(String path, boolean absoluteFilePath)
 	{
 		StringBuilder stringBuilder = new StringBuilder();
 		try
 		{
 			// open the file
 			InputStream in;
 			if (absoluteFilePath)
 			{
 				// Throws FileNotFoundException
 				in = new FileInputStream(path); // Note: this should use OS path seperator
 			}
 			else
 			{
 				in = GlShader.class.getClassLoader().getResourceAsStream(path); // Note: path seperator should be '/'
 				if (in == null)
 				{
 					throw new FileNotFoundException("Shader file not found in resource: " + path);
 				}
 			}
 			BufferedReader reader = new BufferedReader(new InputStreamReader(in));
 			// read in the file
 			String line;
 			while ((line = reader.readLine()) != null)
 			{
 				stringBuilder.append(line).append("\n");
 			}
 		}
 		catch (IOException e)
 		{
 			throw new RuntimeException("Unable to load shader from file [" + path + "]. Error: " + e.getMessage());
 		}
 		return stringBuilder.toString();
 	}
 	//endregion
 }
@@ -1,250 +0,0 @@
 /*
 *    This file is part of the Distant Horizons mod
 *    licensed under the GNU LGPL v3 License.
 *
 *    Copyright (C) 2020 James Seibel
 *
 *    This program is free software: you can redistribute it and/or modify
 *    it under the terms of the GNU Lesser General Public License as published by
 *    the Free Software Foundation, version 3.
 *
 *    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 Lesser General Public License for more details.
 *
 *    You should have received a copy of the GNU Lesser General Public License
 *    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
 package com.seibel.distanthorizons.common.render.openGl.glObject.shader;
 import java.awt.Color;
 import java.nio.FloatBuffer;
 import com.seibel.distanthorizons.api.objects.math.DhApiMat4f;
 import com.seibel.distanthorizons.api.objects.math.DhApiVec3i;
 import org.lwjgl.opengl.GL32;
 import org.lwjgl.system.MemoryStack;
 import com.seibel.distanthorizons.core.util.math.DhMat4f;
 import com.seibel.distanthorizons.core.util.math.DhVec3f;
 /**
 * This object holds the reference to a OpenGL shader program
 * and contains a few methods that can be used with OpenGL shader programs.
 * The reason for many of these simple wrapper methods is as reminders of what
 * can (and needs to be) done with a shader program.
 */
 public class GlShaderProgram
 {
 	/** Stores the handle of the program. */
 	public final int id;
 	//=============//
 	// constructor //
 	//=============//
 	//region
 	public GlShaderProgram(String vertResourcePath, String fragResourcePath, String attribute) { this(vertResourcePath, fragResourcePath, new String[]{ attribute }); }
 	/**
 	 * @param vertResourcePath the relative path the vertex shader should be found 
 	 * @param fragResourcePath the relative path the fragment shader should be found 
 	 */
 	public GlShaderProgram(String vertResourcePath, String fragResourcePath, String[] attributes)
 	{
 		this.id = GL32.glCreateProgram();
 		{
 			String shaderString = GlShader.loadFile(vertResourcePath, false);
 			GlShader vertShader = new GlShader(GL32.GL_VERTEX_SHADER, shaderString);
 			GL32.glAttachShader(this.id, vertShader.id);
 			vertShader.free();
 		}
 		{
 			String shaderString = GlShader.loadFile(fragResourcePath, false);
 			GlShader fragShader = new GlShader(GL32.GL_FRAGMENT_SHADER, shaderString);
 			GL32.glAttachShader(this.id, fragShader.id);
 			fragShader.free();
 		}
 		for (int i = 0; i < attributes.length; i++)
 		{
 			GL32.glBindAttribLocation(this.id, i, attributes[i]);
 		}
 		GL32.glLinkProgram(this.id);
 		int status = GL32.glGetProgrami(this.id, GL32.GL_LINK_STATUS);
 		if (status != GL32.GL_TRUE)
 		{
 			String message = "Shader Link Error. Details: " + GL32.glGetProgramInfoLog(this.id);
 			this.free(); // important!
 			throw new RuntimeException(message);
 		}
 		GL32.glUseProgram(this.id); // This HAVE to be a direct call to prevent calling the overloaded version
 	}
 	//endregion
 	//=========//
 	// binding //
 	//=========//
 	//region
 	public void bind() { GL32.glUseProgram(this.id); }
 	public void unbind() { GL32.glUseProgram(0); }
 	public void free() { GL32.glDeleteProgram(this.id); }
 	//endregion
 	//============//
 	// attributes //
 	//============//
 	//region
 	/**
 	 * WARNING: Slow native call! Cache it if possible!
 	 * Gets the location of an attribute variable with specified name.
 	 * Calls GL20.glGetAttribLocation(id, name)
 	 *
 	 * @param name Attribute name
 	 * @return Location of the attribute
 	 * @throws RuntimeException if attribute not found
 	 */
 	public int getAttributeLocation(CharSequence name)
 	{
 		int i = GL32.glGetAttribLocation(id, name);
 		if (i == -1) throw new RuntimeException("Attribute name not found: " + name);
 		return i;
 	}
 	/**
 	 * Same as above but without throwing errors. <br>
 	 * Returns -1 if the attribute doesn't exist or has been optimized out.
 	 */
 	public int tryGetAttributeLocation(CharSequence name)
 	{ return GL32.glGetAttribLocation(this.id, name); }
 	//endregion
 	//==========//
 	// uniforms //
 	//==========//
 	//region
 	/**
 	 * WARNING: Slow native call! Cache it if possible!
 	 * Gets the location of a uniform variable with specified name.
 	 * Calls GL20.glGetUniformLocation(id, name)
 	 *
 	 * @param name Uniform name
 	 * @return Location of the Uniform
 	 * @throws RuntimeException if uniform not found
 	 */
 	public int getUniformLocation(CharSequence name) throws RuntimeException
 	{
 		int i = GL32.glGetUniformLocation(id, name);
 		if (i == -1)
 		{
 			throw new RuntimeException("Uniform name not found: " + name);
 		}
 		return i;
 	}
 	// Same as above but without throwing errors.
 	// Return -1 if uniform doesn't exist or has been optimized out
 	public int tryGetUniformLocation(CharSequence name)
 	{ return GL32.glGetUniformLocation(this.id, name); }
 	/** Requires a bound ShaderProgram. */
 	public void setUniform(int location, boolean value) { GL32.glUniform1i(location, value ? 1 : 0); }
 	/** @see GlShaderProgram#setUniform(int, boolean) */
 	public void trySetUniform(int location, boolean value) { if (location != -1) { this.setUniform(location, value); } }
 	/** Requires a bound ShaderProgram. */
 	public void setUniform(int location, int value) { GL32.glUniform1i(location, value); }
 	/** @see GlShaderProgram#setUniform(int, int) */
 	public void trySetUniform(int location, int value) { if (location != -1) { this.setUniform(location, value); } }
 	/** Requires a bound ShaderProgram. */
 	public void setUniform(int location, float value) { GL32.glUniform1f(location, value); }
 	/** @see GlShaderProgram#setUniform(int, float) */
 	public void trySetUniform(int location, float value) { if (location != -1) { this.setUniform(location, value); } }
 	/** Requires a bound ShaderProgram. */
 	public void setUniform(int location, DhVec3f value) { GL32.glUniform3f(location, value.x, value.y, value.z); }
 	/** @see GlShaderProgram#setUniform(int, DhVec3f) */
 	public void trySetUniform(int location, DhVec3f value) { if (location != -1) { this.setUniform(location, value); } }
 	/** Requires a bound ShaderProgram. */
 	public void setUniform(int location, DhApiVec3i value) { GL32.glUniform3i(location, value.x, value.y, value.z); }
 	/** @see GlShaderProgram#setUniform(int, DhApiMat4f) */
 	public void trySetUniform(int location, DhApiVec3i value) { if (location != -1) { this.setUniform(location, value); } }
 	/** Requires a bound ShaderProgram. */
 	public void setUniform(int location, DhApiMat4f value)
 	{
 		try (MemoryStack stack = MemoryStack.stackPush())
 		{
 			FloatBuffer buffer = stack.mallocFloat(16);
 			storeMatrixInBuffer(value, buffer);
 			GL32.glUniformMatrix4fv(location, false, buffer);
 		}
 	}
 	private static void storeMatrixInBuffer(DhApiMat4f matrix, FloatBuffer floatBuffer)
 	{
 		floatBuffer.put(bufferIndex(0, 0), matrix.m00);
 		floatBuffer.put(bufferIndex(0, 1), matrix.m01);
 		floatBuffer.put(bufferIndex(0, 2), matrix.m02);
 		floatBuffer.put(bufferIndex(0, 3), matrix.m03);
 		floatBuffer.put(bufferIndex(1, 0), matrix.m10);
 		floatBuffer.put(bufferIndex(1, 1), matrix.m11);
 		floatBuffer.put(bufferIndex(1, 2), matrix.m12);
 		floatBuffer.put(bufferIndex(1, 3), matrix.m13);
 		floatBuffer.put(bufferIndex(2, 0), matrix.m20);
 		floatBuffer.put(bufferIndex(2, 1), matrix.m21);
 		floatBuffer.put(bufferIndex(2, 2), matrix.m22);
 		floatBuffer.put(bufferIndex(2, 3), matrix.m23);
 		floatBuffer.put(bufferIndex(3, 0), matrix.m30);
 		floatBuffer.put(bufferIndex(3, 1), matrix.m31);
 		floatBuffer.put(bufferIndex(3, 2), matrix.m32);
 		floatBuffer.put(bufferIndex(3, 3), matrix.m33);
 	}
 	private static int bufferIndex(int xIndex, int zIndex) { return (zIndex * 4) + xIndex; }
 	/** @see GlShaderProgram#setUniform(int, DhApiMat4f) */
 	public void trySetUniform(int location, DhMat4f value) { if (location != -1) { this.setUniform(location, value); } }
 	/**
 	 * Converts the color's RGBA values into values between 0 and 1. <br>
 	 * Requires a bound ShaderProgram.
 	 */
 	public void setUniform(int location, Color value)
 	{
 		GL32.glUniform4f(location, 
 				value.getRed()   / 256.0f, 
 				value.getGreen() / 256.0f, 
 				value.getBlue()  / 256.0f, 
 				value.getAlpha() / 256.0f);
 	}
 	/** @see GlShaderProgram#setUniform(int, Color) */
 	public void trySetUniform(int location, Color value) { if (location != -1) { this.setUniform(location, value); } }
 	//endregion
 }
@@ -1,114 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl.glObject.texture;
 import org.jetbrains.annotations.Nullable;
 import org.lwjgl.opengl.GL30C;
 import org.lwjgl.opengl.GL43C;
 public enum EGlDhDepthBufferFormat
 {
 	DEPTH(false),
 	DEPTH16(false),
 	DEPTH24(false),
 	DEPTH32(false),
 	DEPTH32F(false),
 	DEPTH_STENCIL(true),
 	DEPTH24_STENCIL8(true),
 	DEPTH32F_STENCIL8(true);
 	private final boolean combinedStencil;
 	EGlDhDepthBufferFormat(boolean combinedStencil) { this.combinedStencil = combinedStencil; }
 	@Nullable
 	public static EGlDhDepthBufferFormat fromGlEnum(int glenum)
 	{
 		switch (glenum)
 		{
 			case GL30C.GL_DEPTH_COMPONENT:
 				return EGlDhDepthBufferFormat.DEPTH;
 			case GL30C.GL_DEPTH_COMPONENT16:
 				return EGlDhDepthBufferFormat.DEPTH16;
 			case GL30C.GL_DEPTH_COMPONENT24:
 				return EGlDhDepthBufferFormat.DEPTH24;
 			case GL30C.GL_DEPTH_COMPONENT32:
 				return EGlDhDepthBufferFormat.DEPTH32;
 			case GL30C.GL_DEPTH_COMPONENT32F:
 				return EGlDhDepthBufferFormat.DEPTH32F;
 			case GL30C.GL_DEPTH_STENCIL:
 				return EGlDhDepthBufferFormat.DEPTH_STENCIL;
 			case GL30C.GL_DEPTH24_STENCIL8:
 				return EGlDhDepthBufferFormat.DEPTH24_STENCIL8;
 			case GL30C.GL_DEPTH32F_STENCIL8:
 				return EGlDhDepthBufferFormat.DEPTH32F_STENCIL8;
 			default:
 				return null;
 		}
 	}
 	public static EGlDhDepthBufferFormat fromGlEnumOrDefault(int glenum)
 	{
 		EGlDhDepthBufferFormat format = fromGlEnum(glenum);
 		if (format == null)
 		{
 			// yolo, just assume it's GL_DEPTH_COMPONENT
 			return EGlDhDepthBufferFormat.DEPTH;
 		}
 		return format;
 	}
 	public int getGlInternalFormat()
 	{
 		switch (this)
 		{
 			case DEPTH:
 				return GL30C.GL_DEPTH_COMPONENT;
 			case DEPTH16:
 				return GL30C.GL_DEPTH_COMPONENT16;
 			case DEPTH24:
 				return GL30C.GL_DEPTH_COMPONENT24;
 			case DEPTH32:
 				return GL30C.GL_DEPTH_COMPONENT32;
 			case DEPTH32F:
 				return GL30C.GL_DEPTH_COMPONENT32F;
 			case DEPTH_STENCIL:
 				return GL30C.GL_DEPTH_STENCIL;
 			case DEPTH24_STENCIL8:
 				return GL30C.GL_DEPTH24_STENCIL8;
 			case DEPTH32F_STENCIL8:
 				return GL30C.GL_DEPTH32F_STENCIL8;
 		}
 		throw new AssertionError("unreachable");
 	}
 	public int getGlType() { return isCombinedStencil() ? GL30C.GL_DEPTH_STENCIL : GL30C.GL_DEPTH_COMPONENT; }
 	public int getGlFormat()
 	{
 		switch (this)
 		{
 			case DEPTH:
 			case DEPTH16:
 				return GL43C.GL_UNSIGNED_SHORT;
 			case DEPTH24:
 			case DEPTH32:
 				return GL43C.GL_UNSIGNED_INT;
 			case DEPTH32F:
 				return GL30C.GL_FLOAT;
 			case DEPTH_STENCIL:
 			case DEPTH24_STENCIL8:
 				return GL30C.GL_UNSIGNED_INT_24_8;
 			case DEPTH32F_STENCIL8:
 				return GL30C.GL_FLOAT_32_UNSIGNED_INT_24_8_REV;
 		}
 		throw new AssertionError("unreachable");
 	}
 	public boolean isCombinedStencil() { return combinedStencil; }
 }
@@ -1,131 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl.glObject.texture;
 import com.seibel.distanthorizons.common.render.openGl.glObject.enums.EGlVersion;
 import org.lwjgl.opengl.GL11C;
 import org.lwjgl.opengl.GL30C;
 import org.lwjgl.opengl.GL31C;
 import java.util.Locale;
 import java.util.Optional;
 public enum EGlDhInternalTextureFormat
 {
 	RGBA(GL11C.GL_RGBA, EGlVersion.GL_11, EGlDhPixelFormat.RGBA),
 	// 8-bit normalized
 	R8(GL30C.GL_R8, EGlVersion.GL_30, EGlDhPixelFormat.RED),
 	RG8(GL30C.GL_RG8, EGlVersion.GL_30, EGlDhPixelFormat.RG),
 	RGB8(GL11C.GL_RGB8, EGlVersion.GL_11, EGlDhPixelFormat.RGB),
 	RGBA8(GL11C.GL_RGBA8, EGlVersion.GL_11, EGlDhPixelFormat.RGBA),
 	// 8-bit signed normalized
 	R8_SNORM(GL31C.GL_R8_SNORM, EGlVersion.GL_31, EGlDhPixelFormat.RED),
 	RG8_SNORM(GL31C.GL_RG8_SNORM, EGlVersion.GL_31, EGlDhPixelFormat.RG),
 	RGB8_SNORM(GL31C.GL_RGB8_SNORM, EGlVersion.GL_31, EGlDhPixelFormat.RGB),
 	RGBA8_SNORM(GL31C.GL_RGBA8_SNORM, EGlVersion.GL_31, EGlDhPixelFormat.RGBA),
 	// 16-bit normalized
 	R16(GL30C.GL_R16, EGlVersion.GL_30, EGlDhPixelFormat.RED),
 	RG16(GL30C.GL_RG16, EGlVersion.GL_30, EGlDhPixelFormat.RG),
 	RGB16(GL11C.GL_RGB16, EGlVersion.GL_11, EGlDhPixelFormat.RGB),
 	RGBA16(GL11C.GL_RGBA16, EGlVersion.GL_11, EGlDhPixelFormat.RGBA),
 	// 16-bit signed normalized
 	R16_SNORM(GL31C.GL_R16_SNORM, EGlVersion.GL_31, EGlDhPixelFormat.RED),
 	RG16_SNORM(GL31C.GL_RG16_SNORM, EGlVersion.GL_31, EGlDhPixelFormat.RG),
 	RGB16_SNORM(GL31C.GL_RGB16_SNORM, EGlVersion.GL_31, EGlDhPixelFormat.RGB),
 	RGBA16_SNORM(GL31C.GL_RGBA16_SNORM, EGlVersion.GL_31, EGlDhPixelFormat.RGBA),
 	// 16-bit float
 	R16F(GL30C.GL_R16F, EGlVersion.GL_30, EGlDhPixelFormat.RED),
 	RG16F(GL30C.GL_RG16F, EGlVersion.GL_30, EGlDhPixelFormat.RG),
 	RGB16F(GL30C.GL_RGB16F, EGlVersion.GL_30, EGlDhPixelFormat.RGB),
 	RGBA16F(GL30C.GL_RGBA16F, EGlVersion.GL_30, EGlDhPixelFormat.RGBA),
 	// 32-bit float
 	R32F(GL30C.GL_R32F, EGlVersion.GL_30, EGlDhPixelFormat.RED),
 	RG32F(GL30C.GL_RG32F, EGlVersion.GL_30, EGlDhPixelFormat.RG),
 	RGB32F(GL30C.GL_RGB32F, EGlVersion.GL_30, EGlDhPixelFormat.RGB),
 	RGBA32F(GL30C.GL_RGBA32F, EGlVersion.GL_30, EGlDhPixelFormat.RGBA),
 	// 8-bit integer
 	R8I(GL30C.GL_R8I, EGlVersion.GL_30, EGlDhPixelFormat.RED_INTEGER),
 	RG8I(GL30C.GL_RG8I, EGlVersion.GL_30, EGlDhPixelFormat.RG_INTEGER),
 	RGB8I(GL30C.GL_RGB8I, EGlVersion.GL_30, EGlDhPixelFormat.RGB_INTEGER),
 	RGBA8I(GL30C.GL_RGBA8I, EGlVersion.GL_30, EGlDhPixelFormat.RGBA_INTEGER),
 	// 8-bit unsigned integer
 	R8UI(GL30C.GL_R8UI, EGlVersion.GL_30, EGlDhPixelFormat.RED_INTEGER),
 	RG8UI(GL30C.GL_RG8UI, EGlVersion.GL_30, EGlDhPixelFormat.RG_INTEGER),
 	RGB8UI(GL30C.GL_RGB8UI, EGlVersion.GL_30, EGlDhPixelFormat.RGB_INTEGER),
 	RGBA8UI(GL30C.GL_RGBA8UI, EGlVersion.GL_30, EGlDhPixelFormat.RGBA_INTEGER),
 	// 16-bit integer
 	R16I(GL30C.GL_R16I, EGlVersion.GL_30, EGlDhPixelFormat.RED_INTEGER),
 	RG16I(GL30C.GL_RG16I, EGlVersion.GL_30, EGlDhPixelFormat.RG_INTEGER),
 	RGB16I(GL30C.GL_RGB16I, EGlVersion.GL_30, EGlDhPixelFormat.RGB_INTEGER),
 	RGBA16I(GL30C.GL_RGBA16I, EGlVersion.GL_30, EGlDhPixelFormat.RGBA_INTEGER),
 	// 16-bit unsigned integer
 	R16UI(GL30C.GL_R16UI, EGlVersion.GL_30, EGlDhPixelFormat.RED_INTEGER),
 	RG16UI(GL30C.GL_RG16UI, EGlVersion.GL_30, EGlDhPixelFormat.RG_INTEGER),
 	RGB16UI(GL30C.GL_RGB16UI, EGlVersion.GL_30, EGlDhPixelFormat.RGB_INTEGER),
 	RGBA16UI(GL30C.GL_RGBA16UI, EGlVersion.GL_30, EGlDhPixelFormat.RGBA_INTEGER),
 	// 32-bit integer
 	R32I(GL30C.GL_R32I, EGlVersion.GL_30, EGlDhPixelFormat.RED_INTEGER),
 	RG32I(GL30C.GL_RG32I, EGlVersion.GL_30, EGlDhPixelFormat.RG_INTEGER),
 	RGB32I(GL30C.GL_RGB32I, EGlVersion.GL_30, EGlDhPixelFormat.RGB_INTEGER),
 	RGBA32I(GL30C.GL_RGBA32I, EGlVersion.GL_30, EGlDhPixelFormat.RGBA_INTEGER),
 	// 32-bit unsigned integer
 	R32UI(GL30C.GL_R32UI, EGlVersion.GL_30, EGlDhPixelFormat.RED_INTEGER),
 	RG32UI(GL30C.GL_RG32UI, EGlVersion.GL_30, EGlDhPixelFormat.RG_INTEGER),
 	RGB32UI(GL30C.GL_RGB32UI, EGlVersion.GL_30, EGlDhPixelFormat.RGB_INTEGER),
 	RGBA32UI(GL30C.GL_RGBA32UI, EGlVersion.GL_30, EGlDhPixelFormat.RGBA_INTEGER),
 	// Mixed
 	R3_G3_B2(GL11C.GL_R3_G3_B2, EGlVersion.GL_11, EGlDhPixelFormat.RGB),
 	RGB5_A1(GL11C.GL_RGB5_A1, EGlVersion.GL_11, EGlDhPixelFormat.RGBA),
 	RGB10_A2(GL11C.GL_RGB10_A2, EGlVersion.GL_11, EGlDhPixelFormat.RGBA),
 	R11F_G11F_B10F(GL30C.GL_R11F_G11F_B10F, EGlVersion.GL_30, EGlDhPixelFormat.RGB),
 	RGB9_E5(GL30C.GL_RGB9_E5, EGlVersion.GL_30, EGlDhPixelFormat.RGB);
 	private final int glFormat;
 	private final EGlVersion minimumGlVersion;
 	private final EGlDhPixelFormat expectedPixelFormat;
 	EGlDhInternalTextureFormat(int glFormat, EGlVersion minimumGlVersion, EGlDhPixelFormat expectedPixelFormat)
 	{
 		this.glFormat = glFormat;
 		this.minimumGlVersion = minimumGlVersion;
 		this.expectedPixelFormat = expectedPixelFormat;
 	}
 	public static Optional<EGlDhInternalTextureFormat> fromString(String name)
 	{
 		try
 		{
 			return Optional.of(EGlDhInternalTextureFormat.valueOf(name.toUpperCase(Locale.US)));
 		}
 		catch (IllegalArgumentException e)
 		{
 			return Optional.empty();
 		}
 	}
 	public int getGlFormat() { return this.glFormat; }
 	public EGlDhPixelFormat getPixelFormat() { return this.expectedPixelFormat; }
 	public EGlVersion getMinimumGlVersion() { return this.minimumGlVersion; }
 }
@@ -1,61 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl.glObject.texture;
 import com.seibel.distanthorizons.common.render.openGl.glObject.enums.EGlVersion;
 import org.lwjgl.opengl.GL11C;
 import org.lwjgl.opengl.GL12C;
 import org.lwjgl.opengl.GL30C;
 import java.util.Locale;
 import java.util.Optional;
 public enum EGlDhPixelFormat
 {
 	RED(GL11C.GL_RED, EGlVersion.GL_11, false),
 	RG(GL30C.GL_RG, EGlVersion.GL_30, false),
 	RGB(GL11C.GL_RGB, EGlVersion.GL_11, false),
 	BGR(GL12C.GL_BGR, EGlVersion.GL_12, false),
 	RGBA(GL11C.GL_RGBA, EGlVersion.GL_11, false),
 	BGRA(GL12C.GL_BGRA, EGlVersion.GL_12, false),
 	RED_INTEGER(GL30C.GL_RED_INTEGER, EGlVersion.GL_30, true),
 	RG_INTEGER(GL30C.GL_RG_INTEGER, EGlVersion.GL_30, true),
 	RGB_INTEGER(GL30C.GL_RGB_INTEGER, EGlVersion.GL_30, true),
 	BGR_INTEGER(GL30C.GL_BGR_INTEGER, EGlVersion.GL_30, true),
 	RGBA_INTEGER(GL30C.GL_RGBA_INTEGER, EGlVersion.GL_30, true),
 	BGRA_INTEGER(GL30C.GL_BGRA_INTEGER, EGlVersion.GL_30, true);
 	private final int glFormat;
 	private final EGlVersion minimumGlVersion;
 	private final boolean isInteger;
 	EGlDhPixelFormat(int glFormat, EGlVersion minimumGlVersion, boolean isInteger)
 	{
 		this.glFormat = glFormat;
 		this.minimumGlVersion = minimumGlVersion;
 		this.isInteger = isInteger;
 	}
 	public static Optional<EGlDhPixelFormat> fromString(String name)
 	{
 		try
 		{
 			return Optional.of(EGlDhPixelFormat.valueOf(name.toUpperCase(Locale.US)));
 		}
 		catch (IllegalArgumentException e)
 		{
 			return Optional.empty();
 		}
 	}
 	public int getGlFormat() { return this.glFormat; }
 	public EGlVersion getMinimumGlVersion() { return this.minimumGlVersion; }
 	public boolean isInteger() { return this.isInteger; }
 }
@@ -1,65 +0,0 @@
 package com.seibel.distanthorizons.common.render.openGl.glObject.texture;
 import com.seibel.distanthorizons.common.render.openGl.glObject.enums.EGlVersion;
 import org.lwjgl.opengl.GL11C;
 import org.lwjgl.opengl.GL12C;
 import org.lwjgl.opengl.GL30C;
 import java.util.Locale;
 import java.util.Optional;
 public enum EGlDhPixelType
 {
 	BYTE(GL11C.GL_BYTE, EGlVersion.GL_11),
 	SHORT(GL11C.GL_SHORT, EGlVersion.GL_11),
 	INT(GL11C.GL_INT, EGlVersion.GL_11),
 	HALF_FLOAT(GL30C.GL_HALF_FLOAT, EGlVersion.GL_30),
 	FLOAT(GL11C.GL_FLOAT, EGlVersion.GL_11),
 	UNSIGNED_BYTE(GL11C.GL_UNSIGNED_BYTE, EGlVersion.GL_11),
 	UNSIGNED_BYTE_3_3_2(GL12C.GL_UNSIGNED_BYTE_3_3_2, EGlVersion.GL_12),
 	UNSIGNED_BYTE_2_3_3_REV(GL12C.GL_UNSIGNED_BYTE_2_3_3_REV, EGlVersion.GL_12),
 	UNSIGNED_SHORT(GL11C.GL_UNSIGNED_SHORT, EGlVersion.GL_11),
 	UNSIGNED_SHORT_5_6_5(GL12C.GL_UNSIGNED_SHORT_5_6_5, EGlVersion.GL_12),
 	UNSIGNED_SHORT_5_6_5_REV(GL12C.GL_UNSIGNED_SHORT_5_6_5_REV, EGlVersion.GL_12),
 	UNSIGNED_SHORT_4_4_4_4(GL12C.GL_UNSIGNED_SHORT_4_4_4_4, EGlVersion.GL_12),
 	UNSIGNED_SHORT_4_4_4_4_REV(GL12C.GL_UNSIGNED_SHORT_4_4_4_4_REV, EGlVersion.GL_12),
 	UNSIGNED_SHORT_5_5_5_1(GL12C.GL_UNSIGNED_SHORT_5_5_5_1, EGlVersion.GL_12),
 	UNSIGNED_SHORT_1_5_5_5_REV(GL12C.GL_UNSIGNED_SHORT_1_5_5_5_REV, EGlVersion.GL_12),
 	UNSIGNED_INT(GL11C.GL_UNSIGNED_INT, EGlVersion.GL_11),
 	UNSIGNED_INT_8_8_8_8(GL12C.GL_UNSIGNED_INT_8_8_8_8, EGlVersion.GL_12),
 	UNSIGNED_INT_8_8_8_8_REV(GL12C.GL_UNSIGNED_INT_8_8_8_8_REV, EGlVersion.GL_12),
 	UNSIGNED_INT_10_10_10_2(GL12C.GL_UNSIGNED_INT_10_10_10_2, EGlVersion.GL_12),
 	UNSIGNED_INT_2_10_10_10_REV(GL12C.GL_UNSIGNED_INT_2_10_10_10_REV, EGlVersion.GL_12);
 	private final int glFormat;
 	private final EGlVersion minimumGlVersion;
 	EGlDhPixelType(int glFormat, EGlVersion minimumGlVersion)
 	{
 		this.glFormat = glFormat;
 		this.minimumGlVersion = minimumGlVersion;
 	}
 	public static Optional<EGlDhPixelType> fromString(String name)
 	{
 		try
 		{
 			return Optional.of(EGlDhPixelType.valueOf(name.toUpperCase(Locale.US)));
 		}
 		catch (IllegalArgumentException e)
 		{
 			return Optional.empty();
 		}
 	}
 	public int getGlFormat() { return glFormat; }
 	public EGlVersion getMinimumGlVersion() { return minimumGlVersion; }
 }
--- a/Show More
+++ b/Show More