fix crash with Abnormals Core

change random display tick mixin injection type from @Redirect to @Inject
deburr build script
2021-05-14 18:55:10 +02:00 · 2021-05-14 18:52:22 +02:00 · 2021-05-14 14:44:29 +02:00 · 2021-05-14 14:40:16 +02:00 · 2021-05-14 14:36:48 +02:00 · 2021-05-13 21:13:34 +02:00
135 changed files with 4866 additions and 4430 deletions
--- a/.gitignore
+++ b/.gitignore
@@ -7,3 +7,4 @@ run/
 build/
 classes/
 temp/
 logs
--- a/build.gradle.kts
+++ b/build.gradle.kts
@@ -1,53 +1,41 @@
 import net.fabricmc.loom.task.RemapJarTask
 import org.ajoberstar.grgit.Grgit
 plugins {
-    kotlin("jvm").version("1.3.60")
+    kotlin("jvm").version("1.4.20")
-    id("fabric-loom").version("0.2.6-SNAPSHOT")
+    id("net.minecraftforge.gradle").version("4.1.12")
-    id("org.ajoberstar.grgit").version("3.1.1")
+    id("org.spongepowered.mixin").version("0.7-SNAPSHOT")
 }
 apply(plugin = "org.ajoberstar.grgit")
 val gitHash = (project.ext.get("grgit") as Grgit).head().abbreviatedId
 val semVer = "${project.version}+$gitHash"
 val jarName = "BetterFoliage-$semVer-Fabric-${properties["mcVersion"]}"
 repositories {
-    maven("http://maven.fabricmc.net/")
+    maven("https://files.minecraftforge.net/maven")
-    maven("https://minecraft.curseforge.com/api/maven")
+    maven("https://repo.spongepowered.org/maven")
-    maven("http://maven.modmuss50.me/")
+    maven("https://www.cursemaven.com")
-    maven("https://grondag-repo.appspot.com").credentials { username = "guest"; password = "" }
+    maven("https://thedarkcolour.github.io/KotlinForForge/")
    maven("https://jitpack.io")
 }
 dependencies {
-    "minecraft"("com.mojang:minecraft:${properties["mcVersion"]}")
+    "minecraft"("net.minecraftforge:forge:${properties["mcVersion"]}-${properties["forgeVersion"]}")
-    "mappings"("net.fabricmc:yarn:${properties["yarnMappings"]}:v2")
+    "implementation"("thedarkcolour:kotlinforforge:1.7.0")
-
+    "implementation"("org.spongepowered:mixin:0.8-SNAPSHOT")
    // basic Fabric stuff
    "modImplementation"("net.fabricmc:fabric-loader:${properties["loaderVersion"]}")
    "modImplementation"("net.fabricmc.fabric-api:fabric-api:${properties["fabricVersion"]}")
    "modImplementation"("net.fabricmc:fabric-language-kotlin:${properties["fabricKotlinVersion"]}")
    // configuration handling
    "modImplementation"("io.github.prospector:modmenu:${properties["modMenuVersion"]}")
    listOf("modImplementation", "include").forEach { configuration ->
        configuration("me.shedaniel.cloth:config-2:${properties["clothConfigVersion"]}")
        configuration("me.zeroeightsix:fiber:${properties["fiberVersion"]}")
    }
    // Canvas Renderer
 //    "modImplementation"("grondag:canvas:0.7.+")
    // Optifabric
    "modImplementation"("com.github.modmuss50:OptiFabric:df03dc2c22")
    "implementation"("org.zeroturnaround:zt-zip:1.13")
 }
 configurations["annotationProcessor"].extendsFrom(configurations["implementation"])
 sourceSets {
    get("main").ext["refMap"] = "betterfoliage.refmap.json"
 }
 minecraft {
    mappings(properties["mappingsChannel"] as String, properties["mappingsVersion"] as String)
    accessTransformer(file("src/main/resources/META-INF/accesstransformer.cfg"))
    runs.create("client") {
        workingDirectory(file("run"))
        properties["forge.logging.markers"] = "CORE"
        properties["forge.logging.console.level"] = "debug"
        mods.create("betterfoliage") {
            source(sourceSets["main"])
        }
    }
 }
 java {
    sourceCompatibility = JavaVersion.VERSION_1_8
    targetCompatibility = JavaVersion.VERSION_1_8
@@ -57,13 +45,17 @@ kotlin {
    target.compilations.configureEach {
        kotlinOptions.jvmTarget = "1.8"
        kotlinOptions.freeCompilerArgs += listOf("-Xno-param-assertions", "-Xno-call-assertions")
    }
 }
-tasks.getByName<ProcessResources>("processResources") {
+tasks.getByName<Jar>("jar") {
-    filesMatching("fabric.mod.json") { expand(mutableMapOf("version" to semVer)) }
+    archiveName = "BetterFoliage-${project.version}-Forge-${properties["mcVersion"]}.jar"
-}
+    manifest {
-
+        from(file("src/main/resources/META-INF/MANIFEST.MF"))
-tasks.getByName<RemapJarTask>("remapJar") {
+        attributes["Implementation-Version"] = project.version
-    archiveName = "$jarName.jar"
+    }
    exclude("net")
    filesMatching("META-INF/mods.toml") { expand(project.properties) }
    filesMatching("mcmod.info") { expand(project.properties) }
 }
--- a/gradle.properties
+++ b/gradle.properties
@@ -2,20 +2,13 @@ org.gradle.jvmargs=-Xmx2G
 org.gradle.daemon=false
 group = com.github.octarine-noise
 name = betterfoliage
 jarName = BetterFoliage-Forge
-version = 2.5.0
+version = 2.6.2
-mcVersion = 1.14.4
+mcVersion = 1.16.5
-yarnMappings=1.14.4+build.15
+forgeVersion = 36.1.17
-loaderVersion=0.7.3+build.176
+mappingsChannel = official
-fabricVersion=0.4.2+build.246-1.14
+mappingsVersion = 1.16.5
 loomVersion=0.2.6-SNAPSHOT
-kotlinVersion=1.3.60
+#kottleVersion = 1.4.0
 fabricKotlinVersion=1.3.60+build.1
 clothConfigVersion=1.8
 modMenuVersion=1.7.6+build.115
 fiberVersion=0.8.0-2
--- a/gradle/wrapper/gradle-wrapper.jar
+++ b/gradle/wrapper/gradle-wrapper.jar
--- a/gradle/wrapper/gradle-wrapper.properties
+++ b/gradle/wrapper/gradle-wrapper.properties
@@ -1,5 +1,5 @@
 distributionBase=GRADLE_USER_HOME
 distributionPath=wrapper/dists
-distributionUrl=https\://services.gradle.org/distributions/gradle-5.6-all.zip
+distributionUrl=https\://services.gradle.org/distributions/gradle-6.8.1-bin.zip
 zipStoreBase=GRADLE_USER_HOME
 zipStorePath=wrapper/dists
--- a/2
+++ b/2
@@ -82,6 +82,7 @@ esac
 CLASSPATH=$APP_HOME/gradle/wrapper/gradle-wrapper.jar
 # Determine the Java command to use to start the JVM.
 if [ -n "$JAVA_HOME" ] ; then
    if [ -x "$JAVA_HOME/jre/sh/java" ] ; then
@@ -129,6 +130,7 @@ fi
 if [ "$cygwin" = "true" -o "$msys" = "true" ] ; then
    APP_HOME=`cygpath --path --mixed "$APP_HOME"`
    CLASSPATH=`cygpath --path --mixed "$CLASSPATH"`
    JAVACMD=`cygpath --unix "$JAVACMD"`
    # We build the pattern for arguments to be converted via cygpath
--- a/gradlew.bat
+++ b/gradlew.bat
@@ -29,6 +29,9 @@ if "%DIRNAME%" == "" set DIRNAME=.
 set APP_BASE_NAME=%~n0
 set APP_HOME=%DIRNAME%
@rem Resolve any "." and ".." in APP_HOME to make it shorter.
 for %%i in ("%APP_HOME%") do set APP_HOME=%%~fi
@rem Add default JVM options here. You can also use JAVA_OPTS and GRADLE_OPTS to pass JVM options to this script.
 set DEFAULT_JVM_OPTS="-Xmx64m" "-Xms64m"
@@ -37,7 +40,7 @@ if defined JAVA_HOME goto findJavaFromJavaHome
 set JAVA_EXE=java.exe
 %JAVA_EXE% -version >NUL 2>&1
-if "%ERRORLEVEL%" == "0" goto init
+if "%ERRORLEVEL%" == "0" goto execute
 echo.
 echo ERROR: JAVA_HOME is not set and no 'java' command could be found in your PATH.
@@ -51,7 +54,7 @@ goto fail
 set JAVA_HOME=%JAVA_HOME:"=%
 set JAVA_EXE=%JAVA_HOME%/bin/java.exe
-if exist "%JAVA_EXE%" goto init
+if exist "%JAVA_EXE%" goto execute
 echo.
 echo ERROR: JAVA_HOME is set to an invalid directory: %JAVA_HOME%
@@ -61,28 +64,14 @@ echo location of your Java installation.
 goto fail
 :init
@rem Get command-line arguments, handling Windows variants
 if not "%OS%" == "Windows_NT" goto win9xME_args
 :win9xME_args
@rem Slurp the command line arguments.
 set CMD_LINE_ARGS=
 set _SKIP=2
 :win9xME_args_slurp
 if "x%~1" == "x" goto execute
 set CMD_LINE_ARGS=%*
 :execute
@rem Setup the command line
 set CLASSPATH=%APP_HOME%\gradle\wrapper\gradle-wrapper.jar
@rem Execute Gradle
-"%JAVA_EXE%" %DEFAULT_JVM_OPTS% %JAVA_OPTS% %GRADLE_OPTS% "-Dorg.gradle.appname=%APP_BASE_NAME%" -classpath "%CLASSPATH%" org.gradle.wrapper.GradleWrapperMain %CMD_LINE_ARGS%
+"%JAVA_EXE%" %DEFAULT_JVM_OPTS% %JAVA_OPTS% %GRADLE_OPTS% "-Dorg.gradle.appname=%APP_BASE_NAME%" -classpath "%CLASSPATH%" org.gradle.wrapper.GradleWrapperMain %*
 :end
@rem End local scope for the variables with windows NT shell
--- a/settings.gradle.kts
+++ b/settings.gradle.kts
@@ -1,8 +1,13 @@
 pluginManagement {
    repositories {
-        jcenter()
+        maven("https://files.minecraftforge.net/maven")
-        maven("https://maven.fabricmc.net/")
+        maven("https://repo.spongepowered.org/maven")
        gradlePluginPortal()
    }
    resolutionStrategy {
        eachPlugin {
            if (requested.id.let { it.namespace == "net.minecraftforge" && it.name == "gradle"} ) useModule("net.minecraftforge.gradle:ForgeGradle:${requested.version}")
            if (requested.id.let { it.namespace == "org.spongepowered" && it.name == "mixin"} ) useModule("org.spongepowered:mixingradle:${requested.version}")
        }
    }
 }
 rootProject.name = "betterfoliage"
--- a/src/main/java/mods/betterfoliage/MixinConnector.java
+++ b/src/main/java/mods/betterfoliage/MixinConnector.java
@@ -0,0 +1,18 @@
 package mods.betterfoliage;
 import org.spongepowered.asm.mixin.Mixins;
 import org.spongepowered.asm.mixin.connect.IMixinConnector;
 public class MixinConnector implements IMixinConnector {
    @Override
    public void connect() {
        Mixins.addConfiguration("betterfoliage.common.mixins.json");
        try {
            Class.forName("optifine.OptiFineTransformationService");
            Mixins.addConfiguration("betterfoliage.optifine.mixins.json");
        } catch (ClassNotFoundException e) {
            Mixins.addConfiguration("betterfoliage.vanilla.mixins.json");
        }
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinBlock.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinBlock.java
@@ -3,42 +3,31 @@ package mods.betterfoliage.mixin;
 import mods.betterfoliage.Hooks;
 import net.minecraft.block.Block;
 import net.minecraft.block.BlockState;
 import net.minecraft.util.Direction;
 import net.minecraft.util.math.BlockPos;
-import net.minecraft.util.math.Direction;
+import net.minecraft.util.math.shapes.VoxelShape;
-import net.minecraft.util.shape.VoxelShape;
+import net.minecraft.world.IBlockReader;
 import net.minecraft.world.BlockView;
 import net.minecraft.world.World;
 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.Redirect;
-import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
+import org.spongepowered.asm.mixin.injection.callback.CallbackInfoReturnable;
 import java.util.Random;
 /**
 * Mixin overriding the {@link VoxelShape} used for the neighbor block in {@link Block}.shouldSideBeRendered().
 *
 * This way log blocks can be made to not block rendering, without altering any {@link Block} or
 * {@link BlockState} properties with potential gameplay ramifications.
 */
@Mixin(Block.class)
 public class MixinBlock {
-    private static final String shouldSideBeRendered = "shouldDrawSide(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/BlockView;Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/util/math/Direction;)Z";
+    private static final String shouldSideBeRendered = "Lnet/minecraft/block/Block;shouldRenderFace(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/util/Direction;)Z";
-    private static final String getVoxelShape = "Lnet/minecraft/block/BlockState;getCullShape(Lnet/minecraft/world/BlockView;Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/util/math/Direction;)Lnet/minecraft/util/shape/VoxelShape;";
+    private static final String getVoxelShape = "Lnet/minecraft/block/BlockState;func_215702_a(Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/util/Direction;)Lnet/minecraft/util/math/shapes/VoxelShape;";
-    private static final String randomDisplayTick = "randomDisplayTick(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/World;Lnet/minecraft/util/math/BlockPos;Ljava/util/Random;)V";
+    private static final String getFaceOcclusionShape = "Lnet/minecraft/block/BlockState;getFaceOcclusionShape(Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/util/Direction;)Lnet/minecraft/util/math/shapes/VoxelShape;";
    private static final String isOpaqueCube = "Lnet/minecraft/block/Block;isOpaqueCube(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;)Z";
-    /**
+    @Redirect(method = shouldSideBeRendered, at = @At(value = "INVOKE", target = getFaceOcclusionShape, ordinal = 1))
-     * Override the {@link VoxelShape} used for the neighbor block in {@link Block}.shouldSideBeRendered().
+    private static VoxelShape getVoxelShapeOverride(BlockState state, IBlockReader reader, BlockPos pos, Direction dir) {
     *
     * This way log blocks can be made to not block rendering, without altering any {@link Block} or
     * {@link BlockState} properties with potential gameplay ramifications.
     */
    @Redirect(method = shouldSideBeRendered, at = @At(value = "INVOKE", target = getVoxelShape, ordinal = 1))
    private static VoxelShape getVoxelShapeOverride(BlockState state, BlockView reader, BlockPos pos, Direction dir) {
        return Hooks.getVoxelShapeOverride(state, reader, pos, dir);
    }
    /**
     * Inject a callback to call for every random display tick. Used for adding custom particle effects to blocks.
     */
    @Inject(method = randomDisplayTick, at = @At("HEAD"))
    void onRandomDisplayTick(BlockState state, World world, BlockPos pos, Random rnd, CallbackInfo ci) {
 //        Hooks.onRandomDisplayTick(state.getBlock(), state, world, pos, rnd);
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinBlockModelRenderer.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinBlockModelRenderer.java
@@ -0,0 +1,41 @@
 package mods.betterfoliage.mixin;
 import com.mojang.blaze3d.matrix.MatrixStack;
 import com.mojang.blaze3d.vertex.IVertexBuilder;
 import mods.betterfoliage.model.SpecialRenderModel;
 import mods.betterfoliage.render.pipeline.RenderCtxVanilla;
 import net.minecraft.block.BlockState;
 import net.minecraft.client.renderer.BlockModelRenderer;
 import net.minecraft.client.renderer.model.IBakedModel;
 import net.minecraft.util.math.BlockPos;
 import net.minecraft.world.IBlockDisplayReader;
 import net.minecraftforge.client.model.data.IModelData;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Redirect;
 import java.util.Random;
@Mixin(BlockModelRenderer.class)
 public class MixinBlockModelRenderer {
    private static final String renderModel = "Lnet/minecraft/client/renderer/BlockModelRenderer;renderModel(Lnet/minecraft/world/IBlockDisplayReader;Lnet/minecraft/client/renderer/model/IBakedModel;Lnet/minecraft/block/BlockState;Lnet/minecraft/util/math/BlockPos;Lcom/mojang/blaze3d/matrix/MatrixStack;Lcom/mojang/blaze3d/vertex/IVertexBuilder;ZLjava/util/Random;JILnet/minecraftforge/client/model/data/IModelData;)Z";
    private static final String renderModelFlat = "Lnet/minecraft/client/renderer/BlockModelRenderer;renderModelFlat(Lnet/minecraft/world/IBlockDisplayReader;Lnet/minecraft/client/renderer/model/IBakedModel;Lnet/minecraft/block/BlockState;Lnet/minecraft/util/math/BlockPos;Lcom/mojang/blaze3d/matrix/MatrixStack;Lcom/mojang/blaze3d/vertex/IVertexBuilder;ZLjava/util/Random;JILnet/minecraftforge/client/model/data/IModelData;)Z";
    private static final String renderModelSmooth = "Lnet/minecraft/client/renderer/BlockModelRenderer;renderModelSmooth(Lnet/minecraft/world/IBlockDisplayReader;Lnet/minecraft/client/renderer/model/IBakedModel;Lnet/minecraft/block/BlockState;Lnet/minecraft/util/math/BlockPos;Lcom/mojang/blaze3d/matrix/MatrixStack;Lcom/mojang/blaze3d/vertex/IVertexBuilder;ZLjava/util/Random;JILnet/minecraftforge/client/model/data/IModelData;)Z";
    @Redirect(method = renderModel, at = @At(value = "INVOKE", target = renderModelSmooth), remap = false)
    public boolean onRenderModelSmooth(BlockModelRenderer renderer, IBlockDisplayReader world, IBakedModel model, BlockState state, BlockPos pos, MatrixStack matrixStack, IVertexBuilder buffer, boolean checkSides, Random random, long rand, int combinedOverlay, IModelData modelData) {
        if (model instanceof SpecialRenderModel)
            return RenderCtxVanilla.render(renderer, world, (SpecialRenderModel) model, state, pos, matrixStack, buffer, checkSides, random, rand, combinedOverlay, modelData, true);
        else
            return renderer.renderModelSmooth(world, model, state, pos, matrixStack, buffer, checkSides, random, rand, combinedOverlay, modelData);
    }
    @Redirect(method = renderModel, at = @At(value = "INVOKE", target = renderModelFlat), remap = false)
    public boolean onRenderModelFlat(BlockModelRenderer renderer, IBlockDisplayReader world, IBakedModel model, BlockState state, BlockPos pos, MatrixStack matrixStack, IVertexBuilder buffer, boolean checkSides, Random random, long rand, int combinedOverlay, IModelData modelData) {
        if (model instanceof SpecialRenderModel)
            return RenderCtxVanilla.render(renderer, world, (SpecialRenderModel) model, state, pos, matrixStack, buffer, checkSides, random, rand, combinedOverlay, modelData, false);
        else
            return renderer.renderModelSmooth(world, model, state, pos, matrixStack, buffer, checkSides, random, rand, combinedOverlay, modelData);
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinBlockModels.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinBlockModels.java
@@ -1,17 +0,0 @@
 package mods.betterfoliage.mixin;
 import mods.betterfoliage.BlockModelsReloadCallback;
 import net.minecraft.client.render.block.BlockModels;
 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(BlockModels.class)
 public class MixinBlockModels {
    @Inject(method = "reload()V", at = @At("RETURN"))
    void onReload(CallbackInfo ci) {
        BlockModelsReloadCallback.EVENT.invoker().reloadBlockModels((BlockModels) (Object) this);
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinBlockState.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinBlockState.java
@@ -1,12 +1,15 @@
 package mods.betterfoliage.mixin;
 import mods.betterfoliage.Hooks;
 import net.minecraft.block.AbstractBlock;
 import net.minecraft.block.Block;
 import net.minecraft.block.BlockState;
 import net.minecraft.util.math.BlockPos;
-import net.minecraft.world.BlockView;
+import net.minecraft.world.IBlockReader;
 import org.spongepowered.asm.mixin.Debug;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Coerce;
 import org.spongepowered.asm.mixin.injection.Redirect;
 /**
@@ -14,14 +17,15 @@ import org.spongepowered.asm.mixin.injection.Redirect;
 *
 * Needed to avoid excessive darkening of Round Logs at the corners, now that they are not full blocks.
 */
-@Mixin(BlockState.class)
+@Mixin(AbstractBlock.AbstractBlockState.class)
-@SuppressWarnings({"UnnecessaryQualifiedMemberReference", "deprecation"})
+@SuppressWarnings({"deprecation"})
 public class MixinBlockState {
-    private static final String callFrom = "Lnet/minecraft/block/BlockState;getAmbientOcclusionLightLevel(Lnet/minecraft/world/BlockView;Lnet/minecraft/util/math/BlockPos;)F";
+    private static final String callFrom = "Lnet/minecraft/block/AbstractBlock$AbstractBlockState;getShadeBrightness(Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;)F";
-    private static final String callTo = "Lnet/minecraft/block/Block;getAmbientOcclusionLightLevel(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/BlockView;Lnet/minecraft/util/math/BlockPos;)F";
+    // why is the INVOKEVIRTUAL target class Block in the bytecode, not AbstractBlock?
    private static final String callTo = "Lnet/minecraft/block/Block;getShadeBrightness(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;)F";
    @Redirect(method = callFrom, at = @At(value = "INVOKE", target = callTo))
-    float getAmbientOcclusionValue(Block block, BlockState state, BlockView reader, BlockPos pos) {
+    float getAmbientOcclusionValue(Block block, BlockState state, IBlockReader reader, BlockPos pos) {
-        return Hooks.getAmbientOcclusionLightValueOverride(block.getAmbientOcclusionLightLevel(state, reader, pos), state);
+        return Hooks.getAmbientOcclusionLightValueOverride(block.getShadeBrightness(state, reader, pos), state);
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinClientChunkManager.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinClientChunkManager.java
@@ -1,23 +0,0 @@
 package mods.betterfoliage.mixin;
 import mods.betterfoliage.ClientChunkLoadCallback;
 import net.minecraft.client.world.ClientChunkManager;
 import net.minecraft.nbt.CompoundTag;
 import net.minecraft.util.PacketByteBuf;
 import net.minecraft.world.World;
 import net.minecraft.world.chunk.WorldChunk;
 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.CallbackInfoReturnable;
@Mixin(ClientChunkManager.class)
 public class MixinClientChunkManager {
    private static final String onLoadChunkFromPacket = "loadChunkFromPacket(Lnet/minecraft/world/World;IILnet/minecraft/util/PacketByteBuf;Lnet/minecraft/nbt/CompoundTag;IZ)Lnet/minecraft/world/chunk/WorldChunk;";
    @Inject(method = onLoadChunkFromPacket, at = @At(value = "RETURN", ordinal = 2))
    void onLoadChunkFromPacket(World world, int chunkX, int chunkZ, PacketByteBuf data, CompoundTag nbt, int updatedSectionsBits, boolean clearOld, CallbackInfoReturnable<WorldChunk> ci) {
        ClientChunkLoadCallback.EVENT.invoker().loadChunk(ci.getReturnValue());
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinClientChunkManagerChunkMap.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinClientChunkManagerChunkMap.java
@@ -1,19 +0,0 @@
 package mods.betterfoliage.mixin;
 import mods.betterfoliage.ClientChunkLoadCallback;
 import net.minecraft.world.chunk.WorldChunk;
 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.CallbackInfoReturnable;
@Mixin(targets = {"net.minecraft.client.world.ClientChunkManager$ClientChunkMap"})
 public class MixinClientChunkManagerChunkMap {
    private static final String onSetAndCompare = "method_20183(ILnet/minecraft/world/chunk/WorldChunk;Lnet/minecraft/world/chunk/WorldChunk;)Lnet/minecraft/world/chunk/WorldChunk;";
    @Inject(method = onSetAndCompare, at = @At("HEAD"))
    void onSetAndCompare(int i, WorldChunk oldChunk, WorldChunk newChunk, CallbackInfoReturnable<WorldChunk> ci) {
        ClientChunkLoadCallback.EVENT.invoker().unloadChunk(oldChunk);
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinClientWorld.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinClientWorld.java
@@ -1,18 +1,15 @@
 package mods.betterfoliage.mixin;
 import mods.betterfoliage.ClientWorldLoadCallback;
 import mods.betterfoliage.Hooks;
 import net.minecraft.block.BlockState;
-import net.minecraft.client.network.ClientPlayNetworkHandler;
+import net.minecraft.client.renderer.WorldRenderer;
 import net.minecraft.client.render.WorldRenderer;
 import net.minecraft.client.world.ClientWorld;
 import net.minecraft.util.math.BlockPos;
-import net.minecraft.util.profiler.Profiler;
+import net.minecraft.world.IBlockReader;
 import net.minecraft.world.dimension.DimensionType;
 import net.minecraft.world.level.LevelInfo;
 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.Redirect;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
 import java.util.Random;
@@ -20,31 +17,27 @@ import java.util.Random;
@Mixin(ClientWorld.class)
 public class MixinClientWorld {
-    private static final String ctor = "<init>(Lnet/minecraft/client/network/ClientPlayNetworkHandler;Lnet/minecraft/world/level/LevelInfo;Lnet/minecraft/world/dimension/DimensionType;ILnet/minecraft/util/profiler/Profiler;Lnet/minecraft/client/render/WorldRenderer;)V";
+    private static final String worldAnimateTick = "Lnet/minecraft/client/world/ClientWorld;doAnimateTick(IIIILjava/util/Random;ZLnet/minecraft/util/math/BlockPos$Mutable;)V";
-    private static final String scheduleBlockRender = "scheduleBlockRender(Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/block/BlockState;Lnet/minecraft/block/BlockState;)V";
+    private static final String blockAnimateTick = "Lnet/minecraft/block/Block;animateTick(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/World;Lnet/minecraft/util/math/BlockPos;Ljava/util/Random;)V";
-    private static final String rendererNotify = "Lnet/minecraft/client/render/WorldRenderer;method_21596(Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/block/BlockState;Lnet/minecraft/block/BlockState;)V";
+
-    private static final String worldDisplayTick = "randomBlockDisplayTick(IIIILjava/util/Random;ZLnet/minecraft/util/math/BlockPos$Mutable;)V";
+    private static final String worldNotify = "Lnet/minecraft/client/world/ClientWorld;sendBlockUpdated(Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/block/BlockState;Lnet/minecraft/block/BlockState;I)V";
-    private static final String blockDisplayTick = "Lnet/minecraft/block/Block;randomDisplayTick(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/World;Lnet/minecraft/util/math/BlockPos;Ljava/util/Random;)V";
+    private static final String rendererNotify = "Lnet/minecraft/client/renderer/WorldRenderer;blockChanged(Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/block/BlockState;Lnet/minecraft/block/BlockState;I)V";
    /**
     * Inject a callback to call for every random display tick. Used for adding custom particle effects to blocks.
     */
    @Inject(method = worldAnimateTick, at = @At(value = "INVOKE", target = blockAnimateTick))
    void onAnimateTick(int x, int y, int z, int range, Random random, boolean doBarrier, BlockPos.Mutable pos, CallbackInfo ci) {
        Hooks.onRandomDisplayTick((ClientWorld) (Object) this, pos, random);
    }
    /**
     * Inject callback to get notified of client-side blockstate changes.
     * Used to invalidate caches in the {@link mods.betterfoliage.chunk.ChunkOverlayManager}
     */
-    @Inject(method = scheduleBlockRender, at = @At(value = "HEAD"))
+    @Redirect(method = worldNotify, at = @At(value = "INVOKE", target = rendererNotify))
-    void onClientBlockChanged(BlockPos pos, BlockState oldState, BlockState newState, CallbackInfo ci) {
+    void onClientBlockChanged(WorldRenderer renderer, IBlockReader world, BlockPos pos, BlockState oldState, BlockState newState, int flags) {
-        Hooks.onClientBlockChanged((ClientWorld) (Object) this, pos, oldState, newState);
+        Hooks.onClientBlockChanged((ClientWorld) world, pos, oldState, newState, flags);
-    }
+        renderer.blockChanged(world, pos, oldState, newState, flags);
    @Inject(method = ctor, at = @At("RETURN"))
    void onClientWorldCreated(ClientPlayNetworkHandler netHandler, LevelInfo levelInfo, DimensionType dimensionType, int i, Profiler profiler, WorldRenderer worldRenderer, CallbackInfo ci) {
        ClientWorldLoadCallback.EVENT.invoker().loadWorld((ClientWorld) (Object) this);
    }
    /**
     * Inject a callback to call for every random display tick. Used for adding custom particle effects to blocks.
     */
    @Inject(method = worldDisplayTick, at = @At(value = "INVOKE", target = blockDisplayTick))
    void onRandomDisplayTick(int xCenter, int yCenter, int zCenter, int radius, Random random, boolean spawnBarrierParticles, BlockPos.Mutable mutable, CallbackInfo ci) {
        Hooks.onRandomDisplayTick((ClientWorld) (Object) this, mutable);
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinForgeBlockModelRenderer.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinForgeBlockModelRenderer.java
@@ -0,0 +1,44 @@
 package mods.betterfoliage.mixin;
 import com.mojang.blaze3d.matrix.MatrixStack;
 import mods.betterfoliage.model.SpecialRenderModel;
 import mods.betterfoliage.render.pipeline.RenderCtxForge;
 import net.minecraft.block.BlockState;
 import net.minecraft.client.renderer.model.IBakedModel;
 import net.minecraft.util.math.BlockPos;
 import net.minecraft.world.IBlockDisplayReader;
 import net.minecraftforge.client.model.data.IModelData;
 import net.minecraftforge.client.model.pipeline.ForgeBlockModelRenderer;
 import net.minecraftforge.client.model.pipeline.VertexLighterFlat;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Redirect;
 import java.util.Random;
@Mixin(ForgeBlockModelRenderer.class)
 public class MixinForgeBlockModelRenderer {
    private static final String renderModelFlat = "Lnet/minecraftforge/client/model/pipeline/ForgeBlockModelRenderer;renderModelFlat(Lnet/minecraft/world/IBlockDisplayReader;Lnet/minecraft/client/renderer/model/IBakedModel;Lnet/minecraft/block/BlockState;Lnet/minecraft/util/math/BlockPos;Lcom/mojang/blaze3d/matrix/MatrixStack;Lcom/mojang/blaze3d/vertex/IVertexBuilder;ZLjava/util/Random;JILnet/minecraftforge/client/model/data/IModelData;)Z";
    private static final String renderModelSmooth = "Lnet/minecraftforge/client/model/pipeline/ForgeBlockModelRenderer;renderModelSmooth(Lnet/minecraft/world/IBlockDisplayReader;Lnet/minecraft/client/renderer/model/IBakedModel;Lnet/minecraft/block/BlockState;Lnet/minecraft/util/math/BlockPos;Lcom/mojang/blaze3d/matrix/MatrixStack;Lcom/mojang/blaze3d/vertex/IVertexBuilder;ZLjava/util/Random;JILnet/minecraftforge/client/model/data/IModelData;)Z";
    private static final String render = "Lnet/minecraftforge/client/model/pipeline/ForgeBlockModelRenderer;render(Lnet/minecraftforge/client/model/pipeline/VertexLighterFlat;Lnet/minecraft/world/IBlockDisplayReader;Lnet/minecraft/client/renderer/model/IBakedModel;Lnet/minecraft/block/BlockState;Lnet/minecraft/util/math/BlockPos;Lcom/mojang/blaze3d/matrix/MatrixStack;ZLjava/util/Random;JLnet/minecraftforge/client/model/data/IModelData;)Z";
    @Redirect(method = {renderModelFlat, renderModelSmooth}, at = @At(value = "INVOKE", target = render), remap = false)
    public boolean render(
            VertexLighterFlat lighter,
            IBlockDisplayReader world,
            IBakedModel model,
            BlockState state,
            BlockPos pos,
            MatrixStack matrixStack,
            boolean checkSides,
            Random rand,
            long seed,
            IModelData modelData
    ) {
        if (model instanceof SpecialRenderModel)
            return RenderCtxForge.render(lighter, world, (SpecialRenderModel) model, state, pos, matrixStack, checkSides, rand, seed, modelData);
        else
            return ForgeBlockModelRenderer.render(lighter, world, model, state, pos, matrixStack, checkSides, rand, seed, modelData);
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinForgeCustomVertexLighting.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinForgeCustomVertexLighting.java
@@ -0,0 +1,65 @@
 package mods.betterfoliage.mixin;
 import mods.betterfoliage.render.lighting.ForgeVertexLighter;
 import mods.betterfoliage.render.lighting.ForgeVertexLighterAccess;
 import net.minecraftforge.client.model.pipeline.VertexLighterFlat;
 import org.jetbrains.annotations.NotNull;
 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.Redirect;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
@Mixin(VertexLighterFlat.class)
 abstract public class MixinForgeCustomVertexLighting implements ForgeVertexLighter, ForgeVertexLighterAccess {
    private static final String processQuad = "Lnet/minecraftforge/client/model/pipeline/VertexLighterFlat;processQuad()V";
    private static final String updateLightmap = "Lnet/minecraftforge/client/model/pipeline/VertexLighterFlat;updateLightmap([F[FFFF)V";
    private static final String updateColor = "Lnet/minecraftforge/client/model/pipeline/VertexLighterFlat;updateColor([F[FFFFFI)V";
    private static final String resetBlockInfo = "Lnet/minecraftforge/client/model/pipeline/VertexLighterFlat;resetBlockInfo()V";
    @NotNull
    public ForgeVertexLighter vertexLighter = this;
    @NotNull
    public ForgeVertexLighter getVertexLighter() {
        return vertexLighter;
    }
    public void setVertexLighter(@NotNull ForgeVertexLighter vertexLighter) {
        this.vertexLighter = vertexLighter;
    }
    @Shadow
    protected abstract void updateLightmap(float[] normal, float[] lightmap, float x, float y, float z);
    @Shadow
    protected abstract void updateColor(float[] normal, float[] color, float x, float y, float z, float tint, int multiplier);
    @Override
    public void updateVertexLightmap(@NotNull float[] normal, @NotNull float[] lightmap, float x, float y, float z) {
        updateLightmap(normal, lightmap, x, y, z);
    }
    @Override
    public void updateVertexColor(@NotNull float[] normal, @NotNull float[] color, float x, float y, float z, float tint, int multiplier) {
        updateColor(normal, color, x, y, z, tint, multiplier);
    }
    @Redirect(method = processQuad, at = @At(value = "INVOKE", target = updateColor), remap = false)
    void onUpdateColor(VertexLighterFlat self, float[] normal, float[] color, float x, float y, float z, float tint, int multiplier) {
        vertexLighter.updateVertexColor(normal, color, x, y, z, tint, multiplier);
    }
    @Redirect(method = processQuad, at = @At(value = "INVOKE", target = updateLightmap), remap = false)
    void onUpdateLightmap(VertexLighterFlat self, float[] normal, float[] lightmap, float x, float y, float z) {
        vertexLighter.updateVertexLightmap(normal, lightmap, x, y, z);
    }
    @Inject(method = resetBlockInfo, at = @At("RETURN"), remap = false)
    void onReset(CallbackInfo ci) {
        vertexLighter = this;
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinModelBakery.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinModelBakery.java
@@ -0,0 +1,43 @@
 package mods.betterfoliage.mixin;
 import mods.betterfoliage.BetterFoliageMod;
 import mods.betterfoliage.resource.discovery.BakeWrapperManager;
 import mods.betterfoliage.resource.discovery.ModelDefinitionsLoadedEvent;
 import net.minecraft.client.renderer.model.*;
 import net.minecraft.client.renderer.texture.TextureAtlasSprite;
 import net.minecraft.profiler.IProfiler;
 import net.minecraft.util.ResourceLocation;
 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.Redirect;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfo;
 import java.util.function.Function;
@Mixin(ModelBakery.class)
 abstract public class MixinModelBakery {
    private static final String processLoading = "Lnet/minecraft/client/renderer/model/ModelBakery;processLoading(Lnet/minecraft/profiler/IProfiler;I)V";
    private static final String stitch = "Lnet/minecraft/client/renderer/texture/AtlasTexture;stitch(Lnet/minecraft/resources/IResourceManager;Ljava/util/stream/Stream;Lnet/minecraft/profiler/IProfiler;I)Lnet/minecraft/client/renderer/texture/AtlasTexture$SheetData;";
    private static final String profilerSection = "Lnet/minecraft/profiler/IProfiler;popPush(Ljava/lang/String;)V";
    private static final String getBakedModel = "Lnet/minecraft/client/renderer/model/ModelBakery;getBakedModel(Lnet/minecraft/util/ResourceLocation;Lnet/minecraft/client/renderer/model/IModelTransform;Ljava/util/function/Function;)Lnet/minecraft/client/renderer/model/IBakedModel;";
    private static final String bakeModel = "Lnet/minecraft/client/renderer/model/IUnbakedModel;bake(Lnet/minecraft/client/renderer/model/ModelBakery;Ljava/util/function/Function;Lnet/minecraft/client/renderer/model/IModelTransform;Lnet/minecraft/util/ResourceLocation;)Lnet/minecraft/client/renderer/model/IBakedModel;";
    @Inject(method = processLoading, at = @At(value = "INVOKE", target = profilerSection, ordinal = 4))
    void onBeforeTextures(IProfiler profiler, int maxMipmapLevel, CallbackInfo ci) {
        profiler.popPush("betterfoliage");
        BetterFoliageMod.INSTANCE.getBus().post(new ModelDefinitionsLoadedEvent(ModelBakery.class.cast(this)));
    }
    @Redirect(method = getBakedModel, at = @At(value = "INVOKE", target = bakeModel))
    IBakedModel onBakeModel(
            IUnbakedModel unbaked,
            ModelBakery bakery,
            Function<RenderMaterial, TextureAtlasSprite> spriteGetter,
            IModelTransform transform,
            ResourceLocation locationIn
    ) {
        return BakeWrapperManager.INSTANCE.onBake(unbaked, bakery, spriteGetter, transform, locationIn);
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinModelLoader.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinModelLoader.java
@@ -1,28 +0,0 @@
 package mods.betterfoliage.mixin;
 import mods.betterfoliage.ModelLoadingCallback;
 import net.minecraft.client.render.model.ModelLoader;
 import net.minecraft.client.util.ModelIdentifier;
 import net.minecraft.resource.ResourceManager;
 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;
 import static net.minecraft.client.render.model.ModelLoader.MISSING;
@Mixin(ModelLoader.class)
 public class MixinModelLoader {
    @Shadow @Final private ResourceManager resourceManager;
    @Inject(at = @At("HEAD"), method = "addModel")
    private void addModelHook(ModelIdentifier id, CallbackInfo info) {
        // use the same trick fabric-api does to get around the no-mixins-in-constructors policy
        if (id == MISSING) {
            ModelLoadingCallback.EVENT.invoker().beginLoadModels((ModelLoader) (Object) this, resourceManager);
        }
    }
 }
--- a/src/main/java/mods/betterfoliage/mixin/MixinOptifineBlockUtils.java
+++ b/src/main/java/mods/betterfoliage/mixin/MixinOptifineBlockUtils.java
@@ -0,0 +1,38 @@
 package mods.betterfoliage.mixin;
 import mods.betterfoliage.Hooks;
 import net.minecraft.block.BlockState;
 import net.minecraft.util.Direction;
 import net.minecraft.util.math.BlockPos;
 import net.minecraft.util.math.shapes.VoxelShape;
 import net.minecraft.world.IBlockReader;
 import org.spongepowered.asm.mixin.Mixin;
 import org.spongepowered.asm.mixin.Pseudo;
 import org.spongepowered.asm.mixin.injection.At;
 import org.spongepowered.asm.mixin.injection.Coerce;
 import org.spongepowered.asm.mixin.injection.Inject;
 import org.spongepowered.asm.mixin.injection.Redirect;
 import org.spongepowered.asm.mixin.injection.callback.CallbackInfoReturnable;
@Pseudo
@Mixin(targets = "net.optifine.util.BlockUtils")
 public class MixinOptifineBlockUtils {
    private static final String shouldSideBeRendered = "shouldSideBeRendered(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/util/Direction;Lnet/optifine/render/RenderEnv;)Z";
    private static final String shouldSideBeRenderedCached = "shouldSideBeRenderedCached(Lnet/minecraft/block/BlockState;Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/util/Direction;Lnet/optifine/render/RenderEnv;Lnet/minecraft/block/BlockState;Lnet/minecraft/util/math/BlockPos;)Z";
    private static final String getFaceOcclusionShape = "Lnet/minecraft/block/BlockState;getFaceOcclusionShape(Lnet/minecraft/world/IBlockReader;Lnet/minecraft/util/math/BlockPos;Lnet/minecraft/util/Direction;)Lnet/minecraft/util/math/shapes/VoxelShape;";
    @SuppressWarnings("UnresolvedMixinReference")
    @Redirect(method = shouldSideBeRenderedCached, at = @At(value = "INVOKE", target = getFaceOcclusionShape, ordinal = 1))
    private static VoxelShape getVoxelShapeOverride(BlockState state, IBlockReader reader, BlockPos pos, Direction dir) {
        return Hooks.getVoxelShapeOverride(state, reader, pos, dir);
    }
    @SuppressWarnings("UnresolvedMixinReference")
    @Inject(method = shouldSideBeRendered, at = @At(value = "HEAD"), cancellable = true)
    private static void shouldForceSideRender(BlockState state, IBlockReader reader, BlockPos pos, Direction face, @Coerce Object renderEnv, CallbackInfoReturnable<Boolean> cir) {
        if (Hooks.shouldForceSideRenderOF(state, reader, pos, face)) {
            cir.setReturnValue(true);
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/BetterFoliage.kt
+++ b/src/main/kotlin/mods/betterfoliage/BetterFoliage.kt
@@ -1,88 +1,101 @@
 package mods.betterfoliage
 import me.zeroeightsix.fiber.JanksonSettings
 import mods.betterfoliage.chunk.ChunkOverlayManager
 import mods.betterfoliage.config.BlockConfig
-import mods.betterfoliage.config.MainConfig
+import mods.betterfoliage.integration.OptifineCustomColors
-import mods.betterfoliage.render.block.vanilla.*
+import mods.betterfoliage.integration.ShadersModIntegration
 import mods.betterfoliage.render.block.vanilla.RoundLogOverlayLayer
 import mods.betterfoliage.render.block.vanilla.StandardCactusDiscovery
 import mods.betterfoliage.render.block.vanilla.StandardCactusModel
 import mods.betterfoliage.render.block.vanilla.StandardDirtDiscovery
 import mods.betterfoliage.render.block.vanilla.StandardDirtModel
 import mods.betterfoliage.render.block.vanilla.StandardGrassDiscovery
 import mods.betterfoliage.render.block.vanilla.StandardGrassModel
 import mods.betterfoliage.render.block.vanilla.StandardLeafDiscovery
 import mods.betterfoliage.render.block.vanilla.StandardLeafModel
 import mods.betterfoliage.render.block.vanilla.StandardLilypadDiscovery
 import mods.betterfoliage.render.block.vanilla.StandardLilypadModel
 import mods.betterfoliage.render.block.vanilla.StandardRoundLogDiscovery
 import mods.betterfoliage.render.block.vanilla.StandardMyceliumDiscovery
 import mods.betterfoliage.render.block.vanilla.StandardMyceliumModel
 import mods.betterfoliage.render.block.vanilla.StandardNetherrackDiscovery
 import mods.betterfoliage.render.block.vanilla.StandardNetherrackModel
 import mods.betterfoliage.render.block.vanilla.StandardRoundLogModel
 import mods.betterfoliage.render.block.vanilla.StandardSandDiscovery
 import mods.betterfoliage.render.block.vanilla.StandardSandModel
 import mods.betterfoliage.render.lighting.AoSideHelper
 import mods.betterfoliage.render.particle.LeafWindTracker
 import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.BlockTypeCache
 import mods.betterfoliage.resource.discovery.ModelDefinitionsLoadedEvent
 import mods.betterfoliage.resource.generated.GeneratedTexturePack
 import mods.betterfoliage.render.particle.LeafParticleRegistry
 import mods.betterfoliage.render.particle.RisingSoulParticle
-import mods.betterfoliage.resource.discovery.BakedModelReplacer
+import mods.betterfoliage.util.resourceManager
-import mods.betterfoliage.resource.generated.GeneratedBlockTexturePack
+import net.minecraft.block.BlockState
-import net.fabricmc.api.ClientModInitializer
+import net.minecraft.client.Minecraft
-import net.fabricmc.fabric.api.resource.ResourceManagerHelper
+import net.minecraft.resources.IReloadableResourceManager
-import net.fabricmc.loader.api.FabricLoader
+import net.minecraftforge.eventbus.api.SubscribeEvent
 import net.minecraft.client.MinecraftClient
 import net.minecraft.resource.ResourceType
 import net.minecraft.util.Identifier
 import org.apache.logging.log4j.Level
 import org.apache.logging.log4j.LogManager
 import org.apache.logging.log4j.simple.SimpleLogger
 import org.apache.logging.log4j.util.PropertiesUtil
 import java.io.File
 import java.io.PrintStream
 import java.util.*
 /**
 * Object responsible for initializing (and holding a reference to) all the infrastructure of the mod
 * except for the call hooks.
 */
 object BetterFoliage {
    /** Resource pack holding generated assets */
    val generatedPack = GeneratedTexturePack("bf_gen", "Better Foliage generated assets")
-object BetterFoliage : ClientModInitializer {
+    /** List of recognized [BlockState]s */
-    const val MOD_ID = "betterfoliage"
+    var blockTypes = BlockTypeCache()
-    var logger = LogManager.getLogger()
+    fun init() {
-    var logDetail = SimpleLogger(
+        // discoverers
-        "BetterFoliage",
+        BetterFoliageMod.bus.register(BakeWrapperManager)
-        Level.DEBUG,
+        BetterFoliageMod.bus.register(LeafParticleRegistry)
-        false, false, true, false,
+        resourceManager.registerReloadListener(LeafParticleRegistry)
        "yyyy-MM-dd HH:mm:ss",
        null,
        PropertiesUtil(Properties()),
        PrintStream(File(FabricLoader.getInstance().gameDirectory, "logs/betterfoliage.log").apply {
            parentFile.mkdirs()
            if (!exists()) createNewFile()
        })
    )
    val configFile get() = File(FabricLoader.getInstance().configDirectory, "BetterFoliage.json")
    val config = MainConfig().apply {
        if (configFile.exists()) JanksonSettings().deserialize(fiberNode, configFile.inputStream())
        else JanksonSettings().serialize(fiberNode, configFile.outputStream(), false)
    }
    val blockConfig = BlockConfig()
    val generatedPack = GeneratedBlockTexturePack(Identifier(MOD_ID, "generated"), "betterfoliage-generated", "Better Foliage", "Generated leaf textures", logDetail)
    val modelReplacer = BakedModelReplacer()
    override fun onInitializeClient() {
        // Register generated resource pack
        ResourceManagerHelper.get(ResourceType.CLIENT_RESOURCES).registerReloadListener(generatedPack)
        MinecraftClient.getInstance().resourcePackContainerManager.addCreator(generatedPack.finder)
        // Add standard block support
        modelReplacer.discoverers.add(StandardLeafDiscovery)
        modelReplacer.discoverers.add(StandardGrassDiscovery)
        modelReplacer.discoverers.add(StandardLogDiscovery)
        modelReplacer.discoverers.add(StandardCactusDiscovery)
        modelReplacer.discoverers.add(LilyPadDiscovery)
        modelReplacer.discoverers.add(DirtDiscovery)
        modelReplacer.discoverers.add(SandDiscovery)
        modelReplacer.discoverers.add(MyceliumDiscovery)
        modelReplacer.discoverers.add(NetherrackDiscovery)
        // Init overlay layers
        ChunkOverlayManager.layers.add(RoundLogOverlayLayer)
-        // Init singletons
+        listOf(
-        LeafParticleRegistry
+            StandardLeafDiscovery,
-        NormalLeavesModel.Companion
+            StandardGrassDiscovery,
-        GrassBlockModel.Companion
+            StandardDirtDiscovery,
-        RoundLogModel.Companion
+            StandardMyceliumDiscovery,
-        CactusModel.Companion
+            StandardSandDiscovery,
-        LilypadModel.Companion
+            StandardLilypadDiscovery,
-        DirtModel.Companion
+            StandardCactusDiscovery,
-        SandModel.Companion
+            StandardNetherrackDiscovery,
-        MyceliumModel.Companion
+            StandardRoundLogDiscovery
-        NetherrackModel.Companion
+        ).forEach {
-        RisingSoulParticle.Companion
+            BakeWrapperManager.discoverers.add(it)
-    }
+        }
        // init singletons
        val singletons = listOf(
            AoSideHelper,
            BlockConfig,
            ChunkOverlayManager,
            LeafWindTracker
        )
        val modelSingletons = listOf(
            StandardLeafModel.Companion,
            StandardGrassModel.Companion,
            StandardDirtModel.Companion,
            StandardMyceliumModel.Companion,
            StandardSandModel.Companion,
            StandardLilypadModel.Companion,
            StandardCactusModel.Companion,
            StandardNetherrackModel.Companion,
            StandardRoundLogModel.Companion,
            RisingSoulParticle.Companion
        )
        // init mod integrations
        val integrations = listOf(
            ShadersModIntegration,
            OptifineCustomColors
        )
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/BetterFoliageMod.kt
+++ b/src/main/kotlin/mods/betterfoliage/BetterFoliageMod.kt
@@ -0,0 +1,40 @@
 package mods.betterfoliage
 import mods.betterfoliage.config.BlockConfig
 import mods.betterfoliage.config.Config
 import net.minecraft.client.Minecraft
 import net.minecraftforge.fml.ModLoadingContext
 import net.minecraftforge.fml.common.Mod
 import net.minecraftforge.fml.config.ModConfig
 import org.apache.logging.log4j.Level
 import org.apache.logging.log4j.LogManager
 import org.apache.logging.log4j.simple.SimpleLogger
 import org.apache.logging.log4j.util.PropertiesUtil
 import thedarkcolour.kotlinforforge.forge.MOD_BUS
 import java.io.File
 import java.io.PrintStream
 import java.util.Properties
@Mod(BetterFoliageMod.MOD_ID)
 object BetterFoliageMod {
    const val MOD_ID = "betterfoliage"
    val bus = MOD_BUS
    val detailLogStream = PrintStream(File("logs/betterfoliage.log").apply {
        parentFile.mkdirs()
        if (!exists()) createNewFile()
    })
    fun logger(obj: Any) = LogManager.getLogger(obj)
    fun detailLogger(obj: Any) = SimpleLogger(
        obj::class.java.simpleName, Level.DEBUG, false, true, true, false, "yyyy-MM-dd HH:mm:ss", null, PropertiesUtil(Properties()), detailLogStream
    )
    init {
        ModLoadingContext.get().registerConfig(ModConfig.Type.CLIENT, Config.build())
        Minecraft.getInstance().resourcePackRepository.addPackFinder(BetterFoliage.generatedPack.finder)
        bus.register(BlockConfig)
        BetterFoliage.init()
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/CommonRefs.kt
+++ b/src/main/kotlin/mods/betterfoliage/CommonRefs.kt
@@ -1,29 +1,90 @@
-package mods.betterfoliage
+package mods.octarinecore
 import mods.betterfoliage.util.ClassRef
 import mods.betterfoliage.util.ClassRef.Companion.float
 import mods.betterfoliage.util.ClassRef.Companion.void
 import mods.betterfoliage.util.FieldRef
 import mods.betterfoliage.util.MethodRef
 import net.minecraft.block.Block
 import net.minecraft.block.BlockState
 import net.minecraft.client.renderer.BlockModelRenderer
 import net.minecraft.client.renderer.BlockRendererDispatcher
 import net.minecraft.client.renderer.BufferBuilder
 import net.minecraft.client.renderer.chunk.ChunkRenderCache
 import net.minecraft.client.renderer.model.BakedQuad
 import net.minecraft.client.renderer.model.IUnbakedModel
 import net.minecraft.client.renderer.model.ModelBakery
 import net.minecraft.client.renderer.texture.TextureAtlasSprite
 import net.minecraft.util.ResourceLocation
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.IBlockDisplayReader
 import net.minecraft.world.IBlockReader
 import net.minecraftforge.client.model.pipeline.BlockInfo
 import net.minecraftforge.client.model.pipeline.VertexLighterFlat
 import java.util.Random
 // Java
 val String = ClassRef<String>("java.lang.String")
 val List = ClassRef<List<*>>("java.util.List")
 val Random = ClassRef<Random>("java.util.Random")
 fun <K, V> mapRef() = ClassRef<Map<K, V>>("java.util.Map")
 fun <K, V> mapRefMutable() = ClassRef<MutableMap<K, V>>("java.util.Map")
 // Minecraft
 val IBlockReader = ClassRef<IBlockReader>("net.minecraft.world.IBlockReader")
 val ILightReader = ClassRef<IBlockDisplayReader>("net.minecraft.world.IBlockDisplayReader")
 val BlockState = ClassRef<BlockState>("net.minecraft.block.BlockState")
 val BlockPos = ClassRef<BlockPos>("net.minecraft.util.math.BlockPos")
 val Block = ClassRef<Block>("net.minecraft.block.Block")
 val TextureAtlasSprite = ClassRef<TextureAtlasSprite>("net.minecraft.client.renderer.texture.TextureAtlasSprite")
 val BufferBuilder = ClassRef<BufferBuilder>("net.minecraft.client.renderer.BufferBuilder")
 val BufferBuilder_setSprite = MethodRef(BufferBuilder, "setSprite", void, TextureAtlasSprite)
 val BufferBuilder_sVertexBuilder = FieldRef(BufferBuilder, "sVertexBuilder", SVertexBuilder)
 val BlockRendererDispatcher = ClassRef<BlockRendererDispatcher>("net.minecraft.client.renderer.BlockRendererDispatcher")
 val ChunkRenderCache = ClassRef<ChunkRenderCache>("net.minecraft.client.renderer.chunk.ChunkRenderCache")
 val ResourceLocation = ClassRef<ResourceLocation>("net.minecraft.util.ResourceLocation")
 val BakedQuad = ClassRef<BakedQuad>("net.minecraft.client.renderer.model.BakedQuad")
 val BlockModelRenderer = ClassRef<BlockModelRenderer>("net.minecraft.client.renderer.BlockModelRenderer")
 val VertexLighterFlat = ClassRef<VertexLighterFlat>("net.minecraftforge.client.model.pipeline.VertexLighterFlat")
 val BlockInfo = ClassRef<BlockInfo>("net.minecraftforge.client.model.pipeline.BlockInfo")
 val VertexLighterFlat_blockInfo = FieldRef(VertexLighterFlat, "blockInfo", BlockInfo)
 val BlockInfo_shx = FieldRef(BlockInfo, "shx", float)
 val BlockInfo_shy = FieldRef(BlockInfo, "shy", float)
 val BlockInfo_shz = FieldRef(BlockInfo, "shz", float)
 object ModelBakery : ClassRef<ModelBakery>("net.minecraft.client.renderer.model.ModelBakery") {
    val unbakedModels = FieldRef(this, "unbakedModels", mapRefMutable<ResourceLocation, IUnbakedModel>())
    val topUnbakedModels = FieldRef(this, "topUnbakedModels", mapRefMutable<ResourceLocation, IUnbakedModel>())
 }
 // Optifine
-//val OptifineClassTransformer = ClassRefOld<Any>("optifine.OptiFineClassTransformer")
+val OptifineClassTransformer = ClassRef<Any>("optifine.OptiFineClassTransformer")
-//val BlockPosM = ClassRefOld<Any>("net.optifine.BlockPosM")
+val BlockPosM = ClassRef<Any>("net.optifine.BlockPosM")
-//object ChunkCacheOF : ClassRefOld<Any>("net.optifine.override.ChunkCacheOF") {
+object ChunkCacheOF : ClassRef<Any>("net.optifine.override.ChunkCacheOF") {
-//    val chunkCache = FieldRefOld(this, "chunkCache", ChunkRendererRegion)
+    val chunkCache = FieldRef(this, "chunkCache", ChunkRenderCache)
-//}
+}
-//object RenderEnv : ClassRefOld<Any>("net.optifine.render.RenderEnv") {
+object RenderEnv : ClassRef<Any>("net.optifine.render.RenderEnv") {
-//    val reset = MethodRefOld(this, "reset", void, BlockState, BlockPos)
+    val reset = MethodRef(this, "reset", void, BlockState, BlockPos)
-//}
+}
 // Optifine custom colors
-//val IColorizer = ClassRefOld<Any>("net.optifine.CustomColors\$IColorizer")
+val IColorizer = ClassRef<Any>("net.optifine.CustomColors\$IColorizer")
-//object CustomColors : ClassRefOld<Any>("net.optifine.CustomColors") {
+object CustomColors : ClassRef<Any>("net.optifine.CustomColors") {
-//    val getColorMultiplier = MethodRefOld(this, "getColorMultiplier", int, BakedQuad, BlockState, ExtendedBlockView, BlockPos, RenderEnv)
+    val getColorMultiplier = MethodRef(this, "getColorMultiplier", int, BakedQuad, BlockState, ILightReader, BlockPos, RenderEnv)
-//}
+}
 // Optifine shaders
-//object SVertexBuilder : ClassRefOld<Any>("net.optifine.shaders.SVertexBuilder") {
+object SVertexBuilder : ClassRef<Any>("net.optifine.shaders.SVertexBuilder") {
-//    val pushState = MethodRefOld(this, "pushEntity", void, BlockState, BlockPos, ExtendedBlockView, BufferBuilder)
+    val pushState = MethodRef(this, "pushEntity", void, long)
-//    val pushNum = MethodRefOld(this, "pushEntity", void, long)
+    val popState = MethodRef(this, "popEntity", void)
-//    val pop = MethodRefOld(this, "popEntity", void)
+}
-//}
+
 object BlockAliases : ClassRef<Any>("net.optifine.shaders.BlockAliases") {
    val getAliasBlockId = MethodRef(this, "getAliasBlockId", int, BlockState)
 }
--- a/src/main/kotlin/mods/betterfoliage/Events.kt
+++ b/src/main/kotlin/mods/betterfoliage/Events.kt
@@ -1,72 +1,8 @@
 package mods.betterfoliage
-import net.fabricmc.fabric.api.event.Event
+import net.minecraft.client.renderer.model.ModelBakery
-import net.fabricmc.fabric.api.event.EventFactory
+import net.minecraft.client.renderer.texture.AtlasTexture
-import net.minecraft.client.render.block.BlockModels
+import net.minecraft.resources.IResourceManager
-import net.minecraft.client.render.model.ModelLoader
+import net.minecraft.util.ResourceLocation
-import net.minecraft.client.world.ClientWorld
+import net.minecraftforge.eventbus.api.Event
 import net.minecraft.resource.ResourceManager
 import net.minecraft.world.chunk.WorldChunk
 interface ClientChunkLoadCallback {
    fun loadChunk(chunk: WorldChunk)
    fun unloadChunk(chunk: WorldChunk)
    companion object {
        @JvmField val EVENT: Event<ClientChunkLoadCallback> = EventFactory.createArrayBacked(ClientChunkLoadCallback::class.java) { listeners ->
            object : ClientChunkLoadCallback {
                override fun loadChunk(chunk: WorldChunk) { listeners.forEach { it.loadChunk(chunk) } }
                override fun unloadChunk(chunk: WorldChunk) { listeners.forEach { it.unloadChunk(chunk) } }
            }
        }
    }
 }
 interface ClientWorldLoadCallback {
    fun loadWorld(world: ClientWorld)
    companion object {
        @JvmField val EVENT : Event<ClientWorldLoadCallback> = EventFactory.createArrayBacked(ClientWorldLoadCallback::class.java) { listeners ->
            object : ClientWorldLoadCallback {
                override fun loadWorld(world: ClientWorld) { listeners.forEach { it.loadWorld(world) } }
            }
        }
    }
 }
 /**
 * Event fired after [BlockModels.reload] finishes.
 */
 interface BlockModelsReloadCallback {
    fun reloadBlockModels(blockModels: BlockModels)
    companion object {
        @JvmField val EVENT: Event<BlockModelsReloadCallback> = EventFactory.createArrayBacked(BlockModelsReloadCallback::class.java) { listeners ->
            object : BlockModelsReloadCallback {
                override fun reloadBlockModels(blockModels: BlockModels) {
                    listeners.forEach { it.reloadBlockModels(blockModels) }
                }
            }
        }
    }
 }
 /**
 * Event fired when the [ModelLoader] first starts loading models.
 *
 * This happens during the constructor, so BEWARE!
 * Try to avoid any interaction until the block texture atlas starts stitching.
 */
 interface ModelLoadingCallback {
    fun beginLoadModels(loader: ModelLoader, manager: ResourceManager)
    companion object {
        @JvmField val EVENT: Event<ModelLoadingCallback> = EventFactory.createArrayBacked(ModelLoadingCallback::class.java) { listeners ->
            object : ModelLoadingCallback {
                override fun beginLoadModels(loader: ModelLoader, manager: ResourceManager) {
                    listeners.forEach { it.beginLoadModels(loader, manager) }
                }
            }
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/Hooks.kt
+++ b/src/main/kotlin/mods/betterfoliage/Hooks.kt
@@ -2,66 +2,76 @@
 package mods.betterfoliage
 import mods.betterfoliage.chunk.ChunkOverlayManager
-import mods.betterfoliage.render.particle.FallingLeafParticle
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.render.particle.RisingSoulParticle
+import mods.betterfoliage.model.SpecialRenderModel
-import mods.betterfoliage.render.block.vanilla.LeafKey
+import mods.betterfoliage.model.WeightedModelWrapper
 import mods.betterfoliage.render.block.vanilla.RoundLogKey
-import mods.betterfoliage.util.offset
+import mods.betterfoliage.render.particle.FallingLeafParticle
-import mods.betterfoliage.util.plus
+import mods.betterfoliage.render.particle.LeafBlockModel
-import mods.betterfoliage.util.randomD
+import mods.betterfoliage.render.particle.RisingSoulParticle
-import net.minecraft.block.BlockRenderLayer
+import net.minecraft.block.Block
 import net.minecraft.block.BlockRenderLayer.CUTOUT
 import net.minecraft.block.BlockRenderLayer.CUTOUT_MIPPED
 import net.minecraft.block.BlockState
 import net.minecraft.block.Blocks
-import net.minecraft.client.MinecraftClient
+import net.minecraft.client.Minecraft
 import net.minecraft.client.world.ClientWorld
 import net.minecraft.util.Direction
 import net.minecraft.util.Direction.DOWN
 import net.minecraft.util.Direction.UP
 import net.minecraft.util.math.BlockPos
-import net.minecraft.util.math.Direction
+import net.minecraft.util.math.shapes.VoxelShape
-import net.minecraft.util.shape.VoxelShape
+import net.minecraft.util.math.shapes.VoxelShapes
-import net.minecraft.util.shape.VoxelShapes
+import net.minecraft.world.IBlockDisplayReader
-import net.minecraft.world.BlockView
+import net.minecraft.world.IBlockReader
 import net.minecraft.world.World
 import java.util.Random
 fun getAmbientOcclusionLightValueOverride(original: Float, state: BlockState): Float {
-    if (BetterFoliage.config.enabled &&
+    if (Config.enabled && Config.roundLogs.enabled && BetterFoliage.blockTypes.hasTyped<RoundLogKey>(state))
-        BetterFoliage.config.roundLogs.enabled &&
+        return Config.roundLogs.dimming.toFloat()
        BetterFoliage.modelReplacer.getTyped<RoundLogKey>(state) != null
    ) return BetterFoliage.config.roundLogs.dimming.toFloat()
    return original
 }
-fun getUseNeighborBrightnessOverride(original: Boolean, state: BlockState): Boolean {
+fun onClientBlockChanged(worldClient: ClientWorld, pos: BlockPos, oldState: BlockState, newState: BlockState, flags: Int) {
    return original || (BetterFoliage.config.enabled && BetterFoliage.config.roundLogs.enabled && BetterFoliage.blockConfig.logBlocks.matchesClass(state.block));
 }
 fun onClientBlockChanged(worldClient: ClientWorld, pos: BlockPos, oldState: BlockState, newState: BlockState) {
    ChunkOverlayManager.onBlockChange(worldClient, pos)
 }
-fun onRandomDisplayTick(world: ClientWorld, pos: BlockPos) {
+fun onRandomDisplayTick(world: ClientWorld, pos: BlockPos, random: Random) {
    val state = world.getBlockState(pos)
-
+    if (Config.enabled &&
-    if (BetterFoliage.config.enabled &&
+        Config.risingSoul.enabled &&
        BetterFoliage.config.risingSoul.enabled &&
        state.block == Blocks.SOUL_SAND &&
-        world.isAir(pos + Direction.UP.offset) &&
+        world.getBlockState(pos.relative(UP)).isAir &&
-        Math.random() < BetterFoliage.config.risingSoul.chance) {
+        Math.random() < Config.risingSoul.chance) {
            RisingSoulParticle(world, pos).addIfValid()
    }
-    if (BetterFoliage.config.enabled &&
+    if (Config.enabled &&
-        BetterFoliage.config.fallingLeaves.enabled &&
+        Config.fallingLeaves.enabled &&
-        world.isAir(pos + Direction.DOWN.offset) &&
+        random.nextDouble() < Config.fallingLeaves.chance &&
-        randomD() < BetterFoliage.config.fallingLeaves.chance) {
+        world.getBlockState(pos.relative(DOWN)).isAir
-            BetterFoliage.modelReplacer.getTyped<LeafKey>(state)?.let { key ->
+    ) {
-                FallingLeafParticle(world, pos, key).addIfValid()
+        (getActualRenderModel(world, pos, state, random) as? LeafBlockModel)?.let { leafModel ->
-            }
+            val blockColor = Minecraft.getInstance().blockColors.getColor(state, world, pos, 0)
            FallingLeafParticle(world, pos, leafModel.key, blockColor, random).addIfValid()
        }
    }
 }
-fun getVoxelShapeOverride(state: BlockState, reader: BlockView, pos: BlockPos, dir: Direction): VoxelShape {
+fun getVoxelShapeOverride(state: BlockState, reader: IBlockReader, pos: BlockPos, dir: Direction): VoxelShape {
-    if (BetterFoliage.modelReplacer[state] is RoundLogKey) {
+    if (Config.enabled && Config.roundLogs.enabled && BetterFoliage.blockTypes.hasTyped<RoundLogKey>(state))
        return VoxelShapes.empty()
-    }
+    return state.getFaceOcclusionShape(reader, pos, dir)
-    return state.getCullShape(reader, pos, dir)
+}
 fun shouldForceSideRenderOF(state: BlockState, world: IBlockReader, pos: BlockPos, face: Direction) =
    world.getBlockState(pos.relative(face)).let { neighbor -> BetterFoliage.blockTypes.hasTyped<RoundLogKey>(neighbor) }
 fun getActualRenderModel(world: IBlockDisplayReader, pos: BlockPos, state: BlockState, random: Random): SpecialRenderModel? {
    val model = Minecraft.getInstance().blockRenderer.blockModelShaper.getBlockModel(state) as? SpecialRenderModel
        ?: return null
    if (model is WeightedModelWrapper) {
        random.setSeed(state.getSeed(pos))
        return model.getModel(random).model
    }
    return model
 }
--- a/src/main/kotlin/mods/betterfoliage/chunk/BlockContext.kt
+++ b/src/main/kotlin/mods/betterfoliage/chunk/BlockContext.kt
@@ -1,55 +1,60 @@
 package mods.betterfoliage.chunk
 import mods.betterfoliage.util.Int3
 import mods.betterfoliage.util.allDirections
 import mods.betterfoliage.util.offset
 import mods.betterfoliage.util.plus
 import mods.betterfoliage.util.semiRandom
 import net.minecraft.block.Block
 import net.minecraft.block.BlockState
-import net.minecraft.client.MinecraftClient
+import net.minecraft.client.renderer.chunk.ChunkRenderCache
 import net.minecraft.util.Direction
 import net.minecraft.util.math.BlockPos
-import net.minecraft.util.math.Direction
+import net.minecraft.world.IBlockDisplayReader
-import net.minecraft.world.ExtendedBlockView
+import net.minecraft.world.IWorldReader
 import net.minecraft.world.biome.Biome
 import net.minecraft.world.level.ColorResolver
 /**
 * Represents the block being rendered. Has properties and methods to query the neighborhood of the block in
 * block-relative coordinates.
 */
 interface BlockCtx {
-    val world: ExtendedBlockView
+    val world: IBlockDisplayReader
    val pos: BlockPos
    fun offset(dir: Direction) = offset(dir.offset)
    fun offset(offset: Int3): BlockCtx
    val state: BlockState get() = world.getBlockState(pos)
    fun state(dir: Direction) = world.getBlockState(pos + dir.offset)
    fun state(offset: Int3) = world.getBlockState(pos + offset)
    fun state(dir: Direction) = state(dir.offset)
-    val biome: Biome get() = world.getBiome(pos)
+    fun isAir(offset: Int3) = (pos + offset).let { world.getBlockState(it).isAir(world, it) }
    fun isAir(dir: Direction) = isAir(dir.offset)
-    val isNormalCube: Boolean get() = state.isSimpleFullBlock(world, pos)
+    val biome: Biome? get() =
        (world as? IWorldReader)?.getBiome(pos) ?:
        (world as? ChunkRenderCache)?.level?.getBiome(pos)
-    fun shouldSideBeRendered(side: Direction) = Block.shouldDrawSide(state, world, pos, side)
+    val isFullBlock: Boolean get() = state.isCollisionShapeFullBlock(world, pos)
-    fun isNeighborSolid(dir: Direction) = offset(dir).let { it.state.isSideSolidFullSquare(it.world, it.pos, dir.opposite) }
+    fun isNeighborSturdy(dir: Direction) = offset(dir).let { it.state.isFaceSturdy(it.world, it.pos, dir.opposite) }
-    fun model(dir: Direction) = state(dir).let { MinecraftClient.getInstance().blockRenderManager.getModel(it)!! }
+    fun shouldSideBeRendered(side: Direction) = Block.shouldRenderFace(state, world, pos, side)
-    fun model(offset: Int3) = state(offset).let { MinecraftClient.getInstance().blockRenderManager.getModel(it)!! }
+
    /** Get a semi-random value based on the block coordinate and the given seed. */
    fun semiRandom(seed: Int) = pos.semiRandom(seed)
    /** Get an array of semi-random values based on the block coordinate. */
    fun semiRandomArray(num: Int): Array<Int> = Array(num) { semiRandom(it) }
    fun color(resolver: ColorResolver) = world.getBlockTint(pos, resolver)
 }
-open class BasicBlockCtx(
+class BasicBlockCtx(
-    override val world: ExtendedBlockView,
+    override val world: IBlockDisplayReader,
    override val pos: BlockPos
 ) : BlockCtx {
-    override val state = world.getBlockState(pos)
+    override val state: BlockState = world.getBlockState(pos)
    override fun offset(offset: Int3) = BasicBlockCtx(world, pos + offset)
    fun cache() = CachedBlockCtx(world, pos)
 }
 open class CachedBlockCtx(world: ExtendedBlockView, pos: BlockPos) : BasicBlockCtx(world, pos) {
    var neighbors = Array<BlockState>(6) { world.getBlockState(pos + allDirections[it].offset) }
    override var biome: Biome = world.getBiome(pos)
    override fun state(dir: Direction) = neighbors[dir.ordinal]
 }
--- a/src/main/kotlin/mods/betterfoliage/chunk/OffsetBlockView.kt
+++ b/src/main/kotlin/mods/betterfoliage/chunk/OffsetBlockView.kt
@@ -1,50 +0,0 @@
 package mods.betterfoliage.chunk
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.BlockView
 import net.minecraft.world.ExtendedBlockView
 import net.minecraft.world.LightType
 /**
 * Delegating [IBlockAccess] that fakes a _modified_ location to return values from a _target_ location.
 * All other locations are handled normally.
 *
 * @param[original] the [IBlockAccess] that is delegated to
 */
@Suppress("NOTHING_TO_INLINE", "NULLABILITY_MISMATCH_BASED_ON_JAVA_ANNOTATIONS", "HasPlatformType")
 open class OffsetBlockView(open val original: BlockView, val modded: BlockPos, val target: BlockPos) : BlockView {
    inline fun actualPos(pos: BlockPos) = if (pos != null && pos.x == modded.x && pos.y == modded.y && pos.z == modded.z) target else pos
    override fun getBlockState(pos: BlockPos) = original.getBlockState(actualPos(pos))
    override fun getBlockEntity(pos: BlockPos) = original.getBlockEntity(actualPos(pos))
    override fun getFluidState(pos: BlockPos) = original.getFluidState(actualPos(pos))
 }
@Suppress("NOTHING_TO_INLINE", "NULLABILITY_MISMATCH_BASED_ON_JAVA_ANNOTATIONS", "HasPlatformType")
 class OffsetExtBlockView(val original: ExtendedBlockView, val modded: BlockPos, val target: BlockPos) : ExtendedBlockView by original {
    inline fun actualPos(pos: BlockPos) = if (pos != null && pos.x == modded.x && pos.y == modded.y && pos.z == modded.z) target else pos
    override fun getBlockState(pos: BlockPos) = original.getBlockState(actualPos(pos))
    override fun getBlockEntity(pos: BlockPos) = original.getBlockEntity(actualPos(pos))
    override fun getFluidState(pos: BlockPos) = original.getFluidState(actualPos(pos))
    override fun getLightLevel(type: LightType, pos: BlockPos) = original.getLightLevel(type, actualPos(pos))
    override fun getLightmapIndex(pos: BlockPos, light: Int) = original.getLightmapIndex(actualPos(pos), light)
    override fun getBiome(pos: BlockPos) = original.getBiome(actualPos(pos))
 }
 /**
 * Temporarily replaces the [IBlockReader] used by this [BlockContext] and the corresponding [ExtendedRenderBlocks]
 * to use an [OffsetEnvBlockReader] while executing this lambda.
 *
 * @param[modded] the _modified_ location
 * @param[target] the _target_ location
 * @param[func] the lambda to execute
 */
 //inline fun <reified T> BlockContext.withOffset(modded: Int3, target: Int3, func: () -> T): T {
 //    val original = reader!!
 //    reader = OffsetEnvBlockReader(original, pos + modded, pos + target)
 //    val result = func()
 //    reader = original
 //    return result
 //}
--- a/src/main/kotlin/mods/betterfoliage/chunk/Overlay.kt
+++ b/src/main/kotlin/mods/betterfoliage/chunk/Overlay.kt
@@ -1,35 +1,26 @@
 package mods.betterfoliage.chunk
 import mods.betterfoliage.*
 import mods.betterfoliage.util.YarnHelper
 import mods.betterfoliage.util.get
-import net.minecraft.client.render.chunk.ChunkRendererRegion
+import mods.betterfoliage.util.isInstance
 import mods.octarinecore.ChunkCacheOF
 import net.minecraft.client.renderer.chunk.ChunkRenderCache
 import net.minecraft.client.world.ClientWorld
 import net.minecraft.util.math.BlockPos
 import net.minecraft.util.math.ChunkPos
-import net.minecraft.world.ExtendedBlockView
+import net.minecraft.world.DimensionType
-import net.minecraft.world.ViewableWorld
+import net.minecraft.world.IBlockDisplayReader
-import net.minecraft.world.World
+import net.minecraft.world.IWorldReader
-import net.minecraft.world.chunk.WorldChunk
+import net.minecraftforge.common.MinecraftForge
-import net.minecraft.world.dimension.DimensionType
+import net.minecraftforge.event.world.ChunkEvent
 import net.minecraftforge.event.world.WorldEvent
 import net.minecraftforge.eventbus.api.SubscribeEvent
 import java.util.*
 import kotlin.collections.List
 import kotlin.collections.MutableMap
 import kotlin.collections.associateWith
 import kotlin.collections.forEach
 import kotlin.collections.mutableListOf
 import kotlin.collections.mutableMapOf
 import kotlin.collections.set
-// net.minecraft.world.chunk.WorldChunk.world
+val IBlockDisplayReader.dimType: DimensionType get() = when {
-val WorldChunk_world = YarnHelper.requiredField<World>("net.minecraft.class_2818", "field_12858", "Lnet/minecraft/class_1937;")
+    this is IWorldReader -> dimensionType()
-// net.minecraft.client.render.chunk.ChunkRendererRegion.world
+    this is ChunkRenderCache -> level.dimensionType()
-val ChunkRendererRegion_world = YarnHelper.requiredField<World>("net.minecraft.class_853", "field_4490", "Lnet/minecraft/class_1937;")
+    this.isInstance(ChunkCacheOF) -> this[ChunkCacheOF.chunkCache].level.dimensionType()
 val ExtendedBlockView.dimType: DimensionType get() = when {
    this is ViewableWorld -> dimension.type
    this is ChunkRendererRegion -> this[ChunkRendererRegion_world]!!.dimension.type
 //    this.isInstance(ChunkCacheOF) -> this[ChunkCacheOF.chunkCache]!!.dimType
    else -> throw IllegalArgumentException("DimensionType of world with class ${this::class.qualifiedName} cannot be determined!")
 }
@@ -38,17 +29,18 @@ val ExtendedBlockView.dimType: DimensionType get() = when {
 */
 interface ChunkOverlayLayer<T> {
    fun calculate(ctx: BlockCtx): T
-    fun onBlockUpdate(world: ExtendedBlockView, pos: BlockPos)
+    fun onBlockUpdate(world: IBlockDisplayReader, pos: BlockPos)
 }
 /**
 * Query, lazy calculation and lifecycle management of multiple layers of chunk overlay data.
 */
-object ChunkOverlayManager : ClientChunkLoadCallback, ClientWorldLoadCallback {
+object ChunkOverlayManager {
    var tempCounter = 0
    init {
-        ClientWorldLoadCallback.EVENT.register(this)
+        MinecraftForge.EVENT_BUS.register(this)
        ClientChunkLoadCallback.EVENT.register(this)
    }
    val chunkData = IdentityHashMap<DimensionType, MutableMap<ChunkPos, ChunkOverlayData>>()
@@ -87,25 +79,27 @@ object ChunkOverlayManager : ClientChunkLoadCallback, ClientWorldLoadCallback {
        }
    }
-    override fun loadChunk(chunk: WorldChunk) {
+    @SubscribeEvent
-        chunk[WorldChunk_world]!!.dimType.let { dim ->
+    fun handleLoadWorld(event: WorldEvent.Load) = (event.world as? ClientWorld)?.let { world ->
-            val data = chunkData[dim] ?: mutableMapOf<ChunkPos, ChunkOverlayData>().apply { chunkData[dim] = this }
+        chunkData[world.dimType] = mutableMapOf()
-            data.let { chunks ->
+    }
-                // check for existence first because Optifine fires a TON of these
+
-                if (chunk.pos !in chunks.keys) chunks[chunk.pos] = ChunkOverlayData(layers)
+    @SubscribeEvent
-            }
+    fun handleUnloadWorld(event: WorldEvent.Unload) = (event.world as? ClientWorld)?.let { world ->
        chunkData.remove(world.dimType)
    }
    @SubscribeEvent
    fun handleLoadChunk(event: ChunkEvent.Load) = (event.world as? ClientWorld)?.let { world ->
        chunkData[world.dimType]?.let { chunks ->
            // check for existence first because Optifine fires a TON of these
            if (event.chunk.pos !in chunks.keys) chunks[event.chunk.pos] = ChunkOverlayData(layers)
        }
    }
-    override fun unloadChunk(chunk: WorldChunk) {
+    @SubscribeEvent
-        chunk[WorldChunk_world]!!.dimType.let { dim ->
+    fun handleUnloadChunk(event: ChunkEvent.Unload) = (event.world as? ClientWorld)?.let { world ->
-            chunkData[dim]?.remove(chunk.pos)
+        chunkData[world.dimType]?.remove(event.chunk.pos)
        }
    }
    override fun loadWorld(world: ClientWorld) {
        val dim = world.dimType
 //        chunkData.keys.forEach { if (it == dim) chunkData[dim] = mutableMapOf() else chunkData.remove(dim)}
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/config/BlockConfig.kt
+++ b/src/main/kotlin/mods/betterfoliage/config/BlockConfig.kt
@@ -1,36 +0,0 @@
 package mods.betterfoliage.config
 import mods.betterfoliage.BetterFoliage
 import mods.betterfoliage.util.Invalidator
 import mods.betterfoliage.resource.discovery.ConfigurableBlockMatcher
 import mods.betterfoliage.resource.discovery.ModelTextureListConfiguration
 import net.minecraft.resource.ResourceManager
 import net.minecraft.util.Identifier
 class BlockConfig  {
    private val list = mutableListOf<Any>()
    val leafBlocks = blocks("leaves_blocks_default.cfg")
    val leafModels = models("leaves_models_default.cfg")
    val grassBlocks = blocks("grass_blocks_default.cfg")
    val grassModels = models("grass_models_default.cfg")
    val mycelium = blocks("mycelium_blocks_default.cfg")
    //    val dirt = blocks("dirt_default.cfg")
    val crops = blocks("crop_default.cfg")
    val logBlocks = blocks("log_blocks_default.cfg")
    val logModels = models("log_models_default.cfg")
    val sand = blocks("sand_default.cfg")
    val lilypad = blocks("lilypad_default.cfg")
    val cactus = blocks("cactus_default.cfg")
    val netherrack = blocks("netherrack_blocks_default.cfg")
    private fun blocks(cfgName: String) = ConfigurableBlockMatcher(BetterFoliage.logDetail, Identifier(BetterFoliage.MOD_ID, cfgName)).apply { list.add(this) }
    private fun models(cfgName: String) = ModelTextureListConfiguration(BetterFoliage.logDetail, Identifier(BetterFoliage.MOD_ID, cfgName)).apply { list.add(this) }
    fun reloadConfig(manager: ResourceManager) {
        list.forEach { when(it) {
            is ConfigurableBlockMatcher -> it.readDefaults(manager)
            is ModelTextureListConfiguration -> it.readDefaults(manager)
        } }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/config/Config.kt
+++ b/src/main/kotlin/mods/betterfoliage/config/Config.kt
@@ -0,0 +1,180 @@
 package mods.betterfoliage.config
 import mods.betterfoliage.BetterFoliageMod
 import mods.betterfoliage.resource.discovery.ConfigurableBlockMatcher
 import mods.betterfoliage.resource.discovery.ModelTextureListConfiguration
 import net.minecraft.util.ResourceLocation
 import net.minecraftforge.eventbus.api.SubscribeEvent
 import net.minecraftforge.fml.config.ModConfig
 import java.util.Random
 private fun featureEnable() = boolean(true).lang("enabled")
 abstract class PopulationConfigCategory() : ConfigCategory() {
    abstract val enabled: Boolean
    abstract val population: Int
    fun enabled(random: Random) = random.nextInt(64) < population && enabled
 }
 // Config singleton
 object Config : DelegatingConfig(BetterFoliageMod.MOD_ID, BetterFoliageMod.MOD_ID) {
    val enabled by boolean(true)
    val nVidia by boolean(false)
    object leaves : ConfigCategory() {
        val enabled by featureEnable()
        val snowEnabled by boolean(true)
        val hOffset by double(max=0.4, default=0.2).lang("hOffset")
        val vOffset by double(max=0.4, default=0.1).lang("vOffset")
        val size by double(min=0.75, max=2.5, default=1.4).lang("size")
        val dense by boolean(false)
        val hideInternal by boolean(true)
        val saturationThreshold by double(default=0.1)
    }
    object shortGrass : PopulationConfigCategory(){
        override val enabled by featureEnable()
        val myceliumEnabled by boolean(true)
        val snowEnabled by boolean(true)
        val hOffset by double(max=0.4, default=0.2).lang("hOffset")
        val heightMin by double(min=0.1, max=2.5, default=0.6).lang("heightMin")
        val heightMax by double(min=0.1, max=2.5, default=0.8).lang("heightMax")
        val size by double(min=0.5, max=1.5, default=1.0).lang("size")
        override val population by int(max=64, default=64).lang("population")
        val useGenerated by boolean(false)
        val shaderWind by boolean(true).lang("shaderWind")
        val saturationThreshold by double(default=0.1)
    }
    object connectedGrass : ConfigCategory(){
        val enabled by featureEnable()
        val snowEnabled by boolean(false)
    }
    object roundLogs : ConfigCategory(){
        val enabled by featureEnable()
        val plantsOnly by boolean(true)
        val radiusSmall by double(max=0.5, default=0.25)
        val radiusLarge by double(max=0.5, default=0.44)
        val dimming by double(default = 0.7)
        val connectSolids by boolean(false)
        val lenientConnect by boolean(true)
        val connectPerpendicular by boolean(true)
        val connectGrass by boolean(true)
        val defaultY by boolean(false)
        val zProtection by double(min = 0.9, default = 0.99)
    }
    object cactus : ConfigCategory(){
        val enabled by featureEnable()
        val size by double(min=1.0, max=2.0, default=1.3).lang("size")
        val sizeVariation by double(max=0.5, default=0.1)
        val hOffset by double(max=0.5, default=0.1).lang("hOffset")
    }
    object lilypad : PopulationConfigCategory(){
        override val enabled by featureEnable()
        val hOffset by double(max=0.25, default=0.1).lang("hOffset")
        override val population by int(max=64, default=16, min=0)
        val shaderWind by boolean(true).lang("shaderWind")
    }
    object reed : PopulationConfigCategory(){
        override val enabled by featureEnable()
        val hOffset by double(max=0.4, default=0.2).lang("hOffset")
        val heightMin by double(min=1.5, max=3.5, default=1.7).lang("heightMin")
        val heightMax by double(min=1.5, max=3.5, default=2.2).lang("heightMax")
        override val population by int(max=64, default=32).lang("population")
        val minBiomeTemp by double(default=0.4)
        val minBiomeRainfall by double(default=0.4)
 //        val biomes by biomeList { it.filterTemp(0.4f, null) && it.filterRain(0.4f, null) }
        val shaderWind by boolean(true).lang("shaderWind")
    }
    object algae : PopulationConfigCategory(){
        override val enabled by featureEnable()
        val hOffset by double(max=0.25, default=0.1).lang("hOffset")
        val size by double(min=0.5, max=1.5, default=1.0).lang("size")
        val heightMin by double(min=0.1, max=1.5, default=0.5).lang("heightMin")
        val heightMax by double(min=0.1, max=1.5, default=1.0).lang("heightMax")
        override val population by int(max=64, default=48).lang("population")
 //        val biomes by biomeList { it.filterClass("river", "ocean") }
        val shaderWind by boolean(true).lang("shaderWind")
    }
    object coral : PopulationConfigCategory(){
        override val enabled by featureEnable()
        val shallowWater by boolean(false)
        val hOffset by double(max=0.4, default=0.2).lang("hOffset")
        val vOffset by double(max=0.4, default=0.1).lang("vOffset")
        val size by double(min=0.5, max=1.5, default=0.7).lang("size")
        val crustSize by double(min=0.5, max=1.5, default=1.4)
        val chance by int(max=64, default=32)
        override val population by int(max=64, default=48).lang("population")
 //        val biomes by biomeList { it.filterClass("river", "ocean", "beach") }
    }
    object netherrack : ConfigCategory(){
        val enabled by featureEnable()
        val hOffset by double(max=0.4, default=0.2).lang("hOffset")
        val heightMin by double(min=0.1, max=1.5, default=0.2).lang("heightMin")
        val heightMax by double(min=0.1, max=1.5, default=0.5).lang("heightMax")
        val size by double(min=0.5, max=1.5, default=1.0).lang("size")
    }
    object fallingLeaves : ConfigCategory(){
        val enabled by featureEnable()
        val speed by double(min=0.01, max=0.15, default=0.05)
        val windStrength by double(min=0.1, max=2.0, default=0.5)
        val stormStrength by double(min=0.1, max=2.0, default=0.8)
        val size by double(min=0.25, max=1.5, default=0.75).lang("size")
        val chance by double(min=0.001, max=1.0, default=0.02)
        val perturb by double(min=0.01, max=1.0, default=0.25)
        val lifetime by double(min=1.0, max=15.0, default=5.0)
        val opacityHack by boolean(true)
    }
    object risingSoul : ConfigCategory(){
        val enabled by featureEnable()
        val chance by double(min=0.001, max=1.0, default=0.02)
        val perturb by double(min=0.01, max=0.25, default=0.05)
        val headSize by double(min=0.25, max=1.5, default=1.0)
        val trailSize by double(min=0.25, max=1.5, default=0.75)
        val opacity by double(min=0.05, max=1.0, default=0.5)
        val sizeDecay by double(min=0.5, max=1.0, default=0.97)
        val opacityDecay by double(min=0.5, max=1.0, default=0.97)
        val lifetime by double(min=1.0, max=15.0, default=4.0)
        val trailLength by int(min=2, max=128, default=48)
        val trailDensity by int(min=1, max=16, default=3)
    }
 }
 object BlockConfig {
    private val list = mutableListOf<Any>()
    val leafBlocks = blocks("leaves_blocks_default.cfg")
    val leafModels = models("leaves_models_default.cfg")
    val grassBlocks = blocks("grass_blocks_default.cfg")
    val grassModels = models("grass_models_default.cfg")
    val mycelium = blocks("mycelium_blocks_default.cfg")
 //    val dirt = blocks("dirt_default.cfg")
    val crops = blocks("crop_default.cfg")
    val logBlocks = blocks("log_blocks_default.cfg")
    val logModels = models("log_models_default.cfg")
    val lilypad = blocks("lilypad_default.cfg")
    init { BetterFoliageMod.bus.register(this) }
    private fun blocks(cfgName: String) = ConfigurableBlockMatcher(ResourceLocation(BetterFoliageMod.MOD_ID, cfgName)).apply { list.add(this) }
    private fun models(cfgName: String) = ModelTextureListConfiguration(ResourceLocation(BetterFoliageMod.MOD_ID, cfgName)).apply { list.add(this) }
    @SubscribeEvent
    fun onConfig(event: ModConfig.ModConfigEvent) {
        list.forEach { when(it) {
            is ConfigurableBlockMatcher -> it.readDefaults()
            is ModelTextureListConfiguration -> it.readDefaults()
        } }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/config/Delegate.kt
+++ b/src/main/kotlin/mods/betterfoliage/config/Delegate.kt
@@ -1,137 +0,0 @@
 package mods.betterfoliage.config
 import me.shedaniel.clothconfig2.api.AbstractConfigListEntry
 import me.shedaniel.clothconfig2.api.ConfigEntryBuilder
 import me.shedaniel.clothconfig2.gui.entries.SubCategoryListEntry
 import me.zeroeightsix.fiber.builder.ConfigValueBuilder
 import me.zeroeightsix.fiber.tree.ConfigLeaf
 import me.zeroeightsix.fiber.tree.ConfigNode
 import me.zeroeightsix.fiber.tree.ConfigValue
 import net.minecraft.client.resource.language.I18n
 import java.util.*
 import kotlin.properties.ReadOnlyProperty
 import kotlin.reflect.KProperty
 const val MAX_LINE_LEN = 30
 sealed class DelegatingConfigNode<N: ConfigLeaf>(val fiberNode: N) {
    abstract fun createClothNode(names: List<String>): AbstractConfigListEntry<*>
 }
 abstract class DelegatingConfigValue<T>(fiberNode: ConfigValue<T>) : DelegatingConfigNode<ConfigValue<T>>(fiberNode), ReadOnlyProperty<DelegatingConfigGroup, T>
 open class DelegatingConfigGroup(fiberNode: ConfigNode) : DelegatingConfigNode<ConfigNode>(fiberNode) {
    val children = mutableListOf<DelegatingConfigNode<*>>()
    override fun createClothNode(names: List<String>): SubCategoryListEntry {
        val builder = ConfigEntryBuilder.create()
            .startSubCategory(names.joinToString(".").translate())
            .setTooltip(*names.joinToString(".").translateTooltip())
            .setExpended(false)
        children.forEach { builder.add(it.createClothNode(names + it.fiberNode.name!!)) }
        return builder.build()
    }
    operator fun get(name: String) = children.find { it.fiberNode.name == name }
 }
 interface DelegatingConfigGroupFactory<T> {
    operator fun provideDelegate(parent: DelegatingConfigGroup, property: KProperty<*>): ReadOnlyProperty<DelegatingConfigGroup, T>
 }
 fun <T: DelegatingConfigGroup> subNode(factory: (ConfigNode)->T) = object : DelegatingConfigGroupFactory<T> {
    override operator fun provideDelegate(parent: DelegatingConfigGroup, property: KProperty<*>): ReadOnlyProperty<DelegatingConfigGroup, T> {
        val childNode = ConfigNode(property.name, null)
        val configGroup = factory(childNode)
        parent.fiberNode.items.add(childNode)
        parent.children.add(configGroup)
        return object : ReadOnlyProperty<DelegatingConfigGroup, T> {
            override fun getValue(thisRef: DelegatingConfigGroup, property: KProperty<*>) = configGroup
        }
    }
 }
 interface DelegatingConfigValueFactory<T> {
    fun createFiberNode(parent: ConfigNode, name: String): ConfigValue<T>
    fun createClothNode(node: ConfigValue<T>, names: List<String>): AbstractConfigListEntry<T>
    operator fun provideDelegate(parent: DelegatingConfigGroup, property: KProperty<*>): ReadOnlyProperty<DelegatingConfigGroup, T> {
        return object : DelegatingConfigValue<T>(createFiberNode(parent.fiberNode, property.name)) {
            override fun createClothNode(names: List<String>) = createClothNode(fiberNode, names)
            override fun getValue(thisRef: DelegatingConfigGroup, property: KProperty<*>) = fiberNode.value!!
        }.apply { parent.children.add(this) }
    }
 }
 fun String.translate() = I18n.translate(this)
 fun String.translateTooltip(lineLength: Int = MAX_LINE_LEN) = ("$this.tooltip").translate().let { tooltip ->
    tooltip.splitToSequence(" ").fold(mutableListOf("")) { tooltips, word ->
        if (tooltips.last().length + word.length < lineLength) {
            tooltips[tooltips.lastIndex] += "$word "
        } else {
            tooltips.add("$word ")
        }
        tooltips
    }.map { it.trim() }.toTypedArray()
 }
 fun boolean(
    default: Boolean,
    langKey: (List<String>)->String = { it.joinToString(".") },
    valueOverride: (Boolean)->Boolean = { it }
 ) = object : DelegatingConfigValueFactory<Boolean> {
    override fun createFiberNode(parent: ConfigNode, name: String) = ConfigValueBuilder(Boolean::class.java)
        .withName(name)
        .withParent(parent)
        .withDefaultValue(default)
        .build()
    override fun createClothNode(node: ConfigValue<Boolean>, names: List<String>) = ConfigEntryBuilder.create()
        .startBooleanToggle(langKey(names).translate(), node.value!!)
        .setTooltip(langKey(names).let { if (I18n.hasTranslation("$it.tooltip")) Optional.of(it.translateTooltip()) else Optional.empty() })
        .setSaveConsumer { node.value = valueOverride(it) }
        .build()
 }
 fun integer(
    default: Int, min: Int, max: Int,
    langKey: (List<String>)->String = { it.joinToString(".") },
    valueOverride: (Int)->Int = { it }
 ) = object : DelegatingConfigValueFactory<Int> {
    override fun createFiberNode(parent: ConfigNode, name: String) = ConfigValueBuilder(Int::class.java)
        .withName(name)
        .withParent(parent)
        .withDefaultValue(default)
        .constraints().minNumerical(min).maxNumerical(max).finish()
        .build()
    override fun createClothNode(node: ConfigValue<Int>, names: List<String>) = ConfigEntryBuilder.create()
        .startIntField(langKey(names).translate(), node.value!!)
        .setTooltip(langKey(names).let { if (I18n.hasTranslation("$it.tooltip")) Optional.of(it.translateTooltip()) else Optional.empty() })
        .setMin(min).setMax(max)
        .setSaveConsumer { node.value = valueOverride(it) }
        .build()
 }
 fun double(
    default: Double, min: Double, max: Double,
    langKey: (List<String>)->String = { it.joinToString(".") },
    valueOverride: (Double)->Double = { it }
 ) = object : DelegatingConfigValueFactory<Double> {
    override fun createFiberNode(parent: ConfigNode, name: String) = ConfigValueBuilder(Double::class.java)
        .withName(name)
        .withParent(parent)
        .withDefaultValue(default)
        .constraints().minNumerical(min).maxNumerical(max).finish()
        .build()
    override fun createClothNode(node: ConfigValue<Double>, names: List<String>) = ConfigEntryBuilder.create()
        .startDoubleField(langKey(names).translate(), node.value!!)
        .setTooltip(langKey(names).let { if (I18n.hasTranslation("$it.tooltip")) Optional.of(it.translateTooltip()) else Optional.empty() })
        .setMin(min).setMax(max)
        .setSaveConsumer { node.value = valueOverride(it) }
        .build()
 }
 val recurring = { names: List<String> -> "${names.first()}.${names.last()}" }
 fun fakeCategory(name: String) = { names: List<String> ->
    (listOf(names.first(), name) + names.drop(1)).joinToString(".")
 }
--- a/src/main/kotlin/mods/betterfoliage/config/DelegatingConfig.kt
+++ b/src/main/kotlin/mods/betterfoliage/config/DelegatingConfig.kt
@@ -0,0 +1,89 @@
@file:JvmName("DelegatingConfigKt")
 package mods.betterfoliage.config
 import mods.betterfoliage.util.reflectDelegates
 import mods.betterfoliage.util.reflectNestedObjects
 import net.minecraftforge.common.ForgeConfigSpec
 import kotlin.properties.ReadOnlyProperty
 import kotlin.reflect.KProperty
 open class DelegatingConfig(val modId: String, val langPrefix: String) {
    fun build() = ForgeConfigSpec.Builder().apply { ConfigBuildContext(langPrefix, emptyList(), this).addCategory(this@DelegatingConfig) }.build()
 }
 class ConfigBuildContext(val langPrefix: String, val path: List<String>, val builder: ForgeConfigSpec.Builder) {
    fun addCategory(configObj: Any) {
        configObj.reflectNestedObjects.forEach { (name, category) ->
            builder.push(name)
            descend(name).addCategory(category)
            builder.pop()
        }
        configObj.reflectDelegates(ConfigDelegate::class.java).forEach { (name, delegate) ->
            descend(name).apply { delegate.addToBuilder(this) }
        }
    }
    fun descend(pathName: String) = ConfigBuildContext(langPrefix, path + pathName, builder)
 }
 open class ConfigCategory(val comment: String? = null) {
 }
 abstract class ConfigDelegate<T> : ReadOnlyProperty<Any, T> {
    lateinit var configValue: ForgeConfigSpec.ConfigValue<T>
    var cachedValue: T? = null
    override fun getValue(thisRef: Any, property: KProperty<*>): T {
        if (cachedValue == null) cachedValue = configValue.get()
        return cachedValue!!
    }
    abstract fun getConfigValue(name: String, builder: ForgeConfigSpec.Builder): ForgeConfigSpec.ConfigValue<T>
    fun addToBuilder(ctx: ConfigBuildContext) {
        val langKey = ctx.langPrefix + "." + (langPrefixOverride ?: ctx.path.joinToString("."))
        ctx.builder.translation(langKey)
        configValue = getConfigValue(ctx.path.last(), ctx.builder)
    }
    var langPrefixOverride: String? = null
    fun lang(prefix: String) = apply { langPrefixOverride = prefix }
 }
 class DelegatingBooleanValue(val defaultValue: Boolean) : ConfigDelegate<Boolean>() {
    override fun getConfigValue(name: String, builder: ForgeConfigSpec.Builder) = builder.define(name, defaultValue)
 }
 class DelegatingIntValue(
    val minValue: Int = 0,
    val maxValue: Int = 1,
    val defaultValue: Int = 0
 ) : ConfigDelegate<Int>() {
    override fun getConfigValue(name: String, builder: ForgeConfigSpec.Builder) = builder.defineInRange(name, defaultValue, minValue, maxValue)
 }
 class DelegatingLongValue(
    val minValue: Long = 0,
    val maxValue: Long = 1,
    val defaultValue: Long = 0
 ) : ConfigDelegate<Long>() {
    override fun getConfigValue(name: String, builder: ForgeConfigSpec.Builder) = builder.defineInRange(name, defaultValue, minValue, maxValue)
 }
 class DelegatingDoubleValue(
    val minValue: Double = 0.0,
    val maxValue: Double = 1.0,
    val defaultValue: Double = 0.0
 ) : ConfigDelegate<Double>() {
    override fun getConfigValue(name: String, builder: ForgeConfigSpec.Builder) = builder.defineInRange(name, defaultValue, minValue, maxValue)
 }
 // ============================
 // Delegate factory methods
 // ============================
 fun double(min: Double = 0.0, max: Double = 1.0, default: Double) = DelegatingDoubleValue(min, max, default)
 fun int(min: Int = 0, max: Int, default: Int) = DelegatingIntValue(min, max, default)
 fun long(min: Long = 0, max: Long, default: Long) = DelegatingLongValue(min, max, default)
 fun boolean(default: Boolean) = DelegatingBooleanValue(default)
--- a/src/main/kotlin/mods/betterfoliage/config/MainConfig.kt
+++ b/src/main/kotlin/mods/betterfoliage/config/MainConfig.kt
@@ -1,154 +0,0 @@
 package mods.betterfoliage.config
 import me.zeroeightsix.fiber.tree.ConfigNode
 import java.util.*
 interface PopulationConfigData {
    val enabled: Boolean
    val population: Int
    fun enabled(random: Random) = random.nextInt(64) < population && enabled
 }
 fun population(default: Int) = integer(default, min = 0, max = 64, langKey = recurring)
 class MainConfig : DelegatingConfigGroup(ConfigNode("root", null)) {
    val enabled by boolean(true, langKey = fakeCategory("global"))
    val nVidia by boolean(true, langKey = fakeCategory("global"))
    val leaves by subNode { LeavesConfig(it) }
    val shortGrass by subNode { ShortGrassConfig(it) }
    val connectedGrass by subNode { ConnectedGrassConfig(it) }
    val roundLogs by subNode { RoundLogConfig(it) }
    val cactus by subNode { CactusConfig(it) }
    val lilypad by subNode { LilypadConfig(it) }
    val reed by subNode { ReedConfig(it) }
    val algae by subNode { AlgaeConfig(it) }
    val coral by subNode { CoralConfig(it) }
    val netherrack by subNode { NetherrackConfig(it) }
    val fallingLeaves by subNode { FallingLeavesConfig(it) }
    val risingSoul by subNode { RisingSoulConfig(it) }
 }
 class LeavesConfig(node: ConfigNode) : DelegatingConfigGroup(node) {
    val enabled by boolean(true, langKey = recurring)
    val snowEnabled by boolean(true)
    val dense by boolean(false)
    val hideInternal by boolean(true)
    val hOffset by double(0.2, min = 0.0, max = 0.4, langKey = recurring)
    val vOffset by double(0.1, min = 0.0, max = 0.4, langKey = recurring)
    val size by double(1.4, min = 0.75, max = 2.5, langKey = recurring)
 }
 class ShortGrassConfig(node: ConfigNode) : DelegatingConfigGroup(node), PopulationConfigData {
    override val enabled by boolean(true, langKey = recurring)
    val myceliumEnabled by boolean(true)
    val snowEnabled by boolean(true)
    val hOffset by double(0.2, min = 0.0, max = 0.4, langKey = recurring)
    val heightMin by double(0.6, min = 0.1, max = 2.5, langKey = recurring)
    val heightMax by double(0.6, min = 0.1, max = 2.5, langKey = recurring) { it.coerceAtLeast(heightMin) }
    val size by double(1.0, min = 0.5, max = 1.5, langKey = recurring)
    override val population by population(64)
    val useGenerated by boolean(false)
    val shaderWind by boolean(true, langKey = recurring)
    val saturationThreshold by double(0.1, min = 0.0, max = 1.0)
 }
 class ConnectedGrassConfig(node: ConfigNode) : DelegatingConfigGroup(node) {
    val enabled by boolean(true, langKey = recurring)
    val snowEnabled by boolean(true)
 }
 class RoundLogConfig(node: ConfigNode) : DelegatingConfigGroup(node) {
    val enabled by boolean(true, langKey = recurring)
    val defaultY by boolean(false)
    val connectSolids by boolean(false)
    val lenientConnect by boolean(true)
    val connectPerpendicular by boolean(true)
    val connectGrass by boolean(true)
    val radiusSmall by double(0.25, min = 0.0, max = 0.5)
    val radiusLarge by double(0.25, min = 0.0, max = 0.5) { it.coerceAtLeast(radiusSmall) }
    val dimming by double(0.7, min = 0.0, max = 1.0)
    val zProtection by double(0.99, min = 0.9, max = 1.0)
 }
 class CactusConfig(node: ConfigNode) : DelegatingConfigGroup(node) {
    val enabled by boolean(true, langKey = recurring)
    val size by double(1.3, min = 0.5, max = 1.5, langKey = recurring)
    val sizeVariation by double(0.1, min = 0.0, max = 0.5)
    val hOffset by double(0.1, min = 0.0, max = 0.5, langKey = recurring)
 }
 class LilypadConfig(node: ConfigNode) : DelegatingConfigGroup(node), PopulationConfigData {
    override val enabled by boolean(true, langKey = recurring)
    val hOffset by double(0.1, min = 0.0, max = 0.25, langKey = recurring)
    override val population by population(16)
 }
 class ReedConfig(node: ConfigNode) : DelegatingConfigGroup(node), PopulationConfigData {
    override val enabled by boolean(true, langKey = recurring)
    val hOffset by double(0.2, min = 0.0, max = 0.4, langKey = recurring)
    val heightMin by double(1.7, min = 1.5, max = 3.0, langKey = recurring)
    val heightMax by double(2.2, min = 1.5, max = 3.0, langKey = recurring) { it.coerceAtLeast(heightMin) }
    override val population by population(32)
    val minBiomeTemp by double(0.4, min = 0.0, max = 2.0)
    val minBiomeRainfall by double(0.4, min = 0.0, max = 1.0)
    val shaderWind by boolean(true, langKey = recurring)
 }
 class AlgaeConfig(node: ConfigNode) : DelegatingConfigGroup(node), PopulationConfigData {
    override val enabled by boolean(true, langKey = recurring)
    val hOffset by double(0.1, min = 0.0, max = 0.4, langKey = recurring)
    val size by double(1.0, min = 0.5, max = 1.5, langKey = recurring)
    val heightMin by double(0.5, min = 0.1, max = 1.0, langKey = recurring)
    val heightMax by double(0.5, min = 0.1, max = 1.0, langKey = recurring) { it.coerceAtLeast(heightMin) }
    override val population by population(48)
    val shaderWind by boolean(true, langKey = recurring)
 }
 class CoralConfig(node: ConfigNode) : DelegatingConfigGroup(node), PopulationConfigData {
    override val enabled by boolean(true, langKey = recurring)
    val shallowWater by boolean(false)
    val hOffset by double(0.2, min = 0.0, max = 0.4, langKey = recurring)
    val vOffset by double(0.1, min = 0.0, max = 0.4, langKey = recurring)
    val size by double(0.7, min = 0.5, max = 1.5, langKey = recurring)
    val crustSize by double(1.4, min = 0.5, max = 1.5)
    val chance by integer(32, min = 0, max = 64)
    override val population by population(48)
 }
 class NetherrackConfig(node: ConfigNode) : DelegatingConfigGroup(node) {
    val enabled by boolean(true, langKey = recurring)
    val hOffset by double(0.2, min = 0.0, max = 0.4, langKey = recurring)
    val size by double(1.0, min = 0.5, max = 1.5, langKey = recurring)
    val heightMin by double(0.6, min = 0.5, max = 1.5, langKey = recurring)
    val heightMax by double(0.8, min = 0.5, max = 1.5, langKey = recurring) { it.coerceAtLeast(heightMin) }
 }
 class FallingLeavesConfig(node: ConfigNode) : DelegatingConfigGroup(node) {
    val enabled by boolean(true, langKey = recurring)
    val speed by double(0.05, min = 0.01, max = 0.15)
    val windStrength by double(0.5, min = 0.1, max = 2.0)
    val stormStrength by double(0.8, min = 0.1, max = 2.0) { it.coerceAtLeast(windStrength) }
    val size by double(0.75, min = 0.25, max = 1.5)
    val chance by double(0.05, min = 0.001, max = 1.0)
    val perturb by double(0.25, min = 0.01, max = 1.0)
    val lifetime by double(7.5, min = 1.0, max = 15.0)
 }
 class RisingSoulConfig(node: ConfigNode) : DelegatingConfigGroup(node) {
    val enabled by boolean(true, langKey = recurring)
    val chance by double(0.02, min = 0.001, max = 1.0)
    val perturb by double(0.05, min = 0.01, max = 0.25)
    val headSize by double(1.0, min = 0.25, max = 1.5)
    val trailSize by double(0.75, min = 0.25, max = 1.5)
    val opacity by double(0.5, min = 0.05, max = 1.0)
    val sizeDecay by double(0.97, min = 0.5, max = 1.0)
    val opacityDecay by double(0.97, min = 0.5, max = 1.0)
    val lifetime by double(4.0, min = 1.0, max = 15.0)
    val trailLength by integer(48, min = 2, max = 128)
    val trailDensity by integer(3, min = 1, max = 16)
 }
--- a/src/main/kotlin/mods/betterfoliage/config/MiscDefaults.kt
+++ b/src/main/kotlin/mods/betterfoliage/config/MiscDefaults.kt
@@ -0,0 +1,20 @@
 package mods.betterfoliage.config
 import net.minecraft.block.BlockState
 import net.minecraft.block.Blocks
 import net.minecraft.block.material.Material
 import net.minecraft.world.biome.Biome
 val CACTUS_BLOCKS = listOf(Blocks.CACTUS)
 val DIRT_BLOCKS = listOf(Blocks.DIRT, Blocks.COARSE_DIRT, Blocks.PODZOL)
 val SAND_BLOCKS = listOf(Blocks.SAND, Blocks.RED_SAND)
 val NETHERRACK_BLOCKS = listOf(Blocks.NETHERRACK)
 val LILYPAD_BLOCKS = listOf(Blocks.LILY_PAD)
 val MYCELIUM_BLOCKS = listOf(Blocks.MYCELIUM)
 val SALTWATER_BIOMES = listOf(Biome.Category.BEACH, Biome.Category.OCEAN)
 val SNOW_MATERIALS = listOf(Material.TOP_SNOW, Material.SNOW)
 val BlockState.isSnow: Boolean get() = material in SNOW_MATERIALS
 val ACCEPTED_ROUND_LOG_MATERIALS = listOf(Material.WOOD, Material.GRASS)
--- a/src/main/kotlin/mods/betterfoliage/integration/ForestryIntegration.kt
+++ b/src/main/kotlin/mods/betterfoliage/integration/ForestryIntegration.kt
@@ -1,110 +0,0 @@
 package mods.betterfoliage.integration
 /*
 val TextureLeaves = ClassRefOld<Any>("forestry.arboriculture.models.TextureLeaves")
 val TextureLeaves_leafTextures = FieldRefOld(TextureLeaves, "leafTextures", Map)
 val TextureLeaves_plain = FieldRefOld(TextureLeaves, "plain", Identifier)
 val TextureLeaves_fancy = FieldRefOld(TextureLeaves, "fancy", Identifier)
 val TextureLeaves_pollinatedPlain = FieldRefOld(TextureLeaves, "pollinatedPlain", Identifier)
 val TextureLeaves_pollinatedFancy = FieldRefOld(TextureLeaves, "pollinatedFancy", Identifier)
 val TileLeaves = ClassRefOld<Any>("forestry.arboriculture.tiles.TileLeaves")
 val TileLeaves_getLeaveSprite = MethodRefOld(TileLeaves, "getLeaveSprite", Identifier, boolean)
 val PropertyWoodType = ClassRefOld<Any>("forestry.arboriculture.blocks.PropertyWoodType")
 val IWoodType = ClassRefOld<Any>("forestry.api.arboriculture.IWoodType")
 val IWoodType_barkTex = MethodRefOld(IWoodType, "getBarkTexture", String)
 val IWoodType_heartTex = MethodRefOld(IWoodType, "getHeartTexture", String)
 val PropertyTreeType = ClassRefOld<Any>("forestry.arboriculture.blocks.PropertyTreeType")
 val IAlleleTreeSpecies = ClassRefOld<Any>("forestry.api.arboriculture.IAlleleTreeSpecies")
 val ILeafSpriteProvider = ClassRefOld<Any>("forestry.api.arboriculture.ILeafSpriteProvider")
 val TreeDefinition = ClassRefOld<Any>("forestry.arboriculture.genetics.TreeDefinition")
 val IAlleleTreeSpecies_getLeafSpriteProvider = MethodRefOld(IAlleleTreeSpecies, "getLeafSpriteProvider", ILeafSpriteProvider)
 val TreeDefinition_species = FieldRefOld(TreeDefinition, "species", IAlleleTreeSpecies)
 val ILeafSpriteProvider_getSprite = MethodRefOld(ILeafSpriteProvider, "getSprite", Identifier, boolean, boolean)
 object ForestryIntegration {
    init {
    }
 }
 */
 /*
 object ForestryLeafDiscovery : HasLogger, AsyncSpriteProvider<ModelLoader>, ModelRenderRegistry<LeafInfo> {
    override val logger = BetterFoliage.logDetail
    var idToValue = emptyMap<Identifier, LeafInfo>()
    override fun get(state: BlockState, world: BlockView, pos: BlockPos): LeafInfo? {
        // check variant property (used in decorative leaves)
        state.entries.entries.find {
            PropertyTreeType.isInstance(it.key) && TreeDefinition.isInstance(it.value)
        } ?.let {
            val species = it.value[TreeDefinition_species]!!
            val spriteProvider = species[IAlleleTreeSpecies_getLeafSpriteProvider]()
            val textureLoc = spriteProvider[ILeafSpriteProvider_getSprite](false, MinecraftClient.isFancyGraphicsEnabled())
            return idToValue[textureLoc]
        }
        // extract leaf texture information from TileEntity
        val tile = world.getBlockEntity(pos) ?: return null
        if (!TileLeaves.isInstance(tile)) return null
        val textureLoc = tile[TileLeaves_getLeaveSprite](MinecraftClient.isFancyGraphicsEnabled())
        return idToValue[textureLoc]
    }
    override fun setup(manager: ResourceManager, bakeryF: CompletableFuture<ModelLoader>, atlasFuture: AtlasFuture): StitchPhases {
        val futures = mutableMapOf<Identifier, CompletableFuture<LeafInfo>>()
        return StitchPhases(
            discovery = bakeryF.thenRunAsync {
                val allLeaves = TextureLeaves_leafTextures.getStatic()
                allLeaves!!.entries.forEach { (type, leaves) ->
                    log("base leaf type $type")
                    leaves!!
                    listOf(
                        leaves[TextureLeaves_plain], leaves[TextureLeaves_pollinatedPlain],
                        leaves[TextureLeaves_fancy], leaves[TextureLeaves_pollinatedFancy]
                    ).forEach { textureLocation ->
                        futures[textureLocation!!] = defaultRegisterLeaf(textureLocation, atlasFuture)
                    }
                }
            },
            cleanup = atlasFuture.runAfter {
                idToValue = futures.mapValues { it.value.get() }
            }
        )
    }
 }
 object ForestryLogDiscovery : ModelDiscovery<ColumnTextureInfo>() {
    override val logger = BetterFoliage.logDetail
    override fun processModel(ctx: ModelDiscoveryContext, atlas: AtlasFuture): CompletableFuture<ColumnTextureInfo>? {
        // respect class list to avoid triggering on fences, stairs, etc.
        if (!BetterFoliageMod.blockConfig.logBlocks.matchesClass(ctx.state.block)) return null
        // find wood type property
        val woodType = ctx.state.entries.entries.find {
            PropertyWoodType.isInstance(it.key) && IWoodType.isInstance(it.value)
        }
        if (woodType != null) {
            logger.log(Level.DEBUG, "ForestryLogRegistry: block state ${ctx.state}")
            logger.log(Level.DEBUG, "ForestryLogRegistry:     variant ${woodType.value}")
            // get texture names for wood type
            val bark = woodType.value[IWoodType_barkTex]()
            val heart = woodType.value[IWoodType_heartTex]()
            logger.log(Level.DEBUG, "ForestryLogSupport:    textures [heart=$heart, bark=$bark]")
            val heartSprite = atlas.sprite(heart)
            val barkSprite = atlas.sprite(bark)
            return atlas.mapAfter {
                SimpleColumnInfo(AsyncLogDiscovery.getAxis(ctx.state), heartSprite.get(), heartSprite.get(), listOf(barkSprite.get()))
            }
        }
        return null
    }
 }
 */
--- a/src/main/kotlin/mods/betterfoliage/integration/ModMenu.kt
+++ b/src/main/kotlin/mods/betterfoliage/integration/ModMenu.kt
@@ -1,29 +0,0 @@
 package mods.betterfoliage.integration
 import io.github.prospector.modmenu.api.ModMenuApi
 import me.shedaniel.clothconfig2.api.ConfigBuilder
 import me.zeroeightsix.fiber.JanksonSettings
 import mods.betterfoliage.BetterFoliage
 import net.minecraft.client.MinecraftClient
 import net.minecraft.client.gui.screen.Screen
 import net.minecraft.client.resource.language.I18n
 import java.util.function.Function
 object ModMenu : ModMenuApi {
    override fun getModId() = BetterFoliage.MOD_ID
    override fun getConfigScreenFactory() = Function { screen: Screen ->
        val builder = ConfigBuilder.create()
            .setParentScreen(screen)
            .setTitle(I18n.translate("betterfoliage.title"))
        BetterFoliage.config.createClothNode(listOf("betterfoliage")).value.forEach { rootOption ->
            builder.getOrCreateCategory("main").addEntry(rootOption)
        }
        builder.savingRunnable = Runnable {
            JanksonSettings().serialize(BetterFoliage.config.fiberNode, BetterFoliage.configFile.outputStream(), false)
            BetterFoliage.modelReplacer.invalidate()
            MinecraftClient.getInstance().worldRenderer.reload()
        }
        builder.build()
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/integration/OptifineCustomColors.kt
+++ b/src/main/kotlin/mods/betterfoliage/integration/OptifineCustomColors.kt
@@ -0,0 +1,54 @@
 package mods.betterfoliage.integration
 import mods.betterfoliage.chunk.BlockCtx
 import mods.betterfoliage.util.ThreadLocalDelegate
 import mods.betterfoliage.util.allAvailable
 import mods.betterfoliage.util.reflectField
 import mods.octarinecore.BlockPos
 import mods.octarinecore.BlockState
 import mods.octarinecore.CustomColors
 import mods.octarinecore.RenderEnv
 import net.minecraft.block.BlockState
 import net.minecraft.client.Minecraft
 import net.minecraft.client.renderer.model.BakedQuad
 import net.minecraft.util.Direction.UP
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.level.ColorResolver
 import org.apache.logging.log4j.Level.INFO
 import org.apache.logging.log4j.LogManager
 /**
 * Integration for OptiFine custom block colors.
 */
@Suppress("UNCHECKED_CAST")
 object OptifineCustomColors {
    val logger = LogManager.getLogger(this)
    val isColorAvailable = allAvailable(CustomColors, CustomColors.getColorMultiplier)
    init {
        logger.log(INFO, "Optifine custom color support is ${if (isColorAvailable) "enabled" else "disabled" }")
    }
    val renderEnv by ThreadLocalDelegate { OptifineRenderEnv() }
    val fakeQuad = BakedQuad(IntArray(0), 1, UP, null, true)
    fun getBlockColor(ctx: BlockCtx, resolver: ColorResolver): Int {
        val ofColor = if (isColorAvailable && Minecraft.getInstance().options.reflectField<Boolean>("ofCustomColors") == true) {
            renderEnv.reset(ctx.state, ctx.pos)
            CustomColors.getColorMultiplier.invokeStatic(fakeQuad, ctx.state, ctx.world, ctx.pos, renderEnv.wrapped) as? Int
        } else null
        return if (ofColor == null || ofColor == -1) ctx.color(resolver) else ofColor
    }
 }
 class OptifineRenderEnv {
    val wrapped: Any = RenderEnv.element!!.getDeclaredConstructor(BlockState.element, BlockPos.element).let {
        it.isAccessible = true
        it.newInstance(null, null)
    }
    fun reset(state: BlockState, pos: BlockPos) {
        RenderEnv.reset.invoke(wrapped, state, pos)
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/integration/RubberIntegration.kt
+++ b/src/main/kotlin/mods/betterfoliage/integration/RubberIntegration.kt
@@ -1,139 +0,0 @@
 package mods.betterfoliage.integration
 object IC2RubberIntegration {
 //    val BlockRubWood = ClassRefOld<Any>("ic2.core.block.BlockRubWood")
    init {
 //        if (ModList.get().isLoaded("ic2") && allAvailable(BlockRubWood)) {
 //            BetterFoliage.log(Level.INFO, "IC2 rubber support initialized")
 //            LogRegistry.registries.add(IC2LogDiscovery)
 //            BetterFoliage.blockSprites.providers.add(IC2LogDiscovery)
 //        }
    }
 }
 object TechRebornRubberIntegration {
 //    val BlockRubberLog = ClassRefOld<Any>("techreborn.blocks.BlockRubberLog")
    init {
 //        if (ModList.get().isLoaded("techreborn") && allAvailable(BlockRubberLog)) {
 //            BetterFoliage.log(Level.INFO, "TechReborn rubber support initialized")
 //            LogRegistry.registries.add(TechRebornLogDiscovery)
 //            BetterFoliage.blockSprites.providers.add(TechRebornLogDiscovery)
 //        }
    }
 }
 /*
 class RubberLogInfo(
    axis: Axis?,
    val spotDir: Direction,
    topTexture: Sprite,
    bottomTexture: Sprite,
    val spotTexture: Sprite,
    sideTextures: List<Sprite>
 ) : SimpleColumnInfo(axis, topTexture, bottomTexture, sideTextures) {
    override val side: QuadIconResolver = { ctx: CombinedContext, idx: Int, quad: Quad ->
        val worldFace = (if ((idx and 1) == 0) SOUTH else EAST).rotate(ctx.modelRotation)
        if (worldFace == spotDir) spotTexture else {
            val sideIdx = if (this.sideTextures.size > 1) (ctx.semiRandom(1) + dirToIdx[worldFace.ordinal]) % this.sideTextures.size else 0
            this.sideTextures[sideIdx]
        }
    }
 }
 object IC2LogDiscovery : ModelDiscovery<ColumnTextureInfo>() {
    override val logger = BetterFoliage.logDetail
    override fun processModel(ctx: ModelDiscoveryContext, atlas: AtlasFuture): CompletableFuture<ColumnTextureInfo>? {
        // check for proper block class, existence of ModelBlock, and "state" blockstate property
        if (!IC2RubberIntegration.BlockRubWood.isInstance(ctx.state.block)) return null
        val blockLoc = ctx.models.firstOrNull() as Pair<JsonUnbakedModel, Identifier> ?: return null
        val type = ctx.state.entries.entries.find { it.key.getName() == "state" }?.value?.toString() ?: return null
        // logs with no rubber spot
        if (blockLoc.derivesFrom(Identifier("block/cube_column"))) {
            val axis = when(type) {
                "plain_y" -> Axis.Y
                "plain_x" -> Axis.X
                "plain_z" -> Axis.Z
                else -> null
            }
            val textureNames = listOf("end", "side").map { blockLoc.first.resolveTexture(it) }
            if (textureNames.any { it == "missingno" }) return null
            log("IC2LogSupport: block state ${ctx.state.toString()}")
            log("IC2LogSupport:             axis=$axis, end=${textureNames[0]}, side=${textureNames[1]}")
            val endSprite = atlas.sprite(textureNames[0])
            val sideSprite = atlas.sprite(textureNames[1])
            return atlas.mapAfter {
                SimpleColumnInfo(axis, endSprite.get(), endSprite.get(), listOf(sideSprite.get()))
            }
        }
        // logs with rubber spot
        val spotDir = when(type) {
            "dry_north", "wet_north" -> NORTH
            "dry_south", "wet_south" -> SOUTH
            "dry_west", "wet_west" -> WEST
            "dry_east", "wet_east" -> EAST
            else -> null
        }
        val textureNames = listOf("up", "down", "north", "south").map { blockLoc.first.resolveTexture(it) }
        if (textureNames.any { it == "missingno" }) return null
        log("IC2LogSupport: block state ${ctx.state.toString()}")
        log("IC2LogSupport:             spotDir=$spotDir, up=${textureNames[0]}, down=${textureNames[1]}, side=${textureNames[2]}, spot=${textureNames[3]}")
        val upSprite = atlas.sprite(textureNames[0])
        val downSprite = atlas.sprite(textureNames[1])
        val sideSprite = atlas.sprite(textureNames[2])
        val spotSprite = atlas.sprite(textureNames[3])
        return if (spotDir != null) atlas.mapAfter {
            RubberLogInfo(Axis.Y, spotDir, upSprite.get(), downSprite.get(), spotSprite.get(), listOf(sideSprite.get()))
        } else atlas.mapAfter {
            SimpleColumnInfo(Axis.Y, upSprite.get(), downSprite.get(), listOf(sideSprite.get()))
        }
    }
 }
 object TechRebornLogDiscovery : ModelDiscovery<ColumnTextureInfo>() {
    override val logger = BetterFoliage.logDetail
    override fun processModel(ctx: ModelDiscoveryContext, atlas: AtlasFuture): CompletableFuture<ColumnTextureInfo>? {
        // check for proper block class, existence of ModelBlock
        if (!TechRebornRubberIntegration.BlockRubberLog.isInstance(ctx.state.block)) return null
        val blockLoc = ctx.models.map { it as? Pair<JsonUnbakedModel, Identifier> }.firstOrNull() ?: return null
        val hasSap = ctx.state.entries.entries.find { it.key.getName() == "hassap" }?.value as? Boolean ?: return null
        val sapSide = ctx.state.entries.entries.find { it.key.getName() == "sapside" }?.value as? Direction ?: return null
        log("$logName: block state ${ctx.state}")
        if (hasSap) {
            val textureNames = listOf("end", "side", "sapside").map { blockLoc.first.resolveTexture(it) }
            log("$logName:             spotDir=$sapSide, end=${textureNames[0]}, side=${textureNames[2]}, spot=${textureNames[3]}")
            if (textureNames.all { it != "missingno" }) {
                val endSprite = atlas.sprite(textureNames[0])
                val sideSprite = atlas.sprite(textureNames[1])
                val sapSprite = atlas.sprite(textureNames[2])
                return atlas.mapAfter {
                    RubberLogInfo(Axis.Y, sapSide, endSprite.get(), endSprite.get(), sapSprite.get(), listOf(sideSprite.get()))
                }
            }
        } else {
            val textureNames = listOf("end", "side").map { blockLoc.first.resolveTexture(it) }
            log("$logName:             end=${textureNames[0]}, side=${textureNames[1]}")
            if (textureNames.all { it != "missingno" }) {
                val endSprite = atlas.sprite(textureNames[0])
                val sideSprite = atlas.sprite(textureNames[1])
                return atlas.mapAfter {
                    SimpleColumnInfo(Axis.Y, endSprite.get(), endSprite.get(), listOf(sideSprite.get()))
                }
            }
        }
        return null
    }
 }
 */
--- a/src/main/kotlin/mods/betterfoliage/integration/ShadersModIntegration.kt
+++ b/src/main/kotlin/mods/betterfoliage/integration/ShadersModIntegration.kt
@@ -0,0 +1,66 @@
 package mods.betterfoliage.integration
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import mods.betterfoliage.render.pipeline.RenderCtxVanilla
 import mods.betterfoliage.util.HasLogger
 import mods.betterfoliage.util.allAvailable
 import mods.betterfoliage.util.get
 import mods.octarinecore.*
 import net.minecraft.block.BlockRenderType
 import net.minecraft.block.BlockRenderType.MODEL
 import net.minecraft.block.BlockState
 import net.minecraft.block.Blocks
 import net.minecraft.client.renderer.BufferBuilder
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.IBlockDisplayReader
 import org.apache.logging.log4j.Level.INFO
 /**
 * Integration for ShadersMod.
 */
 object ShadersModIntegration : HasLogger() {
    @JvmStatic val isAvailable = allAvailable(SVertexBuilder, SVertexBuilder.pushState, SVertexBuilder.popState, BlockAliases.getAliasBlockId)
    val defaultLeaves = Blocks.OAK_LEAVES.defaultBlockState()
    val defaultGrass = Blocks.GRASS.defaultBlockState()
    /**
     * Called from transformed ShadersMod code.
     * @see mods.betterfoliage.loader.BetterFoliageTransformer
     */
    @JvmStatic fun getBlockStateOverride(state: BlockState, world: IBlockDisplayReader, pos: BlockPos): BlockState {
 //        if (LeafRegistry[state, world, pos] != null) return defaultLeaves
 //        if (BlockConfig.crops.matchesClass(state.block)) return defaultGrass
        return state
    }
    init {
        logger.log(INFO, "ShadersMod integration is ${if (isAvailable) "enabled" else "disabled" }")
    }
    /** Quads rendered inside this block will use the given block entity data in shader programs. */
    inline fun renderAs(buffer: BufferBuilder, state: BlockState, renderType: BlockRenderType, enabled: Boolean = true, func: ()->Unit) {
        if (isAvailable && enabled) {
            val aliasBlockId = BlockAliases.getAliasBlockId.invokeStatic(state)
            val sVertexBuilder = buffer[BufferBuilder_sVertexBuilder]
            SVertexBuilder.pushState.invoke(sVertexBuilder, aliasBlockId)
            func()
            SVertexBuilder.popState.invoke(sVertexBuilder)
        } else {
            func()
        }
    }
    /** Quads rendered inside this block will behave as tallgrass blocks in shader programs. */
    inline fun grass(ctx: RenderCtxBase, enabled: Boolean = true, func: ()->Unit) =
        ((ctx as? RenderCtxVanilla)?.buffer as? BufferBuilder)?.let { bufferBuilder ->
            renderAs(bufferBuilder, defaultGrass, MODEL, enabled, func)
        }
    /** Quads rendered inside this block will behave as leaf blocks in shader programs. */
    inline fun leaves(ctx: RenderCtxBase, enabled: Boolean = true, func: ()->Unit) =
        ((ctx as? RenderCtxVanilla)?.buffer as? BufferBuilder)?.let { bufferBuilder ->
            renderAs(bufferBuilder, defaultLeaves, MODEL, enabled, func)
        }
 }
--- a/src/main/kotlin/mods/betterfoliage/model/HalfBaked.kt
+++ b/src/main/kotlin/mods/betterfoliage/model/HalfBaked.kt
@@ -0,0 +1,118 @@
 package mods.betterfoliage.model
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelBakingKey
 import mods.betterfoliage.util.Double3
 import mods.betterfoliage.util.HasLogger
 import mods.betterfoliage.util.directionsAndNull
 import mods.betterfoliage.util.mapArray
 import net.minecraft.client.renderer.model.BakedQuad
 import net.minecraft.client.renderer.model.IBakedModel
 import net.minecraft.client.renderer.model.SimpleBakedModel
 import net.minecraft.client.renderer.vertex.DefaultVertexFormats
 import net.minecraft.client.renderer.vertex.VertexFormatElement
 import net.minecraftforge.client.model.pipeline.BakedQuadBuilder
 import java.util.Random
 /**
 * Hybrid baked quad implementation, carrying both baked and unbaked information.
 * Used to do advanced vertex lighting without unbaking vertex data at lighting time.
 */
 data class HalfBakedQuad(
    val raw: Quad,
    val baked: BakedQuad
 )
 open class HalfBakedSimpleModelWrapper(baseModel: SimpleBakedModel): IBakedModel by baseModel, SpecialRenderModel {
    val baseQuads = baseModel.unbakeQuads()
    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
        ctx.renderQuads(baseQuads)
    }
 }
 open class HalfBakedSpecialWrapper(val baseModel: SpecialRenderModel): IBakedModel by baseModel, SpecialRenderModel {
    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
        baseModel.render(ctx, noDecorations)
    }
 }
 abstract class HalfBakedWrapperKey : ModelBakingKey, HasLogger() {
    override fun bake(ctx: ModelBakingContext): IBakedModel? {
        val baseModel = super.bake(ctx)
        val halfBaked = when(baseModel) {
            is SimpleBakedModel -> HalfBakedSimpleModelWrapper(baseModel)
            else -> null
        }
        return if (halfBaked == null) baseModel else bake(ctx, halfBaked)
    }
    abstract fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel): SpecialRenderModel
 }
 fun List<Quad>.bake(applyDiffuseLighting: Boolean) = map { quad ->
    if (quad.sprite == null) throw IllegalStateException("Quad must have a texture assigned before baking")
    val builder = BakedQuadBuilder(quad.sprite)
    builder.setApplyDiffuseLighting(applyDiffuseLighting)
    builder.setQuadOrientation(quad.face())
    builder.setQuadTint(quad.colorIndex)
    quad.verts.forEach { vertex ->
        DefaultVertexFormats.BLOCK.elements.forEachIndexed { idx, element ->
            when {
                element.usage == VertexFormatElement.Usage.POSITION -> builder.put(idx,
                    (vertex.xyz.x + 0.5).toFloat(),
                    (vertex.xyz.y + 0.5).toFloat(),
                    (vertex.xyz.z + 0.5).toFloat(),
                    1.0f
                )
                // don't fill lightmap UV coords
                element.usage == VertexFormatElement.Usage.UV && element.type == VertexFormatElement.Type.FLOAT -> builder.put(idx,
                    quad.sprite.u0 + (quad.sprite.u1 - quad.sprite.u0) * (vertex.uv.u + 0.5).toFloat(),
                    quad.sprite.v0 + (quad.sprite.v1 - quad.sprite.v0) * (vertex.uv.v + 0.5).toFloat(),
                    0.0f, 1.0f
                )
                element.usage == VertexFormatElement.Usage.COLOR -> builder.put(idx,
                    (vertex.color.red and 255).toFloat() / 255.0f,
                    (vertex.color.green and 255).toFloat() / 255.0f,
                    (vertex.color.blue and 255).toFloat() / 255.0f,
                    (vertex.color.alpha and 255).toFloat() / 255.0f
                )
                element.usage == VertexFormatElement.Usage.NORMAL -> builder.put(idx,
                    (vertex.normal ?: quad.normal).x.toFloat(),
                    (vertex.normal ?: quad.normal).y.toFloat(),
                    (vertex.normal ?: quad.normal).z.toFloat(),
                    0.0f
                )
                else -> builder.put(idx)
            }
        }
    }
    HalfBakedQuad(quad, builder.build())
 }
 fun Array<List<Quad>>.bake(applyDiffuseLighting: Boolean) = mapArray { it.bake(applyDiffuseLighting) }
 fun BakedQuad.unbake(): HalfBakedQuad {
    val size = DefaultVertexFormats.BLOCK.integerSize
    val verts = Array(4) { vIdx ->
        val x = java.lang.Float.intBitsToFloat(vertices[vIdx * size + 0])
        val y = java.lang.Float.intBitsToFloat(vertices[vIdx * size + 1])
        val z = java.lang.Float.intBitsToFloat(vertices[vIdx * size + 2])
        val color = vertices[vIdx * size + 3]
        val u = java.lang.Float.intBitsToFloat(vertices[vIdx * size + 4])
        val v = java.lang.Float.intBitsToFloat(vertices[vIdx * size + 5])
        Vertex(Double3(x, y, z), UV(u.toDouble(), v.toDouble()), Color(color))
    }
    val unbaked = Quad(
        verts[0], verts[1], verts[2], verts[3],
        colorIndex = if (isTinted) tintIndex else -1,
        face = direction
    )
    return HalfBakedQuad(unbaked, this)
 }
 fun SimpleBakedModel.unbakeQuads() = directionsAndNull.flatMap { face ->
    getQuads(null, face, Random()).map { it.unbake() }
 }
--- a/src/main/kotlin/mods/betterfoliage/model/Quads.kt
+++ b/src/main/kotlin/mods/betterfoliage/model/Quads.kt
@@ -0,0 +1,207 @@
 package mods.betterfoliage.model
 import mods.betterfoliage.util.Double3
 import mods.betterfoliage.util.Rotation
 import mods.betterfoliage.util.boxFaces
 import mods.betterfoliage.util.get
 import mods.betterfoliage.util.minmax
 import mods.betterfoliage.util.nearestAngle
 import mods.betterfoliage.util.rotate
 import mods.betterfoliage.util.times
 import mods.betterfoliage.util.vec
 import net.minecraft.client.renderer.texture.NativeImage
 import net.minecraft.client.renderer.texture.TextureAtlasSprite
 import net.minecraft.util.Direction
 import java.lang.Math.max
 import java.lang.Math.min
 import java.util.Random
 import kotlin.math.cos
 import kotlin.math.sin
 /**
 * Vertex UV coordinates
 *
 * Zero-centered: coordinates fall between (-0.5, 0.5) (inclusive)
 */
 data class UV(val u: Double, val v: Double) {
    companion object {
        val topLeft = UV(-0.5, -0.5)
        val topRight = UV(0.5, -0.5)
        val bottomLeft = UV(-0.5, 0.5)
        val bottomRight = UV(0.5, 0.5)
    }
    val rotate: UV get() = UV(v, -u)
    fun rotate(n: Int) = when (n % 4) {
        0 -> copy()
        1 -> UV(v, -u)
        2 -> UV(-u, -v)
        else -> UV(-v, u)
    }
    fun clamp(minU: Double = -0.5, maxU: Double = 0.5, minV: Double = -0.5, maxV: Double = 0.5) =
        UV(u.minmax(minU, maxU), v.minmax(minV, maxV))
    fun mirror(mirrorU: Boolean, mirrorV: Boolean) = UV(if (mirrorU) -u else u, if (mirrorV) -v else v)
 }
 /**
 * Model vertex
 *
 * @param[xyz] x, y, z coordinates
 * @param[uv] u, v coordinates
 * @param[aoShader] [ModelLighter] instance to use with AO rendering
 * @param[flatShader] [ModelLighter] instance to use with non-AO rendering
 */
 data class Vertex(
    val xyz: Double3 = Double3(0.0, 0.0, 0.0),
    val uv: UV = UV(0.0, 0.0),
    val color: Color = Color.white,
    val normal: Double3? = null
 )
 data class Color(val alpha: Int, val red: Int, val green: Int, val blue: Int) {
    constructor(combined: Int) : this(
        combined shr 24 and 255,
        combined shr 16 and 255,
        combined shr 8 and 255,
        combined and 255
    )
    val asInt get() = (alpha shl 24) or (red shl 16) or (green shl 8) or blue
    operator fun times(f: Float) = Color(
        alpha,
        (f * red.toFloat()).toInt().coerceIn(0 until 256),
        (f * green.toFloat()).toInt().coerceIn(0 until 256),
        (f * blue.toFloat()).toInt().coerceIn(0 until 256)
    )
    companion object {
        val white get() = Color(255, 255, 255, 255)
    }
 }
 data class HSB(var hue: Float, var saturation: Float, var brightness: Float) {
    companion object {
        /** Red is assumed to be LSB, see [NativeImage.PixelFormat.RGBA] */
        fun fromColorRGBA(color: Int): HSB {
            val hsbVals = java.awt.Color.RGBtoHSB(color and 255, (color shr 8) and 255, (color shr 16) and 255, null)
            return HSB(hsbVals[0], hsbVals[1], hsbVals[2])
        }
    }
    val asColor: Int get() = java.awt.Color.HSBtoRGB(hue, saturation, brightness)
 }
 /**
 * Intermediate representation of model quad
 * Immutable, double-precision
 * Zero-centered (both XYZ and UV) coordinates for simpler rotation/mirroring
 */
 data class Quad(
    val v1: Vertex, val v2: Vertex, val v3: Vertex, val v4: Vertex,
    val sprite: TextureAtlasSprite? = null,
    val colorIndex: Int = -1,
    val face: Direction? = null
 ) {
    val verts = arrayOf(v1, v2, v3, v4)
    inline fun transformV(trans: (Vertex) -> Vertex): Quad = transformVI { vertex, idx -> trans(vertex) }
    inline fun transformVI(trans: (Vertex, Int) -> Vertex): Quad = copy(
        v1 = trans(v1, 0), v2 = trans(v2, 1), v3 = trans(v3, 2), v4 = trans(v4, 3)
    )
    val normal: Double3 get() = (v2.xyz - v1.xyz).cross(v4.xyz - v1.xyz).normalize
    fun move(trans: Double3) = transformV { it.copy(xyz = it.xyz + trans) }
    fun move(trans: Pair<Double, Direction>) = move(Double3(trans.second) * trans.first)
    fun scale(scale: Double) = transformV { it.copy(xyz = it.xyz * scale) }
    fun scale(scale: Double3) =
        transformV { it.copy(xyz = Double3(it.xyz.x * scale.x, it.xyz.y * scale.y, it.xyz.z * scale.z)) }
    fun rotate(rot: Rotation) =
        transformV { it.copy(xyz = it.xyz.rotate(rot), normal = it.normal?.rotate(rot)) }.copy(face = face?.rotate(rot))
    fun rotateZ(angle: Double) = transformV {
        it.copy(
            xyz = Double3(
                it.xyz.x * cos(angle) + it.xyz.z * sin(angle),
                it.xyz.y,
                it.xyz.z * cos(angle) - it.xyz.x * sin(angle)
            ),
            normal = it.normal?.let { normal ->
                Double3(
                    normal.x * cos(angle) + normal.z * sin(angle),
                    normal.y,
                    normal.z * cos(angle) - normal.x * sin(angle)
                )
            }
        )
    }
    fun scaleUV(scale: Double) = transformV { it.copy(uv = UV(it.uv.u * scale, it.uv.v * scale)) }
    fun rotateUV(n: Int) = transformV { it.copy(uv = it.uv.rotate(n)) }
    fun clampUV(minU: Double = -0.5, maxU: Double = 0.5, minV: Double = -0.5, maxV: Double = 0.5) =
        transformV { it.copy(uv = it.uv.clamp(minU, maxU, minV, maxV)) }
    fun mirrorUV(mirrorU: Boolean, mirrorV: Boolean) = transformV { it.copy(uv = it.uv.mirror(mirrorU, mirrorV)) }
    fun scrambleUV(random: Random, canFlipU: Boolean, canFlipV: Boolean, canRotate: Boolean) = this
        .mirrorUV(canFlipU && random.nextBoolean(), canFlipV && random.nextBoolean())
        .let { if (canRotate) it.rotateUV(random.nextInt(4)) else it }
    fun sprite(sprite: TextureAtlasSprite) = copy(sprite = sprite)
    fun color(color: Color) = transformV { it.copy(color = color) }
    fun color(color: Int) = transformV { it.copy(color = Color(color)) }
    fun colorIndex(colorIndex: Int) = copy(colorIndex = colorIndex)
    fun colorAndIndex(color: Color?) = color(color ?: Color.white).colorIndex(if (color == null) 0 else -1)
    fun face() = face ?: nearestAngle(normal, Direction.values().toList()) { it.vec }.first
    val flipped: Quad get() = Quad(v4, v3, v2, v1, sprite, colorIndex)
    fun cycleVertices(n: Int) = when (n % 4) {
        1 -> Quad(v2, v3, v4, v1)
        2 -> Quad(v3, v4, v1, v2)
        3 -> Quad(v4, v1, v2, v3)
        else -> this.copy()
    }
    companion object {
        fun mix(first: Quad, second: Quad, vertexFactory: (Vertex, Vertex) -> Vertex) = Quad(
            v1 = vertexFactory(first.v1, second.v1),
            v2 = vertexFactory(first.v2, second.v2),
            v3 = vertexFactory(first.v3, second.v3),
            v4 = vertexFactory(first.v4, second.v4)
        )
        fun verticalRectangle(x1: Double, z1: Double, x2: Double, z2: Double, yBottom: Double, yTop: Double) = Quad(
            Vertex(Double3(x1, yBottom, z1), UV.bottomLeft),
            Vertex(Double3(x2, yBottom, z2), UV.bottomRight),
            Vertex(Double3(x2, yTop, z2), UV.topRight),
            Vertex(Double3(x1, yTop, z1), UV.topLeft)
        )
        fun horizontalRectangle(x1: Double, z1: Double, x2: Double, z2: Double, y: Double): Quad {
            val xMin = min(x1, x2);
            val xMax = max(x1, x2)
            val zMin = min(z1, z2);
            val zMax = max(z1, z2)
            return Quad(
                Vertex(Double3(xMin, y, zMin), UV.topLeft),
                Vertex(Double3(xMin, y, zMax), UV.bottomLeft),
                Vertex(Double3(xMax, y, zMax), UV.bottomRight),
                Vertex(Double3(xMax, y, zMin), UV.topRight)
            )
        }
        fun faceQuad(face: Direction): Quad {
            val base = face.vec * 0.5
            val top = boxFaces[face].top * 0.5
            val left = boxFaces[face].left * 0.5
            return Quad(
                Vertex(base + top + left, UV.topLeft),
                Vertex(base - top + left, UV.bottomLeft),
                Vertex(base - top - left, UV.bottomRight),
                Vertex(base + top - left, UV.topRight)
            )
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/model/SpecialRenderModels.kt
+++ b/src/main/kotlin/mods/betterfoliage/model/SpecialRenderModels.kt
@@ -0,0 +1,26 @@
 package mods.betterfoliage.model
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import net.minecraft.client.renderer.model.IBakedModel
 import net.minecraft.util.WeightedRandom
 import java.util.Random
 /**
 * Model that makes use of advanced rendering features.
 */
 interface SpecialRenderModel : IBakedModel {
    fun render(ctx: RenderCtxBase, noDecorations: Boolean = false)
 }
 class WeightedModelWrapper(
    val models: List<WeightedModel>, baseModel: SpecialRenderModel
 ): IBakedModel by baseModel, SpecialRenderModel {
    class WeightedModel(val model: SpecialRenderModel, weight: Int) : WeightedRandom.Item(weight)
    val totalWeight = models.sumBy { it.weight }
    fun getModel(random: Random) = WeightedRandom.getWeightedItem(models, random.nextInt(totalWeight))
    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
        getModel(ctx.random).model.render(ctx, noDecorations)
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/model/SpriteSets.kt
+++ b/src/main/kotlin/mods/betterfoliage/model/SpriteSets.kt
@@ -0,0 +1,83 @@
 package mods.betterfoliage.model
 import mods.betterfoliage.BetterFoliageMod
 import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.util.resourceManager
 import net.minecraft.client.renderer.texture.MissingTextureSprite
 import net.minecraft.client.renderer.texture.TextureAtlasSprite
 import net.minecraft.util.ResourceLocation
 import net.minecraftforge.client.event.TextureStitchEvent
 import net.minecraftforge.eventbus.api.SubscribeEvent
 import kotlin.properties.ReadOnlyProperty
 import kotlin.reflect.KProperty
 interface SpriteSet {
    val num: Int
    operator fun get(idx: Int): TextureAtlasSprite
 }
 class FixedSpriteSet(val sprites: List<TextureAtlasSprite>) : SpriteSet {
    override val num = sprites.size
    override fun get(idx: Int) = sprites[idx % num]
 }
 class SpriteDelegate(val atlas: Atlas, val idFunc: () -> ResourceLocation) : ReadOnlyProperty<Any, TextureAtlasSprite> {
    private lateinit var id: ResourceLocation
    private var value: TextureAtlasSprite? = null
    init {
        BetterFoliageMod.bus.register(this)
    }
    @SubscribeEvent
    fun handlePreStitch(event: TextureStitchEvent.Pre) {
        id = idFunc(); value = null
        event.addSprite(id)
    }
    override fun getValue(thisRef: Any, property: KProperty<*>): TextureAtlasSprite {
        value?.let { return it }
        synchronized(this) {
            value?.let { return it }
            atlas[id].let { value = it; return it }
        }
    }
 }
 class SpriteSetDelegate(
    val atlas: Atlas,
    val idRegister: (ResourceLocation) -> ResourceLocation = { it },
    val idFunc: (Int) -> ResourceLocation
 ) : ReadOnlyProperty<Any, SpriteSet> {
    private var idList: List<ResourceLocation> = emptyList()
    private var spriteSet: SpriteSet? = null
    init {
        BetterFoliageMod.bus.register(this)
    }
    @SubscribeEvent
    fun handlePreStitch(event: TextureStitchEvent.Pre) {
        if (event.map.location() != Atlas.BLOCKS.resourceId) return
        spriteSet = null
        idList = (0 until 16)
            .map(idFunc)
            .filter { resourceManager.hasResource(atlas.file(it)) }
            .map(idRegister)
        idList.forEach { event.addSprite(it) }
    }
    override fun getValue(thisRef: Any, property: KProperty<*>): SpriteSet {
        spriteSet?.let { return it }
        synchronized(this) {
            spriteSet?.let { return it }
            spriteSet = FixedSpriteSet(
                idList
                    .ifEmpty { listOf(MissingTextureSprite.getLocation()) }
                    .map { atlas[it] }
            )
            return spriteSet!!
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/model/TuftMeshes.kt
+++ b/src/main/kotlin/mods/betterfoliage/model/TuftMeshes.kt
@@ -0,0 +1,108 @@
 package mods.betterfoliage.model
 import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.util.Double3
 import mods.betterfoliage.util.PI2
 import mods.betterfoliage.util.allDirections
 import mods.betterfoliage.util.random
 import mods.betterfoliage.util.randomB
 import mods.betterfoliage.util.randomD
 import mods.betterfoliage.util.randomI
 import mods.betterfoliage.util.rot
 import mods.betterfoliage.util.vec
 import net.minecraft.client.renderer.texture.TextureAtlasSprite
 import net.minecraft.util.Direction.UP
 import net.minecraft.util.ResourceLocation
 import kotlin.math.cos
 import kotlin.math.sin
 fun xzDisk(modelIdx: Int) = (PI2 * modelIdx.toDouble() / 64.0).let { Double3(cos(it), 0.0, sin(it)) }
 data class TuftShapeKey(
    val size: Double,
    val height: Double,
    val offset: Double3,
    val flipU1: Boolean,
    val flipU2: Boolean
 )
 fun tuftShapeSet(size: Double, heightMin: Double, heightMax: Double, hOffset: Double): Array<TuftShapeKey> {
    return Array(64) { idx ->
        TuftShapeKey(
            size,
            randomD(heightMin, heightMax),
            xzDisk(idx) * randomD(hOffset / 2.0, hOffset),
            randomB(),
            randomB()
        )
    }
 }
 fun tuftQuadSingle(size: Double, height: Double, flipU: Boolean) =
    Quad.verticalRectangle(
        x1 = -0.5 * size,
        z1 = 0.5 * size,
        x2 = 0.5 * size,
        z2 = -0.5 * size,
        yBottom = 0.5,
        yTop = 0.5 + height
    )
        .mirrorUV(flipU, false)
 fun tuftModelSet(shapes: Array<TuftShapeKey>, tintIndex: Int, spriteGetter: (Int) -> TextureAtlasSprite) =
    shapes.mapIndexed { idx, shape ->
        listOf(
            tuftQuadSingle(shape.size, shape.height, shape.flipU1),
            tuftQuadSingle(shape.size, shape.height, shape.flipU2).rotate(rot(UP))
        ).map { it.move(shape.offset) }
            .map { it.colorIndex(tintIndex) }
            .map { it.sprite(spriteGetter(idx)) }
    }
 fun fullCubeTextured(
    spriteLocation: ResourceLocation,
    tintIndex: Int,
    scrambleUV: Boolean = true
 ): List<HalfBakedQuad> {
    val sprite = Atlas.BLOCKS[spriteLocation]
    return allDirections.map { Quad.faceQuad(it) }
        .map { if (!scrambleUV) it else it.rotateUV(randomI(max = 4)) }
        .map { it.sprite(sprite) }
        .map { it.colorIndex(tintIndex) }
        .bake(true)
 }
 fun crossModelsRaw(num: Int, size: Double, hOffset: Double, vOffset: Double): List<List<Quad>> {
    return (0 until num).map { idx ->
        listOf(
            Quad.verticalRectangle(x1 = -0.5, z1 = 0.5, x2 = 0.5, z2 = -0.5, yBottom = -0.5 * 1.41, yTop = 0.5 * 1.41),
            Quad.verticalRectangle(x1 = -0.5, z1 = 0.5, x2 = 0.5, z2 = -0.5, yBottom = -0.5 * 1.41, yTop = 0.5 * 1.41)
                .rotate(rot(UP))
        ).map { it.scale(size) }
            .map { it.move(xzDisk(idx) * hOffset) }
            .map { it.move(UP.vec * randomD(-1.0, 1.0) * vOffset) }
    }
 }
 fun crossModelSingle(base: List<Quad>, sprite: TextureAtlasSprite, tintIndex: Int,scrambleUV: Boolean) =
    base.map { if (scrambleUV) it.scrambleUV(random, canFlipU = true, canFlipV = true, canRotate = true) else it }
        .map { it.colorIndex(tintIndex) }
        .mapIndexed { idx, quad -> quad.sprite(sprite) }
        .withOpposites()
        .bake(false)
 fun crossModelsTextured(
    leafBase: Iterable<List<Quad>>,
    tintIndex: Int,
    scrambleUV: Boolean,
    spriteGetter: (Int) -> ResourceLocation
 ) = leafBase.mapIndexed { idx, leaf ->
    crossModelSingle(leaf, Atlas.BLOCKS[spriteGetter(idx)], tintIndex, scrambleUV)
 }.toTypedArray()
 fun Iterable<Quad>.withOpposites() = flatMap { listOf(it, it.flipped) }
 fun Iterable<List<Quad>>.buildTufts(applyDiffuseLighting: Boolean = false) =
    map { it.withOpposites().bake(applyDiffuseLighting) }.toTypedArray()
 fun Iterable<List<Quad>>.transform(trans: Quad.(Int)-> Quad) = mapIndexed { idx, qList -> qList.map { it.trans(idx) } }
--- a/src/main/kotlin/mods/betterfoliage/render/AbstractParticle.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/AbstractParticle.kt
@@ -1,130 +0,0 @@
 package mods.betterfoliage.render
 import mods.betterfoliage.util.Double3
 import net.minecraft.client.MinecraftClient
 import net.minecraft.client.particle.ParticleTextureSheet
 import net.minecraft.client.particle.SpriteBillboardParticle
 import net.minecraft.client.render.BufferBuilder
 import net.minecraft.client.render.Camera
 import net.minecraft.client.texture.Sprite
 import net.minecraft.world.World
 import kotlin.math.cos
 import kotlin.math.sin
 abstract class AbstractParticle(world: World, x: Double, y: Double, z: Double) : SpriteBillboardParticle(world, x, y, z) {
    companion object {
 //        @JvmStatic val sin = Array(64) { idx -> Math.sin(PI2 / 64.0 * idx) }
 //        @JvmStatic val cos = Array(64) { idx -> Math.cos(PI2 / 64.0 * idx) }
    }
    val billboardRot = Pair(Double3.zero, Double3.zero)
    val currentPos = Double3.zero
    val prevPos = Double3.zero
    val velocity = Double3.zero
    override fun tick() {
        super.tick()
        currentPos.setTo(x, y, z)
        prevPos.setTo(prevPosX, prevPosY, prevPosZ)
        velocity.setTo(velocityX, velocityY, velocityZ)
        update()
        x = currentPos.x; y = currentPos.y; z = currentPos.z;
        velocityX = velocity.x; velocityY = velocity.y; velocityZ = velocity.z;
    }
    /** Render the particle. */
    abstract fun render(worldRenderer: BufferBuilder, partialTickTime: Float)
    /** Update particle on world tick. */
    abstract fun update()
    /** True if the particle is renderable. */
    abstract val isValid: Boolean
    /** Add the particle to the effect renderer if it is valid. */
    fun addIfValid() { if (isValid) MinecraftClient.getInstance().particleManager.addParticle(this) }
    override fun buildGeometry(buffer: BufferBuilder, camera: Camera, tickDelta: Float, rotX: Float, rotZ: Float, rotYZ: Float, rotXY: Float, rotXZ: Float) {
        billboardRot.first.setTo(rotX + rotXY, rotZ, rotYZ + rotXZ)
        billboardRot.second.setTo(rotX - rotXY, -rotZ, rotYZ - rotXZ)
        render(buffer, tickDelta)
    }
    /**
     * Render a particle quad.
     *
     * @param[tessellator] the [Tessellator] instance to use
     * @param[partialTickTime] partial tick time
     * @param[currentPos] render position
     * @param[prevPos] previous tick position for interpolation
     * @param[size] particle size
     * @param[rotation] viewpoint-dependent particle rotation (64 steps)
     * @param[sprite] particle texture
     * @param[isMirrored] mirror particle texture along V-axis
     * @param[alpha] aplha blending
     */
    fun renderParticleQuad(worldRenderer: BufferBuilder,
                           partialTickTime: Float,
                           currentPos: Double3 = this.currentPos,
                           prevPos: Double3 = this.prevPos,
                           size: Double = scale.toDouble(),
                           rotation: Double = 0.0,
                           sprite: Sprite = this.sprite,
                           isMirrored: Boolean = false,
                           alpha: Float = this.colorAlpha) {
        val minU = (if (isMirrored) sprite.minU else sprite.maxU).toDouble()
        val maxU = (if (isMirrored) sprite.maxU else sprite.minU).toDouble()
        val minV = sprite.minV.toDouble()
        val maxV = sprite.maxV.toDouble()
        val center = currentPos.copy().sub(prevPos).mul(partialTickTime.toDouble()).add(prevPos).sub(cameraX, cameraY, cameraZ)
        val cosRotation = cos(rotation); val sinRotation = sin(rotation)
        val v1 = Double3.weight(billboardRot.first, cosRotation * size, billboardRot.second, sinRotation * size)
        val v2 = Double3.weight(billboardRot.first, -sinRotation * size, billboardRot.second, cosRotation * size)
        val renderBrightness = this.getColorMultiplier(partialTickTime)
        val brHigh = renderBrightness shr 16 and 65535
        val brLow = renderBrightness and 65535
        worldRenderer
            .vertex(center.x - v1.x, center.y - v1.y, center.z - v1.z)
            .texture(maxU, maxV)
            .color(colorRed, colorGreen, colorBlue, alpha)
            .texture(brHigh, brLow)
            .next()
        worldRenderer
            .vertex(center.x - v2.x, center.y - v2.y, center.z - v2.z)
            .texture(maxU, minV)
            .color(colorRed, colorGreen, colorBlue, alpha)
            .texture(brHigh, brLow)
            .next()
        worldRenderer
            .vertex(center.x + v1.x, center.y + v1.y, center.z + v1.z)
            .texture(minU, minV)
            .color(colorRed, colorGreen, colorBlue, alpha)
            .texture(brHigh, brLow)
            .next()
        worldRenderer
            .vertex(center.x + v2.x, center.y + v2.y, center.z + v2.z)
            .texture(minU, maxV)
            .color(colorRed, colorGreen, colorBlue, alpha)
            .texture(brHigh, brLow)
            .next()
    }
    override fun getType() = ParticleTextureSheet.PARTICLE_SHEET_OPAQUE
    fun setColor(color: Int) {
        colorBlue = (color and 255) / 256.0f
        colorGreen = ((color shr 8) and 255) / 256.0f
        colorRed = ((color shr 16) and 255) / 256.0f
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/Misc.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/Misc.kt
@@ -1,12 +0,0 @@
 package mods.betterfoliage.render
 import net.minecraft.block.Blocks
 import net.minecraft.block.Material
 import net.minecraft.world.biome.Biome
 val DIRT_BLOCKS = listOf(Blocks.DIRT, Blocks.COARSE_DIRT)
 val SAND_BLOCKS = listOf(Blocks.SAND, Blocks.RED_SAND)
 val SALTWATER_BIOMES = listOf(Biome.Category.BEACH, Biome.Category.OCEAN)
 val SNOW_MATERIALS = listOf(Material.SNOW, Material.SNOW_BLOCK)
--- a/src/main/kotlin/mods/betterfoliage/render/OptifineCustomColors.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/OptifineCustomColors.kt
@@ -1,48 +0,0 @@
 package mods.betterfoliage.render
 import mods.betterfoliage.*
 import mods.betterfoliage.util.ThreadLocalDelegate
 import net.minecraft.block.BlockState
 import net.minecraft.client.MinecraftClient
 import net.minecraft.client.render.model.BakedQuad
 import net.minecraft.util.math.BlockPos
 import net.minecraft.util.math.Direction.UP
 import org.apache.logging.log4j.Level
 /**
 * Integration for OptiFine custom block colors.
 */
 /*
@Suppress("UNCHECKED_CAST")
 object OptifineCustomColors {
    val isColorAvailable = allAvailable(CustomColors, CustomColors.getColorMultiplier)
    init {
        BetterFoliage.log(Level.INFO, "Optifine custom color support is ${if (isColorAvailable) "enabled" else "disabled" }")
    }
    val renderEnv by ThreadLocalDelegate { OptifineRenderEnv() }
    val fakeQuad = BakedQuad(IntArray(0), 1, UP, null)
    fun getBlockColor(ctx: CombinedContext): Int {
        val ofColor = if (isColorAvailable && MinecraftClient.getInstance().options.reflectDeclaredField<Boolean>("ofCustomColors") == true) {
            renderEnv.reset(ctx.state, ctx.pos)
            CustomColors.getColorMultiplier.invokeStatic(fakeQuad, ctx.state, ctx.world, ctx.pos, renderEnv.wrapped) as? Int
        } else null
        return if (ofColor == null || ofColor == -1) ctx.lightingCtx.color else ofColor
    }
 }
 class OptifineRenderEnv {
    val wrapped: Any = RenderEnv.element!!.getDeclaredConstructor(BlockState.element, BlockPos.element).let {
        it.isAccessible = true
        it.newInstance(null, null)
    }
    fun reset(state: BlockState, pos: BlockPos) {
        RenderEnv.reset.invoke(wrapped, state, pos)
    }
 }
 */
--- a/src/main/kotlin/mods/betterfoliage/render/ShadersModIntegration.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/ShadersModIntegration.kt
@@ -1,64 +0,0 @@
 package mods.betterfoliage.render
 import mods.betterfoliage.BetterFoliage
 import mods.betterfoliage.util.get
 import net.minecraft.block.BlockRenderType
 import net.minecraft.block.BlockRenderType.MODEL
 import net.minecraft.block.BlockState
 import net.minecraft.block.Blocks
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.ExtendedBlockView
 import org.apache.logging.log4j.Level.INFO
 /**
 * Integration for ShadersMod.
 */
 /*
 object ShadersModIntegration {
    @JvmStatic val isAvailable = allAvailable(SVertexBuilder, SVertexBuilder.pushState, SVertexBuilder.pushNum, SVertexBuilder.pop)
    val defaultLeaves = Blocks.OAK_LEAVES.defaultState
    val defaultGrass = Blocks.TALL_GRASS.defaultState
    /**
     * Called from transformed ShadersMod code.
     * @see mods.betterfoliage.loader.BetterFoliageTransformer
     */
    @JvmStatic fun getBlockStateOverride(state: BlockState, world: ExtendedBlockView, pos: BlockPos): BlockState {
 //        if (LeafRegistry[state, world, pos] != null) return defaultLeaves
        if (BetterFoliage.blockConfig.crops.matchesClass(state.block)) return defaultGrass
        return state
    }
    init {
        BetterFoliage.log(INFO, "ShadersMod integration is ${if (isAvailable) "enabled" else "disabled" }")
    }
    inline fun renderAs(ctx: CombinedContext, renderType: BlockRenderType, enabled: Boolean = true, func: ()->Unit) =
        renderAs(ctx, ctx.state, renderType, enabled, func)
    /** Quads rendered inside this block will use the given block entity data in shader programs. */
    inline fun renderAs(ctx: CombinedContext, state: BlockState, renderType: BlockRenderType, enabled: Boolean = true, func: ()->Unit) {
        if (isAvailable && enabled) {
            val buffer = ctx.renderCtx.renderBuffer
            val sVertexBuilder = buffer[BufferBuilder_sVertexBuilder]
            SVertexBuilder.pushState.invoke(sVertexBuilder!!, ctx.state, ctx.pos, ctx.world, buffer)
            func()
            SVertexBuilder.pop.invoke(sVertexBuilder)
        } else {
            func()
        }
    }
    /** Quads rendered inside this block will behave as tallgrass blocks in shader programs. */
    inline fun grass(ctx: CombinedContext, enabled: Boolean = true, func: ()->Unit) =
        renderAs(ctx, defaultGrass, MODEL, enabled, func)
    /** Quads rendered inside this block will behave as leaf blocks in shader programs. */
    inline fun leaves(ctx: CombinedContext, enabled: Boolean = true, func: ()->Unit) =
        renderAs(ctx, defaultLeaves, MODEL, enabled, func)
 }
 */
--- a/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Cactus.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Cactus.kt
@@ -1,94 +1,90 @@
 package mods.betterfoliage.render.block.vanilla
 import mods.betterfoliage.BetterFoliageMod
 import mods.betterfoliage.BetterFoliage
-import mods.betterfoliage.render.lighting.withLighting
+import mods.betterfoliage.config.CACTUS_BLOCKS
-import mods.betterfoliage.render.lighting.grassTuftLighting
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.render.lighting.roundLeafLighting
+import mods.betterfoliage.model.HalfBakedSpecialWrapper
 import mods.betterfoliage.model.HalfBakedWrapperKey
 import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.model.SpriteSetDelegate
 import mods.betterfoliage.model.buildTufts
 import mods.betterfoliage.model.crossModelsRaw
 import mods.betterfoliage.model.crossModelsTextured
 import mods.betterfoliage.model.transform
 import mods.betterfoliage.model.tuftModelSet
 import mods.betterfoliage.model.tuftShapeSet
 import mods.betterfoliage.render.lighting.LightingPreferredFace
 import mods.betterfoliage.render.lighting.RoundLeafLighting
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import mods.betterfoliage.resource.discovery.AbstractModelDiscovery
 import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelDiscoveryContext
 import mods.betterfoliage.util.Atlas
-import mods.betterfoliage.resource.discovery.*
+import mods.betterfoliage.util.LazyInvalidatable
-import mods.betterfoliage.resource.model.*
+import mods.betterfoliage.util.Rotation
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.get
-import net.fabricmc.fabric.api.renderer.v1.model.FabricBakedModel
+import mods.betterfoliage.util.horizontalDirections
-import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
+import mods.betterfoliage.util.randomD
-import net.minecraft.block.BlockState
+import mods.betterfoliage.util.randomI
-import net.minecraft.block.CactusBlock
+import net.minecraft.block.Blocks
-import net.minecraft.client.render.model.BakedModel
+import net.minecraft.client.renderer.model.BlockModel
-import net.minecraft.util.Identifier
+import net.minecraft.util.Direction.DOWN
-import net.minecraft.util.math.BlockPos
+import net.minecraft.util.ResourceLocation
 import net.minecraft.util.math.Direction.DOWN
 import net.minecraft.world.ExtendedBlockView
 import java.util.*
 import java.util.function.Consumer
 import java.util.function.Supplier
-
+object StandardCactusDiscovery : AbstractModelDiscovery() {
-interface CactusKey : BlockRenderKey {
+    override fun processModel(ctx: ModelDiscoveryContext) {
-    val cactusTop: Identifier
+        val model = ctx.getUnbaked()
-    val cactusBottom: Identifier
+        if (model is BlockModel && ctx.blockState.block in CACTUS_BLOCKS) {
-    val cactusSide: Identifier
+            BetterFoliage.blockTypes.dirt.add(ctx.blockState)
-}
+            ctx.addReplacement(StandardCactusKey)
-
+            ctx.sprites.add(StandardCactusModel.cactusCrossSprite)
-object StandardCactusDiscovery : ConfigurableModelDiscovery() {
+        }
-    override val logger = BetterFoliage.logDetail
+        super.processModel(ctx)
    override val matchClasses = SimpleBlockMatcher(CactusBlock::class.java)
    override val modelTextures = listOf(ModelTextureList("block/cactus", "top", "bottom", "side"))
    override fun processModel(state: BlockState, textures: List<String>, atlas: Consumer<Identifier>): BlockRenderKey? {
        val sprites = textures.map { Identifier(it) }
        return CactusModel.Key(sprites[0], sprites[1], sprites[2])
    }
 }
-class CactusModel(val key: Key, wrapped: BakedModel) : WrappedBakedModel(wrapped), FabricBakedModel {
+object StandardCactusKey : HalfBakedWrapperKey() {
    override fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel) = StandardCactusModel(wrapped)
 }
-    val crossModels by cactusCrossModels.delegate(key)
+class StandardCactusModel(
-    val armModels by cactusArmModels.delegate(key)
+    wrapped: SpecialRenderModel
-    val armLighting = horizontalDirections.map { grassTuftLighting(it) }
+) : HalfBakedSpecialWrapper(wrapped) {
    val crossLighting = roundLeafLighting()
-    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
+    val armLighting = horizontalDirections.map { LightingPreferredFace(it) }.toTypedArray()
        (wrapped as FabricBakedModel).emitBlockQuads(blockView, state, pos, randomSupplier, context)
        if (!BetterFoliage.config.enabled || !BetterFoliage.config.cactus.enabled) return
-        val random = randomSupplier.get()
+    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
-        val armSide = random.nextInt() and 3
+        ctx.checkSides = false
        super.render(ctx, noDecorations)
        if (!Config.enabled || !Config.cactus.enabled) return
-        context.withLighting(armLighting[armSide]) {
+        val armSide = ctx.random.nextInt() and 3
-            it.accept(armModels[armSide][random])
+        ctx.vertexLighter = armLighting[armSide]
-        }
+        ctx.renderQuads(cactusArmModels[armSide][ctx.random])
-        context.withLighting(crossLighting) {
+        ctx.vertexLighter = RoundLeafLighting
-            it.accept(crossModels[random])
+        ctx.renderQuads(cactusCrossModels[ctx.random])
        }
    }
    data class Key(
        override val cactusTop: Identifier,
        override val cactusBottom: Identifier,
        override val cactusSide: Identifier
    ) : CactusKey {
        override fun replace(model: BakedModel, state: BlockState) = CactusModel(this, meshifyStandard(model, state))
    }
    companion object {
-        val cactusCrossSprite by SpriteDelegate(Atlas.BLOCKS) {
+        val cactusCrossSprite = ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_cactus")
            Identifier(BetterFoliage.MOD_ID, "blocks/better_cactus")
        }
        val cactusArmSprites by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_cactus_arm_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_cactus_arm_$idx")
        }
-        val cactusArmModels = LazyMap(BetterFoliage.modelReplacer) { key: CactusKey ->
+        val cactusArmModels by LazyInvalidatable(BakeWrapperManager) {
-            val shapes = BetterFoliage.config.cactus.let { tuftShapeSet(0.8, 0.8, 0.8, 0.2) }
+            val shapes = Config.cactus.let { tuftShapeSet(0.8, 0.8, 0.8, 0.2) }
-            val models = tuftModelSet(shapes, Color.white.asInt) { cactusArmSprites[randomI()] }
+            val models = tuftModelSet(shapes, -1) { cactusArmSprites[randomI()] }
            horizontalDirections.map { side ->
                models.transform { move(0.0625 to DOWN).rotate(Rotation.fromUp[side.ordinal]) }.buildTufts()
            }.toTypedArray()
        }
-        val cactusCrossModels = LazyMap(BetterFoliage.modelReplacer) { key: CactusKey ->
+        val cactusCrossModels by LazyInvalidatable(BakeWrapperManager) {
-            val models = BetterFoliage.config.cactus.let { config ->
+            val models = Config.cactus.let { config ->
                crossModelsRaw(64, config.size, 0.0, 0.0)
                    .transform { rotateZ(randomD(-config.sizeVariation, config.sizeVariation)) }
            }
-            crossModelsTextured(models, Color.white.asInt, true) { cactusCrossSprite }
+            crossModelsTextured(models, -1, true) { cactusCrossSprite }
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Dirt.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Dirt.kt
@@ -1,101 +1,120 @@
 package mods.betterfoliage.render.block.vanilla
 import mods.betterfoliage.BetterFoliage
-import mods.betterfoliage.chunk.BasicBlockCtx
+import mods.betterfoliage.BetterFoliageMod
-import mods.betterfoliage.render.DIRT_BLOCKS
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.render.SALTWATER_BIOMES
+import mods.betterfoliage.config.DIRT_BLOCKS
-import mods.betterfoliage.render.lighting.withLighting
+import mods.betterfoliage.config.SALTWATER_BIOMES
-import mods.betterfoliage.render.lighting.grassTuftLighting
+import mods.betterfoliage.config.isSnow
-import mods.betterfoliage.render.lighting.reedLighting
+import mods.betterfoliage.integration.ShadersModIntegration
-import mods.betterfoliage.render.lighting.renderMasquerade
+import mods.betterfoliage.model.HalfBakedSpecialWrapper
-import mods.betterfoliage.util.Atlas
+import mods.betterfoliage.model.HalfBakedWrapperKey
-import mods.betterfoliage.resource.discovery.BlockRenderKey
+import mods.betterfoliage.model.SpecialRenderModel
-import mods.betterfoliage.resource.discovery.ModelDiscoveryBase
+import mods.betterfoliage.model.SpriteSetDelegate
 import mods.betterfoliage.model.buildTufts
 import mods.betterfoliage.model.tuftModelSet
 import mods.betterfoliage.model.tuftShapeSet
 import mods.betterfoliage.render.lighting.LightingPreferredFace
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import mods.betterfoliage.resource.discovery.AbstractModelDiscovery
 import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelDiscoveryContext
 import mods.betterfoliage.resource.generated.CenteredSprite
-import mods.betterfoliage.resource.model.*
+import mods.betterfoliage.util.Atlas
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.Int3
-import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
+import mods.betterfoliage.util.LazyInvalidatable
-import net.minecraft.block.BlockRenderLayer
+import mods.betterfoliage.util.get
-import net.minecraft.block.BlockState
+import mods.betterfoliage.util.offset
-import net.minecraft.block.Material
+import mods.betterfoliage.util.randomI
-import net.minecraft.client.MinecraftClient
+import net.minecraft.block.material.Material
-import net.minecraft.client.render.model.BakedModel
+import net.minecraft.client.renderer.RenderType
-import net.minecraft.util.Identifier
+import net.minecraft.client.renderer.RenderTypeLookup
-import net.minecraft.util.math.BlockPos
+import net.minecraft.client.renderer.model.BlockModel
-import net.minecraft.util.math.Direction.UP
+import net.minecraft.util.Direction.UP
-import net.minecraft.world.ExtendedBlockView
+import net.minecraft.util.ResourceLocation
 import java.util.*
 import java.util.function.Consumer
 import java.util.function.Supplier
-object DirtKey : BlockRenderKey {
+object StandardDirtDiscovery : AbstractModelDiscovery() {
-    override fun replace(model: BakedModel, state: BlockState) = DirtModel(meshifyStandard(model, state))
+    fun canRenderInLayer(layer: RenderType) = when {
        !Config.enabled -> layer == RenderType.solid()
        !Config.connectedGrass.enabled && !Config.algae.enabled && !Config.reed.enabled -> layer == RenderType.solid()
        else -> layer == RenderType.cutoutMipped()
    }
    override fun processModel(ctx: ModelDiscoveryContext) {
        if (ctx.getUnbaked() is BlockModel && ctx.blockState.block in DIRT_BLOCKS) {
            BetterFoliage.blockTypes.dirt.add(ctx.blockState)
            ctx.addReplacement(StandardDirtKey)
            RenderTypeLookup.setRenderLayer(ctx.blockState.block, ::canRenderInLayer)
        }
        super.processModel(ctx)
    }
 }
-object DirtDiscovery : ModelDiscoveryBase() {
+object StandardDirtKey : HalfBakedWrapperKey() {
-    override val logger = BetterFoliage.logDetail
+    override fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel) = StandardDirtModel(wrapped)
    override fun processModel(ctx: ModelDiscoveryContext, atlas: Consumer<Identifier>) =
        if (ctx.state.block in DIRT_BLOCKS) DirtKey else null
 }
-class DirtModel(wrapped: BakedModel) : WrappedBakedModel(wrapped) {
+class StandardDirtModel(
    wrapped: SpecialRenderModel
 ) : HalfBakedSpecialWrapper(wrapped) {
    val vanillaTuftLighting = LightingPreferredFace(UP)
-    val algaeLighting = grassTuftLighting(UP)
+    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
-    val reedLighting = reedLighting()
+        if (!Config.enabled || noDecorations) return super.render(ctx, noDecorations)
-    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
+        val stateUp = ctx.state(UP)
-        if (!BetterFoliage.config.enabled) return super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
+        val state2Up = ctx.state(Int3(0, 2, 0))
        val isConnectedGrass = Config.connectedGrass.enabled &&
                stateUp in BetterFoliage.blockTypes.grass &&
                (Config.connectedGrass.snowEnabled || !state2Up.isSnow)
-        val ctx = BasicBlockCtx(blockView, pos)
+        if (isConnectedGrass) {
-        val stateUp = ctx.offset(UP).state
+            (ctx.blockModelShapes.getBlockModel(stateUp) as? SpecialRenderModel)?.let { grassModel ->
-        val keyUp = BetterFoliage.modelReplacer[stateUp]
+                ctx.renderMasquerade(UP.offset) {
-
+                    grassModel.render(ctx, true)
-        val isWater = stateUp.material == Material.WATER
+                }
-        val isDeepWater = isWater && ctx.offset(Int3(2 to UP)).state.material == Material.WATER
+                return
-        val isShallowWater = isWater && ctx.offset(Int3(2 to UP)).state.isAir
+            }
-        val isSaltWater = isWater && ctx.biome.category in SALTWATER_BIOMES
+            return super.render(ctx, false)
        if (BetterFoliage.config.connectedGrass.enabled && keyUp is GrassKey) {
            val grassBaseModel = (ctx.model(UP) as WrappedBakedModel).wrapped
            context.renderMasquerade(grassBaseModel, blockView, stateUp, pos, randomSupplier, context)
        } else {
            super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
        }
-        val random = randomSupplier.get()
+        super.render(ctx, false)
-        if (BetterFoliage.config.algae.enabled(random) && isDeepWater) {
+
-            context.withLighting(algaeLighting) {
+        val isWater = stateUp.material == Material.WATER
-                it.accept(algaeModels[random])
+        val isDeepWater = isWater && state2Up.material == Material.WATER
        val isShallowWater = isWater && state2Up.isAir
        val isSaltWater = isWater && ctx.biome?.biomeCategory in SALTWATER_BIOMES
        if (Config.algae.enabled(ctx.random) && isDeepWater) {
            ctx.vertexLighter = vanillaTuftLighting
            ShadersModIntegration.grass(ctx, Config.algae.shaderWind) {
                ctx.renderQuads(algaeModels[ctx.random])
            }
-        } else if (BetterFoliage.config.reed.enabled(random) && isShallowWater && !isSaltWater) {
+        } else if (Config.reed.enabled(ctx.random) && isShallowWater && !isSaltWater) {
-            context.withLighting(reedLighting) {
+            ctx.vertexLighter = vanillaTuftLighting
-                it.accept(reedModels[random])
+            ShadersModIntegration.grass(ctx, Config.reed.shaderWind) {
                ctx.renderQuads(reedModels[ctx.random])
            }
        }
    }
    companion object {
        val algaeSprites by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_algae_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_algae_$idx")
        }
-        val reedSprites by SpriteSetDelegate(Atlas.BLOCKS,
+        val reedSprites by SpriteSetDelegate(
-            idFunc = { idx -> Identifier(BetterFoliage.MOD_ID, "blocks/better_reed_$idx") },
+            Atlas.BLOCKS,
            idFunc = { idx -> ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_reed_$idx") },
            idRegister = { id -> CenteredSprite(id, aspectHeight = 2).register(BetterFoliage.generatedPack) }
        )
-        val algaeModels by LazyInvalidatable(BetterFoliage.modelReplacer) {
+        val algaeModels by LazyInvalidatable(BakeWrapperManager) {
-            val shapes = BetterFoliage.config.algae.let { tuftShapeSet(it.size, it.heightMin, it.heightMax, it.hOffset) }
+            val shapes = Config.algae.let { tuftShapeSet(it.size, it.heightMin, it.heightMax, it.hOffset) }
-            tuftModelSet(shapes, Color.white.asInt) { algaeSprites[randomI()] }
+            tuftModelSet(shapes, -1) { algaeSprites[randomI()] }.buildTufts()
                .withOpposites()
                .build(BlockRenderLayer.CUTOUT_MIPPED, flatLighting = false)
        }
-        val reedModels by LazyInvalidatable(BetterFoliage.modelReplacer) {
+        val reedModels by LazyInvalidatable(BakeWrapperManager) {
-            val shapes = BetterFoliage.config.reed.let { tuftShapeSet(2.0, it.heightMin, it.heightMax, it.hOffset) }
+            val shapes = Config.reed.let { tuftShapeSet(2.0, it.heightMin, it.heightMax, it.hOffset) }
-            tuftModelSet(shapes, Color.white.asInt) { reedSprites[randomI()] }
+            tuftModelSet(shapes, -1) { reedSprites[randomI()] }.buildTufts()
                .withOpposites()
                .build(BlockRenderLayer.CUTOUT_MIPPED, flatLighting = false)
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Grass.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Grass.kt
@@ -1,121 +1,118 @@
 package mods.betterfoliage.render.block.vanilla
 import mods.betterfoliage.BetterFoliage
-import mods.betterfoliage.chunk.BasicBlockCtx
+import mods.betterfoliage.BetterFoliageMod
-import mods.betterfoliage.render.SNOW_MATERIALS
+import mods.betterfoliage.config.BlockConfig
-import mods.betterfoliage.render.lighting.withLighting
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.render.lighting.grassTuftLighting
+import mods.betterfoliage.config.isSnow
 import mods.betterfoliage.integration.ShadersModIntegration
 import mods.betterfoliage.model.Color
 import mods.betterfoliage.model.HalfBakedSpecialWrapper
 import mods.betterfoliage.model.HalfBakedWrapperKey
 import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.model.SpriteSetDelegate
 import mods.betterfoliage.model.buildTufts
 import mods.betterfoliage.model.fullCubeTextured
 import mods.betterfoliage.model.tuftModelSet
 import mods.betterfoliage.model.tuftShapeSet
 import mods.betterfoliage.render.lighting.LightingPreferredFace
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.ConfigurableBlockMatcher
 import mods.betterfoliage.resource.discovery.ConfigurableModelDiscovery
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelDiscoveryContext
 import mods.betterfoliage.resource.discovery.ModelTextureList
 import mods.betterfoliage.util.Atlas
-import mods.betterfoliage.resource.discovery.*
+import mods.betterfoliage.util.LazyInvalidatable
-import mods.betterfoliage.resource.model.*
+import mods.betterfoliage.util.LazyMapInvalidatable
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.averageColor
-import net.fabricmc.fabric.api.renderer.v1.model.FabricBakedModel
+import mods.betterfoliage.util.colorOverride
-import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
+import mods.betterfoliage.util.get
-import net.minecraft.block.BlockRenderLayer
+import mods.betterfoliage.util.logColorOverride
-import net.minecraft.block.BlockState
+import mods.betterfoliage.util.randomI
-import net.minecraft.client.render.model.BakedModel
+import net.minecraft.util.Direction.DOWN
-import net.minecraft.tag.BlockTags
+import net.minecraft.util.Direction.UP
-import net.minecraft.util.Identifier
+import net.minecraft.util.ResourceLocation
 import net.minecraft.util.math.BlockPos
 import net.minecraft.util.math.Direction.*
 import net.minecraft.world.ExtendedBlockView
 import java.util.*
 import java.util.function.Consumer
 import java.util.function.Supplier
 interface GrassKey : BlockRenderKey {
    val grassTopTexture: Identifier
    /**
     * Color to use for Short Grass rendering instead of the biome color.
     *
     * Value is null if the texture is mostly grey (the saturation of its average color is under a configurable limit),
     * the average color of the texture otherwise.
     */
    val overrideColor: Int?
 }
 object StandardGrassDiscovery : ConfigurableModelDiscovery() {
-    override val logger = BetterFoliage.logDetail
+    override val matchClasses: ConfigurableBlockMatcher get() = BlockConfig.grassBlocks
-    override val matchClasses: ConfigurableBlockMatcher get() = BetterFoliage.blockConfig.grassBlocks
+    override val modelTextures: List<ModelTextureList> get() = BlockConfig.grassModels.modelList
    override val modelTextures: List<ModelTextureList> get() = BetterFoliage.blockConfig.grassModels.modelList
-    override fun processModel(state: BlockState, textures: List<String>, atlas: Consumer<Identifier>): BlockRenderKey? {
+    override fun processModel(ctx: ModelDiscoveryContext, textureMatch: List<ResourceLocation>) {
-        val grassId = Identifier(textures[0])
+        ctx.addReplacement(StandardGrassKey(textureMatch[0], null))
-        log(" block state $state")
+        BetterFoliage.blockTypes.grass.add(ctx.blockState)
        log("       texture $grassId")
        return GrassBlockModel.Key(grassId, getAndLogColorOverride(grassId, Atlas.BLOCKS, BetterFoliage.config.shortGrass.saturationThreshold))
    }
 }
-class GrassBlockModel(val key: Key, wrapped: BakedModel) : WrappedBakedModel(wrapped), FabricBakedModel {
+data class StandardGrassKey(
    val grassLocation: ResourceLocation,
    val overrideColor: Color?
 ) : HalfBakedWrapperKey() {
    val tintIndex: Int get() = if (overrideColor == null) 0 else -1
    override fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel): SpecialRenderModel {
        val grassSpriteColor = Atlas.BLOCKS[grassLocation].averageColor.let { hsb ->
            logColorOverride(BetterFoliageMod.detailLogger(this), Config.shortGrass.saturationThreshold, hsb)
            hsb.colorOverride(Config.shortGrass.saturationThreshold)
        }
        return StandardGrassModel(wrapped, this.copy(overrideColor = grassSpriteColor))
    }
 }
 class StandardGrassModel(
    wrapped: SpecialRenderModel,
    key: StandardGrassKey
 ) : HalfBakedSpecialWrapper(wrapped) {
    val tuftNormal by grassTuftMeshesNormal.delegate(key)
    val tuftSnowed by grassTuftMeshesSnowed.delegate(key)
    val fullBlock by grassFullBlockMeshes.delegate(key)
    val tuftLighting = LightingPreferredFace(UP)
-    val tuftLighting = grassTuftLighting(UP)
+    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
        if (!Config.enabled || noDecorations) return super.render(ctx, noDecorations)
    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
        if (!BetterFoliage.config.enabled) return super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
        val ctx = BasicBlockCtx(blockView, pos)
        val stateBelow = ctx.state(DOWN)
        val stateAbove = ctx.state(UP)
        val isAir = ctx.isAir(UP)
        val isSnowed = stateAbove.isSnow
        val connected = Config.connectedGrass.enabled &&
                (!isSnowed || Config.connectedGrass.snowEnabled) &&
                BetterFoliage.blockTypes.run { stateBelow in grass || stateBelow in dirt }
        val isSnowed = stateAbove.material in SNOW_MATERIALS
        val connected = BetterFoliage.config.connectedGrass.enabled &&
            (!isSnowed || BetterFoliage.config.connectedGrass.snowEnabled) && (
                BlockTags.DIRT_LIKE.contains(stateBelow.block) ||
                BetterFoliage.modelReplacer.getTyped<GrassKey>(stateBelow) != null
            )
        val random = randomSupplier.get()
        if (connected) {
-            context.meshConsumer().accept(if (isSnowed) snowFullBlockMeshes[random] else fullBlock[random])
+            ctx.renderQuads(if (isSnowed) snowFullBlockMeshes[ctx.random] else fullBlock[ctx.random])
        } else {
-            super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
+            super.render(ctx, noDecorations)
        }
-        if (BetterFoliage.config.shortGrass.enabled(random) && !ctx.isNeighborSolid(UP)) {
+        if (Config.shortGrass.enabled(ctx.random) && (isAir || isSnowed)) {
-            context.withLighting(tuftLighting) {
+            ctx.vertexLighter = tuftLighting
-                it.accept(if (isSnowed) tuftSnowed[random] else tuftNormal[random])
+            ShadersModIntegration.grass(ctx, Config.shortGrass.shaderWind) {
                ctx.renderQuads(if (isSnowed) tuftSnowed[ctx.random] else tuftNormal[ctx.random])
            }
        }
    }
    data class Key(
        override val grassTopTexture: Identifier,
        override val overrideColor: Int?
    ) : GrassKey {
        override fun replace(model: BakedModel, state: BlockState) = GrassBlockModel(this, meshifyStandard(model, state))
    }
    companion object {
-        val grassTuftSpritesNormal by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
+        val grassTuftSprites by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_grass_long_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_grass_long_$idx")
        }
-        val grassTuftSpritesSnowed by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
+        val grassTuftShapes by LazyInvalidatable(BakeWrapperManager) {
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_grass_long_$idx")
+            Config.shortGrass.let { tuftShapeSet(it.size, it.heightMin, it.heightMax, it.hOffset) }
        }
-        val grassTuftShapes = LazyMap(BetterFoliage.modelReplacer) { key: GrassKey ->
+        val grassTuftMeshesNormal = LazyMapInvalidatable(BakeWrapperManager) { key: StandardGrassKey ->
-            BetterFoliage.config.shortGrass.let { tuftShapeSet(it.size, it.heightMin, it.heightMax, it.hOffset) }
+            tuftModelSet(grassTuftShapes, key.tintIndex) { idx -> grassTuftSprites[randomI()] }.buildTufts()
        }
-        val grassTuftMeshesNormal = LazyMap(BetterFoliage.modelReplacer) { key: GrassKey ->
+        val grassTuftMeshesSnowed = LazyMapInvalidatable(BakeWrapperManager) { key: StandardGrassKey ->
-            tuftModelSet(grassTuftShapes[key], key.overrideColor) { idx -> grassTuftSpritesNormal[randomI()] }
+            tuftModelSet(grassTuftShapes, -1) { idx -> grassTuftSprites[randomI()] }.buildTufts()
                .withOpposites()
                .build(BlockRenderLayer.CUTOUT_MIPPED, flatLighting = false)
        }
-        val grassTuftMeshesSnowed = LazyMap(BetterFoliage.modelReplacer) { key: GrassKey ->
+        val grassFullBlockMeshes = LazyMapInvalidatable(BakeWrapperManager) { key: StandardGrassKey ->
-            tuftModelSet(grassTuftShapes[key], Color.white.asInt) { idx -> grassTuftSpritesSnowed[randomI()] }
+            Array(64) { fullCubeTextured(key.grassLocation, key.tintIndex) }
                .withOpposites()
                .build(BlockRenderLayer.CUTOUT_MIPPED, flatLighting = false)
        }
-        val grassFullBlockMeshes = LazyMap(BetterFoliage.modelReplacer) { key: GrassKey ->
+        val snowFullBlockMeshes by LazyInvalidatable(BakeWrapperManager) {
-            Array(64) { fullCubeTextured(key.grassTopTexture, key.overrideColor) }
+            Array(64) { fullCubeTextured(ResourceLocation("block/snow"), -1) }
        }
        val snowFullBlockMeshes by LazyInvalidatable(BetterFoliage.modelReplacer) {
            Array(64) { fullCubeTextured(Identifier("block/snow"), Color.white.asInt) }
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Leaf.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Leaf.kt
@@ -1,116 +1,101 @@
 package mods.betterfoliage.render.block.vanilla
 import mods.betterfoliage.BetterFoliage
-import mods.betterfoliage.chunk.BasicBlockCtx
+import mods.betterfoliage.BetterFoliageMod
-import mods.betterfoliage.render.SNOW_MATERIALS
+import mods.betterfoliage.config.BlockConfig
-import mods.betterfoliage.render.lighting.withLighting
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.render.lighting.roundLeafLighting
+import mods.betterfoliage.config.isSnow
 import mods.betterfoliage.integration.ShadersModIntegration
 import mods.betterfoliage.model.Color
 import mods.betterfoliage.model.HalfBakedSpecialWrapper
 import mods.betterfoliage.model.HalfBakedWrapperKey
 import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.model.SpriteSetDelegate
 import mods.betterfoliage.model.crossModelsRaw
 import mods.betterfoliage.model.crossModelsTextured
 import mods.betterfoliage.render.lighting.RoundLeafLightingPreferUp
 import mods.betterfoliage.render.particle.LeafBlockModel
 import mods.betterfoliage.render.particle.LeafParticleKey
 import mods.betterfoliage.render.particle.LeafParticleRegistry
-import mods.betterfoliage.util.Atlas
+import mods.betterfoliage.render.pipeline.RenderCtxBase
-import mods.betterfoliage.resource.discovery.*
+import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.ConfigurableBlockMatcher
 import mods.betterfoliage.resource.discovery.ConfigurableModelDiscovery
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelDiscoveryContext
 import mods.betterfoliage.resource.discovery.ModelTextureList
 import mods.betterfoliage.resource.generated.GeneratedLeafSprite
-import mods.betterfoliage.resource.model.*
+import mods.betterfoliage.util.Atlas
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.LazyMapInvalidatable
-import net.fabricmc.fabric.api.renderer.v1.model.FabricBakedModel
+import mods.betterfoliage.util.averageColor
-import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
+import mods.betterfoliage.util.colorOverride
-import net.minecraft.block.BlockRenderLayer.CUTOUT_MIPPED
+import mods.betterfoliage.util.logColorOverride
-import net.minecraft.block.BlockState
+import net.minecraft.util.Direction.UP
-import net.minecraft.client.render.model.BakedModel
+import net.minecraft.util.ResourceLocation
-import net.minecraft.util.Identifier
+import org.apache.logging.log4j.Level.INFO
 import net.minecraft.util.math.BlockPos
 import net.minecraft.util.math.Direction.*
 import net.minecraft.world.ExtendedBlockView
 import java.util.*
 import java.util.function.Consumer
 import java.util.function.Supplier
 interface LeafKey : BlockRenderKey {
    val roundLeafTexture: Identifier
    /** Type of the leaf block (configurable by user). */
    val leafType: String
    /** Average color of the round leaf texture. */
    val overrideColor: Int?
 }
 object StandardLeafDiscovery : ConfigurableModelDiscovery() {
-    override val logger = BetterFoliage.logDetail
+    override val matchClasses: ConfigurableBlockMatcher get() = BlockConfig.leafBlocks
-    override val matchClasses: ConfigurableBlockMatcher get() = BetterFoliage.blockConfig.leafBlocks
+    override val modelTextures: List<ModelTextureList> get() = BlockConfig.leafModels.modelList
    override val modelTextures: List<ModelTextureList> get() = BetterFoliage.blockConfig.leafModels.modelList
-    override fun processModel(state: BlockState, textures: List<String>, atlas: Consumer<Identifier>) =
+    override fun processModel(ctx: ModelDiscoveryContext, textureMatch: List<ResourceLocation>) {
-        defaultRegisterLeaf(Identifier(textures[0]), atlas)
+        val leafType = LeafParticleRegistry.typeMappings.getType(textureMatch[0]) ?: "default"
        val generated = GeneratedLeafSprite(textureMatch[0], leafType)
            .register(BetterFoliage.generatedPack)
            .apply { ctx.sprites.add(this) }
-}
+        detailLogger.log(INFO, "     particle $leafType")
-
+        ctx.addReplacement(StandardLeafKey(generated, leafType, null))
 fun HasLogger.defaultRegisterLeaf(sprite: Identifier, atlas: Consumer<Identifier>): BlockRenderKey? {
    val leafType = LeafParticleRegistry.typeMappings.getType(sprite) ?: "default"
    val leafId = GeneratedLeafSprite(sprite, leafType).register(BetterFoliage.generatedPack)
    atlas.accept(leafId)
    log(" leaf texture $sprite")
    log("     particle $leafType")
    return NormalLeavesModel.Key(
        leafId, leafType,
        getAndLogColorOverride(leafId, Atlas.BLOCKS, BetterFoliage.config.shortGrass.saturationThreshold)
    )
 }
 fun HasLogger.getAndLogColorOverride(sprite: Identifier, atlas: Atlas, threshold: Double): Int? {
    val hsb = resourceManager.averageImageColorHSB(sprite, atlas)
    return if (hsb.saturation >= threshold) {
        log("         brightness ${hsb.brightness}")
        log("         saturation ${hsb.saturation} >= ${threshold}, using texture color")
        hsb.copy(brightness = 0.9f.coerceAtMost(hsb.brightness * 2.0f)).asColor
    } else {
        log("         saturation ${hsb.saturation} < ${threshold}, using block color")
        null
    }
 }
-class NormalLeavesModel(val key: Key, wrapped: BakedModel) : WrappedBakedModel(wrapped), FabricBakedModel {
+data class StandardLeafKey(
    val roundLeafTexture: ResourceLocation,
    override val leafType: String,
    override val overrideColor: Color?
 ) : HalfBakedWrapperKey(), LeafParticleKey {
    val tintIndex: Int get() = if (overrideColor == null) 0 else -1
    override fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel): SpecialRenderModel {
        val leafSpriteColor = Atlas.BLOCKS[roundLeafTexture].averageColor.let { hsb ->
            logColorOverride(BetterFoliageMod.detailLogger(this), Config.leaves.saturationThreshold, hsb)
            hsb.colorOverride(Config.leaves.saturationThreshold)
        }
        return StandardLeafModel(wrapped, this.copy(overrideColor = leafSpriteColor))
    }
 }
 class StandardLeafModel(
    model: SpecialRenderModel,
    override val key: StandardLeafKey
 ) : HalfBakedSpecialWrapper(model), LeafBlockModel {
    val leafNormal by leafModelsNormal.delegate(key)
    val leafSnowed by leafModelsSnowed.delegate(key)
    val leafLighting = roundLeafLighting()
-    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
+    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
-        super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
+        ShadersModIntegration.leaves(ctx, true) {
-        if (!BetterFoliage.config.enabled || !BetterFoliage.config.leaves.enabled) return
+            super.render(ctx, noDecorations)
            if (!Config.enabled || !Config.leaves.enabled || noDecorations) return
-        val ctx = BasicBlockCtx(blockView, pos)
+            ctx.vertexLighter = RoundLeafLightingPreferUp
-        val stateAbove = ctx.state(UP)
+            val leafIdx = ctx.random.nextInt(64)
-        val isSnowed = stateAbove.material in SNOW_MATERIALS
+            ctx.renderQuads(leafNormal[leafIdx])
-
+            if (ctx.state(UP).isSnow) ctx.renderQuads(leafSnowed[leafIdx])
        val random = randomSupplier.get()
        context.withLighting(leafLighting) {
            it.accept(leafNormal[random])
            if (isSnowed) it.accept(leafSnowed[random])
        }
    }
    data class Key(
        override val roundLeafTexture: Identifier,
        override val leafType: String,
        override val overrideColor: Int?
    ) : LeafKey {
        override fun replace(model: BakedModel, state: BlockState) = NormalLeavesModel(this, meshifyStandard(model, state, renderLayerOverride = CUTOUT_MIPPED))
    }
    companion object {
        val leafSpritesSnowed by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_leaves_snowed_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_leaves_snowed_$idx")
        }
-        val leafModelsBase = LazyMap(BetterFoliage.modelReplacer) { key: LeafKey ->
+        val leafModelsBase = LazyMapInvalidatable(BakeWrapperManager) { key: StandardLeafKey ->
-            BetterFoliage.config.leaves.let { crossModelsRaw(64, it.size, it.hOffset, it.vOffset) }
+            Config.leaves.let { crossModelsRaw(64, it.size, it.hOffset, it.vOffset) }
        }
-        val leafModelsNormal = LazyMap(BetterFoliage.modelReplacer) { key: LeafKey ->
+        val leafModelsNormal = LazyMapInvalidatable(BakeWrapperManager) { key: StandardLeafKey ->
-            crossModelsTextured(leafModelsBase[key], key.overrideColor, true) { Atlas.BLOCKS.atlas[key.roundLeafTexture]!! }
+            crossModelsTextured(leafModelsBase[key], key.tintIndex, true) { key.roundLeafTexture }
        }
-        val leafModelsSnowed = LazyMap(BetterFoliage.modelReplacer) { key: LeafKey ->
+        val leafModelsSnowed = LazyMapInvalidatable(BakeWrapperManager) { key: StandardLeafKey ->
-            crossModelsTextured(leafModelsBase[key], Color.white.asInt, false) { leafSpritesSnowed[it] }
+            crossModelsTextured(leafModelsBase[key], -1, false) { leafSpritesSnowed[it].name }
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Lilypad.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Lilypad.kt
@@ -1,66 +1,76 @@
 package mods.betterfoliage.render.block.vanilla
-import mods.betterfoliage.BetterFoliage
+import mods.betterfoliage.BetterFoliageMod
-import mods.betterfoliage.util.Atlas
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.resource.discovery.BlockRenderKey
+import mods.betterfoliage.config.LILYPAD_BLOCKS
-import mods.betterfoliage.resource.discovery.ModelDiscoveryBase
+import mods.betterfoliage.integration.ShadersModIntegration
 import mods.betterfoliage.model.HalfBakedSpecialWrapper
 import mods.betterfoliage.model.HalfBakedWrapperKey
 import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.model.SpriteSetDelegate
 import mods.betterfoliage.model.buildTufts
 import mods.betterfoliage.model.transform
 import mods.betterfoliage.model.tuftModelSet
 import mods.betterfoliage.model.tuftShapeSet
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import mods.betterfoliage.resource.discovery.AbstractModelDiscovery
 import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelBakingKey
 import mods.betterfoliage.resource.discovery.ModelDiscoveryContext
-import mods.betterfoliage.resource.discovery.RenderKeyFactory
+import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.resource.model.*
 import mods.betterfoliage.util.LazyInvalidatable
 import mods.betterfoliage.util.get
 import mods.betterfoliage.util.semiRandom
 import net.fabricmc.fabric.api.renderer.v1.model.FabricBakedModel
 import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
 import net.minecraft.block.BlockState
 import net.minecraft.block.Blocks
-import net.minecraft.client.render.model.BakedModel
+import net.minecraft.client.renderer.model.BlockModel
-import net.minecraft.util.Identifier
+import net.minecraft.client.renderer.model.ModelBakery
-import net.minecraft.util.math.BlockPos
+import net.minecraft.util.Direction.DOWN
-import net.minecraft.util.math.Direction.DOWN
+import net.minecraft.util.ResourceLocation
 import net.minecraft.world.ExtendedBlockView
 import java.util.*
 import java.util.function.Consumer
 import java.util.function.Supplier
-object LilypadKey : BlockRenderKey {
+object StandardLilypadDiscovery : AbstractModelDiscovery() {
-    override fun replace(model: BakedModel, state: BlockState) = LilypadModel(meshifyStandard(model, state))
+    override fun processModel(ctx: ModelDiscoveryContext) {
-}
+        if (ctx.getUnbaked() is BlockModel && ctx.blockState.block in LILYPAD_BLOCKS) {
-
+            ctx.addReplacement(StandardLilypadKey)
 object LilyPadDiscovery : ModelDiscoveryBase() {
    override val logger = BetterFoliage.logDetail
    override fun processModel(ctx: ModelDiscoveryContext, atlas: Consumer<Identifier>) =
        if (ctx.state.block == Blocks.LILY_PAD) LilypadKey else null
 }
 class LilypadModel(wrapped: BakedModel) : WrappedBakedModel(wrapped) {
    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
        super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
        if (!BetterFoliage.config.enabled || !BetterFoliage.config.lilypad.enabled) return
        val random = randomSupplier.get()
        context.meshConsumer().accept(lilypadRootModels[random])
        if (random.nextInt(64) < BetterFoliage.config.lilypad.population) {
            context.meshConsumer().accept(lilypadFlowerModels[random])
        }
        super.processModel(ctx)
    }
 }
 object StandardLilypadKey : HalfBakedWrapperKey() {
    override fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel) = StandardLilypadModel(wrapped)
 }
 class StandardLilypadModel(
    wrapped: SpecialRenderModel
 ) : HalfBakedSpecialWrapper(wrapped) {
    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
        ctx.checkSides = false
        super.render(ctx, noDecorations)
        if (!Config.enabled || !Config.lilypad.enabled) return
        ShadersModIntegration.grass(ctx, Config.lilypad.shaderWind) {
            ctx.renderQuads(lilypadRootModels[ctx.random])
        }
        if (Config.lilypad.enabled(ctx.random)) ctx.renderQuads(lilypadFlowerModels[ctx.random])
    }
    companion object {
        val lilypadRootSprites by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_lilypad_roots_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_lilypad_roots_$idx")
        }
        val lilypadFlowerSprites by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_lilypad_flower_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_lilypad_flower_$idx")
        }
-        val lilypadRootModels by LazyInvalidatable(BetterFoliage.modelReplacer) {
+        val lilypadRootModels by LazyInvalidatable(BakeWrapperManager) {
-            val shapes = tuftShapeSet(1.0, 1.0, 1.0, BetterFoliage.config.lilypad.hOffset)
+            val shapes = tuftShapeSet(1.0, 1.0, 1.0, Config.lilypad.hOffset)
-            tuftModelSet(shapes, Color.white.asInt) { lilypadRootSprites[it] }
+            tuftModelSet(shapes, -1) { lilypadRootSprites[it] }
                .transform { move(2.0 to DOWN) }
                .buildTufts()
        }
-        val lilypadFlowerModels by LazyInvalidatable(BetterFoliage.modelReplacer) {
+        val lilypadFlowerModels by LazyInvalidatable(BakeWrapperManager) {
-            val shapes = tuftShapeSet(0.5, 0.5, 0.5, BetterFoliage.config.lilypad.hOffset)
+            val shapes = tuftShapeSet(0.5, 0.5, 0.5, Config.lilypad.hOffset)
-            tuftModelSet(shapes, Color.white.asInt) { lilypadFlowerSprites[it] }
+            tuftModelSet(shapes, -1) { lilypadFlowerSprites[it] }
                .transform { move(1.0 to DOWN) }
                .buildTufts()
        }
--- a/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Mycelium.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Mycelium.kt
@@ -1,63 +1,72 @@
 package mods.betterfoliage.render.block.vanilla
-import mods.betterfoliage.BetterFoliage
+import mods.betterfoliage.BetterFoliageMod
-import mods.betterfoliage.render.lighting.withLighting
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.render.lighting.grassTuftLighting
+import mods.betterfoliage.config.MYCELIUM_BLOCKS
-import mods.betterfoliage.util.Atlas
+import mods.betterfoliage.model.HalfBakedSpecialWrapper
-import mods.betterfoliage.resource.discovery.BlockRenderKey
+import mods.betterfoliage.model.HalfBakedWrapperKey
-import mods.betterfoliage.resource.discovery.ModelDiscoveryBase
+import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.model.SpriteSetDelegate
 import mods.betterfoliage.model.buildTufts
 import mods.betterfoliage.model.tuftModelSet
 import mods.betterfoliage.model.tuftShapeSet
 import mods.betterfoliage.render.lighting.LightingPreferredFace
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import mods.betterfoliage.resource.discovery.AbstractModelDiscovery
 import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelDiscoveryContext
-import mods.betterfoliage.resource.discovery.RenderKeyFactory
+import mods.betterfoliage.util.Atlas
-import mods.betterfoliage.resource.model.*
+import mods.betterfoliage.util.LazyInvalidatable
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.get
-import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
+import mods.betterfoliage.util.randomI
 import net.minecraft.block.BlockState
 import net.minecraft.block.Blocks
-import net.minecraft.client.render.model.BakedModel
+import net.minecraft.client.renderer.RenderType
-import net.minecraft.util.Identifier
+import net.minecraft.client.renderer.RenderTypeLookup
-import net.minecraft.util.math.BlockPos
+import net.minecraft.client.renderer.model.BlockModel
-import net.minecraft.util.math.Direction.UP
+import net.minecraft.util.Direction
-import net.minecraft.world.ExtendedBlockView
+import net.minecraft.util.ResourceLocation
 import java.util.*
 import java.util.function.Consumer
 import java.util.function.Supplier
-object MyceliumKey : BlockRenderKey {
+object StandardMyceliumDiscovery : AbstractModelDiscovery() {
-    override fun replace(model: BakedModel, state: BlockState) = MyceliumModel(meshifyStandard(model, state))
+    override fun processModel(ctx: ModelDiscoveryContext) {
        if (ctx.getUnbaked() is BlockModel && ctx.blockState.block in MYCELIUM_BLOCKS) {
            ctx.addReplacement(StandardMyceliumKey)
            RenderTypeLookup.setRenderLayer(ctx.blockState.block, RenderType.cutout())
        }
        super.processModel(ctx)
    }
 }
-object MyceliumDiscovery : ModelDiscoveryBase() {
+object StandardMyceliumKey : HalfBakedWrapperKey() {
-    override val logger = BetterFoliage.logDetail
+    override fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel) = StandardMyceliumModel(wrapped)
    val myceliumBlocks = listOf(Blocks.MYCELIUM)
    override fun processModel(ctx: ModelDiscoveryContext, atlas: Consumer<Identifier>) =
        if (ctx.state.block in myceliumBlocks) MyceliumKey else null
 }
-class MyceliumModel(wrapped: BakedModel) : WrappedBakedModel(wrapped) {
+class StandardMyceliumModel(
    wrapped: SpecialRenderModel
 ) : HalfBakedSpecialWrapper(wrapped) {
-    val tuftLighting = grassTuftLighting(UP)
+    val tuftLighting = LightingPreferredFace(Direction.UP)
-    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
+    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
-        super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
+        super.render(ctx, noDecorations)
-        val random = randomSupplier.get()
+        if (Config.shortGrass.enabled &&
-        if (BetterFoliage.config.enabled &&
+            Config.shortGrass.myceliumEnabled &&
-            BetterFoliage.config.shortGrass.let { it.myceliumEnabled && random.nextInt(64) < it.population } &&
+            Config.shortGrass.enabled(ctx.random) &&
-            blockView.getBlockState(pos + UP.offset).isAir
+            ctx.state(Direction.UP).isAir(ctx.world, ctx.pos)
        ) {
-            context.withLighting(tuftLighting) {
+            ctx.vertexLighter = tuftLighting
-                it.accept(myceliumTuftModels[random])
+            ctx.renderQuads(myceliumTuftModels[ctx.random])
            }
        }
    }
    companion object {
        val myceliumTuftSprites by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_mycel_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_mycel_$idx")
        }
-        val myceliumTuftModels by LazyInvalidatable(BetterFoliage.modelReplacer) {
+        val myceliumTuftModels by LazyInvalidatable(BakeWrapperManager) {
-            val shapes = BetterFoliage.config.shortGrass.let { tuftShapeSet(it.size, it.heightMin, it.heightMax, it.hOffset) }
+            val shapes = Config.shortGrass.let { tuftShapeSet(it.size, it.heightMin, it.heightMax, it.hOffset) }
-            tuftModelSet(shapes, Color.white.asInt) { idx -> myceliumTuftSprites[randomI()] }.buildTufts()
+            tuftModelSet(shapes, -1) { idx -> myceliumTuftSprites[randomI()] }.buildTufts()
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Netherrack.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Netherrack.kt
@@ -1,66 +1,81 @@
 package mods.betterfoliage.render.block.vanilla
 import mods.betterfoliage.BetterFoliageMod
 import mods.betterfoliage.BetterFoliage
-import mods.betterfoliage.render.lighting.withLighting
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.render.lighting.grassTuftLighting
+import mods.betterfoliage.config.NETHERRACK_BLOCKS
-import mods.betterfoliage.util.Atlas
+import mods.betterfoliage.model.HalfBakedSpecialWrapper
-import mods.betterfoliage.resource.discovery.BlockRenderKey
+import mods.betterfoliage.model.HalfBakedWrapperKey
-import mods.betterfoliage.resource.discovery.ModelDiscoveryBase
+import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.model.SpriteSetDelegate
 import mods.betterfoliage.model.buildTufts
 import mods.betterfoliage.model.transform
 import mods.betterfoliage.model.tuftModelSet
 import mods.betterfoliage.model.tuftShapeSet
 import mods.betterfoliage.render.lighting.LightingPreferredFace
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import mods.betterfoliage.resource.discovery.AbstractModelDiscovery
 import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelDiscoveryContext
-import mods.betterfoliage.resource.discovery.RenderKeyFactory
+import mods.betterfoliage.util.Atlas
-import mods.betterfoliage.resource.model.*
+import mods.betterfoliage.util.LazyInvalidatable
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.Rotation
-import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
+import mods.betterfoliage.util.get
-import net.minecraft.block.BlockRenderLayer
+import mods.betterfoliage.util.randomI
 import net.minecraft.block.BlockState
 import net.minecraft.block.Blocks
-import net.minecraft.client.render.model.BakedModel
+import net.minecraft.client.renderer.RenderType
-import net.minecraft.util.Identifier
+import net.minecraft.client.renderer.RenderTypeLookup
-import net.minecraft.util.math.BlockPos
+import net.minecraft.client.renderer.model.BlockModel
-import net.minecraft.util.math.Direction.DOWN
+import net.minecraft.util.Direction.DOWN
-import net.minecraft.world.ExtendedBlockView
+import net.minecraft.util.ResourceLocation
 import java.util.*
 import java.util.function.Consumer
 import java.util.function.Supplier
-object NetherrackKey : BlockRenderKey {
+object StandardNetherrackDiscovery : AbstractModelDiscovery() {
-    override fun replace(model: BakedModel, state: BlockState) = NetherrackModel(meshifyStandard(model, state))
+    fun canRenderInLayer(layer: RenderType) = when {
        !Config.enabled -> layer == RenderType.solid()
        !Config.netherrack.enabled -> layer == RenderType.solid()
        else -> layer == RenderType.cutoutMipped()
    }
    override fun processModel(ctx: ModelDiscoveryContext) {
        if (ctx.getUnbaked() is BlockModel && ctx.blockState.block in NETHERRACK_BLOCKS) {
            BetterFoliage.blockTypes.dirt.add(ctx.blockState)
            ctx.addReplacement(StandardNetherrackKey)
            RenderTypeLookup.setRenderLayer(ctx.blockState.block, ::canRenderInLayer)
        }
        super.processModel(ctx)
    }
 }
-object NetherrackDiscovery : ModelDiscoveryBase() {
+object StandardNetherrackKey : HalfBakedWrapperKey() {
-    override val logger = BetterFoliage.logDetail
+    override fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel) = StandardNetherrackModel(wrapped)
    val netherrackBlocks = listOf(Blocks.NETHERRACK)
    override fun processModel(ctx: ModelDiscoveryContext, atlas: Consumer<Identifier>) =
        if (ctx.state.block in netherrackBlocks) NetherrackKey else null
 }
-class NetherrackModel(wrapped: BakedModel) : WrappedBakedModel(wrapped) {
+class StandardNetherrackModel(
    wrapped: SpecialRenderModel
 ) : HalfBakedSpecialWrapper(wrapped) {
-    val tuftLighting = grassTuftLighting(DOWN)
+    val tuftLighting = LightingPreferredFace(DOWN)
-    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
+    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
-        super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
+        super.render(ctx, noDecorations)
-        if (BetterFoliage.config.enabled &&
+        if (!Config.enabled || !Config.netherrack.enabled) return
-            BetterFoliage.config.netherrack.enabled &&
+
-            blockView.getBlockState(pos + DOWN.offset).isAir
+        if (ctx.isAir(DOWN)) {
-        ) {
+            ctx.vertexLighter = tuftLighting
-            val random = randomSupplier.get()
+            ctx.renderQuads(netherrackTuftModels[ctx.random])
            context.withLighting(tuftLighting) {
                it.accept(netherrackTuftModels[random])
            }
        }
    }
    companion object {
        val netherrackTuftSprites by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_netherrack_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_netherrack_$idx")
        }
-        val netherrackTuftModels by LazyInvalidatable(BetterFoliage.modelReplacer) {
+        val netherrackTuftModels by LazyInvalidatable(BakeWrapperManager) {
-            val shapes = BetterFoliage.config.netherrack.let { tuftShapeSet(it.size, it.heightMin, it.heightMax, it.hOffset) }
+            val shapes = Config.netherrack.let { tuftShapeSet(it.size, it.heightMin, it.heightMax, it.hOffset) }
-            tuftModelSet(shapes, Color.white.asInt) { netherrackTuftSprites[randomI()] }
+            tuftModelSet(shapes, -1) { netherrackTuftSprites[randomI()] }
                .transform { rotate(Rotation.fromUp[DOWN.ordinal]).rotateUV(2) }
-                .withOpposites()
+                .buildTufts()
                .build(BlockRenderLayer.CUTOUT_MIPPED, flatLighting = false)
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/block/vanilla/RoundLog.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/block/vanilla/RoundLog.kt
@@ -1,42 +1,58 @@
 package mods.betterfoliage.render.block.vanilla
 import mods.betterfoliage.BetterFoliage
-import mods.betterfoliage.render.column.*
+import mods.betterfoliage.config.ACCEPTED_ROUND_LOG_MATERIALS
 import mods.betterfoliage.config.BlockConfig
 import mods.betterfoliage.config.Config
 import mods.betterfoliage.model.HalfBakedWrapperKey
 import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.render.column.ColumnBlockKey
 import mods.betterfoliage.render.column.ColumnMeshSet
 import mods.betterfoliage.render.column.ColumnModelBase
 import mods.betterfoliage.render.column.ColumnRenderLayer
 import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.ConfigurableBlockMatcher
 import mods.betterfoliage.resource.discovery.ConfigurableModelDiscovery
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelBakingKey
 import mods.betterfoliage.resource.discovery.ModelDiscoveryContext
 import mods.betterfoliage.resource.discovery.ModelTextureList
 import mods.betterfoliage.util.Atlas
-import mods.betterfoliage.resource.discovery.*
+import mods.betterfoliage.util.LazyMapInvalidatable
 import mods.betterfoliage.resource.model.meshifyStandard
 import mods.betterfoliage.util.LazyMap
 import mods.betterfoliage.util.get
 import mods.betterfoliage.util.tryDefault
 import net.minecraft.block.BlockState
-import net.minecraft.block.LogBlock
+import net.minecraft.block.RotatedPillarBlock
-import net.minecraft.client.render.model.BakedModel
+import net.minecraft.util.Direction.Axis
-import net.minecraft.client.texture.SpriteAtlasTexture
+import net.minecraft.util.ResourceLocation
-import net.minecraft.util.Identifier
+import org.apache.logging.log4j.Level.INFO
 import net.minecraft.util.math.Direction.Axis
 import java.util.function.Consumer
-object RoundLogOverlayLayer : ColumnRenderLayer() {
+interface RoundLogKey : ColumnBlockKey, ModelBakingKey {
-    override fun getColumnKey(state: BlockState) = BetterFoliage.modelReplacer.getTyped<ColumnBlockKey>(state)
+    val barkSprite: ResourceLocation
-    override val connectSolids: Boolean get() = BetterFoliage.config.roundLogs.connectSolids
+    val endSprite: ResourceLocation
    override val lenientConnect: Boolean get() = BetterFoliage.config.roundLogs.lenientConnect
    override val defaultToY: Boolean get() = BetterFoliage.config.roundLogs.defaultY
 }
-object StandardLogDiscovery : ConfigurableModelDiscovery() {
+object RoundLogOverlayLayer : ColumnRenderLayer() {
-    override val logger = BetterFoliage.logDetail
+    override fun getColumnKey(state: BlockState) = BetterFoliage.blockTypes.getTypedOrNull<ColumnBlockKey>(state)
-    override val matchClasses: ConfigurableBlockMatcher get() = BetterFoliage.blockConfig.logBlocks
+    override val connectSolids: Boolean get() = Config.roundLogs.connectSolids
-    override val modelTextures: List<ModelTextureList> get() = BetterFoliage.blockConfig.logModels.modelList
+    override val lenientConnect: Boolean get() = Config.roundLogs.lenientConnect
    override val defaultToY: Boolean get() = Config.roundLogs.defaultY
 }
-    override fun processModel(state: BlockState, textures: List<String>, atlas: Consumer<Identifier>): BlockRenderKey? {
+object StandardRoundLogDiscovery : ConfigurableModelDiscovery() {
-        val axis = getAxis(state)
+    override val matchClasses: ConfigurableBlockMatcher get() = BlockConfig.logBlocks
-        log("       axis $axis")
+    override val modelTextures: List<ModelTextureList> get() = BlockConfig.logModels.modelList
-        return RoundLogModel.Key(axis, Identifier(textures[0]), Identifier(textures[1]))
+
    override fun processModel(ctx: ModelDiscoveryContext, textureMatch: List<ResourceLocation>) {
        val axis = getAxis(ctx.blockState)
        detailLogger.log(INFO, "       axis $axis, material ${ctx.blockState.material}")
        if (!Config.roundLogs.plantsOnly || ctx.blockState.material in ACCEPTED_ROUND_LOG_MATERIALS)
            ctx.addReplacement(StandardRoundLogKey(axis, textureMatch[0], textureMatch[1]))
    }
    fun getAxis(state: BlockState): Axis? {
-        val axis = tryDefault(null) { state.get(LogBlock.AXIS).toString() } ?:
+        val axis = tryDefault(null) { state.getValue(RotatedPillarBlock.AXIS).toString() } ?:
-        state.entries.entries.find { it.key.getName().toLowerCase() == "axis" }?.value?.toString()
+        state.values.entries.find { it.key.name.toLowerCase() == "axis" }?.value?.toString()
        return when (axis) {
            "x" -> Axis.X
            "y" -> Axis.Y
@@ -46,32 +62,30 @@ object StandardLogDiscovery : ConfigurableModelDiscovery() {
    }
 }
-interface RoundLogKey : ColumnBlockKey, BlockRenderKey {
+data class StandardRoundLogKey(
-    val barkSprite: Identifier
+    override val axis: Axis?,
-    val endSprite: Identifier
+    override val barkSprite: ResourceLocation,
    override val endSprite: ResourceLocation
 ) : RoundLogKey, HalfBakedWrapperKey() {
    override fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel) = StandardRoundLogModel(this, wrapped)
 }
-class RoundLogModel(val key: Key, wrapped: BakedModel) : ColumnModelBase(wrapped) {
+class StandardRoundLogModel(
-    override val enabled: Boolean get() = BetterFoliage.config.enabled && BetterFoliage.config.roundLogs.enabled
+    val key: StandardRoundLogKey,
    wrapped: SpecialRenderModel
 ) : ColumnModelBase(wrapped) {
    override val enabled: Boolean get() = Config.enabled && Config.roundLogs.enabled
    override val overlayLayer: ColumnRenderLayer get() = RoundLogOverlayLayer
-    override val connectPerpendicular: Boolean get() = BetterFoliage.config.roundLogs.connectPerpendicular
+    override val connectPerpendicular: Boolean get() = Config.roundLogs.connectPerpendicular
    val modelSet by modelSets.delegate(key)
    override fun getMeshSet(axis: Axis, quadrant: Int) = modelSet
    data class Key(
        override val axis: Axis?,
        override val barkSprite: Identifier,
        override val endSprite: Identifier
    ) : RoundLogKey {
        override fun replace(model: BakedModel, state: BlockState) = RoundLogModel(this, meshifyStandard(model, state))
    }
    companion object {
-        val modelSets = LazyMap(BetterFoliage.modelReplacer) { key: Key ->
+        val modelSets = LazyMapInvalidatable(BakeWrapperManager) { key: StandardRoundLogKey ->
-            val barkSprite = Atlas.BLOCKS.atlas[key.barkSprite]!!
+            val barkSprite = Atlas.BLOCKS[key.barkSprite]
-            val endSprite = Atlas.BLOCKS.atlas[key.endSprite]!!
+            val endSprite = Atlas.BLOCKS[key.endSprite]
-            BetterFoliage.config.roundLogs.let { config ->
+            Config.roundLogs.let { config ->
                ColumnMeshSet(
                    config.radiusSmall, config.radiusLarge, config.zProtection,
                    key.axis ?: Axis.Y,
--- a/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Sand.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/block/vanilla/Sand.kt
@@ -1,94 +1,105 @@
 package mods.betterfoliage.render.block.vanilla
 import mods.betterfoliage.BetterFoliage
-import mods.betterfoliage.chunk.CachedBlockCtx
+import mods.betterfoliage.BetterFoliageMod
-import mods.betterfoliage.render.SALTWATER_BIOMES
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.render.SAND_BLOCKS
+import mods.betterfoliage.config.SALTWATER_BIOMES
-import mods.betterfoliage.render.lighting.withLighting
+import mods.betterfoliage.config.SAND_BLOCKS
-import mods.betterfoliage.render.lighting.grassTuftLighting
+import mods.betterfoliage.model.HalfBakedSpecialWrapper
-import mods.betterfoliage.util.Atlas
+import mods.betterfoliage.model.HalfBakedWrapperKey
-import mods.betterfoliage.resource.discovery.BlockRenderKey
+import mods.betterfoliage.model.Quad
-import mods.betterfoliage.resource.discovery.ModelDiscoveryBase
+import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.model.SpriteSetDelegate
 import mods.betterfoliage.model.bake
 import mods.betterfoliage.model.buildTufts
 import mods.betterfoliage.model.transform
 import mods.betterfoliage.model.tuftModelSet
 import mods.betterfoliage.model.tuftShapeSet
 import mods.betterfoliage.render.lighting.LightingPreferredFace
 import mods.betterfoliage.render.pipeline.RenderCtxBase
 import mods.betterfoliage.resource.discovery.AbstractModelDiscovery
 import mods.betterfoliage.resource.discovery.BakeWrapperManager
 import mods.betterfoliage.resource.discovery.ModelBakingContext
 import mods.betterfoliage.resource.discovery.ModelDiscoveryContext
-import mods.betterfoliage.resource.model.*
+import mods.betterfoliage.util.Atlas
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.LazyInvalidatable
-import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
+import mods.betterfoliage.util.Rotation
-import net.minecraft.block.BlockRenderLayer.CUTOUT_MIPPED
+import mods.betterfoliage.util.allDirections
-import net.minecraft.block.BlockState
+import mods.betterfoliage.util.get
-import net.minecraft.block.Material
+import mods.betterfoliage.util.mapArray
-import net.minecraft.client.render.model.BakedModel
+import mods.betterfoliage.util.randomB
-import net.minecraft.util.Identifier
+import mods.betterfoliage.util.randomD
-import net.minecraft.util.math.BlockPos
+import mods.betterfoliage.util.randomI
-import net.minecraft.util.math.Direction.UP
+import net.minecraft.block.material.Material
-import net.minecraft.world.ExtendedBlockView
+import net.minecraft.client.renderer.RenderType
-import java.util.*
+import net.minecraft.client.renderer.RenderTypeLookup
-import java.util.function.Consumer
+import net.minecraft.client.renderer.model.BlockModel
-import java.util.function.Supplier
+import net.minecraft.util.Direction
 import net.minecraft.util.Direction.UP
 import net.minecraft.util.ResourceLocation
-object SandKey : BlockRenderKey {
+object StandardSandDiscovery : AbstractModelDiscovery() {
-    override fun replace(model: BakedModel, state: BlockState) = SandModel(meshifyStandard(model, state))
+    override fun processModel(ctx: ModelDiscoveryContext) {
        if (ctx.getUnbaked() is BlockModel && ctx.blockState.block in SAND_BLOCKS) {
            BetterFoliage.blockTypes.dirt.add(ctx.blockState)
            ctx.addReplacement(StandardSandKey)
            RenderTypeLookup.setRenderLayer(ctx.blockState.block, RenderType.cutoutMipped())
        }
        super.processModel(ctx)
    }
 }
-object SandDiscovery : ModelDiscoveryBase() {
+object StandardSandKey : HalfBakedWrapperKey() {
-    override val logger = BetterFoliage.logDetail
+    override fun bake(ctx: ModelBakingContext, wrapped: SpecialRenderModel) = StandardSandModel(wrapped)
    override fun processModel(ctx: ModelDiscoveryContext, atlas: Consumer<Identifier>) =
        if (ctx.state.block in SAND_BLOCKS) SandKey else null
 }
-class SandModel(wrapped: BakedModel) : WrappedBakedModel(wrapped) {
+class StandardSandModel(
    wrapped: SpecialRenderModel
 ) : HalfBakedSpecialWrapper(wrapped) {
    val coralLighting = Direction.values().mapArray { LightingPreferredFace(it) }
-    val coralLighting = allDirections.map { grassTuftLighting(it) }.toTypedArray()
+    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
        super.render(ctx, noDecorations)
        if (noDecorations || !Config.enabled || !Config.coral.enabled(ctx.random)) return
        if (ctx.biome?.biomeCategory !in SALTWATER_BIOMES) return
-    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
+        allDirections.filter { ctx.random.nextInt(64) < Config.coral.chance }.forEach { face ->
        super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
        val ctx = CachedBlockCtx(blockView, pos)
        val random = randomSupplier.get()
        if (!BetterFoliage.config.enabled || !BetterFoliage.config.coral.enabled(random)) return
        if (ctx.biome.category !in SALTWATER_BIOMES) return
        allDirections.filter { random.nextInt(64) < BetterFoliage.config.coral.chance }.forEach { face ->
            val isWater = ctx.state(face).material == Material.WATER
            val isDeepWater = isWater && ctx.offset(face).state(UP).material == Material.WATER
-            if (isDeepWater) context.withLighting(coralLighting[face]) {
+            if (isDeepWater) {
-                it.accept(coralCrustModels[face][random])
+                ctx.vertexLighter = coralLighting[face]
-                it.accept(coralTuftModels[face][random])
+                ctx.renderQuads(coralCrustModels[face][ctx.random])
                ctx.renderQuads(coralTuftModels[face][ctx.random])
            }
        }
    }
    companion object {
 //        val sandModel by LazyInvalidatable(BetterFoliage.modelReplacer) {
 //            Array(64) { fullCubeTextured(Identifier("block/sand"), Color.white.asInt) }
 //        }
        val coralTuftSprites by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_coral_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_coral_$idx")
        }
        val coralCrustSprites by SpriteSetDelegate(Atlas.BLOCKS) { idx ->
-            Identifier(BetterFoliage.MOD_ID, "blocks/better_crust_$idx")
+            ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/better_crust_$idx")
        }
-        val coralTuftModels by LazyInvalidatable(BetterFoliage.modelReplacer) {
+        val coralTuftModels by LazyInvalidatable(BakeWrapperManager) {
-            val shapes = BetterFoliage.config.coral.let { tuftShapeSet(it.size, 1.0, 1.0, it.hOffset) }
+            val shapes = Config.coral.let { tuftShapeSet(it.size, 1.0, 1.0, it.hOffset) }
-            allDirections.map { face ->
+            allDirections.mapArray { face ->
-                tuftModelSet(shapes, Color.white.asInt) { coralTuftSprites[randomI()] }
+                tuftModelSet(shapes, -1) { coralTuftSprites[randomI()] }
                    .transform { rotate(Rotation.fromUp[face]) }
-                    .withOpposites()
+                    .buildTufts()
-                    .build(CUTOUT_MIPPED)
+            }
            }.toTypedArray()
        }
-        val coralCrustModels by LazyInvalidatable(BetterFoliage.modelReplacer) {
+        val coralCrustModels by LazyInvalidatable(BakeWrapperManager) {
            allDirections.map { face ->
                Array(64) { idx ->
-                    listOf(horizontalRectangle(x1 = -0.5, x2 = 0.5, z1 = -0.5, z2 = 0.5, y = 0.0)
+                    listOf(
-                        .scale(BetterFoliage.config.coral.crustSize)
+                        Quad.horizontalRectangle(x1 = -0.5, x2 = 0.5, z1 = -0.5, z2 = 0.5, y = 0.0)
-                        .move(0.5 + randomD(0.01, BetterFoliage.config.coral.vOffset) to UP)
+                            .scale(Config.coral.crustSize)
-                        .rotate(Rotation.fromUp[face])
+                            .move(0.5 + randomD(0.01, Config.coral.vOffset) to UP)
-                        .mirrorUV(randomB(), randomB()).rotateUV(randomI(max = 4))
+                            .rotate(Rotation.fromUp[face])
-                        .sprite(coralCrustSprites[idx]).colorAndIndex(null)
+                            .mirrorUV(randomB(), randomB()).rotateUV(randomI(max = 4))
-                    ).build(CUTOUT_MIPPED)
+                            .sprite(coralCrustSprites[idx]).colorAndIndex(null)
                    ).bake(applyDiffuseLighting = false)
                }
            }.toTypedArray()
        }
--- a/src/main/kotlin/mods/betterfoliage/render/column/ColumnMeshSet.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/column/ColumnMeshSet.kt
@@ -1,14 +1,22 @@
 package mods.betterfoliage.render.column
-import mods.betterfoliage.BetterFoliage
+import mods.betterfoliage.config.Config
 import mods.betterfoliage.model.Quad
 import mods.betterfoliage.model.UV
 import mods.betterfoliage.model.Vertex
 import mods.betterfoliage.model.bake
 import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType
-import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.*
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.INVISIBLE
-import mods.betterfoliage.resource.model.*
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.LARGE_RADIUS
 import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.SMALL_RADIUS
 import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.SQUARE
 import mods.betterfoliage.util.Double3
 import mods.betterfoliage.util.Rotation
-import net.minecraft.block.BlockRenderLayer.SOLID
+import net.minecraft.client.renderer.texture.TextureAtlasSprite
-import net.minecraft.client.texture.Sprite
+import net.minecraft.util.Direction.Axis
-import net.minecraft.util.math.Direction.*
+import net.minecraft.util.Direction.EAST
 import net.minecraft.util.Direction.SOUTH
 import net.minecraft.util.Direction.UP
 /**
 * Collection of dynamically generated meshes used to render rounded columns.
@@ -18,20 +26,20 @@ class ColumnMeshSet(
    radiusLarge: Double,
    zProtection: Double,
    val axis: Axis,
-    val spriteLeft: Sprite,
+    val spriteLeft: TextureAtlasSprite,
-    val spriteRight: Sprite,
+    val spriteRight: TextureAtlasSprite,
-    val spriteTop: Sprite,
+    val spriteTop: TextureAtlasSprite,
-    val spriteBottom: Sprite
+    val spriteBottom: TextureAtlasSprite
 ) {
    protected fun sideRounded(radius: Double, yBottom: Double, yTop: Double): List<Quad> {
        val halfRadius = radius * 0.5
        return listOf(
            // left side of the diagonal
-            verticalRectangle(0.0, 0.5, 0.5 - radius, 0.5, yBottom, yTop).clampUV(minU = 0.0, maxU = 0.5 - radius),
+            Quad.verticalRectangle(0.0, 0.5, 0.5 - radius, 0.5, yBottom, yTop).clampUV(minU = 0.0, maxU = 0.5 - radius),
-            verticalRectangle(0.5 - radius, 0.5, 0.5 - halfRadius, 0.5 - halfRadius, yBottom, yTop).clampUV(minU = 0.5 - radius),
+            Quad.verticalRectangle(0.5 - radius, 0.5, 0.5 - halfRadius, 0.5 - halfRadius, yBottom, yTop).clampUV(minU = 0.5 - radius),
            // right side of the diagonal
-            verticalRectangle(0.5 - halfRadius, 0.5 - halfRadius, 0.5, 0.5 - radius, yBottom, yTop).clampUV(maxU = radius - 0.5),
+            Quad.verticalRectangle(0.5 - halfRadius, 0.5 - halfRadius, 0.5, 0.5 - radius, yBottom, yTop).clampUV(maxU = radius - 0.5),
-            verticalRectangle(0.5, 0.5 - radius, 0.5, 0.0, yBottom, yTop).clampUV(minU = radius - 0.5, maxU = 0.0)
+            Quad.verticalRectangle(0.5, 0.5 - radius, 0.5, 0.0, yBottom, yTop).clampUV(minU = radius - 0.5, maxU = 0.0)
        )
    }
@@ -45,8 +53,8 @@ class ColumnMeshSet(
    }
    protected fun sideSquare(yBottom: Double, yTop: Double) = listOf(
-        verticalRectangle(0.0, 0.5, 0.5, 0.5, yBottom, yTop).clampUV(minU = 0.0),
+        Quad.verticalRectangle(0.0, 0.5, 0.5, 0.5, yBottom, yTop).clampUV(minU = 0.0),
-        verticalRectangle(0.5, 0.5, 0.5, 0.0, yBottom, yTop).clampUV(maxU = 0.0)
+        Quad.verticalRectangle(0.5, 0.5, 0.5, 0.0, yBottom, yTop).clampUV(maxU = 0.0)
    )
    protected fun lidRounded(radius: Double, y: Double, isBottom: Boolean) = Array(4) { quadrant ->
@@ -58,18 +66,18 @@ class ColumnMeshSet(
        val v5 = Vertex(Double3(0.5, y, 0.5 - radius), UV(0.5, 0.5 - radius))
        val v6 = Vertex(Double3(0.5, y, 0.0), UV(0.5, 0.0))
        listOf(Quad(v1, v2, v3, v4), Quad(v1, v4, v5, v6))
-            .map { it.cycleVertices(if (isBottom xor BetterFoliage.config.nVidia) 0 else 1) }
+            .map { it.cycleVertices(if (isBottom xor Config.nVidia) 0 else 1) }
            .map { it.rotate(rotation).rotateUV(quadrant) }
-            .map { it.sprite(if (isBottom) spriteBottom else spriteTop).colorAndIndex(Color.white.asInt) }
+            .map { it.sprite(if (isBottom) spriteBottom else spriteTop) }
            .map { if (isBottom) it.flipped else it }
    }
    protected fun lidSquare(y: Double, isBottom: Boolean) = Array(4) { quadrant ->
        val rotation = baseRotation(axis) + quadrantRotations[quadrant]
        listOf(
-            horizontalRectangle(x1 = 0.0, x2 = 0.5, z1 = 0.0, z2 = 0.5, y = y).clampUV(minU = 0.0, minV = 0.0)
+            Quad.horizontalRectangle(x1 = 0.0, x2 = 0.5, z1 = 0.0, z2 = 0.5, y = y).clampUV(minU = 0.0, minV = 0.0)
                .rotate(rotation).rotateUV(quadrant)
-                .sprite(if (isBottom) spriteBottom else spriteTop).colorAndIndex(Color.white.asInt)
+                .sprite(if (isBottom) spriteBottom else spriteTop)
                .let { if (isBottom) it.flipped else it }
        )
    }
@@ -84,9 +92,9 @@ class ColumnMeshSet(
    }
    protected fun List<Quad>.buildSides(quadsPerSprite: Int) = Array(4) { quadrant ->
        val rotation = baseRotation(axis) + quadrantRotations[quadrant]
-        this.map { it.rotate(rotation).colorAndIndex(Color.white.asInt) }
+        this.map { it.rotate(rotation) }
            .mapIndexed { idx, q -> if (idx % (2 * quadsPerSprite) >= quadsPerSprite) q.sprite(spriteRight) else q.sprite(spriteLeft) }
-            .build(SOLID, flatLighting = false)
+            .bake(false)
    }
    companion object {
@@ -114,13 +122,13 @@ class ColumnMeshSet(
    val sideExtendBottomRoundSmall = sideRounded(radiusSmall, -0.5 - radiusLarge, -0.5).extendBottom(radiusLarge).buildSides(quadsPerSprite = 2)
    val sideExtendBottomRoundLarge = sideRounded(radiusLarge, -0.5 - radiusLarge, -0.5).extendBottom(radiusLarge).buildSides(quadsPerSprite = 2)
-    val lidTopSquare = lidSquare(0.5, false).build(SOLID, flatLighting = false)
+    val lidTopSquare = lidSquare(0.5, false).bake(false)
-    val lidTopRoundSmall = lidRounded(radiusSmall, 0.5, false).build(SOLID, flatLighting = false)
+    val lidTopRoundSmall = lidRounded(radiusSmall, 0.5, false).bake(false)
-    val lidTopRoundLarge = lidRounded(radiusLarge, 0.5, false).build(SOLID, flatLighting = false)
+    val lidTopRoundLarge = lidRounded(radiusLarge, 0.5, false).bake(false)
-    val lidBottomSquare = lidSquare(-0.5, true).build(SOLID, flatLighting = false)
+    val lidBottomSquare = lidSquare(-0.5, true).bake(false)
-    val lidBottomRoundSmall = lidRounded(radiusSmall, -0.5, true).build(SOLID, flatLighting = false)
+    val lidBottomRoundSmall = lidRounded(radiusSmall, -0.5, true).bake(false)
-    val lidBottomRoundLarge = lidRounded(radiusLarge, -0.5, true).build(SOLID, flatLighting = false)
+    val lidBottomRoundLarge = lidRounded(radiusLarge, -0.5, true).bake(false)
    val transitionTop = sideRoundedTransition(radiusLarge, radiusSmall, -0.5, 0.5).buildSides(quadsPerSprite = 2)
    val transitionBottom = sideRoundedTransition(radiusSmall, radiusLarge, -0.5, 0.5).buildSides(quadsPerSprite = 2)
--- a/src/main/kotlin/mods/betterfoliage/render/column/ColumnModel.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/column/ColumnModel.kt
@@ -1,43 +1,48 @@
 package mods.betterfoliage.render.column
 import mods.betterfoliage.chunk.CachedBlockCtx
 import mods.betterfoliage.chunk.ChunkOverlayManager
 import mods.betterfoliage.model.HalfBakedSpecialWrapper
 import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.render.column.ColumnLayerData.NormalRender
-import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.BlockType.*
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.BlockType.NONSOLID
-import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.*
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.BlockType.PARALLEL
-import mods.betterfoliage.resource.model.WrappedBakedModel
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.BlockType.PERPENDICULAR
-import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.INVISIBLE
-import net.minecraft.block.BlockState
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.LARGE_RADIUS
-import net.minecraft.client.render.model.BakedModel
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.SMALL_RADIUS
-import net.minecraft.util.math.BlockPos
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.SQUARE
-import net.minecraft.util.math.Direction.Axis
+import mods.betterfoliage.render.lighting.ColumnLighting
-import net.minecraft.world.ExtendedBlockView
+import mods.betterfoliage.render.pipeline.RenderCtxBase
-import java.util.*
+import net.minecraft.util.Direction.Axis
-import java.util.function.Supplier
+
 abstract class ColumnModelBase(
    wrapped: SpecialRenderModel
 ) : HalfBakedSpecialWrapper(wrapped) {
 abstract class ColumnModelBase(wrapped: BakedModel) : WrappedBakedModel(wrapped) {
    abstract val enabled: Boolean
    abstract val overlayLayer: ColumnRenderLayer
    abstract val connectPerpendicular: Boolean
    abstract fun getMeshSet(axis: Axis, quadrant: Int): ColumnMeshSet
-    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
+    override fun render(ctx: RenderCtxBase, noDecorations: Boolean) {
-        val ctx = CachedBlockCtx(blockView, pos)
+        if (!enabled) return super.render(ctx, noDecorations)
        val roundLog = ChunkOverlayManager.get(overlayLayer, ctx)
        val roundLog = ChunkOverlayManager.get(overlayLayer, ctx)
        when(roundLog) {
            ColumnLayerData.SkipRender -> return
-            NormalRender -> return super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
+            NormalRender -> return super.render(ctx, noDecorations)
            ColumnLayerData.ResolveError, null -> {
-                return super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
+                return super.render(ctx, noDecorations)
            }
        }
        // if log axis is not defined and "Default to vertical" config option is not set, render normally
        if ((roundLog as ColumnLayerData.SpecialRender).column.axis == null && !overlayLayer.defaultToY) {
-            return super.emitBlockQuads(blockView, state, pos, randomSupplier, context)
+            return super.render(ctx, noDecorations)
        }
        ctx.vertexLighter = ColumnLighting
        val axis = roundLog.column.axis ?: Axis.Y
        val baseRotation = ColumnMeshSet.baseRotation(axis)
        ColumnMeshSet.quadrantRotations.forEachIndexed { idx, quadrantRotation ->
@@ -56,8 +61,8 @@ abstract class ColumnModelBase(wrapped: BakedModel) : WrappedBakedModel(wrapped)
            val sideMesh = when (roundLog.quadrants[idx]) {
                SMALL_RADIUS -> meshSet.sideRoundSmall[idx]
                LARGE_RADIUS -> if (roundLog.upType == PARALLEL && roundLog.quadrantsTop[idx] == SMALL_RADIUS) meshSet.transitionTop[idx]
-                    else if (roundLog.downType == PARALLEL && roundLog.quadrantsBottom[idx] == SMALL_RADIUS) meshSet.transitionBottom[idx]
+                else if (roundLog.downType == PARALLEL && roundLog.quadrantsBottom[idx] == SMALL_RADIUS) meshSet.transitionBottom[idx]
-                    else meshSet.sideRoundLarge[idx]
+                else meshSet.sideRoundLarge[idx]
                SQUARE -> meshSet.sideSquare[idx]
                else -> null
            }
@@ -99,10 +104,10 @@ abstract class ColumnModelBase(wrapped: BakedModel) : WrappedBakedModel(wrapped)
            }
            // render
-            sideMesh?.let { context.meshConsumer().accept(it) }
+            sideMesh?.let { ctx.renderQuads(it) }
-            upMesh?.let { context.meshConsumer().accept(it) }
+            upMesh?.let { ctx.renderQuads(it) }
-            downMesh?.let { context.meshConsumer().accept(it) }
+            downMesh?.let { ctx.renderQuads(it) }
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/column/ColumnOverlayLayer.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/column/ColumnOverlayLayer.kt
@@ -1,19 +1,29 @@
 package mods.betterfoliage.render.column
-import mods.betterfoliage.BetterFoliage
+import mods.betterfoliage.chunk.BlockCtx
 import mods.betterfoliage.chunk.ChunkOverlayLayer
 import mods.betterfoliage.chunk.ChunkOverlayManager
 import mods.betterfoliage.chunk.dimType
-import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.BlockType.*
+import mods.betterfoliage.config.Config
 import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.BlockType.NONSOLID
 import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.BlockType.PARALLEL
 import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.BlockType.PERPENDICULAR
 import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.BlockType.SOLID
 import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType
-import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.*
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.INVISIBLE
-import mods.betterfoliage.chunk.BlockCtx
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.LARGE_RADIUS
-import mods.betterfoliage.util.*
+import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.SMALL_RADIUS
 import mods.betterfoliage.render.column.ColumnLayerData.SpecialRender.QuadrantType.SQUARE
 import mods.betterfoliage.util.Int3
 import mods.betterfoliage.util.Rotation
 import mods.betterfoliage.util.allDirections
 import mods.betterfoliage.util.face
 import mods.betterfoliage.util.plus
 import net.minecraft.block.BlockState
 import net.minecraft.util.Direction
 import net.minecraft.util.Direction.Axis
 import net.minecraft.util.math.BlockPos
-import net.minecraft.util.math.Direction.Axis
+import net.minecraft.world.IBlockDisplayReader
 import net.minecraft.util.math.Direction.AxisDirection
 import net.minecraft.world.ExtendedBlockView
 /** Index of SOUTH-EAST quadrant. */
 const val SE = 0
@@ -73,21 +83,20 @@ abstract class ColumnRenderLayer : ChunkOverlayLayer<ColumnLayerData> {
    val allNeighborOffsets = (-1..1).flatMap { offsetX -> (-1..1).flatMap { offsetY -> (-1..1).map { offsetZ -> Int3(offsetX, offsetY, offsetZ) }}}
-    override fun onBlockUpdate(world: ExtendedBlockView, pos: BlockPos) {
+    override fun onBlockUpdate(world: IBlockDisplayReader, pos: BlockPos) {
        allNeighborOffsets.forEach { offset -> ChunkOverlayManager.clear(world.dimType, this, pos + offset) }
    }
    override fun calculate(ctx: BlockCtx): ColumnLayerData {
-        if (allDirections.all { ctx.offset(it).isNormalCube }) return ColumnLayerData.SkipRender
+        // TODO detect round logs
-//        val columnTextures = registry[ctx] ?: return ColumnLayerData.ResolveError
+        if (allDirections.all { dir -> ctx.offset(dir).let { it.isFullBlock } }) return ColumnLayerData.SkipRender
        val columnTextures = getColumnKey(ctx.state) ?: return ColumnLayerData.ResolveError
        // if log axis is not defined and "Default to vertical" config option is not set, render normally
        val logAxis = columnTextures.axis ?: if (defaultToY) Axis.Y else return ColumnLayerData.NormalRender
        // check log neighborhood
-        val baseRotation = Rotation.fromUp[(logAxis to AxisDirection.POSITIVE).face.ordinal]
+        val baseRotation = Rotation.fromUp[(logAxis to Direction.AxisDirection.POSITIVE).face.ordinal]
        val upType = ctx.blockType(baseRotation, logAxis, Int3(0, 1, 0))
        val downType = ctx.blockType(baseRotation, logAxis, Int3(0, -1, 0))
@@ -176,9 +185,9 @@ abstract class ColumnRenderLayer : ChunkOverlayLayer<ColumnLayerData> {
        val offsetRot = offset.rotate(rotation)
        val key = getColumnKey(state(offsetRot))
        return if (key == null) {
-            if (offset(offsetRot).isNormalCube) SOLID else NONSOLID
+            if (offset(offsetRot).isFullBlock) SOLID else NONSOLID
        } else {
-            (key.axis ?: if (BetterFoliage.config.roundLogs.defaultY) Axis.Y else null)?.let {
+            (key.axis ?: if (Config.roundLogs.defaultY) Axis.Y else null)?.let {
                if (it == axis) PARALLEL else PERPENDICULAR
            } ?: SOLID
        }
--- a/src/main/kotlin/mods/betterfoliage/render/lighting/AoSideHelper.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/lighting/AoSideHelper.kt
@@ -0,0 +1,138 @@
 package mods.betterfoliage.render.lighting
 import mods.betterfoliage.util.get
 import mods.betterfoliage.util.mapArray
 import mods.betterfoliage.util.perpendiculars
 import net.minecraft.util.Direction
 import net.minecraft.util.Direction.*
 typealias BoxCorner = Triple<Direction, Direction, Direction>
 fun BoxCorner.equalsUnordered(other: BoxCorner) = contains(other.first) && contains(other.second) && contains(other.third)
 fun BoxCorner.contains(dir: Direction) = first == dir || second == dir || third == dir
 fun Array<BoxCorner>.findIdx(corner: BoxCorner): Int? {
    forEachIndexed { idx, test -> if (test.contains(corner.first) && test.contains(corner.second) && test.contains(corner.third)) return idx }
    return null
 }
 fun Array<BoxCorner>.findIdx(predicate: (BoxCorner)->Boolean): Int? {
    forEachIndexed { idx, test -> if (predicate(test)) return idx }
    return null
 }
 class AoSideHelper private constructor(face: Direction) {
    val sides = faceSides[face]
    val cornerSideDirections = faceCorners[face]
    val aoIndex = faceCornersIdx.mapArray { corner ->
        boxCornersDirIdx[face][sides[corner.first]][sides[corner.second]]!!
    }
    companion object {
        /**
         * Indexing for undirected box corners (component order does not matter).
         * Array contains [Direction] triplets fully defining the corner.
         */
        @JvmField
        val boxCornersUndir = Array(8) { idx -> Triple(
            if (idx and 1 != 0) EAST else WEST,
            if (idx and 2 != 0) UP else DOWN,
            if (idx and 4 != 0) SOUTH else NORTH
        ) }
        /**
         * Reverse lookup for [boxCornersUndir]. Index 3 times with the corner's cardinal directions.
         *  A null value indicates an invalid corner (multiple indexing along the same axis)
         */
        @JvmField
        val boxCornersUndirIdx = Array(6) { idx1 -> Array(6) { idx2 -> Array(6) { idx3 ->
            boxCornersUndir.findIdx(BoxCorner(
                Direction.values()[idx1],
                Direction.values()[idx2],
                Direction.values()[idx3]
            ))
        } } }
        /**
         * Indexing for directed face sides
         * First index is the face, second is index of side on face
         */
        @JvmField
        val faceSides = Array(6) { faceIdx -> Array(4) { sideIdx ->
            Direction.values()[faceIdx].perpendiculars[sideIdx]
        } }
        /**
         * Pairs of [faceSides] side indexes that form a valid pair describing a corner
         */
        @JvmField
        val faceCornersIdx = arrayOf(0 to 2, 0 to 3, 1 to 2, 1 to 3)
        /**
         * Indexing for directed face corners
         * First index is the face, second is index of corner on face
         */
        @JvmField
        val faceCorners = Array(6) { faceIdx -> Array(4) { cornerIdx ->
            faceCornersIdx[cornerIdx].let { faceSides[faceIdx][it.first] to faceSides[faceIdx][it.second] }
        } }
        /**
         * Indexing scheme for directed box corners.
         * The first direction - the face - matters, the other two are unordered.
         * 1:1 correspondence with possible AO values.
         * Array contains triplets defining the corner fully.
         */
        @JvmField
        val boxCornersDir = Array(24) { idx ->
            val faceIdx = idx / 4; val face = Direction.values()[faceIdx]
            val cornerIdx = idx % 4; val corner = faceCorners[faceIdx][cornerIdx]
            BoxCorner(face, corner.first, corner.second)
        }
        /**
         * Reverse lookup for [boxCornersDir]. Index 3 times with the corner's cardinal directions.
         * The first direction - the face - matters, the other two are unordered.
         *  A null value indicates an invalid corner (multiple indexing along the same axis)
         */
        @JvmField
        val boxCornersDirIdx = Array(6) { face -> Array(6) { side1 -> Array(6) { side2 ->
            boxCornersDir.findIdx { boxCorner ->
                boxCorner.first.ordinal == face && boxCorner.equalsUnordered(BoxCorner(
                    Direction.values()[face],
                    Direction.values()[side1],
                    Direction.values()[side2]
                ))
            }
        } } }
        /**
         * Reverse lookup for [cornersDir].
         *   1st index: primary face
         *   2nd index: undirected corner index.
         *   value: directed corner index
         *   A null value indicates an invalid corner (primary face not shared by corner).
         */
        @JvmField
        val boxCornersDirFromUndir = Array(6) { faceIdx -> Array(8) { undirIdx ->
            val face = Direction.values()[faceIdx]
            val corner = boxCornersUndir[undirIdx]
            if (!corner.contains(face)) null
            else boxCornersDir.findIdx { it.first == face && it.equalsUnordered(corner) }
        } }
        @JvmField
        val forSide = Direction.values().mapArray { AoSideHelper(it) }
        /**
         * Get corner index for vertex coordinates
         */
        @JvmStatic
        fun getCornerUndir(x: Double, y: Double, z: Double): Int {
            var result = 0
            if (x > 0.0) result += 1
            if (y > 0.0) result += 2
            if (z > 0.0) result += 4
            return result
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/lighting/CustomLighting.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/lighting/CustomLighting.kt
@@ -1,140 +0,0 @@
 package mods.betterfoliage.render.lighting
 import mods.betterfoliage.util.*
 import net.fabricmc.fabric.api.renderer.v1.mesh.QuadView
 import net.minecraft.util.math.Direction
 import net.minecraft.util.math.Direction.*
 import kotlin.math.abs
 val EPSILON = 0.05
 interface CustomLighting {
    fun applyLighting(lighting: CustomLightingMeshConsumer, quad: QuadView, flat: Boolean, emissive: Boolean)
 }
 interface CustomLightingMeshConsumer {
    /** Clear cached block brightness and AO values */
    fun clearLighting()
    /** Fill AO/light cache for given face */
    fun fillAoData(lightFace: Direction)
    /** Set AO/light values for quad vertex */
    fun setLighting(vIdx: Int, ao: Float, light: Int)
    /** Get neighbor block brightness */
    fun brNeighbor(dir: Direction): Int
    /** Block brightness value */
    val brSelf: Int
    /** Cached AO values for all box face corners */
    val aoFull: FloatArray
    /** Cached light values for all box face corners */
    val lightFull: IntArray
 }
 /** Custom lighting used for protruding tuft quads (short grass, algae, cactus arms, etc.) */
 fun grassTuftLighting(lightFace: Direction) = object : CustomLighting {
    override fun applyLighting(lighting: CustomLightingMeshConsumer, quad : QuadView, flat: Boolean, emissive: Boolean) {
        if (flat) lighting.flatForceNeighbor(quad, lightFace) else lighting.smoothWithFaceOverride(quad, lightFace)
    }
 }
 /** Custom lighting used for round leaves */
 fun roundLeafLighting() = object : CustomLighting {
    override fun applyLighting(lighting: CustomLightingMeshConsumer, quad: QuadView, flat: Boolean, emissive: Boolean) {
        if (flat) lighting.flatMax(quad) else lighting.smooth45PreferUp(quad)
    }
 }
 /** Custom lighting used for reeds */
 fun reedLighting() = object : CustomLighting {
    override fun applyLighting(lighting: CustomLightingMeshConsumer, quad: QuadView, flat: Boolean, emissive: Boolean) {
        lighting.flatForceNeighbor(quad, UP)
    }
 }
 /** Flat lighting, use neighbor brightness in the given direction */
 fun CustomLightingMeshConsumer.flatForceNeighbor(quad: QuadView, lightFace: Direction) {
    for (vIdx in 0 until 4) {
        setLighting(vIdx, 1.0f, brNeighbor(lightFace))
    }
 }
 /** Smooth lighting, use *only* AO/light values on the given face (closest corner) */
 fun CustomLightingMeshConsumer.smoothWithFaceOverride(quad: QuadView, lightFace: Direction) {
    fillAoData(lightFace)
    forEachVertex(quad) { vIdx, x, y, z ->
        val cornerUndir = getCornerUndir(x, y, z)
        cornerDirFromUndir[lightFace.ordinal][cornerUndir]?.let { aoCorner ->
            setLighting(vIdx, aoFull[aoCorner], lightFull[aoCorner])
        }
    }
 }
 /**
 * Smooth lighting scheme for 45-degree quads bisecting the box along 2 opposing face diagonals.
 *
 * Determine 2 *primary faces* based on the normal direction.
 * Take AO/light values *only* from the 2 primary faces *or* the UP direction,
 * based on which box corner is closest. Prefer taking values from the top face.
 */
 fun CustomLightingMeshConsumer.smooth45PreferUp(quad: QuadView) {
    getAngles45(quad)?.let { normalFaces ->
        fillAoData(normalFaces.first)
        fillAoData(normalFaces.second)
        if (normalFaces.first != UP && normalFaces.second != UP) fillAoData(UP)
        forEachVertex(quad) { vIdx, x, y, z ->
            val isUp = y > 0.5f
            val cornerUndir = getCornerUndir(x, y, z)
            val preferredFace = if (isUp) UP else normalFaces.minBy { faceDistance(it, x, y, z) }
            val aoCorner = cornerDirFromUndir[preferredFace.ordinal][cornerUndir]!!
            setLighting(vIdx, aoFull[aoCorner], lightFull[aoCorner])
        }
    }
 }
 /** Flat lighting, use maximum neighbor brightness at the nearest box corner */
 fun CustomLightingMeshConsumer.flatMax(quad: QuadView) {
    forEachVertex(quad) { vIdx, x, y, z ->
        val maxBrightness = cornersUndir[getCornerUndir(x, y, z)].maxValueBy { brNeighbor(it) }
        setLighting(vIdx, 1.0f, maxBrightness)
    }
 }
 /**
 * If the quad normal approximately bisects 2 axes at a 45 degree angle,
 * and is approximately perpendicular to the third, returns the 2 directions
 * the quad normal points towards.
 * Returns null otherwise.
 */
 fun getAngles45(quad: QuadView): Pair<Direction, Direction>? {
    val normal = quad.faceNormal()
    // one of the components must be close to zero
    val zeroAxis = when {
        abs(normal.x) < EPSILON -> Axis.X
        abs(normal.y) < EPSILON -> Axis.Y
        abs(normal.z) < EPSILON -> Axis.Z
        else -> return null
    }
    // the other two must be of similar magnitude
    val diff = when(zeroAxis) {
        Axis.X -> abs(abs(normal.y) - abs(normal.z))
        Axis.Y -> abs(abs(normal.x) - abs(normal.z))
        Axis.Z -> abs(abs(normal.x) - abs(normal.y))
    }
    if (diff > EPSILON) return null
    return when(zeroAxis) {
        Axis.X -> Pair(if (normal.y > 0.0f) UP else DOWN, if (normal.z > 0.0f) SOUTH else NORTH)
        Axis.Y -> Pair(if (normal.x > 0.0f) EAST else WEST, if (normal.z > 0.0f) SOUTH else NORTH)
        Axis.Z -> Pair(if (normal.x > 0.0f) EAST else WEST, if (normal.y > 0.0f) UP else DOWN)
    }
 }
 fun faceDistance(face: Direction, x: Float, y: Float, z: Float) = when(face) {
    WEST -> x; EAST -> 1.0f - x
    DOWN -> y; UP -> 1.0f - y
    NORTH -> z; SOUTH -> 1.0f - z
 }
 inline fun forEachVertex(quad: QuadView, func: (vIdx: Int, x: Float, y: Float, z: Float)->Unit) {
    for (vIdx in 0..3) {
        func(vIdx, quad.x(vIdx), quad.y(vIdx), quad.z(vIdx))
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/lighting/ForgeVertexLighter.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/lighting/ForgeVertexLighter.kt
@@ -0,0 +1,10 @@
 package mods.betterfoliage.render.lighting
 interface ForgeVertexLighterAccess {
    var vertexLighter: ForgeVertexLighter
 }
 interface ForgeVertexLighter {
    fun updateVertexLightmap(normal: FloatArray, lightmap: FloatArray, x: Float, y: Float, z: Float)
    fun updateVertexColor(normal: FloatArray, color: FloatArray, x: Float, y: Float, z: Float, tint: Float, multiplier: Int)
 }
--- a/src/main/kotlin/mods/betterfoliage/render/lighting/Indigo.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/lighting/Indigo.kt
@@ -1,53 +0,0 @@
 package mods.betterfoliage.render.lighting
 import mods.betterfoliage.util.reflectField
 import net.fabricmc.fabric.api.renderer.v1.mesh.Mesh
 import net.fabricmc.fabric.api.renderer.v1.model.FabricBakedModel
 import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
 import net.fabricmc.fabric.impl.client.indigo.renderer.aocalc.AoCalculator
 import net.fabricmc.fabric.impl.client.indigo.renderer.render.*
 import net.minecraft.block.BlockState
 import net.minecraft.client.MinecraftClient
 import net.minecraft.client.render.model.BakedModel
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.ExtendedBlockView
 import java.util.*
 import java.util.function.Consumer
 import java.util.function.Supplier
 val MODIFIED_CONSUMER_POOL = ThreadLocal<ModifiedTerrainMeshConsumer>()
 fun TerrainMeshConsumer.modified() = MODIFIED_CONSUMER_POOL.get() ?: let {
    val blockInfo = reflectField<TerrainBlockRenderInfo>("blockInfo")
    val chunkInfo = reflectField<ChunkRenderInfo>("chunkInfo")
    val aoCalc = reflectField<AoCalculator>("aoCalc")
    val transform = reflectField<RenderContext.QuadTransform>("transform")
    ModifiedTerrainMeshConsumer(blockInfo, chunkInfo, aoCalc, transform)
 }.apply { MODIFIED_CONSUMER_POOL.set(this) }
 /**
 * Render the given model at the given position.
 * Mutates the state of the [RenderContext]!!
 */
 fun RenderContext.renderMasquerade(model: BakedModel, blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) = when(this) {
    is TerrainRenderContext -> {
        val blockInfo = reflectField<TerrainBlockRenderInfo>("blockInfo")
        blockInfo.prepareForBlock(state, pos, model.useAmbientOcclusion())
        (model as FabricBakedModel).emitBlockQuads(blockView, state, pos, randomSupplier, context)
    }
    else -> {
        (model as FabricBakedModel).emitBlockQuads(blockView, state, pos, randomSupplier, context)
    }
 }
 /** Execute the provided block with a mesh consumer using the given custom lighting. */
 fun RenderContext.withLighting(lighter: CustomLighting, func: (Consumer<Mesh>)->Unit) = when(this) {
    is TerrainRenderContext -> {
        val consumer = (meshConsumer() as TerrainMeshConsumer).modified()
        consumer.clearLighting()
        consumer.lighter = lighter
        func(consumer)
        consumer.lighter = null
    }
    else -> func(meshConsumer())
 }
--- a/src/main/kotlin/mods/betterfoliage/render/lighting/VanillaAoCalculation.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/lighting/VanillaAoCalculation.kt
@@ -0,0 +1,147 @@
 package mods.betterfoliage.render.lighting
 import mods.betterfoliage.chunk.BlockCtx
 import net.minecraft.block.BlockState
 import net.minecraft.client.renderer.BlockModelRenderer
 import net.minecraft.util.Direction
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.IBlockDisplayReader
 data class LightingData(
    @JvmField var packedLight: Int = 0,
    @JvmField var colorMultiplier: Float = 1.0f
 ) {
    fun mixFrom(corner: LightingData, side1: LightingData, side2: LightingData, center: LightingData) {
        colorMultiplier =
            (center.colorMultiplier + side1.colorMultiplier + side2.colorMultiplier + corner.colorMultiplier) * 0.25f
        packedLight = (
                center.packedLight +
                (side1.packedLight.takeUnless { it == 0 } ?: center.packedLight) +
                (side2.packedLight.takeUnless { it == 0 } ?: center.packedLight) +
                (corner.packedLight.takeUnless { it == 0 } ?: center.packedLight)
            ).let { sum -> (sum shr 2) and 0xFF00FF }
    }
 }
 /**
 * Replacement for [BlockModelRenderer.AmbientOcclusionFace]
 * This gets called on a LOT, so object instantiation is avoided.
 * Not thread-safe, always use a [ThreadLocal] instance
 */
 class VanillaAoCalculator {
    lateinit var world: IBlockDisplayReader
    /** [blockPos] is used to get block-related information (i.e. tint, opacity, etc.)
     *  [lightPos] is used to get light-related information
     *  this facilitates masquerade rendering of blocks */
    lateinit var blockPos: BlockPos
    lateinit var lightPos: BlockPos
    private val probe = LightProbe(BlockModelRenderer.CACHE.get())
    val isValid = BooleanArray(6)
    val aoData = Array(24) { LightingData() }
    // scratchpad values used during calculation
    private val centerAo = LightingData()
    private val sideAo = Array(4) { LightingData() }
    private val cornerAo = Array(4) { LightingData() }
    private val isOccluded = BooleanArray(4)
    fun reset(ctx: BlockCtx) {
        world = ctx.world; blockPos = ctx.pos; lightPos = ctx.pos
        (0 until 6).forEach { isValid[it] = false }
    }
    fun fillLightData(lightFace: Direction, isOpaque: Boolean? = null) {
        if (!isValid[lightFace.ordinal]) calculate(lightFace, isOpaque)
    }
    /**
     * Replicate [BlockModelRenderer.AmbientOcclusionFace.updateVertexBrightness]
     * Does not handle interpolation for non-cubic models, that should be
     * done in a [VanillaVertexLighter]
     * @param lightFace face of the block to calculate
     * @param forceFull force full-block status for lighting calculation, null for auto
     */
    private fun calculate(lightFace: Direction, forceFull: Boolean?) {
        if (isValid[lightFace.ordinal]) return
        val sideHelper = AoSideHelper.forSide[lightFace.ordinal]
        // Bit 0 of the bitset in vanilla calculations
        // true if the block model is planar with the block boundary
        val isFullBlock = forceFull ?: world.getBlockState(blockPos).isCollisionShapeFullBlock(world, blockPos)
        val lightOrigin = if (isFullBlock) lightPos.relative(lightFace) else lightPos
        // AO calculation for the face center
        probe.position { set(lightOrigin) }.writeTo(centerAo)
        if (!isFullBlock && !probe.position { move(lightFace) }.state.isSolidRender(world, probe.pos)) {
            // if the neighboring block in the lightface direction is
            // transparent (non-opaque), use its packed light instead of our own
            // (if our block is a full block, we are already using this value)
            centerAo.packedLight = probe.packedLight
        }
        // AO calculation for the 4 sides
        sideHelper.sides.forEachIndexed { sideIdx, sideDir ->
            // record light data in the block 1 step to the side
            probe.position { set(lightOrigin).move(sideDir) }.writeTo(sideAo[sideIdx])
            // side is considered occluded if the block 1 step to that side and
            // 1 step forward (in the lightface direction) is not fully transparent
            isOccluded[sideIdx] = probe.position { move(lightFace) }.isNonTransparent
        }
        // AO Calculation for the 4 corners
        AoSideHelper.faceCornersIdx.forEachIndexed { cornerIdx, sideIndices ->
            val bothOccluded = isOccluded[sideIndices.first] && isOccluded[sideIndices.second]
            if (bothOccluded) cornerAo[cornerIdx].apply {
                // if both sides are occluded, just use the packed light for one of the sides instead
                val copyFrom = sideAo[sideIndices.first]
                packedLight = copyFrom.packedLight; colorMultiplier = copyFrom.colorMultiplier
            }
            else {
                // lookup actual packed light from the cornering block in the world
                probe.position {
                    set(lightOrigin)
                        .move(sideHelper.sides[sideIndices.first])
                        .move(sideHelper.sides[sideIndices.second])
                }.writeTo(cornerAo[cornerIdx])
            }
        }
        // Calculate and store final interpolated value for each corner
        AoSideHelper.faceCornersIdx.forEachIndexed { cornerIdx, sideIndices ->
            val aoIdx = sideHelper.aoIndex[cornerIdx]
            aoData[aoIdx].mixFrom(
                cornerAo[cornerIdx],
                sideAo[sideIndices.first],
                sideAo[sideIndices.second],
                centerAo
            )
        }
        isValid[lightFace.ordinal] = true
    }
    inner class LightProbe(
        val cache: BlockModelRenderer.Cache
    ) {
        lateinit var state: BlockState
        val pos = BlockPos.Mutable()
        val packedLight: Int get() = cache.getLightColor(state, world, pos)
        val colorMultiplier: Float get() = cache.getShadeBrightness(state, world, pos)
        val isNonTransparent: Boolean get() = state.getLightBlock(world, pos) > 0
        fun writeTo(data: LightingData) {
            data.packedLight = packedLight
            data.colorMultiplier = colorMultiplier
        }
        inline fun position(func: BlockPos.Mutable.() -> Unit): LightProbe {
            pos.func()
            state = world.getBlockState(pos)
            return this
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/lighting/VanillaVertexLighter.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/lighting/VanillaVertexLighter.kt
@@ -0,0 +1,210 @@
 package mods.betterfoliage.render.lighting
 import mods.betterfoliage.model.HalfBakedQuad
 import mods.betterfoliage.util.Double3
 import mods.betterfoliage.util.EPSILON_ONE
 import mods.betterfoliage.util.EPSILON_ZERO
 import mods.betterfoliage.util.minBy
 import net.minecraft.client.renderer.color.BlockColors
 import net.minecraft.util.Direction
 import net.minecraft.util.Direction.*
 import net.minecraft.util.Direction.Axis
 import net.minecraftforge.client.model.pipeline.LightUtil
 import kotlin.math.abs
 class VanillaQuadLighting {
    val packedLight = IntArray(4)
    val colorMultiplier = FloatArray(4)
    val tint = FloatArray(3)
    val calc = VanillaAoCalculator()
    lateinit var blockColors: BlockColors
    fun updateBlockTint(tintIndex: Int) {
        if (tintIndex == -1) {
            tint[0] = 1.0f; tint[1] = 1.0f; tint[2] = 1.0f
        } else {
            val state = calc.world.getBlockState(calc.blockPos)
            blockColors.getColor(state, calc.world, calc.blockPos, tintIndex).let { blockTint ->
                tint[0] = (blockTint shr 16 and 255).toFloat() / 255.0f
                tint[1] = (blockTint shr 8 and 255).toFloat() / 255.0f
                tint[2] = (blockTint and 255).toFloat() / 255.0f
            }
        }
    }
    fun applyDiffuseLighting(face: Direction) {
        val factor = LightUtil.diffuseLight(face)
        tint[0] *= factor; tint[1] *= factor; tint[2] *= factor
    }
 }
 abstract class VanillaVertexLighter {
    abstract fun updateLightmapAndColor(quad: HalfBakedQuad, lighting: VanillaQuadLighting)
    /**
     * Update lighting for each vertex with AO values from one of the corners.
     * Does not calculate missing AO values!
     * @param quad the quad to shade
     * @param func selector function from vertex position to directed corner index of desired AO values
     */
    inline fun VanillaQuadLighting.updateWithCornerAo(quad: HalfBakedQuad, func: (Double3)->Int?) {
        quad.raw.verts.forEachIndexed { idx, vertex ->
            func(vertex.xyz)?.let {
                packedLight[idx] = calc.aoData[it].packedLight
                colorMultiplier[idx] = calc.aoData[it].colorMultiplier
            }
        }
    }
 }
 /**
 * Replicates vanilla shading for full blocks. Interpolation for non-full blocks
 * is not implemented.
 */
 object VanillaFullBlockLighting : VanillaVertexLighter() {
    override fun updateLightmapAndColor(quad: HalfBakedQuad, lighting: VanillaQuadLighting) {
        // TODO bounds checking & interpolation
        val face = quad.raw.face()
        lighting.calc.fillLightData(face, true)
        lighting.updateWithCornerAo(quad) { nearestCornerOnFace(it, face) }
        lighting.updateBlockTint(quad.baked.tintIndex)
        if (quad.baked.isShade) lighting.applyDiffuseLighting(face)
    }
 }
 object RoundLeafLightingPreferUp : VanillaVertexLighter() {
    override fun updateLightmapAndColor(quad: HalfBakedQuad, lighting: VanillaQuadLighting) {
        val angles = getAngles45(quad)?.let { normalFaces ->
            lighting.calc.fillLightData(normalFaces.first)
            lighting.calc.fillLightData(normalFaces.second)
            if (normalFaces.first != UP && normalFaces.second != UP) lighting.calc.fillLightData(UP)
            lighting.updateWithCornerAo(quad) { vertex ->
                val isUp = vertex.y > 0.5f
                val cornerUndir = AoSideHelper.getCornerUndir(vertex.x, vertex.y, vertex.z)
                val preferredFace = if (isUp) UP else normalFaces.minBy { faceDistance(it, vertex) }
                AoSideHelper.boxCornersDirFromUndir[preferredFace.ordinal][cornerUndir]
            }
            lighting.updateBlockTint(quad.baked.tintIndex)
        }
    }
 }
 /**
 * Lights vertices with the AO values from the nearest corner on either of
 * the 2 faces the quad normal points towards.
 */
 object RoundLeafLighting : VanillaVertexLighter() {
    override fun updateLightmapAndColor(quad: HalfBakedQuad, lighting: VanillaQuadLighting) {
        val angles = getAngles45(quad)?.let { normalFaces ->
            lighting.calc.fillLightData(normalFaces.first)
            lighting.calc.fillLightData(normalFaces.second)
            lighting.updateWithCornerAo(quad) { vertex ->
                val cornerUndir = AoSideHelper.getCornerUndir(vertex.x, vertex.y, vertex.z)
                val preferredFace = normalFaces.minBy { faceDistance(it, vertex) }
                AoSideHelper.boxCornersDirFromUndir[preferredFace.ordinal][cornerUndir]
            }
            lighting.updateBlockTint(quad.baked.tintIndex)
        }
    }
 }
 /**
 * Lights vertices with the AO values from the nearest corner on the preferred face.
 */
 class LightingPreferredFace(val face: Direction) : VanillaVertexLighter() {
    override fun updateLightmapAndColor(quad: HalfBakedQuad, lighting: VanillaQuadLighting) {
        lighting.calc.fillLightData(face)
        lighting.updateWithCornerAo(quad) { nearestCornerOnFace(it, face) }
        lighting.updateBlockTint(quad.baked.tintIndex)
    }
 }
 object ColumnLighting : VanillaVertexLighter() {
    override fun updateLightmapAndColor(quad: HalfBakedQuad, lighting: VanillaQuadLighting) {
        // faces pointing in cardinal directions
        getNormalFace(quad)?.let { face ->
            lighting.calc.fillLightData(face)
            lighting.updateWithCornerAo(quad) { nearestCornerOnFace(it, face) }
            lighting.updateBlockTint(quad.baked.tintIndex)
            return
        }
        // faces pointing at 45deg angles
        getAngles45(quad)?.let { (face1, face2) ->
            lighting.calc.fillLightData(face1)
            lighting.calc.fillLightData(face2)
            quad.raw.verts.forEachIndexed { idx, vertex ->
                val cornerUndir = AoSideHelper.getCornerUndir(vertex.xyz.x, vertex.xyz.y, vertex.xyz.z)
                val cornerDir1 = AoSideHelper.boxCornersDirFromUndir[face1.ordinal][cornerUndir]
                val cornerDir2 = AoSideHelper.boxCornersDirFromUndir[face2.ordinal][cornerUndir]
                if (cornerDir1 == null || cornerDir2 == null) return@let
                val ao1 = lighting.calc.aoData[cornerDir1]
                val ao2 = lighting.calc.aoData[cornerDir2]
                lighting.packedLight[idx] = ((ao1.packedLight + ao2.packedLight) shr 1) and 0xFF00FF
                lighting.colorMultiplier[idx] = (ao1.colorMultiplier + ao2.colorMultiplier) * 0.5f
            }
            lighting.updateBlockTint(quad.baked.tintIndex)
            return
        }
        // something is wrong...
        lighting.updateWithCornerAo(quad) { nearestCornerOnFace(it, quad.raw.face()) }
        lighting.updateBlockTint(quad.baked.tintIndex)
    }
 }
 /**
 * Return the directed box corner index for the corner nearest the given vertex,
 * which is on the given face. May return null if the vertex is closest to
 * one of the opposite 4 corners
 */
 fun nearestCornerOnFace(pos: Double3, face: Direction): Int? {
    val cornerUndir = AoSideHelper.getCornerUndir(pos.x, pos.y, pos.z)
    return AoSideHelper.boxCornersDirFromUndir[face.ordinal][cornerUndir]
 }
 /**
 * If the quad normal approximately bisects 2 axes at a 45 degree angle,
 * and is approximately perpendicular to the third, returns the 2 directions
 * the quad normal points towards.
 * Returns null otherwise.
 */
 fun getAngles45(quad: HalfBakedQuad): Pair<Direction, Direction>? {
    val normal = quad.raw.normal
    // one of the components must be close to zero
    val zeroAxis = when {
        abs(normal.x) < EPSILON_ZERO -> Axis.X
        abs(normal.y) < EPSILON_ZERO -> Axis.Y
        abs(normal.z) < EPSILON_ZERO -> Axis.Z
        else -> return null
    }
    // the other two must be of similar magnitude
    val diff = when(zeroAxis) {
        Axis.X -> abs(abs(normal.y) - abs(normal.z))
        Axis.Y -> abs(abs(normal.x) - abs(normal.z))
        Axis.Z -> abs(abs(normal.x) - abs(normal.y))
    }
    if (diff > EPSILON_ZERO) return null
    return when(zeroAxis) {
        Axis.X -> Pair(if (normal.y > 0.0f) UP else DOWN, if (normal.z > 0.0f) SOUTH else NORTH)
        Axis.Y -> Pair(if (normal.x > 0.0f) EAST else WEST, if (normal.z > 0.0f) SOUTH else NORTH)
        Axis.Z -> Pair(if (normal.x > 0.0f) EAST else WEST, if (normal.y > 0.0f) UP else DOWN)
    }
 }
 fun getNormalFace(quad: HalfBakedQuad) = quad.raw.normal.let { normal ->
    when {
        normal.x > EPSILON_ONE -> EAST
        normal.x < -EPSILON_ONE -> WEST
        normal.y > EPSILON_ONE -> UP
        normal.y < -EPSILON_ONE -> DOWN
        normal.z > EPSILON_ONE -> SOUTH
        normal.z < -EPSILON_ONE -> NORTH
        else -> null
    }
 }
 fun faceDistance(face: Direction, pos: Double3) = when(face) {
    WEST -> pos.x; EAST -> 1.0 - pos.x
    DOWN -> pos.y; UP -> 1.0 - pos.y
    NORTH -> pos.z; SOUTH -> 1.0 - pos.z
 }
--- a/src/main/kotlin/mods/betterfoliage/render/particle/AbstractParticle.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/particle/AbstractParticle.kt
@@ -0,0 +1,101 @@
 package mods.betterfoliage.render.particle
 import com.mojang.blaze3d.vertex.IVertexBuilder
 import mods.betterfoliage.util.Double3
 import net.minecraft.client.Minecraft
 import net.minecraft.client.particle.SpriteTexturedParticle
 import net.minecraft.client.renderer.ActiveRenderInfo
 import net.minecraft.client.renderer.texture.TextureAtlasSprite
 import net.minecraft.client.world.ClientWorld
 import net.minecraft.util.math.MathHelper
 import net.minecraft.util.math.vector.Vector3f
 abstract class AbstractParticle(world: ClientWorld, x: Double, y: Double, z: Double) : SpriteTexturedParticle(world, x, y, z) {
    companion object {
 //        @JvmStatic val sin = Array(64) { idx -> Math.sin(PI2 / 64.0 * idx) }
 //        @JvmStatic val cos = Array(64) { idx -> Math.cos(PI2 / 64.0 * idx) }
    }
    val billboardRot = Pair(Double3.zero, Double3.zero)
    val currentPos = Double3.zero
    val prevPos = Double3.zero
    val velocity = Double3.zero
    override fun tick() {
        super.tick()
        currentPos.setTo(x, y, z)
        prevPos.setTo(xo, yo, zo)
        velocity.setTo(xd, yd, zd)
        update()
        x = currentPos.x; y = currentPos.y; z = currentPos.z;
        xd = velocity.x; yd = velocity.y; zd = velocity.z;
    }
    /** Update particle on world tick. */
    abstract fun update()
    /** True if the particle is renderable. */
    abstract val isValid: Boolean
    /** Add the particle to the effect renderer if it is valid. */
    fun addIfValid() { if (isValid) Minecraft.getInstance().particleEngine.add(this) }
    override fun render(vertexBuilder: IVertexBuilder, camera: ActiveRenderInfo, tickDelta: Float) {
        super.render(vertexBuilder, camera, tickDelta)
    }
    /**
     * Render a particle quad.
     *
     * @param[tessellator] the [Tessellator] instance to use
     * @param[tickDelta] partial tick time
     * @param[currentPos] render position
     * @param[prevPos] previous tick position for interpolation
     * @param[size] particle size
     * @param[currentAngle] viewpoint-dependent particle rotation (64 steps)
     * @param[sprite] particle texture
     * @param[isMirrored] mirror particle texture along V-axis
     * @param[alpha] aplha blending
     */
    fun renderParticleQuad(vertexConsumer: IVertexBuilder,
                           camera: ActiveRenderInfo,
                           tickDelta: Float,
                           currentPos: Double3 = this.currentPos,
                           prevPos: Double3 = this.prevPos,
                           size: Double = quadSize.toDouble(),
                           currentAngle: Float = this.roll,
                           prevAngle: Float = this.oRoll,
                           sprite: TextureAtlasSprite = this.sprite,
                           alpha: Float = this.alpha) {
        val center = Double3.lerp(tickDelta.toDouble(), prevPos, currentPos)
        val angle = MathHelper.lerp(tickDelta, prevAngle, currentAngle)
        val rotation = camera.rotation().copy().apply { mul(Vector3f.ZP.rotation(angle)) }
        val lightmapCoord = getLightColor(tickDelta)
        val coords = arrayOf(
            Double3(-1.0, -1.0, 0.0),
            Double3(-1.0, 1.0, 0.0),
            Double3(1.0, 1.0, 0.0),
            Double3(1.0, -1.0, 0.0)
        ).map { it.rotate(rotation).mul(size).add(center).sub(camera.position.x, camera.position.y, camera.position.z) }
        fun renderVertex(vertex: Double3, u: Float, v: Float) = vertexConsumer
            .vertex(vertex.x, vertex.y, vertex.z).uv(u, v)
            .color(rCol, gCol, bCol, alpha).uv2(lightmapCoord)
            .endVertex()
        renderVertex(coords[0], sprite.u1, sprite.v1)
        renderVertex(coords[1], sprite.u1, sprite.v0)
        renderVertex(coords[2], sprite.u0, sprite.v0)
        renderVertex(coords[3], sprite.u0, sprite.v1)
    }
    fun setColor(color: Int) {
        bCol = (color and 255) / 256.0f
        gCol = ((color shr 8) and 255) / 256.0f
        rCol = ((color shr 16) and 255) / 256.0f
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/particle/FallingLeaves.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/particle/FallingLeaves.kt
@@ -1,24 +1,29 @@
 package mods.betterfoliage.render.particle
-import mods.betterfoliage.BetterFoliage
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.ClientWorldLoadCallback
+import mods.betterfoliage.util.Double3
-import mods.betterfoliage.render.AbstractParticle
+import mods.betterfoliage.util.PI2
-import mods.betterfoliage.render.block.vanilla.LeafKey
+import mods.betterfoliage.util.minmax
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.randomB
-import net.fabricmc.fabric.api.event.world.WorldTickCallback
+import mods.betterfoliage.util.randomD
-import net.minecraft.client.MinecraftClient
+import mods.betterfoliage.util.randomF
-import net.minecraft.client.render.BufferBuilder
+import mods.betterfoliage.util.randomI
 import net.minecraft.client.particle.IParticleRenderType
 import net.minecraft.client.world.ClientWorld
 import net.minecraft.util.math.BlockPos
 import net.minecraft.util.math.MathHelper
 import net.minecraft.world.World
-import java.util.*
+import net.minecraftforge.common.MinecraftForge
 import net.minecraftforge.event.TickEvent
 import net.minecraftforge.eventbus.api.SubscribeEvent
 import net.minecraftforge.fml.LogicalSide
 import java.util.Random
 import kotlin.math.abs
 import kotlin.math.cos
 import kotlin.math.sin
 class FallingLeafParticle(
-    world: World, pos: BlockPos, leafKey: LeafKey
+    world: ClientWorld, pos: BlockPos, leaf: LeafParticleKey, blockColor: Int, random: Random
 ) : AbstractParticle(
    world, pos.x.toDouble() + 0.5, pos.y.toDouble(), pos.z.toDouble() + 0.5
 ) {
@@ -27,73 +32,70 @@ class FallingLeafParticle(
        @JvmStatic val biomeBrightnessMultiplier = 0.5f
    }
-    var rotationSpeed = randomF(min = PI2 / 80.0, max = PI2 / 50.0)
+    var rotationSpeed = random.randomF(min = PI2 / 80.0, max = PI2 / 50.0)
    var rotPositive = true
    val isMirrored = randomB()
    var wasCollided = false
    init {
-        angle = randomF(max = PI2)
+        roll = random.randomF(max = PI2)
-        maxAge = MathHelper.floor(randomD(0.6, 1.0) * BetterFoliage.config.fallingLeaves.lifetime * 20.0)
+        oRoll = roll - rotationSpeed
        velocityY = -BetterFoliage.config.fallingLeaves.speed
-        scale = BetterFoliage.config.fallingLeaves.size.toFloat() * 0.1f
+        lifetime = MathHelper.floor(randomD(0.6, 1.0) * Config.fallingLeaves.lifetime * 20.0)
        yd = -Config.fallingLeaves.speed
-        val state = world.getBlockState(pos)
+        quadSize = Config.fallingLeaves.size.toFloat() * 0.1f
-        val blockColor = MinecraftClient.getInstance().blockColorMap.getColorMultiplier(state, world, pos, 0)
+        setColor(leaf.overrideColor?.asInt ?: blockColor)
-        sprite = LeafParticleRegistry[leafKey.leafType][randomI(max = 1024)]
+        sprite = LeafParticleRegistry[leaf.leafType][randomI(max = 1024)]
        setParticleColor(leafKey.overrideColor, blockColor)
    }
    override val isValid: Boolean get() = (sprite != null)
    override fun update() {
-        if (randomF() > 0.95f) rotPositive = !rotPositive
+        if (random.nextFloat() > 0.95f) rotationSpeed *= -1.0f
-//        if (age > maxAge - 20) colorAlpha = 0.05f * (maxAge - age)
+        if (age > lifetime - 20) alpha = 0.05f * (lifetime - age)
        if (onGround || wasCollided) {
            velocity.setTo(0.0, 0.0, 0.0)
            if (!wasCollided) {
-                age = age.coerceAtLeast(maxAge - 20)
+                age = age.coerceAtLeast(lifetime - 20)
                wasCollided = true
            }
        } else {
-            val cosRotation = cos(angle).toDouble(); val sinRotation = sin(angle).toDouble()
+            val cosRotation = cos(roll).toDouble(); val sinRotation = sin(roll).toDouble()
-            velocity.setTo(cosRotation, 0.0, sinRotation).mul(BetterFoliage.config.fallingLeaves.perturb)
+            velocity.setTo(cosRotation, 0.0, sinRotation).mul(Config.fallingLeaves.perturb)
-                    .add(LeafWindTracker.current).add(0.0, -1.0, 0.0).mul(BetterFoliage.config.fallingLeaves.speed)
+                .add(LeafWindTracker.current).add(0.0, -1.0, 0.0).mul(Config.fallingLeaves.speed)
-            angle += if (rotPositive) rotationSpeed else -rotationSpeed
+            oRoll = roll
            roll += rotationSpeed
        }
    }
-    override fun render(worldRenderer: BufferBuilder, partialTickTime: Float) {
+    override fun getRenderType(): IParticleRenderType = IParticleRenderType.PARTICLE_SHEET_TRANSLUCENT
        val tickAngle = angle + partialTickTime * (if (rotPositive) rotationSpeed else -rotationSpeed)
        renderParticleQuad(worldRenderer, partialTickTime, rotation = tickAngle.toDouble(), isMirrored = isMirrored)
    }
    fun setParticleColor(overrideColor: Int?, blockColor: Int) {
        val color =  overrideColor ?: blockColor
        setColor(color)
    }
 }
-object LeafWindTracker : WorldTickCallback, ClientWorldLoadCallback {
+object LeafWindTracker {
-    val random = Random()
+    var random = Random()
    val target = Double3.zero
    val current = Double3.zero
    var nextChange: Long = 0
-    fun changeWindTarget(world: World) {
+    init {
-        nextChange = world.time + 120 + random.nextInt(80)
+        MinecraftForge.EVENT_BUS.register(this)
    }
    fun changeWind(world: World) {
        nextChange = world.gameTime + 120 + random.nextInt(80)
        val direction = PI2 * random.nextDouble()
-        val speed = abs(random.nextGaussian()) * BetterFoliage.config.fallingLeaves.windStrength +
+        val speed = abs(random.nextGaussian()) * Config.fallingLeaves.windStrength +
-            (if (!world.isRaining) 0.0 else abs(random.nextGaussian()) * BetterFoliage.config.fallingLeaves.stormStrength)
+                (if (!world.isRaining) 0.0 else abs(random.nextGaussian()) * Config.fallingLeaves.stormStrength)
        target.setTo(cos(direction) * speed, 0.0, sin(direction) * speed)
    }
-    override fun tick(world: World) {
+    @SubscribeEvent
-        if (world.isClient) {
+    fun handleWorldTick(event: TickEvent.WorldTickEvent) {
        if (event.phase == TickEvent.Phase.START && event.side == LogicalSide.CLIENT) event.world.let { world ->
            // change target wind speed
-            if (world.time >= nextChange) changeWindTarget(world)
+            if (world.dayTime >= nextChange) changeWind(world)
            // change current wind speed
            val changeRate = if (world.isRaining) 0.015 else 0.005
@@ -105,8 +107,6 @@ object LeafWindTracker : WorldTickCallback, ClientWorldLoadCallback {
        }
    }
-    override fun loadWorld(world: ClientWorld) {
+//    @SubscribeEvent
-        changeWindTarget(world)
+//    fun handleWorldLoad(event: WorldEvent.Load) { if (event.world.isClientSide) changeWind(event.world) }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/particle/LeafParticleRegistry.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/particle/LeafParticleRegistry.kt
@@ -1,68 +1,102 @@
 package mods.betterfoliage.render.particle
-import mods.betterfoliage.BetterFoliage
+import mods.betterfoliage.BetterFoliageMod
-import mods.betterfoliage.resource.model.FixedSpriteSet
+import mods.betterfoliage.model.Color
-import mods.betterfoliage.resource.model.SpriteSet
+import mods.betterfoliage.model.FixedSpriteSet
-import mods.betterfoliage.util.*
+import mods.betterfoliage.model.SpriteSet
-import net.fabricmc.fabric.api.event.client.ClientSpriteRegistryCallback
+import mods.betterfoliage.resource.VeryEarlyReloadListener
-import net.minecraft.client.texture.SpriteAtlasTexture
+import mods.betterfoliage.util.Atlas
-import net.minecraft.util.Identifier
+import mods.betterfoliage.util.HasLogger
 import mods.betterfoliage.util.get
 import mods.betterfoliage.util.getLines
 import mods.betterfoliage.util.resourceManager
 import mods.betterfoliage.util.stripStart
 import net.minecraft.client.renderer.texture.MissingTextureSprite
 import net.minecraft.util.ResourceLocation
 import net.minecraftforge.client.event.TextureStitchEvent
 import net.minecraftforge.eventbus.api.SubscribeEvent
 import org.apache.logging.log4j.Level.INFO
-object LeafParticleRegistry : ClientSpriteRegistryCallback {
+interface LeafBlockModel {
    val key: LeafParticleKey
 }
 interface LeafParticleKey {
    val leafType: String
    val overrideColor: Color?
 }
 object LeafParticleRegistry : HasLogger(), VeryEarlyReloadListener {
    val typeMappings = TextureMatcher()
    val allTypes get() = (typeMappings.mappings.map { it.type } + "default").distinct()
-    val ids = mutableMapOf<String, List<Identifier>>()
+    val particles = hashMapOf<String, SpriteSet>()
    val spriteSets = mutableMapOf<String, SpriteSet>()
-    override fun registerSprites(atlasTexture: SpriteAtlasTexture, registry: ClientSpriteRegistryCallback.Registry) {
+    operator fun get(type: String) = particles[type] ?: particles["default"]!!
-        ids.clear()
+
-        spriteSets.clear()
+    override fun onReloadStarted() {
-        typeMappings.loadMappings(Identifier(BetterFoliage.MOD_ID, "leaf_texture_mappings.cfg"))
+        typeMappings.loadMappings(ResourceLocation(BetterFoliageMod.MOD_ID, "leaf_texture_mappings.cfg"))
-        (typeMappings.mappings.map { it.type } + "default").distinct().forEach { leafType ->
+        detailLogger.log(INFO, "Loaded leaf particle mappings, types = [${allTypes.joinToString(", ")}]")
-            val validIds = (0 until 16).map { idx -> Identifier(BetterFoliage.MOD_ID, "falling_leaf_${leafType}_$idx") }
+    }
-                .filter { resourceManager.containsResource(Atlas.PARTICLES.wrap(it)) }
+
-            ids[leafType] = validIds
+    @SubscribeEvent
-            validIds.forEach { registry.register(it) }
+    fun handlePreStitch(event: TextureStitchEvent.Pre) {
        if (event.map.location() == Atlas.PARTICLES.resourceId) {
            allTypes.forEach { leafType ->
                val locations = (0 until 16).map { idx ->
                    ResourceLocation(BetterFoliageMod.MOD_ID, "particle/falling_leaf_${leafType}_$idx")
                }.filter { resourceManager.hasResource(Atlas.PARTICLES.file(it)) }
                detailLogger.log(INFO, "Registering sprites for leaf particle type [$leafType], ${locations.size} sprites found")
                locations.forEach { event.addSprite(it) }
            }
        }
    }
-    operator fun get(type: String): SpriteSet {
+    @SubscribeEvent
-        spriteSets[type]?.let { return it }
+    fun handlePostStitch(event: TextureStitchEvent.Post) {
-        ids[type]?.let {
+        if (event.map.location() == Atlas.PARTICLES.resourceId) {
-            return FixedSpriteSet(Atlas.PARTICLES, it).apply { spriteSets[type] = this }
+            (typeMappings.mappings.map { it.type } + "default").distinct().forEach { leafType ->
                val sprites = (0 until 16).map { idx ->
                    ResourceLocation(BetterFoliageMod.MOD_ID, "particle/falling_leaf_${leafType}_$idx")
                }
                    .map { event.map.getSprite(it) }
                    .filter { it !is MissingTextureSprite }
                detailLogger.log(INFO, "Leaf particle type [$leafType], ${sprites.size} sprites in atlas")
                particles[leafType] = FixedSpriteSet(sprites)
            }
        }
        return if (type == "default") FixedSpriteSet(Atlas.PARTICLES, emptyList()).apply { spriteSets[type] = this }
            else get("default")
    }
    init {
        ClientSpriteRegistryCallback.event(SpriteAtlasTexture.PARTICLE_ATLAS_TEX).register(this)
    }
 }
 class TextureMatcher {
    data class Mapping(val domain: String?, val path: String, val type: String) {
-        fun matches(iconLocation: Identifier): Boolean {
+        fun matches(iconLocation: ResourceLocation): Boolean {
            return (domain == null || domain == iconLocation.namespace) &&
-                iconLocation.path.stripStart("blocks/").contains(path, ignoreCase = true)
+                    iconLocation.path.stripStart("blocks/").contains(path, ignoreCase = true)
        }
    }
    val mappings: MutableList<Mapping> = mutableListOf()
-    fun getType(resource: Identifier) = mappings.filter { it.matches(resource) }.map { it.type }.firstOrNull()
+    fun getType(resource: ResourceLocation) = mappings.filter { it.matches(resource) }.map { it.type }.firstOrNull()
    fun getType(iconName: String) = Identifier(iconName).let { getType(it) }
-    fun loadMappings(mappingLocation: Identifier) {
+    fun loadMappings(mappingLocation: ResourceLocation) {
        mappings.clear()
        resourceManager[mappingLocation]?.getLines()?.let { lines ->
-            lines.filter { !it.startsWith("//") }.filter { it.isNotEmpty() }.forEach { line ->
+            lines.filter { !it.startsWith("//") }.filter { !it.isEmpty() }.forEach { line ->
                val line2 = line.trim().split('=')
                if (line2.size == 2) {
                    val mapping = line2[0].trim().split(':')
                    if (mapping.size == 1) mappings.add(Mapping(null, mapping[0].trim(), line2[1].trim()))
-                    else if (mapping.size == 2) mappings.add(Mapping(mapping[0].trim(), mapping[1].trim(), line2[1].trim()))
+                    else if (mapping.size == 2) mappings.add(
                        Mapping(
                            mapping[0].trim(),
                            mapping[1].trim(),
                            line2[1].trim()
                        )
                    )
                }
            }
        }
--- a/src/main/kotlin/mods/betterfoliage/render/particle/RisingSouls.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/particle/RisingSouls.kt
@@ -1,22 +1,30 @@
 package mods.betterfoliage.render.particle
-import mods.betterfoliage.BetterFoliage
+import com.mojang.blaze3d.vertex.IVertexBuilder
-import mods.betterfoliage.render.AbstractParticle
+import mods.betterfoliage.BetterFoliageMod
-import mods.betterfoliage.resource.model.SpriteDelegate
+import mods.betterfoliage.config.Config
-import mods.betterfoliage.resource.model.SpriteSetDelegate
+import mods.betterfoliage.model.SpriteDelegate
-import mods.betterfoliage.util.*
+import mods.betterfoliage.model.SpriteSetDelegate
-import net.minecraft.client.particle.ParticleTextureSheet
+import mods.betterfoliage.util.Atlas
-import net.minecraft.client.render.BufferBuilder
+import mods.betterfoliage.util.Double3
-import net.minecraft.util.Identifier
+import mods.betterfoliage.util.PI2
 import mods.betterfoliage.util.forEachPairIndexed
 import mods.betterfoliage.util.randomD
 import mods.betterfoliage.util.randomI
 import net.minecraft.client.particle.IParticleRenderType
 import net.minecraft.client.renderer.ActiveRenderInfo
 import net.minecraft.client.world.ClientWorld
 import net.minecraft.util.ResourceLocation
 import net.minecraft.util.math.BlockPos
 import net.minecraft.util.math.MathHelper
 import net.minecraft.world.World
-import java.util.*
+import java.util.Deque
 import java.util.LinkedList
 import kotlin.math.cos
 import kotlin.math.sin
 class RisingSoulParticle(
-    world: World, pos: BlockPos
+    world: ClientWorld, pos: BlockPos
 ) : AbstractParticle(
    world, pos.x.toDouble() + 0.5, pos.y.toDouble() + 1.0, pos.z.toDouble() + 0.5
 ) {
@@ -25,52 +33,58 @@ class RisingSoulParticle(
    val initialPhase = randomD(max = PI2)
    init {
-        velocityY = 0.1
+        yd = 0.1
-        gravityStrength = 0.0f
+        gravity = 0.0f
        sprite = headIcons[randomI(max = 1024)]
-        maxAge = MathHelper.floor((0.6 + 0.4 * randomD()) * BetterFoliage.config.risingSoul.lifetime * 20.0)
+        lifetime = MathHelper.floor((0.6 + 0.4 * randomD()) * Config.risingSoul.lifetime * 20.0)
    }
    override val isValid: Boolean get() = true
    override fun update() {
-        val phase = initialPhase + (age.toDouble() * PI2 / 64.0 )
+        val phase = initialPhase + (age.toDouble() * PI2 / 64.0)
-        val cosPhase = cos(phase); val sinPhase = sin(phase)
+        val cosPhase = cos(phase);
-        velocity.setTo(BetterFoliage.config.risingSoul.perturb.let { Double3(cosPhase * it, 0.1, sinPhase * it) })
+        val sinPhase = sin(phase)
        velocity.setTo(Config.risingSoul.perturb.let { Double3(cosPhase * it, 0.1, sinPhase * it) })
        particleTrail.addFirst(currentPos.copy())
-        while (particleTrail.size > BetterFoliage.config.risingSoul.trailLength) particleTrail.removeLast()
+        while (particleTrail.size > Config.risingSoul.trailLength) particleTrail.removeLast()
-        if (!BetterFoliage.config.enabled) markDead()
+        if (!Config.enabled) remove()
    }
-    override fun render(worldRenderer: BufferBuilder, partialTickTime: Float) {
+    override fun render(vertexBuilder: IVertexBuilder, camera: ActiveRenderInfo, tickDelta: Float) {
-        var alpha = BetterFoliage.config.risingSoul.opacity.toFloat()
+        var alpha = Config.risingSoul.opacity.toFloat()
-        if (age > maxAge - 40) alpha *= (maxAge - age) / 40.0f
+        if (age > lifetime - 40) alpha *= (lifetime - age) / 40.0f
-        renderParticleQuad(worldRenderer, partialTickTime,
+        renderParticleQuad(
-            size = BetterFoliage.config.risingSoul.headSize * 0.25,
+            vertexBuilder, camera, tickDelta,
            size = Config.risingSoul.headSize * 0.25,
            alpha = alpha
        )
-        var scale = BetterFoliage.config.risingSoul.trailSize * 0.25
+        var scale = Config.risingSoul.trailSize * 0.25
        particleTrail.forEachPairIndexed { idx, current, previous ->
-            scale *= BetterFoliage.config.risingSoul.sizeDecay
+            scale *= Config.risingSoul.sizeDecay
-            alpha *= BetterFoliage.config.risingSoul.opacityDecay.toFloat()
+            alpha *= Config.risingSoul.opacityDecay.toFloat()
-            if (idx % BetterFoliage.config.risingSoul.trailDensity == 0) renderParticleQuad(worldRenderer, partialTickTime,
+            if (idx % Config.risingSoul.trailDensity == 0)
-                currentPos = current,
+                renderParticleQuad(
-                prevPos = previous,
+                    vertexBuilder, camera, tickDelta,
-                size = scale,
+                    currentPos = current,
-                alpha = alpha,
+                    prevPos = previous,
-                sprite = trackIcon
+                    size = scale,
-            )
+                    alpha = alpha,
                    sprite = trackIcon
                )
        }
    }
-    override fun getType() = ParticleTextureSheet.PARTICLE_SHEET_TRANSLUCENT
+    override fun getRenderType(): IParticleRenderType = IParticleRenderType.PARTICLE_SHEET_TRANSLUCENT
    companion object {
-        val headIcons by SpriteSetDelegate(Atlas.PARTICLES) { idx -> Identifier(BetterFoliage.MOD_ID, "rising_soul_$idx") }
+        val headIcons by SpriteSetDelegate(Atlas.PARTICLES) { idx ->
-        val trackIcon by SpriteDelegate(Atlas.PARTICLES) { Identifier(BetterFoliage.MOD_ID, "soul_track") }
+            ResourceLocation(BetterFoliageMod.MOD_ID, "particle/rising_soul_$idx")
        }
        val trackIcon by SpriteDelegate(Atlas.PARTICLES) { ResourceLocation(BetterFoliageMod.MOD_ID, "particle/soul_track") }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/pipeline/RenderCtxBase.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/pipeline/RenderCtxBase.kt
@@ -0,0 +1,66 @@
 package mods.betterfoliage.render.pipeline
 import com.mojang.blaze3d.matrix.MatrixStack
 import mods.betterfoliage.chunk.BasicBlockCtx
 import mods.betterfoliage.chunk.BlockCtx
 import mods.betterfoliage.model.HalfBakedQuad
 import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.render.lighting.VanillaFullBlockLighting
 import mods.betterfoliage.render.lighting.VanillaQuadLighting
 import mods.betterfoliage.render.lighting.VanillaVertexLighter
 import mods.betterfoliage.util.Int3
 import mods.betterfoliage.util.plus
 import net.minecraft.block.Block
 import net.minecraft.client.Minecraft
 import net.minecraft.util.Direction
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.IBlockDisplayReader
 import net.minecraftforge.client.model.data.IModelData
 import java.util.Random
 /**
 * Rendering context for drawing [SpecialRenderModel] models.
 *
 * This class (and others in its constellation) basically form a replacement, highly customizable,
 * push-based partial rendering pipeline for [SpecialRenderModel] instances.
 */
 abstract class RenderCtxBase(
    world: IBlockDisplayReader,
    pos: BlockPos,
    val matrixStack: MatrixStack,
    var checkSides: Boolean,
    val random: Random,
    val modelData: IModelData
 ) : BlockCtx by BasicBlockCtx(world, pos) {
    abstract fun renderQuad(quad: HalfBakedQuad)
    var hasRendered = false
    val blockModelShapes = Minecraft.getInstance().blockRenderer.blockModelShaper
    var vertexLighter: VanillaVertexLighter = VanillaFullBlockLighting
    protected val lightingData = RenderCtxBase.lightingData.get().apply {
        calc.reset(this@RenderCtxBase)
        blockColors = Minecraft.getInstance().blockColors
    }
    inline fun Direction?.shouldRender() = this == null || !checkSides || Block.shouldRenderFace(state, world, pos, this)
    fun renderQuads(quads: Iterable<HalfBakedQuad>) {
        quads.forEach { quad ->
            if (quad.raw.face.shouldRender()) {
                renderQuad(quad)
                hasRendered = true
            }
        }
    }
    fun renderMasquerade(offset: Int3, func: () -> Unit) {
        lightingData.calc.blockPos += offset
        func()
        lightingData.calc.blockPos = pos
    }
    companion object {
        val lightingData = ThreadLocal.withInitial { VanillaQuadLighting() }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/pipeline/RenderCtxForge.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/pipeline/RenderCtxForge.kt
@@ -0,0 +1,74 @@
 package mods.betterfoliage.render.pipeline
 import com.mojang.blaze3d.matrix.MatrixStack
 import mods.betterfoliage.model.HalfBakedQuad
 import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.render.lighting.ForgeVertexLighter
 import mods.betterfoliage.render.lighting.ForgeVertexLighterAccess
 import net.minecraft.block.BlockState
 import net.minecraft.client.renderer.LightTexture
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.IBlockDisplayReader
 import net.minecraftforge.client.model.data.IModelData
 import net.minecraftforge.client.model.pipeline.VertexLighterFlat
 import java.util.Random
 class RenderCtxForge(
    world: IBlockDisplayReader,
    pos: BlockPos,
    val lighter: VertexLighterFlat,
    matrixStack: MatrixStack,
    checkSides: Boolean,
    random: Random,
    modelData: IModelData
 ): RenderCtxBase(world, pos, matrixStack, checkSides, random, modelData), ForgeVertexLighter {
    override fun renderQuad(quad: HalfBakedQuad) {
        // set Forge lighter AO calculator to us
        vertexLighter.updateLightmapAndColor(quad, lightingData)
        quad.baked.pipe(lighter)
    }
    // somewhat ugly hack to pipe lighting values into the Forge pipeline
    var vIdx = 0
    override fun updateVertexLightmap(normal: FloatArray, lightmap: FloatArray, x: Float, y: Float, z: Float) {
        lightingData.packedLight[vIdx].let { packedLight ->
            lightmap[0] = LightTexture.block(packedLight) / 0xF.toFloat()
            lightmap[1] = LightTexture.sky(packedLight) / 0xF.toFloat()
        }
    }
    override fun updateVertexColor(normal: FloatArray, color: FloatArray, x: Float, y: Float, z: Float, tint: Float, multiplier: Int) {
        color[0] = lightingData.tint[0] * lightingData.colorMultiplier[vIdx]
        color[1] = lightingData.tint[1] * lightingData.colorMultiplier[vIdx]
        color[2] = lightingData.tint[2] * lightingData.colorMultiplier[vIdx]
        vIdx++
    }
    companion object {
        @JvmStatic
        fun render(
            lighter: VertexLighterFlat,
            world: IBlockDisplayReader,
            model: SpecialRenderModel,
            state: BlockState,
            pos: BlockPos,
            matrixStack: MatrixStack,
            checkSides: Boolean,
            rand: Random, seed: Long,
            modelData: IModelData
        ): Boolean {
            lighter.setWorld(world)
            lighter.setState(state)
            lighter.setBlockPos(pos)
            rand.setSeed(seed)
            lighter.updateBlockInfo()
            return RenderCtxForge(world, pos, lighter, matrixStack, checkSides, rand, modelData).let {
                (lighter as ForgeVertexLighterAccess).vertexLighter = it
                model.render(it, false)
                lighter.resetBlockInfo()
                it.hasRendered
            }
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/render/pipeline/RenderCtxVanilla.kt
+++ b/src/main/kotlin/mods/betterfoliage/render/pipeline/RenderCtxVanilla.kt
@@ -0,0 +1,66 @@
 package mods.betterfoliage.render.pipeline
 import com.mojang.blaze3d.matrix.MatrixStack
 import com.mojang.blaze3d.vertex.IVertexBuilder
 import mods.betterfoliage.model.HalfBakedQuad
 import mods.betterfoliage.model.SpecialRenderModel
 import net.minecraft.block.BlockState
 import net.minecraft.client.renderer.BlockModelRenderer
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.IBlockDisplayReader
 import net.minecraftforge.client.model.data.IModelData
 import java.util.Random
 class RenderCtxVanilla(
    val renderer: BlockModelRenderer,
    world: IBlockDisplayReader,
    pos: BlockPos,
    val buffer: IVertexBuilder,
    val combinedOverlay: Int,
    matrixStack: MatrixStack,
    checkSides: Boolean,
    random: Random,
    val seed: Long,
    modelData: IModelData,
    val useAO: Boolean
 ): RenderCtxBase(world, pos, matrixStack, checkSides, random, modelData) {
    override fun renderQuad(quad: HalfBakedQuad) {
        vertexLighter.updateLightmapAndColor(quad, lightingData)
        buffer.putBulkData(
            matrixStack.last(), quad.baked,
            lightingData.colorMultiplier,
            lightingData.tint[0], lightingData.tint[1], lightingData.tint[2],
            lightingData.packedLight, combinedOverlay, true
        )
    }
    companion object {
        @JvmStatic
        fun render(
            renderer: BlockModelRenderer,
            world: IBlockDisplayReader,
            model: SpecialRenderModel,
            state: BlockState,
            pos: BlockPos,
            matrixStack: MatrixStack,
            buffer: IVertexBuilder,
            checkSides: Boolean,
            random: Random,
            rand: Long,
            combinedOverlay: Int,
            modelData: IModelData,
            smooth: Boolean
        ): Boolean {
            random.setSeed(rand)
            val ctx = RenderCtxVanilla(renderer, world, pos, buffer, combinedOverlay, matrixStack, checkSides, random, rand, modelData, smooth)
            lightingData.apply {
            }
            model.render(ctx, false)
            return ctx.hasRendered
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/VeryEarlyReloadListener.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/VeryEarlyReloadListener.kt
@@ -0,0 +1,27 @@
 package mods.betterfoliage.resource
 import net.minecraft.profiler.IProfiler
 import net.minecraft.resources.IFutureReloadListener
 import net.minecraft.resources.IResourceManager
 import java.util.concurrent.CompletableFuture
 import java.util.concurrent.Executor
 /**
 * Catch resource reload extremely early, before any of the reloaders
 * have started working.
 */
 interface VeryEarlyReloadListener : IFutureReloadListener {
    override fun reload(
        stage: IFutureReloadListener.IStage,
        resourceManager: IResourceManager,
        preparationsProfiler: IProfiler,
        reloadProfiler: IProfiler,
        backgroundExecutor: Executor,
        gameExecutor: Executor
    ): CompletableFuture<Void> {
        onReloadStarted()
        return stage.wait(null)
    }
    fun onReloadStarted() {}
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/discovery/BakedModelReplacer.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/discovery/BakedModelReplacer.kt
@@ -1,99 +0,0 @@
 package mods.betterfoliage.resource.discovery
 import mods.betterfoliage.BetterFoliage
 import mods.betterfoliage.BlockModelsReloadCallback
 import mods.betterfoliage.ModelLoadingCallback
 import mods.betterfoliage.util.HasLogger
 import mods.betterfoliage.util.Invalidator
 import mods.betterfoliage.util.YarnHelper
 import mods.betterfoliage.util.get
 import net.fabricmc.fabric.api.event.client.ClientSpriteRegistryCallback
 import net.minecraft.block.BlockState
 import net.minecraft.client.MinecraftClient
 import net.minecraft.client.render.block.BlockModels
 import net.minecraft.client.render.model.BakedModel
 import net.minecraft.client.render.model.ModelLoader
 import net.minecraft.client.texture.SpriteAtlasTexture
 import net.minecraft.resource.ResourceManager
 import net.minecraft.util.Identifier
 import java.lang.ref.WeakReference
 import java.util.*
 import java.util.concurrent.CompletableFuture
 import java.util.function.Consumer
 import java.util.function.Supplier
 // net.minecraft.client.render.block.BlockModels.models
 val BlockModels_models = YarnHelper.requiredField<Map<BlockState, BakedModel>>("net.minecraft.class_773", "field_4162", "Ljava/util/Map;")
 class BakedModelReplacer : ModelLoadingCallback, ClientSpriteRegistryCallback, BlockModelsReloadCallback, Invalidator, HasLogger {
    override val logger get() = BetterFoliage.logDetail
    val discoverers = mutableListOf<ModelDiscovery>()
    override val callbacks = mutableListOf<WeakReference<()->Unit>>()
    protected var keys = emptyMap<BlockState, BlockRenderKey>()
    operator fun get(state: BlockState) = keys[state]
    inline fun <reified T> getTyped(state: BlockState) = get(state) as? T
    var currentLoader: ModelLoader? = null
    override fun beginLoadModels(loader: ModelLoader, manager: ResourceManager) {
        // Step 1: get a hold of the ModelLoader instance when model reloading starts
        currentLoader = loader
        log("reloading block discovery configuration")
        BetterFoliage.blockConfig.reloadConfig(manager)
        invalidate()
    }
    override fun registerSprites(atlasTexture: SpriteAtlasTexture, registry: ClientSpriteRegistryCallback.Registry) {
        // Step 2: ModelLoader is finished with the unbaked models by now, we can inspect them
        log("discovering blocks")
        val idSet = Collections.synchronizedSet(mutableSetOf<Identifier>())
        val allKeys = discoverers.map {
            // run model discoverers in parallel
            CompletableFuture.supplyAsync(Supplier {
                it.discover(currentLoader!!, Consumer { idSet.add(it) })
            }, MinecraftClient.getInstance())
        }.map { it.join() }
        idSet.forEach { registry.register(it) }
        val result = mutableMapOf<BlockState, BlockRenderKey>()
        allKeys.forEach { keys ->
            keys.entries.forEach { (state, key) ->
                val oldKey = result[state]
                if (oldKey != null) log("Replacing $oldKey with $key for state $state")
                else log("Adding replacement $key for state $state")
                result[state] = key
            }
        }
        keys = result
    }
    override fun reloadBlockModels(blockModels: BlockModels) {
        // Step 3: replace the baked models with our own
        log("block model baking finished")
        val modelMap = blockModels[BlockModels_models] as MutableMap<BlockState, BakedModel>
        keys.forEach { (state, key) ->
            val oldModel = modelMap[state]
            if (oldModel == null) log("Cannot find model for state $state, ignoring")
            else {
                try {
                    val newModel = key.replace(oldModel, state)
                    modelMap[state] = newModel
                    log("Replaced model for state $state with $key")
                } catch (e: Exception) {
                    log("Error creating model for state $state with $key", e)
                }
            }
        }
    }
    init {
        ModelLoadingCallback.EVENT.register(this)
        ClientSpriteRegistryCallback.event(SpriteAtlasTexture.BLOCK_ATLAS_TEX).register(this)
        BlockModelsReloadCallback.EVENT.register(this)
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/discovery/BakingLifecycle.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/discovery/BakingLifecycle.kt
@@ -0,0 +1,129 @@
 package mods.betterfoliage.resource.discovery
 import mods.betterfoliage.BetterFoliage
 import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.util.HasLogger
 import mods.betterfoliage.util.Invalidator
 import net.minecraft.block.BlockState
 import net.minecraft.client.renderer.model.IBakedModel
 import net.minecraft.client.renderer.model.IModelTransform
 import net.minecraft.client.renderer.model.IUnbakedModel
 import net.minecraft.client.renderer.model.ModelBakery
 import net.minecraft.client.renderer.model.RenderMaterial
 import net.minecraft.client.renderer.texture.TextureAtlasSprite
 import net.minecraft.util.ResourceLocation
 import net.minecraftforge.client.event.ModelBakeEvent
 import net.minecraftforge.client.event.TextureStitchEvent
 import net.minecraftforge.eventbus.api.Event
 import net.minecraftforge.eventbus.api.EventPriority
 import net.minecraftforge.eventbus.api.SubscribeEvent
 import net.minecraftforge.fml.loading.progress.StartupMessageManager
 import org.apache.logging.log4j.Level.INFO
 import org.apache.logging.log4j.Level.WARN
 import org.apache.logging.log4j.Logger
 import java.lang.ref.WeakReference
 import java.util.function.Function
 data class ModelDefinitionsLoadedEvent(
    val bakery: ModelBakery
 ) : Event()
 interface ModelBakingKey {
    fun bake(ctx: ModelBakingContext): IBakedModel? =
        ctx.getUnbaked().bake(ctx.bakery, ctx.spriteGetter, ctx.transform, ctx.location)
 }
 interface ModelDiscovery {
    fun onModelsLoaded(
        bakery: ModelBakery,
        sprites: MutableSet<ResourceLocation>,
        replacements: MutableMap<ResourceLocation, ModelBakingKey>
    )
 }
 data class ModelDiscoveryContext(
    val bakery: ModelBakery,
    val blockState: BlockState,
    val modelLocation: ResourceLocation,
    val sprites: MutableSet<ResourceLocation>,
    val replacements: MutableMap<ResourceLocation, ModelBakingKey>,
    val logger: Logger
 ) {
    fun getUnbaked(location: ResourceLocation = modelLocation) = bakery.getModel(location)
    fun addReplacement(key: ModelBakingKey, addToStateKeys: Boolean = true) {
        replacements[modelLocation] = key
        if (addToStateKeys) BetterFoliage.blockTypes.stateKeys[blockState] = key
        logger.log(INFO, "Adding model replacement $modelLocation -> $key")
    }
 }
 data class ModelBakingContext(
    val bakery: ModelBakery,
    val spriteGetter: Function<RenderMaterial, TextureAtlasSprite>,
    val location: ResourceLocation,
    val transform: IModelTransform,
    val logger: Logger
 ) {
    fun getUnbaked() = bakery.getModel(location)
    fun getBaked() = bakery.getBakedModel(location, transform, spriteGetter)
 }
 object BakeWrapperManager : Invalidator, HasLogger() {
    val discoverers = mutableListOf<ModelDiscovery>()
    override val callbacks = mutableListOf<WeakReference<()->Unit>>()
    private val replacements = mutableMapOf<ResourceLocation, ModelBakingKey>()
    private val sprites = mutableSetOf<ResourceLocation>()
    @SubscribeEvent(priority = EventPriority.LOWEST)
    fun handleModelLoad(event: ModelDefinitionsLoadedEvent) {
        val startTime = System.currentTimeMillis()
        invalidate()
        BetterFoliage.blockTypes = BlockTypeCache()
        StartupMessageManager.addModMessage("BetterFoliage: discovering models")
        logger.log(INFO, "starting model discovery (${discoverers.size} listeners)")
        discoverers.forEach { listener ->
            val replacementsLocal = mutableMapOf<ResourceLocation, ModelBakingKey>()
            listener.onModelsLoaded(event.bakery, sprites, replacements)
        }
        val elapsed = System.currentTimeMillis() - startTime
        logger.log(INFO, "finished model discovery in $elapsed ms, ${replacements.size} top-level replacements")
    }
    @SubscribeEvent
    fun handleStitch(event: TextureStitchEvent.Pre) {
        if (event.map.location() == Atlas.BLOCKS.resourceId) {
            logger.log(INFO, "Adding ${sprites.size} sprites to block atlas")
            sprites.forEach { event.addSprite(it) }
            sprites.clear()
        }
    }
    @SubscribeEvent
    fun handleModelBake(event: ModelBakeEvent) {
        replacements.clear()
    }
    fun onBake(
        unbaked: IUnbakedModel,
        bakery: ModelBakery,
        spriteGetter: Function<RenderMaterial, TextureAtlasSprite>,
        transform: IModelTransform,
        location: ResourceLocation
    ): IBakedModel? {
        val ctx = ModelBakingContext(bakery, spriteGetter, location, transform, detailLogger)
        // bake replacement if available
        replacements[location]?.let { replacement ->
            detailLogger.log(INFO, "Baking replacement for [${unbaked::class.java.simpleName}] $location -> $replacement")
            try {
                return replacement.bake(ctx)
            } catch (e: Exception) {
                detailLogger.log(WARN, "Error while baking $replacement", e)
                logger.log(WARN, "Error while baking $replacement", e)
            }
        }
        return unbaked.bake(bakery, spriteGetter, transform, location)
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/discovery/BlockTypeCache.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/discovery/BlockTypeCache.kt
@@ -0,0 +1,14 @@
 package mods.betterfoliage.resource.discovery
 import net.minecraft.block.BlockState
 class BlockTypeCache {
    val leaf = mutableSetOf<BlockState>()
    val grass = mutableSetOf<BlockState>()
    val dirt = mutableSetOf<BlockState>()
    val stateKeys = mutableMapOf<BlockState, ModelBakingKey>()
    inline fun <reified T> getTypedOrNull(state: BlockState) = stateKeys[state] as? T
    inline fun <reified T> hasTyped(state: BlockState) = stateKeys[state] is T
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/discovery/ConfigurableModelDiscovery.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/discovery/ConfigurableModelDiscovery.kt
@@ -1,53 +0,0 @@
 package mods.betterfoliage.resource.discovery
 import com.google.common.base.Joiner
 import mods.betterfoliage.util.YarnHelper
 import mods.betterfoliage.util.get
 import mods.betterfoliage.util.stripStart
 import net.minecraft.block.BlockState
 import net.minecraft.client.render.model.json.JsonUnbakedModel
 import net.minecraft.util.Identifier
 import java.util.function.Consumer
 // net.minecraft.client.render.model.json.JsonUnbakedModel.parent
 val JsonUnbakedModel_parent = YarnHelper.requiredField<JsonUnbakedModel>("net.minecraft.class_793", "field_4253", "Lnet/minecraft/class_793;")
 // net.minecraft.client.render.model.json.JsonUnbakedModel.parentId
 val JsonUnbakedModel_parentId = YarnHelper.requiredField<Identifier>("net.minecraft.class_793", "field_4247", "Lnet/minecraft/class_2960;")
 fun Pair<JsonUnbakedModel, Identifier>.derivesFrom(targetLocation: Identifier): Boolean {
    if (second.stripStart("models/") == targetLocation) return true
    if (first[JsonUnbakedModel_parent] != null && first[JsonUnbakedModel_parentId] != null)
        return Pair(first[JsonUnbakedModel_parent]!!, first[JsonUnbakedModel_parentId]!!).derivesFrom(targetLocation)
    return false
 }
 abstract class ConfigurableModelDiscovery : ModelDiscoveryBase() {
    abstract val matchClasses: IBlockMatcher
    abstract val modelTextures: List<ModelTextureList>
    abstract fun processModel(state: BlockState, textures: List<String>, atlas: Consumer<Identifier>): BlockRenderKey?
    override fun processModel(ctx: ModelDiscoveryContext, atlas: Consumer<Identifier>): BlockRenderKey? {
        val matchClass = matchClasses.matchingClass(ctx.state.block) ?: return null
        log("block state ${ctx.state.toString()}")
        log("      class ${ctx.state.block.javaClass.name} matches ${matchClass.name}")
        (ctx.models.filter { it.first is JsonUnbakedModel } as List<Pair<JsonUnbakedModel, Identifier>>).forEach { (model, location) ->
            val modelMatch = modelTextures.firstOrNull { (model to location).derivesFrom(it.modelLocation) }
            if (modelMatch != null) {
                log("      model ${model} matches ${modelMatch.modelLocation}")
                val textures = modelMatch.textureNames.map { it to model.resolveTexture(it) }
                val texMapString = Joiner.on(", ").join(textures.map { "${it.first}=${it.second}" })
                log("    sprites [$texMapString]")
                if (textures.all { it.second != "missingno" }) {
                    // found a valid model (all required textures exist)
                    return processModel(ctx.state, textures.map { it.second }, atlas)
                }
            }
        }
        return null
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/discovery/Matchers.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/discovery/Matchers.kt
@@ -1,13 +1,12 @@
 package mods.betterfoliage.resource.discovery
-import mods.betterfoliage.util.getLines
+import mods.betterfoliage.util.HasLogger
 import mods.betterfoliage.util.INTERMEDIARY
 import mods.betterfoliage.util.getJavaClass
-import net.fabricmc.loader.api.FabricLoader
+import mods.betterfoliage.util.getLines
 import mods.betterfoliage.util.resourceManager
 import net.minecraft.block.Block
-import net.minecraft.resource.ResourceManager
+import net.minecraft.util.ResourceLocation
-import net.minecraft.util.Identifier
+import org.apache.logging.log4j.Level.INFO
 import org.apache.logging.log4j.Logger
 interface IBlockMatcher {
    fun matchesClass(block: Block): Boolean
@@ -24,8 +23,7 @@ class SimpleBlockMatcher(vararg val classes: Class<*>) : IBlockMatcher {
    }
 }
-class ConfigurableBlockMatcher(val logger: Logger, val location: Identifier) : IBlockMatcher {
+class ConfigurableBlockMatcher(val location: ResourceLocation) : HasLogger(), IBlockMatcher {
    val blackList = mutableListOf<Class<*>>()
    val whiteList = mutableListOf<Class<*>>()
@@ -43,34 +41,32 @@ class ConfigurableBlockMatcher(val logger: Logger, val location: Identifier) : I
        return null
    }
-    fun readDefaults(manager: ResourceManager) {
+    fun readDefaults() {
        blackList.clear()
        whiteList.clear()
-        manager.getAllResources(location).forEach { resource ->
+        resourceManager.getResources(location).forEach { resource ->
-            logger.debug("Reading resource $location from pack ${resource.resourcePackName}")
+            detailLogger.log(INFO, "Reading block class configuration $location from pack ${resource.sourceName}")
            resource.getLines().map{ it.trim() }.filter { !it.startsWith("//") && it.isNotEmpty() }.forEach { line ->
-                if (line.startsWith("-")) getBlockClass(line.substring(1))?.let { blackList.add(it) }
+                if (line.startsWith("-")) getJavaClass(line.substring(1))?.let { blackList.add(it) }
-                else getBlockClass(line)?.let { whiteList.add(it) }
+                else getJavaClass(line)?.let { whiteList.add(it) }
            }
        }
    }
    fun getBlockClass(name: String) = getJavaClass(FabricLoader.getInstance().mappingResolver.mapClassName(INTERMEDIARY, name))
 }
-data class ModelTextureList(val modelLocation: Identifier, val textureNames: List<String>) {
+data class ModelTextureList(val modelLocation: ResourceLocation, val textureNames: List<String>) {
-    constructor(vararg args: String) : this(Identifier(args[0]), listOf(*args).drop(1))
+    constructor(vararg args: String) : this(ResourceLocation(args[0]), listOf(*args).drop(1))
 }
-class ModelTextureListConfiguration(val logger: Logger, val location: Identifier) {
+class ModelTextureListConfiguration(val location: ResourceLocation) : HasLogger() {
    val modelList = mutableListOf<ModelTextureList>()
-    fun readDefaults(manager: ResourceManager) {
+    fun readDefaults() {
-        manager.getAllResources(location).forEach { resource ->
+        resourceManager.getResources(location).forEach { resource ->
-            logger.debug("Reading resource $location from pack ${resource.resourcePackName}")
+            detailLogger.log(INFO, "Reading model/texture configuration $location from pack ${resource.sourceName}")
            resource.getLines().map{ it.trim() }.filter { !it.startsWith("//") && it.isNotEmpty() }.forEach { line ->
                val elements = line.split(",")
-                modelList.add(ModelTextureList(Identifier(elements.first()), elements.drop(1)))
+                modelList.add(ModelTextureList(ResourceLocation(elements.first()), elements.drop(1)))
            }
        }
    }
--- a/src/main/kotlin/mods/betterfoliage/resource/discovery/ModelDiscovery.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/discovery/ModelDiscovery.kt
@@ -0,0 +1,104 @@
 package mods.betterfoliage.resource.discovery
 import com.google.common.base.Joiner
 import mods.betterfoliage.util.HasLogger
 import net.minecraft.client.renderer.BlockModelShapes
 import net.minecraft.client.renderer.model.BlockModel
 import net.minecraft.client.renderer.model.ModelBakery
 import net.minecraft.client.renderer.model.VariantList
 import net.minecraft.client.renderer.texture.MissingTextureSprite
 import net.minecraft.util.ResourceLocation
 import net.minecraftforge.registries.ForgeRegistries
 import org.apache.logging.log4j.Level
 abstract class AbstractModelDiscovery : HasLogger(), ModelDiscovery {
    override fun onModelsLoaded(
        bakery: ModelBakery,
        sprites: MutableSet<ResourceLocation>,
        replacements: MutableMap<ResourceLocation, ModelBakingKey>
    ) {
        ForgeRegistries.BLOCKS
            .flatMap { block -> block.stateDefinition.possibleStates }
            .forEach { state ->
                val location = BlockModelShapes.stateToModelLocation(state)
                val ctx = ModelDiscoveryContext(bakery, state, location, sprites, replacements, detailLogger)
                try {
                    processModel(ctx)
                } catch (e: Exception) {
                    logger.log(Level.WARN, "Discovery error in $location", e)
                }
            }
    }
    open fun processModel(ctx: ModelDiscoveryContext) {
        val model = ctx.getUnbaked()
        // built-in support for container models
        if (model is VariantList) {
            // per-location replacements need to be scoped to the variant list, as replacement models
            // may need information from the BlockState which is not available at baking time
            val scopedReplacements = mutableMapOf<ResourceLocation, ModelBakingKey>()
            model.variants.forEach { variant ->
                processModel(ctx.copy(modelLocation = variant.modelLocation, replacements = scopedReplacements))
            }
            if (scopedReplacements.isNotEmpty()) {
                ctx.addReplacement(WeightedUnbakedKey(scopedReplacements), addToStateKeys = false)
            }
        }
    }
 }
 abstract class ConfigurableModelDiscovery : AbstractModelDiscovery() {
    abstract val matchClasses: IBlockMatcher
    abstract val modelTextures: List<ModelTextureList>
    abstract fun processModel(
        ctx: ModelDiscoveryContext,
        textureMatch: List<ResourceLocation>
    )
    override fun processModel(ctx: ModelDiscoveryContext) {
        val model = ctx.getUnbaked()
        if (model is BlockModel) {
            val matchClass = matchClasses.matchingClass(ctx.blockState.block) ?: return
            detailLogger.log(Level.INFO, "block state ${ctx.blockState}")
            detailLogger.log(Level.INFO, "      model ${ctx.modelLocation}")
            detailLogger.log(Level.INFO, "      class ${ctx.blockState.block.javaClass.name} matches ${matchClass.name}")
            val ancestry = ctx.bakery.getAncestry(ctx.modelLocation)
            val matches = modelTextures.filter { matcher ->
                matcher.modelLocation in ancestry
            }
            matches.forEach { match ->
                    detailLogger.log(Level.INFO, "      model $model matches ${match.modelLocation}")
                val materials = match.textureNames.map { it to model.getMaterial(it) }
                val texMapString = Joiner.on(", ").join(materials.map { "${it.first}=${it.second.texture()}" })
                detailLogger.log(Level.INFO, "    sprites [$texMapString]")
                if (materials.all { it.second.texture() != MissingTextureSprite.getLocation() }) {
                    // found a valid model (all required textures exist)
                    processModel(ctx, materials.map { it.second.texture() })
                }
            }
            if (matches.isEmpty()) {
                detailLogger.log(Level.INFO, "      no matches for model ${ctx.modelLocation}, inheritance chain ${ancestry.joinToString(" -> ")}")
            }
        }
        return super.processModel(ctx)
    }
 }
 fun ModelBakery.modelDerivesFrom(model: BlockModel, location: ResourceLocation, target: ResourceLocation): Boolean =
    if (location == target) true
    else model.parentLocation
        ?.let { getModel(it) as? BlockModel }
        ?.let { parent -> modelDerivesFrom(parent, model.parentLocation!!, target) }
        ?: false
 fun ModelBakery.getAncestry(location: ResourceLocation): List<ResourceLocation> {
    val model = getModel(location) as? BlockModel ?: return listOf(location)
    val parentAncestry = model.parentLocation?.let { getAncestry(it) } ?: emptyList()
    return listOf(location) + parentAncestry
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/discovery/ModelDiscoveryBase.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/discovery/ModelDiscoveryBase.kt
@@ -1,76 +0,0 @@
 package mods.betterfoliage.resource.discovery
 import mods.betterfoliage.util.HasLogger
 import net.minecraft.block.BlockState
 import net.minecraft.client.render.block.BlockModels
 import net.minecraft.client.render.model.BakedModel
 import net.minecraft.client.render.model.ModelLoader
 import net.minecraft.client.render.model.UnbakedModel
 import net.minecraft.client.render.model.json.JsonUnbakedModel
 import net.minecraft.client.render.model.json.ModelVariant
 import net.minecraft.client.render.model.json.WeightedUnbakedModel
 import net.minecraft.client.texture.SpriteAtlasTexture
 import net.minecraft.client.util.ModelIdentifier
 import net.minecraft.util.Identifier
 import net.minecraft.util.registry.Registry
 import java.util.function.Consumer
 typealias RenderKeyFactory = (SpriteAtlasTexture)->BlockRenderKey
 interface BlockRenderKey {
    fun replace(model: BakedModel, state: BlockState): BakedModel = model
 }
 fun ModelLoader.iterateModels(func: (ModelDiscoveryContext)->Unit) {
    Registry.BLOCK.flatMap { block ->
        block.stateFactory.states.map { state -> state to BlockModels.getModelId(state) }
    }.forEach { (state, stateModelResource) ->
        func(ModelDiscoveryContext(this, state, stateModelResource))
    }
 }
 /**
 * Information about a single [BlockState] and all the [UnbakedModel]s it could render as.
 */
 class ModelDiscoveryContext(
    loader: ModelLoader,
    val state: BlockState,
    val modelId: ModelIdentifier
 ) {
    val models = loader.unwrapVariants(loader.getOrLoadModel(modelId) to modelId)
        .filter { it.second != loader.getOrLoadModel(ModelLoader.MISSING) }
    fun ModelLoader.unwrapVariants(modelAndLoc: Pair<UnbakedModel, Identifier>): List<Pair<UnbakedModel, Identifier>> = when(val model = modelAndLoc.first) {
        is WeightedUnbakedModel -> (model.variants as List<ModelVariant>).flatMap {
            variant -> unwrapVariants(getOrLoadModel(variant.location) to variant.location)
        }
        is JsonUnbakedModel -> listOf(modelAndLoc)
        else -> emptyList()
    }
 }
 interface ModelDiscovery {
    fun discover(loader: ModelLoader, atlas: Consumer<Identifier>): Map<BlockState, BlockRenderKey>
 }
 abstract class ModelDiscoveryBase : ModelDiscovery, HasLogger {
    override fun discover(loader: ModelLoader, atlas: Consumer<Identifier>): Map<BlockState, BlockRenderKey> {
        val keys = mutableMapOf<BlockState, BlockRenderKey>()
        var errors = 0
        loader.iterateModels { ctx ->
            try {
                val result = processModel(ctx, atlas)
                result?.let { keys[ctx.state] = it }
            } catch (e: Exception) {
                errors++
            }
        }
        log("${keys.size} BlockStates discovered, $errors errors")
        return keys
    }
    abstract fun processModel(ctx: ModelDiscoveryContext, atlas: Consumer<Identifier>): BlockRenderKey?
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/discovery/VanillaWrappers.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/discovery/VanillaWrappers.kt
@@ -0,0 +1,58 @@
 package mods.betterfoliage.resource.discovery
 import mods.betterfoliage.model.HalfBakedSimpleModelWrapper
 import mods.betterfoliage.model.SpecialRenderModel
 import mods.betterfoliage.model.WeightedModelWrapper
 import mods.betterfoliage.util.HasLogger
 import net.minecraft.client.renderer.model.IBakedModel
 import net.minecraft.client.renderer.model.SimpleBakedModel
 import net.minecraft.client.renderer.model.VariantList
 import net.minecraft.util.ResourceLocation
 import org.apache.logging.log4j.Level.INFO
 import org.apache.logging.log4j.Level.WARN
 class WeightedUnbakedKey(
    val replacements: Map<ResourceLocation, ModelBakingKey>
 ) : ModelBakingKey {
    override fun bake(ctx: ModelBakingContext): IBakedModel? {
        val unbaked = ctx.getUnbaked()
        if (unbaked !is VariantList) return super.bake(ctx)
        // bake all variants, replace as needed
        val bakedModels = unbaked.variants.mapNotNull {
            val variantCtx = ctx.copy(location = it.modelLocation, transform = it)
            val replacement = replacements[it.modelLocation]
            val baked = replacement?.let { replacement ->
                ctx.logger.log(INFO, "Baking replacement for variant [${variantCtx.getUnbaked()::class.java.simpleName}] ${variantCtx.location} -> $replacement")
                replacement.bake(variantCtx)
            } ?: variantCtx.getBaked()
            when(baked) {
                is SpecialRenderModel -> it to baked
                // just in case we replaced some variants in the list, but not others
                // this should not realistically happen, this is just a best-effort fallback
                is SimpleBakedModel -> it to HalfBakedSimpleModelWrapper(baked)
                else -> null
            }
        }
        // something fishy going on, possibly unknown model type
        // let it through unchanged
        if (bakedModels.isEmpty()) return super.bake(ctx)
        if (bakedModels.size < unbaked.variants.size) {
            detailLogger.log(
                WARN,
                "Dropped ${unbaked.variants.size - bakedModels.size} variants from model ${ctx.location}"
            )
        }
        val weightedSpecials = bakedModels.map { (variant, model) ->
            WeightedModelWrapper.WeightedModel(model, variant.weight)
        }
        return WeightedModelWrapper(weightedSpecials, weightedSpecials[0].model)
    }
    override fun toString() = "[SpecialRenderVariantList, ${replacements.size} replacements]"
    companion object : HasLogger()
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/generated/CenteringTextureGenerator.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/generated/CenteringTextureGenerator.kt
@@ -3,25 +3,25 @@ package mods.betterfoliage.resource.generated
 import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.util.bytes
 import mods.betterfoliage.util.loadSprite
-import net.minecraft.resource.ResourceManager
+import net.minecraft.resources.IResourceManager
-import net.minecraft.util.Identifier
+import net.minecraft.util.ResourceLocation
 import java.awt.image.BufferedImage
 import java.lang.Math.max
-data class CenteredSprite(val sprite: Identifier, val atlas: Atlas = Atlas.BLOCKS, val aspectHeight: Int = 1, val aspectWidth: Int = 1) {
+data class CenteredSprite(val sprite: ResourceLocation, val aspectHeight: Int = 1, val aspectWidth: Int = 1, val atlas: Atlas = Atlas.BLOCKS) {
-    fun register(pack: GeneratedBlockTexturePack) = pack.register(this, this::draw)
+    fun register(pack: GeneratedTexturePack) = pack.register(atlas, this, this::draw)
-    fun draw(resourceManager: ResourceManager): ByteArray {
+    fun draw(resourceManager: IResourceManager): ByteArray {
-        val baseTexture = resourceManager.loadSprite(atlas.wrap(sprite))
+        val baseTexture = resourceManager.loadSprite(atlas.file(sprite))
        val frameWidth = baseTexture.width
        val frameHeight = baseTexture.width * aspectHeight / aspectWidth
        val frames = baseTexture.height / frameHeight
        val size = max(frameWidth, frameHeight)
-        val result = BufferedImage(size, size * frames, BufferedImage.TYPE_4BYTE_ABGR)
+        val resultTexture = BufferedImage(size, size * frames, BufferedImage.TYPE_4BYTE_ABGR)
-        val graphics = result.createGraphics()
+        val graphics = resultTexture.createGraphics()
        // iterate all frames
        for (frame in 0 until frames) {
@@ -34,6 +34,6 @@ data class CenteredSprite(val sprite: Identifier, val atlas: Atlas = Atlas.BLOCK
            graphics.drawImage(resultFrame, 0, size * frame, null)
        }
-        return result.bytes
+        return resultTexture.bytes
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/generated/GeneratedBlockTexturePack.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/generated/GeneratedBlockTexturePack.kt
@@ -1,92 +0,0 @@
 package mods.betterfoliage.resource.generated
 import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.util.HasLogger
 import net.fabricmc.fabric.api.resource.IdentifiableResourceReloadListener
 import net.minecraft.client.resource.ClientResourcePackContainer
 import net.minecraft.resource.*
 import net.minecraft.resource.ResourcePackContainer.InsertionPosition
 import net.minecraft.resource.ResourceType.CLIENT_RESOURCES
 import net.minecraft.resource.metadata.ResourceMetadataReader
 import net.minecraft.text.LiteralText
 import net.minecraft.util.Identifier
 import net.minecraft.util.profiler.Profiler
 import org.apache.logging.log4j.Logger
 import java.io.IOException
 import java.lang.IllegalStateException
 import java.util.*
 import java.util.concurrent.CompletableFuture
 import java.util.concurrent.ExecutionException
 import java.util.concurrent.Executor
 import java.util.function.Predicate
 import java.util.function.Supplier
 /**
 * [ResourcePack] containing generated block textures
 *
 * @param[reloadId] Fabric ID of the pack
 * @param[nameSpace] Resource namespace of pack
 * @param[packName] Friendly name of pack
 * @param[packDesc] Description of pack
 * @param[logger] Logger to log to when generating resources
 */
 class GeneratedBlockTexturePack(val reloadId: Identifier, val nameSpace: String, val packName: String, val packDesc: String, override val logger: Logger) : HasLogger, ResourcePack, IdentifiableResourceReloadListener {
    override fun getName() = reloadId.toString()
    override fun getNamespaces(type: ResourceType) = setOf(nameSpace)
    override fun <T : Any?> parseMetadata(deserializer: ResourceMetadataReader<T>) = null
    override fun openRoot(id: String) = null
    override fun findResources(type: ResourceType, path: String, maxDepth: Int, filter: Predicate<String>) = emptyList<Identifier>()
    override fun close() {}
    protected var manager: ResourceManager? = null
    val identifiers: MutableMap<Any, Identifier> = Collections.synchronizedMap(mutableMapOf<Any, Identifier>())
    val resources: MutableMap<Identifier, ByteArray> = Collections.synchronizedMap(mutableMapOf<Identifier, ByteArray>())
    fun register(key: Any, func: (ResourceManager)->ByteArray): Identifier {
        if (manager == null) throw IllegalStateException("Cannot register resources unless resource manager is being reloaded")
        identifiers[key]?.let { return it }
        val id = Identifier(nameSpace, UUID.randomUUID().toString())
        val resource = func(manager!!)
        identifiers[key] = id
        resources[Atlas.BLOCKS.wrap(id)] = resource
        log("generated resource $key -> $id")
        return id
    }
    override fun open(type: ResourceType, id: Identifier) =
        if (type != CLIENT_RESOURCES) null else
            try { resources[id]!!.inputStream() }
            catch (e: ExecutionException) { (e.cause as? IOException)?.let { throw it } }   // rethrow wrapped IOException if present
    override fun contains(type: ResourceType, id: Identifier) =
        type == CLIENT_RESOURCES && resources.containsKey(id)
    override fun reload(synchronizer: ResourceReloadListener.Synchronizer, manager: ResourceManager, prepareProfiler: Profiler, applyProfiler: Profiler, prepareExecutor: Executor, applyExecutor: Executor): CompletableFuture<Void> {
        this.manager = manager
        return synchronizer.whenPrepared(null).thenRun {
            this.manager = null
            identifiers.clear()
            resources.clear()
        }
    }
    override fun getFabricId() = reloadId
    /**
     * Supplier for this resource pack. Adds pack as always-on and hidden.
     */
    val finder = object : ResourcePackCreator {
        val packInfo = ClientResourcePackContainer(
            packName, true, Supplier { this@GeneratedBlockTexturePack },
            LiteralText(packName),
            LiteralText(packDesc),
            ResourcePackCompatibility.COMPATIBLE, InsertionPosition.TOP, true, null
        )
        override fun <T : ResourcePackContainer> registerContainer(nameToPackMap: MutableMap<String, T>, packInfoFactory: ResourcePackContainer.Factory<T>) {
            (nameToPackMap as MutableMap<String, ResourcePackContainer>)[reloadId.toString()] = packInfo
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/generated/GeneratedGrassSprite.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/generated/GeneratedGrassSprite.kt
@@ -1,8 +1,13 @@
 package mods.betterfoliage.resource.generated
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.Atlas
-import net.minecraft.resource.ResourceManager
+import mods.betterfoliage.util.blendRGB
-import net.minecraft.util.Identifier
+import mods.betterfoliage.util.bytes
 import mods.betterfoliage.util.get
 import mods.betterfoliage.util.loadSprite
 import mods.betterfoliage.util.set
 import net.minecraft.resources.IResourceManager
 import net.minecraft.util.ResourceLocation
 import java.awt.image.BufferedImage
 /**
@@ -11,13 +16,13 @@ import java.awt.image.BufferedImage
 *
 * @param[domain] Resource domain of generator
 */
-data class GeneratedGrassSprite(val sprite: Identifier, val isSnowed: Boolean, val atlas: Atlas = Atlas.BLOCKS) {
+data class GeneratedGrass(val baseSprite: ResourceLocation, val isSnowed: Boolean, val atlas: Atlas = Atlas.BLOCKS) {
-    constructor(sprite: String, isSnowed: Boolean) : this(Identifier(sprite), isSnowed)
+    constructor(sprite: String, isSnowed: Boolean) : this(ResourceLocation(sprite), isSnowed)
-    fun register(pack: GeneratedBlockTexturePack) = pack.register(this, this::draw)
+    fun register(pack: GeneratedTexturePack) = pack.register(atlas, this, this::draw)
-    fun draw(resourceManager: ResourceManager): ByteArray {
+    fun draw(resourceManager: IResourceManager): ByteArray {
-        val baseTexture = resourceManager.loadSprite(atlas.wrap(sprite))
+        val baseTexture = resourceManager.loadSprite(atlas.file(baseSprite))
        val result = BufferedImage(baseTexture.width, baseTexture.height, BufferedImage.TYPE_4BYTE_ABGR)
        val graphics = result.createGraphics()
@@ -41,7 +46,7 @@ data class GeneratedGrassSprite(val sprite: Identifier, val isSnowed: Boolean, v
        // blend with white if snowed
        if (isSnowed) {
-            for (x in 0..result.width - 1) for (y in 0..result.height - 1) {
+            for (x in 0 until result.width) for (y in 0 until result.height) {
                result[x, y] = blendRGB(result[x, y], 16777215, 2, 3)
            }
        }
--- a/src/main/kotlin/mods/betterfoliage/resource/generated/GeneratedLeafSprite.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/generated/GeneratedLeafSprite.kt
@@ -1,10 +1,16 @@
 package mods.betterfoliage.resource.generated
-import mods.betterfoliage.BetterFoliage
+import mods.betterfoliage.BetterFoliageMod
-import mods.betterfoliage.util.*
+import mods.betterfoliage.util.Atlas
-import net.minecraft.resource.Resource
+import mods.betterfoliage.util.bytes
-import net.minecraft.resource.ResourceManager
+import mods.betterfoliage.util.get
-import net.minecraft.util.Identifier
+import mods.betterfoliage.util.loadImage
 import mods.betterfoliage.util.loadSprite
 import mods.betterfoliage.util.resourceManager
 import mods.betterfoliage.util.set
 import net.minecraft.resources.IResource
 import net.minecraft.resources.IResourceManager
 import net.minecraft.util.ResourceLocation
 import java.awt.image.BufferedImage
 /**
@@ -15,12 +21,12 @@ import java.awt.image.BufferedImage
 *
 * @param[domain] Resource domain of generator
 */
-data class GeneratedLeafSprite(val sprite: Identifier, val leafType: String, val atlas: Atlas = Atlas.BLOCKS) {
+data class GeneratedLeafSprite(val baseSprite: ResourceLocation, val leafType: String, val atlas: Atlas = Atlas.BLOCKS) {
-    fun register(pack: GeneratedBlockTexturePack) = pack.register(this, this::draw)
+    fun register(pack: GeneratedTexturePack) = pack.register(atlas, this, this::draw)
-    fun draw(resourceManager: ResourceManager): ByteArray {
+    fun draw(resourceManager: IResourceManager): ByteArray {
-        val baseTexture = resourceManager.loadSprite(atlas.wrap(sprite))
+        val baseTexture = resourceManager.loadSprite(atlas.file(baseSprite))
        val size = baseTexture.width
        val frames = baseTexture.height / size
@@ -28,8 +34,8 @@ data class GeneratedLeafSprite(val sprite: Identifier, val leafType: String, val
        val maskTexture = (getLeafMask(leafType, size * 2) ?: getLeafMask("default", size * 2))?.loadImage()
        fun scale(i: Int) = i * maskTexture!!.width / (size * 2)
-        val result = BufferedImage(size * 2, size * 2 * frames, BufferedImage.TYPE_4BYTE_ABGR)
+        val leafTexture = BufferedImage(size * 2, size * 2 * frames, BufferedImage.TYPE_4BYTE_ABGR)
-        val graphics = result.createGraphics()
+        val graphics = leafTexture.createGraphics()
        // iterate all frames
        for (frame in 0 until frames) {
@@ -57,7 +63,7 @@ data class GeneratedLeafSprite(val sprite: Identifier, val leafType: String, val
            graphics.drawImage(leafFrame, 0, size * frame * 2, null)
        }
-        return result.bytes
+        return leafTexture.bytes
    }
    /**
@@ -67,7 +73,7 @@ data class GeneratedLeafSprite(val sprite: Identifier, val leafType: String, val
     * @param[maxSize] Preferred mask size.
     */
    fun getLeafMask(type: String, maxSize: Int) = getMultisizeTexture(maxSize) { size ->
-        Atlas.BLOCKS.wrap(Identifier(BetterFoliage.MOD_ID, "blocks/leafmask_${size}_${type}"))
+        Atlas.BLOCKS.file(ResourceLocation(BetterFoliageMod.MOD_ID, "blocks/leafmask_${size}_${type}"))
    }
    /**
@@ -77,10 +83,10 @@ data class GeneratedLeafSprite(val sprite: Identifier, val leafType: String, val
     * @param[maskPath] Location of the texture of the given size
     *
     */
-    fun getMultisizeTexture(maxSize: Int, maskPath: (Int)->Identifier): Resource? {
+    fun getMultisizeTexture(maxSize: Int, maskPath: (Int)->ResourceLocation): IResource? {
        var size = maxSize
        val sizes = mutableListOf<Int>()
        while(size > 2) { sizes.add(size); size /= 2 }
-        return sizes.findFirst { resourceManager[maskPath(it)] }
+        return sizes.map { resourceManager[maskPath(it)] }.filterNotNull().firstOrNull()
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/generated/ResourceGeneration.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/generated/ResourceGeneration.kt
@@ -0,0 +1,69 @@
 package mods.betterfoliage.resource.generated
 import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.util.HasLogger
 import net.minecraft.client.Minecraft
 import net.minecraft.resources.*
 import net.minecraft.resources.ResourcePackType.CLIENT_RESOURCES
 import net.minecraft.resources.data.IMetadataSectionSerializer
 import net.minecraft.util.ResourceLocation
 import net.minecraft.util.text.StringTextComponent
 import org.apache.logging.log4j.Level.INFO
 import java.util.*
 import java.util.function.Consumer
 import java.util.function.Predicate
 import java.util.function.Supplier
 /**
 * [IResourcePack] containing generated resources
 *
 * @param[name] Name of the resource pack
 * @param[generators] List of resource generators
 */
 class GeneratedTexturePack(
    val nameSpace: String, val packName: String
 ) : HasLogger(), IResourcePack {
    override fun getName() = packName
    override fun getNamespaces(type: ResourcePackType) = setOf(nameSpace)
    override fun <T : Any?> getMetadataSection(deserializer: IMetadataSectionSerializer<T>) = null
    override fun getRootResource(id: String) = null
    override fun getResources(type: ResourcePackType, namespace:String, path: String, maxDepth: Int, filter: Predicate<String>) = emptyList<ResourceLocation>()
    override fun close() {}
    protected var manager: IResourceManager = Minecraft.getInstance().resourceManager
    val identifiers = Collections.synchronizedMap(mutableMapOf<Any, ResourceLocation>())
    val resources = Collections.synchronizedMap(mutableMapOf<ResourceLocation, ByteArray>())
    fun register(atlas: Atlas, key: Any, func: (IResourceManager)->ByteArray): ResourceLocation {
        identifiers[key]?.let { return it }
        val id = ResourceLocation(nameSpace, UUID.randomUUID().toString())
        val fileName = atlas.file(id)
        val resource = func(manager)
        identifiers[key] = id
        resources[fileName] = resource
        detailLogger.log(INFO, "generated resource $key -> $fileName")
        return id
    }
    override fun getResource(type: ResourcePackType, id: ResourceLocation) =
        if (type != CLIENT_RESOURCES) null else resources[id]?.inputStream()
    override fun hasResource(type: ResourcePackType, id: ResourceLocation) =
        type == CLIENT_RESOURCES && resources.containsKey(id)
    val finder = object : IPackFinder {
        val packInfo = ResourcePackInfo(
            packName, true, Supplier { this@GeneratedTexturePack },
            StringTextComponent(packName),
            StringTextComponent("Generated block textures resource pack"),
            PackCompatibility.COMPATIBLE, ResourcePackInfo.Priority.TOP, true, null, true
        )
        override fun loadPacks(p0: Consumer<ResourcePackInfo>, p1: ResourcePackInfo.IFactory) {
            p0.accept(packInfo)
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/model/Meshify.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/model/Meshify.kt
@@ -1,114 +0,0 @@
 package mods.betterfoliage.resource.model
 import mods.betterfoliage.util.Double3
 import mods.betterfoliage.util.allDirections
 import mods.betterfoliage.util.findFirst
 import net.minecraft.block.BlockRenderLayer
 import net.minecraft.block.BlockState
 import net.minecraft.client.render.VertexFormat
 import net.minecraft.client.render.VertexFormatElement
 import net.minecraft.client.render.VertexFormatElement.Format.FLOAT
 import net.minecraft.client.render.VertexFormatElement.Format.UBYTE
 import net.minecraft.client.render.VertexFormatElement.Type.*
 import net.minecraft.client.render.VertexFormatElement.Type.UV
 import net.minecraft.client.render.VertexFormats
 import net.minecraft.client.render.model.BakedModel
 import net.minecraft.client.render.model.BakedQuad
 import net.minecraft.util.math.Direction
 import java.lang.Float
 import java.util.*
 interface BakedModelConverter {
    /**
     * Convert baked model. Returns null if conversion unsuccessful (wrong input type).
     * @param model Input model
     * @param converter Converter to use for converting nested models.
     */
    fun convert(model: BakedModel, converter: BakedModelConverter): BakedModel?
    companion object {
        fun of(func: (BakedModel, BakedModelConverter)->BakedModel?) = object : BakedModelConverter {
            override fun convert(model: BakedModel, converter: BakedModelConverter) = func(model, converter)
        }
        val identity = of { model, _ -> model }
    }
 }
 /**
 * Convert [BakedModel] using the provided list of [BakedModelConverter]s (in order).
 * If all converters fail, gives the original model back.
 */
 fun List<BakedModelConverter>.convert(model: BakedModel) = object : BakedModelConverter {
    val converters = this@convert + BakedModelConverter.identity
    override fun convert(model: BakedModel, converter: BakedModelConverter) = converters.findFirst { it.convert(model, converter) }
 }.let { converterStack ->
    // we are guaranteed a result here because of the identity converter
    converterStack.convert(model, converterStack)!!
 }
 /** List of converters without meaningful configuration that should always be used */
 val COMMON_MESH_CONVERTERS = listOf(WrappedWeightedModel.converter)
 /**
 * Convert [BakedModel] into one using fabric-rendering-api [Mesh] instead of the vanilla pipeline.
 * @param renderLayerOverride Use the given [BlockRenderLayer] for the [Mesh]
 * instead of the one declared by the corresponding [Block]
 */
 fun meshifyStandard(model: BakedModel, state: BlockState, renderLayerOverride: BlockRenderLayer? = null) =
    (COMMON_MESH_CONVERTERS + WrappedMeshModel.converter(state, renderLayerOverride = renderLayerOverride)).convert(model)
 /**
 * Convert a vanilla [BakedModel] into intermediate [Quad]s
 * Vertex normals not supported (yet)
 * Vertex data elements not aligned to 32 bit boundaries not supported
 */
 fun unbakeQuads(model: BakedModel, state: BlockState, random: Random, unshade: Boolean): List<Quad> {
    return (allDirections.toList() + null as Direction?).flatMap { face ->
        model.getQuads(state, face, random).mapIndexed { qIdx, bakedQuad ->
            var quad = Quad(Vertex(), Vertex(), Vertex(), Vertex(), face = face, colorIndex = bakedQuad.colorIndex, sprite = bakedQuad.sprite)
            val format = quadVertexFormat(bakedQuad)
            val stride = format.vertexSizeInteger
            format.getIntOffset(POSITION, FLOAT, 3)?.let { posOffset ->
                quad = quad.transformVI { vertex, vIdx -> vertex.copy(xyz = Double3(
                    x = Float.intBitsToFloat(bakedQuad.vertexData[vIdx * stride + posOffset + 0]).toDouble(),
                    y = Float.intBitsToFloat(bakedQuad.vertexData[vIdx * stride + posOffset + 1]).toDouble(),
                    z = Float.intBitsToFloat(bakedQuad.vertexData[vIdx * stride + posOffset + 2]).toDouble()
                )) }
            }
            format.getIntOffset(COLOR, UBYTE, 4)?.let { colorOffset ->
                quad = quad.transformVI { vertex, vIdx -> vertex.copy(
                    color = Color(bakedQuad.vertexData[vIdx * stride + colorOffset])
                ) }
            }
            format.getIntOffset(UV, FLOAT, 2, 0)?.let { uvOffset ->
                quad = quad.transformVI { vertex, vIdx -> vertex.copy(uv = UV(
                    u = Float.intBitsToFloat(bakedQuad.vertexData[vIdx * stride + uvOffset + 0]).toDouble(),
                    v = Float.intBitsToFloat(bakedQuad.vertexData[vIdx * stride + uvOffset + 1]).toDouble()
                )) }
            }
            quad = quad.transformV { it.copy(uv = it.uv.unbake(quad.sprite!!)) }.move(Double3(-0.5, -0.5, -0.5))
            if (unshade) quad = quad.transformV { it.copy(color = it.color * (1.0f / Color.bakeShade(quad.face))) }
            quad
        }
    }
 }
 /** Get the byte offset of the [VertexFormatElement] matching the given criteria */
 fun VertexFormat.getByteOffset(type: VertexFormatElement.Type, format: VertexFormatElement.Format, count: Int, index: Int = 0): Int? {
    elements.forEachIndexed { idx, element ->
        if (element.type == type && element.format == format && element.count == count && element.index == index)
            return getElementOffset(idx)
    }
    return null
 }
 /**
 * Get the int (32 bit) offset of the [VertexFormatElement] matching the given criteria
 * Returns null if the element is not properly aligned
 */
 fun VertexFormat.getIntOffset(type: VertexFormatElement.Type, format: VertexFormatElement.Format, count: Int, index: Int = 0) =
    getByteOffset(type, format, count, index)?.let { if (it % 4 == 0) it / 4 else null }
 /** Function to determine [VertexFormat] used by [BakedQuad] */
 var quadVertexFormat: (BakedQuad)->VertexFormat = { VertexFormats.POSITION_COLOR_UV_LMAP }
--- a/src/main/kotlin/mods/betterfoliage/resource/model/Quads.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/model/Quads.kt
@@ -1,230 +0,0 @@
 package mods.betterfoliage.resource.model
 import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.util.*
 import mods.betterfoliage.util.minmax
 import net.fabricmc.fabric.api.renderer.v1.RendererAccess
 import net.fabricmc.fabric.api.renderer.v1.mesh.Mesh
 import net.minecraft.block.BlockRenderLayer
 import net.minecraft.client.texture.MissingSprite
 import net.minecraft.client.texture.Sprite
 import net.minecraft.util.math.Direction
 import net.minecraft.util.math.Direction.*
 import java.lang.Math.max
 import java.lang.Math.min
 import kotlin.math.cos
 import kotlin.math.sin
 import kotlin.random.Random
 /**
 * Vertex UV coordinates
 *
 * Zero-centered: sprite coordinates fall between (-0.5, 0.5)
 */
 data class UV(val u: Double, val v: Double) {
    companion object {
        val topLeft = UV(-0.5, -0.5)
        val topRight = UV(0.5, -0.5)
        val bottomLeft = UV(-0.5, 0.5)
        val bottomRight = UV(0.5, 0.5)
    }
    val rotate: UV get() = UV(v, -u)
    fun rotate(n: Int) = when(n % 4) {
        0 -> copy()
        1 -> UV(v, -u)
        2 -> UV(-u, -v)
        else -> UV(-v, u)
    }
    fun clamp(minU: Double = -0.5, maxU: Double = 0.5, minV: Double = -0.5, maxV: Double = 0.5) =
        UV(u.minmax(minU, maxU), v.minmax(minV, maxV))
    fun mirror(mirrorU: Boolean, mirrorV: Boolean) = UV(if (mirrorU) -u else u, if (mirrorV) -v else v)
    fun unbake(sprite: Sprite) = UV(
        (u - sprite.minU.toDouble()) / (sprite.maxU - sprite.minU).toDouble() - 0.5,
        (v - sprite.minV.toDouble()) / (sprite.maxV - sprite.minV).toDouble() - 0.5
    )
 }
 data class Color(val alpha: Int, val red: Int, val green: Int, val blue: Int) {
    constructor(combined: Int) : this(combined shr 24 and 255, combined shr 16 and 255, combined shr 8 and 255, combined and 255)
    val asInt get() = (alpha shl 24) or (red shl 16) or (green shl 8) or blue
    operator fun times(f: Float) = Color(
        alpha,
        (f * red.toFloat()).toInt().coerceIn(0 until 256),
        (f * green.toFloat()).toInt().coerceIn(0 until 256),
        (f * blue.toFloat()).toInt().coerceIn(0 until 256)
    )
    companion object {
        val white get() = Color(255, 255, 255, 255)
        /** Amount of vanilla diffuse lighting applied to face quads */
        fun bakeShade(dir: Direction?) = when(dir) {
            DOWN -> 0.5f
            NORTH, SOUTH -> 0.8f
            EAST, WEST -> 0.6f
            else -> 1.0f
        }
    }
 }
 data class HSB(var hue: Float, var saturation: Float, var brightness: Float) {
    companion object {
        fun fromColor(color: Int): HSB {
            val hsbVals = java.awt.Color.RGBtoHSB((color shr 16) and 255, (color shr 8) and 255, color and 255, null)
            return HSB(hsbVals[0], hsbVals[1], hsbVals[2])
        }
    }
    val asColor: Int get() = java.awt.Color.HSBtoRGB(hue, saturation, brightness)
 }
 /**
 * Model vertex
 *
 * @param[xyz] x, y, z coordinates
 * @param[uv] u, v coordinates
 * @param[color] vertex color RGB components
 * @param[alpha] vertex color alpha component
 */
 data class Vertex(val xyz: Double3 = Double3(0.0, 0.0, 0.0),
                  val uv: UV = UV(0.0, 0.0),
                  val color: Color = Color.white,
                  val alpha: Int = 255,
                  val normal: Double3? = null
 )
 /**
 * Intermediate (fabric-renderer-api independent) representation of model quad
 * Immutable, double-precision
 * Zero-centered (both XYZ and UV) coordinates for simpler rotation/mirroring
 */
 data class Quad(
    val v1: Vertex, val v2: Vertex, val v3: Vertex, val v4: Vertex,
    val sprite: Sprite? = null,
    val colorIndex: Int = -1,
    val face: Direction? = null
 ) {
    val verts = arrayOf(v1, v2, v3, v4)
    inline fun transformV(trans: (Vertex)-> Vertex): Quad = transformVI { vertex, idx -> trans(vertex) }
    inline fun transformVI(trans: (Vertex, Int)-> Vertex): Quad = copy(
        v1 = trans(v1, 0), v2 = trans(v2, 1), v3 = trans(v3, 2), v4 = trans(v4, 3)
    )
    val normal: Double3 get() = (v2.xyz - v1.xyz).cross(v4.xyz - v1.xyz).normalize
    fun move(trans: Double3) = transformV { it.copy(xyz = it.xyz + trans) }
    fun move(trans: Pair<Double, Direction>) = move(Double3(trans.second) * trans.first)
    fun scale (scale: Double) = transformV { it.copy(xyz = it.xyz * scale) }
    fun scale (scale: Double3) = transformV { it.copy(xyz = Double3(it.xyz.x * scale.x, it.xyz.y * scale.y, it.xyz.z * scale.z)) }
    fun rotate(rot: Rotation) = transformV { it.copy(xyz = it.xyz.rotate(rot), normal = it.normal?.rotate(rot)) }.copy(face = face?.rotate(rot))
    fun rotateZ(angle: Double) = transformV { it.copy(
        xyz = Double3(it.xyz.x * cos(angle) + it.xyz.z * sin(angle), it.xyz.y, it.xyz.z * cos(angle) - it.xyz.x * sin(angle)),
        normal = it.normal?.let { normal-> Double3(normal.x * cos(angle) + normal.z * sin(angle), normal.y, normal.z * cos(angle) - normal.x * sin(angle)) }
    ) }
    fun scaleUV (scale: Double) = transformV { it.copy(uv = UV(it.uv.u * scale, it.uv.v * scale)) }
    fun rotateUV(n: Int) = transformV { it.copy(uv = it.uv.rotate(n)) }
    fun clampUV(minU: Double = -0.5, maxU: Double = 0.5, minV: Double = -0.5, maxV: Double = 0.5) =
        transformV { it.copy(uv = it.uv.clamp(minU, maxU, minV, maxV)) }
    fun mirrorUV(mirrorU: Boolean, mirrorV: Boolean) = transformV { it.copy(uv = it.uv.mirror(mirrorU, mirrorV)) }
    fun scrambleUV(random: Random, canFlipU: Boolean, canFlipV: Boolean, canRotate: Boolean) = this
        .mirrorUV(canFlipU && random.nextBoolean(), canFlipV && random.nextBoolean())
        .let { if (canRotate) it.rotateUV(random.nextInt(4)) else it }
    fun sprite(sprite: Sprite) = copy(sprite = sprite)
    fun color(color: Color) = transformV { it.copy(color = color) }
    fun color(color: Int) = transformV { it.copy(color = Color(color)) }
    fun colorIndex(colorIndex: Int) = copy(colorIndex = colorIndex)
    fun colorAndIndex(color: Int?) = color(color ?: Color.white.asInt).colorIndex(if (color == null) 0 else -1)
    val flipped: Quad get() = Quad(v4, v3, v2, v1, sprite, colorIndex)
    fun cycleVertices(n: Int) = when(n % 4) {
        1 -> Quad(v2, v3, v4, v1)
        2 -> Quad(v3, v4, v1, v2)
        3 -> Quad(v4, v1, v2, v3)
        else -> this.copy()
    }
    companion object {
        fun mix(first: Quad, second: Quad, vertexFactory: (Vertex, Vertex)-> Vertex) = Quad(
            v1 = vertexFactory(first.v1, second.v1),
            v2 = vertexFactory(first.v2, second.v2),
            v3 = vertexFactory(first.v3, second.v3),
            v4 = vertexFactory(first.v4, second.v4)
        )
    }
 }
 fun List<Quad>.transform(trans: Quad.()-> Quad) = map { it.trans() }
 fun Array<List<Quad>>.transform(trans: Quad.(Int)-> Quad) = mapIndexed { idx, qList -> qList.map { it.trans(idx) } }.toTypedArray()
 fun List<Quad>.withOpposites() = flatMap { listOf(it, it.flipped) }
 fun Array<List<Quad>>.withOpposites() = map { it.withOpposites() }.toTypedArray()
 /**
 * Pour quad data into a fabric-renderer-api Mesh
 */
 fun List<Quad>.build(layer: BlockRenderLayer, noDiffuse: Boolean = false, flatLighting: Boolean = false): Mesh {
    val renderer = RendererAccess.INSTANCE.renderer
    val material = renderer.materialFinder().blendMode(0, layer).disableAo(0, flatLighting).disableDiffuse(0, noDiffuse).find()
    val builder = renderer.meshBuilder()
    builder.emitter.apply {
        forEach { quad ->
            val sprite = quad.sprite ?: Atlas.BLOCKS.atlas[MissingSprite.getMissingSpriteId()]!!
            quad.verts.forEachIndexed { idx, vertex ->
                pos(idx, (vertex.xyz + Double3(0.5, 0.5, 0.5)).asVec3f)
                sprite(idx, 0,
                    (sprite.maxU - sprite.minU) * (vertex.uv.u.toFloat() + 0.5f) + sprite.minU,
                    (sprite.maxV - sprite.minV) * (vertex.uv.v.toFloat() + 0.5f) + sprite.minV
                )
                spriteColor(idx, 0, vertex.color.asInt)
            }
            cullFace(quad.face)
            colorIndex(quad.colorIndex)
            material(material)
            emit()
        }
    }
    return builder.build()
 }
 fun Array<List<Quad>>.build(layer: BlockRenderLayer, noDiffuse: Boolean = false, flatLighting: Boolean = false) = map { it.build(layer, noDiffuse, flatLighting) }.toTypedArray()
 /**
 * The model should be positioned so that (0,0,0) is the block center.
 * The block extends to (-0.5, 0.5) in all directions (inclusive).
 */
 fun verticalRectangle(x1: Double, z1: Double, x2: Double, z2: Double, yBottom: Double, yTop: Double) = Quad(
    Vertex(Double3(x1, yBottom, z1), UV.bottomLeft),
    Vertex(Double3(x2, yBottom, z2), UV.bottomRight),
    Vertex(Double3(x2, yTop, z2), UV.topRight),
    Vertex(Double3(x1, yTop, z1), UV.topLeft)
 )
 fun horizontalRectangle(x1: Double, z1: Double, x2: Double, z2: Double, y: Double): Quad {
    val xMin = min(x1, x2); val xMax = max(x1, x2)
    val zMin = min(z1, z2); val zMax = max(z1, z2)
    return Quad(
        Vertex(Double3(xMin, y, zMin), UV.topLeft),
        Vertex(Double3(xMin, y, zMax), UV.bottomLeft),
        Vertex(Double3(xMax, y, zMax), UV.bottomRight),
        Vertex(Double3(xMax, y, zMin), UV.topRight)
    )
 }
 fun faceQuad(face: Direction): Quad {
    val base = face.vec * 0.5
    val top = boxFaces[face].top * 0.5
    val left = boxFaces[face].left * 0.5
    return Quad(
        Vertex(base + top + left, UV.topLeft),
        Vertex(base - top + left, UV.bottomLeft),
        Vertex(base - top - left, UV.bottomRight),
        Vertex(base + top - left, UV.topRight),
        face = face
    )
 }
 fun xzDisk(modelIdx: Int) = (PI2 * modelIdx / 64.0).let { Double3(cos(it), 0.0, sin(it)) }
--- a/src/main/kotlin/mods/betterfoliage/resource/model/SpriteSets.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/model/SpriteSets.kt
@@ -1,70 +0,0 @@
 package mods.betterfoliage.resource.model
 import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.util.get
 import net.fabricmc.fabric.api.event.client.ClientSpriteRegistryCallback
 import net.minecraft.client.MinecraftClient
 import net.minecraft.client.texture.MissingSprite
 import net.minecraft.client.texture.Sprite
 import net.minecraft.client.texture.SpriteAtlasTexture
 import net.minecraft.util.Identifier
 import kotlin.properties.ReadOnlyProperty
 import kotlin.reflect.KProperty
 interface SpriteSet {
    val num: Int
    operator fun get(idx: Int): Sprite
 }
 class FixedSpriteSet(val sprites: List<Sprite>) : SpriteSet {
    override val num = sprites.size
    override fun get(idx: Int) = sprites[idx % num]
    constructor(atlas: Atlas, ids: List<Identifier>) : this(
        ids.mapNotNull { atlas.atlas[it] }.let { sprites ->
            if (sprites.isNotEmpty()) sprites else listOf(atlas.atlas[MissingSprite.getMissingSpriteId()]!!)
        }
    )
 }
 class SpriteDelegate(val atlas: Atlas, val idFunc: ()->Identifier) : ReadOnlyProperty<Any, Sprite>, ClientSpriteRegistryCallback {
    private var id: Identifier? = null
    private var value: Sprite? = null
    init { ClientSpriteRegistryCallback.event(atlas.resourceId).register(this) }
    override fun registerSprites(atlasTexture: SpriteAtlasTexture, registry: ClientSpriteRegistryCallback.Registry) {
        id = idFunc(); value = null
        registry.register(id)
    }
    override fun getValue(thisRef: Any, property: KProperty<*>): Sprite {
        value?.let { return it }
        synchronized(this) {
            value?.let { return it }
            atlas.atlas[id!!]!!.let { value = it; return it }
        }
    }
 }
 class SpriteSetDelegate(val atlas: Atlas, val idRegister: (Identifier)->Identifier = { it }, val idFunc: (Int)->Identifier) : ReadOnlyProperty<Any, SpriteSet>, ClientSpriteRegistryCallback {
    private var idList: List<Identifier> = emptyList()
    private var spriteSet: SpriteSet? = null
    init { ClientSpriteRegistryCallback.event(atlas.resourceId).register(this) }
    override fun registerSprites(atlasTexture: SpriteAtlasTexture, registry: ClientSpriteRegistryCallback.Registry) {
        spriteSet = null
        val manager = MinecraftClient.getInstance().resourceManager
        idList = (0 until 16).map(idFunc).filter { manager.containsResource(atlas.wrap(it)) }.map(idRegister)
        idList.forEach { registry.register(it) }
    }
    override fun getValue(thisRef: Any, property: KProperty<*>): SpriteSet {
        spriteSet?.let { return it }
        synchronized(this) {
            spriteSet?.let { return it }
            spriteSet = FixedSpriteSet(atlas, idList)
            return spriteSet!!
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/resource/model/TuftMeshes.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/model/TuftMeshes.kt
@@ -1,74 +0,0 @@
 package mods.betterfoliage.resource.model
 import mods.betterfoliage.util.Atlas
 import mods.betterfoliage.util.*
 import net.fabricmc.fabric.api.renderer.v1.RendererAccess
 import net.fabricmc.fabric.api.renderer.v1.mesh.Mesh
 import net.minecraft.block.BlockRenderLayer
 import net.minecraft.block.BlockRenderLayer.CUTOUT_MIPPED
 import net.minecraft.client.texture.Sprite
 import net.minecraft.util.Identifier
 import net.minecraft.util.math.Direction.UP
 data class TuftShapeKey(
    val size: Double,
    val height: Double,
    val offset: Double3,
    val flipU1: Boolean,
    val flipU2: Boolean
 )
 fun tuftShapeSet(size: Double, heightMin: Double, heightMax: Double, hOffset: Double): Array<TuftShapeKey> {
    return Array(64) { idx ->
        TuftShapeKey(
            size,
            randomD(heightMin, heightMax),
            xzDisk(idx) * randomD(hOffset / 2.0, hOffset),
            randomB(),
            randomB()
        )
    }
 }
 fun tuftQuadSingle(size: Double, height: Double, flipU: Boolean) =
    verticalRectangle(x1 = -0.5 * size, z1 = 0.5 * size, x2 = 0.5 * size, z2 = -0.5 * size, yBottom = 0.5, yTop = 0.5 + height)
        .mirrorUV(flipU, false)
 fun tuftModelSet(shapes: Array<TuftShapeKey>, overrideColor: Int?, spriteGetter: (Int)->Sprite) = shapes.mapIndexed { idx, shape ->
    listOf(
        tuftQuadSingle(shape.size, shape.height, shape.flipU1),
        tuftQuadSingle(shape.size, shape.height, shape.flipU2).rotate(rot(UP))
    ).map { it.move(shape.offset) }
        .map { it.colorAndIndex(overrideColor) }
        .map { it.sprite(spriteGetter(idx)) }
 }.toTypedArray()
 fun fullCubeTextured(spriteId: Identifier, overrideColor: Int?, scrambleUV: Boolean = true): Mesh {
    val sprite = Atlas.BLOCKS.atlas[spriteId]!!
    return allDirections.map { faceQuad(it) }
        .map { if (!scrambleUV) it else it.rotateUV(randomI(max = 4)) }
        .map { it.sprite(sprite) }
        .map { it.colorAndIndex(overrideColor) }
        .build(BlockRenderLayer.SOLID)
 }
 fun crossModelsRaw(num: Int, size: Double, hOffset: Double, vOffset: Double): Array<List<Quad>> {
    return Array(num) { idx ->
        listOf(
            verticalRectangle(x1 = -0.5, z1 = 0.5, x2 = 0.5, z2 = -0.5, yBottom = -0.5 * 1.41, yTop = 0.5 * 1.41),
            verticalRectangle(x1 = -0.5, z1 = 0.5, x2 = 0.5, z2 = -0.5, yBottom = -0.5 * 1.41, yTop = 0.5 * 1.41)
                .rotate(rot(UP))
        ).map { it.scale(size) }
        .map { it.move(xzDisk(idx) * hOffset) }
        .map { it.move(UP.vec * randomD(-1.0, 1.0) * vOffset) }
    }
 }
 fun crossModelsTextured(leafBase: Array<List<Quad>>, overrideColor: Int?, scrambleUV: Boolean, spriteGetter: (Int)->Sprite) = leafBase.map { leaf ->
    leaf.map { if (scrambleUV) it.scrambleUV(random, canFlipU = true, canFlipV = true, canRotate = true) else it }
        .map { it.colorAndIndex(overrideColor) }
        .mapIndexed { idx, quad -> quad.sprite(spriteGetter(idx)) }
        .withOpposites().build(CUTOUT_MIPPED)
 }.toTypedArray()
 fun Array<List<Quad>>.buildTufts() = withOpposites().build(CUTOUT_MIPPED)
--- a/src/main/kotlin/mods/betterfoliage/resource/model/VanillaWrappers.kt
+++ b/src/main/kotlin/mods/betterfoliage/resource/model/VanillaWrappers.kt
@@ -1,86 +0,0 @@
 package mods.betterfoliage.resource.model
 import mods.betterfoliage.util.YarnHelper
 import mods.betterfoliage.util.get
 import net.fabricmc.fabric.api.renderer.v1.mesh.Mesh
 import net.fabricmc.fabric.api.renderer.v1.model.FabricBakedModel
 import net.fabricmc.fabric.api.renderer.v1.render.RenderContext
 import net.minecraft.block.BlockRenderLayer
 import net.minecraft.block.BlockState
 import net.minecraft.client.render.model.BakedModel
 import net.minecraft.client.render.model.BasicBakedModel
 import net.minecraft.client.render.model.WeightedBakedModel
 import net.minecraft.item.ItemStack
 import net.minecraft.util.WeightedPicker
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.ExtendedBlockView
 import java.util.*
 import java.util.function.Supplier
 // net.minecraft.client.render.model.WeightedBakedModel.totalWeight
 val WeightedBakedModel_totalWeight = YarnHelper.requiredField<Int>("net.minecraft.class_1097", "field_5433", "I")
 // net.minecraft.client.render.model.WeightedBakedModel.models
 val WeightedBakedModel_models = YarnHelper.requiredField<List<WeightedPicker.Entry>>("net.minecraft.class_1097", "field_5434", "Ljava/util/List;")
 // net.minecraft.client.render.model.WeightedBakedModel.ModelEntry.model
 val WeightedBakedModelEntry_model = YarnHelper.requiredField<BakedModel>("net.minecraft.class_1097\$class_1099", "field_5437", "Lnet/minecraft/class_1087;")
 // net.minecraft.util.WeightedPicker.Entry.weight
 val WeightedPickerEntry_weight = YarnHelper.requiredField<Int>("net.minecraft.class_3549\$class_3550", "field_15774", "I")
 abstract class WrappedBakedModel(val wrapped: BakedModel) : BakedModel by wrapped, FabricBakedModel {
    override fun isVanillaAdapter() = false
    override fun emitItemQuads(stack: ItemStack, randomSupplier: Supplier<Random>, context: RenderContext) {
        (wrapped as FabricBakedModel).emitItemQuads(stack, randomSupplier, context)
    }
    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
        (wrapped as FabricBakedModel).emitBlockQuads(blockView, state, pos, randomSupplier, context)
    }
 }
 class WrappedMeshModel(wrapped: BasicBakedModel, val mesh: Mesh) : WrappedBakedModel(wrapped) {
    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
        context.meshConsumer().accept(mesh)
    }
    companion object {
        /**
         * Converter for [BasicBakedModel] instances.
         * @param state [BlockState] to use when querying [BakedModel]
         * @param unshade undo vanilla diffuse lighting when unbaking the [BakedModel]
         * @param noDiffuse disable diffuse lighting when baking the [Mesh]
         * @param renderLayerOverride [BlockRenderLayer] to use instead of the one declared by the corresponding [Block]
         */
        fun converter(state: BlockState, unshade: Boolean = false, noDiffuse: Boolean = true, renderLayerOverride: BlockRenderLayer? = null) = BakedModelConverter.of { model, _ ->
            if (model is BasicBakedModel) {
                val mesh = unbakeQuads(model, state, Random(42L), unshade).build(
                    layer = renderLayerOverride ?: state.block.renderLayer,
                    noDiffuse = noDiffuse,
                    flatLighting = !model.useAmbientOcclusion()
                )
                WrappedMeshModel(model, mesh)
            } else null
        }
    }
 }
 class WrappedWeightedModel(wrapped: WeightedBakedModel, transformer: BakedModelConverter) : WrappedBakedModel(wrapped) {
    val totalWeight = wrapped[WeightedBakedModel_totalWeight] as Int
    val models = wrapped[WeightedBakedModel_models]!!.map { entry ->
        Entry(transformer.convert(entry[WeightedBakedModelEntry_model]!!, transformer)!!, entry[WeightedPickerEntry_weight]!!)
    }
    override fun emitBlockQuads(blockView: ExtendedBlockView, state: BlockState, pos: BlockPos, randomSupplier: Supplier<Random>, context: RenderContext) {
        (WeightedPicker.getRandom(randomSupplier.get(), models, totalWeight).model as FabricBakedModel).emitBlockQuads(blockView, state, pos, randomSupplier, context)
    }
    class Entry(val model: BakedModel, weight: Int) : WeightedPicker.Entry(weight)
    companion object {
        val converter = object : BakedModelConverter {
            override fun convert(model: BakedModel, converter: BakedModelConverter) =
                (model as? WeightedBakedModel)?.let { WrappedWeightedModel(it, converter) }
        }
    }
 }
--- a/src/main/kotlin/mods/betterfoliage/util/Caching.kt
+++ b/src/main/kotlin/mods/betterfoliage/util/Caching.kt
@@ -17,6 +17,10 @@ interface Invalidator {
    }
 }
 class SimpleInvalidator : Invalidator {
    override val callbacks = mutableListOf<WeakReference<() -> Unit>>()
 }
 class LazyInvalidatable<V>(invalidator: Invalidator, val valueFactory: ()->V): ReadOnlyProperty<Any, V> {
    init { invalidator.onInvalidate { value = null } }
@@ -31,7 +35,7 @@ class LazyInvalidatable<V>(invalidator: Invalidator, val valueFactory: ()->V): R
    }
 }
-class LazyMap<K, V>(val invalidator: Invalidator, val valueFactory: (K)->V) {
+open class LazyMapInvalidatable<K, V>(val invalidator: Invalidator, val valueFactory: (K)->V) {
    init { invalidator.onInvalidate { values.clear() } }
    val values = mutableMapOf<K, V>()
--- a/src/main/kotlin/mods/betterfoliage/util/Collections.kt
+++ b/src/main/kotlin/mods/betterfoliage/util/Collections.kt
@@ -1,5 +1,6 @@
 package mods.betterfoliage.util
 import com.google.common.collect.ImmutableList
 import java.util.*
 /**
@@ -27,6 +28,8 @@ inline fun <T, C: Comparable<C>> Triple<T, T, T>.maxValueBy(func: (T)->C): C {
    return result
 }
 inline fun <reified T, reified R> Array<T>.mapArray(func: (T)->R) = Array<R>(size) { idx -> func(get(idx)) }
@Suppress("UNCHECKED_CAST")
 inline fun <K, V> Map<K, V?>.filterValuesNotNull() = filterValues { it != null } as Map<K, V>
@@ -61,3 +64,8 @@ inline fun <T> MutableList<T>.exchange(idx1: Int, idx2: Int) {
 /** Return a random element from the array using the provided random generator */
 inline operator fun <T> Array<T>.get(random: Random) = get(random.nextInt(Int.MAX_VALUE) % size)
 fun <T> Iterable<T>.toImmutableList() = ImmutableList.builder<T>().let { builder ->
    forEach { builder.add(it) }
    builder.build()
 }
--- a/src/main/kotlin/mods/betterfoliage/util/Futures.kt
+++ b/src/main/kotlin/mods/betterfoliage/util/Futures.kt
@@ -1,6 +1,6 @@
 package mods.betterfoliage.util
-import net.minecraft.client.MinecraftClient
+import net.minecraft.client.Minecraft
 import java.util.concurrent.CompletableFuture
 import java.util.concurrent.CompletionStage
 import java.util.function.Consumer
@@ -9,7 +9,7 @@ import java.util.function.Function
 fun completedVoid() = CompletableFuture.completedFuture<Void>(null)!!
 fun <T, U> CompletionStage<T>.map(func: (T)->U) = thenApply(Function(func)).toCompletableFuture()!!
-fun <T, U> CompletionStage<T>.mapAsync(func: (T)->U) = thenApplyAsync(Function(func), MinecraftClient.getInstance()).toCompletableFuture()!!
+fun <T, U> CompletionStage<T>.mapAsync(func: (T)->U) = thenApplyAsync(Function(func), Minecraft.getInstance()).toCompletableFuture()!!
 fun <T> CompletionStage<T>.sink(func: (T)->Unit) = thenAccept(Consumer(func)).toCompletableFuture()!!
-fun <T> CompletionStage<T>.sinkAsync(func: (T)->Unit) = thenAcceptAsync(Consumer(func), MinecraftClient.getInstance()).toCompletableFuture()!!
+fun <T> CompletionStage<T>.sinkAsync(func: (T)->Unit) = thenAcceptAsync(Consumer(func), Minecraft.getInstance()).toCompletableFuture()!!
--- a/src/main/kotlin/mods/betterfoliage/util/Geometry.kt
+++ b/src/main/kotlin/mods/betterfoliage/util/Geometry.kt
@@ -1,28 +1,44 @@
 package mods.betterfoliage.util
-import net.minecraft.client.util.math.Vector3f
+import net.minecraft.util.Direction
 import net.minecraft.util.Direction.*
 import net.minecraft.util.Direction.Axis.*
 import net.minecraft.util.Direction.AxisDirection.NEGATIVE
 import net.minecraft.util.Direction.AxisDirection.POSITIVE
 import net.minecraft.util.math.BlockPos
-import net.minecraft.util.math.Direction
+import net.minecraft.util.math.vector.Quaternion
-import net.minecraft.util.math.Direction.Axis.*
+
-import net.minecraft.util.math.Direction.AxisDirection
+val EPSILON_ZERO = 0.05
-import net.minecraft.util.math.Direction.AxisDirection.*
+val EPSILON_ONE = 0.95
 import net.minecraft.util.math.Direction.*
 // ================================
 // Axes and directions
 // ================================
 val axes = listOf(X, Y, Z)
 val axisDirs = listOf(POSITIVE, NEGATIVE)
 val Direction.dir: AxisDirection get() = axisDirection
 val AxisDirection.sign: String get() = when(this) { POSITIVE -> "+"; NEGATIVE -> "-" }
 val allDirections = Direction.values()
 val horizontalDirections = listOf(NORTH, SOUTH, EAST, WEST)
 val allDirOffsets = allDirections.map { Int3(it) }
-val Pair<Direction.Axis, AxisDirection>.face: Direction get() = when(this) {
+val Pair<Axis, AxisDirection>.face: Direction get() = when(this) {
-    X to POSITIVE -> EAST; X to NEGATIVE -> WEST
+    X to POSITIVE -> EAST; X to NEGATIVE -> WEST;
-    Y to POSITIVE -> UP; Y to NEGATIVE -> DOWN
+    Y to POSITIVE -> UP; Y to NEGATIVE -> DOWN;
-    Z to POSITIVE -> SOUTH; else -> NORTH
+    Z to POSITIVE -> SOUTH; else -> NORTH;
 }
-val Direction.perpendiculars: List<Direction> get() =
+val directionsAndNull = arrayOf(DOWN, UP, NORTH, SOUTH, WEST, EAST, null)
-    axes.filter { it != this.axis }.cross(axisDirs).map { it.face }
+
 val Direction.perpendiculars: Array<Direction> get() =
    axes.filter { it != this.axis }.flatMap { listOf((it to POSITIVE).face, (it to NEGATIVE).face) }.toTypedArray()
 val perpendiculars: Array<Array<Direction>> = Direction.values().map { dir ->
    axes.filter { it != dir.axis }
        .flatMap { listOf(
            (it to POSITIVE).face,
            (it to NEGATIVE).face
        ) }.toTypedArray()
 }.toTypedArray()
 val Direction.offset: Int3 get() = allDirOffsets[ordinal]
 /** Old ForgeDirection rotation matrix yanked from 1.7.10 */
@@ -39,19 +55,20 @@ val ROTATION_MATRIX: Array<IntArray> get() = arrayOf(
 // Vectors
 // ================================
 operator fun Direction.times(scale: Double) =
-    Double3(vector.x.toDouble() * scale, vector.y.toDouble() * scale, vector.z.toDouble() * scale)
+    Double3(normal.x.toDouble() * scale, normal.y.toDouble() * scale, normal.z.toDouble() * scale)
-val Direction.vec: Double3 get() = Double3(vector.x.toDouble(), vector.y.toDouble(), vector.z.toDouble())
+val Direction.vec: Double3 get() = Double3(normal.x.toDouble(), normal.y.toDouble(), normal.z.toDouble())
 operator fun BlockPos.plus(other: Int3) = BlockPos(x + other.x, y + other.y, z + other.z)
 /** 3D vector of [Double]s. Offers both mutable operations, and immutable operations in operator notation. */
 data class Double3(var x: Double, var y: Double, var z: Double) {
    constructor(x: Float, y: Float, z: Float) : this(x.toDouble(), y.toDouble(), z.toDouble())
-    constructor(dir: Direction) : this(dir.vector.x.toDouble(), dir.vector.y.toDouble(), dir.vector.z.toDouble())
+    constructor(dir: Direction) : this(dir.normal.x.toDouble(), dir.normal.y.toDouble(), dir.normal.z.toDouble())
    companion object {
        val zero: Double3 get() = Double3(0.0, 0.0, 0.0)
        fun weight(v1: Double3, weight1: Double, v2: Double3, weight2: Double) =
            Double3(v1.x * weight1 + v2.x * weight2, v1.y * weight1 + v2.y * weight2, v1.z * weight1 + v2.z * weight2)
        fun lerp(delta: Double, first: Double3, second: Double3) = first + (second - first) * delta
    }
    // immutable operations
@@ -68,6 +85,13 @@ data class Double3(var x: Double, var y: Double, var z: Double) {
        rot.rotatedComponent(SOUTH, x, y, z)
    )
    /** Rotate vector by the given [Quaternion] */
    fun rotate(quat: Quaternion) =
        quat.copy()
            .apply { mul(Quaternion(x.toFloat(), y.toFloat(), z.toFloat(), 0.0F)) }
            .apply { mul(quat.copy().apply(Quaternion::conj)) }
            .let { Double3(it.i().toDouble(), it.j().toDouble(), it.k().toDouble()) }
    // mutable operations
    fun setTo(other: Double3): Double3 { x = other.x; y = other.y; z = other.z; return this }
    fun setTo(x: Double, y: Double, z: Double): Double3 { this.x = x; this.y = y; this.z = z; return this }
@@ -92,16 +116,15 @@ data class Double3(var x: Double, var y: Double, var z: Double) {
    val length: Double get() = Math.sqrt(x * x + y * y + z * z)
    val normalize: Double3 get() = (1.0 / length).let { Double3(x * it, y * it, z * it) }
    val nearestCardinal: Direction get() = nearestAngle(this, allDirections.asIterable()) { it.vec }.first
    val asVec3f: Vector3f get() = Vector3f(x.toFloat(), y.toFloat(), z.toFloat())
 }
 /** 3D vector of [Int]s. Offers both mutable operations, and immutable operations in operator notation. */
 data class Int3(var x: Int, var y: Int, var z: Int) {
-    constructor(dir: Direction) : this(dir.vector.x, dir.vector.y, dir.vector.z)
+    constructor(dir: Direction) : this(dir.normal.x, dir.normal.y, dir.normal.z)
    constructor(offset: Pair<Int, Direction>) : this(
-        offset.first * offset.second.vector.x,
+        offset.first * offset.second.normal.x,
-        offset.first * offset.second.vector.y,
+        offset.first * offset.second.normal.y,
-        offset.first * offset.second.vector.z
+        offset.first * offset.second.normal.z
    )
    companion object {
        val zero = Int3(0, 0, 0)
@@ -110,9 +133,9 @@ data class Int3(var x: Int, var y: Int, var z: Int) {
    // immutable operations
    operator fun plus(other: Int3) = Int3(x + other.x, y + other.y, z + other.z)
    operator fun plus(other: Pair<Int, Direction>) = Int3(
-        x + other.first * other.second.vector.x,
+        x + other.first * other.second.normal.x,
-        y + other.first * other.second.vector.y,
+        y + other.first * other.second.normal.y,
-        z + other.first * other.second.vector.z
+        z + other.first * other.second.normal.z
    )
    operator fun unaryMinus() = Int3(-x, -y, -z)
    operator fun minus(other: Int3) = Int3(x - other.x, y - other.y, z - other.z)
@@ -161,8 +184,7 @@ class Rotation(val forward: Array<Direction>, val reverse: Array<Direction>) {
        Array(6) { idx -> other.reverse[reverse[idx].ordinal] }
    )
    operator fun unaryMinus() = Rotation(reverse, forward)
-    operator fun times(num: Int) = when(num % 4) { 1 -> this; 2 -> this + this; 3 -> -this; else -> identity
+    operator fun times(num: Int) = when(num % 4) { 1 -> this; 2 -> this + this; 3 -> -this; else -> identity }
    }
    inline fun rotatedComponent(dir: Direction, x: Int, y: Int, z: Int) =
        when(reverse[dir.ordinal]) { EAST -> x; WEST -> -x; UP -> y; DOWN -> -y; SOUTH -> z; NORTH -> -z; else -> 0 }
@@ -182,6 +204,7 @@ class Rotation(val forward: Array<Direction>, val reverse: Array<Direction>) {
            rot90[NORTH.ordinal]
        )
    }
 }
 // ================================
@@ -191,14 +214,8 @@ class Rotation(val forward: Array<Direction>, val reverse: Array<Direction>) {
 inline operator fun <reified T> Array<T>.get(face: Direction): T = get(face.ordinal)
 data class BoxFace(val top: Direction, val left: Direction) {
    val bottom get() = top.opposite
    val right get() = left.opposite
    val allCorners = listOf(top to left, top to left.opposite, top.opposite to left, top.opposite to left.opposite)
-    val tl get() = top to left
+    val allCorners = listOf(top to left, top to left.opposite, top.opposite to left, top.opposite to left.opposite)
    val tr get() = top to right
    val bl get() = bottom to left
    val br get() = bottom to right
 }
 val boxFaces = allDirections.map { when(it) {
    DOWN -> BoxFace(SOUTH, WEST)
--- a/src/main/kotlin/mods/betterfoliage/util/Gui.kt
+++ b/src/main/kotlin/mods/betterfoliage/util/Gui.kt
@@ -0,0 +1,22 @@
@file:JvmName("Utils")
 package mods.betterfoliage.util
 import net.minecraft.util.text.StringTextComponent
 import net.minecraft.util.text.Style
 import net.minecraft.util.text.TextFormatting
 import net.minecraft.util.text.TextFormatting.AQUA
 import net.minecraft.util.text.TextFormatting.GRAY
 //fun stripTooltipDefaultText(tooltip: MutableList<String>) {
 //    var defaultRows = false
 //    val iter = tooltip.iterator()
 //    while (iter.hasNext()) {
 //        if (iter.next().startsWith(AQUA.toString())) defaultRows = true
 //        if (defaultRows) iter.remove()
 //    }
 //}
 //
 //fun textComponent(msg: String, color: TextFormatting = GRAY): StringTextComponent {
 //    val style = Style().apply { this.color = color }
 //    return StringTextComponent(msg).apply { this.style = style }
 //}
--- a/src/main/kotlin/mods/betterfoliage/util/Misc.kt
+++ b/src/main/kotlin/mods/betterfoliage/util/Misc.kt
@@ -1,10 +1,8 @@
@file:Suppress("NOTHING_TO_INLINE")
 package mods.betterfoliage.util
-import net.minecraft.text.LiteralText
+import mods.betterfoliage.BetterFoliageMod
-import net.minecraft.text.Style
+import net.minecraft.util.ResourceLocation
 import net.minecraft.util.Formatting
 import net.minecraft.util.Identifier
 import net.minecraft.util.math.BlockPos
 import net.minecraft.world.World
 import org.apache.logging.log4j.Level
@@ -19,8 +17,8 @@ inline fun String.stripStart(str: String, ignoreCase: Boolean = true) = if (star
 inline fun String.stripEnd(str: String, ignoreCase: Boolean = true) = if (endsWith(str, ignoreCase)) substring(0, length - str.length) else this
 /** Strip the given prefix off the start of the resource path, if present */
-inline fun Identifier.stripStart(str: String) = Identifier(namespace, path.stripStart(str))
+inline fun ResourceLocation.stripStart(str: String) = ResourceLocation(namespace, path.stripStart(str))
-inline fun Identifier.stripEnd(str: String) = Identifier(namespace, path.stripEnd(str))
+inline fun ResourceLocation.stripEnd(str: String) = ResourceLocation(namespace, path.stripEnd(str))
 /**
 * Property-level delegate backed by a [ThreadLocal].
@@ -52,6 +50,12 @@ fun nextPowerOf2(x: Int): Int {
    return 1 shl (if (x == 0) 0 else 32 - Integer.numberOfLeadingZeros(x - 1))
 }
@Suppress("LeakingThis")
 abstract class HasLogger {
    val logger = BetterFoliageMod.logger(this)
    val detailLogger = BetterFoliageMod.detailLogger(this)
 }
 /**
 * Check if the Chunk containing the given [BlockPos] is loaded.
 * Works for both [World] and [ChunkCache] (vanilla and OptiFine) instances.
@@ -63,16 +67,7 @@ fun nextPowerOf2(x: Int): Int {
 //    else -> false
 //}
-interface HasLogger {
+//fun textComponent(msg: String, color: Formatting = Formatting.GRAY): LiteralText {
-    val logger: Logger
+//    val style = Style().apply { this.color = color }
-    val logName: String get() = this::class.simpleName!!
+//    return LiteralText(msg).apply { this.style = style }
-    fun log(msg: String) = log(Level.INFO, msg)
+//}
    fun log(level: Level, msg: String) = logger.log(level, "[$logName] $msg")
    fun log(msg: String, e: Throwable) = log(Level.WARN, msg, e)
    fun log(level: Level, msg: String, e: Throwable) = logger.log(level, "[$logName] $msg", e)
 }
 fun textComponent(msg: String, color: Formatting = Formatting.GRAY): LiteralText {
    val style = Style().apply { this.color = color }
    return LiteralText(msg).apply { this.style = style }
 }
--- a/src/main/kotlin/mods/betterfoliage/util/Random.kt
+++ b/src/main/kotlin/mods/betterfoliage/util/Random.kt
@@ -1,15 +1,18 @@
 package mods.betterfoliage.util
 import net.minecraft.util.math.BlockPos
-import kotlin.random.Random
+import java.util.Random
 val random = Random(System.nanoTime())
 fun randomB() = random.nextBoolean()
-fun randomI(min: Int = 0, max: Int = Int.MAX_VALUE) = random.nextInt(min, max)
+fun randomI(min: Int = 0, max: Int = Int.MAX_VALUE) = min + random.nextInt(max - min)
-fun randomL(min: Long = 0, max: Long = Long.MAX_VALUE) = random.nextLong(min, max)
+fun randomF(min: Float = 0.0f, max: Float = 1.0f) = random.randomF(min, max)
-fun randomF(min: Double = 0.0, max: Double = 1.0) = random.nextDouble(min, max).toFloat()
+fun randomD(min: Double = 0.0, max: Double = 1.0) = random.randomD(min, max)
-fun randomD(min: Double = 0.0, max: Double = 1.0) = if (min == max) min else random.nextDouble(min, max)
+
 fun Random.randomF(min: Float = 0.0f, max: Float = 1.0f) = nextFloat() * (max - min) + min
 fun Random.randomF(min: Double = 0.0, max: Double = 1.0) = randomF(min.toFloat(), max.toFloat())
 fun Random.randomD(min: Double = 0.0, max: Double = 1.0) = nextDouble() * (max - min) + min
 fun semiRandom(x: Int, y: Int, z: Int, seed: Int): Int {
    var value = (x * x + y * y + z * z + x * y + y * z + z * x + (seed * seed))
@@ -17,4 +20,4 @@ fun semiRandom(x: Int, y: Int, z: Int, seed: Int): Int {
    return value shr 4
 }
-//fun BlockPos.semiRandom(seed: Int) = semiRandom(x, y, z, seed)
+fun BlockPos.semiRandom(seed: Int) = semiRandom(x, y, z, seed)
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
octarine-noise	6219e9353d	fix crash with Abnormals Core change random display tick mixin injection type from @Redirect to @Inject	2021-05-14 18:55:10 +02:00
octarine-noise	e3eb222d93	deburr build script	2021-05-14 18:52:22 +02:00
octarine-noise	8f82fefbb7	Port to 1.16.5 Kottle -> KotlinForForge	2021-05-14 14:44:29 +02:00
octarine-noise	8a303a1a29	update Gradle wrapper to 6.8.1 ForgeGradle dependency for FG4 onwards	2021-05-14 14:40:16 +02:00
octarine-noise	a97a575dd5	fix missing Optifine shader wind effects +minor cleanup	2021-05-14 14:36:48 +02:00
octarine-noise	a5a5d53341	bump version	2021-05-13 21:13:34 +02:00
octarine-noise	4174301ff7	[WIP] finishing touches +bunch of renames to bring the 2 version closer	2021-05-13 21:11:47 +02:00
octarine-noise	9899816029	[WIP] Cactus, netherrack, round logs work + lots more cleanup + Optifine x-ray fix	2021-05-13 10:40:18 +02:00
octarine-noise	dbc421c18e	[WIP] fix falling leaf color	2021-05-11 16:53:08 +02:00
octarine-noise	a917d5b3db	[WIP] Lilypad working + shader integration	2021-05-11 16:18:58 +02:00
octarine-noise	835bf45f13	[WIP] Falling leaves working + more cleanup + fix double-tinted leaves	2021-05-11 15:08:28 +02:00
octarine-noise	7168caded1	[WIP] algae, reeds, mycelium, coral working + lots of cleanup, reorganizing	2021-05-07 19:08:00 +02:00
octarine-noise	f44d2a7a50	[WIP] major rewrite, grass and leaves working already	2021-05-06 22:40:32 +02:00
octarine-noise	09ccb83e8b	[WIP] start 1.15 port reorganize packages to match Fabric version use util classes from Fabric version	2021-05-01 13:52:21 +02:00
octarine-noise	9566ae8341	fix round log x-ray bug	2021-04-29 11:49:31 +02:00
octarine-noise	dac7fa0b42	fix Optifine Shaders integration use the low-level call on SVertexBuilder to set apparent block ID for the current draw	2021-04-26 17:07:31 +02:00
octarine-noise	c668713051	fix IModelData being swallowed by renderer	2021-04-26 13:39:09 +02:00
octarine-noise	8a82f3772f	fix version information in legacy metadata	2021-04-26 13:38:38 +02:00
octarine-noise	3b728cffcd	update Forge version	2021-04-26 13:38:12 +02:00
octarine-noise	aa91aed58e	fix Mixin annotation processor requirements	2020-01-17 17:34:16 +01:00
octarine-noise	802862f151	[WIP] more fixes and final touch-up	2020-01-17 17:33:32 +01:00