17 files changed, 0 insertions, 1536 deletions

diff --git a/mkdocs/src/doc/docs/community/slack.md b/mkdocs/src/doc/docs/community/slack.md
deleted file mode 100644
index 290d4a18..00000000
--- a/mkdocs/src/doc/docs/community/slack.md
+++ /dev/null
@@ -1,7 +0,0 @@
-# Slack channel
-
-`Dokka` has a dedicated `#dokka` channel in the `Kotlin Community Slack`, where you can ask questions and chat 
-about using, customizing or contributing to `Dokka`. 
-
-[Follow the instructions](https://surveys.jetbrains.com/s3/kotlin-slack-sign-up)
-to get an invite or [connect directly](https://kotlinlang.slack.com). 
diff --git a/mkdocs/src/doc/docs/developer_guide/architecture/architecture_overview.md b/mkdocs/src/doc/docs/developer_guide/architecture/architecture_overview.md
deleted file mode 100644
index fb11f32a..00000000
--- a/mkdocs/src/doc/docs/developer_guide/architecture/architecture_overview.md
+++ /dev/null
@@ -1,123 +0,0 @@
-# Architecture overview
-
-Normally, you would think that a tool like `Dokka` simply parses some programming language sources and generates
-`HTML` pages for whatever it sees along the way, with little to no abstractions. That would be the simplest and
-shortest way to implement an API documentation engine.
-
-However, it was clear that `Dokka` may need to generate documentation from various sources (not only `Kotlin`), that users
-might request additional output formats (like `Markdown`), that users might need additional features like supporting
-custom `KDoc` tags or rendering `mermaid.js` diagrams - all these things would require changing a lot of code inside
-`Dokka` itself if all solutions were hardcoded.
-
-For this reason, `Dokka` was built from the ground up to be easily extensible and customizable by adding several layers
-of abstractions to the data model, and by providing pluggable extension points, giving you the ability to introduce
-selective changes on a single level.
-
-## Overview of data model
-
-Generating API documentation begins with `Input` source files (`.kts`, `.java`, etc) and ends with some `Output` files
-(`.html`/`.md` pages, etc). However, to allow for extensibility and customization, several input and output independent
-abstractions have been added to the data model.
-
-Below you can find the general pipeline of processing data gathered from sources and the explanation for each stage.
-
-```mermaid
-flowchart TD
-    Input --> Documentables --> Pages --> Output
-```
-
-* `Input` - generalization of sources, by default `Kotlin`/`Java` sources, but could be virtually anything
-* `Documentables` - unified data model that represents _any_ parsed sources as a tree, independent of the source
-  language. Examples of a `Documentable`: class, function, package, property, etc
-* `Pages` - universal model that represents output pages (e.g a function/property page) and the content it's composed of
-  (lists, text, code blocks) that the users needs to see. Not to be confused with `.html` pages. Goes hand in hand
-  with so-called `Content` model.
-* `Output` - specific output format like `HTML`/`Markdown`/`Javadoc`/etc. This is a mapping of pages/content model to
-  some human-readable and visual representation. For instance:
-    * `PageNode` is mapped as 
-        * `.html` file for `HTML` format
-        * `.md` file for `Markdown` format
-    * `ContentList` is mapped as
-        * `<li>` / `<ul>` for `HTML` format
-        * `1.` / `*` for `Markdown` format
-    * `ContentCodeBlock` is mapped as
-        * `<code>` or `<pre>` with some CSS styles in `HTML` format
-        * Text wrapped in triple backticks for `Markdown` format
-
-    
-You, as a `Dokka` developer or a plugin writer, can use extension points to introduce selective changes to the
-model on one particular level without touching everything else. 
-
-For instance, if you wanted to make some annotation/function/class invisible in the final documentation, you would only
-need to modify the `Documentables` model by filtering undesirable members out. If you wanted to display all overloaded
-methods on the same page instead of on separate ones, you would only need to modify the `Page` model by merging multiple
-pages into one, and so on.
-
-For a deeper dive into Dokka's model with more examples and details,
-see sections about [Documentables](data_model/documentables.md) and [Page/Content](data_model/page_content.md)
-
-For an overview of existing extension points that let you transform Dokka's models, see 
-[Core extension points](extension_points/core_extensions.md) and [Base extensions](extension_points/base_extensions.md).
-
-## Overview of extension points
-
-An extension point usually represents some pluggable interface that performs an action during one of the stages of
-generating documentation. An extension is therefore an implementation of that interface which is extending the
-extension point.
-
-You can create extension points, provide your own implementations (extensions) and configure them. All of
-this is possible with Dokka's plugin/extension point API.
-
-Here's a sneak peek of the DSL:
-
-```kotlin
-class MyPlugin : DokkaPlugin() {
-    // create an extension point for other developers
-    val signatureProvider by extensionPoint<SignatureProvider>()
-
-    // provide a default implementation
-    val defaultSignatureProvider by extending {
-        signatureProvider with KotlinSignatureProvider()
-    }
-
-    // register our own extension in base plugin and override its default
-    val dokkaBasePlugin by lazy { plugin<DokkaBase>() }
-    val multimoduleLocationProvider by extending {
-        (dokkaBasePlugin.locationProviderFactory
-                providing MultimoduleLocationProvider::Factory
-                override dokkaBasePlugin.locationProvider)
-    }
-}
-
-// use a registered extention, pretty much dependency injection
-class MyExtension(val context: DokkaContext) {
-    
-    val signatureProvider: SignatureProvider = context.plugin<MyPlugin>().querySingle { signatureProvider }
-
-    fun doSomething() {
-        signatureProvider.signature(..)
-    }
-}
-
-interface SignatureProvider {
-    fun signature(documentable: Documentable): List<ContentNode>
-}
-
-class KotlinSignatureProvider : SignatureProvider {
-    override fun signature(documentable: Documentable): List<ContentNode> = listOf()
-}
-```
-
-For a deeper dive into extensions and extension points with more examples and details, see
-[Introduction to Extensions](extension_points/introduction.md).
-
-For an overview of existing extension points, see [Core extension points](extension_points/core_extensions.md) and
-[Base extensions](extension_points/base_extensions.md).
-
-## Historical context
-
-This is a second iteration of Dokka that was built from scratch.
-
-If you want to learn more about why Dokka has been designed this way, watch this great talk by Paweł Marks:
-[New Dokka - Designed for Fearless Creativity](https://www.youtube.com/watch?v=OvFoTRhqaKg). The general principles 
-and general architecture are the same, although it may be outdated in some areas, so please double-check.
diff --git a/mkdocs/src/doc/docs/developer_guide/architecture/data_model/documentables.md b/mkdocs/src/doc/docs/developer_guide/architecture/data_model/documentables.md
deleted file mode 100644
index 5264553d..00000000
--- a/mkdocs/src/doc/docs/developer_guide/architecture/data_model/documentables.md
+++ /dev/null
@@ -1,245 +0,0 @@
-# Documentables Model
-
-Documentables represent data that is parsed from sources. Think of this data model as of something that could be
-seen or produced by a compiler frontend, it's not far off from the truth.
-
-By default, documentables are parsed from `Descriptor` (for `Kotlin`)
-and [Psi](https://plugins.jetbrains.com/docs/intellij/psi.html)
-(for `Java`) models. Code-wise, you can have a look at following classes:
-
-* `DefaultDescriptorToDocumentableTranslator` - responsible for `Kotlin` -> `Documentable` mapping
-* `DefaultPsiToDocumentableTranslator` - responsible for `Java` -> `Documentable` mapping
-
-Upon creation, it's a collection of trees, each with `DModule` as root.
-
-Take some arbitrary `Kotlin` source code that is located within the same module:
-
-```kotlin
-// Package 1
-class Clazz(val property: String) {
-    fun function(parameter: String) {}
-}
-
-fun topLevelFunction() {}
-
-// Package 2
-enum class Enum { }
-
-val topLevelProperty: String
-```
-
-This would be represented roughly as the following `Documentable` tree:
-
-```mermaid
-flowchart TD
-    DModule --> firstPackage[DPackage]
-    firstPackage --> DClass
-    firstPackage --> toplevelfunction[DFunction] 
-    DClass --> DProperty
-    DClass --> DFunction
-    DFunction --> DParameter
-    DModule --> secondPackage[DPackage]
-    secondPackage --> DEnum
-    secondPackage --> secondPackageProperty[DProperty]
-```
-
-At later stages of transformation, all trees are folded into one (by `DocumentableMerger`).
-
-## Documentable
-
-The main building block of documentables model is `Documentable` class. It's the base class for all more specific types
-that represent elements of parsed sources with mostly self-explanatory names (`DFunction`, `DPackage`, `DProperty`, etc)
-.
-`DClasslike` is the base class for class-like documentables such as `DClass`, `DEnum`, `DAnnotation`, etc.
-
-The contents of each documentable normally represent what you would see in source code. For instance, if you open
-`DClass`, you should find that it contains references to functions, properties, companion object, constructors and so
-on.
-`DEnum` should have references to enum entries, and `DPackage` can have references to both classlikes and top-level
-functions and properties (`Kotlin`-specific).
-
-Here's an example of a documentable:
-
-```kotlin
-data class DClass(
-    val dri: DRI,
-    val name: String,
-    val constructors: List<DFunction>,
-    val functions: List<DFunction>,
-    val properties: List<DProperty>,
-    val classlikes: List<DClasslike>,
-    val sources: SourceSetDependent<DocumentableSource>,
-    val visibility: SourceSetDependent<Visibility>,
-    val companion: DObject?,
-    val generics: List<DTypeParameter>,
-    val supertypes: SourceSetDependent<List<TypeConstructorWithKind>>,
-    val documentation: SourceSetDependent<DocumentationNode>,
-    val expectPresentInSet: DokkaSourceSet?,
-    val modifier: SourceSetDependent<Modifier>,
-    val sourceSets: Set<DokkaSourceSet>,
-    val isExpectActual: Boolean,
-    val extra: PropertyContainer<DClass> = PropertyContainer.empty()
-) : DClasslike(), WithAbstraction, WithCompanion, WithConstructors,
-    WithGenerics, WithSupertypes, WithExtraProperties<DClass>
-```
-
-___
-
-There are three non-documentable classes that important for this model:
-
-* `DRI`
-* `SourceSetDependent`
-* `ExtraProperty`.
-
-### DRI
-
-`DRI` stans for _Dokka Resource Identifier_ - a unique value that identifies a specific `Documentable`.
-All references and relations between documentables (other than direct ownership) are described using `DRI`.
-
-For example, `DFunction` with a parameter of type `Foo` has only `Foo`'s `DRI`, not the actual reference
-to `Foo`'s `Documentable` object.
-
-#### Example
-
-For an example of how a `DRI` can look like, let's take the `limitedParallelism` function from `kotlinx.coroutines`:
-
-```kotlin
-package kotlinx.coroutines
-
-import ...
-        
-public abstract class MainCoroutineDispatcher : CoroutineDispatcher() {
-    
-    override fun limitedParallelism(parallelism: Int): CoroutineDispatcher {
-        ...
-    }
-}
-```
-
-If we were to re-create the DRI of this function in code, it would look something like this:
-
-```kotlin
-DRI(
-    packageName = "kotlinx.coroutines",
-    classNames = "MainCoroutineDispatcher",
-    callable = Callable(
-        name = "limitedParallelism",
-        receiver = null,
-        params = listOf(
-            TypeConstructor(
-                fullyQualifiedName = "kotlin.Int",
-                params = emptyList()
-            )
-        )
-    ),
-    target = PointingToDeclaration,
-    extra = null
-)
-```
-
-If you format it as `String`, it would look like this:
-
-```
-kotlinx.coroutines/MainCoroutineDispatcher/limitedParallelism/#kotlin.Int/PointingToDeclaration/
-```
-
-### SourceSetDependent
-
-`SourceSetDependent` helps handling multiplatform data by associating platform-specific data (declared with either
-`expect` or `actual` modifier) with particular 
-[source sets](https://kotlinlang.org/docs/multiplatform-discover-project.html#source-sets).
-
-This comes in handy if `expect`/`actual` declarations differ. For instance, the default value for `actual` might differ
-from that declared in `expect`, or code comments written for `expect` might be different from what's written
-for `actual`.
-
-Under the hood, it's a `typealias` to a `Map`:
-
-```kotlin
-typealias SourceSetDependent<T> = Map<DokkaSourceSet, T>
-```
-
-### ExtraProperty
-
-`ExtraProperty` is used to store any additional information that falls outside of the regular model. It is highly
-recommended to use extras to provide any additional information when creating custom Dokka plugins.
-
-This element is a bit more complex, so you can read more about how to use it
-[in a separate section](extra.md).
-
-___
-
-## Documentation model
-
-Documentation model is used alongside Documentables to store data obtained by parsing
-code comments (such as `KDoc`/`Javadoc`).
-
-### DocTag
-
-`DocTag` describes a specific documentation syntax element.
-
-It's universal across source languages. For instance, DocTag `B` is the same for `**bold**` in `Kotlin` and
-`<b>bold</b>` in `Java`.
-
-However, some `DocTag` elements are specific to a certain language, there are many such examples for `Java`
-because it allows HTML tags inside `Javadoc` comments, some of which are simply not possible to reproduce with `Markdown`.
-
-`DocTag` elements can be deeply nested with other `DocTag` children elements.
-
-Examples:
-
-```kotlin
-data class H1(
-    override val children: List<DocTag> = emptyList(),
-    override val params: Map<String, String> = emptyMap()
-) : DocTag()
-
-data class H2(
-    override val children: List<DocTag> = emptyList(),
-    override val params: Map<String, String> = emptyMap()
-) : DocTag()
-
-data class Strikethrough(
-    override val children: List<DocTag> = emptyList(),
-    override val params: Map<String, String> = emptyMap()
-) : DocTag()
-
-data class Strong(
-    override val children: List<DocTag> = emptyList(),
-    override val params: Map<String, String> = emptyMap()
-) : DocTag()
-
-data class CodeBlock(
-    override val children: List<DocTag> = emptyList(),
-    override val params: Map<String, String> = emptyMap()
-) : Code()
-
-```
-
-### TagWrapper
-
-`TagWrapper` describes the whole comment description or a specific comment tag.
-For example: `@see` / `@author` / `@return`.
-
-Since each such section may contain formatted text inside of it, each `TagWrapper` has `DocTag` children.
-
-```kotlin
-/**
- * @author **Ben Affleck*
- * @return nothing, except _sometimes_ it may throw an [Error]
- */
-fun foo() {}
-```
-
-### DocumentationNode
-
-`DocumentationNode` acts as a container for multiple `TagWrapper` elements for a specific `Documentable`, usually
-used like this:
-
-```kotlin
-data class DFunction(
-    ...
-    val documentation: SourceSetDependent<DocumentationNode>,
-    ...
-)
-```
diff --git a/mkdocs/src/doc/docs/developer_guide/architecture/data_model/extra.md b/mkdocs/src/doc/docs/developer_guide/architecture/data_model/extra.md
deleted file mode 100644
index 0abbc70e..00000000
--- a/mkdocs/src/doc/docs/developer_guide/architecture/data_model/extra.md
+++ /dev/null
@@ -1,99 +0,0 @@
-# Extra
-
-## Introduction
-
-`ExtraProperty` classes are used both by [Documentable](documentables.md) and [Content](page_content.md#content-model)
-models.
-
-Source code for `ExtraProperty`:
-
-```kotlin
-interface ExtraProperty<in C : Any> {
-    interface Key<in C : Any, T : Any> {
-        fun mergeStrategyFor(left: T, right: T): MergeStrategy<C> = MergeStrategy.Fail {
-            throw NotImplementedError("Property merging for $this is not implemented")
-        }
-    }
-
-    val key: Key<C, *>
-}
-```
-
-To declare a new extra, you need to implement `ExtraProperty` interface. It is advised to use following pattern
-when declaring new extras:
-
-```kotlin
-data class CustomExtra(
-    [any data relevant to your extra], 
-    [any data relevant to your extra] 
-): ExtraProperty<Documentable> {
-    override val key: CustomExtra.Key<Documentable, *> = CustomExtra
-    companion object : CustomExtra.Key<Documentable, CustomExtra>
-}
-```
-
-Merge strategy (`mergeStrategyFor` method) for extras is invoked during
-[merging](../extension_points/core_extensions.md#documentablemerger) if documentables from different 
-[source sets](https://kotlinlang.org/docs/multiplatform-discover-project.html#source-sets) each
-have their own `Extra` of the same type. 
-
-## PropertyContainer
-
-All extras for `ContentNode` and `Documentable` classes are stored in `PropertyContainer<C : Any>` class instances.
-
-```kotlin
-data class DFunction(
-    ...
-    override val extra: PropertyContainer<DFunction> = PropertyContainer.empty()
-    ...
-) : WithExtraProperties<DFunction>
-```
-
-`PropertyContainer` has a number of convenient functions for handling extras in a collection-like manner.
-
-The `C` generic class parameter limits the type of properties that can be stored in the container -  it must
-match generic `C` class parameter from `ExtraProperty` interface. This allows creating extra properties
-which can only be stored in a specific `Documentable`.
-
-## Usage example
-
-In following example we will create a `DFunction`-only property, store it and then retrieve its value:
-
-```kotlin
-data class CustomExtra(val customExtraValue: String) : ExtraProperty<DFunction> {
-    override val key: ExtraProperty.Key<Documentable, *> = CustomExtra
-    companion object: ExtraProperty.Key<Documentable, CustomExtra>
-}
-
-fun DFunction.withCustomExtraProperty(data: String): DFunction {
-    return this.copy(
-        extra = extra + CustomExtra(data)
-    )
-}
-
-fun DFunction.getCustomExtraPropertyValue(): String? {
-    return this.extra[CustomExtra]?.customExtraValue
-}
-```
-
-___
-
-You can also use extras as markers, without storing any data in them:
-
-```kotlin
-
-object MarkerExtra : ExtraProperty<Any>, ExtraProperty.Key<Any, MarkerExtra> {
-    override val key: ExtraProperty.Key<Any, *> = this
-}
-
-fun Documentable.markIfFunction(): Documentable {
-    return when(this) {
-        is DFunction -> this.copy(extra = extra + MarkerExtra)
-        else -> this
-    }
-}
-
-fun WithExtraProperties<Documentable>.isMarked(): Boolean {
-    return this.extra[MarkerExtra] != null
-}
-```
diff --git a/mkdocs/src/doc/docs/developer_guide/architecture/data_model/page_content.md b/mkdocs/src/doc/docs/developer_guide/architecture/data_model/page_content.md
deleted file mode 100644
index 54ded235..00000000
--- a/mkdocs/src/doc/docs/developer_guide/architecture/data_model/page_content.md
+++ /dev/null
@@ -1,140 +0,0 @@
-# Page / Content Model
-
-Even though `Page` and `Content` models reside on the same level (under `Page`), it's easier to view it as two different
-models altogether, even though `Content` is only used in conjunction with and inside `Page` model.
-
-## Page
-
-Page model represents the structure of documentation pages to be generated. During rendering, each page
-is processed separately, so one page corresponds to exactly one output file.
-
-Page model is independent of the final output format, in other words it's universal. Which extension the pages
-should be created as (`.html`, `.md`, etc) and how is up to the `Renderer`.
-
-Subclasses of `PageNode` represent different kinds of rendered pages, such as `ModulePage`, `PackagePage`,
-`ClasslikePage`, `MemberPage` (properties, functions), etc.
-
-The Page Model is a tree structure, with `RootPageNode` at the root.
-
-Here's an example of how an arbitrary `Page` tree might look like for a module with 3 packages, one of which contains
-a top level function, top level property and a class, inside which there's a function and a property:
-
-```mermaid
-flowchart TD
-    RootPageNode --> firstPackage[PackagePageNode]
-    RootPageNode --> secondPackage[PackagePageNode]
-    RootPageNode --> thirdPackage[PackagePageNode]
-    firstPackage --> firstPackageFirstMember[MemberPageNode - Function]
-    firstPackage --> firstPackageSecondMember[MemberPageNode - Property]
-    firstPackage ---> firstPackageClasslike[ClasslikePageNode - Class]
-    firstPackageClasslike --> firstPackageClasslikeFirstMember[MemberPageNode - Function]
-    firstPackageClasslike --> firstPackageClasslikeSecondMember[MemberPageNode - Property]
-    secondPackage --> etcOne[...]
-    thirdPackage --> etcTwo[...]
-```
-
-Almost all pages are derivatives of `ContentPage` - it's the type of `Page` that has `Content` on it.
-
-## Content Model
-
-Content model describes how the actual `Page` content is presented. The important thing to understand is that it's
-also output-format independent and is universal.
-
-Content model is essentially a set of building blocks that you can put together to represent some content.
-Have a look at subclasses of `ContentNode`: `ContentText`, `ContentList`, `ContentTable`, `ContentCodeBlock`, 
-`ContentHeader` and so on. You can group content together with `ContentGroup` - for instance,
-to wrap all children with some style.
-
-```kotlin
-// real example of composing content using `DocumentableContentBuilder` DSL
-orderedList {
-    item {
-        text("This list contains a nested table:")
-        table {
-            header {
-                text("Col1")
-                text("Col2")
-            }
-            row {
-                text("Text1")
-                text("Text2")
-            }
-        }
-    }
-    item {
-        group(styles = setOf(TextStyle.Bold)) {
-            text("This is bald")
-            text("This is also bald")
-        }
-    }
-}
-```
-
-It is then responsibility of `Renderer` (i.e specific output format) to render it the way it wants. 
-
-For instance, `HtmlRenderer` might render `ContentCodeBlock` as `<code>text</code>`, but `CommonmarkRenderer` might 
-render it using backticks.
-
-___
-
-### DCI
-
-Each node is identified by unique `DCI`, which stands for _Dokka Content Identifier_. `DCI` aggregates `DRI`s of all
-`Documentables` that make up a specific `ContentNode`.
-
-```kotlin
-data class DCI(val dri: Set<DRI>, val kind: Kind)
-```
-
-All references to other nodes (other than direct ownership) are described using `DCI`.
-
-### ContentKind
-
-`ContentKind` represents a grouping of content of one kind that can can be rendered as part of a composite
-page (one tab/block within a class's page, for instance).
-
-For instance, on the same page that describes a class you can have multiple sections (== `ContentKind`).
-One to describe functions, one to describe properties, another one to describe constructors and so on.
-
-### Styles
-
-Each `ContentNode` has `styles` property in case you want to incidate to `Renderer` that this content needs to be
-displayed in a certain way.
-
-```kotlin
-group(styles = setOf(TextStyle.Paragraph)) {
-    text("Text1", styles = setOf(TextStyle.Bold))
-    text("Text2", styles = setOf(TextStyle.Italic))
-}
-```
-
-It is then responsibility of `Renderer` (i.e specific output format) to render it the way it wants. For instance,
-`HtmlRenderer` might render `TextStyle.Bold` as `<b>text</b>`, but `CommonmarkRenderer` might render it as `**text**`.
-
-There's a number of existing styles that you can use, most of them are supported by `HtmlRenderer` out of the box:
-
-```kotlin
-// for code highlighting
-enum class TokenStyle : Style {
-    Keyword, Punctuation, Function, Operator, Annotation,
-    Number, String, Boolean, Constant, Builtin, ...
-}
-
-enum class TextStyle : Style {
-    Bold, Italic, Strong, Strikethrough, Paragraph, ...
-}
-
-enum class ContentStyle : Style {
-    TabbedContent, RunnableSample, Wrapped, Indented, ...
-}
-```
-
-### Extra
-
-`ExtraProperty` is used to store any additional information that falls outside of the regular model. It is highly
-recommended to use extras to provide any additional information when creating custom Dokka plugins.
-
-All `ExtraProperty` elements from `Documentable` model are propagated into `Content` model and are available
-for `Renderer`.
-
-This element is a bit complex, so you can read more about how to use it [in a separate section](extra.md).
diff --git a/mkdocs/src/doc/docs/developer_guide/architecture/extension_points/base_extensions.md b/mkdocs/src/doc/docs/developer_guide/architecture/extension_points/base_extensions.md
deleted file mode 100644
index 16a52fab..00000000
--- a/mkdocs/src/doc/docs/developer_guide/architecture/extension_points/base_extensions.md
+++ /dev/null
@@ -1,13 +0,0 @@
-# Base extensions
-
-`DokkaBase` class is a base plugin which defines a number of default implementations for `CoreExtensions` as well as
-declares its own, more high-level extension points to be used from other plugins and output formats.
-
-It's very convenient to use extension points and defaults defined in `DokkaBase` if you have an idea for a simple
-plugin that only needs to provide a few extensions or change a single extension point and have everything else be the
-default.
-
-`DokkaBase` is used extensively for Dokka's own output formats such as `HTML`, `Markdown`, `Mathjax` and others.
-
-You can learn how to add/use/override/configure extensions and extension points in
-[Introduction to Extensions](introduction.md), all the information is applicable to `DokkaBase` plugin as well.
diff --git a/mkdocs/src/doc/docs/developer_guide/architecture/extension_points/core_extensions.md b/mkdocs/src/doc/docs/developer_guide/architecture/extension_points/core_extensions.md
deleted file mode 100644
index 77ebc15e..00000000
--- a/mkdocs/src/doc/docs/developer_guide/architecture/extension_points/core_extensions.md
+++ /dev/null
@@ -1,151 +0,0 @@
-# Core extension points
-
-Core extension points represent the main stages of generating documentation. 
-
-These extension points are plugin and output format independent, meaning it's the very core functionality and as
-low-level as can get. For higher-level extension functions that can be used in different output formats, have a look at
-[Base extensions](base_extensions.md) defined in `DokkaBase`.
-
-You can find all core extensions in `CoreExtensions` class:
-```kotlin
-object CoreExtensions {
-    val preGenerationCheck by coreExtensionPoint<PreGenerationChecker>()
-    val generation by coreExtensionPoint<Generation>()
-    val sourceToDocumentableTranslator by coreExtensionPoint<SourceToDocumentableTranslator>()
-    val documentableMerger by coreExtensionPoint<DocumentableMerger>()
-    val documentableTransformer by coreExtensionPoint<DocumentableTransformer>()
-    val documentableToPageTranslator by coreExtensionPoint<DocumentableToPageTranslator>()
-    val pageTransformer by coreExtensionPoint<PageTransformer>()
-    val renderer by coreExtensionPoint<Renderer>()
-    val postActions by coreExtensionPoint<PostAction>()
-}
-```
-
-On this page we'll go over each extension point individually.
-
-## PreGenerationChecker
-
-`PreGenerationChecker` can be used to run some checks and constraints. 
-
-For instance, `Javadoc` plugin does not support generating documentation for multi-platform projects, so it uses
-`PreGenerationChecker` to check for multi-platform
-[source sets](https://kotlinlang.org/docs/multiplatform-discover-project.html#source-sets) and fails if it finds any.
-
-## Generation
-
-`Generation` is responsible for generating documentation as a whole, utilizing other extension points where applicable.
-
-There are two implementations at the moment:
-
-* `AllModulesPageGeneration` - generates multimodule documentation, for instance when `dokkaHtmlMultiModule` task is
-  invoked.
-* `SingleModuleGeneration` - generates documentation for a single module, for instance when `dokkaHtml` task is invoked
-
-### AllModulesPageGeneration
-
-`AllModulesPageGeneration` utilizes output generated by `SingleModuleGeneration`. Under the hood it just collects all
-pages generated for individual modules and assembles everything together, creating navigation pages between the
-modules and so on.
-
-### SingleModuleGeneration stages
-
-When developing a feature or a plugin, it's more convenient to think that you are generating documentation for single
-module projects, believing that Dokka will somehow take care of the rest in multimodule environment.
-
-`SingleModuleGeneration` is at heart of generating documentation and utilizes other core extension points, so
-it's worth going over its stages. 
-
-Below you can see the transformations of [Dokka's models](../architecture_overview.md#overview-of-data-model) and 
-extension interfaces responsible for each one. Notice how `Documentables` and `Pages` are transformed multiple times.
-
-```mermaid
-flowchart TD
-    Input -- SourceToDocumentableTranslator --> doc1[Documentables]
-    subgraph documentables [ ]
-    doc1 -- PreMergeDocumentableTransformer --> doc2[Documentables]
-    doc2 -- DocumentableMerger --> doc3[Documentables]
-    doc3 -- DocumentableTransformer --> doc4[Documentables]
-    end
-    doc4 -- DocumentableToPageTranslator --> page1[Pages]
-    subgraph ide2 [ ]
-    page1 -- PageTransformer --> page2[Pages]
-    end
-    page2 -- Renderer --> Output
-```
-
-#### SourceToDocumentableTranslator
-
-`SourceToDocumentableTranslator` translates sources into documentable model. 
-
-`Kotlin` and `Java` sources are supported by default, but you can analyze any language as long as you can map
-it to the [Documentable](../data_model/documentables.md) model.
-
-For reference, see
-
-* `DefaultDescriptorToDocumentableTranslator` for `Kotlin` sources translation
-* `DefaultPsiToDocumentableTranslator` for `Java` sources translation
-
-#### PreMergeDocumentableTransformer
-
-This extension point actually comes from `DokkaBase` and is not a core extension point, but it's used in
-`SingleModuleGeneration` nonetheless. If you are implementing your own plugin without relying on `DokkaBase`,
-you can either introduce a similar extension point or rely on [DocumentableTransformer](#documentabletransformer) which
-will be discussed below.
-
-`PreMergeDocumentableTransformer` allows applying any transformation to 
-[Documentables model](../data_model/documentables.md) before different 
-[source sets](https://kotlinlang.org/docs/multiplatform-discover-project.html#source-sets) are merged. 
-
-Useful if you want to filter/map existing documentables. For instance, if you want to exclude members annotated with
-`@Internal`, you most likely need an implementation of `PreMergeDocumentableTransformer`.
-
-For simple condition-based filtering of documentables consider extending 
-`SuppressedByConditionDocumentableFilterTransformer` - it implements `PreMergeDocumentableTransformer` and only
-requires one function to be overridden. The rest is taken care of.
-
-#### DocumentableMerger
-
-`DocumentableMerger` merges all `DModule` instances into one. Only one extension is expected of this type.
-
-#### DocumentableTransformer
-
-`DocumentableTransformer` performs the same function as `PreMergeDocumentableTransformer`, but after merging source
-sets.
-
-Notable example is `InheritorsExtractorTransformer`, it extracts inherited classes data across 
-[source sets](https://kotlinlang.org/docs/multiplatform-discover-project.html#source-sets) and creates an inheritance
-map.
-
-#### DocumentableToPageTranslator
-
-`DocumentableToPageTranslator` is responsible for creating pages and their content. See 
-[Page/Content model](../data_model/page_content.md) section for more information and examples.
-
-Different output formats can either use the same page structure or define their own in case it needs to be different.
-
-Only a single extension of this type is expected to be registered. 
-
-#### PageTransformer
-
-`PageTransformer` is useful if you need to add/remove/modify generated pages or their content.
-
-Plugins like `mathjax` can add `.js` scripts to pages using this extension point. 
-
-If you want all overloaded functions to be rendered on the same page (instead of separate ones),
-you can also use `PageTransformer` to delete excessive pages and combine them into a new single one.
-
-#### Renderer
-
-`Renderer` - defines rules on what to do with pages and their content, which files to create and how to display
-it properly. 
-
-Output format implementations should use `Renderer` extension point. Notable examples are `HtmlRenderer`
-and `CommonmarkRenderer`.
-
-## PostAction
-
-`PostAction` is useful for when you want to run some actions after the documentation has been generated - for instance
-if you want to move some files around.
-
-[Versioning plugin](https://github.com/Kotlin/dokka/tree/master/plugins/versioning) utilizes `PostAction` in order to move
-generated documentation to versioned folders.
diff --git a/mkdocs/src/doc/docs/developer_guide/architecture/extension_points/introduction.md b/mkdocs/src/doc/docs/developer_guide/architecture/extension_points/introduction.md
deleted file mode 100644
index 877d14e9..00000000
--- a/mkdocs/src/doc/docs/developer_guide/architecture/extension_points/introduction.md
+++ /dev/null
@@ -1,163 +0,0 @@
-# Introduction to extension points
-
-In this section you can learn how to create new extension points, how to use and configure existing ones and
-how to query for extensions when generating documentation.
-
-## Declaring extension points
-
-If you are writing a plugin, you can create your own extension point that other developers (or you) can use later on
-in some other part of code.
-
-```kotlin
-class MyPlugin : DokkaPlugin() {
-    val sampleExtensionPoint by extensionPoint<SampleExtensionPointInterface>()
-}
-
-interface SampleExtensionPointInterface {
-    fun doSomething(input: Input): List<Output>
-}
-
-class Input
-class Output
-```
-
-Usually you would want to provide some default implementation(s) for your extension point, you can do that
-within the same plugin class by extending an extension point you've just created.
-See [Extending from extension points](#extending-from-extension-points) for examples.
-
-## Extending from extension points
-
-You can use extension points to provide your own implementation(s) in order to customize plugin's behaviour.
-
-You can do that within the same class as the extension point itself:
-
-```kotlin
-open class MyPlugin : DokkaPlugin() {
-    val sampleExtensionPoint by extensionPoint<SampleExtensionPointInterface>()
-
-    val defaultSampleExtension by extending {
-        sampleExtensionPoint with DefaultSampleExtension()
-    }
-}
-
-...
-
-class DefaultSampleExtension : SampleExtensionPointInterface {
-    override fun doSomething(input: Input): List<Output> = listOf()
-}
-```
-
-___
-
-If you want to extend someone else's plugin (including `DokkaBase`), you can use plugin querying API to do that.
-In the example below we will extend `MyPlugin` that was created above with our own implementation of
-`SampleExtensionPointInterface`.
-
-```kotlin
-class MyExtendedPlugin : DokkaPlugin() {
-    val mySampleExtensionImplementation by extending {
-        plugin<MyPlugin>().sampleExtensionPoint with SampleExtensionImpl()
-    }
-}
-
-class SampleExtensionImpl : SampleExtensionPointInterface {
-    override fun doSomething(input: Input): List<Output> = listOf()
-}
-
-```
-
-### Providing
-
-If you need to have access to `DokkaContext` in order to create an extension, you can use `providing` instead. 
-
-```kotlin
-val defaultSampleExtension by extending {
-    sampleExtensionPoint providing { context ->
-        // can use context to query other extensions or get configuration 
-        DefaultSampleExtension() 
-    }
-}
-```
-
-You can read more on what you can do with `context` in [Obtaining extension instance](#obtaining-extension-instance).
-
-### Override
-
-By extending an extension point, you are registering an _additional_ extension. This behaviour is expected for some
-extension points, for instance `Documentable` transformers, since all transformers do their own transformations and all
-of them will be invoked before proceeding.
-
-However, a plugin can expect only a single registered extension for an extension point. In this case, you can `override`
-existing registered extensions:
-
-```kotlin
-class MyExtendedPlugin : DokkaPlugin() {
-    private val myPlugin by lazy { plugin<MyPlugin>() }
-
-    val mySampleExtensionImplementation by extending {
-        (myPlugin.sampleExtensionPoint
-                with SampleExtensionImpl()
-                override myPlugin.defaultSampleExtension)
-    }
-}
-```
-
-This is also useful if you wish to override some extension from `DokkaBase` to disable or alter it.
-
-### Order
-
-Sometimes the order in which extensions are invoked matters. This is something you can control as well using `order`:
-
-```kotlin
-class MyExtendedPlugin : DokkaPlugin() {
-    private val myPlugin by lazy { plugin<MyPlugin>() }
-
-    val mySampleExtensionImplementation by extending {
-        myPlugin.sampleExtensionPoint with SampleExtensionImpl() order {
-            before(myPlugin.firstExtension)
-            after(myPlugin.thirdExtension)
-        }
-    }
-}
-```
-
-### Conditional apply
-
-If you want your extension to be registered only if some condition is `true`, you can use `applyIf`:
-
-```kotlin
-class MyExtendedPlugin : DokkaPlugin() {
-    private val myPlugin by lazy { plugin<MyPlugin>() }
-    
-    val mySampleExtensionImplementation by extending {
-        myPlugin.sampleExtensionPoint with SampleExtensionImpl() applyIf {
-            Random.Default.nextBoolean()
-        }
-    }
-}
-```
-
-## Obtaining extension instance
-
-After an extension point has been [created](#declaring-extension-points) and some extension has been
-[registered](#extending-from-extension-points), you can use `query` and `querySingle` to find all or just a single
-implementation for it.
-
-```kotlin
-class MyExtension(context: DokkaContext) {
-    // returns all registered extensions for this extension point
-    val allSampleExtensions = context.plugin<MyPlugin>().query { sampleExtensionPoint }
-    
-    // will throw an exception if more than one extension is found
-    // use if you expect only a single extension to be registered for this extension point
-    val singleSampleExtensions = context.plugin<MyPlugin>().querySingle { sampleExtensionPoint }
-    
-    fun invoke() {
-        allSampleExtensions.forEach { it.doSomething(Input()) }
-        
-        singleSampleExtensions.doSomething(Input())
-    }
-}
-```
-
-In order to have access to context you can use [providing](#providing) when registering this as an extension.
diff --git a/mkdocs/src/doc/docs/developer_guide/introduction.md b/mkdocs/src/doc/docs/developer_guide/introduction.md
deleted file mode 100644
index feb601fe..00000000
--- a/mkdocs/src/doc/docs/developer_guide/introduction.md
+++ /dev/null
@@ -1,19 +0,0 @@
-# Developer guides
-
-The purpose of `Developer guides` section is to get you acquainted with Dokka's internals so that you can start developing
-your own plugins or contributing features and fixes to Dokka itself.
-
-If you want to start hacking on Dokka right away, the only thing you need to be aware of is the
-[general workflow](workflow.md), it will teach you how to build, debug and test Dokka locally.
-
-If you want to get into plugin development quick, see
-[Introduction to plugin development](plugin-development/introduction.md).
-
-If you have time to spare and want to know more about Dokka's internals, its architecture and capabilities, follow
-[Architecture overview](architecture/architecture_overview.md) and subsequent sections inside `Internals`.
-
-Having read through all the developer guides, you'll have a pretty good unrestanding of Dokka and how to develop
-for it. 
-
-If you have any questions, feel free to get in touch with maintainers via [Slack](../community/slack.md) or 
-[GitHub](https://github.com/kotlin/dokka).
diff --git a/mkdocs/src/doc/docs/developer_guide/plugin-development/introduction.md b/mkdocs/src/doc/docs/developer_guide/plugin-development/introduction.md
deleted file mode 100644
index ad980e49..00000000
--- a/mkdocs/src/doc/docs/developer_guide/plugin-development/introduction.md
+++ /dev/null
@@ -1,72 +0,0 @@
-# Introduction to plugin development
-
-Dokka was built from the ground up to be easily extensible and highly customizable, which allows the community to 
-implement plugins for missing or very specific features that are not provided out of the box.
-
-Dokka plugins range anywhere from supporting other programming language sources to exotic output formats. You can add 
-support for your own KDoc tags or annotations, teach Dokka how to render different DSLs that are found in KDoc 
-descriptions, visually redesign Dokka's pages to be seamlessly integrated into your company's website, integrate 
-it with other tools and so much more.
-
-In order to have an easier time developing plugins, it's a good idea to go through
-[Dokka's internals](../architecture/architecture_overview.md) first to learn more about its
-[data model](../architecture/data_model/documentables.md) and 
-[extensions](../architecture/extension_points/introduction.md).
-
-## Setup
-
-### Template 
-
-The easiest way to start is to use the convenient [Dokka plugin template](https://github.com/Kotlin/dokka-plugin-template).
-It has pre-configured dependencies, publishing and signing of your artifacts.
-
-### Manual
-
-At a bare minimum, Dokka requires `Kotlin Gradle Plugin` and `dokka-core` dependencies:
-
-```kotlin
-import org.jetbrains.kotlin.gradle.dsl.JvmTarget
-import org.jetbrains.kotlin.gradle.tasks.KotlinCompile
-
-
-plugins {
-    kotlin("jvm") version "<kotlin_version>"
-}
-
-dependencies {
-    compileOnly("org.jetbrains.dokka:dokka-core:<dokka_version>")
-}
-
-tasks.withType<KotlinCompile>().configureEach {
-    compilerOptions.jvmTarget.set(JvmTarget.JVM_1_8)
-}
-```
-
-In order to load a plugin into Dokka, your class must extend `DokkaPlugin` class. A fully qualified name of that class
-must be placed in a file named `org.jetbrains.dokka.plugability.DokkaPlugin` under `resources/META-INF/services`. 
-All instances are automatically loaded during Dokka setup using `java.util.ServiceLoader`.
-
-## Extension points 
-
-Dokka provides a set of entry points for which you can create your own implementations. If you are not sure which
-extension point to use, have a look at [core extensions](../architecture/extension_points/core_extensions.md) and
-[base extensions](../architecture/extension_points/base_extensions.md).
-
-You can learn how to declare extension points and use extensions in
-[Introduction to Extension points](../architecture/extension_points/introduction.md).
-
-In case no suitable extension point exists for your use case, do share the details - it might be added in future
-versions of Dokka.
-
-## Example
-
-You can follow the [sample plugin tutorial](sample-plugin-tutorial.md) which covers creation of a simple plugin: hide members
-annotated with your own `@Internal` annotation, that is exclude these members from generated documentation.
-
-Fore more practical examples, have a look at sources of 
-[community plugins](https://kotlinlang.org/docs/dokka-plugins.html#notable-plugins).
-
-## Help
-
-If you have any further questions, feel free to get in touch with maintainers via [Slack](../../community/slack.md) or
-[GitHub](https://github.com/kotlin/dokka).
diff --git a/mkdocs/src/doc/docs/developer_guide/plugin-development/sample-plugin-tutorial.md b/mkdocs/src/doc/docs/developer_guide/plugin-development/sample-plugin-tutorial.md
deleted file mode 100644
index 3869d79b..00000000
--- a/mkdocs/src/doc/docs/developer_guide/plugin-development/sample-plugin-tutorial.md
+++ /dev/null
@@ -1,297 +0,0 @@
-# Sample plugin tutorial
-
-We'll go over creating a simple plugin that covers a very common use case: generate documentation for everything except 
-for members annotated with a custom `@Internal` annotation - they should be hidden.
-
-The plugin will be tested with the following code:
-
-```kotlin
-package org.jetbrains.dokka.internal.test
-
-annotation class Internal
-
-fun shouldBeVisible() {}
-
-@Internal
-fun shouldBeExcludedFromDocumentation() {}
-```
-
-Expected behavior: function `shouldBeExcludedFromDocumentation` should not be visible in generated documentation.
-
-Full source code of this tutorial can be found in Dokka's examples under 
-[hide-internal-api](https://github.com/Kotlin/dokka/examples/plugin/hide-internal-api).
-
-## Preparing the project
-
-We'll begin by using [Dokka plugin template](https://github.com/Kotlin/dokka-plugin-template). Press the 
-`Use this template` button and 
-[open this project in IntelliJ IDEA](https://www.jetbrains.com/idea/guide/tutorials/working-with-gradle/opening-a-gradle-project/).
-
-First, let's rename the pre-made `template` package and `MyAwesomeDokkaPlugin` class to something of our own.
-
-For instance, package can be renamed to `org.example.dokka.plugin` and the class to `HideInternalApiPlugin`:
-
-```kotlin
-package org.example.dokka.plugin
-
-import org.jetbrains.dokka.plugability.DokkaPlugin
-
-class HideInternalApiPlugin : DokkaPlugin() {
-
-}
-```
-
-After you do that, make sure to update the path to this class in
-`resources/META-INF/services/org.jetbrains.dokka.plugability.DokkaPlugin`:
-```kotlin
-org.example.dokka.plugin.HideInternalApiPlugin
-```
-
-At this point you can also change project name in `settings.gradle.kts` (to `hide-internal-api` in our case)
-and `groupId` in `build.gradle.kts`. 
-
-## Extending Dokka
-
-After preparing the project we can begin extending Dokka with our own extension.
-
-Having read through [Core extensions](../architecture/extension_points/core_extensions.md), it's clear that we need
-a `PreMergeDocumentableTransformer` extension in order to filter out undesired documentables. 
-
-Moreover, the article mentioned a convenient abstract transformer `SuppressedByConditionDocumentableFilterTransformer`
-which is perfect for our use case, so we can try to implement it.
-
-Create a new class, place it next to your plugin and implement the abstract method. You should end up with this:
-
-```kotlin
-package org.example.dokka.plugin
-
-import org.jetbrains.dokka.base.transformers.documentables.SuppressedByConditionDocumentableFilterTransformer
-import org.jetbrains.dokka.model.Documentable
-import org.jetbrains.dokka.plugability.DokkaContext
-import org.jetbrains.dokka.plugability.DokkaPlugin
-
-class HideInternalApiPlugin : DokkaPlugin() {}
-
-class HideInternalApiTransformer(context: DokkaContext) : SuppressedByConditionDocumentableFilterTransformer(context) {
-   
-    override fun shouldBeSuppressed(d: Documentable): Boolean {
-        return false
-    }
-}
-```
-
-Now we somehow need to find all annotations applied to `d: Documentable` and see if our `@Internal` annotation is present.
-However, it's not very clear how to do that. What usually helps is stopping in debugger and having a look at what fields
-and values a given `Documentable` has.
-
-To do that, we'll need to register our extension point first, then we can publish our plugin and set the breakpoint.
-
-Having read through [Introduction to extensions](../architecture/extension_points/introduction.md), we now know
-how to register our extensions:
-
-```kotlin
-class HideInternalApiPlugin : DokkaPlugin() {
-    val myFilterExtension by extending {
-        plugin<DokkaBase>().preMergeDocumentableTransformer providing ::HideInternalApiTransformer
-    }
-}
-```
-
-At this point we're ready to debug our plugin locally, it should already work, but do nothing.
-
-## Debugging
-
-Please read through [Debugging Dokka](../workflow.md#debugging-dokka), it goes over the same steps in more detail
-and with examples. Below you will find rough instructions.
-
-First, let's begin by publishing our plugin to `mavenLocal()`. 
-
-```bash
-./gradlew publishToMavenLocal
-```
-
-This will publish your plugin under the `groupId`, `artifactId` and `version` that you've specified in your
-`build.gradle.kts`. In our case it's `org.example:hide-internal-api:1.0-SNAPSHOT`.
-
-Open a debug project of your choosing that has Dokka configured, and add our plugin to dependencies:
-
-```kotlin
-dependencies {
-    dokkaPlugin("org.example:hide-internal-api:1.0-SNAPSHOT")
-}
-```
-
-Next, in that project let's run `dokkaHtml` with debug enabled:
-
-```bash
-./gradlew clean dokkaHtml -Dorg.gradle.debug=true --no-daemon
-```
-
-Switch to the plugin project, set a breakpoint inside `shouldBeSuppressed` and run jvm remote debug.
-
-If you've done everything correctly, it should stop in debugger and you should be able to observe the values contained
-inside `d: Documentable`.
-
-## Implementing plugin logic
-
-Now that we've stopped at our breakpoint, let's skip until we see `shouldBeExcludedFromDocumentation` function in the
-place of `d: Documentable` (observe the changing `name` property).
-
-Looking at what's inside the object, you might notice it has 3 values in `extra`, one of which is `Annotations`.
-Sounds like something we need!
-
-Having poked around, we come up with the following monstrosity of a code for determining if a given documentable has
-`@Internal` annotation (it can of course be refactored.. later):
-
-```kotlin
-override fun shouldBeSuppressed(d: Documentable): Boolean {
-   
-    val annotations: List<Annotations.Annotation> =
-        (d as? WithExtraProperties<*>)
-            ?.extra
-            ?.allOfType<Annotations>()
-            ?.flatMap { it.directAnnotations.values.flatten() }
-            ?: emptyList()
-
-    return annotations.any { isInternalAnnotation(it) }
-}
-
-private fun isInternalAnnotation(annotation: Annotations.Annotation): Boolean {
-   return annotation.dri.packageName == "org.jetbrains.dokka.internal.test"
-           && annotation.dri.classNames == "Internal"
-}
-```
-
-Seems like we're done with writing our plugin and can begin testing it manually.
-
-## Manual testing
-
-At this point, the implementation of your plugin should look roughly like this:
-
-```kotlin
-package org.example.dokka.plugin
-
-import org.jetbrains.dokka.base.DokkaBase
-import org.jetbrains.dokka.base.transformers.documentables.SuppressedByConditionDocumentableFilterTransformer
-import org.jetbrains.dokka.model.Annotations
-import org.jetbrains.dokka.model.Documentable
-import org.jetbrains.dokka.model.properties.WithExtraProperties
-import org.jetbrains.dokka.plugability.DokkaContext
-import org.jetbrains.dokka.plugability.DokkaPlugin
-
-class HideInternalApiPlugin : DokkaPlugin() {
-    val myFilterExtension by extending {
-        plugin<DokkaBase>().preMergeDocumentableTransformer providing ::HideInternalApiTransformer
-    }
-}
-
-class HideInternalApiTransformer(context: DokkaContext) : SuppressedByConditionDocumentableFilterTransformer(context) {
-
-    override fun shouldBeSuppressed(d: Documentable): Boolean {
-        val annotations: List<Annotations.Annotation> =
-            (d as? WithExtraProperties<*>)
-                ?.extra
-                ?.allOfType<Annotations>()
-                ?.flatMap { it.directAnnotations.values.flatten() }
-                ?: emptyList()
-
-        return annotations.any { isInternalAnnotation(it) }
-    }
-
-    private fun isInternalAnnotation(annotation: Annotations.Annotation): Boolean {
-        return annotation.dri.packageName == "org.jetbrains.dokka.internal.test"
-                && annotation.dri.classNames == "Internal"
-    }
-}
-```
-
-Bump plugin version in `gradle.build.kts`, publish it to maven local, open the debug project and run `dokkaHtml` 
-(without debug this time). It should work, you should **not** be able to see `shouldBeExcludedFromDocumentation`
-function in generated documentation.
-
-Manual testing is cool and all, but wouldn't it be better if we could somehow write unit tests for it? Indeed!
-
-## Unit testing
-
-You might've noticed that plugin template comes with a pre-made test class. Feel free to move it to another package
-and rename it.
-
-We are mostly interested in a single test case - functions annotated with `@Internal` should be hidden, while all other
-public functions should be visible.
-
-Plugin API comes with a set of convenient test utilities that are used to test Dokka itself, so it covers a wide range
-of use cases. When in doubt, see Dokka's tests for reference.
-
-Below you will find a complete unit test that passes, and the main takeaways below that.
-
-```kotlin
-package org.example.dokka.plugin
-
-import org.jetbrains.dokka.base.testApi.testRunner.BaseAbstractTest
-import org.junit.Test
-import kotlin.test.assertEquals
-
-class HideInternalApiPluginTest : BaseAbstractTest() {
-   
-    @Test
-    fun `should hide annotated functions`() {
-        val configuration = dokkaConfiguration {
-            sourceSets {
-                sourceSet {
-                    sourceRoots = listOf("src/main/kotlin/basic/Test.kt")
-                }
-            }
-        }
-        val hideInternalPlugin = HideInternalApiPlugin()
-
-        testInline(
-            """
-            |/src/main/kotlin/basic/Test.kt
-            |package org.jetbrains.dokka.internal.test
-            |
-            |annotation class Internal
-            |
-            |fun shouldBeVisible() {}
-            |
-            |@Internal
-            |fun shouldBeExcludedFromDocumentation() {}
-        """.trimMargin(),
-            configuration = configuration,
-            pluginOverrides = listOf(hideInternalPlugin)
-        ) {
-            preMergeDocumentablesTransformationStage = { modules ->
-                val testModule = modules.single { it.name == "root" }
-                val testPackage = testModule.packages.single { it.name == "org.jetbrains.dokka.internal.test" }
-
-                val packageFunctions = testPackage.functions
-                assertEquals(1, packageFunctions.size)
-                assertEquals("shouldBeVisible", packageFunctions[0].name)
-            }
-        }
-    }
-}
-```
-
-Note that the package of the tested code (inside `testInline` function) is the same as the package that we have
-hardcoded in our plugin. Make sure to change that to your own if you are following along, otherwise it will fail.
-
-Things to note and remember:
-
-1. Your test class should extend `BaseAbstractTest`, which contains base utility methods for testing.
-2. You can configure Dokka to your liking, enable some specific settings, configure 
-   [source sets](https://kotlinlang.org/docs/multiplatform-discover-project.html#source-sets), etc. All done via
-   `dokkaConfiguration` DSL.
-3. `testInline` function is the main entry point for unit tests
-4. You can pass plugins to be used in a test, notice `pluginOverrides` parameter
-5. You can write asserts for different stages of generating documentation, the main ones being `Documentables` model
-   generation, `Pages` generation and `Output` generation. Since we implemented our plugin to work during
-   `PreMergeDocumentableTransformer` stage, we can test it on the same level (that is
-   `preMergeDocumentablesTransformationStage`).
-6. You will need to write asserts using the model of whatever stage you choose. For `Documentable` transformation stage 
-   it's `Documentable`, for `Page` generation stage you would have `Page` model, and for `Output` you can have `.html`
-   files that you will need to parse with `JSoup` (there are also utilities for that).
-
-___
-
-Full source code of this tutorial can be found in Dokka's examples under
-[hide-internal-api](https://github.com/Kotlin/dokka/examples/plugin/hide-internal-api).
diff --git a/mkdocs/src/doc/docs/developer_guide/workflow.md b/mkdocs/src/doc/docs/developer_guide/workflow.md
deleted file mode 100644
index 388100b2..00000000
--- a/mkdocs/src/doc/docs/developer_guide/workflow.md
+++ /dev/null
@@ -1,100 +0,0 @@
-# Workflow
-
-Whether you're contributing a feature/fix to Dokka itself or developing a separate plugin, there's 3 things
-you'll be doing:
-
-1. Building Dokka / Plugins
-2. Using/Testing locally built Dokka in a (debug) project
-3. Debugging Dokka / Plugin code
-
-We'll go over each step individually in this section.
-
-Examples below will be specific to Gradle and [Gradle’s Kotlin DSL](https://docs.gradle.org/current/userguide/kotlin_dsl.html),
-but you can apply the same principles and run/test/debug with CLI/Maven runners and build configurations if you wish.
-
-## Building Dokka
-
-Building Dokka is pretty straightforward, with one small caveat: when you run `./gradlew build`, it will run
-integration tests as well, which might take some time and will consume a lot of RAM, so you would usually want
-to exclude integration tests when building locally.
-
-```shell
-./gradlew build -x integrationTest
-```
-
-Unit tests which are run as part of `build` should not take much time, but you can also skip it with `-x test`.
-
-### Troubleshooting build
-
-#### API check failed for project ..
-
-If you see messages like `API check failed for project ..` during `build` phase, it indicates that
-[binary compatibility check](https://github.com/Kotlin/binary-compatibility-validator) has failed, meaning you've 
-changed/added/removed some public API.
-
-If the change was intentional, run `./gradlew apiDump` - it will re-generate `.api` files with signatures,
-and you should be able to `build` Dokka with no errors. These updated files need to be committed as well. Maintainers
-will review API changes thoroughly, so please make sure it's intentional and rational.
-
-## Using/testing locally built Dokka
-
-Having built Dokka locally, you can publish it to `mavenLocal()`. This will allow you to test your changes in another
-project as well as debug code remotely.
-
-1. Change `dokka_version` in `gradle.properties` to something that you will use later on as the dependency version.
-   For instance, you can set it to something like `1.8.20-my-fix-SNAPSHOT`. This version will be propagated to plugins
-   that reside inside Dokka's project (such as `mathjax`, `kotlin-as-java`, etc).
-2. Publish it to maven local (`./gradlew publishToMavenLocal`). Corresponding artifacts should appear in `~/.m2`
-3. In the project you want to generate documentation for or debug on, add maven local as a plugin/dependency
-   repository:
-```kotlin
-repositories {
-   mavenLocal()
-}
-```
-4. Update your dokka dependency to the version you've just published:
-```kotlin
-plugins {
-    id("org.jetbrains.dokka") version "1.8.20-my-fix-SNAPSHOT"
-}
-```
-
-After completing these steps, you should be able to build documentation using your own version of Dokka.
-
-## Debugging Dokka
-
-Dokka is essentially a gradle plugin, so you can debug it the same way you would any other gradle plugin. 
-
-Below you'll find instructions on how to debug Dokka's internal logic, but you can apply the same principles if you
-wish to debug a plugin which resides in a separate project.
-
-1. Choose a project to debug on, it needs to have some code for which documentation will be generated.
-   Prefer using smaller projects that reproduce the exact problem or behaviour you want
-   since the less code you have, the easier it will be to understand what's going on. You can use example projects
-   found in [dokka/examples/gradle](https://github.com/Kotlin/dokka/tree/master/examples/gradle), there's both simple 
-   single-module and more complex multimodule/multiplatform examples.
-2. For the debug project, set `org.gradle.debug` to `true` in one of the following ways:
-
-    * In your `gradle.properties` add `org.gradle.debug=true`
-    * When running Dokka tasks:<br/>`./gradlew dokkaHtml -Dorg.gradle.debug=true --no-daemon`
-
-3. Run desired Dokka task with `--no-daemon`. Gradle should wait until you attach with debugger before proceeding
-   with the task, so no need to hurry here.
-   <br/>Example: `./gradlew dokkaHtml -Dorg.gradle.debug=true --no-daemon`.
-
-4. Open Dokka in IntelliJ IDEA, set a breakpoint and, using remote debug in IntelliJ IDEA,
-   [Attach to process](https://www.jetbrains.com/help/idea/attaching-to-local-process.html#attach-to-remote)
-   running on the default port 5005. You can do that either by creating a `Remote JVM Debug` Run/Debug configuration
-   or by attaching to the process via `Run` -> `Attach to process`
-
-!!! note
-    The reason for `--no-daemon` is that
-    [Gradle daemons](https://docs.gradle.org/current/userguide/gradle_daemon.html) continue to exist even after the task
-    has completed execution, so you might hang in debug or experience issues with `port was already in use` if you try
-    to run it again.
-    
-    If you previously ran Dokka with daemons and you are already encountering problems with it, try killing
-    gradle daemons. For instance, via `pkill -f gradle.*daemon`
-
-In case you need to debug some other part of the build - consult the official Gradle
-tutorials on [Troubleshooting Builds](https://docs.gradle.org/current/userguide/troubleshooting.html).
diff --git a/mkdocs/src/doc/docs/dokka_colors.css b/mkdocs/src/doc/docs/dokka_colors.css
deleted file mode 100644
index 69a24359..00000000
--- a/mkdocs/src/doc/docs/dokka_colors.css
+++ /dev/null
@@ -1,3 +0,0 @@
-.md-header, .md-tabs {
-    background-color: #27282c
-}
diff --git a/mkdocs/src/doc/docs/favicon.svg b/mkdocs/src/doc/docs/favicon.svg
deleted file mode 100755
index 1fea0877..00000000
--- a/mkdocs/src/doc/docs/favicon.svg
+++ /dev/null
@@ -1,10 +0,0 @@
-<svg width="64" height="64" viewBox="0 0 64 64" fill="none" xmlns="http://www.w3.org/2000/svg">
-    <path d="M64 64H0V0H64L31.3373 31.5369L64 64Z" fill="url(#paint0_radial)"/>
-    <defs>
-        <radialGradient id="paint0_radial" cx="0" cy="0" r="1" gradientUnits="userSpaceOnUse" gradientTransform="translate(61.8732 2.63097) scale(73.3111)">
-            <stop offset="0.00343514" stop-color="#EF4857"/>
-            <stop offset="0.4689" stop-color="#D211EC"/>
-            <stop offset="1" stop-color="#7F52FF"/>
-        </radialGradient>
-    </defs>
-</svg>
\ No newline at end of file
diff --git a/mkdocs/src/doc/docs/index.md b/mkdocs/src/doc/docs/index.md
deleted file mode 100644
index 2cedfe35..00000000
--- a/mkdocs/src/doc/docs/index.md
+++ /dev/null
@@ -1,9 +0,0 @@
-# Dokka 
-
-Dokka is an API documentation engine for Kotlin.
-
-If you want to learn how to use Dokka, see 
-[documentation on kotlinlang.org](https://kotlinlang.org/docs/dokka-introduction.html).
-
-If you want to learn more about Dokka's internals and/or how to write Dokka plugins,
-see [Developer guides](developer_guide/introduction.md).
diff --git a/mkdocs/src/doc/docs/user_guide/output-formats/html.md b/mkdocs/src/doc/docs/user_guide/output-formats/html.md
deleted file mode 100644
index e69de29b..00000000
--- a/mkdocs/src/doc/docs/user_guide/output-formats/html.md
+++ /dev/null
diff --git a/mkdocs/src/doc/mkdocs.yml b/mkdocs/src/doc/mkdocs.yml
deleted file mode 100644
index 0b520944..00000000
--- a/mkdocs/src/doc/mkdocs.yml
+++ /dev/null
@@ -1,85 +0,0 @@
-site_name: Dokka
-
-# Meta tags (placed in header)
-site_description: Dokka is an API documentation engine for Kotlin, performing the same function as the Javadoc tool for Java
-site_author: JetBrains
-site_url: https://github.com/Kotlin/dokka
-
-# Repository (add link to repository on each page)
-repo_name: dokka
-repo_url: https://github.com/Kotlin/dokka
-edit_uri: edit/master/mkdocs/src/doc/docs/
-
-# Copyright (shown at the footer)
-copyright: 'Copyright &copy; 2023 JetBrains'
-
-# Material theme
-theme:
-  name: 'material'
-  favicon: favicon.svg
-  social:
-    - type: 'github'
-      link: 'https://github.com/Kotlin/dokka'
-  features:
-    - navigation.expand
-    - navigation.tabs
-    - navigation.instant
-    - navigation.indexes
-    - navigation.top
-
-# Extensions
-markdown_extensions:
-  - admonition
-  - codehilite:
-      guess_lang: false
-  - footnotes
-  - meta
-  - def_list
-  - toc:
-      permalink: true
-  - pymdownx.betterem:
-      smart_enable: all
-  - pymdownx.caret
-  - pymdownx.inlinehilite
-  - pymdownx.magiclink
-  - pymdownx.smartsymbols
-  - attr_list
-  - md_in_html
-  - pymdownx.superfences:
-      custom_fences:
-          - name: mermaid
-            class: mermaid
-            format: !!python/name:pymdownx.superfences.fence_code_format
-
-# Dev server binding for livereload
-dev_addr: 127.0.0.1:3001
-
-nav:
-  - Home:
-      - index.md
-      - User guides: https://kotlinlang.org/docs/dokka-introduction.html
-      - Developer guides: developer_guide/introduction.md
-      - Community: community/slack.md
-  - User guides:
-      - https://kotlinlang.org/docs/dokka-introduction.html
-  - Developer guides:
-      - Developer guides: developer_guide/introduction.md
-      - Workflow: developer_guide/workflow.md
-      - Internals:
-          - Architecture: developer_guide/architecture/architecture_overview.md
-          - Data model:
-              -  Documentables: developer_guide/architecture/data_model/documentables.md
-              -  Page & Content: developer_guide/architecture/data_model/page_content.md
-              -  Extra properties: developer_guide/architecture/data_model/extra.md
-          - Extension points:
-              - Extension points: developer_guide/architecture/extension_points/introduction.md
-              - Core extension points: developer_guide/architecture/extension_points/core_extensions.md
-              - Base extensions: developer_guide/architecture/extension_points/base_extensions.md
-      - Plugin development:
-          - Plugin development: developer_guide/plugin-development/introduction.md
-          - Sample plugin tutorial: developer_guide/plugin-development/sample-plugin-tutorial.md
-  - Community:
-      - Slack: community/slack.md
-
-extra_css:
-  - dokka_colors.css