990 lines
42 KiB
Plaintext
990 lines
42 KiB
Plaintext
// Copyright (c) 2015-2018 Khronos Group. This work is licensed under a
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// Creative Commons Attribution 4.0 International License; see
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// http://creativecommons.org/licenses/by/4.0/
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[[extensions]]
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= API Versions, Extensions, and Layers
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This chapter describes required and recommended processes for writing
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specification language for different core API versions, extensions, and API
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layers.
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It is concerned with processes and registration, while fine-grained naming
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conventions are included in the <<naming,API Naming Conventions chapter>>.
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[NOTE]
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.Note
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====
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The mechanism and process of specifying extensions is subject to change, as
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we receive feedback from authors and further requirements of documentation
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tooling.
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This document will be updated as changes are made.
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====
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== Introduction
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The Khronos extension registries and extension naming conventions serve
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several purposes:
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* Avoiding naming collisions between extensions developed by mutually
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unaware parties, both in the extension names themselves, as well as
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their token, command, and type names.
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* Allocating enumerant values for tokens added by extensions
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* Creating a defined order between extensions.
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Extensions with higher numbers may have dependencies upon extensions
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with lower numbers, and must define any relevant interactions with
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lower-numbered extensions.
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* Provides a central repository for documentation and header changes
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associated with extensions
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[[extensions-rules]]
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== General Rules/Guidelines
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Some general rules to simplify the specific rules below:
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* API versions, extensions and layers must each have a globally unique
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name.
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* All commands and tokens must have a globally unique name.
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* API versions and extensions can expose new commands, types, and/or
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tokens, but layers must not.
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** However, layers can expose their own extensions, which in turn are
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allowed to expose new commands and tokens.
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* All extensions must be registered with Khronos.
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* Extensions in general are strictly additive and backwards-compatible
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with each other and with the core API.
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However, as described in more detail the Fundamentals chapter of the
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<<vulkan-spec,Vulkan API Specification>>, explicit incompatibilities may
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exist, and must be documented.
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[[extensions-naming-conventions]]
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== Version, Extension, and Layer Naming Conventions
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Versions, extensions and layers have formal _names_.
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These names are used in a variety of places:
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* When specifying extensions and layers to enable in the API.
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* As a preprocessor symbol in the `vulkan_core.h` header file indicating
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that an extension interface is defined at compile time.
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* To control building the Vulkan Specification from asciidoc source
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containing multiple versions and extensions, by explicitly enabling
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their inclusion.
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[NOTE]
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.Note
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====
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Published extensions are documented as part of the `master` branch of the
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<<vulkan-docs,KhronosGroup/Vulkan-Docs>> project.
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They can optionally be included or excluded when generating specifications.
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====
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There is a rigid syntax for these names:
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* Versions are named with the syntax `VK_VERSION_<major>_<minor>`.
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* Extensions are named with the syntax `VK_<author>_<name>`.
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* Layers are named with the syntax `VK_LAYER_<author>_<name>` or
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`VK_LAYER_<fqdn>_<name>`.
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All these names include a `VK_` prefix, as described in the
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<<naming-preprocessor,Preprocessor Defines>> section above.
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In addition, layers add a `LAYER_` prefix.
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All these names must be valid C language identifiers.
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[[extensions-naming-conventions-name-strings]]
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=== Version, Extension and Layer Name Strings
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The `<name>` portion of version, extension and layer names is a concise name
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describing its purpose or functionality.
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The underscore (`_`) character is used as a delimiter between words.
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Every alphabetic character of the name must be in lower case.
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[[extensions-naming-author-IDs]]
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=== Author IDs for Extensions and Layers
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Extension and layer names also contain an _author ID_, indicated by
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`<author>` above, identifying the author of the extension/layer.
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This ID is a short, capitalized string identifying an author, such as a
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Khronos member developing Vulkan implementations for their devices, or a
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non-Khronos developer creating Vulkan layers.
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Author IDs must be registered with Khronos.
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Some authors have platform communities they wish to distinguish between, and
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can register additional author IDs for that purpose.
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For example, Google has separate Android and Chrome communities.
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Details on how to register an author ID are provided below.
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Layer authors not wishing to register an author ID with Khronos can instead
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use a fully-qualified domain name (FQDN, indicated by `<fqdn>` above) as the
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ID.
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The FQDN should be a domain name owned by the author.
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FQDNs cannot be used for extensions, only for layers.
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* The following are examples of extension and layer names, demonstrating
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the above syntax:
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** Extension names all use the base prefix `VK_`.
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** Khronos-ratified extensions add the reserved author ID `KHR` and use
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the prefix `VK_KHR_`.
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** The following author IDs are reserved and must not be used:
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*** `VK` - To avoid confusion with the top-level `VK_` prefix.
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*** `VULKAN` - To avoid confusion with the name of the Vulkan API.
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*** `LAYER` - To avoid confusion with the higher-level "`LAYER`" prefix.
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*** `KHRONOS` - To avoid confusion with the Khronos organization.
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** Multi-author extensions that have not been ratified by Khronos (those
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developed via cooperation between, and intended to be supported by two
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or more registered authors) add the special author ID `EXT` to the base
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prefix, and will use the prefix `VK_EXT_`.
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** Traditional author-specific extensions developed by one author (or one
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author in cooperation with non-authors) add the author ID to the base
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prefix.
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For example, NVIDIA will use the prefix `VK_NV_`, and Valve will use
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the prefix `VK_VALVE_`.
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Some authors can have additional registered author IDs for special
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purposes.
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For example, an Android extension developed by Google - but part of an
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Android open-source community project, and so not a proprietary Google
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extension - will use the author ID `ANDROID`.
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** Layer names follow the same conventions as extensions, but use the base
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prefix `VK_LAYER_`.
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** Because layers need not be registered with Khronos, an alternative
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mechanism is needed to allow creating unique layer names without
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registering an author ID.
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Layer authors that prefer not to register an author ID can instead use
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a fully-qualified domain name (FQDN) in reverse-order as an author ID,
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replacing `.` (period) with `_` (underscore) characters.
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The restriction that layer names must be valid C identifiers means that
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some FQDNs cannot be used as part of layer names.
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[NOTE]
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.Note
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====
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The `KHX` author ID was used for _experimental_ extensions, as described in
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the "`Layers & Extensions`" appendix of the <<vulkan-spec,Vulkan API
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Specification>>.
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As of the initial Vulkan 1.1 public release, all `KHX` extensions have been
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promoted to `KHR` status, and this mechanism is no longer used.
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====
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[source, c]
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.Example
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----
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// Core API version name for Vulkan 1.1
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VK_VERSION_1_1
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// Khronos extension name
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VK_KHR_mirror_clamp_to_edge
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// Multivendor extension name
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VK_EXT_debug_marker
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// Vendor extension name using author ID NV
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VK_NV_glsl_shader
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// Vendor layer name using author ID LUNARG
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VK_LAYER_LUNARG_vktrace
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// Layer name using the FQDN www.3dxcl.invalid instead of an author ID
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VK_LAYER_invalid_3dxcl_www
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----
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[NOTE]
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.Note
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====
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To avoid linking to a nonexistent domain, the reserved TLD `.invalid` is
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used in the example above.
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====
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[[extensions-naming]]
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== Extension Command, Type, and Token Naming Conventions
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Extensions may add new commands, types, and tokens, or collectively
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"`objects`", to the Vulkan API.
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These objects are given globally unique names by appending the author ID
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defined above for the extension name as described in the
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<<naming-extension-identifiers, Extension Identifier Naming Conventions>>
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section above.
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[[extensions-api-registry]]
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== The Vulkan Registry
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The canonical definition of the Vulkan APIs is kept in an XML file known as
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the *Vulkan registry*.
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The registry is kept in `xml/vk.xml` in the `master` branch of the
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<<vulkan-docs,KhronosGroup/Vulkan-Docs>> project, containing the most
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recently released Vulkan API specification.
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The registry contains reserved author IDs, core and extension interface
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definitions, definitions of individual commands and structures, and other
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information which must be agreed on by all implementations.
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The registry is used to maintain a single, consistent global namespace for
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the registered entities, to generate the Khronos-supplied Vulkan header
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files, and to create a variety of related documentation used in generating
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the API specification and reference pages.
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Other uses of the registry outside Khronos include the LunarG Loader and
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Validation Layers, and a variety of language bindings.
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[[extensions-author-ID]]
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== Registering an Author ID with Khronos
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Previous Khronos APIs could only officially be modified by Khronos members.
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In an effort to build a more flexible platform, Vulkan allows non-Khronos
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developers to extend and modify the API via layers and extensions in the
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same manner as Khronos members.
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However, extensions must still be registered with Khronos.
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A mechanism for non-members to register layers and extensions is provided.
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Extension authors will be able to create an account on GitHub and register
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an author ID with Khronos through the
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<<vulkan-docs,KhronosGroup/Vulkan-Docs>> project.
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The author ID must be used for any extensions that author registers.
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The same mechanism will be used to request registration of extensions or
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layers with Khronos, as described below.
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To reserve an author ID, propose a merge request against
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<<extensions-api-registry,`vk.xml`>> in the `master` branch.
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The merge must add a `<tag>` XML tag and fill in the `name`, `author` and
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+contact+ attributes with the requested author ID, the author's formal name
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(e.g. company or project name), and contact email address, respectively.
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The author ID will only be reserved once this merge request is accepted.
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Please do not try to reserve author IDs which clearly belong to another
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existing company or project which may wish to develop Vulkan extensions or
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layers in the future, as a matter of courtesy and respect.
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Khronos may decline to register author IDs that are not requested in good
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faith.
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[[extensions-vendor-id]]
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== Registering a Vendor ID with Khronos
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Vulkan implementers must report a valid vendor ID for their implementation
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when queried by fname:vkGetPhysicalDeviceProperties, as described in the
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"`Devices and Queues`" section of the <<vulkan-spec,Vulkan API
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Specification>>.
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If there is no valid PCI vendor ID defined for the physical device,
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implementations must obtain a Khronos vendor ID.
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Khronos vendor IDs are reserved in a similar fashion to
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<<extensions-author-ID,author IDs>>.
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While vendor IDs are not directly related to API extensions, the reservation
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process is similar, and so is described in this section.
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To reserve an Khronos vendor ID, you must first have a Khronos author ID.
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Propose a merge request against <<extensions-api-registry,`vk.xml`>> in the
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`master` branch.
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The merge must define a new enumerant by adding an `<enum>` tag to the
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`VkVendorId` `<enums>` tag, following the existing examples.
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The `value` attribute of the `<enum>` must be the next available unused
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value, and is the reserved vendor ID.
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The `name` attribute must be `VK_VENDOR_ID_<author>`, where `<author>` is
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the author tag.
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The vendor ID will be reserved only once this merge request has been
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accepted.
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Please do not try to reserve vendor IDs unless you are making a good faith
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effort to develop a Vulkan implementation and require one for that purpose.
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== Registering Extensions and Layers
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Extensions must be registered with Khronos.
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Layers should be registered, but registration is not required.
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Registration means:
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* Receiving an extension number.
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* Adding the extension or layer name to the list in `vk.xml` and appearing
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on the Khronos registry website, which will link to associated
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documentation hosted on Khronos.
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* For extensions which add to the Vulkan API, including definitions of
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those additions to `vk.xml`.
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Registration for Khronos members is handled by filing a merge request in the
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internal gitlab repository against the branch containing the core
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specification against which the extension or layer will be written.
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The merge must modify `vk.xml` to define extension names, API interfaces,
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and related information.
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Registration is not complete until the registry maintainer has validated and
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accepted the merge.
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Since this process could in principle be completely automated, this suggests
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a scalable mechanism for accepting registration of non-Khronos extensions.
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Non-Khronos members who want to create extensions must register with Khronos
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by creating a GitHub account, and registering their author ID and/or FQDNs
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to that account.
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They can then submit new extension registration requests by proposing merges
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to `vk.xml`.
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On acceptance of the merge, the extension will be registered, though its
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specification need not be checked into the Khronos GitHub repository at that
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point.
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The registration process can be split into several steps to accommodate
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extension number assignment prior to extension publication:
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* Acquire an extension number.
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This is done by proposing a merge request against `vk.xml` similarly to
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how <<extensions-author-ID,author IDs are reserved>>.
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The merge should add a new `<extension>` tag at the end of the file with
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attributes specifying the proposed extension `name`, the next unused
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sequential extension `number`, the `author` and `contact` information
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(if different than that already specified for the author ID used in the
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extension name), and finally, specifying `supported="disabled"`.
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The extension number will be reserved only once this merge request is
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accepted into the `master` branch.
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* Develop and test the extension using the registered extension number.
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* Publish the extension to Khronos using the previously registered
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extension number, by submitting merge requests to the `master` branch
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defining the changes specific to the extension.
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Changes to both the specification source, and to `vk.xml` will be
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needed.
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** Extension changes to the specification source must be protected by
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asciidoc conditionals as described in the
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<<extensions-documenting,Documenting Extensions>> section.
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** Changes to `vk.xml` must define the extension interfaces in the
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`<extension>` block, and must also change the `supported` attribute
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value of the `<extension>` to `supported="vulkan"`.
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** When publishing an extension, mark it as enabled by proposing a merge
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to the `master` branch changing the `supported` attribute value of the
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`<extension>` to `supported="vulkan"`.
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This should be completely automated and under the control of the
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publishers, to allow them to align publication on Khronos with product
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releases.
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However, complete automation might be difficult, since steps such as
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regenerating and validating the Vulkan header files are involved.
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Once the merge is accepted and the corresponding updated header with
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the new extension interface is committed to the `master` branch,
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publication is complete.
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** Publishing on the <<vulkan-docs,Khronos public GitHub repository>> is
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preferred whenever possible.
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Khronos members may instead create branches on Khronos' internal gitlab
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server, but those branches will eventually be mirrored to GitHub.
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** Once the merge request defining an extension has been accepted into the
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`master` branch, publication is complete - although it may not be
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visible on GitHub until the next regular core Specification update is
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pushed out.
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* It is still possible to publish a separate branch of the repository with
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appropriate changes relative to the core Vulkan API branch instead, but
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this approach is deprecated and discouraged.
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If this is done, all changes to `vk.xml` must still be made in the
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`master` branch.
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ifdef::editing-notes[]
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[NOTE]
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.editing-note
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====
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TODO: This section is subject to change and not complete yet, but in broad
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is how we expect extension registration and specifications to work.
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The process will be refined as members and outside authors define further
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extensions.
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====
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endif::editing-notes[]
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[[extensions-documenting]]
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== Documenting API Versions and Extensions
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API versions and extensions are documented as modifications to the Vulkan
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specification.
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Changes specific to a version or extension are protected by asciidoc
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conditionals.
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The changes are only visible in generated documentation when the
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Specification is built with an asciidoc attribute of that name defined.
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For example, the `VK_KHR_surface` extension is now documented in the
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`master` branch of the GitHub `<<vulkan-docs,KhronosGroup/Vulkan-Docs>>`
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project.
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However, specifications generated from this branch will only include the
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extension when the Makefile is invoked appropriately.
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[[extensions-documenting-extensions]]
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=== Changes for New Extensions
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Most language defining extensions can be localized either into a small
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number of asciidoc include files which are conditionally included in the
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core specification chapters and appendices, or into parts of `vk.xml`
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defining the extension interfaces.
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[NOTE]
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.Note
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====
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We do not yet fully document an example of including a new version or
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extension.
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New versions are authored only by Khronos and examples will be available at
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such time that we publish a new version.
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Extension authors should refer to the `master` branch and search for the
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names of existing extensions, such as `VK_KHR_surface`, for markup examples.
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Some aspects of the changes for this example extension are described below.
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====
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Changes for extensions include (but may not be limited to) the following:
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* All extensions must add an appendix to the Vulkan specification.
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The appendix should be modeled after the `VK_KHR_shader_draw_parameters`
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extension in `appendices/VK_KHR_shader_draw_parameters.txt`, which
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contains metainformation about the extension (as well as code examples,
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and revision history).
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This example is complicated because `VK_KHR_shader_draw_parameters` has
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a variety of external dependencies and interactions.
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The `VK_EXT_debug_marker` extension is a simpler, standalone example.
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* In the preamble to the appendix, start with an asciidoc `include` of the
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automatically generated meta information.
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This information includes the extension name string, type, number,
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revision, and contact information from +vk.xml+.
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* Following the `include`, add as many of the following sections as are
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meaningful:
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** *Status* - *Complete*, *Draft*, or other.
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When an extension is published in the `master` branch, it is normally
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assumed to be complete; the *Status* field should be removed at this
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time, unless it contains additional information.
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** *Last Modified Date* - if wanted, although git log queries can provide
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equivalent information.
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** *IP Status* - Such as *No known IP claims*.
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** *Interactions and External Dependencies* - may include requirements or
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interactions with optional Vulkan features, SPIR-V (+SPV+) and OpenGL
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extensions, and interactions (other than strictly requiring) with other
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Vulkan extensions.
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** *Contributors* - Names and corporate affiliations of people who have
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made significant direct contributions to this extension.
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* Each extension's appendix file is automatically included from
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`appendices/extensions.txt` via code generated from `vk.xml`.
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It is no longer neccessary to explicit include the appendices.
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* Extensions usually make significant additions and changes to the Vulkan
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specification.
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They often add an entirely new chapter, or a new section of an existing
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chapter, defining the new functions, structures, and enumerants.
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For example, in the case of `VK_EXT_debug_marker`, it adds a new section
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of the "`Debugging`" chapter in `chapters/debugging.txt`, by including
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in that file:
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+
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[source,asciidoc]
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.Example Markup
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----
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\ifdef::VK_EXT_debug_marker[]
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\include::chapters/VK_EXT_debug_marker/wsi.txt[]
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\endif::VK_EXT_debug_marker[]
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----
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* In every other place where the extension alters the behavior of the core
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Specification, make such changes and protect the modifications with the
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same asciidoc conditionals.
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|
For example, `VK_KHR_surface` adds new error codes to Vulkan.
|
|
These are added to `chapters/fundamentals.txt` in the "`Return Codes`"
|
|
section as follows:
|
|
+
|
|
[source,asciidoc]
|
|
.Example Markup
|
|
----
|
|
... list of existing error codes
|
|
\ifdef::VK_KHR_surface[]
|
|
\include::VK_KHR_surface/VkResultErrorDescriptions_surface.txt[]
|
|
\endif::VK_KHR_surface[]
|
|
----
|
|
* If two extensions interact, the asciidoc conditionals must be carefully
|
|
structured so as to properly document the interactions if the
|
|
specification is built with both extensions.
|
|
Asciidoc conditionals allow "and" and "or" constructs (see:
|
|
http://asciidoctor.org/docs/user-manual/#conditional-preprocessor-directives
|
|
and
|
|
http://asciidoctor.org/docs/user-manual/#checking-multiple-attributes-ifdef-and-ifndef-only).
|
|
+
|
|
[source,asciidoc]
|
|
.Example Markup
|
|
----
|
|
\ifdef::VK_KHR_foo[]
|
|
... discussion of VK_KHR_foo ...
|
|
\ifdef::VK_KHR_fum[]
|
|
... discussion of interactions between VK_KHR_foo and VK_KHR_fum ...
|
|
\endif::VK_KHR_fum[]
|
|
\endif::VK_KHR_foo[]
|
|
|
|
\ifdef::VK_KHR_fum[]
|
|
... discussion of VK_KHR_fum ...
|
|
\endif::VK_KHR_fum[]
|
|
----
|
|
* In cases where a new extension (A) modifies both core and an existing
|
|
extension (B), if the new extension (A) becomes part of the core at a
|
|
future release (i.e. is no longer an extension), the portion of the new
|
|
extension that modified the existing extension (B) effectively becomes
|
|
part of that existing extension.
|
|
Thus, at the new core release, enabling the pre-existing extension (B)
|
|
also enables the functionality that was previously enabled by enabling
|
|
the previously-new extension (A).
|
|
* For vendor extensions, changes made to existing core Specification
|
|
source files and to `vk.xml` all fall under the Contributor License
|
|
Agreement.
|
|
Vendors may use their own copyright on new files they add to the
|
|
`master` branch, although that copyright must be compatible with the
|
|
Specification copyright.
|
|
* In most cases, there will be at most two new files added to the
|
|
specification: `extensions/*extension_name*.txt`, and
|
|
`chapters/*extension_name*.txt`.
|
|
If you need more than one new file in either the `chapters/` or
|
|
`extensions/` directories, create a subdirectory named with the
|
|
extension name and place the new files there.
|
|
For example, instead of `chapters/VK_KHR_android_surface.txt`, there is
|
|
`chapters/VK_KHR_android_surface/platformCreateSurface_android.txt` and
|
|
`chapters/VK_KHR_android_surface/platformQuerySupport_android.txt`, both
|
|
of which are conditionally included elsewhere in the core specification
|
|
files.
|
|
* Valid Usage statements referring to interactions between structures in a
|
|
pname:pNext chain must be described in the parent structure's language,
|
|
as specified <<extensions-interactions-parent, in more detail below>>.
|
|
* Valid Usage statements must: be kept atomic with regards to extension
|
|
conditionals - do not surround part of a single statement with
|
|
conditionals.
|
|
Valid usage statements are automatically extracted from the
|
|
specification for use by ecosystem components like the validation
|
|
layers, and the extraction scripts need to know which valid usage
|
|
statements apply to which extensions.
|
|
The loops required to deal with partial statements are simply not worth
|
|
the trouble.
|
|
For example, instead of
|
|
+
|
|
[source,asciidoc]
|
|
.Example Markup
|
|
----
|
|
* If pname:buffer was created with a sharing mode of
|
|
ename:VK_SHARING_MODE_EXCLUSIVE, pname:srcQueueFamilyIndex and
|
|
pname:dstQueueFamilyIndex must: either both be
|
|
ename:VK_QUEUE_FAMILY_IGNORED, or both be a valid queue family (see
|
|
<<devsandqueues-queueprops>>)
|
|
\ifdef::VK_KHR_external_memory[]
|
|
unless one of them is ename:VK_QUEUE_FAMILY_EXTERNAL_KHR and the other
|
|
is ename:VK_QUEUE_FAMILY_IGNORED.
|
|
\endif::VK_KHR_external_memory[]
|
|
----
|
|
+
|
|
Use
|
|
+
|
|
[source,asciidoc]
|
|
.Example Markup
|
|
----
|
|
ifndef::VK_KHR_external_memory[]
|
|
* If pname:buffer was created with a sharing mode of
|
|
ename:VK_SHARING_MODE_EXCLUSIVE, pname:srcQueueFamilyIndex and
|
|
pname:dstQueueFamilyIndex must: either both be
|
|
ename:VK_QUEUE_FAMILY_IGNORED, or both be a valid queue family (see
|
|
<<devsandqueues-queueprops>>)
|
|
endif::VK_KHR_external_memory[]
|
|
ifdef::VK_KHR_external_memory[]
|
|
* If pname:buffer was created with a sharing mode of
|
|
ename:VK_SHARING_MODE_EXCLUSIVE, pname:srcQueueFamilyIndex and
|
|
pname:dstQueueFamilyIndex must: either both be
|
|
ename:VK_QUEUE_FAMILY_IGNORED, both be a valid queue family (see
|
|
<<devsandqueues-queueprops>>), or be
|
|
ename:VK_QUEUE_FAMILY_EXTERNAL_KHR and ename:VK_QUEUE_FAMILY_IGNORED in
|
|
either order
|
|
endif::VK_KHR_external_memory[]
|
|
----
|
|
|
|
|
|
[[extensions-documenting-versions]]
|
|
=== Changes for New API Versions
|
|
|
|
When creating a new version of the core API, such as Vulkan 1.1, changes are
|
|
done similarly to extensions, with the following differences:
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
This list is being developed in conjunction with the Vulkan 1.1
|
|
Specification, is probably incomplete, and is subject to change.
|
|
Items marked *TBD* are still being discussed within the Vulkan Working
|
|
Group.
|
|
====
|
|
|
|
* New API versions will be more tightly integrated into the specification
|
|
sources than extensions, although it's still helpful to partition
|
|
changes into new files when they're sufficiently self-contained.
|
|
* New API versions must add an appendix to the Vulkan specification.
|
|
Unlike the extension appendices, this appendix simply summarizes release
|
|
information (dates of Ratification by the Khronos Board of Promoters,
|
|
and of public release), the contributor list, and high-level
|
|
descriptions of new features in this version (including the names of any
|
|
extensions promoted to core status in this version).
|
|
** TBD - we might choose to include a new API summary with links into the
|
|
spec body for new features, as well.
|
|
* TBD - how to name and where to include this appendix file.
|
|
* Changes to the Specification for new versions will range from small
|
|
changes to existing language, to new commands and structures, to adding
|
|
entire new chapters.
|
|
New chapters must be defined in separate files under the `chapters/`
|
|
directory, and included at an appropriate point in `vkspec.txt` or other
|
|
specification source files.
|
|
Other changes and additions are included inline in existing chapters.
|
|
* All changes that are specific to the new version must be protected by
|
|
the asciidoc conditional (e.g. the version name).
|
|
For example, in the case of Vulkan 1.1:
|
|
+
|
|
+
|
|
[source,asciidoc]
|
|
.Example Markup
|
|
----
|
|
Add a new chapter:
|
|
|
|
\ifdef::VK_VERSION_1_1[]
|
|
\include::chapters/newchapter11.txt[]
|
|
\endif::VK_VERSION_1_1[]
|
|
|
|
Add a new feature:
|
|
|
|
\ifdef::VK_VERSION_1_1[]
|
|
... language describing the new command, structure, or enumeration
|
|
\endif::VK_VERSION_1_1[]
|
|
----
|
|
* The specification must continue to be a valid document when the new
|
|
version is *not* defined, so that (for example) the Vulkan 1.1 branch
|
|
specification can continue to be updated.
|
|
* TBD - how to deprecate extensions which have been promoted to core
|
|
status in the new version, while continuing to have those extensions
|
|
appear then older versions of the specification are being built.
|
|
* The same constraints <<extensions-documenting-extensions, described
|
|
above>> for Valid Usage statements modified by extensions apply for new
|
|
versions.
|
|
|
|
|
|
== Assigning Extension Token Values
|
|
|
|
Extensions can define their own enumeration types and assign any values to
|
|
their enumerants that they like.
|
|
Each enumeration has a private namespace, so collisions are not a problem.
|
|
However, when extending existing enumeration objects with new values, care
|
|
must be taken to preserve global uniqueness of values.
|
|
Enumerations which define new bits in a bitmask are treated specially as
|
|
described in <<extensions-reserving-bitmask-values,Reserving Bitmask
|
|
Values>> below.
|
|
|
|
Each extension is assigned a range of values that can be used to create
|
|
globally-unique enum values.
|
|
Most values will be negative numbers, but positive numbers are also
|
|
reserved.
|
|
The ability to create both positive and negative extension values is
|
|
necessary to enable extending enumerations such as etext:VkResult that
|
|
assign special meaning to negative and positive values.
|
|
Therefore, 1000 positive and 1000 negative values are reserved for each
|
|
extension.
|
|
Extensions must not define enum values outside their reserved range without
|
|
explicit permission from the owner of those values (e.g. from the author of
|
|
another extension whose range is infringed on, or from the Khronos Registrar
|
|
if the values do not belong to any extension's range).
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
Typically, extensions use a unique offset for each enumeration constant they
|
|
add, yielding 1000 distinct token values per extension.
|
|
Since each enumeration object has its own namespace, if an extension needs
|
|
to add many enumeration constant values, it can reuse offsets on a per-type
|
|
basis.
|
|
====
|
|
|
|
The information needed to add new values to the XML are as follows:
|
|
|
|
* The **extension name** (e.g. `VK_KHR_swapchain`) that is adding the new
|
|
enumeration constant.
|
|
* The existing enumeration **type** being extended (e.g.
|
|
stext:VkStructureType).
|
|
* The name of the new enumeration **token** being added (e.g.
|
|
etext:VK_STRUCTURE_TYPE_SWAPCHAIN_CREATE_INFO_KHR).
|
|
* The **offset**, which is an integer between 0 and 999 relative to the
|
|
base being used for the extension.
|
|
* The **direction** may be specified to indicate a negative value
|
|
(`dir="-"`) when needed for negative etext:VkResult values indicating
|
|
errors, like etext:VK_ERROR_SURFACE_LOST_KHR.
|
|
The default direction is positive, if not specified.
|
|
|
|
Implicit is the registered number of an extension, which is used to create a
|
|
range of unused values offset against a global extension base value.
|
|
Individual enumerant values are calculated as offsets in that range.
|
|
Values are calculated as follows:
|
|
|
|
* [eq]#_base_value_ = 1000000000#
|
|
* [eq]#_range_size_ = 1000#
|
|
* [eq]#enum_offset(_extension_number_, _offset_) = _base_value_ {plus}
|
|
(_extension_number_ - 1) {times} _range_size_ + _offset_#
|
|
* Positive values: [eq]#enum_offset(_extension_number_, _offset_})#
|
|
* Negative values: [eq]#enum_offset(_extension_number_, _offset_})#
|
|
|
|
The exact syntax for specifying extension enumerant values is defined in the
|
|
`readme.pdf` specifying the format of `vk.xml`, and extension authors can
|
|
also refer to existing extensions for examples.
|
|
|
|
If an extension becomes part of core, the enumerant values should remain the
|
|
same as they were in the original extension, in order to maintain binary
|
|
compatibility with existing applications.
|
|
|
|
|
|
[[extensions-reserving-bitmask-values]]
|
|
=== Reserving Bitmask Values
|
|
|
|
Enumerants which define bitmask values are a special case, since there are
|
|
only a small number of unused bits available for extensions.
|
|
For core Vulkan API and KHR extension bitmask types, reservations must be
|
|
approved by a vote of the Vulkan Working Group.
|
|
For EXT and vendor extension bitmask types, reservations must be approved by
|
|
the listed contact of the extension.
|
|
Bits are not reserved, and must not be used in a published implementation or
|
|
specification until the reservation is merged into
|
|
<<extensions-api-registry,+vk.xml+>> by the registry maintainer.
|
|
|
|
|
|
== Required Extension Tokens
|
|
|
|
In addition to any tokens specific to the functionality of an extension, all
|
|
extensions must define two additional tokens.
|
|
|
|
* `VK_EXTNAME_SPEC_VERSION` is an integer constant which is the revision
|
|
of the extension named `VK_extname` (`EXTNAME` is all upper-case, while
|
|
extname is the capitalization of the actual extension name).
|
|
This value begins at 1 with the initial version of an extension
|
|
specification, and is incremented when changes are made.
|
|
Note that the revision of an extension defined in the Vulkan header
|
|
files and the revision supported by the Vulkan implementation (the
|
|
pname:specVersion field of the slink:VkExtensionProperties structure
|
|
corresponding to the extension and returned by one of the
|
|
<<extended-functionality-extensions,extension queries>>) may differ.
|
|
The revision value indicates a patch version of the extension
|
|
specification, and differences in this version number maintain full
|
|
compatibility, as defined in the
|
|
link:html/vkspec.html#fundamentals-versionnum[API Version Numbers and
|
|
Semantics] section of the <<vulkan-spec,Vulkan API Specification>>.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
Any changes requiring the addition or removal of a type or command should be
|
|
done by creating a new extension.
|
|
The resulting extension should take care to include the appropriate
|
|
dependency information on the original extension.
|
|
====
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
When the Debug Report extension (VK_EXT_debug_report) was recently updated
|
|
to include the enum values of VK_DEBUG_REPORT_OBJECT_TYPE_DISPLAY_KHR_EXT
|
|
and VK_DEBUG_REPORT_OBJECT_TYPE_DISPLAY_MODE_KHR_EXT, we violated this
|
|
policy.
|
|
That change was done prior to this revision policy clarification.
|
|
From this point forward, we intend to follow this policy.
|
|
====
|
|
|
|
* `VK_EXTNAME_EXTENSION_NAME` is a string constant which is the name of
|
|
the extension.
|
|
|
|
For example, for the WSI extension `VK_KHR_surface`, at the time of writing
|
|
the following definitions were in effect:
|
|
|
|
[source,c]
|
|
----
|
|
#define VK_KHR_SURFACE_SPEC_VERSION 24
|
|
#define VK_KHR_SURFACE_EXTENSION_NAME "VK_KHR_surface"
|
|
----
|
|
|
|
|
|
== Extension Handles, Objects, Enums, and Typedefs
|
|
|
|
Expanding on previous discussion, extensions can add values to existing
|
|
enums; and can add their own commands, enums, typedefs, etc.
|
|
This is done by adding to <<extensions-api-registry,+vk.xml+>>.
|
|
All such additions will be included in the Vulkan header files supplied by
|
|
Khronos.
|
|
|
|
If the extension adds a new handle to Vulkan, a corresponding value must be
|
|
added to ename:VkObjectType (as defined in the "`Debugging`" section of the
|
|
<<vulkan-spec,Vulkan API Specification>>) in order to allow components to
|
|
identify and track objects of the new type.
|
|
|
|
The new enumeration value must conform to the naming defined in the
|
|
<<extension-enumerant-names,Extension Enumerant Names>> section.
|
|
In this case, the type's etext:Vk prefix is replaced with the enum prefix
|
|
etext:VK_OBJECT_TYPE_, and the rest of the handle name is converted as
|
|
described in that section.
|
|
|
|
[source,asciidoc]
|
|
.Conversion of Handle to VkObjectType Examples:
|
|
----
|
|
VkSurfaceKHR -> VK_OBJECT_TYPE_SURFACE_KHR
|
|
VkDescriptorUpdateTemplateKHR -> VK_OBJECT_TYPE_DESCRIPTOR_UPDATE_TEMPLATE_KHR
|
|
----
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
Application developers are encouraged to be careful when using `switch`
|
|
statements with Vulkan API enums.
|
|
This is because extensions can add new values to existing enums.
|
|
The use of a `default:` statement, within a `switch`, may avoid future
|
|
compilation issues.
|
|
====
|
|
|
|
[[extension-function_prototypes]]
|
|
== Extension Function Prototypes
|
|
|
|
Function pointer declarations and function prototypes for all core Vulkan
|
|
API commands are included in the Vulkan header files.
|
|
These come from the official XML specification of the Vulkan API hosted by
|
|
Khronos.
|
|
|
|
Function pointer declarations are also included in the Vulkan header for all
|
|
commands defined by registered extensions.
|
|
Function prototypes for extensions may be included in the headers.
|
|
Extension commands that are part of the Vulkan ABI must be flagged in the
|
|
XML.
|
|
Function prototypes will be included in the headers for all extension
|
|
commands that are part of the Vulkan ABI.
|
|
|
|
An extension can be considered platform specific, in which case its
|
|
interfaces in the header files are protected by #ifdefs.
|
|
This is orthogonal to whether an extension command is considered to be part
|
|
of the Vulkan ABI.
|
|
|
|
The initial set of WSI extension commands (i.e. for `VK_KHR_surface`,
|
|
`VK_KHR_swapchain`, and `VK_KHR_*_surface`) are considered to be part of the
|
|
Vulkan ABI.
|
|
Function prototypes for these WSI commands are included in platform-specific
|
|
files such as `vulkan_android.h`.
|
|
See the "`Window System-Specific Header Control (Informative)`" section of
|
|
the Vulkan Specification for more details.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
Based on feedback from implementers, Khronos expects the Android, Linux, and
|
|
Windows Vulkan SDKs to include our header files, and export the supported
|
|
WSI functions for those platforms from their loader libraries.
|
|
Other implementations can make different choices for their headers and
|
|
loader libraries, but are encouraged to be consistent with these
|
|
implementations.
|
|
====
|
|
|
|
|
|
== Accessing Extension Functions from Programs
|
|
|
|
flink:vkGetInstanceProcAddr and flink:vkGetDeviceProcAddr can be used in
|
|
order to obtain function pointer addresses for core and extension commands
|
|
(per the description in the "`Command Function Pointers`" section of the
|
|
<<vulkan-spec,Vulkan API Specification>>).
|
|
Different Vulkan API loaders can choose to statically export functions for
|
|
some or all of the core Vulkan API commands, and can statically export
|
|
functions for some or all extension commands.
|
|
If a loader statically exports a function, an application can link against
|
|
that function without needing to call one of the ftext:vkGet*ProcAddr
|
|
commands.
|
|
|
|
[NOTE]
|
|
.Note
|
|
====
|
|
The Vulkan API loader for Android, Linux, and Windows exports functions for
|
|
all core Vulkan API commands, and for a set of WSI extension commands that
|
|
are applicable to those operating systems (see Vulkan loader documentation
|
|
for the relevant platform/OS for details).
|
|
The WSI functions are considered special, because they are required for many
|
|
applications.
|
|
====
|
|
|
|
|
|
[[extensions-interactions]]
|
|
== Extension Interactions
|
|
|
|
Extensions modifying the behavior of existing commands should provide
|
|
additional parameters by using the pname:pNext field of an existing
|
|
structure, pointing to a new structure defined by the extension, as
|
|
described in the "`Valid Usage`" section of the <<vulkan-spec,Vulkan API
|
|
Specification>>.
|
|
Extension structures defined by multiple extensions affecting the same
|
|
structure can be chained together in this fashion.
|
|
Any structure which can be chained in this fashion must begin with the
|
|
following two members:
|
|
|
|
["source","c++",title=""]
|
|
----
|
|
VkStructureType sType;
|
|
const void* pNext;
|
|
----
|
|
|
|
It is in principle possible for extensions to provide additional parameters
|
|
through alternate means, such as passing a handle parameter to a structure
|
|
with a pname:sType defined by the extension, but this approach is
|
|
discouraged and should not be used.
|
|
|
|
When chaining multiple extensions to a structure, the implementation will
|
|
process the chain starting with the base parameter and proceeding through
|
|
each successive chained structure in turn.
|
|
Extensions should be defined to accept any order of chaining, and must
|
|
define their interactions with other extensions such that the results are
|
|
deterministic.
|
|
If an extension needs a specific ordering of its extension structure with
|
|
respect to other extensions in a chain to provide deterministic results, it
|
|
must define the required ordering and expected behavior as part of its
|
|
specification.
|
|
|
|
Validation of such extended structure chains is automatically generated from
|
|
the registry, as described in the description of attr:structextends in
|
|
link:registry.html[the registry document].
|
|
|
|
|
|
[[extensions-interactions-parent]]
|
|
== Valid Usage and Extension pname:pNext Chains
|
|
|
|
When there is a Valid Usage interaction between a parent structure and
|
|
another structure appearing in the pname:pNext chain of the parent, that
|
|
interaction must: be described in the explicit Valid Usage section of the
|
|
parent structure, rather than the chained structure, and must: be protected
|
|
by appropriate extension-specific `ifdef` constructs.
|
|
|
|
For example, a constraint added to the slink:VkImageCreateInfo structure by
|
|
the presence of two extensions which cannot interact is properly described
|
|
as:
|
|
|
|
[source,asciidoc]
|
|
.Example Markup
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----
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// CORRECT: define interaction with children in parent VkImageCreateInfo
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// structure
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\ifdef::VK_NV_external_memory+VK_KHR_external_memory[]
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* If the pname:pNext chain contains an instance of
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slink:VkExternalMemoryImageCreateInfoNV, it must: not contain an
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instance of slink:VkExternalMemoryImageCreateInfoKHR.
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\endif::VK_NV_external_memory+VK_KHR_external_memory[]
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----
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However, a constraint added to slink:VkBufferCreateInfo by a structure in
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the `VK_NV_dedicated_allocation` extension must not be described as part of
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that structure's valid usage:
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[source,asciidoc]
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.Example Markup
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----
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// WRONG! Do not define interaction with parent in child
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// VkDedicatedAllocationBufferCreateInfoNV structure
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* If pname:dedicatedAllocation is ename:VK_TRUE,
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sname:VkBufferCreateInfo::pname:flags must: not include
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ename:VK_BUFFER_CREATE_SPARSE_BINDING_BIT,
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ename:VK_BUFFER_CREATE_SPARSE_RESIDENCY_BIT, or
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ename:VK_BUFFER_CREATE_SPARSE_ALIASED_BIT
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----
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Instead, define the constraint as part of the parent
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slink:VkBufferCreateInfo structure's valid usage:
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|
|
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[source,asciidoc]
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|
.Example Markup
|
|
----
|
|
// REWRITTEN CORRECTLY: Define interaction with child in
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// parent VkBufferCreateInfo structure
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\ifdef::VK_NV_dedicated_allocation[]
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* If the pname:pNext chain contains an instance of
|
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slink:VkDedicatedAllocationBufferCreateInfoNV, and the
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pname:dedicatedAllocation member of the chained structure is
|
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ename:VK_TRUE, then pname:flags must: not include
|
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ename:VK_BUFFER_CREATE_SPARSE_BINDING_BIT,
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ename:VK_BUFFER_CREATE_SPARSE_RESIDENCY_BIT, or
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ename:VK_BUFFER_CREATE_SPARSE_ALIASED_BIT
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\endif::VK_NV_dedicated_allocation[]
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----
|