Vulkan-Docs/chapters/initialization.txt

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// Copyright (c) 2015-2018 Khronos Group. This work is licensed under a
// Creative Commons Attribution 4.0 International License; see
// http://creativecommons.org/licenses/by/4.0/
[[initialization]]
= Initialization
Before using Vulkan, an application must: initialize it by loading the
Vulkan commands, and creating a sname:VkInstance object.
[[initialization-functionpointers]]
== Command Function Pointers
[open,refpage='vkGetInstanceProcAddr',desc='Return a function pointer for a command',type='protos',xrefs='PFN_vkVoidFunction']
--
Vulkan commands are not necessarily exposed statically on a platform.
Function pointers for all Vulkan commands can: be obtained with the command:
include::../api/protos/vkGetInstanceProcAddr.txt[]
* pname:instance is the instance that the function pointer will be
compatible with, or `NULL` for commands not dependent on any instance.
* pname:pName is the name of the command to obtain.
fname:vkGetInstanceProcAddr itself is obtained in a platform- and loader-
specific manner.
Typically, the loader library will export this command as a function symbol,
so applications can: link against the loader library, or load it dynamically
and look up the symbol using platform-specific APIs.
The table below defines the various use cases for
fname:vkGetInstanceProcAddr and expected return value ("`fp`" is "`function
pointer`") for each case.
The returned function pointer is of type tlink:PFN_vkVoidFunction, and must
be cast to the type of the command being queried.
.vkGetInstanceProcAddr behavior
[width="80%",options="header"]
|====
| pname:instance | pname:pName | return value
| * | `NULL` | undefined
| invalid instance | * | undefined
ifdef::VK_VERSION_1_1[]
| `NULL` | flink:vkEnumerateInstanceVersion | fp
endif::VK_VERSION_1_1[]
| `NULL` | flink:vkEnumerateInstanceExtensionProperties | fp
| `NULL` | flink:vkEnumerateInstanceLayerProperties | fp
| `NULL` | flink:vkCreateInstance | fp
| `NULL` | * (any pname:pName not covered above) | `NULL`
| instance | core Vulkan command | fp^1^
| instance | enabled instance extension commands for pname:instance | fp^1^
| instance | available device extension^2^ commands for pname:instance | fp^1^
| instance | * (any pname:pName not covered above) | `NULL`
|====
1::
The returned function pointer must: only be called with a dispatchable
object (the first parameter) that is pname:instance or a child of
pname:instance, e.g. slink:VkInstance, slink:VkPhysicalDevice,
slink:VkDevice, slink:VkQueue, or slink:VkCommandBuffer.
2::
An "`available device extension`" is a device extension supported by any
physical device enumerated by pname:instance.
include::../validity/protos/vkGetInstanceProcAddr.txt[]
--
[open,refpage='vkGetDeviceProcAddr',desc='Return a function pointer for a command',type='protos',xrefs='PFN_vkVoidFunction']
--
In order to support systems with multiple Vulkan implementations, the
function pointers returned by fname:vkGetInstanceProcAddr may: point to
dispatch code that calls a different real implementation for different
slink:VkDevice objects or their child objects.
The overhead of the internal dispatch for slink:VkDevice objects can be
avoided by obtaining device-specific function pointers for any commands that
use a device or device-child object as their dispatchable object.
Such function pointers can: be obtained with the command:
include::../api/protos/vkGetDeviceProcAddr.txt[]
The table below defines the various use cases for fname:vkGetDeviceProcAddr
and expected return value for each case.
The returned function pointer is of type tlink:PFN_vkVoidFunction, and must
be cast to the type of the command being queried.
The function pointer must: only be called with a dispatchable object (the
first parameter) that is pname:device or a child of pname:device.
.vkGetDeviceProcAddr behavior
[width="80%",options="header"]
|====
| pname:device | pname:pName | return value
| `NULL` | * | undefined
| invalid device | * | undefined
| device | `NULL` | undefined
| device | core device-level Vulkan command | fp
| device | enabled device extension commands | fp
| device | * (any pname:pName not covered above) | `NULL`
|====
include::../validity/protos/vkGetDeviceProcAddr.txt[]
--
[open,refpage='PFN_vkVoidFunction',desc='Dummy function pointer type returned by queries',type='funcpointers',xrefs='vkGetDeviceProcAddr vkGetInstanceProcAddr']
--
The definition of tlink:PFN_vkVoidFunction is:
include::../api/funcpointers/PFN_vkVoidFunction.txt[]
--
ifdef::VK_VERSION_1_1[]
=== Extending Physical Device Core Functionality
New core physical-device-level functionality can: be used when the
physical-device version is greater than or equal to the version of Vulkan
that added the new functionality.
The Vulkan version supported by a physical device can: be obtained by
calling flink:vkGetPhysicalDeviceProperties.
endif::VK_VERSION_1_1[]
ifdef::VK_VERSION_1_1,VK_KHR_get_physical_device_properties2[]
[[initialization-phys-dev-extensions]]
=== Extending Physical Device From Device Extensions
When the `<<VK_KHR_get_physical_device_properties2>>` extension is enabled,
ifdef::VK_VERSION_1_1[]
or when both the instance and the physical-device versions are at least 1.1,
endif::VK_VERSION_1_1[]
physical-device-level functionality of a device extension can: be used with
a physical device if the corresponding extension is enumerated by
flink:vkEnumerateDeviceExtensionProperties for that physical device, even
before a logical device has been created.
To obtain a function pointer for a physical-device-level command from a
device extension, an application can: use flink:vkGetInstanceProcAddr.
This function pointer may: point to dispatch code, which calls a different
real implementation for different sname:VkPhysicalDevice objects.
Behavior is undefined if an extension physical-device command is called on a
physical device that does not support the extension.
Device extensions may: define structures that can: be added to the
ptext:pNext chain of physical-device-level commands.
Behavior is undefined if such an extension structure is passed to a
physical-device-level command for a physical device that does not support
the extension.
endif::VK_VERSION_1_1,VK_KHR_get_physical_device_properties2[]
[[initialization-instances]]
== Instances
[open,refpage='VkInstance',desc='Opaque handle to a instance object',type='handles']
--
There is no global state in Vulkan and all per-application state is stored
in a sname:VkInstance object.
Creating a sname:VkInstance object initializes the Vulkan library and allows
the application to pass information about itself to the implementation.
Instances are represented by sname:VkInstance handles:
include::../api/handles/VkInstance.txt[]
--
ifdef::VK_VERSION_1_1[]
[open,refpage='vkEnumerateInstanceVersion',desc='Query instance-level version before instance creation',type='protos']
--
The version of Vulkan that is supported by an instance may: be different
than the version of Vulkan supported by a device or physical device.
To query properties that can: be used in creating an instance, call:
include::../api/protos/vkEnumerateInstanceVersion.txt[]
* pname:pApiVersion points to a code:uint32_t, which is the version of
Vulkan supported by instance-level functionality, encoded as described
in the <<fundamentals-versionnum,API Version Numbers and Semantics>>
section.
include::../validity/protos/vkEnumerateInstanceVersion.txt[]
--
endif::VK_VERSION_1_1[]
[open,refpage='vkCreateInstance',desc='Create a new Vulkan instance',type='protos']
--
To create an instance object, call:
include::../api/protos/vkCreateInstance.txt[]
* pname:pCreateInfo points to an instance of slink:VkInstanceCreateInfo
controlling creation of the instance.
* pname:pAllocator controls host memory allocation as described in the
<<memory-allocation, Memory Allocation>> chapter.
* pname:pInstance points a sname:VkInstance handle in which the resulting
instance is returned.
fname:vkCreateInstance verifies that the requested layers exist.
If not, fname:vkCreateInstance will return ename:VK_ERROR_LAYER_NOT_PRESENT.
Next fname:vkCreateInstance verifies that the requested extensions are
supported (e.g. in the implementation or in any enabled instance layer) and
if any requested extension is not supported, fname:vkCreateInstance must:
return ename:VK_ERROR_EXTENSION_NOT_PRESENT.
After verifying and enabling the instance layers and extensions the
sname:VkInstance object is created and returned to the application.
If a requested extension is only supported by a layer, both the layer and
the extension need to be specified at fname:vkCreateInstance time for the
creation to succeed.
.Valid Usage
****
* [[VUID-vkCreateInstance-ppEnabledExtensionNames-01388]]
All <<extended-functionality-extensions-dependencies, required
extensions>> for each extension in the
slink:VkInstanceCreateInfo::pname:ppEnabledExtensionNames list must:
also be present in that list.
****
include::../validity/protos/vkCreateInstance.txt[]
--
[open,refpage='VkInstanceCreateInfo',desc='Structure specifying parameters of a newly created instance',type='structs']
--
The sname:VkInstanceCreateInfo structure is defined as:
include::../api/structs/VkInstanceCreateInfo.txt[]
* pname:sType is the type of this structure.
* pname:pNext is `NULL` or a pointer to an extension-specific structure.
* pname:flags is reserved for future use.
* pname:pApplicationInfo is `NULL` or a pointer to an instance of
sname:VkApplicationInfo.
If not `NULL`, this information helps implementations recognize behavior
inherent to classes of applications.
slink:VkApplicationInfo is defined in detail below.
* pname:enabledLayerCount is the number of global layers to enable.
* pname:ppEnabledLayerNames is a pointer to an array of
pname:enabledLayerCount null-terminated UTF-8 strings containing the
names of layers to enable for the created instance.
See the <<extended-functionality-layers,Layers>> section for further
details.
* pname:enabledExtensionCount is the number of global extensions to
enable.
* pname:ppEnabledExtensionNames is a pointer to an array of
pname:enabledExtensionCount null-terminated UTF-8 strings containing the
names of extensions to enable.
include::../validity/structs/VkInstanceCreateInfo.txt[]
--
[open,refpage='VkInstanceCreateFlags',desc='Reserved for future use',type='enums']
--
include::../api/flags/VkInstanceCreateFlags.txt[]
sname:VkInstanceCreateFlags is a bitmask type for setting a mask, but is
currently reserved for future use.
--
ifdef::VK_EXT_validation_flags[]
include::VK_EXT_validation_flags.txt[]
endif::VK_EXT_validation_flags[]
[open,refpage='VkApplicationInfo',desc='Structure specifying application info',type='structs']
--
The sname:VkApplicationInfo structure is defined as:
include::../api/structs/VkApplicationInfo.txt[]
* pname:sType is the type of this structure.
* pname:pNext is `NULL` or a pointer to an extension-specific structure.
* pname:pApplicationName is `NULL` or is a pointer to a null-terminated
UTF-8 string containing the name of the application.
* pname:applicationVersion is an unsigned integer variable containing the
developer-supplied version number of the application.
* pname:pEngineName is `NULL` or is a pointer to a null-terminated UTF-8
string containing the name of the engine (if any) used to create the
application.
* pname:engineVersion is an unsigned integer variable containing the
developer-supplied version number of the engine used to create the
application.
ifndef::VK_VERSION_1_1[]
* pname:apiVersion is the version of the Vulkan API against which the
application expects to run, encoded as described in the
<<fundamentals-versionnum,API Version Numbers and Semantics>> section.
If pname:apiVersion is 0 the implementation must: ignore it, otherwise
if the implementation does not support the requested pname:apiVersion,
or an effective substitute for pname:apiVersion, it must: return
ename:VK_ERROR_INCOMPATIBLE_DRIVER.
endif::VK_VERSION_1_1[]
ifdef::VK_VERSION_1_1[]
* pname:apiVersion must: be the highest version of Vulkan that the
application is designed to use, encoded as described in the
<<fundamentals-versionnum,API Version Numbers and Semantics>> section.
endif::VK_VERSION_1_1[]
The patch version number specified in pname:apiVersion is ignored when
creating an instance object.
Only the major and minor versions of the instance must: match those
requested in pname:apiVersion.
ifdef::VK_VERSION_1_1[]
Vulkan 1.0 implementations were required to return
ename:VK_ERROR_INCOMPATIBLE_DRIVER if pname:apiVersion was larger than 1.0.
Implementations that support Vulkan 1.1 or later must: not return
ename:VK_ERROR_INCOMPATIBLE_DRIVER for any value of pname:apiVersion.
[NOTE]
.Note
====
Because Vulkan 1.0 implementations may: fail with
ename:VK_ERROR_INCOMPATIBLE_DRIVER, applications should: determine the
version of Vulkan available before calling flink:vkCreateInstance.
If the flink:vkGetInstanceProcAddr returns `NULL` for
flink:vkEnumerateInstanceVersion, it is a Vulkan 1.0 implementation.
Otherwise, the application can: call flink:vkEnumerateInstanceVersion to
determine the version of Vulkan.
====
Implicit layers must: be disabled if they do not support a version at least
as high as pname:apiVersion.
See the <<LoaderAndValidationLayers, "Vulkan Loader Specification and
Architecture Overview">> document for additional information.
[NOTE]
.Note
====
Providing a `NULL` sname:VkInstanceCreateInfo::pname:pApplicationInfo or
providing an pname:apiVersion of 0 is equivalent to providing an
pname:apiVersion of VK_MAKE_VERSION(1,0,0).
====
endif::VK_VERSION_1_1[]
include::../validity/structs/VkApplicationInfo.txt[]
--
[open,refpage='vkDestroyInstance',desc='Destroy an instance of Vulkan',type='protos']
--
To destroy an instance, call:
include::../api/protos/vkDestroyInstance.txt[]
* pname:instance is the handle of the instance to destroy.
* pname:pAllocator controls host memory allocation as described in the
<<memory-allocation, Memory Allocation>> chapter.
.Valid Usage
****
* [[VUID-vkDestroyInstance-instance-00629]]
All child objects created using pname:instance must: have been destroyed
prior to destroying pname:instance
* [[VUID-vkDestroyInstance-instance-00630]]
If sname:VkAllocationCallbacks were provided when pname:instance was
created, a compatible set of callbacks must: be provided here
* [[VUID-vkDestroyInstance-instance-00631]]
If no sname:VkAllocationCallbacks were provided when pname:instance was
created, pname:pAllocator must: be `NULL`
****
include::../validity/protos/vkDestroyInstance.txt[]
--