// Copyright (c) 2015-2019 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 Vulkan commands are not necessarily exposed by static linking on a platform. Commands to query function pointers for Vulkan commands are described below. [NOTE] .Note ==== When extensions are <> or otherwise incorporated into another extension or Vulkan core version, command <> may be included. Whilst the behavior of each command alias is identical, the behavior of retrieving each alias's function pointer is not. A function pointer for a given alias can only be retrieved if the extension or version that introduced that alias is supported and enabled, irrespective of whether any other alias is available. ==== [open,refpage='vkGetInstanceProcAddr',desc='Return a function pointer for a command',type='protos',xrefs='PFN_vkVoidFunction'] -- Function pointers for all Vulkan commands can: be obtained with the command: include::{generated}/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::{generated}/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::{generated}/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::{generated}/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::{generated}/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 `<>` 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. Applications must: not use a slink:VkPhysicalDevice in any command added by an extension or core version that is not supported by that physical device. Device extensions may: define structures that can: be added to the ptext:pNext chain of physical-device-level commands. endif::VK_VERSION_1_1,VK_KHR_get_physical_device_properties2[] [[initialization-instances]] == Instances [open,refpage='VkInstance',desc='Opaque handle to an 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::{generated}/api/handles/VkInstance.txt[] -- ifdef::VK_VERSION_1_1[] [open,refpage='vkEnumerateInstanceVersion',desc='Query instance-level version before instance creation',type='protos'] -- To query the version of instance-level functionality supported by the implementation, call: include::{generated}/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 <>. include::{generated}/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::{generated}/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 <> chapter. * pname:pInstance points a slink: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 <> for each extension in the slink:VkInstanceCreateInfo::pname:ppEnabledExtensionNames list must: also be present in that list. **** include::{generated}/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::{generated}/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 <> 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::{generated}/validity/structs/VkInstanceCreateInfo.txt[] -- [open,refpage='VkInstanceCreateFlags',desc='Reserved for future use',type='flags'] -- include::{generated}/api/flags/VkInstanceCreateFlags.txt[] tname: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[] ifdef::VK_EXT_validation_features[] include::VK_EXT_validation_features.txt[] endif::VK_EXT_validation_features[] [open,refpage='VkApplicationInfo',desc='Structure specifying application info',type='structs'] -- The sname:VkApplicationInfo structure is defined as: include::{generated}/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 <>. 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 <>. 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. ==== ifdef::VK_VERSION_1_1[] As long as the instance supports at least Vulkan 1.1, an application can: use different versions of Vulkan with an instance than it does with a device or physical device. [NOTE] .Note ==== The Khronos validation layers will treat pname:apiVersion as the highest API version the application targets, and will validate API usage against the minimum of that version and the implementation version (instance or device, depending on context). If an application tries to use functionality from a greater version than this, a validation error will be triggered. For example, if the instance supports Vulkan 1.1 and three physical devices support Vulkan 1.0, Vulkan 1.1, and a hypothetical Vulkan 1.2, respectively, and if the application sets pname:apiVersion to 1.2, the application can: use the following versions of Vulkan: * Vulkan 1.0 can: be used with the instance and with all physical devices. * Vulkan 1.1 can: be used with the instance and with the physical devices that support Vulkan 1.1 and Vulkan 1.2. * Vulkan 1.2 can: be used with the physical device that supports Vulkan 1.2. If we modify the above example so that the application sets pname:apiVersion to 1.1, then the application must: not use Vulkan 1.2 functionality on the physical device that supports Vulkan 1.2. ==== endif::VK_VERSION_1_1[] Implicit layers must: be disabled if they do not support a version at least as high as pname:apiVersion. See the <> 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::{generated}/validity/structs/VkApplicationInfo.txt[] -- [open,refpage='vkDestroyInstance',desc='Destroy an instance of Vulkan',type='protos'] -- To destroy an instance, call: include::{generated}/api/protos/vkDestroyInstance.txt[] * pname:instance is the handle of the instance to destroy. * pname:pAllocator controls host memory allocation as described in the <> 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::{generated}/validity/protos/vkDestroyInstance.txt[] --