Struct VNGeneratePersonSegmentationRequest

#[repr(C)]
pub struct VNGeneratePersonSegmentationRequest { /* private fields */ }

Available on crate features VNGeneratePersonSegmentationRequest and VNRequest and VNStatefulRequest only.

Performs person segmentation on an image generating a mask.

See also Apple’s documentation

Implementations

impl VNGeneratePersonSegmentationRequest

pub unsafe fn new() -> Retained<Self>

pub unsafe fn init(this: Allocated<Self>) -> Retained<Self>

pub unsafe fn initWithCompletionHandler( this: Allocated<Self>, completion_handler: VNRequestCompletionHandler, ) -> Retained<Self>

Available on crate feature block2 only.

pub unsafe fn initWithFrameAnalysisSpacing_completionHandler( this: Allocated<Self>, frame_analysis_spacing: CMTime, completion_handler: VNRequestCompletionHandler, ) -> Retained<Self>

Available on crate features block2 and objc2-core-media only.

pub unsafe fn qualityLevel( &self, ) -> VNGeneratePersonSegmentationRequestQualityLevel

The quality level selects which techniques will be used during the person segmentation. There are trade-offs between performance and accuracy.

pub unsafe fn setQualityLevel( &self, quality_level: VNGeneratePersonSegmentationRequestQualityLevel, )

Setter for qualityLevel.

pub unsafe fn supportedOutputPixelFormatsAndReturnError( &self, ) -> Result<Retained<NSArray<NSNumber>>, Retained<NSError>>

Obtain the collection of supported output pixel formats for the configured request.

pub unsafe fn outputPixelFormat(&self) -> u32

Pixel format type of the output buffer. Valid values are kCVPixelFormatType_OneComponent32Float, kCVPixelFormatType_OneComponent16Half, and kCVPixelFormatType_OneComponent8. Default is kCVPixelFormatType_OneComponent8.

pub unsafe fn setOutputPixelFormat(&self, output_pixel_format: u32)

Setter for outputPixelFormat.

pub unsafe fn results( &self, ) -> Option<Retained<NSArray<VNPixelBufferObservation>>>

Available on crate feature VNObservation only.

Methods from Deref<Target = VNStatefulRequest>

pub unsafe fn minimumLatencyFrameCount(&self) -> NSInteger

The minimum number of frames that the request has to process on before reporting back any observation. This information is provided by the request once initialized with its required paramters.

Video based request often need a minimum number of frames before they can report back any observation. An example would be that a movement detection requires at least 5 frames to be detected. The minimumLatencyFrameCount for that request would report 5 and only after 5 frames have been processed an observation would be returned in the results. This latency is indicative of how responsive a request is in respect to the incoming data.

pub unsafe fn frameAnalysisSpacing(&self) -> CMTime

Available on crate feature objc2-core-media only.

The reciprocal of maximum rate at which buffers will be processed.

The request will not process buffers that fall within the frameAnalysisSpacing after it has performed the analysis. The analysis is not done by wall time but by analysis of of the time stamps of the samplebuffers being processed.

Methods from Deref<Target = VNImageBasedRequest>

pub unsafe fn regionOfInterest(&self) -> CGRect

Available on crate feature objc2-core-foundation only.

The region of the image in which the request will be performed. The rectangle is normalized to the dimensions of the image being processed and has its origin specified relative to the image’s lower-left corner.

The default value for this property is { { 0, 0 }, { 1, 1 } }. Setting this property to a rectangle that is outside of the normalized coordinate space will be accepted but result in the request failing to be performed.

pub unsafe fn setRegionOfInterest(&self, region_of_interest: CGRect)

Available on crate feature objc2-core-foundation only.

Setter for regionOfInterest.

Methods from Deref<Target = VNRequest>

pub unsafe fn preferBackgroundProcessing(&self) -> bool

A hint used to minimize the resource burden of the request. Memory footprint, processing footprint and/or CPU/GPU contention will be reduced (depending on the request), at the potential cost of longer execution time. This can help, for example, with ensuring UI updates and rendering are not getting blocked by Vision processing.

pub unsafe fn setPreferBackgroundProcessing( &self, prefer_background_processing: bool, )

Setter for preferBackgroundProcessing.

pub unsafe fn usesCPUOnly(&self) -> bool

👎Deprecated

This property, if set to YES, signifies that the request should be performed exclusively on the CPU and not on the GPU. The default value is NO, which signifies that the request is free to leverage the GPU to accelerate any work the request may require.

pub unsafe fn setUsesCPUOnly(&self, uses_cpu_only: bool)

👎Deprecated

Setter for usesCPUOnly.

pub unsafe fn results(&self) -> Option<Retained<NSArray<VNObservation>>>

Available on crate feature VNObservation only.

The collection of VNObservations generated by the processing of the request.

The only valid time to access this property is after the request has been processed by a request handler. If the request failed, this property will be nil; otherwise, it will be an array of zero or more VNObservation subclasses specific to the VNRequest subclass.

pub unsafe fn completionHandler(&self) -> VNRequestCompletionHandler

Available on crate feature block2 only.

The completion handler block that will be invoked after the request has completed processing.

pub unsafe fn revision(&self) -> NSUInteger

The specific algorithm or implementation revision that is to be used to perform the request.

pub unsafe fn setRevision(&self, revision: NSUInteger)

Setter for revision.

pub unsafe fn cancel(&self)

Tries to abort the request as soon as possible. Results will be nil. The completionHandler (if present) will be called with an error of VNErrorRequestCancelled.

pub unsafe fn supportedComputeStageDevicesAndReturnError( &self, ) -> Result<Retained<NSDictionary<VNComputeStage, NSArray<ProtocolObject<dyn MLComputeDeviceProtocol>>>>, Retained<NSError>>

Available on crate features VNTypes and objc2-core-ml only.

Obtain the collection of compute device per stage that are supported by the request.

This method’s result is based on the current state of configuration of the target request at the time of the call.

Parameter error: The address of a variable that will be populated with the error that describes the failure. If the caller does not require this information, NULL can be passed.

Returns: A dictionary of per-stage supported compute devices, or nil if an error occurs.

pub unsafe fn computeDeviceForComputeStage( &self, compute_stage: &VNComputeStage, ) -> Option<Retained<ProtocolObject<dyn MLComputeDeviceProtocol>>>

Available on crate features VNTypes and objc2-core-ml only.

Determine what the currently configured compute device is for a specific compute stage.

Parameter computeStage: The compute stage to be introspected.

Returns: The currently assigned compute device, or nil if there is no explicit assignment.

pub unsafe fn setComputeDevice_forComputeStage( &self, compute_device: Option<&ProtocolObject<dyn MLComputeDeviceProtocol>>, compute_stage: &VNComputeStage, )

Available on crate features VNTypes and objc2-core-ml only.

Assign a specific compute device for a compute stage.

It is important to note that any compute device can be configured for a given compute stage. Only when the request is performed is the validity of the (compute device / compute stage) assignments checked. Valid compute devices for a request’s compute stages can be obtained via -supportedComputeStageDevicesAndReturnError:.

Parameter computeDevice: The compute device to assign to the compute stage. Passing nil for this parameter will remove any explicit compute device assignment, allowing Vision to select which device to use.

Parameter computeStage: The compute stage being configured.

Methods from Deref<Target = NSObject>

pub fn doesNotRecognizeSelector(&self, sel: Sel) -> !

Handle messages the object doesn’t recognize.

See Apple’s documentation for details.

Methods from Deref<Target = AnyObject>

pub fn class(&self) -> &'static AnyClass

Dynamically find the class of this object.

Panics

May panic if the object is invalid (which may be the case for objects returned from unavailable init/new methods).

Example

Check that an instance of NSObject has the precise class NSObject.

use objc2::ClassType;
use objc2::runtime::NSObject;

let obj = NSObject::new();
assert_eq!(obj.class(), NSObject::class());

pub unsafe fn get_ivar<T>(&self, name: &str) -> &T

where T: Encode,

👎Deprecated: this is difficult to use correctly, use Ivar::load instead.

Use Ivar::load instead.

Safety

The object must have an instance variable with the given name, and it must be of type T.

See Ivar::load_ptr for details surrounding this.

pub fn downcast_ref<T>(&self) -> Option<&T>

where T: DowncastTarget,

Attempt to downcast the object to a class of type T.

This is the reference-variant. Use Retained::downcast if you want to convert a retained object to another type.

Mutable classes

Some classes have immutable and mutable variants, such as NSString and NSMutableString.

When some Objective-C API signature says it gives you an immutable class, it generally expects you to not mutate that, even though it may technically be mutable “under the hood”.

So using this method to convert a NSString to a NSMutableString, while not unsound, is generally frowned upon unless you created the string yourself, or the API explicitly documents the string to be mutable.

See Apple’s documentation on mutability and on isKindOfClass: for more details.

Generic classes

Objective-C generics are called “lightweight generics”, and that’s because they aren’t exposed in the runtime. This makes it impossible to safely downcast to generic collections, so this is disallowed by this method.

You can, however, safely downcast to generic collections where all the type-parameters are AnyObject.

Panics

This works internally by calling isKindOfClass:. That means that the object must have the instance method of that name, and an exception will be thrown (if CoreFoundation is linked) or the process will abort if that is not the case. In the vast majority of cases, you don’t need to worry about this, since both root objects NSObject and NSProxy implement this method.

Examples

Cast an NSString back and forth from NSObject.

use objc2::rc::Retained;
use objc2_foundation::{NSObject, NSString};

let obj: Retained<NSObject> = NSString::new().into_super();
let string = obj.downcast_ref::<NSString>().unwrap();
// Or with `downcast`, if we do not need the object afterwards
let string = obj.downcast::<NSString>().unwrap();

Try (and fail) to cast an NSObject to an NSString.

use objc2_foundation::{NSObject, NSString};

let obj = NSObject::new();
assert!(obj.downcast_ref::<NSString>().is_none());

Try to cast to an array of strings.

use objc2_foundation::{NSArray, NSObject, NSString};

let arr = NSArray::from_retained_slice(&[NSObject::new()]);
// This is invalid and doesn't type check.
let arr = arr.downcast_ref::<NSArray<NSString>>();

This fails to compile, since it would require enumerating over the array to ensure that each element is of the desired type, which is a performance pitfall.

Downcast when processing each element instead.

use objc2_foundation::{NSArray, NSObject, NSString};

let arr = NSArray::from_retained_slice(&[NSObject::new()]);

for elem in arr {
    if let Some(data) = elem.downcast_ref::<NSString>() {
        // handle `data`
    }
}

Trait Implementations

impl AsRef<AnyObject> for VNGeneratePersonSegmentationRequest

fn as_ref(&self) -> &AnyObject

Converts this type into a shared reference of the (usually inferred) input type.

impl AsRef<NSObject> for VNGeneratePersonSegmentationRequest

fn as_ref(&self) -> &NSObject

Converts this type into a shared reference of the (usually inferred) input type.

impl AsRef<VNGeneratePersonSegmentationRequest> for VNGeneratePersonSegmentationRequest

fn as_ref(&self) -> &Self

Converts this type into a shared reference of the (usually inferred) input type.

impl AsRef<VNImageBasedRequest> for VNGeneratePersonSegmentationRequest

fn as_ref(&self) -> &VNImageBasedRequest

Converts this type into a shared reference of the (usually inferred) input type.

impl AsRef<VNRequest> for VNGeneratePersonSegmentationRequest

fn as_ref(&self) -> &VNRequest

Converts this type into a shared reference of the (usually inferred) input type.

impl AsRef<VNStatefulRequest> for VNGeneratePersonSegmentationRequest

fn as_ref(&self) -> &VNStatefulRequest

Converts this type into a shared reference of the (usually inferred) input type.

impl Borrow<AnyObject> for VNGeneratePersonSegmentationRequest

fn borrow(&self) -> &AnyObject

Immutably borrows from an owned value.

impl Borrow<NSObject> for VNGeneratePersonSegmentationRequest

fn borrow(&self) -> &NSObject

Immutably borrows from an owned value.

impl Borrow<VNImageBasedRequest> for VNGeneratePersonSegmentationRequest

fn borrow(&self) -> &VNImageBasedRequest

Immutably borrows from an owned value.

impl Borrow<VNRequest> for VNGeneratePersonSegmentationRequest

fn borrow(&self) -> &VNRequest

Immutably borrows from an owned value.

impl Borrow<VNStatefulRequest> for VNGeneratePersonSegmentationRequest

fn borrow(&self) -> &VNStatefulRequest

Immutably borrows from an owned value.

impl ClassType for VNGeneratePersonSegmentationRequest

const NAME: &'static str = "VNGeneratePersonSegmentationRequest"

The name of the Objective-C class that this type represents.

type Super = VNStatefulRequest

The superclass of this class.

type ThreadKind = <<VNGeneratePersonSegmentationRequest as ClassType>::Super as ClassType>::ThreadKind

Whether the type can be used from any thread, or from only the main thread.

fn class() -> &'static AnyClass

Get a reference to the Objective-C class that this type represents.

fn as_super(&self) -> &Self::Super

Get an immutable reference to the superclass.

impl CopyingHelper for VNGeneratePersonSegmentationRequest

type Result = VNGeneratePersonSegmentationRequest

The immutable counterpart of the type, or Self if the type has no immutable counterpart.

impl Debug for VNGeneratePersonSegmentationRequest

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl Deref for VNGeneratePersonSegmentationRequest

type Target = VNStatefulRequest

The resulting type after dereferencing.

fn deref(&self) -> &Self::Target

Dereferences the value.

impl Hash for VNGeneratePersonSegmentationRequest

fn hash<H: Hasher>(&self, state: &mut H)

Feeds this value into the given Hasher.

fn hash_slice<H>(data: &[Self], state: &mut H)

where H: Hasher, Self: Sized,

Feeds a slice of this type into the given Hasher.

impl Message for VNGeneratePersonSegmentationRequest

fn retain(&self) -> Retained<Self>

where Self: Sized,

Increment the reference count of the receiver.

impl NSCopying for VNGeneratePersonSegmentationRequest

fn copy(&self) -> Retained<Self::Result>

where Self: Sized + Message + CopyingHelper,

Returns a new instance that’s a copy of the receiver.

unsafe fn copyWithZone(&self, zone: *mut NSZone) -> Retained<Self::Result>

where Self: Sized + Message + CopyingHelper,

Returns a new instance that’s a copy of the receiver.

impl NSObjectProtocol for VNGeneratePersonSegmentationRequest

fn isEqual(&self, other: Option<&AnyObject>) -> bool

where Self: Sized + Message,

Check whether the object is equal to an arbitrary other object.

fn hash(&self) -> usize

where Self: Sized + Message,

An integer that can be used as a table address in a hash table structure.

fn isKindOfClass(&self, cls: &AnyClass) -> bool

where Self: Sized + Message,

Check if the object is an instance of the class, or one of its subclasses.

fn is_kind_of<T>(&self) -> bool

where T: ClassType, Self: Sized + Message,

👎Deprecated: use isKindOfClass directly, or cast your objects with AnyObject::downcast_ref

Check if the object is an instance of the class type, or one of its subclasses.

fn isMemberOfClass(&self, cls: &AnyClass) -> bool

where Self: Sized + Message,

Check if the object is an instance of a specific class, without checking subclasses.

fn respondsToSelector(&self, aSelector: Sel) -> bool

where Self: Sized + Message,

Check whether the object implements or inherits a method with the given selector.

fn conformsToProtocol(&self, aProtocol: &AnyProtocol) -> bool

where Self: Sized + Message,

Check whether the object conforms to a given protocol.

fn description(&self) -> Retained<NSObject>

where Self: Sized + Message,

A textual representation of the object.

fn debugDescription(&self) -> Retained<NSObject>

where Self: Sized + Message,

A textual representation of the object to use when debugging.

fn isProxy(&self) -> bool

where Self: Sized + Message,

Check whether the receiver is a subclass of the NSProxy root class instead of the usual NSObject.

fn retainCount(&self) -> usize

where Self: Sized + Message,

The reference count of the object.

impl PartialEq for VNGeneratePersonSegmentationRequest

fn eq(&self, other: &Self) -> bool

Tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl RefEncode for VNGeneratePersonSegmentationRequest

const ENCODING_REF: Encoding = <VNStatefulRequest as ::objc2::RefEncode>::ENCODING_REF

The Objective-C type-encoding for a reference of this type.

impl DowncastTarget for VNGeneratePersonSegmentationRequest

impl Eq for VNGeneratePersonSegmentationRequest