Struct SCNLevelOfDetail

Source

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

Available on crate feature SCNLevelOfDetail only.

Expand description

SCNLevelOfDetail represents a level of detail of a geometry.

Implementations§

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impl SCNLevelOfDetail

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pub unsafe fn levelOfDetailWithGeometry_screenSpaceRadius( geometry: Option<&SCNGeometry>, radius: CGFloat, ) -> Retained<Self>

Available on crate features SCNGeometry and objc2-core-foundation only.

This is a convenience method to create a level of detail with a coverage radius threshold mode.

Parameter geometry: The geometry for this level of detail. nil is supported and indicates that no geometry should be rendered for this level of detail.

Parameter radius: The maximum radius in screen-space that this level of detail is suitable for. The coverage radius is calculated from the projected bounding sphere and expressed in pixels.

Source

pub unsafe fn levelOfDetailWithGeometry_worldSpaceDistance( geometry: Option<&SCNGeometry>, distance: CGFloat, ) -> Retained<Self>

Available on crate features SCNGeometry and objc2-core-foundation only.

This is a convenience method to create a level of detail with a distance threshold mode.

Parameter geometry: The geometry for this level of detail. nil is supported and indicates that no geometry should be rendered for this level of detail.

Parameter distance: The minimum distance to the current point of view that this level of detail is suitable for.

Source

pub unsafe fn geometry(&self) -> Option<Retained<SCNGeometry>>

Available on crate feature SCNGeometry only.

Returns the geometry of the receiver.

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pub unsafe fn screenSpaceRadius(&self) -> CGFloat

Available on crate feature objc2-core-foundation only.

Returns the screen space radius of the receiver if any, 0 otherwise.

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pub unsafe fn worldSpaceDistance(&self) -> CGFloat

Available on crate feature objc2-core-foundation only.

Returns the world space distance of the receiver if any, 0 otherwise.

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impl SCNLevelOfDetail

Methods declared on superclass NSObject.

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

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

Methods from Deref<Target = NSObject>§

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

Handle messages the object doesn’t recognize.

See Apple’s documentation for details.

Methods from Deref<Target = AnyObject>§

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

Dynamically find the class of this object.

§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());

Source

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.

Source

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`
    }
}