/// /// HybridBarcodeSpec_cxx.swift /// This file was generated by nitrogen. DO NOT MODIFY THIS FILE. /// https://github.com/mrousavy/nitro /// Copyright © Marc Rousavy @ Margelo /// import NitroModules /** * A class implementation that bridges HybridBarcodeSpec over to C++. * In C++, we cannot use Swift protocols - so we need to wrap it in a class to make it strongly defined. * * Also, some Swift types need to be bridged with special handling: * - Enums need to be wrapped in Structs, otherwise they cannot be accessed bi-directionally (Swift bug: https://github.com/swiftlang/swift/issues/75330) * - Other HybridObjects need to be wrapped/unwrapped from the Swift TCxx wrapper * - Throwing methods need to be wrapped with a Result type, as exceptions cannot be propagated to C++ */ open class HybridBarcodeSpec_cxx { /** * The Swift <> C++ bridge's namespace (`margelo::nitro::camera::barcodescanner::bridge::swift`) * from `VisionCameraBarcodeScanner-Swift-Cxx-Bridge.hpp`. * This contains specialized C++ templates, and C++ helper functions that can be accessed from Swift. */ public typealias bridge = margelo.nitro.camera.barcodescanner.bridge.swift /** * Holds an instance of the `HybridBarcodeSpec` Swift protocol. */ private var __implementation: any HybridBarcodeSpec /** * Holds a weak pointer to the C++ class that wraps the Swift class. */ private var __cxxPart: bridge.std__weak_ptr_HybridBarcodeSpec_ /** * Create a new `HybridBarcodeSpec_cxx` that wraps the given `HybridBarcodeSpec`. * All properties and methods bridge to C++ types. */ public init(_ implementation: any HybridBarcodeSpec) { self.__implementation = implementation self.__cxxPart = .init() /* no base class */ } /** * Get the actual `HybridBarcodeSpec` instance this class wraps. */ @inline(__always) public func getHybridBarcodeSpec() -> any HybridBarcodeSpec { return __implementation } /** * Casts this instance to a retained unsafe raw pointer. * This acquires one additional strong reference on the object! */ public func toUnsafe() -> UnsafeMutableRawPointer { return Unmanaged.passRetained(self).toOpaque() } /** * Casts an unsafe pointer to a `HybridBarcodeSpec_cxx`. * The pointer has to be a retained opaque `Unmanaged`. * This removes one strong reference from the object! */ public class func fromUnsafe(_ pointer: UnsafeMutableRawPointer) -> HybridBarcodeSpec_cxx { return Unmanaged.fromOpaque(pointer).takeRetainedValue() } /** * Gets (or creates) the C++ part of this Hybrid Object. * The C++ part is a `std::shared_ptr`. */ public func getCxxPart() -> bridge.std__shared_ptr_HybridBarcodeSpec_ { let cachedCxxPart = self.__cxxPart.lock() if Bool(fromCxx: cachedCxxPart) { return cachedCxxPart } else { let newCxxPart = bridge.create_std__shared_ptr_HybridBarcodeSpec_(self.toUnsafe()) __cxxPart = bridge.weakify_std__shared_ptr_HybridBarcodeSpec_(newCxxPart) return newCxxPart } } /** * Get the memory size of the Swift class (plus size of any other allocations) * so the JS VM can properly track it and garbage-collect the JS object if needed. */ @inline(__always) public var memorySize: Int { return MemoryHelper.getSizeOf(self.__implementation) + self.__implementation.memorySize } /** * Compares this object with the given [other] object for reference equality. */ @inline(__always) public func equals(other: HybridBarcodeSpec_cxx) -> Bool { return self.__implementation === other.__implementation } /** * Call dispose() on the Swift class. * This _may_ be called manually from JS. */ @inline(__always) public func dispose() { self.__implementation.dispose() } /** * Call toString() on the Swift class. */ @inline(__always) public func toString() -> String { return self.__implementation.toString() } // Properties public final var format: Int32 { @inline(__always) get { return self.__implementation.format.rawValue } } public final var boundingBox: Rect { @inline(__always) get { return self.__implementation.boundingBox } } public final var cornerPoints: bridge.std__vector_Point_ { @inline(__always) get { return { () -> bridge.std__vector_Point_ in var __vector = bridge.create_std__vector_Point_(self.__implementation.cornerPoints.count) for __item in self.__implementation.cornerPoints { __vector.push_back(__item) } return __vector }() } } public final var displayValue: bridge.std__optional_std__string_ { @inline(__always) get { return { () -> bridge.std__optional_std__string_ in if let __unwrappedValue = self.__implementation.displayValue { return bridge.create_std__optional_std__string_(std.string(__unwrappedValue)) } else { return .init() } }() } } public final var rawBytes: bridge.std__optional_std__shared_ptr_ArrayBuffer__ { @inline(__always) get { return { () -> bridge.std__optional_std__shared_ptr_ArrayBuffer__ in if let __unwrappedValue = self.__implementation.rawBytes { return bridge.create_std__optional_std__shared_ptr_ArrayBuffer__(__unwrappedValue.getArrayBuffer()) } else { return .init() } }() } } public final var rawValue: bridge.std__optional_std__string_ { @inline(__always) get { return { () -> bridge.std__optional_std__string_ in if let __unwrappedValue = self.__implementation.rawValue { return bridge.create_std__optional_std__string_(std.string(__unwrappedValue)) } else { return .init() } }() } } public final var valueType: Int32 { @inline(__always) get { return self.__implementation.valueType.rawValue } } // Methods }