// C++/WinRT v2.0.250303.1 // Copyright (c) Microsoft Corporation. All rights reserved. // Licensed under the MIT License. #pragma once #ifndef WINRT_Windows_AI_MachineLearning_0_H #define WINRT_Windows_AI_MachineLearning_0_H WINRT_EXPORT namespace winrt::Windows::Foundation::Collections { template struct WINRT_IMPL_EMPTY_BASES IIterable; template struct WINRT_IMPL_EMPTY_BASES IMap; struct IPropertySet; } WINRT_EXPORT namespace winrt::Windows::Graphics { struct DisplayAdapterId; } WINRT_EXPORT namespace winrt::Windows::Graphics::DirectX::Direct3D11 { struct IDirect3DDevice; } WINRT_EXPORT namespace winrt::Windows::Graphics::Imaging { enum class BitmapAlphaMode : int32_t; enum class BitmapPixelFormat : int32_t; } WINRT_EXPORT namespace winrt::Windows::Media { struct VideoFrame; } WINRT_EXPORT namespace winrt::Windows::Storage { struct IStorageFile; } WINRT_EXPORT namespace winrt::Windows::Storage::Streams { struct IBuffer; struct IRandomAccessStreamReference; } WINRT_EXPORT namespace winrt::Windows::AI::MachineLearning { enum class LearningModelDeviceKind : int32_t { Default = 0, Cpu = 1, DirectX = 2, DirectXHighPerformance = 3, DirectXMinPower = 4, }; enum class LearningModelFeatureKind : int32_t { Tensor = 0, Sequence = 1, Map = 2, Image = 3, }; enum class LearningModelPixelRange : int32_t { ZeroTo255 = 0, ZeroToOne = 1, MinusOneToOne = 2, }; enum class TensorKind : int32_t { Undefined = 0, Float = 1, UInt8 = 2, Int8 = 3, UInt16 = 4, Int16 = 5, Int32 = 6, Int64 = 7, String = 8, Boolean = 9, Float16 = 10, Double = 11, UInt32 = 12, UInt64 = 13, Complex64 = 14, Complex128 = 15, }; struct IImageFeatureDescriptor; struct IImageFeatureDescriptor2; struct IImageFeatureValue; struct IImageFeatureValueStatics; struct ILearningModel; struct ILearningModelBinding; struct ILearningModelBindingFactory; struct ILearningModelDevice; struct ILearningModelDeviceFactory; struct ILearningModelDeviceStatics; struct ILearningModelEvaluationResult; struct ILearningModelFeatureDescriptor; struct ILearningModelFeatureValue; struct ILearningModelOperatorProvider; struct ILearningModelSession; struct ILearningModelSessionFactory; struct ILearningModelSessionFactory2; struct ILearningModelSessionOptions; struct ILearningModelSessionOptions2; struct ILearningModelSessionOptions3; struct ILearningModelStatics; struct IMapFeatureDescriptor; struct ISequenceFeatureDescriptor; struct ITensor; struct ITensorBoolean; struct ITensorBooleanStatics; struct ITensorBooleanStatics2; struct ITensorDouble; struct ITensorDoubleStatics; struct ITensorDoubleStatics2; struct ITensorFeatureDescriptor; struct ITensorFloat; struct ITensorFloat16Bit; struct ITensorFloat16BitStatics; struct ITensorFloat16BitStatics2; struct ITensorFloatStatics; struct ITensorFloatStatics2; struct ITensorInt16Bit; struct ITensorInt16BitStatics; struct ITensorInt16BitStatics2; struct ITensorInt32Bit; struct ITensorInt32BitStatics; struct ITensorInt32BitStatics2; struct ITensorInt64Bit; struct ITensorInt64BitStatics; struct ITensorInt64BitStatics2; struct ITensorInt8Bit; struct ITensorInt8BitStatics; struct ITensorInt8BitStatics2; struct ITensorString; struct ITensorStringStatics; struct ITensorStringStatics2; struct ITensorUInt16Bit; struct ITensorUInt16BitStatics; struct ITensorUInt16BitStatics2; struct ITensorUInt32Bit; struct ITensorUInt32BitStatics; struct ITensorUInt32BitStatics2; struct ITensorUInt64Bit; struct ITensorUInt64BitStatics; struct ITensorUInt64BitStatics2; struct ITensorUInt8Bit; struct ITensorUInt8BitStatics; struct ITensorUInt8BitStatics2; struct ImageFeatureDescriptor; struct ImageFeatureValue; struct LearningModel; struct LearningModelBinding; struct LearningModelDevice; struct LearningModelEvaluationResult; struct LearningModelSession; struct LearningModelSessionOptions; struct MapFeatureDescriptor; struct SequenceFeatureDescriptor; struct TensorBoolean; struct TensorDouble; struct TensorFeatureDescriptor; struct TensorFloat; struct TensorFloat16Bit; struct TensorInt16Bit; struct TensorInt32Bit; struct TensorInt64Bit; struct TensorInt8Bit; struct TensorString; struct TensorUInt16Bit; struct TensorUInt32Bit; struct TensorUInt64Bit; struct TensorUInt8Bit; struct MachineLearningContract; } namespace winrt::impl { template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = interface_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = class_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> struct category{ using type = enum_category; }; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ImageFeatureDescriptor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ImageFeatureValue"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.LearningModel"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.LearningModelBinding"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.LearningModelDevice"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.LearningModelEvaluationResult"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.LearningModelSession"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.LearningModelSessionOptions"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.MapFeatureDescriptor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.SequenceFeatureDescriptor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorBoolean"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorDouble"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorFeatureDescriptor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorFloat"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorFloat16Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorInt16Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorInt32Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorInt64Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorInt8Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorString"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorUInt16Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorUInt32Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorUInt64Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorUInt8Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.LearningModelDeviceKind"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.LearningModelFeatureKind"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.LearningModelPixelRange"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.TensorKind"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.IImageFeatureDescriptor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.IImageFeatureDescriptor2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.IImageFeatureValue"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.IImageFeatureValueStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModel"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelBinding"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelBindingFactory"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelDevice"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelDeviceFactory"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelDeviceStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelEvaluationResult"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelFeatureDescriptor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelFeatureValue"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelOperatorProvider"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelSession"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelSessionFactory"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelSessionFactory2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelSessionOptions"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelSessionOptions2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelSessionOptions3"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ILearningModelStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.IMapFeatureDescriptor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ISequenceFeatureDescriptor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorBoolean"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorBooleanStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorBooleanStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorDouble"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorDoubleStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorDoubleStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorFeatureDescriptor"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorFloat"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorFloat16Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorFloat16BitStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorFloat16BitStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorFloatStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorFloatStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt16Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt16BitStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt16BitStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt32Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt32BitStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt32BitStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt64Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt64BitStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt64BitStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt8Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt8BitStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorInt8BitStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorString"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorStringStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorStringStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt16Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt16BitStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt16BitStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt32Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt32BitStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt32BitStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt64Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt64BitStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt64BitStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt8Bit"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt8BitStatics"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.ITensorUInt8BitStatics2"; template <> inline constexpr auto& name_v = L"Windows.AI.MachineLearning.MachineLearningContract"; template <> inline constexpr guid guid_v{ 0x365585A5,0x171A,0x4A2A,{ 0x98,0x5F,0x26,0x51,0x59,0xD3,0x89,0x5A } }; // 365585A5-171A-4A2A-985F-265159D3895A template <> inline constexpr guid guid_v{ 0x2B27CCA7,0xD533,0x5862,{ 0xBB,0x98,0x16,0x11,0xB1,0x55,0xB0,0xE1 } }; // 2B27CCA7-D533-5862-BB98-1611B155B0E1 template <> inline constexpr guid guid_v{ 0xF0414FD9,0xC9AA,0x4405,{ 0xB7,0xFB,0x94,0xF8,0x7C,0x8A,0x30,0x37 } }; // F0414FD9-C9AA-4405-B7FB-94F87C8A3037 template <> inline constexpr guid guid_v{ 0x1BC317FD,0x23CB,0x4610,{ 0xB0,0x85,0xC8,0xE1,0xC8,0x7E,0xBA,0xA0 } }; // 1BC317FD-23CB-4610-B085-C8E1C87EBAA0 template <> inline constexpr guid guid_v{ 0x5B8E4920,0x489F,0x4E86,{ 0x91,0x28,0x26,0x5A,0x32,0x7B,0x78,0xFA } }; // 5B8E4920-489F-4E86-9128-265A327B78FA template <> inline constexpr guid guid_v{ 0xEA312F20,0x168F,0x4F8C,{ 0x94,0xFE,0x2E,0x7A,0xC3,0x1B,0x4A,0xA8 } }; // EA312F20-168F-4F8C-94FE-2E7AC31B4AA8 template <> inline constexpr guid guid_v{ 0xC95F7A7A,0xE788,0x475E,{ 0x89,0x17,0x23,0xAA,0x38,0x1F,0xAF,0x0B } }; // C95F7A7A-E788-475E-8917-23AA381FAF0B template <> inline constexpr guid guid_v{ 0xF5C2C8FE,0x3F56,0x4A8C,{ 0xAC,0x5F,0xFD,0xB9,0x2D,0x8B,0x82,0x52 } }; // F5C2C8FE-3F56-4A8C-AC5F-FDB92D8B8252 template <> inline constexpr guid guid_v{ 0x9CFFD74D,0xB1E5,0x4F20,{ 0x80,0xAD,0x0A,0x56,0x69,0x0D,0xB0,0x6B } }; // 9CFFD74D-B1E5-4F20-80AD-0A56690DB06B template <> inline constexpr guid guid_v{ 0x49F32107,0xA8BF,0x42BB,{ 0x92,0xC7,0x10,0xB1,0x2D,0xC5,0xD2,0x1F } }; // 49F32107-A8BF-42BB-92C7-10B12DC5D21F template <> inline constexpr guid guid_v{ 0xB2F9BFCD,0x960E,0x49C0,{ 0x85,0x93,0xEB,0x19,0x0A,0xE3,0xEE,0xE2 } }; // B2F9BFCD-960E-49C0-8593-EB190AE3EEE2 template <> inline constexpr guid guid_v{ 0xBC08CF7C,0x6ED0,0x4004,{ 0x97,0xBA,0xB9,0xA2,0xEE,0xCD,0x2B,0x4F } }; // BC08CF7C-6ED0-4004-97BA-B9A2EECD2B4F template <> inline constexpr guid guid_v{ 0xF51005DB,0x4085,0x4DFE,{ 0x9F,0xED,0x95,0xEB,0x0C,0x0C,0xF7,0x5C } }; // F51005DB-4085-4DFE-9FED-95EB0C0CF75C template <> inline constexpr guid guid_v{ 0x2A222E5D,0xAFB1,0x47ED,{ 0xBF,0xAD,0xB5,0xB3,0xA4,0x59,0xEC,0x04 } }; // 2A222E5D-AFB1-47ED-BFAD-B5B3A459EC04 template <> inline constexpr guid guid_v{ 0x8E58F8F6,0xB787,0x4C11,{ 0x90,0xF0,0x71,0x29,0xAE,0xCA,0x74,0xA9 } }; // 8E58F8F6-B787-4C11-90F0-7129AECA74A9 template <> inline constexpr guid guid_v{ 0x0F6B881D,0x1C9B,0x47B6,{ 0xBF,0xE0,0xF1,0xCF,0x62,0xA6,0x75,0x79 } }; // 0F6B881D-1C9B-47B6-BFE0-F1CF62A67579 template <> inline constexpr guid guid_v{ 0x4E5C88BF,0x0A1F,0x5FEC,{ 0xAD,0xE0,0x2F,0xD9,0x1E,0x4E,0xF2,0x9B } }; // 4E5C88BF-0A1F-5FEC-ADE0-2FD91E4EF29B template <> inline constexpr guid guid_v{ 0xB8F63FA1,0x134D,0x5133,{ 0x8C,0xFF,0x3A,0x5C,0x3C,0x26,0x3B,0xEB } }; // B8F63FA1-134D-5133-8CFF-3A5C3C263BEB template <> inline constexpr guid guid_v{ 0x6FCD1DC4,0x175F,0x5BD2,{ 0x8D,0xE5,0x2F,0x20,0x06,0xA2,0x5A,0xDF } }; // 6FCD1DC4-175F-5BD2-8DE5-2F2006A25ADF template <> inline constexpr guid guid_v{ 0x58E15CEE,0xD8C2,0x56FC,{ 0x92,0xE8,0x76,0xD7,0x51,0x08,0x10,0x86 } }; // 58E15CEE-D8C2-56FC-92E8-76D751081086 template <> inline constexpr guid guid_v{ 0xE3B977E8,0x6952,0x4E47,{ 0x8E,0xF4,0x1F,0x7F,0x07,0x89,0x7C,0x6D } }; // E3B977E8-6952-4E47-8EF4-1F7F07897C6D template <> inline constexpr guid guid_v{ 0x530424BD,0xA257,0x436D,{ 0x9E,0x60,0xC2,0x98,0x1F,0x7C,0xC5,0xC4 } }; // 530424BD-A257-436D-9E60-C2981F7CC5C4 template <> inline constexpr guid guid_v{ 0x84F6945A,0x562B,0x4D62,{ 0xA8,0x51,0x73,0x9A,0xCE,0xD9,0x66,0x68 } }; // 84F6945A-562B-4D62-A851-739ACED96668 template <> inline constexpr guid guid_v{ 0x05489593,0xA305,0x4A25,{ 0xAD,0x09,0x44,0x01,0x19,0xB4,0xB7,0xF6 } }; // 05489593-A305-4A25-AD09-440119B4B7F6 template <> inline constexpr guid guid_v{ 0x50F311ED,0x29E9,0x4A5C,{ 0xA4,0x4D,0x8F,0xC5,0x12,0x58,0x4E,0xED } }; // 50F311ED-29E9-4A5C-A44D-8FC512584EED template <> inline constexpr guid guid_v{ 0x2796862C,0x2357,0x49A7,{ 0xB4,0x76,0xD0,0xAA,0x3D,0xFE,0x68,0x66 } }; // 2796862C-2357-49A7-B476-D0AA3DFE6866 template <> inline constexpr guid guid_v{ 0xA3A4A501,0x6A2D,0x52D7,{ 0xB0,0x4B,0xC4,0x35,0xBA,0xEE,0x01,0x15 } }; // A3A4A501-6A2D-52D7-B04B-C435BAEE0115 template <> inline constexpr guid guid_v{ 0x91E41252,0x7A8F,0x4F0E,{ 0xA2,0x8F,0x96,0x37,0xFF,0xC8,0xA3,0xD0 } }; // 91E41252-7A8F-4F0E-A28F-9637FFC8A3D0 template <> inline constexpr guid guid_v{ 0xA86693C5,0x9538,0x44E7,{ 0xA3,0xCA,0x5D,0xF3,0x74,0xA5,0xA7,0x0C } }; // A86693C5-9538-44E7-A3CA-5DF374A5A70C template <> inline constexpr guid guid_v{ 0x93A570DE,0x5E9A,0x5094,{ 0x85,0xC8,0x59,0x2C,0x65,0x5E,0x68,0xAC } }; // 93A570DE-5E9A-5094-85C8-592C655E68AC template <> inline constexpr guid guid_v{ 0x74455C80,0x946A,0x4310,{ 0xA1,0x9C,0xEE,0x0A,0xF0,0x28,0xFC,0xE4 } }; // 74455C80-946A-4310-A19C-EE0AF028FCE4 template <> inline constexpr guid guid_v{ 0xF2282D82,0xAA02,0x42C8,{ 0xA0,0xC8,0xDF,0x1E,0xFC,0x96,0x76,0xE1 } }; // F2282D82-AA02-42C8-A0C8-DF1EFC9676E1 template <> inline constexpr guid guid_v{ 0x0AB994FC,0x5B89,0x4C3C,{ 0xB5,0xE4,0x52,0x82,0xA5,0x31,0x6C,0x0A } }; // 0AB994FC-5B89-4C3C-B5E4-5282A5316C0A template <> inline constexpr guid guid_v{ 0xA52DB6F5,0x318A,0x44D4,{ 0x82,0x0B,0x0C,0xDC,0x70,0x54,0xA8,0x4A } }; // A52DB6F5-318A-44D4-820B-0CDC7054A84A template <> inline constexpr guid guid_v{ 0x68545726,0x2DC7,0x51BF,{ 0xB4,0x70,0x0B,0x34,0x4C,0xC2,0xA1,0xBC } }; // 68545726-2DC7-51BF-B470-0B344CC2A1BC template <> inline constexpr guid guid_v{ 0xDBCD395B,0x3BA3,0x452F,{ 0xB1,0x0D,0x3C,0x13,0x5E,0x57,0x3F,0xA9 } }; // DBCD395B-3BA3-452F-B10D-3C135E573FA9 template <> inline constexpr guid guid_v{ 0x24610BC1,0x5E44,0x5713,{ 0xB2,0x81,0x8F,0x4A,0xD4,0xD5,0x55,0xE8 } }; // 24610BC1-5E44-5713-B281-8F4AD4D555E8 template <> inline constexpr guid guid_v{ 0x98A32D39,0xE6D6,0x44AF,{ 0x8A,0xFA,0xBA,0xEB,0xC4,0x4D,0xC0,0x20 } }; // 98A32D39-E6D6-44AF-8AFA-BAEBC44DC020 template <> inline constexpr guid guid_v{ 0x98646293,0x266E,0x4B1A,{ 0x82,0x1F,0xE6,0x0D,0x70,0x89,0x8B,0x91 } }; // 98646293-266E-4B1A-821F-E60D70898B91 template <> inline constexpr guid guid_v{ 0x0CD70CF4,0x696C,0x5E5F,{ 0x95,0xD8,0x5E,0xBF,0x96,0x70,0x14,0x8B } }; // 0CD70CF4-696C-5E5F-95D8-5EBF9670148B template <> inline constexpr guid guid_v{ 0x2C0C28D3,0x207C,0x4486,{ 0xA7,0xD2,0x88,0x45,0x22,0xC5,0xE5,0x89 } }; // 2C0C28D3-207C-4486-A7D2-884522C5E589 template <> inline constexpr guid guid_v{ 0x6539864B,0x52FA,0x4E35,{ 0x90,0x7C,0x83,0x4C,0xAC,0x41,0x7B,0x50 } }; // 6539864B-52FA-4E35-907C-834CAC417B50 template <> inline constexpr guid guid_v{ 0x7C4B079A,0xE956,0x5CE0,{ 0xA3,0xBD,0x15,0x7D,0x9D,0x79,0xB5,0xEC } }; // 7C4B079A-E956-5CE0-A3BD-157D9D79B5EC template <> inline constexpr guid guid_v{ 0x499665BA,0x1FA2,0x45AD,{ 0xAF,0x25,0xA0,0xBD,0x9B,0xDA,0x4C,0x87 } }; // 499665BA-1FA2-45AD-AF25-A0BD9BDA4C87 template <> inline constexpr guid guid_v{ 0x9648AD9D,0x1198,0x4D74,{ 0x95,0x17,0x78,0x3A,0xB6,0x2B,0x9C,0xC2 } }; // 9648AD9D-1198-4D74-9517-783AB62B9CC2 template <> inline constexpr guid guid_v{ 0x6D3D9DCB,0xFF40,0x5EC2,{ 0x89,0xFE,0x08,0x4E,0x2B,0x6B,0xC6,0xDB } }; // 6D3D9DCB-FF40-5EC2-89FE-084E2B6BC6DB template <> inline constexpr guid guid_v{ 0xCDDD97C5,0xFFD8,0x4FEF,{ 0xAE,0xFB,0x30,0xE1,0xA4,0x85,0xB2,0xEE } }; // CDDD97C5-FFD8-4FEF-AEFB-30E1A485B2EE template <> inline constexpr guid guid_v{ 0xB1A12284,0x095C,0x4C76,{ 0xA6,0x61,0xAC,0x4C,0xEE,0x1F,0x3E,0x8B } }; // B1A12284-095C-4C76-A661-AC4CEE1F3E8B template <> inline constexpr guid guid_v{ 0xC0D59637,0xC468,0x56FB,{ 0x95,0x35,0xC0,0x52,0xBD,0xB9,0x3D,0xC0 } }; // C0D59637-C468-56FB-9535-C052BDB93DC0 template <> inline constexpr guid guid_v{ 0x582335C8,0xBDB1,0x4610,{ 0xBC,0x75,0x35,0xE9,0xCB,0xF0,0x09,0xB7 } }; // 582335C8-BDB1-4610-BC75-35E9CBF009B7 template <> inline constexpr guid guid_v{ 0x83623324,0xCF26,0x4F17,{ 0xA2,0xD4,0x20,0xEF,0x8D,0x09,0x7D,0x53 } }; // 83623324-CF26-4F17-A2D4-20EF8D097D53 template <> inline constexpr guid guid_v{ 0x9E355ED0,0xC8E2,0x5254,{ 0x91,0x37,0x01,0x93,0xA3,0x66,0x8F,0xD8 } }; // 9E355ED0-C8E2-5254-9137-0193A3668FD8 template <> inline constexpr guid guid_v{ 0x68140F4B,0x23C0,0x42F3,{ 0x81,0xF6,0xA8,0x91,0xC0,0x11,0xBC,0x3F } }; // 68140F4B-23C0-42F3-81F6-A891C011BC3F template <> inline constexpr guid guid_v{ 0x5DF745DD,0x028A,0x481A,{ 0xA2,0x7C,0xC7,0xE6,0x43,0x5E,0x52,0xDD } }; // 5DF745DD-028A-481A-A27C-C7E6435E52DD template <> inline constexpr guid guid_v{ 0x8AF40C64,0xD69F,0x5315,{ 0x93,0x48,0x49,0x08,0x77,0xBB,0xD6,0x42 } }; // 8AF40C64-D69F-5315-9348-490877BBD642 template <> inline constexpr guid guid_v{ 0xD8C9C2FF,0x7511,0x45A3,{ 0xBF,0xAC,0xC3,0x8F,0x37,0x0D,0x22,0x37 } }; // D8C9C2FF-7511-45A3-BFAC-C38F370D2237 template <> inline constexpr guid guid_v{ 0x417C3837,0xE773,0x4378,{ 0x8E,0x7F,0x0C,0xC3,0x3D,0xBE,0xA6,0x97 } }; // 417C3837-E773-4378-8E7F-0CC33DBEA697 template <> inline constexpr guid guid_v{ 0xEF1A1F1C,0x314E,0x569D,{ 0xB4,0x96,0x5C,0x84,0x47,0xD2,0x0C,0xD2 } }; // EF1A1F1C-314E-569D-B496-5C8447D20CD2 template <> inline constexpr guid guid_v{ 0x2E70FFAD,0x04BF,0x4825,{ 0x83,0x9A,0x82,0xBA,0xEF,0x8C,0x78,0x86 } }; // 2E70FFAD-04BF-4825-839A-82BAEF8C7886 template <> inline constexpr guid guid_v{ 0x7A7E20EB,0x242F,0x47CB,{ 0xA9,0xC6,0xF6,0x02,0xEC,0xFB,0xFE,0xE4 } }; // 7A7E20EB-242F-47CB-A9C6-F602ECFBFEE4 template <> inline constexpr guid guid_v{ 0x085A687D,0x67E1,0x5B1E,{ 0xB2,0x32,0x4F,0xAB,0xE9,0xCA,0x20,0xB3 } }; // 085A687D-67E1-5B1E-B232-4FABE9CA20B3 template <> inline constexpr guid guid_v{ 0x58E1AE27,0x622B,0x48E3,{ 0xBE,0x22,0xD8,0x67,0xAE,0xD1,0xDA,0xAC } }; // 58E1AE27-622B-48E3-BE22-D867AED1DAAC template <> inline constexpr guid guid_v{ 0x05F67583,0xBC24,0x4220,{ 0x8A,0x41,0x2D,0xCD,0x8C,0x5E,0xD3,0x3C } }; // 05F67583-BC24-4220-8A41-2DCD8C5ED33C template <> inline constexpr guid guid_v{ 0x2BA042D6,0x373E,0x5A3A,{ 0xA2,0xFC,0xA6,0xC4,0x1B,0xD5,0x27,0x89 } }; // 2BA042D6-373E-5A3A-A2FC-A6C41BD52789 template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::IImageFeatureDescriptor; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::IImageFeatureValue; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ILearningModel; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ILearningModelBinding; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ILearningModelDevice; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ILearningModelEvaluationResult; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ILearningModelSession; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ILearningModelSessionOptions; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::IMapFeatureDescriptor; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ISequenceFeatureDescriptor; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorBoolean; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorDouble; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorFeatureDescriptor; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorFloat; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorFloat16Bit; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorInt16Bit; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorInt32Bit; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorInt64Bit; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorInt8Bit; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorString; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorUInt16Bit; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorUInt32Bit; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorUInt64Bit; }; template <> struct default_interface{ using type = winrt::Windows::AI::MachineLearning::ITensorUInt8Bit; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_BitmapPixelFormat(int32_t*) noexcept = 0; virtual int32_t __stdcall get_BitmapAlphaMode(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Width(uint32_t*) noexcept = 0; virtual int32_t __stdcall get_Height(uint32_t*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_PixelRange(int32_t*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_VideoFrame(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromVideoFrame(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Author(void**) noexcept = 0; virtual int32_t __stdcall get_Name(void**) noexcept = 0; virtual int32_t __stdcall get_Domain(void**) noexcept = 0; virtual int32_t __stdcall get_Description(void**) noexcept = 0; virtual int32_t __stdcall get_Version(int64_t*) noexcept = 0; virtual int32_t __stdcall get_Metadata(void**) noexcept = 0; virtual int32_t __stdcall get_InputFeatures(void**) noexcept = 0; virtual int32_t __stdcall get_OutputFeatures(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Bind(void*, void*) noexcept = 0; virtual int32_t __stdcall BindWithProperties(void*, void*, void*) noexcept = 0; virtual int32_t __stdcall Clear() noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromSession(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_AdapterId(struct struct_Windows_Graphics_DisplayAdapterId*) noexcept = 0; virtual int32_t __stdcall get_Direct3D11Device(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(int32_t, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromDirect3D11Device(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_CorrelationId(void**) noexcept = 0; virtual int32_t __stdcall get_ErrorStatus(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Succeeded(bool*) noexcept = 0; virtual int32_t __stdcall get_Outputs(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Name(void**) noexcept = 0; virtual int32_t __stdcall get_Description(void**) noexcept = 0; virtual int32_t __stdcall get_Kind(int32_t*) noexcept = 0; virtual int32_t __stdcall get_IsRequired(bool*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Kind(int32_t*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Model(void**) noexcept = 0; virtual int32_t __stdcall get_Device(void**) noexcept = 0; virtual int32_t __stdcall get_EvaluationProperties(void**) noexcept = 0; virtual int32_t __stdcall EvaluateAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall EvaluateFeaturesAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall Evaluate(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall EvaluateFeatures(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromModel(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromModelOnDevice(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromModelOnDeviceWithSessionOptions(void*, void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_BatchSizeOverride(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_BatchSizeOverride(uint32_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_CloseModelOnSessionCreation(bool*) noexcept = 0; virtual int32_t __stdcall put_CloseModelOnSessionCreation(bool) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall OverrideNamedDimension(void*, uint32_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall LoadFromStorageFileAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall LoadFromStreamAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall LoadFromFilePath(void*, void**) noexcept = 0; virtual int32_t __stdcall LoadFromStream(void*, void**) noexcept = 0; virtual int32_t __stdcall LoadFromStorageFileWithOperatorProviderAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall LoadFromStreamWithOperatorProviderAsync(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall LoadFromFilePathWithOperatorProvider(void*, void*, void**) noexcept = 0; virtual int32_t __stdcall LoadFromStreamWithOperatorProvider(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_KeyKind(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ValueDescriptor(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ElementDescriptor(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_TensorKind(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Shape(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, bool*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, bool*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, double*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, double*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_TensorKind(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Shape(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, float*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, float*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, float*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, float*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, int16_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, int16_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, int32_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, int32_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, int64_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, int64_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, uint8_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, uint8_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, void**, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, void**, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, uint16_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, uint16_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, uint32_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, uint32_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, uint64_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, uint64_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetAsVectorView(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void**) noexcept = 0; virtual int32_t __stdcall Create2(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromArray(void*, uint32_t, uint8_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromIterable(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateFromShapeArrayAndDataArray(uint32_t, int64_t*, uint32_t, uint8_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromBuffer(uint32_t, int64_t*, void*, void**) noexcept = 0; }; }; template struct consume_Windows_AI_MachineLearning_IImageFeatureDescriptor { [[nodiscard]] auto BitmapPixelFormat() const; [[nodiscard]] auto BitmapAlphaMode() const; [[nodiscard]] auto Width() const; [[nodiscard]] auto Height() const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_IImageFeatureDescriptor; }; template struct consume_Windows_AI_MachineLearning_IImageFeatureDescriptor2 { [[nodiscard]] auto PixelRange() const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_IImageFeatureDescriptor2; }; template struct consume_Windows_AI_MachineLearning_IImageFeatureValue { [[nodiscard]] auto VideoFrame() const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_IImageFeatureValue; }; template struct consume_Windows_AI_MachineLearning_IImageFeatureValueStatics { auto CreateFromVideoFrame(winrt::Windows::Media::VideoFrame const& image) const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_IImageFeatureValueStatics; }; template struct consume_Windows_AI_MachineLearning_ILearningModel { [[nodiscard]] auto Author() const; [[nodiscard]] auto Name() const; [[nodiscard]] auto Domain() const; [[nodiscard]] auto Description() const; [[nodiscard]] auto Version() const; [[nodiscard]] auto Metadata() const; [[nodiscard]] auto InputFeatures() const; [[nodiscard]] auto OutputFeatures() const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModel; }; template struct consume_Windows_AI_MachineLearning_ILearningModelBinding { auto Bind(param::hstring const& name, winrt::Windows::Foundation::IInspectable const& value) const; auto Bind(param::hstring const& name, winrt::Windows::Foundation::IInspectable const& value, winrt::Windows::Foundation::Collections::IPropertySet const& props) const; auto Clear() const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelBinding; }; template struct consume_Windows_AI_MachineLearning_ILearningModelBindingFactory { auto CreateFromSession(winrt::Windows::AI::MachineLearning::LearningModelSession const& session) const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelBindingFactory; }; template struct consume_Windows_AI_MachineLearning_ILearningModelDevice { [[nodiscard]] auto AdapterId() const; [[nodiscard]] auto Direct3D11Device() const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelDevice; }; template struct consume_Windows_AI_MachineLearning_ILearningModelDeviceFactory { auto Create(winrt::Windows::AI::MachineLearning::LearningModelDeviceKind const& deviceKind) const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelDeviceFactory; }; template struct consume_Windows_AI_MachineLearning_ILearningModelDeviceStatics { auto CreateFromDirect3D11Device(winrt::Windows::Graphics::DirectX::Direct3D11::IDirect3DDevice const& device) const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelDeviceStatics; }; template struct consume_Windows_AI_MachineLearning_ILearningModelEvaluationResult { [[nodiscard]] auto CorrelationId() const; [[nodiscard]] auto ErrorStatus() const; [[nodiscard]] auto Succeeded() const; [[nodiscard]] auto Outputs() const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelEvaluationResult; }; template struct consume_Windows_AI_MachineLearning_ILearningModelFeatureDescriptor { [[nodiscard]] auto Name() const; [[nodiscard]] auto Description() const; [[nodiscard]] auto Kind() const; [[nodiscard]] auto IsRequired() const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelFeatureDescriptor; }; template struct consume_Windows_AI_MachineLearning_ILearningModelFeatureValue { [[nodiscard]] auto Kind() const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelFeatureValue; }; template struct consume_Windows_AI_MachineLearning_ILearningModelOperatorProvider { }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelOperatorProvider; }; template struct consume_Windows_AI_MachineLearning_ILearningModelSession { [[nodiscard]] auto Model() const; [[nodiscard]] auto Device() const; [[nodiscard]] auto EvaluationProperties() const; auto EvaluateAsync(winrt::Windows::AI::MachineLearning::LearningModelBinding const& bindings, param::hstring const& correlationId) const; auto EvaluateFeaturesAsync(param::map const& features, param::hstring const& correlationId) const; auto Evaluate(winrt::Windows::AI::MachineLearning::LearningModelBinding const& bindings, param::hstring const& correlationId) const; auto EvaluateFeatures(param::map const& features, param::hstring const& correlationId) const; }; template <> struct consume { template using type = consume_Windows_AI_MachineLearning_ILearningModelSession