// C++/WinRT v2.0.220110.5 // Copyright (c) Microsoft Corporation. All rights reserved. // Licensed under the MIT License. #pragma once #ifndef WINRT_Windows_Media_MediaProperties_0_H #define WINRT_Windows_Media_MediaProperties_0_H WINRT_EXPORT namespace winrt::Windows::Foundation { template struct __declspec(empty_bases) IAsyncOperation; } WINRT_EXPORT namespace winrt::Windows::Foundation::Collections { template struct __declspec(empty_bases) IIterable; template struct __declspec(empty_bases) IMap; template struct __declspec(empty_bases) IVector; } WINRT_EXPORT namespace winrt::Windows::Media::Core { struct AudioStreamDescriptor; struct TimedMetadataStreamDescriptor; struct VideoStreamDescriptor; } WINRT_EXPORT namespace winrt::Windows::Storage { struct IStorageFile; } WINRT_EXPORT namespace winrt::Windows::Storage::Streams { struct IRandomAccessStream; } WINRT_EXPORT namespace winrt::Windows::Media::MediaProperties { enum class AudioEncodingQuality : int32_t { Auto = 0, High = 1, Medium = 2, Low = 3, }; enum class MediaMirroringOptions : uint32_t { None = 0, Horizontal = 0x1, Vertical = 0x2, }; enum class MediaPixelFormat : int32_t { Nv12 = 0, Bgra8 = 1, P010 = 2, }; enum class MediaRotation : int32_t { None = 0, Clockwise90Degrees = 1, Clockwise180Degrees = 2, Clockwise270Degrees = 3, }; enum class MediaThumbnailFormat : int32_t { Bmp = 0, Bgra8 = 1, }; enum class SphericalVideoFrameFormat : int32_t { None = 0, Unsupported = 1, Equirectangular = 2, }; enum class StereoscopicVideoPackingMode : int32_t { None = 0, SideBySide = 1, TopBottom = 2, }; enum class VideoEncodingQuality : int32_t { Auto = 0, HD1080p = 1, HD720p = 2, Wvga = 3, Ntsc = 4, Pal = 5, Vga = 6, Qvga = 7, Uhd2160p = 8, Uhd4320p = 9, }; struct IAudioEncodingProperties; struct IAudioEncodingProperties2; struct IAudioEncodingProperties3; struct IAudioEncodingPropertiesStatics; struct IAudioEncodingPropertiesStatics2; struct IAudioEncodingPropertiesWithFormatUserData; struct IAv1ProfileIdsStatics; struct IContainerEncodingProperties; struct IContainerEncodingProperties2; struct IH264ProfileIdsStatics; struct IHevcProfileIdsStatics; struct IImageEncodingProperties; struct IImageEncodingProperties2; struct IImageEncodingPropertiesStatics; struct IImageEncodingPropertiesStatics2; struct IImageEncodingPropertiesStatics3; struct IMediaEncodingProfile; struct IMediaEncodingProfile2; struct IMediaEncodingProfile3; struct IMediaEncodingProfileStatics; struct IMediaEncodingProfileStatics2; struct IMediaEncodingProfileStatics3; struct IMediaEncodingProfileStatics4; struct IMediaEncodingProperties; struct IMediaEncodingSubtypesStatics; struct IMediaEncodingSubtypesStatics2; struct IMediaEncodingSubtypesStatics3; struct IMediaEncodingSubtypesStatics4; struct IMediaEncodingSubtypesStatics5; struct IMediaEncodingSubtypesStatics6; struct IMediaEncodingSubtypesStatics7; struct IMediaRatio; struct IMpeg2ProfileIdsStatics; struct ITimedMetadataEncodingProperties; struct ITimedMetadataEncodingPropertiesStatics; struct IVideoEncodingProperties; struct IVideoEncodingProperties2; struct IVideoEncodingProperties3; struct IVideoEncodingProperties4; struct IVideoEncodingProperties5; struct IVideoEncodingPropertiesStatics; struct IVideoEncodingPropertiesStatics2; struct IVideoEncodingPropertiesStatics3; struct IVp9ProfileIdsStatics; struct AudioEncodingProperties; struct Av1ProfileIds; struct ContainerEncodingProperties; struct H264ProfileIds; struct HevcProfileIds; struct ImageEncodingProperties; struct MediaEncodingProfile; struct MediaEncodingSubtypes; struct MediaPropertySet; struct MediaRatio; struct Mpeg2ProfileIds; struct TimedMetadataEncodingProperties; struct VideoEncodingProperties; struct Vp9ProfileIds; } 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 = 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 <> 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.Media.MediaProperties.AudioEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.Av1ProfileIds"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.ContainerEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.H264ProfileIds"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.HevcProfileIds"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.ImageEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.MediaEncodingProfile"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.MediaEncodingSubtypes"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.MediaPropertySet"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.MediaRatio"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.Mpeg2ProfileIds"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.TimedMetadataEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.VideoEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.Vp9ProfileIds"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.AudioEncodingQuality"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.MediaMirroringOptions"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.MediaPixelFormat"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.MediaRotation"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.MediaThumbnailFormat"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.SphericalVideoFrameFormat"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.StereoscopicVideoPackingMode"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.VideoEncodingQuality"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IAudioEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IAudioEncodingProperties2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IAudioEncodingProperties3"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IAudioEncodingPropertiesStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IAudioEncodingPropertiesStatics2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IAudioEncodingPropertiesWithFormatUserData"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IAv1ProfileIdsStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IContainerEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IContainerEncodingProperties2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IH264ProfileIdsStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IHevcProfileIdsStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IImageEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IImageEncodingProperties2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IImageEncodingPropertiesStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IImageEncodingPropertiesStatics2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IImageEncodingPropertiesStatics3"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingProfile"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingProfile2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingProfile3"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingProfileStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingProfileStatics2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingProfileStatics3"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingProfileStatics4"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingSubtypesStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingSubtypesStatics2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingSubtypesStatics3"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingSubtypesStatics4"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingSubtypesStatics5"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingSubtypesStatics6"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaEncodingSubtypesStatics7"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMediaRatio"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IMpeg2ProfileIdsStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.ITimedMetadataEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.ITimedMetadataEncodingPropertiesStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IVideoEncodingProperties"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IVideoEncodingProperties2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IVideoEncodingProperties3"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IVideoEncodingProperties4"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IVideoEncodingProperties5"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IVideoEncodingPropertiesStatics"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IVideoEncodingPropertiesStatics2"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IVideoEncodingPropertiesStatics3"; template <> inline constexpr auto& name_v = L"Windows.Media.MediaProperties.IVp9ProfileIdsStatics"; template <> inline constexpr guid guid_v{ 0x62BC7A16,0x005C,0x4B3B,{ 0x8A,0x0B,0x0A,0x09,0x0E,0x96,0x87,0xF3 } }; // 62BC7A16-005C-4B3B-8A0B-0A090E9687F3 template <> inline constexpr guid guid_v{ 0xC45D54DA,0x80BD,0x4C23,{ 0x80,0xD5,0x72,0xD4,0xA1,0x81,0xE8,0x94 } }; // C45D54DA-80BD-4C23-80D5-72D4A181E894 template <> inline constexpr guid guid_v{ 0x87600341,0x748C,0x4F8D,{ 0xB0,0xFD,0x10,0xCA,0xF0,0x8F,0xF0,0x87 } }; // 87600341-748C-4F8D-B0FD-10CAF08FF087 template <> inline constexpr guid guid_v{ 0x0CAD332C,0xEBE9,0x4527,{ 0xB3,0x6D,0xE4,0x2A,0x13,0xCF,0x38,0xDB } }; // 0CAD332C-EBE9-4527-B36D-E42A13CF38DB template <> inline constexpr guid guid_v{ 0x7489316F,0x77A0,0x433D,{ 0x8E,0xD5,0x40,0x40,0x28,0x0E,0x86,0x65 } }; // 7489316F-77A0-433D-8ED5-4040280E8665 template <> inline constexpr guid guid_v{ 0x98F10D79,0x13EA,0x49FF,{ 0xBE,0x70,0x26,0x73,0xDB,0x69,0x70,0x2C } }; // 98F10D79-13EA-49FF-BE70-2673DB69702C template <> inline constexpr guid guid_v{ 0x9105812B,0x7C09,0x5882,{ 0x88,0xA4,0x67,0x80,0x08,0xA5,0x17,0x4D } }; // 9105812B-7C09-5882-88A4-678008A5174D template <> inline constexpr guid guid_v{ 0x59AC2A57,0xB32A,0x479E,{ 0x8A,0x61,0x4B,0x7F,0x2E,0x9E,0x7E,0xA0 } }; // 59AC2A57-B32A-479E-8A61-4B7F2E9E7EA0 template <> inline constexpr guid guid_v{ 0xB272C029,0xAE26,0x4819,{ 0xBA,0xAD,0xAD,0x7A,0x49,0xB0,0xA8,0x76 } }; // B272C029-AE26-4819-BAAD-AD7A49B0A876 template <> inline constexpr guid guid_v{ 0x38654CA7,0x846A,0x4F97,{ 0xA2,0xE5,0xC3,0xA1,0x5B,0xBF,0x70,0xFD } }; // 38654CA7-846A-4F97-A2E5-C3A15BBF70FD template <> inline constexpr guid guid_v{ 0x1E50D280,0x2AA7,0x53C1,{ 0x97,0x3F,0x21,0x89,0xFA,0x65,0x6F,0x53 } }; // 1E50D280-2AA7-53C1-973F-2189FA656F53 template <> inline constexpr guid guid_v{ 0x78625635,0xF331,0x4189,{ 0xB1,0xC3,0xB4,0x8D,0x5A,0xE0,0x34,0xF1 } }; // 78625635-F331-4189-B1C3-B48D5AE034F1 template <> inline constexpr guid guid_v{ 0xC854A2DF,0xC923,0x469B,{ 0xAC,0x8E,0x6A,0x9F,0x3C,0x1C,0xD9,0xE3 } }; // C854A2DF-C923-469B-AC8E-6A9F3C1CD9E3 template <> inline constexpr guid guid_v{ 0x257C68DC,0x8B99,0x439E,{ 0xAA,0x59,0x91,0x3A,0x36,0x16,0x12,0x97 } }; // 257C68DC-8B99-439E-AA59-913A36161297 template <> inline constexpr guid guid_v{ 0xF6C25B29,0x3824,0x46B0,{ 0x95,0x6E,0x50,0x13,0x29,0xE1,0xBE,0x3C } }; // F6C25B29-3824-46B0-956E-501329E1BE3C template <> inline constexpr guid guid_v{ 0x48F4814D,0xA2FF,0x48DC,{ 0x8E,0xA0,0xE9,0x06,0x80,0x66,0x36,0x56 } }; // 48F4814D-A2FF-48DC-8EA0-E90680663656 template <> inline constexpr guid guid_v{ 0xE7DBF5A8,0x1DB9,0x4783,{ 0x87,0x6B,0x3D,0xFE,0x12,0xAC,0xFD,0xB3 } }; // E7DBF5A8-1DB9-4783-876B-3DFE12ACFDB3 template <> inline constexpr guid guid_v{ 0x349B3E0A,0x4035,0x488E,{ 0x98,0x77,0x85,0x63,0x28,0x65,0xED,0x10 } }; // 349B3E0A-4035-488E-9877-85632865ED10 template <> inline constexpr guid guid_v{ 0xBA6EBE88,0x7570,0x4E69,{ 0xAC,0xCF,0x56,0x11,0xAD,0x01,0x5F,0x88 } }; // BA6EBE88-7570-4E69-ACCF-5611AD015F88 template <> inline constexpr guid guid_v{ 0x197F352C,0x2EDE,0x4A45,{ 0xA8,0x96,0x81,0x7A,0x48,0x54,0xF8,0xFE } }; // 197F352C-2EDE-4A45-A896-817A4854F8FE template <> inline constexpr guid guid_v{ 0xCE8DE74F,0x6AF4,0x4288,{ 0x8F,0xE2,0x79,0xAD,0xF1,0xF7,0x9A,0x43 } }; // CE8DE74F-6AF4-4288-8FE2-79ADF1F79A43 template <> inline constexpr guid guid_v{ 0x90DAC5AA,0xCF76,0x4294,{ 0xA9,0xED,0x1A,0x14,0x20,0xF5,0x1F,0x6B } }; // 90DAC5AA-CF76-4294-A9ED-1A1420F51F6B template <> inline constexpr guid guid_v{ 0x6FAFD7B5,0x9404,0x514A,{ 0x81,0xDD,0xC9,0x44,0x4D,0x64,0x8A,0xF0 } }; // 6FAFD7B5-9404-514A-81DD-C9444D648AF0 template <> inline constexpr guid guid_v{ 0xB4002AF6,0xACD4,0x4E5A,{ 0xA2,0x4B,0x5D,0x74,0x98,0xA8,0xB8,0xC4 } }; // B4002AF6-ACD4-4E5A-A24B-5D7498A8B8C4 template <> inline constexpr guid guid_v{ 0x37B6580E,0xA171,0x4464,{ 0xBA,0x5A,0x53,0x18,0x9E,0x48,0xC1,0xC8 } }; // 37B6580E-A171-4464-BA5A-53189E48C1C8 template <> inline constexpr guid guid_v{ 0x4B7CD23D,0x42FF,0x4D33,{ 0x85,0x31,0x06,0x26,0xBE,0xE4,0xB5,0x2D } }; // 4B7CD23D-42FF-4D33-8531-0626BEE4B52D template <> inline constexpr guid guid_v{ 0xBA2414E4,0x883D,0x464E,{ 0xA4,0x4F,0x09,0x7D,0xA0,0x8E,0xF7,0xFF } }; // BA2414E4-883D-464E-A44F-097DA08EF7FF template <> inline constexpr guid guid_v{ 0xDDECE58A,0x3949,0x4644,{ 0x8A,0x2C,0x59,0xEF,0x02,0xC6,0x42,0xFA } }; // DDECE58A-3949-4644-8A2C-59EF02C642FA template <> inline constexpr guid guid_v{ 0x5AD4A007,0xFFCE,0x4760,{ 0x98,0x28,0x5D,0x0C,0x99,0x63,0x7E,0x6A } }; // 5AD4A007-FFCE-4760-9828-5D0C99637E6A template <> inline constexpr guid guid_v{ 0xA1252973,0xA984,0x5912,{ 0x93,0xBB,0x54,0xE7,0xE5,0x69,0xE0,0x53 } }; // A1252973-A984-5912-93BB-54E7E569E053 template <> inline constexpr guid guid_v{ 0x92F2DCA7,0x9937,0x52A1,{ 0xB6,0x19,0xDD,0xFA,0xD8,0x1C,0xD9,0x9C } }; // 92F2DCA7-9937-52A1-B619-DDFAD81CD99C template <> inline constexpr guid guid_v{ 0xD2D0FEE5,0x8929,0x401D,{ 0xAC,0x78,0x7D,0x35,0x7E,0x37,0x81,0x63 } }; // D2D0FEE5-8929-401D-AC78-7D357E378163 template <> inline constexpr guid guid_v{ 0xA461FF85,0xE57A,0x4128,{ 0x9B,0x21,0xD5,0x33,0x1B,0x04,0x23,0x5C } }; // A461FF85-E57A-4128-9B21-D5331B04235C template <> inline constexpr guid guid_v{ 0x51CD30D3,0xD690,0x4CFA,{ 0x97,0xF4,0x4A,0x39,0x8E,0x9D,0xB4,0x20 } }; // 51CD30D3-D690-4CFA-97F4-4A398E9DB420 template <> inline constexpr guid guid_v{ 0x6629BB67,0x6E55,0x5643,{ 0x89,0xA0,0x7A,0x7E,0x8D,0x85,0xB5,0x2C } }; // 6629BB67-6E55-5643-89A0-7A7E8D85B52C template <> inline constexpr guid guid_v{ 0x76EE6C9A,0x37C2,0x4F2A,{ 0x88,0x0A,0x12,0x82,0xBB,0xB4,0x37,0x3D } }; // 76EE6C9A-37C2-4F2A-880A-1282BBB4373D template <> inline constexpr guid guid_v{ 0xF743A1EF,0xD465,0x4290,{ 0xA9,0x4B,0xEF,0x0F,0x15,0x28,0xF8,0xE3 } }; // F743A1EF-D465-4290-A94B-EF0F1528F8E3 template <> inline constexpr guid guid_v{ 0x386BCDC4,0x873A,0x479F,{ 0xB3,0xEB,0x56,0xC1,0xFC,0xBE,0xC6,0xD7 } }; // 386BCDC4-873A-479F-B3EB-56C1FCBEC6D7 template <> inline constexpr guid guid_v{ 0x724EF014,0xC10C,0x40F2,{ 0x9D,0x72,0x3E,0xE1,0x3B,0x45,0xFA,0x8E } }; // 724EF014-C10C-40F2-9D72-3EE13B45FA8E template <> inline constexpr guid guid_v{ 0x4959080F,0x272F,0x4ECE,{ 0xA4,0xDF,0xC0,0xCC,0xDB,0x33,0xD8,0x40 } }; // 4959080F-272F-4ECE-A4DF-C0CCDB33D840 template <> inline constexpr guid guid_v{ 0x3CE14D44,0x1DC5,0x43DB,{ 0x9F,0x38,0xEB,0xEB,0xF9,0x01,0x52,0xCB } }; // 3CE14D44-1DC5-43DB-9F38-EBEBF90152CB template <> inline constexpr guid guid_v{ 0xCF1EBD5D,0x49FE,0x4D00,{ 0xB5,0x9A,0xCF,0xA4,0xDF,0xC5,0x19,0x44 } }; // CF1EBD5D-49FE-4D00-B59A-CFA4DFC51944 template <> inline constexpr guid guid_v{ 0x65B46685,0x60DA,0x5E51,{ 0x91,0xA2,0xB3,0x8C,0x47,0x63,0xB8,0x72 } }; // 65B46685-60DA-5E51-91A2-B38C4763B872 template <> inline constexpr guid guid_v{ 0x20311A55,0xFE06,0x5883,{ 0x92,0xD9,0x60,0x80,0xC9,0x77,0x43,0xE5 } }; // 20311A55-FE06-5883-92D9-6080C97743E5 template <> struct default_interface{ using type = winrt::Windows::Media::MediaProperties::IAudioEncodingProperties; }; template <> struct default_interface{ using type = winrt::Windows::Media::MediaProperties::IContainerEncodingProperties; }; template <> struct default_interface{ using type = winrt::Windows::Media::MediaProperties::IImageEncodingProperties; }; template <> struct default_interface{ using type = winrt::Windows::Media::MediaProperties::IMediaEncodingProfile; }; template <> struct default_interface{ using type = winrt::Windows::Foundation::Collections::IMap; }; template <> struct default_interface{ using type = winrt::Windows::Media::MediaProperties::IMediaRatio; }; template <> struct default_interface{ using type = winrt::Windows::Media::MediaProperties::IMediaEncodingProperties; }; template <> struct default_interface{ using type = winrt::Windows::Media::MediaProperties::IVideoEncodingProperties; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall put_Bitrate(uint32_t) noexcept = 0; virtual int32_t __stdcall get_Bitrate(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_ChannelCount(uint32_t) noexcept = 0; virtual int32_t __stdcall get_ChannelCount(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_SampleRate(uint32_t) noexcept = 0; virtual int32_t __stdcall get_SampleRate(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_BitsPerSample(uint32_t) noexcept = 0; virtual int32_t __stdcall get_BitsPerSample(uint32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_IsSpatial(bool*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall Copy(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateAac(uint32_t, uint32_t, uint32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateAacAdts(uint32_t, uint32_t, uint32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateMp3(uint32_t, uint32_t, uint32_t, void**) noexcept = 0; virtual int32_t __stdcall CreatePcm(uint32_t, uint32_t, uint32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateWma(uint32_t, uint32_t, uint32_t, void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateAlac(uint32_t, uint32_t, uint32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateFlac(uint32_t, uint32_t, uint32_t, void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall SetFormatUserData(uint32_t, uint8_t*) noexcept = 0; virtual int32_t __stdcall GetFormatUserData(uint32_t*, uint8_t**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_MainChromaSubsampling420BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling420BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling400BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling400BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_HighChromaSubsampling444BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_HighChromaSubsampling444BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ProfessionalChromaSubsampling420BitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ProfessionalChromaSubsampling400BitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ProfessionalChromaSubsampling444BitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ProfessionalChromaSubsampling422BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ProfessionalChromaSubsampling422BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_ProfessionalChromaSubsampling422BitDepth12(int32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall Copy(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_ConstrainedBaseline(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Baseline(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Extended(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Main(int32_t*) noexcept = 0; virtual int32_t __stdcall get_High(int32_t*) noexcept = 0; virtual int32_t __stdcall get_High10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_High422(int32_t*) noexcept = 0; virtual int32_t __stdcall get_High444(int32_t*) noexcept = 0; virtual int32_t __stdcall get_StereoHigh(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MultiviewHigh(int32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_MainChromaSubsampling420BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling420BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling420BitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling422BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling422BitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling444BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling444BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainChromaSubsampling444BitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MonochromeBitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MonochromeBitDepth16(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainIntraChromaSubsampling420BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainIntraChromaSubsampling420BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainIntraChromaSubsampling420BitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainIntraChromaSubsampling422BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainIntraChromaSubsampling422BitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainIntraChromaSubsampling444BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainIntraChromaSubsampling444BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainIntraChromaSubsampling444BitDepth12(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainIntraChromaSubsampling444BitDepth16(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainStillChromaSubsampling420BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainStillChromaSubsampling444BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_MainStillChromaSubsampling444BitDepth16(int32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall put_Width(uint32_t) noexcept = 0; virtual int32_t __stdcall get_Width(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_Height(uint32_t) noexcept = 0; virtual int32_t __stdcall get_Height(uint32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall Copy(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateJpeg(void**) noexcept = 0; virtual int32_t __stdcall CreatePng(void**) noexcept = 0; virtual int32_t __stdcall CreateJpegXR(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateUncompressed(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateBmp(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateHeif(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall put_Audio(void*) noexcept = 0; virtual int32_t __stdcall get_Audio(void**) noexcept = 0; virtual int32_t __stdcall put_Video(void*) noexcept = 0; virtual int32_t __stdcall get_Video(void**) noexcept = 0; virtual int32_t __stdcall put_Container(void*) noexcept = 0; virtual int32_t __stdcall get_Container(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall SetAudioTracks(void*) noexcept = 0; virtual int32_t __stdcall GetAudioTracks(void**) noexcept = 0; virtual int32_t __stdcall SetVideoTracks(void*) noexcept = 0; virtual int32_t __stdcall GetVideoTracks(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall SetTimedMetadataTracks(void*) noexcept = 0; virtual int32_t __stdcall GetTimedMetadataTracks(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateM4a(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateMp3(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateWma(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateMp4(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateWmv(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateFromFileAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateFromStreamAsync(void*, void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateWav(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateAvi(int32_t, void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateAlac(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateFlac(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateHevc(int32_t, void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateVp9(int32_t, void**) noexcept = 0; virtual int32_t __stdcall CreateAv1(int32_t, void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_Properties(void**) noexcept = 0; virtual int32_t __stdcall get_Type(void**) noexcept = 0; virtual int32_t __stdcall put_Subtype(void*) noexcept = 0; virtual int32_t __stdcall get_Subtype(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_Aac(void**) noexcept = 0; virtual int32_t __stdcall get_AacAdts(void**) noexcept = 0; virtual int32_t __stdcall get_Ac3(void**) noexcept = 0; virtual int32_t __stdcall get_AmrNb(void**) noexcept = 0; virtual int32_t __stdcall get_AmrWb(void**) noexcept = 0; virtual int32_t __stdcall get_Argb32(void**) noexcept = 0; virtual int32_t __stdcall get_Asf(void**) noexcept = 0; virtual int32_t __stdcall get_Avi(void**) noexcept = 0; virtual int32_t __stdcall get_Bgra8(void**) noexcept = 0; virtual int32_t __stdcall get_Bmp(void**) noexcept = 0; virtual int32_t __stdcall get_Eac3(void**) noexcept = 0; virtual int32_t __stdcall get_Float(void**) noexcept = 0; virtual int32_t __stdcall get_Gif(void**) noexcept = 0; virtual int32_t __stdcall get_H263(void**) noexcept = 0; virtual int32_t __stdcall get_H264(void**) noexcept = 0; virtual int32_t __stdcall get_H264Es(void**) noexcept = 0; virtual int32_t __stdcall get_Hevc(void**) noexcept = 0; virtual int32_t __stdcall get_HevcEs(void**) noexcept = 0; virtual int32_t __stdcall get_Iyuv(void**) noexcept = 0; virtual int32_t __stdcall get_Jpeg(void**) noexcept = 0; virtual int32_t __stdcall get_JpegXr(void**) noexcept = 0; virtual int32_t __stdcall get_Mjpg(void**) noexcept = 0; virtual int32_t __stdcall get_Mpeg(void**) noexcept = 0; virtual int32_t __stdcall get_Mpeg1(void**) noexcept = 0; virtual int32_t __stdcall get_Mpeg2(void**) noexcept = 0; virtual int32_t __stdcall get_Mp3(void**) noexcept = 0; virtual int32_t __stdcall get_Mpeg4(void**) noexcept = 0; virtual int32_t __stdcall get_Nv12(void**) noexcept = 0; virtual int32_t __stdcall get_Pcm(void**) noexcept = 0; virtual int32_t __stdcall get_Png(void**) noexcept = 0; virtual int32_t __stdcall get_Rgb24(void**) noexcept = 0; virtual int32_t __stdcall get_Rgb32(void**) noexcept = 0; virtual int32_t __stdcall get_Tiff(void**) noexcept = 0; virtual int32_t __stdcall get_Wave(void**) noexcept = 0; virtual int32_t __stdcall get_Wma8(void**) noexcept = 0; virtual int32_t __stdcall get_Wma9(void**) noexcept = 0; virtual int32_t __stdcall get_Wmv3(void**) noexcept = 0; virtual int32_t __stdcall get_Wvc1(void**) noexcept = 0; virtual int32_t __stdcall get_Yuy2(void**) noexcept = 0; virtual int32_t __stdcall get_Yv12(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_Vp9(void**) noexcept = 0; virtual int32_t __stdcall get_L8(void**) noexcept = 0; virtual int32_t __stdcall get_L16(void**) noexcept = 0; virtual int32_t __stdcall get_D16(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_Alac(void**) noexcept = 0; virtual int32_t __stdcall get_Flac(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_P010(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_Heif(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_Pgs(void**) noexcept = 0; virtual int32_t __stdcall get_Srt(void**) noexcept = 0; virtual int32_t __stdcall get_Ssa(void**) noexcept = 0; virtual int32_t __stdcall get_VobSub(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_Av1(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall put_Numerator(uint32_t) noexcept = 0; virtual int32_t __stdcall get_Numerator(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_Denominator(uint32_t) noexcept = 0; virtual int32_t __stdcall get_Denominator(uint32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_Simple(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Main(int32_t*) noexcept = 0; virtual int32_t __stdcall get_SignalNoiseRatioScalable(int32_t*) noexcept = 0; virtual int32_t __stdcall get_SpatiallyScalable(int32_t*) noexcept = 0; virtual int32_t __stdcall get_High(int32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall SetFormatUserData(uint32_t, uint8_t*) noexcept = 0; virtual int32_t __stdcall GetFormatUserData(uint32_t*, uint8_t**) noexcept = 0; virtual int32_t __stdcall Copy(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreatePgs(void**) noexcept = 0; virtual int32_t __stdcall CreateSrt(void**) noexcept = 0; virtual int32_t __stdcall CreateSsa(uint32_t, uint8_t*, void**) noexcept = 0; virtual int32_t __stdcall CreateVobSub(uint32_t, uint8_t*, void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall put_Bitrate(uint32_t) noexcept = 0; virtual int32_t __stdcall get_Bitrate(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_Width(uint32_t) noexcept = 0; virtual int32_t __stdcall get_Width(uint32_t*) noexcept = 0; virtual int32_t __stdcall put_Height(uint32_t) noexcept = 0; virtual int32_t __stdcall get_Height(uint32_t*) noexcept = 0; virtual int32_t __stdcall get_FrameRate(void**) noexcept = 0; virtual int32_t __stdcall get_PixelAspectRatio(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall SetFormatUserData(uint32_t, uint8_t*) noexcept = 0; virtual int32_t __stdcall GetFormatUserData(uint32_t*, uint8_t**) noexcept = 0; virtual int32_t __stdcall put_ProfileId(int32_t) noexcept = 0; virtual int32_t __stdcall get_ProfileId(int32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_StereoscopicVideoPackingMode(int32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_SphericalVideoFrameFormat(int32_t*) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall Copy(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateH264(void**) noexcept = 0; virtual int32_t __stdcall CreateMpeg2(void**) noexcept = 0; virtual int32_t __stdcall CreateUncompressed(void*, uint32_t, uint32_t, void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateHevc(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall CreateVp9(void**) noexcept = 0; virtual int32_t __stdcall CreateAv1(void**) noexcept = 0; }; }; template <> struct abi { struct __declspec(novtable) type : inspectable_abi { virtual int32_t __stdcall get_Profile0ChromaSubsampling420BitDepth8(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Profile2ChromaSubsampling420BitDepth10(int32_t*) noexcept = 0; virtual int32_t __stdcall get_Profile2ChromaSubsampling420BitDepth12(int32_t*) noexcept = 0; }; }; template struct consume_Windows_Media_MediaProperties_IAudioEncodingProperties { WINRT_IMPL_AUTO(void) Bitrate(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) Bitrate() const; WINRT_IMPL_AUTO(void) ChannelCount(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) ChannelCount() const; WINRT_IMPL_AUTO(void) SampleRate(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) SampleRate() const; WINRT_IMPL_AUTO(void) BitsPerSample(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) BitsPerSample() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IAudioEncodingProperties; }; template struct consume_Windows_Media_MediaProperties_IAudioEncodingProperties2 { [[nodiscard]] WINRT_IMPL_AUTO(bool) IsSpatial() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IAudioEncodingProperties2; }; template struct consume_Windows_Media_MediaProperties_IAudioEncodingProperties3 { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::AudioEncodingProperties) Copy() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IAudioEncodingProperties3; }; template struct consume_Windows_Media_MediaProperties_IAudioEncodingPropertiesStatics { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::AudioEncodingProperties) CreateAac(uint32_t sampleRate, uint32_t channelCount, uint32_t bitrate) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::AudioEncodingProperties) CreateAacAdts(uint32_t sampleRate, uint32_t channelCount, uint32_t bitrate) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::AudioEncodingProperties) CreateMp3(uint32_t sampleRate, uint32_t channelCount, uint32_t bitrate) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::AudioEncodingProperties) CreatePcm(uint32_t sampleRate, uint32_t channelCount, uint32_t bitsPerSample) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::AudioEncodingProperties) CreateWma(uint32_t sampleRate, uint32_t channelCount, uint32_t bitrate) const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IAudioEncodingPropertiesStatics; }; template struct consume_Windows_Media_MediaProperties_IAudioEncodingPropertiesStatics2 { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::AudioEncodingProperties) CreateAlac(uint32_t sampleRate, uint32_t channelCount, uint32_t bitsPerSample) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::AudioEncodingProperties) CreateFlac(uint32_t sampleRate, uint32_t channelCount, uint32_t bitsPerSample) const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IAudioEncodingPropertiesStatics2; }; template struct consume_Windows_Media_MediaProperties_IAudioEncodingPropertiesWithFormatUserData { WINRT_IMPL_AUTO(void) SetFormatUserData(array_view value) const; WINRT_IMPL_AUTO(void) GetFormatUserData(com_array& value) const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IAudioEncodingPropertiesWithFormatUserData; }; template struct consume_Windows_Media_MediaProperties_IAv1ProfileIdsStatics { [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling420BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling420BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling400BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling400BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) HighChromaSubsampling444BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) HighChromaSubsampling444BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) ProfessionalChromaSubsampling420BitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) ProfessionalChromaSubsampling400BitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) ProfessionalChromaSubsampling444BitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) ProfessionalChromaSubsampling422BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) ProfessionalChromaSubsampling422BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) ProfessionalChromaSubsampling422BitDepth12() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IAv1ProfileIdsStatics; }; template struct consume_Windows_Media_MediaProperties_IContainerEncodingProperties { }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IContainerEncodingProperties; }; template struct consume_Windows_Media_MediaProperties_IContainerEncodingProperties2 { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::ContainerEncodingProperties) Copy() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IContainerEncodingProperties2; }; template struct consume_Windows_Media_MediaProperties_IH264ProfileIdsStatics { [[nodiscard]] WINRT_IMPL_AUTO(int32_t) ConstrainedBaseline() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) Baseline() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) Extended() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) Main() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) High() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) High10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) High422() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) High444() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) StereoHigh() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MultiviewHigh() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IH264ProfileIdsStatics; }; template struct consume_Windows_Media_MediaProperties_IHevcProfileIdsStatics { [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling420BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling420BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling420BitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling422BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling422BitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling444BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling444BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainChromaSubsampling444BitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MonochromeBitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MonochromeBitDepth16() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainIntraChromaSubsampling420BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainIntraChromaSubsampling420BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainIntraChromaSubsampling420BitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainIntraChromaSubsampling422BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainIntraChromaSubsampling422BitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainIntraChromaSubsampling444BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainIntraChromaSubsampling444BitDepth10() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainIntraChromaSubsampling444BitDepth12() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainIntraChromaSubsampling444BitDepth16() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainStillChromaSubsampling420BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainStillChromaSubsampling444BitDepth8() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) MainStillChromaSubsampling444BitDepth16() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IHevcProfileIdsStatics; }; template struct consume_Windows_Media_MediaProperties_IImageEncodingProperties { WINRT_IMPL_AUTO(void) Width(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) Width() const; WINRT_IMPL_AUTO(void) Height(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) Height() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IImageEncodingProperties; }; template struct consume_Windows_Media_MediaProperties_IImageEncodingProperties2 { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::ImageEncodingProperties) Copy() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IImageEncodingProperties2; }; template struct consume_Windows_Media_MediaProperties_IImageEncodingPropertiesStatics { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::ImageEncodingProperties) CreateJpeg() const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::ImageEncodingProperties) CreatePng() const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::ImageEncodingProperties) CreateJpegXR() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IImageEncodingPropertiesStatics; }; template struct consume_Windows_Media_MediaProperties_IImageEncodingPropertiesStatics2 { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::ImageEncodingProperties) CreateUncompressed(winrt::Windows::Media::MediaProperties::MediaPixelFormat const& format) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::ImageEncodingProperties) CreateBmp() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IImageEncodingPropertiesStatics2; }; template struct consume_Windows_Media_MediaProperties_IImageEncodingPropertiesStatics3 { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::ImageEncodingProperties) CreateHeif() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IImageEncodingPropertiesStatics3; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingProfile { WINRT_IMPL_AUTO(void) Audio(winrt::Windows::Media::MediaProperties::AudioEncodingProperties const& value) const; [[nodiscard]] WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::AudioEncodingProperties) Audio() const; WINRT_IMPL_AUTO(void) Video(winrt::Windows::Media::MediaProperties::VideoEncodingProperties const& value) const; [[nodiscard]] WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::VideoEncodingProperties) Video() const; WINRT_IMPL_AUTO(void) Container(winrt::Windows::Media::MediaProperties::ContainerEncodingProperties const& value) const; [[nodiscard]] WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::ContainerEncodingProperties) Container() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingProfile; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingProfile2 { WINRT_IMPL_AUTO(void) SetAudioTracks(param::iterable const& value) const; WINRT_IMPL_AUTO(winrt::Windows::Foundation::Collections::IVector) GetAudioTracks() const; WINRT_IMPL_AUTO(void) SetVideoTracks(param::iterable const& value) const; WINRT_IMPL_AUTO(winrt::Windows::Foundation::Collections::IVector) GetVideoTracks() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingProfile2; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingProfile3 { WINRT_IMPL_AUTO(void) SetTimedMetadataTracks(param::iterable const& value) const; WINRT_IMPL_AUTO(winrt::Windows::Foundation::Collections::IVector) GetTimedMetadataTracks() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingProfile3; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingProfileStatics { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateM4a(winrt::Windows::Media::MediaProperties::AudioEncodingQuality const& quality) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateMp3(winrt::Windows::Media::MediaProperties::AudioEncodingQuality const& quality) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateWma(winrt::Windows::Media::MediaProperties::AudioEncodingQuality const& quality) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateMp4(winrt::Windows::Media::MediaProperties::VideoEncodingQuality const& quality) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateWmv(winrt::Windows::Media::MediaProperties::VideoEncodingQuality const& quality) const; WINRT_IMPL_AUTO(winrt::Windows::Foundation::IAsyncOperation) CreateFromFileAsync(winrt::Windows::Storage::IStorageFile const& file) const; WINRT_IMPL_AUTO(winrt::Windows::Foundation::IAsyncOperation) CreateFromStreamAsync(winrt::Windows::Storage::Streams::IRandomAccessStream const& stream) const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingProfileStatics; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingProfileStatics2 { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateWav(winrt::Windows::Media::MediaProperties::AudioEncodingQuality const& quality) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateAvi(winrt::Windows::Media::MediaProperties::VideoEncodingQuality const& quality) const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingProfileStatics2; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingProfileStatics3 { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateAlac(winrt::Windows::Media::MediaProperties::AudioEncodingQuality const& quality) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateFlac(winrt::Windows::Media::MediaProperties::AudioEncodingQuality const& quality) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateHevc(winrt::Windows::Media::MediaProperties::VideoEncodingQuality const& quality) const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingProfileStatics3; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingProfileStatics4 { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateVp9(winrt::Windows::Media::MediaProperties::VideoEncodingQuality const& quality) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaEncodingProfile) CreateAv1(winrt::Windows::Media::MediaProperties::VideoEncodingQuality const& quality) const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingProfileStatics4; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingProperties { [[nodiscard]] WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaPropertySet) Properties() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Type() const; WINRT_IMPL_AUTO(void) Subtype(param::hstring const& value) const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Subtype() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingProperties; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics { [[nodiscard]] WINRT_IMPL_AUTO(hstring) Aac() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) AacAdts() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Ac3() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) AmrNb() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) AmrWb() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Argb32() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Asf() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Avi() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Bgra8() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Bmp() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Eac3() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Float() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Gif() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) H263() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) H264() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) H264Es() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Hevc() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) HevcEs() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Iyuv() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Jpeg() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) JpegXr() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Mjpg() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Mpeg() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Mpeg1() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Mpeg2() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Mp3() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Mpeg4() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Nv12() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Pcm() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Png() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Rgb24() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Rgb32() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Tiff() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Wave() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Wma8() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Wma9() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Wmv3() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Wvc1() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Yuy2() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Yv12() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics2 { [[nodiscard]] WINRT_IMPL_AUTO(hstring) Vp9() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) L8() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) L16() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) D16() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics2; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics3 { [[nodiscard]] WINRT_IMPL_AUTO(hstring) Alac() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Flac() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics3; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics4 { [[nodiscard]] WINRT_IMPL_AUTO(hstring) P010() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics4; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics5 { [[nodiscard]] WINRT_IMPL_AUTO(hstring) Heif() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics5; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics6 { [[nodiscard]] WINRT_IMPL_AUTO(hstring) Pgs() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Srt() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) Ssa() const; [[nodiscard]] WINRT_IMPL_AUTO(hstring) VobSub() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics6; }; template struct consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics7 { [[nodiscard]] WINRT_IMPL_AUTO(hstring) Av1() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaEncodingSubtypesStatics7; }; template struct consume_Windows_Media_MediaProperties_IMediaRatio { WINRT_IMPL_AUTO(void) Numerator(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) Numerator() const; WINRT_IMPL_AUTO(void) Denominator(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) Denominator() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMediaRatio; }; template struct consume_Windows_Media_MediaProperties_IMpeg2ProfileIdsStatics { [[nodiscard]] WINRT_IMPL_AUTO(int32_t) Simple() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) Main() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) SignalNoiseRatioScalable() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) SpatiallyScalable() const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) High() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IMpeg2ProfileIdsStatics; }; template struct consume_Windows_Media_MediaProperties_ITimedMetadataEncodingProperties { WINRT_IMPL_AUTO(void) SetFormatUserData(array_view value) const; WINRT_IMPL_AUTO(void) GetFormatUserData(com_array& value) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::TimedMetadataEncodingProperties) Copy() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_ITimedMetadataEncodingProperties; }; template struct consume_Windows_Media_MediaProperties_ITimedMetadataEncodingPropertiesStatics { WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::TimedMetadataEncodingProperties) CreatePgs() const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::TimedMetadataEncodingProperties) CreateSrt() const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::TimedMetadataEncodingProperties) CreateSsa(array_view formatUserData) const; WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::TimedMetadataEncodingProperties) CreateVobSub(array_view formatUserData) const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_ITimedMetadataEncodingPropertiesStatics; }; template struct consume_Windows_Media_MediaProperties_IVideoEncodingProperties { WINRT_IMPL_AUTO(void) Bitrate(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) Bitrate() const; WINRT_IMPL_AUTO(void) Width(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) Width() const; WINRT_IMPL_AUTO(void) Height(uint32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(uint32_t) Height() const; [[nodiscard]] WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaRatio) FrameRate() const; [[nodiscard]] WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::MediaRatio) PixelAspectRatio() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IVideoEncodingProperties; }; template struct consume_Windows_Media_MediaProperties_IVideoEncodingProperties2 { WINRT_IMPL_AUTO(void) SetFormatUserData(array_view value) const; WINRT_IMPL_AUTO(void) GetFormatUserData(com_array& value) const; WINRT_IMPL_AUTO(void) ProfileId(int32_t value) const; [[nodiscard]] WINRT_IMPL_AUTO(int32_t) ProfileId() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IVideoEncodingProperties2; }; template struct consume_Windows_Media_MediaProperties_IVideoEncodingProperties3 { [[nodiscard]] WINRT_IMPL_AUTO(winrt::Windows::Media::MediaProperties::StereoscopicVideoPackingMode) StereoscopicVideoPackingMode() const; }; template <> struct consume { template using type = consume_Windows_Media_MediaProperties_IVideoEncodingProperties3