// WARNING: Please don't edit this file. It was generated by C++/WinRT v2.0.240405.15 #pragma once #ifndef WINRT_Windows_Data_Text_0_H #define WINRT_Windows_Data_Text_0_H WINRT_EXPORT namespace winrt::Windows::Foundation::Collections { template struct WINRT_IMPL_EMPTY_BASES IIterable; } WINRT_EXPORT namespace winrt::Windows::UI::Text::Core { enum class CoreTextInputScope : int32_t; } WINRT_EXPORT namespace winrt::Windows::Data::Text { enum class AlternateNormalizationFormat : int32_t { NotNormalized = 0, Number = 1, Currency = 3, Date = 4, Time = 5, }; enum class TextPredictionOptions : uint32_t { None = 0, Predictions = 0x1, Corrections = 0x2, }; enum class UnicodeGeneralCategory : int32_t { UppercaseLetter = 0, LowercaseLetter = 1, TitlecaseLetter = 2, ModifierLetter = 3, OtherLetter = 4, NonspacingMark = 5, SpacingCombiningMark = 6, EnclosingMark = 7, DecimalDigitNumber = 8, LetterNumber = 9, OtherNumber = 10, SpaceSeparator = 11, LineSeparator = 12, ParagraphSeparator = 13, Control = 14, Format = 15, Surrogate = 16, PrivateUse = 17, ConnectorPunctuation = 18, DashPunctuation = 19, OpenPunctuation = 20, ClosePunctuation = 21, InitialQuotePunctuation = 22, FinalQuotePunctuation = 23, OtherPunctuation = 24, MathSymbol = 25, CurrencySymbol = 26, ModifierSymbol = 27, OtherSymbol = 28, NotAssigned = 29, }; enum class UnicodeNumericType : int32_t { None = 0, Decimal = 1, Digit = 2, Numeric = 3, }; struct IAlternateWordForm; struct ISelectableWordSegment; struct ISelectableWordsSegmenter; struct ISelectableWordsSegmenterFactory; struct ISemanticTextQuery; struct ISemanticTextQueryFactory; struct ITextConversionGenerator; struct ITextConversionGeneratorFactory; struct ITextPhoneme; struct ITextPredictionGenerator; struct ITextPredictionGenerator2; struct ITextPredictionGeneratorFactory; struct ITextReverseConversionGenerator; struct ITextReverseConversionGenerator2; struct ITextReverseConversionGeneratorFactory; struct IUnicodeCharactersStatics; struct IWordSegment; struct IWordsSegmenter; struct IWordsSegmenterFactory; struct AlternateWordForm; struct SelectableWordSegment; struct SelectableWordsSegmenter; struct SemanticTextQuery; struct TextConversionGenerator; struct TextPhoneme; struct TextPredictionGenerator; struct TextReverseConversionGenerator; struct UnicodeCharacters; struct WordSegment; struct WordsSegmenter; struct TextSegment; struct SelectableWordSegmentsTokenizingHandler; struct WordSegmentsTokenizingHandler; } 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 = 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 = struct_category; }; template <> struct category{ using type = delegate_category; }; template <> struct category{ using type = delegate_category; }; template <> inline constexpr auto& name_v = L"Windows.Data.Text.AlternateWordForm"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.SelectableWordSegment"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.SelectableWordsSegmenter"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.SemanticTextQuery"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.TextConversionGenerator"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.TextPhoneme"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.TextPredictionGenerator"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.TextReverseConversionGenerator"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.UnicodeCharacters"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.WordSegment"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.WordsSegmenter"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.AlternateNormalizationFormat"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.TextPredictionOptions"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.UnicodeGeneralCategory"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.UnicodeNumericType"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.TextSegment"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.IAlternateWordForm"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ISelectableWordSegment"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ISelectableWordsSegmenter"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ISelectableWordsSegmenterFactory"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ISemanticTextQuery"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ISemanticTextQueryFactory"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ITextConversionGenerator"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ITextConversionGeneratorFactory"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ITextPhoneme"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ITextPredictionGenerator"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ITextPredictionGenerator2"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ITextPredictionGeneratorFactory"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ITextReverseConversionGenerator"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ITextReverseConversionGenerator2"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.ITextReverseConversionGeneratorFactory"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.IUnicodeCharactersStatics"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.IWordSegment"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.IWordsSegmenter"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.IWordsSegmenterFactory"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.SelectableWordSegmentsTokenizingHandler"; template <> inline constexpr auto& name_v = L"Windows.Data.Text.WordSegmentsTokenizingHandler"; template <> inline constexpr guid guid_v{ 0x47396C1E,0x51B9,0x4207,{ 0x91,0x46,0x24,0x8E,0x63,0x6A,0x1D,0x1D } }; // 47396C1E-51B9-4207-9146-248E636A1D1D template <> inline constexpr guid guid_v{ 0x916A4CB7,0x8AA7,0x4C78,{ 0xB3,0x74,0x5D,0xED,0xB7,0x52,0xE6,0x0B } }; // 916A4CB7-8AA7-4C78-B374-5DEDB752E60B template <> inline constexpr guid guid_v{ 0xF6DC31E7,0x4B13,0x45C5,{ 0x88,0x97,0x7D,0x71,0x26,0x9E,0x08,0x5D } }; // F6DC31E7-4B13-45C5-8897-7D71269E085D template <> inline constexpr guid guid_v{ 0x8C7A7648,0x6057,0x4339,{ 0xBC,0x70,0xF2,0x10,0x01,0x0A,0x41,0x50 } }; // 8C7A7648-6057-4339-BC70-F210010A4150 template <> inline constexpr guid guid_v{ 0x6A1CAB51,0x1FB2,0x4909,{ 0x80,0xB8,0x35,0x73,0x1A,0x2B,0x3E,0x7F } }; // 6A1CAB51-1FB2-4909-80B8-35731A2B3E7F template <> inline constexpr guid guid_v{ 0x238C0503,0xF995,0x4587,{ 0x87,0x77,0xA2,0xB7,0xD8,0x0A,0xCF,0xEF } }; // 238C0503-F995-4587-8777-A2B7D80ACFEF template <> inline constexpr guid guid_v{ 0x03606A5E,0x2AA9,0x4AB6,{ 0xAF,0x8B,0xA5,0x62,0xB6,0x3A,0x89,0x92 } }; // 03606A5E-2AA9-4AB6-AF8B-A562B63A8992 template <> inline constexpr guid guid_v{ 0xFCAA3781,0x3083,0x49AB,{ 0xBE,0x15,0x56,0xDF,0xBB,0xB7,0x4D,0x6F } }; // FCAA3781-3083-49AB-BE15-56DFBBB74D6F template <> inline constexpr guid guid_v{ 0x9362A40A,0x9B7A,0x4569,{ 0x94,0xCF,0xD8,0x4F,0x2F,0x38,0xCF,0x9B } }; // 9362A40A-9B7A-4569-94CF-D84F2F38CF9B template <> inline constexpr guid guid_v{ 0x5EACAB07,0xABF1,0x4CB6,{ 0x9D,0x9E,0x32,0x6F,0x2B,0x46,0x87,0x56 } }; // 5EACAB07-ABF1-4CB6-9D9E-326F2B468756 template <> inline constexpr guid guid_v{ 0xB84723B8,0x2C77,0x486A,{ 0x90,0x0A,0xA3,0x45,0x3E,0xED,0xC1,0x5D } }; // B84723B8-2C77-486A-900A-A3453EEDC15D template <> inline constexpr guid guid_v{ 0x7257B416,0x8BA2,0x4751,{ 0x9D,0x30,0x9D,0x85,0x43,0x56,0x53,0xA2 } }; // 7257B416-8BA2-4751-9D30-9D85435653A2 template <> inline constexpr guid guid_v{ 0x51E7F514,0x9C51,0x4D86,{ 0xAE,0x1B,0xB4,0x98,0xFB,0xAD,0x83,0x13 } }; // 51E7F514-9C51-4D86-AE1B-B498FBAD8313 template <> inline constexpr guid guid_v{ 0x1AAFD2EC,0x85D6,0x46FD,{ 0x82,0x8A,0x3A,0x48,0x30,0xFA,0x6E,0x18 } }; // 1AAFD2EC-85D6-46FD-828A-3A4830FA6E18 template <> inline constexpr guid guid_v{ 0x63BED326,0x1FDA,0x41F6,{ 0x89,0xD5,0x23,0xDD,0xEA,0x3C,0x72,0x9A } }; // 63BED326-1FDA-41F6-89D5-23DDEA3C729A template <> inline constexpr guid guid_v{ 0x97909E87,0x9291,0x4F91,{ 0xB6,0xC8,0xB6,0xE3,0x59,0xD7,0xA7,0xFB } }; // 97909E87-9291-4F91-B6C8-B6E359D7A7FB template <> inline constexpr guid guid_v{ 0xD2D4BA6D,0x987C,0x4CC0,{ 0xB6,0xBD,0xD4,0x9A,0x11,0xB3,0x8F,0x9A } }; // D2D4BA6D-987C-4CC0-B6BD-D49A11B38F9A template <> inline constexpr guid guid_v{ 0x86B4D4D1,0xB2FE,0x4E34,{ 0xA8,0x1D,0x66,0x64,0x03,0x00,0x45,0x4F } }; // 86B4D4D1-B2FE-4E34-A81D-66640300454F template <> inline constexpr guid guid_v{ 0xE6977274,0xFC35,0x455C,{ 0x8B,0xFB,0x6D,0x7F,0x46,0x53,0xCA,0x97 } }; // E6977274-FC35-455C-8BFB-6D7F4653CA97 template <> inline constexpr guid guid_v{ 0x3A3DFC9C,0xAEDE,0x4DC7,{ 0x9E,0x6C,0x41,0xC0,0x44,0xBD,0x35,0x92 } }; // 3A3DFC9C-AEDE-4DC7-9E6C-41C044BD3592 template <> inline constexpr guid guid_v{ 0xA5DD6357,0xBF2A,0x4C4F,{ 0xA3,0x1F,0x29,0xE7,0x1C,0x6F,0x8B,0x35 } }; // A5DD6357-BF2A-4C4F-A31F-29E71C6F8B35 template <> struct default_interface{ using type = winrt::Windows::Data::Text::IAlternateWordForm; }; template <> struct default_interface{ using type = winrt::Windows::Data::Text::ISelectableWordSegment; }; template <> struct default_interface{ using type = winrt::Windows::Data::Text::ISelectableWordsSegmenter; }; template <> struct default_interface{ using type = winrt::Windows::Data::Text::ISemanticTextQuery; }; template <> struct default_interface{ using type = winrt::Windows::Data::Text::ITextConversionGenerator; }; template <> struct default_interface{ using type = winrt::Windows::Data::Text::ITextPhoneme; }; template <> struct default_interface{ using type = winrt::Windows::Data::Text::ITextPredictionGenerator; }; template <> struct default_interface{ using type = winrt::Windows::Data::Text::ITextReverseConversionGenerator; }; template <> struct default_interface{ using type = winrt::Windows::Data::Text::IWordSegment; }; template <> struct default_interface{ using type = winrt::Windows::Data::Text::IWordsSegmenter; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_SourceTextSegment(struct struct_Windows_Data_Text_TextSegment*) noexcept = 0; virtual int32_t __stdcall get_AlternateText(void**) noexcept = 0; virtual int32_t __stdcall get_NormalizationFormat(int32_t*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Text(void**) noexcept = 0; virtual int32_t __stdcall get_SourceTextSegment(struct struct_Windows_Data_Text_TextSegment*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ResolvedLanguage(void**) noexcept = 0; virtual int32_t __stdcall GetTokenAt(void*, uint32_t, void**) noexcept = 0; virtual int32_t __stdcall GetTokens(void*, void**) noexcept = 0; virtual int32_t __stdcall Tokenize(void*, uint32_t, void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateWithLanguage(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Find(void*, void**) noexcept = 0; virtual int32_t __stdcall FindInProperty(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void*, void**) noexcept = 0; virtual int32_t __stdcall CreateWithLanguage(void*, void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ResolvedLanguage(void**) noexcept = 0; virtual int32_t __stdcall get_LanguageAvailableButNotInstalled(bool*) noexcept = 0; virtual int32_t __stdcall GetCandidatesAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall GetCandidatesWithMaxCountAsync(void*, uint32_t, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_DisplayText(void**) noexcept = 0; virtual int32_t __stdcall get_ReadingText(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ResolvedLanguage(void**) noexcept = 0; virtual int32_t __stdcall get_LanguageAvailableButNotInstalled(bool*) noexcept = 0; virtual int32_t __stdcall GetCandidatesAsync(void*, void**) noexcept = 0; virtual int32_t __stdcall GetCandidatesWithMaxCountAsync(void*, uint32_t, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetCandidatesWithParametersAsync(void*, uint32_t, uint32_t, void*, void**) noexcept = 0; virtual int32_t __stdcall GetNextWordCandidatesAsync(uint32_t, void*, void**) noexcept = 0; virtual int32_t __stdcall get_InputScope(int32_t*) noexcept = 0; virtual int32_t __stdcall put_InputScope(int32_t) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ResolvedLanguage(void**) noexcept = 0; virtual int32_t __stdcall get_LanguageAvailableButNotInstalled(bool*) noexcept = 0; virtual int32_t __stdcall ConvertBackAsync(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetPhonemesAsync(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall Create(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall GetCodepointFromSurrogatePair(uint32_t, uint32_t, uint32_t*) noexcept = 0; virtual int32_t __stdcall GetSurrogatePairFromCodepoint(uint32_t, char16_t*, char16_t*) noexcept = 0; virtual int32_t __stdcall IsHighSurrogate(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsLowSurrogate(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsSupplementary(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsNoncharacter(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsWhitespace(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsAlphabetic(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsCased(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsUppercase(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsLowercase(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsIdStart(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsIdContinue(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsGraphemeBase(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall IsGraphemeExtend(uint32_t, bool*) noexcept = 0; virtual int32_t __stdcall GetNumericType(uint32_t, int32_t*) noexcept = 0; virtual int32_t __stdcall GetGeneralCategory(uint32_t, int32_t*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_Text(void**) noexcept = 0; virtual int32_t __stdcall get_SourceTextSegment(struct struct_Windows_Data_Text_TextSegment*) noexcept = 0; virtual int32_t __stdcall get_AlternateForms(void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall get_ResolvedLanguage(void**) noexcept = 0; virtual int32_t __stdcall GetTokenAt(void*, uint32_t, void**) noexcept = 0; virtual int32_t __stdcall GetTokens(void*, void**) noexcept = 0; virtual int32_t __stdcall Tokenize(void*, uint32_t, void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : inspectable_abi { virtual int32_t __stdcall CreateWithLanguage(void*, void**) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : unknown_abi { virtual int32_t __stdcall Invoke(void*, void*) noexcept = 0; }; }; template <> struct abi { struct WINRT_IMPL_NOVTABLE type : unknown_abi { virtual int32_t __stdcall Invoke(void*, void*) noexcept = 0; }; }; template struct consume_Windows_Data_Text_IAlternateWordForm { [[nodiscard]] auto SourceTextSegment() const; [[nodiscard]] auto AlternateText() const; [[nodiscard]] auto NormalizationFormat() const; }; template <> struct consume { template using type = consume_Windows_Data_Text_IAlternateWordForm; }; template struct consume_Windows_Data_Text_ISelectableWordSegment { [[nodiscard]] auto Text() const; [[nodiscard]] auto SourceTextSegment() const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ISelectableWordSegment; }; template struct consume_Windows_Data_Text_ISelectableWordsSegmenter { [[nodiscard]] auto ResolvedLanguage() const; auto GetTokenAt(param::hstring const& text, uint32_t startIndex) const; auto GetTokens(param::hstring const& text) const; auto Tokenize(param::hstring const& text, uint32_t startIndex, winrt::Windows::Data::Text::SelectableWordSegmentsTokenizingHandler const& handler) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ISelectableWordsSegmenter; }; template struct consume_Windows_Data_Text_ISelectableWordsSegmenterFactory { auto CreateWithLanguage(param::hstring const& language) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ISelectableWordsSegmenterFactory; }; template struct consume_Windows_Data_Text_ISemanticTextQuery { auto Find(param::hstring const& content) const; auto FindInProperty(param::hstring const& propertyContent, param::hstring const& propertyName) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ISemanticTextQuery; }; template struct consume_Windows_Data_Text_ISemanticTextQueryFactory { auto Create(param::hstring const& aqsFilter) const; auto CreateWithLanguage(param::hstring const& aqsFilter, param::hstring const& filterLanguage) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ISemanticTextQueryFactory; }; template struct consume_Windows_Data_Text_ITextConversionGenerator { [[nodiscard]] auto ResolvedLanguage() const; [[nodiscard]] auto LanguageAvailableButNotInstalled() const; auto GetCandidatesAsync(param::hstring const& input) const; auto GetCandidatesAsync(param::hstring const& input, uint32_t maxCandidates) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ITextConversionGenerator; }; template struct consume_Windows_Data_Text_ITextConversionGeneratorFactory { auto Create(param::hstring const& languageTag) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ITextConversionGeneratorFactory; }; template struct consume_Windows_Data_Text_ITextPhoneme { [[nodiscard]] auto DisplayText() const; [[nodiscard]] auto ReadingText() const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ITextPhoneme; }; template struct consume_Windows_Data_Text_ITextPredictionGenerator { [[nodiscard]] auto ResolvedLanguage() const; [[nodiscard]] auto LanguageAvailableButNotInstalled() const; auto GetCandidatesAsync(param::hstring const& input) const; auto GetCandidatesAsync(param::hstring const& input, uint32_t maxCandidates) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ITextPredictionGenerator; }; template struct consume_Windows_Data_Text_ITextPredictionGenerator2 { auto GetCandidatesAsync(param::hstring const& input, uint32_t maxCandidates, winrt::Windows::Data::Text::TextPredictionOptions const& predictionOptions, param::async_iterable const& previousStrings) const; auto GetNextWordCandidatesAsync(uint32_t maxCandidates, param::async_iterable const& previousStrings) const; [[nodiscard]] auto InputScope() const; auto InputScope(winrt::Windows::UI::Text::Core::CoreTextInputScope const& value) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ITextPredictionGenerator2; }; template struct consume_Windows_Data_Text_ITextPredictionGeneratorFactory { auto Create(param::hstring const& languageTag) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ITextPredictionGeneratorFactory; }; template struct consume_Windows_Data_Text_ITextReverseConversionGenerator { [[nodiscard]] auto ResolvedLanguage() const; [[nodiscard]] auto LanguageAvailableButNotInstalled() const; auto ConvertBackAsync(param::hstring const& input) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ITextReverseConversionGenerator; }; template struct consume_Windows_Data_Text_ITextReverseConversionGenerator2 { auto GetPhonemesAsync(param::hstring const& input) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ITextReverseConversionGenerator2; }; template struct consume_Windows_Data_Text_ITextReverseConversionGeneratorFactory { auto Create(param::hstring const& languageTag) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_ITextReverseConversionGeneratorFactory; }; template struct consume_Windows_Data_Text_IUnicodeCharactersStatics { auto GetCodepointFromSurrogatePair(uint32_t highSurrogate, uint32_t lowSurrogate) const; auto GetSurrogatePairFromCodepoint(uint32_t codepoint, char16_t& highSurrogate, char16_t& lowSurrogate) const; auto IsHighSurrogate(uint32_t codepoint) const; auto IsLowSurrogate(uint32_t codepoint) const; auto IsSupplementary(uint32_t codepoint) const; auto IsNoncharacter(uint32_t codepoint) const; auto IsWhitespace(uint32_t codepoint) const; auto IsAlphabetic(uint32_t codepoint) const; auto IsCased(uint32_t codepoint) const; auto IsUppercase(uint32_t codepoint) const; auto IsLowercase(uint32_t codepoint) const; auto IsIdStart(uint32_t codepoint) const; auto IsIdContinue(uint32_t codepoint) const; auto IsGraphemeBase(uint32_t codepoint) const; auto IsGraphemeExtend(uint32_t codepoint) const; auto GetNumericType(uint32_t codepoint) const; auto GetGeneralCategory(uint32_t codepoint) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_IUnicodeCharactersStatics; }; template struct consume_Windows_Data_Text_IWordSegment { [[nodiscard]] auto Text() const; [[nodiscard]] auto SourceTextSegment() const; [[nodiscard]] auto AlternateForms() const; }; template <> struct consume { template using type = consume_Windows_Data_Text_IWordSegment; }; template struct consume_Windows_Data_Text_IWordsSegmenter { [[nodiscard]] auto ResolvedLanguage() const; auto GetTokenAt(param::hstring const& text, uint32_t startIndex) const; auto GetTokens(param::hstring const& text) const; auto Tokenize(param::hstring const& text, uint32_t startIndex, winrt::Windows::Data::Text::WordSegmentsTokenizingHandler const& handler) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_IWordsSegmenter; }; template struct consume_Windows_Data_Text_IWordsSegmenterFactory { auto CreateWithLanguage(param::hstring const& language) const; }; template <> struct consume { template using type = consume_Windows_Data_Text_IWordsSegmenterFactory; }; struct struct_Windows_Data_Text_TextSegment { uint32_t StartPosition; uint32_t Length; }; template <> struct abi { using type = struct_Windows_Data_Text_TextSegment; }; } #endif