1 #ifndef icu4x_CanonicalDecomposition_HPP 2 #define icu4x_CanonicalDecomposition_HPP 3 4 #include "CanonicalDecomposition.d.hpp" 5 6 #include <stdio.h> 7 #include <stdint.h> 8 #include <stddef.h> 9 #include <stdbool.h> 10 #include <memory> 11 #include <functional> 12 #include <optional> 13 #include "../diplomat_runtime.hpp" 14 #include "DataError.hpp" 15 #include "DataProvider.hpp" 16 #include "Decomposed.hpp" 17 18 19 namespace icu4x { 20 namespace capi { 21 extern "C" { 22 23 icu4x::capi::CanonicalDecomposition* icu4x_CanonicalDecomposition_create_mv1(void); 24 25 typedef struct icu4x_CanonicalDecomposition_create_with_provider_mv1_result {union {icu4x::capi::CanonicalDecomposition* ok; icu4x::capi::DataError err;}; bool is_ok;} icu4x_CanonicalDecomposition_create_with_provider_mv1_result; 26 icu4x_CanonicalDecomposition_create_with_provider_mv1_result icu4x_CanonicalDecomposition_create_with_provider_mv1(const icu4x::capi::DataProvider* provider); 27 28 icu4x::capi::Decomposed icu4x_CanonicalDecomposition_decompose_mv1(const icu4x::capi::CanonicalDecomposition* self, char32_t c); 29 30 31 void icu4x_CanonicalDecomposition_destroy_mv1(CanonicalDecomposition* self); 32 33 } // extern "C" 34 } // namespace capi 35 } // namespace 36 create()37inline std::unique_ptr<icu4x::CanonicalDecomposition> icu4x::CanonicalDecomposition::create() { 38 auto result = icu4x::capi::icu4x_CanonicalDecomposition_create_mv1(); 39 return std::unique_ptr<icu4x::CanonicalDecomposition>(icu4x::CanonicalDecomposition::FromFFI(result)); 40 } 41 create_with_provider(const icu4x::DataProvider & provider)42inline diplomat::result<std::unique_ptr<icu4x::CanonicalDecomposition>, icu4x::DataError> icu4x::CanonicalDecomposition::create_with_provider(const icu4x::DataProvider& provider) { 43 auto result = icu4x::capi::icu4x_CanonicalDecomposition_create_with_provider_mv1(provider.AsFFI()); 44 return result.is_ok ? diplomat::result<std::unique_ptr<icu4x::CanonicalDecomposition>, icu4x::DataError>(diplomat::Ok<std::unique_ptr<icu4x::CanonicalDecomposition>>(std::unique_ptr<icu4x::CanonicalDecomposition>(icu4x::CanonicalDecomposition::FromFFI(result.ok)))) : diplomat::result<std::unique_ptr<icu4x::CanonicalDecomposition>, icu4x::DataError>(diplomat::Err<icu4x::DataError>(icu4x::DataError::FromFFI(result.err))); 45 } 46 decompose(char32_t c) const47inline icu4x::Decomposed icu4x::CanonicalDecomposition::decompose(char32_t c) const { 48 auto result = icu4x::capi::icu4x_CanonicalDecomposition_decompose_mv1(this->AsFFI(), 49 c); 50 return icu4x::Decomposed::FromFFI(result); 51 } 52 AsFFI() const53inline const icu4x::capi::CanonicalDecomposition* icu4x::CanonicalDecomposition::AsFFI() const { 54 return reinterpret_cast<const icu4x::capi::CanonicalDecomposition*>(this); 55 } 56 AsFFI()57inline icu4x::capi::CanonicalDecomposition* icu4x::CanonicalDecomposition::AsFFI() { 58 return reinterpret_cast<icu4x::capi::CanonicalDecomposition*>(this); 59 } 60 FromFFI(const icu4x::capi::CanonicalDecomposition * ptr)61inline const icu4x::CanonicalDecomposition* icu4x::CanonicalDecomposition::FromFFI(const icu4x::capi::CanonicalDecomposition* ptr) { 62 return reinterpret_cast<const icu4x::CanonicalDecomposition*>(ptr); 63 } 64 FromFFI(icu4x::capi::CanonicalDecomposition * ptr)65inline icu4x::CanonicalDecomposition* icu4x::CanonicalDecomposition::FromFFI(icu4x::capi::CanonicalDecomposition* ptr) { 66 return reinterpret_cast<icu4x::CanonicalDecomposition*>(ptr); 67 } 68 operator delete(void * ptr)69inline void icu4x::CanonicalDecomposition::operator delete(void* ptr) { 70 icu4x::capi::icu4x_CanonicalDecomposition_destroy_mv1(reinterpret_cast<icu4x::capi::CanonicalDecomposition*>(ptr)); 71 } 72 73 74 #endif // icu4x_CanonicalDecomposition_HPP 75