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#ifndef ICU4XCanonicalDecomposition_HPP
#define ICU4XCanonicalDecomposition_HPP
#include <stdint.h>
#include <stddef.h>
#include <stdbool.h>
#include <algorithm>
#include <memory>
#include <variant>
#include <optional>
#include "diplomat_runtime.hpp"
#include "ICU4XCanonicalDecomposition.h"
class ICU4XDataProvider;
class ICU4XCanonicalDecomposition;
#include "ICU4XError.hpp"
struct ICU4XDecomposed;
/**
* A destruction policy for using ICU4XCanonicalDecomposition with std::unique_ptr.
*/
struct ICU4XCanonicalDecompositionDeleter {
void operator()(capi::ICU4XCanonicalDecomposition* l) const noexcept {
capi::ICU4XCanonicalDecomposition_destroy(l);
}
};
/**
* The raw (non-recursive) canonical decomposition operation.
*
* Callers should generally use ICU4XDecomposingNormalizer unless they specifically need raw composition operations
*
* See the [Rust documentation for `CanonicalDecomposition`](https://docs.rs/icu/latest/icu/normalizer/properties/struct.CanonicalDecomposition.html) for more information.
*/
class ICU4XCanonicalDecomposition {
public:
/**
* Construct a new ICU4XCanonicalDecomposition instance for NFC
*
* See the [Rust documentation for `new`](https://docs.rs/icu/latest/icu/normalizer/properties/struct.CanonicalDecomposition.html#method.new) for more information.
*/
static diplomat::result<ICU4XCanonicalDecomposition, ICU4XError> create(const ICU4XDataProvider& provider);
/**
* Performs non-recursive canonical decomposition (including for Hangul).
*
* See the [Rust documentation for `decompose`](https://docs.rs/icu/latest/icu/normalizer/properties/struct.CanonicalDecomposition.html#method.decompose) for more information.
*/
ICU4XDecomposed decompose(char32_t c) const;
inline const capi::ICU4XCanonicalDecomposition* AsFFI() const { return this->inner.get(); }
inline capi::ICU4XCanonicalDecomposition* AsFFIMut() { return this->inner.get(); }
inline ICU4XCanonicalDecomposition(capi::ICU4XCanonicalDecomposition* i) : inner(i) {}
ICU4XCanonicalDecomposition() = default;
ICU4XCanonicalDecomposition(ICU4XCanonicalDecomposition&&) noexcept = default;
ICU4XCanonicalDecomposition& operator=(ICU4XCanonicalDecomposition&& other) noexcept = default;
private:
std::unique_ptr<capi::ICU4XCanonicalDecomposition, ICU4XCanonicalDecompositionDeleter> inner;
};
#include "ICU4XDataProvider.hpp"
#include "ICU4XDecomposed.hpp"
inline diplomat::result<ICU4XCanonicalDecomposition, ICU4XError> ICU4XCanonicalDecomposition::create(const ICU4XDataProvider& provider) {
auto diplomat_result_raw_out_value = capi::ICU4XCanonicalDecomposition_create(provider.AsFFI());
diplomat::result<ICU4XCanonicalDecomposition, ICU4XError> diplomat_result_out_value;
if (diplomat_result_raw_out_value.is_ok) {
diplomat_result_out_value = diplomat::Ok<ICU4XCanonicalDecomposition>(ICU4XCanonicalDecomposition(diplomat_result_raw_out_value.ok));
} else {
diplomat_result_out_value = diplomat::Err<ICU4XError>(static_cast<ICU4XError>(diplomat_result_raw_out_value.err));
}
return diplomat_result_out_value;
}
inline ICU4XDecomposed ICU4XCanonicalDecomposition::decompose(char32_t c) const {
capi::ICU4XDecomposed diplomat_raw_struct_out_value = capi::ICU4XCanonicalDecomposition_decompose(this->inner.get(), c);
return ICU4XDecomposed{ .first = std::move(diplomat_raw_struct_out_value.first), .second = std::move(diplomat_raw_struct_out_value.second) };
}
#endif
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