temporal_capi 0.2.1

C interface to temporal_rs
Documentation 
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#ifndef TEMPORAL_RS_PlainTime_D_HPP
#define TEMPORAL_RS_PlainTime_D_HPP

#include <stdio.h>
#include <stdint.h>
#include <stddef.h>
#include <stdbool.h>
#include <memory>
#include <functional>
#include <optional>
#include <cstdlib>
#include "diplomat_runtime.hpp"
namespace temporal_rs {
namespace capi { struct Duration; }
class Duration;
namespace capi { struct PlainTime; }
class PlainTime;
namespace capi { struct Provider; }
class Provider;
struct DifferenceSettings;
struct I128Nanoseconds;
struct PartialTime;
struct RoundingOptions;
struct TemporalError;
struct TimeZone;
struct ToStringRoundingOptions;
class ArithmeticOverflow;
} // namespace temporal_rs



namespace temporal_rs {
namespace capi {
    struct PlainTime;
} // namespace capi
} // namespace

namespace temporal_rs {
class PlainTime {
public:

  inline static temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> try_new_constrain(uint8_t hour, uint8_t minute, uint8_t second, uint16_t millisecond, uint16_t microsecond, uint16_t nanosecond);

  inline static temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> try_new(uint8_t hour, uint8_t minute, uint8_t second, uint16_t millisecond, uint16_t microsecond, uint16_t nanosecond);

  inline static temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> from_partial(temporal_rs::PartialTime partial, std::optional<temporal_rs::ArithmeticOverflow> overflow);

  inline static temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> from_epoch_milliseconds(int64_t ms, temporal_rs::TimeZone tz);

  inline static temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> from_epoch_milliseconds_with_provider(int64_t ms, temporal_rs::TimeZone tz, const temporal_rs::Provider& p);

  inline static temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> from_epoch_nanoseconds(temporal_rs::I128Nanoseconds ns, temporal_rs::TimeZone tz);

  inline static temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> from_epoch_nanoseconds_with_provider(temporal_rs::I128Nanoseconds ns, temporal_rs::TimeZone tz, const temporal_rs::Provider& p);

  inline temporal_rs::diplomat::result<int64_t, temporal_rs::TemporalError> epoch_ms_for_utc() const;

  inline temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> with(temporal_rs::PartialTime partial, std::optional<temporal_rs::ArithmeticOverflow> overflow) const;

  inline static temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> from_utf8(std::string_view s);

  inline static temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> from_utf16(std::u16string_view s);

  inline uint8_t hour() const;

  inline uint8_t minute() const;

  inline uint8_t second() const;

  inline uint16_t millisecond() const;

  inline uint16_t microsecond() const;

  inline uint16_t nanosecond() const;

  inline temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> add(const temporal_rs::Duration& duration) const;

  inline temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> subtract(const temporal_rs::Duration& duration) const;

  inline temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::Duration>, temporal_rs::TemporalError> until(const temporal_rs::PlainTime& other, temporal_rs::DifferenceSettings settings) const;

  inline temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::Duration>, temporal_rs::TemporalError> since(const temporal_rs::PlainTime& other, temporal_rs::DifferenceSettings settings) const;

  inline bool equals(const temporal_rs::PlainTime& other) const;

  inline static int8_t compare(const temporal_rs::PlainTime& one, const temporal_rs::PlainTime& two);

  inline temporal_rs::diplomat::result<std::unique_ptr<temporal_rs::PlainTime>, temporal_rs::TemporalError> round(temporal_rs::RoundingOptions options) const;

  inline temporal_rs::diplomat::result<std::string, temporal_rs::TemporalError> to_ixdtf_string(temporal_rs::ToStringRoundingOptions options) const;
  template<typename W>
  inline temporal_rs::diplomat::result<std::monostate, temporal_rs::TemporalError> to_ixdtf_string_write(temporal_rs::ToStringRoundingOptions options, W& writeable_output) const;

  inline std::unique_ptr<temporal_rs::PlainTime> clone() const;

    inline const temporal_rs::capi::PlainTime* AsFFI() const;
    inline temporal_rs::capi::PlainTime* AsFFI();
    inline static const temporal_rs::PlainTime* FromFFI(const temporal_rs::capi::PlainTime* ptr);
    inline static temporal_rs::PlainTime* FromFFI(temporal_rs::capi::PlainTime* ptr);
    inline static void operator delete(void* ptr);
private:
    PlainTime() = delete;
    PlainTime(const temporal_rs::PlainTime&) = delete;
    PlainTime(temporal_rs::PlainTime&&) noexcept = delete;
    PlainTime operator=(const temporal_rs::PlainTime&) = delete;
    PlainTime operator=(temporal_rs::PlainTime&&) noexcept = delete;
    static void operator delete[](void*, size_t) = delete;
};

} // namespace
#endif // TEMPORAL_RS_PlainTime_D_HPP