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// Generated by the protocol buffer compiler. DO NOT EDIT!
// source: google/protobuf/duration.proto
#import "GPBDescriptor.h"
#import "GPBMessage.h"
#import "GPBRootObject.h"
#if GOOGLE_PROTOBUF_OBJC_VERSION < 30004
#error This file was generated by a newer version of protoc which is incompatible with your Protocol Buffer library sources.
#endif
#if 30004 < GOOGLE_PROTOBUF_OBJC_MIN_SUPPORTED_VERSION
#error This file was generated by an older version of protoc which is incompatible with your Protocol Buffer library sources.
#endif
// @@protoc_insertion_point(imports)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdeprecated-declarations"
CF_EXTERN_C_BEGIN
NS_ASSUME_NONNULL_BEGIN
#pragma mark - GPBDurationRoot
/**
* Exposes the extension registry for this file.
*
* The base class provides:
* @code
* + (GPBExtensionRegistry *)extensionRegistry;
* @endcode
* which is a @c GPBExtensionRegistry that includes all the extensions defined by
* this file and all files that it depends on.
**/
GPB_FINAL @interface GPBDurationRoot : GPBRootObject
@end
#pragma mark - GPBDuration
typedef GPB_ENUM(GPBDuration_FieldNumber) {
GPBDuration_FieldNumber_Seconds = 1,
GPBDuration_FieldNumber_Nanos = 2,
};
/**
* A Duration represents a signed, fixed-length span of time represented
* as a count of seconds and fractions of seconds at nanosecond
* resolution. It is independent of any calendar and concepts like "day"
* or "month". It is related to Timestamp in that the difference between
* two Timestamp values is a Duration and it can be added or subtracted
* from a Timestamp. Range is approximately +-10,000 years.
*
* # Examples
*
* Example 1: Compute Duration from two Timestamps in pseudo code.
*
* Timestamp start = ...;
* Timestamp end = ...;
* Duration duration = ...;
*
* duration.seconds = end.seconds - start.seconds;
* duration.nanos = end.nanos - start.nanos;
*
* if (duration.seconds < 0 && duration.nanos > 0) {
* duration.seconds += 1;
* duration.nanos -= 1000000000;
* } else if (duration.seconds > 0 && duration.nanos < 0) {
* duration.seconds -= 1;
* duration.nanos += 1000000000;
* }
*
* Example 2: Compute Timestamp from Timestamp + Duration in pseudo code.
*
* Timestamp start = ...;
* Duration duration = ...;
* Timestamp end = ...;
*
* end.seconds = start.seconds + duration.seconds;
* end.nanos = start.nanos + duration.nanos;
*
* if (end.nanos < 0) {
* end.seconds -= 1;
* end.nanos += 1000000000;
* } else if (end.nanos >= 1000000000) {
* end.seconds += 1;
* end.nanos -= 1000000000;
* }
*
* Example 3: Compute Duration from datetime.timedelta in Python.
*
* td = datetime.timedelta(days=3, minutes=10)
* duration = Duration()
* duration.FromTimedelta(td)
*
* # JSON Mapping
*
* In JSON format, the Duration type is encoded as a string rather than an
* object, where the string ends in the suffix "s" (indicating seconds) and
* is preceded by the number of seconds, with nanoseconds expressed as
* fractional seconds. For example, 3 seconds with 0 nanoseconds should be
* encoded in JSON format as "3s", while 3 seconds and 1 nanosecond should
* be expressed in JSON format as "3.000000001s", and 3 seconds and 1
* microsecond should be expressed in JSON format as "3.000001s".
**/
GPB_FINAL @interface GPBDuration : GPBMessage
/**
* Signed seconds of the span of time. Must be from -315,576,000,000
* to +315,576,000,000 inclusive. Note: these bounds are computed from:
* 60 sec/min * 60 min/hr * 24 hr/day * 365.25 days/year * 10000 years
**/
@property(nonatomic, readwrite) int64_t seconds;
/**
* Signed fractions of a second at nanosecond resolution of the span
* of time. Durations less than one second are represented with a 0
* `seconds` field and a positive or negative `nanos` field. For durations
* of one second or more, a non-zero value for the `nanos` field must be
* of the same sign as the `seconds` field. Must be from -999,999,999
* to +999,999,999 inclusive.
**/
@property(nonatomic, readwrite) int32_t nanos;
@end
NS_ASSUME_NONNULL_END
CF_EXTERN_C_END
#pragma clang diagnostic pop
// @@protoc_insertion_point(global_scope)