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193 lines
8.4 KiB
Markdown
193 lines
8.4 KiB
Markdown
This is not an official Google product.
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# Overview
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CCTZ contains two libraries that cooperate with `<chrono>` to give C++
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programmers all the necessary tools for computing with dates, times, and time
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zones in a simple and correct manner. The libraries in CCTZ are:
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* **The Civil-Time Library** — This is a header-only library that supports
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computing with human-scale time, such as dates (which are represented by the
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`cctz::civil_day` class). This library is declared in [`include/civil_time.h`]
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(https://github.com/google/cctz/blob/master/include/civil_time.h).
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* **The Time-Zone Library** — This library uses the IANA time zone
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database that is installed on the system to convert between *absolute time*
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and *civil time*. This library is declared in [`include/time_zone.h`](https://github.com/google/cctz/blob/master/include/time_zone.h).
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These libraries are currently known to work on **Linux** and **Mac OS X**. We
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are actively interested in help getting them working on Windows. Please contact
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us if you're interested in contributing.
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# Getting Started
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CCTZ is best built and tested using the [Bazel](http://bazel.io) build system
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and the [Google Test](https://github.com/google/googletest) framework. (There
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is also a simple [`Makefile`](https://github.com/google/cctz/blob/master/Makefile)
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that should work if you're unable to use Bazel.)
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1. Download/install Bazel http://bazel.io/docs/install.html
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2. Get the cctz source: `git clone https://github.com/google/cctz.git` then `cd
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cctz`
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3. Build cctz and run the tests: `bazel test :all`
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Note: When using CCTZ in your own project, you might find it easiest to compile
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the sources using your existing build system.
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Next Steps:
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1. See the documentation for the libraries in CCTZ:
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* Civil Time: [`include/civil_time.h`](https://github.com/google/cctz/blob/master/include/civil_time.h)
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* Time Zone: [`include/time_zone.h`](https://github.com/google/cctz/blob/master/include/time_zone.h)
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2. Look at the examples in https://github.com/google/cctz/tree/master/examples
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3. Join our mailing list to ask questions and keep informed of changes:
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* https://groups.google.com/forum/#!forum/cctz
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# Fundamental Concepts
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*[The concepts presented here describe general truths about the problem domain
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and are library and language agnostic. An understanding of these concepts helps
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the programmer correctly reason about even the most-complicated time-programming
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challenges and produce the simplest possible solutions.]*
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There are two main ways to think about time in a computer program: as *absolute
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time*, and as *civil time*. Both have their uses and it is important to
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understand when each is appropriate. Absolute and civil times may be converted
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back and forth using a *time zone* — this is the only way to correctly
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convert between them. Let us now look more deeply at the three main concepts of
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time programming: Absolute Time, Civil Time, and Time Zone.
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*Absolute time* uniquely and universally represents a specific instant in time.
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It has no notion of calendars, or dates, or times of day. Instead, it is a
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measure of the passage of real time, typically as a simple count of ticks since
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some epoch. Absolute times are independent of all time zones and do not suffer
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from human-imposed complexities such as daylight-saving time (DST). Many C++
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types exist to represent absolute times, classically `time_t` and more recently
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`std::chrono::time_point`.
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*Civil time* is the legally recognized representation of time for ordinary
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affairs (cf. http://www.merriam-webster.com/dictionary/civil). It is a
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human-scale representation of time that consists of the six fields —
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year, month, day, hour, minute, and second (sometimes shortened to "YMDHMS")
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— and it follows the rules of the Proleptic Gregorian Calendar, with
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24-hour days divided into 60-minute hours and 60-second minutes. Like absolute
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times, civil times are also independent of all time zones and their related
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complexities (e.g., DST). While `std::tm` contains the six civil-time fields
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(YMDHMS), plus a few more, it does not have behavior to enforce the rules of
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civil time.
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*Time zones* are geo-political regions within which human-defined rules are
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shared to convert between the absolute-time and civil-time domains. A time
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zone's rules include things like the region's offset from the UTC time standard,
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daylight-saving adjustments, and short abbreviation strings. Time zones often
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have a history of disparate rules that apply only for certain periods, because
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the rules may change at the whim of a region's local government. For this
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reason, time-zone rules are usually compiled into data snapshots that are used
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at runtime to perform conversions between absolute and civil times. There is
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currently no C++ standard library supporting arbitrary time zones.
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In order for programmers to reason about and program applications that correctly
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deal with these concepts, they must have a library that correctly implements the
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above concepts. CCTZ adds to the existing C++11 `<chrono>` library to fully
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implement the above concepts.
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* Absolute time — This is implemented by the existing C++11
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[`<chrono>`](http://en.cppreference.com/w/cpp/chrono)
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library without modification. For example, an absolute point in time is
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represented by a `std::chrono::time_point`.
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* Civil time — This is implemented by the [`include/civil_time.h`](https://github.com/google/cctz/blob/master/include/civil_time.h) library
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that is provided as part of CCTZ. For example, a "date" is represented by a
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`cctz::civil_day`.
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* Time zone — This is implemented by the [`include/time_zone.h`](https://github.com/google/cctz/blob/master/include/time_zone.h) library
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that is provided as part of CCTZ. For example, a time zone is represented by
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an instance of the class `cctz::time_zone`.
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# Examples
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## Hello February 2016
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This "hello world" example uses a for-loop to iterate the days from the first of
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February until the month of March. Each day is streamed to output, and if the
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day happens to be the 29th, we also output the day of the week.
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```
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#include <iostream>
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#include "civil_time.h"
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int main() {
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for (cctz::civil_day d(2016, 2, 1); d < cctz::civil_month(2016, 3); ++d) {
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std::cout << "Hello " << d;
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if (d.day() == 29) {
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std::cout << " <- leap day is a " << cctz::get_weekday(d);
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}
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std::cout << "\n";
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}
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}
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```
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The output of the above program is
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```
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Hello 2016-02-01
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Hello 2016-02-02
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Hello 2016-02-03
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[...]
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Hello 2016-02-27
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Hello 2016-02-28
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Hello 2016-02-29 <- leap day is a Monday
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```
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## One giant leap
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This example shows how to use all three libraries (`<chrono>`, civil time, and
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time zone) together. In this example, we know that viewers in New York watched
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Neil Armstrong first walk on the moon on July 20, 1969 at 10:56 PM. But we'd
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like to see what time it was for our friend watching in Sydney Australia.
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```
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#include <iostream>
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#include "civil_time.h"
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#include "time_zone.h"
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int main() {
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cctz::time_zone nyc;
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cctz::load_time_zone("America/New_York", &nyc);
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// Converts the input civil time in NYC to an absolute time.
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const auto moon_walk =
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cctz::convert(cctz::civil_second(1969, 7, 20, 22, 56, 0), nyc);
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std::cout << "Moon walk in NYC: "
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<< cctz::format("%Y-%m-%d %H:%M:%S %Ez\n", moon_walk, nyc);
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cctz::time_zone syd;
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if (!cctz::load_time_zone("Australia/Sydney", &syd)) return -1;
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std::cout << "Moon walk in SYD: "
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<< cctz::format("%Y-%m-%d %H:%M:%S %Ez\n", moon_walk, syd);
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}
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```
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The output of the above program is
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```
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Moon walk in NYC: 1969-07-20 22:56:00 -04:00
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Moon walk in SYD: 1969-07-21 12:56:00 +10:00
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```
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This example shows that the absolute time (the `std::chrono::time_point`) of the
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first walk on the moon is the same no matter the time zone of the viewer (the
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same time point is used in both calls to `format()`). The only difference is the
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time zone in which the `moon_walk` time point is rendered. And in this case we
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can see that our friend in Sydney was probably eating lunch while watching that
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historic event.
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# References
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* CCTZ [FAQ](https://github.com/google/cctz/wiki/FAQ)
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* See also the [Time Programming Fundamentals](https://youtu.be/2rnIHsqABfM)
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talk from CppCon 2015 ([slides available here](http://goo.gl/ofof4N)). This
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talk mostly describes the older CCTZ v1 API, but the *concepts* are the same.
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* ISO C++ proposal to standardize the Civil-Time Library:
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https://github.com/devjgm/papers/blob/master/d0215r1.md
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* ISO C++ proposal to standardize the Time-Zone Library:
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https://github.com/devjgm/papers/blob/master/d0216r1.md
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