gecko-dev/js/public/Date.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* JavaScript date/time computation and creation functions. */
#ifndef js_Date_h
#define js_Date_h
/*
* Dates in JavaScript are defined by IEEE-754 double precision numbers from
* the set:
*
* { t ∈ : -8.64e15 ≤ t ≤ +8.64e15 } { NaN }
*
* The single NaN value represents any invalid-date value. All other values
* represent idealized durations in milliseconds since the UTC epoch. (Leap
* seconds are ignored; leap days are not.) +0 is the only zero in this set.
* The limit represented by 8.64e15 milliseconds is 100 million days either
* side of 00:00 January 1, 1970 UTC.
*
* Dates in the above set are represented by the |ClippedTime| class. The
* double type is a superset of the above set, so it *may* (but need not)
* represent a date. Use ECMAScript's |TimeClip| method to produce a date from
* a double.
*
* Date *objects* are simply wrappers around |TimeClip|'d numbers, with a bunch
* of accessor methods to the various aspects of the represented date.
*/
#include "mozilla/FloatingPoint.h"
#include "mozilla/MathAlgorithms.h"
#include "js/Conversions.h"
#include "js/Value.h"
namespace JS {
/**
* Re-query the system to determine the current time zone adjustment from UTC,
* including any component due to DST. If the time zone has changed, this will
* cause all Date object non-UTC methods and formatting functions to produce
* appropriately adjusted results.
*
* Left to its own devices, SpiderMonkey itself may occasionally try to detect
* system time changes. However, no particular frequency of checking is
* guaranteed. Embedders unable to accept occasional inaccuracies should call
* this method in response to system time changes, or immediately before
* operations requiring instantaneous correctness, to guarantee correct
* behavior.
*/
extern JS_PUBLIC_API(void)
ResetTimeZone();
class ClippedTime;
inline ClippedTime TimeClip(double time);
/*
* |ClippedTime| represents the limited subset of dates/times described above.
*
* An invalid date/time may be created through the |ClippedTime::invalid|
* method. Otherwise, a |ClippedTime| may be created using the |TimeClip|
* method.
*
* In typical use, the user might wish to manipulate a timestamp. The user
* performs a series of operations on it, but the final value might not be a
* date as defined above -- it could have overflowed, acquired a fractional
* component, &c. So as a *final* step, the user passes that value through
* |TimeClip| to produce a number restricted to JavaScript's date range.
*
* APIs that accept a JavaScript date value thus accept a |ClippedTime|, not a
* double. This ensures that date/time APIs will only ever receive acceptable
* JavaScript dates. This also forces users to perform any desired clipping,
* as only the user knows what behavior is desired when clipping occurs.
*/
class ClippedTime
{
double t;
explicit ClippedTime(double time) : t(time) {}
friend ClippedTime TimeClip(double time);
public:
// Create an invalid date.
ClippedTime() : t(mozilla::UnspecifiedNaN<double>()) {}
// Create an invalid date/time, more explicitly; prefer this to the default
// constructor.
static ClippedTime invalid() { return ClippedTime(); }
double toDouble() const { return t; }
bool isValid() const { return !mozilla::IsNaN(t); }
};
// ES6 20.3.1.15.
//
// Clip a double to JavaScript's date range (or to an invalid date) using the
// ECMAScript TimeClip algorithm.
inline ClippedTime
TimeClip(double time)
{
// Steps 1-2.
const double MaxTimeMagnitude = 8.64e15;
if (!mozilla::IsFinite(time) || mozilla::Abs(time) > MaxTimeMagnitude) {
return ClippedTime(mozilla::UnspecifiedNaN<double>());
}
// Step 3.
return ClippedTime(ToInteger(time) + (+0.0));
}
// Produce a double Value from the given time. Because times may be NaN,
// prefer using this to manual canonicalization.
inline Value
TimeValue(ClippedTime time)
{
return DoubleValue(JS::CanonicalizeNaN(time.toDouble()));
}
// Create a new Date object whose [[DateValue]] internal slot contains the
// clipped |time|. (Users who must represent times outside that range must use
// another representation.)
extern JS_PUBLIC_API(JSObject*)
NewDateObject(JSContext* cx, ClippedTime time);
// Year is a year, month is 0-11, day is 1-based. The return value is a number
// of milliseconds since the epoch.
//
// Consistent with the MakeDate algorithm defined in ECMAScript, this value is
// *not* clipped! Use JS::TimeClip if you need a clipped date.
JS_PUBLIC_API(double)
MakeDate(double year, unsigned month, unsigned day);
// Year is a year, month is 0-11, day is 1-based, and time is in milliseconds.
// The return value is a number of milliseconds since the epoch.
//
// Consistent with the MakeDate algorithm defined in ECMAScript, this value is
// *not* clipped! Use JS::TimeClip if you need a clipped date.
JS_PUBLIC_API(double)
MakeDate(double year, unsigned month, unsigned day, double time);
// Takes an integer number of milliseconds since the epoch and returns the
// year. Can return NaN, and will do so if NaN is passed in.
JS_PUBLIC_API(double)
YearFromTime(double time);
// Takes an integer number of milliseconds since the epoch and returns the
// month (0-11). Can return NaN, and will do so if NaN is passed in.
JS_PUBLIC_API(double)
MonthFromTime(double time);
// Takes an integer number of milliseconds since the epoch and returns the
// day (1-based). Can return NaN, and will do so if NaN is passed in.
JS_PUBLIC_API(double)
DayFromTime(double time);
// Takes an integer year and returns the number of days from epoch to the given
// year.
// NOTE: The calculation performed by this function is literally that given in
// the ECMAScript specification. Nonfinite years, years containing fractional
// components, and years outside ECMAScript's date range are not handled with
// any particular intelligence. Garbage in, garbage out.
JS_PUBLIC_API(double)
DayFromYear(double year);
// Takes an integer number of milliseconds since the epoch and an integer year,
// returns the number of days in that year. If |time| is nonfinite, returns NaN.
// Otherwise |time| *must* correspond to a time within the valid year |year|.
// This should usually be ensured by computing |year| as |JS::DayFromYear(time)|.
JS_PUBLIC_API(double)
DayWithinYear(double time, double year);
// The callback will be a wrapper function that accepts a single double (the time
// to clamp and jitter.) Inside the JS Engine, other parameters that may be needed
// are all constant, so they are handled inside the wrapper function
using ReduceMicrosecondTimePrecisionCallback = double(*)(double);
// Set a callback into the toolkit/components/resistfingerprinting function that
// will centralize time resolution and jitter into one place.
JS_PUBLIC_API(void)
SetReduceMicrosecondTimePrecisionCallback(ReduceMicrosecondTimePrecisionCallback callback);
// Sets the time resolution for fingerprinting protection, and whether jitter
// should occur. If resolution is set to zero, then no rounding or jitter will
// occur. This is used if the callback above is not specified.
JS_PUBLIC_API(void)
SetTimeResolutionUsec(uint32_t resolution, bool jitter);
} // namespace JS
#endif /* js_Date_h */