File Coverage

erfasrc/src/dat.c

Criterion	Covered	Total	%
statement	15	15	100.0
branch	10	18	55.5
condition			n/a
subroutine			n/a
pod			n/a
total	25	33	75.7

line	stmt	bran	code
1			#include "erfa.h"
2
3	4		int eraDat(int iy, int im, int id, double fd, double *deltat )
4			/*
5			** - - - - - - -
6			** e r a D a t
7			** - - - - - - -
8			**
9			** For a given UTC date, calculate Delta(AT) = TAI-UTC.
10			**
11			** :------------------------------------------:
12			** : :
13			** : IMPORTANT :
14			** : :
15			** : A new version of this function must be :
16			** : produced whenever a new leap second is :
17			** : announced. There are four items to :
18			** : change on each such occasion: :
19			** : :
20			** : 1) A new line must be added to the set :
21			** : of statements that initialize the :
22			** : array "changes". :
23			** : :
24			** : 2) The constant IYV must be set to the :
25			** : current year. :
26			** : :
27			** : 3) The "Latest leap second" comment :
28			** : below must be set to the new leap :
29			** : second date. :
30			** : :
31			** : 4) The "This revision" comment, later, :
32			** : must be set to the current date. :
33			** : :
34			** : Change (2) must also be carried out :
35			** : whenever the function is re-issued, :
36			** : even if no leap seconds have been :
37			** : added. :
38			** : :
39			** : Latest leap second: 2016 December 31 :
40			** : :
41			** :__________________________________________:
42			**
43			** Given:
44			** iy int UTC: year (Notes 1 and 2)
45			** im int month (Note 2)
46			** id int day (Notes 2 and 3)
47			** fd double fraction of day (Note 4)
48			**
49			** Returned:
50			** deltat double TAI minus UTC, seconds
51			**
52			** Returned (function value):
53			** int status (Note 5):
54			** 1 = dubious year (Note 1)
55			** 0 = OK
56			** -1 = bad year
57			** -2 = bad month
58			** -3 = bad day (Note 3)
59			** -4 = bad fraction (Note 4)
60			** -5 = internal error (Note 5)
61			**
62			** Notes:
63			**
64			** 1) UTC began at 1960 January 1.0 (JD 2436934.5) and it is improper
65			** to call the function with an earlier date. If this is attempted,
66			** zero is returned together with a warning status.
67			**
68			** Because leap seconds cannot, in principle, be predicted in
69			** advance, a reliable check for dates beyond the valid range is
70			** impossible. To guard against gross errors, a year five or more
71			** after the release year of the present function (see the constant
72			** IYV) is considered dubious. In this case a warning status is
73			** returned but the result is computed in the normal way.
74			**
75			** For both too-early and too-late years, the warning status is +1.
76			** This is distinct from the error status -1, which signifies a year
77			** so early that JD could not be computed.
78			**
79			** 2) If the specified date is for a day which ends with a leap second,
80			** the TAI-UTC value returned is for the period leading up to the
81			** leap second. If the date is for a day which begins as a leap
82			** second ends, the TAI-UTC returned is for the period following the
83			** leap second.
84			**
85			** 3) The day number must be in the normal calendar range, for example
86			** 1 through 30 for April. The "almanac" convention of allowing
87			** such dates as January 0 and December 32 is not supported in this
88			** function, in order to avoid confusion near leap seconds.
89			**
90			** 4) The fraction of day is used only for dates before the
91			** introduction of leap seconds, the first of which occurred at the
92			** end of 1971. It is tested for validity (0 to 1 is the valid
93			** range) even if not used; if invalid, zero is used and status -4
94			** is returned. For many applications, setting fd to zero is
95			** acceptable; the resulting error is always less than 3 ms (and
96			** occurs only pre-1972).
97			**
98			** 5) The status value returned in the case where there are multiple
99			** errors refers to the first error detected. For example, if the
100			** month and day are 13 and 32 respectively, status -2 (bad month)
101			** will be returned. The "internal error" status refers to a
102			** case that is impossible but causes some compilers to issue a
103			** warning.
104			**
105			** 6) In cases where a valid result is not available, zero is returned.
106			**
107			** References:
108			**
109			** 1) For dates from 1961 January 1 onwards, the expressions from the
110			** file ftp://maia.usno.navy.mil/ser7/tai-utc.dat are used.
111			**
112			** 2) The 5ms timestep at 1961 January 1 is taken from 2.58.1 (p87) of
113			** the 1992 Explanatory Supplement.
114			**
115			** Called:
116			** eraCal2jd Gregorian calendar to JD
117			**
118			** Copyright (C) 2013-2019, NumFOCUS Foundation.
119			** Derived, with permission, from the SOFA library. See notes at end of file.
120			*/
121			{
122			/* Release year for this version of eraDat */
123			enum { IYV = 2017};
124
125			/* Reference dates (MJD) and drift rates (s/day), pre leap seconds */
126			static const double drift[][2] = {
127			{ 37300.0, 0.0012960 },
128			{ 37300.0, 0.0012960 },
129			{ 37300.0, 0.0012960 },
130			{ 37665.0, 0.0011232 },
131			{ 37665.0, 0.0011232 },
132			{ 38761.0, 0.0012960 },
133			{ 38761.0, 0.0012960 },
134			{ 38761.0, 0.0012960 },
135			{ 38761.0, 0.0012960 },
136			{ 38761.0, 0.0012960 },
137			{ 38761.0, 0.0012960 },
138			{ 38761.0, 0.0012960 },
139			{ 39126.0, 0.0025920 },
140			{ 39126.0, 0.0025920 }
141			};
142
143			/* Number of Delta(AT) expressions before leap seconds were introduced */
144			enum { NERA1 = (int) (sizeof drift / sizeof (double) / 2) };
145
146			/* Dates and Delta(AT)s */
147			static const struct {
148			int iyear, month;
149			double delat;
150			} changes[] = {
151			{ 1960, 1, 1.4178180 },
152			{ 1961, 1, 1.4228180 },
153			{ 1961, 8, 1.3728180 },
154			{ 1962, 1, 1.8458580 },
155			{ 1963, 11, 1.9458580 },
156			{ 1964, 1, 3.2401300 },
157			{ 1964, 4, 3.3401300 },
158			{ 1964, 9, 3.4401300 },
159			{ 1965, 1, 3.5401300 },
160			{ 1965, 3, 3.6401300 },
161			{ 1965, 7, 3.7401300 },
162			{ 1965, 9, 3.8401300 },
163			{ 1966, 1, 4.3131700 },
164			{ 1968, 2, 4.2131700 },
165			{ 1972, 1, 10.0 },
166			{ 1972, 7, 11.0 },
167			{ 1973, 1, 12.0 },
168			{ 1974, 1, 13.0 },
169			{ 1975, 1, 14.0 },
170			{ 1976, 1, 15.0 },
171			{ 1977, 1, 16.0 },
172			{ 1978, 1, 17.0 },
173			{ 1979, 1, 18.0 },
174			{ 1980, 1, 19.0 },
175			{ 1981, 7, 20.0 },
176			{ 1982, 7, 21.0 },
177			{ 1983, 7, 22.0 },
178			{ 1985, 7, 23.0 },
179			{ 1988, 1, 24.0 },
180			{ 1990, 1, 25.0 },
181			{ 1991, 1, 26.0 },
182			{ 1992, 7, 27.0 },
183			{ 1993, 7, 28.0 },
184			{ 1994, 7, 29.0 },
185			{ 1996, 1, 30.0 },
186			{ 1997, 7, 31.0 },
187			{ 1999, 1, 32.0 },
188			{ 2006, 1, 33.0 },
189			{ 2009, 1, 34.0 },
190			{ 2012, 7, 35.0 },
191			{ 2015, 7, 36.0 },
192			{ 2017, 1, 37.0 }
193			};
194
195			/* Number of Delta(AT) changes */
196			enum { NDAT = (int) (sizeof changes / sizeof changes[0]) };
197
198			/* Miscellaneous local variables */
199			int j, i, m;
200			double da, djm0, djm;
201
202
203			/* Initialize the result to zero. */
204	4		*deltat = da = 0.0;
205
206			/* If invalid fraction of a day, set error status and give up. */
207	4	50	if (fd < 0.0 \|\| fd > 1.0) return -4;
		50
208
209			/* Convert the date into an MJD. */
210	4		j = eraCal2jd(iy, im, id, &djm0, &djm);
211
212			/* If invalid year, month, or day, give up. */
213	4	50	if (j < 0) return j;
214
215			/* If pre-UTC year, set warning status and give up. */
216	4	50	if (iy < changes[0].iyear) return 1;
217
218			/* If suspiciously late year, set warning status but proceed. */
219	4	50	if (iy > IYV + 5) j = 1;
220
221			/* Combine year and month to form a date-ordered integer... */
222	4		m = 12*iy + im;
223
224			/* ...and use it to find the preceding table entry. */
225	32	50	for (i = NDAT-1; i >=0; i--) {
226	32	100	if (m >= (12 * changes[i].iyear + changes[i].month)) break;
227			}
228
229			/* Prevent underflow warnings. */
230	4	50	if (i < 0) return -5;
231
232			/* Get the Delta(AT). */
233	4		da = changes[i].delat;
234
235			/* If pre-1972, adjust for drift. */
236	4	50	if (i < NERA1) da += (djm + fd - drift[i][0]) * drift[i][1];
237
238			/* Return the Delta(AT) value. */
239	4		*deltat = da;
240
241			/* Return the status. */
242	4		return j;
243
244			}
245			/*----------------------------------------------------------------------
246			**
247			**
248			** Copyright (C) 2013-2019, NumFOCUS Foundation.
249			** All rights reserved.
250			**
251			** This library is derived, with permission, from the International
252			** Astronomical Union's "Standards of Fundamental Astronomy" library,
253			** available from http://www.iausofa.org.
254			**
255			** The ERFA version is intended to retain identical functionality to
256			** the SOFA library, but made distinct through different function and
257			** file names, as set out in the SOFA license conditions. The SOFA
258			** original has a role as a reference standard for the IAU and IERS,
259			** and consequently redistribution is permitted only in its unaltered
260			** state. The ERFA version is not subject to this restriction and
261			** therefore can be included in distributions which do not support the
262			** concept of "read only" software.
263			**
264			** Although the intent is to replicate the SOFA API (other than
265			** replacement of prefix names) and results (with the exception of
266			** bugs; any that are discovered will be fixed), SOFA is not
267			** responsible for any errors found in this version of the library.
268			**
269			** If you wish to acknowledge the SOFA heritage, please acknowledge
270			** that you are using a library derived from SOFA, rather than SOFA
271			** itself.
272			**
273			**
274			** TERMS AND CONDITIONS
275			**
276			** Redistribution and use in source and binary forms, with or without
277			** modification, are permitted provided that the following conditions
278			** are met:
279			**
280			** 1 Redistributions of source code must retain the above copyright
281			** notice, this list of conditions and the following disclaimer.
282			**
283			** 2 Redistributions in binary form must reproduce the above copyright
284			** notice, this list of conditions and the following disclaimer in
285			** the documentation and/or other materials provided with the
286			** distribution.
287			**
288			** 3 Neither the name of the Standards Of Fundamental Astronomy Board,
289			** the International Astronomical Union nor the names of its
290			** contributors may be used to endorse or promote products derived
291			** from this software without specific prior written permission.
292			**
293			** THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
294			** "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
295			** LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
296			** FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
297			** COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
298			** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
299			** BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
300			** LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
301			** CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
302			** LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
303			** ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
304			** POSSIBILITY OF SUCH DAMAGE.
305			**
306			*/