Commit graph

7 commits

Author SHA1 Message Date
wiz
1a4485ab32 Add RCS Id. 2002-07-02 12:56:53 +00:00
fredb
b48eba1112 Give all packages which depend on "png" a version bump, and update
all dependencies on packages depending on "png" which contain shared
libraries, all for the (imminent) update to the "png" package.
[List courtesy of John Darrow, courtesy of "bulk-build".]
2002-03-13 17:36:35 +00:00
dmcmahill
be09d34457 add missing USE_XPM 2002-01-21 14:01:23 +00:00
hubertf
09c1f15d9d Adjust format a bit:
* 75 * '='
 * RCS ID
 * blank line
 * message text
 * optional blank line
 * 75 * '='
2001-11-11 06:17:26 +00:00
zuntum
c72c1cf5f9 Move pkg/ files into package's toplevel directory 2001-11-01 00:57:41 +00:00
hubertf
aef4c449fc make this find shared libs at runtime (-Wl,-R) 2001-08-25 01:22:17 +00:00
agc
f8584542c7 Initial import of xtide-2.4 into the Packages Collection.
Provided in PR 13044 by Paul Goyette (paul@whooppee.com)

XTide is a package that provides tide and current predictions in a
wide variety of formats.  Graphs, text listings, and calendars can be
generated, or a tide clock can be provided on your desktop.  XTide can
work with X-windows, plain text terminals, or the web.  This is
accomplished with three separate programs:  the interactive interface
(xtide), the non-interactive or command line interface (tide), and the
web interface (xttpd).

The algorithm that XTide uses to predict tides is the one used by the
National Ocean Service in the U.S.  It is significantly more accurate
than the simple tide clocks that can be bought in novelty stores.
However, it takes more to predict tides accurately than just a spiffy
algorithm -- you also need some special data for each and every
location for which you want to predict tides.  XTide reads this data
from harmonics files.  Ultimately, XTide's predictions can only be as
good as the available harmonics data.  Due to issues of data
availability and of compatibility with non-U.S.  tide systems, the
predictions for U.S.  locations tend to be a lot better on average
than those for locations outside of the U.S.
* Deviations of 1 minute from official predictions are typical for U.S.
  locations having the latest data.
* Deviations of 20 minutes are typical for non-U.S. locations or U.S.
  locations that are using obsolete data.
* Much longer deviations indicate a problem.
2001-05-31 15:48:05 +00:00