nixpkgs/pkgs/applications/misc/gpscorrelate/default.nix

64 lines
1.6 KiB
Nix

{ fetchFromGitHub, stdenv, fetchpatch, pkgconfig, exiv2, libxml2, gtk3
, libxslt, docbook_xsl, docbook_xml_dtd_42, desktop-file-utils }:
stdenv.mkDerivation rec {
pname = "gpscorrelate";
version = "unstable-2019-06-05";
src = fetchFromGitHub {
owner = "dfandrich";
repo = pname;
rev = "80b14fe7c10c1cc8f62c13f517c062577ce88c85";
sha256 = "1gaan0nd7ai0bwilfnkza7lg5mz87804mvlygj0gjc672izr37r6";
};
nativeBuildInputs = [
desktop-file-utils
docbook_xml_dtd_42
docbook_xsl
libxslt
pkgconfig
];
buildInputs = [
exiv2
gtk3
libxml2
];
makeFlags = [
"prefix=${placeholder "out"}"
"GTK=3"
"CC=cc"
"CXX=c++"
];
doCheck = true;
installTargets = [ "install" "install-desktop-file" ];
meta = with stdenv.lib; {
description = "A GPS photo correlation tool, to add EXIF geotags";
longDescription = ''
Digital cameras are cool. So is GPS. And, EXIF tags are really
cool too.
What happens when you merge the three? You end up with a set of
photos taken with a digital camera that are "stamped" with the
location at which they were taken.
The EXIF standard defines a number of tags that are for use with GPS.
A variety of programs exist around the place to match GPS data
with digital camera photos, but most of them are Windows or
MacOS only. Which doesn't really suit me that much. Also, each
one takes the GPS data in a different format.
'';
license = licenses.gpl2Plus;
homepage = "https://github.com/dfandrich/gpscorrelate";
platforms = platforms.linux;
};
}