doxygen/xlink_master_2020_01_08_09.10.02/___angle_8cc_source.html

 /*
  * Developed for the LSST Data Management System.
  * This product includes software developed by the LSST Project
  * (https://www.lsst.org).
  * See the COPYRIGHT file at the top-level directory of this distribution
  * for details of code ownership.
  *
  * This program is free software: you can redistribute it and/or modify
  * it under the terms of the GNU General Public License as published by
  * the Free Software Foundation, either version 3 of the License, or
  * (at your option) any later version.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program.  If not, see <https://www.gnu.org/licenses/>.
  */

 #include "pybind11/pybind11.h"

 #include "lsst/utils/python.h"

 #include "lsst/geom/Angle.h"

 namespace py = pybind11;

 namespace lsst {
 namespace geom {

 using PyAngle = py::class_<Angle>;
 using PyAngleUnit = py::class_<AngleUnit>;

 namespace {

 template <typename OtherT>
 void declareAngleComparisonOperators(PyAngle& cls) {
     cls.def("__eq__", [](Angle const& self, OtherT const& other) { return self == other; },
             py::is_operator());
     cls.def("__ne__", [](Angle const& self, OtherT const& other) { return self != other; },
             py::is_operator());
     cls.def("__le__", [](Angle const& self, OtherT const& other) { return self <= other; },
             py::is_operator());
     cls.def("__ge__", [](Angle const& self, OtherT const& other) { return self >= other; },
             py::is_operator());
     cls.def("__lt__", [](Angle const& self, OtherT const& other) { return self < other; }, py::is_operator());
     cls.def("__gt__", [](Angle const& self, OtherT const& other) { return self > other; }, py::is_operator());
 }

 } // anonymous

 void wrapAngle(utils::python::WrapperCollection & wrappers) {
     wrappers.wrapType(
         PyAngleUnit(wrappers.module, "AngleUnit"),
         [](auto & mod, auto & cls) mutable {
             cls.def("__eq__", [](AngleUnit const& self, AngleUnit const& other) { return self == other; },
                     py::is_operator());
             cls.def("__ne__", [](AngleUnit const& self, AngleUnit const& other) { return !(self == other); },
                     py::is_operator());
             cls.def("_mul", [](AngleUnit const& self, double other) { return other * self; },
                     py::is_operator());
             cls.def("_rmul", [](AngleUnit const& self, double other) { return other * self; },
                     py::is_operator());
             mod.attr("radians") = py::cast(radians);
             mod.attr("degrees") = py::cast(degrees);
             mod.attr("hours") = py::cast(hours);
             mod.attr("arcminutes") = py::cast(arcminutes);
             mod.attr("arcseconds") = py::cast(arcseconds);
             mod.attr("milliarcseconds") = py::cast(milliarcseconds);
         }
     );

     wrappers.wrapType(
         PyAngle(wrappers.module, "Angle"),
         [](auto & mod, auto & cls) mutable {
             cls.def(py::init<double, AngleUnit>(), py::arg("val"), py::arg("units") = radians);
             cls.def(py::init<>());
             declareAngleComparisonOperators<Angle>(cls);
             declareAngleComparisonOperators<double>(cls);
             declareAngleComparisonOperators<int>(cls);
             cls.def("__mul__", [](Angle const& self, double other) { return self * other; },
                     py::is_operator());
             cls.def("__mul__", [](Angle const& self, int other) { return self * other; },
                     py::is_operator());
             cls.def("__rmul__", [](Angle const& self, double other) { return self * other; },
                     py::is_operator());
             cls.def("__rmul__", [](Angle const& self, int other) { return self * other; },
                     py::is_operator());
             cls.def("__imul__", [](Angle& self, double other) { return self *= other; });
             cls.def("__imul__", [](Angle& self, int other) { return self *= other; });
             cls.def("__add__", [](Angle const& self, Angle const& other) { return self + other; },
                     py::is_operator());
             cls.def("__sub__", [](Angle const& self, Angle const& other) { return self - other; },
                     py::is_operator());
             cls.def("__neg__", [](Angle const& self) { return -self; }, py::is_operator());
             cls.def("__iadd__", [](Angle& self, Angle const& other) { return self += other; });
             cls.def("__isub__", [](Angle& self, Angle const& other) { return self -= other; });
             cls.def("__truediv__", [](Angle const& self, double other) { return self / other; },
                     py::is_operator());
             // Without an explicit wrapper, Python lets Angle / Angle -> Angle
             cls.def("__truediv__", [](Angle const& self, Angle const& other) {
                 throw py::type_error("unsupported operand type(s) for /: 'Angle' and 'Angle'");
             });
             cls.def("__float__", &Angle::operator double);
             cls.def("__abs__", [](Angle const& self) { return std::abs(self.asRadians()) * radians; });

             cls.def("__reduce__", [cls](Angle const& self) {
                 return py::make_tuple(cls, py::make_tuple(py::cast(self.asRadians())));
             });
             utils::python::addOutputOp(cls, "__str__");
             utils::python::addOutputOp(cls, "__repr__");
             cls.def("asAngularUnits", &Angle::asAngularUnits);
             cls.def("asRadians", &Angle::asRadians);
             cls.def("asDegrees", &Angle::asDegrees);
             cls.def("asHours", &Angle::asHours);
             cls.def("asArcminutes", &Angle::asArcminutes);
             cls.def("asArcseconds", &Angle::asArcseconds);
             cls.def("asMilliarcseconds", &Angle::asMilliarcseconds);
             cls.def("wrap", &Angle::wrap);
             cls.def("wrapCtr", &Angle::wrapCtr);
             cls.def("wrapNear", &Angle::wrapNear);
             cls.def("separation", &Angle::separation);
             mod.def("isAngle", isAngle<Angle>);
             mod.def("isAngle", isAngle<double>);
         }
     );

     wrappers.wrap(
         [](auto & mod) mutable {
             mod.attr("PI") = py::float_(PI);
             mod.attr("TWOPI") = py::float_(TWOPI);
             mod.attr("HALFPI") = py::float_(HALFPI);
             mod.attr("ONE_OVER_PI") = py::float_(ONE_OVER_PI);
             mod.attr("SQRTPI") = py::float_(SQRTPI);
             mod.attr("INVSQRTPI") = py::float_(INVSQRTPI);
             mod.attr("ROOT2") = py::float_(ROOT2);
             mod.def("degToRad", degToRad);
             mod.def("radToDeg", radToDeg);
             mod.def("radToArcsec", radToArcsec);
             mod.def("radToMas", radToMas);
             mod.def("arcsecToRad", arcsecToRad);
             mod.def("masToRad", masToRad);
         }
     );
 }

 }  // namespace geom
 }  // namespace lsst
Angle.h

lsst::geom::Angle::asAngularUnits
constexpr double asAngularUnits(AngleUnit const &units) const noexcept
Return an Angle&#39;s value in the specified units.
Definition: Angle.h:163

lsst::geom::arcminutes
AngleUnit constexpr arcminutes
constant with units of arcminutes
Definition: Angle.h:111

lsst::sphgeom::abs
Angle abs(Angle const &a)
Definition: Angle.h:106

lsst::geom::wrapAngle
void wrapAngle(utils::python::WrapperCollection &wrappers)
Definition: _Angle.cc:54

lsst::utils::python::addOutputOp
void addOutputOp(PyClass &cls, std::string const &method)
Add __str__ or __repr__ method implemented by operator<<.
Definition: python.h:87

lsst::geom::Angle::asRadians
constexpr double asRadians() const noexcept
Return an Angle&#39;s value in radians.
Definition: Angle.h:166

lsst::geom::Angle::asDegrees
constexpr double asDegrees() const noexcept
Return an Angle&#39;s value in degrees.
Definition: Angle.h:169

lsst::geom::TWOPI
double constexpr TWOPI
Definition: Angle.h:40

lsst::geom::hours
AngleUnit constexpr hours
constant with units of hours
Definition: Angle.h:110

pybind11
Definition: _GenericMap.cc:40

lsst::geom::radToDeg
constexpr double radToDeg(double x) noexcept
Definition: Angle.h:52

lsst::geom::Angle::separation
Angle separation(Angle const &other) const noexcept
The signed difference between two Angles.
Definition: Angle.h:449

other
ItemVariant const  * other
Definition: Schema.cc:56

lsst::geom::radians
AngleUnit constexpr radians
constant with units of radians
Definition: Angle.h:108

lsst::geom::Angle
A class representing an angle.
Definition: Angle.h:127

lsst::geom::Angle::wrapCtr
Angle wrapCtr() const noexcept
Wrap this angle to the range [-π, π).
Definition: Angle.h:412

lsst::geom::radToArcsec
constexpr double radToArcsec(double x) noexcept
Definition: Angle.h:53

lsst::utils::python::WrapperCollection::module
pybind11::module module
The module object passed to the PYBIND11_MODULE block that contains this WrapperCollection.
Definition: python.h:448

lsst::afw::geom.transform.transformContinued.cls
cls
Definition: transformContinued.py:33

lsst::geom::ONE_OVER_PI
double constexpr ONE_OVER_PI
Definition: Angle.h:42

lsst::geom::PyAngle
py::class_< Angle > PyAngle
Definition: _Angle.cc:33

lsst::geom
Definition: geomOperators.dox:4

lsst::geom::degrees
AngleUnit constexpr degrees
constant with units of degrees
Definition: Angle.h:109

lsst
A base class for image defects.
Definition: imageAlgorithm.dox:1

lsst::geom::Angle::asHours
constexpr double asHours() const noexcept
Return an Angle&#39;s value in hours.
Definition: Angle.h:172

lsst::geom::arcseconds
AngleUnit constexpr arcseconds
constant with units of arcseconds
Definition: Angle.h:112

python.h

lsst::geom::degToRad
constexpr double degToRad(double x) noexcept
Definition: Angle.h:51

lsst::geom::Angle::asArcseconds
constexpr double asArcseconds() const noexcept
Return an Angle&#39;s value in arcseconds.
Definition: Angle.h:178

lsst::geom::Angle::wrapNear
Angle wrapNear(Angle const &refAng) const noexcept
Wrap this angle to a value x such that -π ≤ x - refAng ≤ π, approximately.
Definition: Angle.h:431

lsst::geom::Angle::asMilliarcseconds
constexpr double asMilliarcseconds() const noexcept
Return an Angle&#39;s value in milliarcseconds.
Definition: Angle.h:181

lsst::geom::INVSQRTPI
double const INVSQRTPI
Definition: Angle.h:45

lsst::geom::HALFPI
double constexpr HALFPI
Definition: Angle.h:41

lsst::geom::radToMas
constexpr double radToMas(double x) noexcept
Definition: Angle.h:54

lsst::geom::SQRTPI
double const SQRTPI
Definition: Angle.h:44

lsst::geom::Angle::asArcminutes
constexpr double asArcminutes() const noexcept
Return an Angle&#39;s value in arcminutes.
Definition: Angle.h:175

lsst::geom::PyAngleUnit
py::class_< AngleUnit > PyAngleUnit
Definition: _Angle.cc:34

lsst::geom::Angle::wrap
Angle wrap() const noexcept
Wrap this angle to the range [0, 2π).
Definition: Angle.h:403

lsst::geom::milliarcseconds
AngleUnit constexpr milliarcseconds
constant with units of milliarcseconds
Definition: Angle.h:115

lsst::geom::masToRad
constexpr double masToRad(double x) noexcept
Definition: Angle.h:56

lsst::geom::arcsecToRad
constexpr double arcsecToRad(double x) noexcept
Definition: Angle.h:55

lsst::utils::python::WrapperCollection
A helper class for subdividing pybind11 module across multiple translation units (i.e.
Definition: python.h:242

lsst::geom::ROOT2
double constexpr ROOT2
Definition: Angle.h:46

lsst::geom::PI
double constexpr PI
The ratio of a circle&#39;s circumference to diameter.
Definition: Angle.h:39

lsst::geom::AngleUnit
A class used to convert scalar POD types such as double to Angle.
Definition: Angle.h:70

lsst::utils::python::WrapperCollection::wrapType
PyType wrapType(PyType cls, ClassWrapperCallback function, bool setModuleName=true)
Add a type (class or enum) wrapper, deferring method and other attribute definitions until finish() i...
Definition: python.h:391