doxygen/xlink_master_2021_09_30_20.02.36/astshim_222_80_80_09052faf71bd_2src_2frame_8cc_source.html

 /*

  * LSST Data Management System

  * Copyright 2017 AURA/LSST.

  *

  * This product includes software developed by the

  * LSST Project (http://www.lsst.org/).

  *

  * 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 LSST License Statement and

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 #include <stdexcept>

 #include <vector>


 #include "astshim/CmpFrame.h"

 #include "astshim/Frame.h"

 #include "astshim/FrameSet.h"


 namespace ast {


 std::shared_ptr<FrameSet> Frame::convert(Frame const &to, std::string const &domainlist) {

     auto *rawFrameSet =

             reinterpret_cast<AstFrameSet *>(astConvert(getRawPtr(), to.getRawPtr(), domainlist.c_str()));

     assertOK(reinterpret_cast<AstObject *>(rawFrameSet));

     if (!rawFrameSet) {

         return std::shared_ptr<FrameSet>();

     }

     return Object::fromAstObject<FrameSet>(reinterpret_cast<AstObject *>(rawFrameSet), false);

 }


 std::shared_ptr<FrameSet> Frame::findFrame(Frame const &tmplt, std::string const &domainlist) {

     auto *rawFrameSet =

             reinterpret_cast<AstFrameSet *>(astFindFrame(getRawPtr(), tmplt.getRawPtr(), domainlist.c_str()));

     assertOK(reinterpret_cast<AstObject *>(rawFrameSet));

     if (!rawFrameSet) {

         return std::shared_ptr<FrameSet>();

     }

     return Object::fromAstObject<FrameSet>(reinterpret_cast<AstObject *>(rawFrameSet), false);

 }


 std::vector<double> Frame::intersect(std::vector<double> const &a1, std::vector<double> const &a2,

                                      std::vector<double> const &b1, std::vector<double> const &b2) const {

     int const naxes = 2;

     detail::assertEqual(getNAxes(), "# axes", naxes, "");

     detail::assertEqual(a1.size(), "a1.size()", static_cast<std::size_t>(naxes), "");

     detail::assertEqual(a2.size(), "a2.size()", static_cast<std::size_t>(naxes), "");

     detail::assertEqual(b1.size(), "b1.size()", static_cast<std::size_t>(naxes), "");

     detail::assertEqual(b2.size(), "b2.size()", static_cast<std::size_t>(naxes), "");

     std::vector<double> ret(naxes);

     astIntersect(getRawPtr(), a1.data(), a2.data(), b1.data(), b2.data(), ret.data());

     assertOK();

     detail::astBadToNan(ret);

     return ret;

 }


 CmpFrame Frame::under(Frame const &next) const { return CmpFrame(*this, next); }


 FrameMapping Frame::pickAxes(std::vector<int> const &axes) const {

     AstMapping *rawMap;

     auto *rawFrame =

             reinterpret_cast<AstFrame *>(astPickAxes(getRawPtr(), axes.size(), axes.data(), &rawMap));

     assertOK(reinterpret_cast<AstObject *>(rawFrame), reinterpret_cast<AstObject *>(rawMap));

     std::shared_ptr<Frame> frame;

     try {

         frame = Object::fromAstObject<Frame>(reinterpret_cast<AstObject *>(rawFrame), false);

     } catch (...) {

         astAnnul(rawMap);

         throw;

     }

     auto map = Object::fromAstObject<Mapping>(reinterpret_cast<AstObject *>(rawMap), false);

     return FrameMapping(frame, map);

 }


 ResolvedPoint Frame::resolve(std::vector<double> const &point1, std::vector<double> const &point2,

                              std::vector<double> const &point3) const {

     int const naxes = getNAxes();

     detail::assertEqual(point1.size(), "a1.size()", static_cast<std::size_t>(naxes), "");

     detail::assertEqual(point2.size(), "a2.size()", static_cast<std::size_t>(naxes), "");

     detail::assertEqual(point3.size(), "b1.size()", static_cast<std::size_t>(naxes), "");

     ResolvedPoint ret(naxes);

     astResolve(getRawPtr(), point1.data(), point2.data(), point3.data(), ret.point.data(), &ret.d1, &ret.d2);

     assertOK();

     detail::astBadToNan(ret.point);

     return ret;

 }


 }  // namespace ast

CmpFrame.h

FrameSet.h

to
table::Key< int > to
Definition: TransformMap.cc:348

Frame.h

std::string

std::string::c_str
T c_str(T... args)

ast::CmpFrame
A CmpFrame is a compound Frame which allows two component Frames (of any class) to be merged together...
Definition: CmpFrame.h:60

ast::Frame
Frame is used to represent a coordinate system.
Definition: Frame.h:157

ast::Frame::getNAxes
int getNAxes() const
Get NAxes: the number of axes in the frame (i.e.
Definition: Frame.h:876

ast::Frame::findFrame
std::shared_ptr< FrameSet > findFrame(Frame const &tmplt, std::string const &domainlist="")
Find a coordinate system with specified characteristics.
Definition: Frame.cc:41

ast::Frame::intersect
std::vector< double > intersect(std::vector< double > const &a1, std::vector< double > const &a2, std::vector< double > const &b1, std::vector< double > const &b2) const
Find the point of intersection between two geodesic curves.
Definition: Frame.cc:51

ast::Frame::under
CmpFrame under(Frame const &next) const
Combine this frame with another to form a compound frame (CmpFrame), with the axes of this frame foll...
Definition: Frame.cc:66

ast::Frame::pickAxes
FrameMapping pickAxes(std::vector< int > const &axes) const
Create a new Frame whose axes are copied from an existing Frame along with other Frame attributes,...
Definition: Frame.cc:68

ast::Frame::resolve
ResolvedPoint resolve(std::vector< double > const &point1, std::vector< double > const &point2, std::vector< double > const &point3) const
Resolve a vector into two orthogonal components.
Definition: Frame.cc:84

ast::Frame::convert
std::shared_ptr< FrameSet > convert(Frame const &to, std::string const &domainlist="")
Compute a frameset that describes the conversion between this frame and another frame.
Definition: Frame.cc:31

ast::FrameMapping
Struct returned by Frame::pickAxes containing a frame and a mapping.
Definition: Frame.h:91

ast::Object::getRawPtr
AstObject const  * getRawPtr() const
Get the raw AST pointer.
Definition: Object.h:292

ast::ResolvedPoint
Struct returned by Frame::resolve containing a point and the resolved vector components.
Definition: Frame.h:75

ast::ResolvedPoint::point
std::vector< double > point
Point.
Definition: Frame.h:83

ast::ResolvedPoint::d2
double d2
Resolved vector component 2.
Definition: Frame.h:85

ast::ResolvedPoint::d1
double d1
Resolved vector component 1.
Definition: Frame.h:84

std::vector::data
T data(T... args)

ast::detail::assertEqual
void assertEqual(T1 val1, std::string const &descr1, T2 val2, std::string const &descr2)
Definition: utils.h:48

ast::detail::astBadToNan
void astBadToNan(std::vector< double > &p)
Replace AST__BAD with a quiet NaN in a vector.
Definition: utils.h:59

ast
AST wrapper classes and functions.
Definition: attributes_channel.dox:1

ast::assertOK
void assertOK(AstObject *rawPtr1=nullptr, AstObject *rawPtr2=nullptr)
Throw std::runtime_error if AST's state is bad.
Definition: base.cc:49

astshim.fitsChanContinued.next
def next(self)
Definition: fitsChanContinued.py:105

std::shared_ptr

std::vector::size
T size(T... args)

std::size_t

std::vector< double >