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LSST Data Management Base Package
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PolyMap.cc
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1/*
2 * LSST Data Management System
3 * Copyright 2017 AURA/LSST.
4 *
5 * This product includes software developed by the
6 * LSST Project (http://www.lsst.org/).
7 *
8 * This program is free software: you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation, either version 3 of the License, or
11 * (at your option) any later version.
12 *
13 * This program is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 * GNU General Public License for more details.
17 *
18 * You should have received a copy of the LSST License Statement and
19 * the GNU General Public License along with this program. If not,
20 * see <https://www.lsstcorp.org/LegalNotices/>.
21 */
22#include <sstream>
23#include <stdexcept>
24
26#include "astshim/PolyMap.h"
27
28namespace ast {
29
30PolyMap PolyMap::polyTran(bool forward, double acc, double maxacc, int maxorder,
31 std::vector<double> const &lbnd, std::vector<double> const &ubnd) const {
32 // If there is an iterative inverse then reject attempts to fit the other direction.
33 // AST catches the case that there are no inverse coefficients,
34 // but I prefer to also raise if there are inverse coefficients because
35 // the iterative inverse cannot match the inverse coefficients, except in the most trivial cases,
36 // and the inverse coefficients are used to fit the forward direction,
37 // so the results are likely to be surprising
38 if (getIterInverse()) {
39 if (forward != isInverted()) {
40 if (forward) {
41 throw std::invalid_argument("Cannot fit forward transform when inverse is iterative");
42 } else {
43 throw std::invalid_argument("Cannot fit inverse transform when forward is iterative");
44 }
45 }
46 }
47 return PolyMap(detail::polyTranImpl<AstPolyMap>(*this, forward, acc, maxacc, maxorder, lbnd, ubnd));
48}
49
50PolyMap::PolyMap(AstPolyMap *map) : Mapping(reinterpret_cast<AstMapping *>(map)) {
51 if (!astIsAPolyMap(getRawPtr())) {
53 os << "this is a " << getClassName() << ", which is not a PolyMap";
54 throw std::invalid_argument(os.str());
55 }
56}
57
59AstPolyMap *PolyMap::_makeRawPolyMap(ConstArray2D const &coeff_f, ConstArray2D const &coeff_i,
60 std::string const &options) const {
61 const int nin = coeff_f.getSize<1>() - 2;
62 const int ncoeff_f = coeff_f.getSize<0>();
63 const int nout = coeff_i.getSize<1>() - 2;
64 const int ncoeff_i = coeff_i.getSize<0>();
65
66 if ((ncoeff_f == 0) && (ncoeff_i == 0)) {
68 "Must specify forward or inverse transform (coeff_f and coeff_i both empty)");
69 }
70 if (nin <= 0) {
72 os << "coeff_f row length = " << nin + 2
73 << ", which is too short; length = nin + 2 and nin must be > 0";
74 throw std::invalid_argument(os.str());
75 }
76 if (nout <= 0) {
78 os << "coeff_i row length " << nout + 2
79 << ", which is too short; length = nout + 2 and nout must be > 0";
80 throw std::invalid_argument(os.str());
81 }
82
83 auto result = astPolyMap(nin, nout, ncoeff_f, coeff_f.getData(), ncoeff_i, coeff_i.getData(), "%s",
84 options.c_str());
85 assertOK();
86 return result;
87}
88
90AstPolyMap *PolyMap::_makeRawPolyMap(ConstArray2D const &coeff_f, int nout,
91 std::string const &options) const {
92 const int nin = coeff_f.getSize<1>() - 2;
93 const int ncoeff_f = coeff_f.getSize<0>();
94 if (ncoeff_f <= 0) {
95 throw std::invalid_argument("Must specify forward transform (coeff_f is empty)");
96 }
97 if (nin <= 0) {
99 os << "coeff_f row length = " << nin + 2
100 << ", which is too short; length = nin + 2 and nin must be > 0";
101 throw std::invalid_argument(os.str());
102 }
103 if (nout <= 0) {
105 os << "nout = " << nout << " <0 =";
106 throw std::invalid_argument(os.str());
107 }
108
109 auto result = astPolyMap(nin, nout, ncoeff_f, coeff_f.getData(), 0, nullptr, "%s", options.c_str());
110 assertOK();
111 return result;
112}
113
114} // namespace ast
py::object result
Definition _schema.cc:429
std::ostream * os
Definition Schema.cc:557
T c_str(T... args)
An abstract base class for objects which transform one set of coordinates to another.
Definition Mapping.h:59
bool isInverted() const
Is this an inverted mapping?
Definition Mapping.h:95
std::string getClassName() const
Get Class: the name of the class (e.g.
Definition Object.h:139
AstObject const * getRawPtr() const
Get the raw AST pointer.
Definition Object.h:292
PolyMap is a Mapping which performs a general polynomial transformation.
Definition PolyMap.h:49
PolyMap(ConstArray2D const &coeff_f, ConstArray2D const &coeff_i, std::string const &options="IterInverse=0")
Construct a PolyMap with specified forward and/or inverse transforms.
Definition PolyMap.h:99
bool getIterInverse() const
Get IterInverse: does this provide an iterative inverse transformation?
Definition PolyMap.h:141
PolyMap polyTran(bool forward, double acc, double maxacc, int maxorder, std::vector< double > const &lbnd, std::vector< double > const &ubnd) const
This function creates a new PolyMap which is a copy of this one, in which a specified transformation ...
Definition PolyMap.cc:30
template AstPolyMap * polyTranImpl< AstPolyMap >(PolyMap const &, bool, double, double, int, std::vector< double > const &, std::vector< double > const &)
AST wrapper classes and functions.
void assertOK(AstObject *rawPtr1=nullptr, AstObject *rawPtr2=nullptr)
Throw std::runtime_error if AST's state is bad.
Definition base.cc:49
ndarray::Array< const double, 2, 2 > ConstArray2D
2D array of const double; typically used for lists of const points
Definition base.h:46