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159 lines
5.4 KiB
C++
159 lines
5.4 KiB
C++
// This file is part of Eigen, a lightweight C++ template library
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// for linear algebra.
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//
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// Copyright (C) 2011-2018 Gael Guennebaud <gael.guennebaud@inria.fr>
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//
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// This Source Code Form is subject to the terms of the Mozilla
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// Public License v. 2.0. If a copy of the MPL was not distributed
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// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
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#ifndef EIGEN_TEST_ANNOYING_SCALAR_H
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#define EIGEN_TEST_ANNOYING_SCALAR_H
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#include <ostream>
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#if EIGEN_COMP_GNUC
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#pragma GCC diagnostic ignored "-Wshadow"
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#endif
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#ifndef EIGEN_TEST_ANNOYING_SCALAR_DONT_THROW
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struct my_exception
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{
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my_exception() {}
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~my_exception() {}
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};
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#endif
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// An AnnoyingScalar is a pseudo scalar type that:
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// - can randomly through an exception in operator +
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// - randomly allocate on the heap or initialize a reference to itself making it non trivially copyable, nor movable, nor relocatable.
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class AnnoyingScalar
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{
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public:
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AnnoyingScalar() { init(); *v = 0; }
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AnnoyingScalar(long double _v) { init(); *v = _v; }
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AnnoyingScalar(double _v) { init(); *v = _v; }
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AnnoyingScalar(float _v) { init(); *v = _v; }
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AnnoyingScalar(int _v) { init(); *v = _v; }
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AnnoyingScalar(long _v) { init(); *v = _v; }
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#if EIGEN_HAS_CXX11
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AnnoyingScalar(long long _v) { init(); *v = _v; }
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#endif
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AnnoyingScalar(const AnnoyingScalar& other) { init(); *v = *(other.v); }
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~AnnoyingScalar() {
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if(v!=&data)
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delete v;
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instances--;
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}
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void init() {
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if(internal::random<bool>())
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v = new float;
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else
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v = &data;
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instances++;
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}
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AnnoyingScalar operator+(const AnnoyingScalar& other) const
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{
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#ifndef EIGEN_TEST_ANNOYING_SCALAR_DONT_THROW
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countdown--;
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if(countdown<=0 && !dont_throw)
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throw my_exception();
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#endif
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return AnnoyingScalar(*v+*other.v);
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}
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AnnoyingScalar operator-() const
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{ return AnnoyingScalar(-*v); }
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AnnoyingScalar operator-(const AnnoyingScalar& other) const
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{ return AnnoyingScalar(*v-*other.v); }
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AnnoyingScalar operator*(const AnnoyingScalar& other) const
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{ return AnnoyingScalar((*v)*(*other.v)); }
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AnnoyingScalar operator/(const AnnoyingScalar& other) const
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{ return AnnoyingScalar((*v)/(*other.v)); }
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AnnoyingScalar& operator+=(const AnnoyingScalar& other) { *v += *other.v; return *this; }
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AnnoyingScalar& operator-=(const AnnoyingScalar& other) { *v -= *other.v; return *this; }
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AnnoyingScalar& operator*=(const AnnoyingScalar& other) { *v *= *other.v; return *this; }
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AnnoyingScalar& operator/=(const AnnoyingScalar& other) { *v /= *other.v; return *this; }
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AnnoyingScalar& operator= (const AnnoyingScalar& other) { *v = *other.v; return *this; }
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bool operator==(const AnnoyingScalar& other) const { return *v == *other.v; }
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bool operator!=(const AnnoyingScalar& other) const { return *v != *other.v; }
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bool operator<=(const AnnoyingScalar& other) const { return *v <= *other.v; }
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bool operator< (const AnnoyingScalar& other) const { return *v < *other.v; }
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bool operator>=(const AnnoyingScalar& other) const { return *v >= *other.v; }
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bool operator> (const AnnoyingScalar& other) const { return *v > *other.v; }
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float* v;
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float data;
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static int instances;
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#ifndef EIGEN_TEST_ANNOYING_SCALAR_DONT_THROW
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static int countdown;
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static bool dont_throw;
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#endif
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};
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AnnoyingScalar real(const AnnoyingScalar &x) { return x; }
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AnnoyingScalar imag(const AnnoyingScalar & ) { return 0; }
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AnnoyingScalar conj(const AnnoyingScalar &x) { return x; }
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AnnoyingScalar sqrt(const AnnoyingScalar &x) { return std::sqrt(*x.v); }
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AnnoyingScalar abs (const AnnoyingScalar &x) { return std::abs(*x.v); }
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AnnoyingScalar cos (const AnnoyingScalar &x) { return std::cos(*x.v); }
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AnnoyingScalar sin (const AnnoyingScalar &x) { return std::sin(*x.v); }
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AnnoyingScalar acos(const AnnoyingScalar &x) { return std::acos(*x.v); }
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AnnoyingScalar atan2(const AnnoyingScalar &y,const AnnoyingScalar &x) { return std::atan2(*y.v,*x.v); }
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std::ostream& operator<<(std::ostream& stream,const AnnoyingScalar& x) {
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stream << (*(x.v));
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return stream;
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}
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int AnnoyingScalar::instances = 0;
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#ifndef EIGEN_TEST_ANNOYING_SCALAR_DONT_THROW
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int AnnoyingScalar::countdown = 0;
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bool AnnoyingScalar::dont_throw = false;
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#endif
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namespace Eigen {
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template<>
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struct NumTraits<AnnoyingScalar> : NumTraits<float>
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{
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enum {
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RequireInitialization = true
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};
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typedef AnnoyingScalar Real;
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typedef AnnoyingScalar Nested;
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typedef AnnoyingScalar Literal;
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typedef AnnoyingScalar NonInteger;
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};
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template<> inline AnnoyingScalar test_precision<AnnoyingScalar>() { return test_precision<float>(); }
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namespace internal {
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template<> double cast(const AnnoyingScalar& x) { return double(*x.v); }
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template<> float cast(const AnnoyingScalar& x) { return *x.v; }
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}
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}
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AnnoyingScalar get_test_precision(const AnnoyingScalar&)
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{ return Eigen::test_precision<AnnoyingScalar>(); }
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AnnoyingScalar test_relative_error(const AnnoyingScalar &a, const AnnoyingScalar &b)
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{ return test_relative_error(*a.v, *b.v); }
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inline bool test_isApprox(const AnnoyingScalar &a, const AnnoyingScalar &b)
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{ return internal::isApprox(*a.v, *b.v, test_precision<float>()); }
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inline bool test_isMuchSmallerThan(const AnnoyingScalar &a, const AnnoyingScalar &b)
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{ return test_isMuchSmallerThan(*a.v, *b.v); }
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#endif // EIGEN_TEST_ANNOYING_SCALAR_H
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