eigen/test/symbolic_index.cpp

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// This file is part of Eigen, a lightweight C++ template library
// for linear algebra.
//
// Copyright (C) 2017 Gael Guennebaud <gael.guennebaud@inria.fr>
//
// This Source Code Form is subject to the terms of the Mozilla
// Public License v. 2.0. If a copy of the MPL was not distributed
// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
#ifdef EIGEN_TEST_PART_2
#define EIGEN_MAX_CPP_VER 03
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// see indexed_view.cpp
#if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))
#pragma GCC diagnostic ignored "-Wdeprecated"
#endif
#endif
#include "main.h"
template<typename T>
bool match(const T& xpr, std::string ref, std::string str_xpr = "") {
EIGEN_UNUSED_VARIABLE(str_xpr);
std::stringstream str;
str << xpr;
if(!(str.str() == ref))
std::cout << str_xpr << "\n" << xpr << "\n\n";
return str.str() == ref;
}
#define MATCH(X,R) match(X, R, #X)
template<typename T1,typename T2>
typename internal::enable_if<internal::is_same<T1,T2>::value,bool>::type
is_same_fixed(const T1& a, const T2& b)
{
return (Index(a) == Index(b));
}
template<typename T1,typename T2>
bool is_same_seq(const T1& a, const T2& b)
{
bool ok = a.first()==b.first() && a.size() == b.size() && Index(a.incrObject())==Index(b.incrObject());;
if(!ok)
{
std::cerr << "seqN(" << a.first() << ", " << a.size() << ", " << Index(a.incrObject()) << ") != ";
std::cerr << "seqN(" << b.first() << ", " << b.size() << ", " << Index(b.incrObject()) << ")\n";
}
return ok;
}
template<typename T1,typename T2>
typename internal::enable_if<internal::is_same<T1,T2>::value,bool>::type
is_same_type(const T1&, const T2&)
{
return true;
}
template<typename T1,typename T2>
bool is_same_symb(const T1& a, const T2& b, Index size)
{
return a.eval(last=size-1) == b.eval(last=size-1);
}
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template<typename T>
void check_is_symbolic(const T&) {
STATIC_CHECK(( symbolic::is_symbolic<T>::value ))
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}
template<typename T>
void check_isnot_symbolic(const T&) {
STATIC_CHECK(( !symbolic::is_symbolic<T>::value ))
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}
#define VERIFY_EQ_INT(A,B) VERIFY_IS_APPROX(int(A),int(B))
void check_symbolic_index()
{
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check_is_symbolic(last);
check_is_symbolic(lastp1);
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check_is_symbolic(last+1);
check_is_symbolic(last-lastp1);
check_is_symbolic(2*last-lastp1/2);
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check_isnot_symbolic(fix<3>());
Index size=100;
// First, let's check FixedInt arithmetic:
VERIFY( is_same_type( (fix<5>()-fix<3>())*fix<9>()/(-fix<3>()), fix<-(5-3)*9/3>() ) );
VERIFY( is_same_type( (fix<5>()-fix<3>())*fix<9>()/fix<2>(), fix<(5-3)*9/2>() ) );
VERIFY( is_same_type( fix<9>()/fix<2>(), fix<9/2>() ) );
VERIFY( is_same_type( fix<9>()%fix<2>(), fix<9%2>() ) );
VERIFY( is_same_type( fix<9>()&fix<2>(), fix<9&2>() ) );
VERIFY( is_same_type( fix<9>()|fix<2>(), fix<9|2>() ) );
VERIFY( is_same_type( fix<9>()/2, int(9/2) ) );
VERIFY( is_same_symb( lastp1-1, last, size) );
VERIFY( is_same_symb( lastp1-fix<1>, last, size) );
VERIFY_IS_EQUAL( ( (last*5-2)/3 ).eval(last=size-1), ((size-1)*5-2)/3 );
VERIFY_IS_EQUAL( ( (last*fix<5>-fix<2>)/fix<3> ).eval(last=size-1), ((size-1)*5-2)/3 );
VERIFY_IS_EQUAL( ( -last*lastp1 ).eval(last=size-1), -(size-1)*size );
VERIFY_IS_EQUAL( ( lastp1-3*last ).eval(last=size-1), size- 3*(size-1) );
VERIFY_IS_EQUAL( ( (lastp1-3*last)/lastp1 ).eval(last=size-1), (size- 3*(size-1))/size );
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#if EIGEN_HAS_CXX14
{
struct x_tag {}; static const symbolic::SymbolExpr<x_tag> x;
struct y_tag {}; static const symbolic::SymbolExpr<y_tag> y;
struct z_tag {}; static const symbolic::SymbolExpr<z_tag> z;
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VERIFY_IS_APPROX( int(((x+3)/y+z).eval(x=6,y=3,z=-13)), (6+3)/3+(-13) );
}
#endif
}
EIGEN_DECLARE_TEST(symbolic_index)
{
CALL_SUBTEST_1( check_symbolic_index() );
CALL_SUBTEST_2( check_symbolic_index() );
}