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// This file is part of Eigen, a lightweight C++ template library
// for linear algebra.
//
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// Copyright (C) 2010 Hauke Heibel <hauke.heibel@gmail.com>
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// Copyright (C) 2015 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
// 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/.
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# define TEST_ENABLE_TEMPORARY_TRACKING
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# include "main.h"
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template < int N , typename XprType >
void use_n_times ( const XprType & xpr )
{
typename internal : : nested_eval < XprType , N > : : type mat ( xpr ) ;
typename XprType : : PlainObject res ( mat . rows ( ) , mat . cols ( ) ) ;
nb_temporaries - - ; // remove res
res . setZero ( ) ;
for ( int i = 0 ; i < N ; + + i )
res + = mat ;
}
template < int N , typename ReferenceType , typename XprType >
bool verify_eval_type ( const XprType & , const ReferenceType & )
{
typedef typename internal : : nested_eval < XprType , N > : : type EvalType ;
return internal : : is_same < typename internal : : remove_all < EvalType > : : type , typename internal : : remove_all < ReferenceType > : : type > : : value ;
}
template < typename MatrixType > void run_nesting_ops_1 ( const MatrixType & _m )
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{
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typename internal : : nested_eval < MatrixType , 2 > : : type m ( _m ) ;
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// Make really sure that we are in debug mode!
VERIFY_RAISES_ASSERT ( eigen_assert ( false ) ) ;
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// The only intention of these tests is to ensure that this code does
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// not trigger any asserts or segmentation faults... more to come.
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VERIFY_IS_APPROX ( ( m . transpose ( ) * m ) . diagonal ( ) . sum ( ) , ( m . transpose ( ) * m ) . diagonal ( ) . sum ( ) ) ;
VERIFY_IS_APPROX ( ( m . transpose ( ) * m ) . diagonal ( ) . array ( ) . abs ( ) . sum ( ) , ( m . transpose ( ) * m ) . diagonal ( ) . array ( ) . abs ( ) . sum ( ) ) ;
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VERIFY_IS_APPROX ( ( m . transpose ( ) * m ) . array ( ) . abs ( ) . sum ( ) , ( m . transpose ( ) * m ) . array ( ) . abs ( ) . sum ( ) ) ;
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}
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template < typename MatrixType > void run_nesting_ops_2 ( const MatrixType & _m )
{
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typedef typename MatrixType : : Scalar Scalar ;
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Index rows = _m . rows ( ) ;
Index cols = _m . cols ( ) ;
MatrixType m1 = MatrixType : : Random ( rows , cols ) ;
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Matrix < Scalar , MatrixType : : RowsAtCompileTime , MatrixType : : ColsAtCompileTime , ColMajor > m2 ;
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if ( ( MatrixType : : SizeAtCompileTime = = Dynamic ) )
{
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VERIFY_EVALUATION_COUNT ( use_n_times < 1 > ( m1 + m1 * m1 ) , 1 ) ;
VERIFY_EVALUATION_COUNT ( use_n_times < 10 > ( m1 + m1 * m1 ) , 1 ) ;
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VERIFY_EVALUATION_COUNT ( use_n_times < 1 > ( m1 . template triangularView < Lower > ( ) . solve ( m1 . col ( 0 ) ) ) , 1 ) ;
VERIFY_EVALUATION_COUNT ( use_n_times < 10 > ( m1 . template triangularView < Lower > ( ) . solve ( m1 . col ( 0 ) ) ) , 1 ) ;
VERIFY_EVALUATION_COUNT ( use_n_times < 1 > ( Scalar ( 2 ) * m1 . template triangularView < Lower > ( ) . solve ( m1 . col ( 0 ) ) ) , 2 ) ; // FIXME could be one by applying the scaling in-place on the solve result
VERIFY_EVALUATION_COUNT ( use_n_times < 1 > ( m1 . col ( 0 ) + m1 . template triangularView < Lower > ( ) . solve ( m1 . col ( 0 ) ) ) , 2 ) ; // FIXME could be one by adding m1.col() inplace
VERIFY_EVALUATION_COUNT ( use_n_times < 10 > ( m1 . col ( 0 ) + m1 . template triangularView < Lower > ( ) . solve ( m1 . col ( 0 ) ) ) , 2 ) ;
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}
{
VERIFY ( verify_eval_type < 10 > ( m1 , m1 ) ) ;
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if ( ! NumTraits < Scalar > : : IsComplex )
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{
VERIFY ( verify_eval_type < 3 > ( 2 * m1 , 2 * m1 ) ) ;
VERIFY ( verify_eval_type < 4 > ( 2 * m1 , m1 ) ) ;
}
else
{
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VERIFY ( verify_eval_type < 2 > ( 2 * m1 , 2 * m1 ) ) ;
VERIFY ( verify_eval_type < 3 > ( 2 * m1 , m1 ) ) ;
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}
VERIFY ( verify_eval_type < 2 > ( m1 + m1 , m1 + m1 ) ) ;
VERIFY ( verify_eval_type < 3 > ( m1 + m1 , m1 ) ) ;
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VERIFY ( verify_eval_type < 1 > ( m1 * m1 . transpose ( ) , m2 ) ) ;
VERIFY ( verify_eval_type < 1 > ( m1 * ( m1 + m1 ) . transpose ( ) , m2 ) ) ;
VERIFY ( verify_eval_type < 2 > ( m1 * m1 . transpose ( ) , m2 ) ) ;
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VERIFY ( verify_eval_type < 1 > ( m1 + m1 * m1 , m1 ) ) ;
VERIFY ( verify_eval_type < 1 > ( m1 . template triangularView < Lower > ( ) . solve ( m1 ) , m1 ) ) ;
VERIFY ( verify_eval_type < 1 > ( m1 + m1 . template triangularView < Lower > ( ) . solve ( m1 ) , m1 ) ) ;
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}
}
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EIGEN_DECLARE_TEST ( nesting_ops )
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{
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CALL_SUBTEST_1 ( run_nesting_ops_1 ( MatrixXf : : Random ( 25 , 25 ) ) ) ;
CALL_SUBTEST_2 ( run_nesting_ops_1 ( MatrixXcd : : Random ( 25 , 25 ) ) ) ;
CALL_SUBTEST_3 ( run_nesting_ops_1 ( Matrix4f : : Random ( ) ) ) ;
CALL_SUBTEST_4 ( run_nesting_ops_1 ( Matrix2d : : Random ( ) ) ) ;
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Index s = internal : : random < int > ( 1 , EIGEN_TEST_MAX_SIZE ) ;
CALL_SUBTEST_1 ( run_nesting_ops_2 ( MatrixXf ( s , s ) ) ) ;
CALL_SUBTEST_2 ( run_nesting_ops_2 ( MatrixXcd ( s , s ) ) ) ;
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CALL_SUBTEST_3 ( run_nesting_ops_2 ( Matrix4f ( ) ) ) ;
CALL_SUBTEST_4 ( run_nesting_ops_2 ( Matrix2d ( ) ) ) ;
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TEST_SET_BUT_UNUSED_VARIABLE ( s )
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}