ASL
0.1.7
Advanced Simulation Library
testReductionFunction.cc
/*
* Advanced Simulation Library <http://asl.org.il>
*
* Copyright 2015 Avtech Scientific <http://avtechscientific.com>
*
*
* This file is part of Advanced Simulation Library (ASL).
*
* ASL is free software: you can redistribute it and/or modify it
* under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, version 3 of the License.
*
* ASL 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with ASL. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include "
acl/Kernels/aclKernel.h
"
#include "
acl/aclUtilities.h
"
#include "
acl/aclMath/aclReductionAlgGenerator.h
"
#include "
acl/aclGenerators.h
"
#include "
aslUtilities.h
"
#include "
acl/aclMath/aclVectorOfElements.h
"
using namespace
acl
;
bool
testSum
()
{
cout <<
"testSum..."
<<
flush
;
unsigned
int
n(101);
auto
v(generateVEData<float>(n,1u));
initData
(v,
generateVEConstant
(2));
auto
summator(generateSumAlg<float>(v));
summator->generateAlg();
summator->compute();
bool
status(
asl::approxEqual
(summator->res.v()[0],2.f*n));
asl::errorMessage
(status);
return
status;
}
bool
testSum1
()
{
cout <<
"testSum1..."
<<
flush
;
unsigned
int
n(100001);
VectorOfElements
v1(generateVEData<float>(n,1u));
VectorOfElements
v2(generateVEData<float>(n,1u));
initData
(v1,
generateVEConstant
(2));
initData
(v2,
generateVEConstant
(3));
auto
summator(generateSumAlg<float>(v1*v2));
summator->generateAlg();
summator->compute();
bool
status(
asl::approxEqual
(summator->res.v()[0],6.f*n));
asl::errorMessage
(status);
return
status;
}
bool
testMin
()
{
cout <<
"testMin..."
<<
flush
;
VectorOfElements
vI(
generateVEIndex
());
VectorOfElements
v1(generateVEData<float>(101u,1u));
initData
(v1,
generateVEConstant
(2));
auto
minimizer(generateMinAlg<float>(v1*((vI-100)*(vI-100)+3)));
minimizer->generateAlg();
minimizer->compute();
bool
status(
asl::approxEqual
(minimizer->res.v()[0],6.f));
asl::errorMessage
(status);
return
status;
}
bool
testMax
()
{
cout <<
"testMax..."
<<
flush
;
VectorOfElements
vI(
generateVEIndex
());
VectorOfElements
v1(generateVEData<float>(100001u,1u));
initData
(v1,
generateVEConstant
(2));
auto
maximizer(generateMaxAlg<float>(v1*((1000.-vI)*(vI-1000.)-10.)));
maximizer->generateAlg();
maximizer->compute();
bool
status(
asl::approxEqual
(maximizer->res.v()[0],-20.f));
asl::errorMessage
(status);
return
status;
}
bool
testProduct
()
{
cout <<
"testProduct..."
<<
flush
;
typedef
double
FT;
VectorOfElements
vI(
generateVEIndex
());
VectorOfElements
v1(generateVEData<FT>(100001u,1u));
initData
(v1,
generateVEConstant
(2));
auto
alg(generateProductAlg<FT>(
select
(
generateVEConstant
(1.),
v1,
vI >=1000 && vI <= 1007,
acl::typeToTypeID<FT>())));
alg->generateAlg();
alg->compute();
bool
status(
asl::approxEqual
(alg->res.v()[0],256));
asl::errorMessage
(status);
return
status;
}
int
main
()
{
bool
allTestsPassed(
true
);
allTestsPassed &=
testSum
();
allTestsPassed &=
testSum1
();
allTestsPassed &=
testMin
();
allTestsPassed &=
testMax
();
allTestsPassed &=
testProduct
();
return
allTestsPassed ? EXIT_SUCCESS : EXIT_FAILURE;
}
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