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211 lines
11 KiB
C++
211 lines
11 KiB
C++
/////////////////////////////////////////////////////////////////////////////////
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//
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// Copyright (C) 2017 - Statoil ASA
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//
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// ResInsight is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// ResInsight is distributed in the hope that it will be useful, but WITHOUT ANY
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// WARRANTY; without even the implied warranty of MERCHANTABILITY or
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// FITNESS FOR A PARTICULAR PURPOSE.
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//
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// See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html>
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// for more details.
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//
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/////////////////////////////////////////////////////////////////////////////////
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#include "gtest/gtest.h"
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#include "Completions/RigTransmissibilityCondenser.h"
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//--------------------------------------------------------------------------------------------------
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///
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//--------------------------------------------------------------------------------------------------
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TEST( RigTransmissibilityCondenser, BasicTest )
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{
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using RiCa = RigTransmissibilityCondenser::CellAddress;
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#if 1
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{
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RigTransmissibilityCondenser condenser;
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 1 }, { true, RiCa::STIMPLAN, 1 }, 1.0 );
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double condT = condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 }, { true, RiCa::STIMPLAN, 1 } );
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EXPECT_DOUBLE_EQ( 1.0, condT );
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}
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{
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RigTransmissibilityCondenser condenser;
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 1 }, { true, RiCa::STIMPLAN, 1 }, 0.5 );
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double condT = condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 }, { true, RiCa::STIMPLAN, 1 } );
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EXPECT_DOUBLE_EQ( 0.5, condT );
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}
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{
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RigTransmissibilityCondenser condenser;
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 1 }, { false, RiCa::STIMPLAN, 1 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { true, RiCa::STIMPLAN, 2 }, 0.5 );
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double condT = condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 }, { true, RiCa::STIMPLAN, 2 } );
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EXPECT_DOUBLE_EQ( 0.25, condT );
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}
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{
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RigTransmissibilityCondenser condenser;
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 1 }, { false, RiCa::STIMPLAN, 1 }, 0.5 );
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 1 }, { false, RiCa::STIMPLAN, 2 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { true, RiCa::STIMPLAN, 3 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 2 }, { true, RiCa::STIMPLAN, 3 }, 0.5 );
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double condT = condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 }, { true, RiCa::STIMPLAN, 3 } );
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EXPECT_DOUBLE_EQ( 0.5, condT );
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}
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{
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RigTransmissibilityCondenser condenser;
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 1 }, { false, RiCa::STIMPLAN, 1 }, 0.5 );
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 1 }, { false, RiCa::STIMPLAN, 2 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { false, RiCa::STIMPLAN, 3 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 2 }, { false, RiCa::STIMPLAN, 3 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 3 }, { true, RiCa::STIMPLAN, 4 }, 0.5 );
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double condT = condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 }, { true, RiCa::STIMPLAN, 4 } );
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EXPECT_DOUBLE_EQ( 0.25, condT );
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}
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#endif
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{
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RigTransmissibilityCondenser condenser;
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 5 }, { false, RiCa::STIMPLAN, 1 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { false, RiCa::STIMPLAN, 2 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { false, RiCa::STIMPLAN, 3 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 2 }, { false, RiCa::STIMPLAN, 4 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 3 }, { false, RiCa::STIMPLAN, 4 }, 0.5 );
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condenser.addNeighborTransmissibility( { true, RiCa::STIMPLAN, 6 }, { false, RiCa::STIMPLAN, 4 }, 0.5 );
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double condT = condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 5 }, { true, RiCa::STIMPLAN, 6 } );
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EXPECT_NEAR( 0.1666666667, condT, 1e-7 );
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}
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#if 1
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{
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RigTransmissibilityCondenser condenser;
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 5 }, { false, RiCa::STIMPLAN, 1 }, 0.5 );
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 7 }, { false, RiCa::STIMPLAN, 2 }, 0.5 );
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 8 }, { false, RiCa::STIMPLAN, 3 }, 0.5 );
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condenser.addNeighborTransmissibility( { true, RiCa::ECLIPSE, 9 }, { false, RiCa::STIMPLAN, 4 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { false, RiCa::STIMPLAN, 2 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { false, RiCa::STIMPLAN, 3 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 2 }, { false, RiCa::STIMPLAN, 4 }, 0.5 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 3 }, { false, RiCa::STIMPLAN, 4 }, 0.5 );
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condenser.addNeighborTransmissibility( { true, RiCa::STIMPLAN, 6 }, { false, RiCa::STIMPLAN, 4 }, 0.5 );
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double condT = condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 5 }, { true, RiCa::STIMPLAN, 6 } );
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EXPECT_NEAR( 0.045454545, condT, 1e-7 );
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}
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#endif
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#if 1
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{
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// Test example from Matlab scripts, that match the iterative solution
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RigTransmissibilityCondenser condenser;
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { false, RiCa::STIMPLAN, 2 }, 0.01127000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { false, RiCa::STIMPLAN, 4 }, 1.12700000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 1 }, { true, RiCa::ECLIPSE, 7 }, 0.09016000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 2 }, { false, RiCa::STIMPLAN, 3 }, 0.01127000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 2 }, { false, RiCa::STIMPLAN, 5 }, 1.12700000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 2 }, { true, RiCa::ECLIPSE, 8 }, 0.09016000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 3 }, { false, RiCa::STIMPLAN, 6 }, 1.50266667 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 3 }, { true, RiCa::ECLIPSE, 9 }, 0.09016000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 4 }, { false, RiCa::STIMPLAN, 5 }, 0.01127000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 4 }, { true, RiCa::ECLIPSE, 10 }, 0.09016000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 5 }, { false, RiCa::STIMPLAN, 6 }, 0.01502667 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 5 }, { true, RiCa::ECLIPSE, 11 }, 0.09016000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 6 }, { true, RiCa::ECLIPSE, 12 }, 0.09016000 );
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condenser.addNeighborTransmissibility( { false, RiCa::STIMPLAN, 6 }, { true, RiCa::STIMPLAN, 13 }, 0.19219491 );
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EXPECT_NEAR( 0.00402732,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 + 6 }, { true, RiCa::ECLIPSE, 2 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00027347,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 + 6 }, { true, RiCa::ECLIPSE, 3 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.03879174,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 + 6 }, { true, RiCa::ECLIPSE, 4 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00400489,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 + 6 }, { true, RiCa::ECLIPSE, 5 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00026172,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 + 6 }, { true, RiCa::ECLIPSE, 6 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00055791,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 1 + 6 }, { true, RiCa::STIMPLAN, 7 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00245697,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 2 + 6 }, { true, RiCa::ECLIPSE, 3 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00401064,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 2 + 6 }, { true, RiCa::ECLIPSE, 4 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.03442773,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 2 + 6 }, { true, RiCa::ECLIPSE, 5 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00233846,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 2 + 6 }, { true, RiCa::ECLIPSE, 6 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00498491,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 2 + 6 }, { true, RiCa::STIMPLAN, 7 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00027351,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 3 + 6 }, { true, RiCa::ECLIPSE, 4 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00246579,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 3 + 6 }, { true, RiCa::ECLIPSE, 5 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.01956640,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 3 + 6 }, { true, RiCa::ECLIPSE, 6 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.04170988,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 3 + 6 }, { true, RiCa::STIMPLAN, 7 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00402105,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 4 + 6 }, { true, RiCa::ECLIPSE, 5 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00026189,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 4 + 6 }, { true, RiCa::ECLIPSE, 6 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00055827,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 4 + 6 }, { true, RiCa::STIMPLAN, 7 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00237402,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 5 + 6 }, { true, RiCa::ECLIPSE, 6 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.00506073,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 5 + 6 }, { true, RiCa::STIMPLAN, 7 + 6 } ),
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1e-6 );
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EXPECT_NEAR( 0.04448791,
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condenser.condensedTransmissibility( { true, RiCa::ECLIPSE, 6 + 6 }, { true, RiCa::STIMPLAN, 7 + 6 } ),
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1e-6 );
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}
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#endif
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}
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