Line data Source code
1 : // EnergyPlus, Copyright (c) 1996-2024, The Board of Trustees of the University of Illinois,
2 : // The Regents of the University of California, through Lawrence Berkeley National Laboratory
3 : // (subject to receipt of any required approvals from the U.S. Dept. of Energy), Oak Ridge
4 : // National Laboratory, managed by UT-Battelle, Alliance for Sustainable Energy, LLC, and other
5 : // contributors. All rights reserved.
6 : //
7 : // NOTICE: This Software was developed under funding from the U.S. Department of Energy and the
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9 : // granted for itself and others acting on its behalf a paid-up, nonexclusive, irrevocable,
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14 : // provided that the following conditions are met:
15 : //
16 : // (1) Redistributions of source code must retain the above copyright notice, this list of
17 : // conditions and the following disclaimer.
18 : //
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20 : // conditions and the following disclaimer in the documentation and/or other materials
21 : // provided with the distribution.
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23 : // (3) Neither the name of the University of California, Lawrence Berkeley National Laboratory,
24 : // the University of Illinois, U.S. Dept. of Energy nor the names of its contributors may be
25 : // used to endorse or promote products derived from this software without specific prior
26 : // written permission.
27 : //
28 : // (4) Use of EnergyPlus(TM) Name. If Licensee (i) distributes the software in stand-alone form
29 : // without changes from the version obtained under this License, or (ii) Licensee makes a
30 : // reference solely to the software portion of its product, Licensee must refer to the
31 : // software as "EnergyPlus version X" software, where "X" is the version number Licensee
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44 : // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
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46 : // POSSIBILITY OF SUCH DAMAGE.
47 :
48 : #include <EnergyPlus/Data/EnergyPlusData.hh>
49 : #include <EnergyPlus/DataIPShortCuts.hh>
50 : #include <EnergyPlus/InputProcessing/InputProcessor.hh>
51 : #include <EnergyPlus/WindowModel.hh>
52 :
53 : namespace EnergyPlus {
54 :
55 3 : template <> EnumParser<Window::WindowsModel>::EnumParser() // LOL
56 : {
57 3 : m_Map["BUILTINWINDOWSMODEL"] = Window::WindowsModel::BuiltIn;
58 3 : m_Map["EXTERNALWINDOWSMODEL"] = Window::WindowsModel::External;
59 3 : }
60 :
61 : namespace Window {
62 :
63 : /////////////////////////////////////////////////////////////////////////////////////////
64 : // CWindowModel
65 : /////////////////////////////////////////////////////////////////////////////////////////
66 :
67 796 : CWindowModel::CWindowModel() : m_Model(WindowsModel::BuiltIn)
68 : {
69 796 : }
70 :
71 796 : std::unique_ptr<CWindowModel> CWindowModel::WindowModelFactory(EnergyPlusData &state, std::string const &objectName)
72 : {
73 : // SUBROUTINE INFORMATION:
74 : // AUTHOR Simon Vidanovic
75 : // DATE WRITTEN July 2016
76 : // MODIFIED na
77 : // RE-ENGINEERED na
78 :
79 : // PURPOSE OF THIS SUBROUTINE:
80 : // Reads input and creates instance of WindowModel object
81 : int NumNums;
82 : int NumAlphas;
83 : int IOStat;
84 :
85 796 : auto aModel = std::make_unique<CWindowModel>(); // (AUTO_OK)
86 796 : int numCurrModels = state.dataInputProcessing->inputProcessor->getNumObjectsFound(state, objectName);
87 796 : if (numCurrModels > 0) {
88 6 : state.dataInputProcessing->inputProcessor->getObjectItem(
89 3 : state, objectName, 1, state.dataIPShortCut->cAlphaArgs, NumAlphas, state.dataIPShortCut->rNumericArgs, NumNums, IOStat);
90 : // Please consider using getEnumValue pattern here.
91 : // Consider that you are creating an entire map for the
92 : // sole purpose of looking up a single element
93 3 : EnumParser<WindowsModel> aParser;
94 3 : aModel->m_Model = aParser.StringToEnum(state, state.dataIPShortCut->cAlphaArgs(1));
95 3 : }
96 :
97 1592 : return aModel;
98 0 : }
99 :
100 0 : WindowsModel CWindowModel::getWindowsModel() const
101 : {
102 0 : return m_Model;
103 : }
104 :
105 32438371 : bool CWindowModel::isExternalLibraryModel() const
106 : {
107 32438371 : return m_Model == WindowsModel::External;
108 : }
109 :
110 0 : void CWindowModel::setExternalLibraryModel(WindowsModel model)
111 : {
112 0 : m_Model = model;
113 0 : }
114 :
115 : /////////////////////////////////////////////////////////////////////////////////////////
116 : // CWindowOpticalModel
117 : /////////////////////////////////////////////////////////////////////////////////////////
118 :
119 796 : CWindowOpticalModel::CWindowOpticalModel() : m_Model(WindowsOpticalModel::Simplified)
120 : {
121 796 : }
122 :
123 796 : std::unique_ptr<CWindowOpticalModel> CWindowOpticalModel::WindowOpticalModelFactory(EnergyPlusData &state)
124 : {
125 : // Process input data and counts if number of complex fenestration objects is greater
126 : // than zero in which case it will use BSDF window model
127 796 : auto aModel = std::make_unique<CWindowOpticalModel>(); // (AUTO_OK)
128 796 : int numCurrModels = state.dataInputProcessing->inputProcessor->getNumObjectsFound(state, "Construction:ComplexFenestrationState");
129 :
130 796 : if (numCurrModels > 0) {
131 10 : aModel->m_Model = WindowsOpticalModel::BSDF;
132 : }
133 :
134 796 : return aModel;
135 0 : }
136 :
137 0 : WindowsOpticalModel CWindowOpticalModel::getWindowsOpticalModel() const
138 : {
139 0 : return m_Model;
140 : }
141 :
142 2071 : bool CWindowOpticalModel::isSimplifiedModel() const
143 : {
144 2071 : return (m_Model == WindowsOpticalModel::Simplified);
145 : }
146 :
147 : } // namespace Window
148 :
149 : } // namespace EnergyPlus
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