FreeFOAM The Cross-Platform CFD Toolkit
newhsCombustionThermo.C
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25 
26 #include "hsCombustionThermo.H"
27 #include <finiteVolume/fvMesh.H>
28 
29 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
30 
32 (
33  const fvMesh& mesh
34 )
35 {
36  word hsCombustionThermoTypeName;
37 
38  // Enclose the creation of the thermophysicalProperties to ensure it is
39  // deleted before the turbulenceModel is created otherwise the dictionary
40  // is entered in the database twice
41  {
42  IOdictionary thermoDict
43  (
44  IOobject
45  (
46  "thermophysicalProperties",
47  mesh.time().constant(),
48  mesh,
49  IOobject::MUST_READ,
50  IOobject::NO_WRITE
51  )
52  );
53 
54  thermoDict.lookup("thermoType") >> hsCombustionThermoTypeName;
55  }
56 
57  Info<< "Selecting thermodynamics package " << hsCombustionThermoTypeName
58  << endl;
59 
60  fvMeshConstructorTable::iterator cstrIter =
61  fvMeshConstructorTablePtr_->find(hsCombustionThermoTypeName);
62 
63  if (cstrIter == fvMeshConstructorTablePtr_->end())
64  {
65  FatalErrorIn("hsCombustionThermo::New(const fvMesh&)")
66  << "Unknown hsCombustionThermo type "
67  << hsCombustionThermoTypeName << nl << nl
68  << "Valid hsCombustionThermo types are:" << nl
69  << fvMeshConstructorTablePtr_->sortedToc() << nl
70  << exit(FatalError);
71  }
72 
73  return autoPtr<hsCombustionThermo>(cstrIter()(mesh));
74 }
75 
76 
78 (
79  const fvMesh& mesh,
80  const word& thermoType
81 )
82 {
83  word hsCombustionThermoTypeName;
84 
85  // Enclose the creation of the thermophysicalProperties to ensure it is
86  // deleted before the turbulenceModel is created otherwise the dictionary
87  // is entered in the database twice
88  {
89  IOdictionary thermoDict
90  (
91  IOobject
92  (
93  "thermophysicalProperties",
94  mesh.time().constant(),
95  mesh,
96  IOobject::MUST_READ,
97  IOobject::NO_WRITE
98  )
99  );
100 
101  thermoDict.lookup("thermoType") >> hsCombustionThermoTypeName;
102 
103  if (hsCombustionThermoTypeName.find(thermoType) == string::npos)
104  {
105  wordList allModels = fvMeshConstructorTablePtr_->sortedToc();
106  DynamicList<word> validModels;
107  forAll(allModels, i)
108  {
109  if (allModels[i].find(thermoType) != string::npos)
110  {
111  validModels.append(allModels[i]);
112  }
113  }
114 
116  (
117  "autoPtr<hsCombustionThermo> hsCombustionThermo::NewType"
118  "("
119  "const fvMesh&, "
120  "const word&"
121  ")"
122  ) << "Inconsistent thermo package selected:" << nl << nl
123  << hsCombustionThermoTypeName << nl << nl << "Please select a "
124  << "thermo package based on " << thermoType
125  << ". Valid options include:" << nl << validModels << nl
126  << exit(FatalError);
127  }
128  }
129 
130  Info<< "Selecting thermodynamics package " << hsCombustionThermoTypeName
131  << endl;
132 
133  fvMeshConstructorTable::iterator cstrIter =
134  fvMeshConstructorTablePtr_->find(hsCombustionThermoTypeName);
135 
136  if (cstrIter == fvMeshConstructorTablePtr_->end())
137  {
138  FatalErrorIn("hsCombustionThermo::New(const fvMesh&)")
139  << "Unknown hsCombustionThermo type "
140  << hsCombustionThermoTypeName << nl << nl
141  << "Valid hsCombustionThermo types are:" << nl
142  << fvMeshConstructorTablePtr_->sortedToc() << nl
143  << exit(FatalError);
144  }
145 
146  return autoPtr<hsCombustionThermo>(cstrIter()(mesh));
147 }
148 
149 
150 // ************************ vim: set sw=4 sts=4 et: ************************ //