ThermoParcelIO.C
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25 
26 #include "ThermoParcel.H"
27 #include "IOstreams.H"
28 
29 // * * * * * * * * * * * * * * Static Data Members * * * * * * * * * * * * * //
30 
31 template<class ParcelType>
32 Foam::string Foam::ThermoParcel<ParcelType>::propertyList_ =
34 
35 template<class ParcelType>
37 (
38  offsetof(ThermoParcel<ParcelType>, Tc_)
39  - offsetof(ThermoParcel<ParcelType>, T_)
40 );
41 
42 
43 // * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * //
44 
45 template<class ParcelType>
47 (
48  const polyMesh& mesh,
49  Istream& is,
50  bool readFields
51 )
52 :
53  ParcelType(mesh, is, readFields),
54  T_(0.0),
55  Cp_(0.0),
56  Tc_(0.0),
57  Cpc_(0.0)
58 {
59  if (readFields)
60  {
61  if (is.format() == IOstream::ASCII)
62  {
63  T_ = readScalar(is);
64  Cp_ = readScalar(is);
65  }
66  else
67  {
68  is.read(reinterpret_cast<char*>(&T_), sizeofFields_);
69  }
70  }
71 
72  // Check state of Istream
73  is.check
74  (
75  "ThermoParcel::ThermoParcel(const polyMesh&, Istream&, bool)"
76  );
77 }
78 
79 
80 template<class ParcelType>
81 template<class CloudType>
83 {
84  if (!c.size())
85  {
86  return;
87  }
88 
90 
91  IOField<scalar> T(c.fieldIOobject("T", IOobject::MUST_READ));
92  c.checkFieldIOobject(c, T);
93 
94  IOField<scalar> Cp(c.fieldIOobject("Cp", IOobject::MUST_READ));
95  c.checkFieldIOobject(c, Cp);
96 
97 
98  label i = 0;
99  forAllIter(typename Cloud<ThermoParcel<ParcelType> >, c, iter)
100  {
101  ThermoParcel<ParcelType>& p = iter();
102 
103  p.T_ = T[i];
104  p.Cp_ = Cp[i];
105  i++;
106  }
107 }
108 
109 
110 template<class ParcelType>
111 template<class CloudType>
113 {
114  ParcelType::writeFields(c);
115 
116  label np = c.size();
117 
118  IOField<scalar> T(c.fieldIOobject("T", IOobject::NO_READ), np);
119  IOField<scalar> Cp(c.fieldIOobject("Cp", IOobject::NO_READ), np);
120 
121  label i = 0;
122  forAllConstIter(typename Cloud<ThermoParcel<ParcelType> >, c, iter)
123  {
124  const ThermoParcel<ParcelType>& p = iter();
125 
126  T[i] = p.T_;
127  Cp[i] = p.Cp_;
128  i++;
129  }
130 
131  T.write();
132  Cp.write();
133 }
134 
135 
136 // * * * * * * * * * * * * * * * IOstream Operators * * * * * * * * * * * * //
137 
138 template<class ParcelType>
139 Foam::Ostream& Foam::operator<<
140 (
141  Ostream& os,
143 )
144 {
145  if (os.format() == IOstream::ASCII)
146  {
147  os << static_cast<const ParcelType&>(p)
148  << token::SPACE << p.T()
149  << token::SPACE << p.Cp();
150  }
151  else
152  {
153  os << static_cast<const ParcelType&>(p);
154  os.write
155  (
156  reinterpret_cast<const char*>(&p.T_),
158  );
159  }
160 
161  // Check state of Ostream
162  os.check
163  (
164  "Ostream& operator<<(Ostream&, const ThermoParcel<ParcelType>&)"
165  );
166 
167  return os;
168 }
169 
170 
171 // ************************************************************************* //
#define readScalar
Definition: doubleScalar.C:38
scalar Cp_
Specific heat capacity [J/(kg.K)].
Definition: ThermoParcel.H:233
An Istream is an abstract base class for all input systems (streams, files, token lists etc)...
Definition: Istream.H:57
virtual Istream & read(token &)=0
Return next token from stream.
#define forAllIter(Container, container, iter)
Definition: UList.H:440
intWM_LABEL_SIZE_t label
A label is an int32_t or int64_t as specified by the pre-processor macro WM_LABEL_SIZE.
Definition: label.H:59
A class for handling character strings derived from std::string.
Definition: string.H:74
const volScalarField & T
Definition: createFields.H:25
virtual bool check(const char *operation) const
Check IOstream status for given operation.
Definition: IOstream.C:92
forAllConstIter(PtrDictionary< phaseModel >, mixture.phases(), phase)
Definition: pEqn.H:39
Useful combination of include files which define Sin, Sout and Serr and the use of IO streams general...
void readFields(const Mesh &mesh, const IOobjectList &objects, PtrList< GeoField > &fields)
Thermodynamic parcel class with one/two-way coupling with the continuous phase. Includes Kinematic pa...
Definition: ThermoParcel.H:51
volScalarField & p
Definition: createFields.H:51
streamFormat format() const
Return current stream format.
Definition: IOstream.H:377
scalar T_
Temperature [K].
Definition: ThermoParcel.H:230
void checkFieldIOobject(const Cloud< ParticleType > &c, const IOField< DataType > &data) const
Check lagrangian data field.
Definition: CloudIO.C:215
Mesh consisting of general polyhedral cells.
Definition: polyMesh.H:74
label size() const
Definition: Cloud.H:175
An Ostream is an abstract base class for all output systems (streams, files, token lists...
Definition: Ostream.H:53
const dimensionedScalar c
Speed of light in a vacuum.
Base cloud calls templated on particle type.
Definition: Cloud.H:52
Templated base class for dsmc cloud.
Definition: DSMCCloud.H:68
static void readFields(CloudType &c)
Read.
static void writeFields(const CloudType &c)
Write.
ThermoParcel(const polyMesh &mesh, const vector &position, const label cellI, const label tetFaceI, const label tetPtI)
Construct from owner, position, and cloud owner.
Definition: ThermoParcelI.H:75
IOobject fieldIOobject(const word &fieldName, const IOobject::readOption r) const
Helper to construct IOobject for field and current time.
Definition: CloudIO.C:195
A primitive field of type <T> with automated input and output.
Definition: IOField.H:50