45 #ifdef HAVE_EPETRAEXT_HDF5
60 #define CHECK_HID(hid_t) \
62 throw(EpetraExt::Exception(__FILE__, __LINE__, \
63 "hid_t is negative")); }
65 #define CHECK_STATUS(status) \
67 throw(EpetraExt::Exception(__FILE__, __LINE__, \
68 "function H5Giterater returned a negative value")); }
81 std::vector<std::string> IntLabels, DoubleLabels;
82 std::vector<int> IntLabelsData;
83 std::vector<double> DoubleLabelsData;
85 obj.
GetLabels(IntLabels, IntLabelsData, DoubleLabels, DoubleLabelsData);
89 for (
unsigned int i = 0; i < IntLabels.size(); ++i)
90 Write(GroupName, IntLabels[i], IntLabelsData[i]);
92 for (
unsigned int i = 0; i < DoubleLabels.size(); ++i)
93 Write(GroupName, DoubleLabels[i], DoubleLabelsData[i]);
99 std::vector<int> IntSize(NumMyElements);
100 std::vector<int> DoubleSize(NumMyElements);
102 int TotalIntSize = 0, TotalDoubleSize = 0;
104 std::vector<int> IntData;
105 std::vector<double> DoubleData;
107 for (
int i = 0; i < NumMyElements; ++i)
111 TotalIntSize += IntSize[i];
112 TotalDoubleSize += DoubleSize[i];
115 IntData.resize(TotalIntSize);
116 DoubleData.resize(TotalDoubleSize);
125 for (
int i = 0; i < NumMyElements; ++i)
127 obj.
Pack(i, &IntData[IntCount], &DoubleData[DoubleCount]);
128 IntCount += IntSize[i];
129 DoubleCount += DoubleSize[i];
135 Write(GroupName,
"__type__", obj.
Type());
136 Write(GroupName,
"NumGlobalElements", NumGlobalElements);
142 Write(GroupName,
"int ptr", NumMyElements,
143 NumGlobalElements, H5T_NATIVE_INT, &IntSize[0]);
144 Write(GroupName,
"int data", NumMyElements,
145 NumGlobalElements, H5T_NATIVE_INT, &IntData[0]);
150 Write(GroupName,
"double ptr", NumMyElements,
151 NumGlobalElements, H5T_NATIVE_INT, &DoubleSize[0]);
152 Write(GroupName,
"double data", NumMyElements,
153 NumGlobalElements, H5T_NATIVE_DOUBLE, &DoubleData[0]);
163 std::vector<std::string> IntLabels, DoubleLabels;
166 std::vector<int> IntLabelsData(IntLabels.size());
167 std::vector<double> DoubleLabelsData(DoubleLabels.size());
169 for (
unsigned int i = 0; i < IntLabels.size(); ++i)
170 Read(GroupName, IntLabels[i], IntLabelsData[i]);
172 for (
unsigned int i = 0; i < DoubleLabels.size(); ++i)
173 Read(GroupName, DoubleLabels[i], DoubleLabelsData[i]);
175 std::vector<int> IntSize(NumMyElements);
176 std::vector<int> DoubleSize(NumMyElements);
178 int TotalIntSize = 0, TotalDoubleSize = 0;
179 int GrandTotalIntSize = 0, GrandTotalDoubleSize = 0;
184 Read(GroupName,
"int ptr", NumMyElements,
185 NumGlobalElements, H5T_NATIVE_INT, &IntSize[0]);
186 for (
int i = 0; i < NumMyElements; ++i)
187 TotalIntSize += IntSize[i];
188 Comm().SumAll(&TotalIntSize, &GrandTotalIntSize, 1);
193 Read(GroupName,
"double ptr", NumMyElements,
194 NumGlobalElements, H5T_NATIVE_INT, &DoubleSize[0]);
195 for (
int i = 0; i < NumMyElements; ++i)
197 TotalDoubleSize += DoubleSize[i];
199 Comm().SumAll(&TotalDoubleSize, &GrandTotalDoubleSize, 1);
202 std::vector<int> IntData(TotalIntSize + 1);
203 std::vector<double> DoubleData(TotalDoubleSize + 1);
207 Read(GroupName,
"int data", TotalIntSize,
208 GrandTotalIntSize, H5T_NATIVE_INT, &IntData[0]);
210 Read(GroupName,
"double data", TotalDoubleSize,
211 GrandTotalDoubleSize, H5T_NATIVE_DOUBLE, &DoubleData[0]);
216 obj.
SetLabels(IntLabelsData, DoubleLabelsData);
218 int IntCount = 0, DoubleCount = 0;
219 for (
int i = 0; i < NumMyElements; ++i)
221 obj.
UnPack(i, IntSize[i], &(IntData[IntCount]),
222 DoubleSize[i], &(DoubleData[DoubleCount]));
223 IntCount += IntSize[i];
224 DoubleCount += DoubleSize[i];
233 int& NumGlobalElements)
235 if (!IsContained(GroupName))
237 "requested group " + GroupName +
" not found"));
239 Read(GroupName,
"__type__", Type);
241 Read(GroupName,
"NumGlobalElements", NumGlobalElements);
void Write(const std::string &GroupName, const std::string &DataSetName, int data)
Write an integer in group GroupName using the given DataSetName.
void ReadHandleProperties(const std::string &GroupName, std::string &Type, int &NumGlobalElements)
Read the global number of elements and type for a generic handle object.
virtual int GetLabels(std::vector< std::string > &IntLabels, std::vector< std::string > &DoubleLabels) const =0
Packs all global information.
void CreateGroup(const std::string &GroupName)
Create group GroupName.
bool IsContained(std::string Name, std::string GroupName="")
Return true if Name is contained in the database.
void Read(const std::string &GroupName, const std::string &DataSetName, int &data)
Read an integer from group /GroupName/DataSetName.
virtual int NumMyElements() const =0
Returns the local number of elements.
virtual int Finalize()=0
Performs any finalization procedure after unpacking.
virtual int UnPack(const int EID, int IntSize, int *IntData, int DoubleSize, double *DoubleData)=0
Unpacks all data for local element EID in the specified arrays.
virtual bool HasDouble() const =0
virtual int IntSize(const int EID) const =0
Returns the size of integer data for local element EID.
virtual int DoubleSize(const int EID) const =0
Returns the size of double data for local element EID.
virtual int Initialize()=0
Performs any initialization procedure before unpacking.
virtual int SetLabels(const std::vector< int > &IntLabelsData, const std::vector< double > &DoubleLabelsData)=0
Sets global information.
virtual int NumGlobalElements() const =0
Returns the global number of elements.
virtual int Pack(const int EID, int *IntData, double *DoubleData) const =0
Packs all data for local element EID in the specified arrays.
virtual std::string Type() const =0
Returns the identifier of the distributed object.
virtual bool HasInt() const =0