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AppFlow/FITK_Component/FITKFlowOFIOHDF5/FITKFlowOFHDF5AdaptorBounda...

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#include "FITKFlowOFHDF5AdaptorBoundary.h"
#include "FITK_Kernel/FITKCore/FITKEnumTransformer.hpp"
#include "FITK_Interface/FITKInterfaceGeometry/FITKAbsGeoCommand.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKAbstractOFSolver.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKOFBoundary.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKOFPhysicsData.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKOFBoundaryTypeManager.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKOFBoundaryType.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKOFPhysicsManager.h"
#include "FITK_Interface/FITKInterfaceFlowOF/FITKFlowPhysicsHandlerFactory.h"
#include "FITK_Kernel/FITKAppFramework/FITKAppFramework.h"
#include "FITK_Kernel/FITKAppFramework/FITKComponents.h"
#include "FITK_Kernel/FITKAppFramework/FITKGlobalData.h"
#include "FITKFlowOFHDF5Reader.h"
#include "FITKFlowOFHDF5Writer.h"
//数据层
#include "FITK_Kernel/FITKEasyParam/FITKParameter.h"
#include <QDebug>
namespace IO
{
QString FITKFlowOFHDF5AdaptorBoundary::getAdaptorClass()
{
return "FITKFlowOFHDF5AdaptorBoundary";
}
bool FITKFlowOFHDF5AdaptorBoundary::adaptR()
{
_boundary = dynamic_cast<Interface::FITKOFBoundary*>(_dataObj);
if (!_reader || !_boundary) return false;
if (!readNDataObject(_boundary, *_h5Group)) return false;
bool isR = true;
int meshBoundaryId = readIntAttribute(*_h5Group, "meshBoundaryId");
_boundary->setMeshBoundaryID(meshBoundaryId);
isR &= flowBoundaryR();
isR &= turbulenceBoundaryR();
isR &= phasesBoundaryR();
return isR;
}
bool FITKFlowOFHDF5AdaptorBoundary::adaptW()
{
_boundary = dynamic_cast<Interface::FITKOFBoundary*>(_dataObj);
if (!_writer || !_boundary) return false;
if (!writeNDataObject(_boundary, *_h5Group)) return false;
bool isW = true;
int meshBoundaryId = _boundary->getMeshBoundaryID();
writeIntAttribute(*_h5Group, "meshBoundaryId", &meshBoundaryId);
isW &= flowBoundaryW();
isW &= turbulenceBoundaryW();
isW &= phasesBoundaryW();
return isW;
}
bool FITKFlowOFHDF5AdaptorBoundary::flowBoundaryW()
{
if (!_writer || !_boundary)return false;
H5::Group h5Group = _h5Group->createGroup("Flow");
int count = _boundary->getFlowCount();
writeIntAttribute(h5Group, "FlowCount", &count);
for (int i = 0; i < count; ++i)
{
Interface::FITKOFAbsBoundaryType* boundaryT = _boundary->getFlowVBType(i);
if (!boundaryT)continue;
QString vname = _boundary->getFlowVariableName(i);
std::string name = std::to_string(i);
writeStrAttribute(h5Group, name, vname.toStdString());
H5::Group boundaryH5Group = h5Group.createGroup(name);
writeStrAttribute(boundaryH5Group, "boundaryTypeName", boundaryT->getDataObjectName().toStdString());
writeNDataObject(boundaryT, boundaryH5Group);
parameterToolW(boundaryH5Group, boundaryT->getBoundaryTypePara());
}
return true;
}
bool FITKFlowOFHDF5AdaptorBoundary::flowBoundaryR()
{
if (!_reader || !_boundary)return false;
if (!_h5Group->nameExists("Flow"))return false;
Interface::FITKOFPhysicsData* physicsData = FITKAPP->getGlobalData()->getPhysicsData<Interface::FITKOFPhysicsData>();
Interface::FITKOFPhysicsManager* physicsManager = Interface::FITKOFPhysicsManager::getInstance();
if (!physicsData || !physicsManager)return false;
Interface::FITKOFBoundaryTypeManager* boundaryTypeMgr = physicsManager->getBoundaryTypeManager();
if (!boundaryTypeMgr)return false;
//获取求解器
Interface::FITKAbstractOFSolver* solver = physicsData->getSolver();
if (!solver)return false;
H5::Group h5Group = _h5Group->openGroup("Flow");
int count = readIntAttribute(h5Group, "FlowCount");
for (int i = 0; i < count; ++i)
{
std::string name = std::to_string(i);
if (!h5Group.attrExists(name))continue;
QString vname = QString::fromStdString(readStrAttribute(h5Group, name));
if (!h5Group.nameExists(name))return false;
H5::Group boundaryH5Group = h5Group.openGroup(name);
QString boundaryType = QString::fromStdString(readStrAttribute(boundaryH5Group, "boundaryTypeName"));
//获取边界信息
Interface::FITKOFBoundaryTypeInfo info = boundaryTypeMgr->getBoundaryTypeInfo(boundaryType, solver->getSolverType(), vname, _boundary->getBoundaryType());
if (info._boundaryTypeName.isEmpty())return false;
Interface::FITKOFAbsBoundaryType* boundaryT = info._createFuns();
if (!boundaryT)return false;
readNDataObject(boundaryT, boundaryH5Group);
parameterToolR(boundaryH5Group, boundaryT->getBoundaryTypePara());
_boundary->setFlowBoundary(vname, boundaryT);
}
return true;
}
bool FITKFlowOFHDF5AdaptorBoundary::turbulenceBoundaryW()
{
if (!_writer || !_boundary)return false;
H5::Group h5Group = _h5Group->createGroup("Turbulence");
int count = _boundary->getTurbulenceCount();
writeIntAttribute(h5Group, "TurbulenceCount", &count);
for (int i = 0; i < count; ++i)
{
Interface::FITKOFAbsBoundaryType* boundaryT = _boundary->getTurbulenceVBType(i);
if (!boundaryT)continue;
QString vname = _boundary->getTurbulenceVariableName(i);
std::string name = std::to_string(i);
writeStrAttribute(h5Group, name, vname.toStdString());
H5::Group boundaryH5Group = h5Group.createGroup(name);
writeStrAttribute(boundaryH5Group, "boundaryTypeName", boundaryT->getDataObjectName().toStdString());
writeNDataObject(boundaryT, boundaryH5Group);
parameterToolW(boundaryH5Group, boundaryT->getBoundaryTypePara());
}
return true;
}
bool FITKFlowOFHDF5AdaptorBoundary::turbulenceBoundaryR()
{
if (!_reader || !_boundary)return false;
if (!_h5Group->nameExists("Turbulence"))return false;
Interface::FITKOFPhysicsData* physicsData = FITKAPP->getGlobalData()->getPhysicsData<Interface::FITKOFPhysicsData>();
Interface::FITKOFPhysicsManager* physicsManager = Interface::FITKOFPhysicsManager::getInstance();
if (!physicsData || !physicsManager)return false;
Interface::FITKOFBoundaryTypeManager* boundaryTypeMgr = physicsManager->getBoundaryTypeManager();
if (!boundaryTypeMgr)return false;
//获取求解器
Interface::FITKAbstractOFSolver* solver = physicsData->getSolver();
if (!solver)return false;
H5::Group h5Group = _h5Group->openGroup("Turbulence");
int count = readIntAttribute(h5Group, "TurbulenceCount");
for (int i = 0; i < count; ++i)
{
std::string name = std::to_string(i);
if (!h5Group.attrExists(name))continue;
QString vname = QString::fromStdString(readStrAttribute(h5Group, name));
if (!h5Group.nameExists(name))return false;
H5::Group boundaryH5Group = h5Group.openGroup(name);
QString boundaryType = QString::fromStdString(readStrAttribute(boundaryH5Group, "boundaryTypeName"));
//获取边界信息
Interface::FITKOFBoundaryTypeInfo info = boundaryTypeMgr->getBoundaryTypeInfo(boundaryType, solver->getSolverType(), vname, _boundary->getBoundaryType());
if (info._boundaryTypeName.isEmpty())return false;
Interface::FITKOFAbsBoundaryType* boundaryT = info._createFuns();
if (!boundaryT)return false;
readNDataObject(boundaryT, boundaryH5Group);
parameterToolR(boundaryH5Group, boundaryT->getBoundaryTypePara());
_boundary->setTurbulenceBoundary(vname, boundaryT);
}
return true;
}
bool FITKFlowOFHDF5AdaptorBoundary::phasesBoundaryW()
{
if (!_writer || !_boundary)return false;
H5::Group h5Group = _h5Group->createGroup("Phases");
int count = _boundary->getPhasesCount();
writeIntAttribute(h5Group, "PhasesCount", &count);
for (int i = 0; i < count; ++i)
{
Interface::FITKOFAbsBoundaryType* boundaryT = _boundary->getPhasesVBType(i);
if (!boundaryT)continue;
QString vname = _boundary->getPhasesVariableName(i);
std::string name = std::to_string(i);
writeStrAttribute(h5Group, name, vname.toStdString());
H5::Group boundaryH5Group = h5Group.createGroup(name);
writeStrAttribute(boundaryH5Group, "boundaryTypeName", boundaryT->getDataObjectName().toStdString());
writeNDataObject(boundaryT, boundaryH5Group);
parameterToolW(boundaryH5Group, boundaryT->getBoundaryTypePara());
}
return true;
}
bool FITKFlowOFHDF5AdaptorBoundary::phasesBoundaryR()
{
if (!_reader || !_boundary)return false;
if (!_h5Group->nameExists("Phases"))return false;
Interface::FITKOFPhysicsData* physicsData = FITKAPP->getGlobalData()->getPhysicsData<Interface::FITKOFPhysicsData>();
Interface::FITKOFPhysicsManager* physicsManager = Interface::FITKOFPhysicsManager::getInstance();
if (!physicsData || !physicsManager)return false;
Interface::FITKOFBoundaryTypeManager* boundaryTypeMgr = physicsManager->getBoundaryTypeManager();
if (!boundaryTypeMgr)return false;
//获取求解器
Interface::FITKAbstractOFSolver* solver = physicsData->getSolver();
if (!solver)return false;
H5::Group h5Group = _h5Group->openGroup("Phases");
int count = readIntAttribute(h5Group, "PhasesCount");
for (int i = 0; i < count; ++i)
{
std::string name = std::to_string(i);
if (!h5Group.attrExists(name))continue;
QString vname = QString::fromStdString(readStrAttribute(h5Group, name));
if (!h5Group.nameExists(name))return false;
H5::Group boundaryH5Group = h5Group.openGroup(name);
QString boundaryType = QString::fromStdString(readStrAttribute(boundaryH5Group, "boundaryTypeName"));
//获取边界信息
Interface::FITKOFBoundaryTypeInfo info = boundaryTypeMgr->getBoundaryTypeInfo(boundaryType, solver->getSolverType(), vname, _boundary->getBoundaryType());
if (info._boundaryTypeName.isEmpty())return false;
Interface::FITKOFAbsBoundaryType* boundaryT = info._createFuns();
if (!boundaryT)return false;
readNDataObject(boundaryT, boundaryH5Group);
parameterToolR(boundaryH5Group, boundaryT->getBoundaryTypePara());
_boundary->setPhasesBoundary(vname, boundaryT);
}
return true;
}
}
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