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AppFlow/CFDStruct/CFDStructDataManager/CFDStructDataSolverKvislMan...

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#include "CFDStructDataSolverKvislManager.h"
#include "CFDStructDataManager.h"
#include "CFDStructMain/CFDStructDefine.h"
#include "CFDStructSigsCenter.h"
#include "CUIProperty/CUIConfig.h"
CFDStructDataSolverKvislManager::CFDStructDataSolverKvislManager(QObject *parent) : CFDStructDataManagerBase(parent) {
m_uiConfig = nullptr;
connect(m_cuiSigsCenter, &CUISigsCenter::sig_cuiPropertyChanged, this, [=](int semaphore) {
if (semaphore == (int)SolutionAnalysisModuleProperty::Viscosity_Model) {
emit CFDStructSigsCenter::getInstance()->sig_solverKvislDataChanged();
} });
}
CFDStructDataSolverKvislManager::~CFDStructDataSolverKvislManager() {
}
CUIConfig *CFDStructDataSolverKvislManager::getParamUIConfig() {
m_runTime = CFDStructDataManager::getInstance()->getTimeModeRunTime();
qDebug() << m_runTime << "runtime";
if (m_runTime == 1) {
if (m_Model == 0) {
return genInviscidUIConfig();
}
if (m_Model == 1) {
return genLaminarUIConfig();
}
if (m_Model == 2) {
if (m_RNSModel == 0)
return genRANSSAUIConfig();
if (m_RNSModel == 1)
return genRANSUIMentersConfig();
if (m_RNSModel == 2)
return genRANSKEUIConfig();
return genRANSSAUIConfig();
}
if (m_Model == 3) {
m_SAType = 0;
if (m_RNSModel == 0)
return genDESSAUIConfig();
if (m_RNSModel == 1)
return genDESMentersUIConfig();
if (m_RNSModel == 2)
m_RNSModel = 0;
return genDESSAUIConfig();
}
if (m_Model == 4) {
m_SAType = 0;
if (m_RNSModel == 0)
return genCLESUIConfig();
if (m_RNSModel == 1)
return genCLESMentersUIConfig();
if (m_RNSModel == 2)
m_RNSModel = 0;
return genCLESUIConfig();
}
} else if (m_runTime == 0) {
if (m_Model == 0) {
return genSteadyInviscidUIConfig();
}
if (m_Model == 1) {
return genSteadyLaminarUIConfig();
}
if (m_Model == 2) {
if (m_RNSModel == 0)
return genSteadyRANSSAUIConfig();
if (m_RNSModel == 1)
return genSteadyRANSUIMentersConfig();
if (m_RNSModel == 2)
return genSteadyRANSKEUIConfig();
return genRANSSAUIConfig();
} else {
m_Model = 0;
return genSteadyInviscidUIConfig();
}
}
return this->genInviscidUIConfig();
}
void CFDStructDataSolverKvislManager::saveDataToDom(rapidjson::Document &dom) {
if (m_Model == 0) {
jsonAdd(dom, 0, {"region", 0, "solver", "turbModel", "type"});
} else if (m_Model == 1) {
jsonAdd(dom, 1, {"region", 0, "solver", "turbModel", "type"});
} else if (m_Model == 2) {
jsonAdd(dom, 2, {"region", 0, "solver", "turbModel", "type"});
} else if (m_Model == 3) {
if (m_DESModel == 0) {
jsonAdd(dom, 3, {"region", 0, "solver", "turbModel", "type"});
} else if (m_DESModel == 1) {
jsonAdd(dom, 4, {"region", 0, "solver", "turbModel", "type"});
} else if (m_DESModel == 2) {
jsonAdd(dom, 5, {"region", 0, "solver", "turbModel", "type"});
}
} else if (m_Model == 4) {
jsonAdd(dom, 7, {"region", 0, "solver", "turbModel", "type"});
}
jsonAdd(dom, m_RNSModel, {"region", 0, "solver", "turbModel", "RANS", "type"});
if (m_RNSModel == 0) {
jsonAdd(dom, m_SAType, {"region", 0, "solver", "turbModel", "RANS", "subType"});
} else if (m_RNSModel == 1) {
jsonAdd(dom, m_kwType, {"region", 0, "solver", "turbModel", "RANS", "subType"});
} else if (m_RNSModel == 2) {
jsonAdd(dom, m_keType, {"region", 0, "solver", "turbModel", "RANS", "subType"});
}
}
void CFDStructDataSolverKvislManager::readDataFromDom(rapidjson::Document &dom) {
QVariant type;
jsonRead(dom, type, {"region", 0, "solver", "turbModel", "type"});
if (type == 0) {
m_Model = 0;
} else if (type == 1) {
m_Model = 1;
} else if (type == 2) {
m_Model = 2;
} else if (type == 3) {
m_Model = 3;
m_DESModel = 0;
} else if (type == 4) {
m_Model = 3;
m_DESModel = 1;
} else if (type == 5) {
m_Model = 3;
m_DESModel = 2;
} else if (type == 7) {
m_Model = 4;
}
QVariant ransType;
jsonRead(dom, ransType, {"region", 0, "solver", "turbModel", "RANS", "type"});
if (ransType != QVariant()) {
m_RNSModel = ransType.toInt();
}
QVariant temp;
jsonRead(dom, temp, {"region", 0, "solver", "turbModel", "RANS", "subType"});
if (m_RNSModel == 0) {
m_SAType = temp.toInt();
} else if (m_RNSModel == 1) {
m_kwType = temp.toInt();
} else if (m_RNSModel == 2) {
m_keType = temp.toInt();
}
}
CUIConfig *CFDStructDataSolverKvislManager::genInviscidUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:分离涡模拟
{"name", tr("DES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:约束大涡模型
{"name", tr("CLES")}})})});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genLaminarUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:分离涡模拟
{"name", tr("DES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:约束大涡模型
{"name", tr("CLES")}})})});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genRANSSAUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:分离涡模拟
{"name", tr("DES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:约束大涡模型
{"name", tr("CLES")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:κ-ε(两方程)
{"name", tr("κ-ε")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:S-A类型
{"name", tr("S-A Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_SAType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // 按钮:standard
{"name", tr("standard")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Edwards
{"name", tr("Edwards")}})}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genRANSUIMentersConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:分离涡模拟
{"name", tr("DES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:约束大涡模型
{"name", tr("CLES")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:κ-ε(两方程)
{"name", tr("κ-ε")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:κ-ω类型
{"name", tr("κ-ω Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_kwType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:standard
{"name", tr("standard")}}),
}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genRANSKEUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:分离涡模拟
{"name", tr("DES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:约束大涡模型
{"name", tr("CLES")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:κ-ε(两方程)
{"name", tr("κ-ε")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:κ-ε类型
{"name", tr("κ-ε Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_keType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:standard
{"name", tr("standard")}}),
}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genDESSAUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:分离涡模拟
{"name", tr("DES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:约束大涡模型
{"name", tr("CLES")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:DES
{"name", tr("DES Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_DESModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:DES
{"name", tr("DES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:DDES两方程
{"name", tr("DDES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:IDDES两方程
{"name", tr("IDDES")}}),
}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")}}),
}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:S-A类型
{"name", tr("S-A Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_SAType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:standard
{"name", tr("standard")}}),
}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genDESMentersUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:分离涡模拟
{"name", tr("DES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:约束大涡模型
{"name", tr("CLES")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:DES
{"name", tr("DES Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_DESModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:DES
{"name", tr("DES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:DDES两方程
{"name", tr("DDES")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:IDDES两方程
{"name", tr("IDDES")}}),
}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")}}),
}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:κ-ω类型
{"name", tr("κ-ω Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_kwType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:SST
{"name", tr("SST")}}),
}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genCLESUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({
{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:分离涡模拟
{"name", tr("DES")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:约束大涡模型
{"name", tr("CLES")},
})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({
{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")},
}),
}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:S-A类型
{"name", tr("S-A Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_SAType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({
{"type", "RadioButton"}, // 按钮:standard
{"name", tr("standard")},
}),
// new CUIConfig({
// {"type", "RadioButton"}, // 按钮:Edwards
// {"name", tr("Edwards")},
// }),
}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genCLESMentersUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({
{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:分离涡模拟
{"name", tr("DES")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:约束大涡模型
{"name", tr("CLES")},
})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({
{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")},
}),
new CUIConfig({
{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")},
}),
}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:κ-ω类型
{"name", tr("κ-ω Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_kwType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({
{"type", "RadioButton"}, // 按钮:SST
{"name", tr("SST")},
}),
}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genSteadyInviscidUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genSteadyLaminarUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
})});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genSteadyRANSSAUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:κ-ε(两方程)
{"name", tr("κ-ε")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:S-A类型
{"name", tr("S-A Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_SAType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // 按钮:standard
{"name", tr("standard")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Edwards
{"name", tr("Edwards")}})}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genSteadyRANSUIMentersConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:κ-ε(两方程)
{"name", tr("κ-ε")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:κ-ω类型
{"name", tr("κ-ω Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_kwType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:standard
{"name", tr("standard")}}),
}),
});
return nullptr;
}
CUIConfig *CFDStructDataSolverKvislManager::genSteadyRANSKEUIConfig() {
return new CUIConfig(
{{"type", "Widget"}}, {
new CUIConfig({
{"type", "RadioComponent"}, // 组:模型
{"name", tr("Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_Model)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:无粘
{"name", tr("Inviscid")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:层流
{"name", tr("Laminar")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:雷诺平均
{"name", tr("RANS")}}),
}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:RANS模型
{"name", tr("RANS Model")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_RNSModel)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{new CUIConfig({{"type", "RadioButton"}, // :S-A()
{"name", tr("S-A")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:Menters's κ-ω(两方程)
{"name", tr("Menters's κ-ω")}}),
new CUIConfig({{"type", "RadioButton"}, // 按钮:κ-ε(两方程)
{"name", tr("κ-ε")}})}),
new CUIConfig({
{"type", "RadioComponent"}, // 组:κ-ε类型
{"name", tr("κ-ε Type")},
{"widget", "GroupBox"},
{"value_type", CUI_DATA_TYPE::CUI_DATA_TYPE_INT},
{"value_origin", QVA_GLOBAL(&m_keType)},
{"semaphore", (int)SolutionAnalysisModuleProperty::Viscosity_Model},
},
{
new CUIConfig({{"type", "RadioButton"}, // 按钮:standard
{"name", tr("standard")}}),
}),
});
return nullptr;
}
int CFDStructDataSolverKvislManager::getRNSModel() {
return m_RNSModel;
}
int CFDStructDataSolverKvislManager::getModel() {
return m_Model;
}
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