use of com.example.demo.entity.order40.Member in project eomcs-java by eomcs.
the class Exam0240 method main.
public static void main(String[] args) {
// 제네릭을 사용하면 한 개의 클래스를 가지고
// 특정 타입만을 다루는 전용 객체를 만들 수 있다.
Box<Member> b1 = new Box<>();
Box<String> b2 = new Box<>();
Box<Integer> b3 = new Box<>();
b1.set(new Member("홍길동", 20));
b2.set("Hello");
b3.set(100);
// 제네릭을 사용하면 get() 메서드가 각 타입별로 존재하는 것처럼 사용할 수 있다.
// => 즉 형변환 할 필요가 없다.
Member v1 = b1.get();
String v2 = b2.get();
Integer v3 = b3.get();
System.out.println(v1);
System.out.println(v2);
System.out.println(v3);
}
use of com.example.demo.entity.order40.Member in project geotoolkit by Geomatys.
the class SmlXMLFactory method convertTo101.
public static org.geotoolkit.sml.xml.v101.SensorML convertTo101(final org.geotoolkit.sml.xml.v100.SensorML sensor) {
List<org.geotoolkit.sml.xml.v101.SensorML.Member> newMembers = new ArrayList<org.geotoolkit.sml.xml.v101.SensorML.Member>();
for (Member oldMember : sensor.getMember()) {
final org.geotoolkit.sml.xml.v101.AbstractProcessType newProcess;
if (oldMember.getRealProcess() instanceof System) {
newProcess = new org.geotoolkit.sml.xml.v101.SystemType();
} else if (oldMember.getRealProcess() instanceof Component) {
newProcess = new org.geotoolkit.sml.xml.v101.ComponentType();
} else if (oldMember.getRealProcess() instanceof AbstractDataSource) {
newProcess = new org.geotoolkit.sml.xml.v101.DataSourceType();
} else if (oldMember.getRealProcess() instanceof AbstractProcessModel) {
newProcess = new org.geotoolkit.sml.xml.v101.ProcessModelType();
} else if (oldMember.getRealProcess() instanceof ComponentArray) {
newProcess = new org.geotoolkit.sml.xml.v101.ComponentArrayType();
} else {
throw new IllegalArgumentException("Other sensor type than system, component, processModel, processChain, componentArray or datasource are not yet convertible");
}
AbstractProcessType oldProcess = (AbstractProcessType) oldMember.getRealProcess();
// id
newProcess.setId(oldProcess.getId());
// name
newProcess.setName(oldProcess.getName());
// srsName
newProcess.setSrsName(oldProcess.getSrsName());
// description
newProcess.setDescription(oldProcess.getDescription());
// boundedBy
newProcess.setBoundedBy(oldProcess.getBoundedBy());
// capabilities
List<org.geotoolkit.sml.xml.v101.Capabilities> newCapabilities = new ArrayList<org.geotoolkit.sml.xml.v101.Capabilities>();
for (Capabilities oldCapa : oldProcess.getCapabilities()) {
newCapabilities.add(new org.geotoolkit.sml.xml.v101.Capabilities(oldCapa));
}
newProcess.setCapabilities(newCapabilities);
// characteristics
List<org.geotoolkit.sml.xml.v101.Characteristics> newCharacteristics = new ArrayList<org.geotoolkit.sml.xml.v101.Characteristics>();
for (Characteristics oldChar : oldProcess.getCharacteristics()) {
newCharacteristics.add(new org.geotoolkit.sml.xml.v101.Characteristics(oldChar));
}
newProcess.setCharacteristics(newCharacteristics);
// Classification
List<org.geotoolkit.sml.xml.v101.Classification> newClassification = new ArrayList<org.geotoolkit.sml.xml.v101.Classification>();
for (Classification oldClass : oldProcess.getClassification()) {
newClassification.add(new org.geotoolkit.sml.xml.v101.Classification(oldClass));
}
newProcess.setClassification(newClassification);
// Contact
List<org.geotoolkit.sml.xml.v101.Contact> newContact = new ArrayList<org.geotoolkit.sml.xml.v101.Contact>();
for (Contact oldContact : oldProcess.getContact()) {
newContact.add(new org.geotoolkit.sml.xml.v101.Contact(oldContact));
}
newProcess.setContact(newContact);
// Contact
List<org.geotoolkit.sml.xml.v101.Documentation> newDocumentation = new ArrayList<org.geotoolkit.sml.xml.v101.Documentation>();
for (Documentation oldDoc : oldProcess.getDocumentation()) {
newDocumentation.add(new org.geotoolkit.sml.xml.v101.Documentation(oldDoc));
}
newProcess.setDocumentation(newDocumentation);
// History
List<org.geotoolkit.sml.xml.v101.History> newHistory = new ArrayList<org.geotoolkit.sml.xml.v101.History>();
for (History oldhist : oldProcess.getHistory()) {
newHistory.add(new org.geotoolkit.sml.xml.v101.History(oldhist));
}
newProcess.setHistory(newHistory);
// Identification
List<org.geotoolkit.sml.xml.v101.Identification> newIdentification = new ArrayList<org.geotoolkit.sml.xml.v101.Identification>();
for (Identification oldIdent : oldProcess.getIdentification()) {
newIdentification.add(new org.geotoolkit.sml.xml.v101.Identification(oldIdent));
}
newProcess.setIdentification(newIdentification);
// keywords
List<org.geotoolkit.sml.xml.v101.Keywords> newKeywords = new ArrayList<org.geotoolkit.sml.xml.v101.Keywords>();
for (Keywords oldKeyw : oldProcess.getKeywords()) {
newKeywords.add(new org.geotoolkit.sml.xml.v101.Keywords(oldKeyw));
}
newProcess.setKeywords(newKeywords);
// legal constraint
List<org.geotoolkit.sml.xml.v101.LegalConstraint> newLegalConstraints = new ArrayList<org.geotoolkit.sml.xml.v101.LegalConstraint>();
for (LegalConstraint oldcons : oldProcess.getLegalConstraint()) {
newLegalConstraints.add(new org.geotoolkit.sml.xml.v101.LegalConstraint(oldcons));
}
newProcess.setLegalConstraint(newLegalConstraints);
// security constraint
if (oldProcess.getSecurityConstraint() != null) {
newProcess.setSecurityConstraint(new org.geotoolkit.sml.xml.v101.SecurityConstraint(oldProcess.getSecurityConstraint()));
}
// validTime
if (oldProcess.getValidTime() != null) {
newProcess.setValidTime(oldProcess.getValidTime());
}
if (oldProcess instanceof AbstractComponent) {
AbstractComponent newAbsComponent = (AbstractComponent) newProcess;
AbstractComponent oldAbsComponent = (AbstractComponent) oldProcess;
// Inputs
if (oldAbsComponent.getInputs() != null) {
newAbsComponent.setInputs(oldAbsComponent.getInputs());
}
// outputs
if (oldAbsComponent.getOutputs() != null) {
newAbsComponent.setOutputs(oldAbsComponent.getOutputs());
}
// parameters
if (oldAbsComponent.getParameters() != null) {
newAbsComponent.setParameters(oldAbsComponent.getParameters());
}
}
if (oldProcess instanceof AbstractDerivableComponent) {
org.geotoolkit.sml.xml.v101.AbstractDerivableComponentType newDerComponent = (org.geotoolkit.sml.xml.v101.AbstractDerivableComponentType) newProcess;
AbstractDerivableComponent oldDerComponent = (AbstractDerivableComponent) oldProcess;
// Position
if (oldDerComponent.getPosition() != null) {
newDerComponent.setPosition(oldDerComponent.getPosition());
}
if (oldDerComponent.getSMLLocation() != null) {
newDerComponent.setSMLLocation(oldDerComponent.getSMLLocation());
}
if (oldDerComponent.getInterfaces() != null) {
newDerComponent.setInterfaces(new org.geotoolkit.sml.xml.v101.Interfaces(oldDerComponent.getInterfaces()));
}
if (oldDerComponent.getSpatialReferenceFrame() != null) {
newDerComponent.setSpatialReferenceFrame(new org.geotoolkit.sml.xml.v101.SpatialReferenceFrame(oldDerComponent.getSpatialReferenceFrame()));
}
if (oldDerComponent.getTemporalReferenceFrame() != null) {
newDerComponent.setTemporalReferenceFrame(new org.geotoolkit.sml.xml.v101.TemporalReferenceFrame(oldDerComponent.getTemporalReferenceFrame()));
}
if (oldDerComponent.getTimePosition() != null) {
newDerComponent.setTimePosition(new org.geotoolkit.sml.xml.v101.TimePosition(oldDerComponent.getTimePosition()));
}
}
if (oldProcess instanceof AbstractPureProcess) {
org.geotoolkit.sml.xml.v101.AbstractPureProcessType newAbsPuProc = (org.geotoolkit.sml.xml.v101.AbstractPureProcessType) newProcess;
AbstractPureProcess oldAbsPuProc = (AbstractPureProcess) oldProcess;
// Inputs
if (oldAbsPuProc.getInputs() != null) {
newAbsPuProc.setInputs(new org.geotoolkit.sml.xml.v101.Inputs(oldAbsPuProc.getInputs()));
}
// outputs
if (oldAbsPuProc.getOutputs() != null) {
newAbsPuProc.setOutputs(new org.geotoolkit.sml.xml.v101.Outputs(oldAbsPuProc.getOutputs()));
}
// parameters
if (oldAbsPuProc.getParameters() != null) {
newAbsPuProc.setParameters(new org.geotoolkit.sml.xml.v101.Parameters(oldAbsPuProc.getParameters()));
}
}
if (oldMember.getRealProcess() instanceof System) {
SystemType oldSystem = (SystemType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.SystemType newSystem = (org.geotoolkit.sml.xml.v101.SystemType) newProcess;
// components
if (oldSystem.getComponents() != null) {
newSystem.setComponents(new org.geotoolkit.sml.xml.v101.Components(oldSystem.getComponents()));
}
// positions
if (oldSystem.getPositions() != null) {
newSystem.setPositions(new org.geotoolkit.sml.xml.v101.Positions(oldSystem.getPositions()));
}
// connections
if (oldSystem.getConnections() != null) {
newSystem.setConnections(new org.geotoolkit.sml.xml.v101.Connections(oldSystem.getConnections()));
}
} else if (oldMember.getRealProcess() instanceof Component) {
ComponentType oldComponent = (ComponentType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.ComponentType newCompo = (org.geotoolkit.sml.xml.v101.ComponentType) newProcess;
// method
if (oldComponent.getMethod() != null) {
newCompo.setMethod(new org.geotoolkit.sml.xml.v101.MethodPropertyType(oldComponent.getMethod()));
}
} else if (oldMember.getRealProcess() instanceof AbstractDataSource) {
DataSourceType oldDataSource = (DataSourceType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.DataSourceType newDataSource = (org.geotoolkit.sml.xml.v101.DataSourceType) newProcess;
if (oldDataSource.getDataDefinition() != null) {
newDataSource.setDataDefinition(new org.geotoolkit.sml.xml.v101.DataDefinition(oldDataSource.getDataDefinition()));
}
if (oldDataSource.getValues() != null) {
newDataSource.setValues(new org.geotoolkit.sml.xml.v101.Values(oldDataSource.getValues()));
}
if (oldDataSource.getObservationReference() != null) {
newDataSource.setObservationReference(new org.geotoolkit.sml.xml.v101.ObservationReference(oldDataSource.getObservationReference()));
}
} else if (oldMember.getRealProcess() instanceof AbstractProcessModel) {
ProcessModelType oldProcessModel = (ProcessModelType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.ProcessModelType newProcessModel = (org.geotoolkit.sml.xml.v101.ProcessModelType) newProcess;
if (oldProcessModel.getMethod() != null) {
newProcessModel.setMethod(new org.geotoolkit.sml.xml.v101.MethodPropertyType(oldProcessModel.getMethod()));
}
} else if (oldMember.getRealProcess() instanceof AbstractProcessChain) {
ProcessChainType oldProcessChain = (ProcessChainType) oldMember.getRealProcess();
org.geotoolkit.sml.xml.v101.ProcessChainType newProcessChain = (org.geotoolkit.sml.xml.v101.ProcessChainType) newProcess;
// components
if (oldProcessChain.getComponents() != null) {
newProcessChain.setComponents(new org.geotoolkit.sml.xml.v101.Components(oldProcessChain.getComponents()));
}
// connections
if (oldProcessChain.getConnections() != null) {
newProcessChain.setConnections(new org.geotoolkit.sml.xml.v101.Connections(oldProcessChain.getConnections()));
}
} else if (oldMember.getRealProcess() instanceof ComponentArray) {
// nothing to do
} else {
throw new IllegalArgumentException("Other sensor type than system ,component, processModel, processChain, componentArray or datasource are not yet convertible");
}
newMembers.add(new org.geotoolkit.sml.xml.v101.SensorML.Member(newProcess));
}
org.geotoolkit.sml.xml.v101.SensorML result = new org.geotoolkit.sml.xml.v101.SensorML("1.0.1", newMembers);
return result;
}
use of com.example.demo.entity.order40.Member in project LectureContents by KHWeb19.
the class Second29thMemberRestController method viewMemberListInfo.
@GetMapping("/member-list")
public List<Member> viewMemberListInfo() {
log.info("viewMemberListInfo()");
List<Member> list = new ArrayList<>();
for (int i = 0; i < 3; i++) {
Member member = new Member();
list.add(member);
}
return list;
}
use of com.example.demo.entity.order40.Member in project LectureContents by KHWeb19.
the class MemberServiceImpl method login.
@Override
public Boolean login(Member member) {
// 특정 id 값을 가지고 있는지 검사
// 해당 id 값의 pw가 일치하는지 확인
// 모두 OK라면 true 리턴
// 도중에 하나라도 문제가 발생한다면 false 리턴
Member findMember = repository.findMemberById(member);
if (findMember == null) {
System.out.printf("There are no %s id\n", member.getId());
return false;
}
System.out.println("Check Password Only: " + findMember);
Boolean loginSuccess = findMember.getPw().equals(member.getPw());
return loginSuccess;
}
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