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#include "HarmCurrent.h"
#include "HarmCurrentForm.h"
HarmCurrent::HarmCurrent() : Shunt() {}
HarmCurrent::~HarmCurrent() {}
HarmCurrent::HarmCurrent(wxString name) : Shunt() { m_electricalData.name = name; }
Element* HarmCurrent::GetCopy()
{
HarmCurrent* copy = new HarmCurrent();
*copy = *this;
return copy;
}
bool HarmCurrent::AddParent(Element* parent, wxPoint2DDouble position)
{
if(parent) {
m_parentList.push_back(parent);
parent->AddChild(this);
wxPoint2DDouble parentPt =
parent->RotateAtPosition(position, -parent->GetAngle()); // Rotate click to horizontal position.
parentPt.m_y = parent->GetPosition().m_y; // Centralize on bus.
parentPt = parent->RotateAtPosition(parentPt, parent->GetAngle()); // Rotate back.
m_position = parentPt + wxPoint2DDouble(0.0, 100.0); // Shifts the position to the down of the bus.
m_width = 40;
m_height = 60;
m_rect = wxRect2DDouble(m_position.m_x - m_width / 2.0, m_position.m_y - m_height / 2.0, m_width, m_height);
m_pointList.push_back(parentPt);
m_pointList.push_back(GetSwitchPoint(parent, parentPt, m_position));
m_pointList.push_back(m_position + wxPoint2DDouble(0.0, -m_height / 2.0 - 10.0));
m_pointList.push_back(m_position + wxPoint2DDouble(0.0, -m_height / 2.0));
m_triangPts.push_back(wxPoint2DDouble(-5, -15));
m_triangPts.push_back(wxPoint2DDouble(5, -15));
m_triangPts.push_back(wxPoint2DDouble(0.0, -30.0));
m_inserted = true;
wxRect2DDouble genRect(0, 0, 0, 0);
m_switchRect.push_back(genRect); // Push a general rectangle.
UpdateSwitches();
return true;
}
return false;
}
void HarmCurrent::Draw(wxPoint2DDouble translation, double scale) const
{
OpenGLColour elementColour;
if(m_online) {
if(m_dynEvent)
elementColour = m_dynamicEventColour;
else
elementColour = m_onlineElementColour;
} else
elementColour = m_offlineElementColour;
if(m_inserted) {
std::vector<wxPoint2DDouble> arrowPts;
arrowPts.push_back(wxPoint2DDouble(m_position.m_x, m_position.m_y - m_height / 2.0));
arrowPts.push_back(arrowPts[0] + wxPoint2DDouble(0, 40));
if(m_selected) {
glLineWidth(1.5 + m_borderSize * 2.0);
glColor4dv(m_selectionColour.GetRGBA());
DrawLine(m_pointList);
glPushMatrix();
glTranslated(m_position.m_x, m_position.m_y, 0.0);
glRotated(m_angle, 0.0, 0.0, 1.0);
glTranslated(-m_position.m_x, -m_position.m_y, 0.0);
DrawCircle(wxPoint2DDouble(m_position.m_x, m_position.m_y - m_height / 2.0 + 20),
20.0 + (m_borderSize + 1.5) / scale, 20, GL_POLYGON);
DrawGround(m_position + wxPoint2DDouble(0, 10.0));
glPopMatrix();
// Draw node selection.
DrawCircle(m_pointList[0], 5.0 + m_borderSize / scale, 10, GL_POLYGON);
}
// Draw Harmonic current source (layer 2).
glLineWidth(1.5);
glColor4dv(elementColour.GetRGBA());
DrawCircle(m_pointList[0], 5.0, 10, GL_POLYGON);
DrawLine(m_pointList);
DrawSwitches();
glPushMatrix();
glTranslated(m_position.m_x, m_position.m_y, 0.0);
glRotated(m_angle, 0.0, 0.0, 1.0);
glTranslated(-m_position.m_x, -m_position.m_y, 0.0);
std::vector<wxPoint2DDouble> triangPts;
for(int i = 0; i < 3; i++) { triangPts.push_back(m_triangPts[i] + m_position); }
glColor4dv(elementColour.GetRGBA());
glColor4d(1.0, 1.0, 1.0, 1.0);
DrawCircle(wxPoint2DDouble(m_position.m_x, m_position.m_y - m_height / 2.0 + 20), 20, 20, GL_POLYGON);
glColor4dv(elementColour.GetRGBA());
DrawCircle(wxPoint2DDouble(m_position.m_x, m_position.m_y - m_height / 2.0 + 20), 20, 20);
DrawTriangle(triangPts);
DrawLine(arrowPts);
DrawGround(m_position + wxPoint2DDouble(0, 10.0));
glPopMatrix();
}
}
bool HarmCurrent::Contains(wxPoint2DDouble position) const
{
wxPoint2DDouble ptR = RotateAtPosition(position, -m_angle);
return m_rect.Contains(ptR);
}
bool HarmCurrent::Intersects(wxRect2DDouble rect) const
{
return RotatedRectanglesIntersects(m_rect, rect, m_angle, 0.0);
}
void HarmCurrent::Rotate(bool clockwise)
{
double rotAngle = m_rotationAngle;
if(!clockwise) rotAngle = -m_rotationAngle;
m_angle += rotAngle;
if(m_angle >= 360 || m_angle <= -360) m_angle = 0.0;
m_pointList[2] = RotateAtPosition(m_pointList[2], rotAngle);
m_pointList[3] = RotateAtPosition(m_pointList[3], rotAngle);
UpdateSwitchesPosition();
}
bool HarmCurrent::GetContextMenu(wxMenu& menu)
{
menu.Append(ID_EDIT_ELEMENT, _("Edit Harmonic Current Source"));
GeneralMenuItens(menu);
return true;
}
wxString HarmCurrent::GetTipText() const
{
wxString tipText = m_electricalData.name;
for(unsigned int i = 0; i < m_electricalData.harmonicOrder.size(); ++i) {
tipText +=
wxString::Format("\nI%dh = %s %s (%s%s)", m_electricalData.harmonicOrder[i],
StringFromDouble(m_electricalData.injHarmCurrent[i]),
m_electricalData.injHarmCurrentUnit[i] == ElectricalUnit::UNIT_A ? "A" : "p.u.",
StringFromDouble(m_electricalData.injHarmAngle[i]), static_cast<wxString>(L'\u00B0'));
}
return tipText;
}
bool HarmCurrent::ShowForm(wxWindow* parent, Element* element)
{
HarmCurrentForm* harmCurrentForm = new HarmCurrentForm(parent, this);
harmCurrentForm->SetTitle(_("Harmonic Current Source"));
if(harmCurrentForm->ShowModal() == wxID_OK) {
harmCurrentForm->Destroy();
return true;
}
harmCurrentForm->Destroy();
return false;
}
HarmCurrentElectricalData HarmCurrent::GetPUElectricalData(double systemPowerBase, double voltage)
{
HarmCurrentElectricalData puData = m_electricalData;
double ib = systemPowerBase / (std::sqrt(3.00) * voltage);
for(unsigned int i = 0; i < puData.harmonicOrder.size(); ++i) {
if(puData.injHarmCurrentUnit[i] == ElectricalUnit::UNIT_A) {
puData.injHarmCurrent[i] /= ib;
puData.injHarmCurrentUnit[i] = ElectricalUnit::UNIT_PU;
}
}
return puData;
}
rapidxml::xml_node<>* HarmCurrent::SaveElement(rapidxml::xml_document<>& doc, rapidxml::xml_node<>* elementListNode)
{
auto elementNode = XMLParser::AppendNode(doc, elementListNode, "HarmCurrent");
XMLParser::SetNodeAttribute(doc, elementNode, "ID", m_elementID);
SaveCADProperties(doc, elementNode);
auto electricalProp = XMLParser::AppendNode(doc, elementNode, "ElectricalProperties");
auto isOnline = XMLParser::AppendNode(doc, electricalProp, "IsOnline");
XMLParser::SetNodeValue(doc, isOnline, m_online);
auto name = XMLParser::AppendNode(doc, electricalProp, "Name");
XMLParser::SetNodeValue(doc, name, m_electricalData.name);
auto harmCurrentDataList = XMLParser::AppendNode(doc, electricalProp, "HarmCurrentList");
for(int i = 0; i < static_cast<int>(m_electricalData.harmonicOrder.size()); i++) {
auto harmCurrentData = XMLParser::AppendNode(doc, harmCurrentDataList, "HarmCurrent");
XMLParser::SetNodeAttribute(doc, harmCurrentData, "ID", i);
auto order = XMLParser::AppendNode(doc, harmCurrentData, "Order");
XMLParser::SetNodeValue(doc, order, m_electricalData.harmonicOrder[i]);
auto injCurrent = XMLParser::AppendNode(doc, harmCurrentData, "InjCurrent");
XMLParser::SetNodeValue(doc, injCurrent, m_electricalData.injHarmCurrent[i]);
XMLParser::SetNodeAttribute(doc, injCurrent, "UnitID", static_cast<int>(m_electricalData.injHarmCurrentUnit[i]));
auto injHarmAngle = XMLParser::AppendNode(doc, harmCurrentData, "Angle");
XMLParser::SetNodeValue(doc, injHarmAngle, m_electricalData.injHarmAngle[i]);
}
return elementNode;
}
bool HarmCurrent::OpenElement(rapidxml::xml_node<>* elementNode, std::vector<Element*> parentList)
{
if(!OpenCADProperties(elementNode, parentList)) return false;
auto electricalProp = elementNode->first_node("ElectricalProperties");
if(!electricalProp) return false;
SetOnline(XMLParser::GetNodeValueInt(electricalProp, "IsOnline"));
m_electricalData.name = electricalProp->first_node("Name")->value();
auto harmCurrentList = electricalProp->first_node("HarmCurrentList");
auto harmCurrent = harmCurrentList->first_node("HarmCurrent");
while(harmCurrent) {
m_electricalData.harmonicOrder.push_back(XMLParser::GetNodeValueInt(harmCurrent, "Order"));
m_electricalData.injHarmCurrent.push_back(XMLParser::GetNodeValueDouble(harmCurrent, "InjCurrent"));
m_electricalData.injHarmCurrentUnit.push_back(
static_cast<ElectricalUnit>(XMLParser::GetAttributeValueInt(harmCurrent, "InjCurrent", "UnitID")));
m_electricalData.injHarmAngle.push_back(XMLParser::GetNodeValueDouble(harmCurrent, "Angle"));
harmCurrent = harmCurrent->next_sibling("HarmCurrent");
}
m_inserted = true;
return true;
}
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