/// <summary>
/// Converts 'value' from internal units (which are Metric) to Standard (Feet) if Engine unitMode is set
/// to Standard. If 'value' is not a numeric type, an exception may be thrown.
/// Does Not modify 'value'.
/// </summary>
public static float GetExternalValue(BendParameter param)
{
if (Engine.unitType == Units.Type.Standard)
{
return((float)param.value * Units.k_MToFt);
}
return((float)param.value);
}
/*##################################
*
* Public Functions
*
###################################*/
/// <summary>
/// Links this Bend Input Screen to a Bend and Sets up Screen Appropriately
/// </summary>
public override void Link(IModel model)
{
if (!m_HasInitialized)
{
Debug.LogError("BendInputScreen: Link() Screen must first be Initialized.");
return;
}
if (m_Bend != null)
{
// Unregister Listeners on Previous Bend
m_Bend.onEvent.RemoveListener(ListenerBend);
}
Bend bend = (Bend)model;
m_Bend = bend;
m_Bend.onEvent.AddListener(ListenerBend);
// Initialize Output View
InitializeOutput();
RectTransform scrollerContent = bendParameterScroller.content;
RectTransform bendParamPrefab;
UIBendParameter uiBendParam;
BendParameter bendParam;
bendParameterScroller.ClearContent();
// Set up Bend Input Parameter View
for (int i = 0; i < bend.inputParameters.Count; ++i)
{
bendParam = bend.inputParameters[i];
bendParamPrefab = Instantiate(bendParameterPrefab);
bendParamPrefab.SetParent(scrollerContent, false);
uiBendParam = bendParamPrefab.GetComponent <UIBendParameter>();
uiBendParam.Set(bendParam.type, BendParameter.GetStringValue(bendParam.name), i);
uiBendParam.onClick = DisplayWidget;
if (i == 0)
{
// Set 1st Parameter as Selected
uiBendParam.button.Select();
}
}
bendParameterScroller.Layout();
// Set up Help Widget
bendParamPrefab = Instantiate(bendParameterPrefab);
bendParamPrefab.SetParent(scrollerContent, false);
uiBendParam = bendParamPrefab.GetComponent <UIBendParameter>();
uiBendParam.SetAsHelp();
uiBendParam.onClick = DisplayHelpWidget;
// Display 1st Parameter Widget
m_ActiveParameter = -1;
DisplayWidget(0);
}
public void SetHighlightables(List <BendParameter> highlightables)
{
m_highlightables = highlightables;
// Clear previous Parameters
var content = parameterScroller.content;
for (int i = 0; i < content.childCount; ++i)
{
Destroy(content.GetChild(i).gameObject);
}
if (highlightables.Count == 0)
{
message.text = k_UnAvailableMessage;
return;
}
else
{
message.text = k_AvailableMessage;
}
// Populate Parameter view
RectTransform scrollerContent = parameterScroller.content;
RectTransform paramPrefab;
Button paramButton;
Text paramText;
Vector2 nextPos = parameterPrefab.anchoredPosition;
Vector2 size = parameterPrefab.rect.size;
for (var i = 0; i < m_highlightables.Count; ++i)
{
var param = m_highlightables[i];
var index = i;
// Instantiate next
paramPrefab = Instantiate(parameterPrefab);
// Position, Format and Listen
paramButton = paramPrefab.GetComponent <Button>();
paramButton.onClick.AddListener(() => { OnParameterClick(index); });
paramText = paramPrefab.GetComponent <Text>();
paramText.text = BendParameter.GetStringValue(param.name);
paramText.color = Color.black;
paramPrefab.SetParent(scrollerContent, false);
paramPrefab.anchoredPosition = nextPos;
paramPrefab.gameObject.SetActive(true);
nextPos.y -= size.y;
}
}
/// <summary>
/// Sets the current BendParameter to be highlighted.
/// Assumes the BendParameter is a highlightable type
/// </summary>
public void SetHighlight(BendParameter highlightable)
{
m_Highlight = highlightable;
if (highlightable == null)
{
onEvent.Invoke(EventType.HighlightOff);
}
else
{
onEvent.Invoke(EventType.HighlightOn);
}
}
/// <summary>
/// Returns value of Parameter formatted as a string, returned in current display unit type (Feet or Meters)
/// </summary>
/// <param name="bendParam"></param>
/// <returns></returns>
public static string GetFormattedValue(BendParameter bendParam)
{
switch (bendParam.type)
{
case EBendParameterType.FloatAngle:
return(bendParam.value.ToString());
case EBendParameterType.Float:
return(Units.Format(Engine.unitType, Engine.outputRulerUnit, GetExternalValue((float)bendParam.value)));
case EBendParameterType.Integer:
return(bendParam.value.ToString());
case EBendParameterType.StringEnum:
StringEnum se = (StringEnum)bendParam.valueObject;
return(se.ToStringValue((int)bendParam.value));
}
return("");
}
private void InitializeOutput()
{
// Init Output View
TextColumns.TextPair textPair;
BendParameter bendParam;
int pinput = 0;
m_EnabledParameterMask = 0;
m_OutputText.Clear();
// Input Parameters
for (int p = 0; p < m_Bend.inputParameters.Count; ++p)
{
bendParam = m_Bend.inputParameters[p];
textPair = new TextColumns.TextPair();
textPair.left = "<b>" + BendParameter.GetStringValue(bendParam.name) + ":</b> ";
textPair.right = "<color=#" + bendParam.colorHexString + ">" + BendParameter.GetFormattedValue(bendParam) + "</color>";
m_OutputText.Write(textPair);
}
pinput = m_Bend.inputParameters.Count;
// Output Parameters (FF1800FF, EA75FF)
for (int p = 0; p < m_Bend.outputParameters.Count; ++p)
{
bendParam = m_Bend.outputParameters[p];
if (bendParam.enabled)
{
m_EnabledParameterMask |= 1 << (pinput + p);
textPair = new TextColumns.TextPair();
textPair.left = "<b>" + BendParameter.GetStringValue(bendParam.name) + ":</b> ";
textPair.right = "<b><color=#" + bendParam.colorHexString + ">" + BendParameter.GetFormattedValue(bendParam) + "</color></b>";
m_OutputText.Write(textPair);
}
}
//Debug.Log( "BendInputScreen: InitializeOutput() m_EnabledParameterMask: " + m_EnabledParameterMask + " Lines: " + m_OutputText.lineCount );
}
//--------------------------------------------------------------------------------------------------
void _FindFacesConnectedToBendSection(MakeContext context, TopoDS_Edge sharedEdge, BendParameter bendParams)
{
// Find connected section faces
bendParams.ConnectedInSharedEdges[0] = sharedEdge;
bendParams.ConnectedInFaces[0] = FaceAlgo.FindConnectedFace(context.SourceShape, bendParams.Faces[0], sharedEdge);
var opEdge = bendParams.Faces[0].Edges().Find(e => !e.IsSame(sharedEdge) && !e.IsSame(bendParams.Edges[0]) && !e.IsSame(bendParams.Edges[1]));
if (opEdge != null)
{
bendParams.ConnectedOutSharedEdges[0] = opEdge;
bendParams.ConnectedOutFaces[0] = FaceAlgo.FindConnectedFace(context.SourceShape, bendParams.Faces[0], opEdge);
}
// Find the other connection edge
TopoDS_Vertex sharedVtx1 = null;
foreach (var edge in bendParams.Faces[1].Edges())
{
var vtx = EdgeAlgo.FindSharedVertex(edge, sharedEdge);
if (vtx != null)
{
// Get the other (not shared) vertex
sharedVtx1 = edge.Vertices().Find(v => !v.IsSame(vtx));
break;
}
}
TopoDS_Vertex sharedVtx2 = null;
foreach (var edge in bendParams.Faces[2].Edges())
{
var vtx = EdgeAlgo.FindSharedVertex(edge, sharedEdge);
if (vtx != null)
{
// Get the other (not shared) vertex
sharedVtx2 = edge.Vertices().Find(v => !v.IsSame(vtx));
break;
}
}
TopoDS_Edge otherSharedEdge = null;
foreach (var edge in bendParams.Faces[3].Edges())
{
var vertices = edge.Vertices();
if (vertices.ContainsSame(sharedVtx1) &&
vertices.ContainsSame(sharedVtx2))
{
otherSharedEdge = edge;
break;
}
}
if (otherSharedEdge == null)
{
return;
}
// Find connected section faces for the other edge
bendParams.ConnectedOutSharedEdges[1] = otherSharedEdge;
bendParams.ConnectedInFaces[1] = FaceAlgo.FindConnectedFace(context.SourceShape, bendParams.Faces[3], otherSharedEdge);
var otherOpEdge = bendParams.Faces[3].Edges().Find(e => !e.IsSame(otherSharedEdge) && !e.IsSame(bendParams.Edges[2]) && !e.IsSame(bendParams.Edges[3]));
if (otherOpEdge != null)
{
bendParams.ConnectedOutSharedEdges[1] = otherOpEdge;
bendParams.ConnectedOutFaces[1] = FaceAlgo.FindConnectedFace(context.SourceShape, bendParams.Faces[3], otherOpEdge);
}
}
//--------------------------------------------------------------------------------------------------
bool _IsFaceOfBendSection(TopoDS_Face face, BendParameter bendParams)
{
if (bendParams == null)
{
bendParams = new BendParameter(); // Temporary usage
}
// Each face of a bend section has two circular edges
var edges = face.Edges();
var foundCircularEdges = 0;
foreach (var edge in edges)
{
var edgeAdaptor = new BRepAdaptor_Curve(edge);
if (edgeAdaptor.GetGeomType() == GeomAbs_CurveType.GeomAbs_Circle)
{
foundCircularEdges++;
if (bendParams.Edges[0] == null)
{
bendParams.Edges[0] = edge;
bendParams.Axes[0] = edgeAdaptor.Circle().Position();
bendParams.Radii[0] = edgeAdaptor.Circle().Radius();
bendParams.AngleRad = edgeAdaptor.LastParameter() - edgeAdaptor.FirstParameter();
}
else
{
if (!bendParams.Axes[0].Axis.IsCoaxial(edgeAdaptor.Circle().Axis(), 0.01f, 0.001f) ||
!bendParams.AngleRad.IsEqual(edgeAdaptor.LastParameter() - edgeAdaptor.FirstParameter(), 0.01))
{
return(false); // Circular edge with unproper parameters detected
}
if (bendParams.Edges[1] == null)
{
// Second edge of bend surface
bendParams.Edges[1] = edge;
bendParams.Axes[1] = edgeAdaptor.Circle().Position();
break;
}
// Additional edges, find free place
for (int edgeIndex = 0; edgeIndex < bendParams.Edges.Length; edgeIndex++)
{
if (bendParams.Edges[edgeIndex] == null)
{
bendParams.Edges[edgeIndex] = edge;
break;
}
if (bendParams.Edges[edgeIndex].IsSame(edge))
{
break;
}
}
if (!edgeAdaptor.Circle().Radius().IsEqual(bendParams.Radii[0], 0.000001))
{
bendParams.Radii[1] = edgeAdaptor.Circle().Radius();
}
}
}
}
// Coaxial circle edges not found, this is not a bend section
if (foundCircularEdges != 2)
{
return(false);
}
return(true);
}
//--------------------------------------------------------------------------------------------------
/*
* Determine if a face belongs to a bend section. To recognise a bend section, it must have the
* following structure:
* - Four faces, two of them planar (side faces) and two of them cylinder (top/bottom)
* - All edges connecting these four faces must be circular
* - All circles must have coaxial axes with only two different positions
* - All circles must have one of two radii
*
* If a side face is detected, the iteration of faces should stop, but no section is built.
* If a top/bottom face is detected, the whole section is recovered and all parameters are
* determined. The faces are found by searching for faces which share the circular edges.
*
* This function is called recursively if one of the out-faces is also recognized
* as part of a connected bend section.
*/
bool _AnalyzeBendSection(MakeContext context, TopoDS_Face baseFace, TopoDS_Edge sharedEdge, out Section section)
{
section = null;
var bendParams = new BendParameter();
bendParams.Faces[0] = baseFace;
if (!_IsFaceOfBendSection(baseFace, bendParams))
{
return(false);
}
var faceAdaptor = new BRepAdaptor_Surface(baseFace);
// Surface is flat, but two edges are of circle and coplanar
if (faceAdaptor.GetGeomType() == GeomAbs_SurfaceType.GeomAbs_Plane)
{
// Ignore them for the moment, but sign them as bend section face
return(true);
}
if (faceAdaptor.GetGeomType() != GeomAbs_SurfaceType.GeomAbs_Cylinder)
{
// Surface must be of type Cylinder, other are not supported currently
return(false);
}
// Find side faces
var facesForEdge0 = EdgeAlgo.FindAdjacentFaces(context.SourceShape, bendParams.Edges[0]);
bendParams.Faces[1] = facesForEdge0.face1.IsSame(baseFace) ? facesForEdge0.face2 : facesForEdge0.face1;
if (!_IsFaceOfBendSection(bendParams.Faces[1], bendParams))
{
return(false);
}
var facesForEdge1 = EdgeAlgo.FindAdjacentFaces(context.SourceShape, bendParams.Edges[1]);
bendParams.Faces[2] = facesForEdge1.face1.IsSame(baseFace) ? facesForEdge1.face2 : facesForEdge1.face1;
if (!_IsFaceOfBendSection(bendParams.Faces[2], bendParams))
{
return(false);
}
// Find fourth face
var facesForEdge2 = EdgeAlgo.FindAdjacentFaces(context.SourceShape, bendParams.Edges[2]);
var facesForEdge3 = EdgeAlgo.FindAdjacentFaces(context.SourceShape, bendParams.Edges[3]);
if (facesForEdge2.face1.IsSame(facesForEdge3.face1) ||
facesForEdge2.face1.IsSame(facesForEdge3.face2))
{
bendParams.Faces[3] = facesForEdge2.face1;
}
else if (facesForEdge2.face2.IsSame(facesForEdge3.face1) ||
facesForEdge2.face2.IsSame(facesForEdge3.face2))
{
bendParams.Faces[3] = facesForEdge2.face2;
}
else
{
return(false); // fourth face not found
}
if (!_IsFaceOfBendSection(bendParams.Faces[3], bendParams))
{
return(false);
}
// Create Section
section = new Section();
section.Faces.AddRange(bendParams.Faces.Where(face => face != null));
section.BendParameter = bendParams;
// Find connected faces
_FindFacesConnectedToBendSection(context, sharedEdge, bendParams);
// Check if the connected section is also an bend section
if (bendParams.ConnectedOutFaces[0] != null &&
_AnalyzeBendSection(context, bendParams.ConnectedOutFaces[0], bendParams.ConnectedOutSharedEdges[0], out var connectedBendSection))
{
if (connectedBendSection == null)
{
Messages.Error("A bend section is connected to another bend section with an perpendicular direction.",
"To fix this, you need to add a small flange between these two bend sections.");
}
section.Children.Add(connectedBendSection);
}
else
{
section.Children.Add(new Section()); // Bend sections have exactly one connected section
}
return(true);
}
private void ListenerHelp(BendParameter val)
{
m_Bend.SetHighlight(val);
}
private void DisplayWidget(int id)
{
// Remove any active Highlighting
m_Bend.SetHighlight(null);
m_HelpWidget.GetComponentInChildren <BendHelp>().UnSelect();
// Don't reselect the same Widget
if (m_ActiveParameter == id)
{
return;
}
// Disable current Widget
if (m_ActiveWidget != null)
{
m_ActiveWidget.gameObject.SetActive(false);
}
m_ActiveParameter = id;
BendParameter param = m_Bend.inputParameters[id];
EBendParameterType type = param.type;
object[] range = BendParameter.GetRange(param.name);
switch (type)
{
case EBendParameterType.FloatAngle:
m_ActiveWidget = m_AngleWidget;
m_ActiveWidget.gameObject.SetActive(true);
AngleSlider ans = m_AngleWidget.GetComponentInChildren <AngleSlider>();
ans.SetRange((float)range[0], (float)range[1]);
ans.value = (float)param.value;
break;
case EBendParameterType.Float:
m_ActiveWidget = m_RulerWidget;
m_ActiveWidget.gameObject.SetActive(true);
MultiRulerSlider mr = m_RulerWidget.GetComponentInChildren <MultiRulerSlider>();
mr.SetRange((float)range[1]);
mr.Set((float)param.value, false);
break;
case EBendParameterType.Integer:
m_ActiveWidget = m_IntegerWidget;
m_ActiveWidget.gameObject.SetActive(true);
IntegerSlider ins = m_IntegerWidget.GetComponentInChildren <IntegerSlider>();
ins.SetRange((int)range[0], (int)range[1]);
ins.SetName(BendParameter.GetStringValue(param.name));
ins.value = (int)param.value;
break;
case EBendParameterType.StringEnum:
m_ActiveWidget = m_EnumWidget;
m_ActiveWidget.gameObject.SetActive(true);
EnumDropdown ed = m_EnumWidget.GetComponentInChildren <EnumDropdown>();
List <Dropdown.OptionData> enumList = ed.options;
StringEnum se = (StringEnum)param.valueObject;
int enumStart = (int)range[0];
int enumEnd = (int)range[1];
enumList.Clear();
for (int i = enumStart; i <= enumEnd; ++i)
{
enumList.Add(new EnumDropdown.EnumOptionData(se.ToStringValue(i), null, se.ToDescription(i)));
}
ed.value = (int)param.value;
ed.Refresh();
break;
default:
throw new ArgumentException("BendInputScreen: DisplayWidget() Invalid type.");
}
}
/// <summary>
/// Refresh Output View
/// </summary>
public void ListenerBend(Bend.EventType type)
{
if (type != Bend.EventType.Calculated)
{
return;
}
BendParameter bendParam;
TextColumns.TextPair textPair;
int enabledMask = 0;
int line = 0;
int pinput = 0;
var textPairs = m_OutputText.GetLines();
// Assert no bitmask overflow
Debug.Assert(m_Bend.inputParameters.Count + m_Bend.outputParameters.Count <= sizeof(int) * 8);
// Input Parameters
for (int p = 0; p < m_Bend.inputParameters.Count && p < textPairs.Count; ++p)
{
bendParam = m_Bend.inputParameters[p];
if (bendParam.enabled)
{
enabledMask |= 1 << (p);
textPair = textPairs[line];
textPair.right = "<color=#" + bendParam.colorHexString + ">" + BendParameter.GetFormattedValue(bendParam) + "</color>";
textPairs[line] = textPair;
line += 1;
}
}
pinput = m_Bend.inputParameters.Count;
// Output Parameters (FF1800FF, EA75FF)
for (int p = 0; p < m_Bend.outputParameters.Count && line < textPairs.Count; ++p)
{
bendParam = m_Bend.outputParameters[p];
if (bendParam.enabled)
{
enabledMask |= 1 << (pinput + p);
textPair = textPairs[line];
textPair.right = "<b><color=#" + bendParam.colorHexString + ">" + BendParameter.GetFormattedValue(bendParam) + "</color></b>";
textPairs[line] = textPair;
line += 1;
}
}
if (enabledMask != m_EnabledParameterMask)
{
InitializeOutput();
}
else
{
m_OutputText.WriteLines(textPairs);
}
// Display any Alert Text
if (!string.IsNullOrEmpty(m_Bend.alert))
{
alertText.Set(m_Bend.alert);
}
else
{
alertText.Off();
}
//Debug.Log( "UIBendInputScreen: ListenerBend() Output Refreshed." );
}
