private void UISetup()
{
mTaskpaneView = mSWApplication.CreateTaskpaneView2(string.Empty, "Chrono::Engine tools");
mTaskpaneHost = (SWTaskpaneHost)mTaskpaneView.AddControl(SWTaskpaneHost.SWTASKPANE_PROGID,"");
mTaskpaneHost.mSWApplication = this.mSWApplication;
mTaskpaneHost.mSWintegration = this;
}
private void UITeardown()
{
mTaskpaneHost = null;
mTaskpaneView.DeleteView();
Marshal.ReleaseComObject(mTaskpaneView);
mTaskpaneView = null;
}
public static bool ConvertMateToPython(
ref Feature swMateFeature,
ref string asciitext,
ref ISldWorks mSWApplication,
ref Hashtable saved_parts,
ref int num_link,
ref MathTransform roottrasf,
ref Component2 assemblyofmates
)
{
if (swMateFeature == null)
{
return(false);
}
Mate2 swMate = (Mate2)swMateFeature.GetSpecificFeature2();
if (swMate == null)
{
return(false);
}
object foo = null;
bool[] suppressedflags;
suppressedflags = (bool[])swMateFeature.IsSuppressed2((int)swInConfigurationOpts_e.swThisConfiguration, foo);
if (suppressedflags[0] == true)
{
return(false);
}
if (swMate.GetMateEntityCount() >= 2)
{
// Get the mated parts
MateEntity2 swEntityA = swMate.MateEntity(0);
MateEntity2 swEntityB = swMate.MateEntity(1);
Component2 swCompA = swEntityA.ReferenceComponent;
Component2 swCompB = swEntityB.ReferenceComponent;
double[] paramsA = (double[])swEntityA.EntityParams;
double[] paramsB = (double[])swEntityB.EntityParams;
// this is needed because parts might reside in subassemblies, and mate params are expressed in parent subassembly
MathTransform invroottrasf = (MathTransform)roottrasf.Inverse();
MathTransform trA = roottrasf;
MathTransform trB = roottrasf;
if (assemblyofmates != null)
{
MathTransform partrasfA = assemblyofmates.GetTotalTransform(true);
if (partrasfA != null)
{
trA = partrasfA.IMultiply(invroottrasf); // row-ordered transf. -> reverse mult.order!
}
MathTransform partrasfB = assemblyofmates.GetTotalTransform(true);
if (partrasfB != null)
{
trB = partrasfB.IMultiply(invroottrasf); // row-ordered transf. -> reverse mult.order!
}
}
// Fetch the python names using hash map (python names added when scanning parts)
ModelDocExtension swModelDocExt = default(ModelDocExtension);
ModelDoc2 swModel = (ModelDoc2)mSWApplication.ActiveDoc;
swModelDocExt = swModel.Extension;
String name1 = (String)saved_parts[swModelDocExt.GetPersistReference3(swCompA)];
String name2 = (String)saved_parts[swModelDocExt.GetPersistReference3(swCompB)];
// Only constraints between two parts or part & layout can be created
if (((name1 != null) || (name2 != null)) && (name1 != name2))
{
CultureInfo bz = new CultureInfo("en-BZ");
if (name1 == null)
{
name1 = "body_0";
}
if (name2 == null)
{
name2 = "body_0";
}
// Add some comment in Python, to list the referenced SW items
asciitext += "\n# Mate constraint: " + swMateFeature.Name + " [" + swMateFeature.GetTypeName2() + "]" + "\n";
for (int e = 0; e < swMate.GetMateEntityCount(); e++)
{
MateEntity2 swEntityN = swMate.MateEntity(e);
Component2 swCompN = swEntityN.ReferenceComponent;
String ce_nameN = (String)saved_parts[swModelDocExt.GetPersistReference3(swCompN)];
asciitext += "# Entity " + e + ": C::E name: " + ce_nameN + " , SW name: " + swCompN.Name2 + " , SW ref.type:" + swEntityN.ReferenceType2 + "\n";
}
asciitext += "\n";
//
// For each type of SW mate, see which C::E mate constraint(s)
// must be created. Some SW mates correspond to more than one C::E constraints.
//
bool swapAB_1 = false;
bool do_CHmate_Xdistance = false;
double do_distance_val = 0.0;
bool do_CHmate_parallel = false;
bool do_parallel_flip = false;
bool do_CHmate_orthogonal = false;
bool do_CHmate_spherical = false;
bool do_CHmate_pointline = false;
// to simplify things later...
bool entity_0_as_FACE = (swMate.MateEntity(0).ReferenceType2 == (int)swSelectType_e.swSelFACES);
bool entity_0_as_EDGE = (swMate.MateEntity(0).ReferenceType2 == (int)swSelectType_e.swSelEDGES) ||
(swMate.MateEntity(0).ReferenceType2 == (int)swSelectType_e.swSelSKETCHSEGS) ||
(swMate.MateEntity(0).ReferenceType2 == (int)swSelectType_e.swSelDATUMAXES);
bool entity_0_as_VERTEX = (swMate.MateEntity(0).ReferenceType2 == (int)swSelectType_e.swSelVERTICES) ||
(swMate.MateEntity(0).ReferenceType2 == (int)swSelectType_e.swSelSKETCHPOINTS) ||
(swMate.MateEntity(0).ReferenceType2 == (int)swSelectType_e.swSelDATUMPOINTS);
bool entity_1_as_FACE = (swMate.MateEntity(1).ReferenceType2 == (int)swSelectType_e.swSelFACES);
bool entity_1_as_EDGE = (swMate.MateEntity(1).ReferenceType2 == (int)swSelectType_e.swSelEDGES) ||
(swMate.MateEntity(1).ReferenceType2 == (int)swSelectType_e.swSelSKETCHSEGS) ||
(swMate.MateEntity(1).ReferenceType2 == (int)swSelectType_e.swSelDATUMAXES);
bool entity_1_as_VERTEX = (swMate.MateEntity(1).ReferenceType2 == (int)swSelectType_e.swSelVERTICES) ||
(swMate.MateEntity(1).ReferenceType2 == (int)swSelectType_e.swSelSKETCHPOINTS) ||
(swMate.MateEntity(1).ReferenceType2 == (int)swSelectType_e.swSelDATUMPOINTS);
Point3D cA = new Point3D(0, 0, 0);
Point3D cB = new Point3D(0, 0, 0);
Vector3D dA = new Vector3D(1, 0, 0);
Vector3D dB = new Vector3D(1, 0, 0);
Point3D cAloc = new Point3D(paramsA[0], paramsA[1], paramsA[2]);
cA = SWTaskpaneHost.PointTransform(cAloc, ref trA);
Point3D cBloc = new Point3D(paramsB[0], paramsB[1], paramsB[2]);
cB = SWTaskpaneHost.PointTransform(cBloc, ref trB);
if (!entity_0_as_VERTEX)
{
Vector3D dAloc = new Vector3D(paramsA[3], paramsA[4], paramsA[5]);
dA = SWTaskpaneHost.DirTransform(dAloc, ref trA);
}
if (!entity_1_as_VERTEX)
{
Vector3D dBloc = new Vector3D(paramsB[3], paramsB[4], paramsB[5]);
dB = SWTaskpaneHost.DirTransform(dBloc, ref trB);
}
if (swMateFeature.GetTypeName2() == "MateCoincident")
{
if ((entity_0_as_FACE) &&
(entity_1_as_FACE))
{
do_CHmate_Xdistance = true;
do_CHmate_parallel = true;
}
if ((entity_0_as_EDGE) &&
(entity_1_as_EDGE))
{
do_CHmate_pointline = true;
do_CHmate_parallel = true;
}
if ((entity_0_as_VERTEX) &&
(entity_1_as_VERTEX))
{
do_CHmate_spherical = true;
}
if ((entity_0_as_VERTEX) &&
(entity_1_as_EDGE))
{
do_CHmate_pointline = true;
}
if ((entity_0_as_EDGE) &&
(entity_1_as_VERTEX))
{
do_CHmate_pointline = true;
swapAB_1 = true;
}
if ((entity_0_as_VERTEX) &&
(entity_1_as_FACE))
{
do_CHmate_Xdistance = true;
}
if ((entity_0_as_FACE) &&
(entity_1_as_VERTEX))
{
do_CHmate_Xdistance = true;
swapAB_1 = true;
}
if ((entity_0_as_EDGE) &&
(entity_1_as_FACE))
{
do_CHmate_Xdistance = true;
do_CHmate_orthogonal = true;
}
if ((entity_0_as_FACE) &&
(entity_1_as_EDGE))
{
do_CHmate_Xdistance = true;
do_CHmate_orthogonal = true;
swapAB_1 = true;
}
if (swMate.Alignment == (int)swMateAlign_e.swMateAlignANTI_ALIGNED)
{
do_parallel_flip = true;
}
}
if (swMateFeature.GetTypeName2() == "MateConcentric")
{
if ((entity_0_as_FACE) &&
(entity_1_as_FACE))
{
do_CHmate_pointline = true;
do_CHmate_parallel = true;
}
if ((entity_0_as_EDGE) &&
(entity_1_as_EDGE))
{
do_CHmate_pointline = true;
do_CHmate_parallel = true;
}
if ((entity_0_as_VERTEX) &&
(entity_1_as_FACE))
{
do_CHmate_pointline = true;
}
if ((entity_0_as_FACE) &&
(entity_1_as_VERTEX))
{
do_CHmate_pointline = true;
swapAB_1 = true;
}
if ((entity_0_as_EDGE) &&
(entity_1_as_FACE))
{
do_CHmate_pointline = true;
do_CHmate_parallel = true;
}
if ((entity_0_as_FACE) &&
(entity_1_as_EDGE))
{
do_CHmate_pointline = true;
do_CHmate_parallel = true;
swapAB_1 = true;
}
if (swMate.Alignment == (int)swMateAlign_e.swMateAlignANTI_ALIGNED)
{
do_parallel_flip = true;
}
}
if (swMateFeature.GetTypeName2() == "MateParallel")
{
if ((entity_0_as_FACE) &&
(entity_1_as_FACE))
{
do_CHmate_parallel = true;
}
if ((entity_0_as_EDGE) &&
(entity_1_as_EDGE))
{
do_CHmate_parallel = true;
}
if ((entity_0_as_EDGE) &&
(entity_1_as_FACE))
{
do_CHmate_orthogonal = true;
}
if ((entity_0_as_FACE) &&
(entity_1_as_EDGE))
{
do_CHmate_orthogonal = true;
swapAB_1 = true;
}
if (swMate.Alignment == (int)swMateAlign_e.swMateAlignANTI_ALIGNED)
{
do_parallel_flip = true;
}
}
if (swMateFeature.GetTypeName2() == "MatePerpendicular")
{
if ((entity_0_as_FACE) &&
(entity_1_as_FACE))
{
do_CHmate_orthogonal = true;
}
if ((entity_0_as_EDGE) &&
(entity_1_as_EDGE))
{
do_CHmate_orthogonal = true;
}
if ((entity_0_as_EDGE) &&
(entity_1_as_FACE))
{
do_CHmate_parallel = true;
}
if ((entity_0_as_FACE) &&
(entity_1_as_EDGE))
{
do_CHmate_parallel = true;
swapAB_1 = true;
}
if (swMate.Alignment == (int)swMateAlign_e.swMateAlignANTI_ALIGNED)
{
do_parallel_flip = true;
}
}
if (swMateFeature.GetTypeName2() == "MateDistanceDim")
{
if ((entity_0_as_FACE) &&
(entity_1_as_FACE))
{
do_CHmate_Xdistance = true;
do_CHmate_parallel = true;
}
if ((entity_0_as_VERTEX) &&
(entity_1_as_FACE))
{
do_CHmate_Xdistance = true;
}
if ((entity_0_as_FACE) &&
(entity_1_as_VERTEX))
{
do_CHmate_Xdistance = true;
swapAB_1 = true;
}
//***TO DO*** cases of distance line-vs-line and line-vs-vertex and vert-vert.
// Those will require another .cpp ChLinkMate specialized class(es).
if (swMate.Alignment == (int)swMateAlign_e.swMateAlignANTI_ALIGNED)
{
do_parallel_flip = true;
}
// Get the imposed distance value, in SI units
string confnames = "";
do_distance_val = swMate.DisplayDimension.GetDimension2(0).IGetSystemValue3((int)swInConfigurationOpts_e.swThisConfiguration, 0, ref confnames);
if (swMate.Flipped)
{
do_distance_val = -do_distance_val;
}
}
////
//// WRITE PYHTON CODE CORRESPONDING TO CONSTRAINTS
////
if (do_CHmate_Xdistance)
{
num_link++;
String linkname = "link_" + num_link;
asciitext += String.Format(bz, "{0} = chrono.ChLinkMateXdistanceShared()\n", linkname);
asciitext += String.Format(bz, "cA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cA.X * ChScale.L,
cA.Y * ChScale.L,
cA.Z * ChScale.L);
asciitext += String.Format(bz, "cB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cB.X * ChScale.L,
cB.Y * ChScale.L,
cB.Z * ChScale.L);
if (!entity_0_as_VERTEX)
{
asciitext += String.Format(bz, "dA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dA.X, dA.Y, dA.Z);
}
if (!entity_1_as_VERTEX)
{
asciitext += String.Format(bz, "dB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dB.X, dB.Y, dB.Z);
}
// Initialize link, by setting the two csys, in absolute space,
if (!swapAB_1)
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cA,cB,dB)\n", linkname, name1, name2);
}
else
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cB,cA,dA)\n", linkname, name2, name1);
}
//if (do_distance_val!=0)
asciitext += String.Format(bz, "{0}.SetDistance({1})\n", linkname,
do_distance_val * ChScale.L);
asciitext += String.Format(bz, "{0}.SetName(\"{1}\")\n", linkname, swMateFeature.Name);
// Insert to a list of exported items
asciitext += String.Format(bz, "exported_items.append({0})\n\n", linkname);
}
if (do_CHmate_parallel)
{
num_link++;
String linkname = "link_" + num_link;
asciitext += String.Format(bz, "{0} = chrono.ChLinkMateParallelShared()\n", linkname);
asciitext += String.Format(bz, "cA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cA.X * ChScale.L,
cA.Y * ChScale.L,
cA.Z * ChScale.L);
asciitext += String.Format(bz, "dA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dA.X, dA.Y, dA.Z);
asciitext += String.Format(bz, "cB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cB.X * ChScale.L,
cB.Y * ChScale.L,
cB.Z * ChScale.L);
asciitext += String.Format(bz, "dB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dB.X, dB.Y, dB.Z);
if (do_parallel_flip)
{
asciitext += String.Format(bz, "{0}.SetFlipped(1)\n", linkname);
}
// Initialize link, by setting the two csys, in absolute space,
if (!swapAB_1)
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cA,cB,dA,dB)\n", linkname, name1, name2);
}
else
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cB,cA,dB,dA)\n", linkname, name2, name1);
}
asciitext += String.Format(bz, "{0}.SetName(\"{1}\")\n", linkname, swMateFeature.Name);
// Insert to a list of exported items
asciitext += String.Format(bz, "exported_items.append({0})\n\n", linkname);
}
if (do_CHmate_orthogonal)
{
num_link++;
String linkname = "link_" + num_link;
asciitext += String.Format(bz, "{0} = chrono.ChLinkMateOrthogonalShared()\n", linkname);
asciitext += String.Format(bz, "cA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cA.X * ChScale.L,
cA.Y * ChScale.L,
cA.Z * ChScale.L);
asciitext += String.Format(bz, "dA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dA.X, dA.Y, dA.Z);
asciitext += String.Format(bz, "cB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cB.X * ChScale.L,
cB.Y * ChScale.L,
cB.Z * ChScale.L);
asciitext += String.Format(bz, "dB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dB.X, dB.Y, dB.Z);
// Initialize link, by setting the two csys, in absolute space,
if (!swapAB_1)
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cA,cB,dA,dB)\n", linkname, name1, name2);
}
else
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cB,cA,dB,dA)\n", linkname, name2, name1);
}
asciitext += String.Format(bz, "{0}.SetName(\"{1}\")\n", linkname, swMateFeature.Name);
// Insert to a list of exported items
asciitext += String.Format(bz, "exported_items.append({0})\n\n", linkname);
}
if (do_CHmate_spherical)
{
num_link++;
String linkname = "link_" + num_link;
asciitext += String.Format(bz, "{0} = chrono.ChLinkMateSphericalShared()\n", linkname);
asciitext += String.Format(bz, "cA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cA.X * ChScale.L,
cA.Y * ChScale.L,
cA.Z * ChScale.L);
asciitext += String.Format(bz, "cB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cB.X * ChScale.L,
cB.Y * ChScale.L,
cB.Z * ChScale.L);
// Initialize link, by setting the two csys, in absolute space,
if (!swapAB_1)
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cA,cB)\n", linkname, name1, name2);
}
else
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cB,cA)\n", linkname, name2, name1);
}
asciitext += String.Format(bz, "{0}.SetName(\"{1}\")\n", linkname, swMateFeature.Name);
// Insert to a list of exported items
asciitext += String.Format(bz, "exported_items.append({0})\n\n", linkname);
}
if (do_CHmate_pointline)
{
num_link++;
String linkname = "link_" + num_link;
asciitext += String.Format(bz, "{0} = chrono.ChLinkMateGenericShared()\n", linkname);
asciitext += String.Format(bz, "{0}.SetConstrainedCoords(0, 1, 1, 0, 0, 0)\n", linkname);
asciitext += String.Format(bz, "cA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cA.X * ChScale.L,
cA.Y * ChScale.L,
cA.Z * ChScale.L);
asciitext += String.Format(bz, "cB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cB.X * ChScale.L,
cB.Y * ChScale.L,
cB.Z * ChScale.L);
if (!entity_0_as_VERTEX)
{
asciitext += String.Format(bz, "dA = chrono.ChVectorD({0:g},{1:g},{2:g})\n", dA.X, dA.Y, dA.Z);
}
else
{
asciitext += String.Format(bz, "dA = chrono.VNULL\n");
}
if (!entity_1_as_VERTEX)
{
asciitext += String.Format(bz, "dB = chrono.ChVectorD({0:g},{1:g},{2:g})\n", dB.X, dB.Y, dB.Z);
}
else
{
asciitext += String.Format(bz, "dB = chrono.VNULL\n");
}
// Initialize link, by setting the two csys, in absolute space,
if (!swapAB_1)
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cA,cB,dA,dB)\n", linkname, name1, name2);
}
else
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cB,cA,dB,dA)\n", linkname, name2, name1);
}
asciitext += String.Format(bz, "{0}.SetName(\"{1}\")\n", linkname, swMateFeature.Name);
// Insert to a list of exported items
asciitext += String.Format(bz, "exported_items.append({0})\n\n", linkname);
}
// Now, do some other special mate type that did not fall in combinations
// of do_CHmate_pointline, do_CHmate_spherical, etc etc
if (swMateFeature.GetTypeName2() == "MateHinge")
{
// auto flip direction if anti aligned (seems that this is assumed automatically in MateHinge in SW)
if (Vector3D.DotProduct(dA, dB) < 0)
{
dB.Negate();
}
// Hinge constraint must be splitted in two C::E constraints: a coaxial and a point-vs-plane
num_link++;
String linkname = "link_" + num_link;
asciitext += String.Format(bz, "{0} = chrono.ChLinkMateCoaxialShared()\n", linkname);
asciitext += String.Format(bz, "cA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cA.X * ChScale.L,
cA.Y * ChScale.L,
cA.Z * ChScale.L);
asciitext += String.Format(bz, "dA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dA.X, dA.Y, dA.Z);
asciitext += String.Format(bz, "cB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cB.X * ChScale.L,
cB.Y * ChScale.L,
cB.Z * ChScale.L);
asciitext += String.Format(bz, "dB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dB.X, dB.Y, dB.Z);
asciitext += String.Format(bz, "{0}.SetName(\"{1}\")\n", linkname, swMateFeature.Name);
// Initialize link, by setting the two csys, in absolute space,
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cA,cB,dA,dB)\n", linkname, name1, name2);
// Insert to a list of exported items
asciitext += String.Format(bz, "exported_items.append({0})\n", linkname);
// NOTE!!! The 'hinge' mate uses 4 references: fetch the two others remaining
// and build another C::E link, for point-vs-face mating
MateEntity2 swEntityC = swMate.MateEntity(2);
MateEntity2 swEntityD = swMate.MateEntity(3);
Component2 swCompC = swEntityC.ReferenceComponent;
Component2 swCompD = swEntityD.ReferenceComponent;
double[] paramsC = (double[])swEntityC.EntityParams;
double[] paramsD = (double[])swEntityD.EntityParams;
String name3 = (String)saved_parts[swModelDocExt.GetPersistReference3(swCompC)];
String name4 = (String)saved_parts[swModelDocExt.GetPersistReference3(swCompD)];
MathTransform trC = roottrasf;
MathTransform trD = roottrasf;
if (assemblyofmates != null)
{
MathTransform partrasfC = assemblyofmates.GetTotalTransform(true);
if (partrasfC != null)
{
trC = partrasfC.IMultiply(invroottrasf);
}
MathTransform partrasfD = assemblyofmates.GetTotalTransform(true);
if (partrasfD != null)
{
trD = partrasfD.IMultiply(invroottrasf);
}
}
bool entity_2_as_VERTEX = (swMate.MateEntity(2).ReferenceType2 == (int)swSelectType_e.swSelVERTICES) ||
(swMate.MateEntity(2).ReferenceType2 == (int)swSelectType_e.swSelSKETCHPOINTS) ||
(swMate.MateEntity(2).ReferenceType2 == (int)swSelectType_e.swSelDATUMPOINTS);
bool entity_3_as_VERTEX = (swMate.MateEntity(3).ReferenceType2 == (int)swSelectType_e.swSelVERTICES) ||
(swMate.MateEntity(3).ReferenceType2 == (int)swSelectType_e.swSelSKETCHPOINTS) ||
(swMate.MateEntity(3).ReferenceType2 == (int)swSelectType_e.swSelDATUMPOINTS);
Point3D cC = new Point3D(0, 0, 0);
Point3D cD = new Point3D(0, 0, 0);
Vector3D dC = new Vector3D(1, 0, 0);
Vector3D dD = new Vector3D(1, 0, 0);
Point3D cCloc = new Point3D(paramsC[0], paramsC[1], paramsC[2]);
cC = SWTaskpaneHost.PointTransform(cCloc, ref trC);
Point3D cDloc = new Point3D(paramsD[0], paramsD[1], paramsD[2]);
cD = SWTaskpaneHost.PointTransform(cDloc, ref trD);
if (!entity_2_as_VERTEX)
{
Vector3D dCloc = new Vector3D(paramsC[3], paramsC[4], paramsC[5]);
dC = SWTaskpaneHost.DirTransform(dCloc, ref trC);
}
if (!entity_3_as_VERTEX)
{
Vector3D dDloc = new Vector3D(paramsD[3], paramsD[4], paramsD[5]);
dD = SWTaskpaneHost.DirTransform(dDloc, ref trD);
}
num_link++;
linkname = "link_" + num_link;
asciitext += String.Format(bz, "{0} = chrono.ChLinkMateXdistanceShared()\n", linkname);
asciitext += String.Format(bz, "cA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cC.X * ChScale.L,
cC.Y * ChScale.L,
cC.Z * ChScale.L);
asciitext += String.Format(bz, "dA = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dC.X, dC.Y, dC.Z);
asciitext += String.Format(bz, "cB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
cD.X * ChScale.L,
cD.Y * ChScale.L,
cD.Z * ChScale.L);
asciitext += String.Format(bz, "dB = chrono.ChVectorD({0:g},{1:g},{2:g})\n",
dD.X, dD.Y, dD.Z);
asciitext += String.Format(bz, "{0}.SetName(\"{1}\")\n", linkname, swMateFeature.Name);
// Initialize link, by setting the two csys, in absolute space,
if (entity_2_as_VERTEX)
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cA,cB,dA)\n", linkname, name3, name4);
}
else
{
asciitext += String.Format(bz, "{0}.Initialize({1},{2},0,cA,cB,dB)\n", linkname, name3, name4);
}
// Insert to a list of exported items
asciitext += String.Format(bz, "exported_items.append({0})\n", linkname);
return(true);
}
}
}
return(false);
}
