void Mate(string name1, string name2, string plane1, string plane2, double dist = 0)
{
Clear(); double d = abs(dist) * mm;
Model.Extension.SelectByID2(plane1 + "@" + name1 + "@temp_assembly", "PLANE", 0, 0, 0, false, 1, null, 0);
Model.Extension.SelectByID2(plane2 + "@" + name2 + "@temp_assembly", "PLANE", 0, 0, 0, true, 1, null, 0);
swAssembly.AddMate5(5, 0, dist < 0 ? true : false, d, d, d, 0, 0, 0, 0, 0, false, false, 0, out int log);
}
/// <summary>
/// 轴配合
/// </summary>
/// <typeparam name="TAxisOne"></typeparam>
/// <typeparam name="TAxisTwo"></typeparam>
/// <param name="doc"></param>
/// <param name="axisOne"></param>
/// <param name="compAxisTwo"></param>
/// <param name="mathUtility"></param>
/// <param name="comp"></param>
/// <returns></returns>
public static Mate2 AddAxisCoinMate <TAxisOne, TAxisTwo>(this AssemblyDoc doc, TAxisOne axisOne, TAxisTwo compAxisTwo, MathUtility mathUtility = null, Component2 comp = null)
{
int mateError = 0;
Mate2 swMate = default;
SelectEntityOrFeature <TAxisOne>(axisOne, false);
SelectEntityOrFeature <TAxisTwo>(compAxisTwo, true);
swMate = doc.AddMate5((int)swMateType_e.swMateCOINCIDENT, AxisAlign(axisOne, compAxisTwo, mathUtility, comp).SWToInt(), false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, 0, out mateError);
return(swMate);
}
public static Mate2 AddAxisCoinMate <TAxisOne, TAxisTwo>(this AssemblyDoc doc, TAxisOne axisOne, TAxisTwo axisTwo)
{
int mateError = 0;
Mate2 swMate = default;
SelectEntityOrFeature <TAxisOne>(axisOne, false);
SelectEntityOrFeature <TAxisTwo>(axisTwo, true);
swMate = doc.AddMate5((int)swMateType_e.swMateCOINCIDENT, AxisAlign(axisOne, axisTwo).SWToInt(), false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, 0, out mateError);
return(swMate);
}
private void Contraindre(Feature plan, Face2 e)
{
AssemblyDoc Ass = MdlBase.eAssemblyDoc();
e.eSelectEntite(MdlBase);
plan.eSelect(true);
int longstatus = 0;
Ass.AddMate5((int)swMateType_e.swMateCOINCIDENT,
(int)swMateAlign_e.swMateAlignCLOSEST, false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, 0, out longstatus);
MdlBase.ClearSelection2(true);
}
private void Run(Component2 Comp)
{
try
{
List <Feature> ListePlanRef;
if (CompBase.IsNull())
{
ListePlanRef = MdlBase.eListeFonctions(f => { return(f.GetTypeName2() == FeatureType.swTnRefPlane); });
}
else
{
ListePlanRef = CompBase.eListeFonctions(f => { return(f.GetTypeName2() == FeatureType.swTnRefPlane); });
}
Log.Message(Comp.Name2);
List <Feature> ListePlan = Comp.eListeFonctions(f => { return(f.GetTypeName2() == FeatureType.swTnRefPlane); });
Boolean EstFixe = Comp.IsFixed();
Comp.eLiberer(_Ass);
Mate2 FxContrainte = null;
int Erreur = 0;
for (int i = 0; i < Math.Min(3, Math.Min(ListePlanRef.Count, ListePlan.Count)); i++)
{
Feature PlanRef = ListePlanRef[i];
Feature Plan = ListePlan[i];
PlanRef.eSelectionnerById2(MdlBase, -1, false);
Plan.eSelectionnerById2(MdlBase, -1, true);
FxContrainte = _Ass.AddMate5((int)swMateType_e.swMateCOINCIDENT, (int)swMateAlign_e.swMateAlignALIGNED, false, 0, 0, 0, 0, 0, 0, 0, 0, false, true, 0, out Erreur);
}
MdlBase.eEffacerSelection();
if (EstFixe || FixerComposant)
{
Comp.eFixer(_Ass);
}
}
catch (Exception e)
{
this.LogErreur(new Object[] { e });
}
}
public void Main()
{
ModelDoc2 swDoc;
PartDoc swPart = null;
DrawingDoc swDrawing = null;
AssemblyDoc swAssembly = null;
bool boolstatus = false;
int longstatus = 0;
int longwarnings = 0;
string FileLocation = "E:\\My Douments\\MQP\\SOLIDWORKS\\Gear Creation script\\"; //directory for all parts created and modified in this code (Templates should be here)
string Gear_Template = "Spur gear - Metric Template.sldprt"; //filename of the spur gear template
string Housing = "GEAR_HOUSING_MACRO.sldprt"; //filename for gearbox housing
string ASSEMBLY = "GEARBOX_ASSEMBLY_MACRO.sldasm"; //filename for Assembly file
string SHAFT_TEMPLATE = "SHAFT_TEMPLATE.sldprt";
int i; //number of gears to create (replace with input data later)
//***************************CREATE GEARS***********************************
int num_gears = 5; //number of gears in assembly to generate
double[][] Gear_info = new double[num_gears][]; //array of arrays(jagged) to store data about each gear
//raw gear data {#teeth, width,shaft,locked to shaft, other gear to mesh with(255 indicates no output),distance from }
// 0 1 2 3 4 5
Gear_info[0] = new double[] { 10, 4, 0, 1, 1, 0.000 }; // #teeth, width mm, which shaft to connect to, if locked on shaft, distance between shafts
Gear_info[1] = new double[] { 40, 4, 1, 0, 2, 0.000 };
Gear_info[2] = new double[] { 20, 4, 2, 1, 255, 0.000 };
Gear_info[3] = new double[] { 40, 4, 2, 1, 4, 0.004 };
Gear_info[4] = new double[] { 20, 4, 1, 1, 255, 0.004 };
//shaft info
double Shaft_Diameter = 1; //diameter in mm (also used for bore dia. in gears)
int num_shafts = 3;
double Shaft_length = 2 * Gear_info[0][1]; //length of shaft, make slightly larger than width of gear for now
double Modulus = .25; //gear modulus for all gears
double[] shaft_spacing = new double[] { 4, 5, 8 }; //temporarily use this for the shaft spacing
for (i = 0; i < num_gears; i++) //create each gear based off the template
{
swDoc = ((ModelDoc2)(swApp.OpenDoc6(FileLocation + Gear_Template, 1, 0, "", ref longstatus, ref longwarnings)));
double NUM_TEETH = Gear_info[i][0];
Double WIDTH = Gear_info[i][1];// gear depth in mm
double SHOW_TEETH = NUM_TEETH;
//change sketch dimmensions in the reference sketch: "HoldingSke"
((Dimension)(swDoc.Parameter("Show_teeth@HoldingSke"))).SystemValue = SHOW_TEETH * (3.14159 / 180); //have to convert degrees to radians, num_teeth is saved as angle measurment in the sketch
((Dimension)(swDoc.Parameter("Num_teeth@HoldingSke"))).SystemValue = NUM_TEETH * (3.14159 / 180); //display all the teeth
((Dimension)(swDoc.Parameter("Width@HoldingSke"))).SystemValue = WIDTH / 1000;
((Dimension)(swDoc.Parameter("Bore@HoldingSke"))).SystemValue = Shaft_Diameter / 1000;
((Dimension)(swDoc.Parameter("Module@HoldingSke"))).SystemValue = Modulus / 1000;
boolstatus = swDoc.EditRebuild3(); //rebuild the document
longstatus = swDoc.SaveAs3(FileLocation + "GEAR_MACRO" + i + ".sldprt", 0, 2); //save gear as gear number i in a new folder called MACRO_PARTS
}
//***************************CREATE SHAFTS***********************************
for (i = 0; i < num_shafts; i++)
{
swDoc = ((ModelDoc2)(swApp.OpenDoc6(FileLocation + SHAFT_TEMPLATE, 1, 0, "", ref longstatus, ref longwarnings)));
//change sketch dimmensions
((Dimension)(swDoc.Parameter("Diameter@Sketch1"))).SystemValue = Shaft_Diameter / 1000;
((Dimension)(swDoc.Parameter("Shaft Length@Sketch1"))).SystemValue = Shaft_length / 1000;
boolstatus = swDoc.EditRebuild3(); //rebuild the document
longstatus = swDoc.SaveAs3(FileLocation + "SHAFT_MACRO" + i + ".sldprt", 0, 2); //save gear as gear number i in a new folder called MACRO_PARTS
//code to create shafts of set diameters or something
}
//***************************CREATE ASSEMBLY***********************************
//Open All components to be added
for (i = 0; i < num_gears; i++)
{
swDoc = ((ModelDoc2)(swApp.OpenDoc6(FileLocation + "GEAR_MACRO" + i + ".sldprt", 1, 0, "", ref longstatus, ref longwarnings)));
swDoc = ((ModelDoc2)(swApp.OpenDoc6(FileLocation + "SHAFT_MACRO" + i + ".sldprt", 1, 0, "", ref longstatus, ref longwarnings)));
}
//Open the assembly
swDoc = ((ModelDoc2)(swApp.OpenDoc6(FileLocation + "Assembly_Template.SLDASM", 2, 0, "", ref longstatus, ref longwarnings)));
swDoc = ((ModelDoc2)(swApp.ActiveDoc));
swApp.ActivateDoc2("Assembly_Template.SLDASM", false, ref longstatus);
swAssembly = ((AssemblyDoc)(swDoc));
//add components to SW assembly
//****** Currently Parts must already be opened seperately to add to assmebly *******
//***************************SHAFT MATES***********************************
//names of edges and faces in the template: Front Edge ( circle along front)
// Surface (cylinder surface of rod)
//make face coincident with corresponding hole on housing
Mate2 myMate = null;
//insert shaft
//insert point for mate
//align along axis
//mate oring to point
double[][] Shaft_coord = new double[num_shafts][]; //array of arrays(jagged) to store data about each gear
double x; double y; double z;
//shaft coords x, y, z
Shaft_coord[0] = new double[] { .000, .000, .000 };
Shaft_coord[1] = new double[] { .000, .000, .008 };
Shaft_coord[2] = new double[] { .000, .000, .018 };
//Shaft_coord[3] = new double[] {.019, .000, 0};
for (i = 0; i < num_shafts; i++)
{
boolstatus = swAssembly.AddComponent(FileLocation + "SHAFT_Macro" + i + ".sldprt", 0, 0, 0);
if (i == 0)
{
swDoc.ClearSelection2(true);
boolstatus = swDoc.Extension.SelectByID2("SHAFT_MACRO" + i + "-1@Assembly_Template", "COMPONENT", 0, 0, 0, false, 0, null, 0);
swAssembly.UnfixComponent();
}
x = Shaft_coord[i][0];
y = Shaft_coord[i][1];
z = Shaft_coord[i][2];
boolstatus = swDoc.Extension.SelectByID2("Shaft coords sketch", "SKETCH", 0, 0, 0, false, 0, null, 0);
swDoc.EditSketch();
swDoc.ClearSelection2(true);
SketchPoint skPoint = null;
skPoint = ((SketchPoint)(swDoc.SketchManager.CreatePoint(x, y, z))); //create a point
//have to make point fixed!
//make origin coincident to its sketch point
boolstatus = swDoc.Extension.SelectByID2("Point" + (i + 11) + "@Shaft coords sketch", "EXTSKETCHPOINT", x, y, z, true, 1, null, 0);
boolstatus = swDoc.Extension.SelectByID2("Point1@Origin@SHAFT_MACRO" + i + "-1@Assembly_Template", "EXTSKETCHPOINT", 0, 0, 0, true, 1, null, 0);
myMate = null;
swAssembly = ((AssemblyDoc)(swDoc));
myMate = ((Mate2)(swAssembly.AddMate5(0, 0, false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, 0, out longstatus)));
swDoc.ClearSelection2(true);
swDoc.EditRebuild3();
//parallel to axis
boolstatus = swDoc.Extension.SelectByID2("Center Axis@SHAFT_MACRO" + i + "-1@Assembly_Template", "AXIS", 0, 0, 0, false, 0, null, 0);
boolstatus = swDoc.Extension.SelectByID2("Line1@Reference Direction", "EXTSKETCHSEGMENT", 0, 0, 0.0021382559642120218, true, 1, null, 0);
myMate = null;
swAssembly = ((AssemblyDoc)(swDoc));
myMate = ((Mate2)(swAssembly.AddMate5(3, 1, false, 0.0029999999999767309, 0.001, 0.001, 0.001, 0.001, 0, 0.5235987755983, 0.5235987755983, false, false, 0, out longstatus)));
swDoc.ClearSelection2(true);
swDoc.EditRebuild3();
}
//***************************GEAR MATES***********************************
string face_sel; //holds string with name of the face to select
for (i = 0; i < num_gears; i++)
{
Double DistanceMate = Gear_info[i][5]; // gear loacation on shaft
boolstatus = swAssembly.AddComponent(FileLocation + "GEAR_MACRO" + i + ".sldprt", -0.5, 0, 0);
//Distance mate from edge of shaft
boolstatus = swDoc.Extension.SelectByID2("EDGE@GEAR_MACRO" + i + "-1@Assembly_Template", "PLANE", 0, 0, 0, true, 0, null, 0); //face plane of gear
boolstatus = swDoc.Extension.SelectByID2("Right@SHAFT_MACRO" + Gear_info[i][2] + "-1@Assembly_Template", "PLANE", 0, 0, 0, true, 0, null, 0); //shaft hole in housing
myMate = (Mate2)swAssembly.AddMate5(5, 1, false, DistanceMate, DistanceMate, DistanceMate, 0, 0, 0, 0, 0, false, false, 0, out longstatus);
swDoc.ClearSelection2(true);
//concentric to shaft
boolstatus = swDoc.Extension.SelectByID2("Central Axis@GEAR_MACRO" + i + "-1@Assembly_Template", "AXIS", 0, 0, 0, true, 0, null, 0); //axis of gear
boolstatus = swDoc.Extension.SelectByID2("Center Axis@SHAFT_MACRO" + Gear_info[i][2] + "-1@Assembly_Template", "AXIS", 0, 0, 0, true, 0, null, 0); //axis of shaft
myMate = (Mate2)swAssembly.AddMate4((int)swMateType_e.swMateCOINCIDENT, (int)swMateAlign_e.swMateAlignALIGNED, false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, out longstatus);
swDoc.ClearSelection2(true);
//lock to shaft
if (Gear_info[i][3] == 1) //if gear locked to shaft (make two planes coincident)
{
boolstatus = swDoc.Extension.SelectByID2("Plane2@GEAR_MACRO" + i + "-1@Assembly_Template", "PLANE", 0, 0, 0, true, 0, null, 0); //face plane of shaft
boolstatus = swDoc.Extension.SelectByID2("Front@SHAFT_MACRO" + Gear_info[i][2] + "-1@Assembly_Template", "PLANE", 0, 0, 0, true, 0, null, 0); //shaft hole in housing
myMate = (Mate2)swAssembly.AddMate4((int)swMateType_e.swMateCOINCIDENT, (int)swMateAlign_e.swMateAlignALIGNED, false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, out longstatus);
swDoc.ClearSelection2(true);
swDoc.EditRebuild3();
}
}
//gear mate
for (i = 0; i < (num_gears); i++)
{
if (Gear_info[i][4] != 255) //if -1 that means do not make a gear mate (don't make gear mate for last gear sinc it is output, no gear to mesh to!!!!)
{
boolstatus = swDoc.Extension.SelectByID2("Central Axis@GEAR_MACRO" + i + "-1@Assembly_Template", "AXIS", 0, 0, 0, true, 0, null, 0); //axis of gear
boolstatus = swDoc.Extension.SelectByID2("Central Axis@GEAR_MACRO" + Gear_info[i][4] + "-1@Assembly_Template", "AXIS", 0, 0, 0, true, 0, null, 0); //axis of gear
myMate = (Mate2)swAssembly.AddMate4((int)swMateType_e.swMateGEAR, (int)swMateAlign_e.swMateAlignALIGNED, false, 0, 0, 0, Gear_info[i][0], Gear_info[i + 1][0], 0, 0, 0, false, false, out longstatus); //gear mate, specify num. and denom. of gear ratio as #teeth on gear
swDoc.ClearSelection2(true);
swDoc.EditRebuild3();
}
}
/*
*
*
* // boolstatus = swDoc.Extension.SelectByID2("", "FACE", -0.00455748224163699, 0.0037205844126901866, 0.004682722786242266, false, 0, null, 0);
* // boolstatus = swDoc.Extension.SelectByID2("", "FACE", 0.0018884588073433406, 0.00336302382845588, -0.00060759657679909651, true, 0, null, 1);
* // swDoc.ClearSelection2(true);
*
* boolstatus = swDoc.Extension.SelectByID2("Plane3@30 tooth gear-1@Assem4", "PLANE", 0, 0, 0, true, 0, null, 0);
* boolstatus = swDoc.Extension.SelectByID2("Plane3@50 tooth gear-1@Assem4", "PLANE", 0, 0, 0, true, 0, null, 0);
* //Mate2 myMate = null;
* // swAssembly = ((AssemblyDoc)(swDoc));
*
* //add mate to two parts (by selection)
* // myMate = (Mate2)swAssembly.AddMate4((int)swMateType_e.swMateCOINCIDENT, (int)swMateAlign_e.swMateAlignALIGNED, false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, out longstatus);
* // swDoc.ClearSelection2(true);
*
*
* boolstatus = swDoc.Extension.SelectByID2("Bore of@50 tooth gear-1@Assem4", "PLANE", 0, 0, 0, true, 0, null, 0);
*
*
* swDoc.EditRebuild3();
*/
}
/// <summary>
/// 当结果返回True 时 表示两个零件不一样,结果false时表示 两个零件一样
/// </summary>
/// <param name="sendTocustomer"></param>
/// <param name="localModel"></param>
/// <returns></returns>
public bool CheckTwoParts(string sendTocustomer, string localModel)
{
bool different1 = false;
bool different2 = false;
swApp = ConnectToSolidWorks();
// swApp = ConnectToSolidWorks();
//加载参考关系零件
swApp.SetUserPreferenceIntegerValue((int)swUserPreferenceIntegerValue_e.swLoadExternalReferences, (int)swLoadExternalReferences_e.swLoadExternalReferences_ChangedOnly);
//后台模式 前台不显示界面
swApp.EnableBackgroundProcessing = true;
//禁止记录文件路径
swApp.SetUserPreferenceToggle((int)swUserPreferenceToggle_e.swLockRecentDocumentsList, true);
swApp.OpenDoc(localModel, 1);
swApp.OpenDoc(sendTocustomer, 1);
ModelDoc2 swModel = (ModelDoc2)swApp.ActiveDoc;
string LocalPath = System.IO.Directory.GetParent(swModel.GetPathName()).ToString();
string tempAssembly = swApp.GetUserPreferenceStringValue((int)swUserPreferenceStringValue_e.swDefaultTemplateAssembly);
AssemblyDoc assemblyDoc = (AssemblyDoc)swApp.NewDocument(tempAssembly, 0, 0, 0);
Component2 insertComponentSendtoCustomer = assemblyDoc.AddComponent5(sendTocustomer, 0, "", false, "", 0, 0, 0);
Component2 insertComponentLocal = assemblyDoc.AddComponent5(localModel, 0, "", false, "", 0, 0, 0);
string sendSelect = insertComponentSendtoCustomer.GetSelectByIDString();
string localSelect = insertComponentLocal.GetSelectByIDString();
swModel = (ModelDoc2)swApp.ActiveDoc;
bool b1 = swModel.Extension.SelectByID2("Point1@Origin" + "@" + sendSelect, "EXTSKETCHPOINT", 0, 0, 0, false, 0, null, 0);
bool b2 = swModel.Extension.SelectByID2("Point1@Origin" + "@" + localSelect, "EXTSKETCHPOINT", 0, 0, 0, true, 0, null, 0);
int longstatus;
Mate2 mate2 = assemblyDoc.AddMate5(20, -1, false, 0, 0.001, 0.001, 0.001, 0.001, 0, 0, 0, false, false, 0, out longstatus);
swModel = (ModelDoc2)swApp.ActiveDoc;
swModel.SaveAs(LocalPath + @"\TopCheck.sldasm");
//不显示特征树
//swModel.Extension.HideFeatureManager(true);
swModel.ClearSelection2(true);
//swModel.FeatureManager.ViewFeatures = false;
//FeatureManager featureManager = swModel.FeatureManager;
//禁用特征树
//featureManager.EnableFeatureTree = false;
// swModel.FeatureManager.EnableFeatureTreeWindow = false;
#region first join
Component2 sendToCustomerBodies = default(Component2);
List <Component2> sendToCustomerBodiesList = new List <Component2>();
object swFaceOrPlane = default(object);
assemblyDoc.InsertNewVirtualPart(swFaceOrPlane, out sendToCustomerBodies);
sendToCustomerBodies.Select(true);
assemblyDoc.FixComponent();
sendToCustomerBodies.Select(true);
assemblyDoc.EditPart();
insertComponentSendtoCustomer.Select(false);
insertComponentLocal.Select(true);
assemblyDoc.InsertJoin2(false, false);
swModel = (ModelDoc2)swApp.ActiveDoc;
swModel.BreakAllExternalReferences();
object[] splits = sendToCustomerBodies.Name2.Split('^');
// string compName = System.IO.Directory.GetParent(swModel.GetPathName()) + "\\" + splits[0];
string compName = System.IO.Directory.GetParent(swModel.GetPathName()) + "\\" + "localBodies-1";
ModelDoc2 compModel = default(ModelDoc2);
compModel = (ModelDoc2)sendToCustomerBodies.GetModelDoc();
if (compModel.GetType() == (int)swDocumentTypes_e.swDocPART)
{
compName = compName + ".sldprt";
}
else
{
compName = compName + ".sldasm";
}
bool ret;
ret = sendToCustomerBodies.SaveVirtualComponent(compName);
sendToCustomerBodiesList.Add(sendToCustomerBodies);
insertComponentSendtoCustomer.Select(false);
swModel = (ModelDoc2)sendToCustomerBodies.GetModelDoc2();
#region 获取所有零件中的零件,每一个实体做一次反切
List <string> bodyNamesCustomer = new List <string>();
PartDoc swPart = null;
object vBody;
swPart = (PartDoc)swModel;
// Solid bodies
object[] vBodyArr = null;
Body2 swBody = default(Body2);
MathTransform swMathTrans = null;
vBodyArr = (object[])swPart.GetBodies2((int)swBodyType_e.swSolidBody, true);
if ((vBodyArr != null))
{
// Debug.Print(" Number of solid bodies: " + vBodyArr.Length);
foreach (object vBody_loopVariable in vBodyArr)
{
vBody = vBody_loopVariable;
swBody = (Body2)vBody;
string[] vConfigName = null;
vConfigName = (string[])swModel.GetConfigurationNames();
string sMatDB = "";
string sMatName = swBody.GetMaterialPropertyName("", out sMatDB);
//bRet = swBody.RemoveMaterialProperty((int)swInConfigurationOpts_e.swAllConfiguration, (vConfigName));
//Debug.Print("Body--> " + swBody.Name + " " + "");
bodyNamesCustomer.Add(swBody.Name);
}
}
//如果实体数量大于1,则继续新建对应数量的join 实体。
OnlyKeepNamedBody(bodyNamesCustomer[0], sendToCustomerBodies.GetSelectByIDString(), assemblyDoc, sendToCustomerBodies, insertComponentSendtoCustomer, ref different1);
if (bodyNamesCustomer.Count > 1)
{
assemblyDoc.EditAssembly();
for (int i = 0; i < bodyNamesCustomer.Count - 1; i++)
{
Component2 returnpart = default(Component2);
var partSelect = CreateNewJoinPart(assemblyDoc, insertComponentSendtoCustomer, insertComponentLocal, swModel, "localBodies-" + (i + 2), out returnpart);
sendToCustomerBodiesList.Add(returnpart);
OnlyKeepNamedBody(bodyNamesCustomer[i + 1], partSelect, assemblyDoc, returnpart, insertComponentSendtoCustomer, ref different1);
}
}
// boolstatus = Part.Extension.SelectByID2("Join1[2]@localBodies-1@TopCheck", "SOLIDBODY", 0, 0, 0, True, 0, Nothing, 0)
//Dim myFeature As Object
//Set myFeature = Part.FeatureManager.InsertDeleteBody2(True)
#endregion 获取所有零件中的零件,每一个实体做一次反切
//assemblyDoc.InsertCavity4(0, 0, 0, true, 1, -1);
Feature theFeature;
//theFeature = swModel.FeatureByPositionReverse(0);
//if (theFeature.Name.Contains("Cavity"))
//{
// //theFeature.Select(true);
// swModel = (ModelDoc2)swApp.ActiveDoc;
// bool b = swModel.Extension.SelectByID2(theFeature.Name + "@" + sendToCustomerBodies.GetSelectByIDString(), "BODYFEATURE", 0, 0, 0, false, 0, null, 0);
// swModel.BreakAllExternalReferences();
// different1 = true;
// //JoinPart1 留下的: 发给客户的没有此部分。 而本地零件中有
//}
//else
//{
// //无法Join时表示 全切了。
// swModel = (ModelDoc2)swApp.ActiveDoc;
// bool b = swModel.Extension.SelectByID2(theFeature.Name + "@" + sendToCustomerBodies.GetSelectByIDString(), "BODYFEATURE", 0, 0, 0, false, 0, null, 0);
// swModel.EditSuppress();
//}
//sendToCustomerBodies.Select(true);
assemblyDoc.EditAssembly();
#endregion first join
#region sercond join2
Component2 localBodies = default(Component2);
List <Component2> LocalBodiesList = new List <Component2>();
assemblyDoc.InsertNewVirtualPart(swFaceOrPlane, out localBodies);
localBodies.Select(true);
assemblyDoc.FixComponent();
localBodies.Select(true);
assemblyDoc.EditPart();
insertComponentSendtoCustomer.Select(false);
insertComponentLocal.Select(true);
assemblyDoc.InsertJoin2(false, false);
swModel = (ModelDoc2)swApp.ActiveDoc;
swModel.BreakAllExternalReferences();
splits = localBodies.Name2.Split('^');
// string compName = System.IO.Directory.GetParent(swModel.GetPathName()) + "\\" + splits[0];
compName = System.IO.Directory.GetParent(swModel.GetPathName()) + "\\" + "sendToCustomerBodies-1";
compModel = default(ModelDoc2);
compModel = (ModelDoc2)localBodies.GetModelDoc();
if (compModel.GetType() == (int)swDocumentTypes_e.swDocPART)
{
compName = compName + ".sldprt";
}
else
{
compName = compName + ".sldasm";
}
ret = localBodies.SaveVirtualComponent(compName);
LocalBodiesList.Add(localBodies);
insertComponentLocal.Select(false);
swModel = (ModelDoc2)localBodies.GetModelDoc2();
#region 获取所有零件中的零件,每一个实体做一次反切
List <string> bodyNamesLocal = new List <string>();
PartDoc swPart2 = null;
object vBody2;
swPart2 = (PartDoc)swModel;
// Solid bodies
object[] vBodyArr2 = null;
Body2 swBody2 = default(Body2);
MathTransform swMathTrans2 = null;
vBodyArr2 = (object[])swPart2.GetBodies2((int)swBodyType_e.swSolidBody, true);
if ((vBodyArr2 != null))
{
// Debug.Print(" Number of solid bodies: " + vBodyArr.Length);
foreach (object vBody_loopVariable in vBodyArr2)
{
vBody2 = vBody_loopVariable;
swBody2 = (Body2)vBody2;
string[] vConfigName = null;
vConfigName = (string[])swModel.GetConfigurationNames();
string sMatDB = "";
string sMatName = swBody2.GetMaterialPropertyName("", out sMatDB);
//bRet = swBody.RemoveMaterialProperty((int)swInConfigurationOpts_e.swAllConfiguration, (vConfigName));
bodyNamesLocal.Add(swBody2.Name);
}
}
//如果实体数量大于1,则继续新建对应数量的join 实体。
OnlyKeepNamedBody(bodyNamesLocal[0], localBodies.GetSelectByIDString(), assemblyDoc, localBodies, insertComponentLocal, ref different2);
if (bodyNamesLocal.Count > 1)
{
assemblyDoc.EditAssembly();
for (int i = 0; i < bodyNamesLocal.Count - 1; i++)
{
Component2 returnpart = default(Component2);
var partSelect = CreateNewJoinPart(assemblyDoc, insertComponentSendtoCustomer, insertComponentLocal, swModel, "sendToCustomerBodies-" + (i + 2), out returnpart);
LocalBodiesList.Add(returnpart);
OnlyKeepNamedBody(bodyNamesLocal[i + 1], partSelect, assemblyDoc, returnpart, insertComponentLocal, ref different2);
}
}
// boolstatus = Part.Extension.SelectByID2("Join1[2]@localBodies-1@TopCheck", "SOLIDBODY", 0, 0, 0, True, 0, Nothing, 0)
//Dim myFeature As Object
//Set myFeature = Part.FeatureManager.InsertDeleteBody2(True)
#endregion 获取所有零件中的零件,每一个实体做一次反切
//assemblyDoc.InsertCavity4(0, 0, 0, true, 1, -1);
//theFeature = swModel.FeatureByPositionReverse(0);
//swModel = (ModelDoc2)localBodies.GetModelDoc2();
//theFeature = swModel.FeatureByPositionReverse(0);
//if (theFeature.Name.Contains("Cavity"))
//{
// //theFeature.Select(true);
// swModel = (ModelDoc2)swApp.ActiveDoc;
// bool b = swModel.Extension.SelectByID2(theFeature.Name + "@" + localBodies.GetSelectByIDString(), "BODYFEATURE", 0, 0, 0, false, 0, null, 0);
// swModel.BreakAllExternalReferences();
// different2 = true;
// //JoinPart2 留下的: 发给客户的有此部分。 而本地零件中没有
//}
//else
//{
// //无法Join时表示 全切了。
// swModel = (ModelDoc2)swApp.ActiveDoc;
// bool b = swModel.Extension.SelectByID2(theFeature.Name + "@" + sendToCustomerBodies.GetSelectByIDString(), "BODYFEATURE", 0, 0, 0, false, 0, null, 0);
// swModel.EditSuppress();
//}
//localBodies.Select(true);
//assemblyDoc.EditAssembly();
#endregion sercond join2
#region joinPartPublic
Component2 publicBodies = default(Component2);
assemblyDoc.InsertNewVirtualPart(swFaceOrPlane, out publicBodies);
publicBodies.Select(true);
assemblyDoc.FixComponent();
publicBodies.Select(true);
assemblyDoc.EditPart();
insertComponentSendtoCustomer.Select(false);
insertComponentLocal.Select(true);
assemblyDoc.InsertJoin2(false, false);
swModel = (ModelDoc2)swApp.ActiveDoc;
swModel.BreakAllExternalReferences();
splits = publicBodies.Name2.Split('^');
// string compName = System.IO.Directory.GetParent(swModel.GetPathName()) + "\\" + splits[0];
compName = System.IO.Directory.GetParent(swModel.GetPathName()) + "\\" + "publicBodies";
compModel = default(ModelDoc2);
compModel = (ModelDoc2)publicBodies.GetModelDoc();
if (compModel.GetType() == (int)swDocumentTypes_e.swDocPART)
{
compName = compName + ".sldprt";
}
else
{
compName = compName + ".sldasm";
}
ret = publicBodies.SaveVirtualComponent(compName);
swModel.ClearSelection();
foreach (var item in sendToCustomerBodiesList)
{
item.Select(false);
assemblyDoc.InsertCavity4(0, 0, 0, true, 1, -1);
theFeature = (Feature)swModel.FeatureByPositionReverse(0);
swModel = (ModelDoc2)publicBodies.GetModelDoc2();
theFeature = (Feature)swModel.FeatureByPositionReverse(0);
if (theFeature.Name.Contains("Cavity"))
{
//theFeature.Select(true);
swModel = (ModelDoc2)swApp.ActiveDoc;
bool b = swModel.Extension.SelectByID2(theFeature.Name + "@" + publicBodies.GetSelectByIDString(), "BODYFEATURE", 0, 0, 0, false, 0, null, 0);
swModel.BreakAllExternalReferences();
//joinPartPublic 留下的: 发给客户的有此部分。 而本地零件中没有
}
else
{
}
}
foreach (var item in LocalBodiesList)
{
item.Select(false);
assemblyDoc.InsertCavity4(0, 0, 0, true, 1, -1);
theFeature = (Feature)swModel.FeatureByPositionReverse(0);
swModel = (ModelDoc2)publicBodies.GetModelDoc2();
theFeature = (Feature)swModel.FeatureByPositionReverse(0);
if (theFeature.Name.Contains("Cavity"))
{
//theFeature.Select(true);
swModel = (ModelDoc2)swApp.ActiveDoc;
bool b = swModel.Extension.SelectByID2(theFeature.Name + "@" + publicBodies.GetSelectByIDString(), "BODYFEATURE", 0, 0, 0, false, 0, null, 0);
swModel.BreakAllExternalReferences();
//joinPartPublic 留下的: 发给客户的有此部分。 而本地零件中没有
}
else
{
}
}
publicBodies.Select(true);
assemblyDoc.EditAssembly();
#endregion joinPartPublic
foreach (var item in sendToCustomerBodiesList)
{
item.Select(false);
setColour(Color.Red);
}
foreach (var item in LocalBodiesList)
{
item.Select(false);
setColour(Color.Blue);
}
swModel = (ModelDoc2)swApp.ActiveDoc;
swModel.ClearSelection2(true);
insertComponentLocal.Select(false);
insertComponentSendtoCustomer.Select(true);
swModel.HideComponent2();
swModel.ClearSelection2(true);
publicBodies.Select(false);
assemblyDoc.SetComponentTransparent(true);
setColour(Color.Green);
swModel.EditRebuild3();
swModel.Save();
swModel.SaveAs3(LocalPath + @"\01_CheckResult.sldprt", 0, 0);
swApp.CloseDoc("TopCheck.sldasm");
swApp.CloseAllDocuments(true);
swApp.OpenDoc(LocalPath + @"\01_CheckResult.sldprt", 1);
swModel = (ModelDoc2)swApp.ActiveDoc;
swModel.ShowNamedView2("*Isometric", 7);
swModel.ViewZoomtofit2();
swApp.SetUserPreferenceToggle((int)swUserPreferenceToggle_e.swLockRecentDocumentsList, false);
try
{
System.IO.File.Delete(LocalPath + @"\TopCheck.sldasm");
System.IO.File.Delete(LocalPath + @"\localBodies.sldprt");
System.IO.File.Delete(LocalPath + @"\sendToCustomerBodies.sldprt");
System.IO.File.Delete(LocalPath + @"\publicBodies.sldprt");
}
catch (Exception)
{
}
//第二次反向剪切
swApp.CloseDoc(sendTocustomer);
swApp.CloseDoc(localModel);
swModel.FeatureManager.EnableFeatureTree = true;
swApp.SetUserPreferenceIntegerValue((int)swUserPreferenceIntegerValue_e.swLoadExternalReferences, 2);
if (different1 == false && different2 == false)
{
return(false);
}
else
{
return(true);
}
}
private void Run(Component2 cBase)
{
if (cBase == null)
{
this.LogMethode(new String[] { _NomConfigActive });
this.LogMethode(new String[] { "Une reference à un objet a été perdue cBase :", cBase.IsRefToString() });
return;
}
try
{
List <Body2> ListeCorps = cBase.eListeCorps();
List <Face2> ListeFace = new List <Face2>();
// Recherche des faces cylindriques
foreach (Body2 C in ListeCorps)
{
foreach (Face2 F in C.eListeDesFaces())
{
Surface S = F.GetSurface();
if (S.IsCylinder())
{
if (PercageOuvert || (F.GetLoopCount() > 1))
{
// Si le diametre == 0 on recupère toutes les faces
if ((ListeDiametre.Count == 1) && (ListeDiametre[0] == 0))
{
if ((Face == null) || (F.eListeDesFacesContigues().Contains(Face)))
{
ListeFace.Add(F);
}
}
// Sinon, on verifie qu'elle corresponde bien au diametre demandé
else
{
Double[] ListeParam = (Double[])S.CylinderParams;
Double Diam = Math.Round(ListeParam[6] * 2.0 * 1000, 2);
if (ListeDiametre.Contains(Diam))
{
if ((Face == null) || (F.eListeDesFacesContigues().Contains(Face)))
{
ListeFace.Add(F);
}
}
}
}
}
}
}
// S'il n'y a pas assez de composant de perçage, on en rajoute
while (_ListePercage.Count < ListeFace.Count)
{
AjouterPercage();
}
_MdlBase.EditRebuild3();
// Mise à jour des références des perçages
//ReinitialiserRefListe(ref _ListePercage);
List <String> ListeComp = new List <String>();
if (!_DicConfigWithComp.ContainsKey(_NomConfigActive))
{
_DicConfigWithComp.Add(_NomConfigActive, ListeComp);
}
else
{
ListeComp = _DicConfigWithComp[_NomConfigActive];
}
List <String> ListeNomComp = _ListePercage.Keys.ToList();
// Contrainte des perçages
for (int i = 0; i < ListeFace.Count; i++)
{
String NomComp = ListeNomComp[i];
Component2 Comp = _AssBase.GetComponentByName(NomComp);
// On active le composant au cas ou :)
_MdlBase.eSelectByIdComp(_ListePercage[NomComp]);
_AssBase.eModifierEtatComposant(swComponentSuppressionState_e.swComponentResolved);
_MdlBase.eEffacerSelection();
Face2 Cylindre = ListeFace[i];
ListeComp.Add(NomComp);
//DesactiverContrainte(Comp);
_MdlBase.ClearSelection2(true);
if (Plan.IsRef())
{
Plan.eSelect();
}
else if (Face.IsRef())
{
Face.eSelectEntite();
}
else
{
Face2 FaceContrainte = FacePlane(Cylindre);
// Si on trouve une face pour la contrainte, on sélectionne
// Sinon, on passe au trou suivant
if (FaceContrainte.IsRef())
{
FaceContrainte.eSelectEntite();
}
else
{
continue;
}
}
Feature fPlan = PlanContrainte(Comp);
if (fPlan == null)
{
this.LogMethode(new String[] { "Pas de \"Plan de face\"" });
continue;
}
fPlan.eSelect(true);
int longstatus = 0;
_AssBase.AddMate5((int)swMateType_e.swMateCOINCIDENT,
(int)swMateAlign_e.swMateAlignCLOSEST,
false,
0, 0, 0, 0, 0, 0, 0, 0,
false, false, 0, out longstatus);
_MdlBase.eEffacerSelection();
Cylindre.eSelectEntite();
Face2 fFace = FaceCylindrique(Comp);
fFace.eSelectEntite(true);
_AssBase.AddMate5((int)swMateType_e.swMateCONCENTRIC,
(int)swMateAlign_e.swMateAlignCLOSEST,
false,
0, 0, 0, 0, 0, 0, 0, 0,
false, true, 0, out longstatus);
_MdlBase.eEffacerSelection();
}
}
catch (Exception e)
{
this.LogMethode(new Object[] { e });
}
}
/// <summary>
///
/// </summary>
/// <param name="assemblyName"></param>
/// <param name="partsname"></param>
private void CreateNewAssembly(string assemblyName, List <string> partsname)
{
string assemblyDefaultPath = iswApp.GetDocumentTemplate(2, "", 0, 0, 0);
var part = iswApp.NewDocument(assemblyDefaultPath, 0, 0, 0);
if (part != null)
{
AssemblyDoc assemblyDoc = part as AssemblyDoc;
ModelDoc2 modelDoc2 = assemblyDoc as ModelDoc2;
ModelDocExtension swModExt = default(ModelDocExtension);
int errors = 0;
int warnings = 0;
swModExt = (ModelDocExtension)modelDoc2.Extension;
swModExt.SaveAs(assemblyName,
(int)swSaveAsVersion_e.swSaveAsCurrentVersion, (int)swSaveAsOptions_e.swSaveAsOptions_Silent, null, errors, warnings);
modelDoc2 = (ModelDoc2)iswApp.ActiveDoc;
int i = 0;
int tempV = ProgressBar.Value;
foreach (var partN in partsname)
{
labStatus.Text = "正在装配-->" + Path.GetFileNameWithoutExtension(partN);
ProgressBar.Value = tempV + i;
iswApp.OpenDoc6(partN.ToString(), 1, 32, "", ref errors, ref warnings);
assemblyDoc = (AssemblyDoc)iswApp.ActivateDoc3(System.IO.Path.GetFileNameWithoutExtension(assemblyName) + ".sldasm", true, 0, errors);
Component2 swInsertedComponent = default(Component2);
swInsertedComponent = assemblyDoc.AddComponent5(partN, 0, "", false, "", 0, 0, 0);
modelDoc2 = (ModelDoc2)iswApp.ActiveDoc;
modelDoc2.ClearSelection2(true);
modelDoc2.Extension.SelectByID2(swInsertedComponent.GetSelectByIDString(), "COMPONENT", 0, 0, 0, false, 0, null, 0);
assemblyDoc.UnfixComponent();
modelDoc2.ClearSelection2(true);
modelDoc2.Extension.SelectByID2("Point1@Origin@" + swInsertedComponent.GetSelectByIDString(), "EXTSKETCHPOINT", 0, 0, 0, false, 0, null, 0);
modelDoc2.Extension.SelectByID2("Point1@Origin", "EXTSKETCHPOINT", 0, 0, 0, true, 0, null, 0);
Mate2 mate2 = default(Mate2);
mate2 = assemblyDoc.AddMate5(20, -1, false, 0, 0, 0, 0, 0.001, 0, 0, 0, false, false, 0, out int warings);
modelDoc2.ClearSelection2(true);
modelDoc2.EditRebuild3();
iswApp.CloseDoc(partN);
i = i + 1;
}
iswApp.ActivateDoc3(System.IO.Path.GetFileNameWithoutExtension(assemblyName) + ".sldasm", true, 0, errors);
modelDoc2 = (ModelDoc2)iswApp.ActiveDoc;
modelDoc2.ShowNamedView2("*等轴测", 7);
modelDoc2.ViewZoomtofit2();
modelDoc2.Save();
}
ProgressBar.Value = ProgressBar.Maximum;
}
protected override void Command()
{
Ass = MdlBase.eAssemblyDoc();
try
{
CurveDrivenPatternFeatureData def = FonctionRepetition.GetDefinition();
Object[] tabB = def.PatternBodyArray;
Body2 b = (Body2)tabB[0];
MathTransform compRepetTrans = ComposantRepetition.Transform2;
MathTransform baseMarcheTrans = Marche.Transform2;
Vertex v = (Vertex)Point;
Edge e = (Edge)Arrete;
List <Face2> ListeFace = FonctionRepetition.eListeDesFaces();
Sketch sk = PointMarche.GetSketch();
Feature fPointMarche = (Feature)sk;
List <Component2> ListeComposants = new List <Component2>()
{
Marche
};
Double arr = 0.0001;
for (int i = 1; i <= (def.D1InstanceCount + def.D2InstanceCount); i++)
{
MathTransform bodyTrans = def.GetTransform(i);
if (bodyTrans.IsNull())
{
break;
}
MathTransform Transform = compRepetTrans.Inverse();
Transform = Transform.Multiply(bodyTrans);
Transform = Transform.Multiply(compRepetTrans);
Transform = baseMarcheTrans.Multiply(Transform);
gPoint pt = new gPoint(v);
gSegment sg = new gSegment(e);
pt.MultiplyTransfom(bodyTrans);
sg.MultiplyTransfom(bodyTrans);
Vertex vertex = null;
Edge edge = null;
foreach (Face2 face in ListeFace)
{
foreach (Edge ed in face.eListeDesArretes())
{
gSegment s = new gSegment(ed);
if (sg.Compare(s, arr))
{
edge = ed;
}
if (s.Start.Comparer(pt, arr))
{
vertex = ed.GetStartVertex();
}
if (s.End.Comparer(pt, arr))
{
vertex = ed.GetEndVertex();
}
if (edge.IsRef() && vertex.IsRef())
{
break;
}
}
if (edge.IsRef() && vertex.IsRef())
{
break;
}
}
Entity eVertex = (Entity)vertex;
Entity eEdge = (Entity)edge;
Component2 cp = Ass.AddComponent5(Marche.GetPathName(), (int)swAddComponentConfigOptions_e.swAddComponentConfigOptions_CurrentSelectedConfig, "", false, "", 0, 0, 0);
if (cp.IsNull())
{
continue;
}
// Quand on réinsere un composant, les précédentes contraintes sont recrées.
// On les supprime pour eviter des conflits
Object[] Mates = cp.GetMates();
if (Mates.IsRef())
{
foreach (Feature mate in Mates)
{
mate.eSelect();
MdlBase.Extension.DeleteSelection2((int)swDeleteSelectionOptions_e.swDelete_Absorbed);
}
}
WindowLog.Ecrire(cp.Name2);
cp.Transform2 = Transform;
ListeComposants.Add(cp);
int longstatus = 0;
MdlBase.eEffacerSelection();
eVertex.eSelectEntite(false);
Feature f = cp.FeatureByName(fPointMarche.Name);
Sketch sketchOrigine = f.GetSpecificFeature2();
Object[] tabPt = sketchOrigine.GetSketchPoints2();
SketchPoint origine = (SketchPoint)tabPt[0];
origine.Select4(true, null);
Mate2 mPoint = Ass.AddMate5((int)swMateType_e.swMateCOINCIDENT,
(int)swMateAlign_e.swMateAlignCLOSEST, false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, 0, out longstatus);
MdlBase.eEffacerSelection();
MdlBase.eEffacerSelection();
eEdge.eSelectEntite(false);
cp.FeatureByName(AxeMarche.Name).eSelect(true);
Mate2 mAxe = Ass.AddMate5((int)swMateType_e.swMateANGLE,
(int)swMateAlign_e.swAlignNONE, false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, 0, out longstatus);
MdlBase.eEffacerSelection();
MdlBase.eEffacerSelection();
Plan.eSelect(false);
cp.FeatureByName(PlanMarche.Name).eSelect(true);
Mate2 mPlan = Ass.AddMate5((int)swMateType_e.swMatePARALLEL,
(int)swMateAlign_e.swAlignNONE, false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, 0, out longstatus);
MdlBase.eEffacerSelection();
Feature m = (Feature)mPoint;
WindowLog.Ecrire(" " + m.Name);
m = (Feature)mAxe;
WindowLog.Ecrire(" " + m.Name);
m = (Feature)mPlan;
WindowLog.Ecrire(" " + m.Name);
}
MdlBase.eEffacerSelection();
foreach (var cp in ListeComposants)
{
cp.eSelectById(MdlBase, -1, true);
}
Feature Dossier = MdlBase.FeatureManager.InsertFeatureTreeFolder2((int)swFeatureTreeFolderType_e.swFeatureTreeFolder_Containing);
Dossier.eRenommerFonction(String.Format("Marches ({0} {1}) ", ComposantRepetition.Name2, FonctionRepetition.Name));
}
catch (Exception e)
{
this.LogErreur(new Object[] { e });
}
}
private void Run(Component2 cBase)
{
if (cBase == null)
{
this.LogMethode(new String[] { "Une reference à un objet a été perdue cBase :", cBase.IsRefToString() });
return;
}
try
{
List <Body2> ListeCorps = cBase.eListeCorps();
List <Trou> ListeTrou = new List <Trou>();
// Recherche des faces cylindriques
foreach (Body2 C in ListeCorps)
{
// On recherche la face fixe de la tôle
Face2 faceFixe = C.eFaceFixeTolerie();
// S'il n'y en a pas c'est que ce n'est pas une tôle
if (faceFixe.IsNull())
{
continue;
}
// On recherche les faces de cette tôle
var liste = new List <Face2>();
faceFixe.eChercherFacesTangentes(ref liste);
// Pour chaque face plane
foreach (Face2 faceBase in liste.FindAll(f => ((Surface)f.GetSurface()).IsPlane()))
{
// On récupère les boucles internes
var listePercage = new List <Loop2>();
foreach (Loop2 loop in (Object[])faceBase.GetLoops())
{
if (!loop.IsOuter())
{
listePercage.Add(loop);
}
}
// Pour chaque boucle interne
foreach (var loop in listePercage)
{
var edge = (Edge)loop.GetEdges()[0];
var facePercage = edge.eAutreFace(faceBase);
// On verifie que le perçage est un cylindre
// et qu'il débouche bien
if (facePercage.eEstUnCylindre() && (facePercage.GetLoopCount() > 1))
{
// Si le diametre == 0 on recupère toutes les faces
if ((ListeDiametre.Count == 1) && (ListeDiametre[0] == 0))
{
ListeTrou.Add(new Trou(facePercage, faceBase));
}
// Sinon, on verifie qu'elle corresponde bien au diametre demandé
else if (ListeDiametre.Contains(DiametreMm(facePercage)))
{
ListeTrou.Add(new Trou(facePercage, faceBase));
}
}
}
}
}
// S'il n'y a pas assez de composant de perçage, on en rajoute
while (_ListePercage.Count < ListeTrou.Count)
{
AjouterPercage();
}
MdlBase.EditRebuild3();
List <String> ListeNomComp = _ListePercage.Keys.ToList();
// Contrainte des perçages
for (int i = 0; i < ListeTrou.Count; i++)
{
String NomComp = ListeNomComp[i];
Component2 Comp = _AssBase.GetComponentByName(NomComp);
// On active le composant au cas ou :)
MdlBase.eSelectByIdComp(_ListePercage[NomComp]);
_AssBase.eModifierEtatComposant(swComponentSuppressionState_e.swComponentResolved);
MdlBase.eEffacerSelection();
int longstatus = 0;
var Trou = ListeTrou[i];
MdlBase.ClearSelection2(true);
Trou.Plan.eSelectEntite();
PlanDeFace(Comp).eSelect(true);
_AssBase.AddMate5((int)swMateType_e.swMateCOINCIDENT,
(int)swMateAlign_e.swMateAlignALIGNED,
false,
0, 0, 0, 0, 0, 0, 0, 0,
false, false, 0, out longstatus);
MdlBase.eEffacerSelection();
Trou.Cylindre.eSelectEntite();
FaceCylindrique(Comp).eSelectEntite(true);
_AssBase.AddMate5((int)swMateType_e.swMateCONCENTRIC,
(int)swMateAlign_e.swMateAlignCLOSEST,
false,
0, 0, 0, 0, 0, 0, 0, 0,
false, true, 0, out longstatus);
MdlBase.eEffacerSelection();
}
}
catch (Exception e)
{
this.LogMethode(new Object[] { e });
}
}
static void InsertComponents(AssemblyDoc assembly, ModelDoc2 component1, ModelDoc2 component2)
{
/* This will insert the components into the newly created
* assembly and mate them so their origins are aligned */
ModelDoc2 swModel = (ModelDoc2)assembly;
ModelDocExtension swDocExt = swModel.Extension;
int mateError;
string mateName;
string firstSelection = "";
string secondSelection = "";
// Add Component1
swComp1 = assembly.AddComponent5(component1.GetPathName(), (int)swAddComponentConfigOptions_e.swAddComponentConfigOptions_CurrentSelectedConfig, "",
false, "", 0, 0, 0);
string comp1Name = swComp1.Name2;
if (swComp1 == null)
{
Logger.Warn("Component addition was unsuccessful.");
}
else
{
// Logger.Info("Component added successfully.");
}
// Add Component2
swComp2 = assembly.AddComponent5(component2.GetPathName(), (int)swAddComponentConfigOptions_e.swAddComponentConfigOptions_CurrentSelectedConfig, "",
false, "", 0, 0, 0);
string comp2Name = swComp2.Name2;
if (swComp2 == null)
{
Logger.Warn("Component addition was unsuccessful.");
}
else
{
// Logger.Info("Component added successfully.");
}
// Add Mate 1
swModel.ClearSelection();
mateName = "Aligned_Origins";
if (lang == "french")
{
firstSelection = "Point1@Origine@" + comp1Name + "@" + swModel.GetTitle();
secondSelection = "Point1@Origine@" + comp2Name + "@" + swModel.GetTitle();
}
else if (lang == "english")
{
firstSelection = "Point1@Origin@" + comp1Name + "@" + swModel.GetTitle();
secondSelection = "Point1@Origin@" + comp2Name + "@" + swModel.GetTitle();
}
else
{
Logger.Error("VolumeComparator.cs", "InsertComponents()", "Could not create mate since language is not recognized.");
}
boolstat = swDocExt.SelectByID2(firstSelection, "EXTSKETCHPOINT", 0, 0, 0, false, 1, null, 0);
boolstat = swDocExt.SelectByID2(secondSelection, "EXTSKETCHPOINT", 0, 0, 0, true, 1, null, 0);
mateFeature = (Feature)assembly.AddMate5((int)swMateType_e.swMateCOINCIDENT, (int)swMateAlign_e.swMateAlignALIGNED,
false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, (int)swMateWidthOptions_e.swMateWidth_Centered, out mateError);
if (mateError != 1)
{
Logger.Error("VolumeComparator", "InsertComponent", "swAddMateError: " + mateError);
}
mateFeature.Name = mateName;
swModel.ClearSelection();
// Add Mate 2
swModel.ClearSelection();
mateName = "Aligned_Top";
if (lang == "french")
{
firstSelection = "Plan de dessus@" + comp1Name + "@" + swModel.GetTitle();
secondSelection = "Plan de dessus@" + comp2Name + "@" + swModel.GetTitle();
}
else if (lang == "english")
{
firstSelection = "Top@" + comp1Name + "@" + swModel.GetTitle();
secondSelection = "Top@" + comp2Name + "@" + swModel.GetTitle();
}
else
{
Logger.Error("VolumeComparator.cs", "InsertComponents()", "Could not create mate since language is not recognized.");
}
boolstat = swDocExt.SelectByID2(firstSelection, "PLANE", 0, 0, 0, false, 1, null, 0);
boolstat = swDocExt.SelectByID2(secondSelection, "PLANE", 0, 0, 0, true, 1, null, 0);
if (!boolstat)
{
firstSelection = "Top Plane@" + comp1Name + "@" + swModel.GetTitle();
secondSelection = "Top Plane@" + comp2Name + "@" + swModel.GetTitle();
boolstat = swDocExt.SelectByID2(firstSelection, "PLANE", 0, 0, 0, false, 1, null, 0);
boolstat = swDocExt.SelectByID2(secondSelection, "PLANE", 0, 0, 0, true, 1, null, 0);
}
mateFeature = (Feature)assembly.AddMate5((int)swMateType_e.swMateCOINCIDENT, (int)swMateAlign_e.swMateAlignALIGNED,
false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, (int)swMateWidthOptions_e.swMateWidth_Centered, out mateError);
if (mateError != 1)
{
Logger.Error("VolumeComparator", "InsertComponent", "swAddMateError: " + mateError);
}
mateFeature.Name = mateName;
swModel.ClearSelection();
// Add Mate 3
swModel.ClearSelection();
mateName = "Aligned_Front";
if (lang == "french")
{
firstSelection = "Plan de face@" + comp1Name + "@" + swModel.GetTitle();
secondSelection = "Plan de face@" + comp2Name + "@" + swModel.GetTitle();
}
else if (lang == "english")
{
firstSelection = "Front@" + comp1Name + "@" + swModel.GetTitle();
secondSelection = "Front@" + comp2Name + "@" + swModel.GetTitle();
}
else
{
Logger.Error("VolumeComparator.cs", "InsertComponents()", "Could not create mate since language is not recognized.");
}
boolstat = swDocExt.SelectByID2(firstSelection, "PLANE", 0, 0, 0, false, 1, null, 0);
boolstat = swDocExt.SelectByID2(secondSelection, "PLANE", 0, 0, 0, true, 1, null, 0);
if (!boolstat)
{
firstSelection = "Front Plane@" + comp1Name + "@" + swModel.GetTitle();
secondSelection = "Front Plane@" + comp2Name + "@" + swModel.GetTitle();
boolstat = swDocExt.SelectByID2(firstSelection, "PLANE", 0, 0, 0, false, 1, null, 0);
boolstat = swDocExt.SelectByID2(secondSelection, "PLANE", 0, 0, 0, true, 1, null, 0);
}
mateFeature = (Feature)assembly.AddMate5((int)swMateType_e.swMateCOINCIDENT, (int)swMateAlign_e.swMateAlignALIGNED,
false, 0, 0, 0, 0, 0, 0, 0, 0, false, false, (int)swMateWidthOptions_e.swMateWidth_Centered, out mateError);
if (mateError != 1)
{
Logger.Error("VolumeComparator", "InsertComponent", "swAddMateError: " + mateError);
}
mateFeature.Name = mateName;
swModel.ClearSelection();
}
