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0020695: EDF 1076 GEOM: Add a new shape in GEOM: T-shape

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- Fix problem with group creation for pipe t-shapes with position
- Update documentation
This commit is contained in:
gdd 2010-04-19 18:06:39 +00:00
parent 173730bf99
commit 8d50477335
14 changed files with 426 additions and 268 deletions
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doc/salome/gui/GEOM/input/creating_adv_obj.doc
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@ -17,6 +17,7 @@ entities:
<b>New Entity -> Advanced </b> submenu allows to create additional complex topological objects.
<ul>
<li>\subpage create_pipetshape_page</li>
<!--@@ insert new functions before this line @@-->
</ul>

58
doc/salome/gui/GEOM/input/creating_pipetshape.doc Normal file
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@ -0,0 +1,58 @@
/*!
\page create_pipetshape_page PipeTShape
To create a \b PipeTShape in the <b>Main Menu</b> select <b>New Entity - >
Advanced - > PipeTShape </b>
Specify the parameters of the PipeTShape object creation in the opened dialog
box and press "Apply" or "Apply & Close" button.
Result of each operation will be a GEOM_Object.
<b>TUI Command:</b> <em>geompy.MakePipeTShape(R1, W1, L1, R2, W2, L2, HexMesh=True, P1=None, P2=None, P3=None)</em>
<b>Arguments:</b>
- \b R1 - Radius of main T-shape pipe.
- \b W1 - Thickness of main T-shape pipe.
- \b L1 - Length of main T-shape pipe.
- \b R2 - Radius of incident T-shape pipe.
- \b W2 - Thickness of incident T-shape pipe.
- \b L2 - Length of incident T-shape pipe.
- \b HexMesh - If True, the shape is splitted in blocks (suitable for hexaedral mesh).
- \b P1 - First junction point of main pipe (GEOM Vertex).
- \b P2 - Second junction point of main pipe (GEOM Vertex).
- \b P3 - Junction point of incident pipe (GEOM Vertex).
\image html pipetshape_dlg.png
Example:
\image html pipetshape.png
A Pipe T-Shape can be created with a chamfer at the junction of the main and the incident pipes:
<b>TUI Command:</b> <em>geompy.MakePipeTShapeChamfer(R1, W1, L1, R2, W2, L2, H, W, HexMesh=True, P1=None, P2=None, P3=None)</em>
<b>Arguments are the same as normal Pipe T-Shape plus:</b>
- \b H - Height of the chamfer along incident pipe.
- \b W - Width of the chamfer along the main pipe.
Example:
\image html pipetshapechamfer.png
A Pipe T-Shape can be created with a fillet at the junction of the main and the incident pipes:
<b>TUI Command:</b> <em>geompy.MakePipeTShapeFillet(R1, W1, L1, R2, W2, L2, RF, HexMesh=True, P1=None, P2=None, P3=None)</em>
<b>Arguments are the same as normal Pipe T-Shape plus:</b>
- \b RF - Radius of the fillet.
Example:
\image html pipetshapefillet.png
Our <b>TUI Scripts</b> provide you with useful examples of creation of
\ref tui_creation_pipetshape "Advanced objects".
*/

78
doc/salome/gui/GEOM/input/tui_advanced_geom_objs.doc
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@ -218,5 +218,83 @@ id_compound = geompy.addToStudy(compound,"Compound")
gg.createAndDisplayGO(id_compound)
\endcode
\anchor tui_creation_pipetshape
<br><h2>Creation of PipeTShape</h2>
\code
import geompy
import salome
gg = salome.ImportComponentGUI("GEOM")
# create PipeTShape object
pipetshape = geompy.MakePipeTShape(80.0, 20.0, 200.0, 50.0, 20.0, 200.0)
# add object in the study
id_pipetshape = geompy.addToStudy(pipetshape[0],"PipeTShape")
# add groups in the study
for g in pipetshape[1:]:
geompy.addToStudyInFather(pipetshape[0], g, g.GetName())
# Create junction vertices
P1 = geompy.MakeVertex(0.0, 0.0, 0.0)
P2 = geompy.MakeVertex(400.0, 0.0, 0.0)
P3 = geompy.MakeVertex(200.0, 0.0, 200.0)
# create PipeTShape object with position
pipetshape_position = geompy.MakePipeTShape(80.0, 20.0, 200.0, 50.0, 20.0, 200.0, True, P1, P2, P3)
# add object in the study
id_pipetshape_position = geompy.addToStudy(pipetshape_position[0],"PipeTShape_position")
# add groups in the study
for g in pipetshape_position[1:]:
geompy.addToStudyInFather(pipetshape_position[0], g, g.GetName())
# create PipeTShape with chamfer object
pipetshapechamfer = geompy.MakePipeTShapeChamfer(80.0, 20.0, 200.0, 50.0, 20.0, 200.0, 20.0, 20.0)
# add object in the study
id_pipetshapechamfer = geompy.addToStudy(pipetshapechamfer[0],"PipeTShapeChamfer")
# add groups in the study
for g in pipetshapechamfer[1:]:
geompy.addToStudyInFather(pipetshapechamfer[0], g, g.GetName())
# create PipeTShape with chamfer object with position
pipetshapechamfer_position = geompy.MakePipeTShapeChamfer(80.0, 20.0, 200.0, 50.0, 20.0, 200.0, 20.0, 20.0, True, P1, P2, P3)
# add object in the study
id_pipetshapechamfer_position = geompy.addToStudy(pipetshapechamfer_position[0],"PipeTShapeChamfer_position")
# add groups in the study
for g in pipetshapechamfer_position[1:]:
geompy.addToStudyInFather(pipetshapechamfer_position[0], g, g.GetName())
# create PipeTShape with fillet object
pipetshapefillet = geompy.MakePipeTShapeFillet(80.0, 20.0, 200.0, 50.0, 20.0, 200.0, 5.0)
# add object in the study
id_pipetshapefillet = geompy.addToStudy(pipetshapefillet[0],"PipeTShapeFillet")
# add groups in the study
for g in pipetshapefillet[1:]:
geompy.addToStudyInFather(pipetshapefillet[0], g, g.GetName())
# create PipeTShape with fillet object with position
pipetshapefillet_position = geompy.MakePipeTShapeFillet(80.0, 20.0, 200.0, 50.0, 20.0, 200.0, 5.0, True, P1, P2, P3)
# add object in the study
id_pipetshapefillet_position = geompy.addToStudy(pipetshapefillet_position[0],"PipeTShapeFillet_position")
# add groups in the study
for g in pipetshapefillet_position[1:]:
geompy.addToStudyInFather(pipetshapefillet_position[0], g, g.GetName())
# display pipetshapes
gg.createAndDisplayGO(id_pipetshape)
gg.createAndDisplayGO(id_pipetshape_position)
gg.createAndDisplayGO(id_pipetshapechamfer)
gg.createAndDisplayGO(id_pipetshapechamfer_position)
gg.createAndDisplayGO(id_pipetshapefillet)
gg.createAndDisplayGO(id_pipetshapefillet_position)
\endcode
<!--@@ insert new functions before this line @@-->
*/

23
idl/GEOM_Gen.idl
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@ -3162,26 +3162,24 @@ module GEOM
* \param theR2 Internal radius of incident pipe (R2 < R1)
* \param theW2 Width of incident pipe (R2+W2 < R1+W1)
* \param theL2 Half-length of incident pipe
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh (default=true)
* \return List of GEOM_Objects, containing the created shape and propagation groups.
*/
ListOfGO MakePipeTShape (in double theR1, in double theW1, in double theL1,
in double theR2, in double theW2, in double theL2,
in boolean theHexMesh);
/*!
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length).
* The extremities of the main pipe are located on junctions points P1 and P2.
* The extremity of the incident pipe is located on junction point P3.
*
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
* \param theR2 Internal radius of incident pipe (R2 < R1)
* \param theW2 Width of incident pipe (R2+W2 < R1+W1)
* \param theL2 Half-length of incident pipe
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh (default=true)
* \param theP1 1st junction point of main pipe
* \param theP2 2nd junction point of main pipe
* \param theP3 Junction point of incident pipe
@ -3191,13 +3189,11 @@ module GEOM
in double theR2, in double theW2, in double theL2,
in boolean theHexMesh,
in GEOM_Object theP1, in GEOM_Object theP2, in GEOM_Object theP3);
/*!
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A chamfer is created
* on the junction of the pipes.
* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
*
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
@ -3206,20 +3202,18 @@ module GEOM
* \param theL2 Half-length of incident pipe
* \param theH Height of the chamfer.
* \param theW Width of the chamfer.
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh (default=true)
* \return List of GEOM_Objects, containing the created shape and propagation groups.
*/
ListOfGO MakePipeTShapeChamfer (in double theR1, in double theW1, in double theL1,
in double theR2, in double theW2, in double theL2,
in double theH, in double theW, in boolean theHexMesh);
/*!
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A chamfer is created
* on the junction of the pipes.
* The extremities of the main pipe are located on junctions points P1 and P2.
* The extremity of the incident pipe is located on junction point P3.
*
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
@ -3228,7 +3222,7 @@ module GEOM
* \param theL2 Half-length of incident pipe
* \param theH Height of the chamfer.
* \param theW Width of the chamfer.
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh (default=true)
* \param theP1 1st junction point of main pipe
* \param theP2 2nd junction point of main pipe
* \param theP3 Junction point of incident pipe
@ -3238,13 +3232,11 @@ module GEOM
in double theR2, in double theW2, in double theL2,
in double theH, in double theW, in boolean theHexMesh,
in GEOM_Object theP1, in GEOM_Object theP2, in GEOM_Object theP3);
/*!
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A fillet is created
* on the junction of the pipes.
* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
*
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
@ -3252,20 +3244,18 @@ module GEOM
* \param theW2 Width of incident pipe (R2+W2 < R1+W1)
* \param theL2 Half-length of incident pipe
* \param theRF Radius of curvature of fillet.
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh (default=true)
* \return List of GEOM_Objects, containing the created shape and propagation groups.
*/
ListOfGO MakePipeTShapeFillet (in double theR1, in double theW1, in double theL1,
in double theR2, in double theW2, in double theL2,
in double theRF, in boolean theHexMesh);
/*!
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A fillet is created
* on the junction of the pipes.
* The extremities of the main pipe are located on junctions points P1 and P2.
* The extremity of the incident pipe is located on junction point P3.
*
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
@ -3273,7 +3263,7 @@ module GEOM
* \param theW2 Width of incident pipe (R2+W2 < R1+W1)
* \param theL2 Half-length of incident pipe
* \param theRF Radius of curvature of fillet.
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh (default=true)
* \param theP1 1st junction point of main pipe
* \param theP2 2nd junction point of main pipe
* \param theP3 Junction point of incident pipe
@ -3283,7 +3273,6 @@ module GEOM
in double theR2, in double theW2, in double theL2,
in double theRF, in boolean theHexMesh,
in GEOM_Object theP1, in GEOM_Object theP2, in GEOM_Object theP3);
/*@@ insert new functions before this line @@*/
};

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67
src/AdvancedGUI/AdvancedGUI_PipeTShapeDlg.cxx
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@ -50,7 +50,7 @@ AdvancedGUI_PipeTShapeDlg::AdvancedGUI_PipeTShapeDlg(GeometryGUI* theGeometryGUI
GEOMBase_Skeleton(theGeometryGUI, parent, false) {
QPixmap imageOp(SUIT_Session::session()->resourceMgr()->loadPixmap("GEOM", tr("ICON_DLG_PIPETSHAPE")));
QPixmap imageSel(SUIT_Session::session()->resourceMgr()->loadPixmap("GEOM", tr("ICON_SELECT")));
QPixmap imageImp(SUIT_Session::session()->resourceMgr()->loadPixmap("GEOM", tr("ICO_PIPETSHAPE_IMPORT")));
imageImp = SUIT_Session::session()->resourceMgr()->loadPixmap("GEOM", tr("ICO_PIPETSHAPE_IMPORT"));
imagePipeTShape = SUIT_Session::session()->resourceMgr()->loadPixmap("GEOM", tr("DLG_PIPETSHAPE"));
setWindowTitle(tr("GEOM_PIPE_TSHAPE_TITLE"));
@ -137,30 +137,6 @@ AdvancedGUI_PipeTShapeDlg::AdvancedGUI_PipeTShapeDlg(GeometryGUI* theGeometryGUI
JunctionPointsSel->TextLabel6->setAttribute(Qt::WA_DeleteOnClose);
JunctionPointsSel->TextLabel6->close();
// QGridLayout* junctionLayout = (QGridLayout*)JunctionPointsSel->GroupBox1->layout();
// junctionLayout->addWidget(new QLabel(tr("GEOM_PIPE_TSHAPE_POSITION_LBL_L1"), JunctionPointsSel->GroupBox1), 3, 0, 1, 1);
//
// QPushButton* ApplyNewL1 = new QPushButton(centralWidget());
// // ApplyNewL1->setText("Apply new L1");
// ApplyNewL1->setIcon(imageImp);
// junctionLayout->addWidget(ApplyNewL1, 3, 1, 1, 1);
//
// NewPosValL1 = new QLineEdit(JunctionPointsSel->GroupBox1);
// NewPosValL1->setReadOnly(true);
// junctionLayout->addWidget(NewPosValL1, 3, 2, 1, 1);
//
// junctionLayout->addWidget(new QLabel(tr("GEOM_PIPE_TSHAPE_POSITION_LBL_L2"), JunctionPointsSel->GroupBox1), 4, 0, 1, 1);
//
// QPushButton* ApplyNewL2 = new QPushButton(centralWidget());
// // ApplyNewL2->setText("Apply new L2");
// ApplyNewL2->setIcon(imageImp);
// junctionLayout->addWidget(ApplyNewL2, 4, 1, 1, 1);
//
// NewPosValL2 = new QLineEdit(JunctionPointsSel->GroupBox1);
// NewPosValL2->setReadOnly(true);
// junctionLayout->addWidget(NewPosValL2, 4, 2, 1, 1);
// 1st row, height = 1, colspan = 3
int rowPict = 0, colPict = 0, rowspanPict = 1, colspanPict = 3;
// 2nd row, height = 4, col 1
@ -185,7 +161,7 @@ AdvancedGUI_PipeTShapeDlg::AdvancedGUI_PipeTShapeDlg(GeometryGUI* theGeometryGUI
myMainLayout->addWidget(JunctionPointsSel, rowNewPosVal, colNewPosVal, rowspanNewPosVal, colspanNewPosVal);
/***************************************************************/
setHelpFileName("create_pipe_tshape_page.html");
setHelpFileName("create__pipetshape__page.html");
Init();
}
@ -236,6 +212,15 @@ void AdvancedGUI_PipeTShapeDlg::Init() {
ChamferGroupParams->SpinBox_DY->setValue(10);
FilletGroupParams->SpinBox_DX->setValue(20);
CssNormal = QString("QDoubleSpinBox {");
CssNormal.append(MainTubeGroupParams->SpinBox_DZ->styleSheet());
CssNormal.append("}");
CssNormal.append("\nQPushButton {");
CssNormal.append(JunctionPointsSel->PushButton4->styleSheet());
CssNormal.append("}");
CssAcceptable = "QDoubleSpinBox, QPushButton {background-color: rgb(85, 170, 127)}";
CssRefused = "QDoubleSpinBox, QPushButton {background-color: rgb(255, 0, 0)}";
// Signal/slot connections
connect(buttonOk(), SIGNAL(clicked()), this, SLOT(ClickOnOk()));
connect(buttonApply(), SIGNAL(clicked()), this, SLOT(ClickOnApply()));
@ -754,8 +739,10 @@ bool AdvancedGUI_PipeTShapeDlg::isValid(QString& msg) {
bool AdvancedGUI_PipeTShapeDlg::CheckCompatiblePosition(GEOM::GEOM_Object_var theP1,
GEOM::GEOM_Object_var theP2, GEOM::GEOM_Object_var theP3, double theTolerance) {
MainTubeGroupParams->SpinBox_DZ->setStyleSheet("background-color: rgb(255, 255, 255);");
IncidentTubeGroupParams->SpinBox_DZ->setStyleSheet("background-color: rgb(255, 255, 255);");
MainTubeGroupParams->SpinBox_DZ->setStyleSheet(CssNormal);
IncidentTubeGroupParams->SpinBox_DZ->setStyleSheet(CssNormal);
JunctionPointsSel->PushButton4->setStyleSheet(CssNormal);
JunctionPointsSel->PushButton5->setStyleSheet(CssNormal);
CORBA::Double theL1 = MainTubeGroupParams->SpinBox_DZ->value();
CORBA::Double theL2 = IncidentTubeGroupParams->SpinBox_DZ->value();
@ -821,15 +808,19 @@ bool AdvancedGUI_PipeTShapeDlg::CheckCompatiblePosition(GEOM::GEOM_Object_var th
MainTubeGroupParams->SpinBox_DZ->setValue(newL1);
connect(MainTubeGroupParams->SpinBox_DZ, SIGNAL(valueChanged( double )), this, SLOT(ValueChangedInSpinBox(double)));
MainTubeGroupParams->SpinBox_DZ->setToolTip("Value was recomputed to fit with position");
MainTubeGroupParams->SpinBox_DZ->setStyleSheet("background-color: rgb(85, 170, 127);");
MainTubeGroupParams->SpinBox_DZ->setStyleSheet(CssAcceptable);
JunctionPointsSel->PushButton4->setStyleSheet(CssAcceptable);
}
else {
MainTubeGroupParams->SpinBox_DZ->setToolTip("Value is incompatible with position");
MainTubeGroupParams->SpinBox_DZ->setStyleSheet("background-color: rgb(255, 0, 0);");
MainTubeGroupParams->SpinBox_DZ->setStyleSheet(CssRefused);
JunctionPointsSel->PushButton4->setStyleSheet(CssRefused);
}
}
else
MainTubeGroupParams->SpinBox_DZ->setStyleSheet("background-color: rgb(255, 255, 255);");
else {
MainTubeGroupParams->SpinBox_DZ->setStyleSheet(CssNormal);
JunctionPointsSel->PushButton4->setStyleSheet(CssNormal);
}
// std::cerr << "fabs(newL2 - theL2) = " << fabs(newL2 - theL2) << std::endl;
if (fabs(newL2 - theL2) > Precision::Approximation()) {
@ -840,15 +831,19 @@ bool AdvancedGUI_PipeTShapeDlg::CheckCompatiblePosition(GEOM::GEOM_Object_var th
IncidentTubeGroupParams->SpinBox_DZ->setValue(newL2);
connect(IncidentTubeGroupParams->SpinBox_DZ, SIGNAL(valueChanged( double )), this, SLOT(ValueChangedInSpinBox(double)));
IncidentTubeGroupParams->SpinBox_DZ->setToolTip("Value was recomputed to fit with position");
IncidentTubeGroupParams->SpinBox_DZ->setStyleSheet("background-color: rgb(85, 170, 127);");
IncidentTubeGroupParams->SpinBox_DZ->setStyleSheet(CssAcceptable);
JunctionPointsSel->PushButton5->setStyleSheet(CssAcceptable);
}
else {
IncidentTubeGroupParams->SpinBox_DZ->setToolTip("Value is incompatible with position");
IncidentTubeGroupParams->SpinBox_DZ->setStyleSheet("background-color: rgb(255, 0, 0);");
IncidentTubeGroupParams->SpinBox_DZ->setStyleSheet(CssRefused);
JunctionPointsSel->PushButton5->setStyleSheet(CssRefused);
}
}
else
IncidentTubeGroupParams->SpinBox_DZ->setStyleSheet("background-color: rgb(255, 255, 255);");
else {
IncidentTubeGroupParams->SpinBox_DZ->setStyleSheet(CssNormal);
JunctionPointsSel->PushButton5->setStyleSheet(CssNormal);
}
return true;
}

2
src/AdvancedGUI/AdvancedGUI_PipeTShapeDlg.h
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@ -66,6 +66,8 @@ private:
DlgRef_2Spin* ChamferGroupParams;
DlgRef_1Spin* FilletGroupParams;
DlgRef_6Sel* JunctionPointsSel;
QPixmap imageImp;
QString CssNormal, CssAcceptable, CssRefused;
// QLineEdit* NewPosValL1;
// QLineEdit* NewPosValL2;
// QPushButton* ApplyNewL1;

355
src/GEOMImpl/GEOMImpl_IAdvancedOperations.cxx
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@ -227,6 +227,8 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
return false;
}
gp_Trsf aTrsfInv = aTrsf.Inverted();
int expectedGroups = 0;
if (shapeType == TSHAPE_BASIC)
if (Abs(theR2+theW2-theR1-theW1) <= Precision::Approximation())
@ -256,7 +258,7 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
GEOMImpl_I3DPrimOperations* a3DPrimOperations = new GEOMImpl_I3DPrimOperations(GetEngine(), GetDocID());
//
// Uncomment the following lines when GetInPlace bug is solved
// Comment the following lines when GetInPlace bug is solved
// == BEGIN
// Workaround of GetInPlace bug
// Create a bounding box that fits the shape
@ -264,6 +266,11 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
aBox->GetLastFunction()->SetDescription("");
aTransformOperations->TranslateDXDYDZ(aBox, -theL1, -aR1Ext, -aR1Ext);
aBox->GetLastFunction()->SetDescription("");
// Apply transformation to box
BRepBuilderAPI_Transform aTransformationBox(aBox->GetValue(), aTrsf, Standard_False);
TopoDS_Shape aBoxShapeTrsf = aTransformationBox.Shape();
aBox->GetLastFunction()->SetValue(aBoxShapeTrsf);
// Get the shell of the box
Handle(GEOM_Object) aShell = Handle(GEOM_Object)::DownCast(aShapesOperations->MakeExplode(aBox, TopAbs_SHELL, true)->Value(1));
aBox->GetLastFunction()->SetDescription("");
@ -291,9 +298,9 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
if (!aCompoundOfFaces.IsNull()) {
aCompoundOfFaces->GetLastFunction()->SetDescription("");
// Apply transformation to compound of faces
BRepBuilderAPI_Transform aTransformationCompoundOfFaces(aCompoundOfFaces->GetValue(), aTrsf, Standard_False);
TopoDS_Shape aTrsf_CompoundOfFacesShape = aTransformationCompoundOfFaces.Shape();
aCompoundOfFaces->GetLastFunction()->SetValue(aTrsf_CompoundOfFacesShape);
// BRepBuilderAPI_Transform aTransformationCompoundOfFaces(aCompoundOfFaces->GetValue(), aTrsf, Standard_False);
// TopoDS_Shape aTrsf_CompoundOfFacesShape = aTransformationCompoundOfFaces.Shape();
// aCompoundOfFaces->GetLastFunction()->SetValue(aTrsf_CompoundOfFacesShape);
aCompoundOfFacesList.push_back(aCompoundOfFaces);
}
}
@ -387,7 +394,15 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
//// Groups of Edges ////
/////////////////////////
// Result of propagate
Handle(GEOM_Function) aFunction = theShape->GetLastFunction();
// Apply inverted transformation to shape
// BRepBuilderAPI_Transform aTransformationShapeInv(aShape, aTrsfInv, Standard_False);
// TopoDS_Shape aShapeTrsfInv = aTransformationShapeInv.Shape();
// aFunction->SetValue(aShapeTrsfInv);
TCollection_AsciiString theDesc = aFunction->GetDescription();
Handle(TColStd_HSequenceOfTransient) aSeqPropagate = aBlocksOperations->Propagate(theShape);
if (aSeqPropagate.IsNull() || aSeqPropagate->Length() == 0) {
@ -398,6 +413,12 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
// Recover previous description to get rid of Propagate dump
aFunction->SetDescription(theDesc);
// Apply transformation to shape
// BRepBuilderAPI_Transform aTransformationShape(theShape->GetValue(), aTrsf, Standard_False);
// TopoDS_Shape aShapeTrsf = aTransformationShape.Shape();
// aFunction->SetValue(aShapeTrsf);
bool addGroup;
bool circularFoundAndAdded = false;
bool incidentPipeFound = false;
@ -416,9 +437,11 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
continue;
TopoDS_Shape aGroupShape = aGroup->GetValue();
BRepBuilderAPI_Transform aTransformationShapeInv(aGroupShape, aTrsfInv, Standard_False);
TopoDS_Shape aGroupShapeTrsfInv = aTransformationShapeInv.Shape();
TopTools_IndexedMapOfShape anEdgesMap;
TopExp::MapShapes(aGroupShape,TopAbs_EDGE, anEdgesMap);
TopExp::MapShapes(aGroupShapeTrsfInv,TopAbs_EDGE, anEdgesMap);
nbEdges = anEdgesMap.Extent();
if (shapeType == TSHAPE_BASIC) {
@ -439,7 +462,7 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
radialFound =false;
flangeFound = false;
TopExp_Explorer Ex(aGroupShape,TopAbs_VERTEX);
TopExp_Explorer Ex(aGroupShapeTrsfInv,TopAbs_VERTEX);
while (Ex.More()) {
gp_Pnt aP = BRep_Tool::Pnt(TopoDS::Vertex(Ex.Current()));
double x=aP.X(), y=aP.Y(), z=aP.Z();
@ -505,7 +528,7 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
mainPipeFound = false;
flangeFound = false;
TopExp_Explorer Ex(aGroupShape,TopAbs_VERTEX);
TopExp_Explorer Ex(aGroupShapeTrsfInv,TopAbs_VERTEX);
while (Ex.More()) {
gp_Pnt aP = BRep_Tool::Pnt(TopoDS::Vertex(Ex.Current()));
double x=aP.X(), y=aP.Y(), z=aP.Z();
@ -567,55 +590,6 @@ bool GEOMImpl_IAdvancedOperations::MakeGroups(/*std::vector<GEOM_IOperations*> t
theSeq->Append(aGroup);
}
// Handle(GEOM_Object) aGroup;
// if (shapeType == TSHAPE_BASIC) {
// // if (aNbGroups != 11) {
// // SetErrorCode("Bad number of propagation groups");
// // return false;
// // }
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(1));
// aGroup->SetName("THICKNESS");
// theSeq->Append(aGroup);
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(2));
// aGroup->SetName("CIRCULAR_QUARTER_PIPE");
// theSeq->Append(aGroup);
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(3));
// aGroup->SetName("HALF_LENGTH_MAIN_PIPE");
// theSeq->Append(aGroup);
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(6));
// aGroup->SetName("HALF_LENGTH_INCIDENT_PIPE");
// theSeq->Append(aGroup);
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(5));
// aGroup->SetName("FLANGE");
// theSeq->Append(aGroup);
// } else if (shapeType == TSHAPE_CHAMFER || shapeType == TSHAPE_FILLET) {
// if (aNbGroups != 12) {
// SetErrorCode("Bad number of propagation groups");
// return false;
// }
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(3));
// aGroup->SetName("THICKNESS");
// theSeq->Append(aGroup);
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(1));
// aGroup->SetName("CIRCULAR_QUARTER_PIPE");
// theSeq->Append(aGroup);
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(4));
// aGroup->SetName("HALF_LENGTH_MAIN_PIPE");
// theSeq->Append(aGroup);
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(6));
// aGroup->SetName("HALF_LENGTH_INCIDENT_PIPE");
// theSeq->Append(aGroup);
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(2));
// aGroup->SetName("FLANGE");
// theSeq->Append(aGroup);
// aGroup = Handle(GEOM_Object)::DownCast(aSeqPropagate->Value(7));
// if (shapeType == TSHAPE_CHAMFER)
// aGroup->SetName("CHAMFER");
// else
// aGroup->SetName("FILLET");
// theSeq->Append(aGroup);
// }
SetErrorCode(OK);
return true;
}
@ -1071,89 +1045,89 @@ bool GEOMImpl_IAdvancedOperations::MakePipeTShapePartition(/*std::vector<GEOM_IO
theShapes.push_back(aPlnOXZ);
// Partition
Handle(GEOM_Object) Part0 = aBooleanOperations->MakeHalfPartition(theShape, face_t);
if (Part0.IsNull()) {
std::cerr << "Impossible to build partition between TShape and 1st face" << std::endl;
SetErrorCode("Impossible to build partition between TShape and 1st face");
return false;
}
Part0->GetLastFunction()->SetDescription("");
Handle(GEOM_Object) Te3 ;
if (isNormal) {
if (Abs(aR1Ext - aR2Ext) <= Precision::Approximation()) {
std::cerr << "External radius are identical: we do not make partition with plane OXZ" << std::endl;
Te3 = aBooleanOperations->MakeHalfPartition(Part0, aPlnOZ);
}
else {
Handle(GEOM_Object) Part1 = aBooleanOperations->MakeHalfPartition(Part0, aPlnOXZ);
if (Part1.IsNull()) {
std::cerr << "Impossible to build partition between TShape and plane OXZ" << std::endl;
SetErrorCode("Impossible to build partition between TShape and plane OXZ");
return false;
}
Part1->GetLastFunction()->SetDescription("");
Te3 = aBooleanOperations->MakeHalfPartition(Part1, aPlnOZ);
}
if (Te3.IsNull()) {
std::cerr << "Impossible to build partition between TShape and plane OZ" << std::endl;
SetErrorCode("Impossible to build partition between TShape and plane OZ");
return false;
}
Te3->GetLastFunction()->SetDescription("");
}
else {
if (Abs(aR1Ext - aR2Ext) <= Precision::Approximation()){ // We should never go here
SetErrorCode("Impossible to build TShape");
return false;
}
else {
Handle(GEOM_Object) Part1 = aBooleanOperations->MakeHalfPartition(Part0, aPlnOXZ);
if (Part1.IsNull()) {
std::cerr << "Impossible to build partition between TShape and plane OXZ" << std::endl;
SetErrorCode("Impossible to build partition between TShape and plane OXZ");
return false;
}
Part1->GetLastFunction()->SetDescription("");
Handle(GEOM_Object) Part2 = aBooleanOperations->MakeHalfPartition(Part1, aPlnOZ);
if (Part2.IsNull()) {
std::cerr << "Impossible to build partition between TShape and plane OZ" << std::endl;
SetErrorCode("Impossible to build partition between TShape and plane OZ");
return false;
}
Part2->GetLastFunction()->SetDescription("");
Te3 = aBooleanOperations->MakeHalfPartition(Part2, face_t2);
if (Te3.IsNull()) {
std::cerr << "Impossible to build partition between TShape and 2nd face" << std::endl;
SetErrorCode("Impossible to build partition between TShape and 2nd face");
return false;
}
Te3->GetLastFunction()->SetDescription("");
}
}
// Handle(TColStd_HSequenceOfTransient) partitionShapes = new TColStd_HSequenceOfTransient;
// Handle(TColStd_HSequenceOfTransient) theTools = new TColStd_HSequenceOfTransient;
// Handle(TColStd_HSequenceOfTransient) theKeepInside = new TColStd_HSequenceOfTransient;
// Handle(TColStd_HSequenceOfTransient) theRemoveInside = new TColStd_HSequenceOfTransient;
// Handle(TColStd_HArray1OfInteger) theMaterials;
// partitionShapes->Append(theShape);
// theTools->Append(aPlnOZ);
// theTools->Append(aPlnOXZ);
// theTools->Append(face_t);
// if (!isNormal)
// theTools->Append(face_t2);
// Handle(GEOM_Object) Part0 = aBooleanOperations->MakeHalfPartition(theShape, face_t);
// if (Part0.IsNull()) {
// std::cerr << "Impossible to build partition between TShape and 1st face" << std::endl;
// SetErrorCode("Impossible to build partition between TShape and 1st face");
// return false;
// }
// Part0->GetLastFunction()->SetDescription("");
//
// Handle(GEOM_Object) Te3 = aBooleanOperations->MakePartition(partitionShapes, theTools, theKeepInside, theRemoveInside, TopAbs_SOLID, false, theMaterials, 0, false);
// if (Te3.IsNull()) {
// SetErrorCode("Impossible to build partition of TShape");
// Handle(GEOM_Object) Te3 ;
// if (isNormal) {
// if (Abs(aR1Ext - aR2Ext) <= Precision::Approximation()) {
// std::cerr << "External radius are identical: we do not make partition with plane OXZ" << std::endl;
// Te3 = aBooleanOperations->MakeHalfPartition(Part0, aPlnOZ);
// }
// else {
// Handle(GEOM_Object) Part1 = aBooleanOperations->MakeHalfPartition(Part0, aPlnOXZ);
// if (Part1.IsNull()) {
// std::cerr << "Impossible to build partition between TShape and plane OXZ" << std::endl;
// SetErrorCode("Impossible to build partition between TShape and plane OXZ");
// return false;
// }
// Part1->GetLastFunction()->SetDescription("");
// Te3 = aBooleanOperations->MakeHalfPartition(Part1, aPlnOZ);
// }
// if (Te3.IsNull()) {
// std::cerr << "Impossible to build partition between TShape and plane OZ" << std::endl;
// SetErrorCode("Impossible to build partition between TShape and plane OZ");
// return false;
// }
// Te3->GetLastFunction()->SetDescription("");
// }
// else {
// if (Abs(aR1Ext - aR2Ext) <= Precision::Approximation()){ // We should never go here
// SetErrorCode("Impossible to build TShape");
// return false;
// }
// else {
// Handle(GEOM_Object) Part1 = aBooleanOperations->MakeHalfPartition(Part0, aPlnOXZ);
// if (Part1.IsNull()) {
// std::cerr << "Impossible to build partition between TShape and plane OXZ" << std::endl;
// SetErrorCode("Impossible to build partition between TShape and plane OXZ");
// return false;
// }
// Part1->GetLastFunction()->SetDescription("");
// Handle(GEOM_Object) Part2 = aBooleanOperations->MakeHalfPartition(Part1, aPlnOZ);
// if (Part2.IsNull()) {
// std::cerr << "Impossible to build partition between TShape and plane OZ" << std::endl;
// SetErrorCode("Impossible to build partition between TShape and plane OZ");
// return false;
// }
// Part2->GetLastFunction()->SetDescription("");
// Te3 = aBooleanOperations->MakeHalfPartition(Part2, face_t2);
// if (Te3.IsNull()) {
// std::cerr << "Impossible to build partition between TShape and 2nd face" << std::endl;
// SetErrorCode("Impossible to build partition between TShape and 2nd face");
// return false;
// }
// Te3->GetLastFunction()->SetDescription("");
// }
// }
Handle(TColStd_HSequenceOfTransient) partitionShapes = new TColStd_HSequenceOfTransient;
Handle(TColStd_HSequenceOfTransient) theTools = new TColStd_HSequenceOfTransient;
Handle(TColStd_HSequenceOfTransient) theKeepInside = new TColStd_HSequenceOfTransient;
Handle(TColStd_HSequenceOfTransient) theRemoveInside = new TColStd_HSequenceOfTransient;
Handle(TColStd_HArray1OfInteger) theMaterials;
partitionShapes->Append(theShape);
theTools->Append(aPlnOZ);
theTools->Append(aPlnOXZ);
theTools->Append(face_t);
if (!isNormal)
theTools->Append(face_t2);
Handle(GEOM_Object) Te3 = aBooleanOperations->MakePartition(partitionShapes, theTools, theKeepInside, theRemoveInside, TopAbs_SOLID, false, theMaterials, 0, false);
if (Te3.IsNull()) {
SetErrorCode("Impossible to build partition of TShape");
// Handle(GEOM_Object) aCompound = aShapesOperations->MakeCompound(theShapes);
// TopoDS_Shape aCompoundShape = aCompound->GetValue();
// theShape->GetLastFunction()->SetValue(aCompoundShape);
// return false;
// }
// Te3->GetLastFunction()->SetDescription("");
//
return false;
}
Te3->GetLastFunction()->SetDescription("");
TopoDS_Shape aShape = Te3->GetValue();
theShape->GetLastFunction()->SetValue(aShape);
@ -1262,8 +1236,8 @@ bool GEOMImpl_IAdvancedOperations::MakePipeTShapeMirrorAndGlue(/*std::vector<GEO
//=============================================================================
/*!
* MakePipeTShape
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length).
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length).
* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
@ -1395,9 +1369,11 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length).
* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
* MakePipeTShapeWithPosition
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length).
* The extremities of the main pipe are located on junctions points P1 and P2.
* The extremity of the incident pipe is located on junction point P3.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
@ -1540,8 +1516,10 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length).
* MakePipeTShapeChamfer
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A chamfer is created
* on the junction of the pipes.
* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
@ -1621,12 +1599,12 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
else {
box_e = a3DPrimOperations->MakeBoxDXDYDZ(2*(theR2+theW2), 2*(theR2+theW2), theR1+theW1);
}
box_e->GetLastFunction()->SetDescription("");
box_e = aTransformOperations->TranslateDXDYDZ(box_e, -(theR2+theW2), -(theR2+theW2), 0);
box_e->GetLastFunction()->SetDescription("");
TCollection_AsciiString theDesc = aFunction->GetDescription();
Handle(TColStd_HSequenceOfInteger) edges_e = aShapesOperations->GetShapesOnBoxIDs(box_e, aShape, TopAbs_EDGE, GEOMAlgo_ST_IN);
aFunction->SetDescription(theDesc);
box_e->GetLastFunction()->SetDescription("");
if (edges_e.IsNull() || edges_e->Length() == 0) {
// std::cerr << "Internal edges not found" << std::endl;
@ -1665,14 +1643,11 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
catch (Standard_Failure) {
Handle(Standard_Failure) aFail = Standard_Failure::Caught();
SetErrorCode(aFail->GetMessageString());
try {
aChamfer = aLocalOperations->MakeChamferEdges(aShape, theH, theW, theEdges);
}
catch (Standard_Failure) {
Handle(Standard_Failure) aFail = Standard_Failure::Caught();
SetErrorCode(aFail->GetMessageString());
return NULL;
}
return NULL;
}
if (aChamfer.IsNull()) {
SetErrorCode("Chamfer can not be computed on the given shape with the given parameters");
return NULL;
}
aChamfer->GetLastFunction()->SetDescription("");
@ -1753,9 +1728,12 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length).
* The T-shape is placed at junction points P1, P2 and P3.
* MakePipeTShapeChamferWithPosition
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A chamfer is created
* on the junction of the pipes.
* The extremities of the main pipe are located on junctions points P1 and P2.
* The extremity of the incident pipe is located on junction point P3.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
@ -1843,12 +1821,12 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
else {
box_e = a3DPrimOperations->MakeBoxDXDYDZ(2*(theR2+theW2), 2*(theR2+theW2), theR1+theW1);
}
box_e->GetLastFunction()->SetDescription("");
box_e = aTransformOperations->TranslateDXDYDZ(box_e, -(theR2+theW2), -(theR2+theW2), 0);
box_e->GetLastFunction()->SetDescription("");
TCollection_AsciiString theDesc = aFunction->GetDescription();
Handle(TColStd_HSequenceOfInteger) edges_e = aShapesOperations->GetShapesOnBoxIDs(box_e, aShape, TopAbs_EDGE, GEOMAlgo_ST_IN);
aFunction->SetDescription(theDesc);
box_e->GetLastFunction()->SetDescription("");
if (edges_e.IsNull() || edges_e->Length() == 0) {
// std::cerr << "Internal edges not found" << std::endl;
@ -1879,8 +1857,14 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
try {
aChamfer = aLocalOperations->MakeChamferEdges(aShape, theW, theH, theEdges);
}
catch (...) {
aChamfer = aLocalOperations->MakeChamferEdges(aShape, theH, theW, theEdges);
catch (Standard_Failure) {
Handle(Standard_Failure) aFail = Standard_Failure::Caught();
SetErrorCode(aFail->GetMessageString());
return NULL;
}
if (aChamfer.IsNull()) {
SetErrorCode("Chamfer can not be computed on the given shape with the given parameters");
return NULL;
}
aChamfer->GetLastFunction()->SetDescription("");
@ -1954,9 +1938,10 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length).A fillet is created on
* the junction of the pipes.
* MakePipeTShapeFillet
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A fillet is created
* on the junction of the pipes.
* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
@ -2034,12 +2019,12 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
else {
box_e = a3DPrimOperations->MakeBoxDXDYDZ(2*(theR2+theW2), 2*(theR2+theW2), theR1+theW1);
}
box_e->GetLastFunction()->SetDescription("");
box_e = aTransformOperations->TranslateDXDYDZ(box_e, -(theR2+theW2), -(theR2+theW2), 0);
box_e->GetLastFunction()->SetDescription("");
TCollection_AsciiString theDesc = aFunction->GetDescription();
Handle(TColStd_HSequenceOfInteger) edges_e = aShapesOperations->GetShapesOnBoxIDs(box_e, aShape, TopAbs_EDGE, GEOMAlgo_ST_IN);
aFunction->SetDescription(theDesc);
box_e->GetLastFunction()->SetDescription("");
if (edges_e.IsNull() || edges_e->Length() == 0) {
// std::cerr << "Internal edges not found" << std::endl;
@ -2067,7 +2052,19 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
break;
}
Handle(GEOM_Object) aFillet = aLocalOperations->MakeFilletEdges(aShape, theRF, theEdges);
Handle(GEOM_Object) aFillet;
try {
aFillet = aLocalOperations->MakeFilletEdges(aShape, theRF, theEdges);
}
catch (Standard_Failure) {
Handle(Standard_Failure) aFail = Standard_Failure::Caught();
SetErrorCode(aFail->GetMessageString());
return NULL;
}
if (aFillet.IsNull()) {
SetErrorCode("Fillet can not be computed on the given shape with the given parameters");
return NULL;
}
aFillet->GetLastFunction()->SetDescription("");
TopoDS_Shape aFilletShape = aFillet->GetValue();
@ -2134,10 +2131,12 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length). A fillet is created on
* the junction of the pipes.
* The T-shape is placed at junction points P1, P2 and P3.
* MakePipeTShapeFilletWithPosition
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A fillet is created
* on the junction of the pipes.
* The extremities of the main pipe are located on junctions points P1 and P2.
* The extremity of the incident pipe is located on junction point P3.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
@ -2223,12 +2222,12 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
else {
box_e = a3DPrimOperations->MakeBoxDXDYDZ(2*(theR2+theW2), 2*(theR2+theW2), theR1+theW1);
}
box_e->GetLastFunction()->SetDescription("");
box_e = aTransformOperations->TranslateDXDYDZ(box_e, -(theR2+theW2), -(theR2+theW2), 0);
box_e->GetLastFunction()->SetDescription("");
TCollection_AsciiString theDesc = aFunction->GetDescription();
Handle(TColStd_HSequenceOfInteger) edges_e = aShapesOperations->GetShapesOnBoxIDs(box_e, aShape, TopAbs_EDGE, GEOMAlgo_ST_IN);
aFunction->SetDescription(theDesc);
box_e->GetLastFunction()->SetDescription("");
if (edges_e.IsNull() || edges_e->Length() == 0) {
// std::cerr << "Internal edges not found" << std::endl;
@ -2256,7 +2255,19 @@ Handle(TColStd_HSequenceOfTransient) GEOMImpl_IAdvancedOperations::MakePipeTShap
break;
}
Handle(GEOM_Object) aFillet = aLocalOperations->MakeFilletEdges(aShape, theRF, theEdges);
Handle(GEOM_Object) aFillet;
try {
aFillet = aLocalOperations->MakeFilletEdges(aShape, theRF, theEdges);
}
catch (Standard_Failure) {
Handle(Standard_Failure) aFail = Standard_Failure::Caught();
SetErrorCode(aFail->GetMessageString());
return NULL;
}
if (aFillet.IsNull()) {
SetErrorCode("Fillet can not be computed on the given shape with the given parameters");
return NULL;
}
aFillet->GetLastFunction()->SetDescription("");
TopoDS_Shape aFilletShape = aFillet->GetValue();

74
src/GEOM_I/GEOM_IAdvancedOperations_i.cc
View File

@ -57,8 +57,9 @@ GEOM_IAdvancedOperations_i::~GEOM_IAdvancedOperations_i()
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length).
* MakePipeTShape
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length).
* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
@ -66,7 +67,7 @@ GEOM_IAdvancedOperations_i::~GEOM_IAdvancedOperations_i()
* \param theR2 Internal radius of incident pipe (R2 < R1)
* \param theW2 Width of incident pipe (R2+W2 < R1+W1)
* \param theL2 Half-length of incident pipe
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh
* \return List of GEOM_Objects, containing the created shape and propagation groups.
*/
//=============================================================================
@ -93,16 +94,21 @@ GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShape (CORBA::Double theR1,
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length).
* The T-shape is placed at junction points P1, P2 and P3.
* MakePipeTShapeWithPosition
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length).
* The extremities of the main pipe are located on junctions points P1 and P2.
* The extremity of the incident pipe is located on junction point P3.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
* \param theR2 Internal radius of incident pipe (R2 < R1)
* \param theW2 Width of incident pipe (R2+W2 < R1+W1)
* \param theL2 Half-length of incident pipe
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh
* \param theP1 1st junction point of main pipe
* \param theP2 2nd junction point of main pipe
* \param theP3 Junction point of incident pipe
* \return List of GEOM_Objects, containing the created shape and propagation groups.
*/
//=============================================================================
@ -136,9 +142,10 @@ GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeWithPosition (CORBA::D
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length). A chamfer is created on
* the junction of the pipes.
* MakePipeTShapeChamfer
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A chamfer is created
* on the junction of the pipes.
* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
@ -146,9 +153,9 @@ GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeWithPosition (CORBA::D
* \param theR2 Internal radius of incident pipe (R2 < R1)
* \param theW2 Width of incident pipe (R2+W2 < R1+W1)
* \param theL2 Half-length of incident pipe
* \param theH Height of the chamfer.
* \param theW Width of the chamfer.
* \param theHexMesh false = no partition, true = with partition
* \param theH Height of chamfer.
* \param theW Width of chamfer.
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh
* \return List of GEOM_Objects, containing the created shape and propagation groups.
*/
//=============================================================================
@ -176,10 +183,12 @@ GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeChamfer(CORBA::Double
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length). A chamfer is created on
* the junction of the pipes.
* The T-shape is placed at junction points P1, P2 and P3.
* MakePipeTShapeChamferWithPosition
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A chamfer is created
* on the junction of the pipes.
* The extremities of the main pipe are located on junctions points P1 and P2.
* The extremity of the incident pipe is located on junction point P3.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
@ -188,7 +197,10 @@ GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeChamfer(CORBA::Double
* \param theL2 Half-length of incident pipe
* \param theH Height of the chamfer.
* \param theW Width of the chamfer.
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh
* \param theP1 1st junction point of main pipe
* \param theP2 2nd junction point of main pipe
* \param theP3 Junction point of incident pipe
* \return List of GEOM_Objects, containing the created shape and propagation groups.
*/
//=============================================================================
@ -223,9 +235,10 @@ GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeChamferWithPosition (C
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length). A fillet is created on
* the junction of the pipes.
* MakePipeTShapeFillet
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A fillet is created
* on the junction of the pipes.
* Center of the shape is (0,0,0). The main plane of the T-shape is XOY.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
@ -234,7 +247,7 @@ GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeChamferWithPosition (C
* \param theW2 Width of incident pipe (R2+W2 < R1+W1)
* \param theL2 Half-length of incident pipe
* \param theRF Radius of curvature of fillet.
* \param theHexMesh false = no partition, true = with partition
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh
* \return List of GEOM_Objects, containing the created shape and propagation groups.
*/
//=============================================================================
@ -262,18 +275,23 @@ GEOM::ListOfGO* GEOM_IAdvancedOperations_i::MakePipeTShapeFillet (CORBA::Double
//=============================================================================
/*!
* Create a T-shape object with specified caracteristics for the main and the
* incident pipes (radius, width, half-length). A fillet is created on
* the junction of the pipes.
* The T-shape is placed at junction points P1, P2 and P3.
* MakePipeTShapeFilletWithPosition
* Create a T-shape object with specified caracteristics for the main and
* the incident pipes (radius, width, half-length). A fillet is created
* on the junction of the pipes.
* The extremities of the main pipe are located on junctions points P1 and P2.
* The extremity of the incident pipe is located on junction point P3.
* \param theR1 Internal radius of main pipe
* \param theW1 Width of main pipe
* \param theL1 Half-length of main pipe
* \param theR2 Internal radius of incident pipe (R2 < R1)
* \param theW2 Width of incident pipe (R2+W2 < R1+W1)
* \param theL2 Half-length of incident pipe
* \param theRF Radius of curvature of fillet.
* \param theHexMesh false = no partition, true = with partition
* \param theRF Radius of curvature of fillet
* \param theHexMesh Boolean indicating if shape is prepared for hex mesh
* \param theP1 1st junction point of main pipe
* \param theP2 2nd junction point of main pipe
* \param theP3 Junction point of incident pipe
* \return List of GEOM_Objects, containing the created shape and propagation groups.
*/
//=============================================================================

30
src/GEOM_SWIG/geompyDC.py
View File

@ -4136,21 +4136,23 @@ class geompyDC(GEOM._objref_GEOM_Gen):
## Create a T-shape object with specified caracteristics for the main
# and the incident pipes (radius, width, half-length).
# Center of the shape is (0,0,0). The main plane of the T-shape is
# XOY.
# The extremities of the main pipe are located on junctions points P1 and P2.
# The extremity of the incident pipe is located on junction point P3.
# If P1, P2 and P3 are not given, the center of the shape is (0,0,0) and
# the main plane of the T-shape is XOY.
# @param theR1 Internal radius of main pipe
# @param theW1 Width of main pipe
# @param theL1 Half-length of main pipe
# @param theR2 Internal radius of incident pipe (R2 < R1)
# @param theW2 Width of incident pipe (R2+W2 < R1+W1)
# @param theL2 Half-length of incident pipe
# @param theHexMesh false = no partition, true = with partition (default=true)
# @param theHexMesh Boolean indicating if shape is prepared for hex mesh (default=True)
# @param theP1 1st junction point of main pipe
# @param theP2 2nd junction point of main pipe
# @param theP3 Junction point of incident pipe
# @return List of GEOM_Objects, containing the created shape and propagation groups.
#
# @ref tui_creation_tshape "Example"
# @ref tui_creation_pipetshape "Example"
def MakePipeTShape(self, theR1, theW1, theL1, theR2, theW2, theL2, theHexMesh=True, theP1=None, theP2=None, theP3=None):
theR1, theW1, theL1, theR2, theW2, theL2, Parameters = ParseParameters(theR1, theW1, theL1, theR2, theW2, theL2)
if (theP1 and theP2 and theP3):
@ -4164,8 +4166,10 @@ class geompyDC(GEOM._objref_GEOM_Gen):
## Create a T-shape object with specified caracteristics for the main
# and the incident pipes (radius, width, half-length). A chamfer is
# created on the junction of the pipes.
# Center of the shape is (0,0,0). The main plane of the T-shape is
# XOY.
# The extremities of the main pipe are located on junctions points P1 and P2.
# The extremity of the incident pipe is located on junction point P3.
# If P1, P2 and P3 are not given, the center of the shape is (0,0,0) and
# the main plane of the T-shape is XOY.
# @param theR1 Internal radius of main pipe
# @param theW1 Width of main pipe
# @param theL1 Half-length of main pipe
@ -4174,13 +4178,13 @@ class geompyDC(GEOM._objref_GEOM_Gen):
# @param theL2 Half-length of incident pipe
# @param theH Height of the chamfer.
# @param theW Width of the chamfer.
# @param theHexMesh false = no partition, true = with partition (default=true)
# @param theHexMesh Boolean indicating if shape is prepared for hex mesh (default=True)
# @param theP1 1st junction point of main pipe
# @param theP2 2nd junction point of main pipe
# @param theP3 Junction point of incident pipe
# @return List of GEOM_Objects, containing the created shape and propagation groups.
#
# @ref tui_creation_tshape "Example"
# @ref tui_creation_pipetshape "Example"
def MakePipeTShapeChamfer(self, theR1, theW1, theL1, theR2, theW2, theL2, theH, theW, theHexMesh=True, theP1=None, theP2=None, theP3=None):
theR1, theW1, theL1, theR2, theW2, theL2, theH, theW, Parameters = ParseParameters(theR1, theW1, theL1, theR2, theW2, theL2, theH, theW)
if (theP1 and theP2 and theP3):
@ -4194,8 +4198,10 @@ class geompyDC(GEOM._objref_GEOM_Gen):
## Create a T-shape object with specified caracteristics for the main
# and the incident pipes (radius, width, half-length). A fillet is
# created on the junction of the pipes.
# Center of the shape is (0,0,0). The main plane of the T-shape is
# XOY.
# The extremities of the main pipe are located on junctions points P1 and P2.
# The extremity of the incident pipe is located on junction point P3.
# If P1, P2 and P3 are not given, the center of the shape is (0,0,0) and
# the main plane of the T-shape is XOY.
# @param theR1 Internal radius of main pipe
# @param theW1 Width of main pipe
# @param theL1 Half-length of main pipe
@ -4203,13 +4209,13 @@ class geompyDC(GEOM._objref_GEOM_Gen):
# @param theW2 Width of incident pipe (R2+W2 < R1+W1)
# @param theL2 Half-length of incident pipe
# @param theRF Radius of curvature of fillet.
# @param theHexMesh false = no partition, true = with partition (default=true)
# @param theHexMesh Boolean indicating if shape is prepared for hex mesh (default=True)
# @param theP1 1st junction point of main pipe
# @param theP2 2nd junction point of main pipe
# @param theP3 Junction point of incident pipe
# @return List of GEOM_Objects, containing the created shape and propagation groups.
#
# @ref tui_creation_tshape "Example"
# @ref tui_creation_pipetshape "Example"
def MakePipeTShapeFillet(self, theR1, theW1, theL1, theR2, theW2, theL2, theRF, theHexMesh=True, theP1=None, theP2=None, theP3=None):
theR1, theW1, theL1, theR2, theW2, theL2, theRF, Parameters = ParseParameters(theR1, theW1, theL1, theR2, theW2, theL2, theRF)
if (theP1 and theP2 and theP3):