def calcInitialValues(self): c = self.constraintObject axis1 = getAxis(self.ob1, c.SubElement1) axis2 = getAxis(self.ob2, c.SubElement2) angle = math.degrees(axis1.getAngle(axis2)) if angle <= 90.0: self.direction = "aligned" else: self.direction = "opposed"
def recalculateMatingDirection(c): ob1 = c.Document.getObject(c.Object1) ob2 = c.Document.getObject(c.Object2) axis1 = getAxis(ob1, c.SubElement1) axis2 = getAxis(ob2, c.SubElement2) angle = math.degrees(axis1.getAngle(axis2)) if angle <= 90.0: c.directionConstraint = "aligned" else: c.directionConstraint = "opposed"
def calcInitialValues(self): c = self.constraintObject #circleEdge1 = getObjectEdgeFromName(self.ob1, c.SubElement1) #circleEdge2 = getObjectEdgeFromName(self.ob2, c.SubElement2) #axis1 = circleEdge1.Curve.Axis #axis2 = circleEdge2.Curve.Axis axis1 = getAxis(self.ob1, c.SubElement1) axis2 = getAxis(self.ob2, c.SubElement2) angle = math.degrees(axis1.getAngle(axis2)) if angle <= 90.0: self.direction = "aligned" else: self.direction = "opposed" self.offset = 0.0 self.lockRotation = False
def recalculateMatingDirection(c): ob1 = c.Document.getObject(c.Object1) ob2 = c.Document.getObject(c.Object2) #circleEdge1 = getObjectEdgeFromName(ob1, c.SubElement1) #circleEdge2 = getObjectEdgeFromName(ob2, c.SubElement2) #axis1 = circleEdge1.Curve.Axis #axis2 = circleEdge2.Curve.Axis axis1 = getAxis(ob1, c.SubElement1) axis2 = getAxis(ob2, c.SubElement2) angle = math.degrees(axis1.getAngle(axis2)) if angle <= 90.0: direction = "aligned" else: direction = "opposed" if c.directionConstraint != direction: c.offset = -c.offset c.directionConstraint = direction
def calcInitialValues(self): c = self.constraintObject axis1 = getAxis(self.ob1, c.SubElement1) plane2 = getObjectFaceFromName(self.ob2, c.SubElement2) axis2 = a2plib.getPlaneNormal(plane2.Surface) angle = math.degrees(axis1.getAngle(axis2)) if angle <= 90.0: self.direction = "aligned" else: self.direction = "opposed"
def recalculateMatingDirection(c): ob1 = c.Document.getObject(c.Object1) ob2 = c.Document.getObject(c.Object2) axis1 = getAxis(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) axis2 = a2plib.getPlaneNormal(plane2.Surface) angle = math.degrees(axis1.getAngle(axis2)) if angle <= 90.0: c.directionConstraint = "aligned" else: c.directionConstraint = "opposed"
def calcInitialValues(self): c = self.constraintObject axis1 = getAxis(self.ob1, c.SubElement1) plane2 = getObjectFaceFromName(self.ob2, c.SubElement2) axis2 = a2plib.getPlaneNormal(plane2.Surface) angle = math.degrees(axis1.getAngle(axis2)) # the following section has been tested and is working, # just it does not meet expectations. # opposed/aligned are set to the opposite of expectation # this has to be checked again. if angle <= 90.0: self.direction = "opposed" self.angle = 90 - angle else: self.direction = "aligned" self.angle = -90 + angle
def Create(doc, constraint, solver, rigid1, rigid2): DebugMsg( A2P_DEBUG_2, "Creating dependencies between {}-{}, type {}\n".format( rigid1.label, rigid2.label, constraint.Type ) ) c = constraint if c.Type == "pointIdentity": dep1 = DependencyPointIdentity(c, "point") dep2 = DependencyPointIdentity(c, "point") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) vert1 = getObjectVertexFromName(ob1, c.SubElement1) vert2 = getObjectVertexFromName(ob2, c.SubElement2) dep1.refPoint = vert1.Point dep2.refPoint = vert2.Point elif c.Type == "sphereCenterIdent": dep1 = DependencyPointIdentity(c, "point") dep2 = DependencyPointIdentity(c, "point") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) vert1 = getPos(ob1, c.SubElement1) vert2 = getPos(ob2, c.SubElement2) dep1.refPoint = vert1 dep2.refPoint = vert2 elif c.Type == "pointOnLine": dep1 = DependencyPointOnLine(c, "point") dep2 = DependencyPointOnLine(c, "pointAxis") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) vert1 = getObjectVertexFromName(ob1, c.SubElement1) line2 = getObjectEdgeFromName(ob2, c.SubElement2) dep1.refPoint = vert1.Point dep2.refPoint = getPos(ob2, c.SubElement2) axis2 = getAxis(ob2, c.SubElement2) dep2.refAxisEnd = dep2.refPoint.add(axis2) elif c.Type == "pointOnPlane": dep1 = DependencyPointOnPlane(c, "point") dep2 = DependencyPointOnPlane(c, "plane") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) vert1 = getObjectVertexFromName(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = vert1.Point dep2.refPoint = plane2.Faces[0].BoundBox.Center normal2 = plane2.Surface.Axis dep2.refAxisEnd = dep2.refPoint.add(normal2) elif c.Type == "circularEdge": dep1 = DependencyCircularEdge(c, "pointAxis") dep2 = DependencyCircularEdge(c, "pointAxis") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) circleEdge1 = getObjectEdgeFromName(ob1, c.SubElement1) circleEdge2 = getObjectEdgeFromName(ob2, c.SubElement2) dep1.refPoint = circleEdge1.Curve.Center dep2.refPoint = circleEdge2.Curve.Center axis1 = circleEdge1.Curve.Axis axis2 = circleEdge2.Curve.Axis if dep2.direction == "opposed": axis2.multiply(-1.0) dep1.refAxisEnd = dep1.refPoint.add(axis1) dep2.refAxisEnd = dep2.refPoint.add(axis2) # if abs(dep2.offset) > solver.mySOLVER_SPIN_ACCURACY * 1e-1: offsetAdjustVec = Base.Vector(axis2.x,axis2.y,axis2.z) offsetAdjustVec.multiply(dep2.offset) dep2.refPoint = dep2.refPoint.add(offsetAdjustVec) dep2.refAxisEnd = dep2.refAxisEnd.add(offsetAdjustVec) elif c.Type == "planesParallel": dep1 = DependencyParallelPlanes(c, "pointNormal") dep2 = DependencyParallelPlanes(c, "pointNormal") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) plane1 = getObjectFaceFromName(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = plane1.Faces[0].BoundBox.Center dep2.refPoint = plane2.Faces[0].BoundBox.Center normal1 = plane1.Surface.Axis normal2 = plane2.Surface.Axis if dep2.direction == "opposed": normal2.multiply(-1.0) dep1.refAxisEnd = dep1.refPoint.add(normal1) dep2.refAxisEnd = dep2.refPoint.add(normal2) elif c.Type == "angledPlanes": dep1 = DependencyAngledPlanes(c, "pointNormal") dep2 = DependencyAngledPlanes(c, "pointNormal") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) plane1 = getObjectFaceFromName(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = plane1.Faces[0].BoundBox.Center dep2.refPoint = plane2.Faces[0].BoundBox.Center normal1 = plane1.Surface.Axis normal2 = plane2.Surface.Axis dep1.refAxisEnd = dep1.refPoint.add(normal1) dep2.refAxisEnd = dep2.refPoint.add(normal2) elif c.Type == "plane": dep1 = DependencyPlane(c, "pointNormal") dep2 = DependencyPlane(c, "pointNormal") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) plane1 = getObjectFaceFromName(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = plane1.Faces[0].BoundBox.Center dep2.refPoint = plane2.Faces[0].BoundBox.Center normal1 = plane1.Surface.Axis normal2 = plane2.Surface.Axis if dep2.direction == "opposed": normal2.multiply(-1.0) dep1.refAxisEnd = dep1.refPoint.add(normal1) dep2.refAxisEnd = dep2.refPoint.add(normal2) # if abs(dep2.offset) > solver.mySOLVER_SPIN_ACCURACY * 1e-1: offsetAdjustVec = Base.Vector(normal2.x,normal2.y,normal2.z) offsetAdjustVec.multiply(dep2.offset) dep2.refPoint = dep2.refPoint.add(offsetAdjustVec) dep2.refAxisEnd = dep2.refAxisEnd.add(offsetAdjustVec) elif c.Type == "axial": dep1 = DependencyAxial(c, "pointAxis") dep2 = DependencyAxial(c, "pointAxis") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) dep1.refPoint = getPos(ob1,c.SubElement1) dep2.refPoint = getPos(ob2,c.SubElement2) axis1 = getAxis(ob1, c.SubElement1) axis2 = getAxis(ob2, c.SubElement2) if dep2.direction == "opposed": axis2.multiply(-1.0) dep1.refAxisEnd = dep1.refPoint.add(axis1) dep2.refAxisEnd = dep2.refPoint.add(axis2) else: raise NotImplementedError("Constraint type {} was not implemented!".format(c.Type)) # Assignments dep1.currentRigid = rigid1 dep1.dependedRigid = rigid2 dep1.foreignDependency = dep2 dep2.currentRigid = rigid2 dep2.dependedRigid = rigid1 dep2.foreignDependency = dep1 rigid1.dependencies.append(dep1) rigid2.dependencies.append(dep2)
def Create(doc, constraint, solver, rigid1, rigid2): c = constraint if c.Type == "sphereCenterIdent" or c.Type == "pointIdentity": dep1 = DependencyPointIdentity(c, "point") dep2 = DependencyPointIdentity(c, "point") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) vert1 = getPos(ob1, c.SubElement1) vert2 = getPos(ob2, c.SubElement2) dep1.refPoint = vert1 dep2.refPoint = vert2 elif c.Type == "pointOnLine": dep1 = DependencyPointOnLine(c, "point") dep2 = DependencyPointOnLine(c, "pointAxis") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) dep1.refPoint = getPos(ob1, c.SubElement1) dep2.refPoint = getPos(ob2, c.SubElement2) axis2 = getAxis(ob2, c.SubElement2) dep2.refAxisEnd = dep2.refPoint.add(axis2) elif c.Type == "pointOnPlane": dep1 = DependencyPointOnPlane(c, "point") dep2 = DependencyPointOnPlane(c, "plane") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) dep1.refPoint = getPos(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep2.refPoint = plane2.Faces[0].BoundBox.Center normal2 = a2plib.getPlaneNormal(plane2.Surface) #shift refPoint of plane by offset try: offs = c.offset except: offs = 0.0 offsetVector = Base.Vector(normal2) offsetVector.multiply(offs) dep2.refPoint = dep2.refPoint.add(offsetVector) dep2.refAxisEnd = dep2.refPoint.add(normal2) elif c.Type == "circularEdge": dep1 = DependencyCircularEdge(c, "pointAxis") dep2 = DependencyCircularEdge(c, "pointAxis") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) dep1.refPoint = getPos(ob1, c.SubElement1) dep2.refPoint = getPos(ob2, c.SubElement2) axis1 = getAxis(ob1, c.SubElement1) axis2 = getAxis(ob2, c.SubElement2) if dep2.direction == "opposed": axis2.multiply(-1.0) dep1.refAxisEnd = dep1.refPoint.add(axis1) dep2.refAxisEnd = dep2.refPoint.add(axis2) # if abs(dep2.offset) > solver.mySOLVER_SPIN_ACCURACY * 1e-1: offsetAdjustVec = Base.Vector(axis2.x, axis2.y, axis2.z) offsetAdjustVec.multiply(dep2.offset) dep2.refPoint = dep2.refPoint.add(offsetAdjustVec) dep2.refAxisEnd = dep2.refAxisEnd.add(offsetAdjustVec) elif c.Type == "planesParallel": dep1 = DependencyParallelPlanes(c, "pointNormal") dep2 = DependencyParallelPlanes(c, "pointNormal") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) plane1 = getObjectFaceFromName(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = plane1.Faces[0].BoundBox.Center dep2.refPoint = plane2.Faces[0].BoundBox.Center normal1 = a2plib.getPlaneNormal(plane1.Surface) normal2 = a2plib.getPlaneNormal(plane2.Surface) if dep2.direction == "opposed": normal2.multiply(-1.0) dep1.refAxisEnd = dep1.refPoint.add(normal1) dep2.refAxisEnd = dep2.refPoint.add(normal2) elif c.Type == "angledPlanes": dep1 = DependencyAngledPlanes(c, "pointNormal") dep2 = DependencyAngledPlanes(c, "pointNormal") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) plane1 = getObjectFaceFromName(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = plane1.Faces[0].BoundBox.Center dep2.refPoint = plane2.Faces[0].BoundBox.Center normal1 = a2plib.getPlaneNormal(plane1.Surface) normal2 = a2plib.getPlaneNormal(plane2.Surface) dep1.refAxisEnd = dep1.refPoint.add(normal1) dep2.refAxisEnd = dep2.refPoint.add(normal2) elif c.Type == "plane": dep1 = DependencyPlane(c, "pointNormal") dep2 = DependencyPlane(c, "pointNormal") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) plane1 = getObjectFaceFromName(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = plane1.Faces[0].BoundBox.Center dep2.refPoint = plane2.Faces[0].BoundBox.Center normal1 = a2plib.getPlaneNormal(plane1.Surface) normal2 = a2plib.getPlaneNormal(plane2.Surface) if dep2.direction == "opposed": normal2.multiply(-1.0) dep1.refAxisEnd = dep1.refPoint.add(normal1) dep2.refAxisEnd = dep2.refPoint.add(normal2) # if abs(dep2.offset) > solver.mySOLVER_SPIN_ACCURACY * 1e-1: offsetAdjustVec = Base.Vector(normal2.x, normal2.y, normal2.z) offsetAdjustVec.multiply(dep2.offset) dep2.refPoint = dep2.refPoint.add(offsetAdjustVec) dep2.refAxisEnd = dep2.refAxisEnd.add(offsetAdjustVec) elif c.Type == "axial": dep1 = DependencyAxial(c, "pointAxis") dep2 = DependencyAxial(c, "pointAxis") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) dep1.refPoint = getPos(ob1, c.SubElement1) dep2.refPoint = getPos(ob2, c.SubElement2) axis1 = getAxis(ob1, c.SubElement1) axis2 = getAxis(ob2, c.SubElement2) if dep2.direction == "opposed": axis2.multiply(-1.0) dep1.refPoint = dep1.adjustRefPoints(ob1, c.SubElement1, dep1.refPoint, axis1) dep2.refPoint = dep2.adjustRefPoints(ob2, c.SubElement2, dep2.refPoint, axis2) dep1.refAxisEnd = dep1.refPoint.add(axis1) dep2.refAxisEnd = dep2.refPoint.add(axis2) elif c.Type == "axisParallel": dep1 = DependencyAxisParallel(c, "pointAxis") dep2 = DependencyAxisParallel(c, "pointAxis") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) dep1.refPoint = getPos(ob1, c.SubElement1) dep2.refPoint = getPos(ob2, c.SubElement2) axis1 = getAxis(ob1, c.SubElement1) axis2 = getAxis(ob2, c.SubElement2) if dep2.direction == "opposed": axis2.multiply(-1.0) dep1.refAxisEnd = dep1.refPoint.add(axis1) dep2.refAxisEnd = dep2.refPoint.add(axis2) elif c.Type == "axisPlaneParallel": dep1 = DependencyAxisPlaneParallel(c, "pointAxis") dep2 = DependencyAxisPlaneParallel(c, "pointNormal") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) axis1 = getAxis(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = getPos(ob1, c.SubElement1) dep2.refPoint = plane2.Faces[0].BoundBox.Center axis1Normalized = Base.Vector(axis1) axis1Normalized.normalize() dep1.refAxisEnd = dep1.refPoint.add(axis1Normalized) normal2 = a2plib.getPlaneNormal(plane2.Surface) dep2.refAxisEnd = dep2.refPoint.add(normal2) elif c.Type == "axisPlaneAngle": dep1 = DependencyAxisPlaneAngle(c, "pointAxis") dep2 = DependencyAxisPlaneAngle(c, "pointNormal") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) axis1 = getAxis(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = getPos(ob1, c.SubElement1) dep2.refPoint = plane2.Faces[0].BoundBox.Center axis1Normalized = Base.Vector(axis1) axis1Normalized.normalize() dep1.refAxisEnd = dep1.refPoint.add(axis1Normalized) normal2 = a2plib.getPlaneNormal(plane2.Surface) if dep2.direction == "opposed": normal2.multiply(-1.0) dep2.refAxisEnd = dep2.refPoint.add(normal2) elif c.Type == "axisPlaneVertical" or c.Type == "axisPlaneNormal": # axisPlaneVertical for compat. dep1 = DependencyAxisPlaneNormal(c, "pointAxis") dep2 = DependencyAxisPlaneNormal(c, "pointNormal") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) axis1 = getAxis(ob1, c.SubElement1) plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep1.refPoint = getPos(ob1, c.SubElement1) dep2.refPoint = plane2.Faces[0].BoundBox.Center axis1Normalized = Base.Vector(axis1) axis1Normalized.normalize() dep1.refAxisEnd = dep1.refPoint.add(axis1Normalized) normal2 = a2plib.getPlaneNormal(plane2.Surface) if dep2.direction == "opposed": normal2.multiply(-1.0) dep2.refAxisEnd = dep2.refPoint.add(normal2) elif c.Type == "CenterOfMass": dep1 = DependencyCenterOfMass(c, "point") dep2 = DependencyCenterOfMass(c, "point") ob1 = doc.getObject(c.Object1) ob2 = doc.getObject(c.Object2) if c.SubElement1.startswith('Face'): plane1 = getObjectFaceFromName(ob1, c.SubElement1) dep1.refPoint = plane1.Faces[0].CenterOfMass elif c.SubElement1.startswith('Edge'): plane1 = Part.Face( Part.Wire(getObjectEdgeFromName(ob1, c.SubElement1))) dep1.refPoint = plane1.CenterOfMass if c.SubElement2.startswith('Face'): plane2 = getObjectFaceFromName(ob2, c.SubElement2) dep2.refPoint = plane2.Faces[0].CenterOfMass elif c.SubElement2.startswith('Edge'): plane2 = Part.Face( Part.Wire(getObjectEdgeFromName(ob2, c.SubElement2))) dep2.refPoint = plane2.CenterOfMass normal1 = a2plib.getPlaneNormal(plane1.Surface) normal2 = a2plib.getPlaneNormal(plane2.Surface) if dep2.direction == "opposed": normal2.multiply(-1.0) dep1.refAxisEnd = dep1.refPoint.add(normal1) dep2.refAxisEnd = dep2.refPoint.add(normal2) # to be improved: toggle direction even if offset == 0.0 if abs(dep2.offset) > solver.mySOLVER_SPIN_ACCURACY * 1e-1: offsetAdjustVec = Base.Vector(normal2.x, normal2.y, normal2.z) offsetAdjustVec.multiply(dep2.offset) dep2.refPoint = dep2.refPoint.add(offsetAdjustVec) dep2.refAxisEnd = dep2.refAxisEnd.add(offsetAdjustVec) else: raise NotImplementedError( "Constraint type {} was not implemented!".format(c.Type)) # Assignments dep1.currentRigid = rigid1 dep1.dependedRigid = rigid2 dep1.foreignDependency = dep2 dep2.currentRigid = rigid2 dep2.dependedRigid = rigid1 dep2.foreignDependency = dep1 rigid1.dependencies.append(dep1) rigid2.dependencies.append(dep2)
def export_gazebo_model(assembly_file, model_dir, configs={}): doc = FreeCAD.open(assembly_file) robot_name = configs.get('name', doc.Label) scale = configs.get('scale', 0.001) scale_vec = FreeCAD.Vector([scale] * 3) density = configs.get('density', 1000) export_mesh = configs.get('export', True) assembly_dir = os.path.split(doc.FileName)[0] bounding_box = FreeCAD.BoundBox() for obj in doc.findObjects('Part::Feature'): bounding_box.add(obj.Shape.BoundBox) bounding_box.scale(*scale_vec) global_pose_base = FreeCAD.Vector(bounding_box.XLength / 2, bounding_box.YLength / 2, bounding_box.ZLength / 2) global_pose_base -= bounding_box.Center global_pose = FreeCAD.Placement() global_pose.Base = global_pose_base model = Model(name=robot_name, pose=global_pose) model.self_collide = configs.get('self_collide', False) model.sdf_version = '1.5' joint_limits = configs.get('joints_limits', {}) joint_dynamics = configs.get('joints_dynamics', {}) constraints = [] for obj in doc.Objects: if a2plib.isA2pPart(obj): name = obj.Label shape = obj.Shape mass = shape.Mass * scale**3 * density com = shape.CenterOfMass * scale inr = shape.MatrixOfInertia inr.scale(*scale_vec * (scale**4) * density) placement = shape.Placement placement.Base.scale(*scale_vec) part_file = os.path.join(assembly_dir, obj.sourceFile) part_file = os.path.normpath(part_file) mesh_file = os.path.join(model_dir, 'meshes', os.path.relpath(part_file, assembly_dir)) mesh_file = os.path.splitext(mesh_file)[0] + '.dae' mesh_dir = os.path.split(mesh_file)[0] if export_mesh: os.makedirs(mesh_dir, exist_ok=True) export(doc, [obj], mesh_file, scale=scale, offset=com * -1) pose = placement.copy() pose.Base = com pose_rpy = pose.copy() pose_rpy.Base = (np.zeros(3)) inertia = Inertia(inertia=np.array(inr.A)[[0, 1, 2, 5, 6, 10]]) inertial = Inertial(pose=pose_rpy, mass=mass, inertia=inertia) package = configs.get('ros_package', robot_name) mesh_uri = os.path.join(package, os.path.relpath(mesh_file, model_dir)) mesh_uri = os.path.normpath(mesh_uri) visual = Visual(name=name + '_visual', mesh=mesh_uri) collision = Collision(name=name + '_collision', mesh=mesh_uri) link = Link(name=name, pose=pose, inertial=inertial, visual=visual, collision=collision) model.links.append(link) elif a2plib.isA2pConstraint(obj): parent = doc.getObject(obj.Object1) child = doc.getObject(obj.Object2) if sorted([parent.Label, child.Label]) in constraints: continue if obj.Type == 'axial' and not obj.lockRotation: pose = a2plib.getPos(parent, obj.SubElement1) pose = pose - child.Shape.CenterOfMass pose.scale(*scale_vec) joint_pose = FreeCAD.Placement() joint_pose.Base = pose axis_pose = a2plib.getAxis(parent, obj.SubElement1) axis = Axis(pose=axis_pose, lower_limit=joint_limits.get('lower', -90), upper_limit=joint_limits.get('upper', 90), effort_limit=joint_limits.get('effort', 10), velocity_limit=joint_limits.get('velocity', 10), friction=joint_dynamics.get('friction', 0), damping=joint_dynamics.get('damping', 0)) joint = Joint(name=parent.Label + '_' + child.Label, pose=joint_pose, parent=parent.Label, child=child.Label, type='revolute', axis=axis) model.joints.append(joint) constraints.append(sorted([parent.Label, child.Label])) os.makedirs(os.path.join(model_dir, 'models'), exist_ok=True) with open(os.path.join(model_dir, 'models', robot_name + '.sdf'), 'w') as sdf_file: sdf_file.write(model.to_xml_string('sdf')) if not configs.get('sdf_only', None): with open(os.path.join(model_dir, 'models', robot_name + '.urdf'), 'w') as urdf_file: urdf_file.write(model.to_xml_string('urdf')) actuators = ET.Element('robot', name=robot_name) gazebo = ET.SubElement(actuators, 'gazebo') plugin = ET.SubElement(gazebo, 'plugin') plugin.set('filename', 'libgazebo_ros_control.so') plugin.set('name', 'gazebo_ros_control') namespace = ET.SubElement(plugin, 'robotNamespace') namespace.text = '/' + robot_name simtype = ET.SubElement(plugin, 'robotSimType') simtype.text = 'gazebo_ros_control/DefaultRobotHWSim' tr_configs = configs.get('transmission', {}) jt_configs = configs.get('joints_config') pid = configs.get('joints_pid') joint_names = [joint.name for joint in model.joints] for joint in joint_names: transmission = ET.SubElement(actuators, 'transmission', name=joint) tr_type = ET.SubElement(transmission, 'type') tr_type.text = tr_configs.get( 'type', 'transmission_interface/SimpleTransmission') actuator = ET.SubElement(transmission, 'actuator', name=joint) hw_interface = ET.SubElement(actuator, 'hardwareInterface') hw_interface.text = tr_configs.get( 'hardware_interface', 'hardware_interface/PositionJointInterface') reduction = ET.SubElement(actuator, 'mechanicalReduction') reduction.text = '1' tr_joint = ET.SubElement(transmission, 'joint', name=joint) hw_interface = ET.SubElement(tr_joint, 'hardwareInterface') hw_interface.text = tr_configs.get( 'hardware_interface', 'hardware_interface/PositionJointInterface') with open( os.path.join(model_dir, 'models', robot_name + '_actuators.urdf'), 'w') as actuators_file: actuators_file.write( parseString(ET.tostring(actuators)).toprettyxml(indent=' ' * 2)) control_configs = {} control_configs[robot_name] = { 'joint_state_controller': { 'type': 'joint_state_controller/JointStateController', 'publish_rate': 50, } } if jt_configs.get('groupped', False): for joint in joint_names: control_configs[robot_name][joint + '_controller'] = { 'type': jt_configs.get( 'type', 'position_controllers/JointGroupPositionController'), 'joint': joint, 'pid': pid.copy() } else: control_configs[robot_name]['joints_controller'] = { 'type': jt_configs.get( 'type', 'position_controllers/JointGroupPositionController'), 'publish_rate': 50, 'joints': joint_names } control_configs[robot_name]['gazebo_ros_control/pid_gains'] = {} for joint in joint_names: control_configs[robot_name]['gazebo_ros_control/pid_gains'][ joint] = pid.copy() os.makedirs(os.path.join(model_dir, 'config'), exist_ok=True) with open( os.path.join(model_dir, 'config', robot_name + '_controll.yaml'), 'w') as control_configs_file: yaml.dump_all([control_configs], control_configs_file, sort_keys=False)