From 0c965a3c7b8effd839b3750317ccb6e643edf0d4 Mon Sep 17 00:00:00 2001 From: Luis Manuel Diaz Angulo Date: Sun, 12 Oct 2025 08:06:14 +0200 Subject: [PATCH 01/15] Adds realistic bundle case --- src/mesher.py | 2 +- test/test_mesher.py | 165 +- ...stic_case_with_dielectrics_fdtd_cell.FCStd | Bin 0 -> 118388 bytes ...istic_case_with_dielectrics_fdtd_cell.json | 67 + ...istic_case_with_dielectrics_fdtd_cell.step | 5360 +++++++++++++++++ 5 files changed, 5533 insertions(+), 61 deletions(-) create mode 100644 testData/realistic_case_with_dielectrics_fdtd_cell/realistic_case_with_dielectrics_fdtd_cell.FCStd create mode 100644 testData/realistic_case_with_dielectrics_fdtd_cell/realistic_case_with_dielectrics_fdtd_cell.json create mode 100644 testData/realistic_case_with_dielectrics_fdtd_cell/realistic_case_with_dielectrics_fdtd_cell.step diff --git a/src/mesher.py b/src/mesher.py index 320903b..4e02fe0 100644 --- a/src/mesher.py +++ b/src/mesher.py @@ -14,7 +14,7 @@ class Mesher(): "Mesh.MshFileVersion": 2.2, # Required for MFEM compatibility "Mesh.MeshSizeFromCurvature": 50, - "Mesh.ElementOrder": 3, + "Mesh.ElementOrder": 1, "Mesh.ScalingFactor": 1e-3, "Mesh.SurfaceFaces": 1, "Mesh.MeshSizeMax": 40, diff --git a/test/test_mesher.py b/test/test_mesher.py index c371d0d..d6b26a2 100644 --- a/test/test_mesher.py +++ b/test/test_mesher.py @@ -12,7 +12,6 @@ sys.path.insert(0, project_root) - class TestMesher(unittest.TestCase): @classmethod def setUpClass(cls): @@ -30,13 +29,14 @@ def setUp(self): def tearDown(self): gmsh.finalize() - def assertPhysicalGroup(self,expectedNames, expectedEntities): + def assertPhysicalGroup(self, expectedNames, expectedEntities): pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] self.assertEqual(sorted(pGNames), sorted(expectedNames)) for idx, name in enumerate(expectedNames): - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), expectedEntities[idx], name) + self.assertEqual(self.countEntitiesInPhysicalGroupWithName( + name), expectedEntities[idx], name) def countEntitiesInPhysicalGroupWithName(self, name: str): return len( @@ -71,17 +71,19 @@ def test_mesh_from_step_with_partially_filled_coax(self): self.assertEqual(len(pGs), 4) pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] - expectedNames = ['Conductor_0', 'Conductor_1', 'Dielectric_0', 'Vacuum_0'] + expectedNames = ['Conductor_0', + 'Conductor_1', 'Dielectric_0', 'Vacuum_0'] self.assertEqual(sorted(pGNames), sorted(expectedNames)) for name in expectedNames: - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), 1) + self.assertEqual( + self.countEntitiesInPhysicalGroupWithName(name), 1) def test_mesh_from_step_with_empty_coax(self): caseName = 'empty_coax' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - #gmsh.write(caseName + '.msh') - #gmsh.write(caseName + '.vtk') + # gmsh.write(caseName + '.msh') + # gmsh.write(caseName + '.vtk') pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] @@ -89,35 +91,40 @@ def test_mesh_from_step_with_empty_coax(self): self.assertEqual(sorted(pGNames), sorted(expectedNames)) for name in expectedNames: - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), 1) + self.assertEqual( + self.countEntitiesInPhysicalGroupWithName(name), 1) def test_mesh_from_step_with_two_wires_coax(self): caseName = 'two_wires_coax' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] - expectedNames = ['Conductor_0', 'Conductor_1', 'Conductor_2', 'Vacuum_0'] + expectedNames = ['Conductor_0', + 'Conductor_1', 'Conductor_2', 'Vacuum_0'] self.assertEqual(sorted(pGNames), sorted(expectedNames)) for name in expectedNames: - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), 1) + self.assertEqual( + self.countEntitiesInPhysicalGroupWithName(name), 1) def test_mesh_from_step_with_two_wires_open(self): caseName = 'two_wires_open' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - #gmsh.write(caseName + '.vtk') + # gmsh.write(caseName + '.vtk') pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] - expectedNames = ['Conductor_0', 'Conductor_1', 'OpenBoundary_0', 'Vacuum_0', 'Vacuum_1'] + expectedNames = ['Conductor_0', 'Conductor_1', + 'OpenBoundary_0', 'Vacuum_0', 'Vacuum_1'] self.assertEqual(sorted(pGNames), sorted(expectedNames)) - expectedEntities = [1,1,1,1,1] + expectedEntities = [1, 1, 1, 1, 1] for idx, name in enumerate(expectedNames): - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), expectedEntities[idx], name) + self.assertEqual(self.countEntitiesInPhysicalGroupWithName( + name), expectedEntities[idx], name) def test_mesh_dielectric_pair_open(self) -> None: caseName = 'DielectricUnshieldedPair' @@ -125,21 +132,20 @@ def test_mesh_dielectric_pair_open(self) -> None: 'Conductor_0', 'Conductor_1', 'Dielectric_0', 'Dielectric_1', 'OpenBoundary_0', 'Vacuum_0', 'Vacuum_1'] - expectedEntities = [1,1,1,1,1,1,1] + expectedEntities = [1, 1, 1, 1, 1, 1, 1] Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - #gmsh.write(caseName + '.vtk') + # gmsh.write(caseName + '.vtk') self.assertPhysicalGroup(expectedNames, expectedEntities) - def test_mesh_from_step_with_five_wires(self): expectedNames = [ 'Conductor_0', 'Conductor_1', 'Conductor_2', 'Conductor_3', 'Conductor_4', 'Conductor_5', - 'Dielectric_0', 'Dielectric_1', - 'Dielectric_2', 'Dielectric_3', + 'Dielectric_0', 'Dielectric_1', + 'Dielectric_2', 'Dielectric_3', 'Dielectric_4', 'Vacuum_0' ] @@ -150,45 +156,52 @@ def test_mesh_from_step_with_five_wires(self): self.assertEqual(sorted(pGNames), sorted(expectedNames)) for name in expectedNames: - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), 1) + self.assertEqual( + self.countEntitiesInPhysicalGroupWithName(name), 1) def test_mesh_from_step_with_three_wires_ribbon(self): caseName = 'three_wires_ribbon' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - - #gmsh.write(caseName + '.vtk') + + # gmsh.write(caseName + '.vtk') pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = [ - 'Conductor_0', 'Conductor_1', 'Conductor_2', + 'Conductor_0', 'Conductor_1', 'Conductor_2', 'OpenBoundary_0', - 'Dielectric_0', 'Dielectric_1', 'Dielectric_2', + 'Dielectric_0', 'Dielectric_1', 'Dielectric_2', 'Vacuum_0', 'Vacuum_1' ] - expectedEntities = [1,1,1, + expectedEntities = [1, 1, 1, 1, - 1,1,1, - 1,1] + 1, 1, 1, + 1, 1] self.maxDiff = None self.assertEqual(sorted(pGNames), sorted(expectedNames)) for idx, name in enumerate(expectedNames): - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), expectedEntities[idx], name) + self.assertEqual(self.countEntitiesInPhysicalGroupWithName( + name), expectedEntities[idx], name) def test_mesh_from_step_with_nested_coax(self): caseName = 'nested_coax' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] - expectedNames = ['Conductor_0', 'Conductor_1', 'Conductor_2', 'Vacuum_0'] + expectedNames = ['Conductor_0', + 'Conductor_1', 'Conductor_2', 'Vacuum_0'] self.assertEqual(sorted(pGNames), sorted(expectedNames)) - self.assertEqual(self.countEntitiesInPhysicalGroupWithName('Conductor_0'), 1) - self.assertEqual(self.countEntitiesInPhysicalGroupWithName('Conductor_1'), 2) - self.assertEqual(self.countEntitiesInPhysicalGroupWithName('Conductor_2'), 1) - self.assertEqual(self.countEntitiesInPhysicalGroupWithName('Vacuum_0'), 2) + self.assertEqual( + self.countEntitiesInPhysicalGroupWithName('Conductor_0'), 1) + self.assertEqual( + self.countEntitiesInPhysicalGroupWithName('Conductor_1'), 2) + self.assertEqual( + self.countEntitiesInPhysicalGroupWithName('Conductor_2'), 1) + self.assertEqual( + self.countEntitiesInPhysicalGroupWithName('Vacuum_0'), 2) def test_mesh_from_step_with_agrawal1981(self): caseName = 'agrawal1981' @@ -200,28 +213,27 @@ def test_mesh_from_step_with_agrawal1981(self): pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', 'Conductor_1', 'Conductor_2', 'Conductor_3', - 'OpenBoundary_0', - 'Dielectric_1', 'Dielectric_2', 'Dielectric_0', + 'OpenBoundary_0', + 'Dielectric_1', 'Dielectric_2', 'Dielectric_0', 'Vacuum_0'] - expectedEntities = [4, 1, 1, 1, + expectedEntities = [4, 1, 1, 1, 1, 1, 1, 1, 2] - - for idx, name in enumerate(expectedNames): - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), expectedEntities[idx], name) - + for idx, name in enumerate(expectedNames): + self.assertEqual(self.countEntitiesInPhysicalGroupWithName( + name), expectedEntities[idx], name) def test_unshielded_multiwire(self): caseName = 'unshielded_multiwire' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - - #gmsh.write(caseName + '.vtk') + + # gmsh.write(caseName + '.vtk') pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] - expectedNames = ['Conductor_0', 'Conductor_1', 'Dielectric_0', + expectedNames = ['Conductor_0', 'Conductor_1', 'Dielectric_0', 'OpenBoundary_0', 'Vacuum_0', 'Vacuum_1'] expectedEntities = [1, 1, 1, @@ -230,41 +242,73 @@ def test_unshielded_multiwire(self): self.assertEqual(sorted(pGNames), sorted(expectedNames)) for idx, name in enumerate(expectedNames): - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), expectedEntities[idx], name) + self.assertEqual(self.countEntitiesInPhysicalGroupWithName( + name), expectedEntities[idx], name) def test_conductor_and_outer_dielectric(self): caseName = 'conductor_and_outer_dielectric' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - - #gmsh.write(caseName + '.vtk') + + gmsh.write(caseName + '.vtk') + gmsh.write(caseName + '.msh') pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] - expectedNames = ['Conductor_0', - 'Dielectric_0', + expectedNames = ['Conductor_0', + 'Dielectric_0', 'OpenBoundary_0', 'Vacuum_0', 'Vacuum_1'] - expectedEntities = [1, - 1, + expectedEntities = [1, + 1, 1, 2, 1] self.assertEqual(sorted(pGNames), sorted(expectedNames)) for idx, name in enumerate(expectedNames): - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), expectedEntities[idx], name) + self.assertEqual(self.countEntitiesInPhysicalGroupWithName( + name), expectedEntities[idx], name) + + def test_realistic_case_with_dielectrics_fdtd_cell(self): + caseName = 'realistic_case_with_dielectrics_fdtd_cell' + Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) + + gmsh.write(caseName + '.vtk') + gmsh.write(caseName + '.msh') + + pGs = gmsh.model.getPhysicalGroups() + pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] + + expectedNames = ['Conductor_0', 'Conductor_1', 'Conductor_2', 'Conductor_3', 'Conductor_4', + 'Conductor_5', 'Conductor_6', 'Conductor_7', 'Conductor_8', 'Conductor_9', + 'Conductor_10', 'Conductor_11', 'Conductor_12', 'Conductor_13', 'Conductor_14', + 'Conductor_15', 'Conductor_16', 'Conductor_17', 'Conductor_18', 'Conductor_19', + 'Conductor_20', 'Conductor_21', 'Conductor_22', 'Conductor_23', 'Conductor_24', + 'Conductor_25', 'Conductor_26', 'Conductor_27', 'Conductor_28', 'Conductor_29', + 'Conductor_30', + 'Dielectric_0', 'Dielectric_1', 'Dielectric_2', 'Dielectric_3', 'Dielectric_4', + 'Dielectric_5', 'Dielectric_6', 'Dielectric_7', 'Dielectric_8', 'Dielectric_9', + 'Dielectric_10', 'Dielectric_11', 'Dielectric_12', 'Dielectric_13', 'Dielectric_14', + 'Dielectric_15', 'Dielectric_16', 'Dielectric_17', 'Dielectric_18', 'Dielectric_19', + 'Dielectric_20', 'Dielectric_21', 'Dielectric_22', 'Dielectric_23', 'Dielectric_24', + 'Dielectric_25', 'Dielectric_26', 'Dielectric_27', 'Dielectric_28', 'Dielectric_29', + 'Dielectric_30', 'Dielectric_31', # There is one more dielectric because it is separated by the external dielectric. + 'OpenBoundary_0', + 'Vacuum_0', 'Vacuum_1'] + self.assertEqual(sorted(pGNames), sorted(expectedNames)) + def test_lansink2024_single_wire_multipolar(self): caseName = 'lansink2024_single_wire_multipolar' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - - #gmsh.write(caseName + '.msh') - #gmsh.write(caseName + '.vtk') + + # gmsh.write(caseName + '.msh') + # gmsh.write(caseName + '.vtk') pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] - expectedNames = ['Conductor_0', - 'Dielectric_0', + expectedNames = ['Conductor_0', + 'Dielectric_0', 'OpenBoundary_0', 'Vacuum_0', 'Vacuum_1'] expectedEntities = [1, 1, 1, @@ -273,8 +317,9 @@ def test_lansink2024_single_wire_multipolar(self): self.assertEqual(sorted(pGNames), sorted(expectedNames)) for idx, name in enumerate(expectedNames): - self.assertEqual(self.countEntitiesInPhysicalGroupWithName(name), expectedEntities[idx], name) + self.assertEqual(self.countEntitiesInPhysicalGroupWithName( + name), expectedEntities[idx], name) if __name__ == '__main__': - unittest.main() \ No newline at end of file + unittest.main() diff --git a/testData/realistic_case_with_dielectrics_fdtd_cell/realistic_case_with_dielectrics_fdtd_cell.FCStd b/testData/realistic_case_with_dielectrics_fdtd_cell/realistic_case_with_dielectrics_fdtd_cell.FCStd new file mode 100644 index 0000000000000000000000000000000000000000..da6cd83a6379df7996f4e0fd9f6bfc71c52b7702 GIT binary patch literal 118388 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{ "name": "Conductor_001", "material": { "type": "PEC" } }, + { "name": "Conductor_002", "material": { "type": "PEC" } }, + { "name": "Conductor_003", "material": { "type": "PEC" } }, + { "name": "Conductor_004", "material": { "type": "PEC" } }, + { "name": "Conductor_005", "material": { "type": "PEC" } }, + { "name": "Conductor_006", "material": { "type": "PEC" } }, + { "name": "Conductor_007", "material": { "type": "PEC" } }, + { "name": "Conductor_008", "material": { "type": "PEC" } }, + { "name": "Conductor_009", "material": { "type": "PEC" } }, + { "name": "Conductor_010", "material": { "type": "PEC" } }, + { "name": "Conductor_011", "material": { "type": "PEC" } }, + { "name": "Conductor_012", "material": { "type": "PEC" } }, + { "name": "Conductor_013", "material": { "type": "PEC" } }, + { "name": "Conductor_014", "material": { "type": "PEC" } }, + { "name": "Conductor_015", "material": { "type": "PEC" } }, + { "name": "Conductor_016", "material": { "type": "PEC" } }, + { "name": "Conductor_017", "material": { "type": "PEC" } }, + { "name": "Conductor_018", "material": { "type": "PEC" } }, + { "name": "Conductor_019", "material": { "type": "PEC" } }, + { "name": "Conductor_020", "material": { "type": "PEC" } }, + { "name": "Conductor_021", "material": { "type": "PEC" } }, + { "name": "Conductor_022", "material": { "type": "PEC" } }, + { "name": "Conductor_023", "material": { "type": "PEC" } }, + { "name": "Conductor_024", "material": { "type": "PEC" } }, + { "name": "Conductor_025", "material": { "type": "PEC" } }, + { "name": "Conductor_026", "material": { "type": "PEC" } }, + { "name": "Conductor_027", "material": { "type": "PEC" } }, + { "name": "Conductor_028", "material": { "type": "PEC" } }, + { "name": "Conductor_029", "material": { "type": "PEC" } }, + { "name": "Conductor_030", "material": { "type": "PEC" } }, + { "name": "Dielectric_000", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_001", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_002", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_003", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_004", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_005", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_006", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_007", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_008", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_009", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_010", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_011", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_012", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_013", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_014", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_015", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_016", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_017", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_018", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_019", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_020", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_021", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_022", "material": { "type": "Dielectric", "permittivity": 2.0 } }, + { "name": "Dielectric_023", "material": { 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00:00:00 2001 From: Luis Manuel Diaz Angulo Date: Mon, 13 Oct 2025 11:07:33 +0200 Subject: [PATCH 03/15] Includes test to check that there are no duplicate nodes. --- test/test_mesher.py | 71 +++++++++++++++++++++++++++++++++++++++++++-- 1 file changed, 68 insertions(+), 3 deletions(-) diff --git a/test/test_mesher.py b/test/test_mesher.py index d6b26a2..ff722cd 100644 --- a/test/test_mesher.py +++ b/test/test_mesher.py @@ -2,6 +2,9 @@ import os import unittest import sys +import copy +from typing import Dict, List, Tuple, Optional + from pathlib import Path from src.mesher import Mesher from src.ShapesClassification import ShapesClassification @@ -47,6 +50,55 @@ def countEntitiesInPhysicalGroupWithName(self, name: str): def inputFileFromCaseName(self, caseName): return self.testdataPath + caseName + '/' + caseName + ".step" + + def find_duplicate_nodes(tol: Optional[float] = None) -> \ + Tuple[bool, Dict[Tuple[float, float, float], List[int]]]: + """ + Check if any two nodes in the *current* Gmsh model share the same coordinates. + + Parameters + ---------- + tol : float or None + - None -> exact (bit-for-bit) coordinate equality + - float -> near-duplicate check using a grid of size `tol` + + Returns + ------- + has_duplicates : bool + True if any duplicate (or near-duplicate) node groups are found. + groups : dict + Mapping from coordinate key -> list of node tags that share that location. + - For exact mode, the key is the exact (x, y, z) tuple. + - For tol mode, the key is the *rounded* (x, y, z) tuple (grid index). + """ + node_tags, node_coords, _ = gmsh.model.mesh.getNodes() + + def key_exact(i: int) -> Tuple[float, float, float]: + return (node_coords[3*i], node_coords[3*i+1], node_coords[3*i+2]) + + def key_tol(i: int, t: float) -> Tuple[int, int, int]: + x, y, z = node_coords[3*i], node_coords[3*i+1], node_coords[3*i+2] + return (round(x / t), round(y / t), round(z / t)) + + groups: Dict[Tuple[float, float, float], List[int]] = {} + groups_tol: Dict[Tuple[int, int, int], List[int]] = {} + + if tol is None: + # Exact mode + for idx, tag in enumerate(node_tags): + k = key_exact(idx) + groups.setdefault(k, []).append(tag) + # Keep only groups with more than one node + groups = {k: v for k, v in groups.items() if len(v) > 1} + return (len(groups) > 0, groups) + + else: + # Tolerance (grid rounding) mode + for idx, tag in enumerate(node_tags): + k = key_tol(idx, tol) + groups_tol.setdefault(k, []).append(tag) + groups_tol = {k: v for k, v in groups_tol.items() if len(v) > 1} + return (len(groups_tol) > 0, groups_tol) def test_get_number_from_entity_name(self): self.assertEqual( @@ -270,11 +322,21 @@ def test_conductor_and_outer_dielectric(self): def test_realistic_case_with_dielectrics_fdtd_cell(self): caseName = 'realistic_case_with_dielectrics_fdtd_cell' - Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) + meshing_options = copy.deepcopy(Mesher.DEFAULT_MESHING_OPTIONS) + meshing_options["Mesh.ElementOrder"] = 1 + + Mesher().meshFromStep( + self.inputFileFromCaseName(caseName), + caseName, + meshingOptions=meshing_options) + # For debugging. gmsh.write(caseName + '.vtk') gmsh.write(caseName + '.msh') + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] @@ -302,8 +364,11 @@ def test_lansink2024_single_wire_multipolar(self): caseName = 'lansink2024_single_wire_multipolar' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - # gmsh.write(caseName + '.msh') - # gmsh.write(caseName + '.vtk') + gmsh.write(caseName + '.msh') + gmsh.write(caseName + '.vtk') + + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] From f9de401f04aad630ad0fa649fbce915ace5b0365 Mon Sep 17 00:00:00 2001 From: Luis Manuel Diaz Angulo Date: Mon, 13 Oct 2025 11:15:58 +0200 Subject: [PATCH 04/15] Add duplicate node checks in mesh tests --- test/test_mesher.py | 34 ++++++++++++++++++++++++++++++++++ 1 file changed, 34 insertions(+) diff --git a/test/test_mesher.py b/test/test_mesher.py index ff722cd..4ffeca6 100644 --- a/test/test_mesher.py +++ b/test/test_mesher.py @@ -119,6 +119,9 @@ def test_mesh_from_step_with_partially_filled_coax(self): caseName = 'partially_filled_coax' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() self.assertEqual(len(pGs), 4) @@ -137,6 +140,9 @@ def test_mesh_from_step_with_empty_coax(self): # gmsh.write(caseName + '.msh') # gmsh.write(caseName + '.vtk') + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', 'Conductor_1', 'Vacuum_0'] @@ -150,6 +156,9 @@ def test_mesh_from_step_with_two_wires_coax(self): caseName = 'two_wires_coax' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', @@ -166,6 +175,9 @@ def test_mesh_from_step_with_two_wires_open(self): Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) # gmsh.write(caseName + '.vtk') + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', 'Conductor_1', @@ -189,6 +201,9 @@ def test_mesh_dielectric_pair_open(self) -> None: Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) # gmsh.write(caseName + '.vtk') + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + self.assertPhysicalGroup(expectedNames, expectedEntities) def test_mesh_from_step_with_five_wires(self): @@ -203,6 +218,10 @@ def test_mesh_from_step_with_five_wires(self): caseName = 'five_wires' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) + + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] self.assertEqual(sorted(pGNames), sorted(expectedNames)) @@ -217,6 +236,9 @@ def test_mesh_from_step_with_three_wires_ribbon(self): # gmsh.write(caseName + '.vtk') + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = [ @@ -240,6 +262,9 @@ def test_mesh_from_step_with_nested_coax(self): caseName = 'nested_coax' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', @@ -262,6 +287,9 @@ def test_mesh_from_step_with_agrawal1981(self): # gmsh.write(caseName + '.vtk') # gmsh.fltk.run() + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', 'Conductor_1', 'Conductor_2', 'Conductor_3', @@ -283,6 +311,9 @@ def test_unshielded_multiwire(self): # gmsh.write(caseName + '.vtk') + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', 'Conductor_1', 'Dielectric_0', @@ -304,6 +335,9 @@ def test_conductor_and_outer_dielectric(self): gmsh.write(caseName + '.vtk') gmsh.write(caseName + '.msh') + has_dups, _ = TestMesher.find_duplicate_nodes() + assert not has_dups + pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', From 545c8163df723533a48348e25cbfc09b41af8e77 Mon Sep 17 00:00:00 2001 From: Luis Manuel Diaz Angulo Date: Mon, 13 Oct 2025 12:11:11 +0200 Subject: [PATCH 05/15] Fixes problem with duplicated nodes --- src/mesher.py | 36 +++++++++++++++ test/test_mesher.py | 105 ++++++-------------------------------------- 2 files changed, 50 insertions(+), 91 deletions(-) diff --git a/src/mesher.py b/src/mesher.py index 320903b..47e40d3 100644 --- a/src/mesher.py +++ b/src/mesher.py @@ -28,6 +28,37 @@ class Mesher(): # "Geometry.Tolerance": 1e-3, } + @staticmethod + def findDuplicateNodes() -> \ + Tuple[bool, Dict[Tuple[float, float, float], List[int]]]: + """ + Check if any two nodes in the *current* Gmsh model share the same coordinates. + Uses exact (bit-for-bit) coordinate equality. + + Returns + ------- + has_duplicates : bool + True if any duplicate node groups are found. + groups : dict + Mapping from coordinate key -> list of node tags that share that location. + The key is the exact (x, y, z) tuple. + """ + node_tags, node_coords, _ = gmsh.model.mesh.getNodes() + + def key_exact(i: int) -> Tuple[float, float, float]: + return (node_coords[3*i], node_coords[3*i+1], node_coords[3*i+2]) + + groups: Dict[Tuple[float, float, float], List[int]] = {} + + # Exact mode only + for idx, tag in enumerate(node_tags): + k = key_exact(idx) + groups.setdefault(k, []).append(tag) + # Keep only groups with more than one node + groups = {k: v for k, v in groups.items() if len(v) > 1} + return (len(groups) > 0, groups) + + def runFromInput(self, inputFile, runGui=False): caseName = Path(inputFile).stem @@ -79,6 +110,11 @@ def meshFromStep(self, inputFile: str, caseName: str, meshingOptions=None) -> Di gmsh.option.setNumber(opt, val) gmsh.model.mesh.generate(2) + gmsh.model.mesh.removeDuplicateNodes() + + has_dups, _ = self.findDuplicateNodes() + assert not has_dups + return mappedComponents diff --git a/test/test_mesher.py b/test/test_mesher.py index 4ffeca6..adc3866 100644 --- a/test/test_mesher.py +++ b/test/test_mesher.py @@ -50,56 +50,7 @@ def countEntitiesInPhysicalGroupWithName(self, name: str): def inputFileFromCaseName(self, caseName): return self.testdataPath + caseName + '/' + caseName + ".step" - - def find_duplicate_nodes(tol: Optional[float] = None) -> \ - Tuple[bool, Dict[Tuple[float, float, float], List[int]]]: - """ - Check if any two nodes in the *current* Gmsh model share the same coordinates. - - Parameters - ---------- - tol : float or None - - None -> exact (bit-for-bit) coordinate equality - - float -> near-duplicate check using a grid of size `tol` - - Returns - ------- - has_duplicates : bool - True if any duplicate (or near-duplicate) node groups are found. - groups : dict - Mapping from coordinate key -> list of node tags that share that location. - - For exact mode, the key is the exact (x, y, z) tuple. - - For tol mode, the key is the *rounded* (x, y, z) tuple (grid index). - """ - node_tags, node_coords, _ = gmsh.model.mesh.getNodes() - - def key_exact(i: int) -> Tuple[float, float, float]: - return (node_coords[3*i], node_coords[3*i+1], node_coords[3*i+2]) - - def key_tol(i: int, t: float) -> Tuple[int, int, int]: - x, y, z = node_coords[3*i], node_coords[3*i+1], node_coords[3*i+2] - return (round(x / t), round(y / t), round(z / t)) - - groups: Dict[Tuple[float, float, float], List[int]] = {} - groups_tol: Dict[Tuple[int, int, int], List[int]] = {} - - if tol is None: - # Exact mode - for idx, tag in enumerate(node_tags): - k = key_exact(idx) - groups.setdefault(k, []).append(tag) - # Keep only groups with more than one node - groups = {k: v for k, v in groups.items() if len(v) > 1} - return (len(groups) > 0, groups) - - else: - # Tolerance (grid rounding) mode - for idx, tag in enumerate(node_tags): - k = key_tol(idx, tol) - groups_tol.setdefault(k, []).append(tag) - groups_tol = {k: v for k, v in groups_tol.items() if len(v) > 1} - return (len(groups_tol) > 0, groups_tol) - + def test_get_number_from_entity_name(self): self.assertEqual( ShapesClassification.getNumberFromName( @@ -117,10 +68,18 @@ def test_get_number_from_entity_name(self): def test_mesh_from_step_with_partially_filled_coax(self): caseName = 'partially_filled_coax' - Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups + meshing_options = copy.deepcopy(Mesher.DEFAULT_MESHING_OPTIONS) + meshing_options["Mesh.ElementOrder"] = 3 + + Mesher().meshFromStep( + self.inputFileFromCaseName(caseName), + caseName, + meshing_options) + + # For debugging + gmsh.write(caseName + '.msh') + gmsh.write(caseName + '.vtk') pGs = gmsh.model.getPhysicalGroups() self.assertEqual(len(pGs), 4) @@ -137,11 +96,8 @@ def test_mesh_from_step_with_partially_filled_coax(self): def test_mesh_from_step_with_empty_coax(self): caseName = 'empty_coax' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - # gmsh.write(caseName + '.msh') - # gmsh.write(caseName + '.vtk') - - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups + gmsh.write(caseName + '.msh') + gmsh.write(caseName + '.vtk') pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] @@ -156,9 +112,6 @@ def test_mesh_from_step_with_two_wires_coax(self): caseName = 'two_wires_coax' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', @@ -175,9 +128,6 @@ def test_mesh_from_step_with_two_wires_open(self): Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) # gmsh.write(caseName + '.vtk') - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', 'Conductor_1', @@ -201,9 +151,6 @@ def test_mesh_dielectric_pair_open(self) -> None: Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) # gmsh.write(caseName + '.vtk') - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - self.assertPhysicalGroup(expectedNames, expectedEntities) def test_mesh_from_step_with_five_wires(self): @@ -219,9 +166,6 @@ def test_mesh_from_step_with_five_wires(self): caseName = 'five_wires' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] self.assertEqual(sorted(pGNames), sorted(expectedNames)) @@ -236,9 +180,6 @@ def test_mesh_from_step_with_three_wires_ribbon(self): # gmsh.write(caseName + '.vtk') - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = [ @@ -262,9 +203,6 @@ def test_mesh_from_step_with_nested_coax(self): caseName = 'nested_coax' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', @@ -287,9 +225,6 @@ def test_mesh_from_step_with_agrawal1981(self): # gmsh.write(caseName + '.vtk') # gmsh.fltk.run() - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', 'Conductor_1', 'Conductor_2', 'Conductor_3', @@ -311,9 +246,6 @@ def test_unshielded_multiwire(self): # gmsh.write(caseName + '.vtk') - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', 'Conductor_1', 'Dielectric_0', @@ -335,9 +267,6 @@ def test_conductor_and_outer_dielectric(self): gmsh.write(caseName + '.vtk') gmsh.write(caseName + '.msh') - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', @@ -368,9 +297,6 @@ def test_realistic_case_with_dielectrics_fdtd_cell(self): gmsh.write(caseName + '.vtk') gmsh.write(caseName + '.msh') - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] @@ -401,9 +327,6 @@ def test_lansink2024_single_wire_multipolar(self): gmsh.write(caseName + '.msh') gmsh.write(caseName + '.vtk') - has_dups, _ = TestMesher.find_duplicate_nodes() - assert not has_dups - pGs = gmsh.model.getPhysicalGroups() pGNames = [gmsh.model.getPhysicalName(*pG) for pG in pGs] expectedNames = ['Conductor_0', From 580625573fd3f2c4dd0db93fe2a80a18c2f1f5db Mon Sep 17 00:00:00 2001 From: Luis Manuel Diaz Angulo Date: Wed, 15 Oct 2025 08:02:20 +0200 Subject: [PATCH 06/15] Changes near region size to 1.15 --- src/ShapesClassification.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/src/ShapesClassification.py b/src/ShapesClassification.py index baca977..a96522a 100644 --- a/src/ShapesClassification.py +++ b/src/ShapesClassification.py @@ -127,7 +127,7 @@ def _buildClosedVacuumDomain(self) -> Tuple[int, int]: return dict([['Vacuum_0', dom]]) def _buildDefaultVacuumDomain(self): - NEAR_REGION_BOUNDING_BOX_SCALING_FACTOR = 1.25 + NEAR_REGION_BOUNDING_BOX_SCALING_FACTOR = 1.15 FAR_REGION_DISK_SCALING_FACTOR = 4.0 nonVacuumSurfaces = [] for _, surf in self.pecs.items(): From 1dcf29b106c81307e18a5ae1540d0c79a20bc626 Mon Sep 17 00:00:00 2001 From: Luis Manuel Diaz Angulo Date: Wed, 15 Oct 2025 08:44:41 +0200 Subject: [PATCH 07/15] [WIP] Possibility of defining open boundary --- src/Graph.py | 1 - src/ShapesClassification.py | 124 +- src/mesher.py | 40 +- test/test_mesher.py | 32 +- ...electricShieldedPair.20250930-134420.FCBak | Bin 9334 -> 0 bytes .../DielectricShieldedPair.json | 6 +- .../DielectricUnshieldedPair.json | 6 +- ...ectricUnshieldedPairDefinedBoundary.FCStd} | Bin ...electricUnshieldedPairDefinedBoundary.json | 34 + ...electricUnshieldedPairDefinedBoundary.step | 352 ++++++ .../partially_filled_coax.json | 3 +- ...stic_case_with_dielectrics_fdtd_cell.FCStd | Bin 118388 -> 118603 bytes ...istic_case_with_dielectrics_fdtd_cell.json | 65 +- ...istic_case_with_dielectrics_fdtd_cell.step | 1042 +++++++++-------- .../three_wires_ribbon.20250709-095732.FCBak | Bin 15650 -> 0 bytes .../two_wires_open.20250709-095732.FCBak | Bin 5861 -> 0 bytes 16 files changed, 1077 insertions(+), 628 deletions(-) delete mode 100644 testData/DielectricShieldedPair/DielectricShieldedPair.20250930-134420.FCBak rename testData/{FusedConductor/FusedConductor.20250930-153234.FCBak => DielectricUnshieldedPairDefinedBoundary/DielectricUnshieldedPairDefinedBoundary.FCStd} (100%) create mode 100644 testData/DielectricUnshieldedPairDefinedBoundary/DielectricUnshieldedPairDefinedBoundary.json create mode 100644 testData/DielectricUnshieldedPairDefinedBoundary/DielectricUnshieldedPairDefinedBoundary.step delete mode 100644 testData/three_wires_ribbon/three_wires_ribbon.20250709-095732.FCBak delete mode 100644 testData/two_wires_open/two_wires_open.20250709-095732.FCBak diff --git a/src/Graph.py b/src/Graph.py index 2806609..c370356 100644 --- a/src/Graph.py +++ b/src/Graph.py @@ -59,7 +59,6 @@ def getParentNodes(self) -> List: def getChildNodes(self) -> List: return [edge[-1] for edge in self._edges] - #Necesita una revisión pero por ahora hace lo que necesito def prune_to_longest_paths(self): connections = self.get_connections() roots = [n for n in self._nodes if n not in self.getChildNodes()] diff --git a/src/ShapesClassification.py b/src/ShapesClassification.py index a96522a..02bf791 100644 --- a/src/ShapesClassification.py +++ b/src/ShapesClassification.py @@ -29,8 +29,8 @@ def __init__(self, shapes, jsonFile:str): self.crossSectionData = jsonData['CrossSection'] self.pecs = self.get_pecs(shapes) self.dielectrics = self.get_dielectrics(shapes) + self.open = self.get_open_boundaries(shapes) self.vacuum = dict() - self.open = dict() self.nestedGraph = self.__getNestedGraph() self.isOpenCase = self.isOpenProblem() @@ -62,6 +62,19 @@ def get_dielectrics(self, entity_tags) -> Dict[str, Dict[str,any]]: return dielectrics + def get_open_boundaries(self, entity_tags) -> Dict[str, List[Tuple[int,int]]]: + openBoundaryNames = self.__getGeometryNamesByMaterialType('OpenBoundary') + open_boundaries = dict() + for s in entity_tags: + name = gmsh.model.get_entity_name(*s).split('/')[-1] + if s[0] != 2 or name not in openBoundaryNames: + continue + open_boundaries[name] = [s] + + assert len(open_boundaries) <= 1 + + return open_boundaries + def __getGeometryNamesByMaterialType(self, materialType:str) -> List[str]: names = [ geometry['name'] @@ -70,11 +83,16 @@ def __getGeometryNamesByMaterialType(self, materialType:str) -> List[str]: ] return names - def isOpenProblem(self) -> None: + def isOpenBoundaryDefined(self) -> bool: + return len(self.open) > 0 + + def isOpenProblem(self) -> bool: roots = self.nestedGraph.roots - if len(roots) > 1: #Más de un componente pec/pec pec/dielectric dielectric/dielectric etc da al exterior + if len(self.open) == 1: return True - if roots[0] in self.dielectrics.keys(): #El único root es un dielectrico + if len(roots) > 1: + return True + if roots[0] in self.dielectrics.keys(): return True return False @@ -105,7 +123,7 @@ def ensureDielectricsDoNotOverlap(self): def buildVacuumDomain(self): if self.isOpenCase: - self.vacuum = self._buildDefaultVacuumDomain() + self.vacuum = self._buildOpenVacuumDomain() else: self.vacuum = self._buildClosedVacuumDomain() return self.vacuum @@ -126,7 +144,7 @@ def _buildClosedVacuumDomain(self) -> Tuple[int, int]: gmsh.model.occ.synchronize() return dict([['Vacuum_0', dom]]) - def _buildDefaultVacuumDomain(self): + def _buildOpenVacuumDomain(self): NEAR_REGION_BOUNDING_BOX_SCALING_FACTOR = 1.15 FAR_REGION_DISK_SCALING_FACTOR = 4.0 nonVacuumSurfaces = [] @@ -134,53 +152,63 @@ def _buildDefaultVacuumDomain(self): nonVacuumSurfaces.extend(surf) for _, surf in self.dielectrics.items(): nonVacuumSurfaces.extend(surf) - - boundingBox = BoundingBox.getBoundingBoxFromGroup(nonVacuumSurfaces) - - bbMaxLength = np.max(boundingBox.getLengths()) - nearVacuumBoxSize = bbMaxLength*NEAR_REGION_BOUNDING_BOX_SCALING_FACTOR - nVOrigin = tuple( - np.subtract(boundingBox.getCenter(), - (nearVacuumBoxSize/2.0, nearVacuumBoxSize/2.0, 0.0))) - nearVacuum = [ - (2, gmsh.model.occ.addRectangle(*nVOrigin, *(nearVacuumBoxSize,)*2)) - ] - - farVacuumDiameter = FAR_REGION_DISK_SCALING_FACTOR * boundingBox.getDiagonal() - farVacuum = [(2, gmsh.model.occ.addDisk( - *boundingBox.getCenter(), - farVacuumDiameter, farVacuumDiameter))] - - gmsh.model.occ.synchronize() - self.open = dict([['OpenBoundary_0', gmsh.model.getBoundary(farVacuum)]]) - - farVacuum = gmsh.model.occ.cut( - farVacuum, nearVacuum, removeObject=True, removeTool=False)[0] - - - nearVacuum = gmsh.model.occ.cut( - nearVacuum, nonVacuumSurfaces, removeObject=True, removeTool=False)[0] - - gmsh.model.occ.synchronize() + if self.isOpenBoundaryDefined(): + name, vacuum = next(iter(self.open.items())) + + self.open = dict([[name, gmsh.model.getBoundary(vacuum)]]) + + vacuum = gmsh.model.occ.cut(vacuum, nonVacuumSurfaces, + removeObject=True, removeTool=False)[0] + gmsh.model.occ.synchronize() + + return dict([['Vacuum_0', vacuum]]) + else: + boundingBox = BoundingBox.getBoundingBoxFromGroup(nonVacuumSurfaces) + + bbMaxLength = np.max(boundingBox.getLengths()) + nearVacuumBoxSize = bbMaxLength*NEAR_REGION_BOUNDING_BOX_SCALING_FACTOR + nVOrigin = tuple( + np.subtract(boundingBox.getCenter(), + (nearVacuumBoxSize/2.0, nearVacuumBoxSize/2.0, 0.0))) + nearVacuum = [ + (2, gmsh.model.occ.addRectangle(*nVOrigin, *(nearVacuumBoxSize,)*2)) + ] + + farVacuumDiameter = FAR_REGION_DISK_SCALING_FACTOR * boundingBox.getDiagonal() + farVacuum = [(2, gmsh.model.occ.addDisk( + *boundingBox.getCenter(), + farVacuumDiameter, farVacuumDiameter))] + + gmsh.model.occ.synchronize() + self.open = dict([['OpenBoundary_0', gmsh.model.getBoundary(farVacuum)]]) + + farVacuum = gmsh.model.occ.cut( + farVacuum, nearVacuum, removeObject=True, removeTool=False)[0] + nearVacuum = gmsh.model.occ.cut( + nearVacuum, nonVacuumSurfaces, removeObject=True, removeTool=False)[0] - # -- Set mesh size for near vacuum region - bb = BoundingBox( - gmsh.model.getBoundingBox(2, nearVacuum[0][1])) - minSide = np.min(np.array([bb.getLengths()[0], bb.getLengths()[1]])) + gmsh.model.occ.synchronize() + + # -- Set mesh size for near vacuum region + bb = BoundingBox( + gmsh.model.getBoundingBox(2, nearVacuum[0][1])) + minSide = np.min(np.array([bb.getLengths()[0], bb.getLengths()[1]])) + + innerRegion = gmsh.model.getBoundary(nearVacuum, recursive=True) + gmsh.model.mesh.setSize(innerRegion, minSide / 20) + + gmsh.model.occ.synchronize() - innerRegion = gmsh.model.getBoundary(nearVacuum, recursive=True) - gmsh.model.mesh.setSize(innerRegion, minSide / 20) + return dict([['Vacuum_0', nearVacuum], ['Vacuum_1', farVacuum]]) - gmsh.model.occ.synchronize() - return dict([['Vacuum_0', nearVacuum], ['Vacuum_1', farVacuum]]) def __getNestedGraph(self): gmsh.model.occ.synchronize() graph = Graph() elements:Dict = {} - elements = {**self.pecs, **self.dielectrics} + elements = {**self.pecs, **self.dielectrics, **self.open} for key in elements: graph.add_node(key) for i, keyA in enumerate(elements): @@ -192,7 +220,7 @@ def __getNestedGraph(self): removeObject=False, removeTool=False ) - if len(inter[1][0]) == 0: #comprueba las intersecciones en las que interfiere el objeto + if len(inter[1][0]) == 0: continue else: if inter[1][0] == elements[keyA]: @@ -203,7 +231,7 @@ def __getNestedGraph(self): graph._reorderData() return graph - def getComponentsMappedByLevel(self) -> Dict[str,str]: + def getMappedComponents(self) -> Dict[str,str]: sortedNodes = self.nestedGraph.getNodesByLevels() mappedElements = [] conductors = [] @@ -215,4 +243,10 @@ def getComponentsMappedByLevel(self) -> Dict[str,str]: dielectrics.append((node, 'Dielectric_{}'.format(len(dielectrics)))) mappedElements.extend(conductors) mappedElements.extend(dielectrics) + + for domain in self.allShapes.vacuum.keys(): + mappedElements[domain] = domain + for openBoundary in self.allShapes.open.keys(): + mappedElements[openBoundary] = 'OpenBoundary_0' + return {element[0]:element[1] for element in mappedElements} \ No newline at end of file diff --git a/src/mesher.py b/src/mesher.py index 47e40d3..5f9d8e0 100644 --- a/src/mesher.py +++ b/src/mesher.py @@ -86,26 +86,14 @@ def meshFromStep(self, inputFile: str, caseName: str, meshingOptions=None) -> Di allShapes.ensureDielectricsDoNotOverlap() allShapes.removeConductorsFromDielectrics() vacuumDomain = allShapes.buildVacuumDomain() - # -- Boundaries - pecBoundaries = self.extractBoundaries(allShapes.pecs) - mappedComponents = allShapes.getComponentsMappedByLevel() - - for domain in vacuumDomain.keys(): - mappedComponents[domain] = domain - for openRegion in allShapes.open.keys(): - mappedComponents[openRegion] = openRegion - components = { - **pecBoundaries, - **allShapes.dielectrics, - **allShapes.open, - **vacuumDomain, - } - - self.buildPhysicalModel( - components, - mappedComponents - ) - + allShapes.pecs = self.extractBoundaries(allShapes.pecs) + + # --- Mapping + mappedComponents = allShapes.getMappedComponents() + self.buildPhysicalModel(mappedComponents) + + + # --- Meshing for [opt, val] in meshingOptions.items(): gmsh.option.setNumber(opt, val) @@ -125,8 +113,16 @@ def exportGeometryAreas(self, caseName:str, mappedElements:Dict[str,str]): exporter.exportToJson(caseName) - def buildPhysicalModel(self, components:Dict[str,List[Tuple[int,int]]], labeMapping:Dict[str,str]): - self._createPhysicalGroups(components, labeMapping) + def buildPhysicalModel(self, components:Dict[str,List[Tuple[int,int]]], labelMapping:Dict[str,str]): + + components = { + **self.allShapes.pecs, + **self.allShapes.dielectrics, + **self.allShapes.open, + **self.allShapes.vacuum, + } + + self._createPhysicalGroups(components, labelMapping) allEnts = gmsh.model.get_entities() entsInPG = [] diff --git a/test/test_mesher.py b/test/test_mesher.py index adc3866..ef0612b 100644 --- a/test/test_mesher.py +++ b/test/test_mesher.py @@ -50,7 +50,7 @@ def countEntitiesInPhysicalGroupWithName(self, name: str): def inputFileFromCaseName(self, caseName): return self.testdataPath + caseName + '/' + caseName + ".step" - + def test_get_number_from_entity_name(self): self.assertEqual( ShapesClassification.getNumberFromName( @@ -73,7 +73,7 @@ def test_mesh_from_step_with_partially_filled_coax(self): meshing_options["Mesh.ElementOrder"] = 3 Mesher().meshFromStep( - self.inputFileFromCaseName(caseName), + self.inputFileFromCaseName(caseName), caseName, meshing_options) @@ -153,6 +153,27 @@ def test_mesh_dielectric_pair_open(self) -> None: self.assertPhysicalGroup(expectedNames, expectedEntities) + def test_mesh_dielectric_pair_open_defined_boundary(self) -> None: + caseName = 'DielectricUnshieldedPairDefinedBoundary' + + meshing_options = copy.deepcopy(Mesher.DEFAULT_MESHING_OPTIONS) + meshing_options["Mesh.ElementOrder"] = 1 + + Mesher().meshFromStep( + self.inputFileFromCaseName(caseName), + caseName, + meshingOptions=meshing_options) + + gmsh.write(caseName + '.vtk') + + expectedNames = [ + 'Conductor_0', 'Conductor_1', + 'Dielectric_0', 'Dielectric_1', + 'OpenBoundary_0', 'Vacuum_0'] + expectedEntities = [1, 1, 1, 1, 1, 1] + + self.assertPhysicalGroup(expectedNames, expectedEntities) + def test_mesh_from_step_with_five_wires(self): expectedNames = [ 'Conductor_0', 'Conductor_1', @@ -289,7 +310,7 @@ def test_realistic_case_with_dielectrics_fdtd_cell(self): meshing_options["Mesh.ElementOrder"] = 1 Mesher().meshFromStep( - self.inputFileFromCaseName(caseName), + self.inputFileFromCaseName(caseName), caseName, meshingOptions=meshing_options) @@ -313,13 +334,12 @@ def test_realistic_case_with_dielectrics_fdtd_cell(self): 'Dielectric_15', 'Dielectric_16', 'Dielectric_17', 'Dielectric_18', 'Dielectric_19', 'Dielectric_20', 'Dielectric_21', 'Dielectric_22', 'Dielectric_23', 'Dielectric_24', 'Dielectric_25', 'Dielectric_26', 'Dielectric_27', 'Dielectric_28', 'Dielectric_29', - 'Dielectric_30', 'Dielectric_31', # There is one more dielectric because it is separated by the external dielectric. + # There is one more dielectric because it is separated by the external dielectric. + 'Dielectric_30', 'Dielectric_31', 'OpenBoundary_0', 'Vacuum_0', 'Vacuum_1'] self.assertEqual(sorted(pGNames), sorted(expectedNames)) - - def test_lansink2024_single_wire_multipolar(self): caseName = 'lansink2024_single_wire_multipolar' Mesher().meshFromStep(self.inputFileFromCaseName(caseName), caseName) diff --git a/testData/DielectricShieldedPair/DielectricShieldedPair.20250930-134420.FCBak b/testData/DielectricShieldedPair/DielectricShieldedPair.20250930-134420.FCBak deleted file mode 100644 index 489768915d29707a5941035f9eaef15b81086fe0..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 9334 zcmchc1yEeiw(bXa2^O5-?h*(df(3VX3GQye0}1X75Zv7%!QI`1JA~k#0B^{>|Cc~+ 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