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镜像自地址 https://gitee.com/sunhf/gprMax.git 已同步 2025-08-07 15:10:13 +08:00
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Split reframe tests into multiple files

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nmannall
2024-07-23 15:24:59 +01:00
父节点 e7eaba53df
当前提交 43e9390b8d
共有 9 个文件被更改,包括 375 次插入315 次删除
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315
reframe_tests/tests/reframe_tests.py
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@@ -1,315 +0,0 @@
import reframe as rfm
from base_tests import (
GprMaxAPIRegressionTest,
GprMaxBScanRegressionTest,
GprMaxMPIRegressionTest,
GprMaxRegressionTest,
GprMaxTaskfarmRegressionTest,
)
from reframe.core.builtins import parameter, run_after, run_before
"""ReFrame tests for basic functionality
Usage:
cd gprMax/reframe_tests
reframe -C configuraiton/{CONFIG_FILE} -c reframe_tests.py -c base_tests.py -r
"""
@rfm.simple_test
class TestAscan(GprMaxRegressionTest):
tags = {
"test",
"serial",
"ascan",
"2d",
"hertzian_dipole",
"waveform",
"material",
"box",
"cylinder",
}
sourcesdir = "src/example_models"
model = parameter(["cylinder_Ascan_2D"])
@rfm.simple_test
class TestBscan(GprMaxBScanRegressionTest):
tags = {
"test",
"serial",
"bscan",
"steps",
"waveform",
"hertzian_dipole",
"material",
"box",
"cylinder",
}
sourcesdir = "src/bscan_tests"
model = parameter(["cylinder_Bscan_2D"])
num_models = parameter([64])
@rfm.simple_test
class TestSingleNodeTaskfarm(GprMaxTaskfarmRegressionTest):
tags = {
"test",
"mpi",
"taskfarm",
"steps",
"waveform",
"hertzian_dipole",
"material",
"box",
"cylinder",
}
num_tasks = 8
num_tasks_per_node = 8
serial_dependency = TestBscan
model = serial_dependency.model
num_models = serial_dependency.num_models
@rfm.simple_test
class TestMultiNodeTaskfarm(GprMaxTaskfarmRegressionTest):
tags = {
"test",
"mpi",
"taskfarm",
"steps",
"waveform",
"hertzian_dipole",
"material",
"box",
"cylinder",
}
num_tasks = 32
num_tasks_per_node = 8
serial_dependency = TestBscan
model = serial_dependency.model
num_models = serial_dependency.num_models
@rfm.simple_test
class Test2DModelXY(GprMaxRegressionTest):
tags = {"test", "serial", "2d", "waveform", "hertzian_dipole"}
sourcesdir = "src/2d_tests"
model = parameter(["2D_EzHxHy"])
@rfm.simple_test
class Test2DModelXZ(GprMaxRegressionTest):
tags = {"test", "serial", "2d", "waveform", "hertzian_dipole"}
sourcesdir = "src/2d_tests"
model = parameter(["2D_EyHxHz"])
@rfm.simple_test
class Test2DModelYZ(GprMaxRegressionTest):
tags = {"test", "serial", "2d", "waveform", "hertzian_dipole"}
sourcesdir = "src/2d_tests"
model = parameter(["2D_ExHyHz"])
@rfm.simple_test
class TestHertzianDipoleSource(GprMaxRegressionTest):
tags = {"test", "serial", "hertzian_dipole", "waveform"}
sourcesdir = "src/source_tests"
model = parameter(["hertzian_dipole_fs"])
@rfm.simple_test
class TestMagneticDipoleSource(GprMaxRegressionTest):
tags = {"test", "serial", "magnetic_dipole", "waveform"}
sourcesdir = "src/source_tests"
model = parameter(["magnetic_dipole_fs"])
@rfm.simple_test
class TestDispersiveMaterials(GprMaxRegressionTest):
tags = {"test", "serial", "hertzian_dipole", "waveform", "material", "dispersive", "box"}
sourcesdir = "src/material_tests"
model = parameter(["hertzian_dipole_dispersive"])
@rfm.simple_test
class TestTransmissionLineSource(GprMaxRegressionTest):
tags = {"test", "serial", "transmission_line", "waveform"}
sourcesdir = "src/source_tests"
model = parameter(["transmission_line_fs"])
@rfm.simple_test
class TestEdgeGeometry(GprMaxRegressionTest):
tags = {"test", "serial", "geometry", "edge", "transmission_line", "waveform", "antenna"}
sourcesdir = "src/geomtry_tests/edge_geometry"
model = parameter(["antenna_wire_dipole_fs"])
is_antenna_model = True
@rfm.simple_test
class TestSubgrids(GprMaxAPIRegressionTest):
tags = {
"test",
"api",
"serial",
"subgrid",
"hertzian_dipole",
"waveform",
"material",
"dispersive",
"cylinder",
}
sourcesdir = "src/subgrid_tests"
model = parameter(["cylinder_fs"])
@rfm.simple_test
class TestSubgridsWithAntennaModel(GprMaxAPIRegressionTest):
tags = {
"test",
"api",
"serial",
"subgrid",
"antenna",
"material",
"box",
"fractal_box",
"add_surface_roughness",
}
sourcesdir = "src/subgrid_tests"
model = parameter(["gssi_400_over_fractal_subsurface"])
is_antenna_model = True
@run_after("init")
def skip_test(self):
self.skip_if(self.current_system.name == "archer2", "Takes ~1hr 30m on ARCHER2")
@rfm.simple_test
class Test2DModelXYMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "2d", "waveform", "hertzian_dipole"}
mpi_layout = parameter([[4, 4, 1]])
serial_dependency = Test2DModelXY
model = serial_dependency.model
@rfm.simple_test
class Test2DModelXZMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "2d", "waveform", "hertzian_dipole"}
mpi_layout = parameter([[4, 1, 4]])
serial_dependency = Test2DModelXZ
model = serial_dependency.model
@rfm.simple_test
class Test2DModelYZMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "2d", "waveform", "hertzian_dipole"}
mpi_layout = parameter([[1, 4, 4]])
serial_dependency = Test2DModelYZ
model = serial_dependency.model
@rfm.simple_test
class TestHertzianDipoleSourceMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "hertzian_dipole", "waveform"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestHertzianDipoleSource
model = serial_dependency.model
@rfm.simple_test
class TestMagneticDipoleSourceMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "magnetic_dipole", "waveform"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestMagneticDipoleSource
model = serial_dependency.model
@rfm.simple_test
class TestDispersiveMaterialsMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "hertzian_dipole", "waveform", "material", "dispersive", "box"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestDispersiveMaterials
model = serial_dependency.model
@rfm.simple_test
class TestTransmissionLineSourceMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "transmission_line", "waveform"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestTransmissionLineSource
model = serial_dependency.model
@rfm.simple_test
class TestEdgeGeometryMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "geometry", "edge", "transmission_line", "waveform", "antenna"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestEdgeGeometry
model = serial_dependency.model
is_antenna_model = True
@rfm.simple_test
class TestBoxGeometryNoPml(GprMaxRegressionTest):
tags = {"test", "serial", "geometery", "box"}
sourcesdir = "src/geometry_tests/box_geometry"
model = parameter(["box_full_model", "box_half_model", "box_single_rank"])
@run_before("run")
def add_gprmax_commands(self):
self.prerun_cmds.append(f"echo '#pml_cells: 0' >> {self.input_file}")
@rfm.simple_test
class TestBoxGeometryDefaultPml(GprMaxRegressionTest):
tags = {"test", "serial", "geometery", "box"}
sourcesdir = "src/geometry_tests/box_geometry"
model = parameter(
[
"box_full_model",
"box_half_model",
"box_single_rank",
"box_outside_pml",
"box_single_rank_outside_pml",
]
)
@rfm.simple_test
class TestBoxGeometryNoPmlMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "geometery", "box"}
mpi_layout = parameter([[2, 2, 2], [3, 3, 3], [4, 4, 4]])
serial_dependency = TestBoxGeometryNoPml
model = serial_dependency.model
@run_before("run")
def add_gprmax_commands(self):
self.prerun_cmds.append(f"echo '#pml_cells: 0' >> {self.input_file}")
@rfm.simple_test
class TestBoxGeometryDefaultPmlMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "geometery", "box"}
mpi_layout = parameter([[2, 2, 2], [3, 3, 3], [4, 4, 4]])
serial_dependency = TestBoxGeometryDefaultPml
model = serial_dependency.model
@rfm.simple_test
class TestSingleCellPml(GprMaxRegressionTest):
tags = {"test", "serial", "geometery", "box", "pml"}
sourcesdir = "src/pml_tests"
model = parameter(["single_cell_pml_2d"])
rx_outputs = ["Hx"]
@rfm.simple_test
class TestSingleCellPmlMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "geometery", "box", "pml"}
mpi_layout = parameter([[2, 2, 1], [3, 3, 1]])
serial_dependency = TestSingleCellPml
model = serial_dependency.model
rx_outputs = ["Hx"]

56
reframe_tests/tests/test_2d_models.py 普通文件
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import reframe as rfm
from reframe.core.builtins import parameter
from reframe_tests.tests.base_tests import GprMaxMPIRegressionTest, GprMaxRegressionTest
"""Reframe regression tests for 2D models (TMx, TMy, and TMz)
"""
@rfm.simple_test
class Test2DModelXY(GprMaxRegressionTest):
tags = {"test", "serial", "2d", "waveform", "hertzian_dipole"}
sourcesdir = "src/2d_tests"
model = parameter(["2D_EzHxHy"])
@rfm.simple_test
class Test2DModelXZ(GprMaxRegressionTest):
tags = {"test", "serial", "2d", "waveform", "hertzian_dipole"}
sourcesdir = "src/2d_tests"
model = parameter(["2D_EyHxHz"])
@rfm.simple_test
class Test2DModelYZ(GprMaxRegressionTest):
tags = {"test", "serial", "2d", "waveform", "hertzian_dipole"}
sourcesdir = "src/2d_tests"
model = parameter(["2D_ExHyHz"])
"""Test MPI Functionality
"""
@rfm.simple_test
class Test2DModelXYMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "2d", "waveform", "hertzian_dipole"}
mpi_layout = parameter([[4, 4, 1]])
serial_dependency = Test2DModelXY
model = serial_dependency.model
@rfm.simple_test
class Test2DModelXZMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "2d", "waveform", "hertzian_dipole"}
mpi_layout = parameter([[4, 1, 4]])
serial_dependency = Test2DModelXZ
model = serial_dependency.model
@rfm.simple_test
class Test2DModelYZMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "2d", "waveform", "hertzian_dipole"}
mpi_layout = parameter([[1, 4, 4]])
serial_dependency = Test2DModelYZ
model = serial_dependency.model

42
reframe_tests/tests/test_example_models.py 普通文件
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import reframe as rfm
from reframe.core.builtins import parameter
from reframe_tests.tests.base_tests import GprMaxBScanRegressionTest, GprMaxRegressionTest
"""Reframe regression tests for example models in gprMax documentation
"""
@rfm.simple_test
class TestAscan(GprMaxRegressionTest):
tags = {
"test",
"serial",
"ascan",
"2d",
"hertzian_dipole",
"waveform",
"material",
"box",
"cylinder",
}
sourcesdir = "src/example_models"
model = parameter(["cylinder_Ascan_2D"])
@rfm.simple_test
class TestBscan(GprMaxBScanRegressionTest):
tags = {
"test",
"serial",
"bscan",
"steps",
"waveform",
"hertzian_dipole",
"material",
"box",
"cylinder",
}
sourcesdir = "src/bscan_tests"
model = parameter(["cylinder_Bscan_2D"])
num_models = parameter([64])

74
reframe_tests/tests/test_geometry.py 普通文件
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import reframe as rfm
from reframe.core.builtins import parameter, run_before
from reframe_tests.tests.base_tests import GprMaxMPIRegressionTest, GprMaxRegressionTest
"""Reframe regression tests for models defining geometry
"""
@rfm.simple_test
class TestBoxGeometryDefaultPml(GprMaxRegressionTest):
tags = {"test", "serial", "geometery", "box"}
sourcesdir = "src/geometry_tests/box_geometry"
model = parameter(
[
"box_full_model",
"box_half_model",
"box_single_rank",
"box_outside_pml",
"box_single_rank_outside_pml",
]
)
@rfm.simple_test
class TestBoxGeometryNoPml(GprMaxRegressionTest):
tags = {"test", "serial", "geometery", "box"}
sourcesdir = "src/geometry_tests/box_geometry"
model = parameter(["box_full_model", "box_half_model", "box_single_rank"])
@run_before("run")
def add_gprmax_commands(self):
self.prerun_cmds.append(f"echo '#pml_cells: 0' >> {self.input_file}")
@rfm.simple_test
class TestEdgeGeometry(GprMaxRegressionTest):
tags = {"test", "serial", "geometry", "edge", "transmission_line", "waveform", "antenna"}
sourcesdir = "src/geomtry_tests/edge_geometry"
model = parameter(["antenna_wire_dipole_fs"])
is_antenna_model = True
"""Test MPI Functionality
"""
@rfm.simple_test
class TestBoxGeometryDefaultPmlMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "geometery", "box"}
mpi_layout = parameter([[2, 2, 2], [3, 3, 3], [4, 4, 4]])
serial_dependency = TestBoxGeometryDefaultPml
model = serial_dependency.model
@rfm.simple_test
class TestBoxGeometryNoPmlMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "geometery", "box"}
mpi_layout = parameter([[2, 2, 2], [3, 3, 3], [4, 4, 4]])
serial_dependency = TestBoxGeometryNoPml
model = serial_dependency.model
@run_before("run")
def add_gprmax_commands(self):
self.prerun_cmds.append(f"echo '#pml_cells: 0' >> {self.input_file}")
@rfm.simple_test
class TestEdgeGeometryMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "geometry", "edge", "transmission_line", "waveform", "antenna"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestEdgeGeometry
model = serial_dependency.model
is_antenna_model = True

26
reframe_tests/tests/test_materials.py 普通文件
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import reframe as rfm
from reframe.core.builtins import parameter
from reframe_tests.tests.base_tests import GprMaxMPIRegressionTest, GprMaxRegressionTest
"""Reframe regression tests for each gprMax source
"""
@rfm.simple_test
class TestDispersiveMaterials(GprMaxRegressionTest):
tags = {"test", "serial", "hertzian_dipole", "waveform", "material", "dispersive", "box"}
sourcesdir = "src/material_tests"
model = parameter(["hertzian_dipole_dispersive"])
"""Test MPI Functionality
"""
@rfm.simple_test
class TestDispersiveMaterialsMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "hertzian_dipole", "waveform", "material", "dispersive", "box"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestDispersiveMaterials
model = serial_dependency.model

28
reframe_tests/tests/test_pmls.py 普通文件
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import reframe as rfm
from reframe.core.builtins import parameter
from reframe_tests.tests.base_tests import GprMaxMPIRegressionTest, GprMaxRegressionTest
"""Reframe regression tests for models defining geometry
"""
@rfm.simple_test
class TestSingleCellPml(GprMaxRegressionTest):
tags = {"test", "serial", "geometery", "box", "pml"}
sourcesdir = "src/pml_tests"
model = parameter(["single_cell_pml_2d"])
rx_outputs = ["Hx"]
"""Test MPI Functionality
"""
@rfm.simple_test
class TestSingleCellPmlMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "geometery", "box", "pml"}
mpi_layout = parameter([[2, 2, 1], [3, 3, 1]])
serial_dependency = TestSingleCellPml
model = serial_dependency.model
rx_outputs = ["Hx"]

56
reframe_tests/tests/test_sources.py 普通文件
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import reframe as rfm
from reframe.core.builtins import parameter
from reframe_tests.tests.base_tests import GprMaxMPIRegressionTest, GprMaxRegressionTest
"""Reframe regression tests for each gprMax source
"""
@rfm.simple_test
class TestHertzianDipoleSource(GprMaxRegressionTest):
tags = {"test", "serial", "hertzian_dipole", "waveform"}
sourcesdir = "src/source_tests"
model = parameter(["hertzian_dipole_fs"])
@rfm.simple_test
class TestMagneticDipoleSource(GprMaxRegressionTest):
tags = {"test", "serial", "magnetic_dipole", "waveform"}
sourcesdir = "src/source_tests"
model = parameter(["magnetic_dipole_fs"])
@rfm.simple_test
class TestTransmissionLineSource(GprMaxRegressionTest):
tags = {"test", "serial", "transmission_line", "waveform"}
sourcesdir = "src/source_tests"
model = parameter(["transmission_line_fs"])
"""Test MPI Functionality
"""
@rfm.simple_test
class TestHertzianDipoleSourceMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "hertzian_dipole", "waveform"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestHertzianDipoleSource
model = serial_dependency.model
@rfm.simple_test
class TestMagneticDipoleSourceMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "magnetic_dipole", "waveform"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestMagneticDipoleSource
model = serial_dependency.model
@rfm.simple_test
class TestTransmissionLineSourceMpi(GprMaxMPIRegressionTest):
tags = {"test", "mpi", "transmission_line", "waveform"}
mpi_layout = parameter([[3, 3, 3]])
serial_dependency = TestTransmissionLineSource
model = serial_dependency.model

46
reframe_tests/tests/test_subgrids.py 普通文件
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import reframe as rfm
from reframe.core.builtins import parameter, run_after
from reframe_tests.tests.base_tests import GprMaxAPIRegressionTest
"""Reframe regression tests for subgrids
"""
@rfm.simple_test
class TestSubgrids(GprMaxAPIRegressionTest):
tags = {
"test",
"api",
"serial",
"subgrid",
"hertzian_dipole",
"waveform",
"material",
"dispersive",
"cylinder",
}
sourcesdir = "src/subgrid_tests"
model = parameter(["cylinder_fs"])
@rfm.simple_test
class TestSubgridsWithAntennaModel(GprMaxAPIRegressionTest):
tags = {
"test",
"api",
"serial",
"subgrid",
"antenna",
"material",
"box",
"fractal_box",
"add_surface_roughness",
}
sourcesdir = "src/subgrid_tests"
model = parameter(["gssi_400_over_fractal_subsurface"])
is_antenna_model = True
@run_after("init")
def skip_test(self):
self.skip_if(self.current_system.name == "archer2", "Takes ~1hr 30m on ARCHER2")

47
reframe_tests/tests/test_taskfarm_functionality.py 普通文件
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import reframe as rfm
from reframe_tests.tests.base_tests import GprMaxTaskfarmRegressionTest
from reframe_tests.tests.test_example_models import TestBscan
"""Reframe regression tests for taskfarm functionality
"""
@rfm.simple_test
class TestSingleNodeTaskfarm(GprMaxTaskfarmRegressionTest):
tags = {
"test",
"mpi",
"taskfarm",
"steps",
"waveform",
"hertzian_dipole",
"material",
"box",
"cylinder",
}
num_tasks = 8
num_tasks_per_node = 8
serial_dependency = TestBscan
model = serial_dependency.model
num_models = serial_dependency.num_models
@rfm.simple_test
class TestMultiNodeTaskfarm(GprMaxTaskfarmRegressionTest):
tags = {
"test",
"mpi",
"taskfarm",
"steps",
"waveform",
"hertzian_dipole",
"material",
"box",
"cylinder",
}
num_tasks = 32
num_tasks_per_node = 8
serial_dependency = TestBscan
model = serial_dependency.model
num_models = serial_dependency.num_models