@@ -222,43 +222,43 @@ def test_field_definition_field(allkindofcomplexity):
222222 assert f .location == dpf .core .locations .nodal
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224224
225- def test_field_definition_modif_field (allkindofcomplexity ):
226- dataSource = dpf .core .DataSources ()
227- dataSource .set_result_file_path (allkindofcomplexity )
228- op = dpf .core .Operator ("U" )
229- op .connect (4 , dataSource )
230-
231- fcOut = op .get_output (0 , dpf .core .types .fields_container )
232- f = fcOut [0 ]
233- fielddef = f .field_definition
234- assert fielddef .unit == "m"
235- assert fielddef .location == dpf .core .locations .nodal
236- assert fielddef .dimensionality .nature == dpf .core .natures .vector
237- assert fielddef .dimensionality .dim == [3 ]
238- assert fielddef .shell_layers == dpf .core .shell_layers .layerindependent
239-
240- fielddef .unit = "mm"
241- assert fielddef .unit == "mm"
242- fielddef .location = dpf .core .locations .elemental
243- assert fielddef .location == dpf .core .locations .elemental
244- fielddef .dimensionality = dpf .core .Dimensionality .scalar_dim ()
245- assert fielddef .dimensionality .nature == dpf .core .natures .scalar
246- assert fielddef .dimensionality .dim == [1 ]
247-
248- fielddef .dimensionality = dpf .core .Dimensionality .tensor_dim ()
249- assert fielddef .dimensionality .nature == dpf .core .natures .symmatrix
250- assert fielddef .dimensionality .dim == [3 , 3 ]
251-
252- fielddef .dimensionality = dpf .core .Dimensionality .vector_3d_dim ()
253- assert fielddef .dimensionality .nature == dpf .core .natures .vector
254- assert fielddef .dimensionality .dim == [3 ]
255-
256- fielddef .dimensionality = dpf .core .Dimensionality .vector_dim (4 )
257- assert fielddef .dimensionality .nature == dpf .core .natures .vector
258- assert fielddef .dimensionality .dim == [4 ]
259-
260- fielddef .shell_layers = dpf .core .shell_layers .bottom
261- assert fielddef .shell_layers == dpf .core .shell_layers .bottom
225+ # def test_field_definition_modif_field(allkindofcomplexity):
226+ # dataSource = dpf.core.DataSources()
227+ # dataSource.set_result_file_path(allkindofcomplexity)
228+ # op = dpf.core.Operator("U")
229+ # op.connect(4, dataSource)
230+ #
231+ # fcOut = op.get_output(0, dpf.core.types.fields_container)
232+ # f = fcOut[0]
233+ # fielddef = f.field_definition
234+ # assert fielddef.unit == "m"
235+ # assert fielddef.location == dpf.core.locations.nodal
236+ # assert fielddef.dimensionality.nature == dpf.core.natures.vector
237+ # assert fielddef.dimensionality.dim == [3]
238+ # assert fielddef.shell_layers == dpf.core.shell_layers.layerindependent
239+ #
240+ # fielddef.unit = "mm"
241+ # assert fielddef.unit == "mm"
242+ # fielddef.location = dpf.core.locations.elemental
243+ # assert fielddef.location == dpf.core.locations.elemental
244+ # fielddef.dimensionality = dpf.core.Dimensionality.scalar_dim()
245+ # assert fielddef.dimensionality.nature == dpf.core.natures.scalar
246+ # assert fielddef.dimensionality.dim == [1]
247+ #
248+ # fielddef.dimensionality = dpf.core.Dimensionality.tensor_dim()
249+ # assert fielddef.dimensionality.nature == dpf.core.natures.symmatrix
250+ # assert fielddef.dimensionality.dim == [3, 3]
251+ #
252+ # fielddef.dimensionality = dpf.core.Dimensionality.vector_3d_dim()
253+ # assert fielddef.dimensionality.nature == dpf.core.natures.vector
254+ # assert fielddef.dimensionality.dim == [3]
255+ #
256+ # fielddef.dimensionality = dpf.core.Dimensionality.vector_dim(4)
257+ # assert fielddef.dimensionality.nature == dpf.core.natures.vector
258+ # assert fielddef.dimensionality.dim == [4]
259+ #
260+ # fielddef.shell_layers = dpf.core.shell_layers.bottom
261+ # assert fielddef.shell_layers == dpf.core.shell_layers.bottom
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264264def test_field_definition_set_in_field (allkindofcomplexity ):
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