# $RCSfile: configuration_control_3d_design_mim_lf.ws,v $ # $Revision: 1.1 $ $Date: 2007/07/11 14:28:49 $ # Auth: David Loffredo (loffredo@steptools.com) # # AP-203e2 COMPLEX ENTITIES # # This working set file describes the complex entities that we have # found necessary for working with AP203. There may be others that # are not included here. Extend this file as needed. # # The AP203e2 specification calls for Part 21 files to have a # different schema name than what the long form EXPRESS actually uses. # Use the -name option to specify the correct one. # SCHEMA ap203_configuration_controlled_3d_design_of_mechanical_parts_and_assemblies_mim_lf \ -name configuration_control_3d_design_mim_lf \ -p28ns urn:oid:1.0.10303.203.2.1.2 # # Units # # The AP units for area, length, mass, etc. Create SI and conversion # unit combinations for most. Just SI for solid angle, because only # steradians are ever used. # ANDOR( si_unit amount_of_substance_unit ) ANDOR( si_unit electric_current_unit ) ANDOR( si_unit length_unit ) ANDOR( si_unit luminous_intensity_unit ) ANDOR( si_unit mass_unit ) ANDOR( si_unit plane_angle_unit ) ANDOR( si_unit ratio_unit ) ANDOR( si_unit solid_angle_unit ) ANDOR( si_unit thermodynamic_temperature_unit ) ANDOR( si_unit time_unit ) # no conversion based solid angle or ratio ANDOR( conversion_based_unit mass_unit ) ANDOR( conversion_based_unit length_unit ) ANDOR( conversion_based_unit plane_angle_unit ) ANDOR( conversion_based_unit time_unit ) # # Measure Descriptions -- These combine measure rep item with a # measure with unit subtype. This allows the value to be put in a # representation and the subtype identifies the kind of measure. # ANDOR( measure_representation_item length_measure_with_unit ) ANDOR( measure_representation_item length_measure_with_unit \ qualified_representation_item ) ANDOR( measure_representation_item mass_measure_with_unit ) ANDOR( measure_representation_item mass_measure_with_unit \ qualified_representation_item ) ANDOR( measure_representation_item plane_angle_measure_with_unit ) ANDOR( measure_representation_item plane_angle_measure_with_unit \ qualified_representation_item ) ANDOR( measure_representation_item time_measure_with_unit ) ANDOR( measure_representation_item time_measure_with_unit \ qualified_representation_item ) ANDOR( measure_representation_item amount_of_substance_measure_with_unit ) ANDOR( measure_representation_item celsius_temperature_measure_with_unit ) ANDOR( measure_representation_item electric_current_measure_with_unit ) ANDOR( measure_representation_item luminous_intensity_measure_with_unit ) ANDOR( measure_representation_item ratio_measure_with_unit ) ANDOR( measure_representation_item solid_angle_measure_with_unit ) ANDOR( measure_representation_item \ thermodynamic_temperature_measure_with_unit ) ANDOR( length_measure_with_unit uncertainty_measure_with_unit ) # for qualified speeds and pressures ANDOR( measure_representation_item qualified_representation_item ) # # Contexts and relationships # ANDOR( geometric_representation_context \ global_uncertainty_assigned_context \ global_unit_assigned_context ) ANDOR( geometric_representation_context \ global_unit_assigned_context ) ANDOR( geometric_representation_context \ parametric_representation_context ) # # Spline curves and surfaces (nurbs) # ANDOR( rational_b_spline_curve b_spline_curve_with_knots ) ANDOR( rational_b_spline_curve bezier_curve ) ANDOR( rational_b_spline_curve quasi_uniform_curve ) ANDOR( rational_b_spline_curve uniform_curve ) ANDOR( rational_b_spline_surface b_spline_surface_with_knots ) ANDOR( rational_b_spline_surface bezier_surface ) ANDOR( rational_b_spline_surface quasi_uniform_surface ) ANDOR( rational_b_spline_surface uniform_surface ) ANDOR( brep_with_voids faceted_brep ) # Replaced by bounded_surface_curve in current APs ANDOR( bounded_curve surface_curve ) ANDOR( definitional_representation \ shape_representation ) ANDOR( representation_relationship_with_transformation \ shape_representation_relationship ) # # Assemblies # ANDOR( next_assembly_usage_occurrence \ quantified_assembly_component_usage ) # # Effectivities # ANDOR( configuration_effectivity dated_effectivity ) ANDOR( configuration_effectivity lot_effectivity ) ANDOR( configuration_effectivity serial_numbered_effectivity ) # ============================================================ # GD&T Definitions # # The way the GD&T definitions are handled in STEP requires a fair # number of complex types. In particular, optional components of some # tolerances are handled by adding a type as a complex. Keeping this # in mind, you will see that most of the complex types below are just # adding a path, modification, or measurement segment size to one of # the base geometric tolerance types from AIC 519. # # DIMENSIONS -- the externally defined size dimension can form a # complex instance if a path is specified, and the location dimensions # form a complex instance if they are "directed" # ANDOR( externally_defined_dimension_definition \ dimensional_size_with_path ) ANDOR( directed_dimensional_location angular_location ) ANDOR( directed_dimensional_location dimensional_location_with_path ) # DATUMS based on derived shapes -- These are represented as a complex # instance of datum plus derived_shape_aspect or one of the subtypes. # ANDOR( datum derived_shape_aspect ) ANDOR( datum apex ) ANDOR( datum centre_of_symmetry ) ANDOR( datum extension ) ANDOR( datum geometric_alignment ) ANDOR( datum geometric_intersection ) ANDOR( datum parallel_offset ) ANDOR( datum perpendicular_to ) ANDOR( datum tangent ) # TOLERANCES -- The geometric tolerances can form a complex instance # with "modified geometric tolerance" to add a condition like maximum # material extent. The can also be combines with "geometric tolerance # with defined unit" to specify a segment size. The AP-214/1050 ARM # allows this for any, but AP-224 restricts to angularity, flatness, # parallelism, perpendicularity, and straightness. # # The position, line profile, and surface profile tolerances can also # be associated with a datum reference, so we need a complex instance # that includes that GTWDR as well. This is a bit unwieldy, but that # is the way it was modeled. # ANDOR( angularity_tolerance modified_geometric_tolerance ) ANDOR( angularity_tolerance geometric_tolerance_with_defined_unit ) ANDOR( angularity_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( circular_runout_tolerance modified_geometric_tolerance ) ANDOR( circular_runout_tolerance geometric_tolerance_with_defined_unit ) ANDOR( circular_runout_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( coaxiality_tolerance modified_geometric_tolerance ) ANDOR( coaxiality_tolerance geometric_tolerance_with_defined_unit ) ANDOR( coaxiality_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( concentricity_tolerance modified_geometric_tolerance ) ANDOR( concentricity_tolerance geometric_tolerance_with_defined_unit ) ANDOR( concentricity_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( cylindricity_tolerance modified_geometric_tolerance ) ANDOR( cylindricity_tolerance geometric_tolerance_with_defined_unit ) ANDOR( cylindricity_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( flatness_tolerance modified_geometric_tolerance ) ANDOR( flatness_tolerance geometric_tolerance_with_defined_unit ) ANDOR( flatness_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( line_profile_tolerance modified_geometric_tolerance ) ANDOR( line_profile_tolerance geometric_tolerance_with_defined_unit ) ANDOR( line_profile_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) # Line profile may have datums, so we need these combinations too ANDOR( line_profile_tolerance geometric_tolerance_with_datum_reference ) ANDOR( line_profile_tolerance geometric_tolerance_with_datum_reference \ modified_geometric_tolerance ) ANDOR( line_profile_tolerance geometric_tolerance_with_datum_reference \ geometric_tolerance_with_defined_unit ) ANDOR( line_profile_tolerance geometric_tolerance_with_datum_reference \ geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( parallelism_tolerance modified_geometric_tolerance ) ANDOR( parallelism_tolerance geometric_tolerance_with_defined_unit ) ANDOR( parallelism_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( perpendicularity_tolerance modified_geometric_tolerance ) ANDOR( perpendicularity_tolerance geometric_tolerance_with_defined_unit ) ANDOR( perpendicularity_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( position_tolerance modified_geometric_tolerance ) ANDOR( position_tolerance geometric_tolerance_with_defined_unit ) ANDOR( position_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) # Positions may have datums, so we need these combinations too ANDOR( position_tolerance geometric_tolerance_with_datum_reference ) ANDOR( position_tolerance geometric_tolerance_with_datum_reference \ modified_geometric_tolerance ) ANDOR( position_tolerance geometric_tolerance_with_datum_reference \ geometric_tolerance_with_defined_unit ) ANDOR( position_tolerance geometric_tolerance_with_datum_reference \ geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( roundness_tolerance modified_geometric_tolerance ) ANDOR( roundness_tolerance geometric_tolerance_with_defined_unit ) ANDOR( roundness_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( straightness_tolerance modified_geometric_tolerance ) ANDOR( straightness_tolerance geometric_tolerance_with_defined_unit ) ANDOR( straightness_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( surface_profile_tolerance modified_geometric_tolerance ) ANDOR( surface_profile_tolerance geometric_tolerance_with_defined_unit ) ANDOR( surface_profile_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) # Surface profiles may have datums, so we need these combinations too ANDOR( surface_profile_tolerance geometric_tolerance_with_datum_reference ) ANDOR( surface_profile_tolerance geometric_tolerance_with_datum_reference \ modified_geometric_tolerance ) ANDOR( surface_profile_tolerance geometric_tolerance_with_datum_reference \ geometric_tolerance_with_defined_unit ) ANDOR( surface_profile_tolerance geometric_tolerance_with_datum_reference \ geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( symmetry_tolerance modified_geometric_tolerance ) ANDOR( symmetry_tolerance geometric_tolerance_with_defined_unit ) ANDOR( symmetry_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) ANDOR( total_runout_tolerance modified_geometric_tolerance ) ANDOR( total_runout_tolerance geometric_tolerance_with_defined_unit ) ANDOR( total_runout_tolerance geometric_tolerance_with_defined_unit \ modified_geometric_tolerance ) # This is not in the ARM, but is an artifact from some early tests # where the type was given as a string rather than a subtypes ANDOR( modified_geometric_tolerance geometric_tolerance_with_datum_reference )