add export test so we dont break cli / kcl.py (#5553)
* add export test so we dont break cli / kcl.py Signed-off-by: Jess Frazelle <github@jessfraz.com> Overwrite created date (#5602) * updates Signed-off-by: Jess Frazelle <github@jessfraz.com> --------- Signed-off-by: Jess Frazelle <github@jessfraz.com>
This commit is contained in:
Jess Frazelle
GitHub
@ -1,7 +1,7 @@
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mod cache;
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use kcl_lib::{
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test_server::{execute_and_snapshot, execute_and_snapshot_no_auth},
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test_server::{execute_and_export_step, execute_and_snapshot, execute_and_snapshot_no_auth},
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ExecError, UnitLength,
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};
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@ -2081,3 +2081,17 @@ async fn kcl_test_ensure_nothing_left_in_batch_multi_file() {
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assert!(ctx.engine.batch().read().await.is_empty());
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assert!(ctx.engine.batch_end().read().await.is_empty());
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}
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#[tokio::test(flavor = "multi_thread")]
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async fn kcl_test_exporting_step_file() {
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// This tests export like how we do it in cli and kcl.py.
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let code = kcl_input!("helix_defaults_negative_extrude");
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let (_, _, files) = execute_and_export_step(code, UnitLength::Mm, None).await.unwrap();
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for file in files {
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expectorate::assert_contents(
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format!("e2e/executor/outputs/helix_defaults_negative_extrude_{}", file.name),
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std::str::from_utf8(&file.contents).unwrap(),
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);
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}
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}
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@ -0,0 +1,80 @@
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ISO-10303-21;
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HEADER;
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FILE_DESCRIPTION((('zoo.dev export')), '2;1');
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FILE_NAME('test.step', '2021-01-01T00:00:00Z', ('Test'), ('Zoo'), 'zoo.dev beta', 'zoo.dev', 'Test');
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FILE_SCHEMA(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF'));
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ENDSEC;
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DATA;
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#1 = (
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LENGTH_UNIT()
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NAMED_UNIT(*)
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SI_UNIT($, .METRE.)
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);
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#2 = UNCERTAINTY_MEASURE_WITH_UNIT(0.00001, #1, 'DISTANCE_ACCURACY_VALUE', $);
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#3 = (
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GEOMETRIC_REPRESENTATION_CONTEXT(3)
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GLOBAL_UNCERTAINTY_ASSIGNED_CONTEXT((#2))
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GLOBAL_UNIT_ASSIGNED_CONTEXT((#1))
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REPRESENTATION_CONTEXT('', '3D')
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);
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#4 = CARTESIAN_POINT('NONE', (0.015, -0.01, -0.005));
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#5 = VERTEX_POINT('NONE', #4);
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#6 = CARTESIAN_POINT('NONE', (0.015, 0, -0.005));
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#7 = VERTEX_POINT('NONE', #6);
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#8 = DIRECTION('NONE', (1, 0, -0));
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#9 = DIRECTION('NONE', (0, 1, 0));
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#10 = CARTESIAN_POINT('NONE', (0.005, -0.01, -0.005));
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#11 = AXIS2_PLACEMENT_3D('NONE', #10, #9, #8);
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#12 = CIRCLE('NONE', #11, 0.01);
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#13 = DIRECTION('NONE', (0, 1, 0));
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#14 = VECTOR('NONE', #13, 1);
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#15 = CARTESIAN_POINT('NONE', (0.015, -0.01, -0.005));
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#16 = LINE('NONE', #15, #14);
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#17 = DIRECTION('NONE', (1, 0, -0));
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#18 = DIRECTION('NONE', (0, 1, 0));
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#19 = CARTESIAN_POINT('NONE', (0.005, 0, -0.005));
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#20 = AXIS2_PLACEMENT_3D('NONE', #19, #18, #17);
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#21 = CIRCLE('NONE', #20, 0.01);
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#22 = EDGE_CURVE('NONE', #5, #5, #12, .T.);
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#23 = EDGE_CURVE('NONE', #5, #7, #16, .T.);
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#24 = EDGE_CURVE('NONE', #7, #7, #21, .T.);
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#25 = CARTESIAN_POINT('NONE', (0.005, -0.005, -0.005));
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#26 = DIRECTION('NONE', (0, 1, 0));
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#27 = DIRECTION('NONE', (1, 0, -0));
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#28 = AXIS2_PLACEMENT_3D('NONE', #25, #26, #27);
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#29 = CYLINDRICAL_SURFACE('NONE', #28, 0.01);
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#30 = CARTESIAN_POINT('NONE', (0, -0.01, -0));
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#31 = DIRECTION('NONE', (0, 1, 0));
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#32 = AXIS2_PLACEMENT_3D('NONE', #30, #31, $);
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#33 = PLANE('NONE', #32);
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#34 = CARTESIAN_POINT('NONE', (0, 0, -0));
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#35 = DIRECTION('NONE', (0, 1, 0));
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#36 = AXIS2_PLACEMENT_3D('NONE', #34, #35, $);
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#37 = PLANE('NONE', #36);
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#38 = ORIENTED_EDGE('NONE', *, *, #22, .T.);
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#39 = ORIENTED_EDGE('NONE', *, *, #24, .F.);
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#40 = EDGE_LOOP('NONE', (#38));
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#41 = FACE_BOUND('NONE', #40, .T.);
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#42 = EDGE_LOOP('NONE', (#39));
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#43 = FACE_BOUND('NONE', #42, .T.);
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#44 = ADVANCED_FACE('NONE', (#41, #43), #29, .T.);
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#45 = ORIENTED_EDGE('NONE', *, *, #22, .F.);
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#46 = EDGE_LOOP('NONE', (#45));
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#47 = FACE_BOUND('NONE', #46, .T.);
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#48 = ADVANCED_FACE('NONE', (#47), #33, .F.);
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#49 = ORIENTED_EDGE('NONE', *, *, #24, .T.);
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#50 = EDGE_LOOP('NONE', (#49));
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#51 = FACE_BOUND('NONE', #50, .T.);
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#52 = ADVANCED_FACE('NONE', (#51), #37, .T.);
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#53 = CLOSED_SHELL('NONE', (#44, #48, #52));
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#54 = MANIFOLD_SOLID_BREP('NONE', #53);
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#55 = APPLICATION_CONTEXT('configuration controlled 3D design of mechanical parts and assemblies');
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#56 = PRODUCT_DEFINITION_CONTEXT('part definition', #55, 'design');
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#57 = PRODUCT('UNIDENTIFIED_PRODUCT', 'NONE', $, ());
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#58 = PRODUCT_DEFINITION_FORMATION('', $, #57);
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#59 = PRODUCT_DEFINITION('design', $, #58, #56);
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#60 = PRODUCT_DEFINITION_SHAPE('NONE', $, #59);
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#61 = ADVANCED_BREP_SHAPE_REPRESENTATION('NONE', (#54), #3);
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#62 = SHAPE_DEFINITION_REPRESENTATION(#60, #61);
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ENDSEC;
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END-ISO-10303-21;
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