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kcl_lib/std/
surfaces.rs

1//! Standard library appearance.
2
3use std::collections::HashSet;
4
5use anyhow::Result;
6use kcmc::ModelingCmd;
7use kcmc::each_cmd as mcmd;
8use kittycad_modeling_cmds::length_unit::LengthUnit;
9use kittycad_modeling_cmds::ok_response::OkModelingCmdResponse;
10use kittycad_modeling_cmds::output as mout;
11use kittycad_modeling_cmds::shared::BodyType;
12use kittycad_modeling_cmds::shared::FractionOfEdge;
13use kittycad_modeling_cmds::shared::SurfaceEdgeReference;
14use kittycad_modeling_cmds::websocket::OkWebSocketResponseData;
15use kittycad_modeling_cmds::{self as kcmc};
16
17use crate::errors::KclError;
18use crate::errors::KclErrorDetails;
19use crate::execution::BoundedEdge;
20use crate::execution::ConsumedSolidOperation;
21use crate::execution::ExecState;
22use crate::execution::KclValue;
23use crate::execution::ModelingCmdMeta;
24use crate::execution::Solid;
25use crate::execution::SolidCreator;
26use crate::execution::types::ArrayLen;
27use crate::execution::types::PrimitiveType;
28use crate::execution::types::RuntimeType;
29use crate::std::Args;
30use crate::std::DEFAULT_TOLERANCE_MM;
31use crate::std::args::TyF64;
32use crate::std::edge;
33use crate::std::sketch::FaceTag;
34use crate::std::solid_consumption::record_consumed_solids;
35
36/// Flips the orientation of a surface, swapping which side is the front and which is the reverse.
37pub async fn flip_surface(exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
38    let surface = args.get_unlabeled_kw_arg("surface", &RuntimeType::solids(), exec_state)?;
39    let out = inner_flip_surface(surface, exec_state, args).await?;
40    Ok(out.into())
41}
42
43async fn inner_flip_surface(
44    surfaces: Vec<Solid>,
45    exec_state: &mut ExecState,
46    args: Args,
47) -> Result<Vec<Solid>, KclError> {
48    for surface in &surfaces {
49        exec_state
50            .batch_modeling_cmd(
51                ModelingCmdMeta::from_args(exec_state, &args),
52                ModelingCmd::from(mcmd::Solid3dFlip::builder().object_id(surface.id).build()),
53            )
54            .await?;
55    }
56
57    Ok(surfaces)
58}
59
60/// Check if this object is a solid or not.
61pub async fn is_solid(exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
62    let argument = args.get_unlabeled_kw_arg("body", &RuntimeType::solid(), exec_state)?;
63    let meta = vec![crate::execution::Metadata {
64        source_range: args.source_range,
65    }];
66
67    let res = inner_is_equal_body_type(argument, exec_state, args, BodyType::Solid).await?;
68    Ok(KclValue::Bool { value: res, meta })
69}
70
71/// Check if this object is a surface or not.
72pub async fn is_surface(exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
73    let argument = args.get_unlabeled_kw_arg("body", &RuntimeType::solid(), exec_state)?;
74    let meta = vec![crate::execution::Metadata {
75        source_range: args.source_range,
76    }];
77
78    let res = inner_is_equal_body_type(argument, exec_state, args, BodyType::Surface).await?;
79    Ok(KclValue::Bool { value: res, meta })
80}
81
82async fn inner_is_equal_body_type(
83    surface: Solid,
84    exec_state: &mut ExecState,
85    args: Args,
86    expected: BodyType,
87) -> Result<bool, KclError> {
88    let meta = ModelingCmdMeta::from_args(exec_state, &args);
89    let cmd = ModelingCmd::from(mcmd::Solid3dGetBodyType::builder().object_id(surface.id).build());
90
91    let response = exec_state.send_modeling_cmd(meta, cmd).await?;
92
93    let OkWebSocketResponseData::Modeling {
94        modeling_response: OkModelingCmdResponse::Solid3dGetBodyType(body),
95    } = response
96    else {
97        return Err(KclError::new_semantic(KclErrorDetails::new(
98            format!(
99                "Engine returned invalid response, it should have returned Solid3dGetBodyType but it returned {response:#?}"
100            ),
101            vec![args.source_range],
102        )));
103    };
104
105    Ok(expected == body.body_type)
106}
107
108pub async fn delete_face(exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
109    let body = args.get_unlabeled_kw_arg("body", &RuntimeType::solid(), exec_state)?;
110    let faces: Option<Vec<FaceTag>> = args.get_kw_arg_opt(
111        "faces",
112        &RuntimeType::Array(Box::new(RuntimeType::tagged_face()), ArrayLen::Minimum(1)),
113        exec_state,
114    )?;
115    let face_indices: Option<Vec<TyF64>> = args.get_kw_arg_opt(
116        "faceIndices",
117        &RuntimeType::Array(Box::new(RuntimeType::count()), ArrayLen::Minimum(1)),
118        exec_state,
119    )?;
120    let face_indices = if let Some(face_indices) = face_indices {
121        let faces = face_indices
122            .into_iter()
123            .map(|num| {
124                crate::try_f64_to_u32(num.n).ok_or_else(|| {
125                    KclError::new_semantic(KclErrorDetails::new(
126                        format!("Face indices must be whole numbers, got {}", num.n),
127                        vec![args.source_range],
128                    ))
129                })
130            })
131            .collect::<Result<Vec<_>, _>>()?;
132        Some(faces)
133    } else {
134        None
135    };
136    inner_delete_face(body, faces, face_indices, exec_state, args)
137        .await
138        .map(Box::new)
139        .map(|value| KclValue::Solid { value })
140}
141
142async fn inner_delete_face(
143    body: Solid,
144    tagged_faces: Option<Vec<FaceTag>>,
145    face_indices: Option<Vec<u32>>,
146    exec_state: &mut ExecState,
147    args: Args,
148) -> Result<Solid, KclError> {
149    // Validate args:
150    // User has to give us SOMETHING to delete.
151    if tagged_faces.is_none() && face_indices.is_none() {
152        return Err(KclError::new_semantic(KclErrorDetails::new(
153            "You must use either the `faces` or the `faceIndices` parameter".to_string(),
154            vec![args.source_range],
155        )));
156    }
157
158    // Early return for mock response, just return the same solid.
159    // If we tracked faces, we would remove some faces... but we don't really.
160    let no_engine_commands = args.ctx.no_engine_commands().await;
161    if no_engine_commands {
162        return Ok(body);
163    }
164
165    // Combine the list of faces, both tagged and indexed.
166    let tagged_faces = tagged_faces.unwrap_or_default();
167    let face_indices = face_indices.unwrap_or_default();
168    // Get the face's ID
169    let mut face_ids = HashSet::with_capacity(face_indices.len() + tagged_faces.len());
170
171    for tagged_face in tagged_faces {
172        let face_id = tagged_face.get_face_id(&body, exec_state, &args, false).await?;
173        face_ids.insert(face_id);
174    }
175
176    for face_index in face_indices {
177        let face_uuid_response = exec_state
178            .send_modeling_cmd(
179                ModelingCmdMeta::from_args(exec_state, &args),
180                ModelingCmd::from(
181                    mcmd::Solid3dGetFaceUuid::builder()
182                        .object_id(body.id)
183                        .face_index(face_index)
184                        .build(),
185                ),
186            )
187            .await?;
188
189        let OkWebSocketResponseData::Modeling {
190            modeling_response: OkModelingCmdResponse::Solid3dGetFaceUuid(inner_resp),
191        } = face_uuid_response
192        else {
193            return Err(KclError::new_semantic(KclErrorDetails::new(
194                format!(
195                    "Engine returned invalid response, it should have returned Solid3dGetFaceUuid but it returned {face_uuid_response:?}"
196                ),
197                vec![args.source_range],
198            )));
199        };
200        face_ids.insert(inner_resp.face_id);
201    }
202
203    // Now that we've got all the faces, delete them all.
204    let delete_face_response = exec_state
205        .send_modeling_cmd(
206            ModelingCmdMeta::from_args(exec_state, &args),
207            ModelingCmd::from(
208                mcmd::EntityDeleteChildren::builder()
209                    .entity_id(body.id)
210                    .child_entity_ids(face_ids)
211                    .build(),
212            ),
213        )
214        .await?;
215
216    let OkWebSocketResponseData::Modeling {
217        modeling_response: OkModelingCmdResponse::EntityDeleteChildren(mout::EntityDeleteChildren { .. }),
218    } = delete_face_response
219    else {
220        return Err(KclError::new_semantic(KclErrorDetails::new(
221            format!(
222                "Engine returned invalid response, it should have returned EntityDeleteChildren but it returned {delete_face_response:?}"
223            ),
224            vec![args.source_range],
225        )));
226    };
227
228    // Return the same body, it just has fewer faces.
229    Ok(body)
230}
231
232/// Create a new surface that blends between two edges of separate surface bodies
233pub async fn blend(exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
234    let edges: Vec<KclValue> = args.get_unlabeled_kw_arg(
235        "edges",
236        &RuntimeType::Array(
237            Box::new(RuntimeType::Union(vec![
238                RuntimeType::Primitive(PrimitiveType::BoundedEdge),
239                RuntimeType::tagged_edge(),
240                RuntimeType::Primitive(PrimitiveType::Any),
241            ])),
242            ArrayLen::Known(2),
243        ),
244        exec_state,
245    )?;
246
247    let mut bounded_edges = Vec::with_capacity(edges.len());
248    for edge in edges {
249        bounded_edges.push(resolve_blend_edge(edge, exec_state, &args).await?);
250    }
251
252    inner_blend(bounded_edges, exec_state, args.clone())
253        .await
254        .map(Box::new)
255        .map(|value| KclValue::Solid { value })
256}
257
258/// When edge specifiers are used, the first face in `sideFaces` is used in the
259/// [`BoundedEdge`] struct.
260async fn resolve_blend_edge(edge: KclValue, exec_state: &mut ExecState, args: &Args) -> Result<BoundedEdge, KclError> {
261    match edge {
262        KclValue::BoundedEdge { value, .. } => Ok(value),
263        KclValue::TagIdentifier(tag) => {
264            let tagged_edge = args.get_tag_engine_info(exec_state, &tag)?;
265            Ok(BoundedEdge {
266                face_id: tagged_edge.geometry.id(),
267                edge_id: Some(tagged_edge.id),
268                edge_specifier: None,
269                lower_bound: 0.0,
270                upper_bound: 1.0,
271            })
272        }
273        KclValue::Object { value: obj, .. } => {
274            let spec = edge::parse_edge_specifier_object(&obj, args)?;
275            let face_id = edge::face_id_from_first_side_face(&spec, exec_state, args)?;
276            Ok(BoundedEdge {
277                face_id,
278                edge_id: None,
279                edge_specifier: Some(spec),
280                lower_bound: 0.0,
281                upper_bound: 1.0,
282            })
283        }
284        _ => Err(KclError::new_internal(KclErrorDetails::new(
285            "Unexpected edge value while preparing blend edges. Expected BoundedEdge, tagged edge, or edge specifier object (e.g. { sideFaces = [...], endFaces = [...], index = 0 }).".to_owned(),
286            vec![args.source_range],
287        ))),
288    }
289}
290
291async fn inner_blend(edges: Vec<BoundedEdge>, exec_state: &mut ExecState, args: Args) -> Result<Solid, KclError> {
292    let id = exec_state.next_uuid();
293
294    let mut surface_refs = Vec::with_capacity(edges.len());
295    for edge in &edges {
296        let fraction = if let Some(eid) = edge.edge_id {
297            FractionOfEdge::builder()
298                .edge_id(eid)
299                .lower_bound(edge.lower_bound)
300                .upper_bound(edge.upper_bound)
301                .build()
302        } else if let Some(ref spec) = edge.edge_specifier {
303            let resolved = edge::resolve_unresolved_edge_specifier(edge.face_id, spec, exec_state, &args).await?;
304            FractionOfEdge::builder()
305                .edge_specifier(resolved)
306                .lower_bound(edge.lower_bound)
307                .upper_bound(edge.upper_bound)
308                .build()
309        } else {
310            return Err(KclError::new_internal(KclErrorDetails::new(
311                "BoundedEdge must have edge_id or edge_specifier".to_owned(),
312                vec![args.source_range],
313            )));
314        };
315        surface_refs.push(
316            SurfaceEdgeReference::builder()
317                .object_id(edge.face_id)
318                .edges(vec![fraction])
319                .build(),
320        );
321    }
322
323    exec_state
324        .batch_modeling_cmd(
325            ModelingCmdMeta::from_args_id(exec_state, &args, id),
326            ModelingCmd::from(mcmd::SurfaceBlend::builder().surfaces(surface_refs).build()),
327        )
328        .await?;
329
330    let solid = Solid {
331        id,
332        value_id: id,
333        artifact_id: id.into(),
334        value: vec![],
335        creator: SolidCreator::Procedural,
336        start_cap_id: None,
337        end_cap_id: None,
338        edge_cuts: vec![],
339        pending_edge_cut_ids: vec![],
340        units: exec_state.length_unit(),
341        sectional: false,
342        meta: vec![crate::execution::Metadata {
343            source_range: args.source_range,
344        }],
345    };
346    //TODO: How do we pass back the two new edge ids that were created?
347    Ok(solid)
348}
349
350/// Stitch multiple surfaces together into one polysurface
351pub async fn join(exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
352    let selection: Vec<Solid> = args.get_unlabeled_kw_arg("selection", &RuntimeType::solids(), exec_state)?;
353    let tolerance: Option<TyF64> = args.get_kw_arg_opt("tolerance", &RuntimeType::length(), exec_state)?;
354
355    inner_join(selection, tolerance, exec_state, args)
356        .await
357        .map(Box::new)
358        .map(|value| KclValue::Solid { value })
359}
360
361async fn inner_join(
362    selection: Vec<Solid>,
363    tolerance: Option<TyF64>,
364    exec_state: &mut ExecState,
365    args: Args,
366) -> Result<Solid, KclError> {
367    if selection.len() == 1 {
368        let cmd = mcmd::Solid3dJoin::builder().object_id(selection[0].id).build();
369
370        exec_state
371            .batch_modeling_cmd(ModelingCmdMeta::from_args(exec_state, &args), ModelingCmd::from(cmd))
372            .await?;
373
374        Ok(selection[0].clone())
375    } else {
376        let body_out_id = exec_state.next_uuid();
377
378        exec_state
379            .flush_batch_for_solids(ModelingCmdMeta::from_args(exec_state, &args), &selection)
380            .await?;
381
382        let body_ids = selection.iter().map(|body| body.id).collect();
383        let tolerance = tolerance.as_ref().map(|t| t.to_mm()).unwrap_or(DEFAULT_TOLERANCE_MM);
384        let cmd = mcmd::Solid3dMultiJoin::builder()
385            .object_ids(body_ids)
386            .tolerance(LengthUnit(tolerance))
387            .build();
388
389        exec_state
390            .batch_modeling_cmd(
391                ModelingCmdMeta::from_args_id(exec_state, &args, body_out_id),
392                ModelingCmd::from(cmd),
393            )
394            .await?;
395
396        let solid = Solid {
397            id: body_out_id,
398            value_id: body_out_id,
399            artifact_id: body_out_id.into(),
400            value: vec![],
401            creator: SolidCreator::Procedural,
402            start_cap_id: None,
403            end_cap_id: None,
404            edge_cuts: vec![],
405            pending_edge_cut_ids: vec![],
406            units: exec_state.length_unit(),
407            sectional: false,
408            meta: vec![args.source_range.into()],
409        };
410        record_consumed_solids(
411            exec_state,
412            &selection,
413            ConsumedSolidOperation::JoinSurfaces,
414            std::slice::from_ref(&solid),
415        );
416        Ok(solid)
417    }
418}