1use anyhow::Result;
4use indexmap::IndexMap;
5use kcmc::ModelingCmd;
6use kcmc::each_cmd as mcmd;
7use kcmc::length_unit::LengthUnit;
8use kcmc::shared::CutTypeV2;
9use kcmc::shared::EdgeCutVersion;
10use kittycad_modeling_cmds as kcmc;
11use serde::Deserialize;
12use serde::Serialize;
13
14use super::DEFAULT_TOLERANCE_MM;
15use super::args::TyF64;
16use crate::SourceRange;
17use crate::errors::KclError;
18use crate::errors::KclErrorDetails;
19use crate::execution::EdgeCut;
20use crate::execution::ExecState;
21use crate::execution::ExtrudeSurface;
22use crate::execution::FilletSurface;
23use crate::execution::GeoMeta;
24use crate::execution::KclValue;
25use crate::execution::ModelingCmdMeta;
26use crate::execution::Solid;
27use crate::execution::TagIdentifier;
28use crate::execution::types::RuntimeType;
29use crate::parsing::ast::types::TagNode;
30use crate::std::Args;
31use crate::std::csg::CsgAlgorithm;
32
33#[derive(Debug, Clone, Deserialize, Serialize, PartialEq, Eq, Hash)]
35#[serde(untagged)]
36pub enum EdgeReference {
37 Uuid(uuid::Uuid),
39 Tag(Box<TagIdentifier>),
41}
42
43impl EdgeReference {
44 pub fn get_engine_id(&self, exec_state: &mut ExecState, args: &Args) -> Result<uuid::Uuid, KclError> {
45 match self {
46 EdgeReference::Uuid(uuid) => Ok(*uuid),
47 EdgeReference::Tag(tag) => Ok(args.get_tag_engine_info(exec_state, tag)?.id),
48 }
49 }
50
51 pub fn get_all_engine_ids(&self, exec_state: &mut ExecState, args: &Args) -> Result<Vec<uuid::Uuid>, KclError> {
54 match self {
55 EdgeReference::Uuid(uuid) => Ok(vec![*uuid]),
56 EdgeReference::Tag(tag) => {
57 let infos = tag.get_all_cur_info();
58 if infos.is_empty() {
59 Ok(vec![args.get_tag_engine_info(exec_state, tag)?.id])
61 } else {
62 Ok(infos.iter().map(|i| i.id).collect())
63 }
64 }
65 }
66 }
67}
68
69pub(super) fn validate_unique<T: Eq + std::hash::Hash>(tags: &[(T, SourceRange)]) -> Result<(), KclError> {
70 let mut tag_counts: IndexMap<&T, Vec<SourceRange>> = Default::default();
72 for tag in tags {
73 tag_counts.entry(&tag.0).or_insert(Vec::new()).push(tag.1);
74 }
75 let mut duplicate_tags_source = Vec::new();
76 for (_tag, count) in tag_counts {
77 if count.len() > 1 {
78 duplicate_tags_source.extend(count)
79 }
80 }
81 if !duplicate_tags_source.is_empty() {
82 return Err(KclError::new_type(KclErrorDetails::new(
83 "The same edge ID is being referenced multiple times, which is not allowed. Please select a different edge"
84 .to_string(),
85 duplicate_tags_source,
86 )));
87 }
88 Ok(())
89}
90
91pub async fn fillet(exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
93 let solid = args.get_unlabeled_kw_arg("solid", &RuntimeType::solid(), exec_state)?;
94 let radius: TyF64 = args.get_kw_arg("radius", &RuntimeType::length(), exec_state)?;
95 let tolerance: Option<TyF64> = args.get_kw_arg_opt("tolerance", &RuntimeType::length(), exec_state)?;
96 let tags = args.kw_arg_edge_array_and_source("tags")?;
97 let tag = args.get_kw_arg_opt("tag", &RuntimeType::tag_decl(), exec_state)?;
98 let legacy_csg: Option<bool> = args.get_kw_arg_opt("legacyMethod", &RuntimeType::bool(), exec_state)?;
99 let csg_algorithm = CsgAlgorithm::legacy(legacy_csg.unwrap_or_default());
100 let edge_cut_number: Option<u32> = args.get_kw_arg_opt("version", &RuntimeType::count(), exec_state)?;
101 let edge_cut_version: EdgeCutVersion = edge_cut_number
102 .map(|num| {
103 num.try_into().map_err(|()| {
104 KclError::new_semantic(KclErrorDetails::new(
105 format!("{} is not a version of the Zoo edge cut algorithm", num),
106 vec![args.source_range],
107 ))
108 })
109 })
110 .transpose()?
111 .unwrap_or_default();
112
113 validate_unique(&tags)?;
115 let tags: Vec<EdgeReference> = tags.into_iter().map(|item| item.0).collect();
116 let value = inner_fillet(
117 solid,
118 radius,
119 tags,
120 tolerance,
121 csg_algorithm,
122 tag,
123 edge_cut_version,
124 exec_state,
125 args,
126 )
127 .await?;
128 Ok(KclValue::Solid { value })
129}
130
131#[allow(clippy::too_many_arguments)]
132async fn inner_fillet(
133 solid: Box<Solid>,
134 radius: TyF64,
135 tags: Vec<EdgeReference>,
136 tolerance: Option<TyF64>,
137 csg_algorithm: CsgAlgorithm,
138 tag: Option<TagNode>,
139 edge_cut_version: EdgeCutVersion,
140 exec_state: &mut ExecState,
141 args: Args,
142) -> Result<Box<Solid>, KclError> {
143 if tag.is_some() && tags.len() > 1 {
146 return Err(KclError::new_type(KclErrorDetails {
147 message: "You can only tag one edge at a time with a tagged fillet. Either delete the tag for the fillet fn if you don't need it OR separate into individual fillet functions for each tag.".to_string(),
148 source_ranges: vec![args.source_range],
149 backtrace: Default::default(),
150 }));
151 }
152 if tags.is_empty() {
153 return Err(KclError::new_semantic(KclErrorDetails {
154 source_ranges: vec![args.source_range],
155 message: "You must fillet at least one tag".to_owned(),
156 backtrace: Default::default(),
157 }));
158 }
159
160 let mut solid = solid.clone();
161 let edge_ids = tags
162 .into_iter()
163 .map(|edge_tag| edge_tag.get_all_engine_ids(exec_state, &args))
164 .try_fold(Vec::new(), |mut acc, item| match item {
165 Ok(ids) => {
166 acc.extend(ids);
167 Ok(acc)
168 }
169 Err(e) => Err(e),
170 })?;
171
172 let id = exec_state.next_uuid();
173 let mut extra_face_ids = Vec::new();
174 let num_extra_ids = edge_ids.len() - 1;
175 for _ in 0..num_extra_ids {
176 extra_face_ids.push(exec_state.next_uuid());
177 }
178 exec_state
179 .batch_end_cmd(
180 ModelingCmdMeta::from_args_id(exec_state, &args, id),
181 ModelingCmd::from(
182 mcmd::Solid3dCutEdges::builder()
183 .use_legacy(csg_algorithm.is_legacy())
184 .edge_ids(edge_ids.clone())
185 .extra_face_ids(extra_face_ids)
186 .strategy(Default::default())
187 .object_id(solid.id)
188 .version(edge_cut_version)
189 .tolerance(LengthUnit(
190 tolerance.as_ref().map(|t| t.to_mm()).unwrap_or(DEFAULT_TOLERANCE_MM),
191 ))
192 .cut_type(CutTypeV2::Fillet {
193 radius: LengthUnit(radius.to_mm()),
194 second_length: None,
195 })
196 .build(),
197 ),
198 )
199 .await?;
200
201 let new_edge_cuts = edge_ids.into_iter().map(|edge_id| EdgeCut::Fillet {
202 id,
203 edge_id,
204 radius: radius.clone(),
205 tag: Box::new(tag.clone()),
206 });
207 solid.edge_cuts.extend(new_edge_cuts);
208
209 if let Some(ref tag) = tag {
210 solid.value.push(ExtrudeSurface::Fillet(FilletSurface {
211 face_id: id,
212 tag: Some(tag.clone()),
213 geo_meta: GeoMeta {
214 id,
215 metadata: args.source_range.into(),
216 },
217 }));
218 }
219
220 Ok(solid)
221}
222
223#[cfg(test)]
224mod tests {
225 use super::*;
226
227 #[test]
228 fn test_validate_unique() {
229 let dup_a = SourceRange::from([1, 3, 0]);
230 let dup_b = SourceRange::from([10, 30, 0]);
231 let tags = vec![("abc", dup_a), ("abc", dup_b), ("def", SourceRange::from([2, 4, 0]))];
233 let actual = validate_unique(&tags);
234 let expected = vec![dup_a, dup_b];
238 assert_eq!(actual.err().unwrap().source_ranges(), expected);
239 }
240}