1use crate::vocab::{Rdf, Rdfs, OWL};
2use ontocore_core::{
3 limits::{MAX_FILE_BYTES, MAX_TRIPLES_PER_FILE},
4 read_file_capped, Annotation, Axiom, Entity, EntityKind, Import, Namespace, OntologyFormat,
5 ParseStatus, SourceLocation, AXIOM_KIND_SUB_CLASS_OF,
6};
7use oxigraph::io::{RdfFormat, RdfParseError, RdfParser};
8use oxigraph::model::{GraphName, Literal, NamedNode, Quad, Subject, Term};
9use std::collections::{BTreeMap, BTreeSet, HashMap};
10#[cfg(test)]
11use std::fs;
12use std::path::Path;
13use thiserror::Error;
14
15#[derive(Debug, Error)]
16pub enum ParseError {
17 #[error("IO error: {0}")]
18 Io(#[from] std::io::Error),
19
20 #[error("RDF parse error: {0}")]
21 Rdf(String),
22
23 #[error("unsupported format: {0}")]
24 UnsupportedFormat(String),
25
26 #[error("limit exceeded: {0}")]
27 LimitExceeded(String),
28}
29
30pub type Result<T> = std::result::Result<T, ParseError>;
31
32#[derive(Debug, Clone)]
33pub struct ParsedOntology {
34 pub ontology_id: String,
35 pub base_iri: Option<String>,
36 pub imports: Vec<String>,
37 pub namespaces: BTreeMap<String, String>,
38 pub entities: Vec<Entity>,
39 pub annotations: Vec<Annotation>,
40 pub axioms: Vec<Axiom>,
41 pub namespace_rows: Vec<Namespace>,
42 pub import_rows: Vec<Import>,
43 pub parse_status: ParseStatus,
44 pub parse_message: Option<String>,
45 pub parse_error_location: Option<SourceLocation>,
46 pub triple_count: usize,
47 quads: Vec<Quad>,
48}
49
50impl ParsedOntology {
51 #[doc(hidden)]
53 pub fn quads(&self) -> &[Quad] {
54 &self.quads
55 }
56}
57
58pub fn parse_ontology_file(
59 path: &Path,
60 format: OntologyFormat,
61 ontology_id: &str,
62 content_hash: &str,
63 modified_time: u64,
64) -> Result<ParsedOntology> {
65 if format == OntologyFormat::Obo {
66 return crate::obo::parse_obo_file(path, ontology_id, content_hash, modified_time);
67 }
68 let _ = (content_hash, modified_time);
69 let content = read_file_capped(path, MAX_FILE_BYTES)
70 .map_err(|e| ParseError::LimitExceeded(e.to_string()))?;
71 let source_text = String::from_utf8_lossy(&content).into_owned();
72 parse_ontology_text(path, format, ontology_id, &source_text, &content)
73}
74
75pub fn parse_ontology_text(
77 path: &Path,
78 format: OntologyFormat,
79 ontology_id: &str,
80 source_text: &str,
81 raw_bytes: &[u8],
82) -> Result<ParsedOntology> {
83 if source_text.len() as u64 > MAX_FILE_BYTES || raw_bytes.len() as u64 > MAX_FILE_BYTES {
84 return Err(ParseError::LimitExceeded(format!(
85 "source exceeds {MAX_FILE_BYTES} bytes: {}",
86 path.display()
87 )));
88 }
89 if format == OntologyFormat::Obo {
90 return crate::obo::parse_obo_text(path, ontology_id, source_text);
91 }
92 let rdf_format = to_rdf_format(format, path)?;
93
94 let mut quads = Vec::new();
95 let mut parse_message = None;
96 let mut parse_error_location = None;
97 let mut parse_status = ParseStatus::Ok;
98
99 let parser = RdfParser::from_format(rdf_format);
100 for quad in parser.for_reader(raw_bytes) {
101 match quad {
102 Ok(q) => {
103 if quads.len() >= MAX_TRIPLES_PER_FILE {
104 return Err(ParseError::LimitExceeded(format!(
105 "file exceeds {MAX_TRIPLES_PER_FILE} triples: {}",
106 path.display()
107 )));
108 }
109 quads.push(q);
110 }
111 Err(e) => {
112 parse_status = ParseStatus::Error;
113 parse_message = Some(format_parse_error(&e));
114 parse_error_location = extract_parse_error_location(&e, source_text);
115 break;
116 }
117 }
118 }
119
120 if parse_status == ParseStatus::Error && quads.is_empty() {
122 return Ok(empty_result(
123 ontology_id,
124 parse_status,
125 parse_message,
126 parse_error_location,
127 BTreeMap::new(),
128 ));
129 }
130
131 let mut namespaces =
132 if format == OntologyFormat::TriG { extract_prefixes(&quads) } else { BTreeMap::new() };
133 namespaces.extend(extract_declared_prefixes(source_text, format));
134 if namespaces.is_empty() {
135 namespaces.insert("".to_string(), default_base_iri(path));
136 }
137
138 let mut builder = OntologyBuilder::new(ontology_id.to_string(), namespaces.clone());
139 for quad in &quads {
140 builder.ingest_quad(quad);
141 }
142 builder.finish(parse_status, parse_message, parse_error_location, source_text, quads)
143}
144
145fn to_rdf_format(format: OntologyFormat, path: &Path) -> Result<RdfFormat> {
146 match format {
147 OntologyFormat::Turtle => Ok(RdfFormat::Turtle),
148 OntologyFormat::RdfXml | OntologyFormat::Owl => Ok(RdfFormat::RdfXml),
149 OntologyFormat::JsonLd => Ok(RdfFormat::JsonLd { profile: Default::default() }),
150 OntologyFormat::NTriples => Ok(RdfFormat::NTriples),
151 OntologyFormat::NQuads => Ok(RdfFormat::NQuads),
152 OntologyFormat::TriG => Ok(RdfFormat::TriG),
153 OntologyFormat::Obo => {
154 Err(ParseError::UnsupportedFormat("OBO format must use parse_obo_text".to_string()))
155 }
156 OntologyFormat::Unknown => Err(ParseError::UnsupportedFormat(path.display().to_string())),
157 }
158}
159
160fn format_parse_error(error: &RdfParseError) -> String {
161 error.to_string()
162}
163
164fn extract_parse_error_location(
165 error: &RdfParseError,
166 _source_text: &str,
167) -> Option<SourceLocation> {
168 let msg = error.to_string();
169 let line = msg.split_whitespace().collect::<Vec<_>>().windows(2).find_map(|w| {
170 if w[0].eq_ignore_ascii_case("line") {
171 w[1].trim_end_matches(':').parse().ok()
172 } else {
173 None
174 }
175 });
176 let column = msg.split_whitespace().collect::<Vec<_>>().windows(2).find_map(|w| {
177 if w[0].eq_ignore_ascii_case("column") || w[0].eq_ignore_ascii_case("col") {
178 w[1].trim_end_matches(':').parse().ok()
179 } else {
180 None
181 }
182 });
183 if line.is_some() || column.is_some() {
184 Some(SourceLocation { line, column, ..Default::default() })
185 } else {
186 None
187 }
188}
189
190fn default_base_iri(path: &Path) -> String {
191 format!("file://{}", path.display())
192}
193
194fn extract_declared_prefixes(
195 source_text: &str,
196 format: OntologyFormat,
197) -> BTreeMap<String, String> {
198 let mut prefixes = BTreeMap::new();
199
200 if matches!(format, OntologyFormat::Turtle | OntologyFormat::TriG) {
201 for line in source_text.lines() {
202 let trimmed = line.trim();
203 let rest = trimmed
204 .strip_prefix("@prefix ")
205 .or_else(|| trimmed.strip_prefix("@PREFIX "))
206 .or_else(|| trimmed.strip_prefix("PREFIX "));
207 let Some(rest) = rest else {
208 continue;
209 };
210 let Some((prefix_part, iri_part)) = rest.split_once('<') else {
211 continue;
212 };
213 let prefix = prefix_part.trim().trim_end_matches(':');
214 let Some(iri) = iri_part.split('>').next() else {
215 continue;
216 };
217 prefixes.insert(prefix.to_string(), iri.to_string());
218 }
219 return prefixes;
220 }
221
222 if matches!(format, OntologyFormat::RdfXml | OntologyFormat::Owl) {
223 static XMLNS_ATTR: std::sync::LazyLock<regex::Regex> = std::sync::LazyLock::new(|| {
224 regex::Regex::new(r#"xmlns(?::([A-Za-z][\w-]*))?="([^"]+)""#).expect("xmlns regex")
225 });
226 for cap in XMLNS_ATTR.captures_iter(source_text) {
227 let prefix = cap.get(1).map(|m| m.as_str()).unwrap_or("");
228 let iri = cap.get(2).map(|m| m.as_str()).unwrap_or("");
229 if !iri.is_empty() {
230 prefixes.insert(prefix.to_string(), iri.to_string());
231 }
232 }
233 }
234
235 prefixes
236}
237
238fn extract_prefixes(quads: &[Quad]) -> BTreeMap<String, String> {
239 let mut prefixes = BTreeMap::new();
240 for quad in quads {
241 if let oxigraph::model::GraphNameRef::NamedNode(graph) = quad.graph_name.as_ref() {
242 let iri = graph.as_str();
243 if let Some((prefix, _)) = iri.rsplit_once('#') {
244 if let Some((p, _)) = prefix.rsplit_once('/') {
245 prefixes
246 .entry(short_name_from_iri(p))
247 .or_insert_with(|| format!("{}/", prefix.trim_end_matches('#')));
248 }
249 }
250 }
251 }
252 prefixes
253}
254
255pub(crate) fn assemble_parsed_ontology(
256 ontology_id: &str,
257 base_iri: Option<String>,
258 namespaces: BTreeMap<String, String>,
259 entities: Vec<Entity>,
260 annotations: Vec<Annotation>,
261 axioms: Vec<Axiom>,
262) -> ParsedOntology {
263 let namespace_rows: Vec<Namespace> = namespaces
264 .iter()
265 .map(|(prefix, iri)| Namespace {
266 prefix: prefix.clone(),
267 iri: iri.clone(),
268 ontology_id: ontology_id.to_string(),
269 })
270 .collect();
271 let quads = materialize_catalog_quads(&entities, &annotations, &axioms);
272 let triple_count = quads.len().max(entities.len() + annotations.len() + axioms.len());
273 ParsedOntology {
274 ontology_id: ontology_id.to_string(),
275 base_iri,
276 imports: Vec::new(),
277 namespaces: namespaces.clone(),
278 entities,
279 annotations,
280 axioms,
281 namespace_rows,
282 import_rows: Vec::new(),
283 parse_status: ParseStatus::Ok,
284 parse_message: None,
285 parse_error_location: None,
286 triple_count,
287 quads,
288 }
289}
290
291fn materialize_catalog_quads(
293 entities: &[Entity],
294 annotations: &[Annotation],
295 axioms: &[Axiom],
296) -> Vec<Quad> {
297 let mut quads = Vec::new();
298 for entity in entities {
299 let Some(subject) = named_node(&entity.iri) else {
300 continue;
301 };
302 let type_iri = match entity.kind {
303 EntityKind::Class => OWL::class(),
304 EntityKind::ObjectProperty => OWL::object_property(),
305 EntityKind::DataProperty => OWL::datatype_property(),
306 EntityKind::AnnotationProperty => OWL::annotation_property(),
307 EntityKind::Individual => OWL::named_individual(),
308 EntityKind::Ontology => OWL::ontology(),
309 EntityKind::Other => continue,
310 };
311 quads.push(Quad::new(
312 subject.clone(),
313 Rdf::type_().into_owned(),
314 type_iri.into_owned(),
315 GraphName::DefaultGraph,
316 ));
317 for label in &entity.labels {
318 quads.push(Quad::new(
319 subject.clone(),
320 Rdfs::label().into_owned(),
321 Literal::new_simple_literal(label),
322 GraphName::DefaultGraph,
323 ));
324 }
325 for comment in &entity.comments {
326 quads.push(Quad::new(
327 subject.clone(),
328 Rdfs::comment().into_owned(),
329 Literal::new_simple_literal(comment),
330 GraphName::DefaultGraph,
331 ));
332 }
333 if entity.deprecated {
334 quads.push(Quad::new(
335 subject,
336 OWL::deprecated().into_owned(),
337 Literal::from(true),
338 GraphName::DefaultGraph,
339 ));
340 }
341 }
342 for axiom in axioms {
343 if axiom.axiom_kind != AXIOM_KIND_SUB_CLASS_OF {
344 continue;
345 }
346 let (Some(s), Some(o)) = (named_node(&axiom.subject), named_node(&axiom.object)) else {
347 continue;
348 };
349 quads.push(Quad::new(s, Rdfs::sub_class_of().into_owned(), o, GraphName::DefaultGraph));
350 }
351 for ann in annotations {
352 let Some(s) = named_node(&ann.subject) else {
353 continue;
354 };
355 let pred_iri = expand_annotation_predicate(&ann.predicate);
356 let Some(p) = pred_iri.as_deref().and_then(named_node) else {
357 continue;
358 };
359 if let Some(o) = named_node(&ann.object) {
360 quads.push(Quad::new(s, p, o, GraphName::DefaultGraph));
361 } else {
362 quads.push(Quad::new(
363 s,
364 p,
365 Literal::new_simple_literal(&ann.object),
366 GraphName::DefaultGraph,
367 ));
368 }
369 }
370 quads
371}
372
373fn named_node(iri: &str) -> Option<NamedNode> {
374 NamedNode::new(iri).ok()
375}
376
377fn expand_annotation_predicate(pred: &str) -> Option<String> {
379 if pred.contains("://") {
380 return Some(pred.to_string());
381 }
382 match pred {
383 "obo:hasExactSynonym" => {
384 Some("http://www.geneontology.org/formats/oboInOwl#hasExactSynonym".to_string())
385 }
386 "obo:hasDbXref" => {
387 Some("http://www.geneontology.org/formats/oboInOwl#hasDbXref".to_string())
388 }
389 _ => None,
390 }
391}
392
393fn empty_result(
394 ontology_id: &str,
395 parse_status: ParseStatus,
396 parse_message: Option<String>,
397 parse_error_location: Option<SourceLocation>,
398 namespaces: BTreeMap<String, String>,
399) -> ParsedOntology {
400 ParsedOntology {
401 ontology_id: ontology_id.to_string(),
402 base_iri: namespaces.values().next().cloned(),
403 imports: Vec::new(),
404 namespaces: namespaces.clone(),
405 entities: Vec::new(),
406 annotations: Vec::new(),
407 axioms: Vec::new(),
408 namespace_rows: namespaces
409 .into_iter()
410 .map(|(prefix, iri)| Namespace { prefix, iri, ontology_id: ontology_id.to_string() })
411 .collect(),
412 import_rows: Vec::new(),
413 parse_status,
414 parse_message,
415 parse_error_location,
416 triple_count: 0,
417 quads: Vec::new(),
418 }
419}
420
421struct EntityState {
422 kind: EntityKind,
423 labels: Vec<String>,
424 comments: Vec<String>,
425 deprecated: bool,
426 types: BTreeSet<String>,
427}
428
429struct OntologyBuilder {
430 ontology_id: String,
431 namespaces: BTreeMap<String, String>,
432 entities: HashMap<String, EntityState>,
433 annotations: Vec<Annotation>,
434 axioms: Vec<Axiom>,
435 imports: BTreeSet<String>,
436 ontology_iris: BTreeSet<String>,
437 triple_count: usize,
438 axiom_counter: usize,
439}
440
441impl OntologyBuilder {
442 fn new(ontology_id: String, namespaces: BTreeMap<String, String>) -> Self {
443 Self {
444 ontology_id,
445 namespaces,
446 entities: HashMap::new(),
447 annotations: Vec::new(),
448 axioms: Vec::new(),
449 imports: BTreeSet::new(),
450 ontology_iris: BTreeSet::new(),
451 triple_count: 0,
452 axiom_counter: 0,
453 }
454 }
455
456 fn ingest_quad(&mut self, quad: &Quad) {
457 self.triple_count += 1;
458 let subject = subject_to_string(&quad.subject);
459 let predicate = quad.predicate.as_str().to_string();
460 let object = term_to_string(&quad.object);
461
462 if quad.predicate == Rdf::type_() {
463 if let Term::NamedNode(node) = &quad.object {
464 let type_iri = node.as_str();
465 if type_iri == OWL::ontology().as_str() {
466 self.ontology_iris.insert(subject.clone());
467 }
468 let kind = entity_kind_for_type(type_iri);
469 if kind != EntityKind::Other {
470 let entry =
471 self.entities.entry(subject.clone()).or_insert_with(|| EntityState {
472 kind,
473 labels: Vec::new(),
474 comments: Vec::new(),
475 deprecated: false,
476 types: BTreeSet::new(),
477 });
478 entry.types.insert(type_iri.to_string());
479 if entry.kind == EntityKind::Other
480 || kind_priority(kind) > kind_priority(entry.kind)
481 {
482 entry.kind = kind;
483 }
484 }
485 }
486 return;
487 }
488
489 if quad.predicate == OWL::imports() {
490 self.imports.insert(object.clone());
491 return;
492 }
493
494 if quad.predicate == Rdfs::label() {
495 if let Some(entity) = self.entities.get_mut(&subject) {
496 entity.labels.push(object.clone());
497 } else {
498 self.entities.entry(subject.clone()).or_insert_with(|| EntityState {
499 kind: EntityKind::Other,
500 labels: vec![object.clone()],
501 comments: Vec::new(),
502 deprecated: false,
503 types: BTreeSet::new(),
504 });
505 }
506 self.annotations.push(Annotation {
507 subject: subject.clone(),
508 predicate: predicate.clone(),
509 object: object.clone(),
510 ontology_id: self.ontology_id.clone(),
511 source_location: SourceLocation::default(),
512 });
513 return;
514 }
515
516 if quad.predicate == Rdfs::comment() {
517 if let Some(entity) = self.entities.get_mut(&subject) {
518 entity.comments.push(object.clone());
519 } else {
520 self.entities.entry(subject.clone()).or_insert_with(|| EntityState {
521 kind: EntityKind::Other,
522 labels: Vec::new(),
523 comments: vec![object.clone()],
524 deprecated: false,
525 types: BTreeSet::new(),
526 });
527 }
528 self.annotations.push(Annotation {
529 subject: subject.clone(),
530 predicate: predicate.clone(),
531 object: object.clone(),
532 ontology_id: self.ontology_id.clone(),
533 source_location: SourceLocation::default(),
534 });
535 return;
536 }
537
538 if quad.predicate == OWL::deprecated() {
539 let entry = self.entities.entry(subject.clone()).or_insert_with(|| EntityState {
540 kind: EntityKind::Other,
541 labels: Vec::new(),
542 comments: Vec::new(),
543 deprecated: false,
544 types: BTreeSet::new(),
545 });
546 entry.deprecated = ontocore_core::parse_boolean_literal(&object).unwrap_or(false);
547 return;
548 }
549
550 if quad.predicate == Rdfs::sub_class_of() {
551 self.axiom_counter += 1;
552 self.axioms.push(Axiom {
553 id: format!("{}#axiom-{}", self.ontology_id, self.axiom_counter),
554 ontology_id: self.ontology_id.clone(),
555 subject: subject.clone(),
556 predicate: predicate.clone(),
557 object: object.clone(),
558 axiom_kind: AXIOM_KIND_SUB_CLASS_OF.to_string(),
559 source_location: SourceLocation::default(),
560 });
561 }
562 }
563
564 fn finish(
565 self,
566 parse_status: ParseStatus,
567 parse_message: Option<String>,
568 parse_error_location: Option<SourceLocation>,
569 source_text: &str,
570 quads: Vec<Quad>,
571 ) -> Result<ParsedOntology> {
572 let base_iri = self
573 .ontology_iris
574 .iter()
575 .next()
576 .cloned()
577 .or_else(|| self.namespaces.get("").cloned())
578 .or_else(|| self.namespaces.values().next().cloned());
579
580 let ontology_id = if let Some(iri) = self.ontology_iris.iter().next() {
581 iri.clone()
582 } else {
583 self.ontology_id.clone()
584 };
585
586 let mut entities = Vec::new();
587 for (iri, state) in &self.entities {
588 if state.kind == EntityKind::Other {
589 continue;
590 }
591 let short_name = short_name_from_iri(iri);
592 entities.push(Entity {
593 iri: iri.clone(),
594 short_name: short_name.clone(),
595 kind: state.kind,
596 ontology_id: ontology_id.clone(),
597 source_location: find_entity_source_location(
598 source_text,
599 iri,
600 &short_name,
601 &self.namespaces,
602 ),
603 labels: state.labels.clone(),
604 comments: state.comments.clone(),
605 deprecated: state.deprecated,
606 obo_id: None,
607 });
608 }
609 entities.sort_by(|a, b| a.iri.cmp(&b.iri));
610
611 let namespace_rows = self
612 .namespaces
613 .iter()
614 .map(|(prefix, iri)| Namespace {
615 prefix: prefix.clone(),
616 iri: iri.clone(),
617 ontology_id: ontology_id.clone(),
618 })
619 .collect();
620
621 let import_rows = self
622 .imports
623 .iter()
624 .map(|import_iri| Import {
625 ontology_id: ontology_id.clone(),
626 import_iri: import_iri.clone(),
627 })
628 .collect();
629
630 let mut annotations = self.annotations;
631 for ann in &mut annotations {
632 ann.ontology_id = ontology_id.clone();
633 }
634 let mut axioms = self.axioms;
635 for axiom in &mut axioms {
636 axiom.ontology_id = ontology_id.clone();
637 }
638
639 Ok(ParsedOntology {
640 ontology_id,
641 base_iri,
642 imports: self.imports.into_iter().collect(),
643 namespaces: self.namespaces.clone(),
644 entities,
645 annotations,
646 axioms,
647 namespace_rows,
648 import_rows,
649 parse_status,
650 parse_message,
651 parse_error_location,
652 triple_count: self.triple_count,
653 quads,
654 })
655 }
656}
657
658fn entity_kind_for_type(type_iri: &str) -> EntityKind {
659 match type_iri {
660 t if t == OWL::class().as_str() || t == Rdfs::class().as_str() => EntityKind::Class,
661 t if t == OWL::object_property().as_str() => EntityKind::ObjectProperty,
662 t if t == OWL::datatype_property().as_str() => EntityKind::DataProperty,
663 t if t == OWL::annotation_property().as_str() => EntityKind::AnnotationProperty,
664 t if t == OWL::named_individual().as_str() => EntityKind::Individual,
665 t if t == OWL::ontology().as_str() => EntityKind::Ontology,
666 _ => EntityKind::Other,
667 }
668}
669
670fn kind_priority(kind: EntityKind) -> u8 {
671 match kind {
672 EntityKind::Class => 5,
673 EntityKind::ObjectProperty => 5,
674 EntityKind::DataProperty => 5,
675 EntityKind::AnnotationProperty => 5,
676 EntityKind::Individual => 4,
677 EntityKind::Ontology => 3,
678 EntityKind::Other => 0,
679 }
680}
681
682fn subject_to_string(subject: &Subject) -> String {
683 match subject {
684 Subject::NamedNode(node) => node.as_str().to_string(),
685 Subject::BlankNode(node) => format!("_:{}", node.as_str()),
686 #[allow(unreachable_patterns)]
687 _ => subject.to_string(),
688 }
689}
690
691fn term_to_string(term: &Term) -> String {
692 match term {
693 Term::NamedNode(node) => node.as_str().to_string(),
694 Term::BlankNode(node) => format!("_:{}", node.as_str()),
695 Term::Literal(lit) => lit.value().to_string(),
696 #[allow(unreachable_patterns)]
697 _ => term.to_string(),
698 }
699}
700
701fn find_entity_source_location(
702 source_text: &str,
703 iri: &str,
704 short_name: &str,
705 namespaces: &BTreeMap<String, String>,
706) -> SourceLocation {
707 let mut needles = vec![iri.to_string(), format!("<{iri}>"), format!(":{short_name}")];
708 for (prefix, ns) in namespaces {
709 if iri.starts_with(ns) && !prefix.is_empty() {
710 needles.push(format!("{prefix}:{short_name}"));
711 }
712 }
713 for line in source_text.lines() {
714 let trimmed = line.trim();
715 if !(trimmed.starts_with("@prefix")
716 || trimmed.starts_with("@PREFIX")
717 || trimmed.starts_with("PREFIX "))
718 {
719 continue;
720 }
721 let prefix_kw_len = if trimmed.to_ascii_lowercase().starts_with("@prefix ") {
722 "@prefix ".len()
723 } else if trimmed.to_ascii_lowercase().starts_with("prefix ") {
724 "PREFIX ".len()
725 } else {
726 continue;
727 };
728 if let Some(colon) = trimmed.find(':') {
729 if colon < prefix_kw_len {
730 continue;
731 }
732 let prefix = trimmed[prefix_kw_len..colon].trim();
733 let prefix = prefix.trim_start_matches('@');
734 if let (Some(start), Some(end)) = (line.find('<'), line.find('>')) {
735 if start < end {
736 let ns = &line[start + 1..end];
737 if iri.starts_with(ns) && !prefix.is_empty() {
738 needles.push(format!("{prefix}:{short_name}"));
739 }
740 }
741 }
742 }
743 }
744
745 for (line_idx, line) in source_text.lines().enumerate() {
746 for needle in &needles {
747 if let Some(col) = line.find(needle) {
748 return SourceLocation {
749 line: Some((line_idx + 1) as u64),
750 column: Some(col as u64),
751 start_byte: None,
752 end_byte: None,
753 };
754 }
755 }
756 }
757
758 SourceLocation::default()
759}
760
761fn short_name_from_iri(iri: &str) -> String {
762 if let Some((_, name)) = iri.rsplit_once('#') {
763 return name.to_string();
764 }
765 if let Some((_, name)) = iri.rsplit_once('/') {
766 return name.to_string();
767 }
768 iri.to_string()
769}
770
771#[cfg(test)]
772mod tests {
773 use super::*;
774 use std::io::Write;
775
776 #[test]
777 fn rejects_oversized_source_text() {
778 let dir = tempfile::tempdir().unwrap();
779 let path = dir.path().join("huge.ttl");
780 let oversized = "x".repeat((MAX_FILE_BYTES + 1) as usize);
781 let err = parse_ontology_text(
782 &path,
783 OntologyFormat::Turtle,
784 "doc-1",
785 &oversized,
786 oversized.as_bytes(),
787 )
788 .unwrap_err();
789 assert!(matches!(err, ParseError::LimitExceeded(_)));
790 }
791
792 #[test]
793 fn parses_simple_turtle_ontology() {
794 let dir = tempfile::tempdir().unwrap();
795 let path = dir.path().join("test.ttl");
796 let mut f = fs::File::create(&path).unwrap();
797 writeln!(
798 f,
799 r#"@prefix ex: <http://example.org/test#> .
800@prefix owl: <http://www.w3.org/2002/07/owl#> .
801@prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
802
803<http://example.org/test> a owl:Ontology .
804
805ex:Person a owl:Class ;
806 rdfs:label "Person" ;
807 rdfs:comment "A human being" .
808
809ex:knows a owl:ObjectProperty ;
810 rdfs:label "knows" .
811"#
812 )
813 .unwrap();
814
815 let parsed =
816 parse_ontology_file(&path, OntologyFormat::Turtle, "doc-1", "hash", 0).unwrap();
817
818 assert_eq!(parsed.parse_status, ParseStatus::Ok);
819
820 let person = parsed
821 .entities
822 .iter()
823 .find(|e| e.iri == "http://example.org/test#Person")
824 .expect("Person entity");
825 assert_eq!(person.kind, EntityKind::Class);
826 assert_eq!(person.labels, vec!["Person".to_string()]);
827 assert!(person.source_location.line.is_some());
828
829 let knows = parsed
830 .entities
831 .iter()
832 .find(|e| e.iri == "http://example.org/test#knows")
833 .expect("knows property");
834 assert_eq!(knows.kind, EntityKind::ObjectProperty);
835 assert_eq!(knows.labels, vec!["knows".to_string()]);
836 }
837
838 #[test]
839 fn extracts_turtle_prefix_declarations() {
840 let dir = tempfile::tempdir().unwrap();
841 let path = dir.path().join("test.ttl");
842 let mut f = fs::File::create(&path).unwrap();
843 writeln!(
844 f,
845 r#"@prefix ex: <http://example.org/test#> .
846@prefix owl: <http://www.w3.org/2002/07/owl#> .
847
848<http://example.org/test> a owl:Ontology .
849ex:Person a owl:Class .
850"#
851 )
852 .unwrap();
853
854 let parsed =
855 parse_ontology_file(&path, OntologyFormat::Turtle, "doc-1", "hash", 0).unwrap();
856
857 assert_eq!(parsed.base_iri.as_deref(), Some("http://example.org/test"));
858 assert_eq!(
859 parsed.namespaces.get("ex").map(String::as_str),
860 Some("http://example.org/test#")
861 );
862 }
863
864 #[test]
865 fn trailing_parse_error_keeps_prior_entities() {
866 let ttl = r#"@prefix ex: <http://example.org/test#> .
867@prefix owl: <http://www.w3.org/2002/07/owl#> .
868
869ex:Person a owl:Class ;
870 rdfs:label "Person" .
871
872ex:Broken a owl:Class ; this is not valid turtle
873"#;
874 let parsed = parse_ontology_text(
875 Path::new("partial.ttl"),
876 OntologyFormat::Turtle,
877 "doc-1",
878 ttl,
879 ttl.as_bytes(),
880 )
881 .expect("partial parse");
882 assert_eq!(parsed.parse_status, ParseStatus::Error);
883 assert!(
884 parsed.entities.iter().any(|e| e.iri == "http://example.org/test#Person"),
885 "entities parsed before the fault must be retained"
886 );
887 assert!(!parsed.quads().is_empty());
888 }
889}