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rust_ef/
navigation_loader.rs

1//! Eager-loading of navigation properties via secondary queries.
2
3use crate::entity::{IEntitySnapshot, IEntityType, IFromRow, IGetKeyValues, INavigationSetter};
4use crate::error::EFResult;
5use crate::metadata::{EntityTypeMeta, NavigationKind, NavigationMeta};
6use crate::provider::{DbValue, IDatabaseProvider, ISqlGenerator};
7use crate::query::{compile_bool_expr, CompiledFilter, IncludePath};
8use std::collections::{HashMap, HashSet};
9
10/// Appends a query filter (e.g. tenant_id = ?) to a navigation SQL statement.
11///
12/// Uses the pre-collected `params` from `CompiledFilter` (collected once at
13/// registration time) instead of traversing the `BoolExpr` tree per query.
14/// The SQL fragment is still compiled per query because placeholder numbering
15/// is dialect-specific and depends on the current parameter count.
16fn apply_filter_to_sql(
17    sql: &mut String,
18    params: &mut Vec<DbValue>,
19    related_table: &str,
20    filter_map: Option<&HashMap<String, CompiledFilter>>,
21    gen: &dyn ISqlGenerator,
22) {
23    if let Some(filter) = filter_map.and_then(|m| m.get(related_table)) {
24        let mut idx = params.len() + 1;
25        let filter_sql = compile_bool_expr(&filter.expr, gen, &mut idx);
26        params.extend(filter.params.iter().cloned());
27        *sql = format!("{} AND ({})", sql, filter_sql);
28    }
29}
30
31/// Builds include paths from navigation field names using entity metadata.
32pub fn include_paths_for<T: IEntityType, S: AsRef<str>>(
33    navigation_names: &[S],
34) -> Vec<IncludePath> {
35    let meta = T::entity_meta();
36    navigation_names
37        .iter()
38        .filter_map(|name| include_path_from_meta(&meta, name.as_ref()))
39        .collect()
40}
41
42fn include_path_from_meta(meta: &EntityTypeMeta, navigation: &str) -> Option<IncludePath> {
43    let nav_meta = meta.find_navigation(navigation)?;
44    Some(IncludePath {
45        navigation: navigation.to_string(),
46        nested: Vec::new(),
47        related_table: nav_meta.related_table.as_ref().map(|s| s.to_string()),
48        foreign_key_column: nav_meta.fk_column.as_ref().map(|s| s.to_string()),
49        referenced_key_column: nav_meta
50            .referenced_key_column
51            .as_ref()
52            .map(|s| s.to_string()),
53    })
54}
55
56/// Loads related entities and fills navigation properties on `entities`.
57///
58/// `filter_map` carries per-table query filters (e.g. tenant isolation). When
59/// present, the filter for each related table is appended (AND'd) to the
60/// secondary SELECT so navigation data is scoped consistently with primary
61/// queries.
62pub async fn load_includes<T>(
63    entities: &mut [T],
64    includes: &[IncludePath],
65    provider: &dyn IDatabaseProvider,
66    filter_map: Option<&HashMap<String, CompiledFilter>>,
67) -> EFResult<()>
68where
69    T: IEntityType + IFromRow + INavigationSetter + IGetKeyValues + IEntitySnapshot,
70{
71    if entities.is_empty() || includes.is_empty() {
72        return Ok(());
73    }
74
75    let meta = T::entity_meta();
76    for include in includes {
77        let nav = match meta.find_navigation(&include.navigation) {
78            Some(n) => n,
79            None => continue,
80        };
81
82        if nav.kind == NavigationKind::ManyToMany {
83            load_many_to_many(entities, &include.navigation, nav, provider, filter_map).await?;
84        } else {
85            load_scalar_navigation(entities, include, nav, &meta, provider, filter_map).await?;
86        }
87
88        if !include.nested.is_empty() {
89            for entity in entities.iter_mut() {
90                entity
91                    .load_nested_includes(
92                        &include.navigation,
93                        &include.nested,
94                        provider,
95                        filter_map,
96                    )
97                    .await?;
98            }
99        }
100    }
101    Ok(())
102}
103
104async fn load_scalar_navigation<T>(
105    entities: &mut [T],
106    include: &IncludePath,
107    nav: &NavigationMeta,
108    meta: &EntityTypeMeta,
109    provider: &dyn IDatabaseProvider,
110    filter_map: Option<&HashMap<String, CompiledFilter>>,
111) -> EFResult<()>
112where
113    T: IEntitySnapshot + INavigationSetter + IGetKeyValues,
114{
115    let related_table = include
116        .related_table
117        .as_deref()
118        .or(nav.related_table.as_deref());
119    let fk_column = include
120        .foreign_key_column
121        .as_deref()
122        .or(nav.fk_column.as_deref());
123    let ref_column = include
124        .referenced_key_column
125        .as_deref()
126        .or(nav.referenced_key_column.as_deref())
127        .or_else(|| meta.primary_keys.first().map(|k| k.as_ref()));
128
129    let (Some(related_table), Some(fk_column), Some(ref_column)) =
130        (related_table, fk_column, ref_column)
131    else {
132        return Ok(());
133    };
134
135    match nav.kind {
136        NavigationKind::HasMany => {
137            let parent_ids: Vec<DbValue> = entities
138                .iter()
139                .filter_map(|e| e.key_values().get(ref_column).cloned())
140                .collect();
141            if parent_ids.is_empty() {
142                return Ok(());
143            }
144
145            let gen = provider.sql_generator();
146            let placeholders: Vec<String> = (0..parent_ids.len())
147                .map(|i| gen.parameter_placeholder(i + 1))
148                .collect();
149            let mut sql = format!(
150                "SELECT * FROM {} WHERE {} IN ({})",
151                related_table,
152                fk_column,
153                placeholders.join(", ")
154            );
155            let mut params = parent_ids;
156            apply_filter_to_sql(&mut sql, &mut params, related_table, filter_map, gen);
157
158            let mut conn = provider.get_connection().await?;
159            let rows = conn.query(&sql, &params).await?;
160            let grouped = group_rows(&rows, nav.fk_row_index);
161
162            for entity in entities.iter_mut() {
163                if let Some(pk) = entity.key_values().get(ref_column) {
164                    let key = db_value_key(pk);
165                    if let Some(child_rows) = grouped.get(&key) {
166                        entity.apply_has_many(&include.navigation, child_rows)?;
167                    }
168                }
169            }
170        }
171        NavigationKind::BelongsTo | NavigationKind::HasOne => {
172            let fk_values: Vec<DbValue> = entities
173                .iter()
174                .filter_map(|e| e.snapshot().get(fk_column).cloned())
175                .collect();
176            if fk_values.is_empty() {
177                return Ok(());
178            }
179
180            let gen = provider.sql_generator();
181            let placeholders: Vec<String> = (0..fk_values.len())
182                .map(|i| gen.parameter_placeholder(i + 1))
183                .collect();
184            let mut sql = format!(
185                "SELECT * FROM {} WHERE {} IN ({})",
186                related_table,
187                ref_column,
188                placeholders.join(", ")
189            );
190            let mut params = fk_values;
191            apply_filter_to_sql(&mut sql, &mut params, related_table, filter_map, gen);
192
193            let mut conn = provider.get_connection().await?;
194            let rows = conn.query(&sql, &params).await?;
195            let lookup = index_rows(&rows, nav.pk_row_index);
196
197            for entity in entities.iter_mut() {
198                if let Some(fk) = entity.snapshot().get(fk_column) {
199                    let key = db_value_key(fk);
200                    if let Some(related_row) = lookup.get(&key) {
201                        entity.apply_reference(&include.navigation, related_row)?;
202                    }
203                }
204            }
205        }
206        NavigationKind::ManyToMany => {
207            unreachable!("many-to-many navigations are loaded via load_many_to_many")
208        }
209    }
210    Ok(())
211}
212
213async fn load_many_to_many<T>(
214    entities: &mut [T],
215    navigation: &str,
216    nav: &NavigationMeta,
217    provider: &dyn IDatabaseProvider,
218    filter_map: Option<&HashMap<String, CompiledFilter>>,
219) -> EFResult<()>
220where
221    T: IEntityType + INavigationSetter + IGetKeyValues,
222{
223    let meta = T::entity_meta();
224    let ref_column = meta
225        .primary_keys
226        .first()
227        .map(|k| k.as_ref())
228        .unwrap_or("id");
229
230    let (Some(join_table), Some(parent_fk), Some(_related_fk), Some(related_table)) = (
231        nav.through_table.as_deref(),
232        nav.through_parent_fk.as_deref(),
233        nav.through_related_fk.as_deref(),
234        nav.related_table.as_deref(),
235    ) else {
236        return Ok(());
237    };
238
239    let parent_ids: Vec<DbValue> = entities
240        .iter()
241        .filter_map(|e| e.key_values().get(ref_column).cloned())
242        .collect();
243    if parent_ids.is_empty() {
244        return Ok(());
245    }
246
247    let gen = provider.sql_generator();
248    let placeholders: Vec<String> = (0..parent_ids.len())
249        .map(|i| gen.parameter_placeholder(i + 1))
250        .collect();
251    let join_sql = format!(
252        "SELECT * FROM {} WHERE {} IN ({})",
253        join_table,
254        parent_fk,
255        placeholders.join(", ")
256    );
257
258    let mut conn = provider.get_connection().await?;
259    let join_rows = conn.query(&join_sql, &parent_ids).await?;
260    if join_rows.is_empty() {
261        return Ok(());
262    }
263
264    let parent_to_related = group_join_rows(
265        &join_rows,
266        nav.through_parent_fk_index,
267        nav.through_related_fk_index,
268    );
269
270    // Collect unique related keys using a HashSet for O(1) dedup
271    // (previously O(N²) linear scan per join row).
272    let mut seen: HashSet<String> = HashSet::new();
273    let related_ids: Vec<DbValue> = join_rows
274        .iter()
275        .filter_map(|row| row.get(nav.through_related_fk_index).cloned())
276        .filter(|v| seen.insert(db_value_key(v)))
277        .collect();
278
279    if related_ids.is_empty() {
280        return Ok(());
281    }
282
283    let related_pk = nav.referenced_key_column.as_deref().unwrap_or("id");
284    let rel_placeholders: Vec<String> = (0..related_ids.len())
285        .map(|i| gen.parameter_placeholder(i + 1))
286        .collect();
287    let mut related_sql = format!(
288        "SELECT * FROM {} WHERE {} IN ({})",
289        related_table,
290        related_pk,
291        rel_placeholders.join(", ")
292    );
293    let mut related_params = related_ids;
294    apply_filter_to_sql(
295        &mut related_sql,
296        &mut related_params,
297        related_table,
298        filter_map,
299        gen,
300    );
301    let related_rows = conn.query(&related_sql, &related_params).await?;
302    let related_by_pk = index_rows(&related_rows, nav.pk_row_index);
303
304    for entity in entities.iter_mut() {
305        if let Some(pk) = entity.key_values().get(ref_column) {
306            let parent_key = db_value_key(pk);
307            if let Some(related_keys) = parent_to_related.get(&parent_key) {
308                let mut child_rows = Vec::new();
309                for rk in related_keys {
310                    if let Some(row) = related_by_pk.get(&db_value_key(rk)) {
311                        child_rows.push(row.clone());
312                    }
313                }
314                if !child_rows.is_empty() {
315                    entity.apply_has_many(navigation, &child_rows)?;
316                }
317            }
318        }
319    }
320
321    Ok(())
322}
323
324fn db_value_key(v: &DbValue) -> String {
325    format!("{}", v)
326}
327
328fn group_rows(rows: &[Vec<DbValue>], fk_index: usize) -> HashMap<String, Vec<Vec<DbValue>>> {
329    let mut map: HashMap<String, Vec<Vec<DbValue>>> = HashMap::new();
330    for row in rows {
331        if let Some(fk_val) = row.get(fk_index) {
332            map.entry(db_value_key(fk_val))
333                .or_default()
334                .push(row.clone());
335        }
336    }
337    map
338}
339
340fn group_join_rows(
341    rows: &[Vec<DbValue>],
342    parent_index: usize,
343    related_index: usize,
344) -> HashMap<String, Vec<DbValue>> {
345    let mut map: HashMap<String, Vec<DbValue>> = HashMap::new();
346    for row in rows {
347        if let (Some(parent), Some(related)) = (row.get(parent_index), row.get(related_index)) {
348            map.entry(db_value_key(parent))
349                .or_default()
350                .push(related.clone());
351        }
352    }
353    map
354}
355
356fn index_rows(rows: &[Vec<DbValue>], pk_index: usize) -> HashMap<String, Vec<DbValue>> {
357    let mut map = HashMap::new();
358    for row in rows {
359        if let Some(pk) = row.get(pk_index) {
360            map.insert(db_value_key(pk), row.clone());
361        }
362    }
363    map
364}