1use crate::error::{KitError, Result};
15use crate::schema::{core_row_to_json, Row};
16use mongreldb_core::memtable::Row as CoreRow;
17use mongreldb_core::query::Condition;
18use mongreldb_kit_core::query::{
19 AggFunc, Aggregate, AggregateQuery, Direction, Expr, JoinKind, JoinQuery, Literal, OrderBy,
20 Query, Select,
21};
22use mongreldb_kit_core::schema::{Schema as KitSchema, Table as KitTable};
23use serde_json::{Map, Value};
24use std::cmp::Ordering;
25use std::collections::{HashMap, HashSet};
26
27pub type JoinRow = Map<String, Value>;
31
32type TableFetch<'a> = Box<dyn Fn(&str, Option<&[Condition]>) -> Result<Vec<Row>> + 'a>;
36
37pub(crate) struct ExecCtx<'a> {
43 schema: Option<&'a KitSchema>,
44 fetch: TableFetch<'a>,
45 ctes: HashMap<String, Vec<Row>>,
46}
47
48impl<'a> ExecCtx<'a> {
49 pub(crate) fn new(
50 schema: Option<&'a KitSchema>,
51 fetch: impl Fn(&str, Option<&[Condition]>) -> Result<Vec<Row>> + 'a,
52 ) -> Self {
53 Self {
54 schema,
55 fetch: Box::new(fetch),
56 ctes: HashMap::new(),
57 }
58 }
59
60 pub(crate) fn add_cte(&mut self, name: String, rows: Vec<Row>) {
61 self.ctes.insert(name, rows);
62 }
63
64 fn table_rows(&self, name: &str) -> Result<Vec<Row>> {
65 if let Some(rows) = self.ctes.get(name) {
66 return Ok(rows.clone());
67 }
68 (self.fetch)(name, None)
69 }
70
71 fn table_rows_filtered(&self, name: &str, conditions: &[Condition]) -> Result<Vec<Row>> {
75 if conditions.is_empty() || self.ctes.contains_key(name) {
76 return self.table_rows(name);
77 }
78 (self.fetch)(name, Some(conditions))
79 }
80
81 fn table_def(&self, name: &str) -> Option<&KitTable> {
82 self.schema.and_then(|s| s.table(name))
83 }
84}
85
86trait Scope {
88 fn get(&self, name: &str) -> Value;
89}
90
91struct FlatScope<'a>(&'a Map<String, Value>);
93
94impl Scope for FlatScope<'_> {
95 fn get(&self, name: &str) -> Value {
96 self.0.get(name).cloned().unwrap_or(Value::Null)
97 }
98}
99
100struct JoinScope<'a>(&'a Map<String, Value>);
103
104impl Scope for JoinScope<'_> {
105 fn get(&self, name: &str) -> Value {
106 if let Some((alias, col)) = name.split_once('.') {
107 return self
108 .0
109 .get(alias)
110 .and_then(|t| t.as_object())
111 .and_then(|o| o.get(col))
112 .cloned()
113 .unwrap_or(Value::Null);
114 }
115 for value in self.0.values() {
116 if let Some(obj) = value.as_object() {
117 if let Some(v) = obj.get(name) {
118 return v.clone();
119 }
120 }
121 }
122 Value::Null
123 }
124}
125
126pub fn execute_select(
134 table: &KitTable,
135 visible_rows: Vec<CoreRow>,
136 select: &Select,
137) -> Result<Vec<Row>> {
138 let rows: Vec<Row> = visible_rows
139 .into_iter()
140 .map(|r| core_row_to_json(&r, table))
141 .collect::<Result<Vec<_>>>()?;
142 let mut ctx = ExecCtx::new(None, |name: &str, _conds: Option<&[Condition]>| {
143 Err(KitError::Validation(format!(
144 "table {name} is not available outside a transaction context"
145 )))
146 });
147 ctx.add_cte(table.name.clone(), rows);
148 run_select(&ctx, select)
149}
150
151pub fn execute_query(
153 table: &KitTable,
154 visible_rows: Vec<CoreRow>,
155 query: &Query,
156) -> Result<Vec<Row>> {
157 match query {
158 Query::Select(select) => execute_select(table, visible_rows, select),
159 _ => Err(KitError::Validation(
160 "only SELECT queries are supported by execute_query".into(),
161 )),
162 }
163}
164
165pub(crate) fn run_select(ctx: &ExecCtx, select: &Select) -> Result<Vec<Row>> {
168 let (mut rows, residual_needed) = match &select.filter {
173 Some(filter) => {
174 let pushed = ctx
175 .table_def(&select.table)
176 .and_then(|t| crate::pushdown::translate_predicate(t, filter));
177 match pushed {
178 Some(plan) if plan.can_push() => {
179 let fetched = ctx.table_rows_filtered(&select.table, &plan.conditions)?;
180 (fetched, !plan.fully_translated)
181 }
182 _ => (ctx.table_rows(&select.table)?, true),
183 }
184 }
185 None => (ctx.table_rows(&select.table)?, false),
186 };
187
188 if residual_needed {
190 if let Some(filter) = &select.filter {
191 let mut kept = Vec::with_capacity(rows.len());
192 for r in rows {
193 if eval_pred(filter, &FlatScope(&r.values), ctx)? {
194 kept.push(r);
195 }
196 }
197 rows = kept;
198 }
199 }
200
201 for order in &select.order_by {
202 sort_rows(ctx, &mut rows, &select.table, order)?;
203 }
204
205 apply_limit_offset(&mut rows, select.limit, select.offset);
206 Ok(rows)
207}
208
209pub(crate) fn project_distinct(select: &Select, rows: Vec<Row>) -> Vec<Row> {
212 let cols: Vec<String> = select
213 .columns
214 .iter()
215 .filter_map(|e| match e {
216 Expr::Column(n) => Some(n.clone()),
217 _ => None,
218 })
219 .collect();
220 let mut seen = HashSet::new();
221 let mut out = Vec::new();
222 for r in rows {
223 let values = if cols.is_empty() {
224 r.values
225 } else {
226 let mut m = Map::new();
227 for c in &cols {
228 m.insert(c.clone(), r.values.get(c).cloned().unwrap_or(Value::Null));
229 }
230 m
231 };
232 let key = serde_json::to_string(&values).unwrap_or_default();
233 if seen.insert(key) {
234 out.push(Row { row_id: 0, values });
235 }
236 }
237 out
238}
239
240pub(crate) fn run_aggregate(ctx: &ExecCtx, query: &AggregateQuery) -> Result<Vec<Row>> {
243 let (mut rows, residual_needed) = match &query.filter {
245 Some(filter) => {
246 let pushed = ctx
247 .table_def(&query.table)
248 .and_then(|t| crate::pushdown::translate_predicate(t, filter));
249 match pushed {
250 Some(plan) if plan.can_push() => {
251 let fetched = ctx.table_rows_filtered(&query.table, &plan.conditions)?;
252 (fetched, !plan.fully_translated)
253 }
254 _ => (ctx.table_rows(&query.table)?, true),
255 }
256 }
257 None => (ctx.table_rows(&query.table)?, false),
258 };
259
260 if residual_needed {
261 if let Some(filter) = &query.filter {
262 let mut kept = Vec::with_capacity(rows.len());
263 for r in rows {
264 if eval_pred(filter, &FlatScope(&r.values), ctx)? {
265 kept.push(r);
266 }
267 }
268 rows = kept;
269 }
270 }
271
272 let mut groups: Vec<(Vec<Value>, Vec<Row>)> = Vec::new();
274 if query.group_by.is_empty() {
275 groups.push((Vec::new(), rows));
276 } else {
277 let mut index: HashMap<String, usize> = HashMap::new();
278 for r in rows {
279 let key_vals: Vec<Value> = query
280 .group_by
281 .iter()
282 .map(|c| r.values.get(c).cloned().unwrap_or(Value::Null))
283 .collect();
284 let key_str = serde_json::to_string(&key_vals).unwrap_or_default();
285 match index.get(&key_str) {
286 Some(&i) => groups[i].1.push(r),
287 None => {
288 index.insert(key_str, groups.len());
289 groups.push((key_vals, vec![r]));
290 }
291 }
292 }
293 }
294
295 let mut out = Vec::with_capacity(groups.len());
296 for (key_vals, group_rows) in groups {
297 let mut values = Map::new();
298 for (col, val) in query.group_by.iter().zip(key_vals.iter()) {
299 values.insert(col.clone(), val.clone());
300 }
301 for agg in &query.aggregates {
302 values.insert(agg.alias.clone(), compute_aggregate(agg, &group_rows)?);
303 }
304 if let Some(having) = &query.having {
305 if !eval_pred(having, &FlatScope(&values), ctx)? {
306 continue;
307 }
308 }
309 out.push(Row { row_id: 0, values });
310 }
311 Ok(out)
312}
313
314fn compute_aggregate(agg: &Aggregate, rows: &[Row]) -> Result<Value> {
315 match agg.func {
316 AggFunc::Count => {
317 let n = match (&agg.column, agg.distinct) {
318 (None, _) => rows.len(),
320 (Some(col), true) => distinct_non_null(rows, col).len(),
322 (Some(col), false) => rows
324 .iter()
325 .filter(|r| !r.values.get(col).map(Value::is_null).unwrap_or(true))
326 .count(),
327 };
328 Ok(Value::Number((n as i64).into()))
329 }
330 AggFunc::Sum | AggFunc::Avg => {
331 let col = require_agg_column(agg)?;
332 let (nums, all_int): (Vec<f64>, bool) = if agg.distinct {
334 let vals = distinct_non_null(rows, col);
335 let all_int = vals.iter().all(|v| v.as_i64().is_some());
336 (vals.iter().filter_map(|&v| num_of(v)).collect(), all_int)
337 } else {
338 let all_int = rows
339 .iter()
340 .filter_map(|r| r.values.get(col))
341 .filter(|v| !v.is_null())
342 .all(|v| v.as_i64().is_some());
343 (numeric_values(rows, col), all_int)
344 };
345 if nums.is_empty() {
346 return Ok(Value::Null);
347 }
348 let sum: f64 = nums.iter().sum();
349 if matches!(agg.func, AggFunc::Avg) {
350 return Ok(number_value(sum / nums.len() as f64));
351 }
352 if all_int {
354 Ok(Value::Number((sum as i64).into()))
355 } else {
356 Ok(number_value(sum))
357 }
358 }
359 AggFunc::Min | AggFunc::Max => {
360 let col = require_agg_column(agg)?;
361 let mut best: Option<&Value> = None;
362 for r in rows {
363 let Some(v) = r.values.get(col) else { continue };
364 if v.is_null() {
365 continue;
366 }
367 best = Some(match best {
368 None => v,
369 Some(cur) => {
370 let take = matches!(
371 (json_cmp(v, cur), agg.func),
372 (Some(Ordering::Less), AggFunc::Min)
373 | (Some(Ordering::Greater), AggFunc::Max)
374 );
375 if take {
376 v
377 } else {
378 cur
379 }
380 }
381 });
382 }
383 Ok(best.cloned().unwrap_or(Value::Null))
384 }
385 }
386}
387
388fn require_agg_column(agg: &Aggregate) -> Result<&String> {
389 agg.column
390 .as_ref()
391 .ok_or_else(|| KitError::Validation(format!("aggregate {:?} requires a column", agg.func)))
392}
393
394fn numeric_values(rows: &[Row], col: &str) -> Vec<f64> {
395 rows.iter()
396 .filter_map(|r| r.values.get(col))
397 .filter_map(num_of)
398 .collect()
399}
400
401fn num_of(v: &Value) -> Option<f64> {
402 match v {
403 Value::Number(n) => n.as_f64(),
404 _ => None,
405 }
406}
407
408fn number_value(f: f64) -> Value {
409 serde_json::Number::from_f64(f)
410 .map(Value::Number)
411 .unwrap_or(Value::Null)
412}
413
414fn distinct_non_null<'a>(rows: &'a [Row], col: &str) -> Vec<&'a Value> {
418 let mut seen = std::collections::HashSet::new();
419 let mut out = Vec::new();
420 for r in rows {
421 if let Some(v) = r.values.get(col) {
422 if v.is_null() {
423 continue;
424 }
425 if seen.insert(serde_json::to_string(v).unwrap_or_default()) {
426 out.push(v);
427 }
428 }
429 }
430 out
431}
432
433fn fk_join_condition(
443 right_table: &KitTable,
444 right_alias: &str,
445 on: &Expr,
446 left_rows: &[JoinRow],
447) -> Option<Condition> {
448 let Expr::Eq(a, b) = on else { return None };
449 let (Expr::Column(ca), Expr::Column(cb)) = (a.as_ref(), b.as_ref()) else {
450 return None;
451 };
452 let prefix = format!("{right_alias}.");
453 let (right_qual, left_qual) = match (ca.starts_with(&prefix), cb.starts_with(&prefix)) {
455 (true, false) => (ca.as_str(), cb.as_str()),
456 (false, true) => (cb.as_str(), ca.as_str()),
457 _ => return None,
458 };
459 let right_col = right_qual.strip_prefix(&prefix)?;
460 if !crate::pushdown::has_declared_bitmap_index(right_table, right_col) {
461 return None;
462 }
463 let col = right_table.column(right_col)?;
464 let (left_alias, left_col) = left_qual.split_once('.')?;
465
466 let mut seen = std::collections::HashSet::new();
467 let mut values = Vec::new();
468 for row in left_rows {
469 let key = row
470 .get(left_alias)
471 .and_then(|t| t.as_object())
472 .and_then(|o| o.get(left_col))
473 .and_then(|v| crate::pushdown::value_index_key(v, col.storage_type));
474 if let Some(key) = key {
475 if seen.insert(key.clone()) {
476 values.push(key);
477 }
478 }
479 }
480 if values.is_empty() {
481 return None;
482 }
483 Some(Condition::BitmapIn {
484 column_id: col.id as u16,
485 values,
486 })
487}
488
489pub(crate) fn run_join(ctx: &ExecCtx, query: &JoinQuery) -> Result<Vec<JoinRow>> {
490 let base_alias = query.alias.clone().unwrap_or_else(|| query.table.clone());
491 let mut acc: Vec<JoinRow> = ctx
492 .table_rows(&query.table)?
493 .into_iter()
494 .map(|r| {
495 let mut m = Map::new();
496 m.insert(base_alias.clone(), Value::Object(r.values));
497 m
498 })
499 .collect();
500
501 for join in &query.joins {
502 let right_alias = join.alias.clone().unwrap_or_else(|| join.table.clone());
503 let right_rows = match (join.kind, join.on.as_ref()) {
507 (JoinKind::Cross, _) | (_, None) => ctx.table_rows(&join.table)?,
508 (_, Some(on)) => match ctx
509 .table_def(&join.table)
510 .and_then(|t| fk_join_condition(t, &right_alias, on, &acc))
511 {
512 Some(cond) => ctx.table_rows_filtered(&join.table, &[cond])?,
513 None => ctx.table_rows(&join.table)?,
514 },
515 };
516 let mut next = Vec::new();
517 for left in acc {
518 let mut matched = false;
519 for rr in &right_rows {
520 let mut combined = left.clone();
521 combined.insert(right_alias.clone(), Value::Object(rr.values.clone()));
522 let keep = match join.kind {
523 JoinKind::Cross => true,
524 _ => match &join.on {
525 Some(on) => eval_pred(on, &JoinScope(&combined), ctx)?,
526 None => true,
527 },
528 };
529 if keep {
530 matched = true;
531 next.push(combined);
532 }
533 }
534 if !matched && join.kind == JoinKind::Left {
535 let mut combined = left;
536 combined.insert(right_alias.clone(), Value::Null);
537 next.push(combined);
538 }
539 }
540 acc = next;
541 }
542
543 if let Some(filter) = &query.filter {
544 let mut kept = Vec::with_capacity(acc.len());
545 for row in acc {
546 if eval_pred(filter, &JoinScope(&row), ctx)? {
547 kept.push(row);
548 }
549 }
550 acc = kept;
551 }
552
553 for order in &query.order_by {
554 let key = match &order.expr {
555 Expr::Column(n) => n.clone(),
556 other => {
557 return Err(KitError::Validation(format!(
558 "unsupported order by: {other:?}"
559 )))
560 }
561 };
562 acc.sort_by(|a, b| {
563 let av = JoinScope(a).get(&key);
564 let bv = JoinScope(b).get(&key);
565 let ord = json_cmp(&av, &bv).unwrap_or(Ordering::Equal);
566 match order.direction {
567 Direction::Asc => ord,
568 Direction::Desc => ord.reverse(),
569 }
570 });
571 }
572
573 apply_limit_offset(&mut acc, query.limit, query.offset);
574 Ok(acc)
575}
576
577fn eval_pred<S: Scope>(expr: &Expr, scope: &S, ctx: &ExecCtx) -> Result<bool> {
580 Ok(match expr {
581 Expr::Column(name) => truthy(&scope.get(name)),
582 Expr::Literal(lit) => truthy(&literal_to_value(lit)),
583 Expr::And(parts) => {
584 for p in parts {
585 if !eval_pred(p, scope, ctx)? {
586 return Ok(false);
587 }
588 }
589 true
590 }
591 Expr::Or(parts) => {
592 for p in parts {
593 if eval_pred(p, scope, ctx)? {
594 return Ok(true);
595 }
596 }
597 false
598 }
599 Expr::Not(inner) => !eval_pred(inner, scope, ctx)?,
600 Expr::Eq(a, b) => cmp(a, b, scope, ctx)? == Some(Ordering::Equal),
601 Expr::Ne(a, b) => cmp(a, b, scope, ctx)? != Some(Ordering::Equal),
602 Expr::Gt(a, b) => cmp(a, b, scope, ctx)? == Some(Ordering::Greater),
603 Expr::Gte(a, b) => cmp(a, b, scope, ctx)?.is_some_and(|o| o != Ordering::Less),
604 Expr::Lt(a, b) => cmp(a, b, scope, ctx)? == Some(Ordering::Less),
605 Expr::Lte(a, b) => cmp(a, b, scope, ctx)?.is_some_and(|o| o != Ordering::Greater),
606 Expr::In(col, list) => {
607 let v = eval_val(col, scope, ctx)?;
608 list.iter().any(|lit| v == literal_to_value(lit))
609 }
610 Expr::NotIn(col, list) => {
611 let v = eval_val(col, scope, ctx)?;
612 list.iter().all(|lit| v != literal_to_value(lit))
613 }
614 Expr::IsNull(inner) => eval_val(inner, scope, ctx)?.is_null(),
615 Expr::IsNotNull(inner) => !eval_val(inner, scope, ctx)?.is_null(),
616 Expr::Like(col, pattern) => match eval_val(col, scope, ctx)? {
617 Value::String(s) => like(&s, pattern),
618 _ => false,
619 },
620 Expr::Contains(col, needle) => match eval_val(col, scope, ctx)? {
621 Value::String(s) => s.contains(needle.as_str()),
622 _ => false,
623 },
624 Expr::InSubquery(col, sub) => {
625 let v = eval_val(col, scope, ctx)?;
630 let key = subquery_column(sub);
631 run_select(ctx, sub)?
632 .iter()
633 .any(|r| subquery_value(r, key.as_deref()) == v)
634 }
635 Expr::Exists(sub) => !run_select(ctx, sub)?.is_empty(),
636 Expr::NotExists(sub) => run_select(ctx, sub)?.is_empty(),
637 })
638}
639
640fn eval_val<S: Scope>(expr: &Expr, scope: &S, _ctx: &ExecCtx) -> Result<Value> {
641 Ok(match expr {
642 Expr::Column(name) => scope.get(name),
643 Expr::Literal(lit) => literal_to_value(lit),
644 other => {
645 return Err(KitError::Validation(format!(
646 "expression {other:?} cannot be used as a scalar value"
647 )))
648 }
649 })
650}
651
652fn cmp<S: Scope>(a: &Expr, b: &Expr, scope: &S, ctx: &ExecCtx) -> Result<Option<Ordering>> {
653 Ok(json_cmp(
654 &eval_val(a, scope, ctx)?,
655 &eval_val(b, scope, ctx)?,
656 ))
657}
658
659fn subquery_column(select: &Select) -> Option<String> {
662 select.columns.iter().find_map(|e| match e {
663 Expr::Column(n) => Some(n.clone()),
664 _ => None,
665 })
666}
667
668fn subquery_value(row: &Row, key: Option<&str>) -> Value {
669 match key {
670 Some(k) => row.values.get(k).cloned().unwrap_or(Value::Null),
671 None => row.values.values().next().cloned().unwrap_or(Value::Null),
672 }
673}
674
675fn literal_to_value(lit: &Literal) -> Value {
676 match lit {
677 Literal::Null => Value::Null,
678 Literal::Bool(b) => Value::Bool(*b),
679 Literal::Int(i) => Value::Number((*i).into()),
680 Literal::Float(f) => serde_json::to_value(*f).unwrap_or(Value::Null),
681 Literal::Text(s) => Value::String(s.clone()),
682 Literal::Json(v) => v.clone(),
683 }
684}
685
686fn json_cmp(a: &Value, b: &Value) -> Option<Ordering> {
687 match (a, b) {
688 (Value::Null, Value::Null) => Some(Ordering::Equal),
689 (Value::Null, _) | (_, Value::Null) => None,
690 (Value::Bool(a), Value::Bool(b)) => Some(a.cmp(b)),
691 (Value::Number(a), Value::Number(b)) => {
692 if let (Some(ai), Some(bi)) = (a.as_i64(), b.as_i64()) {
693 Some(ai.cmp(&bi))
694 } else {
695 let af = a.as_f64().unwrap_or(f64::NAN);
696 let bf = b.as_f64().unwrap_or(f64::NAN);
697 af.partial_cmp(&bf)
698 }
699 }
700 (Value::String(a), Value::String(b)) => Some(a.cmp(b)),
701 (Value::Array(a), Value::Array(b)) => compare_arrays(a, b),
702 (Value::Object(a), Value::Object(b)) => compare_objects(a, b),
703 _ => None,
704 }
705}
706
707fn compare_arrays(a: &[Value], b: &[Value]) -> Option<Ordering> {
708 let len_cmp = a.len().partial_cmp(&b.len())?;
709 if len_cmp != Ordering::Equal {
710 return Some(len_cmp);
711 }
712 for (x, y) in a.iter().zip(b.iter()) {
713 match json_cmp(x, y) {
714 Some(Ordering::Equal) => {}
715 other => return other,
716 }
717 }
718 Some(Ordering::Equal)
719}
720
721fn compare_objects(a: &Map<String, Value>, b: &Map<String, Value>) -> Option<Ordering> {
722 let len_cmp = a.len().partial_cmp(&b.len())?;
723 if len_cmp != Ordering::Equal {
724 return Some(len_cmp);
725 }
726 let mut a_keys: Vec<&String> = a.keys().collect();
727 let mut b_keys: Vec<&String> = b.keys().collect();
728 a_keys.sort();
729 b_keys.sort();
730 for (ak, bk) in a_keys.iter().zip(b_keys.iter()) {
731 match ak.cmp(bk) {
732 Ordering::Equal => {}
733 other => return Some(other),
734 }
735 let av = a.get(*ak).unwrap();
736 let bv = b.get(*bk).unwrap();
737 match json_cmp(av, bv) {
738 Some(Ordering::Equal) => {}
739 other => return other,
740 }
741 }
742 Some(Ordering::Equal)
743}
744
745fn truthy(v: &Value) -> bool {
746 match v {
747 Value::Null => false,
748 Value::Bool(b) => *b,
749 Value::Number(n) => n.as_f64().map(|f| f != 0.0).unwrap_or(false),
750 Value::String(s) => !s.is_empty(),
751 Value::Array(a) => !a.is_empty(),
752 Value::Object(o) => !o.is_empty(),
753 }
754}
755
756fn sort_rows(ctx: &ExecCtx, rows: &mut [Row], table: &str, order: &OrderBy) -> Result<()> {
757 let col_name = match &order.expr {
758 Expr::Column(name) => name.clone(),
759 other => {
760 return Err(KitError::Validation(format!(
761 "unsupported order by: {other:?}"
762 )))
763 }
764 };
765 if let Some(t) = ctx.table_def(table) {
768 if t.column(&col_name).is_none() {
769 return Err(KitError::Validation(format!(
770 "unknown order column {col_name}"
771 )));
772 }
773 }
774
775 rows.sort_by(|a, b| {
776 let av = a.values.get(&col_name).cloned().unwrap_or(Value::Null);
777 let bv = b.values.get(&col_name).cloned().unwrap_or(Value::Null);
778 let ord = json_cmp(&av, &bv).unwrap_or(Ordering::Equal);
779 match order.direction {
780 Direction::Asc => ord,
781 Direction::Desc => ord.reverse(),
782 }
783 });
784 Ok(())
785}
786
787fn apply_limit_offset<T>(rows: &mut Vec<T>, limit: Option<usize>, offset: Option<usize>) {
788 let offset = offset.unwrap_or(0);
789 if offset > 0 || limit.is_some() {
790 let start = offset.min(rows.len());
791 let end = limit
792 .map(|l| start + l)
793 .unwrap_or(rows.len())
794 .min(rows.len());
795 *rows = rows.drain(start..end).collect();
796 }
797}
798
799fn like(text: &str, pattern: &str) -> bool {
800 let regex = match regex_like(pattern) {
801 Ok(re) => re,
802 Err(_) => return false,
803 };
804 regex.is_match(text)
805}
806
807fn regex_like(pattern: &str) -> Result<regex::Regex> {
808 let mut out = String::with_capacity(pattern.len() * 2);
809 out.push('^');
810 for ch in pattern.chars() {
811 match ch {
812 '%' => out.push_str(".*"),
813 '_' => out.push('.'),
814 c => {
815 if regex::escape(&c.to_string()).len() > 1 {
816 out.push_str(®ex::escape(&c.to_string()));
817 } else {
818 out.push(c);
819 }
820 }
821 }
822 }
823 out.push('$');
824 regex::Regex::new(&out).map_err(|e| KitError::Validation(format!("invalid LIKE pattern: {e}")))
825}