1use crate::error::{KitError, Result};
4use mongreldb_core::memtable::Value as CoreValue;
5use mongreldb_core::schema::{
6 ColumnDef, ColumnFlags, IndexDef, IndexKind, Schema as CoreSchema, TypeId,
7};
8use mongreldb_kit_core::schema::{
9 Column, ColumnType, IndexKind as KitIndexKind, Table as KitTable,
10};
11use serde_json::{Map, Value};
12
13pub fn to_core_schema(table: &KitTable) -> CoreSchema {
15 let columns: Vec<ColumnDef> = table
16 .columns
17 .iter()
18 .map(|c| ColumnDef {
19 id: c.id as u16,
20 name: c.name.clone(),
21 ty: match c.storage_type {
22 ColumnType::Embedding => TypeId::Embedding {
23 dim: c.embedding_dim.unwrap_or(0),
24 },
25 other => to_core_type(other),
26 },
27 flags: to_core_flags(table, c),
28 })
29 .collect();
30
31 let mut indexes: Vec<IndexDef> = Vec::new();
32 for idx in &table.indexes {
33 let kind = match idx.kind {
34 KitIndexKind::Bitmap => IndexKind::Bitmap,
35 KitIndexKind::Fm => IndexKind::FmIndex,
36 KitIndexKind::Ann => IndexKind::Ann,
37 KitIndexKind::Sparse => IndexKind::Sparse,
38 KitIndexKind::MinHash => IndexKind::MinHash,
39 KitIndexKind::LearnedRange => IndexKind::LearnedRange,
40 };
41 for col_name in &idx.columns {
42 if let Some(col) = table.column(col_name) {
43 indexes.push(IndexDef {
44 name: format!("{}_{}", idx.name, col_name),
45 column_id: col.id as u16,
46 kind,
47 });
48 }
49 }
50 }
51 for uq in &table.unique_constraints {
52 for col_name in &uq.columns {
53 if let Some(col) = table.column(col_name) {
54 indexes.push(IndexDef {
55 name: format!("uq_{}_{}", uq.name, col_name),
56 column_id: col.id as u16,
57 kind: IndexKind::Bitmap,
58 });
59 }
60 }
61 }
62
63 CoreSchema {
64 schema_id: table.id as u64,
65 columns,
66 indexes,
67 colocation: Vec::new(),
68 constraints: Default::default(),
69 }
70}
71
72pub(crate) fn to_core_flags(table: &KitTable, column: &Column) -> ColumnFlags {
73 let mut flags = ColumnFlags::empty();
74 if column.nullable {
75 flags = flags.with(ColumnFlags::NULLABLE);
76 }
77 if table.primary_key.contains(&column.name) || column.primary_key {
78 flags = flags.with(ColumnFlags::PRIMARY_KEY);
79 }
80 if column.encrypted {
81 flags = flags.with(ColumnFlags::ENCRYPTED);
82 }
83 if column.encrypted_indexable {
84 flags = flags.with(ColumnFlags::ENCRYPTED_INDEXABLE);
85 }
86 flags
87}
88
89pub(crate) fn to_core_type(ty: ColumnType) -> TypeId {
90 match ty {
91 ColumnType::Bool => TypeId::Bool,
92 ColumnType::Int8 | ColumnType::Int16 | ColumnType::Int32 | ColumnType::Int64 => {
93 TypeId::Int64
94 }
95 ColumnType::Float32 | ColumnType::Float64 => TypeId::Float64,
96 ColumnType::Text
97 | ColumnType::Bytes
98 | ColumnType::Json
99 | ColumnType::Date
100 | ColumnType::DateTime => TypeId::Bytes,
101 ColumnType::TimestampNanos => TypeId::Int64,
102 ColumnType::Embedding => TypeId::Embedding { dim: 0 },
105 ColumnType::Sparse => TypeId::Bytes,
108 }
109}
110
111pub fn json_to_core(value: &Value, ty: ColumnType) -> Result<CoreValue> {
113 Ok(match value {
114 Value::Null => CoreValue::Null,
115 Value::Bool(b) => CoreValue::Bool(*b),
116 Value::Number(n) => {
117 if let Some(i) = n.as_i64() {
118 CoreValue::Int64(i)
119 } else {
120 CoreValue::Float64(n.as_f64().unwrap_or(f64::NAN))
121 }
122 }
123 Value::String(s) => CoreValue::Bytes(s.as_bytes().to_vec()),
124 Value::Array(arr) => {
125 if ty == ColumnType::Sparse {
126 let mut terms: Vec<(u32, f32)> = Vec::with_capacity(arr.len());
127 for pair in arr {
128 let p = pair
129 .as_array()
130 .ok_or_else(|| KitError::Validation("sparse expects pairs".into()))?;
131 let token =
132 p.first().and_then(|v| v.as_u64()).ok_or_else(|| {
133 KitError::Validation("sparse token must be u32".into())
134 })? as u32;
135 let weight = p.get(1).and_then(|v| v.as_f64()).ok_or_else(|| {
136 KitError::Validation("sparse weight must be number".into())
137 })? as f32;
138 terms.push((token, weight));
139 }
140 CoreValue::Bytes(
141 bincode::serialize(&terms).map_err(|e| KitError::Validation(e.to_string()))?,
142 )
143 } else if ty == ColumnType::Embedding {
144 let mut vec = Vec::with_capacity(arr.len());
145 for v in arr {
146 match v.as_f64() {
147 Some(f) => vec.push(f as f32),
148 None => {
149 return Err(KitError::Validation("embedding expects numbers".into()))
150 }
151 }
152 }
153 CoreValue::Embedding(vec)
154 } else if ty == ColumnType::Bytes {
155 let mut bytes = Vec::with_capacity(arr.len());
156 for v in arr {
157 match v {
158 Value::Number(n) => bytes.push(n.as_i64().unwrap_or(0) as u8),
159 _ => return Err(KitError::Validation("bytes array expected".into())),
160 }
161 }
162 CoreValue::Bytes(bytes)
163 } else {
164 CoreValue::Bytes(serde_json::to_vec(value)?)
165 }
166 }
167 Value::Object(_) => CoreValue::Bytes(serde_json::to_vec(value)?),
168 })
169}
170
171pub fn core_to_json(value: &CoreValue, ty: ColumnType) -> Result<Value> {
173 Ok(match (value, ty) {
174 (CoreValue::Null, _) => Value::Null,
175 (CoreValue::Bool(b), _) => Value::Bool(*b),
176 (CoreValue::Int64(i), ColumnType::Int8) => Value::Number((*i as i8).into()),
177 (CoreValue::Int64(i), ColumnType::Int16) => Value::Number((*i as i16).into()),
178 (CoreValue::Int64(i), ColumnType::Int32) => Value::Number((*i as i32).into()),
179 (CoreValue::Int64(i), ColumnType::Int64) => Value::Number((*i).into()),
180 (CoreValue::Int64(i), ColumnType::TimestampNanos) => Value::Number((*i).into()),
181 (CoreValue::Int64(i), _) => Value::Number((*i).into()),
182 (CoreValue::Float64(f), ColumnType::Float32) => serde_json::to_value(*f as f32)?,
183 (CoreValue::Float64(f), _) => serde_json::to_value(*f)?,
184 (CoreValue::Bytes(b), ColumnType::Sparse) => {
185 let terms: Vec<(u32, f32)> =
186 bincode::deserialize(b).map_err(|e| KitError::Validation(e.to_string()))?;
187 Value::Array(
188 terms
189 .into_iter()
190 .map(|(t, w)| Value::Array(vec![Value::from(t), Value::from(w as f64)]))
191 .collect(),
192 )
193 }
194 (CoreValue::Bytes(b), ColumnType::Bytes) => {
195 Value::Array(b.iter().map(|x| Value::Number((*x).into())).collect())
196 }
197 (CoreValue::Bytes(b), _) => match std::str::from_utf8(b) {
198 Ok(s) => Value::String(s.to_string()),
199 Err(_) => Value::Array(b.iter().map(|x| Value::Number((*x).into())).collect()),
200 },
201 (CoreValue::Embedding(v), _) => serde_json::to_value(v)?,
202 })
203}
204
205pub fn core_row_to_json(row: &mongreldb_core::memtable::Row, table: &KitTable) -> Result<Row> {
207 let mut values = Map::new();
208 for col in &table.columns {
209 let v = row
210 .columns
211 .get(&(col.id as u16))
212 .cloned()
213 .unwrap_or(CoreValue::Null);
214 values.insert(col.name.clone(), core_to_json(&v, col.storage_type)?);
215 }
216 Ok(Row {
217 row_id: row.row_id.0,
218 values,
219 })
220}
221
222#[derive(Debug, Clone, PartialEq)]
224pub struct Row {
225 pub row_id: u64,
226 pub values: Map<String, Value>,
227}
228
229impl Row {
230 pub fn pk(&self, table: &KitTable) -> Option<Value> {
235 if table.primary_key.len() == 1 {
236 self.values.get(&table.primary_key[0]).cloned()
237 } else {
238 let mut obj = Map::new();
239 for name in &table.primary_key {
240 obj.insert(
241 name.clone(),
242 self.values.get(name).cloned().unwrap_or(Value::Null),
243 );
244 }
245 Some(Value::Object(obj))
246 }
247 }
248}
249
250pub fn pk_value(values: &Map<String, Value>, table: &KitTable) -> Option<Value> {
252 if table.primary_key.len() == 1 {
253 values.get(&table.primary_key[0]).cloned()
254 } else {
255 let mut obj = Map::new();
256 for name in &table.primary_key {
257 obj.insert(
258 name.clone(),
259 values.get(name).cloned().unwrap_or(Value::Null),
260 );
261 }
262 Some(Value::Object(obj))
263 }
264}
265
266pub fn pk_to_map(pk: &Value, table: &KitTable) -> Result<Map<String, Value>> {
268 let mut map = Map::new();
269 match pk {
270 Value::Object(obj) => {
271 for name in &table.primary_key {
272 let v = obj
273 .get(name)
274 .cloned()
275 .ok_or_else(|| KitError::Validation(format!("missing pk column {name}")))?;
276 map.insert(name.clone(), v);
277 }
278 }
279 scalar if table.primary_key.len() == 1 => {
280 map.insert(table.primary_key[0].clone(), scalar.clone());
281 }
282 _ => {
283 return Err(KitError::Validation(
284 "primary key value shape mismatch".into(),
285 ))
286 }
287 }
288 Ok(map)
289}
290
291pub fn row_to_core_cells(
293 values: &Map<String, Value>,
294 table: &KitTable,
295) -> Result<Vec<(u16, CoreValue)>> {
296 let mut cells = Vec::with_capacity(table.columns.len());
297 for col in &table.columns {
298 let v = values.get(&col.name).cloned().unwrap_or(Value::Null);
299 cells.push((col.id as u16, json_to_core(&v, col.storage_type)?));
300 }
301 Ok(cells)
302}