sqlglot.optimizer.annotate_types
1from __future__ import annotations 2 3import functools 4import logging 5import typing as t 6 7from sqlglot import exp 8from sqlglot.helper import ( 9 ensure_list, 10 is_date_unit, 11 is_iso_date, 12 is_iso_datetime, 13 seq_get, 14) 15from sqlglot.optimizer.scope import Scope, traverse_scope 16from sqlglot.schema import MappingSchema, Schema, ensure_schema 17from sqlglot.dialects.dialect import Dialect 18 19if t.TYPE_CHECKING: 20 from sqlglot._typing import B, E 21 22 BinaryCoercionFunc = t.Callable[[exp.Expression, exp.Expression], exp.DataType.Type] 23 BinaryCoercions = t.Dict[ 24 t.Tuple[exp.DataType.Type, exp.DataType.Type], 25 BinaryCoercionFunc, 26 ] 27 28 from sqlglot.dialects.dialect import DialectType, AnnotatorsType 29 30logger = logging.getLogger("sqlglot") 31 32 33def annotate_types( 34 expression: E, 35 schema: t.Optional[t.Dict | Schema] = None, 36 annotators: t.Optional[AnnotatorsType] = None, 37 coerces_to: t.Optional[t.Dict[exp.DataType.Type, t.Set[exp.DataType.Type]]] = None, 38 dialect: DialectType = None, 39) -> E: 40 """ 41 Infers the types of an expression, annotating its AST accordingly. 42 43 Example: 44 >>> import sqlglot 45 >>> schema = {"y": {"cola": "SMALLINT"}} 46 >>> sql = "SELECT x.cola + 2.5 AS cola FROM (SELECT y.cola AS cola FROM y AS y) AS x" 47 >>> annotated_expr = annotate_types(sqlglot.parse_one(sql), schema=schema) 48 >>> annotated_expr.expressions[0].type.this # Get the type of "x.cola + 2.5 AS cola" 49 <Type.DOUBLE: 'DOUBLE'> 50 51 Args: 52 expression: Expression to annotate. 53 schema: Database schema. 54 annotators: Maps expression type to corresponding annotation function. 55 coerces_to: Maps expression type to set of types that it can be coerced into. 56 57 Returns: 58 The expression annotated with types. 59 """ 60 61 schema = ensure_schema(schema, dialect=dialect) 62 63 return TypeAnnotator(schema, annotators, coerces_to).annotate(expression) 64 65 66def _coerce_date_literal(l: exp.Expression, unit: t.Optional[exp.Expression]) -> exp.DataType.Type: 67 date_text = l.name 68 is_iso_date_ = is_iso_date(date_text) 69 70 if is_iso_date_ and is_date_unit(unit): 71 return exp.DataType.Type.DATE 72 73 # An ISO date is also an ISO datetime, but not vice versa 74 if is_iso_date_ or is_iso_datetime(date_text): 75 return exp.DataType.Type.DATETIME 76 77 return exp.DataType.Type.UNKNOWN 78 79 80def _coerce_date(l: exp.Expression, unit: t.Optional[exp.Expression]) -> exp.DataType.Type: 81 if not is_date_unit(unit): 82 return exp.DataType.Type.DATETIME 83 return l.type.this if l.type else exp.DataType.Type.UNKNOWN 84 85 86def swap_args(func: BinaryCoercionFunc) -> BinaryCoercionFunc: 87 @functools.wraps(func) 88 def _swapped(l: exp.Expression, r: exp.Expression) -> exp.DataType.Type: 89 return func(r, l) 90 91 return _swapped 92 93 94def swap_all(coercions: BinaryCoercions) -> BinaryCoercions: 95 return {**coercions, **{(b, a): swap_args(func) for (a, b), func in coercions.items()}} 96 97 98class _TypeAnnotator(type): 99 def __new__(cls, clsname, bases, attrs): 100 klass = super().__new__(cls, clsname, bases, attrs) 101 102 # Highest-to-lowest type precedence, as specified in Spark's docs (ANSI): 103 # https://spark.apache.org/docs/3.2.0/sql-ref-ansi-compliance.html 104 text_precedence = ( 105 exp.DataType.Type.TEXT, 106 exp.DataType.Type.NVARCHAR, 107 exp.DataType.Type.VARCHAR, 108 exp.DataType.Type.NCHAR, 109 exp.DataType.Type.CHAR, 110 ) 111 numeric_precedence = ( 112 exp.DataType.Type.DOUBLE, 113 exp.DataType.Type.FLOAT, 114 exp.DataType.Type.DECIMAL, 115 exp.DataType.Type.BIGINT, 116 exp.DataType.Type.INT, 117 exp.DataType.Type.SMALLINT, 118 exp.DataType.Type.TINYINT, 119 ) 120 timelike_precedence = ( 121 exp.DataType.Type.TIMESTAMPLTZ, 122 exp.DataType.Type.TIMESTAMPTZ, 123 exp.DataType.Type.TIMESTAMP, 124 exp.DataType.Type.DATETIME, 125 exp.DataType.Type.DATE, 126 ) 127 128 for type_precedence in (text_precedence, numeric_precedence, timelike_precedence): 129 coerces_to = set() 130 for data_type in type_precedence: 131 klass.COERCES_TO[data_type] = coerces_to.copy() 132 coerces_to |= {data_type} 133 134 # NULL can be coerced to any type, so e.g. NULL + 1 will have type INT 135 klass.COERCES_TO[exp.DataType.Type.NULL] = { 136 *text_precedence, 137 *numeric_precedence, 138 *timelike_precedence, 139 } 140 141 return klass 142 143 144class TypeAnnotator(metaclass=_TypeAnnotator): 145 NESTED_TYPES = { 146 exp.DataType.Type.ARRAY, 147 } 148 149 # Specifies what types a given type can be coerced into (autofilled) 150 COERCES_TO: t.Dict[exp.DataType.Type, t.Set[exp.DataType.Type]] = {} 151 152 # Coercion functions for binary operations. 153 # Map of type pairs to a callable that takes both sides of the binary operation and returns the resulting type. 154 BINARY_COERCIONS: BinaryCoercions = { 155 **swap_all( 156 { 157 (t, exp.DataType.Type.INTERVAL): lambda l, r: _coerce_date_literal( 158 l, r.args.get("unit") 159 ) 160 for t in exp.DataType.TEXT_TYPES 161 } 162 ), 163 **swap_all( 164 { 165 # text + numeric will yield the numeric type to match most dialects' semantics 166 (text, numeric): lambda l, r: t.cast( 167 exp.DataType.Type, l.type if l.type in exp.DataType.NUMERIC_TYPES else r.type 168 ) 169 for text in exp.DataType.TEXT_TYPES 170 for numeric in exp.DataType.NUMERIC_TYPES 171 } 172 ), 173 **swap_all( 174 { 175 (exp.DataType.Type.DATE, exp.DataType.Type.INTERVAL): lambda l, r: _coerce_date( 176 l, r.args.get("unit") 177 ), 178 } 179 ), 180 } 181 182 def __init__( 183 self, 184 schema: Schema, 185 annotators: t.Optional[AnnotatorsType] = None, 186 coerces_to: t.Optional[t.Dict[exp.DataType.Type, t.Set[exp.DataType.Type]]] = None, 187 binary_coercions: t.Optional[BinaryCoercions] = None, 188 ) -> None: 189 self.schema = schema 190 self.annotators = annotators or Dialect.get_or_raise(schema.dialect).ANNOTATORS 191 self.coerces_to = ( 192 coerces_to or Dialect.get_or_raise(schema.dialect).COERCES_TO or self.COERCES_TO 193 ) 194 self.binary_coercions = binary_coercions or self.BINARY_COERCIONS 195 196 # Caches the ids of annotated sub-Expressions, to ensure we only visit them once 197 self._visited: t.Set[int] = set() 198 199 # Caches NULL-annotated expressions to set them to UNKNOWN after type inference is completed 200 self._null_expressions: t.Dict[int, exp.Expression] = {} 201 202 # Databricks and Spark ≥v3 actually support NULL (i.e., VOID) as a type 203 self._supports_null_type = schema.dialect in ("databricks", "spark") 204 205 # Maps an exp.SetOperation's id (e.g. UNION) to its projection types. This is computed if the 206 # exp.SetOperation is the expression of a scope source, as selecting from it multiple times 207 # would reprocess the entire subtree to coerce the types of its operands' projections 208 self._setop_column_types: t.Dict[int, t.Dict[str, exp.DataType | exp.DataType.Type]] = {} 209 210 def _set_type( 211 self, expression: exp.Expression, target_type: t.Optional[exp.DataType | exp.DataType.Type] 212 ) -> None: 213 prev_type = expression.type 214 expression_id = id(expression) 215 216 expression.type = target_type or exp.DataType.Type.UNKNOWN # type: ignore 217 self._visited.add(expression_id) 218 219 if ( 220 not self._supports_null_type 221 and t.cast(exp.DataType, expression.type).this == exp.DataType.Type.NULL 222 ): 223 self._null_expressions[expression_id] = expression 224 elif prev_type and t.cast(exp.DataType, prev_type).this == exp.DataType.Type.NULL: 225 self._null_expressions.pop(expression_id, None) 226 227 def annotate(self, expression: E) -> E: 228 for scope in traverse_scope(expression): 229 self.annotate_scope(scope) 230 231 # This takes care of non-traversable expressions 232 expression = self._maybe_annotate(expression) 233 234 # Replace NULL type with UNKNOWN, since the former is not an actual type; 235 # it is mostly used to aid type coercion, e.g. in query set operations. 236 for expr in self._null_expressions.values(): 237 expr.type = exp.DataType.Type.UNKNOWN 238 239 return expression 240 241 def annotate_scope(self, scope: Scope) -> None: 242 selects = {} 243 for name, source in scope.sources.items(): 244 if not isinstance(source, Scope): 245 continue 246 247 expression = source.expression 248 if isinstance(expression, exp.UDTF): 249 values = [] 250 251 if isinstance(expression, exp.Lateral): 252 if isinstance(expression.this, exp.Explode): 253 values = [expression.this.this] 254 elif isinstance(expression, exp.Unnest): 255 values = [expression] 256 elif not isinstance(expression, exp.TableFromRows): 257 values = expression.expressions[0].expressions 258 259 if not values: 260 continue 261 262 selects[name] = { 263 alias: column.type 264 for alias, column in zip(expression.alias_column_names, values) 265 } 266 elif isinstance(expression, exp.SetOperation) and len(expression.left.selects) == len( 267 expression.right.selects 268 ): 269 selects[name] = col_types = self._setop_column_types.setdefault(id(expression), {}) 270 271 if not col_types: 272 # Process a chain / sub-tree of set operations 273 for set_op in expression.walk( 274 prune=lambda n: not isinstance(n, (exp.SetOperation, exp.Subquery)) 275 ): 276 if not isinstance(set_op, exp.SetOperation): 277 continue 278 279 if set_op.args.get("by_name"): 280 r_type_by_select = { 281 s.alias_or_name: s.type for s in set_op.right.selects 282 } 283 setop_cols = { 284 s.alias_or_name: self._maybe_coerce( 285 t.cast(exp.DataType, s.type), 286 r_type_by_select.get(s.alias_or_name) 287 or exp.DataType.Type.UNKNOWN, 288 ) 289 for s in set_op.left.selects 290 } 291 else: 292 setop_cols = { 293 ls.alias_or_name: self._maybe_coerce( 294 t.cast(exp.DataType, ls.type), t.cast(exp.DataType, rs.type) 295 ) 296 for ls, rs in zip(set_op.left.selects, set_op.right.selects) 297 } 298 299 # Coerce intermediate results with the previously registered types, if they exist 300 for col_name, col_type in setop_cols.items(): 301 col_types[col_name] = self._maybe_coerce( 302 col_type, col_types.get(col_name, exp.DataType.Type.NULL) 303 ) 304 305 else: 306 selects[name] = {s.alias_or_name: s.type for s in expression.selects} 307 308 # First annotate the current scope's column references 309 for col in scope.columns: 310 if not col.table: 311 continue 312 313 source = scope.sources.get(col.table) 314 if isinstance(source, exp.Table): 315 self._set_type(col, self.schema.get_column_type(source, col)) 316 elif source: 317 if col.table in selects and col.name in selects[col.table]: 318 self._set_type(col, selects[col.table][col.name]) 319 elif isinstance(source.expression, exp.Unnest): 320 self._set_type(col, source.expression.type) 321 322 if isinstance(self.schema, MappingSchema): 323 for table_column in scope.table_columns: 324 source = scope.sources.get(table_column.name) 325 326 if isinstance(source, exp.Table): 327 schema = self.schema.find( 328 source, raise_on_missing=False, ensure_data_types=True 329 ) 330 if not isinstance(schema, dict): 331 continue 332 333 struct_type = exp.DataType( 334 this=exp.DataType.Type.STRUCT, 335 expressions=[ 336 exp.ColumnDef(this=exp.to_identifier(c), kind=kind) 337 for c, kind in schema.items() 338 ], 339 nested=True, 340 ) 341 self._set_type(table_column, struct_type) 342 elif ( 343 isinstance(source, Scope) 344 and isinstance(source.expression, exp.Query) 345 and ( 346 source.expression.meta.get("query_type") or exp.DataType.build("UNKNOWN") 347 ).is_type(exp.DataType.Type.STRUCT) 348 ): 349 self._set_type(table_column, source.expression.meta["query_type"]) 350 351 # Then (possibly) annotate the remaining expressions in the scope 352 self._maybe_annotate(scope.expression) 353 354 if self.schema.dialect == "bigquery" and isinstance(scope.expression, exp.Query): 355 struct_type = exp.DataType( 356 this=exp.DataType.Type.STRUCT, 357 expressions=[ 358 exp.ColumnDef( 359 this=exp.to_identifier(select.output_name), 360 kind=select.type.copy() if select.type else None, 361 ) 362 for select in scope.expression.selects 363 ], 364 nested=True, 365 ) 366 367 if not any( 368 cd.kind.is_type(exp.DataType.Type.UNKNOWN) 369 for cd in struct_type.expressions 370 if cd.kind 371 ): 372 # We don't use `_set_type` on purpose here. If we annotated the query directly, then 373 # using it in other contexts (e.g., ARRAY(<query>)) could result in incorrect type 374 # annotations, i.e., it shouldn't be interpreted as a STRUCT value. 375 scope.expression.meta["query_type"] = struct_type 376 377 def _maybe_annotate(self, expression: E) -> E: 378 if id(expression) in self._visited: 379 return expression # We've already inferred the expression's type 380 381 annotator = self.annotators.get(expression.__class__) 382 383 return ( 384 annotator(self, expression) 385 if annotator 386 else self._annotate_with_type(expression, exp.DataType.Type.UNKNOWN) 387 ) 388 389 def _annotate_args(self, expression: E) -> E: 390 for value in expression.iter_expressions(): 391 self._maybe_annotate(value) 392 393 return expression 394 395 def _maybe_coerce( 396 self, 397 type1: exp.DataType | exp.DataType.Type, 398 type2: exp.DataType | exp.DataType.Type, 399 ) -> exp.DataType | exp.DataType.Type: 400 """ 401 Returns type2 if type1 can be coerced into it, otherwise type1. 402 403 If either type is parameterized (e.g. DECIMAL(18, 2) contains two parameters), 404 we assume type1 does not coerce into type2, so we also return it in this case. 405 """ 406 if isinstance(type1, exp.DataType): 407 if type1.expressions: 408 return type1 409 type1_value = type1.this 410 else: 411 type1_value = type1 412 413 if isinstance(type2, exp.DataType): 414 if type2.expressions: 415 return type2 416 type2_value = type2.this 417 else: 418 type2_value = type2 419 420 # We propagate the UNKNOWN type upwards if found 421 if exp.DataType.Type.UNKNOWN in (type1_value, type2_value): 422 return exp.DataType.Type.UNKNOWN 423 424 return type2_value if type2_value in self.coerces_to.get(type1_value, {}) else type1_value 425 426 def _annotate_binary(self, expression: B) -> B: 427 self._annotate_args(expression) 428 429 left, right = expression.left, expression.right 430 if not left or not right: 431 expression_sql = expression.sql(self.schema.dialect) 432 logger.warning(f"Failed to annotate badly formed binary expression: {expression_sql}") 433 self._set_type(expression, None) 434 return expression 435 436 left_type, right_type = left.type.this, right.type.this # type: ignore 437 438 if isinstance(expression, (exp.Connector, exp.Predicate)): 439 self._set_type(expression, exp.DataType.Type.BOOLEAN) 440 elif (left_type, right_type) in self.binary_coercions: 441 self._set_type(expression, self.binary_coercions[(left_type, right_type)](left, right)) 442 else: 443 self._set_type(expression, self._maybe_coerce(left_type, right_type)) 444 445 return expression 446 447 def _annotate_unary(self, expression: E) -> E: 448 self._annotate_args(expression) 449 450 if isinstance(expression, exp.Not): 451 self._set_type(expression, exp.DataType.Type.BOOLEAN) 452 else: 453 self._set_type(expression, expression.this.type) 454 455 return expression 456 457 def _annotate_literal(self, expression: exp.Literal) -> exp.Literal: 458 if expression.is_string: 459 self._set_type(expression, exp.DataType.Type.VARCHAR) 460 elif expression.is_int: 461 self._set_type(expression, exp.DataType.Type.INT) 462 else: 463 self._set_type(expression, exp.DataType.Type.DOUBLE) 464 465 return expression 466 467 def _annotate_with_type( 468 self, expression: E, target_type: exp.DataType | exp.DataType.Type 469 ) -> E: 470 self._set_type(expression, target_type) 471 return self._annotate_args(expression) 472 473 @t.no_type_check 474 def _annotate_by_args( 475 self, 476 expression: E, 477 *args: str, 478 promote: bool = False, 479 array: bool = False, 480 ) -> E: 481 self._annotate_args(expression) 482 483 expressions: t.List[exp.Expression] = [] 484 for arg in args: 485 arg_expr = expression.args.get(arg) 486 expressions.extend(expr for expr in ensure_list(arg_expr) if expr) 487 488 last_datatype = None 489 for expr in expressions: 490 expr_type = expr.type 491 492 # Stop at the first nested data type found - we don't want to _maybe_coerce nested types 493 if expr_type.args.get("nested"): 494 last_datatype = expr_type 495 break 496 497 if not expr_type.is_type(exp.DataType.Type.UNKNOWN): 498 last_datatype = self._maybe_coerce(last_datatype or expr_type, expr_type) 499 500 self._set_type(expression, last_datatype or exp.DataType.Type.UNKNOWN) 501 502 if promote: 503 if expression.type.this in exp.DataType.INTEGER_TYPES: 504 self._set_type(expression, exp.DataType.Type.BIGINT) 505 elif expression.type.this in exp.DataType.FLOAT_TYPES: 506 self._set_type(expression, exp.DataType.Type.DOUBLE) 507 508 if array: 509 self._set_type( 510 expression, 511 exp.DataType( 512 this=exp.DataType.Type.ARRAY, expressions=[expression.type], nested=True 513 ), 514 ) 515 516 return expression 517 518 def _annotate_timeunit( 519 self, expression: exp.TimeUnit | exp.DateTrunc 520 ) -> exp.TimeUnit | exp.DateTrunc: 521 self._annotate_args(expression) 522 523 if expression.this.type.this in exp.DataType.TEXT_TYPES: 524 datatype = _coerce_date_literal(expression.this, expression.unit) 525 elif expression.this.type.this in exp.DataType.TEMPORAL_TYPES: 526 datatype = _coerce_date(expression.this, expression.unit) 527 else: 528 datatype = exp.DataType.Type.UNKNOWN 529 530 self._set_type(expression, datatype) 531 return expression 532 533 def _annotate_bracket(self, expression: exp.Bracket) -> exp.Bracket: 534 self._annotate_args(expression) 535 536 bracket_arg = expression.expressions[0] 537 this = expression.this 538 539 if isinstance(bracket_arg, exp.Slice): 540 self._set_type(expression, this.type) 541 elif this.type.is_type(exp.DataType.Type.ARRAY): 542 self._set_type(expression, seq_get(this.type.expressions, 0)) 543 elif isinstance(this, (exp.Map, exp.VarMap)) and bracket_arg in this.keys: 544 index = this.keys.index(bracket_arg) 545 value = seq_get(this.values, index) 546 self._set_type(expression, value.type if value else None) 547 else: 548 self._set_type(expression, exp.DataType.Type.UNKNOWN) 549 550 return expression 551 552 def _annotate_div(self, expression: exp.Div) -> exp.Div: 553 self._annotate_args(expression) 554 555 left_type, right_type = expression.left.type.this, expression.right.type.this # type: ignore 556 557 if ( 558 expression.args.get("typed") 559 and left_type in exp.DataType.INTEGER_TYPES 560 and right_type in exp.DataType.INTEGER_TYPES 561 ): 562 self._set_type(expression, exp.DataType.Type.BIGINT) 563 else: 564 self._set_type(expression, self._maybe_coerce(left_type, right_type)) 565 if expression.type and expression.type.this not in exp.DataType.REAL_TYPES: 566 self._set_type( 567 expression, self._maybe_coerce(expression.type, exp.DataType.Type.DOUBLE) 568 ) 569 570 return expression 571 572 def _annotate_dot(self, expression: exp.Dot) -> exp.Dot: 573 self._annotate_args(expression) 574 self._set_type(expression, None) 575 this_type = expression.this.type 576 577 if this_type and this_type.is_type(exp.DataType.Type.STRUCT): 578 for e in this_type.expressions: 579 if e.name == expression.expression.name: 580 self._set_type(expression, e.kind) 581 break 582 583 return expression 584 585 def _annotate_explode(self, expression: exp.Explode) -> exp.Explode: 586 self._annotate_args(expression) 587 self._set_type(expression, seq_get(expression.this.type.expressions, 0)) 588 return expression 589 590 def _annotate_unnest(self, expression: exp.Unnest) -> exp.Unnest: 591 self._annotate_args(expression) 592 child = seq_get(expression.expressions, 0) 593 594 if child and child.is_type(exp.DataType.Type.ARRAY): 595 expr_type = seq_get(child.type.expressions, 0) 596 else: 597 expr_type = None 598 599 self._set_type(expression, expr_type) 600 return expression 601 602 def _annotate_struct_value( 603 self, expression: exp.Expression 604 ) -> t.Optional[exp.DataType] | exp.ColumnDef: 605 # Case: STRUCT(key AS value) 606 if alias := expression.args.get("alias"): 607 return exp.ColumnDef(this=alias.copy(), kind=expression.type) 608 609 # Case: STRUCT(key = value) or STRUCT(key := value) 610 if expression.expression: 611 return exp.ColumnDef(this=expression.this.copy(), kind=expression.expression.type) 612 613 # Case: STRUCT(c) 614 if isinstance(expression, exp.Column): 615 return exp.ColumnDef(this=expression.this.copy(), kind=expression.type) 616 617 return expression.type 618 619 def _annotate_struct(self, expression: exp.Struct) -> exp.Struct: 620 self._annotate_args(expression) 621 self._set_type( 622 expression, 623 exp.DataType( 624 this=exp.DataType.Type.STRUCT, 625 expressions=[self._annotate_struct_value(expr) for expr in expression.expressions], 626 nested=True, 627 ), 628 ) 629 return expression 630 631 @t.overload 632 def _annotate_map(self, expression: exp.Map) -> exp.Map: ... 633 634 @t.overload 635 def _annotate_map(self, expression: exp.VarMap) -> exp.VarMap: ... 636 637 def _annotate_map(self, expression): 638 self._annotate_args(expression) 639 640 keys = expression.args.get("keys") 641 values = expression.args.get("values") 642 643 map_type = exp.DataType(this=exp.DataType.Type.MAP) 644 if isinstance(keys, exp.Array) and isinstance(values, exp.Array): 645 key_type = seq_get(keys.type.expressions, 0) or exp.DataType.Type.UNKNOWN 646 value_type = seq_get(values.type.expressions, 0) or exp.DataType.Type.UNKNOWN 647 648 if key_type != exp.DataType.Type.UNKNOWN and value_type != exp.DataType.Type.UNKNOWN: 649 map_type.set("expressions", [key_type, value_type]) 650 map_type.set("nested", True) 651 652 self._set_type(expression, map_type) 653 return expression 654 655 def _annotate_to_map(self, expression: exp.ToMap) -> exp.ToMap: 656 self._annotate_args(expression) 657 658 map_type = exp.DataType(this=exp.DataType.Type.MAP) 659 arg = expression.this 660 if arg.is_type(exp.DataType.Type.STRUCT): 661 for coldef in arg.type.expressions: 662 kind = coldef.kind 663 if kind != exp.DataType.Type.UNKNOWN: 664 map_type.set("expressions", [exp.DataType.build("varchar"), kind]) 665 map_type.set("nested", True) 666 break 667 668 self._set_type(expression, map_type) 669 return expression 670 671 def _annotate_extract(self, expression: exp.Extract) -> exp.Extract: 672 self._annotate_args(expression) 673 part = expression.name 674 if part == "TIME": 675 self._set_type(expression, exp.DataType.Type.TIME) 676 elif part == "DATE": 677 self._set_type(expression, exp.DataType.Type.DATE) 678 else: 679 self._set_type(expression, exp.DataType.Type.INT) 680 return expression 681 682 def _annotate_by_array_element(self, expression: exp.Expression) -> exp.Expression: 683 self._annotate_args(expression) 684 685 array_arg = expression.this 686 if array_arg.type.is_type(exp.DataType.Type.ARRAY): 687 element_type = seq_get(array_arg.type.expressions, 0) or exp.DataType.Type.UNKNOWN 688 self._set_type(expression, element_type) 689 else: 690 self._set_type(expression, exp.DataType.Type.UNKNOWN) 691 692 return expression
logger =
<Logger sqlglot (WARNING)>
def
annotate_types( expression: ~E, schema: Union[Dict, sqlglot.schema.Schema, NoneType] = None, annotators: Optional[Dict[Type[~E], Callable[[TypeAnnotator, ~E], ~E]]] = None, coerces_to: Optional[Dict[sqlglot.expressions.DataType.Type, Set[sqlglot.expressions.DataType.Type]]] = None, dialect: Union[str, sqlglot.dialects.Dialect, Type[sqlglot.dialects.Dialect], NoneType] = None) -> ~E:
34def annotate_types( 35 expression: E, 36 schema: t.Optional[t.Dict | Schema] = None, 37 annotators: t.Optional[AnnotatorsType] = None, 38 coerces_to: t.Optional[t.Dict[exp.DataType.Type, t.Set[exp.DataType.Type]]] = None, 39 dialect: DialectType = None, 40) -> E: 41 """ 42 Infers the types of an expression, annotating its AST accordingly. 43 44 Example: 45 >>> import sqlglot 46 >>> schema = {"y": {"cola": "SMALLINT"}} 47 >>> sql = "SELECT x.cola + 2.5 AS cola FROM (SELECT y.cola AS cola FROM y AS y) AS x" 48 >>> annotated_expr = annotate_types(sqlglot.parse_one(sql), schema=schema) 49 >>> annotated_expr.expressions[0].type.this # Get the type of "x.cola + 2.5 AS cola" 50 <Type.DOUBLE: 'DOUBLE'> 51 52 Args: 53 expression: Expression to annotate. 54 schema: Database schema. 55 annotators: Maps expression type to corresponding annotation function. 56 coerces_to: Maps expression type to set of types that it can be coerced into. 57 58 Returns: 59 The expression annotated with types. 60 """ 61 62 schema = ensure_schema(schema, dialect=dialect) 63 64 return TypeAnnotator(schema, annotators, coerces_to).annotate(expression)
Infers the types of an expression, annotating its AST accordingly.
Example:
>>> import sqlglot >>> schema = {"y": {"cola": "SMALLINT"}} >>> sql = "SELECT x.cola + 2.5 AS cola FROM (SELECT y.cola AS cola FROM y AS y) AS x" >>> annotated_expr = annotate_types(sqlglot.parse_one(sql), schema=schema) >>> annotated_expr.expressions[0].type.this # Get the type of "x.cola + 2.5 AS cola" <Type.DOUBLE: 'DOUBLE'>
Arguments:
- expression: Expression to annotate.
- schema: Database schema.
- annotators: Maps expression type to corresponding annotation function.
- coerces_to: Maps expression type to set of types that it can be coerced into.
Returns:
The expression annotated with types.
def
swap_args( func: Callable[[sqlglot.expressions.Expression, sqlglot.expressions.Expression], sqlglot.expressions.DataType.Type]) -> Callable[[sqlglot.expressions.Expression, sqlglot.expressions.Expression], sqlglot.expressions.DataType.Type]:
def
swap_all( coercions: Dict[Tuple[sqlglot.expressions.DataType.Type, sqlglot.expressions.DataType.Type], Callable[[sqlglot.expressions.Expression, sqlglot.expressions.Expression], sqlglot.expressions.DataType.Type]]) -> Dict[Tuple[sqlglot.expressions.DataType.Type, sqlglot.expressions.DataType.Type], Callable[[sqlglot.expressions.Expression, sqlglot.expressions.Expression], sqlglot.expressions.DataType.Type]]:
class
TypeAnnotator:
145class TypeAnnotator(metaclass=_TypeAnnotator): 146 NESTED_TYPES = { 147 exp.DataType.Type.ARRAY, 148 } 149 150 # Specifies what types a given type can be coerced into (autofilled) 151 COERCES_TO: t.Dict[exp.DataType.Type, t.Set[exp.DataType.Type]] = {} 152 153 # Coercion functions for binary operations. 154 # Map of type pairs to a callable that takes both sides of the binary operation and returns the resulting type. 155 BINARY_COERCIONS: BinaryCoercions = { 156 **swap_all( 157 { 158 (t, exp.DataType.Type.INTERVAL): lambda l, r: _coerce_date_literal( 159 l, r.args.get("unit") 160 ) 161 for t in exp.DataType.TEXT_TYPES 162 } 163 ), 164 **swap_all( 165 { 166 # text + numeric will yield the numeric type to match most dialects' semantics 167 (text, numeric): lambda l, r: t.cast( 168 exp.DataType.Type, l.type if l.type in exp.DataType.NUMERIC_TYPES else r.type 169 ) 170 for text in exp.DataType.TEXT_TYPES 171 for numeric in exp.DataType.NUMERIC_TYPES 172 } 173 ), 174 **swap_all( 175 { 176 (exp.DataType.Type.DATE, exp.DataType.Type.INTERVAL): lambda l, r: _coerce_date( 177 l, r.args.get("unit") 178 ), 179 } 180 ), 181 } 182 183 def __init__( 184 self, 185 schema: Schema, 186 annotators: t.Optional[AnnotatorsType] = None, 187 coerces_to: t.Optional[t.Dict[exp.DataType.Type, t.Set[exp.DataType.Type]]] = None, 188 binary_coercions: t.Optional[BinaryCoercions] = None, 189 ) -> None: 190 self.schema = schema 191 self.annotators = annotators or Dialect.get_or_raise(schema.dialect).ANNOTATORS 192 self.coerces_to = ( 193 coerces_to or Dialect.get_or_raise(schema.dialect).COERCES_TO or self.COERCES_TO 194 ) 195 self.binary_coercions = binary_coercions or self.BINARY_COERCIONS 196 197 # Caches the ids of annotated sub-Expressions, to ensure we only visit them once 198 self._visited: t.Set[int] = set() 199 200 # Caches NULL-annotated expressions to set them to UNKNOWN after type inference is completed 201 self._null_expressions: t.Dict[int, exp.Expression] = {} 202 203 # Databricks and Spark ≥v3 actually support NULL (i.e., VOID) as a type 204 self._supports_null_type = schema.dialect in ("databricks", "spark") 205 206 # Maps an exp.SetOperation's id (e.g. UNION) to its projection types. This is computed if the 207 # exp.SetOperation is the expression of a scope source, as selecting from it multiple times 208 # would reprocess the entire subtree to coerce the types of its operands' projections 209 self._setop_column_types: t.Dict[int, t.Dict[str, exp.DataType | exp.DataType.Type]] = {} 210 211 def _set_type( 212 self, expression: exp.Expression, target_type: t.Optional[exp.DataType | exp.DataType.Type] 213 ) -> None: 214 prev_type = expression.type 215 expression_id = id(expression) 216 217 expression.type = target_type or exp.DataType.Type.UNKNOWN # type: ignore 218 self._visited.add(expression_id) 219 220 if ( 221 not self._supports_null_type 222 and t.cast(exp.DataType, expression.type).this == exp.DataType.Type.NULL 223 ): 224 self._null_expressions[expression_id] = expression 225 elif prev_type and t.cast(exp.DataType, prev_type).this == exp.DataType.Type.NULL: 226 self._null_expressions.pop(expression_id, None) 227 228 def annotate(self, expression: E) -> E: 229 for scope in traverse_scope(expression): 230 self.annotate_scope(scope) 231 232 # This takes care of non-traversable expressions 233 expression = self._maybe_annotate(expression) 234 235 # Replace NULL type with UNKNOWN, since the former is not an actual type; 236 # it is mostly used to aid type coercion, e.g. in query set operations. 237 for expr in self._null_expressions.values(): 238 expr.type = exp.DataType.Type.UNKNOWN 239 240 return expression 241 242 def annotate_scope(self, scope: Scope) -> None: 243 selects = {} 244 for name, source in scope.sources.items(): 245 if not isinstance(source, Scope): 246 continue 247 248 expression = source.expression 249 if isinstance(expression, exp.UDTF): 250 values = [] 251 252 if isinstance(expression, exp.Lateral): 253 if isinstance(expression.this, exp.Explode): 254 values = [expression.this.this] 255 elif isinstance(expression, exp.Unnest): 256 values = [expression] 257 elif not isinstance(expression, exp.TableFromRows): 258 values = expression.expressions[0].expressions 259 260 if not values: 261 continue 262 263 selects[name] = { 264 alias: column.type 265 for alias, column in zip(expression.alias_column_names, values) 266 } 267 elif isinstance(expression, exp.SetOperation) and len(expression.left.selects) == len( 268 expression.right.selects 269 ): 270 selects[name] = col_types = self._setop_column_types.setdefault(id(expression), {}) 271 272 if not col_types: 273 # Process a chain / sub-tree of set operations 274 for set_op in expression.walk( 275 prune=lambda n: not isinstance(n, (exp.SetOperation, exp.Subquery)) 276 ): 277 if not isinstance(set_op, exp.SetOperation): 278 continue 279 280 if set_op.args.get("by_name"): 281 r_type_by_select = { 282 s.alias_or_name: s.type for s in set_op.right.selects 283 } 284 setop_cols = { 285 s.alias_or_name: self._maybe_coerce( 286 t.cast(exp.DataType, s.type), 287 r_type_by_select.get(s.alias_or_name) 288 or exp.DataType.Type.UNKNOWN, 289 ) 290 for s in set_op.left.selects 291 } 292 else: 293 setop_cols = { 294 ls.alias_or_name: self._maybe_coerce( 295 t.cast(exp.DataType, ls.type), t.cast(exp.DataType, rs.type) 296 ) 297 for ls, rs in zip(set_op.left.selects, set_op.right.selects) 298 } 299 300 # Coerce intermediate results with the previously registered types, if they exist 301 for col_name, col_type in setop_cols.items(): 302 col_types[col_name] = self._maybe_coerce( 303 col_type, col_types.get(col_name, exp.DataType.Type.NULL) 304 ) 305 306 else: 307 selects[name] = {s.alias_or_name: s.type for s in expression.selects} 308 309 # First annotate the current scope's column references 310 for col in scope.columns: 311 if not col.table: 312 continue 313 314 source = scope.sources.get(col.table) 315 if isinstance(source, exp.Table): 316 self._set_type(col, self.schema.get_column_type(source, col)) 317 elif source: 318 if col.table in selects and col.name in selects[col.table]: 319 self._set_type(col, selects[col.table][col.name]) 320 elif isinstance(source.expression, exp.Unnest): 321 self._set_type(col, source.expression.type) 322 323 if isinstance(self.schema, MappingSchema): 324 for table_column in scope.table_columns: 325 source = scope.sources.get(table_column.name) 326 327 if isinstance(source, exp.Table): 328 schema = self.schema.find( 329 source, raise_on_missing=False, ensure_data_types=True 330 ) 331 if not isinstance(schema, dict): 332 continue 333 334 struct_type = exp.DataType( 335 this=exp.DataType.Type.STRUCT, 336 expressions=[ 337 exp.ColumnDef(this=exp.to_identifier(c), kind=kind) 338 for c, kind in schema.items() 339 ], 340 nested=True, 341 ) 342 self._set_type(table_column, struct_type) 343 elif ( 344 isinstance(source, Scope) 345 and isinstance(source.expression, exp.Query) 346 and ( 347 source.expression.meta.get("query_type") or exp.DataType.build("UNKNOWN") 348 ).is_type(exp.DataType.Type.STRUCT) 349 ): 350 self._set_type(table_column, source.expression.meta["query_type"]) 351 352 # Then (possibly) annotate the remaining expressions in the scope 353 self._maybe_annotate(scope.expression) 354 355 if self.schema.dialect == "bigquery" and isinstance(scope.expression, exp.Query): 356 struct_type = exp.DataType( 357 this=exp.DataType.Type.STRUCT, 358 expressions=[ 359 exp.ColumnDef( 360 this=exp.to_identifier(select.output_name), 361 kind=select.type.copy() if select.type else None, 362 ) 363 for select in scope.expression.selects 364 ], 365 nested=True, 366 ) 367 368 if not any( 369 cd.kind.is_type(exp.DataType.Type.UNKNOWN) 370 for cd in struct_type.expressions 371 if cd.kind 372 ): 373 # We don't use `_set_type` on purpose here. If we annotated the query directly, then 374 # using it in other contexts (e.g., ARRAY(<query>)) could result in incorrect type 375 # annotations, i.e., it shouldn't be interpreted as a STRUCT value. 376 scope.expression.meta["query_type"] = struct_type 377 378 def _maybe_annotate(self, expression: E) -> E: 379 if id(expression) in self._visited: 380 return expression # We've already inferred the expression's type 381 382 annotator = self.annotators.get(expression.__class__) 383 384 return ( 385 annotator(self, expression) 386 if annotator 387 else self._annotate_with_type(expression, exp.DataType.Type.UNKNOWN) 388 ) 389 390 def _annotate_args(self, expression: E) -> E: 391 for value in expression.iter_expressions(): 392 self._maybe_annotate(value) 393 394 return expression 395 396 def _maybe_coerce( 397 self, 398 type1: exp.DataType | exp.DataType.Type, 399 type2: exp.DataType | exp.DataType.Type, 400 ) -> exp.DataType | exp.DataType.Type: 401 """ 402 Returns type2 if type1 can be coerced into it, otherwise type1. 403 404 If either type is parameterized (e.g. DECIMAL(18, 2) contains two parameters), 405 we assume type1 does not coerce into type2, so we also return it in this case. 406 """ 407 if isinstance(type1, exp.DataType): 408 if type1.expressions: 409 return type1 410 type1_value = type1.this 411 else: 412 type1_value = type1 413 414 if isinstance(type2, exp.DataType): 415 if type2.expressions: 416 return type2 417 type2_value = type2.this 418 else: 419 type2_value = type2 420 421 # We propagate the UNKNOWN type upwards if found 422 if exp.DataType.Type.UNKNOWN in (type1_value, type2_value): 423 return exp.DataType.Type.UNKNOWN 424 425 return type2_value if type2_value in self.coerces_to.get(type1_value, {}) else type1_value 426 427 def _annotate_binary(self, expression: B) -> B: 428 self._annotate_args(expression) 429 430 left, right = expression.left, expression.right 431 if not left or not right: 432 expression_sql = expression.sql(self.schema.dialect) 433 logger.warning(f"Failed to annotate badly formed binary expression: {expression_sql}") 434 self._set_type(expression, None) 435 return expression 436 437 left_type, right_type = left.type.this, right.type.this # type: ignore 438 439 if isinstance(expression, (exp.Connector, exp.Predicate)): 440 self._set_type(expression, exp.DataType.Type.BOOLEAN) 441 elif (left_type, right_type) in self.binary_coercions: 442 self._set_type(expression, self.binary_coercions[(left_type, right_type)](left, right)) 443 else: 444 self._set_type(expression, self._maybe_coerce(left_type, right_type)) 445 446 return expression 447 448 def _annotate_unary(self, expression: E) -> E: 449 self._annotate_args(expression) 450 451 if isinstance(expression, exp.Not): 452 self._set_type(expression, exp.DataType.Type.BOOLEAN) 453 else: 454 self._set_type(expression, expression.this.type) 455 456 return expression 457 458 def _annotate_literal(self, expression: exp.Literal) -> exp.Literal: 459 if expression.is_string: 460 self._set_type(expression, exp.DataType.Type.VARCHAR) 461 elif expression.is_int: 462 self._set_type(expression, exp.DataType.Type.INT) 463 else: 464 self._set_type(expression, exp.DataType.Type.DOUBLE) 465 466 return expression 467 468 def _annotate_with_type( 469 self, expression: E, target_type: exp.DataType | exp.DataType.Type 470 ) -> E: 471 self._set_type(expression, target_type) 472 return self._annotate_args(expression) 473 474 @t.no_type_check 475 def _annotate_by_args( 476 self, 477 expression: E, 478 *args: str, 479 promote: bool = False, 480 array: bool = False, 481 ) -> E: 482 self._annotate_args(expression) 483 484 expressions: t.List[exp.Expression] = [] 485 for arg in args: 486 arg_expr = expression.args.get(arg) 487 expressions.extend(expr for expr in ensure_list(arg_expr) if expr) 488 489 last_datatype = None 490 for expr in expressions: 491 expr_type = expr.type 492 493 # Stop at the first nested data type found - we don't want to _maybe_coerce nested types 494 if expr_type.args.get("nested"): 495 last_datatype = expr_type 496 break 497 498 if not expr_type.is_type(exp.DataType.Type.UNKNOWN): 499 last_datatype = self._maybe_coerce(last_datatype or expr_type, expr_type) 500 501 self._set_type(expression, last_datatype or exp.DataType.Type.UNKNOWN) 502 503 if promote: 504 if expression.type.this in exp.DataType.INTEGER_TYPES: 505 self._set_type(expression, exp.DataType.Type.BIGINT) 506 elif expression.type.this in exp.DataType.FLOAT_TYPES: 507 self._set_type(expression, exp.DataType.Type.DOUBLE) 508 509 if array: 510 self._set_type( 511 expression, 512 exp.DataType( 513 this=exp.DataType.Type.ARRAY, expressions=[expression.type], nested=True 514 ), 515 ) 516 517 return expression 518 519 def _annotate_timeunit( 520 self, expression: exp.TimeUnit | exp.DateTrunc 521 ) -> exp.TimeUnit | exp.DateTrunc: 522 self._annotate_args(expression) 523 524 if expression.this.type.this in exp.DataType.TEXT_TYPES: 525 datatype = _coerce_date_literal(expression.this, expression.unit) 526 elif expression.this.type.this in exp.DataType.TEMPORAL_TYPES: 527 datatype = _coerce_date(expression.this, expression.unit) 528 else: 529 datatype = exp.DataType.Type.UNKNOWN 530 531 self._set_type(expression, datatype) 532 return expression 533 534 def _annotate_bracket(self, expression: exp.Bracket) -> exp.Bracket: 535 self._annotate_args(expression) 536 537 bracket_arg = expression.expressions[0] 538 this = expression.this 539 540 if isinstance(bracket_arg, exp.Slice): 541 self._set_type(expression, this.type) 542 elif this.type.is_type(exp.DataType.Type.ARRAY): 543 self._set_type(expression, seq_get(this.type.expressions, 0)) 544 elif isinstance(this, (exp.Map, exp.VarMap)) and bracket_arg in this.keys: 545 index = this.keys.index(bracket_arg) 546 value = seq_get(this.values, index) 547 self._set_type(expression, value.type if value else None) 548 else: 549 self._set_type(expression, exp.DataType.Type.UNKNOWN) 550 551 return expression 552 553 def _annotate_div(self, expression: exp.Div) -> exp.Div: 554 self._annotate_args(expression) 555 556 left_type, right_type = expression.left.type.this, expression.right.type.this # type: ignore 557 558 if ( 559 expression.args.get("typed") 560 and left_type in exp.DataType.INTEGER_TYPES 561 and right_type in exp.DataType.INTEGER_TYPES 562 ): 563 self._set_type(expression, exp.DataType.Type.BIGINT) 564 else: 565 self._set_type(expression, self._maybe_coerce(left_type, right_type)) 566 if expression.type and expression.type.this not in exp.DataType.REAL_TYPES: 567 self._set_type( 568 expression, self._maybe_coerce(expression.type, exp.DataType.Type.DOUBLE) 569 ) 570 571 return expression 572 573 def _annotate_dot(self, expression: exp.Dot) -> exp.Dot: 574 self._annotate_args(expression) 575 self._set_type(expression, None) 576 this_type = expression.this.type 577 578 if this_type and this_type.is_type(exp.DataType.Type.STRUCT): 579 for e in this_type.expressions: 580 if e.name == expression.expression.name: 581 self._set_type(expression, e.kind) 582 break 583 584 return expression 585 586 def _annotate_explode(self, expression: exp.Explode) -> exp.Explode: 587 self._annotate_args(expression) 588 self._set_type(expression, seq_get(expression.this.type.expressions, 0)) 589 return expression 590 591 def _annotate_unnest(self, expression: exp.Unnest) -> exp.Unnest: 592 self._annotate_args(expression) 593 child = seq_get(expression.expressions, 0) 594 595 if child and child.is_type(exp.DataType.Type.ARRAY): 596 expr_type = seq_get(child.type.expressions, 0) 597 else: 598 expr_type = None 599 600 self._set_type(expression, expr_type) 601 return expression 602 603 def _annotate_struct_value( 604 self, expression: exp.Expression 605 ) -> t.Optional[exp.DataType] | exp.ColumnDef: 606 # Case: STRUCT(key AS value) 607 if alias := expression.args.get("alias"): 608 return exp.ColumnDef(this=alias.copy(), kind=expression.type) 609 610 # Case: STRUCT(key = value) or STRUCT(key := value) 611 if expression.expression: 612 return exp.ColumnDef(this=expression.this.copy(), kind=expression.expression.type) 613 614 # Case: STRUCT(c) 615 if isinstance(expression, exp.Column): 616 return exp.ColumnDef(this=expression.this.copy(), kind=expression.type) 617 618 return expression.type 619 620 def _annotate_struct(self, expression: exp.Struct) -> exp.Struct: 621 self._annotate_args(expression) 622 self._set_type( 623 expression, 624 exp.DataType( 625 this=exp.DataType.Type.STRUCT, 626 expressions=[self._annotate_struct_value(expr) for expr in expression.expressions], 627 nested=True, 628 ), 629 ) 630 return expression 631 632 @t.overload 633 def _annotate_map(self, expression: exp.Map) -> exp.Map: ... 634 635 @t.overload 636 def _annotate_map(self, expression: exp.VarMap) -> exp.VarMap: ... 637 638 def _annotate_map(self, expression): 639 self._annotate_args(expression) 640 641 keys = expression.args.get("keys") 642 values = expression.args.get("values") 643 644 map_type = exp.DataType(this=exp.DataType.Type.MAP) 645 if isinstance(keys, exp.Array) and isinstance(values, exp.Array): 646 key_type = seq_get(keys.type.expressions, 0) or exp.DataType.Type.UNKNOWN 647 value_type = seq_get(values.type.expressions, 0) or exp.DataType.Type.UNKNOWN 648 649 if key_type != exp.DataType.Type.UNKNOWN and value_type != exp.DataType.Type.UNKNOWN: 650 map_type.set("expressions", [key_type, value_type]) 651 map_type.set("nested", True) 652 653 self._set_type(expression, map_type) 654 return expression 655 656 def _annotate_to_map(self, expression: exp.ToMap) -> exp.ToMap: 657 self._annotate_args(expression) 658 659 map_type = exp.DataType(this=exp.DataType.Type.MAP) 660 arg = expression.this 661 if arg.is_type(exp.DataType.Type.STRUCT): 662 for coldef in arg.type.expressions: 663 kind = coldef.kind 664 if kind != exp.DataType.Type.UNKNOWN: 665 map_type.set("expressions", [exp.DataType.build("varchar"), kind]) 666 map_type.set("nested", True) 667 break 668 669 self._set_type(expression, map_type) 670 return expression 671 672 def _annotate_extract(self, expression: exp.Extract) -> exp.Extract: 673 self._annotate_args(expression) 674 part = expression.name 675 if part == "TIME": 676 self._set_type(expression, exp.DataType.Type.TIME) 677 elif part == "DATE": 678 self._set_type(expression, exp.DataType.Type.DATE) 679 else: 680 self._set_type(expression, exp.DataType.Type.INT) 681 return expression 682 683 def _annotate_by_array_element(self, expression: exp.Expression) -> exp.Expression: 684 self._annotate_args(expression) 685 686 array_arg = expression.this 687 if array_arg.type.is_type(exp.DataType.Type.ARRAY): 688 element_type = seq_get(array_arg.type.expressions, 0) or exp.DataType.Type.UNKNOWN 689 self._set_type(expression, element_type) 690 else: 691 self._set_type(expression, exp.DataType.Type.UNKNOWN) 692 693 return expression
TypeAnnotator( schema: sqlglot.schema.Schema, annotators: Optional[Dict[Type[~E], Callable[[TypeAnnotator, ~E], ~E]]] = None, coerces_to: Optional[Dict[sqlglot.expressions.DataType.Type, Set[sqlglot.expressions.DataType.Type]]] = None, binary_coercions: Optional[Dict[Tuple[sqlglot.expressions.DataType.Type, sqlglot.expressions.DataType.Type], Callable[[sqlglot.expressions.Expression, sqlglot.expressions.Expression], sqlglot.expressions.DataType.Type]]] = None)
183 def __init__( 184 self, 185 schema: Schema, 186 annotators: t.Optional[AnnotatorsType] = None, 187 coerces_to: t.Optional[t.Dict[exp.DataType.Type, t.Set[exp.DataType.Type]]] = None, 188 binary_coercions: t.Optional[BinaryCoercions] = None, 189 ) -> None: 190 self.schema = schema 191 self.annotators = annotators or Dialect.get_or_raise(schema.dialect).ANNOTATORS 192 self.coerces_to = ( 193 coerces_to or Dialect.get_or_raise(schema.dialect).COERCES_TO or self.COERCES_TO 194 ) 195 self.binary_coercions = binary_coercions or self.BINARY_COERCIONS 196 197 # Caches the ids of annotated sub-Expressions, to ensure we only visit them once 198 self._visited: t.Set[int] = set() 199 200 # Caches NULL-annotated expressions to set them to UNKNOWN after type inference is completed 201 self._null_expressions: t.Dict[int, exp.Expression] = {} 202 203 # Databricks and Spark ≥v3 actually support NULL (i.e., VOID) as a type 204 self._supports_null_type = schema.dialect in ("databricks", "spark") 205 206 # Maps an exp.SetOperation's id (e.g. UNION) to its projection types. This is computed if the 207 # exp.SetOperation is the expression of a scope source, as selecting from it multiple times 208 # would reprocess the entire subtree to coerce the types of its operands' projections 209 self._setop_column_types: t.Dict[int, t.Dict[str, exp.DataType | exp.DataType.Type]] = {}
COERCES_TO: Dict[sqlglot.expressions.DataType.Type, Set[sqlglot.expressions.DataType.Type]] =
{<Type.TEXT: 'TEXT'>: set(), <Type.NVARCHAR: 'NVARCHAR'>: {<Type.TEXT: 'TEXT'>}, <Type.VARCHAR: 'VARCHAR'>: {<Type.NVARCHAR: 'NVARCHAR'>, <Type.TEXT: 'TEXT'>}, <Type.NCHAR: 'NCHAR'>: {<Type.NVARCHAR: 'NVARCHAR'>, <Type.TEXT: 'TEXT'>, <Type.VARCHAR: 'VARCHAR'>}, <Type.CHAR: 'CHAR'>: {<Type.NVARCHAR: 'NVARCHAR'>, <Type.TEXT: 'TEXT'>, <Type.NCHAR: 'NCHAR'>, <Type.VARCHAR: 'VARCHAR'>}, <Type.DOUBLE: 'DOUBLE'>: set(), <Type.FLOAT: 'FLOAT'>: {<Type.DOUBLE: 'DOUBLE'>}, <Type.DECIMAL: 'DECIMAL'>: {<Type.BIGDECIMAL: 'BIGDECIMAL'>, <Type.DOUBLE: 'DOUBLE'>, <Type.FLOAT: 'FLOAT'>}, <Type.BIGINT: 'BIGINT'>: {<Type.BIGDECIMAL: 'BIGDECIMAL'>, <Type.DECIMAL: 'DECIMAL'>, <Type.DOUBLE: 'DOUBLE'>, <Type.FLOAT: 'FLOAT'>}, <Type.INT: 'INT'>: {<Type.BIGINT: 'BIGINT'>, <Type.DECIMAL: 'DECIMAL'>, <Type.DOUBLE: 'DOUBLE'>, <Type.FLOAT: 'FLOAT'>}, <Type.SMALLINT: 'SMALLINT'>: {<Type.BIGINT: 'BIGINT'>, <Type.INT: 'INT'>, <Type.DECIMAL: 'DECIMAL'>, <Type.DOUBLE: 'DOUBLE'>, <Type.FLOAT: 'FLOAT'>}, <Type.TINYINT: 'TINYINT'>: {<Type.BIGINT: 'BIGINT'>, <Type.SMALLINT: 'SMALLINT'>, <Type.INT: 'INT'>, <Type.DECIMAL: 'DECIMAL'>, <Type.DOUBLE: 'DOUBLE'>, <Type.FLOAT: 'FLOAT'>}, <Type.TIMESTAMPLTZ: 'TIMESTAMPLTZ'>: set(), <Type.TIMESTAMPTZ: 'TIMESTAMPTZ'>: {<Type.TIMESTAMPLTZ: 'TIMESTAMPLTZ'>}, <Type.TIMESTAMP: 'TIMESTAMP'>: {<Type.TIMESTAMPTZ: 'TIMESTAMPTZ'>, <Type.TIMESTAMPLTZ: 'TIMESTAMPLTZ'>}, <Type.DATETIME: 'DATETIME'>: {<Type.TIMESTAMPTZ: 'TIMESTAMPTZ'>, <Type.TIMESTAMP: 'TIMESTAMP'>, <Type.TIMESTAMPLTZ: 'TIMESTAMPLTZ'>}, <Type.DATE: 'DATE'>: {<Type.TIMESTAMPTZ: 'TIMESTAMPTZ'>, <Type.TIMESTAMP: 'TIMESTAMP'>, <Type.DATETIME: 'DATETIME'>, <Type.TIMESTAMPLTZ: 'TIMESTAMPLTZ'>}, <Type.NULL: 'NULL'>: {<Type.TIMESTAMPTZ: 'TIMESTAMPTZ'>, <Type.INT: 'INT'>, <Type.DATE: 'DATE'>, <Type.VARCHAR: 'VARCHAR'>, <Type.NVARCHAR: 'NVARCHAR'>, <Type.DECIMAL: 'DECIMAL'>, <Type.CHAR: 'CHAR'>, <Type.DOUBLE: 'DOUBLE'>, <Type.TIMESTAMPLTZ: 'TIMESTAMPLTZ'>, <Type.BIGINT: 'BIGINT'>, <Type.SMALLINT: 'SMALLINT'>, <Type.TIMESTAMP: 'TIMESTAMP'>, <Type.DATETIME: 'DATETIME'>, <Type.NCHAR: 'NCHAR'>, <Type.TEXT: 'TEXT'>, <Type.TINYINT: 'TINYINT'>, <Type.FLOAT: 'FLOAT'>}}
BINARY_COERCIONS: Dict[Tuple[sqlglot.expressions.DataType.Type, sqlglot.expressions.DataType.Type], Callable[[sqlglot.expressions.Expression, sqlglot.expressions.Expression], sqlglot.expressions.DataType.Type]] =
{(<Type.NAME: 'NAME'>, <Type.INTERVAL: 'INTERVAL'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.VARCHAR: 'VARCHAR'>, <Type.INTERVAL: 'INTERVAL'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NVARCHAR: 'NVARCHAR'>, <Type.INTERVAL: 'INTERVAL'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.CHAR: 'CHAR'>, <Type.INTERVAL: 'INTERVAL'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NCHAR: 'NCHAR'>, <Type.INTERVAL: 'INTERVAL'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.TEXT: 'TEXT'>, <Type.INTERVAL: 'INTERVAL'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INTERVAL: 'INTERVAL'>, <Type.NAME: 'NAME'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INTERVAL: 'INTERVAL'>, <Type.VARCHAR: 'VARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INTERVAL: 'INTERVAL'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INTERVAL: 'INTERVAL'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INTERVAL: 'INTERVAL'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INTERVAL: 'INTERVAL'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NAME: 'NAME'>, <Type.UBIGINT: 'UBIGINT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NAME: 'NAME'>, <Type.UINT256: 'UINT256'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NAME: 'NAME'>, <Type.INT128: 'INT128'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NAME: 'NAME'>, <Type.INT: 'INT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NAME: 'NAME'>, <Type.UMEDIUMINT: 'UMEDIUMINT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NAME: 'NAME'>, <Type.DECIMAL: 'DECIMAL'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NAME: 'NAME'>, <Type.UDECIMAL: 'UDECIMAL'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.NAME: 'NAME'>, <Type.DECIMAL128: 'DECIMAL128'>): <function 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TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT256: 'UINT256'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT128: 'INT128'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT: 'INT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UMEDIUMINT: 'UMEDIUMINT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL: 'DECIMAL'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UDECIMAL: 'UDECIMAL'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL128: 'DECIMAL128'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT256: 'INT256'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIGINT: 'BIGINT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.SMALLINT: 'SMALLINT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIGDECIMAL: 'BIGDECIMAL'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL32: 'DECIMAL32'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL256: 'DECIMAL256'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.SMALLMONEY: 'SMALLMONEY'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIT: 'BIT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT128: 'UINT128'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.MEDIUMINT: 'MEDIUMINT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UDOUBLE: 'UDOUBLE'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL64: 'DECIMAL64'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT: 'UINT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UTINYINT: 'UTINYINT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DOUBLE: 'DOUBLE'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.USMALLINT: 'USMALLINT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.MONEY: 'MONEY'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.TINYINT: 'TINYINT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.FLOAT: 'FLOAT'>, <Type.NVARCHAR: 'NVARCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UBIGINT: 'UBIGINT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT256: 'UINT256'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT128: 'INT128'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT: 'INT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UMEDIUMINT: 'UMEDIUMINT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL: 'DECIMAL'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UDECIMAL: 'UDECIMAL'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL128: 'DECIMAL128'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT256: 'INT256'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIGINT: 'BIGINT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.SMALLINT: 'SMALLINT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIGDECIMAL: 'BIGDECIMAL'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL32: 'DECIMAL32'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL256: 'DECIMAL256'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.SMALLMONEY: 'SMALLMONEY'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIT: 'BIT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT128: 'UINT128'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.MEDIUMINT: 'MEDIUMINT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UDOUBLE: 'UDOUBLE'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL64: 'DECIMAL64'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT: 'UINT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UTINYINT: 'UTINYINT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DOUBLE: 'DOUBLE'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.USMALLINT: 'USMALLINT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.MONEY: 'MONEY'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.TINYINT: 'TINYINT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.FLOAT: 'FLOAT'>, <Type.CHAR: 'CHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UBIGINT: 'UBIGINT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT256: 'UINT256'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT128: 'INT128'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT: 'INT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UMEDIUMINT: 'UMEDIUMINT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL: 'DECIMAL'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UDECIMAL: 'UDECIMAL'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL128: 'DECIMAL128'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT256: 'INT256'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIGINT: 'BIGINT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.SMALLINT: 'SMALLINT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIGDECIMAL: 'BIGDECIMAL'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL32: 'DECIMAL32'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL256: 'DECIMAL256'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.SMALLMONEY: 'SMALLMONEY'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIT: 'BIT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT128: 'UINT128'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.MEDIUMINT: 'MEDIUMINT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UDOUBLE: 'UDOUBLE'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL64: 'DECIMAL64'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT: 'UINT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UTINYINT: 'UTINYINT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DOUBLE: 'DOUBLE'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.USMALLINT: 'USMALLINT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.MONEY: 'MONEY'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.TINYINT: 'TINYINT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.FLOAT: 'FLOAT'>, <Type.NCHAR: 'NCHAR'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UBIGINT: 'UBIGINT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT256: 'UINT256'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT128: 'INT128'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT: 'INT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UMEDIUMINT: 'UMEDIUMINT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL: 'DECIMAL'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UDECIMAL: 'UDECIMAL'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL128: 'DECIMAL128'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.INT256: 'INT256'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIGINT: 'BIGINT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.SMALLINT: 'SMALLINT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIGDECIMAL: 'BIGDECIMAL'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL32: 'DECIMAL32'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL256: 'DECIMAL256'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.SMALLMONEY: 'SMALLMONEY'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.BIT: 'BIT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT128: 'UINT128'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.MEDIUMINT: 'MEDIUMINT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UDOUBLE: 'UDOUBLE'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DECIMAL64: 'DECIMAL64'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UINT: 'UINT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.UTINYINT: 'UTINYINT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DOUBLE: 'DOUBLE'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.USMALLINT: 'USMALLINT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.MONEY: 'MONEY'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.TINYINT: 'TINYINT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.FLOAT: 'FLOAT'>, <Type.TEXT: 'TEXT'>): <function TypeAnnotator.<dictcomp>.<lambda>>, (<Type.DATE: 'DATE'>, <Type.INTERVAL: 'INTERVAL'>): <function TypeAnnotator.<lambda>>, (<Type.INTERVAL: 'INTERVAL'>, <Type.DATE: 'DATE'>): <function TypeAnnotator.<lambda>>}
def
annotate(self, expression: ~E) -> ~E:
228 def annotate(self, expression: E) -> E: 229 for scope in traverse_scope(expression): 230 self.annotate_scope(scope) 231 232 # This takes care of non-traversable expressions 233 expression = self._maybe_annotate(expression) 234 235 # Replace NULL type with UNKNOWN, since the former is not an actual type; 236 # it is mostly used to aid type coercion, e.g. in query set operations. 237 for expr in self._null_expressions.values(): 238 expr.type = exp.DataType.Type.UNKNOWN 239 240 return expression
242 def annotate_scope(self, scope: Scope) -> None: 243 selects = {} 244 for name, source in scope.sources.items(): 245 if not isinstance(source, Scope): 246 continue 247 248 expression = source.expression 249 if isinstance(expression, exp.UDTF): 250 values = [] 251 252 if isinstance(expression, exp.Lateral): 253 if isinstance(expression.this, exp.Explode): 254 values = [expression.this.this] 255 elif isinstance(expression, exp.Unnest): 256 values = [expression] 257 elif not isinstance(expression, exp.TableFromRows): 258 values = expression.expressions[0].expressions 259 260 if not values: 261 continue 262 263 selects[name] = { 264 alias: column.type 265 for alias, column in zip(expression.alias_column_names, values) 266 } 267 elif isinstance(expression, exp.SetOperation) and len(expression.left.selects) == len( 268 expression.right.selects 269 ): 270 selects[name] = col_types = self._setop_column_types.setdefault(id(expression), {}) 271 272 if not col_types: 273 # Process a chain / sub-tree of set operations 274 for set_op in expression.walk( 275 prune=lambda n: not isinstance(n, (exp.SetOperation, exp.Subquery)) 276 ): 277 if not isinstance(set_op, exp.SetOperation): 278 continue 279 280 if set_op.args.get("by_name"): 281 r_type_by_select = { 282 s.alias_or_name: s.type for s in set_op.right.selects 283 } 284 setop_cols = { 285 s.alias_or_name: self._maybe_coerce( 286 t.cast(exp.DataType, s.type), 287 r_type_by_select.get(s.alias_or_name) 288 or exp.DataType.Type.UNKNOWN, 289 ) 290 for s in set_op.left.selects 291 } 292 else: 293 setop_cols = { 294 ls.alias_or_name: self._maybe_coerce( 295 t.cast(exp.DataType, ls.type), t.cast(exp.DataType, rs.type) 296 ) 297 for ls, rs in zip(set_op.left.selects, set_op.right.selects) 298 } 299 300 # Coerce intermediate results with the previously registered types, if they exist 301 for col_name, col_type in setop_cols.items(): 302 col_types[col_name] = self._maybe_coerce( 303 col_type, col_types.get(col_name, exp.DataType.Type.NULL) 304 ) 305 306 else: 307 selects[name] = {s.alias_or_name: s.type for s in expression.selects} 308 309 # First annotate the current scope's column references 310 for col in scope.columns: 311 if not col.table: 312 continue 313 314 source = scope.sources.get(col.table) 315 if isinstance(source, exp.Table): 316 self._set_type(col, self.schema.get_column_type(source, col)) 317 elif source: 318 if col.table in selects and col.name in selects[col.table]: 319 self._set_type(col, selects[col.table][col.name]) 320 elif isinstance(source.expression, exp.Unnest): 321 self._set_type(col, source.expression.type) 322 323 if isinstance(self.schema, MappingSchema): 324 for table_column in scope.table_columns: 325 source = scope.sources.get(table_column.name) 326 327 if isinstance(source, exp.Table): 328 schema = self.schema.find( 329 source, raise_on_missing=False, ensure_data_types=True 330 ) 331 if not isinstance(schema, dict): 332 continue 333 334 struct_type = exp.DataType( 335 this=exp.DataType.Type.STRUCT, 336 expressions=[ 337 exp.ColumnDef(this=exp.to_identifier(c), kind=kind) 338 for c, kind in schema.items() 339 ], 340 nested=True, 341 ) 342 self._set_type(table_column, struct_type) 343 elif ( 344 isinstance(source, Scope) 345 and isinstance(source.expression, exp.Query) 346 and ( 347 source.expression.meta.get("query_type") or exp.DataType.build("UNKNOWN") 348 ).is_type(exp.DataType.Type.STRUCT) 349 ): 350 self._set_type(table_column, source.expression.meta["query_type"]) 351 352 # Then (possibly) annotate the remaining expressions in the scope 353 self._maybe_annotate(scope.expression) 354 355 if self.schema.dialect == "bigquery" and isinstance(scope.expression, exp.Query): 356 struct_type = exp.DataType( 357 this=exp.DataType.Type.STRUCT, 358 expressions=[ 359 exp.ColumnDef( 360 this=exp.to_identifier(select.output_name), 361 kind=select.type.copy() if select.type else None, 362 ) 363 for select in scope.expression.selects 364 ], 365 nested=True, 366 ) 367 368 if not any( 369 cd.kind.is_type(exp.DataType.Type.UNKNOWN) 370 for cd in struct_type.expressions 371 if cd.kind 372 ): 373 # We don't use `_set_type` on purpose here. If we annotated the query directly, then 374 # using it in other contexts (e.g., ARRAY(<query>)) could result in incorrect type 375 # annotations, i.e., it shouldn't be interpreted as a STRUCT value. 376 scope.expression.meta["query_type"] = struct_type