from __future__ import annotations import logging import typing as t from sqlglot import exp from sqlglot.errors import ErrorLevel, UnsupportedError, concat_messages from sqlglot.helper import apply_index_offset, csv from sqlglot.time import format_time from sqlglot.tokens import TokenType logger = logging.getLogger("sqlglot") class Generator: """ Generator interprets the given syntax tree and produces a SQL string as an output. Args time_mapping (dict): the dictionary of custom time mappings in which the key represents a python time format and the output the target time format time_trie (trie): a trie of the time_mapping keys pretty (bool): if set to True the returned string will be formatted. Default: False. quote_start (str): specifies which starting character to use to delimit quotes. Default: '. quote_end (str): specifies which ending character to use to delimit quotes. Default: '. identifier_start (str): specifies which starting character to use to delimit identifiers. Default: ". identifier_end (str): specifies which ending character to use to delimit identifiers. Default: ". identify (bool): if set to True all identifiers will be delimited by the corresponding character. normalize (bool): if set to True all identifiers will lower cased escape (str): specifies an escape character. Default: '. pad (int): determines padding in a formatted string. Default: 2. indent (int): determines the size of indentation in a formatted string. Default: 4. unnest_column_only (bool): if true unnest table aliases are considered only as column aliases normalize_functions (str): normalize function names, "upper", "lower", or None Default: "upper" alias_post_tablesample (bool): if the table alias comes after tablesample Default: False unsupported_level (ErrorLevel): determines the generator's behavior when it encounters unsupported expressions. Default ErrorLevel.WARN. null_ordering (str): Indicates the default null ordering method to use if not explicitly set. Options are "nulls_are_small", "nulls_are_large", "nulls_are_last". Default: "nulls_are_small" max_unsupported (int): Maximum number of unsupported messages to include in a raised UnsupportedError. This is only relevant if unsupported_level is ErrorLevel.RAISE. Default: 3 leading_comma (bool): if the the comma is leading or trailing in select statements Default: False max_text_width: The max number of characters in a segment before creating new lines in pretty mode. The default is on the smaller end because the length only represents a segment and not the true line length. Default: 80 comments: Whether or not to preserve comments in the ouput SQL code. Default: True """ TRANSFORMS = { exp.DateAdd: lambda self, e: f"DATE_ADD({self.format_args(e.this, e.expression, e.args.get('unit'))})", exp.DateDiff: lambda self, e: f"DATEDIFF({self.format_args(e.this, e.expression)})", exp.TsOrDsAdd: lambda self, e: f"TS_OR_DS_ADD({self.format_args(e.this, e.expression, e.args.get('unit'))})", exp.VarMap: lambda self, e: f"MAP({self.format_args(e.args['keys'], e.args['values'])})", exp.CharacterSetProperty: lambda self, e: f"{'DEFAULT ' if e.args['default'] else ''}CHARACTER SET={self.sql(e, 'this')}", exp.LanguageProperty: lambda self, e: self.naked_property(e), exp.LocationProperty: lambda self, e: self.naked_property(e), exp.ReturnsProperty: lambda self, e: self.naked_property(e), exp.ExecuteAsProperty: lambda self, e: self.naked_property(e), exp.VolatilityProperty: lambda self, e: e.name, } # Whether 'CREATE ... TRANSIENT ... TABLE' is allowed CREATE_TRANSIENT = False # Whether or not null ordering is supported in order by NULL_ORDERING_SUPPORTED = True # Always do union distinct or union all EXPLICIT_UNION = False # Wrap derived values in parens, usually standard but spark doesn't support it WRAP_DERIVED_VALUES = True TYPE_MAPPING = { exp.DataType.Type.NCHAR: "CHAR", exp.DataType.Type.NVARCHAR: "VARCHAR", } TOKEN_MAPPING: t.Dict[TokenType, str] = {} STRUCT_DELIMITER = ("<", ">") ROOT_PROPERTIES = { exp.ReturnsProperty, exp.LanguageProperty, exp.DistStyleProperty, exp.DistKeyProperty, exp.SortKeyProperty, exp.LikeProperty, } WITH_PROPERTIES = { exp.Property, exp.FileFormatProperty, exp.PartitionedByProperty, exp.TableFormatProperty, } WITH_SEPARATED_COMMENTS = (exp.Select, exp.From, exp.Where, exp.Binary) __slots__ = ( "time_mapping", "time_trie", "pretty", "configured_pretty", "quote_start", "quote_end", "identifier_start", "identifier_end", "identify", "normalize", "escape", "pad", "index_offset", "unnest_column_only", "alias_post_tablesample", "normalize_functions", "unsupported_level", "unsupported_messages", "null_ordering", "max_unsupported", "_indent", "_replace_backslash", "_escaped_quote_end", "_leading_comma", "_max_text_width", "_comments", ) def __init__( self, time_mapping=None, time_trie=None, pretty=None, quote_start=None, quote_end=None, identifier_start=None, identifier_end=None, identify=False, normalize=False, escape=None, pad=2, indent=2, index_offset=0, unnest_column_only=False, alias_post_tablesample=False, normalize_functions="upper", unsupported_level=ErrorLevel.WARN, null_ordering=None, max_unsupported=3, leading_comma=False, max_text_width=80, comments=True, ): import sqlglot self.time_mapping = time_mapping or {} self.time_trie = time_trie self.pretty = pretty if pretty is not None else sqlglot.pretty self.configured_pretty = self.pretty self.quote_start = quote_start or "'" self.quote_end = quote_end or "'" self.identifier_start = identifier_start or '"' self.identifier_end = identifier_end or '"' self.identify = identify self.normalize = normalize self.escape = escape or "'" self.pad = pad self.index_offset = index_offset self.unnest_column_only = unnest_column_only self.alias_post_tablesample = alias_post_tablesample self.normalize_functions = normalize_functions self.unsupported_level = unsupported_level self.unsupported_messages = [] self.max_unsupported = max_unsupported self.null_ordering = null_ordering self._indent = indent self._replace_backslash = self.escape == "\\" self._escaped_quote_end = self.escape + self.quote_end self._leading_comma = leading_comma self._max_text_width = max_text_width self._comments = comments def generate(self, expression: t.Optional[exp.Expression]) -> str: """ Generates a SQL string by interpreting the given syntax tree. Args expression: the syntax tree. Returns the SQL string. """ self.unsupported_messages = [] sql = self.sql(expression).strip() if self.unsupported_level == ErrorLevel.IGNORE: return sql if self.unsupported_level == ErrorLevel.WARN: for msg in self.unsupported_messages: logger.warning(msg) elif self.unsupported_level == ErrorLevel.RAISE and self.unsupported_messages: raise UnsupportedError(concat_messages(self.unsupported_messages, self.max_unsupported)) return sql def unsupported(self, message: str) -> None: if self.unsupported_level == ErrorLevel.IMMEDIATE: raise UnsupportedError(message) self.unsupported_messages.append(message) def sep(self, sep: str = " ") -> str: return f"{sep.strip()}\n" if self.pretty else sep def seg(self, sql: str, sep: str = " ") -> str: return f"{self.sep(sep)}{sql}" def pad_comment(self, comment: str) -> str: comment = " " + comment if comment[0].strip() else comment comment = comment + " " if comment[-1].strip() else comment return comment def maybe_comment(self, sql: str, expression: exp.Expression) -> str: comments = expression.comments if self._comments else None if not comments: return sql sep = "\n" if self.pretty else " " comments = sep.join(f"/*{self.pad_comment(comment)}*/" for comment in comments) if isinstance(expression, self.WITH_SEPARATED_COMMENTS): return f"{comments}{self.sep()}{sql}" return f"{sql} {comments}" def wrap(self, expression: exp.Expression | str) -> str: this_sql = self.indent( self.sql(expression) if isinstance(expression, (exp.Select, exp.Union)) else self.sql(expression, "this"), level=1, pad=0, ) return f"({self.sep('')}{this_sql}{self.seg(')', sep='')}" def no_identify(self, func: t.Callable[[], str]) -> str: original = self.identify self.identify = False result = func() self.identify = original return result def normalize_func(self, name: str) -> str: if self.normalize_functions == "upper": return name.upper() if self.normalize_functions == "lower": return name.lower() return name def indent( self, sql: str, level: int = 0, pad: t.Optional[int] = None, skip_first: bool = False, skip_last: bool = False, ) -> str: if not self.pretty: return sql pad = self.pad if pad is None else pad lines = sql.split("\n") return "\n".join( line if (skip_first and i == 0) or (skip_last and i == len(lines) - 1) else f"{' ' * (level * self._indent + pad)}{line}" for i, line in enumerate(lines) ) def sql( self, expression: t.Optional[str | exp.Expression], key: t.Optional[str] = None, comment: bool = True, ) -> str: if not expression: return "" if isinstance(expression, str): return expression if key: return self.sql(expression.args.get(key)) transform = self.TRANSFORMS.get(expression.__class__) if callable(transform): sql = transform(self, expression) elif transform: sql = transform elif isinstance(expression, exp.Expression): exp_handler_name = f"{expression.key}_sql" if hasattr(self, exp_handler_name): sql = getattr(self, exp_handler_name)(expression) elif isinstance(expression, exp.Func): sql = self.function_fallback_sql(expression) elif isinstance(expression, exp.Property): sql = self.property_sql(expression) else: raise ValueError(f"Unsupported expression type {expression.__class__.__name__}") else: raise ValueError(f"Expected an Expression. Received {type(expression)}: {expression}") return self.maybe_comment(sql, expression) if self._comments and comment else sql def uncache_sql(self, expression: exp.Uncache) -> str: table = self.sql(expression, "this") exists_sql = " IF EXISTS" if expression.args.get("exists") else "" return f"UNCACHE TABLE{exists_sql} {table}" def cache_sql(self, expression: exp.Cache) -> str: lazy = " LAZY" if expression.args.get("lazy") else "" table = self.sql(expression, "this") options = expression.args.get("options") options = f" OPTIONS({self.sql(options[0])} = {self.sql(options[1])})" if options else "" sql = self.sql(expression, "expression") sql = f" AS{self.sep()}{sql}" if sql else "" sql = f"CACHE{lazy} TABLE {table}{options}{sql}" return self.prepend_ctes(expression, sql) def characterset_sql(self, expression: exp.CharacterSet) -> str: if isinstance(expression.parent, exp.Cast): return f"CHAR CHARACTER SET {self.sql(expression, 'this')}" default = "DEFAULT " if expression.args.get("default") else "" return f"{default}CHARACTER SET={self.sql(expression, 'this')}" def column_sql(self, expression: exp.Column) -> str: return ".".join( part for part in [ self.sql(expression, "db"), self.sql(expression, "table"), self.sql(expression, "this"), ] if part ) def columndef_sql(self, expression: exp.ColumnDef) -> str: column = self.sql(expression, "this") kind = self.sql(expression, "kind") constraints = self.expressions(expression, key="constraints", sep=" ", flat=True) exists = "IF NOT EXISTS " if expression.args.get("exists") else "" if not constraints: return f"{exists}{column} {kind}" return f"{exists}{column} {kind} {constraints}" def columnconstraint_sql(self, expression: exp.ColumnConstraint) -> str: this = self.sql(expression, "this") kind_sql = self.sql(expression, "kind") return f"CONSTRAINT {this} {kind_sql}" if this else kind_sql def autoincrementcolumnconstraint_sql(self, _) -> str: return self.token_sql(TokenType.AUTO_INCREMENT) def checkcolumnconstraint_sql(self, expression: exp.CheckColumnConstraint) -> str: this = self.sql(expression, "this") return f"CHECK ({this})" def commentcolumnconstraint_sql(self, expression: exp.CommentColumnConstraint) -> str: comment = self.sql(expression, "this") return f"COMMENT {comment}" def collatecolumnconstraint_sql(self, expression: exp.CollateColumnConstraint) -> str: collate = self.sql(expression, "this") return f"COLLATE {collate}" def encodecolumnconstraint_sql(self, expression: exp.EncodeColumnConstraint) -> str: encode = self.sql(expression, "this") return f"ENCODE {encode}" def defaultcolumnconstraint_sql(self, expression: exp.DefaultColumnConstraint) -> str: default = self.sql(expression, "this") return f"DEFAULT {default}" def generatedasidentitycolumnconstraint_sql( self, expression: exp.GeneratedAsIdentityColumnConstraint ) -> str: return f"GENERATED {'ALWAYS' if expression.this else 'BY DEFAULT'} AS IDENTITY" def notnullcolumnconstraint_sql(self, expression: exp.NotNullColumnConstraint) -> str: return f"{'' if expression.args.get('allow_null') else 'NOT '}NULL" def primarykeycolumnconstraint_sql(self, expression: exp.PrimaryKeyColumnConstraint) -> str: desc = expression.args.get("desc") if desc is not None: return f"PRIMARY KEY{' DESC' if desc else ' ASC'}" return f"PRIMARY KEY" def uniquecolumnconstraint_sql(self, _) -> str: return "UNIQUE" def create_sql(self, expression: exp.Create) -> str: this = self.sql(expression, "this") kind = self.sql(expression, "kind").upper() expression_sql = self.sql(expression, "expression") expression_sql = f"AS{self.sep()}{expression_sql}" if expression_sql else "" temporary = " TEMPORARY" if expression.args.get("temporary") else "" transient = ( " TRANSIENT" if self.CREATE_TRANSIENT and expression.args.get("transient") else "" ) external = " EXTERNAL" if expression.args.get("external") else "" replace = " OR REPLACE" if expression.args.get("replace") else "" exists_sql = " IF NOT EXISTS" if expression.args.get("exists") else "" unique = " UNIQUE" if expression.args.get("unique") else "" materialized = " MATERIALIZED" if expression.args.get("materialized") else "" properties = self.sql(expression, "properties") modifiers = "".join( ( replace, temporary, transient, external, unique, materialized, ) ) expression_sql = f"CREATE{modifiers} {kind}{exists_sql} {this}{properties} {expression_sql}" return self.prepend_ctes(expression, expression_sql) def describe_sql(self, expression: exp.Describe) -> str: return f"DESCRIBE {self.sql(expression, 'this')}" def prepend_ctes(self, expression: exp.Expression, sql: str) -> str: with_ = self.sql(expression, "with") if with_: sql = f"{with_}{self.sep()}{sql}" return sql def with_sql(self, expression: exp.With) -> str: sql = self.expressions(expression, flat=True) recursive = "RECURSIVE " if expression.args.get("recursive") else "" return f"WITH {recursive}{sql}" def cte_sql(self, expression: exp.CTE) -> str: alias = self.sql(expression, "alias") return f"{alias} AS {self.wrap(expression)}" def tablealias_sql(self, expression: exp.TableAlias) -> str: alias = self.sql(expression, "this") columns = self.expressions(expression, key="columns", flat=True) columns = f"({columns})" if columns else "" return f"{alias}{columns}" def bitstring_sql(self, expression: exp.BitString) -> str: return self.sql(expression, "this") def hexstring_sql(self, expression: exp.HexString) -> str: return self.sql(expression, "this") def datatype_sql(self, expression: exp.DataType) -> str: type_value = expression.this type_sql = self.TYPE_MAPPING.get(type_value, type_value.value) nested = "" interior = self.expressions(expression, flat=True) if interior: nested = ( f"{self.STRUCT_DELIMITER[0]}{interior}{self.STRUCT_DELIMITER[1]}" if expression.args.get("nested") else f"({interior})" ) return f"{type_sql}{nested}" def directory_sql(self, expression: exp.Directory) -> str: local = "LOCAL " if expression.args.get("local") else "" row_format = self.sql(expression, "row_format") row_format = f" {row_format}" if row_format else "" return f"{local}DIRECTORY {self.sql(expression, 'this')}{row_format}" def delete_sql(self, expression: exp.Delete) -> str: this = self.sql(expression, "this") using_sql = ( f" USING {self.expressions(expression, 'using', sep=', USING ')}" if expression.args.get("using") else "" ) where_sql = self.sql(expression, "where") sql = f"DELETE FROM {this}{using_sql}{where_sql}" return self.prepend_ctes(expression, sql) def drop_sql(self, expression: exp.Drop) -> str: this = self.sql(expression, "this") kind = expression.args["kind"] exists_sql = " IF EXISTS " if expression.args.get("exists") else " " temporary = " TEMPORARY" if expression.args.get("temporary") else "" materialized = " MATERIALIZED" if expression.args.get("materialized") else "" cascade = " CASCADE" if expression.args.get("cascade") else "" return f"DROP{temporary}{materialized} {kind}{exists_sql}{this}{cascade}" def except_sql(self, expression: exp.Except) -> str: return self.prepend_ctes( expression, self.set_operation(expression, self.except_op(expression)), ) def except_op(self, expression: exp.Except) -> str: return f"EXCEPT{'' if expression.args.get('distinct') else ' ALL'}" def fetch_sql(self, expression: exp.Fetch) -> str: direction = expression.args.get("direction") direction = f" {direction.upper()}" if direction else "" count = expression.args.get("count") count = f" {count}" if count else "" return f"{self.seg('FETCH')}{direction}{count} ROWS ONLY" def filter_sql(self, expression: exp.Filter) -> str: this = self.sql(expression, "this") where = self.sql(expression, "expression")[1:] # where has a leading space return f"{this} FILTER({where})" def hint_sql(self, expression: exp.Hint) -> str: if self.sql(expression, "this"): self.unsupported("Hints are not supported") return "" def index_sql(self, expression: exp.Index) -> str: this = self.sql(expression, "this") table = self.sql(expression, "table") columns = self.sql(expression, "columns") return f"{this} ON {table} {columns}" def identifier_sql(self, expression: exp.Identifier) -> str: text = expression.name text = text.lower() if self.normalize else text if expression.args.get("quoted") or self.identify: text = f"{self.identifier_start}{text}{self.identifier_end}" return text def national_sql(self, expression: exp.National) -> str: return f"N{self.sql(expression, 'this')}" def partition_sql(self, expression: exp.Partition) -> str: keys = csv( *[ f"""{prop.name}='{prop.text("value")}'""" if prop.text("value") else prop.name for prop in expression.this ] ) return f"PARTITION({keys})" def properties_sql(self, expression: exp.Properties) -> str: root_properties = [] with_properties = [] for p in expression.expressions: p_class = p.__class__ if p_class in self.WITH_PROPERTIES: with_properties.append(p) elif p_class in self.ROOT_PROPERTIES: root_properties.append(p) return self.root_properties( exp.Properties(expressions=root_properties) ) + self.with_properties(exp.Properties(expressions=with_properties)) def root_properties(self, properties: exp.Properties) -> str: if properties.expressions: return self.sep() + self.expressions(properties, indent=False, sep=" ") return "" def properties(self, properties: exp.Properties, prefix: str = "", sep: str = ", ") -> str: if properties.expressions: expressions = self.expressions(properties, sep=sep, indent=False) return f"{prefix}{' ' if prefix else ''}{self.wrap(expressions)}" return "" def with_properties(self, properties: exp.Properties) -> str: return self.properties(properties, prefix=self.seg("WITH")) def property_sql(self, expression: exp.Property) -> str: property_cls = expression.__class__ if property_cls == exp.Property: return f"{expression.name}={self.sql(expression, 'value')}" property_name = exp.Properties.PROPERTY_TO_NAME.get(property_cls) if not property_name: self.unsupported(f"Unsupported property {property_name}") return f"{property_name}={self.sql(expression, 'this')}" def likeproperty_sql(self, expression: exp.LikeProperty) -> str: options = " ".join(f"{e.name} {self.sql(e, 'value')}" for e in expression.expressions) options = f" {options}" if options else "" return f"LIKE {self.sql(expression, 'this')}{options}" def insert_sql(self, expression: exp.Insert) -> str: overwrite = expression.args.get("overwrite") if isinstance(expression.this, exp.Directory): this = "OVERWRITE " if overwrite else "INTO " else: this = "OVERWRITE TABLE " if overwrite else "INTO " this = f"{this}{self.sql(expression, 'this')}" exists = " IF EXISTS " if expression.args.get("exists") else " " partition_sql = ( self.sql(expression, "partition") if expression.args.get("partition") else "" ) expression_sql = self.sql(expression, "expression") sep = self.sep() if partition_sql else "" sql = f"INSERT {this}{exists}{partition_sql}{sep}{expression_sql}" return self.prepend_ctes(expression, sql) def intersect_sql(self, expression: exp.Intersect) -> str: return self.prepend_ctes( expression, self.set_operation(expression, self.intersect_op(expression)), ) def intersect_op(self, expression: exp.Intersect) -> str: return f"INTERSECT{'' if expression.args.get('distinct') else ' ALL'}" def introducer_sql(self, expression: exp.Introducer) -> str: return f"{self.sql(expression, 'this')} {self.sql(expression, 'expression')}" def pseudotype_sql(self, expression: exp.PseudoType) -> str: return expression.name.upper() def rowformatdelimitedproperty_sql(self, expression: exp.RowFormatDelimitedProperty) -> str: fields = expression.args.get("fields") fields = f" FIELDS TERMINATED BY {fields}" if fields else "" escaped = expression.args.get("escaped") escaped = f" ESCAPED BY {escaped}" if escaped else "" items = expression.args.get("collection_items") items = f" COLLECTION ITEMS TERMINATED BY {items}" if items else "" keys = expression.args.get("map_keys") keys = f" MAP KEYS TERMINATED BY {keys}" if keys else "" lines = expression.args.get("lines") lines = f" LINES TERMINATED BY {lines}" if lines else "" null = expression.args.get("null") null = f" NULL DEFINED AS {null}" if null else "" return f"ROW FORMAT DELIMITED{fields}{escaped}{items}{keys}{lines}{null}" def table_sql(self, expression: exp.Table, sep: str = " AS ") -> str: table = ".".join( part for part in [ self.sql(expression, "catalog"), self.sql(expression, "db"), self.sql(expression, "this"), ] if part ) alias = self.sql(expression, "alias") alias = f"{sep}{alias}" if alias else "" laterals = self.expressions(expression, key="laterals", sep="") joins = self.expressions(expression, key="joins", sep="") pivots = self.expressions(expression, key="pivots", sep="") if alias and pivots: pivots = f"{pivots}{alias}" alias = "" return f"{table}{alias}{laterals}{joins}{pivots}" def tablesample_sql(self, expression: exp.TableSample) -> str: if self.alias_post_tablesample and expression.this.alias: this = self.sql(expression.this, "this") alias = f" AS {self.sql(expression.this, 'alias')}" else: this = self.sql(expression, "this") alias = "" method = self.sql(expression, "method") method = f" {method.upper()} " if method else "" numerator = self.sql(expression, "bucket_numerator") denominator = self.sql(expression, "bucket_denominator") field = self.sql(expression, "bucket_field") field = f" ON {field}" if field else "" bucket = f"BUCKET {numerator} OUT OF {denominator}{field}" if numerator else "" percent = self.sql(expression, "percent") percent = f"{percent} PERCENT" if percent else "" rows = self.sql(expression, "rows") rows = f"{rows} ROWS" if rows else "" size = self.sql(expression, "size") seed = self.sql(expression, "seed") seed = f" SEED ({seed})" if seed else "" return f"{this} TABLESAMPLE{method}({bucket}{percent}{rows}{size}){seed}{alias}" def pivot_sql(self, expression: exp.Pivot) -> str: this = self.sql(expression, "this") unpivot = expression.args.get("unpivot") direction = "UNPIVOT" if unpivot else "PIVOT" expressions = self.expressions(expression, key="expressions") field = self.sql(expression, "field") return f"{this} {direction}({expressions} FOR {field})" def tuple_sql(self, expression: exp.Tuple) -> str: return f"({self.expressions(expression, flat=True)})" def update_sql(self, expression: exp.Update) -> str: this = self.sql(expression, "this") set_sql = self.expressions(expression, flat=True) from_sql = self.sql(expression, "from") where_sql = self.sql(expression, "where") sql = f"UPDATE {this} SET {set_sql}{from_sql}{where_sql}" return self.prepend_ctes(expression, sql) def values_sql(self, expression: exp.Values) -> str: alias = self.sql(expression, "alias") args = self.expressions(expression) if not alias: return f"VALUES{self.seg('')}{args}" alias = f" AS {alias}" if alias else alias if self.WRAP_DERIVED_VALUES: return f"(VALUES{self.seg('')}{args}){alias}" return f"VALUES{self.seg('')}{args}{alias}" def var_sql(self, expression: exp.Var) -> str: return self.sql(expression, "this") def into_sql(self, expression: exp.Into) -> str: temporary = " TEMPORARY" if expression.args.get("temporary") else "" unlogged = " UNLOGGED" if expression.args.get("unlogged") else "" return f"{self.seg('INTO')}{temporary or unlogged} {self.sql(expression, 'this')}" def from_sql(self, expression: exp.From) -> str: expressions = self.expressions(expression, flat=True) return f"{self.seg('FROM')} {expressions}" def group_sql(self, expression: exp.Group) -> str: group_by = self.op_expressions("GROUP BY", expression) grouping_sets = self.expressions(expression, key="grouping_sets", indent=False) grouping_sets = ( f"{self.seg('GROUPING SETS')} {self.wrap(grouping_sets)}" if grouping_sets else "" ) cube = self.expressions(expression, key="cube", indent=False) cube = f"{self.seg('CUBE')} {self.wrap(cube)}" if cube else "" rollup = self.expressions(expression, key="rollup", indent=False) rollup = f"{self.seg('ROLLUP')} {self.wrap(rollup)}" if rollup else "" return f"{group_by}{grouping_sets}{cube}{rollup}" def having_sql(self, expression: exp.Having) -> str: this = self.indent(self.sql(expression, "this")) return f"{self.seg('HAVING')}{self.sep()}{this}" def join_sql(self, expression: exp.Join) -> str: op_sql = self.seg( " ".join( op for op in ( "NATURAL" if expression.args.get("natural") else None, expression.side, expression.kind, "JOIN", ) if op ) ) on_sql = self.sql(expression, "on") using = expression.args.get("using") if not on_sql and using: on_sql = csv(*(self.sql(column) for column in using)) if on_sql: on_sql = self.indent(on_sql, skip_first=True) space = self.seg(" " * self.pad) if self.pretty else " " if using: on_sql = f"{space}USING ({on_sql})" else: on_sql = f"{space}ON {on_sql}" expression_sql = self.sql(expression, "expression") this_sql = self.sql(expression, "this") return f"{expression_sql}{op_sql} {this_sql}{on_sql}" def lambda_sql(self, expression: exp.Lambda, arrow_sep: str = "->") -> str: args = self.expressions(expression, flat=True) args = f"({args})" if len(args.split(",")) > 1 else args return self.no_identify(lambda: f"{args} {arrow_sep} {self.sql(expression, 'this')}") def lateral_sql(self, expression: exp.Lateral) -> str: this = self.sql(expression, "this") if isinstance(expression.this, exp.Subquery): return f"LATERAL {this}" if expression.args.get("view"): alias = expression.args["alias"] columns = self.expressions(alias, key="columns", flat=True) table = f" {alias.name}" if alias.name else "" columns = f" AS {columns}" if columns else "" op_sql = self.seg(f"LATERAL VIEW{' OUTER' if expression.args.get('outer') else ''}") return f"{op_sql}{self.sep()}{this}{table}{columns}" alias = self.sql(expression, "alias") alias = f" AS {alias}" if alias else "" return f"LATERAL {this}{alias}" def limit_sql(self, expression: exp.Limit) -> str: this = self.sql(expression, "this") return f"{this}{self.seg('LIMIT')} {self.sql(expression, 'expression')}" def offset_sql(self, expression: exp.Offset) -> str: this = self.sql(expression, "this") return f"{this}{self.seg('OFFSET')} {self.sql(expression, 'expression')}" def literal_sql(self, expression: exp.Literal) -> str: text = expression.this or "" if expression.is_string: if self._replace_backslash: text = text.replace("\\", "\\\\") text = text.replace(self.quote_end, self._escaped_quote_end) text = f"{self.quote_start}{text}{self.quote_end}" return text def loaddata_sql(self, expression: exp.LoadData) -> str: local = " LOCAL" if expression.args.get("local") else "" inpath = f" INPATH {self.sql(expression, 'inpath')}" overwrite = " OVERWRITE" if expression.args.get("overwrite") else "" this = f" INTO TABLE {self.sql(expression, 'this')}" partition = self.sql(expression, "partition") partition = f" {partition}" if partition else "" input_format = self.sql(expression, "input_format") input_format = f" INPUTFORMAT {input_format}" if input_format else "" serde = self.sql(expression, "serde") serde = f" SERDE {serde}" if serde else "" return f"LOAD DATA{local}{inpath}{overwrite}{this}{partition}{input_format}{serde}" def null_sql(self, *_) -> str: return "NULL" def boolean_sql(self, expression: exp.Boolean) -> str: return "TRUE" if expression.this else "FALSE" def order_sql(self, expression: exp.Order, flat: bool = False) -> str: this = self.sql(expression, "this") this = f"{this} " if this else this return self.op_expressions(f"{this}ORDER BY", expression, flat=this or flat) # type: ignore def cluster_sql(self, expression: exp.Cluster) -> str: return self.op_expressions("CLUSTER BY", expression) def distribute_sql(self, expression: exp.Distribute) -> str: return self.op_expressions("DISTRIBUTE BY", expression) def sort_sql(self, expression: exp.Sort) -> str: return self.op_expressions("SORT BY", expression) def ordered_sql(self, expression: exp.Ordered) -> str: desc = expression.args.get("desc") asc = not desc nulls_first = expression.args.get("nulls_first") nulls_last = not nulls_first nulls_are_large = self.null_ordering == "nulls_are_large" nulls_are_small = self.null_ordering == "nulls_are_small" nulls_are_last = self.null_ordering == "nulls_are_last" sort_order = " DESC" if desc else "" nulls_sort_change = "" if nulls_first and ( (asc and nulls_are_large) or (desc and nulls_are_small) or nulls_are_last ): nulls_sort_change = " NULLS FIRST" elif ( nulls_last and ((asc and nulls_are_small) or (desc and nulls_are_large)) and not nulls_are_last ): nulls_sort_change = " NULLS LAST" if nulls_sort_change and not self.NULL_ORDERING_SUPPORTED: self.unsupported( "Sorting in an ORDER BY on NULLS FIRST/NULLS LAST is not supported by this dialect" ) nulls_sort_change = "" return f"{self.sql(expression, 'this')}{sort_order}{nulls_sort_change}" def query_modifiers(self, expression: exp.Expression, *sqls: str) -> str: return csv( *sqls, *[self.sql(sql) for sql in expression.args.get("joins") or []], *[self.sql(sql) for sql in expression.args.get("laterals") or []], self.sql(expression, "where"), self.sql(expression, "group"), self.sql(expression, "having"), self.sql(expression, "qualify"), self.seg("WINDOW ") + self.expressions(expression, "windows", flat=True) if expression.args.get("windows") else "", self.sql(expression, "distribute"), self.sql(expression, "sort"), self.sql(expression, "cluster"), self.sql(expression, "order"), self.sql(expression, "limit"), self.sql(expression, "offset"), sep="", ) def select_sql(self, expression: exp.Select) -> str: hint = self.sql(expression, "hint") distinct = self.sql(expression, "distinct") distinct = f" {distinct}" if distinct else "" expressions = self.expressions(expression) expressions = f"{self.sep()}{expressions}" if expressions else expressions sql = self.query_modifiers( expression, f"SELECT{hint}{distinct}{expressions}", self.sql(expression, "into", comment=False), self.sql(expression, "from", comment=False), ) return self.prepend_ctes(expression, sql) def schema_sql(self, expression: exp.Schema) -> str: this = self.sql(expression, "this") this = f"{this} " if this else "" sql = f"({self.sep('')}{self.expressions(expression)}{self.seg(')', sep='')}" return f"{this}{sql}" def star_sql(self, expression: exp.Star) -> str: except_ = self.expressions(expression, key="except", flat=True) except_ = f"{self.seg('EXCEPT')} ({except_})" if except_ else "" replace = self.expressions(expression, key="replace", flat=True) replace = f"{self.seg('REPLACE')} ({replace})" if replace else "" return f"*{except_}{replace}" def structkwarg_sql(self, expression: exp.StructKwarg) -> str: return f"{self.sql(expression, 'this')} {self.sql(expression, 'expression')}" def parameter_sql(self, expression: exp.Parameter) -> str: return f"@{self.sql(expression, 'this')}" def sessionparameter_sql(self, expression: exp.SessionParameter) -> str: this = self.sql(expression, "this") kind = expression.text("kind") if kind: kind = f"{kind}." return f"@@{kind}{this}" def placeholder_sql(self, expression: exp.Placeholder) -> str: return f":{expression.name}" if expression.name else "?" def subquery_sql(self, expression: exp.Subquery) -> str: alias = self.sql(expression, "alias") sql = self.query_modifiers( expression, self.wrap(expression), self.expressions(expression, key="pivots", sep=" "), f" AS {alias}" if alias else "", ) return self.prepend_ctes(expression, sql) def qualify_sql(self, expression: exp.Qualify) -> str: this = self.indent(self.sql(expression, "this")) return f"{self.seg('QUALIFY')}{self.sep()}{this}" def union_sql(self, expression: exp.Union) -> str: return self.prepend_ctes( expression, self.set_operation(expression, self.union_op(expression)), ) def union_op(self, expression: exp.Union) -> str: kind = " DISTINCT" if self.EXPLICIT_UNION else "" kind = kind if expression.args.get("distinct") else " ALL" return f"UNION{kind}" def unnest_sql(self, expression: exp.Unnest) -> str: args = self.expressions(expression, flat=True) alias = expression.args.get("alias") if alias and self.unnest_column_only: columns = alias.columns alias = self.sql(columns[0]) if columns else "" else: alias = self.sql(expression, "alias") alias = f" AS {alias}" if alias else alias ordinality = " WITH ORDINALITY" if expression.args.get("ordinality") else "" return f"UNNEST({args}){ordinality}{alias}" def where_sql(self, expression: exp.Where) -> str: this = self.indent(self.sql(expression, "this")) return f"{self.seg('WHERE')}{self.sep()}{this}" def window_sql(self, expression: exp.Window) -> str: this = self.sql(expression, "this") partition = self.expressions(expression, key="partition_by", flat=True) partition = f"PARTITION BY {partition}" if partition else "" order = expression.args.get("order") order_sql = self.order_sql(order, flat=True) if order else "" partition_sql = partition + " " if partition and order else partition spec = expression.args.get("spec") spec_sql = " " + self.window_spec_sql(spec) if spec else "" alias = self.sql(expression, "alias") this = f"{this} {'AS' if expression.arg_key == 'windows' else 'OVER'}" if not partition and not order and not spec and alias: return f"{this} {alias}" return f"{this} ({alias}{partition_sql}{order_sql}{spec_sql})" def window_spec_sql(self, expression: exp.WindowSpec) -> str: kind = self.sql(expression, "kind") start = csv(self.sql(expression, "start"), self.sql(expression, "start_side"), sep=" ") end = ( csv(self.sql(expression, "end"), self.sql(expression, "end_side"), sep=" ") or "CURRENT ROW" ) return f"{kind} BETWEEN {start} AND {end}" def withingroup_sql(self, expression: exp.WithinGroup) -> str: this = self.sql(expression, "this") expression_sql = self.sql(expression, "expression")[1:] # order has a leading space return f"{this} WITHIN GROUP ({expression_sql})" def between_sql(self, expression: exp.Between) -> str: this = self.sql(expression, "this") low = self.sql(expression, "low") high = self.sql(expression, "high") return f"{this} BETWEEN {low} AND {high}" def bracket_sql(self, expression: exp.Bracket) -> str: expressions = apply_index_offset(expression.expressions, self.index_offset) expressions_sql = ", ".join(self.sql(e) for e in expressions) return f"{self.sql(expression, 'this')}[{expressions_sql}]" def all_sql(self, expression: exp.All) -> str: return f"ALL {self.wrap(expression)}" def any_sql(self, expression: exp.Any) -> str: return f"ANY {self.wrap(expression)}" def exists_sql(self, expression: exp.Exists) -> str: return f"EXISTS{self.wrap(expression)}" def case_sql(self, expression: exp.Case) -> str: this = self.sql(expression, "this") statements = [f"CASE {this}" if this else "CASE"] for e in expression.args["ifs"]: statements.append(f"WHEN {self.sql(e, 'this')}") statements.append(f"THEN {self.sql(e, 'true')}") default = self.sql(expression, "default") if default: statements.append(f"ELSE {default}") statements.append("END") if self.pretty and self.text_width(statements) > self._max_text_width: return self.indent("\n".join(statements), skip_first=True, skip_last=True) return " ".join(statements) def constraint_sql(self, expression: exp.Constraint) -> str: this = self.sql(expression, "this") expressions = self.expressions(expression, flat=True) return f"CONSTRAINT {this} {expressions}" def extract_sql(self, expression: exp.Extract) -> str: this = self.sql(expression, "this") expression_sql = self.sql(expression, "expression") return f"EXTRACT({this} FROM {expression_sql})" def trim_sql(self, expression: exp.Trim) -> str: target = self.sql(expression, "this") trim_type = self.sql(expression, "position") if trim_type == "LEADING": return f"LTRIM({target})" elif trim_type == "TRAILING": return f"RTRIM({target})" else: return f"TRIM({target})" def concat_sql(self, expression: exp.Concat) -> str: if len(expression.expressions) == 1: return self.sql(expression.expressions[0]) return self.function_fallback_sql(expression) def check_sql(self, expression: exp.Check) -> str: this = self.sql(expression, key="this") return f"CHECK ({this})" def foreignkey_sql(self, expression: exp.ForeignKey) -> str: expressions = self.expressions(expression, flat=True) reference = self.sql(expression, "reference") reference = f" {reference}" if reference else "" delete = self.sql(expression, "delete") delete = f" ON DELETE {delete}" if delete else "" update = self.sql(expression, "update") update = f" ON UPDATE {update}" if update else "" return f"FOREIGN KEY ({expressions}){reference}{delete}{update}" def unique_sql(self, expression: exp.Unique) -> str: columns = self.expressions(expression, key="expressions") return f"UNIQUE ({columns})" def if_sql(self, expression: exp.If) -> str: return self.case_sql( exp.Case(ifs=[expression.copy()], default=expression.args.get("false")) ) def in_sql(self, expression: exp.In) -> str: query = expression.args.get("query") unnest = expression.args.get("unnest") field = expression.args.get("field") if query: in_sql = self.wrap(query) elif unnest: in_sql = self.in_unnest_op(unnest) elif field: in_sql = self.sql(field) else: in_sql = f"({self.expressions(expression, flat=True)})" return f"{self.sql(expression, 'this')} IN {in_sql}" def in_unnest_op(self, unnest: exp.Unnest) -> str: return f"(SELECT {self.sql(unnest)})" def interval_sql(self, expression: exp.Interval) -> str: this = self.sql(expression, "this") this = f" {this}" if this else "" unit = self.sql(expression, "unit") unit = f" {unit}" if unit else "" return f"INTERVAL{this}{unit}" def reference_sql(self, expression: exp.Reference) -> str: this = self.sql(expression, "this") expressions = self.expressions(expression, flat=True) return f"REFERENCES {this}({expressions})" def anonymous_sql(self, expression: exp.Anonymous) -> str: args = self.format_args(*expression.expressions) return f"{self.normalize_func(self.sql(expression, 'this'))}({args})" def paren_sql(self, expression: exp.Paren) -> str: if isinstance(expression.unnest(), exp.Select): sql = self.wrap(expression) else: sql = self.seg(self.indent(self.sql(expression, "this")), sep="") sql = f"({sql}{self.seg(')', sep='')}" return self.prepend_ctes(expression, sql) def neg_sql(self, expression: exp.Neg) -> str: # This makes sure we don't convert "- - 5" to "--5", which is a comment this_sql = self.sql(expression, "this") sep = " " if this_sql[0] == "-" else "" return f"-{sep}{this_sql}" def not_sql(self, expression: exp.Not) -> str: return f"NOT {self.sql(expression, 'this')}" def alias_sql(self, expression: exp.Alias) -> str: to_sql = self.sql(expression, "alias") to_sql = f" AS {to_sql}" if to_sql else "" return f"{self.sql(expression, 'this')}{to_sql}" def aliases_sql(self, expression: exp.Aliases) -> str: return f"{self.sql(expression, 'this')} AS ({self.expressions(expression, flat=True)})" def attimezone_sql(self, expression: exp.AtTimeZone) -> str: this = self.sql(expression, "this") zone = self.sql(expression, "zone") return f"{this} AT TIME ZONE {zone}" def add_sql(self, expression: exp.Add) -> str: return self.binary(expression, "+") def and_sql(self, expression: exp.And) -> str: return self.connector_sql(expression, "AND") def connector_sql(self, expression: exp.Connector, op: str) -> str: if not self.pretty: return self.binary(expression, op) sqls = tuple(self.sql(e) for e in expression.flatten(unnest=False)) sep = "\n" if self.text_width(sqls) > self._max_text_width else " " return f"{sep}{op} ".join(sqls) def bitwiseand_sql(self, expression: exp.BitwiseAnd) -> str: return self.binary(expression, "&") def bitwiseleftshift_sql(self, expression: exp.BitwiseLeftShift) -> str: return self.binary(expression, "<<") def bitwisenot_sql(self, expression: exp.BitwiseNot) -> str: return f"~{self.sql(expression, 'this')}" def bitwiseor_sql(self, expression: exp.BitwiseOr) -> str: return self.binary(expression, "|") def bitwiserightshift_sql(self, expression: exp.BitwiseRightShift) -> str: return self.binary(expression, ">>") def bitwisexor_sql(self, expression: exp.BitwiseXor) -> str: return self.binary(expression, "^") def cast_sql(self, expression: exp.Cast) -> str: return f"CAST({self.sql(expression, 'this')} AS {self.sql(expression, 'to')})" def currentdate_sql(self, expression: exp.CurrentDate) -> str: zone = self.sql(expression, "this") return f"CURRENT_DATE({zone})" if zone else "CURRENT_DATE" def collate_sql(self, expression: exp.Collate) -> str: return self.binary(expression, "COLLATE") def command_sql(self, expression: exp.Command) -> str: return f"{self.sql(expression, 'this').upper()} {expression.text('expression').strip()}" def transaction_sql(self, *_) -> str: return "BEGIN" def commit_sql(self, expression: exp.Commit) -> str: chain = expression.args.get("chain") if chain is not None: chain = " AND CHAIN" if chain else " AND NO CHAIN" return f"COMMIT{chain or ''}" def rollback_sql(self, expression: exp.Rollback) -> str: savepoint = expression.args.get("savepoint") savepoint = f" TO {savepoint}" if savepoint else "" return f"ROLLBACK{savepoint}" def altercolumn_sql(self, expression: exp.AlterColumn) -> str: this = self.sql(expression, "this") dtype = self.sql(expression, "dtype") if dtype: collate = self.sql(expression, "collate") collate = f" COLLATE {collate}" if collate else "" using = self.sql(expression, "using") using = f" USING {using}" if using else "" return f"ALTER COLUMN {this} TYPE {dtype}{collate}{using}" default = self.sql(expression, "default") if default: return f"ALTER COLUMN {this} SET DEFAULT {default}" if not expression.args.get("drop"): self.unsupported("Unsupported ALTER COLUMN syntax") return f"ALTER COLUMN {this} DROP DEFAULT" def altertable_sql(self, expression: exp.AlterTable) -> str: actions = expression.args["actions"] if isinstance(actions[0], exp.ColumnDef): actions = self.expressions(expression, "actions", prefix="ADD COLUMN ") elif isinstance(actions[0], exp.Schema): actions = self.expressions(expression, "actions", prefix="ADD COLUMNS ") elif isinstance(actions[0], exp.Drop): actions = self.expressions(expression, "actions") elif isinstance(actions[0], exp.AlterColumn): actions = self.sql(actions[0]) else: self.unsupported(f"Unsupported ALTER TABLE action {actions[0].__class__.__name__}") exists = " IF EXISTS" if expression.args.get("exists") else "" return f"ALTER TABLE{exists} {self.sql(expression, 'this')} {actions}" def distinct_sql(self, expression: exp.Distinct) -> str: this = self.expressions(expression, flat=True) this = f" {this}" if this else "" on = self.sql(expression, "on") on = f" ON {on}" if on else "" return f"DISTINCT{this}{on}" def ignorenulls_sql(self, expression: exp.IgnoreNulls) -> str: return f"{self.sql(expression, 'this')} IGNORE NULLS" def respectnulls_sql(self, expression: exp.RespectNulls) -> str: return f"{self.sql(expression, 'this')} RESPECT NULLS" def intdiv_sql(self, expression: exp.IntDiv) -> str: return self.sql( exp.Cast( this=exp.Div(this=expression.this, expression=expression.expression), to=exp.DataType(this=exp.DataType.Type.INT), ) ) def dpipe_sql(self, expression: exp.DPipe) -> str: return self.binary(expression, "||") def div_sql(self, expression: exp.Div) -> str: return self.binary(expression, "/") def distance_sql(self, expression: exp.Distance) -> str: return self.binary(expression, "<->") def dot_sql(self, expression: exp.Dot) -> str: return f"{self.sql(expression, 'this')}.{self.sql(expression, 'expression')}" def eq_sql(self, expression: exp.EQ) -> str: return self.binary(expression, "=") def escape_sql(self, expression: exp.Escape) -> str: return self.binary(expression, "ESCAPE") def gt_sql(self, expression: exp.GT) -> str: return self.binary(expression, ">") def gte_sql(self, expression: exp.GTE) -> str: return self.binary(expression, ">=") def ilike_sql(self, expression: exp.ILike) -> str: return self.binary(expression, "ILIKE") def is_sql(self, expression: exp.Is) -> str: return self.binary(expression, "IS") def like_sql(self, expression: exp.Like) -> str: return self.binary(expression, "LIKE") def similarto_sql(self, expression: exp.SimilarTo) -> str: return self.binary(expression, "SIMILAR TO") def lt_sql(self, expression: exp.LT) -> str: return self.binary(expression, "<") def lte_sql(self, expression: exp.LTE) -> str: return self.binary(expression, "<=") def mod_sql(self, expression: exp.Mod) -> str: return self.binary(expression, "%") def mul_sql(self, expression: exp.Mul) -> str: return self.binary(expression, "*") def neq_sql(self, expression: exp.NEQ) -> str: return self.binary(expression, "<>") def nullsafeeq_sql(self, expression: exp.NullSafeEQ) -> str: return self.binary(expression, "IS NOT DISTINCT FROM") def nullsafeneq_sql(self, expression: exp.NullSafeNEQ) -> str: return self.binary(expression, "IS DISTINCT FROM") def or_sql(self, expression: exp.Or) -> str: return self.connector_sql(expression, "OR") def slice_sql(self, expression: exp.Slice) -> str: return self.binary(expression, ":") def sub_sql(self, expression: exp.Sub) -> str: return self.binary(expression, "-") def trycast_sql(self, expression: exp.TryCast) -> str: return f"TRY_CAST({self.sql(expression, 'this')} AS {self.sql(expression, 'to')})" def use_sql(self, expression: exp.Use) -> str: return f"USE {self.sql(expression, 'this')}" def binary(self, expression: exp.Binary, op: str) -> str: return f"{self.sql(expression, 'this')} {op} {self.sql(expression, 'expression')}" def function_fallback_sql(self, expression: exp.Func) -> str: args = [] for arg_value in expression.args.values(): if isinstance(arg_value, list): for value in arg_value: args.append(value) else: args.append(arg_value) return f"{self.normalize_func(expression.sql_name())}({self.format_args(*args)})" def format_args(self, *args: t.Optional[str | exp.Expression]) -> str: arg_sqls = tuple(self.sql(arg) for arg in args if arg is not None) if self.pretty and self.text_width(arg_sqls) > self._max_text_width: return self.indent("\n" + f",\n".join(arg_sqls) + "\n", skip_first=True, skip_last=True) return ", ".join(arg_sqls) def text_width(self, args: t.Iterable) -> int: return sum(len(arg) for arg in args) def format_time(self, expression: exp.Expression) -> t.Optional[str]: return format_time(self.sql(expression, "format"), self.time_mapping, self.time_trie) def expressions( self, expression: exp.Expression, key: t.Optional[str] = None, flat: bool = False, indent: bool = True, sep: str = ", ", prefix: str = "", ) -> str: expressions = expression.args.get(key or "expressions") if not expressions: return "" if flat: return sep.join(self.sql(e) for e in expressions) num_sqls = len(expressions) # These are calculated once in case we have the leading_comma / pretty option set, correspondingly pad = " " * self.pad stripped_sep = sep.strip() result_sqls = [] for i, e in enumerate(expressions): sql = self.sql(e, comment=False) comments = self.maybe_comment("", e) if self.pretty: if self._leading_comma: result_sqls.append(f"{sep if i > 0 else pad}{prefix}{sql}{comments}") else: result_sqls.append( f"{prefix}{sql}{stripped_sep if i + 1 < num_sqls else ''}{comments}" ) else: result_sqls.append(f"{prefix}{sql}{comments}{sep if i + 1 < num_sqls else ''}") result_sql = "\n".join(result_sqls) if self.pretty else "".join(result_sqls) return self.indent(result_sql, skip_first=False) if indent else result_sql def op_expressions(self, op: str, expression: exp.Expression, flat: bool = False) -> str: expressions_sql = self.expressions(expression, flat=flat) if flat: return f"{op} {expressions_sql}" return f"{self.seg(op)}{self.sep() if expressions_sql else ''}{expressions_sql}" def naked_property(self, expression: exp.Property) -> str: property_name = exp.Properties.PROPERTY_TO_NAME.get(expression.__class__) if not property_name: self.unsupported(f"Unsupported property {expression.__class__.__name__}") return f"{property_name} {self.sql(expression, 'this')}" def set_operation(self, expression: exp.Expression, op: str) -> str: this = self.sql(expression, "this") op = self.seg(op) return self.query_modifiers( expression, f"{this}{op}{self.sep()}{self.sql(expression, 'expression')}" ) def token_sql(self, token_type: TokenType) -> str: return self.TOKEN_MAPPING.get(token_type, token_type.name) def userdefinedfunction_sql(self, expression: exp.UserDefinedFunction) -> str: this = self.sql(expression, "this") expressions = self.no_identify(lambda: self.expressions(expression)) return f"{this}({expressions})" def userdefinedfunctionkwarg_sql(self, expression: exp.UserDefinedFunctionKwarg) -> str: this = self.sql(expression, "this") kind = self.sql(expression, "kind") return f"{this} {kind}" def joinhint_sql(self, expression: exp.JoinHint) -> str: this = self.sql(expression, "this") expressions = self.expressions(expression, flat=True) return f"{this}({expressions})" def kwarg_sql(self, expression: exp.Kwarg) -> str: return self.binary(expression, "=>") def when_sql(self, expression: exp.When) -> str: this = self.sql(expression, "this") then_expression = expression.args.get("then") if isinstance(then_expression, exp.Insert): then = f"INSERT {self.sql(then_expression, 'this')}" if "expression" in then_expression.args: then += f" VALUES {self.sql(then_expression, 'expression')}" elif isinstance(then_expression, exp.Update): if isinstance(then_expression.args.get("expressions"), exp.Star): then = f"UPDATE {self.sql(then_expression, 'expressions')}" else: then = f"UPDATE SET {self.expressions(then_expression, flat=True)}" else: then = self.sql(then_expression) return f"WHEN {this} THEN {then}" def merge_sql(self, expression: exp.Merge) -> str: this = self.sql(expression, "this") using = f"USING {self.sql(expression, 'using')}" on = f"ON {self.sql(expression, 'on')}" return f"MERGE INTO {this} {using} {on} {self.expressions(expression, sep=' ')}"