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|
from __future__ import annotations
import logging
import re
import typing as t
from collections import defaultdict
from functools import reduce
from sqlglot import exp
from sqlglot.errors import ErrorLevel, UnsupportedError, concat_messages
from sqlglot.helper import apply_index_offset, csv, seq_get
from sqlglot.jsonpath import ALL_JSON_PATH_PARTS, JSON_PATH_PART_TRANSFORMS
from sqlglot.time import format_time
from sqlglot.tokens import TokenType
if t.TYPE_CHECKING:
from sqlglot._typing import E
from sqlglot.dialects.dialect import DialectType
logger = logging.getLogger("sqlglot")
ESCAPED_UNICODE_RE = re.compile(r"\\(\d+)")
class _Generator(type):
def __new__(cls, clsname, bases, attrs):
klass = super().__new__(cls, clsname, bases, attrs)
# Remove transforms that correspond to unsupported JSONPathPart expressions
for part in ALL_JSON_PATH_PARTS - klass.SUPPORTED_JSON_PATH_PARTS:
klass.TRANSFORMS.pop(part, None)
return klass
class Generator(metaclass=_Generator):
"""
Generator converts a given syntax tree to the corresponding SQL string.
Args:
pretty: Whether to format the produced SQL string.
Default: False.
identify: Determines when an identifier should be quoted. Possible values are:
False (default): Never quote, except in cases where it's mandatory by the dialect.
True or 'always': Always quote.
'safe': Only quote identifiers that are case insensitive.
normalize: Whether to normalize identifiers to lowercase.
Default: False.
pad: The pad size in a formatted string. For example, this affects the indentation of
a projection in a query, relative to its nesting level.
Default: 2.
indent: The indentation size in a formatted string. For example, this affects the
indentation of subqueries and filters under a `WHERE` clause.
Default: 2.
normalize_functions: How to normalize function names. Possible values are:
"upper" or True (default): Convert names to uppercase.
"lower": Convert names to lowercase.
False: Disables function name normalization.
unsupported_level: Determines the generator's behavior when it encounters unsupported expressions.
Default ErrorLevel.WARN.
max_unsupported: 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: Whether the comma is leading or trailing in select expressions.
This is only relevant when generating in pretty mode.
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 to preserve comments in the output SQL code.
Default: True
"""
TRANSFORMS: t.Dict[t.Type[exp.Expression], t.Callable[..., str]] = {
**JSON_PATH_PART_TRANSFORMS,
exp.AutoRefreshProperty: lambda self, e: f"AUTO REFRESH {self.sql(e, 'this')}",
exp.BackupProperty: lambda self, e: f"BACKUP {self.sql(e, 'this')}",
exp.CaseSpecificColumnConstraint: lambda _,
e: f"{'NOT ' if e.args.get('not_') else ''}CASESPECIFIC",
exp.CharacterSetColumnConstraint: lambda self, e: f"CHARACTER SET {self.sql(e, 'this')}",
exp.CharacterSetProperty: lambda self,
e: f"{'DEFAULT ' if e.args.get('default') else ''}CHARACTER SET={self.sql(e, 'this')}",
exp.ClusteredColumnConstraint: lambda self,
e: f"CLUSTERED ({self.expressions(e, 'this', indent=False)})",
exp.CollateColumnConstraint: lambda self, e: f"COLLATE {self.sql(e, 'this')}",
exp.CommentColumnConstraint: lambda self, e: f"COMMENT {self.sql(e, 'this')}",
exp.CopyGrantsProperty: lambda *_: "COPY GRANTS",
exp.DateFormatColumnConstraint: lambda self, e: f"FORMAT {self.sql(e, 'this')}",
exp.DefaultColumnConstraint: lambda self, e: f"DEFAULT {self.sql(e, 'this')}",
exp.EncodeColumnConstraint: lambda self, e: f"ENCODE {self.sql(e, 'this')}",
exp.EphemeralColumnConstraint: lambda self,
e: f"EPHEMERAL{(' ' + self.sql(e, 'this')) if e.this else ''}",
exp.ExcludeColumnConstraint: lambda self, e: f"EXCLUDE {self.sql(e, 'this').lstrip()}",
exp.ExecuteAsProperty: lambda self, e: self.naked_property(e),
exp.ExternalProperty: lambda *_: "EXTERNAL",
exp.GlobalProperty: lambda *_: "GLOBAL",
exp.HeapProperty: lambda *_: "HEAP",
exp.IcebergProperty: lambda *_: "ICEBERG",
exp.InheritsProperty: lambda self, e: f"INHERITS ({self.expressions(e, flat=True)})",
exp.InlineLengthColumnConstraint: lambda self, e: f"INLINE LENGTH {self.sql(e, 'this')}",
exp.InputModelProperty: lambda self, e: f"INPUT{self.sql(e, 'this')}",
exp.IntervalSpan: lambda self, e: f"{self.sql(e, 'this')} TO {self.sql(e, 'expression')}",
exp.JSONExtract: lambda self, e: self.func(
"JSON_EXTRACT", e.this, e.expression, *e.expressions
),
exp.JSONExtractScalar: lambda self, e: self.func(
"JSON_EXTRACT_SCALAR", e.this, e.expression, *e.expressions
),
exp.LanguageProperty: lambda self, e: self.naked_property(e),
exp.LocationProperty: lambda self, e: self.naked_property(e),
exp.LogProperty: lambda _, e: f"{'NO ' if e.args.get('no') else ''}LOG",
exp.MaterializedProperty: lambda *_: "MATERIALIZED",
exp.NonClusteredColumnConstraint: lambda self,
e: f"NONCLUSTERED ({self.expressions(e, 'this', indent=False)})",
exp.NoPrimaryIndexProperty: lambda *_: "NO PRIMARY INDEX",
exp.NotForReplicationColumnConstraint: lambda *_: "NOT FOR REPLICATION",
exp.OnCommitProperty: lambda _,
e: f"ON COMMIT {'DELETE' if e.args.get('delete') else 'PRESERVE'} ROWS",
exp.OnProperty: lambda self, e: f"ON {self.sql(e, 'this')}",
exp.OnUpdateColumnConstraint: lambda self, e: f"ON UPDATE {self.sql(e, 'this')}",
exp.OutputModelProperty: lambda self, e: f"OUTPUT{self.sql(e, 'this')}",
exp.PathColumnConstraint: lambda self, e: f"PATH {self.sql(e, 'this')}",
exp.RemoteWithConnectionModelProperty: lambda self,
e: f"REMOTE WITH CONNECTION {self.sql(e, 'this')}",
exp.ReturnsProperty: lambda self, e: self.naked_property(e),
exp.SampleProperty: lambda self, e: f"SAMPLE BY {self.sql(e, 'this')}",
exp.SetConfigProperty: lambda self, e: self.sql(e, "this"),
exp.SetProperty: lambda _, e: f"{'MULTI' if e.args.get('multi') else ''}SET",
exp.SettingsProperty: lambda self, e: f"SETTINGS{self.seg('')}{(self.expressions(e))}",
exp.SharingProperty: lambda self, e: f"SHARING={self.sql(e, 'this')}",
exp.SqlReadWriteProperty: lambda _, e: e.name,
exp.SqlSecurityProperty: lambda _,
e: f"SQL SECURITY {'DEFINER' if e.args.get('definer') else 'INVOKER'}",
exp.StabilityProperty: lambda _, e: e.name,
exp.TemporaryProperty: lambda *_: "TEMPORARY",
exp.TitleColumnConstraint: lambda self, e: f"TITLE {self.sql(e, 'this')}",
exp.Timestamp: lambda self, e: self.func("TIMESTAMP", e.this, e.expression),
exp.ToMap: lambda self, e: f"MAP {self.sql(e, 'this')}",
exp.ToTableProperty: lambda self, e: f"TO {self.sql(e.this)}",
exp.TransformModelProperty: lambda self, e: self.func("TRANSFORM", *e.expressions),
exp.TransientProperty: lambda *_: "TRANSIENT",
exp.UppercaseColumnConstraint: lambda *_: "UPPERCASE",
exp.UnloggedProperty: lambda *_: "UNLOGGED",
exp.VarMap: lambda self, e: self.func("MAP", e.args["keys"], e.args["values"]),
exp.ViewAttributeProperty: lambda self, e: f"WITH {self.sql(e, 'this')}",
exp.VolatileProperty: lambda *_: "VOLATILE",
exp.WithJournalTableProperty: lambda self, e: f"WITH JOURNAL TABLE={self.sql(e, 'this')}",
exp.WithOperator: lambda self, e: f"{self.sql(e, 'this')} WITH {self.sql(e, 'op')}",
}
# Whether null ordering is supported in order by
# True: Full Support, None: No support, False: No support in window specifications
NULL_ORDERING_SUPPORTED: t.Optional[bool] = True
# Whether ignore nulls is inside the agg or outside.
# FIRST(x IGNORE NULLS) OVER vs FIRST (x) IGNORE NULLS OVER
IGNORE_NULLS_IN_FUNC = False
# Whether locking reads (i.e. SELECT ... FOR UPDATE/SHARE) are supported
LOCKING_READS_SUPPORTED = False
# 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
# Whether create function uses an AS before the RETURN
CREATE_FUNCTION_RETURN_AS = True
# Whether MERGE ... WHEN MATCHED BY SOURCE is allowed
MATCHED_BY_SOURCE = True
# Whether the INTERVAL expression works only with values like '1 day'
SINGLE_STRING_INTERVAL = False
# Whether the plural form of date parts like day (i.e. "days") is supported in INTERVALs
INTERVAL_ALLOWS_PLURAL_FORM = True
# Whether limit and fetch are supported (possible values: "ALL", "LIMIT", "FETCH")
LIMIT_FETCH = "ALL"
# Whether limit and fetch allows expresions or just limits
LIMIT_ONLY_LITERALS = False
# Whether a table is allowed to be renamed with a db
RENAME_TABLE_WITH_DB = True
# The separator for grouping sets and rollups
GROUPINGS_SEP = ","
# The string used for creating an index on a table
INDEX_ON = "ON"
# Whether join hints should be generated
JOIN_HINTS = True
# Whether table hints should be generated
TABLE_HINTS = True
# Whether query hints should be generated
QUERY_HINTS = True
# What kind of separator to use for query hints
QUERY_HINT_SEP = ", "
# Whether comparing against booleans (e.g. x IS TRUE) is supported
IS_BOOL_ALLOWED = True
# Whether to include the "SET" keyword in the "INSERT ... ON DUPLICATE KEY UPDATE" statement
DUPLICATE_KEY_UPDATE_WITH_SET = True
# Whether to generate the limit as TOP <value> instead of LIMIT <value>
LIMIT_IS_TOP = False
# Whether to generate INSERT INTO ... RETURNING or INSERT INTO RETURNING ...
RETURNING_END = True
# Whether to generate the (+) suffix for columns used in old-style join conditions
COLUMN_JOIN_MARKS_SUPPORTED = False
# Whether to generate an unquoted value for EXTRACT's date part argument
EXTRACT_ALLOWS_QUOTES = True
# Whether TIMETZ / TIMESTAMPTZ will be generated using the "WITH TIME ZONE" syntax
TZ_TO_WITH_TIME_ZONE = False
# Whether the NVL2 function is supported
NVL2_SUPPORTED = True
# https://cloud.google.com/bigquery/docs/reference/standard-sql/query-syntax
SELECT_KINDS: t.Tuple[str, ...] = ("STRUCT", "VALUE")
# Whether VALUES statements can be used as derived tables.
# MySQL 5 and Redshift do not allow this, so when False, it will convert
# SELECT * VALUES into SELECT UNION
VALUES_AS_TABLE = True
# Whether the word COLUMN is included when adding a column with ALTER TABLE
ALTER_TABLE_INCLUDE_COLUMN_KEYWORD = True
# UNNEST WITH ORDINALITY (presto) instead of UNNEST WITH OFFSET (bigquery)
UNNEST_WITH_ORDINALITY = True
# Whether FILTER (WHERE cond) can be used for conditional aggregation
AGGREGATE_FILTER_SUPPORTED = True
# Whether JOIN sides (LEFT, RIGHT) are supported in conjunction with SEMI/ANTI join kinds
SEMI_ANTI_JOIN_WITH_SIDE = True
# Whether to include the type of a computed column in the CREATE DDL
COMPUTED_COLUMN_WITH_TYPE = True
# Whether CREATE TABLE .. COPY .. is supported. False means we'll generate CLONE instead of COPY
SUPPORTS_TABLE_COPY = True
# Whether parentheses are required around the table sample's expression
TABLESAMPLE_REQUIRES_PARENS = True
# Whether a table sample clause's size needs to be followed by the ROWS keyword
TABLESAMPLE_SIZE_IS_ROWS = True
# The keyword(s) to use when generating a sample clause
TABLESAMPLE_KEYWORDS = "TABLESAMPLE"
# Whether the TABLESAMPLE clause supports a method name, like BERNOULLI
TABLESAMPLE_WITH_METHOD = True
# The keyword to use when specifying the seed of a sample clause
TABLESAMPLE_SEED_KEYWORD = "SEED"
# Whether COLLATE is a function instead of a binary operator
COLLATE_IS_FUNC = False
# Whether data types support additional specifiers like e.g. CHAR or BYTE (oracle)
DATA_TYPE_SPECIFIERS_ALLOWED = False
# Whether conditions require booleans WHERE x = 0 vs WHERE x
ENSURE_BOOLS = False
# Whether the "RECURSIVE" keyword is required when defining recursive CTEs
CTE_RECURSIVE_KEYWORD_REQUIRED = True
# Whether CONCAT requires >1 arguments
SUPPORTS_SINGLE_ARG_CONCAT = True
# Whether LAST_DAY function supports a date part argument
LAST_DAY_SUPPORTS_DATE_PART = True
# Whether named columns are allowed in table aliases
SUPPORTS_TABLE_ALIAS_COLUMNS = True
# Whether UNPIVOT aliases are Identifiers (False means they're Literals)
UNPIVOT_ALIASES_ARE_IDENTIFIERS = True
# What delimiter to use for separating JSON key/value pairs
JSON_KEY_VALUE_PAIR_SEP = ":"
# INSERT OVERWRITE TABLE x override
INSERT_OVERWRITE = " OVERWRITE TABLE"
# Whether the SELECT .. INTO syntax is used instead of CTAS
SUPPORTS_SELECT_INTO = False
# Whether UNLOGGED tables can be created
SUPPORTS_UNLOGGED_TABLES = False
# Whether the CREATE TABLE LIKE statement is supported
SUPPORTS_CREATE_TABLE_LIKE = True
# Whether the LikeProperty needs to be specified inside of the schema clause
LIKE_PROPERTY_INSIDE_SCHEMA = False
# Whether DISTINCT can be followed by multiple args in an AggFunc. If not, it will be
# transpiled into a series of CASE-WHEN-ELSE, ultimately using a tuple conseisting of the args
MULTI_ARG_DISTINCT = True
# Whether the JSON extraction operators expect a value of type JSON
JSON_TYPE_REQUIRED_FOR_EXTRACTION = False
# Whether bracketed keys like ["foo"] are supported in JSON paths
JSON_PATH_BRACKETED_KEY_SUPPORTED = True
# Whether to escape keys using single quotes in JSON paths
JSON_PATH_SINGLE_QUOTE_ESCAPE = False
# The JSONPathPart expressions supported by this dialect
SUPPORTED_JSON_PATH_PARTS = ALL_JSON_PATH_PARTS.copy()
# Whether any(f(x) for x in array) can be implemented by this dialect
CAN_IMPLEMENT_ARRAY_ANY = False
# Whether the function TO_NUMBER is supported
SUPPORTS_TO_NUMBER = True
# Whether or not union modifiers apply to the outer union or select.
# SELECT * FROM x UNION SELECT * FROM y LIMIT 1
# True means limit 1 happens after the union, False means it it happens on y.
OUTER_UNION_MODIFIERS = True
TYPE_MAPPING = {
exp.DataType.Type.NCHAR: "CHAR",
exp.DataType.Type.NVARCHAR: "VARCHAR",
exp.DataType.Type.MEDIUMTEXT: "TEXT",
exp.DataType.Type.LONGTEXT: "TEXT",
exp.DataType.Type.TINYTEXT: "TEXT",
exp.DataType.Type.MEDIUMBLOB: "BLOB",
exp.DataType.Type.LONGBLOB: "BLOB",
exp.DataType.Type.TINYBLOB: "BLOB",
exp.DataType.Type.INET: "INET",
exp.DataType.Type.ROWVERSION: "VARBINARY",
}
STAR_MAPPING = {
"except": "EXCEPT",
"replace": "REPLACE",
}
TIME_PART_SINGULARS = {
"MICROSECONDS": "MICROSECOND",
"SECONDS": "SECOND",
"MINUTES": "MINUTE",
"HOURS": "HOUR",
"DAYS": "DAY",
"WEEKS": "WEEK",
"MONTHS": "MONTH",
"QUARTERS": "QUARTER",
"YEARS": "YEAR",
}
AFTER_HAVING_MODIFIER_TRANSFORMS = {
"cluster": lambda self, e: self.sql(e, "cluster"),
"distribute": lambda self, e: self.sql(e, "distribute"),
"qualify": lambda self, e: self.sql(e, "qualify"),
"sort": lambda self, e: self.sql(e, "sort"),
"windows": lambda self, e: (
self.seg("WINDOW ") + self.expressions(e, key="windows", flat=True)
if e.args.get("windows")
else ""
),
}
TOKEN_MAPPING: t.Dict[TokenType, str] = {}
STRUCT_DELIMITER = ("<", ">")
PARAMETER_TOKEN = "@"
NAMED_PLACEHOLDER_TOKEN = ":"
PROPERTIES_LOCATION = {
exp.AlgorithmProperty: exp.Properties.Location.POST_CREATE,
exp.AutoIncrementProperty: exp.Properties.Location.POST_SCHEMA,
exp.AutoRefreshProperty: exp.Properties.Location.POST_SCHEMA,
exp.BackupProperty: exp.Properties.Location.POST_SCHEMA,
exp.BlockCompressionProperty: exp.Properties.Location.POST_NAME,
exp.CharacterSetProperty: exp.Properties.Location.POST_SCHEMA,
exp.ChecksumProperty: exp.Properties.Location.POST_NAME,
exp.CollateProperty: exp.Properties.Location.POST_SCHEMA,
exp.CopyGrantsProperty: exp.Properties.Location.POST_SCHEMA,
exp.Cluster: exp.Properties.Location.POST_SCHEMA,
exp.ClusteredByProperty: exp.Properties.Location.POST_SCHEMA,
exp.DataBlocksizeProperty: exp.Properties.Location.POST_NAME,
exp.DefinerProperty: exp.Properties.Location.POST_CREATE,
exp.DictRange: exp.Properties.Location.POST_SCHEMA,
exp.DictProperty: exp.Properties.Location.POST_SCHEMA,
exp.DistKeyProperty: exp.Properties.Location.POST_SCHEMA,
exp.DistStyleProperty: exp.Properties.Location.POST_SCHEMA,
exp.EngineProperty: exp.Properties.Location.POST_SCHEMA,
exp.ExecuteAsProperty: exp.Properties.Location.POST_SCHEMA,
exp.ExternalProperty: exp.Properties.Location.POST_CREATE,
exp.FallbackProperty: exp.Properties.Location.POST_NAME,
exp.FileFormatProperty: exp.Properties.Location.POST_WITH,
exp.FreespaceProperty: exp.Properties.Location.POST_NAME,
exp.GlobalProperty: exp.Properties.Location.POST_CREATE,
exp.HeapProperty: exp.Properties.Location.POST_WITH,
exp.InheritsProperty: exp.Properties.Location.POST_SCHEMA,
exp.IcebergProperty: exp.Properties.Location.POST_CREATE,
exp.InputModelProperty: exp.Properties.Location.POST_SCHEMA,
exp.IsolatedLoadingProperty: exp.Properties.Location.POST_NAME,
exp.JournalProperty: exp.Properties.Location.POST_NAME,
exp.LanguageProperty: exp.Properties.Location.POST_SCHEMA,
exp.LikeProperty: exp.Properties.Location.POST_SCHEMA,
exp.LocationProperty: exp.Properties.Location.POST_SCHEMA,
exp.LockProperty: exp.Properties.Location.POST_SCHEMA,
exp.LockingProperty: exp.Properties.Location.POST_ALIAS,
exp.LogProperty: exp.Properties.Location.POST_NAME,
exp.MaterializedProperty: exp.Properties.Location.POST_CREATE,
exp.MergeBlockRatioProperty: exp.Properties.Location.POST_NAME,
exp.NoPrimaryIndexProperty: exp.Properties.Location.POST_EXPRESSION,
exp.OnProperty: exp.Properties.Location.POST_SCHEMA,
exp.OnCommitProperty: exp.Properties.Location.POST_EXPRESSION,
exp.Order: exp.Properties.Location.POST_SCHEMA,
exp.OutputModelProperty: exp.Properties.Location.POST_SCHEMA,
exp.PartitionedByProperty: exp.Properties.Location.POST_WITH,
exp.PartitionedOfProperty: exp.Properties.Location.POST_SCHEMA,
exp.PrimaryKey: exp.Properties.Location.POST_SCHEMA,
exp.Property: exp.Properties.Location.POST_WITH,
exp.RemoteWithConnectionModelProperty: exp.Properties.Location.POST_SCHEMA,
exp.ReturnsProperty: exp.Properties.Location.POST_SCHEMA,
exp.RowFormatProperty: exp.Properties.Location.POST_SCHEMA,
exp.RowFormatDelimitedProperty: exp.Properties.Location.POST_SCHEMA,
exp.RowFormatSerdeProperty: exp.Properties.Location.POST_SCHEMA,
exp.SampleProperty: exp.Properties.Location.POST_SCHEMA,
exp.SchemaCommentProperty: exp.Properties.Location.POST_SCHEMA,
exp.SerdeProperties: exp.Properties.Location.POST_SCHEMA,
exp.Set: exp.Properties.Location.POST_SCHEMA,
exp.SettingsProperty: exp.Properties.Location.POST_SCHEMA,
exp.SetProperty: exp.Properties.Location.POST_CREATE,
exp.SetConfigProperty: exp.Properties.Location.POST_SCHEMA,
exp.SharingProperty: exp.Properties.Location.POST_EXPRESSION,
exp.SequenceProperties: exp.Properties.Location.POST_EXPRESSION,
exp.SortKeyProperty: exp.Properties.Location.POST_SCHEMA,
exp.SqlReadWriteProperty: exp.Properties.Location.POST_SCHEMA,
exp.SqlSecurityProperty: exp.Properties.Location.POST_CREATE,
exp.StabilityProperty: exp.Properties.Location.POST_SCHEMA,
exp.TemporaryProperty: exp.Properties.Location.POST_CREATE,
exp.ToTableProperty: exp.Properties.Location.POST_SCHEMA,
exp.TransientProperty: exp.Properties.Location.POST_CREATE,
exp.TransformModelProperty: exp.Properties.Location.POST_SCHEMA,
exp.MergeTreeTTL: exp.Properties.Location.POST_SCHEMA,
exp.UnloggedProperty: exp.Properties.Location.POST_CREATE,
exp.ViewAttributeProperty: exp.Properties.Location.POST_SCHEMA,
exp.VolatileProperty: exp.Properties.Location.POST_CREATE,
exp.WithDataProperty: exp.Properties.Location.POST_EXPRESSION,
exp.WithJournalTableProperty: exp.Properties.Location.POST_NAME,
exp.WithSystemVersioningProperty: exp.Properties.Location.POST_SCHEMA,
}
# Keywords that can't be used as unquoted identifier names
RESERVED_KEYWORDS: t.Set[str] = set()
# Expressions whose comments are separated from them for better formatting
WITH_SEPARATED_COMMENTS: t.Tuple[t.Type[exp.Expression], ...] = (
exp.Create,
exp.Delete,
exp.Drop,
exp.From,
exp.Insert,
exp.Join,
exp.Select,
exp.Union,
exp.Update,
exp.Where,
exp.With,
)
# Expressions that should not have their comments generated in maybe_comment
EXCLUDE_COMMENTS: t.Tuple[t.Type[exp.Expression], ...] = (
exp.Binary,
exp.Union,
)
# Expressions that can remain unwrapped when appearing in the context of an INTERVAL
UNWRAPPED_INTERVAL_VALUES: t.Tuple[t.Type[exp.Expression], ...] = (
exp.Column,
exp.Literal,
exp.Neg,
exp.Paren,
)
PARAMETERIZABLE_TEXT_TYPES = {
exp.DataType.Type.NVARCHAR,
exp.DataType.Type.VARCHAR,
exp.DataType.Type.CHAR,
exp.DataType.Type.NCHAR,
}
# Expressions that need to have all CTEs under them bubbled up to them
EXPRESSIONS_WITHOUT_NESTED_CTES: t.Set[t.Type[exp.Expression]] = set()
SENTINEL_LINE_BREAK = "__SQLGLOT__LB__"
__slots__ = (
"pretty",
"identify",
"normalize",
"pad",
"_indent",
"normalize_functions",
"unsupported_level",
"max_unsupported",
"leading_comma",
"max_text_width",
"comments",
"dialect",
"unsupported_messages",
"_escaped_quote_end",
"_escaped_identifier_end",
)
def __init__(
self,
pretty: t.Optional[bool] = None,
identify: str | bool = False,
normalize: bool = False,
pad: int = 2,
indent: int = 2,
normalize_functions: t.Optional[str | bool] = None,
unsupported_level: ErrorLevel = ErrorLevel.WARN,
max_unsupported: int = 3,
leading_comma: bool = False,
max_text_width: int = 80,
comments: bool = True,
dialect: DialectType = None,
):
import sqlglot
from sqlglot.dialects import Dialect
self.pretty = pretty if pretty is not None else sqlglot.pretty
self.identify = identify
self.normalize = normalize
self.pad = pad
self._indent = indent
self.unsupported_level = unsupported_level
self.max_unsupported = max_unsupported
self.leading_comma = leading_comma
self.max_text_width = max_text_width
self.comments = comments
self.dialect = Dialect.get_or_raise(dialect)
# This is both a Dialect property and a Generator argument, so we prioritize the latter
self.normalize_functions = (
self.dialect.NORMALIZE_FUNCTIONS if normalize_functions is None else normalize_functions
)
self.unsupported_messages: t.List[str] = []
self._escaped_quote_end: str = (
self.dialect.tokenizer_class.STRING_ESCAPES[0] + self.dialect.QUOTE_END
)
self._escaped_identifier_end: str = (
self.dialect.tokenizer_class.IDENTIFIER_ESCAPES[0] + self.dialect.IDENTIFIER_END
)
def generate(self, expression: exp.Expression, copy: bool = True) -> str:
"""
Generates the SQL string corresponding to the given syntax tree.
Args:
expression: The syntax tree.
copy: Whether to copy the expression. The generator performs mutations so
it is safer to copy.
Returns:
The SQL string corresponding to `expression`.
"""
if copy:
expression = expression.copy()
expression = self.preprocess(expression)
self.unsupported_messages = []
sql = self.sql(expression).strip()
if self.pretty:
sql = sql.replace(self.SENTINEL_LINE_BREAK, "\n")
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 preprocess(self, expression: exp.Expression) -> exp.Expression:
"""Apply generic preprocessing transformations to a given expression."""
if (
not expression.parent
and type(expression) in self.EXPRESSIONS_WITHOUT_NESTED_CTES
and any(node.parent is not expression for node in expression.find_all(exp.With))
):
from sqlglot.transforms import move_ctes_to_top_level
expression = move_ctes_to_top_level(expression)
if self.ENSURE_BOOLS:
from sqlglot.transforms import ensure_bools
expression = ensure_bools(expression)
return expression
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: t.Optional[exp.Expression] = None,
comments: t.Optional[t.List[str]] = None,
separated: bool = False,
) -> str:
comments = (
((expression and expression.comments) if comments is None else comments) # type: ignore
if self.comments
else None
)
if not comments or isinstance(expression, self.EXCLUDE_COMMENTS):
return sql
comments_sql = " ".join(
f"/*{self.pad_comment(comment)}*/" for comment in comments if comment
)
if not comments_sql:
return sql
comments_sql = self._replace_line_breaks(comments_sql)
if separated or isinstance(expression, self.WITH_SEPARATED_COMMENTS):
return (
f"{self.sep()}{comments_sql}{sql}"
if not sql or sql[0].isspace()
else f"{comments_sql}{self.sep()}{sql}"
)
return f"{sql} {comments_sql}"
def wrap(self, expression: exp.Expression | str) -> str:
this_sql = self.indent(
(
self.sql(expression)
if isinstance(expression, exp.UNWRAPPED_QUERIES)
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], *args, **kwargs) -> str:
original = self.identify
self.identify = False
result = func(*args, **kwargs)
self.identify = original
return result
def normalize_func(self, name: str) -> str:
if self.normalize_functions == "upper" or self.normalize_functions is True:
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:
value = expression.args.get(key)
if value:
return self.sql(value)
return ""
transform = self.TRANSFORMS.get(expression.__class__)
if callable(transform):
sql = transform(self, expression)
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_parts(self, expression: exp.Column) -> str:
return ".".join(
self.sql(part)
for part in (
expression.args.get("catalog"),
expression.args.get("db"),
expression.args.get("table"),
expression.args.get("this"),
)
if part
)
def column_sql(self, expression: exp.Column) -> str:
join_mark = " (+)" if expression.args.get("join_mark") else ""
if join_mark and not self.COLUMN_JOIN_MARKS_SUPPORTED:
join_mark = ""
self.unsupported("Outer join syntax using the (+) operator is not supported.")
return f"{self.column_parts(expression)}{join_mark}"
def columnposition_sql(self, expression: exp.ColumnPosition) -> str:
this = self.sql(expression, "this")
this = f" {this}" if this else ""
position = self.sql(expression, "position")
return f"{position}{this}"
def columndef_sql(self, expression: exp.ColumnDef, sep: str = " ") -> 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 ""
kind = f"{sep}{kind}" if kind else ""
constraints = f" {constraints}" if constraints else ""
position = self.sql(expression, "position")
position = f" {position}" if position else ""
if expression.find(exp.ComputedColumnConstraint) and not self.COMPUTED_COLUMN_WITH_TYPE:
kind = ""
return f"{exists}{column}{kind}{constraints}{position}"
def columnconstraint_sql(self, expression: exp.ColumnConstraint) -> str:
this = self.sql(expression, "this")
kind_sql = self.sql(expression, "kind").strip()
return f"CONSTRAINT {this} {kind_sql}" if this else kind_sql
def computedcolumnconstraint_sql(self, expression: exp.ComputedColumnConstraint) -> str:
this = self.sql(expression, "this")
if expression.args.get("not_null"):
persisted = " PERSISTED NOT NULL"
elif expression.args.get("persisted"):
persisted = " PERSISTED"
else:
persisted = ""
return f"AS {this}{persisted}"
def autoincrementcolumnconstraint_sql(self, _) -> str:
return self.token_sql(TokenType.AUTO_INCREMENT)
def compresscolumnconstraint_sql(self, expression: exp.CompressColumnConstraint) -> str:
if isinstance(expression.this, list):
this = self.wrap(self.expressions(expression, key="this", flat=True))
else:
this = self.sql(expression, "this")
return f"COMPRESS {this}"
def generatedasidentitycolumnconstraint_sql(
self, expression: exp.GeneratedAsIdentityColumnConstraint
) -> str:
this = ""
if expression.this is not None:
on_null = " ON NULL" if expression.args.get("on_null") else ""
this = " ALWAYS" if expression.this else f" BY DEFAULT{on_null}"
start = expression.args.get("start")
start = f"START WITH {start}" if start else ""
increment = expression.args.get("increment")
increment = f" INCREMENT BY {increment}" if increment else ""
minvalue = expression.args.get("minvalue")
minvalue = f" MINVALUE {minvalue}" if minvalue else ""
maxvalue = expression.args.get("maxvalue")
maxvalue = f" MAXVALUE {maxvalue}" if maxvalue else ""
cycle = expression.args.get("cycle")
cycle_sql = ""
if cycle is not None:
cycle_sql = f"{' NO' if not cycle else ''} CYCLE"
cycle_sql = cycle_sql.strip() if not start and not increment else cycle_sql
sequence_opts = ""
if start or increment or cycle_sql:
sequence_opts = f"{start}{increment}{minvalue}{maxvalue}{cycle_sql}"
sequence_opts = f" ({sequence_opts.strip()})"
expr = self.sql(expression, "expression")
expr = f"({expr})" if expr else "IDENTITY"
return f"GENERATED{this} AS {expr}{sequence_opts}"
def generatedasrowcolumnconstraint_sql(
self, expression: exp.GeneratedAsRowColumnConstraint
) -> str:
start = "START" if expression.args.get("start") else "END"
hidden = " HIDDEN" if expression.args.get("hidden") else ""
return f"GENERATED ALWAYS AS ROW {start}{hidden}"
def periodforsystemtimeconstraint_sql(
self, expression: exp.PeriodForSystemTimeConstraint
) -> str:
return f"PERIOD FOR SYSTEM_TIME ({self.sql(expression, 'this')}, {self.sql(expression, 'expression')})"
def notnullcolumnconstraint_sql(self, expression: exp.NotNullColumnConstraint) -> str:
return f"{'' if expression.args.get('allow_null') else 'NOT '}NULL"
def transformcolumnconstraint_sql(self, expression: exp.TransformColumnConstraint) -> str:
return f"AS {self.sql(expression, 'this')}"
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 "PRIMARY KEY"
def uniquecolumnconstraint_sql(self, expression: exp.UniqueColumnConstraint) -> str:
this = self.sql(expression, "this")
this = f" {this}" if this else ""
index_type = expression.args.get("index_type")
index_type = f" USING {index_type}" if index_type else ""
on_conflict = self.sql(expression, "on_conflict")
on_conflict = f" {on_conflict}" if on_conflict else ""
return f"UNIQUE{this}{index_type}{on_conflict}"
def createable_sql(self, expression: exp.Create, locations: t.DefaultDict) -> str:
return self.sql(expression, "this")
def create_sql(self, expression: exp.Create) -> str:
kind = self.sql(expression, "kind")
properties = expression.args.get("properties")
properties_locs = self.locate_properties(properties) if properties else defaultdict()
this = self.createable_sql(expression, properties_locs)
properties_sql = ""
if properties_locs.get(exp.Properties.Location.POST_SCHEMA) or properties_locs.get(
exp.Properties.Location.POST_WITH
):
properties_sql = self.sql(
exp.Properties(
expressions=[
*properties_locs[exp.Properties.Location.POST_SCHEMA],
*properties_locs[exp.Properties.Location.POST_WITH],
]
)
)
begin = " BEGIN" if expression.args.get("begin") else ""
end = " END" if expression.args.get("end") else ""
expression_sql = self.sql(expression, "expression")
if expression_sql:
expression_sql = f"{begin}{self.sep()}{expression_sql}{end}"
if self.CREATE_FUNCTION_RETURN_AS or not isinstance(expression.expression, exp.Return):
if properties_locs.get(exp.Properties.Location.POST_ALIAS):
postalias_props_sql = self.properties(
exp.Properties(
expressions=properties_locs[exp.Properties.Location.POST_ALIAS]
),
wrapped=False,
)
expression_sql = f" AS {postalias_props_sql}{expression_sql}"
else:
expression_sql = f" AS{expression_sql}"
postindex_props_sql = ""
if properties_locs.get(exp.Properties.Location.POST_INDEX):
postindex_props_sql = self.properties(
exp.Properties(expressions=properties_locs[exp.Properties.Location.POST_INDEX]),
wrapped=False,
prefix=" ",
)
indexes = self.expressions(expression, key="indexes", indent=False, sep=" ")
indexes = f" {indexes}" if indexes else ""
index_sql = indexes + postindex_props_sql
replace = " OR REPLACE" if expression.args.get("replace") else ""
unique = " UNIQUE" if expression.args.get("unique") else ""
postcreate_props_sql = ""
if properties_locs.get(exp.Properties.Location.POST_CREATE):
postcreate_props_sql = self.properties(
exp.Properties(expressions=properties_locs[exp.Properties.Location.POST_CREATE]),
sep=" ",
prefix=" ",
wrapped=False,
)
modifiers = "".join((replace, unique, postcreate_props_sql))
postexpression_props_sql = ""
if properties_locs.get(exp.Properties.Location.POST_EXPRESSION):
postexpression_props_sql = self.properties(
exp.Properties(
expressions=properties_locs[exp.Properties.Location.POST_EXPRESSION]
),
sep=" ",
prefix=" ",
wrapped=False,
)
exists_sql = " IF NOT EXISTS" if expression.args.get("exists") else ""
no_schema_binding = (
" WITH NO SCHEMA BINDING" if expression.args.get("no_schema_binding") else ""
)
clone = self.sql(expression, "clone")
clone = f" {clone}" if clone else ""
expression_sql = f"CREATE{modifiers} {kind}{exists_sql} {this}{properties_sql}{expression_sql}{postexpression_props_sql}{index_sql}{no_schema_binding}{clone}"
return self.prepend_ctes(expression, expression_sql)
def sequenceproperties_sql(self, expression: exp.SequenceProperties) -> str:
start = self.sql(expression, "start")
start = f"START WITH {start}" if start else ""
increment = self.sql(expression, "increment")
increment = f" INCREMENT BY {increment}" if increment else ""
minvalue = self.sql(expression, "minvalue")
minvalue = f" MINVALUE {minvalue}" if minvalue else ""
maxvalue = self.sql(expression, "maxvalue")
maxvalue = f" MAXVALUE {maxvalue}" if maxvalue else ""
owned = self.sql(expression, "owned")
owned = f" OWNED BY {owned}" if owned else ""
cache = expression.args.get("cache")
if cache is None:
cache_str = ""
elif cache is True:
cache_str = " CACHE"
else:
cache_str = f" CACHE {cache}"
options = self.expressions(expression, key="options", flat=True, sep=" ")
options = f" {options}" if options else ""
return f"{start}{increment}{minvalue}{maxvalue}{cache_str}{options}{owned}".lstrip()
def clone_sql(self, expression: exp.Clone) -> str:
this = self.sql(expression, "this")
shallow = "SHALLOW " if expression.args.get("shallow") else ""
keyword = "COPY" if expression.args.get("copy") and self.SUPPORTS_TABLE_COPY else "CLONE"
return f"{shallow}{keyword} {this}"
def describe_sql(self, expression: exp.Describe) -> str:
style = expression.args.get("style")
style = f" {style}" if style else ""
return f"DESCRIBE{style} {self.sql(expression, 'this')}"
def heredoc_sql(self, expression: exp.Heredoc) -> str:
tag = self.sql(expression, "tag")
return f"${tag}${self.sql(expression, 'this')}${tag}$"
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 self.CTE_RECURSIVE_KEYWORD_REQUIRED and expression.args.get("recursive")
else ""
)
return f"WITH {recursive}{sql}"
def cte_sql(self, expression: exp.CTE) -> str:
alias = self.sql(expression, "alias")
materialized = expression.args.get("materialized")
if materialized is False:
materialized = "NOT MATERIALIZED "
elif materialized:
materialized = "MATERIALIZED "
return f"{alias} AS {materialized or ''}{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 ""
if columns and not self.SUPPORTS_TABLE_ALIAS_COLUMNS:
columns = ""
self.unsupported("Named columns are not supported in table alias.")
if not alias and not self.dialect.UNNEST_COLUMN_ONLY:
alias = "_t"
return f"{alias}{columns}"
def bitstring_sql(self, expression: exp.BitString) -> str:
this = self.sql(expression, "this")
if self.dialect.BIT_START:
return f"{self.dialect.BIT_START}{this}{self.dialect.BIT_END}"
return f"{int(this, 2)}"
def hexstring_sql(self, expression: exp.HexString) -> str:
this = self.sql(expression, "this")
if self.dialect.HEX_START:
return f"{self.dialect.HEX_START}{this}{self.dialect.HEX_END}"
return f"{int(this, 16)}"
def bytestring_sql(self, expression: exp.ByteString) -> str:
this = self.sql(expression, "this")
if self.dialect.BYTE_START:
return f"{self.dialect.BYTE_START}{this}{self.dialect.BYTE_END}"
return this
def unicodestring_sql(self, expression: exp.UnicodeString) -> str:
this = self.sql(expression, "this")
escape = expression.args.get("escape")
if self.dialect.UNICODE_START:
escape = f" UESCAPE {self.sql(escape)}" if escape else ""
return f"{self.dialect.UNICODE_START}{this}{self.dialect.UNICODE_END}{escape}"
if escape:
pattern = re.compile(rf"{escape.name}(\d+)")
else:
pattern = ESCAPED_UNICODE_RE
this = pattern.sub(r"\\u\1", this)
return f"{self.dialect.QUOTE_START}{this}{self.dialect.QUOTE_END}"
def rawstring_sql(self, expression: exp.RawString) -> str:
string = self.escape_str(expression.this.replace("\\", "\\\\"), escape_backslash=False)
return f"{self.dialect.QUOTE_START}{string}{self.dialect.QUOTE_END}"
def datatypeparam_sql(self, expression: exp.DataTypeParam) -> str:
this = self.sql(expression, "this")
specifier = self.sql(expression, "expression")
specifier = f" {specifier}" if specifier and self.DATA_TYPE_SPECIFIERS_ALLOWED else ""
return f"{this}{specifier}"
def datatype_sql(self, expression: exp.DataType) -> str:
type_value = expression.this
if type_value == exp.DataType.Type.USERDEFINED and expression.args.get("kind"):
type_sql = self.sql(expression, "kind")
else:
type_sql = (
self.TYPE_MAPPING.get(type_value, type_value.value)
if isinstance(type_value, exp.DataType.Type)
else type_value
)
nested = ""
interior = self.expressions(expression, flat=True)
values = ""
if interior:
if expression.args.get("nested"):
nested = f"{self.STRUCT_DELIMITER[0]}{interior}{self.STRUCT_DELIMITER[1]}"
if expression.args.get("values") is not None:
delimiters = ("[", "]") if type_value == exp.DataType.Type.ARRAY else ("(", ")")
values = self.expressions(expression, key="values", flat=True)
values = f"{delimiters[0]}{values}{delimiters[1]}"
elif type_value == exp.DataType.Type.INTERVAL:
nested = f" {interior}"
else:
nested = f"({interior})"
type_sql = f"{type_sql}{nested}{values}"
if self.TZ_TO_WITH_TIME_ZONE and type_value in (
exp.DataType.Type.TIMETZ,
exp.DataType.Type.TIMESTAMPTZ,
):
type_sql = f"{type_sql} WITH TIME ZONE"
return type_sql
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")
this = f" FROM {this}" if this else ""
using = self.sql(expression, "using")
using = f" USING {using}" if using else ""
where = self.sql(expression, "where")
returning = self.sql(expression, "returning")
limit = self.sql(expression, "limit")
tables = self.expressions(expression, key="tables")
tables = f" {tables}" if tables else ""
if self.RETURNING_END:
expression_sql = f"{this}{using}{where}{returning}{limit}"
else:
expression_sql = f"{returning}{this}{using}{where}{limit}"
return self.prepend_ctes(expression, f"DELETE{tables}{expression_sql}")
def drop_sql(self, expression: exp.Drop) -> str:
this = self.sql(expression, "this")
expressions = self.expressions(expression, flat=True)
expressions = f" ({expressions})" if expressions else ""
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 ""
constraints = " CONSTRAINTS" if expression.args.get("constraints") else ""
purge = " PURGE" if expression.args.get("purge") else ""
return f"DROP{temporary}{materialized} {kind}{exists_sql}{this}{expressions}{cascade}{constraints}{purge}"
def except_sql(self, expression: exp.Except) -> str:
return self.set_operations(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}" if direction else ""
count = expression.args.get("count")
count = f" {count}" if count else ""
if expression.args.get("percent"):
count = f"{count} PERCENT"
with_ties_or_only = "WITH TIES" if expression.args.get("with_ties") else "ONLY"
return f"{self.seg('FETCH')}{direction}{count} ROWS {with_ties_or_only}"
def filter_sql(self, expression: exp.Filter) -> str:
if self.AGGREGATE_FILTER_SUPPORTED:
this = self.sql(expression, "this")
where = self.sql(expression, "expression").strip()
return f"{this} FILTER({where})"
agg = expression.this
agg_arg = agg.this
cond = expression.expression.this
agg_arg.replace(exp.If(this=cond.copy(), true=agg_arg.copy()))
return self.sql(agg)
def hint_sql(self, expression: exp.Hint) -> str:
if not self.QUERY_HINTS:
self.unsupported("Hints are not supported")
return ""
return f" /*+ {self.expressions(expression, sep=self.QUERY_HINT_SEP).strip()} */"
def indexparameters_sql(self, expression: exp.IndexParameters) -> str:
using = self.sql(expression, "using")
using = f" USING {using}" if using else ""
columns = self.expressions(expression, key="columns", flat=True)
columns = f"({columns})" if columns else ""
partition_by = self.expressions(expression, key="partition_by", flat=True)
partition_by = f" PARTITION BY {partition_by}" if partition_by else ""
where = self.sql(expression, "where")
include = self.expressions(expression, key="include", flat=True)
if include:
include = f" INCLUDE ({include})"
with_storage = self.expressions(expression, key="with_storage", flat=True)
with_storage = f" WITH ({with_storage})" if with_storage else ""
tablespace = self.sql(expression, "tablespace")
tablespace = f" USING INDEX TABLESPACE {tablespace}" if tablespace else ""
return f"{using}{columns}{include}{with_storage}{tablespace}{partition_by}{where}"
def index_sql(self, expression: exp.Index) -> str:
unique = "UNIQUE " if expression.args.get("unique") else ""
primary = "PRIMARY " if expression.args.get("primary") else ""
amp = "AMP " if expression.args.get("amp") else ""
name = self.sql(expression, "this")
name = f"{name} " if name else ""
table = self.sql(expression, "table")
table = f"{self.INDEX_ON} {table}" if table else ""
index = "INDEX " if not table else ""
params = self.sql(expression, "params")
return f"{unique}{primary}{amp}{index}{name}{table}{params}"
def identifier_sql(self, expression: exp.Identifier) -> str:
text = expression.name
lower = text.lower()
text = lower if self.normalize and not expression.quoted else text
text = text.replace(self.dialect.IDENTIFIER_END, self._escaped_identifier_end)
if (
expression.quoted
or self.dialect.can_identify(text, self.identify)
or lower in self.RESERVED_KEYWORDS
or (not self.dialect.IDENTIFIERS_CAN_START_WITH_DIGIT and text[:1].isdigit())
):
text = f"{self.dialect.IDENTIFIER_START}{text}{self.dialect.IDENTIFIER_END}"
return text
def inputoutputformat_sql(self, expression: exp.InputOutputFormat) -> str:
input_format = self.sql(expression, "input_format")
input_format = f"INPUTFORMAT {input_format}" if input_format else ""
output_format = self.sql(expression, "output_format")
output_format = f"OUTPUTFORMAT {output_format}" if output_format else ""
return self.sep().join((input_format, output_format))
def national_sql(self, expression: exp.National, prefix: str = "N") -> str:
string = self.sql(exp.Literal.string(expression.name))
return f"{prefix}{string}"
def partition_sql(self, expression: exp.Partition) -> str:
return f"PARTITION({self.expressions(expression, flat=True)})"
def properties_sql(self, expression: exp.Properties) -> str:
root_properties = []
with_properties = []
for p in expression.expressions:
p_loc = self.PROPERTIES_LOCATION[p.__class__]
if p_loc == exp.Properties.Location.POST_WITH:
with_properties.append(p)
elif p_loc == exp.Properties.Location.POST_SCHEMA:
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 = ", ",
suffix: str = "",
wrapped: bool = True,
) -> str:
if properties.expressions:
expressions = self.expressions(properties, sep=sep, indent=False)
if expressions:
expressions = self.wrap(expressions) if wrapped else expressions
return f"{prefix}{' ' if prefix.strip() else ''}{expressions}{suffix}"
return ""
def with_properties(self, properties: exp.Properties) -> str:
return self.properties(properties, prefix=self.seg("WITH"))
def locate_properties(self, properties: exp.Properties) -> t.DefaultDict:
properties_locs = defaultdict(list)
for p in properties.expressions:
p_loc = self.PROPERTIES_LOCATION[p.__class__]
if p_loc != exp.Properties.Location.UNSUPPORTED:
properties_locs[p_loc].append(p)
else:
self.unsupported(f"Unsupported property {p.key}")
return properties_locs
def property_name(self, expression: exp.Property, string_key: bool = False) -> str:
if isinstance(expression.this, exp.Dot):
return self.sql(expression, "this")
return f"'{expression.name}'" if string_key else expression.name
def property_sql(self, expression: exp.Property) -> str:
property_cls = expression.__class__
if property_cls == exp.Property:
return f"{self.property_name(expression)}={self.sql(expression, 'value')}"
property_name = exp.Properties.PROPERTY_TO_NAME.get(property_cls)
if not property_name:
self.unsupported(f"Unsupported property {expression.key}")
return f"{property_name}={self.sql(expression, 'this')}"
def likeproperty_sql(self, expression: exp.LikeProperty) -> str:
if self.SUPPORTS_CREATE_TABLE_LIKE:
options = " ".join(f"{e.name} {self.sql(e, 'value')}" for e in expression.expressions)
options = f" {options}" if options else ""
like = f"LIKE {self.sql(expression, 'this')}{options}"
if self.LIKE_PROPERTY_INSIDE_SCHEMA and not isinstance(expression.parent, exp.Schema):
like = f"({like})"
return like
if expression.expressions:
self.unsupported("Transpilation of LIKE property options is unsupported")
select = exp.select("*").from_(expression.this).limit(0)
return f"AS {self.sql(select)}"
def fallbackproperty_sql(self, expression: exp.FallbackProperty) -> str:
no = "NO " if expression.args.get("no") else ""
protection = " PROTECTION" if expression.args.get("protection") else ""
return f"{no}FALLBACK{protection}"
def journalproperty_sql(self, expression: exp.JournalProperty) -> str:
no = "NO " if expression.args.get("no") else ""
local = expression.args.get("local")
local = f"{local} " if local else ""
dual = "DUAL " if expression.args.get("dual") else ""
before = "BEFORE " if expression.args.get("before") else ""
after = "AFTER " if expression.args.get("after") else ""
return f"{no}{local}{dual}{before}{after}JOURNAL"
def freespaceproperty_sql(self, expression: exp.FreespaceProperty) -> str:
freespace = self.sql(expression, "this")
percent = " PERCENT" if expression.args.get("percent") else ""
return f"FREESPACE={freespace}{percent}"
def checksumproperty_sql(self, expression: exp.ChecksumProperty) -> str:
if expression.args.get("default"):
property = "DEFAULT"
elif expression.args.get("on"):
property = "ON"
else:
property = "OFF"
return f"CHECKSUM={property}"
def mergeblockratioproperty_sql(self, expression: exp.MergeBlockRatioProperty) -> str:
if expression.args.get("no"):
return "NO MERGEBLOCKRATIO"
if expression.args.get("default"):
return "DEFAULT MERGEBLOCKRATIO"
percent = " PERCENT" if expression.args.get("percent") else ""
return f"MERGEBLOCKRATIO={self.sql(expression, 'this')}{percent}"
def datablocksizeproperty_sql(self, expression: exp.DataBlocksizeProperty) -> str:
default = expression.args.get("default")
minimum = expression.args.get("minimum")
maximum = expression.args.get("maximum")
if default or minimum or maximum:
if default:
prop = "DEFAULT"
elif minimum:
prop = "MINIMUM"
else:
prop = "MAXIMUM"
return f"{prop} DATABLOCKSIZE"
units = expression.args.get("units")
units = f" {units}" if units else ""
return f"DATABLOCKSIZE={self.sql(expression, 'size')}{units}"
def blockcompressionproperty_sql(self, expression: exp.BlockCompressionProperty) -> str:
autotemp = expression.args.get("autotemp")
always = expression.args.get("always")
default = expression.args.get("default")
manual = expression.args.get("manual")
never = expression.args.get("never")
if autotemp is not None:
prop = f"AUTOTEMP({self.expressions(autotemp)})"
elif always:
prop = "ALWAYS"
elif default:
prop = "DEFAULT"
elif manual:
prop = "MANUAL"
elif never:
prop = "NEVER"
return f"BLOCKCOMPRESSION={prop}"
def isolatedloadingproperty_sql(self, expression: exp.IsolatedLoadingProperty) -> str:
no = expression.args.get("no")
no = " NO" if no else ""
concurrent = expression.args.get("concurrent")
concurrent = " CONCURRENT" if concurrent else ""
target = self.sql(expression, "target")
target = f" {target}" if target else ""
return f"WITH{no}{concurrent} ISOLATED LOADING{target}"
def partitionboundspec_sql(self, expression: exp.PartitionBoundSpec) -> str:
if isinstance(expression.this, list):
return f"IN ({self.expressions(expression, key='this', flat=True)})"
if expression.this:
modulus = self.sql(expression, "this")
remainder = self.sql(expression, "expression")
return f"WITH (MODULUS {modulus}, REMAINDER {remainder})"
from_expressions = self.expressions(expression, key="from_expressions", flat=True)
to_expressions = self.expressions(expression, key="to_expressions", flat=True)
return f"FROM ({from_expressions}) TO ({to_expressions})"
def partitionedofproperty_sql(self, expression: exp.PartitionedOfProperty) -> str:
this = self.sql(expression, "this")
for_values_or_default = expression.expression
if isinstance(for_values_or_default, exp.PartitionBoundSpec):
for_values_or_default = f" FOR VALUES {self.sql(for_values_or_default)}"
else:
for_values_or_default = " DEFAULT"
return f"PARTITION OF {this}{for_values_or_default}"
def lockingproperty_sql(self, expression: exp.LockingProperty) -> str:
kind = expression.args.get("kind")
this = f" {self.sql(expression, 'this')}" if expression.this else ""
for_or_in = expression.args.get("for_or_in")
for_or_in = f" {for_or_in}" if for_or_in else ""
lock_type = expression.args.get("lock_type")
override = " OVERRIDE" if expression.args.get("override") else ""
return f"LOCKING {kind}{this}{for_or_in} {lock_type}{override}"
def withdataproperty_sql(self, expression: exp.WithDataProperty) -> str:
data_sql = f"WITH {'NO ' if expression.args.get('no') else ''}DATA"
statistics = expression.args.get("statistics")
statistics_sql = ""
if statistics is not None:
statistics_sql = f" AND {'NO ' if not statistics else ''}STATISTICS"
return f"{data_sql}{statistics_sql}"
def withsystemversioningproperty_sql(self, expression: exp.WithSystemVersioningProperty) -> str:
sql = "WITH(SYSTEM_VERSIONING=ON"
if expression.this:
history_table = self.sql(expression, "this")
sql = f"{sql}(HISTORY_TABLE={history_table}"
if expression.expression:
data_consistency_check = self.sql(expression, "expression")
sql = f"{sql}, DATA_CONSISTENCY_CHECK={data_consistency_check}"
sql = f"{sql})"
return f"{sql})"
def insert_sql(self, expression: exp.Insert) -> str:
hint = self.sql(expression, "hint")
overwrite = expression.args.get("overwrite")
if isinstance(expression.this, exp.Directory):
this = " OVERWRITE" if overwrite else " INTO"
else:
this = self.INSERT_OVERWRITE if overwrite else " INTO"
stored = self.sql(expression, "stored")
stored = f" {stored}" if stored else ""
alternative = expression.args.get("alternative")
alternative = f" OR {alternative}" if alternative else ""
ignore = " IGNORE" if expression.args.get("ignore") else ""
is_function = expression.args.get("is_function")
if is_function:
this = f"{this} FUNCTION"
this = f"{this} {self.sql(expression, 'this')}"
exists = " IF EXISTS" if expression.args.get("exists") else ""
where = self.sql(expression, "where")
where = f"{self.sep()}REPLACE WHERE {where}" if where else ""
expression_sql = f"{self.sep()}{self.sql(expression, 'expression')}"
on_conflict = self.sql(expression, "conflict")
on_conflict = f" {on_conflict}" if on_conflict else ""
by_name = " BY NAME" if expression.args.get("by_name") else ""
returning = self.sql(expression, "returning")
if self.RETURNING_END:
expression_sql = f"{expression_sql}{on_conflict}{returning}"
else:
expression_sql = f"{returning}{expression_sql}{on_conflict}"
sql = f"INSERT{hint}{alternative}{ignore}{this}{stored}{by_name}{exists}{where}{expression_sql}"
return self.prepend_ctes(expression, sql)
def intersect_sql(self, expression: exp.Intersect) -> str:
return self.set_operations(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 kill_sql(self, expression: exp.Kill) -> str:
kind = self.sql(expression, "kind")
kind = f" {kind}" if kind else ""
this = self.sql(expression, "this")
this = f" {this}" if this else ""
return f"KILL{kind}{this}"
def pseudotype_sql(self, expression: exp.PseudoType) -> str:
return expression.name
def objectidentifier_sql(self, expression: exp.ObjectIdentifier) -> str:
return expression.name
def onconflict_sql(self, expression: exp.OnConflict) -> str:
conflict = "ON DUPLICATE KEY" if expression.args.get("duplicate") else "ON CONFLICT"
constraint = self.sql(expression, "constraint")
constraint = f" ON CONSTRAINT {constraint}" if constraint else ""
conflict_keys = self.expressions(expression, key="conflict_keys", flat=True)
conflict_keys = f"({conflict_keys}) " if conflict_keys else " "
action = self.sql(expression, "action")
expressions = self.expressions(expression, flat=True)
if expressions:
set_keyword = "SET " if self.DUPLICATE_KEY_UPDATE_WITH_SET else ""
expressions = f" {set_keyword}{expressions}"
return f"{conflict}{constraint}{conflict_keys}{action}{expressions}"
def returning_sql(self, expression: exp.Returning) -> str:
return f"{self.seg('RETURNING')} {self.expressions(expression, flat=True)}"
def rowformatdelimitedproperty_sql(self, expression: exp.RowFormatDelimitedProperty) -> str:
fields = self.sql(expression, "fields")
fields = f" FIELDS TERMINATED BY {fields}" if fields else ""
escaped = self.sql(expression, "escaped")
escaped = f" ESCAPED BY {escaped}" if escaped else ""
items = self.sql(expression, "collection_items")
items = f" COLLECTION ITEMS TERMINATED BY {items}" if items else ""
keys = self.sql(expression, "map_keys")
keys = f" MAP KEYS TERMINATED BY {keys}" if keys else ""
lines = self.sql(expression, "lines")
lines = f" LINES TERMINATED BY {lines}" if lines else ""
null = self.sql(expression, "null")
null = f" NULL DEFINED AS {null}" if null else ""
return f"ROW FORMAT DELIMITED{fields}{escaped}{items}{keys}{lines}{null}"
def withtablehint_sql(self, expression: exp.WithTableHint) -> str:
return f"WITH ({self.expressions(expression, flat=True)})"
def indextablehint_sql(self, expression: exp.IndexTableHint) -> str:
this = f"{self.sql(expression, 'this')} INDEX"
target = self.sql(expression, "target")
target = f" FOR {target}" if target else ""
return f"{this}{target} ({self.expressions(expression, flat=True)})"
def historicaldata_sql(self, expression: exp.HistoricalData) -> str:
this = self.sql(expression, "this")
kind = self.sql(expression, "kind")
expr = self.sql(expression, "expression")
return f"{this} ({kind} => {expr})"
def table_parts(self, expression: exp.Table) -> str:
return ".".join(
self.sql(part)
for part in (
expression.args.get("catalog"),
expression.args.get("db"),
expression.args.get("this"),
)
if part is not None
)
def table_sql(self, expression: exp.Table, sep: str = " AS ") -> str:
table = self.table_parts(expression)
only = "ONLY " if expression.args.get("only") else ""
partition = self.sql(expression, "partition")
partition = f" {partition}" if partition else ""
version = self.sql(expression, "version")
version = f" {version}" if version else ""
alias = self.sql(expression, "alias")
alias = f"{sep}{alias}" if alias else ""
hints = self.expressions(expression, key="hints", sep=" ")
hints = f" {hints}" if hints and self.TABLE_HINTS else ""
pivots = self.expressions(expression, key="pivots", sep=" ", flat=True)
pivots = f" {pivots}" if pivots else ""
joins = self.indent(
self.expressions(expression, key="joins", sep="", flat=True), skip_first=True
)
laterals = self.expressions(expression, key="laterals", sep="")
file_format = self.sql(expression, "format")
if file_format:
pattern = self.sql(expression, "pattern")
pattern = f", PATTERN => {pattern}" if pattern else ""
file_format = f" (FILE_FORMAT => {file_format}{pattern})"
ordinality = expression.args.get("ordinality") or ""
if ordinality:
ordinality = f" WITH ORDINALITY{alias}"
alias = ""
when = self.sql(expression, "when")
if when:
table = f"{table} {when}"
return f"{only}{table}{partition}{version}{file_format}{alias}{hints}{pivots}{joins}{laterals}{ordinality}"
def tablesample_sql(
self,
expression: exp.TableSample,
sep: str = " AS ",
tablesample_keyword: t.Optional[str] = None,
) -> str:
if self.dialect.ALIAS_POST_TABLESAMPLE and expression.this and expression.this.alias:
table = expression.this.copy()
table.set("alias", None)
this = self.sql(table)
alias = f"{sep}{self.sql(expression.this, 'alias')}"
else:
this = self.sql(expression, "this")
alias = ""
method = self.sql(expression, "method")
method = f"{method} " if method and self.TABLESAMPLE_WITH_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 ""
seed = self.sql(expression, "seed")
seed = f" {self.TABLESAMPLE_SEED_KEYWORD} ({seed})" if seed else ""
size = self.sql(expression, "size")
if size and self.TABLESAMPLE_SIZE_IS_ROWS:
size = f"{size} ROWS"
percent = self.sql(expression, "percent")
if percent and not self.dialect.TABLESAMPLE_SIZE_IS_PERCENT:
percent = f"{percent} PERCENT"
expr = f"{bucket}{percent}{size}"
if self.TABLESAMPLE_REQUIRES_PARENS:
expr = f"({expr})"
return (
f"{this} {tablesample_keyword or self.TABLESAMPLE_KEYWORDS} {method}{expr}{seed}{alias}"
)
def pivot_sql(self, expression: exp.Pivot) -> str:
expressions = self.expressions(expression, flat=True)
if expression.this:
this = self.sql(expression, "this")
if not expressions:
return f"UNPIVOT {this}"
on = f"{self.seg('ON')} {expressions}"
using = self.expressions(expression, key="using", flat=True)
using = f"{self.seg('USING')} {using}" if using else ""
group = self.sql(expression, "group")
return f"PIVOT {this}{on}{using}{group}"
alias = self.sql(expression, "alias")
alias = f" AS {alias}" if alias else ""
direction = "UNPIVOT" if expression.unpivot else "PIVOT"
field = self.sql(expression, "field")
include_nulls = expression.args.get("include_nulls")
if include_nulls is not None:
nulls = " INCLUDE NULLS " if include_nulls else " EXCLUDE NULLS "
else:
nulls = ""
return f"{direction}{nulls}({expressions} FOR {field}){alias}"
def version_sql(self, expression: exp.Version) -> str:
this = f"FOR {expression.name}"
kind = expression.text("kind")
expr = self.sql(expression, "expression")
return f"{this} {kind} {expr}"
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")
returning = self.sql(expression, "returning")
order = self.sql(expression, "order")
limit = self.sql(expression, "limit")
if self.RETURNING_END:
expression_sql = f"{from_sql}{where_sql}{returning}"
else:
expression_sql = f"{returning}{from_sql}{where_sql}"
sql = f"UPDATE {this} SET {set_sql}{expression_sql}{order}{limit}"
return self.prepend_ctes(expression, sql)
def values_sql(self, expression: exp.Values, values_as_table: bool = True) -> str:
values_as_table = values_as_table and self.VALUES_AS_TABLE
# The VALUES clause is still valid in an `INSERT INTO ..` statement, for example
if values_as_table or not expression.find_ancestor(exp.From, exp.Join):
args = self.expressions(expression)
alias = self.sql(expression, "alias")
values = f"VALUES{self.seg('')}{args}"
values = (
f"({values})"
if self.WRAP_DERIVED_VALUES and (alias or isinstance(expression.parent, exp.From))
else values
)
return f"{values} AS {alias}" if alias else values
# Converts `VALUES...` expression into a series of select unions.
alias_node = expression.args.get("alias")
column_names = alias_node and alias_node.columns
selects: t.List[exp.Query] = []
for i, tup in enumerate(expression.expressions):
row = tup.expressions
if i == 0 and column_names:
row = [
exp.alias_(value, column_name) for value, column_name in zip(row, column_names)
]
selects.append(exp.Select(expressions=row))
if self.pretty:
# This may result in poor performance for large-cardinality `VALUES` tables, due to
# the deep nesting of the resulting exp.Unions. If this is a problem, either increase
# `sys.setrecursionlimit` to avoid RecursionErrors, or don't set `pretty`.
query = reduce(lambda x, y: exp.union(x, y, distinct=False, copy=False), selects)
return self.subquery_sql(query.subquery(alias_node and alias_node.this, copy=False))
alias = f" AS {self.sql(alias_node, 'this')}" if alias_node else ""
unions = " UNION ALL ".join(self.sql(select) for select in selects)
return f"({unions}){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:
return f"{self.seg('FROM')} {self.sql(expression, 'this')}"
def group_sql(self, expression: exp.Group) -> str:
group_by_all = expression.args.get("all")
if group_by_all is True:
modifier = " ALL"
elif group_by_all is False:
modifier = " DISTINCT"
else:
modifier = ""
group_by = self.op_expressions(f"GROUP BY{modifier}", 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 = expression.args.get("cube", [])
if seq_get(cube, 0) is True:
return f"{group_by}{self.seg('WITH CUBE')}"
else:
cube_sql = self.expressions(expression, key="cube", indent=False)
cube_sql = f"{self.seg('CUBE')} {self.wrap(cube_sql)}" if cube_sql else ""
rollup = expression.args.get("rollup", [])
if seq_get(rollup, 0) is True:
return f"{group_by}{self.seg('WITH ROLLUP')}"
else:
rollup_sql = self.expressions(expression, key="rollup", indent=False)
rollup_sql = f"{self.seg('ROLLUP')} {self.wrap(rollup_sql)}" if rollup_sql else ""
groupings = csv(
grouping_sets,
cube_sql,
rollup_sql,
self.seg("WITH TOTALS") if expression.args.get("totals") else "",
sep=self.GROUPINGS_SEP,
)
if expression.args.get("expressions") and groupings:
group_by = f"{group_by}{self.GROUPINGS_SEP}"
return f"{group_by}{groupings}"
def having_sql(self, expression: exp.Having) -> str:
this = self.indent(self.sql(expression, "this"))
return f"{self.seg('HAVING')}{self.sep()}{this}"
def connect_sql(self, expression: exp.Connect) -> str:
start = self.sql(expression, "start")
start = self.seg(f"START WITH {start}") if start else ""
nocycle = " NOCYCLE" if expression.args.get("nocycle") else ""
connect = self.sql(expression, "connect")
connect = self.seg(f"CONNECT BY{nocycle} {connect}")
return start + connect
def prior_sql(self, expression: exp.Prior) -> str:
return f"PRIOR {self.sql(expression, 'this')}"
def join_sql(self, expression: exp.Join) -> str:
if not self.SEMI_ANTI_JOIN_WITH_SIDE and expression.kind in ("SEMI", "ANTI"):
side = None
else:
side = expression.side
op_sql = " ".join(
op
for op in (
expression.method,
"GLOBAL" if expression.args.get("global") else None,
side,
expression.kind,
expression.hint if self.JOIN_HINTS else None,
)
if op
)
match_cond = self.sql(expression, "match_condition")
match_cond = f" MATCH_CONDITION ({match_cond})" if match_cond else ""
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))
this = expression.this
this_sql = self.sql(this)
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}"
elif not op_sql:
if isinstance(this, exp.Lateral) and this.args.get("cross_apply") is not None:
return f" {this_sql}"
return f", {this_sql}"
op_sql = f"{op_sql} JOIN" if op_sql else "JOIN"
return f"{self.seg(op_sql)} {this_sql}{match_cond}{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 f"{args} {arrow_sep} {self.sql(expression, 'this')}"
def lateral_op(self, expression: exp.Lateral) -> str:
cross_apply = expression.args.get("cross_apply")
# https://www.mssqltips.com/sqlservertip/1958/sql-server-cross-apply-and-outer-apply/
if cross_apply is True:
op = "INNER JOIN "
elif cross_apply is False:
op = "LEFT JOIN "
else:
op = ""
return f"{op}LATERAL"
def lateral_sql(self, expression: exp.Lateral) -> str:
this = self.sql(expression, "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"{self.lateral_op(expression)} {this}{alias}"
def limit_sql(self, expression: exp.Limit, top: bool = False) -> str:
this = self.sql(expression, "this")
args = [
self._simplify_unless_literal(e) if self.LIMIT_ONLY_LITERALS else e
for e in (expression.args.get(k) for k in ("offset", "expression"))
if e
]
args_sql = ", ".join(self.sql(e) for e in args)
args_sql = f"({args_sql})" if top and any(not e.is_number for e in args) else args_sql
expressions = self.expressions(expression, flat=True)
expressions = f" BY {expressions}" if expressions else ""
return f"{this}{self.seg('TOP' if top else 'LIMIT')} {args_sql}{expressions}"
def offset_sql(self, expression: exp.Offset) -> str:
this = self.sql(expression, "this")
value = expression.expression
value = self._simplify_unless_literal(value) if self.LIMIT_ONLY_LITERALS else value
expressions = self.expressions(expression, flat=True)
expressions = f" BY {expressions}" if expressions else ""
return f"{this}{self.seg('OFFSET')} {self.sql(value)}{expressions}"
def setitem_sql(self, expression: exp.SetItem) -> str:
kind = self.sql(expression, "kind")
kind = f"{kind} " if kind else ""
this = self.sql(expression, "this")
expressions = self.expressions(expression)
collate = self.sql(expression, "collate")
collate = f" COLLATE {collate}" if collate else ""
global_ = "GLOBAL " if expression.args.get("global") else ""
return f"{global_}{kind}{this}{expressions}{collate}"
def set_sql(self, expression: exp.Set) -> str:
expressions = (
f" {self.expressions(expression, flat=True)}" if expression.expressions else ""
)
tag = " TAG" if expression.args.get("tag") else ""
return f"{'UNSET' if expression.args.get('unset') else 'SET'}{tag}{expressions}"
def pragma_sql(self, expression: exp.Pragma) -> str:
return f"PRAGMA {self.sql(expression, 'this')}"
def lock_sql(self, expression: exp.Lock) -> str:
if not self.LOCKING_READS_SUPPORTED:
self.unsupported("Locking reads using 'FOR UPDATE/SHARE' are not supported")
return ""
lock_type = "FOR UPDATE" if expression.args["update"] else "FOR SHARE"
expressions = self.expressions(expression, flat=True)
expressions = f" OF {expressions}" if expressions else ""
wait = expression.args.get("wait")
if wait is not None:
if isinstance(wait, exp.Literal):
wait = f" WAIT {self.sql(wait)}"
else:
wait = " NOWAIT" if wait else " SKIP LOCKED"
return f"{lock_type}{expressions}{wait or ''}"
def literal_sql(self, expression: exp.Literal) -> str:
text = expression.this or ""
if expression.is_string:
text = f"{self.dialect.QUOTE_START}{self.escape_str(text)}{self.dialect.QUOTE_END}"
return text
def escape_str(self, text: str, escape_backslash: bool = True) -> str:
if self.dialect.ESCAPED_SEQUENCES:
to_escaped = self.dialect.ESCAPED_SEQUENCES
text = "".join(
to_escaped.get(ch, ch) if escape_backslash or ch != "\\" else ch for ch in text
)
return self._replace_line_breaks(text).replace(
self.dialect.QUOTE_END, self._escaped_quote_end
)
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
siblings = "SIBLINGS " if expression.args.get("siblings") else ""
order = self.op_expressions(f"{this}ORDER {siblings}BY", expression, flat=this or flat) # type: ignore
interpolated_values = [
f"{self.sql(named_expression, 'alias')} AS {self.sql(named_expression, 'this')}"
for named_expression in expression.args.get("interpolate") or []
]
interpolate = (
f" INTERPOLATE ({', '.join(interpolated_values)})" if interpolated_values else ""
)
return f"{order}{interpolate}"
def withfill_sql(self, expression: exp.WithFill) -> str:
from_sql = self.sql(expression, "from")
from_sql = f" FROM {from_sql}" if from_sql else ""
to_sql = self.sql(expression, "to")
to_sql = f" TO {to_sql}" if to_sql else ""
step_sql = self.sql(expression, "step")
step_sql = f" STEP {step_sql}" if step_sql else ""
return f"WITH FILL{from_sql}{to_sql}{step_sql}"
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.dialect.NULL_ORDERING == "nulls_are_large"
nulls_are_small = self.dialect.NULL_ORDERING == "nulls_are_small"
nulls_are_last = self.dialect.NULL_ORDERING == "nulls_are_last"
this = self.sql(expression, "this")
sort_order = " DESC" if desc else (" ASC" if desc is False 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 the NULLS FIRST/LAST clause is unsupported, we add another sort key to simulate it
if nulls_sort_change and not self.NULL_ORDERING_SUPPORTED:
window = expression.find_ancestor(exp.Window, exp.Select)
if isinstance(window, exp.Window) and window.args.get("spec"):
self.unsupported(
f"'{nulls_sort_change.strip()}' translation not supported in window functions"
)
nulls_sort_change = ""
elif self.NULL_ORDERING_SUPPORTED is None:
if expression.this.is_int:
self.unsupported(
f"'{nulls_sort_change.strip()}' translation not supported with positional ordering"
)
elif not isinstance(expression.this, exp.Rand):
null_sort_order = " DESC" if nulls_sort_change == " NULLS FIRST" else ""
this = f"CASE WHEN {this} IS NULL THEN 1 ELSE 0 END{null_sort_order}, {this}"
nulls_sort_change = ""
with_fill = self.sql(expression, "with_fill")
with_fill = f" {with_fill}" if with_fill else ""
return f"{this}{sort_order}{nulls_sort_change}{with_fill}"
def matchrecognizemeasure_sql(self, expression: exp.MatchRecognizeMeasure) -> str:
window_frame = self.sql(expression, "window_frame")
window_frame = f"{window_frame} " if window_frame else ""
this = self.sql(expression, "this")
return f"{window_frame}{this}"
def matchrecognize_sql(self, expression: exp.MatchRecognize) -> str:
partition = self.partition_by_sql(expression)
order = self.sql(expression, "order")
measures = self.expressions(expression, key="measures")
measures = self.seg(f"MEASURES{self.seg(measures)}") if measures else ""
rows = self.sql(expression, "rows")
rows = self.seg(rows) if rows else ""
after = self.sql(expression, "after")
after = self.seg(after) if after else ""
pattern = self.sql(expression, "pattern")
pattern = self.seg(f"PATTERN ({pattern})") if pattern else ""
definition_sqls = [
f"{self.sql(definition, 'alias')} AS {self.sql(definition, 'this')}"
for definition in expression.args.get("define", [])
]
definitions = self.expressions(sqls=definition_sqls)
define = self.seg(f"DEFINE{self.seg(definitions)}") if definitions else ""
body = "".join(
(
partition,
order,
measures,
rows,
after,
pattern,
define,
)
)
alias = self.sql(expression, "alias")
alias = f" {alias}" if alias else ""
return f"{self.seg('MATCH_RECOGNIZE')} {self.wrap(body)}{alias}"
def query_modifiers(self, expression: exp.Expression, *sqls: str) -> str:
limit = expression.args.get("limit")
if self.LIMIT_FETCH == "LIMIT" and isinstance(limit, exp.Fetch):
limit = exp.Limit(expression=exp.maybe_copy(limit.args.get("count")))
elif self.LIMIT_FETCH == "FETCH" and isinstance(limit, exp.Limit):
limit = exp.Fetch(direction="FIRST", count=exp.maybe_copy(limit.expression))
options = self.expressions(expression, key="options")
if options:
options = f" OPTION{self.wrap(options)}"
return csv(
*sqls,
*[self.sql(join) for join in expression.args.get("joins") or []],
self.sql(expression, "connect"),
self.sql(expression, "match"),
*[self.sql(lateral) for lateral in expression.args.get("laterals") or []],
self.sql(expression, "prewhere"),
self.sql(expression, "where"),
self.sql(expression, "group"),
self.sql(expression, "having"),
*[gen(self, expression) for gen in self.AFTER_HAVING_MODIFIER_TRANSFORMS.values()],
self.sql(expression, "order"),
*self.offset_limit_modifiers(expression, isinstance(limit, exp.Fetch), limit),
*self.after_limit_modifiers(expression),
options,
sep="",
)
def queryoption_sql(self, expression: exp.QueryOption) -> str:
return ""
def offset_limit_modifiers(
self, expression: exp.Expression, fetch: bool, limit: t.Optional[exp.Fetch | exp.Limit]
) -> t.List[str]:
return [
self.sql(expression, "offset") if fetch else self.sql(limit),
self.sql(limit) if fetch else self.sql(expression, "offset"),
]
def after_limit_modifiers(self, expression: exp.Expression) -> t.List[str]:
locks = self.expressions(expression, key="locks", sep=" ")
locks = f" {locks}" if locks else ""
return [locks, self.sql(expression, "sample")]
def select_sql(self, expression: exp.Select) -> str:
into = expression.args.get("into")
if not self.SUPPORTS_SELECT_INTO and into:
into.pop()
hint = self.sql(expression, "hint")
distinct = self.sql(expression, "distinct")
distinct = f" {distinct}" if distinct else ""
kind = self.sql(expression, "kind")
limit = expression.args.get("limit")
if isinstance(limit, exp.Limit) and self.LIMIT_IS_TOP:
top = self.limit_sql(limit, top=True)
limit.pop()
else:
top = ""
expressions = self.expressions(expression)
if kind:
if kind in self.SELECT_KINDS:
kind = f" AS {kind}"
else:
if kind == "STRUCT":
expressions = self.expressions(
sqls=[
self.sql(
exp.Struct(
expressions=[
exp.PropertyEQ(this=e.args.get("alias"), expression=e.this)
if isinstance(e, exp.Alias)
else e
for e in expression.expressions
]
)
)
]
)
kind = ""
# We use LIMIT_IS_TOP as a proxy for whether DISTINCT should go first because tsql and Teradata
# are the only dialects that use LIMIT_IS_TOP and both place DISTINCT first.
top_distinct = f"{distinct}{hint}{top}" if self.LIMIT_IS_TOP else f"{top}{hint}{distinct}"
expressions = f"{self.sep()}{expressions}" if expressions else expressions
sql = self.query_modifiers(
expression,
f"SELECT{top_distinct}{kind}{expressions}",
self.sql(expression, "into", comment=False),
self.sql(expression, "from", comment=False),
)
sql = self.prepend_ctes(expression, sql)
if not self.SUPPORTS_SELECT_INTO and into:
if into.args.get("temporary"):
table_kind = " TEMPORARY"
elif self.SUPPORTS_UNLOGGED_TABLES and into.args.get("unlogged"):
table_kind = " UNLOGGED"
else:
table_kind = ""
sql = f"CREATE{table_kind} TABLE {self.sql(into.this)} AS {sql}"
return sql
def schema_sql(self, expression: exp.Schema) -> str:
this = self.sql(expression, "this")
sql = self.schema_columns_sql(expression)
return f"{this} {sql}" if this and sql else this or sql
def schema_columns_sql(self, expression: exp.Schema) -> str:
if expression.expressions:
return f"({self.sep('')}{self.expressions(expression)}{self.seg(')', sep='')}"
return ""
def star_sql(self, expression: exp.Star) -> str:
except_ = self.expressions(expression, key="except", flat=True)
except_ = f"{self.seg(self.STAR_MAPPING['except'])} ({except_})" if except_ else ""
replace = self.expressions(expression, key="replace", flat=True)
replace = f"{self.seg(self.STAR_MAPPING['replace'])} ({replace})" if replace else ""
return f"*{except_}{replace}"
def parameter_sql(self, expression: exp.Parameter) -> str:
this = self.sql(expression, "this")
return f"{self.PARAMETER_TOKEN}{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"{self.NAMED_PLACEHOLDER_TOKEN}{expression.name}" if expression.this else "?"
def subquery_sql(self, expression: exp.Subquery, sep: str = " AS ") -> str:
alias = self.sql(expression, "alias")
alias = f"{sep}{alias}" if alias else ""
pivots = self.expressions(expression, key="pivots", sep=" ", flat=True)
pivots = f" {pivots}" if pivots else ""
sql = self.query_modifiers(expression, self.wrap(expression), alias, pivots)
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 set_operations(self, expression: exp.Union) -> str:
if not self.OUTER_UNION_MODIFIERS:
limit = expression.args.get("limit")
order = expression.args.get("order")
if limit or order:
select = exp.subquery(expression, "_l_0", copy=False).select("*", copy=False)
if limit:
select = select.limit(limit.pop(), copy=False)
if order:
select = select.order_by(order.pop(), copy=False)
return self.sql(select)
sqls: t.List[str] = []
stack: t.List[t.Union[str, exp.Expression]] = [expression]
while stack:
node = stack.pop()
if isinstance(node, exp.Union):
stack.append(node.expression)
stack.append(
self.maybe_comment(
getattr(self, f"{node.key}_op")(node),
comments=node.comments,
separated=True,
)
)
stack.append(node.this)
else:
sqls.append(self.sql(node))
this = self.sep().join(sqls)
this = self.query_modifiers(expression, this)
return self.prepend_ctes(expression, this)
def union_sql(self, expression: exp.Union) -> str:
return self.set_operations(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"
by_name = " BY NAME" if expression.args.get("by_name") else ""
return f"UNION{kind}{by_name}"
def unnest_sql(self, expression: exp.Unnest) -> str:
args = self.expressions(expression, flat=True)
alias = expression.args.get("alias")
offset = expression.args.get("offset")
if self.UNNEST_WITH_ORDINALITY:
if alias and isinstance(offset, exp.Expression):
alias.append("columns", offset)
if alias and self.dialect.UNNEST_COLUMN_ONLY:
columns = alias.columns
alias = self.sql(columns[0]) if columns else ""
else:
alias = self.sql(alias)
alias = f" AS {alias}" if alias else alias
if self.UNNEST_WITH_ORDINALITY:
suffix = f" WITH ORDINALITY{alias}" if offset else alias
else:
if isinstance(offset, exp.Expression):
suffix = f"{alias} WITH OFFSET AS {self.sql(offset)}"
elif offset:
suffix = f"{alias} WITH OFFSET"
else:
suffix = alias
return f"UNNEST({args}){suffix}"
def prewhere_sql(self, expression: exp.PreWhere) -> str:
return ""
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.partition_by_sql(expression)
order = expression.args.get("order")
order = self.order_sql(order, flat=True) if order else ""
spec = self.sql(expression, "spec")
alias = self.sql(expression, "alias")
over = self.sql(expression, "over") or "OVER"
this = f"{this} {'AS' if expression.arg_key == 'windows' else over}"
first = expression.args.get("first")
if first is None:
first = ""
else:
first = "FIRST" if first else "LAST"
if not partition and not order and not spec and alias:
return f"{this} {alias}"
args = " ".join(arg for arg in (alias, first, partition, order, spec) if arg)
return f"{this} ({args})"
def partition_by_sql(self, expression: exp.Window | exp.MatchRecognize) -> str:
partition = self.expressions(expression, key="partition_by", flat=True)
return f"PARTITION BY {partition}" if partition else ""
def windowspec_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_offset_expressions(self, expression: exp.Bracket) -> t.List[exp.Expression]:
return apply_index_offset(
expression.this,
expression.expressions,
self.dialect.INDEX_OFFSET - expression.args.get("offset", 0),
)
def bracket_sql(self, expression: exp.Bracket) -> str:
expressions = self.bracket_offset_expressions(expression)
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:
this = self.sql(expression, "this")
if isinstance(expression.this, (*exp.UNWRAPPED_QUERIES, exp.Paren)):
if isinstance(expression.this, exp.UNWRAPPED_QUERIES):
this = self.wrap(this)
return f"ANY{this}"
return f"ANY {this}"
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.too_wide(statements):
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 nextvaluefor_sql(self, expression: exp.NextValueFor) -> str:
order = expression.args.get("order")
order = f" OVER ({self.order_sql(order, flat=True)})" if order else ""
return f"NEXT VALUE FOR {self.sql(expression, 'this')}{order}"
def extract_sql(self, expression: exp.Extract) -> str:
this = self.sql(expression, "this") if self.EXTRACT_ALLOWS_QUOTES else expression.this.name
expression_sql = self.sql(expression, "expression")
return f"EXTRACT({this} FROM {expression_sql})"
def trim_sql(self, expression: exp.Trim) -> str:
trim_type = self.sql(expression, "position")
if trim_type == "LEADING":
return self.func("LTRIM", expression.this)
elif trim_type == "TRAILING":
return self.func("RTRIM", expression.this)
else:
return self.func("TRIM", expression.this, expression.expression)
def convert_concat_args(self, expression: exp.Concat | exp.ConcatWs) -> t.List[exp.Expression]:
args = expression.expressions
if isinstance(expression, exp.ConcatWs):
args = args[1:] # Skip the delimiter
if self.dialect.STRICT_STRING_CONCAT and expression.args.get("safe"):
args = [exp.cast(e, exp.DataType.Type.TEXT) for e in args]
if not self.dialect.CONCAT_COALESCE and expression.args.get("coalesce"):
args = [exp.func("coalesce", e, exp.Literal.string("")) for e in args]
return args
def concat_sql(self, expression: exp.Concat) -> str:
expressions = self.convert_concat_args(expression)
# Some dialects don't allow a single-argument CONCAT call
if not self.SUPPORTS_SINGLE_ARG_CONCAT and len(expressions) == 1:
return self.sql(expressions[0])
return self.func("CONCAT", *expressions)
def concatws_sql(self, expression: exp.ConcatWs) -> str:
return self.func(
"CONCAT_WS", seq_get(expression.expressions, 0), *self.convert_concat_args(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 primarykey_sql(self, expression: exp.ForeignKey) -> str:
expressions = self.expressions(expression, flat=True)
options = self.expressions(expression, key="options", flat=True, sep=" ")
options = f" {options}" if options else ""
return f"PRIMARY KEY ({expressions}){options}"
def if_sql(self, expression: exp.If) -> str:
return self.case_sql(exp.Case(ifs=[expression], default=expression.args.get("false")))
def matchagainst_sql(self, expression: exp.MatchAgainst) -> str:
modifier = expression.args.get("modifier")
modifier = f" {modifier}" if modifier else ""
return f"{self.func('MATCH', *expression.expressions)} AGAINST({self.sql(expression, 'this')}{modifier})"
def jsonkeyvalue_sql(self, expression: exp.JSONKeyValue) -> str:
return f"{self.sql(expression, 'this')}{self.JSON_KEY_VALUE_PAIR_SEP} {self.sql(expression, 'expression')}"
def jsonpath_sql(self, expression: exp.JSONPath) -> str:
path = self.expressions(expression, sep="", flat=True).lstrip(".")
return f"{self.dialect.QUOTE_START}{path}{self.dialect.QUOTE_END}"
def json_path_part(self, expression: int | str | exp.JSONPathPart) -> str:
if isinstance(expression, exp.JSONPathPart):
transform = self.TRANSFORMS.get(expression.__class__)
if not callable(transform):
self.unsupported(f"Unsupported JSONPathPart type {expression.__class__.__name__}")
return ""
return transform(self, expression)
if isinstance(expression, int):
return str(expression)
if self.JSON_PATH_SINGLE_QUOTE_ESCAPE:
escaped = expression.replace("'", "\\'")
escaped = f"\\'{expression}\\'"
else:
escaped = expression.replace('"', '\\"')
escaped = f'"{escaped}"'
return escaped
def formatjson_sql(self, expression: exp.FormatJson) -> str:
return f"{self.sql(expression, 'this')} FORMAT JSON"
def jsonobject_sql(self, expression: exp.JSONObject | exp.JSONObjectAgg) -> str:
null_handling = expression.args.get("null_handling")
null_handling = f" {null_handling}" if null_handling else ""
unique_keys = expression.args.get("unique_keys")
if unique_keys is not None:
unique_keys = f" {'WITH' if unique_keys else 'WITHOUT'} UNIQUE KEYS"
else:
unique_keys = ""
return_type = self.sql(expression, "return_type")
return_type = f" RETURNING {return_type}" if return_type else ""
encoding = self.sql(expression, "encoding")
encoding = f" ENCODING {encoding}" if encoding else ""
return self.func(
"JSON_OBJECT" if isinstance(expression, exp.JSONObject) else "JSON_OBJECTAGG",
*expression.expressions,
suffix=f"{null_handling}{unique_keys}{return_type}{encoding})",
)
def jsonobjectagg_sql(self, expression: exp.JSONObjectAgg) -> str:
return self.jsonobject_sql(expression)
def jsonarray_sql(self, expression: exp.JSONArray) -> str:
null_handling = expression.args.get("null_handling")
null_handling = f" {null_handling}" if null_handling else ""
return_type = self.sql(expression, "return_type")
return_type = f" RETURNING {return_type}" if return_type else ""
strict = " STRICT" if expression.args.get("strict") else ""
return self.func(
"JSON_ARRAY", *expression.expressions, suffix=f"{null_handling}{return_type}{strict})"
)
def jsonarrayagg_sql(self, expression: exp.JSONArrayAgg) -> str:
this = self.sql(expression, "this")
order = self.sql(expression, "order")
null_handling = expression.args.get("null_handling")
null_handling = f" {null_handling}" if null_handling else ""
return_type = self.sql(expression, "return_type")
return_type = f" RETURNING {return_type}" if return_type else ""
strict = " STRICT" if expression.args.get("strict") else ""
return self.func(
"JSON_ARRAYAGG",
this,
suffix=f"{order}{null_handling}{return_type}{strict})",
)
def jsoncolumndef_sql(self, expression: exp.JSONColumnDef) -> str:
path = self.sql(expression, "path")
path = f" PATH {path}" if path else ""
nested_schema = self.sql(expression, "nested_schema")
if nested_schema:
return f"NESTED{path} {nested_schema}"
this = self.sql(expression, "this")
kind = self.sql(expression, "kind")
kind = f" {kind}" if kind else ""
return f"{this}{kind}{path}"
def jsonschema_sql(self, expression: exp.JSONSchema) -> str:
return self.func("COLUMNS", *expression.expressions)
def jsontable_sql(self, expression: exp.JSONTable) -> str:
this = self.sql(expression, "this")
path = self.sql(expression, "path")
path = f", {path}" if path else ""
error_handling = expression.args.get("error_handling")
error_handling = f" {error_handling}" if error_handling else ""
empty_handling = expression.args.get("empty_handling")
empty_handling = f" {empty_handling}" if empty_handling else ""
schema = self.sql(expression, "schema")
return self.func(
"JSON_TABLE", this, suffix=f"{path}{error_handling}{empty_handling} {schema})"
)
def openjsoncolumndef_sql(self, expression: exp.OpenJSONColumnDef) -> str:
this = self.sql(expression, "this")
kind = self.sql(expression, "kind")
path = self.sql(expression, "path")
path = f" {path}" if path else ""
as_json = " AS JSON" if expression.args.get("as_json") else ""
return f"{this} {kind}{path}{as_json}"
def openjson_sql(self, expression: exp.OpenJSON) -> str:
this = self.sql(expression, "this")
path = self.sql(expression, "path")
path = f", {path}" if path else ""
expressions = self.expressions(expression)
with_ = (
f" WITH ({self.seg(self.indent(expressions), sep='')}{self.seg(')', sep='')}"
if expressions
else ""
)
return f"OPENJSON({this}{path}){with_}"
def in_sql(self, expression: exp.In) -> str:
query = expression.args.get("query")
unnest = expression.args.get("unnest")
field = expression.args.get("field")
is_global = " GLOBAL" if expression.args.get("is_global") else ""
if query:
in_sql = self.sql(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')}{is_global} 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:
unit = self.sql(expression, "unit")
if not self.INTERVAL_ALLOWS_PLURAL_FORM:
unit = self.TIME_PART_SINGULARS.get(unit, unit)
unit = f" {unit}" if unit else ""
if self.SINGLE_STRING_INTERVAL:
this = expression.this.name if expression.this else ""
return f"INTERVAL '{this}{unit}'" if this else f"INTERVAL{unit}"
this = self.sql(expression, "this")
if this:
unwrapped = isinstance(expression.this, self.UNWRAPPED_INTERVAL_VALUES)
this = f" {this}" if unwrapped else f" ({this})"
return f"INTERVAL{this}{unit}"
def return_sql(self, expression: exp.Return) -> str:
return f"RETURN {self.sql(expression, 'this')}"
def reference_sql(self, expression: exp.Reference) -> str:
this = self.sql(expression, "this")
expressions = self.expressions(expression, flat=True)
expressions = f"({expressions})" if expressions else ""
options = self.expressions(expression, key="options", flat=True, sep=" ")
options = f" {options}" if options else ""
return f"REFERENCES {this}{expressions}{options}"
def anonymous_sql(self, expression: exp.Anonymous) -> str:
return self.func(self.sql(expression, "this"), *expression.expressions)
def paren_sql(self, expression: exp.Paren) -> str:
sql = self.seg(self.indent(self.sql(expression, "this")), sep="")
return f"({sql}{self.seg(')', sep='')}"
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:
alias = self.sql(expression, "alias")
alias = f" AS {alias}" if alias else ""
return f"{self.sql(expression, 'this')}{alias}"
def pivotalias_sql(self, expression: exp.PivotAlias) -> str:
alias = expression.args["alias"]
identifier_alias = isinstance(alias, exp.Identifier)
if identifier_alias and not self.UNPIVOT_ALIASES_ARE_IDENTIFIERS:
alias.replace(exp.Literal.string(alias.output_name))
elif not identifier_alias and self.UNPIVOT_ALIASES_ARE_IDENTIFIERS:
alias.replace(exp.to_identifier(alias.output_name))
return self.alias_sql(expression)
def aliases_sql(self, expression: exp.Aliases) -> str:
return f"{self.sql(expression, 'this')} AS ({self.expressions(expression, flat=True)})"
def atindex_sql(self, expression: exp.AtTimeZone) -> str:
this = self.sql(expression, "this")
index = self.sql(expression, "expression")
return f"{this} AT {index}"
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 fromtimezone_sql(self, expression: exp.FromTimeZone) -> str:
this = self.sql(expression, "this")
zone = self.sql(expression, "zone")
return f"{this} AT TIME ZONE {zone} AT TIME ZONE 'UTC'"
def add_sql(self, expression: exp.Add) -> str:
return self.binary(expression, "+")
def and_sql(
self, expression: exp.And, stack: t.Optional[t.List[str | exp.Expression]] = None
) -> str:
return self.connector_sql(expression, "AND", stack)
def or_sql(
self, expression: exp.Or, stack: t.Optional[t.List[str | exp.Expression]] = None
) -> str:
return self.connector_sql(expression, "OR", stack)
def xor_sql(
self, expression: exp.Xor, stack: t.Optional[t.List[str | exp.Expression]] = None
) -> str:
return self.connector_sql(expression, "XOR", stack)
def connector_sql(
self,
expression: exp.Connector,
op: str,
stack: t.Optional[t.List[str | exp.Expression]] = None,
) -> str:
if stack is not None:
if expression.expressions:
stack.append(self.expressions(expression, sep=f" {op} "))
else:
stack.append(expression.right)
if expression.comments:
for comment in expression.comments:
op += f" /*{self.pad_comment(comment)}*/"
stack.extend((op, expression.left))
return op
stack = [expression]
sqls: t.List[str] = []
ops = set()
while stack:
node = stack.pop()
if isinstance(node, exp.Connector):
ops.add(getattr(self, f"{node.key}_sql")(node, stack))
else:
sql = self.sql(node)
if sqls and sqls[-1] in ops:
sqls[-1] += f" {sql}"
else:
sqls.append(sql)
sep = "\n" if self.pretty and self.too_wide(sqls) else " "
return sep.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, safe_prefix: t.Optional[str] = None) -> str:
format_sql = self.sql(expression, "format")
format_sql = f" FORMAT {format_sql}" if format_sql else ""
to_sql = self.sql(expression, "to")
to_sql = f" {to_sql}" if to_sql else ""
action = self.sql(expression, "action")
action = f" {action}" if action else ""
return f"{safe_prefix or ''}CAST({self.sql(expression, 'this')} AS{to_sql}{format_sql}{action})"
def currentdate_sql(self, expression: exp.CurrentDate) -> str:
zone = self.sql(expression, "this")
return f"CURRENT_DATE({zone})" if zone else "CURRENT_DATE"
def currenttimestamp_sql(self, expression: exp.CurrentTimestamp) -> str:
return self.func("CURRENT_TIMESTAMP", expression.this)
def collate_sql(self, expression: exp.Collate) -> str:
if self.COLLATE_IS_FUNC:
return self.function_fallback_sql(expression)
return self.binary(expression, "COLLATE")
def command_sql(self, expression: exp.Command) -> str:
return f"{self.sql(expression, 'this')} {expression.text('expression').strip()}"
def comment_sql(self, expression: exp.Comment) -> str:
this = self.sql(expression, "this")
kind = expression.args["kind"]
materialized = " MATERIALIZED" if expression.args.get("materialized") else ""
exists_sql = " IF EXISTS " if expression.args.get("exists") else " "
expression_sql = self.sql(expression, "expression")
return f"COMMENT{exists_sql}ON{materialized} {kind} {this} IS {expression_sql}"
def mergetreettlaction_sql(self, expression: exp.MergeTreeTTLAction) -> str:
this = self.sql(expression, "this")
delete = " DELETE" if expression.args.get("delete") else ""
recompress = self.sql(expression, "recompress")
recompress = f" RECOMPRESS {recompress}" if recompress else ""
to_disk = self.sql(expression, "to_disk")
to_disk = f" TO DISK {to_disk}" if to_disk else ""
to_volume = self.sql(expression, "to_volume")
to_volume = f" TO VOLUME {to_volume}" if to_volume else ""
return f"{this}{delete}{recompress}{to_disk}{to_volume}"
def mergetreettl_sql(self, expression: exp.MergeTreeTTL) -> str:
where = self.sql(expression, "where")
group = self.sql(expression, "group")
aggregates = self.expressions(expression, key="aggregates")
aggregates = self.seg("SET") + self.seg(aggregates) if aggregates else ""
if not (where or group or aggregates) and len(expression.expressions) == 1:
return f"TTL {self.expressions(expression, flat=True)}"
return f"TTL{self.seg(self.expressions(expression))}{where}{group}{aggregates}"
def transaction_sql(self, expression: exp.Transaction) -> 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} SET DATA TYPE {dtype}{collate}{using}"
default = self.sql(expression, "default")
if default:
return f"ALTER COLUMN {this} SET DEFAULT {default}"
comment = self.sql(expression, "comment")
if comment:
return f"ALTER COLUMN {this} COMMENT {comment}"
if not expression.args.get("drop"):
self.unsupported("Unsupported ALTER COLUMN syntax")
return f"ALTER COLUMN {this} DROP DEFAULT"
def renametable_sql(self, expression: exp.RenameTable) -> str:
if not self.RENAME_TABLE_WITH_DB:
# Remove db from tables
expression = expression.transform(
lambda n: exp.table_(n.this) if isinstance(n, exp.Table) else n
).assert_is(exp.RenameTable)
this = self.sql(expression, "this")
return f"RENAME TO {this}"
def renamecolumn_sql(self, expression: exp.RenameColumn) -> str:
exists = " IF EXISTS" if expression.args.get("exists") else ""
old_column = self.sql(expression, "this")
new_column = self.sql(expression, "to")
return f"RENAME COLUMN{exists} {old_column} TO {new_column}"
def altertable_sql(self, expression: exp.AlterTable) -> str:
actions = expression.args["actions"]
if isinstance(actions[0], exp.ColumnDef):
actions = self.add_column_sql(expression)
elif isinstance(actions[0], exp.Schema):
actions = self.expressions(expression, key="actions", prefix="ADD COLUMNS ")
elif isinstance(actions[0], exp.Delete):
actions = self.expressions(expression, key="actions", flat=True)
else:
actions = self.expressions(expression, key="actions", flat=True)
exists = " IF EXISTS" if expression.args.get("exists") else ""
only = " ONLY" if expression.args.get("only") else ""
options = self.expressions(expression, key="options")
options = f", {options}" if options else ""
return f"ALTER TABLE{exists}{only} {self.sql(expression, 'this')} {actions}{options}"
def add_column_sql(self, expression: exp.AlterTable) -> str:
if self.ALTER_TABLE_INCLUDE_COLUMN_KEYWORD:
return self.expressions(
expression,
key="actions",
prefix="ADD COLUMN ",
)
return f"ADD {self.expressions(expression, key='actions', flat=True)}"
def droppartition_sql(self, expression: exp.DropPartition) -> str:
expressions = self.expressions(expression)
exists = " IF EXISTS " if expression.args.get("exists") else " "
return f"DROP{exists}{expressions}"
def addconstraint_sql(self, expression: exp.AddConstraint) -> str:
return f"ADD {self.expressions(expression)}"
def distinct_sql(self, expression: exp.Distinct) -> str:
this = self.expressions(expression, flat=True)
if not self.MULTI_ARG_DISTINCT and len(expression.expressions) > 1:
case = exp.case()
for arg in expression.expressions:
case = case.when(arg.is_(exp.null()), exp.null())
this = self.sql(case.else_(f"({this})"))
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 self._embed_ignore_nulls(expression, "IGNORE NULLS")
def respectnulls_sql(self, expression: exp.RespectNulls) -> str:
return self._embed_ignore_nulls(expression, "RESPECT NULLS")
def havingmax_sql(self, expression: exp.HavingMax) -> str:
this_sql = self.sql(expression, "this")
expression_sql = self.sql(expression, "expression")
kind = "MAX" if expression.args.get("max") else "MIN"
return f"{this_sql} HAVING {kind} {expression_sql}"
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:
if self.dialect.STRICT_STRING_CONCAT and expression.args.get("safe"):
return self.func(
"CONCAT", *(exp.cast(e, exp.DataType.Type.TEXT) for e in expression.flatten())
)
return self.binary(expression, "||")
def div_sql(self, expression: exp.Div) -> str:
l, r = expression.left, expression.right
if not self.dialect.SAFE_DIVISION and expression.args.get("safe"):
r.replace(exp.Nullif(this=r.copy(), expression=exp.Literal.number(0)))
if self.dialect.TYPED_DIVISION and not expression.args.get("typed"):
if not l.is_type(*exp.DataType.REAL_TYPES) and not r.is_type(*exp.DataType.REAL_TYPES):
l.replace(exp.cast(l.copy(), to=exp.DataType.Type.DOUBLE))
elif not self.dialect.TYPED_DIVISION and expression.args.get("typed"):
if l.is_type(*exp.DataType.INTEGER_TYPES) and r.is_type(*exp.DataType.INTEGER_TYPES):
return self.sql(
exp.cast(
l / r,
to=exp.DataType.Type.BIGINT,
)
)
return self.binary(expression, "/")
def overlaps_sql(self, expression: exp.Overlaps) -> str:
return self.binary(expression, "OVERLAPS")
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 propertyeq_sql(self, expression: exp.PropertyEQ) -> str:
return self.binary(expression, ":=")
def escape_sql(self, expression: exp.Escape) -> str:
return self.binary(expression, "ESCAPE")
def glob_sql(self, expression: exp.Glob) -> str:
return self.binary(expression, "GLOB")
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 ilikeany_sql(self, expression: exp.ILikeAny) -> str:
return self.binary(expression, "ILIKE ANY")
def is_sql(self, expression: exp.Is) -> str:
if not self.IS_BOOL_ALLOWED and isinstance(expression.expression, exp.Boolean):
return self.sql(
expression.this if expression.expression.this else exp.not_(expression.this)
)
return self.binary(expression, "IS")
def like_sql(self, expression: exp.Like) -> str:
return self.binary(expression, "LIKE")
def likeany_sql(self, expression: exp.LikeAny) -> str:
return self.binary(expression, "LIKE ANY")
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 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 self.cast_sql(expression, safe_prefix="TRY_")
def log_sql(self, expression: exp.Log) -> str:
this = expression.this
expr = expression.expression
if self.dialect.LOG_BASE_FIRST is False:
this, expr = expr, this
elif self.dialect.LOG_BASE_FIRST is None and expr:
if this.name in ("2", "10"):
return self.func(f"LOG{this.name}", expr)
self.unsupported(f"Unsupported logarithm with base {self.sql(this)}")
return self.func("LOG", this, expr)
def use_sql(self, expression: exp.Use) -> str:
kind = self.sql(expression, "kind")
kind = f" {kind}" if kind else ""
this = self.sql(expression, "this")
this = f" {this}" if this else ""
return f"USE{kind}{this}"
def binary(self, expression: exp.Binary, op: str) -> str:
op = self.maybe_comment(op, comments=expression.comments)
return f"{self.sql(expression, 'this')} {op} {self.sql(expression, 'expression')}"
def function_fallback_sql(self, expression: exp.Func) -> str:
args = []
for key in expression.arg_types:
arg_value = expression.args.get(key)
if isinstance(arg_value, list):
for value in arg_value:
args.append(value)
elif arg_value is not None:
args.append(arg_value)
if self.normalize_functions:
name = expression.sql_name()
else:
name = (expression._meta and expression.meta.get("name")) or expression.sql_name()
return self.func(name, *args)
def func(
self,
name: str,
*args: t.Optional[exp.Expression | str],
prefix: str = "(",
suffix: str = ")",
) -> str:
return f"{self.normalize_func(name)}{prefix}{self.format_args(*args)}{suffix}"
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.too_wide(arg_sqls):
return self.indent("\n" + ",\n".join(arg_sqls) + "\n", skip_first=True, skip_last=True)
return ", ".join(arg_sqls)
def too_wide(self, args: t.Iterable) -> bool:
return sum(len(arg) for arg in args) > self.max_text_width
def format_time(
self,
expression: exp.Expression,
inverse_time_mapping: t.Optional[t.Dict[str, str]] = None,
inverse_time_trie: t.Optional[t.Dict] = None,
) -> t.Optional[str]:
return format_time(
self.sql(expression, "format"),
inverse_time_mapping or self.dialect.INVERSE_TIME_MAPPING,
inverse_time_trie or self.dialect.INVERSE_TIME_TRIE,
)
def expressions(
self,
expression: t.Optional[exp.Expression] = None,
key: t.Optional[str] = None,
sqls: t.Optional[t.Collection[str | exp.Expression]] = None,
flat: bool = False,
indent: bool = True,
skip_first: bool = False,
skip_last: bool = False,
sep: str = ", ",
prefix: str = "",
dynamic: bool = False,
new_line: bool = False,
) -> str:
expressions = expression.args.get(key or "expressions") if expression else sqls
if not expressions:
return ""
if flat:
return sep.join(sql for sql in (self.sql(e) for e in expressions) if sql)
num_sqls = len(expressions)
# These are calculated once in case we have the leading_comma / pretty option set, correspondingly
if self.pretty and not self.leading_comma:
stripped_sep = sep.strip()
result_sqls = []
for i, e in enumerate(expressions):
sql = self.sql(e, comment=False)
if not sql:
continue
comments = self.maybe_comment("", e) if isinstance(e, exp.Expression) else ""
if self.pretty:
if self.leading_comma:
result_sqls.append(f"{sep if i > 0 else ''}{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 ''}")
if self.pretty and (not dynamic or self.too_wide(result_sqls)):
if new_line:
result_sqls.insert(0, "")
result_sqls.append("")
result_sql = "\n".join(result_sqls)
else:
result_sql = "".join(result_sqls)
return (
self.indent(result_sql, skip_first=skip_first, skip_last=skip_last)
if indent
else result_sql
)
def op_expressions(self, op: str, expression: exp.Expression, flat: bool = False) -> str:
flat = flat or isinstance(expression.parent, exp.Properties)
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 tag_sql(self, expression: exp.Tag) -> str:
return f"{expression.args.get('prefix')}{self.sql(expression.this)}{expression.args.get('postfix')}"
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(self.expressions, expression)
expressions = (
self.wrap(expressions) if expression.args.get("wrapped") else f" {expressions}"
)
return f"{this}{expressions}"
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:
matched = "MATCHED" if expression.args["matched"] else "NOT MATCHED"
source = " BY SOURCE" if self.MATCHED_BY_SOURCE and expression.args.get("source") else ""
condition = self.sql(expression, "condition")
condition = f" AND {condition}" if condition else ""
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 {matched}{source}{condition} THEN {then}"
def merge_sql(self, expression: exp.Merge) -> str:
table = expression.this
table_alias = ""
hints = table.args.get("hints")
if hints and table.alias and isinstance(hints[0], exp.WithTableHint):
# T-SQL syntax is MERGE ... <target_table> [WITH (<merge_hint>)] [[AS] table_alias]
table_alias = f" AS {self.sql(table.args['alias'].pop())}"
this = self.sql(table)
using = f"USING {self.sql(expression, 'using')}"
on = f"ON {self.sql(expression, 'on')}"
expressions = self.expressions(expression, sep=" ")
return self.prepend_ctes(
expression, f"MERGE INTO {this}{table_alias} {using} {on} {expressions}"
)
def tochar_sql(self, expression: exp.ToChar) -> str:
if expression.args.get("format"):
self.unsupported("Format argument unsupported for TO_CHAR/TO_VARCHAR function")
return self.sql(exp.cast(expression.this, exp.DataType.Type.TEXT))
def tonumber_sql(self, expression: exp.ToNumber) -> str:
if not self.SUPPORTS_TO_NUMBER:
self.unsupported("Unsupported TO_NUMBER function")
return self.sql(exp.cast(expression.this, exp.DataType.Type.DOUBLE))
fmt = expression.args.get("format")
if not fmt:
self.unsupported("Conversion format is required for TO_NUMBER")
return self.sql(exp.cast(expression.this, exp.DataType.Type.DOUBLE))
return self.func("TO_NUMBER", expression.this, fmt)
def dictproperty_sql(self, expression: exp.DictProperty) -> str:
this = self.sql(expression, "this")
kind = self.sql(expression, "kind")
settings_sql = self.expressions(expression, key="settings", sep=" ")
args = f"({self.sep('')}{settings_sql}{self.seg(')', sep='')}" if settings_sql else "()"
return f"{this}({kind}{args})"
def dictrange_sql(self, expression: exp.DictRange) -> str:
this = self.sql(expression, "this")
max = self.sql(expression, "max")
min = self.sql(expression, "min")
return f"{this}(MIN {min} MAX {max})"
def dictsubproperty_sql(self, expression: exp.DictSubProperty) -> str:
return f"{self.sql(expression, 'this')} {self.sql(expression, 'value')}"
def oncluster_sql(self, expression: exp.OnCluster) -> str:
return ""
def clusteredbyproperty_sql(self, expression: exp.ClusteredByProperty) -> str:
expressions = self.expressions(expression, key="expressions", flat=True)
sorted_by = self.expressions(expression, key="sorted_by", flat=True)
sorted_by = f" SORTED BY ({sorted_by})" if sorted_by else ""
buckets = self.sql(expression, "buckets")
return f"CLUSTERED BY ({expressions}){sorted_by} INTO {buckets} BUCKETS"
def anyvalue_sql(self, expression: exp.AnyValue) -> str:
this = self.sql(expression, "this")
having = self.sql(expression, "having")
if having:
this = f"{this} HAVING {'MAX' if expression.args.get('max') else 'MIN'} {having}"
return self.func("ANY_VALUE", this)
def querytransform_sql(self, expression: exp.QueryTransform) -> str:
transform = self.func("TRANSFORM", *expression.expressions)
row_format_before = self.sql(expression, "row_format_before")
row_format_before = f" {row_format_before}" if row_format_before else ""
record_writer = self.sql(expression, "record_writer")
record_writer = f" RECORDWRITER {record_writer}" if record_writer else ""
using = f" USING {self.sql(expression, 'command_script')}"
schema = self.sql(expression, "schema")
schema = f" AS {schema}" if schema else ""
row_format_after = self.sql(expression, "row_format_after")
row_format_after = f" {row_format_after}" if row_format_after else ""
record_reader = self.sql(expression, "record_reader")
record_reader = f" RECORDREADER {record_reader}" if record_reader else ""
return f"{transform}{row_format_before}{record_writer}{using}{schema}{row_format_after}{record_reader}"
def indexconstraintoption_sql(self, expression: exp.IndexConstraintOption) -> str:
key_block_size = self.sql(expression, "key_block_size")
if key_block_size:
return f"KEY_BLOCK_SIZE = {key_block_size}"
using = self.sql(expression, "using")
if using:
return f"USING {using}"
parser = self.sql(expression, "parser")
if parser:
return f"WITH PARSER {parser}"
comment = self.sql(expression, "comment")
if comment:
return f"COMMENT {comment}"
visible = expression.args.get("visible")
if visible is not None:
return "VISIBLE" if visible else "INVISIBLE"
engine_attr = self.sql(expression, "engine_attr")
if engine_attr:
return f"ENGINE_ATTRIBUTE = {engine_attr}"
secondary_engine_attr = self.sql(expression, "secondary_engine_attr")
if secondary_engine_attr:
return f"SECONDARY_ENGINE_ATTRIBUTE = {secondary_engine_attr}"
self.unsupported("Unsupported index constraint option.")
return ""
def checkcolumnconstraint_sql(self, expression: exp.CheckColumnConstraint) -> str:
enforced = " ENFORCED" if expression.args.get("enforced") else ""
return f"CHECK ({self.sql(expression, 'this')}){enforced}"
def indexcolumnconstraint_sql(self, expression: exp.IndexColumnConstraint) -> str:
kind = self.sql(expression, "kind")
kind = f"{kind} INDEX" if kind else "INDEX"
this = self.sql(expression, "this")
this = f" {this}" if this else ""
index_type = self.sql(expression, "index_type")
index_type = f" USING {index_type}" if index_type else ""
expressions = self.expressions(expression, flat=True)
expressions = f" ({expressions})" if expressions else ""
options = self.expressions(expression, key="options", sep=" ")
options = f" {options}" if options else ""
return f"{kind}{this}{index_type}{expressions}{options}"
def nvl2_sql(self, expression: exp.Nvl2) -> str:
if self.NVL2_SUPPORTED:
return self.function_fallback_sql(expression)
case = exp.Case().when(
expression.this.is_(exp.null()).not_(copy=False),
expression.args["true"],
copy=False,
)
else_cond = expression.args.get("false")
if else_cond:
case.else_(else_cond, copy=False)
return self.sql(case)
def comprehension_sql(self, expression: exp.Comprehension) -> str:
this = self.sql(expression, "this")
expr = self.sql(expression, "expression")
iterator = self.sql(expression, "iterator")
condition = self.sql(expression, "condition")
condition = f" IF {condition}" if condition else ""
return f"{this} FOR {expr} IN {iterator}{condition}"
def columnprefix_sql(self, expression: exp.ColumnPrefix) -> str:
return f"{self.sql(expression, 'this')}({self.sql(expression, 'expression')})"
def opclass_sql(self, expression: exp.Opclass) -> str:
return f"{self.sql(expression, 'this')} {self.sql(expression, 'expression')}"
def predict_sql(self, expression: exp.Predict) -> str:
model = self.sql(expression, "this")
model = f"MODEL {model}"
table = self.sql(expression, "expression")
table = f"TABLE {table}" if not isinstance(expression.expression, exp.Subquery) else table
parameters = self.sql(expression, "params_struct")
return self.func("PREDICT", model, table, parameters or None)
def forin_sql(self, expression: exp.ForIn) -> str:
this = self.sql(expression, "this")
expression_sql = self.sql(expression, "expression")
return f"FOR {this} DO {expression_sql}"
def refresh_sql(self, expression: exp.Refresh) -> str:
this = self.sql(expression, "this")
table = "" if isinstance(expression.this, exp.Literal) else "TABLE "
return f"REFRESH {table}{this}"
def operator_sql(self, expression: exp.Operator) -> str:
return self.binary(expression, f"OPERATOR({self.sql(expression, 'operator')})")
def toarray_sql(self, expression: exp.ToArray) -> str:
arg = expression.this
if not arg.type:
from sqlglot.optimizer.annotate_types import annotate_types
arg = annotate_types(arg)
if arg.is_type(exp.DataType.Type.ARRAY):
return self.sql(arg)
cond_for_null = arg.is_(exp.null())
return self.sql(exp.func("IF", cond_for_null, exp.null(), exp.array(arg, copy=False)))
def tsordstotime_sql(self, expression: exp.TsOrDsToTime) -> str:
this = expression.this
if isinstance(this, exp.TsOrDsToTime) or this.is_type(exp.DataType.Type.TIME):
return self.sql(this)
return self.sql(exp.cast(this, exp.DataType.Type.TIME))
def tsordstotimestamp_sql(self, expression: exp.TsOrDsToTimestamp) -> str:
this = expression.this
if isinstance(this, exp.TsOrDsToTimestamp) or this.is_type(exp.DataType.Type.TIMESTAMP):
return self.sql(this)
return self.sql(exp.cast(this, exp.DataType.Type.TIMESTAMP))
def tsordstodate_sql(self, expression: exp.TsOrDsToDate) -> str:
this = expression.this
time_format = self.format_time(expression)
if time_format and time_format not in (self.dialect.TIME_FORMAT, self.dialect.DATE_FORMAT):
return self.sql(
exp.cast(
exp.StrToTime(this=this, format=expression.args["format"]),
exp.DataType.Type.DATE,
)
)
if isinstance(this, exp.TsOrDsToDate) or this.is_type(exp.DataType.Type.DATE):
return self.sql(this)
return self.sql(exp.cast(this, exp.DataType.Type.DATE))
def unixdate_sql(self, expression: exp.UnixDate) -> str:
return self.sql(
exp.func(
"DATEDIFF",
expression.this,
exp.cast(exp.Literal.string("1970-01-01"), exp.DataType.Type.DATE),
"day",
)
)
def lastday_sql(self, expression: exp.LastDay) -> str:
if self.LAST_DAY_SUPPORTS_DATE_PART:
return self.function_fallback_sql(expression)
unit = expression.text("unit")
if unit and unit != "MONTH":
self.unsupported("Date parts are not supported in LAST_DAY.")
return self.func("LAST_DAY", expression.this)
def dateadd_sql(self, expression: exp.DateAdd) -> str:
from sqlglot.dialects.dialect import unit_to_str
return self.func(
"DATE_ADD", expression.this, expression.expression, unit_to_str(expression)
)
def arrayany_sql(self, expression: exp.ArrayAny) -> str:
if self.CAN_IMPLEMENT_ARRAY_ANY:
filtered = exp.ArrayFilter(this=expression.this, expression=expression.expression)
filtered_not_empty = exp.ArraySize(this=filtered).neq(0)
original_is_empty = exp.ArraySize(this=expression.this).eq(0)
return self.sql(exp.paren(original_is_empty.or_(filtered_not_empty)))
from sqlglot.dialects import Dialect
# SQLGlot's executor supports ARRAY_ANY, so we don't wanna warn for the SQLGlot dialect
if self.dialect.__class__ != Dialect:
self.unsupported("ARRAY_ANY is unsupported")
return self.function_fallback_sql(expression)
def generateseries_sql(self, expression: exp.GenerateSeries) -> str:
expression.set("is_end_exclusive", None)
return self.function_fallback_sql(expression)
def struct_sql(self, expression: exp.Struct) -> str:
expression.set(
"expressions",
[
exp.alias_(e.expression, e.name if e.this.is_string else e.this)
if isinstance(e, exp.PropertyEQ)
else e
for e in expression.expressions
],
)
return self.function_fallback_sql(expression)
def partitionrange_sql(self, expression: exp.PartitionRange) -> str:
low = self.sql(expression, "this")
high = self.sql(expression, "expression")
return f"{low} TO {high}"
def truncatetable_sql(self, expression: exp.TruncateTable) -> str:
target = "DATABASE" if expression.args.get("is_database") else "TABLE"
tables = f" {self.expressions(expression)}"
exists = " IF EXISTS" if expression.args.get("exists") else ""
on_cluster = self.sql(expression, "cluster")
on_cluster = f" {on_cluster}" if on_cluster else ""
identity = self.sql(expression, "identity")
identity = f" {identity} IDENTITY" if identity else ""
option = self.sql(expression, "option")
option = f" {option}" if option else ""
partition = self.sql(expression, "partition")
partition = f" {partition}" if partition else ""
return f"TRUNCATE {target}{exists}{tables}{on_cluster}{identity}{option}{partition}"
# This transpiles T-SQL's CONVERT function
# https://learn.microsoft.com/en-us/sql/t-sql/functions/cast-and-convert-transact-sql?view=sql-server-ver16
def convert_sql(self, expression: exp.Convert) -> str:
to = expression.this
value = expression.expression
style = expression.args.get("style")
safe = expression.args.get("safe")
strict = expression.args.get("strict")
if not to or not value:
return ""
# Retrieve length of datatype and override to default if not specified
if not seq_get(to.expressions, 0) and to.this in self.PARAMETERIZABLE_TEXT_TYPES:
to = exp.DataType.build(to.this, expressions=[exp.Literal.number(30)], nested=False)
transformed: t.Optional[exp.Expression] = None
cast = exp.Cast if strict else exp.TryCast
# Check whether a conversion with format (T-SQL calls this 'style') is applicable
if isinstance(style, exp.Literal) and style.is_int:
from sqlglot.dialects.tsql import TSQL
style_value = style.name
converted_style = TSQL.CONVERT_FORMAT_MAPPING.get(style_value)
if not converted_style:
self.unsupported(f"Unsupported T-SQL 'style' value: {style_value}")
fmt = exp.Literal.string(converted_style)
if to.this == exp.DataType.Type.DATE:
transformed = exp.StrToDate(this=value, format=fmt)
elif to.this == exp.DataType.Type.DATETIME:
transformed = exp.StrToTime(this=value, format=fmt)
elif to.this in self.PARAMETERIZABLE_TEXT_TYPES:
transformed = cast(this=exp.TimeToStr(this=value, format=fmt), to=to, safe=safe)
elif to.this == exp.DataType.Type.TEXT:
transformed = exp.TimeToStr(this=value, format=fmt)
if not transformed:
transformed = cast(this=value, to=to, safe=safe)
return self.sql(transformed)
def _jsonpathkey_sql(self, expression: exp.JSONPathKey) -> str:
this = expression.this
if isinstance(this, exp.JSONPathWildcard):
this = self.json_path_part(this)
return f".{this}" if this else ""
if exp.SAFE_IDENTIFIER_RE.match(this):
return f".{this}"
this = self.json_path_part(this)
return f"[{this}]" if self.JSON_PATH_BRACKETED_KEY_SUPPORTED else f".{this}"
def _jsonpathsubscript_sql(self, expression: exp.JSONPathSubscript) -> str:
this = self.json_path_part(expression.this)
return f"[{this}]" if this else ""
def _simplify_unless_literal(self, expression: E) -> E:
if not isinstance(expression, exp.Literal):
from sqlglot.optimizer.simplify import simplify
expression = simplify(expression, dialect=self.dialect)
return expression
def _embed_ignore_nulls(self, expression: exp.IgnoreNulls | exp.RespectNulls, text: str) -> str:
if self.IGNORE_NULLS_IN_FUNC and not expression.meta.get("inline"):
# The first modifier here will be the one closest to the AggFunc's arg
mods = sorted(
expression.find_all(exp.HavingMax, exp.Order, exp.Limit),
key=lambda x: 0
if isinstance(x, exp.HavingMax)
else (1 if isinstance(x, exp.Order) else 2),
)
if mods:
mod = mods[0]
this = expression.__class__(this=mod.this.copy())
this.meta["inline"] = True
mod.this.replace(this)
return self.sql(expression.this)
agg_func = expression.find(exp.AggFunc)
if agg_func:
return self.sql(agg_func)[:-1] + f" {text})"
return f"{self.sql(expression, 'this')} {text}"
def _replace_line_breaks(self, string: str) -> str:
"""We don't want to extra indent line breaks so we temporarily replace them with sentinels."""
if self.pretty:
return string.replace("\n", self.SENTINEL_LINE_BREAK)
return string
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