File: //snap/google-cloud-cli/394/platform/gsutil/third_party/pyparsing/examples/select_parser.py
# select_parser.py
# Copyright 2010,2019 Paul McGuire
#
# a simple SELECT statement parser, taken from SQLite's SELECT statement
# definition at https://www.sqlite.org/lang_select.html
#
# fmt: off
from pyparsing import (
pyparsing_common, ParserElement, OpAssoc,
CaselessKeyword, Combine, Forward, Group, Literal, MatchFirst, Optional, QuotedString, Regex, Suppress, Word,
alphanums, alphas, DelimitedList, infix_notation, nums, one_of, rest_of_line, autoname_elements
)
# fmt: on
ParserElement.enable_packrat()
LPAR, RPAR, COMMA = map(Suppress, "(),")
DOT, STAR = map(Literal, ".*")
select_stmt = Forward().set_name("select statement")
# keywords
keywords = {
k: CaselessKeyword(k)
for k in """\
UNION ALL AND INTERSECT EXCEPT COLLATE ASC DESC ON USING NATURAL INNER CROSS LEFT OUTER JOIN AS INDEXED NOT
SELECT DISTINCT FROM WHERE GROUP BY HAVING ORDER LIMIT OFFSET OR CAST ISNULL NOTNULL NULL IS BETWEEN ELSE END
CASE WHEN THEN EXISTS IN LIKE GLOB REGEXP MATCH ESCAPE CURRENT_TIME CURRENT_DATE CURRENT_TIMESTAMP TRUE FALSE
""".split()
}
vars().update(keywords)
any_keyword = MatchFirst(keywords.values()).set_name("any_keyword")
quoted_identifier = QuotedString('"', esc_quote='""')
identifier = (~any_keyword + Word(alphas, alphanums + "_")).set_parse_action(
pyparsing_common.downcase_tokens
).set_name("identifier") | quoted_identifier
collation_name = identifier.copy()
column_name = identifier.copy()
column_alias = identifier.copy()
table_name = identifier.copy()
table_alias = identifier.copy()
index_name = identifier.copy()
function_name = identifier.copy()
parameter_name = identifier.copy()
database_name = identifier.copy()
comment = "--" + rest_of_line
# expression
expr = Forward().set_name("expression")
numeric_literal = pyparsing_common.number
string_literal = QuotedString("'", esc_quote="''")
blob_literal = Regex(r"[xX]'[0-9A-Fa-f]+'")
literal_value = (
numeric_literal
| string_literal
| blob_literal
| TRUE
| FALSE
| NULL
| CURRENT_TIME
| CURRENT_DATE
| CURRENT_TIMESTAMP
)
bind_parameter = Word("?", nums) | Combine(one_of(": @ $") + parameter_name)
type_name = one_of("TEXT REAL INTEGER BLOB NULL")
def concat_qualified_column(t):
t[0][:] = ["".join(t[0])]
expr_term = (
CAST + LPAR + expr + AS + type_name + RPAR
| EXISTS + LPAR + select_stmt + RPAR
| function_name.set_name("function_name")
+ LPAR
+ Optional(STAR | DelimitedList(expr))
+ RPAR
| literal_value
| bind_parameter
| Group(
identifier("col_db") + DOT + identifier("col_tab") + DOT + identifier("col"),
).add_parse_action(concat_qualified_column).set_name("db_table_column name")
| Group(identifier("col_tab") + DOT + identifier("col")).add_parse_action(concat_qualified_column).set_name("table_column name")
| Group(identifier("col")).set_name("column name")
)
NOT_NULL = Group(NOT + NULL)
NOT_BETWEEN = Group(NOT + BETWEEN)
NOT_IN = Group(NOT + IN)
NOT_LIKE = Group(NOT + LIKE)
NOT_MATCH = Group(NOT + MATCH)
NOT_GLOB = Group(NOT + GLOB)
NOT_REGEXP = Group(NOT + REGEXP)
UNARY, BINARY, TERNARY = 1, 2, 3
expr <<= infix_notation(
expr_term.set_name("expr_term"),
[
(one_of("- + ~") | NOT, UNARY, OpAssoc.RIGHT),
((ISNULL | NOTNULL | NOT_NULL).set_name("null_comparison_operator"), UNARY, OpAssoc.LEFT),
("||", BINARY, OpAssoc.LEFT),
(one_of("* / %"), BINARY, OpAssoc.LEFT),
(one_of("+ -"), BINARY, OpAssoc.LEFT),
(one_of("<< >> & |"), BINARY, OpAssoc.LEFT),
(one_of("< <= > >="), BINARY, OpAssoc.LEFT),
(
(one_of("= == != <>")
| IS
| IN
| LIKE
| GLOB
| MATCH
| REGEXP
| NOT_IN
| NOT_LIKE
| NOT_GLOB
| NOT_MATCH
| NOT_REGEXP).set_name("comparison_operator"),
BINARY,
OpAssoc.LEFT,
),
((BETWEEN | NOT_BETWEEN, AND), TERNARY, OpAssoc.LEFT),
(
(IN | NOT_IN) + LPAR + Group(select_stmt | DelimitedList(expr)) + RPAR,
UNARY,
OpAssoc.LEFT,
),
(AND, BINARY, OpAssoc.LEFT),
(OR, BINARY, OpAssoc.LEFT),
],
)
compound_operator = UNION + Optional(ALL) | INTERSECT | EXCEPT
ordering_term = Group(
expr("order_key")
+ Optional(COLLATE + collation_name("collate"))
+ Optional(ASC | DESC)("direction")
)
join_constraint = Group(
Optional(ON + expr | USING + LPAR + Group(DelimitedList(column_name)) + RPAR)
)
join_op = COMMA | Group(
Optional(NATURAL) + Optional(INNER | CROSS | LEFT + OUTER | LEFT | OUTER) + JOIN
)
join_source = Forward()
single_source = (
Group(database_name("database") + DOT + table_name("table*") | table_name("table*"))
+ Optional(Optional(AS) + table_alias("table_alias*"))
+ Optional(INDEXED + BY + index_name("name") | NOT + INDEXED)("index")
| (LPAR + select_stmt + RPAR + Optional(Optional(AS) + table_alias))
| (LPAR + join_source + RPAR)
)
join_source <<= (
Group(single_source + (join_op + single_source + join_constraint)[1, ...])
| single_source
)
# result_column = "*" | table_name + "." + "*" | Group(expr + Optional(Optional(AS) + column_alias))
result_column = Group(
STAR("col")
| table_name("col_table") + DOT + STAR("col")
| expr("col") + Optional(Optional(AS) + column_alias("alias"))
)
select_core = Group(
SELECT
+ Optional(DISTINCT | ALL)
+ Group(DelimitedList(result_column))("columns")
+ Optional(FROM + join_source("from*"))
+ Optional(WHERE + expr("where_expr"))
+ Optional(
GROUP
+ BY
+ Group(DelimitedList(ordering_term))("group_by_terms")
+ Optional(HAVING + expr("having_expr"))
)
)
select_stmt <<= (
Group(select_core + (compound_operator + select_core)[...])("select_terms")
+ Optional(ORDER + BY + Group(DelimitedList(ordering_term))("order_by_terms"))
+ Optional(
LIMIT
+ (Group(expr + OFFSET + expr) | Group(expr + COMMA + expr) | expr)("limit")
)
)
select_stmt.ignore(comment)
def main():
tests = """\
select * from xyzzy where z > 100
select * from xyzzy where z > 100 order by zz
select * from xyzzy
select z.* from xyzzy
select a, b from test_table where 1=1 and b='yes'
select a, b from test_table where 1=1 and b in (select bb from foo)
select z.a, b from test_table where 1=1 and b in (select bb from foo)
select z.a, b from test_table where 1=1 and b in (select bb from foo) order by b,c desc,d
select z.a, b from test_table left join test2_table where 1=1 and b in (select bb from foo)
select a, db.table.b as BBB from db.table where 1=1 and BBB='yes'
select a, db.table.b as BBB from test_table,db.table where 1=1 and BBB='yes'
select a, db.table.b as BBB from test_table,db.table where 1=1 and BBB='yes' limit 50
select a, b from test_table where (1=1 or 2=3) and b='yes' group by zx having b=2 order by 1
SELECT emp.ename as e FROM scott.employee as emp
SELECT ename as e, fname as f FROM scott.employee as emp
SELECT emp.eid, fname,lname FROM scott.employee as emp
SELECT ename, lname, emp.eid FROM scott.employee as emp
select emp.salary * (1.0 + emp.bonus) as salary_plus_bonus from scott.employee as emp
SELECT * FROM abcd WHERE (ST_Overlaps("GEOM", 'POINT(0 0)'))
SELECT * FROM abcd WHERE CAST(foo AS REAL) > -999.123
SELECT * FROM abcd WHERE bar BETWEEN +180 AND +10E9
SELECT * FROM abcd WHERE CAST(foo AS REAL) < (4 + -9.876E-4)
SELECT SomeFunc(99)
SELECT * FROM abcd WHERE ST_X(ST_Centroid(geom)) BETWEEN (-180*2) AND (180*2)
SELECT * FROM abcd WHERE a
SELECT * FROM abcd WHERE snowy_things REGEXP '[⛄️☃️☃🎿🏂🌨❄️⛷🏔🗻❄︎❆❅]'
SELECT * FROM abcd WHERE a."b" IN 4
SELECT * FROM abcd WHERE a."b" In ('4')
SELECT * FROM "a".b AS "E" WHERE "E"."C" >= CURRENT_Time
SELECT * FROM abcd WHERE "dave" != "Dave" -- names & things ☃️
SELECT * FROM a WHERE a.dave is not null
SELECT * FROM abcd WHERE pete == FALSE or peter is true
SELECT * FROM abcd WHERE a >= 10 * (2 + 3)
SELECT * FROM abcd WHERE frank = 'is ''scary'''
SELECT * FROM abcd WHERE "identifier with ""quotes"" and a trailing space " IS NOT FALSE
SELECT * FROM abcd WHERE blobby == x'C0FFEE' -- hex
SELECT * FROM abcd WHERE ff NOT IN (1,2,4,5)
SELECT * FROM abcd WHERE ff not between 3 and 9
SELECT * FROM abcd WHERE db_name.tab_name.ff not like 'bob%'
"""
success, _ = select_stmt.run_tests(tests)
print("\n{}".format("OK" if success else "FAIL"))
return 0 if success else 1
if __name__ == "__main__":
main()