-- -- STRINGS -- Test various data entry syntaxes. -- -- SQL string continuation syntax -- E021-03 character string literals SELECT 'first line' ' - next line' ' - third line' AS "Three lines to one"; -- illegal string continuation syntax SELECT 'first line' ' - next line' /* this comment is not allowed here */ ' - third line' AS "Illegal comment within continuation"; -- Unicode escapes SET standard_conforming_strings TO on; SELECT U&'d\0061t\+000061' AS U&"d\0061t\+000061"; SELECT U&'d!0061t\+000061' UESCAPE '!' AS U&"d*0061t\+000061" UESCAPE '*'; SELECT U&'a\\b' AS "a\b"; SELECT U&' \' UESCAPE '!' AS "tricky"; SELECT 'tricky' AS U&"\" UESCAPE '!'; SELECT U&'wrong: \061'; SELECT U&'wrong: \+0061'; SELECT U&'wrong: +0061' UESCAPE +; SELECT U&'wrong: +0061' UESCAPE '+'; SELECT U&'wrong: \db99'; SELECT U&'wrong: \db99xy'; SELECT U&'wrong: \db99\\'; SELECT U&'wrong: \db99\0061'; SELECT U&'wrong: \+00db99\+000061'; SELECT U&'wrong: \+2FFFFF'; -- while we're here, check the same cases in E-style literals SELECT E'd\u0061t\U00000061' AS "data"; SELECT E'a\\b' AS "a\b"; SELECT E'wrong: \u061'; SELECT E'wrong: \U0061'; SELECT E'wrong: \udb99'; SELECT E'wrong: \udb99xy'; SELECT E'wrong: \udb99\\'; SELECT E'wrong: \udb99\u0061'; SELECT E'wrong: \U0000db99\U00000061'; SELECT E'wrong: \U002FFFFF'; SET standard_conforming_strings TO off; SELECT U&'d\0061t\+000061' AS U&"d\0061t\+000061"; SELECT U&'d!0061t\+000061' UESCAPE '!' AS U&"d*0061t\+000061" UESCAPE '*'; SELECT U&' \' UESCAPE '!' AS "tricky"; SELECT 'tricky' AS U&"\" UESCAPE '!'; SELECT U&'wrong: \061'; SELECT U&'wrong: \+0061'; SELECT U&'wrong: +0061' UESCAPE '+'; RESET standard_conforming_strings; -- bytea SET bytea_output TO hex; SELECT E'\\xDeAdBeEf'::bytea; SELECT E'\\x De Ad Be Ef '::bytea; SELECT E'\\xDeAdBeE'::bytea; SELECT E'\\xDeAdBeEx'::bytea; SELECT E'\\xDe00BeEf'::bytea; SELECT E'DeAdBeEf'::bytea; SELECT E'De\\000dBeEf'::bytea; SELECT E'De\123dBeEf'::bytea; SELECT E'De\\123dBeEf'::bytea; SELECT E'De\\678dBeEf'::bytea; SET bytea_output TO escape; SELECT E'\\xDeAdBeEf'::bytea; SELECT E'\\x De Ad Be Ef '::bytea; SELECT E'\\xDe00BeEf'::bytea; SELECT E'DeAdBeEf'::bytea; SELECT E'De\\000dBeEf'::bytea; SELECT E'De\\123dBeEf'::bytea; -- Test non-error-throwing API too SELECT pg_input_is_valid(E'\\xDeAdBeE', 'bytea'); SELECT * FROM pg_input_error_info(E'\\xDeAdBeE', 'bytea'); SELECT * FROM pg_input_error_info(E'\\xDeAdBeEx', 'bytea'); SELECT * FROM pg_input_error_info(E'foo\\99bar', 'bytea'); -- -- test conversions between various string types -- E021-10 implicit casting among the character data types -- SELECT CAST(f1 AS text) AS "text(char)" FROM CHAR_TBL; SELECT CAST(f1 AS text) AS "text(varchar)" FROM VARCHAR_TBL; SELECT CAST(name 'namefield' AS text) AS "text(name)"; -- since this is an explicit cast, it should truncate w/o error: SELECT CAST(f1 AS char(10)) AS "char(text)" FROM TEXT_TBL; -- note: implicit-cast case is tested in char.sql SELECT CAST(f1 AS char(20)) AS "char(text)" FROM TEXT_TBL; SELECT CAST(f1 AS char(10)) AS "char(varchar)" FROM VARCHAR_TBL; SELECT CAST(name 'namefield' AS char(10)) AS "char(name)"; SELECT CAST(f1 AS varchar) AS "varchar(text)" FROM TEXT_TBL; SELECT CAST(f1 AS varchar) AS "varchar(char)" FROM CHAR_TBL; SELECT CAST(name 'namefield' AS varchar) AS "varchar(name)"; -- -- test SQL string functions -- E### and T### are feature reference numbers from SQL99 -- -- E021-09 trim function SELECT TRIM(BOTH FROM ' bunch o blanks ') = 'bunch o blanks' AS "bunch o blanks"; SELECT TRIM(LEADING FROM ' bunch o blanks ') = 'bunch o blanks ' AS "bunch o blanks "; SELECT TRIM(TRAILING FROM ' bunch o blanks ') = ' bunch o blanks' AS " bunch o blanks"; SELECT TRIM(BOTH 'x' FROM 'xxxxxsome Xsxxxxx') = 'some Xs' AS "some Xs"; -- E021-06 substring expression SELECT SUBSTRING('1234567890' FROM 3) = '34567890' AS "34567890"; SELECT SUBSTRING('1234567890' FROM 4 FOR 3) = '456' AS "456"; -- test overflow cases SELECT SUBSTRING('string' FROM 2 FOR 2147483646) AS "tring"; SELECT SUBSTRING('string' FROM -10 FOR 2147483646) AS "string"; SELECT SUBSTRING('string' FROM -10 FOR -2147483646) AS "error"; -- T581 regular expression substring (with SQL's bizarre regexp syntax) SELECT SUBSTRING('abcdefg' SIMILAR 'a#"(b_d)#"%' ESCAPE '#') AS "bcd"; -- obsolete SQL99 syntax SELECT SUBSTRING('abcdefg' FROM 'a#"(b_d)#"%' FOR '#') AS "bcd"; -- No match should return NULL SELECT SUBSTRING('abcdefg' SIMILAR '#"(b_d)#"%' ESCAPE '#') IS NULL AS "True"; -- Null inputs should return NULL SELECT SUBSTRING('abcdefg' SIMILAR '%' ESCAPE NULL) IS NULL AS "True"; SELECT SUBSTRING(NULL SIMILAR '%' ESCAPE '#') IS NULL AS "True"; SELECT SUBSTRING('abcdefg' SIMILAR NULL ESCAPE '#') IS NULL AS "True"; -- The first and last parts should act non-greedy SELECT SUBSTRING('abcdefg' SIMILAR 'a#"%#"g' ESCAPE '#') AS "bcdef"; SELECT SUBSTRING('abcdefg' SIMILAR 'a*#"%#"g*' ESCAPE '#') AS "abcdefg"; -- Vertical bar in any part affects only that part SELECT SUBSTRING('abcdefg' SIMILAR 'a|b#"%#"g' ESCAPE '#') AS "bcdef"; SELECT SUBSTRING('abcdefg' SIMILAR 'a#"%#"x|g' ESCAPE '#') AS "bcdef"; SELECT SUBSTRING('abcdefg' SIMILAR 'a#"%|ab#"g' ESCAPE '#') AS "bcdef"; -- Can't have more than two part separators SELECT SUBSTRING('abcdefg' SIMILAR 'a*#"%#"g*#"x' ESCAPE '#') AS "error"; -- Postgres extension: with 0 or 1 separator, assume parts 1 and 3 are empty SELECT SUBSTRING('abcdefg' SIMILAR 'a#"%g' ESCAPE '#') AS "bcdefg"; SELECT SUBSTRING('abcdefg' SIMILAR 'a%g' ESCAPE '#') AS "abcdefg"; -- substring() with just two arguments is not allowed by SQL spec; -- we accept it, but we interpret the pattern as a POSIX regexp not SQL SELECT SUBSTRING('abcdefg' FROM 'c.e') AS "cde"; -- With a parenthesized subexpression, return only what matches the subexpr SELECT SUBSTRING('abcdefg' FROM 'b(.*)f') AS "cde"; -- Check case where we have a match, but not a subexpression match SELECT SUBSTRING('foo' FROM 'foo(bar)?') IS NULL AS t; -- Check behavior of SIMILAR TO, which uses largely the same regexp variant SELECT 'abcdefg' SIMILAR TO '_bcd%' AS true; SELECT 'abcdefg' SIMILAR TO 'bcd%' AS false; SELECT 'abcdefg' SIMILAR TO '_bcd#%' ESCAPE '#' AS false; SELECT 'abcd%' SIMILAR TO '_bcd#%' ESCAPE '#' AS true; -- Postgres uses '\' as the default escape character, which is not per spec SELECT 'abcdefg' SIMILAR TO '_bcd\%' AS false; -- and an empty string to mean "no escape", which is also not per spec SELECT 'abcd\efg' SIMILAR TO '_bcd\%' ESCAPE '' AS true; -- these behaviors are per spec, though: SELECT 'abcdefg' SIMILAR TO '_bcd%' ESCAPE NULL AS null; SELECT 'abcdefg' SIMILAR TO '_bcd#%' ESCAPE '##' AS error; -- Test backslash escapes in regexp_replace's replacement string SELECT regexp_replace('1112223333', E'(\\d{3})(\\d{3})(\\d{4})', E'(\\1) \\2-\\3'); SELECT regexp_replace('foobarrbazz', E'(.)\\1', E'X\\&Y', 'g'); SELECT regexp_replace('foobarrbazz', E'(.)\\1', E'X\\\\Y', 'g'); -- not an error, though perhaps it should be: SELECT regexp_replace('foobarrbazz', E'(.)\\1', E'X\\Y\\1Z\\'); SELECT regexp_replace('AAA BBB CCC ', E'\\s+', ' ', 'g'); SELECT regexp_replace('AAA', '^|$', 'Z', 'g'); SELECT regexp_replace('AAA aaa', 'A+', 'Z', 'gi'); -- invalid regexp option SELECT regexp_replace('AAA aaa', 'A+', 'Z', 'z'); -- extended regexp_replace tests SELECT regexp_replace('A PostgreSQL function', 'A|e|i|o|u', 'X', 1); SELECT regexp_replace('A PostgreSQL function', 'A|e|i|o|u', 'X', 1, 2); SELECT regexp_replace('A PostgreSQL function', 'a|e|i|o|u', 'X', 1, 0, 'i'); SELECT regexp_replace('A PostgreSQL function', 'a|e|i|o|u', 'X', 1, 1, 'i'); SELECT regexp_replace('A PostgreSQL function', 'a|e|i|o|u', 'X', 1, 2, 'i'); SELECT regexp_replace('A PostgreSQL function', 'a|e|i|o|u', 'X', 1, 3, 'i'); SELECT regexp_replace('A PostgreSQL function', 'a|e|i|o|u', 'X', 1, 9, 'i'); SELECT regexp_replace('A PostgreSQL function', 'A|e|i|o|u', 'X', 7, 0, 'i'); -- 'g' flag should be ignored when N is specified SELECT regexp_replace('A PostgreSQL function', 'a|e|i|o|u', 'X', 1, 1, 'g'); -- errors SELECT regexp_replace('A PostgreSQL function', 'a|e|i|o|u', 'X', -1, 0, 'i'); SELECT regexp_replace('A PostgreSQL function', 'a|e|i|o|u', 'X', 1, -1, 'i'); -- erroneous invocation of non-extended form SELECT regexp_replace('A PostgreSQL function', 'a|e|i|o|u', 'X', '1'); -- regexp_count tests SELECT regexp_count('123123123123123', '(12)3'); SELECT regexp_count('123123123123', '123', 1); SELECT regexp_count('123123123123', '123', 3); SELECT regexp_count('123123123123', '123', 33); SELECT regexp_count('ABCABCABCABC', 'Abc', 1, ''); SELECT regexp_count('ABCABCABCABC', 'Abc', 1, 'i'); -- errors SELECT regexp_count('123123123123', '123', 0); SELECT regexp_count('123123123123', '123', -3); -- regexp_like tests SELECT regexp_like('Steven', '^Ste(v|ph)en$'); SELECT regexp_like('a'||CHR(10)||'d', 'a.d', 'n'); SELECT regexp_like('a'||CHR(10)||'d', 'a.d', 's'); SELECT regexp_like('abc', ' a . c ', 'x'); SELECT regexp_like('abc', 'a.c', 'g'); -- error -- regexp_instr tests SELECT regexp_instr('abcdefghi', 'd.f'); SELECT regexp_instr('abcdefghi', 'd.q'); SELECT regexp_instr('abcabcabc', 'a.c'); SELECT regexp_instr('abcabcabc', 'a.c', 2); SELECT regexp_instr('abcabcabc', 'a.c', 1, 3); SELECT regexp_instr('abcabcabc', 'a.c', 1, 4); SELECT regexp_instr('abcabcabc', 'A.C', 1, 2, 0, 'i'); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 0, 'i', 0); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 0, 'i', 1); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 0, 'i', 2); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 0, 'i', 3); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 0, 'i', 4); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 0, 'i', 5); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 1, 'i', 0); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 1, 'i', 1); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 1, 'i', 2); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 1, 'i', 3); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 1, 'i', 4); SELECT regexp_instr('1234567890', '(123)(4(56)(78))', 1, 1, 1, 'i', 5); -- Check case where we have a match, but not a subexpression match SELECT regexp_instr('foo', 'foo(bar)?', 1, 1, 0, '', 1); -- errors SELECT regexp_instr('abcabcabc', 'a.c', 0, 1); SELECT regexp_instr('abcabcabc', 'a.c', 1, 0); SELECT regexp_instr('abcabcabc', 'a.c', 1, 1, -1); SELECT regexp_instr('abcabcabc', 'a.c', 1, 1, 2); SELECT regexp_instr('abcabcabc', 'a.c', 1, 1, 0, 'g'); SELECT regexp_instr('abcabcabc', 'a.c', 1, 1, 0, '', -1); -- regexp_substr tests SELECT regexp_substr('abcdefghi', 'd.f'); SELECT regexp_substr('abcdefghi', 'd.q') IS NULL AS t; SELECT regexp_substr('abcabcabc', 'a.c'); SELECT regexp_substr('abcabcabc', 'a.c', 2); SELECT regexp_substr('abcabcabc', 'a.c', 1, 3); SELECT regexp_substr('abcabcabc', 'a.c', 1, 4) IS NULL AS t; SELECT regexp_substr('abcabcabc', 'A.C', 1, 2, 'i'); SELECT regexp_substr('1234567890', '(123)(4(56)(78))', 1, 1, 'i', 0); SELECT regexp_substr('1234567890', '(123)(4(56)(78))', 1, 1, 'i', 1); SELECT regexp_substr('1234567890', '(123)(4(56)(78))', 1, 1, 'i', 2); SELECT regexp_substr('1234567890', '(123)(4(56)(78))', 1, 1, 'i', 3); SELECT regexp_substr('1234567890', '(123)(4(56)(78))', 1, 1, 'i', 4); SELECT regexp_substr('1234567890', '(123)(4(56)(78))', 1, 1, 'i', 5) IS NULL AS t; -- Check case where we have a match, but not a subexpression match SELECT regexp_substr('foo', 'foo(bar)?', 1, 1, '', 1) IS NULL AS t; -- errors SELECT regexp_substr('abcabcabc', 'a.c', 0, 1); SELECT regexp_substr('abcabcabc', 'a.c', 1, 0); SELECT regexp_substr('abcabcabc', 'a.c', 1, 1, 'g'); SELECT regexp_substr('abcabcabc', 'a.c', 1, 1, '', -1); -- set so we can tell NULL from empty string \pset null '\\N' -- return all matches from regexp SELECT regexp_matches('foobarbequebaz', $re$(bar)(beque)$re$); -- test case insensitive SELECT regexp_matches('foObARbEqUEbAz', $re$(bar)(beque)$re$, 'i'); -- global option - more than one match SELECT regexp_matches('foobarbequebazilbarfbonk', $re$(b[^b]+)(b[^b]+)$re$, 'g'); -- empty capture group (matched empty string) SELECT regexp_matches('foobarbequebaz', $re$(bar)(.*)(beque)$re$); -- no match SELECT regexp_matches('foobarbequebaz', $re$(bar)(.+)(beque)$re$); -- optional capture group did not match, null entry in array SELECT regexp_matches('foobarbequebaz', $re$(bar)(.+)?(beque)$re$); -- no capture groups SELECT regexp_matches('foobarbequebaz', $re$barbeque$re$); -- start/end-of-line matches are of zero length SELECT regexp_matches('foo' || chr(10) || 'bar' || chr(10) || 'bequq' || chr(10) || 'baz', '^', 'mg'); SELECT regexp_matches('foo' || chr(10) || 'bar' || chr(10) || 'bequq' || chr(10) || 'baz', '$', 'mg'); SELECT regexp_matches('1' || chr(10) || '2' || chr(10) || '3' || chr(10) || '4' || chr(10), '^.?', 'mg'); SELECT regexp_matches(chr(10) || '1' || chr(10) || '2' || chr(10) || '3' || chr(10) || '4' || chr(10), '.?$', 'mg'); SELECT regexp_matches(chr(10) || '1' || chr(10) || '2' || chr(10) || '3' || chr(10) || '4', '.?$', 'mg'); -- give me errors SELECT regexp_matches('foobarbequebaz', $re$(bar)(beque)$re$, 'gz'); SELECT regexp_matches('foobarbequebaz', $re$(barbeque$re$); SELECT regexp_matches('foobarbequebaz', $re$(bar)(beque){2,1}$re$); -- split string on regexp SELECT foo, length(foo) FROM regexp_split_to_table('the quick brown fox jumps over the lazy dog', $re$\s+$re$) AS foo; SELECT regexp_split_to_array('the quick brown fox jumps over the lazy dog', $re$\s+$re$); SELECT foo, length(foo) FROM regexp_split_to_table('the quick brown fox jumps over the lazy dog', $re$\s*$re$) AS foo; SELECT regexp_split_to_array('the quick brown fox jumps over the lazy dog', $re$\s*$re$); SELECT foo, length(foo) FROM regexp_split_to_table('the quick brown fox jumps over the lazy dog', '') AS foo; SELECT regexp_split_to_array('the quick brown fox jumps over the lazy dog', ''); -- case insensitive SELECT foo, length(foo) FROM regexp_split_to_table('thE QUick bROWn FOx jUMPs ovEr The lazy dOG', 'e', 'i') AS foo; SELECT regexp_split_to_array('thE QUick bROWn FOx jUMPs ovEr The lazy dOG', 'e', 'i'); -- no match of pattern SELECT foo, length(foo) FROM regexp_split_to_table('the quick brown fox jumps over the lazy dog', 'nomatch') AS foo; SELECT regexp_split_to_array('the quick brown fox jumps over the lazy dog', 'nomatch'); -- some corner cases SELECT regexp_split_to_array('123456','1'); SELECT regexp_split_to_array('123456','6'); SELECT regexp_split_to_array('123456','.'); SELECT regexp_split_to_array('123456',''); SELECT regexp_split_to_array('123456','(?:)'); SELECT regexp_split_to_array('1',''); -- errors SELECT foo, length(foo) FROM regexp_split_to_table('thE QUick bROWn FOx jUMPs ovEr The lazy dOG', 'e', 'zippy') AS foo; SELECT regexp_split_to_array('thE QUick bROWn FOx jUMPs ovEr The lazy dOG', 'e', 'iz'); -- global option meaningless for regexp_split SELECT foo, length(foo) FROM regexp_split_to_table('thE QUick bROWn FOx jUMPs ovEr The lazy dOG', 'e', 'g') AS foo; SELECT regexp_split_to_array('thE QUick bROWn FOx jUMPs ovEr The lazy dOG', 'e', 'g'); -- change NULL-display back \pset null '' -- E021-11 position expression SELECT POSITION('4' IN '1234567890') = '4' AS "4"; SELECT POSITION('5' IN '1234567890') = '5' AS "5"; -- T312 character overlay function SELECT OVERLAY('abcdef' PLACING '45' FROM 4) AS "abc45f"; SELECT OVERLAY('yabadoo' PLACING 'daba' FROM 5) AS "yabadaba"; SELECT OVERLAY('yabadoo' PLACING 'daba' FROM 5 FOR 0) AS "yabadabadoo"; SELECT OVERLAY('babosa' PLACING 'ubb' FROM 2 FOR 4) AS "bubba"; -- -- test LIKE -- Be sure to form every test as a LIKE/NOT LIKE pair. -- -- simplest examples -- E061-04 like predicate SELECT 'hawkeye' LIKE 'h%' AS "true"; SELECT 'hawkeye' NOT LIKE 'h%' AS "false"; SELECT 'hawkeye' LIKE 'H%' AS "false"; SELECT 'hawkeye' NOT LIKE 'H%' AS "true"; SELECT 'hawkeye' LIKE 'indio%' AS "false"; SELECT 'hawkeye' NOT LIKE 'indio%' AS "true"; SELECT 'hawkeye' LIKE 'h%eye' AS "true"; SELECT 'hawkeye' NOT LIKE 'h%eye' AS "false"; SELECT 'indio' LIKE '_ndio' AS "true"; SELECT 'indio' NOT LIKE '_ndio' AS "false"; SELECT 'indio' LIKE 'in__o' AS "true"; SELECT 'indio' NOT LIKE 'in__o' AS "false"; SELECT 'indio' LIKE 'in_o' AS "false"; SELECT 'indio' NOT LIKE 'in_o' AS "true"; SELECT 'abc'::name LIKE '_b_' AS "true"; SELECT 'abc'::name NOT LIKE '_b_' AS "false"; SELECT 'abc'::bytea LIKE '_b_'::bytea AS "true"; SELECT 'abc'::bytea NOT LIKE '_b_'::bytea AS "false"; -- unused escape character SELECT 'hawkeye' LIKE 'h%' ESCAPE '#' AS "true"; SELECT 'hawkeye' NOT LIKE 'h%' ESCAPE '#' AS "false"; SELECT 'indio' LIKE 'ind_o' ESCAPE '$' AS "true"; SELECT 'indio' NOT LIKE 'ind_o' ESCAPE '$' AS "false"; -- escape character -- E061-05 like predicate with escape clause SELECT 'h%' LIKE 'h#%' ESCAPE '#' AS "true"; SELECT 'h%' NOT LIKE 'h#%' ESCAPE '#' AS "false"; SELECT 'h%wkeye' LIKE 'h#%' ESCAPE '#' AS "false"; SELECT 'h%wkeye' NOT LIKE 'h#%' ESCAPE '#' AS "true"; SELECT 'h%wkeye' LIKE 'h#%%' ESCAPE '#' AS "true"; SELECT 'h%wkeye' NOT LIKE 'h#%%' ESCAPE '#' AS "false"; SELECT 'h%awkeye' LIKE 'h#%a%k%e' ESCAPE '#' AS "true"; SELECT 'h%awkeye' NOT LIKE 'h#%a%k%e' ESCAPE '#' AS "false"; SELECT 'indio' LIKE '_ndio' ESCAPE '$' AS "true"; SELECT 'indio' NOT LIKE '_ndio' ESCAPE '$' AS "false"; SELECT 'i_dio' LIKE 'i$_d_o' ESCAPE '$' AS "true"; SELECT 'i_dio' NOT LIKE 'i$_d_o' ESCAPE '$' AS "false"; SELECT 'i_dio' LIKE 'i$_nd_o' ESCAPE '$' AS "false"; SELECT 'i_dio' NOT LIKE 'i$_nd_o' ESCAPE '$' AS "true"; SELECT 'i_dio' LIKE 'i$_d%o' ESCAPE '$' AS "true"; SELECT 'i_dio' NOT LIKE 'i$_d%o' ESCAPE '$' AS "false"; SELECT 'a_c'::bytea LIKE 'a$__'::bytea ESCAPE '$'::bytea AS "true"; SELECT 'a_c'::bytea NOT LIKE 'a$__'::bytea ESCAPE '$'::bytea AS "false"; -- escape character same as pattern character SELECT 'maca' LIKE 'm%aca' ESCAPE '%' AS "true"; SELECT 'maca' NOT LIKE 'm%aca' ESCAPE '%' AS "false"; SELECT 'ma%a' LIKE 'm%a%%a' ESCAPE '%' AS "true"; SELECT 'ma%a' NOT LIKE 'm%a%%a' ESCAPE '%' AS "false"; SELECT 'bear' LIKE 'b_ear' ESCAPE '_' AS "true"; SELECT 'bear' NOT LIKE 'b_ear' ESCAPE '_' AS "false"; SELECT 'be_r' LIKE 'b_e__r' ESCAPE '_' AS "true"; SELECT 'be_r' NOT LIKE 'b_e__r' ESCAPE '_' AS "false"; SELECT 'be_r' LIKE '__e__r' ESCAPE '_' AS "false"; SELECT 'be_r' NOT LIKE '__e__r' ESCAPE '_' AS "true"; -- -- test ILIKE (case-insensitive LIKE) -- Be sure to form every test as an ILIKE/NOT ILIKE pair. -- SELECT 'hawkeye' ILIKE 'h%' AS "true"; SELECT 'hawkeye' NOT ILIKE 'h%' AS "false"; SELECT 'hawkeye' ILIKE 'H%' AS "true"; SELECT 'hawkeye' NOT ILIKE 'H%' AS "false"; SELECT 'hawkeye' ILIKE 'H%Eye' AS "true"; SELECT 'hawkeye' NOT ILIKE 'H%Eye' AS "false"; SELECT 'Hawkeye' ILIKE 'h%' AS "true"; SELECT 'Hawkeye' NOT ILIKE 'h%' AS "false"; SELECT 'ABC'::name ILIKE '_b_' AS "true"; SELECT 'ABC'::name NOT ILIKE '_b_' AS "false"; -- -- test %/_ combination cases, cf bugs #4821 and #5478 -- SELECT 'foo' LIKE '_%' as t, 'f' LIKE '_%' as t, '' LIKE '_%' as f; SELECT 'foo' LIKE '%_' as t, 'f' LIKE '%_' as t, '' LIKE '%_' as f; SELECT 'foo' LIKE '__%' as t, 'foo' LIKE '___%' as t, 'foo' LIKE '____%' as f; SELECT 'foo' LIKE '%__' as t, 'foo' LIKE '%___' as t, 'foo' LIKE '%____' as f; SELECT 'jack' LIKE '%____%' AS t; -- -- basic tests of LIKE with indexes -- CREATE TABLE texttest (a text PRIMARY KEY, b int); SELECT * FROM texttest WHERE a LIKE '%1%'; CREATE TABLE byteatest (a bytea PRIMARY KEY, b int); SELECT * FROM byteatest WHERE a LIKE '%1%'; DROP TABLE texttest, byteatest; -- -- test implicit type conversion -- -- E021-07 character concatenation SELECT 'unknown' || ' and unknown' AS "Concat unknown types"; SELECT text 'text' || ' and unknown' AS "Concat text to unknown type"; SELECT char(20) 'characters' || ' and text' AS "Concat char to unknown type"; SELECT text 'text' || char(20) ' and characters' AS "Concat text to char"; SELECT text 'text' || varchar ' and varchar' AS "Concat text to varchar"; -- -- test substr with toasted text values -- CREATE TABLE toasttest(f1 text); insert into toasttest values(repeat('1234567890',10000)); insert into toasttest values(repeat('1234567890',10000)); -- -- Ensure that some values are uncompressed, to test the faster substring -- operation used in that case -- alter table toasttest alter column f1 set storage external; insert into toasttest values(repeat('1234567890',10000)); insert into toasttest values(repeat('1234567890',10000)); -- If the starting position is zero or less, then return from the start of the string -- adjusting the length to be consistent with the "negative start" per SQL. SELECT substr(f1, -1, 5) from toasttest; -- If the length is less than zero, an ERROR is thrown. SELECT substr(f1, 5, -1) from toasttest; -- If no third argument (length) is provided, the length to the end of the -- string is assumed. SELECT substr(f1, 99995) from toasttest; -- If start plus length is > string length, the result is truncated to -- string length SELECT substr(f1, 99995, 10) from toasttest; TRUNCATE TABLE toasttest; INSERT INTO toasttest values (repeat('1234567890',300)); INSERT INTO toasttest values (repeat('1234567890',300)); INSERT INTO toasttest values (repeat('1234567890',300)); INSERT INTO toasttest values (repeat('1234567890',300)); -- expect >0 blocks SELECT pg_relation_size(reltoastrelid) = 0 AS is_empty FROM pg_class where relname = 'toasttest'; TRUNCATE TABLE toasttest; ALTER TABLE toasttest set (toast_tuple_target = 4080); INSERT INTO toasttest values (repeat('1234567890',300)); INSERT INTO toasttest values (repeat('1234567890',300)); INSERT INTO toasttest values (repeat('1234567890',300)); INSERT INTO toasttest values (repeat('1234567890',300)); -- expect 0 blocks SELECT pg_relation_size(reltoastrelid) = 0 AS is_empty FROM pg_class where relname = 'toasttest'; DROP TABLE toasttest; -- -- test substr with toasted bytea values -- CREATE TABLE toasttest(f1 bytea); insert into toasttest values(decode(repeat('1234567890',10000),'escape')); insert into toasttest values(decode(repeat('1234567890',10000),'escape')); -- -- Ensure that some values are uncompressed, to test the faster substring -- operation used in that case -- alter table toasttest alter column f1 set storage external; insert into toasttest values(decode(repeat('1234567890',10000),'escape')); insert into toasttest values(decode(repeat('1234567890',10000),'escape')); -- If the starting position is zero or less, then return from the start of the string -- adjusting the length to be consistent with the "negative start" per SQL. SELECT substr(f1, -1, 5) from toasttest; -- If the length is less than zero, an ERROR is thrown. SELECT substr(f1, 5, -1) from toasttest; -- If no third argument (length) is provided, the length to the end of the -- string is assumed. SELECT substr(f1, 99995) from toasttest; -- If start plus length is > string length, the result is truncated to -- string length SELECT substr(f1, 99995, 10) from toasttest; DROP TABLE toasttest; -- test internally compressing datums -- this tests compressing a datum to a very small size which exercises a -- corner case in packed-varlena handling: even though small, the compressed -- datum must be given a 4-byte header because there are no bits to indicate -- compression in a 1-byte header CREATE TABLE toasttest (c char(4096)); INSERT INTO toasttest VALUES('x'); SELECT length(c), c::text FROM toasttest; SELECT c FROM toasttest; DROP TABLE toasttest; -- -- test length -- SELECT length('abcdef') AS "length_6"; -- -- test strpos -- SELECT strpos('abcdef', 'cd') AS "pos_3"; SELECT strpos('abcdef', 'xy') AS "pos_0"; SELECT strpos('abcdef', '') AS "pos_1"; SELECT strpos('', 'xy') AS "pos_0"; SELECT strpos('', '') AS "pos_1"; -- -- test replace -- SELECT replace('abcdef', 'de', '45') AS "abc45f"; SELECT replace('yabadabadoo', 'ba', '123') AS "ya123da123doo"; SELECT replace('yabadoo', 'bad', '') AS "yaoo"; -- -- test split_part -- select split_part('','@',1) AS "empty string"; select split_part('','@',-1) AS "empty string"; select split_part('joeuser@mydatabase','',1) AS "joeuser@mydatabase"; select split_part('joeuser@mydatabase','',2) AS "empty string"; select split_part('joeuser@mydatabase','',-1) AS "joeuser@mydatabase"; select split_part('joeuser@mydatabase','',-2) AS "empty string"; select split_part('joeuser@mydatabase','@',0) AS "an error"; select split_part('joeuser@mydatabase','@@',1) AS "joeuser@mydatabase"; select split_part('joeuser@mydatabase','@@',2) AS "empty string"; select split_part('joeuser@mydatabase','@',1) AS "joeuser"; select split_part('joeuser@mydatabase','@',2) AS "mydatabase"; select split_part('joeuser@mydatabase','@',3) AS "empty string"; select split_part('@joeuser@mydatabase@','@',2) AS "joeuser"; select split_part('joeuser@mydatabase','@',-1) AS "mydatabase"; select split_part('joeuser@mydatabase','@',-2) AS "joeuser"; select split_part('joeuser@mydatabase','@',-3) AS "empty string"; select split_part('@joeuser@mydatabase@','@',-2) AS "mydatabase"; -- -- test to_bin, to_oct, and to_hex -- select to_bin(-1234) AS "11111111111111111111101100101110"; select to_bin(-1234::bigint); select to_bin(256*256*256 - 1) AS "111111111111111111111111"; select to_bin(256::bigint*256::bigint*256::bigint*256::bigint - 1) AS "11111111111111111111111111111111"; select to_oct(-1234) AS "37777775456"; select to_oct(-1234::bigint) AS "1777777777777777775456"; select to_oct(256*256*256 - 1) AS "77777777"; select to_oct(256::bigint*256::bigint*256::bigint*256::bigint - 1) AS "37777777777"; select to_hex(-1234) AS "fffffb2e"; select to_hex(-1234::bigint) AS "fffffffffffffb2e"; select to_hex(256*256*256 - 1) AS "ffffff"; select to_hex(256::bigint*256::bigint*256::bigint*256::bigint - 1) AS "ffffffff"; -- -- SHA-2 -- SET bytea_output TO hex; SELECT sha224(''); SELECT sha224('The quick brown fox jumps over the lazy dog.'); SELECT sha256(''); SELECT sha256('The quick brown fox jumps over the lazy dog.'); SELECT sha384(''); SELECT sha384('The quick brown fox jumps over the lazy dog.'); SELECT sha512(''); SELECT sha512('The quick brown fox jumps over the lazy dog.'); -- -- encode/decode -- SELECT encode('\x1234567890abcdef00', 'hex'); SELECT decode('1234567890abcdef00', 'hex'); SELECT encode(('\x' || repeat('1234567890abcdef0001', 7))::bytea, 'base64'); SELECT decode(encode(('\x' || repeat('1234567890abcdef0001', 7))::bytea, 'base64'), 'base64'); SELECT encode('\x1234567890abcdef00', 'escape'); SELECT decode(encode('\x1234567890abcdef00', 'escape'), 'escape'); -- -- get_bit/set_bit etc -- SELECT get_bit('\x1234567890abcdef00'::bytea, 43); SELECT get_bit('\x1234567890abcdef00'::bytea, 99); -- error SELECT set_bit('\x1234567890abcdef00'::bytea, 43, 0); SELECT set_bit('\x1234567890abcdef00'::bytea, 99, 0); -- error SELECT get_byte('\x1234567890abcdef00'::bytea, 3); SELECT get_byte('\x1234567890abcdef00'::bytea, 99); -- error SELECT set_byte('\x1234567890abcdef00'::bytea, 7, 11); SELECT set_byte('\x1234567890abcdef00'::bytea, 99, 11); -- error -- -- test behavior of escape_string_warning and standard_conforming_strings options -- set escape_string_warning = off; set standard_conforming_strings = off; show escape_string_warning; show standard_conforming_strings; set escape_string_warning = on; set standard_conforming_strings = on; show escape_string_warning; show standard_conforming_strings; select 'a\bcd' as f1, 'a\b''cd' as f2, 'a\b''''cd' as f3, 'abcd\' as f4, 'ab\''cd' as f5, '\\' as f6; set standard_conforming_strings = off; select 'a\\bcd' as f1, 'a\\b\'cd' as f2, 'a\\b\'''cd' as f3, 'abcd\\' as f4, 'ab\\\'cd' as f5, '\\\\' as f6; set escape_string_warning = off; set standard_conforming_strings = on; select 'a\bcd' as f1, 'a\b''cd' as f2, 'a\b''''cd' as f3, 'abcd\' as f4, 'ab\''cd' as f5, '\\' as f6; set standard_conforming_strings = off; select 'a\\bcd' as f1, 'a\\b\'cd' as f2, 'a\\b\'''cd' as f3, 'abcd\\' as f4, 'ab\\\'cd' as f5, '\\\\' as f6; reset standard_conforming_strings; -- -- Additional string functions -- SET bytea_output TO escape; SELECT initcap('hi THOMAS'); SELECT lpad('hi', 5, 'xy'); SELECT lpad('hi', 5); SELECT lpad('hi', -5, 'xy'); SELECT lpad('hello', 2); SELECT lpad('hi', 5, ''); SELECT rpad('hi', 5, 'xy'); SELECT rpad('hi', 5); SELECT rpad('hi', -5, 'xy'); SELECT rpad('hello', 2); SELECT rpad('hi', 5, ''); SELECT ltrim('zzzytrim', 'xyz'); SELECT translate('', '14', 'ax'); SELECT translate('12345', '14', 'ax'); SELECT translate('12345', '134', 'a'); SELECT ascii('x'); SELECT ascii(''); SELECT chr(65); SELECT chr(0); SELECT repeat('Pg', 4); SELECT repeat('Pg', -4); SELECT SUBSTRING('1234567890'::bytea FROM 3) "34567890"; SELECT SUBSTRING('1234567890'::bytea FROM 4 FOR 3) AS "456"; SELECT SUBSTRING('string'::bytea FROM 2 FOR 2147483646) AS "tring"; SELECT SUBSTRING('string'::bytea FROM -10 FOR 2147483646) AS "string"; SELECT SUBSTRING('string'::bytea FROM -10 FOR -2147483646) AS "error"; SELECT trim(E'\\000'::bytea from E'\\000Tom\\000'::bytea); SELECT trim(leading E'\\000'::bytea from E'\\000Tom\\000'::bytea); SELECT trim(trailing E'\\000'::bytea from E'\\000Tom\\000'::bytea); SELECT btrim(E'\\000trim\\000'::bytea, E'\\000'::bytea); SELECT btrim(''::bytea, E'\\000'::bytea); SELECT btrim(E'\\000trim\\000'::bytea, ''::bytea); SELECT encode(overlay(E'Th\\000omas'::bytea placing E'Th\\001omas'::bytea from 2),'escape'); SELECT encode(overlay(E'Th\\000omas'::bytea placing E'\\002\\003'::bytea from 8),'escape'); SELECT encode(overlay(E'Th\\000omas'::bytea placing E'\\002\\003'::bytea from 5 for 3),'escape'); SELECT bit_count('\x1234567890'::bytea); SELECT unistr('\0064at\+0000610'); SELECT unistr('d\u0061t\U000000610'); SELECT unistr('a\\b'); -- errors: SELECT unistr('wrong: \db99'); SELECT unistr('wrong: \db99\0061'); SELECT unistr('wrong: \+00db99\+000061'); SELECT unistr('wrong: \+2FFFFF'); SELECT unistr('wrong: \udb99\u0061'); SELECT unistr('wrong: \U0000db99\U00000061'); SELECT unistr('wrong: \U002FFFFF'); SELECT unistr('wrong: \xyz');