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| author | Bruce Momjian <bruce@momjian.us> | 2018-09-21 19:55:07 -0400 |
|---|---|---|
| committer | Bruce Momjian <bruce@momjian.us> | 2018-09-21 19:55:07 -0400 |
| commit | 7f203d60f413007a654a0f9b7763ef986150ce95 (patch) | |
| tree | e7267740183b4410f3871d199f4a3f036e0e74c9 | |
| parent | 45a2d45f4ff2e2f1524e7eb3aca9243895eefa8a (diff) | |
| download | postgresql-7f203d60f413007a654a0f9b7763ef986150ce95.tar.gz postgresql-7f203d60f413007a654a0f9b7763ef986150ce95.zip | |
docs: remove use of escape strings and use bytea hex output
standard_conforming_strings defaulted to 'on' in PG 9.1.
bytea_output defaulted to 'hex' in PG 9.0.
Reported-by: André Hänsel
Discussion: https://postgr.es/m/12e601d447ac$345994a0$9d0cbde0$@webkr.de
Backpatch-through: 9.3
| -rw-r--r-- | doc/src/sgml/array.sgml | 27 | ||||
| -rw-r--r-- | doc/src/sgml/datatype.sgml | 71 | ||||
| -rw-r--r-- | doc/src/sgml/func.sgml | 48 | ||||
| -rw-r--r-- | doc/src/sgml/lobj.sgml | 4 | ||||
| -rw-r--r-- | doc/src/sgml/rowtypes.sgml | 2 |
5 files changed, 72 insertions, 80 deletions
diff --git a/doc/src/sgml/array.sgml b/doc/src/sgml/array.sgml index f4d4a610ef3..a473fa8ee8b 100644 --- a/doc/src/sgml/array.sgml +++ b/doc/src/sgml/array.sgml @@ -766,9 +766,9 @@ SELECT f1[1][-2][3] AS e1, f1[1][-1][5] AS e2 For example, elements containing curly braces, commas (or the data type's delimiter character), double quotes, backslashes, or leading or trailing whitespace must be double-quoted. Empty strings and strings matching the - word <literal>NULL</literal> must be quoted, too. To put a double quote or - backslash in a quoted array element value, use escape string syntax - and precede it with a backslash. Alternatively, you can avoid quotes and use + word <literal>NULL</literal> must be quoted, too. To put a double + quote or backslash in a quoted array element value, precede it + with a backslash. Alternatively, you can avoid quotes and use backslash-escaping to protect all data characters that would otherwise be taken as array syntax. </para> @@ -781,27 +781,6 @@ SELECT f1[1][-2][3] AS e1, f1[1][-1][5] AS e2 non-whitespace characters of an element, is not ignored. </para> - <note> - <para> - Remember that what you write in an SQL command will first be interpreted - as a string literal, and then as an array. This doubles the number of - backslashes you need. For example, to insert a <type>text</type> array - value containing a backslash and a double quote, you'd need to write: -<programlisting> -INSERT ... VALUES (E'{"\\\\","\\""}'); -</programlisting> - The escape string processor removes one level of backslashes, so that - what arrives at the array-value parser looks like <literal>{"\\","\""}</literal>. - In turn, the strings fed to the <type>text</type> data type's input routine - become <literal>\</literal> and <literal>"</literal> respectively. (If we were working - with a data type whose input routine also treated backslashes specially, - <type>bytea</type> for example, we might need as many as eight backslashes - in the command to get one backslash into the stored array element.) - Dollar quoting (see <xref linkend="sql-syntax-dollar-quoting"/>) can be - used to avoid the need to double backslashes. - </para> - </note> - <tip> <para> The <literal>ARRAY</literal> constructor syntax (see diff --git a/doc/src/sgml/datatype.sgml b/doc/src/sgml/datatype.sgml index 3d36cca5660..f9458c9921f 100644 --- a/doc/src/sgml/datatype.sgml +++ b/doc/src/sgml/datatype.sgml @@ -1296,7 +1296,7 @@ SELECT b, char_length(b) FROM test2; strings are distinguished from character strings in two ways. First, binary strings specifically allow storing octets of value zero and other <quote>non-printable</quote> - octets (usually, octets outside the range 32 to 126). + octets (usually, octets outside the decimal range 32 to 126). Character strings disallow zero octets, and also disallow any other octet values and sequences of octet values that are invalid according to the database's selected character set encoding. @@ -1308,9 +1308,10 @@ SELECT b, char_length(b) FROM test2; </para> <para> - The <type>bytea</type> type supports two external formats for - input and output: <productname>PostgreSQL</productname>'s historical - <quote>escape</quote> format, and <quote>hex</quote> format. Both + The <type>bytea</type> type supports two + formats for input and output: <quote>hex</quote> format + and <productname>PostgreSQL</productname>'s historical + <quote>escape</quote> format. Both of these are always accepted on input. The output format depends on the configuration parameter <xref linkend="guc-bytea-output"/>; the default is hex. (Note that the hex format was introduced in @@ -1348,7 +1349,7 @@ SELECT b, char_length(b) FROM test2; <para> Example: <programlisting> -SELECT E'\\xDEADBEEF'; +SELECT '\xDEADBEEF'; </programlisting> </para> </sect2> @@ -1368,7 +1369,7 @@ SELECT E'\\xDEADBEEF'; convenient. But in practice it is usually confusing because it fuzzes up the distinction between binary strings and character strings, and also the particular escape mechanism that was chosen is - somewhat unwieldy. So this format should probably be avoided + somewhat unwieldy. Therefore, this format should probably be avoided for most new applications. </para> @@ -1381,7 +1382,7 @@ SELECT E'\\xDEADBEEF'; octal value and precede it by a backslash (or two backslashes, if writing the value as a literal using escape string syntax). - Backslash itself (octet value 92) can alternatively be represented by + Backslash itself (octet decimal value 92) can alternatively be represented by double backslashes. <xref linkend="datatype-binary-sqlesc"/> shows the characters that must be escaped, and gives the alternative @@ -1405,33 +1406,33 @@ SELECT E'\\xDEADBEEF'; <row> <entry>0</entry> <entry>zero octet</entry> - <entry><literal>E'\\000'</literal></entry> - <entry><literal>SELECT E'\\000'::bytea;</literal></entry> - <entry><literal>\000</literal></entry> + <entry><literal>'\000'</literal></entry> + <entry><literal>SELECT '\000'::bytea;</literal></entry> + <entry><literal>\x00</literal></entry> </row> <row> <entry>39</entry> <entry>single quote</entry> - <entry><literal>''''</literal> or <literal>E'\\047'</literal></entry> - <entry><literal>SELECT E'\''::bytea;</literal></entry> - <entry><literal>'</literal></entry> + <entry><literal>''''</literal> or <literal>'\047'</literal></entry> + <entry><literal>SELECT ''''::bytea;</literal></entry> + <entry><literal>\x27</literal></entry> </row> <row> <entry>92</entry> <entry>backslash</entry> - <entry><literal>E'\\\\'</literal> or <literal>E'\\134'</literal></entry> - <entry><literal>SELECT E'\\\\'::bytea;</literal></entry> - <entry><literal>\\</literal></entry> + <entry><literal>'\'</literal> or <literal>'\\134'</literal></entry> + <entry><literal>SELECT '\\'::bytea;</literal></entry> + <entry><literal>\x5c</literal></entry> </row> <row> <entry>0 to 31 and 127 to 255</entry> <entry><quote>non-printable</quote> octets</entry> - <entry><literal>E'\\<replaceable>xxx'</replaceable></literal> (octal value)</entry> - <entry><literal>SELECT E'\\001'::bytea;</literal></entry> - <entry><literal>\001</literal></entry> + <entry><literal>'\<replaceable>xxx'</replaceable></literal> (octal value)</entry> + <entry><literal>SELECT '\001'::bytea;</literal></entry> + <entry><literal>\x01</literal></entry> </row> </tbody> @@ -1459,7 +1460,7 @@ SELECT E'\\xDEADBEEF'; of escaping.) The remaining backslash is then recognized by the <type>bytea</type> input function as starting either a three digit octal value or escaping another backslash. For example, - a string literal passed to the server as <literal>E'\\001'</literal> + a string literal passed to the server as <literal>'\001'</literal> becomes <literal>\001</literal> after passing through the escape string parser. The <literal>\001</literal> is then sent to the <type>bytea</type> input function, where it is converted @@ -1470,12 +1471,24 @@ SELECT E'\\xDEADBEEF'; </para> <para> - <type>Bytea</type> octets are sometimes escaped when output. In general, each - <quote>non-printable</quote> octet is converted into - its equivalent three-digit octal value and preceded by one backslash. - Most <quote>printable</quote> octets are represented by their standard - representation in the client character set. The octet with decimal - value 92 (backslash) is doubled in the output. + <type>Bytea</type> octets are output in <literal>hex</literal> + format by default. If you change <xref linkend="guc-bytea-output"/> + to <literal>escape</literal>, + <quote>non-printable</quote> octet are converted to + equivalent three-digit octal value and preceded by one backslash. + Most <quote>printable</quote> octets are output by their standard + representation in the client character set, e.g.: + +<programlisting> +SET bytea_output = 'escape'; + +SELECT 'abc \153\154\155 \052\251\124'::bytea; + bytea +---------------- + abc klm *\251T +</programlisting> + + The octet with decimal value 92 (backslash) is doubled in the output. Details are in <xref linkend="datatype-binary-resesc"/>. </para> @@ -1498,7 +1511,7 @@ SELECT E'\\xDEADBEEF'; <entry>92</entry> <entry>backslash</entry> <entry><literal>\\</literal></entry> - <entry><literal>SELECT E'\\134'::bytea;</literal></entry> + <entry><literal>SELECT '\134'::bytea;</literal></entry> <entry><literal>\\</literal></entry> </row> @@ -1506,7 +1519,7 @@ SELECT E'\\xDEADBEEF'; <entry>0 to 31 and 127 to 255</entry> <entry><quote>non-printable</quote> octets</entry> <entry><literal>\<replaceable>xxx</replaceable></literal> (octal value)</entry> - <entry><literal>SELECT E'\\001'::bytea;</literal></entry> + <entry><literal>SELECT '\001'::bytea;</literal></entry> <entry><literal>\001</literal></entry> </row> @@ -1514,7 +1527,7 @@ SELECT E'\\xDEADBEEF'; <entry>32 to 126</entry> <entry><quote>printable</quote> octets</entry> <entry>client character set representation</entry> - <entry><literal>SELECT E'\\176'::bytea;</literal></entry> + <entry><literal>SELECT '\176'::bytea;</literal></entry> <entry><literal>~</literal></entry> </row> diff --git a/doc/src/sgml/func.sgml b/doc/src/sgml/func.sgml index 335900a86ef..bc639a731c7 100644 --- a/doc/src/sgml/func.sgml +++ b/doc/src/sgml/func.sgml @@ -1776,7 +1776,7 @@ octal sequences (<literal>\</literal><replaceable>nnn</replaceable>) and doubles backslashes. </entry> - <entry><literal>encode(E'123\\000\\001', 'base64')</literal></entry> + <entry><literal>encode('123\000\001', 'base64')</literal></entry> <entry><literal>MTIzAAE=</literal></entry> </row> @@ -2100,7 +2100,7 @@ the delimiter. See <xref linkend="functions-posix-regexp"/> for more information. </entry> - <entry><literal>regexp_split_to_array('hello world', E'\\s+')</literal></entry> + <entry><literal>regexp_split_to_array('hello world', '\s+')</literal></entry> <entry><literal>{hello,world}</literal></entry> </row> @@ -2117,7 +2117,7 @@ the delimiter. See <xref linkend="functions-posix-regexp"/> for more information. </entry> - <entry><literal>regexp_split_to_table('hello world', E'\\s+')</literal></entry> + <entry><literal>regexp_split_to_table('hello world', '\s+')</literal></entry> <entry><literal>hello</literal><para><literal>world</literal></para> (2 rows)</entry> </row> @@ -3301,8 +3301,8 @@ SELECT format('Testing %s, %s, %s, %%', 'one', 'two', 'three'); SELECT format('INSERT INTO %I VALUES(%L)', 'Foo bar', E'O\'Reilly'); <lineannotation>Result: </lineannotation><computeroutput>INSERT INTO "Foo bar" VALUES('O''Reilly')</computeroutput> -SELECT format('INSERT INTO %I VALUES(%L)', 'locations', E'C:\\Program Files'); -<lineannotation>Result: </lineannotation><computeroutput>INSERT INTO locations VALUES(E'C:\\Program Files')</computeroutput> +SELECT format('INSERT INTO %I VALUES(%L)', 'locations', 'C:\Program Files'); +<lineannotation>Result: </lineannotation><computeroutput>INSERT INTO locations VALUES('C:\Program Files')</computeroutput> </screen> </para> @@ -3429,7 +3429,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <secondary>concatenation</secondary> </indexterm> </entry> - <entry><literal>E'\\\\Post'::bytea || E'\\047gres\\000'::bytea</literal></entry> + <entry><literal>'\\Post'::bytea || '\047gres\000'::bytea</literal></entry> <entry><literal>\\Post'gres\000</literal></entry> </row> @@ -3442,7 +3442,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); </entry> <entry><type>int</type></entry> <entry>Number of bytes in binary string</entry> - <entry><literal>octet_length(E'jo\\000se'::bytea)</literal></entry> + <entry><literal>octet_length('jo\000se'::bytea)</literal></entry> <entry><literal>5</literal></entry> </row> @@ -3457,7 +3457,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <entry> Replace substring </entry> - <entry><literal>overlay(E'Th\\000omas'::bytea placing E'\\002\\003'::bytea from 2 for 3)</literal></entry> + <entry><literal>overlay('Th\000omas'::bytea placing '\002\003'::bytea from 2 for 3)</literal></entry> <entry><literal>T\\002\\003mas</literal></entry> </row> @@ -3470,7 +3470,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); </entry> <entry><type>int</type></entry> <entry>Location of specified substring</entry> - <entry><literal>position(E'\\000om'::bytea in E'Th\\000omas'::bytea)</literal></entry> + <entry><literal>position('\000om'::bytea in 'Th\000omas'::bytea)</literal></entry> <entry><literal>3</literal></entry> </row> @@ -3485,7 +3485,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <entry> Extract substring </entry> - <entry><literal>substring(E'Th\\000omas'::bytea from 2 for 3)</literal></entry> + <entry><literal>substring('Th\000omas'::bytea from 2 for 3)</literal></entry> <entry><literal>h\000o</literal></entry> </row> @@ -3504,7 +3504,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <parameter>bytes</parameter> from the start and end of <parameter>string</parameter> </entry> - <entry><literal>trim(E'\\000\\001'::bytea from E'\\000Tom\\001'::bytea)</literal></entry> + <entry><literal>trim('\000\001'::bytea from '\000Tom\001'::bytea)</literal></entry> <entry><literal>Tom</literal></entry> </row> </tbody> @@ -3547,7 +3547,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <parameter>bytes</parameter> from the start and end of <parameter>string</parameter> </entry> - <entry><literal>btrim(E'\\000trim\\001'::bytea, E'\\000\\001'::bytea)</literal></entry> + <entry><literal>btrim('\000trim\001'::bytea, '\000\001'::bytea)</literal></entry> <entry><literal>trim</literal></entry> </row> @@ -3564,7 +3564,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); Decode binary data from textual representation in <parameter>string</parameter>. Options for <parameter>format</parameter> are same as in <function>encode</function>. </entry> - <entry><literal>decode(E'123\\000456', 'escape')</literal></entry> + <entry><literal>decode('123\000456', 'escape')</literal></entry> <entry><literal>123\000456</literal></entry> </row> @@ -3584,7 +3584,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); octal sequences (<literal>\</literal><replaceable>nnn</replaceable>) and doubles backslashes. </entry> - <entry><literal>encode(E'123\\000456'::bytea, 'escape')</literal></entry> + <entry><literal>encode('123\000456'::bytea, 'escape')</literal></entry> <entry><literal>123\000456</literal></entry> </row> @@ -3599,7 +3599,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <entry> Extract bit from string </entry> - <entry><literal>get_bit(E'Th\\000omas'::bytea, 45)</literal></entry> + <entry><literal>get_bit('Th\000omas'::bytea, 45)</literal></entry> <entry><literal>1</literal></entry> </row> @@ -3614,7 +3614,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <entry> Extract byte from string </entry> - <entry><literal>get_byte(E'Th\\000omas'::bytea, 4)</literal></entry> + <entry><literal>get_byte('Th\000omas'::bytea, 4)</literal></entry> <entry><literal>109</literal></entry> </row> @@ -3638,7 +3638,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <see>binary strings, length</see> </indexterm> </entry> - <entry><literal>length(E'jo\\000se'::bytea)</literal></entry> + <entry><literal>length('jo\000se'::bytea)</literal></entry> <entry><literal>5</literal></entry> </row> @@ -3654,7 +3654,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); Calculates the MD5 hash of <parameter>string</parameter>, returning the result in hexadecimal </entry> - <entry><literal>md5(E'Th\\000omas'::bytea)</literal></entry> + <entry><literal>md5('Th\000omas'::bytea)</literal></entry> <entry><literal>8ab2d3c9689aaf18​b4958c334c82d8b1</literal></entry> </row> @@ -3670,7 +3670,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <entry> Set bit in string </entry> - <entry><literal>set_bit(E'Th\\000omas'::bytea, 45, 0)</literal></entry> + <entry><literal>set_bit('Th\000omas'::bytea, 45, 0)</literal></entry> <entry><literal>Th\000omAs</literal></entry> </row> @@ -3686,7 +3686,7 @@ SELECT format('Testing %3$s, %2$s, %s', 'one', 'two', 'three'); <entry> Set byte in string </entry> - <entry><literal>set_byte(E'Th\\000omas'::bytea, 4, 64)</literal></entry> + <entry><literal>set_byte('Th\000omas'::bytea, 4, 64)</literal></entry> <entry><literal>Th\000o@as</literal></entry> </row> @@ -4377,7 +4377,7 @@ regexp_replace('foobarbaz', 'b..', 'X') <lineannotation>fooXbaz</lineannotation> regexp_replace('foobarbaz', 'b..', 'X', 'g') <lineannotation>fooXX</lineannotation> -regexp_replace('foobarbaz', 'b(..)', E'X\\1Y', 'g') +regexp_replace('foobarbaz', 'b(..)', 'X\1Y', 'g') <lineannotation>fooXarYXazY</lineannotation> </programlisting> </para> @@ -4513,7 +4513,7 @@ SELECT col1, (SELECT regexp_matches(col2, '(bar)(beque)')) FROM tab; Some examples: <programlisting> -SELECT foo FROM regexp_split_to_table('the quick brown fox jumps over the lazy dog', E'\\s+') AS foo; +SELECT foo FROM regexp_split_to_table('the quick brown fox jumps over the lazy dog', '\s+') AS foo; foo ------- the @@ -4527,13 +4527,13 @@ SELECT foo FROM regexp_split_to_table('the quick brown fox jumps over the lazy d dog (9 rows) -SELECT regexp_split_to_array('the quick brown fox jumps over the lazy dog', E'\\s+'); +SELECT regexp_split_to_array('the quick brown fox jumps over the lazy dog', '\s+'); regexp_split_to_array ----------------------------------------------- {the,quick,brown,fox,jumps,over,the,lazy,dog} (1 row) -SELECT foo FROM regexp_split_to_table('the quick brown fox', E'\\s*') AS foo; +SELECT foo FROM regexp_split_to_table('the quick brown fox', '\s*') AS foo; foo ----- t diff --git a/doc/src/sgml/lobj.sgml b/doc/src/sgml/lobj.sgml index f56aeebddb2..7a9af9c31e6 100644 --- a/doc/src/sgml/lobj.sgml +++ b/doc/src/sgml/lobj.sgml @@ -568,7 +568,7 @@ int lo_unlink(PGconn *conn, Oid lobjId); Create a large object and store data there, returning its OID. Pass <literal>0</literal> to have the system choose an OID. </entry> - <entry><literal>lo_from_bytea(0, E'\\xffffff00')</literal></entry> + <entry><literal>lo_from_bytea(0, '\xffffff00')</literal></entry> <entry><literal>24528</literal></entry> </row> @@ -583,7 +583,7 @@ int lo_unlink(PGconn *conn, Oid lobjId); <entry> Write data at the given offset. </entry> - <entry><literal>lo_put(24528, 1, E'\\xaa')</literal></entry> + <entry><literal>lo_put(24528, 1, '\xaa')</literal></entry> <entry></entry> </row> diff --git a/doc/src/sgml/rowtypes.sgml b/doc/src/sgml/rowtypes.sgml index 2f924b1f85d..a6f4f6709c8 100644 --- a/doc/src/sgml/rowtypes.sgml +++ b/doc/src/sgml/rowtypes.sgml @@ -510,7 +510,7 @@ SELECT c.somefunc FROM inventory_item c; containing a double quote and a backslash in a composite value, you'd need to write: <programlisting> -INSERT ... VALUES (E'("\\"\\\\")'); +INSERT ... VALUES ('("\"\\")'); </programlisting> The string-literal processor removes one level of backslashes, so that what arrives at the composite-value parser looks like |