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fuchsia / third_party / cmake / refs/heads/upstream/master / . / Help / command / string.rst
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string
------
String operations.
Synopsis
^^^^^^^^
.. parsed-literal::
`Search and Replace`_
string(`FIND`_ <string> <substring> <out-var> [...])
string(`REPLACE`_ <match-string> <replace-string> <out-var> <input>...)
string(`REGEX MATCH`_ <match-regex> <out-var> <input>...)
string(`REGEX MATCHALL`_ <match-regex> <out-var> <input>...)
string(`REGEX REPLACE`_ <match-regex> <replace-expr> <out-var> <input>...)
`Manipulation`_
string(`APPEND`_ <string-var> [<input>...])
string(`PREPEND`_ <string-var> [<input>...])
string(`CONCAT`_ <out-var> [<input>...])
string(`JOIN`_ <glue> <out-var> [<input>...])
string(`TOLOWER`_ <string> <out-var>)
string(`TOUPPER`_ <string> <out-var>)
string(`LENGTH <LENGTH_>`_ <string> <out-var>)
string(`SUBSTRING`_ <string> <begin> <length> <out-var>)
string(`STRIP`_ <string> <out-var>)
string(`GENEX_STRIP`_ <string> <out-var>)
string(`REPEAT`_ <string> <count> <out-var>)
`Comparison`_
string(`COMPARE`_ <op> <string1> <string2> <out-var>)
`Hashing`_
string(`\<HASH\>`_ <out-var> <input>)
`Generation`_
string(`ASCII`_ <number>... <out-var>)
string(`HEX`_ <string> <out-var>)
string(`CONFIGURE`_ <string> <out-var> [...])
string(`MAKE_C_IDENTIFIER`_ <string> <out-var>)
string(`RANDOM`_ [<option>...] <out-var>)
string(`TIMESTAMP`_ <out-var> [<format string>] [UTC])
string(`UUID`_ <out-var> ...)
`JSON`_
string(JSON <out-var> [ERROR_VARIABLE <error-var>]
{`GET <JSON GET_>`_ | `TYPE <JSON TYPE_>`_ | `LENGTH <JSON LENGTH_>`_ | `REMOVE <JSON REMOVE_>`_}
<json-string> <member|index> [<member|index> ...])
string(JSON <out-var> [ERROR_VARIABLE <error-var>]
`MEMBER <JSON MEMBER_>`_ <json-string>
[<member|index> ...] <index>)
string(JSON <out-var> [ERROR_VARIABLE <error-var>]
`SET <JSON SET_>`_ <json-string>
<member|index> [<member|index> ...] <value>)
string(JSON <out-var> [ERROR_VARIABLE <error-var>]
`EQUAL <JSON EQUAL_>`_ <json-string1> <json-string2>)
Search and Replace
^^^^^^^^^^^^^^^^^^
Search and Replace With Plain Strings
"""""""""""""""""""""""""""""""""""""
.. signature::
string(FIND <string> <substring> <output_variable> [REVERSE])
Return the position where the given ``<substring>`` was found in
the supplied ``<string>``. If the ``REVERSE`` flag was used, the command
will search for the position of the last occurrence of the specified
``<substring>``. If the ``<substring>`` is not found, a position of -1 is
returned.
The ``string(FIND)`` subcommand treats all strings as ASCII-only characters.
The index stored in ``<output_variable>`` will also be counted in bytes,
so strings containing multi-byte characters may lead to unexpected results.
.. signature::
string(REPLACE <match_string>
<replace_string> <output_variable>
<input> [<input>...])
Replace all occurrences of ``<match_string>`` in the ``<input>``
with ``<replace_string>`` and store the result in the ``<output_variable>``.
Search and Replace With Regular Expressions
"""""""""""""""""""""""""""""""""""""""""""
.. signature::
string(REGEX MATCH <regular_expression>
<output_variable> <input> [<input>...])
Match the ``<regular_expression>`` once and store the match in the
``<output_variable>``.
All ``<input>`` arguments are concatenated before matching.
Regular expressions are specified in the subsection just below.
.. signature::
string(REGEX MATCHALL <regular_expression>
<output_variable> <input> [<input>...])
Match the ``<regular_expression>`` as many times as possible and store the
matches in the ``<output_variable>`` as a list.
All ``<input>`` arguments are concatenated before matching.
.. signature::
string(REGEX REPLACE <regular_expression>
<replacement_expression> <output_variable>
<input> [<input>...])
Match the ``<regular_expression>`` as many times as possible and substitute
the ``<replacement_expression>`` for the match in the output.
All ``<input>`` arguments are concatenated before matching.
The ``<replacement_expression>`` may refer to parenthesis-delimited
subexpressions of the match using ``\1``, ``\2``, ..., ``\9``. Note that
two backslashes (``\\1``) are required in CMake code to get a backslash
through argument parsing.
.. _`Regex Specification`:
Regex Specification
"""""""""""""""""""
The following characters have special meaning in regular expressions:
``^``
Matches at beginning of input
``$``
Matches at end of input
``.``
Matches any single character
``\<char>``
Matches the single character specified by ``<char>``. Use this to
match special regex characters, e.g. ``\.`` for a literal ``.``
or ``\\`` for a literal backslash ``\``. Escaping a non-special
character is unnecessary but allowed, e.g. ``\a`` matches ``a``.
``[ ]``
Matches any character(s) inside the brackets.
To match a literal ``]``, make it the first character, e.g., ``[]ab]``.
``[^ ]``
Matches any character(s) not inside the brackets.
To not match a literal ``]``, make it the first character, e.g., ``[^]ab]``.
``-``
Inside brackets, specifies an inclusive range between characters on
either side, e.g., ``[a-f]`` is ``[abcdef]``.
To match a literal ``-`` using brackets, make it the first or the last
character, e.g., ``[+*/-]`` matches basic mathematical operators.
``*``
Matches preceding pattern zero or more times
``+``
Matches preceding pattern one or more times
``?``
Matches preceding pattern zero or once only
``|``
Matches a pattern on either side of the ``|``
``()``
Saves a matched subexpression, which can be referenced
in the ``REGEX REPLACE`` operation.
.. versionadded:: 3.9
All regular expression-related commands, including e.g.
:command:`if(MATCHES)`, save subgroup matches in the variables
:variable:`CMAKE_MATCH_<n>` for ``<n>`` 0..9.
``*``, ``+`` and ``?`` have higher precedence than concatenation. ``|``
has lower precedence than concatenation. This means that the regular
expression ``^ab+d$`` matches ``abbd`` but not ``ababd``, and the regular
expression ``^(ab|cd)$`` matches ``ab`` but not ``abd``.
CMake language :ref:`Escape Sequences` such as ``\t``, ``\r``, ``\n``,
and ``\\`` may be used to construct literal tabs, carriage returns,
newlines, and backslashes (respectively) to pass in a regex. For example:
* The quoted argument ``"[ \t\r\n]"`` specifies a regex that matches
any single whitespace character.
* The quoted argument ``"[/\\]"`` specifies a regex that matches
a single forward slash ``/`` or backslash ``\``.
* The quoted argument ``"[A-Za-z0-9_]"`` specifies a regex that matches
any single "word" character in the C locale.
* The quoted argument ``"\\(\\a\\+b\\)"`` specifies a regex that matches
the exact string ``(a+b)``. Each ``\\`` is parsed in a quoted argument
as just ``\``, so the regex itself is actually ``\(\a\+\b\)``. This
can alternatively be specified in a :ref:`bracket argument` without
having to escape the backslashes, e.g. ``[[\(\a\+\b\)]]``.
Manipulation
^^^^^^^^^^^^
.. signature::
string(APPEND <string_variable> [<input>...])
.. versionadded:: 3.4
Append all the ``<input>`` arguments to the string.
.. signature::
string(PREPEND <string_variable> [<input>...])
.. versionadded:: 3.10
Prepend all the ``<input>`` arguments to the string.
.. signature::
string(CONCAT <output_variable> [<input>...])
Concatenate all the ``<input>`` arguments together and store
the result in the named ``<output_variable>``.
.. signature::
string(JOIN <glue> <output_variable> [<input>...])
.. versionadded:: 3.12
Join all the ``<input>`` arguments together using the ``<glue>``
string and store the result in the named ``<output_variable>``.
To join a list's elements, prefer to use the ``JOIN`` operator
from the :command:`list` command. This allows for the elements to have
special characters like ``;`` in them.
.. signature::
string(TOLOWER <string> <output_variable>)
Convert ``<string>`` to lower characters.
.. signature::
string(TOUPPER <string> <output_variable>)
Convert ``<string>`` to upper characters.
.. signature::
string(LENGTH <string> <output_variable>)
Store in an ``<output_variable>`` a given string's length in bytes.
Note that this means if ``<string>`` contains multi-byte characters,
the result stored in ``<output_variable>`` will *not* be
the number of characters.
.. signature::
string(SUBSTRING <string> <begin> <length> <output_variable>)
Store in an ``<output_variable>`` a substring of a given ``<string>``. If
``<length>`` is ``-1`` the remainder of the string starting at ``<begin>``
will be returned.
.. versionchanged:: 3.2
If ``<string>`` is shorter than ``<length>``
then the end of the string is used instead.
Previous versions of CMake reported an error in this case.
Both ``<begin>`` and ``<length>`` are counted in bytes, so care must
be exercised if ``<string>`` could contain multi-byte characters.
.. signature::
string(STRIP <string> <output_variable>)
Store in an ``<output_variable>`` a substring of a given ``<string>``
with leading and trailing spaces removed.
.. signature::
string(GENEX_STRIP <string> <output_variable>)
.. versionadded:: 3.1
Strip any :manual:`generator expressions <cmake-generator-expressions(7)>`
from the input ``<string>`` and store the result
in the ``<output_variable>``.
.. signature::
string(REPEAT <string> <count> <output_variable>)
.. versionadded:: 3.15
Produce the output string as the input ``<string>``
repeated ``<count>`` times.
Comparison
^^^^^^^^^^
.. _COMPARE:
.. signature::
string(COMPARE LESS <string1> <string2> <output_variable>)
string(COMPARE GREATER <string1> <string2> <output_variable>)
string(COMPARE EQUAL <string1> <string2> <output_variable>)
string(COMPARE NOTEQUAL <string1> <string2> <output_variable>)
string(COMPARE LESS_EQUAL <string1> <string2> <output_variable>)
string(COMPARE GREATER_EQUAL <string1> <string2> <output_variable>)
Compare the strings and store true or false in the ``<output_variable>``.
.. versionadded:: 3.7
Added the ``LESS_EQUAL`` and ``GREATER_EQUAL`` options.
.. _`Supported Hash Algorithms`:
Hashing
^^^^^^^
.. signature::
string(<HASH> <output_variable> <input>)
:target: <HASH>
Compute a cryptographic hash of the ``<input>`` string.
The supported ``<HASH>`` algorithm names are:
``MD5``
Message-Digest Algorithm 5, RFC 1321.
``SHA1``
US Secure Hash Algorithm 1, RFC 3174.
``SHA224``
US Secure Hash Algorithms, RFC 4634.
``SHA256``
US Secure Hash Algorithms, RFC 4634.
``SHA384``
US Secure Hash Algorithms, RFC 4634.
``SHA512``
US Secure Hash Algorithms, RFC 4634.
``SHA3_224``
Keccak SHA-3.
``SHA3_256``
Keccak SHA-3.
``SHA3_384``
Keccak SHA-3.
``SHA3_512``
Keccak SHA-3.
.. versionadded:: 3.8
Added the ``SHA3_*`` hash algorithms.
Generation
^^^^^^^^^^
.. signature::
string(ASCII <number> [<number> ...] <output_variable>)
Convert all numbers into corresponding ASCII characters.
.. signature::
string(HEX <string> <output_variable>)
.. versionadded:: 3.18
Convert each byte in the input ``<string>`` to its hexadecimal representation
and store the concatenated hex digits in the ``<output_variable>``.
Letters in the output (``a`` through ``f``) are in lowercase.
.. signature::
string(CONFIGURE <string> <output_variable>
[@ONLY] [ESCAPE_QUOTES])
Transform a ``<string>`` like :command:`configure_file` transforms a file.
.. signature::
string(MAKE_C_IDENTIFIER <string> <output_variable>)
Convert each non-alphanumeric character in the input ``<string>`` to an
underscore and store the result in the ``<output_variable>``. If the first
character of the ``<string>`` is a digit, an underscore will also be
prepended to the result.
.. signature::
string(RANDOM [LENGTH <length>] [ALPHABET <alphabet>]
[RANDOM_SEED <seed>] <output_variable>)
Return a random string of given ``<length>`` consisting of
characters from the given ``<alphabet>``. Default length is 5 characters
and default alphabet is all numbers and upper and lower case letters.
If an integer ``RANDOM_SEED`` is given, its value will be used to seed the
random number generator.
.. signature::
string(TIMESTAMP <output_variable> [<format_string>] [UTC])
Write a string representation of the current date
and/or time to the ``<output_variable>``.
If the command is unable to obtain a timestamp, the ``<output_variable>``
will be set to the empty string ``""``.
The optional ``UTC`` flag requests the current date/time representation to
be in Coordinated Universal Time (UTC) rather than local time.
The optional ``<format_string>`` may contain the following format
specifiers:
``%%``
.. versionadded:: 3.8
A literal percent sign (%).
``%d``
The day of the current month (01-31).
``%H``
The hour on a 24-hour clock (00-23).
``%I``
The hour on a 12-hour clock (01-12).
``%j``
The day of the current year (001-366).
``%m``
The month of the current year (01-12).
``%b``
.. versionadded:: 3.7
Abbreviated month name (e.g. Oct).
``%B``
.. versionadded:: 3.10
Full month name (e.g. October).
``%M``
The minute of the current hour (00-59).
``%s``
.. versionadded:: 3.6
Seconds since midnight (UTC) 1-Jan-1970 (UNIX time).
``%S``
The second of the current minute. 60 represents a leap second. (00-60)
``%f``
.. versionadded:: 3.23
The microsecond of the current second (000000-999999).
``%U``
The week number of the current year (00-53).
``%V``
.. versionadded:: 3.22
The ISO 8601 week number of the current year (01-53).
``%w``
The day of the current week. 0 is Sunday. (0-6)
``%a``
.. versionadded:: 3.7
Abbreviated weekday name (e.g. Fri).
``%A``
.. versionadded:: 3.10
Full weekday name (e.g. Friday).
``%y``
The last two digits of the current year (00-99).
``%Y``
The current year.
``%z``
.. versionadded:: 3.26
The offset of the time zone from UTC, in hours and minutes,
with format ``+hhmm`` or ``-hhmm``.
``%Z``
.. versionadded:: 3.26
The time zone name.
Unknown format specifiers will be ignored and copied to the output
as-is.
If no explicit ``<format_string>`` is given, it will default to:
::
%Y-%m-%dT%H:%M:%S for local time.
%Y-%m-%dT%H:%M:%SZ for UTC.
.. versionadded:: 3.8
If the ``SOURCE_DATE_EPOCH`` environment variable is set,
its value will be used instead of the current time.
See https://reproducible-builds.org/specs/source-date-epoch/ for details.
.. signature::
string(UUID <output_variable> NAMESPACE <namespace> NAME <name>
TYPE <MD5|SHA1> [UPPER])
.. versionadded:: 3.1
Create a universally unique identifier (aka GUID) as per RFC4122
based on the hash of the combined values of ``<namespace>``
(which itself has to be a valid UUID) and ``<name>``.
The hash algorithm can be either ``MD5`` (Version 3 UUID) or
``SHA1`` (Version 5 UUID).
A UUID has the format ``xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx``
where each ``x`` represents a lower case hexadecimal character.
Where required, an uppercase representation can be requested
with the optional ``UPPER`` flag.
.. _JSON:
JSON
^^^^
.. versionadded:: 3.19
Functionality for querying a JSON string.
.. note::
In each of the following JSON-related subcommands, if the optional
``ERROR_VARIABLE`` argument is given, errors will be reported in
``<error-variable>`` and the ``<out-var>`` will be set to
``<member|index>-[<member|index>...]-NOTFOUND`` with the path elements
up to the point where the error occurred, or just ``NOTFOUND`` if there
is no relevant path. If an error occurs but the ``ERROR_VARIABLE``
option is not present, a fatal error message is generated. If no error
occurs, the ``<error-variable>`` will be set to ``NOTFOUND``.
.. signature::
string(JSON <out-var> [ERROR_VARIABLE <error-variable>]
GET <json-string> <member|index> [<member|index> ...])
:target: JSON GET
Get an element from ``<json-string>`` at the location given
by the list of ``<member|index>`` arguments.
Array and object elements will be returned as a JSON string.
Boolean elements will be returned as ``ON`` or ``OFF``.
Null elements will be returned as an empty string.
Number and string types will be returned as strings.
.. signature::
string(JSON <out-var> [ERROR_VARIABLE <error-variable>]
TYPE <json-string> <member|index> [<member|index> ...])
:target: JSON TYPE
Get the type of an element in ``<json-string>`` at the location
given by the list of ``<member|index>`` arguments. The ``<out-var>``
will be set to one of ``NULL``, ``NUMBER``, ``STRING``, ``BOOLEAN``,
``ARRAY``, or ``OBJECT``.
.. signature::
string(JSON <out-var> [ERROR_VARIABLE <error-var>]
MEMBER <json-string>
[<member|index> ...] <index>)
:target: JSON MEMBER
Get the name of the ``<index>``-th member in ``<json-string>``
at the location given by the list of ``<member|index>`` arguments.
Requires an element of object type.
.. signature::
string(JSON <out-var> [ERROR_VARIABLE <error-variable>]
LENGTH <json-string> [<member|index> ...])
:target: JSON LENGTH
Get the length of an element in ``<json-string>`` at the location
given by the list of ``<member|index>`` arguments.
Requires an element of array or object type.
.. signature::
string(JSON <out-var> [ERROR_VARIABLE <error-variable>]
REMOVE <json-string> <member|index> [<member|index> ...])
:target: JSON REMOVE
Remove an element from ``<json-string>`` at the location
given by the list of ``<member|index>`` arguments. The JSON string
without the removed element will be stored in ``<out-var>``.
.. signature::
string(JSON <out-var> [ERROR_VARIABLE <error-variable>]
SET <json-string> <member|index> [<member|index> ...] <value>)
:target: JSON SET
Set an element in ``<json-string>`` at the location
given by the list of ``<member|index>`` arguments to ``<value>``.
The contents of ``<value>`` should be valid JSON.
If ``<json-string>`` is an array, ``<value>`` can be appended to the end of
the array by using a number greater or equal to the array length as the
``<member|index>`` argument.
.. signature::
string(JSON <out-var> [ERROR_VARIABLE <error-var>]
EQUAL <json-string1> <json-string2>)
:target: JSON EQUAL
Compare the two JSON objects given by ``<json-string1>``
and ``<json-string2>`` for equality. The contents of ``<json-string1>``
and ``<json-string2>`` should be valid JSON. The ``<out-var>``
will be set to a true value if the JSON objects are considered equal,
or a false value otherwise.