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819 lines
22 KiB
819 lines
22 KiB
--- |
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short-description: Syntax and structure of Meson files |
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... |
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# Syntax |
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The syntax of Meson's specification language has been kept as simple |
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as possible. It is *strongly typed* so no object is ever converted to |
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another under the covers. Variables have no visible type which makes |
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Meson *dynamically typed* (also known as *duck typed*). |
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The main building blocks of the language are *variables*, *numbers*, |
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*booleans*, *strings*, *arrays*, *function calls*, *method calls*, *if |
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statements* and *includes*. |
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Usually one Meson statement takes just one line. There is no way to |
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have multiple statements on one line as in e.g. *C*. Function and |
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method calls' argument lists can be split over multiple lines. Meson |
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will autodetect this case and do the right thing. |
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In other cases, *(added 0.50)* you can get multi-line statements by |
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ending the line with a `\`. Apart from line ending whitespace has no |
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syntactic meaning. |
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## Variables |
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Variables in Meson work just like in other high level programming |
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languages. A variable can contain a value of any type, such as an |
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integer or a string. Variables don't need to be predeclared, you can |
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just assign to them and they appear. Here's how you would assign |
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values to two different variables. |
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```meson |
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var1 = 'hello' |
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var2 = 102 |
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``` |
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One important difference in how variables work in Meson is that all |
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objects are immutable. When you see an operation which appears like |
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a mutation, actually a new object is created and assigned to the |
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name. This is different from, for example, how Python works for |
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objects, but similar to e.g. Python strings. |
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```meson |
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var1 = [1, 2, 3] |
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var2 = var1 |
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var2 += [4] |
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# var2 is now [1, 2, 3, 4] |
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# var1 is still [1, 2, 3] |
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``` |
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## Numbers |
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Meson supports only integer numbers. They are declared simply by |
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writing them out. Basic arithmetic operations are supported. |
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```meson |
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x = 1 + 2 |
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y = 3 * 4 |
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d = 5 % 3 # Yields 2. |
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``` |
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Hexadecimal literals are supported since version 0.45.0: |
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```meson |
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int_255 = 0xFF |
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``` |
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Octal and binary literals are supported since version 0.47.0: |
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```meson |
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int_493 = 0o755 |
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int_1365 = 0b10101010101 |
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``` |
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Strings can be converted to a number like this: |
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```meson |
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string_var = '42' |
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num = string_var.to_int() |
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``` |
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Numbers can be converted to a string: |
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```meson |
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int_var = 42 |
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string_var = int_var.to_string() |
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``` |
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## Booleans |
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A boolean is either `true` or `false`. |
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```meson |
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truth = true |
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``` |
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Booleans can be converted to a string or to a number: |
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```meson |
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bool_var = true |
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string_var = bool_var.to_string() |
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int_var = bool_var.to_int() |
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``` |
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## Strings |
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Strings in Meson are declared with single quotes. To enter a literal |
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single quote do it like this: |
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```meson |
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single quote = 'contains a \' character' |
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``` |
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The full list of escape sequences is: |
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* `\\` Backslash |
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* `\'` Single quote |
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* `\a` Bell |
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* `\b` Backspace |
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* `\f` Formfeed |
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* `\n` Newline |
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* `\r` Carriage Return |
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* `\t` Horizontal Tab |
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* `\v` Vertical Tab |
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* `\ooo` Character with octal value ooo |
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* `\xhh` Character with hex value hh |
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* `\uxxxx` Character with 16-bit hex value xxxx |
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* `\Uxxxxxxxx` Character with 32-bit hex value xxxxxxxx |
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* `\N{name}` Character named name in Unicode database |
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As in python and C, up to three octal digits are accepted in `\ooo`. |
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Unrecognized escape sequences are left in the string unchanged, i.e., the |
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backslash is left in the string. |
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### String concatenation |
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Strings can be concatenated to form a new string using the `+` symbol. |
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```meson |
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str1 = 'abc' |
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str2 = 'xyz' |
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combined = str1 + '_' + str2 # combined is now abc_xyz |
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``` |
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### String path building |
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*(Added 0.49)* |
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You can concatenate any two strings using `/` as an operator to build paths. |
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This will always use `/` as the path separator on all platforms. |
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```meson |
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joined = '/usr/share' / 'projectname' # => /usr/share/projectname |
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joined = '/usr/local' / '/etc/name' # => /etc/name |
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joined = 'C:\\foo\\bar' / 'builddir' # => C:/foo/bar/builddir |
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joined = 'C:\\foo\\bar' / 'D:\\builddir' # => D:/builddir |
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``` |
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Note that this is equivalent to using [[join_paths]], |
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which was obsoleted by this operator. |
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### Strings running over multiple lines |
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Strings running over multiple lines can be declared with three single |
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quotes, like this: |
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```meson |
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multiline_string = '''#include <foo.h> |
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int main (int argc, char ** argv) { |
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return FOO_SUCCESS; |
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}''' |
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``` |
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These are raw strings that do not support the escape sequences listed |
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above. These strings can also be combined with the string formatting |
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functionality via `.format()` described below. |
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Note that multiline f-string support was added in version 0.63. |
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### String index |
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Strings support the indexing (`[<num>]`) operator. This operator allows (read |
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only) accessing a specific character. The returned value is guaranteed to be |
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a string of length 1. |
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```meson |
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foo = 'abcd' |
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message(foo[1]) # Will print 'b' |
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foo[2] = 'C' # ERROR: Meson objects are immutable! |
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``` |
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### String formatting |
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#### .format() |
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Strings can be built using the string formatting functionality. |
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```meson |
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template = 'string: @0@, number: @1@, bool: @2@' |
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res = template.format('text', 1, true) |
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# res now has value 'string: text, number: 1, bool: true' |
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``` |
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As can be seen, the formatting works by replacing placeholders of type |
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`@number@` with the corresponding argument. |
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#### Format strings |
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*(Added 0.58)* |
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Format strings can be used as a non-positional alternative to the |
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string formatting functionality described above. Note that multiline f-string |
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support was added in version 0.63. |
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```meson |
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n = 10 |
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m = 'hi' |
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s = f'int: @n@, string: @m@' |
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# s now has the value 'int: 10, string: hi' |
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``` |
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Currently only identity-expressions are supported inside of format |
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strings, meaning you cannot use arbitrary Meson expressions inside of them. |
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```meson |
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n = 10 |
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m = 5 |
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# The following is not a valid format string |
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s = f'result: @n + m@' |
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``` |
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### String methods |
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Strings also support a number of other methods that return transformed |
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copies. |
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#### .replace() |
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Since 0.58.0, you can replace a substring from a string. |
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```meson |
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# Replaces all instances of one substring with another |
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s = 'semicolons;as;separators' |
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s = s.replace('as', 'are') |
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# 's' now has the value of 'semicolons;are;separators' |
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``` |
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#### .strip() |
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```meson |
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# Similar to the Python str.strip(). Removes leading/ending spaces and newlines |
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define = ' -Dsomedefine ' |
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stripped_define = define.strip() |
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# 'stripped_define' now has the value '-Dsomedefine' |
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# You may also pass a string to strip, which specifies the set of characters to |
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# be removed. |
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string = 'xyxHelloxyx'.strip('xy') |
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# 'string' now has the value 'Hello' |
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``` |
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Since 0.43.0, you can specify one positional string argument, |
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and all characters in that string will be stripped. |
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#### .to_upper(), .to_lower() |
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```meson |
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target = 'x86_FreeBSD' |
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upper = target.to_upper() # t now has the value 'X86_FREEBSD' |
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lower = target.to_lower() # t now has the value 'x86_freebsd' |
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``` |
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#### .to_int() |
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```meson |
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version = '1' |
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# Converts the string to an int and throws an error if it can't be |
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ver_int = version.to_int() |
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``` |
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#### .contains(), .startswith(), .endswith() |
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```meson |
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target = 'x86_FreeBSD' |
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is_fbsd = target.to_lower().contains('freebsd') |
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# is_fbsd now has the boolean value 'true' |
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is_x86 = target.startswith('x86') # boolean value 'true' |
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is_bsd = target.to_lower().endswith('bsd') # boolean value 'true' |
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``` |
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#### .substring() |
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Since 0.56.0, you can extract a substring from a string. |
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```meson |
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# Similar to the Python str[start:end] syntax |
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target = 'x86_FreeBSD' |
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platform = target.substring(0, 3) # prefix string value 'x86' |
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system = target.substring(4) # suffix string value 'FreeBSD' |
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``` |
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The method accepts negative values where negative `start` is relative to the end of |
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string `len(string) - start` as well as negative `end`. |
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```meson |
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string = 'foobar' |
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string.substring(-5, -3) # => 'oo' |
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string.substring(1, -1) # => 'ooba' |
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``` |
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#### .split(), .join() |
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```meson |
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# Similar to the Python str.split() |
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components = 'a b c d '.split() |
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# components now has the value ['a', 'b', 'c', 'd'] |
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components = 'a b c d '.split(' ') |
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# components now has the value ['a', 'b', '', '', 'c', 'd', ''] |
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# Similar to the Python str.join() |
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output = ' '.join(['foo', 'bar']) |
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# Output value is 'foo bar' |
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pathsep = ':' |
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path = pathsep.join(['/usr/bin', '/bin', '/usr/local/bin']) |
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# path now has the value '/usr/bin:/bin:/usr/local/bin' |
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# For joining path elements, you should use path1 / path2 |
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# This has the advantage of being cross-platform |
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path = '/usr' / 'local' / 'bin' |
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# path now has the value '/usr/local/bin' |
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# For sources files, use files(): |
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my_sources = files('foo.c') |
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... |
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my_sources += files('bar.c') |
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# This has the advantage of always calculating the correct relative path, even |
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# if you add files in another directory or use them in a different directory |
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# than they're defined in |
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# Example to set an API version for use in library(), install_header(), etc |
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project('project', 'c', version: '0.2.3') |
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version_array = meson.project_version().split('.') |
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# version_array now has the value ['0', '2', '3'] |
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api_version = '.'.join([version_array[0], version_array[1]]) |
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# api_version now has the value '0.2' |
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# We can do the same with .format() too: |
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api_version = '@0@.@1@'.format(version_array[0], version_array[1]) |
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# api_version now (again) has the value '0.2' |
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``` |
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#### .underscorify() |
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```meson |
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name = 'Meson Docs.txt#Reference-manual' |
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# Replaces all characters other than `a-zA-Z0-9` with `_` (underscore) |
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# Useful for substituting into #defines, filenames, etc. |
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underscored = name.underscorify() |
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# underscored now has the value 'Meson_Docs_txt_Reference_manual' |
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``` |
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#### .version_compare() |
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```meson |
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version = '1.2.3' |
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# Compare version numbers semantically |
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is_new = version.version_compare('>=2.0') |
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# is_new now has the boolean value false |
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# Supports the following operators: '>', '<', '>=', '<=', '!=', '==', '=' |
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``` |
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Meson version comparison conventions include: |
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```meson |
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'3.6'.version_compare('>=3.6.0') == false |
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``` |
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It is best to be unambiguous and specify the full revision level to compare. |
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## Arrays |
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Arrays are delimited by brackets. An array can contain an arbitrary number of objects of any type. |
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```meson |
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my_array = [1, 2, 'string', some_obj] |
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``` |
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Accessing elements of an array can be done via array indexing: |
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```meson |
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my_array = [1, 2, 'string', some_obj] |
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second_element = my_array[1] |
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last_element = my_array[-1] |
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``` |
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You can add more items to an array like this: |
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```meson |
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my_array += ['foo', 3, 4, another_obj] |
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``` |
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When adding a single item, you do not need to enclose it in an array: |
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```meson |
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my_array += ['something'] |
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# This also works |
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my_array += 'else' |
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``` |
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Note appending to an array will always create a new array object and |
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assign it to `my_array` instead of modifying the original since all |
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objects in Meson are immutable. |
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Since 0.49.0, you can check if an array contains an element like this: |
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```meson |
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my_array = [1, 2] |
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if 1 in my_array |
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# This condition is true |
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endif |
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if 1 not in my_array |
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# This condition is false |
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endif |
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``` |
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### Array methods |
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The following methods are defined for all arrays: |
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- `length`, the size of the array |
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- `contains`, returns `true` if the array contains the object given as argument, `false` otherwise |
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- `get`, returns the object at the given index, negative indices count from the back of the array, indexing out of bounds is a fatal error. Provided for backwards-compatibility, it is identical to array indexing. |
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## Dictionaries |
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Dictionaries are delimited by curly braces. A dictionary can contain |
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an arbitrary number of key: value pairs. Keys are required to be |
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strings, but values can be objects of any type. Prior to *0.53.0* keys |
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were required to be literal strings, i.e., you could not use a |
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variable containing a string value as a key. |
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```meson |
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my_dict = {'foo': 42, 'bar': 'baz'} |
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``` |
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Keys must be unique: |
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```meson |
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# This will fail |
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my_dict = {'foo': 42, 'foo': 43} |
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``` |
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Dictionaries are immutable and do not have a guaranteed order. |
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Dictionaries are available since 0.47.0. |
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Visit the [[@dict]] objects page in the Reference Manual to read |
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about the methods exposed by dictionaries. |
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Since 0.49.0, you can check if a dictionary contains a key like this: |
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```meson |
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my_dict = {'foo': 42, 'bar': 43} |
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if 'foo' in my_dict |
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# This condition is true |
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endif |
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if 42 in my_dict |
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# This condition is false |
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endif |
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if 'foo' not in my_dict |
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# This condition is false |
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endif |
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``` |
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*Since 0.53.0* Keys can be any expression evaluating to a string |
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value, not limited to string literals any more. |
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```meson |
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d = {'a' + 'b' : 42} |
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k = 'cd' |
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d += {k : 43} |
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``` |
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## Function calls |
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Meson provides a set of usable functions. The most common use case is |
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creating build objects. |
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```meson |
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executable('progname', 'prog.c') |
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``` |
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Most functions take only few positional arguments but several keyword |
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arguments, which are specified like this: |
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```meson |
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executable('progname', |
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sources: 'prog.c', |
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c_args: '-DFOO=1') |
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``` |
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Starting with version 0.49.0 keyword arguments can be specified |
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dynamically. This is done by passing dictionary representing the |
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keywords to set in the `kwargs` keyword. The previous example would be |
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specified like this: |
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```meson |
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d = {'sources': 'prog.c', |
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'c_args': '-DFOO=1'} |
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executable('progname', |
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kwargs: d) |
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``` |
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A single function can take keyword arguments both directly in the |
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function call and indirectly via the `kwargs` keyword argument. The |
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only limitation is that it is a hard error to pass any particular key |
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both as a direct and indirect argument. |
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```meson |
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d = {'c_args': '-DFOO'} |
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executable('progname', 'prog.c', |
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c_args: '-DBAZ=1', |
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kwargs: d) # This is an error! |
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``` |
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Attempting to do this causes Meson to immediately exit with an error. |
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### Argument flattening |
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Argument flattening is a Meson feature that aims to simplify using |
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methods and functions. For functions where this feature is active, |
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Meson takes the list of arguments and flattens all nested lists into |
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one big list. |
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For instance the following function calls to [[executable]] are |
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identical in Meson: |
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```meson |
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# A normal example: |
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executable('exe1', ['foo.c', 'bar.c', 'foobar.c']) |
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# A more contrived example that also works but certainly |
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# isn't good Meson code: |
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l1 = ['bar.c'] |
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executable('exe1', [[['foo.c', l1]], ['foobar.c']]) |
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# How meson will treat all the previous calls internally: |
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executable('exe1', 'foo.c', 'bar.c', 'foobar.c') |
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``` |
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Because of an internal implementation detail, the following syntax |
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is currently also supported, even though the first argument of |
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[[executable]] is a single [[@str]] and not a [[@list]]: |
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```meson |
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# WARNING: This example is only valid because of an internal |
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# implementation detail and not because it is intended |
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# |
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# PLEASE DO NOT DO SOMETHING LIKE THIS! |
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# |
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executable(['exe1', 'foo.c'], 'bar.c', 'foobar.c') |
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``` |
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This code is currently accepted because argument flattening *currently* |
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happens before the parameters are evaluated. "Support" for |
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such constructs will likely be removed in future Meson releases! |
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Argument flattening is supported by *most* but not *all* Meson |
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functions and methods. As a general rule, it can be assumed that a |
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function or method supports argument flattening if the exact list |
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structure is irrelevant to a function. |
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Whether a function supports argument flattening is documented in the |
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[Reference Manual](Reference-manual.md). |
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## Method calls |
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Objects can have methods, which are called with the dot operator. The |
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exact methods it provides depends on the object. |
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```meson |
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myobj = some_function() |
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myobj.do_something('now') |
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``` |
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## If statements |
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If statements work just like in other languages. |
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```meson |
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var1 = 1 |
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var2 = 2 |
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if var1 == var2 # Evaluates to false |
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something_broke() |
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elif var3 == var2 |
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something_else_broke() |
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else |
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everything_ok() |
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endif |
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opt = get_option('someoption') |
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if opt != 'foo' |
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do_something() |
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endif |
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``` |
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## Logical operations |
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Meson has the standard range of logical operations which can be used in |
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`if` statements. |
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```meson |
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if a and b |
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# do something |
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endif |
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if c or d |
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# do something |
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endif |
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if not e |
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# do something |
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endif |
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if not (f or g) |
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# do something |
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endif |
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``` |
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Logical operations work only on boolean values. |
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|
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## Foreach statements |
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|
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To do an operation on all elements of an iterable, use the `foreach` |
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command. |
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|
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> Note that Meson variables are immutable. Trying to assign a new value |
|
> to the iterated object inside a foreach loop will not affect foreach's |
|
> control flow. |
|
|
|
### Foreach with an array |
|
|
|
Here's an example of how you could define two executables |
|
with corresponding tests using arrays and foreach. |
|
|
|
```meson |
|
progs = [['prog1', ['prog1.c', 'foo.c']], |
|
['prog2', ['prog2.c', 'bar.c']]] |
|
|
|
foreach p : progs |
|
exe = executable(p[0], p[1]) |
|
test(p[0], exe) |
|
endforeach |
|
``` |
|
|
|
### Foreach with a dictionary |
|
|
|
Here's an example of you could iterate a set of components that |
|
should be compiled in according to some configuration. This uses |
|
a [dictionary][dictionaries], which is available since 0.47.0. |
|
|
|
```meson |
|
components = { |
|
'foo': ['foo.c'], |
|
'bar': ['bar.c'], |
|
'baz': ['baz.c'], |
|
} |
|
|
|
# compute a configuration based on system dependencies, custom logic |
|
conf = configuration_data() |
|
conf.set('USE_FOO', 1) |
|
|
|
# Determine the sources to compile |
|
sources_to_compile = [] |
|
foreach name, sources : components |
|
if conf.get('USE_@0@'.format(name.to_upper()), 0) == 1 |
|
sources_to_compile += sources |
|
endif |
|
endforeach |
|
``` |
|
|
|
### Foreach `break` and `continue` |
|
|
|
Since 0.49.0 `break` and `continue` keywords can be used inside foreach loops. |
|
|
|
```meson |
|
items = ['a', 'continue', 'b', 'break', 'c'] |
|
result = [] |
|
foreach i : items |
|
if i == 'continue' |
|
continue |
|
elif i == 'break' |
|
break |
|
endif |
|
result += i |
|
endforeach |
|
# result is ['a', 'b'] |
|
``` |
|
|
|
## Comments |
|
|
|
A comment starts with the `#` character and extends until the end of the line. |
|
|
|
```meson |
|
some_function() # This is a comment |
|
some_other_function() |
|
``` |
|
|
|
## Ternary operator |
|
|
|
The ternary operator works just like in other languages. |
|
|
|
```meson |
|
x = condition ? true_value : false_value |
|
``` |
|
|
|
The only exception is that nested ternary operators are forbidden to |
|
improve legibility. If your branching needs are more complex than this |
|
you need to write an `if/else` construct. |
|
|
|
## Includes |
|
|
|
Most source trees have multiple subdirectories to process. These can |
|
be handled by Meson's `subdir` command. It changes to the given |
|
subdirectory and executes the contents of `meson.build` in that |
|
subdirectory. All state (variables etc) are passed to and from the |
|
subdirectory. The effect is roughly the same as if the contents of the |
|
subdirectory's Meson file would have been written where the include |
|
command is. |
|
|
|
```meson |
|
test_data_dir = 'data' |
|
subdir('tests') |
|
``` |
|
|
|
## User-defined functions and methods |
|
|
|
Meson does not currently support user-defined functions or methods. |
|
The addition of user-defined functions would make Meson |
|
Turing-complete which would make it harder to reason about and more |
|
difficult to integrate with tools like IDEs. More details about this |
|
are [in the |
|
FAQ](FAQ.md#why-is-meson-not-just-a-python-module-so-i-could-code-my-build-setup-in-python). |
|
If because of this limitation you find yourself copying and pasting |
|
code a lot you may be able to use a [`foreach` loop |
|
instead](#foreach-statements). |
|
|
|
## Stability Promises |
|
|
|
Meson is very actively developed and continuously improved. There is a |
|
possibility that future enhancements to the Meson build system will |
|
require changes to the syntax. Such changes might be the addition of |
|
new reserved keywords, changing the meaning of existing keywords or |
|
additions around the basic building blocks like statements and |
|
fundamental types. It is planned to stabilize the syntax with the 1.0 |
|
release. |
|
|
|
## Grammar |
|
|
|
This is the full Meson grammar, as it is used to parse Meson build definition files: |
|
|
|
``` |
|
additive_expression: multiplicative_expression | (additive_expression additive_operator multiplicative_expression) |
|
additive_operator: "+" | "-" |
|
argument_list: positional_arguments ["," keyword_arguments] | keyword_arguments |
|
array_literal: "[" [expression_list] "]" |
|
assignment_statement: expression assignment_operator expression |
|
assignment_operator: "=" | "+=" |
|
binary_literal: "0b" BINARY_NUMBER |
|
BINARY_NUMBER: /[01]+/ |
|
boolean_literal: "true" | "false" |
|
build_definition: (NEWLINE | statement)* |
|
condition: expression |
|
conditional_expression: logical_or_expression | (logical_or_expression "?" expression ":" assignment_expression |
|
decimal_literal: DECIMAL_NUMBER |
|
DECIMAL_NUMBER: /[1-9][0-9]*/ |
|
dictionary_literal: "{" [key_value_list] "}" |
|
equality_expression: relational_expression | (equality_expression equality_operator relational_expression) |
|
equality_operator: "==" | "!=" |
|
expression: conditional_expression | logical_or_expression |
|
expression_list: expression ("," expression)* |
|
expression_statement: expression |
|
function_expression: id_expression "(" [argument_list] ")" |
|
hex_literal: "0x" HEX_NUMBER |
|
HEX_NUMBER: /[a-fA-F0-9]+/ |
|
id_expression: IDENTIFIER |
|
IDENTIFIER: /[a-zA-Z_][a-zA-Z_0-9]*/ |
|
identifier_list: id_expression ("," id_expression)* |
|
integer_literal: decimal_literal | octal_literal | hex_literal |
|
iteration_statement: "foreach" identifier_list ":" id_expression NEWLINE (statement | jump_statement)* "endforeach" |
|
jump_statement: ("break" | "continue") NEWLINE |
|
key_value_item: expression ":" expression |
|
key_value_list: key_value_item ("," key_value_item)* |
|
keyword_item: id_expression ":" expression |
|
keyword_arguments: keyword_item ("," keyword_item)* |
|
literal: integer_literal | string_literal | boolean_literal | array_literal | dictionary_literal |
|
logical_and_expression: equality_expression | (logical_and_expression "and" equality_expression) |
|
logical_or_expression: logical_and_expression | (logical_or_expression "or" logical_and_expression) |
|
method_expression: postfix_expression "." function_expression |
|
multiplicative_expression: unary_expression | (multiplicative_expression multiplicative_operator unary_expression) |
|
multiplicative_operator: "*" | "/" | "%" |
|
octal_literal: "0o" OCTAL_NUMBER |
|
OCTAL_NUMBER: /[0-7]+/ |
|
positional_arguments: expression ("," expression)* |
|
postfix_expression: primary_expression | subscript_expression | function_expression | method_expression |
|
primary_expression: literal | ("(" expression ")") | id_expression |
|
relational_expression: additive_expression | (relational_expression relational_operator additive_expression) |
|
relational_operator: ">" | "<" | ">=" | "<=" | "in" | ("not" "in") |
|
selection_statement: "if" condition NEWLINE (statement)* ("elif" condition NEWLINE (statement)*)* ["else" (statement)*] "endif" |
|
statement: (expression_statement | selection_statement | iteration_statement | assignment_statement) NEWLINE |
|
string_literal: ("'" STRING_SIMPLE_VALUE "'") | ("'''" STRING_MULTILINE_VALUE "'''") |
|
STRING_MULTILINE_VALUE: \.*?(''')\ |
|
STRING_SIMPLE_VALUE: \.*?(?<!\\)(\\\\)*?'\ |
|
subscript_expression: postfix_expression "[" expression "]" |
|
unary_expression: postfix_expression | (unary_operator unary_expression) |
|
unary_operator: "not" | "-" |
|
```
|
|
|