# Copyright 2012-2019 The Meson development team
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from . import mlog
import pickle , os , uuid , shlex
cross: Implement support for loading cross files from system paths
One thing that makes cross compiling with meson a pain is the need for
cross files. The problem is not with cross files themselves (they're
actually rather brilliant in that they allow for a much greater deal of
flexibility than autotools hardcoded paths approach) but that each user
needs to reimplement them themselves, when for most people what they
really want is a cross file that could be provided by their distro, all
they really want is the correct toolchain.
This patch is the first stop to making it easier for distros to ship
their own cross files (and for users to put their's somewhere safe so
they don't get `git clean`ed. It allows the cross files (on Linux and
*BSD) to be stored in home and system paths (~/.config/meson/cross,
/usr/share/meson/cross, and /usr/local/share/meson/cross), and to be
loaded by simply by specificying --cross-file.
With this patch meson will check the locations its always checked first,
(is cross file absolute, or is it relative to $PWD), then will check
~/.config/meson/cross, /usr/local/share/meson/cross,
/usr/share/meson/cross, (or $XDG_CONFIG_PATH and $XDG_DATA_DIRS) for the
files, raising an exception if it cannot find the specified cross file.
Fixes #2283
7 years ago
import sys
from itertools import chain
from pathlib import PurePath
from collections import OrderedDict
from . mesonlib import (
MesonException , MachineChoice , PerMachine ,
default_libdir , default_libexecdir , default_prefix , stringlistify
)
from . wrap import WrapMode
import ast
import argparse
import configparser
version = ' 0.49.999 '
backendlist = [ ' ninja ' , ' vs ' , ' vs2010 ' , ' vs2015 ' , ' vs2017 ' , ' xcode ' ]
default_yielding = False
class UserOption :
def __init__ ( self , name , description , choices , yielding ) :
super ( ) . __init__ ( )
self . name = name
self . choices = choices
self . description = description
if yielding is None :
yielding = default_yielding
if not isinstance ( yielding , bool ) :
raise MesonException ( ' Value of " yielding " must be a boolean. ' )
self . yielding = yielding
def printable_value ( self ) :
return self . value
# Check that the input is a valid value and return the
# "cleaned" or "native" version. For example the Boolean
# option could take the string "true" and return True.
def validate_value ( self , value ) :
raise RuntimeError ( ' Derived option class did not override validate_value. ' )
def set_value ( self , newvalue ) :
self . value = self . validate_value ( newvalue )
class UserStringOption ( UserOption ) :
def __init__ ( self , name , description , value , choices = None , yielding = None ) :
super ( ) . __init__ ( name , description , choices , yielding )
self . set_value ( value )
def validate_value ( self , value ) :
if not isinstance ( value , str ) :
raise MesonException ( ' Value " %s " for string option " %s " is not a string. ' % ( str ( value ) , self . name ) )
return value
class UserBooleanOption ( UserOption ) :
def __init__ ( self , name , description , value , yielding = None ) :
super ( ) . __init__ ( name , description , [ True , False ] , yielding )
self . set_value ( value )
def __bool__ ( self ) :
return self . value
def validate_value ( self , value ) :
if isinstance ( value , bool ) :
return value
if value . lower ( ) == ' true ' :
return True
if value . lower ( ) == ' false ' :
return False
raise MesonException ( ' Value %s is not boolean (true or false). ' % value )
class UserIntegerOption ( UserOption ) :
def __init__ ( self , name , description , min_value , max_value , value , yielding = None ) :
super ( ) . __init__ ( name , description , [ True , False ] , yielding )
self . min_value = min_value
self . max_value = max_value
self . set_value ( value )
c = [ ]
if min_value is not None :
c . append ( ' >= ' + str ( min_value ) )
if max_value is not None :
c . append ( ' <= ' + str ( max_value ) )
self . choices = ' , ' . join ( c )
def validate_value ( self , value ) :
if isinstance ( value , str ) :
value = self . toint ( value )
if not isinstance ( value , int ) :
raise MesonException ( ' New value for integer option is not an integer. ' )
if self . min_value is not None and value < self . min_value :
raise MesonException ( ' New value %d is less than minimum value %d . ' % ( value , self . min_value ) )
if self . max_value is not None and value > self . max_value :
raise MesonException ( ' New value %d is more than maximum value %d . ' % ( value , self . max_value ) )
return value
def toint ( self , valuestring ) :
try :
return int ( valuestring )
except ValueError :
raise MesonException ( ' Value string " %s " is not convertable to an integer. ' % valuestring )
class UserUmaskOption ( UserIntegerOption ) :
def __init__ ( self , name , description , value , yielding = None ) :
super ( ) . __init__ ( name , description , 0 , 0o777 , value , yielding )
self . choices = [ ' preserve ' , ' 0000-0777 ' ]
def printable_value ( self ) :
if self . value == ' preserve ' :
return self . value
return format ( self . value , ' 04o ' )
def validate_value ( self , value ) :
if value is None or value == ' preserve ' :
return ' preserve '
return super ( ) . validate_value ( value )
def toint ( self , valuestring ) :
try :
return int ( valuestring , 8 )
except ValueError as e :
raise MesonException ( ' Invalid mode: {} ' . format ( e ) )
class UserComboOption ( UserOption ) :
def __init__ ( self , name , description , choices , value , yielding = None ) :
super ( ) . __init__ ( name , description , choices , yielding )
if not isinstance ( self . choices , list ) :
raise MesonException ( ' Combo choices must be an array. ' )
for i in self . choices :
if not isinstance ( i , str ) :
raise MesonException ( ' Combo choice elements must be strings. ' )
self . set_value ( value )
def validate_value ( self , value ) :
if value not in self . choices :
optionsstring = ' , ' . join ( [ ' " %s " ' % ( item , ) for item in self . choices ] )
raise MesonException ( ' Value " %s " for combo option " %s " is not one of the choices. Possible choices are: %s . ' % ( value , self . name , optionsstring ) )
return value
class UserArrayOption ( UserOption ) :
def __init__ ( self , name , description , value , shlex_split = False , user_input = False , allow_dups = False , * * kwargs ) :
super ( ) . __init__ ( name , description , kwargs . get ( ' choices ' , [ ] ) , yielding = kwargs . get ( ' yielding ' , None ) )
self . shlex_split = shlex_split
self . allow_dups = allow_dups
self . value = self . validate_value ( value , user_input = user_input )
def validate_value ( self , value , user_input = True ) :
# User input is for options defined on the command line (via -D
# options). Users can put their input in as a comma separated
# string, but for defining options in meson_options.txt the format
# should match that of a combo
if not user_input and isinstance ( value , str ) and not value . startswith ( ' [ ' ) :
raise MesonException ( ' Value does not define an array: ' + value )
if isinstance ( value , str ) :
if value . startswith ( ' [ ' ) :
newvalue = ast . literal_eval ( value )
elif value == ' ' :
newvalue = [ ]
else :
if self . shlex_split :
newvalue = shlex . split ( value )
else :
newvalue = [ v . strip ( ) for v in value . split ( ' , ' ) ]
elif isinstance ( value , list ) :
newvalue = value
else :
raise MesonException ( ' " {0} " should be a string array, but it is not ' . format ( str ( newvalue ) ) )
if not self . allow_dups and len ( set ( newvalue ) ) != len ( newvalue ) :
msg = ' Duplicated values in array option " %s " is deprecated. ' \
' This will become a hard error in the future. ' % ( self . name )
mlog . deprecation ( msg )
for i in newvalue :
if not isinstance ( i , str ) :
raise MesonException ( ' String array element " {0} " is not a string. ' . format ( str ( newvalue ) ) )
if self . choices :
bad = [ x for x in newvalue if x not in self . choices ]
if bad :
raise MesonException ( ' Options " {} " are not in allowed choices: " {} " ' . format (
' , ' . join ( bad ) , ' , ' . join ( self . choices ) ) )
return newvalue
class UserFeatureOption ( UserComboOption ) :
static_choices = [ ' enabled ' , ' disabled ' , ' auto ' ]
def __init__ ( self , name , description , value , yielding = None ) :
super ( ) . __init__ ( name , description , self . static_choices , value , yielding )
def is_enabled ( self ) :
return self . value == ' enabled '
def is_disabled ( self ) :
return self . value == ' disabled '
def is_auto ( self ) :
return self . value == ' auto '
def load_configs ( filenames ) :
""" Load native files. """
def gen ( ) :
for f in filenames :
f = os . path . expanduser ( os . path . expandvars ( f ) )
if os . path . exists ( f ) :
yield f
continue
elif sys . platform != ' win32 ' :
f = os . path . basename ( f )
paths = [
os . environ . get ( ' XDG_DATA_HOME ' , os . path . expanduser ( ' ~/.local/share ' ) ) ,
] + os . environ . get ( ' XDG_DATA_DIRS ' , ' /usr/local/share:/usr/share ' ) . split ( ' : ' )
for path in paths :
path_to_try = os . path . join ( path , ' meson ' , ' native ' , f )
if os . path . isfile ( path_to_try ) :
yield path_to_try
break
else :
raise MesonException ( ' Cannot find specified native file: ' + f )
continue
raise MesonException ( ' Cannot find specified native file: ' + f )
config = configparser . ConfigParser ( )
config . read ( gen ( ) )
return config
# This class contains all data that must persist over multiple
# invocations of Meson. It is roughly the same thing as
# cmakecache.
class CoreData :
def __init__ ( self , options ) :
self . lang_guids = {
' default ' : ' 8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942 ' ,
' c ' : ' 8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942 ' ,
' cpp ' : ' 8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942 ' ,
' test ' : ' 3AC096D0-A1C2-E12C-1390-A8335801FDAB ' ,
' directory ' : ' 2150E333-8FDC-42A3-9474-1A3956D46DE8 ' ,
}
self . test_guid = str ( uuid . uuid4 ( ) ) . upper ( )
self . regen_guid = str ( uuid . uuid4 ( ) ) . upper ( )
self . install_guid = str ( uuid . uuid4 ( ) ) . upper ( )
self . target_guids = { }
self . version = version
self . init_builtins ( )
self . backend_options = { }
self . user_options = { }
self . compiler_options = PerMachine ( { } , { } , { } )
self . base_options = { }
self . external_preprocess_args = PerMachine ( { } , { } , { } ) # CPPFLAGS only
cross: Implement support for loading cross files from system paths
One thing that makes cross compiling with meson a pain is the need for
cross files. The problem is not with cross files themselves (they're
actually rather brilliant in that they allow for a much greater deal of
flexibility than autotools hardcoded paths approach) but that each user
needs to reimplement them themselves, when for most people what they
really want is a cross file that could be provided by their distro, all
they really want is the correct toolchain.
This patch is the first stop to making it easier for distros to ship
their own cross files (and for users to put their's somewhere safe so
they don't get `git clean`ed. It allows the cross files (on Linux and
*BSD) to be stored in home and system paths (~/.config/meson/cross,
/usr/share/meson/cross, and /usr/local/share/meson/cross), and to be
loaded by simply by specificying --cross-file.
With this patch meson will check the locations its always checked first,
(is cross file absolute, or is it relative to $PWD), then will check
~/.config/meson/cross, /usr/local/share/meson/cross,
/usr/share/meson/cross, (or $XDG_CONFIG_PATH and $XDG_DATA_DIRS) for the
files, raising an exception if it cannot find the specified cross file.
Fixes #2283
7 years ago
self . cross_file = self . __load_cross_file ( options . cross_file )
self . compilers = OrderedDict ( )
self . cross_compilers = OrderedDict ( )
self . deps = OrderedDict ( )
# Only to print a warning if it changes between Meson invocations.
self . pkgconf_envvar = os . environ . get ( ' PKG_CONFIG_PATH ' , ' ' )
self . config_files = self . __load_config_files ( options . native_file )
self . libdir_cross_fixup ( )
@staticmethod
def __load_config_files ( filenames ) :
if not filenames :
return [ ]
filenames = [ os . path . abspath ( os . path . expanduser ( os . path . expanduser ( f ) ) )
for f in filenames ]
return filenames
cross: Implement support for loading cross files from system paths
One thing that makes cross compiling with meson a pain is the need for
cross files. The problem is not with cross files themselves (they're
actually rather brilliant in that they allow for a much greater deal of
flexibility than autotools hardcoded paths approach) but that each user
needs to reimplement them themselves, when for most people what they
really want is a cross file that could be provided by their distro, all
they really want is the correct toolchain.
This patch is the first stop to making it easier for distros to ship
their own cross files (and for users to put their's somewhere safe so
they don't get `git clean`ed. It allows the cross files (on Linux and
*BSD) to be stored in home and system paths (~/.config/meson/cross,
/usr/share/meson/cross, and /usr/local/share/meson/cross), and to be
loaded by simply by specificying --cross-file.
With this patch meson will check the locations its always checked first,
(is cross file absolute, or is it relative to $PWD), then will check
~/.config/meson/cross, /usr/local/share/meson/cross,
/usr/share/meson/cross, (or $XDG_CONFIG_PATH and $XDG_DATA_DIRS) for the
files, raising an exception if it cannot find the specified cross file.
Fixes #2283
7 years ago
@staticmethod
def __load_cross_file ( filename ) :
""" Try to load the cross file.
If the filename is None return None . If the filename is an absolute
( after resolving variables and ~ ) , return that absolute path . Next ,
check if the file is relative to the current source dir . If the path
still isn ' t resolved do the following:
Windows :
- Error
* :
cross: Implement support for loading cross files from system paths
One thing that makes cross compiling with meson a pain is the need for
cross files. The problem is not with cross files themselves (they're
actually rather brilliant in that they allow for a much greater deal of
flexibility than autotools hardcoded paths approach) but that each user
needs to reimplement them themselves, when for most people what they
really want is a cross file that could be provided by their distro, all
they really want is the correct toolchain.
This patch is the first stop to making it easier for distros to ship
their own cross files (and for users to put their's somewhere safe so
they don't get `git clean`ed. It allows the cross files (on Linux and
*BSD) to be stored in home and system paths (~/.config/meson/cross,
/usr/share/meson/cross, and /usr/local/share/meson/cross), and to be
loaded by simply by specificying --cross-file.
With this patch meson will check the locations its always checked first,
(is cross file absolute, or is it relative to $PWD), then will check
~/.config/meson/cross, /usr/local/share/meson/cross,
/usr/share/meson/cross, (or $XDG_CONFIG_PATH and $XDG_DATA_DIRS) for the
files, raising an exception if it cannot find the specified cross file.
Fixes #2283
7 years ago
- $ XDG_DATA_HOME / meson / cross ( or ~ / . local / share / meson / cross if
undefined )
- $ XDG_DATA_DIRS / meson / cross ( or
/ usr / local / share / meson / cross : / usr / share / meson / cross if undefined )
- Error
Non - Windows follows the Linux path and will honor XDG_ * if set . This
simplifies the implementation somewhat .
cross: Implement support for loading cross files from system paths
One thing that makes cross compiling with meson a pain is the need for
cross files. The problem is not with cross files themselves (they're
actually rather brilliant in that they allow for a much greater deal of
flexibility than autotools hardcoded paths approach) but that each user
needs to reimplement them themselves, when for most people what they
really want is a cross file that could be provided by their distro, all
they really want is the correct toolchain.
This patch is the first stop to making it easier for distros to ship
their own cross files (and for users to put their's somewhere safe so
they don't get `git clean`ed. It allows the cross files (on Linux and
*BSD) to be stored in home and system paths (~/.config/meson/cross,
/usr/share/meson/cross, and /usr/local/share/meson/cross), and to be
loaded by simply by specificying --cross-file.
With this patch meson will check the locations its always checked first,
(is cross file absolute, or is it relative to $PWD), then will check
~/.config/meson/cross, /usr/local/share/meson/cross,
/usr/share/meson/cross, (or $XDG_CONFIG_PATH and $XDG_DATA_DIRS) for the
files, raising an exception if it cannot find the specified cross file.
Fixes #2283
7 years ago
"""
if filename is None :
return None
filename = os . path . expanduser ( os . path . expandvars ( filename ) )
if os . path . isabs ( filename ) :
return filename
path_to_try = os . path . abspath ( filename )
if os . path . isfile ( path_to_try ) :
cross: Implement support for loading cross files from system paths
One thing that makes cross compiling with meson a pain is the need for
cross files. The problem is not with cross files themselves (they're
actually rather brilliant in that they allow for a much greater deal of
flexibility than autotools hardcoded paths approach) but that each user
needs to reimplement them themselves, when for most people what they
really want is a cross file that could be provided by their distro, all
they really want is the correct toolchain.
This patch is the first stop to making it easier for distros to ship
their own cross files (and for users to put their's somewhere safe so
they don't get `git clean`ed. It allows the cross files (on Linux and
*BSD) to be stored in home and system paths (~/.config/meson/cross,
/usr/share/meson/cross, and /usr/local/share/meson/cross), and to be
loaded by simply by specificying --cross-file.
With this patch meson will check the locations its always checked first,
(is cross file absolute, or is it relative to $PWD), then will check
~/.config/meson/cross, /usr/local/share/meson/cross,
/usr/share/meson/cross, (or $XDG_CONFIG_PATH and $XDG_DATA_DIRS) for the
files, raising an exception if it cannot find the specified cross file.
Fixes #2283
7 years ago
return path_to_try
if sys . platform != ' win32 ' :
cross: Implement support for loading cross files from system paths
One thing that makes cross compiling with meson a pain is the need for
cross files. The problem is not with cross files themselves (they're
actually rather brilliant in that they allow for a much greater deal of
flexibility than autotools hardcoded paths approach) but that each user
needs to reimplement them themselves, when for most people what they
really want is a cross file that could be provided by their distro, all
they really want is the correct toolchain.
This patch is the first stop to making it easier for distros to ship
their own cross files (and for users to put their's somewhere safe so
they don't get `git clean`ed. It allows the cross files (on Linux and
*BSD) to be stored in home and system paths (~/.config/meson/cross,
/usr/share/meson/cross, and /usr/local/share/meson/cross), and to be
loaded by simply by specificying --cross-file.
With this patch meson will check the locations its always checked first,
(is cross file absolute, or is it relative to $PWD), then will check
~/.config/meson/cross, /usr/local/share/meson/cross,
/usr/share/meson/cross, (or $XDG_CONFIG_PATH and $XDG_DATA_DIRS) for the
files, raising an exception if it cannot find the specified cross file.
Fixes #2283
7 years ago
paths = [
os . environ . get ( ' XDG_DATA_HOME ' , os . path . expanduser ( ' ~/.local/share ' ) ) ,
] + os . environ . get ( ' XDG_DATA_DIRS ' , ' /usr/local/share:/usr/share ' ) . split ( ' : ' )
for path in paths :
path_to_try = os . path . join ( path , ' meson ' , ' cross ' , filename )
if os . path . isfile ( path_to_try ) :
cross: Implement support for loading cross files from system paths
One thing that makes cross compiling with meson a pain is the need for
cross files. The problem is not with cross files themselves (they're
actually rather brilliant in that they allow for a much greater deal of
flexibility than autotools hardcoded paths approach) but that each user
needs to reimplement them themselves, when for most people what they
really want is a cross file that could be provided by their distro, all
they really want is the correct toolchain.
This patch is the first stop to making it easier for distros to ship
their own cross files (and for users to put their's somewhere safe so
they don't get `git clean`ed. It allows the cross files (on Linux and
*BSD) to be stored in home and system paths (~/.config/meson/cross,
/usr/share/meson/cross, and /usr/local/share/meson/cross), and to be
loaded by simply by specificying --cross-file.
With this patch meson will check the locations its always checked first,
(is cross file absolute, or is it relative to $PWD), then will check
~/.config/meson/cross, /usr/local/share/meson/cross,
/usr/share/meson/cross, (or $XDG_CONFIG_PATH and $XDG_DATA_DIRS) for the
files, raising an exception if it cannot find the specified cross file.
Fixes #2283
7 years ago
return path_to_try
raise MesonException ( ' Cannot find specified cross file: ' + filename )
raise MesonException ( ' Cannot find specified cross file: ' + filename )
def libdir_cross_fixup ( self ) :
# By default set libdir to "lib" when cross compiling since
# getting the "system default" is always wrong on multiarch
# platforms as it gets a value like lib/x86_64-linux-gnu.
if self . cross_file is not None :
self . builtins [ ' libdir ' ] . value = ' lib '
def sanitize_prefix ( self , prefix ) :
if not os . path . isabs ( prefix ) :
raise MesonException ( ' prefix value {!r} must be an absolute path '
' ' . format ( prefix ) )
if prefix . endswith ( ' / ' ) or prefix . endswith ( ' \\ ' ) :
# On Windows we need to preserve the trailing slash if the
# string is of type 'C:\' because 'C:' is not an absolute path.
if len ( prefix ) == 3 and prefix [ 1 ] == ' : ' :
pass
# If prefix is a single character, preserve it since it is
# the root directory.
elif len ( prefix ) == 1 :
pass
else :
prefix = prefix [ : - 1 ]
return prefix
def sanitize_dir_option_value ( self , prefix , option , value ) :
'''
If the option is an installation directory option and the value is an
absolute path , check that it resides within prefix and return the value
as a path relative to the prefix .
This way everyone can do f . ex , get_option ( ' libdir ' ) and be sure to get
the library directory relative to prefix .
'''
if option . endswith ( ' dir ' ) and os . path . isabs ( value ) and \
option not in builtin_dir_noprefix_options :
# Value must be a subdir of the prefix
# commonpath will always return a path in the native format, so we
# must use pathlib.PurePath to do the same conversion before
# comparing.
if os . path . commonpath ( [ value , prefix ] ) != str ( PurePath ( prefix ) ) :
m = ' The value of the {!r} option is {!r} which must be a ' \
' subdir of the prefix {!r} . \n Note that if you pass a ' \
' relative path, it is assumed to be a subdir of prefix. '
raise MesonException ( m . format ( option , value , prefix ) )
# Convert path to be relative to prefix
skip = len ( prefix ) + 1
value = value [ skip : ]
return value
def init_builtins ( self ) :
# Create builtin options with default values
self . builtins = { }
prefix = get_builtin_option_default ( ' prefix ' )
for key in get_builtin_options ( ) :
value = get_builtin_option_default ( key , prefix )
args = [ key ] + builtin_options [ key ] [ 1 : - 1 ] + [ value ]
self . builtins [ key ] = builtin_options [ key ] [ 0 ] ( * args )
def init_backend_options ( self , backend_name ) :
if backend_name == ' ninja ' :
self . backend_options [ ' backend_max_links ' ] = \
UserIntegerOption (
' backend_max_links ' ,
' Maximum number of linker processes to run or 0 for no '
' limit ' ,
0 , None , 0 )
elif backend_name . startswith ( ' vs ' ) :
self . backend_options [ ' backend_startup_project ' ] = \
UserStringOption (
' backend_startup_project ' ,
' Default project to execute in Visual Studio ' ,
' ' )
def get_builtin_option ( self , optname ) :
if optname in self . builtins :
v = self . builtins [ optname ]
if optname == ' wrap_mode ' :
return WrapMode . from_string ( v . value )
return v . value
raise RuntimeError ( ' Tried to get unknown builtin option %s . ' % optname )
def set_builtin_option ( self , optname , value ) :
if optname == ' prefix ' :
value = self . sanitize_prefix ( value )
elif optname in self . builtins :
prefix = self . builtins [ ' prefix ' ] . value
value = self . sanitize_dir_option_value ( prefix , optname , value )
else :
raise RuntimeError ( ' Tried to set unknown builtin option %s . ' % optname )
self . builtins [ optname ] . set_value ( value )
# Make sure that buildtype matches other settings.
if optname == ' buildtype ' :
self . set_others_from_buildtype ( value )
else :
self . set_buildtype_from_others ( )
def set_others_from_buildtype ( self , value ) :
if value == ' plain ' :
opt = ' 0 '
debug = False
elif value == ' debug ' :
opt = ' 0 '
debug = True
elif value == ' debugoptimized ' :
opt = ' 2 '
debug = True
elif value == ' release ' :
opt = ' 3 '
debug = False
elif value == ' minsize ' :
opt = ' s '
debug = True
else :
assert ( value == ' custom ' )
return
self . builtins [ ' optimization ' ] . set_value ( opt )
self . builtins [ ' debug ' ] . set_value ( debug )
def set_buildtype_from_others ( self ) :
opt = self . builtins [ ' optimization ' ] . value
debug = self . builtins [ ' debug ' ] . value
if opt == ' 0 ' and not debug :
mode = ' plain '
elif opt == ' 0 ' and debug :
mode = ' debug '
elif opt == ' 2 ' and debug :
mode = ' debugoptimized '
elif opt == ' 3 ' and not debug :
mode = ' release '
elif opt == ' s ' and debug :
mode = ' minsize '
else :
mode = ' custom '
self . builtins [ ' buildtype ' ] . set_value ( mode )
def get_all_compiler_options ( self ) :
# TODO think about cross and command-line interface. (Only .build is mentioned here.)
yield self . compiler_options . build
def _get_all_nonbuiltin_options ( self ) :
yield self . backend_options
yield self . user_options
yield from self . get_all_compiler_options ( )
yield self . base_options
def get_all_options ( self ) :
return chain ( [ self . builtins ] , self . _get_all_nonbuiltin_options ( ) )
def validate_option_value ( self , option_name , override_value ) :
for opts in self . get_all_options ( ) :
if option_name in opts :
opt = opts [ option_name ]
return opt . validate_value ( override_value )
raise MesonException ( ' Tried to validate unknown option %s . ' % option_name )
def get_external_args ( self , for_machine : MachineChoice , lang ) :
return self . compiler_options [ for_machine ] [ lang + ' _args ' ] . value
def get_external_link_args ( self , for_machine : MachineChoice , lang ) :
return self . compiler_options [ for_machine ] [ lang + ' _link_args ' ] . value
def get_external_preprocess_args ( self , for_machine : MachineChoice , lang ) :
return self . external_preprocess_args [ for_machine ] [ lang ]
def merge_user_options ( self , options ) :
for ( name , value ) in options . items ( ) :
if name not in self . user_options :
self . user_options [ name ] = value
else :
oldval = self . user_options [ name ]
if type ( oldval ) != type ( value ) :
self . user_options [ name ] = value
def set_options ( self , options , subproject = ' ' , warn_unknown = True ) :
# Set prefix first because it's needed to sanitize other options
prefix = self . builtins [ ' prefix ' ] . value
if ' prefix ' in options :
prefix = self . sanitize_prefix ( options [ ' prefix ' ] )
self . builtins [ ' prefix ' ] . set_value ( prefix )
for key in builtin_dir_noprefix_options :
if key not in options :
self . builtins [ key ] . set_value ( get_builtin_option_default ( key , prefix ) )
unknown_options = [ ]
for k , v in options . items ( ) :
if k == ' prefix ' :
pass
elif k in self . builtins :
self . set_builtin_option ( k , v )
else :
for opts in self . _get_all_nonbuiltin_options ( ) :
if k in opts :
tgt = opts [ k ]
tgt . set_value ( v )
break
else :
unknown_options . append ( k )
if unknown_options and warn_unknown :
unknown_options = ' , ' . join ( sorted ( unknown_options ) )
sub = ' In subproject {} : ' . format ( subproject ) if subproject else ' '
mlog . warning ( ' {} Unknown options: " {} " ' . format ( sub , unknown_options ) )
def set_default_options ( self , default_options , subproject , env ) :
# Set defaults first from conf files (cross or native), then
# override them as nec as necessary.
for k , v in env . paths . host :
if v is not None :
env . cmd_line_options . setdefault ( k , v )
# Set default options as if they were passed to the command line.
# Subprojects can only define default for user options.
from . import optinterpreter
for k , v in default_options . items ( ) :
if subproject :
if optinterpreter . is_invalid_name ( k ) :
continue
k = subproject + ' : ' + k
env . cmd_line_options . setdefault ( k , v )
# Create a subset of cmd_line_options, keeping only options for this
# subproject. Also take builtin options if it's the main project.
# Language and backend specific options will be set later when adding
# languages and setting the backend (builtin options must be set first
# to know which backend we'll use).
options = { }
for k , v in env . cmd_line_options . items ( ) :
if subproject :
if not k . startswith ( subproject + ' : ' ) :
continue
elif k not in get_builtin_options ( ) :
if ' : ' in k :
continue
if optinterpreter . is_invalid_name ( k ) :
continue
options [ k ] = v
self . set_options ( options , subproject )
def process_new_compilers ( self , lang : str , comp , cross_comp , env ) :
from . import compilers
self . compilers [ lang ] = comp
if cross_comp is not None :
self . cross_compilers [ lang ] = cross_comp
# Native compiler always exist so always add its options.
new_options_for_build = comp . get_and_default_options ( env . properties . build )
preproc_flags_for_build = comp . get_preproc_flags ( )
if cross_comp is not None :
new_options_for_host = cross_comp . get_and_default_options ( env . properties . host )
preproc_flags_for_host = cross_comp . get_preproc_flags ( )
else :
new_options_for_host = comp . get_and_default_options ( env . properties . host )
preproc_flags_for_host = comp . get_preproc_flags ( )
opts_machines_list = [
( new_options_for_build , preproc_flags_for_build , MachineChoice . BUILD ) ,
( new_options_for_host , preproc_flags_for_host , MachineChoice . HOST ) ,
]
optprefix = lang + ' _ '
for new_options , preproc_flags , for_machine in opts_machines_list :
for k , o in new_options . items ( ) :
if not k . startswith ( optprefix ) :
raise MesonException ( ' Internal error, %s has incorrect prefix. ' % k )
if ( env . machines . matches_build_machine ( for_machine ) and
k in env . cmd_line_options ) :
# TODO think about cross and command-line interface.
o . set_value ( env . cmd_line_options [ k ] )
self . compiler_options [ for_machine ] . setdefault ( k , o )
# Unlike compiler and linker flags, preprocessor flags are not in
# compiler_options because they are not visible to user.
preproc_flags = shlex . split ( preproc_flags )
k = lang + ' _args '
if lang in ( ' c ' , ' cpp ' , ' objc ' , ' objcpp ' ) and k in env . properties [ for_machine ] :
# `c_args` in the cross file are used, like CPPFLAGS but *not*
# CFLAGS, for tests. this is weird, but how it was already
# implemented. Hopefully a new version of #3916 fixes it.
preproc_flags = stringlistify ( env . properties [ for_machine ] [ k ] )
self . external_preprocess_args [ for_machine ] . setdefault ( lang , preproc_flags )
enabled_opts = [ ]
for optname in comp . base_options :
if optname in self . base_options :
continue
oobj = compilers . base_options [ optname ]
if optname in env . cmd_line_options :
oobj . set_value ( env . cmd_line_options [ optname ] )
enabled_opts . append ( optname )
self . base_options [ optname ] = oobj
self . emit_base_options_warnings ( enabled_opts )
def emit_base_options_warnings ( self , enabled_opts : list ) :
if ' b_bitcode ' in enabled_opts :
mlog . warning ( ' Base option \' b_bitcode \' is enabled, which is incompatible with many linker options. Incompatible options such as such as \' b_asneeded \' have been disabled. ' )
mlog . warning ( ' Please see https://mesonbuild.com/Builtin-options.html#Notes_about_Apple_Bitcode_support for more details. ' )
class CmdLineFileParser ( configparser . ConfigParser ) :
def __init__ ( self ) :
# We don't want ':' as key delimiter, otherwise it would break when
# storing subproject options like "subproject:option=value"
super ( ) . __init__ ( delimiters = [ ' = ' ] )
def get_cmd_line_file ( build_dir ) :
return os . path . join ( build_dir , ' meson-private ' , ' cmd_line.txt ' )
def read_cmd_line_file ( build_dir , options ) :
filename = get_cmd_line_file ( build_dir )
config = CmdLineFileParser ( )
config . read ( filename )
# Do a copy because config is not really a dict. options.cmd_line_options
# overrides values from the file.
d = dict ( config [ ' options ' ] )
d . update ( options . cmd_line_options )
options . cmd_line_options = d
properties = config [ ' properties ' ]
if options . cross_file is None :
options . cross_file = properties . get ( ' cross_file ' , None )
if not options . native_file :
# This will be a string in the form: "['first', 'second', ...]", use
# literal_eval to get it into the list of strings.
options . native_file = ast . literal_eval ( properties . get ( ' native_file ' , ' [] ' ) )
def write_cmd_line_file ( build_dir , options ) :
filename = get_cmd_line_file ( build_dir )
config = CmdLineFileParser ( )
properties = { }
if options . cross_file is not None :
properties [ ' cross_file ' ] = options . cross_file
if options . native_file :
properties [ ' native_file ' ] = options . native_file
config [ ' options ' ] = options . cmd_line_options
config [ ' properties ' ] = properties
with open ( filename , ' w ' ) as f :
config . write ( f )
def update_cmd_line_file ( build_dir , options ) :
filename = get_cmd_line_file ( build_dir )
config = CmdLineFileParser ( )
config . read ( filename )
config [ ' options ' ] . update ( options . cmd_line_options )
with open ( filename , ' w ' ) as f :
config . write ( f )
def major_versions_differ ( v1 , v2 ) :
return v1 . split ( ' . ' ) [ 0 : 2 ] != v2 . split ( ' . ' ) [ 0 : 2 ]
def load ( build_dir ) :
filename = os . path . join ( build_dir , ' meson-private ' , ' coredata.dat ' )
load_fail_msg = ' Coredata file {!r} is corrupted. Try with a fresh build tree. ' . format ( filename )
try :
with open ( filename , ' rb ' ) as f :
obj = pickle . load ( f )
except ( pickle . UnpicklingError , EOFError ) :
raise MesonException ( load_fail_msg )
except AttributeError :
raise MesonException (
" Coredata file {!r} references functions or classes that don ' t "
" exist. This probably means that it was generated with an old "
" version of meson. " . format ( filename ) )
if not isinstance ( obj , CoreData ) :
raise MesonException ( load_fail_msg )
if major_versions_differ ( obj . version , version ) :
raise MesonException ( ' Build directory has been generated with Meson version %s , '
' which is incompatible with current version %s . \n ' %
( obj . version , version ) )
return obj
def save ( obj , build_dir ) :
filename = os . path . join ( build_dir , ' meson-private ' , ' coredata.dat ' )
prev_filename = filename + ' .prev '
tempfilename = filename + ' ~ '
if major_versions_differ ( obj . version , version ) :
raise MesonException ( ' Fatal version mismatch corruption. ' )
if os . path . exists ( filename ) :
import shutil
shutil . copyfile ( filename , prev_filename )
with open ( tempfilename , ' wb ' ) as f :
pickle . dump ( obj , f )
f . flush ( )
os . fsync ( f . fileno ( ) )
os . replace ( tempfilename , filename )
return filename
def get_builtin_options ( ) :
return list ( builtin_options . keys ( ) )
def is_builtin_option ( optname ) :
return optname in get_builtin_options ( )
def get_builtin_option_choices ( optname ) :
if is_builtin_option ( optname ) :
if builtin_options [ optname ] [ 0 ] == UserComboOption :
return builtin_options [ optname ] [ 2 ]
elif builtin_options [ optname ] [ 0 ] == UserBooleanOption :
return [ True , False ]
elif builtin_options [ optname ] [ 0 ] == UserFeatureOption :
return UserFeatureOption . static_choices
else :
return None
else :
raise RuntimeError ( ' Tried to get the supported values for an unknown builtin option \' %s \' . ' % optname )
def get_builtin_option_description ( optname ) :
if is_builtin_option ( optname ) :
return builtin_options [ optname ] [ 1 ]
else :
raise RuntimeError ( ' Tried to get the description for an unknown builtin option \' %s \' . ' % optname )
def get_builtin_option_action ( optname ) :
default = builtin_options [ optname ] [ 2 ]
if default is True :
return ' store_false '
elif default is False :
return ' store_true '
return None
def get_builtin_option_default ( optname , prefix = ' ' ) :
if is_builtin_option ( optname ) :
o = builtin_options [ optname ]
if o [ 0 ] == UserComboOption :
return o [ 3 ]
if o [ 0 ] == UserIntegerOption :
return o [ 4 ]
try :
return builtin_dir_noprefix_options [ optname ] [ prefix ]
except KeyError :
pass
return o [ 2 ]
else :
raise RuntimeError ( ' Tried to get the default value for an unknown builtin option \' %s \' . ' % optname )
def get_builtin_option_cmdline_name ( name ) :
if name == ' warning_level ' :
return ' --warnlevel '
else :
return ' -- ' + name . replace ( ' _ ' , ' - ' )
def add_builtin_argument ( p , name ) :
kwargs = { }
c = get_builtin_option_choices ( name )
b = get_builtin_option_action ( name )
h = get_builtin_option_description ( name )
if not b :
h = h . rstrip ( ' . ' ) + ' (default: %s ). ' % get_builtin_option_default ( name )
else :
kwargs [ ' action ' ] = b
if c and not b :
kwargs [ ' choices ' ] = c
kwargs [ ' default ' ] = argparse . SUPPRESS
kwargs [ ' dest ' ] = name
cmdline_name = get_builtin_option_cmdline_name ( name )
p . add_argument ( cmdline_name , help = h , * * kwargs )
def register_builtin_arguments ( parser ) :
for n in builtin_options :
add_builtin_argument ( parser , n )
parser . add_argument ( ' -D ' , action = ' append ' , dest = ' projectoptions ' , default = [ ] , metavar = " option " ,
help = ' Set the value of an option, can be used several times to set multiple options. ' )
def create_options_dict ( options ) :
result = { }
for o in options :
try :
( key , value ) = o . split ( ' = ' , 1 )
except ValueError :
raise MesonException ( ' Option {!r} must have a value separated by equals sign. ' . format ( o ) )
result [ key ] = value
return result
def parse_cmd_line_options ( args ) :
args . cmd_line_options = create_options_dict ( args . projectoptions )
# Merge builtin options set with --option into the dict.
for name in builtin_options :
value = getattr ( args , name , None )
if value is not None :
if name in args . cmd_line_options :
cmdline_name = get_builtin_option_cmdline_name ( name )
raise MesonException (
' Got argument {0} as both -D {0} and {1} . Pick one. ' . format ( name , cmdline_name ) )
args . cmd_line_options [ name ] = value
delattr ( args , name )
builtin_options = {
' buildtype ' : [ UserComboOption , ' Build type to use ' , [ ' plain ' , ' debug ' , ' debugoptimized ' , ' release ' , ' minsize ' , ' custom ' ] , ' debug ' ] ,
' strip ' : [ UserBooleanOption , ' Strip targets on install ' , False ] ,
' unity ' : [ UserComboOption , ' Unity build ' , [ ' on ' , ' off ' , ' subprojects ' ] , ' off ' ] ,
' prefix ' : [ UserStringOption , ' Installation prefix ' , default_prefix ( ) ] ,
' libdir ' : [ UserStringOption , ' Library directory ' , default_libdir ( ) ] ,
' libexecdir ' : [ UserStringOption , ' Library executable directory ' , default_libexecdir ( ) ] ,
' bindir ' : [ UserStringOption , ' Executable directory ' , ' bin ' ] ,
' sbindir ' : [ UserStringOption , ' System executable directory ' , ' sbin ' ] ,
' includedir ' : [ UserStringOption , ' Header file directory ' , ' include ' ] ,
' datadir ' : [ UserStringOption , ' Data file directory ' , ' share ' ] ,
' mandir ' : [ UserStringOption , ' Manual page directory ' , ' share/man ' ] ,
' infodir ' : [ UserStringOption , ' Info page directory ' , ' share/info ' ] ,
' localedir ' : [ UserStringOption , ' Locale data directory ' , ' share/locale ' ] ,
' sysconfdir ' : [ UserStringOption , ' Sysconf data directory ' , ' etc ' ] ,
' localstatedir ' : [ UserStringOption , ' Localstate data directory ' , ' var ' ] ,
' sharedstatedir ' : [ UserStringOption , ' Architecture-independent data directory ' , ' com ' ] ,
' werror ' : [ UserBooleanOption , ' Treat warnings as errors ' , False ] ,
' warning_level ' : [ UserComboOption , ' Compiler warning level to use ' , [ ' 0 ' , ' 1 ' , ' 2 ' , ' 3 ' ] , ' 1 ' ] ,
' layout ' : [ UserComboOption , ' Build directory layout ' , [ ' mirror ' , ' flat ' ] , ' mirror ' ] ,
' default_library ' : [ UserComboOption , ' Default library type ' , [ ' shared ' , ' static ' , ' both ' ] , ' shared ' ] ,
' backend ' : [ UserComboOption , ' Backend to use ' , backendlist , ' ninja ' ] ,
' stdsplit ' : [ UserBooleanOption , ' Split stdout and stderr in test logs ' , True ] ,
' errorlogs ' : [ UserBooleanOption , " Whether to print the logs from failing tests " , True ] ,
' install_umask ' : [ UserUmaskOption , ' Default umask to apply on permissions of installed files ' , ' 022 ' ] ,
' auto_features ' : [ UserFeatureOption , " Override value of all ' auto ' features " , ' auto ' ] ,
' optimization ' : [ UserComboOption , ' Optimization level ' , [ ' 0 ' , ' g ' , ' 1 ' , ' 2 ' , ' 3 ' , ' s ' ] , ' 0 ' ] ,
' debug ' : [ UserBooleanOption , ' Debug ' , True ] ,
' wrap_mode ' : [ UserComboOption , ' Wrap mode ' , [ ' default ' ,
' nofallback ' ,
' nodownload ' ,
' forcefallback ' ] , ' default ' ] ,
}
# Special prefix-dependent defaults for installation directories that reside in
# a path outside of the prefix in FHS and common usage.
builtin_dir_noprefix_options = {
' sysconfdir ' : { ' /usr ' : ' /etc ' } ,
' localstatedir ' : { ' /usr ' : ' /var ' , ' /usr/local ' : ' /var/local ' } ,
' sharedstatedir ' : { ' /usr ' : ' /var/lib ' , ' /usr/local ' : ' /var/local/lib ' } ,
}
forbidden_target_names = { ' clean ' : None ,
' clean-ctlist ' : None ,
' clean-gcno ' : None ,
' clean-gcda ' : None ,
' coverage ' : None ,
' coverage-text ' : None ,
' coverage-xml ' : None ,
' coverage-html ' : None ,
' phony ' : None ,
' PHONY ' : None ,
' all ' : None ,
' test ' : None ,
' benchmark ' : None ,
' install ' : None ,
' uninstall ' : None ,
' build.ninja ' : None ,
' scan-build ' : None ,
' reconfigure ' : None ,
' dist ' : None ,
' distcheck ' : None ,
}