# Copyright 2013-2021 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 mesonlib , mlog
from . baseobjects import TV_func , TYPE_var , TYPE_kwargs
from . disabler import Disabler
from . exceptions import InterpreterException , InvalidArguments
from . helpers import check_stringlist
from . _unholder import _unholder
from functools import wraps
import abc
import itertools
import typing as T
if T . TYPE_CHECKING :
from . . import mparser
def get_callee_args ( wrapped_args : T . Sequence [ T . Any ] ) - > T . Tuple [ ' mparser.BaseNode ' , T . List [ ' TYPE_var ' ] , ' TYPE_kwargs ' , str ] :
# First argument could be InterpreterBase, InterpreterObject or ModuleObject.
# In the case of a ModuleObject it is the 2nd argument (ModuleState) that
# contains the needed information.
s = wrapped_args [ 0 ]
if not hasattr ( s , ' current_node ' ) :
s = wrapped_args [ 1 ]
node = s . current_node
subproject = s . subproject
args = kwargs = None
if len ( wrapped_args ) > = 3 :
args = wrapped_args [ - 2 ]
kwargs = wrapped_args [ - 1 ]
return node , args , kwargs , subproject
def noPosargs ( f : TV_func ) - > TV_func :
@wraps ( f )
def wrapped ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
args = get_callee_args ( wrapped_args ) [ 1 ]
if args :
raise InvalidArguments ( ' Function does not take positional arguments. ' )
return f ( * wrapped_args , * * wrapped_kwargs )
return T . cast ( TV_func , wrapped )
def noKwargs ( f : TV_func ) - > TV_func :
@wraps ( f )
def wrapped ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
kwargs = get_callee_args ( wrapped_args ) [ 2 ]
if kwargs :
raise InvalidArguments ( ' Function does not take keyword arguments. ' )
return f ( * wrapped_args , * * wrapped_kwargs )
return T . cast ( TV_func , wrapped )
def stringArgs ( f : TV_func ) - > TV_func :
@wraps ( f )
def wrapped ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
args = get_callee_args ( wrapped_args ) [ 1 ]
assert ( isinstance ( args , list ) )
check_stringlist ( args )
return f ( * wrapped_args , * * wrapped_kwargs )
return T . cast ( TV_func , wrapped )
def noArgsFlattening ( f : TV_func ) - > TV_func :
setattr ( f , ' no-args-flattening ' , True ) # noqa: B010
return f
def noSecondLevelHolderResolving ( f : TV_func ) - > TV_func :
setattr ( f , ' no-second-level-holder-flattening ' , True ) # noqa: B010
return f
def permissive_unholder_return ( f : TV_func ) - > T . Callable [ . . . , TYPE_var ] :
@wraps ( f )
def wrapped ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
res = f ( * wrapped_args , * * wrapped_kwargs )
return _unholder ( res , permissive = True )
return T . cast ( T . Callable [ . . . , TYPE_var ] , wrapped )
def disablerIfNotFound ( f : TV_func ) - > TV_func :
@wraps ( f )
def wrapped ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
kwargs = get_callee_args ( wrapped_args ) [ 2 ]
disabler = kwargs . pop ( ' disabler ' , False )
ret = f ( * wrapped_args , * * wrapped_kwargs )
if disabler and not ret . found ( ) :
return Disabler ( )
return ret
return T . cast ( TV_func , wrapped )
class permittedKwargs :
def __init__ ( self , permitted : T . Set [ str ] ) :
self . permitted = permitted # type: T.Set[str]
def __call__ ( self , f : TV_func ) - > TV_func :
@wraps ( f )
def wrapped ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
node , args , kwargs , _ = get_callee_args ( wrapped_args )
for k in kwargs :
if k not in self . permitted :
mlog . warning ( f ''' Passed invalid keyword argument " { k } " . ''' , location = node )
mlog . warning ( ' This will become a hard error in the future. ' )
return f ( * wrapped_args , * * wrapped_kwargs )
return T . cast ( TV_func , wrapped )
def typed_pos_args ( name : str , * types : T . Union [ T . Type , T . Tuple [ T . Type , . . . ] ] ,
varargs : T . Optional [ T . Union [ T . Type , T . Tuple [ T . Type , . . . ] ] ] = None ,
optargs : T . Optional [ T . List [ T . Union [ T . Type , T . Tuple [ T . Type , . . . ] ] ] ] = None ,
min_varargs : int = 0 , max_varargs : int = 0 ) - > T . Callable [ . . . , T . Any ] :
""" Decorator that types type checking of positional arguments.
This supports two different models of optional aguments , the first is the
variadic argument model . Variadic arguments are a possibly bounded ,
possibly unbounded number of arguments of the same type ( unions are
supported ) . The second is the standard default value model , in this case
a number of optional arguments may be provided , but they are still
ordered , and they may have different types .
This function does not support mixing variadic and default arguments .
: name : The name of the decorated function ( as displayed in error messages )
: varargs : They type ( s ) of any variadic arguments the function takes . If
None the function takes no variadic args
: min_varargs : the minimum number of variadic arguments taken
: max_varargs : the maximum number of variadic arguments taken . 0 means unlimited
: optargs : The types of any optional arguments parameters taken . If None
then no optional paramters are taken .
Some examples of usage blow :
>> > @typed_pos_args ( ' mod.func ' , str , ( str , int ) )
. . . def func ( self , state : ModuleState , args : T . Tuple [ str , T . Union [ str , int ] ] , kwargs : T . Dict [ str , T . Any ] ) - > T . Any :
. . . pass
>> > @typed_pos_args ( ' method ' , str , varargs = str )
. . . def method ( self , node : BaseNode , args : T . Tuple [ str , T . List [ str ] ] , kwargs : T . Dict [ str , T . Any ] ) - > T . Any :
. . . pass
>> > @typed_pos_args ( ' method ' , varargs = str , min_varargs = 1 )
. . . def method ( self , node : BaseNode , args : T . Tuple [ T . List [ str ] ] , kwargs : T . Dict [ str , T . Any ] ) - > T . Any :
. . . pass
>> > @typed_pos_args ( ' method ' , str , optargs = [ ( str , int ) , str ] )
. . . def method ( self , node : BaseNode , args : T . Tuple [ str , T . Optional [ T . Union [ str , int ] ] , T . Optional [ str ] ] , kwargs : T . Dict [ str , T . Any ] ) - > T . Any :
. . . pass
When should you chose ` typed_pos_args ( ' name ' , varargs = str ,
min_varargs = 1 ) ` vs ` typed_pos_args ( ' name ' , str , varargs = str ) ` ?
The answer has to do with the semantics of the function , if all of the
inputs are the same type ( such as with ` files ( ) ` ) then the former is
correct , all of the arguments are string names of files . If the first
argument is something else the it should be separated .
"""
def inner ( f : TV_func ) - > TV_func :
@wraps ( f )
def wrapper ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
args = get_callee_args ( wrapped_args ) [ 1 ]
# These are implementation programming errors, end users should never see them.
assert isinstance ( args , list ) , args
assert max_varargs > = 0 , ' max_varags cannot be negative '
assert min_varargs > = 0 , ' min_varags cannot be negative '
assert optargs is None or varargs is None , \
' varargs and optargs not supported together as this would be ambiguous '
num_args = len ( args )
num_types = len ( types )
a_types = types
if varargs :
min_args = num_types + min_varargs
max_args = num_types + max_varargs
if max_varargs == 0 and num_args < min_args :
raise InvalidArguments ( f ' { name } takes at least { min_args } arguments, but got { num_args } . ' )
elif max_varargs != 0 and ( num_args < min_args or num_args > max_args ) :
raise InvalidArguments ( f ' { name } takes between { min_args } and { max_args } arguments, but got { num_args } . ' )
elif optargs :
if num_args < num_types :
raise InvalidArguments ( f ' { name } takes at least { num_types } arguments, but got { num_args } . ' )
elif num_args > num_types + len ( optargs ) :
raise InvalidArguments ( f ' { name } takes at most { num_types + len ( optargs ) } arguments, but got { num_args } . ' )
# Add the number of positional arguments required
if num_args > num_types :
diff = num_args - num_types
a_types = tuple ( list ( types ) + list ( optargs [ : diff ] ) )
elif num_args != num_types :
raise InvalidArguments ( f ' { name } takes exactly { num_types } arguments, but got { num_args } . ' )
for i , ( arg , type_ ) in enumerate ( itertools . zip_longest ( args , a_types , fillvalue = varargs ) , start = 1 ) :
if not isinstance ( arg , type_ ) :
if isinstance ( type_ , tuple ) :
shouldbe = ' one of: {} ' . format ( " , " . join ( f ' " { t . __name__ } " ' for t in type_ ) )
else :
shouldbe = f ' " { type_ . __name__ } " '
raise InvalidArguments ( f ' { name } argument { i } was of type " { type ( arg ) . __name__ } " but should have been { shouldbe } ' )
# Ensure that we're actually passing a tuple.
# Depending on what kind of function we're calling the length of
# wrapped_args can vary.
nargs = list ( wrapped_args )
i = nargs . index ( args )
if varargs :
# if we have varargs we need to split them into a separate
# tuple, as python's typing doesn't understand tuples with
# fixed elements and variadic elements, only one or the other.
# so in that case we need T.Tuple[int, str, float, T.Tuple[str, ...]]
pos = args [ : len ( types ) ]
var = list ( args [ len ( types ) : ] )
pos . append ( var )
nargs [ i ] = tuple ( pos )
elif optargs :
if num_args < num_types + len ( optargs ) :
diff = num_types + len ( optargs ) - num_args
nargs [ i ] = tuple ( list ( args ) + [ None ] * diff )
else :
nargs [ i ] = args
else :
nargs [ i ] = tuple ( args )
return f ( * nargs , * * wrapped_kwargs )
return T . cast ( TV_func , wrapper )
return inner
class ContainerTypeInfo :
""" Container information for keyword arguments.
For keyword arguments that are containers ( list or dict ) , this class encodes
that information .
: param container : the type of container
: param contains : the types the container holds
: param pairs : if the container is supposed to be of even length .
This is mainly used for interfaces that predate the addition of dictionaries , and use
` [ key , value , key2 , value2 ] ` format .
: param allow_empty : Whether this container is allowed to be empty
There are some cases where containers not only must be passed , but must
not be empty , and other cases where an empty container is allowed .
"""
def __init__ ( self , container : T . Type , contains : T . Union [ T . Type , T . Tuple [ T . Type , . . . ] ] , * ,
pairs : bool = False , allow_empty : bool = True ) :
self . container = container
self . contains = contains
self . pairs = pairs
self . allow_empty = allow_empty
def check ( self , value : T . Any ) - > T . Optional [ str ] :
""" Check that a value is valid.
: param value : A value to check
: return : If there is an error then a string message , otherwise None
"""
if not isinstance ( value , self . container ) :
return f ' container type was " { type ( value ) . __name__ } " , but should have been " { self . container . __name__ } " '
iter_ = iter ( value . values ( ) ) if isinstance ( value , dict ) else iter ( value )
for each in iter_ :
if not isinstance ( each , self . contains ) :
if isinstance ( self . contains , tuple ) :
shouldbe = ' one of: {} ' . format ( " , " . join ( f ' " { t . __name__ } " ' for t in self . contains ) )
else :
shouldbe = f ' " { self . contains . __name__ } " '
return f ' contained a value of type " { type ( each ) . __name__ } " but should have been { shouldbe } '
if self . pairs and len ( value ) % 2 != 0 :
return ' container should be of even length, but is not '
if not value and not self . allow_empty :
return ' container is empty, but not allowed to be '
return None
_T = T . TypeVar ( ' _T ' )
class _NULL_T :
""" Special null type for evolution, this is an implementation detail. """
_NULL = _NULL_T ( )
class KwargInfo ( T . Generic [ _T ] ) :
""" A description of a keyword argument to a meson function
This is used to describe a value to the : func : typed_kwargs function .
: param name : the name of the parameter
: param types : A type or tuple of types that are allowed , or a : class : ContainerType
: param required : Whether this is a required keyword argument . defaults to False
: param listify : If true , then the argument will be listified before being
checked . This is useful for cases where the Meson DSL allows a scalar or
a container , but internally we only want to work with containers
: param default : A default value to use if this isn ' t set. defaults to None,
this may be safely set to a mutable type , as long as that type does not
itself contain mutable types , typed_kwargs will copy the default
: param since : Meson version in which this argument has been added . defaults to None
: param deprecated : Meson version in which this argument has been deprecated . defaults to None
: param validator : A callable that does additional validation . This is mainly
intended for cases where a string is expected , but only a few specific
values are accepted . Must return None if the input is valid , or a
message if the input is invalid
: param convertor : A callable that converts the raw input value into a
different type . This is intended for cases such as the meson DSL using a
string , but the implementation using an Enum . This should not do
validation , just converstion .
: param deprecated_values : a dictionary mapping a value to the version of
meson it was deprecated in .
: param since_values : a dictionary mapping a value to the version of meson it was
added in .
: param not_set_warning : A warning messsage that is logged if the kwarg is not
set by the user .
"""
def __init__ ( self , name : str , types : T . Union [ T . Type [ _T ] , T . Tuple [ T . Type [ _T ] , . . . ] , ContainerTypeInfo ] ,
* , required : bool = False , listify : bool = False ,
default : T . Optional [ _T ] = None ,
since : T . Optional [ str ] = None ,
since_values : T . Optional [ T . Dict [ str , str ] ] = None ,
deprecated : T . Optional [ str ] = None ,
deprecated_values : T . Optional [ T . Dict [ str , str ] ] = None ,
validator : T . Optional [ T . Callable [ [ _T ] , T . Optional [ str ] ] ] = None ,
convertor : T . Optional [ T . Callable [ [ _T ] , object ] ] = None ,
not_set_warning : T . Optional [ str ] = None ) :
self . name = name
self . types = types
self . required = required
self . listify = listify
self . default = default
self . since_values = since_values
self . since = since
self . deprecated = deprecated
self . deprecated_values = deprecated_values
self . validator = validator
self . convertor = convertor
self . not_set_warning = not_set_warning
def evolve ( self , * ,
name : T . Union [ str , _NULL_T ] = _NULL ,
required : T . Union [ bool , _NULL_T ] = _NULL ,
listify : T . Union [ bool , _NULL_T ] = _NULL ,
default : T . Union [ _T , None , _NULL_T ] = _NULL ,
since : T . Union [ str , None , _NULL_T ] = _NULL ,
since_values : T . Union [ T . Dict [ str , str ] , None , _NULL_T ] = _NULL ,
deprecated : T . Union [ str , None , _NULL_T ] = _NULL ,
deprecated_values : T . Union [ T . Dict [ str , str ] , None , _NULL_T ] = _NULL ,
validator : T . Union [ T . Callable [ [ _T ] , T . Optional [ str ] ] , None , _NULL_T ] = _NULL ,
convertor : T . Union [ T . Callable [ [ _T ] , TYPE_var ] , None , _NULL_T ] = _NULL ) - > ' KwargInfo ' :
""" Create a shallow copy of this KwargInfo, with modifications.
This allows us to create a new copy of a KwargInfo with modifications .
This allows us to use a shared kwarg that implements complex logic , but
has slight differences in usage , such as being added to different
functions in different versions of Meson .
The use the _NULL special value here allows us to pass None , which has
meaning in many of these cases . _NULL itself is never stored , always
being replaced by either the copy in self , or the provided new version .
"""
return type ( self ) (
name if not isinstance ( name , _NULL_T ) else self . name ,
self . types ,
listify = listify if not isinstance ( listify , _NULL_T ) else self . listify ,
required = required if not isinstance ( required , _NULL_T ) else self . required ,
default = default if not isinstance ( default , _NULL_T ) else self . default ,
since = since if not isinstance ( since , _NULL_T ) else self . since ,
since_values = since_values if not isinstance ( since_values , _NULL_T ) else self . since_values ,
deprecated = deprecated if not isinstance ( deprecated , _NULL_T ) else self . deprecated ,
deprecated_values = deprecated_values if not isinstance ( deprecated_values , _NULL_T ) else self . deprecated_values ,
validator = validator if not isinstance ( validator , _NULL_T ) else self . validator ,
convertor = convertor if not isinstance ( convertor , _NULL_T ) else self . convertor ,
)
def typed_kwargs ( name : str , * types : KwargInfo ) - > T . Callable [ . . . , T . Any ] :
""" Decorator for type checking keyword arguments.
Used to wrap a meson DSL implementation function , where it checks various
things about keyword arguments , including the type , and various other
information . For non - required values it sets the value to a default , which
means the value will always be provided .
If type tyhpe is a : class : ContainerTypeInfo , then the default value will be
passed as an argument to the container initializer , making a shallow copy
: param name : the name of the function , including the object it ' s attached ot
( if applicable )
: param * types : KwargInfo entries for each keyword argument .
"""
def inner ( f : TV_func ) - > TV_func :
@wraps ( f )
def wrapper ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
_kwargs , subproject = get_callee_args ( wrapped_args ) [ 2 : 4 ]
# Cast here, as the convertor function may place something other than a TYPE_var in the kwargs
kwargs = T . cast ( T . Dict [ str , object ] , _kwargs )
all_names = { t . name for t in types }
unknowns = set ( kwargs ) . difference ( all_names )
if unknowns :
# Warn about unknown argumnts, delete them and continue. This
# keeps current behavior
ustr = ' , ' . join ( [ f ' " { u } " ' for u in sorted ( unknowns ) ] )
mlog . warning ( f ' { name } got unknown keyword arguments { ustr } ' )
for u in unknowns :
del kwargs [ u ]
for info in types :
value = kwargs . get ( info . name )
if value is not None :
if info . since :
feature_name = info . name + ' arg in ' + name
FeatureNew . single_use ( feature_name , info . since , subproject )
if info . deprecated :
feature_name = info . name + ' arg in ' + name
FeatureDeprecated . single_use ( feature_name , info . deprecated , subproject )
if info . listify :
kwargs [ info . name ] = value = mesonlib . listify ( value )
if isinstance ( info . types , ContainerTypeInfo ) :
msg = info . types . check ( value )
if msg is not None :
raise InvalidArguments ( f ' { name } keyword argument " { info . name } " { msg } ' )
else :
if not isinstance ( value , info . types ) :
if isinstance ( info . types , tuple ) :
shouldbe = ' one of: {} ' . format ( " , " . join ( f ' " { t . __name__ } " ' for t in info . types ) )
else :
shouldbe = f ' " { info . types . __name__ } " '
raise InvalidArguments ( f ' { name } keyword argument " { info . name } " " was of type " { type ( value ) . __name__ } " but should have been { shouldbe } ' )
if info . validator is not None :
msg = info . validator ( value )
if msg is not None :
raise InvalidArguments ( f ' { name } keyword argument " { info . name } " { msg } ' )
warn : bool
if info . deprecated_values is not None :
for n , version in info . deprecated_values . items ( ) :
if isinstance ( value , ( dict , list ) ) :
warn = n in value
else :
warn = n == value
if warn :
FeatureDeprecated . single_use ( f ' " { name } " keyword argument " { info . name } " value " { n } " ' , version , subproject )
if info . since_values is not None :
for n , version in info . since_values . items ( ) :
if isinstance ( value , ( dict , list ) ) :
warn = n in value
else :
warn = n == value
if warn :
FeatureNew . single_use ( f ' " { name } " keyword argument " { info . name } " value " { n } " ' , version , subproject )
elif info . required :
raise InvalidArguments ( f ' { name } is missing required keyword argument " { info . name } " ' )
else :
# set the value to the default, this ensuring all kwargs are present
# This both simplifies the typing checking and the usage
# Create a shallow copy of the container (and do a type
# conversion if necessary). This allows mutable types to
# be used safely as default values
if isinstance ( info . types , ContainerTypeInfo ) :
assert isinstance ( info . default , info . types . container ) , f ' In function { name } default value of { info . name } is not a valid type, got { type ( info . default ) } , expected { info . types . container } [ { info . types . contains } ] '
for item in info . default :
assert isinstance ( item , info . types . contains ) , f ' In function { name } default value of { info . name } , container has invalid value of { item } , which is of type { type ( item ) } , but should be { info . types . contains } '
kwargs [ info . name ] = info . types . container ( info . default )
else :
assert isinstance ( info . default , info . types ) , f ' In funcion { name } default value of { info . name } is not a valid type, got { type ( info . default ) } expected { info . types } '
kwargs [ info . name ] = info . default
if info . not_set_warning :
mlog . warning ( info . not_set_warning )
if info . convertor :
kwargs [ info . name ] = info . convertor ( kwargs [ info . name ] )
return f ( * wrapped_args , * * wrapped_kwargs )
return T . cast ( TV_func , wrapper )
return inner
class FeatureCheckBase ( metaclass = abc . ABCMeta ) :
" Base class for feature version checks "
# In python 3.6 we can just forward declare this, but in 3.5 we can't
# This will be overwritten by the subclasses by necessity
feature_registry = { } # type: T.ClassVar[T.Dict[str, T.Dict[str, T.Set[str]]]]
def __init__ ( self , feature_name : str , version : str , extra_message : T . Optional [ str ] = None ) :
self . feature_name = feature_name # type: str
self . feature_version = version # type: str
self . extra_message = extra_message or ' ' # type: str
@staticmethod
def get_target_version ( subproject : str ) - > str :
# Don't do any checks if project() has not been parsed yet
if subproject not in mesonlib . project_meson_versions :
return ' '
return mesonlib . project_meson_versions [ subproject ]
@staticmethod
@abc . abstractmethod
def check_version ( target_version : str , feature_Version : str ) - > bool :
pass
def use ( self , subproject : str ) - > None :
tv = self . get_target_version ( subproject )
# No target version
if tv == ' ' :
return
# Target version is new enough
if self . check_version ( tv , self . feature_version ) :
return
# Feature is too new for target version, register it
if subproject not in self . feature_registry :
self . feature_registry [ subproject ] = { self . feature_version : set ( ) }
register = self . feature_registry [ subproject ]
if self . feature_version not in register :
register [ self . feature_version ] = set ( )
if self . feature_name in register [ self . feature_version ] :
# Don't warn about the same feature multiple times
# FIXME: This is needed to prevent duplicate warnings, but also
# means we won't warn about a feature used in multiple places.
return
register [ self . feature_version ] . add ( self . feature_name )
self . log_usage_warning ( tv )
@classmethod
def report ( cls , subproject : str ) - > None :
if subproject not in cls . feature_registry :
return
warning_str = cls . get_warning_str_prefix ( cls . get_target_version ( subproject ) )
fv = cls . feature_registry [ subproject ]
for version in sorted ( fv . keys ( ) ) :
warning_str + = ' \n * {} : {} ' . format ( version , fv [ version ] )
mlog . warning ( warning_str )
def log_usage_warning ( self , tv : str ) - > None :
raise InterpreterException ( ' log_usage_warning not implemented ' )
@staticmethod
def get_warning_str_prefix ( tv : str ) - > str :
raise InterpreterException ( ' get_warning_str_prefix not implemented ' )
def __call__ ( self , f : TV_func ) - > TV_func :
@wraps ( f )
def wrapped ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
subproject = get_callee_args ( wrapped_args ) [ 3 ]
if subproject is None :
raise AssertionError ( f ' { wrapped_args !r} ' )
self . use ( subproject )
return f ( * wrapped_args , * * wrapped_kwargs )
return T . cast ( TV_func , wrapped )
@classmethod
def single_use ( cls , feature_name : str , version : str , subproject : str ,
extra_message : T . Optional [ str ] = None ) - > None :
""" Oneline version that instantiates and calls use(). """
cls ( feature_name , version , extra_message ) . use ( subproject )
class FeatureNew ( FeatureCheckBase ) :
""" Checks for new features """
# Class variable, shared across all instances
#
# Format: {subproject: {feature_version: set(feature_names)}}
feature_registry = { } # type: T.ClassVar[T.Dict[str, T.Dict[str, T.Set[str]]]]
@staticmethod
def check_version ( target_version : str , feature_version : str ) - > bool :
return mesonlib . version_compare_condition_with_min ( target_version , feature_version )
@staticmethod
def get_warning_str_prefix ( tv : str ) - > str :
return f ' Project specifies a minimum meson_version \' { tv } \' but uses features which were added in newer versions: '
def log_usage_warning ( self , tv : str ) - > None :
args = [
' Project targeting ' , f " ' { tv } ' " ,
' but tried to use feature introduced in ' ,
f " ' { self . feature_version } ' : " ,
f ' { self . feature_name } . ' ,
]
if self . extra_message :
args . append ( self . extra_message )
mlog . warning ( * args )
class FeatureDeprecated ( FeatureCheckBase ) :
""" Checks for deprecated features """
# Class variable, shared across all instances
#
# Format: {subproject: {feature_version: set(feature_names)}}
feature_registry = { } # type: T.ClassVar[T.Dict[str, T.Dict[str, T.Set[str]]]]
@staticmethod
def check_version ( target_version : str , feature_version : str ) - > bool :
# For deprecation checks we need to return the inverse of FeatureNew checks
return not mesonlib . version_compare_condition_with_min ( target_version , feature_version )
@staticmethod
def get_warning_str_prefix ( tv : str ) - > str :
return ' Deprecated features used: '
def log_usage_warning ( self , tv : str ) - > None :
args = [
' Project targeting ' , f " ' { tv } ' " ,
' but tried to use feature deprecated since ' ,
f " ' { self . feature_version } ' : " ,
f ' { self . feature_name } . ' ,
]
if self . extra_message :
args . append ( self . extra_message )
mlog . warning ( * args )
class FeatureCheckKwargsBase ( metaclass = abc . ABCMeta ) :
@property
@abc . abstractmethod
def feature_check_class ( self ) - > T . Type [ FeatureCheckBase ] :
pass
def __init__ ( self , feature_name : str , feature_version : str ,
kwargs : T . List [ str ] , extra_message : T . Optional [ str ] = None ) :
self . feature_name = feature_name
self . feature_version = feature_version
self . kwargs = kwargs
self . extra_message = extra_message
def __call__ ( self , f : TV_func ) - > TV_func :
@wraps ( f )
def wrapped ( * wrapped_args : T . Any , * * wrapped_kwargs : T . Any ) - > T . Any :
kwargs , subproject = get_callee_args ( wrapped_args ) [ 2 : 4 ]
if subproject is None :
raise AssertionError ( f ' { wrapped_args !r} ' )
for arg in self . kwargs :
if arg not in kwargs :
continue
name = arg + ' arg in ' + self . feature_name
self . feature_check_class . single_use (
name , self . feature_version , subproject , self . extra_message )
return f ( * wrapped_args , * * wrapped_kwargs )
return T . cast ( TV_func , wrapped )
class FeatureNewKwargs ( FeatureCheckKwargsBase ) :
feature_check_class = FeatureNew
class FeatureDeprecatedKwargs ( FeatureCheckKwargsBase ) :
feature_check_class = FeatureDeprecated