# Copyright 2012-2017 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.
import copy , os , re
from collections import OrderedDict
import itertools , pathlib
import hashlib
import pickle
from functools import lru_cache
import typing as T
from . import environment
from . import dependencies
from . import mlog
from . mesonlib import (
File , MesonException , MachineChoice , PerMachine , OrderedSet , listify ,
extract_as_list , typeslistify , stringlistify , classify_unity_sources ,
get_filenames_templates_dict , substitute_values , has_path_sep ,
)
from . compilers import Compiler , is_object , clink_langs , sort_clink , lang_suffixes
from . linkers import StaticLinker
from . interpreterbase import FeatureNew
pch_kwargs = set ( [ ' c_pch ' , ' cpp_pch ' ] )
lang_arg_kwargs = set ( [
' c_args ' ,
' cpp_args ' ,
' cuda_args ' ,
' d_args ' ,
' d_import_dirs ' ,
' d_unittest ' ,
' d_module_versions ' ,
' d_debug ' ,
' fortran_args ' ,
' java_args ' ,
' objc_args ' ,
' objcpp_args ' ,
' rust_args ' ,
' vala_args ' ,
' cs_args ' ,
] )
vala_kwargs = set ( [ ' vala_header ' , ' vala_gir ' , ' vala_vapi ' ] )
rust_kwargs = set ( [ ' rust_crate_type ' ] )
cs_kwargs = set ( [ ' resources ' , ' cs_args ' ] )
buildtarget_kwargs = set ( [
' build_by_default ' ,
' build_rpath ' ,
' dependencies ' ,
' extra_files ' ,
' gui_app ' ,
' link_with ' ,
' link_whole ' ,
' link_args ' ,
' link_depends ' ,
' implicit_include_directories ' ,
' include_directories ' ,
' install ' ,
' install_rpath ' ,
' install_dir ' ,
' install_mode ' ,
' name_prefix ' ,
' name_suffix ' ,
' native ' ,
' objects ' ,
' override_options ' ,
' sources ' ,
' gnu_symbol_visibility ' ,
] )
known_build_target_kwargs = (
buildtarget_kwargs |
lang_arg_kwargs |
pch_kwargs |
vala_kwargs |
rust_kwargs |
cs_kwargs )
known_exe_kwargs = known_build_target_kwargs | { ' implib ' , ' export_dynamic ' , ' link_language ' , ' pie ' }
known_shlib_kwargs = known_build_target_kwargs | { ' version ' , ' soversion ' , ' vs_module_defs ' , ' darwin_versions ' }
known_shmod_kwargs = known_build_target_kwargs | { ' vs_module_defs ' }
known_stlib_kwargs = known_build_target_kwargs | { ' pic ' }
known_jar_kwargs = known_exe_kwargs | { ' main_class ' }
@lru_cache ( maxsize = None )
def get_target_macos_dylib_install_name ( ld ) - > str :
name = [ ' @rpath/ ' , ld . prefix , ld . name ]
if ld . soversion is not None :
name . append ( ' . ' + ld . soversion )
name . append ( ' .dylib ' )
return ' ' . join ( name )
class InvalidArguments ( MesonException ) :
pass
class Build :
""" A class that holds the status of one build including
all dependencies and so on .
"""
def __init__ ( self , environment : environment . Environment ) :
self . project_name = ' name of master project '
self . project_version = None
self . environment = environment
self . projects = { }
self . targets = OrderedDict ( )
self . run_target_names = set ( ) # type: T.Set[T.Tuple[str, str]]
self . global_args = PerMachine ( { } , { } ) # type: PerMachine[T.Dict[str, T.List[str]]]
self . projects_args = PerMachine ( { } , { } ) # type: PerMachine[T.Dict[str, T.List[str]]]
self . global_link_args = PerMachine ( { } , { } ) # type: PerMachine[T.Dict[str, T.List[str]]]
self . projects_link_args = PerMachine ( { } , { } ) # type: PerMachine[T.Dict[str, T.List[str]]]
self . tests = [ ]
self . benchmarks = [ ]
self . headers = [ ]
self . man = [ ]
self . data = [ ]
self . static_linker = PerMachine ( None , None ) # type: PerMachine[StaticLinker]
self . subprojects = { }
self . subproject_dir = ' '
self . install_scripts = [ ]
self . postconf_scripts = [ ]
self . dist_scripts = [ ]
self . install_dirs = [ ]
self . dep_manifest_name = None
self . dep_manifest = { }
self . stdlibs = PerMachine ( { } , { } )
self . test_setups = { } # type: T.Dict[str, TestSetup]
self . test_setup_default_name = None
self . find_overrides = { }
self . searched_programs = set ( ) # The list of all programs that have been searched for.
def copy ( self ) :
other = Build ( self . environment )
for k , v in self . __dict__ . items ( ) :
if isinstance ( v , ( list , dict , set , OrderedDict ) ) :
other . __dict__ [ k ] = v . copy ( )
else :
other . __dict__ [ k ] = v
return other
def merge ( self , other ) :
for k , v in other . __dict__ . items ( ) :
self . __dict__ [ k ] = v
def ensure_static_linker ( self , compiler ) :
if self . static_linker [ compiler . for_machine ] is None and compiler . needs_static_linker ( ) :
self . static_linker [ compiler . for_machine ] = self . environment . detect_static_linker ( compiler )
def get_project ( self ) :
return self . projects [ ' ' ]
def get_subproject_dir ( self ) :
return self . subproject_dir
def get_targets ( self ) :
return self . targets
def get_tests ( self ) :
return self . tests
def get_benchmarks ( self ) :
return self . benchmarks
def get_headers ( self ) :
return self . headers
def get_man ( self ) :
return self . man
def get_data ( self ) :
return self . data
def get_install_subdirs ( self ) :
return self . install_dirs
def get_global_args ( self , compiler , for_machine ) :
d = self . global_args [ for_machine ]
return d . get ( compiler . get_language ( ) , [ ] )
def get_project_args ( self , compiler , project , for_machine ) :
d = self . projects_args [ for_machine ]
args = d . get ( project )
if not args :
return [ ]
return args . get ( compiler . get_language ( ) , [ ] )
def get_global_link_args ( self , compiler , for_machine ) :
d = self . global_link_args [ for_machine ]
return d . get ( compiler . get_language ( ) , [ ] )
def get_project_link_args ( self , compiler , project , for_machine ) :
d = self . projects_link_args [ for_machine ]
link_args = d . get ( project )
if not link_args :
return [ ]
return link_args . get ( compiler . get_language ( ) , [ ] )
class IncludeDirs :
def __init__ ( self , curdir , dirs , is_system , extra_build_dirs = None ) :
self . curdir = curdir
self . incdirs = dirs
self . is_system = is_system
# Interpreter has validated that all given directories
# actually exist.
if extra_build_dirs is None :
self . extra_build_dirs = [ ]
else :
self . extra_build_dirs = extra_build_dirs
def __repr__ ( self ) :
r = ' < {} {} / {} > '
return r . format ( self . __class__ . __name__ , self . curdir , self . incdirs )
def get_curdir ( self ) :
return self . curdir
def get_incdirs ( self ) :
return self . incdirs
def get_extra_build_dirs ( self ) :
return self . extra_build_dirs
class ExtractedObjects :
'''
Holds a list of sources for which the objects must be extracted
'''
def __init__ ( self , target , srclist = None , genlist = None , objlist = None , recursive = True ) :
self . target = target
self . recursive = recursive
self . srclist = srclist if srclist is not None else [ ]
self . genlist = genlist if genlist is not None else [ ]
self . objlist = objlist if objlist is not None else [ ]
if self . target . is_unity :
self . check_unity_compatible ( )
def __repr__ ( self ) :
r = ' < {0} {1!r} : {2} > '
return r . format ( self . __class__ . __name__ , self . target . name , self . srclist )
def classify_all_sources ( self , sources , generated_sources ) :
# Merge sources and generated sources
sources = list ( sources )
for gensrc in generated_sources :
for s in gensrc . get_outputs ( ) :
# We cannot know the path where this source will be generated,
# but all we need here is the file extension to determine the
# compiler.
sources . append ( s )
# Filter out headers and all non-source files
sources = [ s for s in sources if environment . is_source ( s ) and not environment . is_header ( s ) ]
return classify_unity_sources ( self . target . compilers . values ( ) , sources )
def check_unity_compatible ( self ) :
# Figure out if the extracted object list is compatible with a Unity
# build. When we're doing a Unified build, we go through the sources,
# and create a single source file from each subset of the sources that
# can be compiled with a specific compiler. Then we create one object
# from each unified source file. So for each compiler we can either
# extra all its sources or none.
cmpsrcs = self . classify_all_sources ( self . target . sources , self . target . generated )
extracted_cmpsrcs = self . classify_all_sources ( self . srclist , self . genlist )
for comp , srcs in extracted_cmpsrcs . items ( ) :
if set ( srcs ) != set ( cmpsrcs [ comp ] ) :
raise MesonException ( ' Single object files can not be extracted '
' in Unity builds. You can only extract all '
' the object files for each compiler at once. ' )
def get_outputs ( self , backend ) :
# TODO: Consider if we need to handle genlist here
return [
backend . object_filename_from_source ( self . target , source )
for source in self . srclist
]
class EnvironmentVariables :
def __init__ ( self ) :
self . envvars = [ ]
# The set of all env vars we have operations for. Only used for self.has_name()
self . varnames = set ( )
def __repr__ ( self ) :
repr_str = " < {0} : {1} > "
return repr_str . format ( self . __class__ . __name__ , self . envvars )
def add_var ( self , method , name , args , kwargs ) :
self . varnames . add ( name )
self . envvars . append ( ( method , name , args , kwargs ) )
def has_name ( self , name ) :
return name in self . varnames
def get_value ( self , values , kwargs ) :
separator = kwargs . get ( ' separator ' , os . pathsep )
value = ' '
for var in values :
value + = separator + var
return separator , value . strip ( separator )
def set ( self , env , name , values , kwargs ) :
return self . get_value ( values , kwargs ) [ 1 ]
def append ( self , env , name , values , kwargs ) :
sep , value = self . get_value ( values , kwargs )
if name in env :
return env [ name ] + sep + value
return value
def prepend ( self , env , name , values , kwargs ) :
sep , value = self . get_value ( values , kwargs )
if name in env :
return value + sep + env [ name ]
return value
def get_env ( self , full_env : T . Dict [ str , str ] ) - > T . Dict [ str , str ] :
env = full_env . copy ( )
for method , name , values , kwargs in self . envvars :
env [ name ] = method ( full_env , name , values , kwargs )
return env
class Target :
def __init__ ( self , name , subdir , subproject , build_by_default , for_machine : MachineChoice ) :
if has_path_sep ( name ) :
# Fix failing test 53 when this becomes an error.
mlog . warning ( ''' Target " %s " has a path separator in its name.
This is not supported , it can cause unexpected failures and will become
a hard error in the future . ''' % name)
self . name = name
self . subdir = subdir
self . subproject = subproject
self . build_by_default = build_by_default
self . for_machine = for_machine
self . install = False
self . build_always_stale = False
self . option_overrides = { }
if not hasattr ( self , ' typename ' ) :
raise RuntimeError ( ' Target type is not set for target class " {} " . This is a bug ' . format ( type ( self ) . __name__ ) )
def __lt__ ( self , other : T . Any ) - > T . Union [ bool , type ( NotImplemented ) ] :
if not hasattr ( other , ' get_id ' ) and not callable ( other . get_id ) :
return NotImplemented
return self . get_id ( ) < other . get_id ( )
def __le__ ( self , other : T . Any ) - > T . Union [ bool , type ( NotImplemented ) ] :
if not hasattr ( other , ' get_id ' ) and not callable ( other . get_id ) :
return NotImplemented
return self . get_id ( ) < = other . get_id ( )
def __gt__ ( self , other : T . Any ) - > T . Union [ bool , type ( NotImplemented ) ] :
if not hasattr ( other , ' get_id ' ) and not callable ( other . get_id ) :
return NotImplemented
return self . get_id ( ) > other . get_id ( )
def __ge__ ( self , other : T . Any ) - > T . Union [ bool , type ( NotImplemented ) ] :
if not hasattr ( other , ' get_id ' ) and not callable ( other . get_id ) :
return NotImplemented
return self . get_id ( ) > = other . get_id ( )
def get_install_dir ( self , environment ) :
# Find the installation directory.
default_install_dir = self . get_default_install_dir ( environment )
outdirs = self . get_custom_install_dir ( )
if outdirs [ 0 ] is not None and outdirs [ 0 ] != default_install_dir and outdirs [ 0 ] is not True :
# Either the value is set to a non-default value, or is set to
# False (which means we want this specific output out of many
# outputs to not be installed).
custom_install_dir = True
else :
custom_install_dir = False
outdirs [ 0 ] = default_install_dir
return outdirs , custom_install_dir
def get_basename ( self ) :
return self . name
def get_subdir ( self ) :
return self . subdir
def get_typename ( self ) :
return self . typename
@staticmethod
def _get_id_hash ( target_id ) :
# We don't really need cryptographic security here.
# Small-digest hash function with unlikely collision is good enough.
h = hashlib . sha256 ( )
h . update ( target_id . encode ( encoding = ' utf-8 ' , errors = ' replace ' ) )
# This ID should be case-insensitive and should work in Visual Studio,
# e.g. it should not start with leading '-'.
return h . hexdigest ( ) [ : 7 ]
@staticmethod
def construct_id_from_path ( subdir , name , type_suffix ) :
""" Construct target ID from subdir, name and type suffix.
This helper function is made public mostly for tests . """
# This ID must also be a valid file name on all OSs.
# It should also avoid shell metacharacters for obvious
# reasons. '@' is not used as often as '_' in source code names.
# In case of collisions consider using checksums.
# FIXME replace with assert when slash in names is prohibited
name_part = name . replace ( ' / ' , ' @ ' ) . replace ( ' \\ ' , ' @ ' )
assert not has_path_sep ( type_suffix )
my_id = name_part + type_suffix
if subdir :
subdir_part = Target . _get_id_hash ( subdir )
# preserve myid for better debuggability
return subdir_part + ' @@ ' + my_id
return my_id
def get_id ( self ) :
return self . construct_id_from_path (
self . subdir , self . name , self . type_suffix ( ) )
def process_kwargs_base ( self , kwargs ) :
if ' build_by_default ' in kwargs :
self . build_by_default = kwargs [ ' build_by_default ' ]
if not isinstance ( self . build_by_default , bool ) :
raise InvalidArguments ( ' build_by_default must be a boolean value. ' )
elif kwargs . get ( ' install ' , False ) :
# For backward compatibility, if build_by_default is not explicitly
# set, use the value of 'install' if it's enabled.
self . build_by_default = True
self . option_overrides = self . parse_overrides ( kwargs )
def parse_overrides ( self , kwargs ) - > dict :
result = { }
overrides = stringlistify ( kwargs . get ( ' override_options ' , [ ] ) )
for o in overrides :
if ' = ' not in o :
raise InvalidArguments ( ' Overrides must be of form " key=value " ' )
k , v = o . split ( ' = ' , 1 )
k = k . strip ( )
v = v . strip ( )
result [ k ] = v
return result
def is_linkable_target ( self ) - > bool :
return False
class BuildTarget ( Target ) :
known_kwargs = known_build_target_kwargs
def __init__ ( self , name , subdir , subproject , for_machine : MachineChoice , sources , objects , environment , kwargs ) :
super ( ) . __init__ ( name , subdir , subproject , True , for_machine )
unity_opt = environment . coredata . get_builtin_option ( ' unity ' )
self . is_unity = unity_opt == ' on ' or ( unity_opt == ' subprojects ' and subproject != ' ' )
self . environment = environment
self . sources = [ ]
self . compilers = OrderedDict ( ) # type: OrderedDict[str, Compiler]
self . objects = [ ]
self . external_deps = [ ]
self . include_dirs = [ ]
self . link_language = kwargs . get ( ' link_language ' )
self . link_targets = [ ]
self . link_whole_targets = [ ]
self . link_depends = [ ]
self . name_prefix_set = False
self . name_suffix_set = False
self . filename = ' no_name '
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
# The list of all files outputted by this target. Useful in cases such
# as Vala which generates .vapi and .h besides the compiled output.
self . outputs = [ self . filename ]
self . need_install = False
self . pch = { }
self . extra_args = { }
self . generated = [ ]
self . extra_files = [ ]
self . d_features = { }
self . pic = False
self . pie = False
# Sources can be:
# 1. Pre-existing source files in the source tree
# 2. Pre-existing sources generated by configure_file in the build tree
# 3. Sources files generated by another target or a Generator
self . process_sourcelist ( sources )
# Objects can be:
# 1. Pre-existing objects provided by the user with the `objects:` kwarg
# 2. Compiled objects created by and extracted from another target
self . process_objectlist ( objects )
self . process_kwargs ( kwargs , environment )
self . check_unknown_kwargs ( kwargs )
self . process_compilers ( )
if not any ( [ self . sources , self . generated , self . objects , self . link_whole ] ) :
raise InvalidArguments ( ' Build target %s has no sources. ' % name )
self . process_compilers_late ( )
self . validate_sources ( )
self . validate_install ( environment )
self . check_module_linking ( )
def __repr__ ( self ) :
repr_str = " < {0} {1} : {2} > "
return repr_str . format ( self . __class__ . __name__ , self . get_id ( ) , self . filename )
def validate_install ( self , environment ) :
if self . for_machine is MachineChoice . BUILD and self . need_install :
if environment . is_cross_build ( ) :
raise InvalidArguments ( ' Tried to install a target for the build machine in a cross build. ' )
else :
mlog . warning ( ' Installing target build for the build machine. This will fail in a cross build. ' )
def check_unknown_kwargs ( self , kwargs ) :
# Override this method in derived classes that have more
# keywords.
self . check_unknown_kwargs_int ( kwargs , self . known_kwargs )
def check_unknown_kwargs_int ( self , kwargs , known_kwargs ) :
unknowns = [ ]
for k in kwargs :
if k not in known_kwargs :
unknowns . append ( k )
if len ( unknowns ) > 0 :
mlog . warning ( ' Unknown keyword argument(s) in target %s : %s . ' %
( self . name , ' , ' . join ( unknowns ) ) )
def process_objectlist ( self , objects ) :
assert ( isinstance ( objects , list ) )
for s in objects :
if hasattr ( s , ' held_object ' ) :
s = s . held_object
if isinstance ( s , ( str , File , ExtractedObjects ) ) :
self . objects . append ( s )
elif isinstance ( s , ( GeneratedList , CustomTarget ) ) :
msg = ' Generated files are not allowed in the \' objects \' kwarg ' + \
' for target {!r} . \n It is meant only for ' . format ( self . name ) + \
' pre-built object files that are shipped with the \n source ' + \
' tree. Try adding it in the list of sources. '
raise InvalidArguments ( msg )
else :
msg = ' Bad object of type {!r} in target {!r} . ' . format ( type ( s ) . __name__ , self . name )
raise InvalidArguments ( msg )
def process_sourcelist ( self , sources ) :
sources = listify ( sources )
added_sources = { } # If the same source is defined multiple times, use it only once.
for s in sources :
# Holder unpacking. Ugly.
if hasattr ( s , ' held_object ' ) :
s = s . held_object
if isinstance ( s , File ) :
if s not in added_sources :
self . sources . append ( s )
added_sources [ s ] = True
elif isinstance ( s , ( GeneratedList , CustomTarget , CustomTargetIndex ) ) :
self . generated . append ( s )
else :
msg = ' Bad source of type {!r} in target {!r} . ' . format ( type ( s ) . __name__ , self . name )
raise InvalidArguments ( msg )
@staticmethod
def can_compile_remove_sources ( compiler , sources ) :
removed = False
for s in sources [ : ] :
if compiler . can_compile ( s ) :
sources . remove ( s )
removed = True
return removed
def process_compilers_late ( self ) :
""" Processes additional compilers after kwargs have been evaluated.
This can add extra compilers that might be required by keyword
arguments , such as link_with or dependencies . It will also try to guess
which compiler to use if one hasn ' t been selected already.
"""
# Populate list of compilers
compilers = self . environment . coredata . compilers [ self . for_machine ]
# did user override clink_langs for this target?
link_langs = [ self . link_language ] if self . link_language else clink_langs
# If this library is linked against another library we need to consider
# the languages of those libraries as well.
if self . link_targets or self . link_whole_targets :
extra = set ( )
for t in itertools . chain ( self . link_targets , self . link_whole_targets ) :
if isinstance ( t , CustomTarget ) or isinstance ( t , CustomTargetIndex ) :
continue # We can't know anything about these.
for name , compiler in t . compilers . items ( ) :
if name in link_langs :
extra . add ( ( name , compiler ) )
for name , compiler in sorted ( extra , key = lambda p : sort_clink ( p [ 0 ] ) ) :
self . compilers [ name ] = compiler
if not self . compilers :
# No source files or parent targets, target consists of only object
# files of unknown origin. Just add the first clink compiler
# that we have and hope that it can link these objects
for lang in link_langs :
if lang in compilers :
self . compilers [ lang ] = compilers [ lang ]
break
def process_compilers ( self ) :
'''
Populate self . compilers , which is the list of compilers that this
target will use for compiling all its sources .
We also add compilers that were used by extracted objects to simplify
dynamic linker determination .
'''
Don't use len() to test emptiness vs not emptiness
Meson has a common pattern of using 'if len(foo) == 0:' or
'if len(foo) != 0:', however, this is a common anti-pattern in python.
Instead tests for emptiness/non-emptiness should be done with a simple
'if foo:' or 'if not foo:'
Consider the following:
>>> import timeit
>>> timeit.timeit('if len([]) == 0: pass')
0.10730923599840025
>>> timeit.timeit('if not []: pass')
0.030033907998586074
>>> timeit.timeit('if len(['a', 'b', 'c', 'd']) == 0: pass')
0.1154778649979562
>>> timeit.timeit("if not ['a', 'b', 'c', 'd']: pass")
0.08259823200205574
>>> timeit.timeit('if len("") == 0: pass')
0.089759664999292
>>> timeit.timeit('if not "": pass')
0.02340641999762738
>>> timeit.timeit('if len("foo") == 0: pass')
0.08848102600313723
>>> timeit.timeit('if not "foo": pass')
0.04032287199879647
And for the one additional case of 'if len(foo.strip()) == 0', which can
be replaced with 'if not foo.isspace()'
>>> timeit.timeit('if len(" ".strip()) == 0: pass')
0.15294511600222904
>>> timeit.timeit('if " ".isspace(): pass')
0.09413968399894657
>>> timeit.timeit('if len(" abc".strip()) == 0: pass')
0.2023209120015963
>>> timeit.timeit('if " abc".isspace(): pass')
0.09571301700270851
In other words, it's always a win to not use len(), when you don't
actually want to check the length.
8 years ago
if not self . sources and not self . generated and not self . objects :
return
# Populate list of compilers
compilers = self . environment . coredata . compilers [ self . for_machine ]
# Pre-existing sources
sources = list ( self . sources )
# All generated sources
for gensrc in self . generated :
for s in gensrc . get_outputs ( ) :
# Generated objects can't be compiled, so don't use them for
# compiler detection. If our target only has generated objects,
# we will fall back to using the first c-like compiler we find,
# which is what we need.
if not is_object ( s ) :
sources . append ( s )
for d in self . external_deps :
if hasattr ( d , ' held_object ' ) :
d = d . held_object
for s in d . sources :
if isinstance ( s , ( str , File ) ) :
sources . append ( s )
# Sources that were used to create our extracted objects
for o in self . objects :
if not isinstance ( o , ExtractedObjects ) :
continue
for s in o . srclist :
# Don't add Vala sources since that will pull in the Vala
# compiler even though we will never use it since we are
# dealing with compiled C code.
if not s . endswith ( lang_suffixes [ ' vala ' ] ) :
sources . append ( s )
if sources :
# For each source, try to add one compiler that can compile it.
# It's ok if no compilers can do so, because users are expected to
# be able to add arbitrary non-source files to the sources list.
for s in sources :
for lang , compiler in compilers . items ( ) :
if compiler . can_compile ( s ) :
if lang not in self . compilers :
self . compilers [ lang ] = compiler
break
# Re-sort according to clink_langs
self . compilers = OrderedDict ( sorted ( self . compilers . items ( ) ,
key = lambda t : sort_clink ( t [ 0 ] ) ) )
# If all our sources are Vala, our target also needs the C compiler but
# it won't get added above.
if ' vala ' in self . compilers and ' c ' not in self . compilers :
self . compilers [ ' c ' ] = compilers [ ' c ' ]
def validate_sources ( self ) :
Don't use len() to test emptiness vs not emptiness
Meson has a common pattern of using 'if len(foo) == 0:' or
'if len(foo) != 0:', however, this is a common anti-pattern in python.
Instead tests for emptiness/non-emptiness should be done with a simple
'if foo:' or 'if not foo:'
Consider the following:
>>> import timeit
>>> timeit.timeit('if len([]) == 0: pass')
0.10730923599840025
>>> timeit.timeit('if not []: pass')
0.030033907998586074
>>> timeit.timeit('if len(['a', 'b', 'c', 'd']) == 0: pass')
0.1154778649979562
>>> timeit.timeit("if not ['a', 'b', 'c', 'd']: pass")
0.08259823200205574
>>> timeit.timeit('if len("") == 0: pass')
0.089759664999292
>>> timeit.timeit('if not "": pass')
0.02340641999762738
>>> timeit.timeit('if len("foo") == 0: pass')
0.08848102600313723
>>> timeit.timeit('if not "foo": pass')
0.04032287199879647
And for the one additional case of 'if len(foo.strip()) == 0', which can
be replaced with 'if not foo.isspace()'
>>> timeit.timeit('if len(" ".strip()) == 0: pass')
0.15294511600222904
>>> timeit.timeit('if " ".isspace(): pass')
0.09413968399894657
>>> timeit.timeit('if len(" abc".strip()) == 0: pass')
0.2023209120015963
>>> timeit.timeit('if " abc".isspace(): pass')
0.09571301700270851
In other words, it's always a win to not use len(), when you don't
actually want to check the length.
8 years ago
if not self . sources :
return
for lang in ( ' cs ' , ' java ' ) :
if lang in self . compilers :
check_sources = list ( self . sources )
compiler = self . compilers [ lang ]
if not self . can_compile_remove_sources ( compiler , check_sources ) :
m = ' No {} sources found in target {!r} ' . format ( lang , self . name )
raise InvalidArguments ( m )
if check_sources :
m = ' {0} targets can only contain {0} files: \n ' . format ( lang . capitalize ( ) )
m + = ' \n ' . join ( [ repr ( c ) for c in check_sources ] )
raise InvalidArguments ( m )
# CSharp and Java targets can't contain any other file types
assert ( len ( self . compilers ) == 1 )
return
def process_link_depends ( self , sources , environment ) :
""" Process the link_depends keyword argument.
This is designed to handle strings , Files , and the output of Custom
Targets . Notably it doesn ' t handle generator() returned objects, since
adding them as a link depends would inherently cause them to be
generated twice , since the output needs to be passed to the ld_args and
link_depends .
"""
sources = listify ( sources )
for s in sources :
if hasattr ( s , ' held_object ' ) :
s = s . held_object
if isinstance ( s , File ) :
self . link_depends . append ( s )
elif isinstance ( s , str ) :
self . link_depends . append (
File . from_source_file ( environment . source_dir , self . subdir , s ) )
elif hasattr ( s , ' get_outputs ' ) :
self . link_depends . extend (
[ File . from_built_file ( s . subdir , p ) for p in s . get_outputs ( ) ] )
else :
raise InvalidArguments (
' Link_depends arguments must be strings, Files, '
' or a Custom Target, or lists thereof. ' )
def get_original_kwargs ( self ) :
return self . kwargs
def unpack_holder ( self , d ) :
d = listify ( d )
newd = [ ]
for i in d :
if isinstance ( i , list ) :
i = self . unpack_holder ( i )
elif hasattr ( i , ' held_object ' ) :
i = i . held_object
for t in [ ' dependencies ' , ' link_with ' , ' include_directories ' , ' sources ' ] :
if hasattr ( i , t ) :
setattr ( i , t , self . unpack_holder ( getattr ( i , t ) ) )
newd . append ( i )
return newd
def copy_kwargs ( self , kwargs ) :
self . kwargs = copy . copy ( kwargs )
# This sucks quite badly. Arguments
# are holders but they can't be pickled
# so unpack those known.
for k , v in self . kwargs . items ( ) :
if isinstance ( v , list ) :
self . kwargs [ k ] = self . unpack_holder ( v )
if hasattr ( v , ' held_object ' ) :
self . kwargs [ k ] = v . held_object
for t in [ ' dependencies ' , ' link_with ' , ' include_directories ' , ' sources ' ] :
if t in self . kwargs :
self . kwargs [ t ] = self . unpack_holder ( self . kwargs [ t ] )
def extract_objects ( self , srclist ) :
obj_src = [ ]
for src in srclist :
if isinstance ( src , str ) :
src = File ( False , self . subdir , src )
elif isinstance ( src , File ) :
FeatureNew ( ' File argument for extract_objects ' , ' 0.50.0 ' ) . use ( self . subproject )
else :
raise MesonException ( ' Object extraction arguments must be strings or Files. ' )
# FIXME: It could be a generated source
if src not in self . sources :
raise MesonException ( ' Tried to extract unknown source %s . ' % src )
obj_src . append ( src )
return ExtractedObjects ( self , obj_src )
def extract_all_objects ( self , recursive = True ) :
return ExtractedObjects ( self , self . sources , self . generated , self . objects ,
recursive )
def get_all_link_deps ( self ) :
return self . get_transitive_link_deps ( )
@lru_cache ( maxsize = None )
def get_transitive_link_deps ( self ) :
result = [ ]
for i in self . link_targets :
result + = i . get_all_link_deps ( )
return result
def get_link_deps_mapping ( self , prefix , environment ) :
return self . get_transitive_link_deps_mapping ( prefix , environment )
@lru_cache ( maxsize = None )
def get_transitive_link_deps_mapping ( self , prefix , environment ) :
result = { }
for i in self . link_targets :
mapping = i . get_link_deps_mapping ( prefix , environment )
#we are merging two dictionaries, while keeping the earlier one dominant
result_tmp = mapping . copy ( )
result_tmp . update ( result )
result = result_tmp
return result
@lru_cache ( maxsize = None )
def get_link_dep_subdirs ( self ) :
result = OrderedSet ( )
for i in self . link_targets :
result . add ( i . get_subdir ( ) )
result . update ( i . get_link_dep_subdirs ( ) )
return result
def get_default_install_dir ( self , environment ) :
return environment . get_libdir ( )
def get_custom_install_dir ( self ) :
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
return self . install_dir
def get_custom_install_mode ( self ) :
return self . install_mode
def process_kwargs ( self , kwargs , environment ) :
self . process_kwargs_base ( kwargs )
self . copy_kwargs ( kwargs )
kwargs . get ( ' modules ' , [ ] )
self . need_install = kwargs . get ( ' install ' , self . need_install )
llist = extract_as_list ( kwargs , ' link_with ' )
for linktarget in llist :
# Sorry for this hack. Keyword targets are kept in holders
# in kwargs. Unpack here without looking at the exact type.
if hasattr ( linktarget , " held_object " ) :
linktarget = linktarget . held_object
if isinstance ( linktarget , dependencies . ExternalLibrary ) :
raise MesonException ( ''' An external library was used in link_with keyword argument, which
is reserved for libraries built as part of this project . External
libraries must be passed using the dependencies keyword argument
instead , because they are conceptually " external dependencies " ,
just like those detected with the dependency ( ) function . ''' )
self . link ( linktarget )
lwhole = extract_as_list ( kwargs , ' link_whole ' )
for linktarget in lwhole :
self . link_whole ( linktarget )
c_pchlist , cpp_pchlist , clist , cpplist , cudalist , cslist , valalist , objclist , objcpplist , fortranlist , rustlist \
= extract_as_list ( kwargs , ' c_pch ' , ' cpp_pch ' , ' c_args ' , ' cpp_args ' , ' cuda_args ' , ' cs_args ' , ' vala_args ' , ' objc_args ' ,
' objcpp_args ' , ' fortran_args ' , ' rust_args ' )
self . add_pch ( ' c ' , c_pchlist )
self . add_pch ( ' cpp ' , cpp_pchlist )
compiler_args = { ' c ' : clist , ' cpp ' : cpplist , ' cuda ' : cudalist , ' cs ' : cslist , ' vala ' : valalist , ' objc ' : objclist , ' objcpp ' : objcpplist ,
' fortran ' : fortranlist , ' rust ' : rustlist
}
for key , value in compiler_args . items ( ) :
self . add_compiler_args ( key , value )
if not isinstance ( self , Executable ) or ' export_dynamic ' in kwargs :
self . vala_header = kwargs . get ( ' vala_header ' , self . name + ' .h ' )
self . vala_vapi = kwargs . get ( ' vala_vapi ' , self . name + ' .vapi ' )
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
self . vala_gir = kwargs . get ( ' vala_gir ' , None )
dlist = stringlistify ( kwargs . get ( ' d_args ' , [ ] ) )
self . add_compiler_args ( ' d ' , dlist )
dfeatures = dict ( )
dfeature_unittest = kwargs . get ( ' d_unittest ' , False )
if dfeature_unittest :
dfeatures [ ' unittest ' ] = dfeature_unittest
dfeature_versions = kwargs . get ( ' d_module_versions ' , [ ] )
if dfeature_versions :
dfeatures [ ' versions ' ] = dfeature_versions
dfeature_debug = kwargs . get ( ' d_debug ' , [ ] )
if dfeature_debug :
dfeatures [ ' debug ' ] = dfeature_debug
if ' d_import_dirs ' in kwargs :
dfeature_import_dirs = extract_as_list ( kwargs , ' d_import_dirs ' , unholder = True )
for d in dfeature_import_dirs :
if not isinstance ( d , IncludeDirs ) :
raise InvalidArguments ( ' Arguments to d_import_dirs must be include_directories. ' )
dfeatures [ ' import_dirs ' ] = dfeature_import_dirs
if dfeatures :
self . d_features = dfeatures
self . link_args = extract_as_list ( kwargs , ' link_args ' )
for i in self . link_args :
if not isinstance ( i , str ) :
raise InvalidArguments ( ' Link_args arguments must be strings. ' )
for l in self . link_args :
if ' -Wl,-rpath ' in l or l . startswith ( ' -rpath ' ) :
mlog . warning ( ''' Please do not define rpath with a linker argument, use install_rpath or build_rpath properties instead.
This will become a hard error in a future Meson release . ''' )
self . process_link_depends ( kwargs . get ( ' link_depends ' , [ ] ) , environment )
# Target-specific include dirs must be added BEFORE include dirs from
# internal deps (added inside self.add_deps()) to override them.
inclist = extract_as_list ( kwargs , ' include_directories ' )
self . add_include_dirs ( inclist )
# Add dependencies (which also have include_directories)
deplist = extract_as_list ( kwargs , ' dependencies ' )
self . add_deps ( deplist )
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
# If an item in this list is False, the output corresponding to
# the list index of that item will not be installed
self . install_dir = typeslistify ( kwargs . get ( ' install_dir ' , [ None ] ) ,
( str , bool ) )
self . install_mode = kwargs . get ( ' install_mode ' , None )
main_class = kwargs . get ( ' main_class ' , ' ' )
if not isinstance ( main_class , str ) :
raise InvalidArguments ( ' Main class must be a string ' )
self . main_class = main_class
if isinstance ( self , Executable ) :
self . gui_app = kwargs . get ( ' gui_app ' , False )
if not isinstance ( self . gui_app , bool ) :
raise InvalidArguments ( ' Argument gui_app must be boolean. ' )
elif ' gui_app ' in kwargs :
raise InvalidArguments ( ' Argument gui_app can only be used on executables. ' )
extra_files = extract_as_list ( kwargs , ' extra_files ' )
for i in extra_files :
assert ( isinstance ( i , File ) )
trial = os . path . join ( environment . get_source_dir ( ) , i . subdir , i . fname )
if not ( os . path . isfile ( trial ) ) :
raise InvalidArguments ( ' Tried to add non-existing extra file %s . ' % i )
self . extra_files = extra_files
self . install_rpath = kwargs . get ( ' install_rpath ' , ' ' )
if not isinstance ( self . install_rpath , str ) :
raise InvalidArguments ( ' Install_rpath is not a string. ' )
self . build_rpath = kwargs . get ( ' build_rpath ' , ' ' )
if not isinstance ( self . build_rpath , str ) :
raise InvalidArguments ( ' Build_rpath is not a string. ' )
resources = extract_as_list ( kwargs , ' resources ' )
for r in resources :
if not isinstance ( r , str ) :
raise InvalidArguments ( ' Resource argument is not a string. ' )
trial = os . path . join ( environment . get_source_dir ( ) , self . subdir , r )
if not os . path . isfile ( trial ) :
raise InvalidArguments ( ' Tried to add non-existing resource %s . ' % r )
self . resources = resources
if ' name_prefix ' in kwargs :
name_prefix = kwargs [ ' name_prefix ' ]
if isinstance ( name_prefix , list ) :
Don't use len() to test emptiness vs not emptiness
Meson has a common pattern of using 'if len(foo) == 0:' or
'if len(foo) != 0:', however, this is a common anti-pattern in python.
Instead tests for emptiness/non-emptiness should be done with a simple
'if foo:' or 'if not foo:'
Consider the following:
>>> import timeit
>>> timeit.timeit('if len([]) == 0: pass')
0.10730923599840025
>>> timeit.timeit('if not []: pass')
0.030033907998586074
>>> timeit.timeit('if len(['a', 'b', 'c', 'd']) == 0: pass')
0.1154778649979562
>>> timeit.timeit("if not ['a', 'b', 'c', 'd']: pass")
0.08259823200205574
>>> timeit.timeit('if len("") == 0: pass')
0.089759664999292
>>> timeit.timeit('if not "": pass')
0.02340641999762738
>>> timeit.timeit('if len("foo") == 0: pass')
0.08848102600313723
>>> timeit.timeit('if not "foo": pass')
0.04032287199879647
And for the one additional case of 'if len(foo.strip()) == 0', which can
be replaced with 'if not foo.isspace()'
>>> timeit.timeit('if len(" ".strip()) == 0: pass')
0.15294511600222904
>>> timeit.timeit('if " ".isspace(): pass')
0.09413968399894657
>>> timeit.timeit('if len(" abc".strip()) == 0: pass')
0.2023209120015963
>>> timeit.timeit('if " abc".isspace(): pass')
0.09571301700270851
In other words, it's always a win to not use len(), when you don't
actually want to check the length.
8 years ago
if name_prefix :
raise InvalidArguments ( ' name_prefix array must be empty to signify null. ' )
elif not isinstance ( name_prefix , str ) :
raise InvalidArguments ( ' name_prefix must be a string. ' )
self . prefix = name_prefix
self . name_prefix_set = True
if ' name_suffix ' in kwargs :
name_suffix = kwargs [ ' name_suffix ' ]
if isinstance ( name_suffix , list ) :
Don't use len() to test emptiness vs not emptiness
Meson has a common pattern of using 'if len(foo) == 0:' or
'if len(foo) != 0:', however, this is a common anti-pattern in python.
Instead tests for emptiness/non-emptiness should be done with a simple
'if foo:' or 'if not foo:'
Consider the following:
>>> import timeit
>>> timeit.timeit('if len([]) == 0: pass')
0.10730923599840025
>>> timeit.timeit('if not []: pass')
0.030033907998586074
>>> timeit.timeit('if len(['a', 'b', 'c', 'd']) == 0: pass')
0.1154778649979562
>>> timeit.timeit("if not ['a', 'b', 'c', 'd']: pass")
0.08259823200205574
>>> timeit.timeit('if len("") == 0: pass')
0.089759664999292
>>> timeit.timeit('if not "": pass')
0.02340641999762738
>>> timeit.timeit('if len("foo") == 0: pass')
0.08848102600313723
>>> timeit.timeit('if not "foo": pass')
0.04032287199879647
And for the one additional case of 'if len(foo.strip()) == 0', which can
be replaced with 'if not foo.isspace()'
>>> timeit.timeit('if len(" ".strip()) == 0: pass')
0.15294511600222904
>>> timeit.timeit('if " ".isspace(): pass')
0.09413968399894657
>>> timeit.timeit('if len(" abc".strip()) == 0: pass')
0.2023209120015963
>>> timeit.timeit('if " abc".isspace(): pass')
0.09571301700270851
In other words, it's always a win to not use len(), when you don't
actually want to check the length.
8 years ago
if name_suffix :
raise InvalidArguments ( ' name_suffix array must be empty to signify null. ' )
else :
if not isinstance ( name_suffix , str ) :
raise InvalidArguments ( ' name_suffix must be a string. ' )
if name_suffix == ' ' :
raise InvalidArguments ( ' name_suffix should not be an empty string. '
' If you want meson to use the default behaviour '
' for each platform pass `[]` (empty array) ' )
self . suffix = name_suffix
self . name_suffix_set = True
if isinstance ( self , StaticLibrary ) :
# You can't disable PIC on OS X. The compiler ignores -fno-PIC.
# PIC is always on for Windows (all code is position-independent
# since library loading is done differently)
m = self . environment . machines [ self . for_machine ]
if m . is_darwin ( ) or m . is_windows ( ) :
self . pic = True
else :
self . pic = self . _extract_pic_pie ( kwargs , ' pic ' )
if isinstance ( self , Executable ) :
# Executables must be PIE on Android
if self . environment . machines [ self . for_machine ] . is_android ( ) :
self . pie = True
else :
self . pie = self . _extract_pic_pie ( kwargs , ' pie ' )
self . implicit_include_directories = kwargs . get ( ' implicit_include_directories ' , True )
if not isinstance ( self . implicit_include_directories , bool ) :
raise InvalidArguments ( ' Implicit_include_directories must be a boolean. ' )
self . gnu_symbol_visibility = kwargs . get ( ' gnu_symbol_visibility ' , ' ' )
if not isinstance ( self . gnu_symbol_visibility , str ) :
raise InvalidArguments ( ' GNU symbol visibility must be a string. ' )
if self . gnu_symbol_visibility != ' ' :
permitted = [ ' default ' , ' internal ' , ' hidden ' , ' protected ' , ' inlineshidden ' ]
if self . gnu_symbol_visibility not in permitted :
raise InvalidArguments ( ' GNU symbol visibility arg %s not one of: %s ' ,
self . symbol_visibility , ' , ' . join ( permitted ) )
def _extract_pic_pie ( self , kwargs , arg ) :
# Check if we have -fPIC, -fpic, -fPIE, or -fpie in cflags
all_flags = self . extra_args [ ' c ' ] + self . extra_args [ ' cpp ' ]
if ' -f ' + arg . lower ( ) in all_flags or ' -f ' + arg . upper ( ) in all_flags :
mlog . warning ( " Use the ' {} ' kwarg instead of passing ' {} ' manually to {!r} " . format ( arg , ' -f ' + arg , self . name ) )
return True
val = kwargs . get ( arg , False )
if not isinstance ( val , bool ) :
raise InvalidArguments ( ' Argument {} to {!r} must be boolean ' . format ( arg , self . name ) )
return val
def get_filename ( self ) :
return self . filename
def get_outputs ( self ) :
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
return self . outputs
def get_extra_args ( self , language ) :
return self . extra_args . get ( language , [ ] )
def get_dependencies ( self , exclude = None , for_pkgconfig = False ) :
transitive_deps = [ ]
if exclude is None :
exclude = [ ]
for t in itertools . chain ( self . link_targets , self . link_whole_targets ) :
if t in transitive_deps or t in exclude :
continue
# When generating `Libs:` and `Libs.private:` lists in pkg-config
# files we don't want to include static libraries that we link_whole
# or are uninstalled (they're implicitly promoted to link_whole).
# But we still need to include their transitive dependencies,
# a static library we link_whole would itself link to a shared
# library or an installed static library.
if not for_pkgconfig or ( not t . is_internal ( ) and t not in self . link_whole_targets ) :
transitive_deps . append ( t )
if isinstance ( t , StaticLibrary ) :
transitive_deps + = t . get_dependencies ( transitive_deps + exclude , for_pkgconfig )
return transitive_deps
def get_source_subdir ( self ) :
return self . subdir
def get_sources ( self ) :
return self . sources
def get_objects ( self ) :
return self . objects
def get_generated_sources ( self ) :
return self . generated
def should_install ( self ) :
return self . need_install
def has_pch ( self ) :
return len ( self . pch ) > 0
def get_pch ( self , language ) :
try :
return self . pch [ language ]
except KeyError :
return [ ]
def get_include_dirs ( self ) :
return self . include_dirs
def add_deps ( self , deps ) :
deps = listify ( deps )
for dep in deps :
if hasattr ( dep , ' held_object ' ) :
dep = dep . held_object
if isinstance ( dep , dependencies . InternalDependency ) :
# Those parts that are internal.
self . process_sourcelist ( dep . sources )
self . add_include_dirs ( dep . include_directories , dep . get_include_type ( ) )
for l in dep . libraries :
self . link ( l )
for l in dep . whole_libraries :
self . link_whole ( l )
if dep . get_compile_args ( ) or dep . get_link_args ( ) :
# Those parts that are external.
extpart = dependencies . InternalDependency ( ' undefined ' ,
[ ] ,
dep . get_compile_args ( ) ,
dep . get_link_args ( ) ,
[ ] , [ ] , [ ] , [ ] , { } )
self . external_deps . append ( extpart )
# Deps of deps.
self . add_deps ( dep . ext_deps )
elif isinstance ( dep , dependencies . Dependency ) :
if dep not in self . external_deps :
self . external_deps . append ( dep )
self . process_sourcelist ( dep . get_sources ( ) )
self . add_deps ( dep . ext_deps )
elif isinstance ( dep , BuildTarget ) :
raise InvalidArguments ( ''' Tried to use a build target as a dependency.
You probably should put it in link_with instead . ''' )
else :
# This is a bit of a hack. We do not want Build to know anything
# about the interpreter so we can't import it and use isinstance.
# This should be reliable enough.
if hasattr ( dep , ' project_args_frozen ' ) or hasattr ( dep , ' global_args_frozen ' ) :
raise InvalidArguments ( ' Tried to use subproject object as a dependency. \n '
' You probably wanted to use a dependency declared in it instead. \n '
' Access it by calling get_variable() on the subproject object. ' )
raise InvalidArguments ( ' Argument is of an unacceptable type {!r} . \n Must be '
' either an external dependency (returned by find_library() or '
' dependency()) or an internal dependency (returned by '
' declare_dependency()). ' . format ( type ( dep ) . __name__ ) )
def get_external_deps ( self ) :
return self . external_deps
def is_internal ( self ) :
return isinstance ( self , StaticLibrary ) and not self . need_install
def link ( self , target ) :
for t in listify ( target , unholder = True ) :
if isinstance ( self , StaticLibrary ) and self . need_install and t . is_internal ( ) :
# When we're a static library and we link_with to an
# internal/convenience library, promote to link_whole.
return self . link_whole ( t )
if not isinstance ( t , ( Target , CustomTargetIndex ) ) :
raise InvalidArguments ( ' {!r} is not a target. ' . format ( t ) )
if not t . is_linkable_target ( ) :
raise InvalidArguments ( ' Link target {!r} is not linkable. ' . format ( t ) )
if isinstance ( self , SharedLibrary ) and isinstance ( t , StaticLibrary ) and not t . pic :
msg = " Can ' t link non-PIC static library {!r} into shared library {!r} . " . format ( t . name , self . name )
msg + = " Use the ' pic ' option to static_library to build with PIC. "
raise InvalidArguments ( msg )
if self . for_machine is not t . for_machine :
msg = ' Tried to mix libraries for machines {} and {} in target {!r} ' . format ( self . for_machine , t . for_machine , self . name )
if self . environment . is_cross_build ( ) :
raise InvalidArguments ( msg + ' This is not possible in a cross build. ' )
else :
mlog . warning ( msg + ' This will fail in cross build. ' )
self . link_targets . append ( t )
def link_whole ( self , target ) :
for t in listify ( target , unholder = True ) :
if isinstance ( t , ( CustomTarget , CustomTargetIndex ) ) :
if not t . is_linkable_target ( ) :
raise InvalidArguments ( ' Custom target {!r} is not linkable. ' . format ( t ) )
if not t . get_filename ( ) . endswith ( ' .a ' ) :
raise InvalidArguments ( ' Can only link_whole custom targets that are .a archives. ' )
if isinstance ( self , StaticLibrary ) :
# FIXME: We could extract the .a archive to get object files
raise InvalidArguments ( ' Cannot link_whole a custom target into a static library ' )
elif not isinstance ( t , StaticLibrary ) :
raise InvalidArguments ( ' {!r} is not a static library. ' . format ( t ) )
elif isinstance ( self , SharedLibrary ) and not t . pic :
msg = " Can ' t link non-PIC static library {!r} into shared library {!r} . " . format ( t . name , self . name )
msg + = " Use the ' pic ' option to static_library to build with PIC. "
raise InvalidArguments ( msg )
if self . for_machine is not t . for_machine :
msg = ' Tried to mix libraries for machines {1} and {2} in target {0!r} ' . format ( self . name , self . for_machine , t . for_machine )
if self . environment . is_cross_build ( ) :
raise InvalidArguments ( msg + ' This is not possible in a cross build. ' )
else :
mlog . warning ( msg + ' This will fail in cross build. ' )
if isinstance ( self , StaticLibrary ) :
# When we're a static library and we link_whole: to another static
# library, we need to add that target's objects to ourselves.
self . objects + = t . extract_all_objects_recurse ( )
self . link_whole_targets . append ( t )
def extract_all_objects_recurse ( self ) :
objs = [ self . extract_all_objects ( ) ]
for t in self . link_targets :
if t . is_internal ( ) :
objs + = t . extract_all_objects_recurse ( )
return objs
def add_pch ( self , language , pchlist ) :
Don't use len() to test emptiness vs not emptiness
Meson has a common pattern of using 'if len(foo) == 0:' or
'if len(foo) != 0:', however, this is a common anti-pattern in python.
Instead tests for emptiness/non-emptiness should be done with a simple
'if foo:' or 'if not foo:'
Consider the following:
>>> import timeit
>>> timeit.timeit('if len([]) == 0: pass')
0.10730923599840025
>>> timeit.timeit('if not []: pass')
0.030033907998586074
>>> timeit.timeit('if len(['a', 'b', 'c', 'd']) == 0: pass')
0.1154778649979562
>>> timeit.timeit("if not ['a', 'b', 'c', 'd']: pass")
0.08259823200205574
>>> timeit.timeit('if len("") == 0: pass')
0.089759664999292
>>> timeit.timeit('if not "": pass')
0.02340641999762738
>>> timeit.timeit('if len("foo") == 0: pass')
0.08848102600313723
>>> timeit.timeit('if not "foo": pass')
0.04032287199879647
And for the one additional case of 'if len(foo.strip()) == 0', which can
be replaced with 'if not foo.isspace()'
>>> timeit.timeit('if len(" ".strip()) == 0: pass')
0.15294511600222904
>>> timeit.timeit('if " ".isspace(): pass')
0.09413968399894657
>>> timeit.timeit('if len(" abc".strip()) == 0: pass')
0.2023209120015963
>>> timeit.timeit('if " abc".isspace(): pass')
0.09571301700270851
In other words, it's always a win to not use len(), when you don't
actually want to check the length.
8 years ago
if not pchlist :
return
elif len ( pchlist ) == 1 :
if not environment . is_header ( pchlist [ 0 ] ) :
raise InvalidArguments ( ' PCH argument %s is not a header. ' % pchlist [ 0 ] )
elif len ( pchlist ) == 2 :
if environment . is_header ( pchlist [ 0 ] ) :
if not environment . is_source ( pchlist [ 1 ] ) :
raise InvalidArguments ( ' PCH definition must contain one header and at most one source. ' )
elif environment . is_source ( pchlist [ 0 ] ) :
if not environment . is_header ( pchlist [ 1 ] ) :
raise InvalidArguments ( ' PCH definition must contain one header and at most one source. ' )
pchlist = [ pchlist [ 1 ] , pchlist [ 0 ] ]
else :
raise InvalidArguments ( ' PCH argument %s is of unknown type. ' % pchlist [ 0 ] )
if ( os . path . dirname ( pchlist [ 0 ] ) != os . path . dirname ( pchlist [ 1 ] ) ) :
raise InvalidArguments ( ' PCH files must be stored in the same folder. ' )
mlog . warning ( ' PCH source files are deprecated, only a single header file should be used. ' )
elif len ( pchlist ) > 2 :
raise InvalidArguments ( ' PCH definition may have a maximum of 2 files. ' )
for f in pchlist :
if not isinstance ( f , str ) :
raise MesonException ( ' PCH arguments must be strings. ' )
if not os . path . isfile ( os . path . join ( self . environment . source_dir , self . subdir , f ) ) :
raise MesonException ( ' File %s does not exist. ' % f )
self . pch [ language ] = pchlist
def add_include_dirs ( self , args , set_is_system : T . Optional [ str ] = None ) :
ids = [ ]
for a in args :
# FIXME same hack, forcibly unpack from holder.
if hasattr ( a , ' held_object ' ) :
a = a . held_object
if not isinstance ( a , IncludeDirs ) :
raise InvalidArguments ( ' Include directory to be added is not an include directory object. ' )
ids . append ( a )
if set_is_system is None :
set_is_system = ' preserve '
if set_is_system != ' preserve ' :
is_system = set_is_system == ' system '
ids = [ IncludeDirs ( x . get_curdir ( ) , x . get_incdirs ( ) , is_system , x . get_extra_build_dirs ( ) ) for x in ids ]
self . include_dirs + = ids
def add_compiler_args ( self , language , args ) :
args = listify ( args )
for a in args :
if not isinstance ( a , ( str , File ) ) :
raise InvalidArguments ( ' A non-string passed to compiler args. ' )
if language in self . extra_args :
self . extra_args [ language ] + = args
else :
self . extra_args [ language ] = args
def get_aliases ( self ) :
return { }
def get_langs_used_by_deps ( self ) - > T . List [ str ] :
'''
Sometimes you want to link to a C + + library that exports C API , which
means the linker must link in the C + + stdlib , and we must use a C + +
compiler for linking . The same is also applicable for objc / objc + + , etc ,
so we can keep using clink_langs for the priority order .
See : https : / / github . com / mesonbuild / meson / issues / 1653
'''
langs = [ ]
# User specified link_language of target (for multi-language targets)
if self . link_language :
return [ self . link_language ]
# Check if any of the external libraries were written in this language
for dep in self . external_deps :
if dep . language is None :
continue
if dep . language not in langs :
langs . append ( dep . language )
# Check if any of the internal libraries this target links to were
# written in this language
for link_target in itertools . chain ( self . link_targets , self . link_whole_targets ) :
if isinstance ( link_target , ( CustomTarget , CustomTargetIndex ) ) :
continue
for language in link_target . compilers :
if language not in langs :
langs . append ( language )
return langs
def get_clink_dynamic_linker_and_stdlibs ( self ) :
'''
We use the order of languages in ` clink_langs ` to determine which
linker to use in case the target has sources compiled with multiple
compilers . All languages other than those in this list have their own
linker .
Note that Vala outputs C code , so Vala sources can use any linker
that can link compiled C . We don ' t actually need to add an exception
for Vala here because of that .
'''
# Populate list of all compilers, not just those being used to compile
# sources in this target
all_compilers = self . environment . coredata . compilers [ self . for_machine ]
# Languages used by dependencies
dep_langs = self . get_langs_used_by_deps ( )
# Pick a compiler based on the language priority-order
for l in clink_langs :
if l in self . compilers or l in dep_langs :
try :
linker = all_compilers [ l ]
except KeyError :
raise MesonException (
' Could not get a dynamic linker for build target {!r} . '
' Requires a linker for language " {} " , but that is not '
' a project language. ' . format ( self . name , l ) )
stdlib_args = [ ]
added_languages = set ( )
for dl in itertools . chain ( self . compilers , dep_langs ) :
if dl != linker . language :
stdlib_args + = all_compilers [ dl ] . language_stdlib_only_link_flags ( )
added_languages . add ( dl )
return linker , stdlib_args
m = ' Could not get a dynamic linker for build target {!r} '
raise AssertionError ( m . format ( self . name ) )
def get_using_rustc ( self ) :
if len ( self . sources ) > 0 and self . sources [ 0 ] . fname . endswith ( ' .rs ' ) :
return True
def get_using_msvc ( self ) :
'''
Check if the dynamic linker is MSVC . Used by Executable , StaticLibrary ,
and SharedLibrary for deciding when to use MSVC - specific file naming
and debug filenames .
If at least some code is built with MSVC and the final library is
linked with MSVC , we can be sure that some debug info will be
generated . We only check the dynamic linker here because the static
linker is guaranteed to be of the same type .
Interesting cases :
1. The Vala compiler outputs C code to be compiled by whatever
C compiler we ' re using, so all objects will still be created by the
MSVC compiler .
2. If the target contains only objects , process_compilers guesses and
picks the first compiler that smells right .
'''
linker , _ = self . get_clink_dynamic_linker_and_stdlibs ( )
# Mixing many languages with MSVC is not supported yet so ignore stdlibs.
if linker and linker . get_id ( ) in { ' msvc ' , ' clang-cl ' , ' intel-cl ' , ' llvm ' , ' dmd ' , ' nvcc ' } :
return True
return False
def check_module_linking ( self ) :
'''
Warn if shared modules are linked with target : ( link_with ) #2865
'''
for link_target in self . link_targets :
if isinstance ( link_target , SharedModule ) :
if self . environment . machines [ self . for_machine ] . is_darwin ( ) :
raise MesonException ( ''' target links against shared modules.
This is not permitted on OSX ''' )
else :
mlog . warning ( ''' target links against shared modules. This is not
recommended as it is not supported on some platforms ''' )
return
class Generator :
def __init__ ( self , args , kwargs ) :
if len ( args ) != 1 :
raise InvalidArguments ( ' Generator requires exactly one positional argument: the executable ' )
exe = args [ 0 ]
if hasattr ( exe , ' held_object ' ) :
exe = exe . held_object
if not isinstance ( exe , ( Executable , dependencies . ExternalProgram ) ) :
raise InvalidArguments ( ' First generator argument must be an executable. ' )
self . exe = exe
self . depfile = None
self . capture = False
self . depends = [ ]
self . process_kwargs ( kwargs )
def __repr__ ( self ) :
repr_str = " < {0} : {1} > "
return repr_str . format ( self . __class__ . __name__ , self . exe )
def get_exe ( self ) :
return self . exe
def process_kwargs ( self , kwargs ) :
if ' arguments ' not in kwargs :
raise InvalidArguments ( ' Generator must have " arguments " keyword argument. ' )
args = kwargs [ ' arguments ' ]
if isinstance ( args , str ) :
args = [ args ]
if not isinstance ( args , list ) :
raise InvalidArguments ( ' " Arguments " keyword argument must be a string or a list of strings. ' )
for a in args :
if not isinstance ( a , str ) :
raise InvalidArguments ( ' A non-string object in " arguments " keyword argument. ' )
self . arglist = args
if ' output ' not in kwargs :
raise InvalidArguments ( ' Generator must have " output " keyword argument. ' )
outputs = listify ( kwargs [ ' output ' ] )
for rule in outputs :
if not isinstance ( rule , str ) :
raise InvalidArguments ( ' " output " may only contain strings. ' )
if ' @BASENAME@ ' not in rule and ' @PLAINNAME@ ' not in rule :
raise InvalidArguments ( ' Every element of " output " must contain @BASENAME@ or @PLAINNAME@. ' )
if has_path_sep ( rule ) :
raise InvalidArguments ( ' " outputs " must not contain a directory separator. ' )
if len ( outputs ) > 1 :
for o in outputs :
if ' @OUTPUT@ ' in o :
raise InvalidArguments ( ' Tried to use @OUTPUT@ in a rule with more than one output. ' )
self . outputs = outputs
if ' depfile ' in kwargs :
depfile = kwargs [ ' depfile ' ]
if not isinstance ( depfile , str ) :
raise InvalidArguments ( ' Depfile must be a string. ' )
if os . path . basename ( depfile ) != depfile :
raise InvalidArguments ( ' Depfile must be a plain filename without a subdirectory. ' )
self . depfile = depfile
if ' capture ' in kwargs :
capture = kwargs [ ' capture ' ]
if not isinstance ( capture , bool ) :
raise InvalidArguments ( ' Capture must be boolean. ' )
self . capture = capture
if ' depends ' in kwargs :
depends = listify ( kwargs [ ' depends ' ] , unholder = True )
for d in depends :
if not isinstance ( d , BuildTarget ) :
raise InvalidArguments ( ' Depends entries must be build targets. ' )
self . depends . append ( d )
def get_base_outnames ( self , inname ) :
plainname = os . path . basename ( inname )
basename = os . path . splitext ( plainname ) [ 0 ]
bases = [ x . replace ( ' @BASENAME@ ' , basename ) . replace ( ' @PLAINNAME@ ' , plainname ) for x in self . outputs ]
return bases
def get_dep_outname ( self , inname ) :
if self . depfile is None :
raise InvalidArguments ( ' Tried to get dep name for rule that does not have dependency file defined. ' )
plainname = os . path . basename ( inname )
basename = os . path . splitext ( plainname ) [ 0 ]
return self . depfile . replace ( ' @BASENAME@ ' , basename ) . replace ( ' @PLAINNAME@ ' , plainname )
def get_arglist ( self , inname ) :
plainname = os . path . basename ( inname )
basename = os . path . splitext ( plainname ) [ 0 ]
return [ x . replace ( ' @BASENAME@ ' , basename ) . replace ( ' @PLAINNAME@ ' , plainname ) for x in self . arglist ]
def is_parent_path ( self , parent , trial ) :
relpath = pathlib . PurePath ( trial ) . relative_to ( parent )
return relpath . parts [ 0 ] != ' .. ' # For subdirs we can only go "down".
def process_files ( self , name , files , state , preserve_path_from = None , extra_args = None ) :
output = GeneratedList ( self , state . subdir , preserve_path_from , extra_args = extra_args if extra_args is not None else [ ] )
for f in files :
if isinstance ( f , str ) :
f = File . from_source_file ( state . environment . source_dir , state . subdir , f )
elif not isinstance ( f , File ) :
raise InvalidArguments ( ' {} arguments must be strings or files not {!r} . ' . format ( name , f ) )
if preserve_path_from :
abs_f = f . absolute_path ( state . environment . source_dir , state . environment . build_dir )
if not self . is_parent_path ( preserve_path_from , abs_f ) :
raise InvalidArguments ( ' When using preserve_path_from, all input files must be in a subdirectory of the given dir. ' )
output . add_file ( f , state )
return output
class GeneratedList :
def __init__ ( self , generator , subdir , preserve_path_from = None , extra_args = None ) :
if hasattr ( generator , ' held_object ' ) :
generator = generator . held_object
self . generator = generator
self . name = self . generator . exe
self . subdir = subdir
self . infilelist = [ ]
self . outfilelist = [ ]
self . outmap = { }
self . extra_depends = [ ]
self . depend_files = [ ]
self . preserve_path_from = preserve_path_from
self . extra_args = extra_args if extra_args is not None else [ ]
if isinstance ( generator . exe , dependencies . ExternalProgram ) :
if not generator . exe . found ( ) :
raise InvalidArguments ( ' Tried to use not-found external program as generator ' )
path = generator . exe . get_path ( )
if os . path . isabs ( path ) :
# Can only add a dependency on an external program which we
# know the absolute path of
self . depend_files . append ( File . from_absolute_file ( path ) )
def add_preserved_path_segment ( self , infile , outfiles , state ) :
result = [ ]
in_abs = infile . absolute_path ( state . environment . source_dir , state . environment . build_dir )
assert ( os . path . isabs ( self . preserve_path_from ) )
rel = os . path . relpath ( in_abs , self . preserve_path_from )
path_segment = os . path . dirname ( rel )
for of in outfiles :
result . append ( os . path . join ( path_segment , of ) )
return result
def add_file ( self , newfile , state ) :
self . infilelist . append ( newfile )
outfiles = self . generator . get_base_outnames ( newfile . fname )
if self . preserve_path_from :
outfiles = self . add_preserved_path_segment ( newfile , outfiles , state )
self . outfilelist + = outfiles
self . outmap [ newfile ] = outfiles
def get_inputs ( self ) :
return self . infilelist
def get_outputs ( self ) :
return self . outfilelist
def get_outputs_for ( self , filename ) :
return self . outmap [ filename ]
def get_generator ( self ) :
return self . generator
def get_extra_args ( self ) :
return self . extra_args
class Executable ( BuildTarget ) :
known_kwargs = known_exe_kwargs
def __init__ ( self , name , subdir , subproject , for_machine : MachineChoice , sources , objects , environment , kwargs ) :
self . typename = ' executable '
if ' pie ' not in kwargs and ' b_pie ' in environment . coredata . base_options :
kwargs [ ' pie ' ] = environment . coredata . base_options [ ' b_pie ' ] . value
super ( ) . __init__ ( name , subdir , subproject , for_machine , sources , objects , environment , kwargs )
# Unless overridden, executables have no suffix or prefix. Except on
# Windows and with C#/Mono executables where the suffix is 'exe'
if not hasattr ( self , ' prefix ' ) :
self . prefix = ' '
if not hasattr ( self , ' suffix ' ) :
machine = environment . machines [ for_machine ]
# Executable for Windows or C#/Mono
if machine . is_windows ( ) or machine . is_cygwin ( ) or ' cs ' in self . compilers :
self . suffix = ' exe '
elif machine . system . startswith ( ' wasm ' ) or machine . system == ' emscripten ' :
self . suffix = ' js '
elif ( ' c ' in self . compilers and self . compilers [ ' c ' ] . get_id ( ) . startswith ( ' arm ' ) or
' cpp ' in self . compilers and self . compilers [ ' cpp ' ] . get_id ( ) . startswith ( ' arm ' ) ) :
self . suffix = ' axf '
elif ( ' c ' in self . compilers and self . compilers [ ' c ' ] . get_id ( ) . startswith ( ' ccrx ' ) or
' cpp ' in self . compilers and self . compilers [ ' cpp ' ] . get_id ( ) . startswith ( ' ccrx ' ) ) :
self . suffix = ' abs '
else :
self . suffix = environment . machines [ for_machine ] . get_exe_suffix ( )
self . filename = self . name
if self . suffix :
self . filename + = ' . ' + self . suffix
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
self . outputs = [ self . filename ]
# The import library this target will generate
self . import_filename = None
# The import library that Visual Studio would generate (and accept)
self . vs_import_filename = None
# The import library that GCC would generate (and prefer)
self . gcc_import_filename = None
# The debugging information file this target will generate
self . debug_filename = None
# Check for export_dynamic
self . export_dynamic = False
if kwargs . get ( ' export_dynamic ' ) :
if not isinstance ( kwargs [ ' export_dynamic ' ] , bool ) :
raise InvalidArguments ( ' " export_dynamic " keyword argument must be a boolean ' )
self . export_dynamic = True
if kwargs . get ( ' implib ' ) :
self . export_dynamic = True
if self . export_dynamic and kwargs . get ( ' implib ' ) is False :
raise InvalidArguments ( ' " implib " keyword argument must not be false for if " export_dynamic " is true ' )
m = environment . machines [ for_machine ]
# If using export_dynamic, set the import library name
if self . export_dynamic :
implib_basename = self . name + ' .exe '
if not isinstance ( kwargs . get ( ' implib ' , False ) , bool ) :
implib_basename = kwargs [ ' implib ' ]
if m . is_windows ( ) or m . is_cygwin ( ) :
self . vs_import_filename = ' {0} .lib ' . format ( implib_basename )
self . gcc_import_filename = ' lib {0} .a ' . format ( implib_basename )
if self . get_using_msvc ( ) :
self . import_filename = self . vs_import_filename
else :
self . import_filename = self . gcc_import_filename
if m . is_windows ( ) and ( ' cs ' in self . compilers or
self . get_using_rustc ( ) or
self . get_using_msvc ( ) ) :
self . debug_filename = self . name + ' .pdb '
# Only linkwithable if using export_dynamic
self . is_linkwithable = self . export_dynamic
def get_default_install_dir ( self , environment ) :
return environment . get_bindir ( )
def description ( self ) :
''' Human friendly description of the executable '''
return self . name
def type_suffix ( self ) :
return " @exe "
def get_import_filename ( self ) :
"""
The name of the import library that will be outputted by the compiler
Returns None if there is no import library required for this platform
"""
return self . import_filename
def get_import_filenameslist ( self ) :
if self . import_filename :
return [ self . vs_import_filename , self . gcc_import_filename ]
return [ ]
def get_debug_filename ( self ) :
"""
The name of debuginfo file that will be created by the compiler
Returns None if the build won ' t create any debuginfo file
"""
return self . debug_filename
def is_linkable_target ( self ) :
return self . is_linkwithable
class StaticLibrary ( BuildTarget ) :
known_kwargs = known_stlib_kwargs
def __init__ ( self , name , subdir , subproject , for_machine : MachineChoice , sources , objects , environment , kwargs ) :
self . typename = ' static library '
if ' pic ' not in kwargs and ' b_staticpic ' in environment . coredata . base_options :
kwargs [ ' pic ' ] = environment . coredata . base_options [ ' b_staticpic ' ] . value
super ( ) . __init__ ( name , subdir , subproject , for_machine , sources , objects , environment , kwargs )
if ' cs ' in self . compilers :
raise InvalidArguments ( ' Static libraries not supported for C#. ' )
if ' rust ' in self . compilers :
# If no crate type is specified, or it's the generic lib type, use rlib
if not hasattr ( self , ' rust_crate_type ' ) or self . rust_crate_type == ' lib ' :
mlog . debug ( ' Defaulting Rust static library target crate type to rlib ' )
self . rust_crate_type = ' rlib '
# Don't let configuration proceed with a non-static crate type
elif self . rust_crate_type not in [ ' rlib ' , ' staticlib ' ] :
raise InvalidArguments ( ' Crate type " {0} " invalid for static libraries; must be " rlib " or " staticlib " ' . format ( self . rust_crate_type ) )
# By default a static library is named libfoo.a even on Windows because
# MSVC does not have a consistent convention for what static libraries
# are called. The MSVC CRT uses libfoo.lib syntax but nothing else uses
# it and GCC only looks for static libraries called foo.lib and
# libfoo.a. However, we cannot use foo.lib because that's the same as
# the import library. Using libfoo.a is ok because people using MSVC
# always pass the library filename while linking anyway.
if not hasattr ( self , ' prefix ' ) :
self . prefix = ' lib '
if not hasattr ( self , ' suffix ' ) :
if ' rust ' in self . compilers :
if not hasattr ( self , ' rust_crate_type ' ) or self . rust_crate_type == ' rlib ' :
# default Rust static library suffix
self . suffix = ' rlib '
elif self . rust_crate_type == ' staticlib ' :
self . suffix = ' a '
else :
self . suffix = ' a '
self . filename = self . prefix + self . name + ' . ' + self . suffix
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
self . outputs = [ self . filename ]
def get_link_deps_mapping ( self , prefix , environment ) :
return { }
def get_default_install_dir ( self , environment ) :
return environment . get_static_lib_dir ( )
def type_suffix ( self ) :
return " @sta "
def process_kwargs ( self , kwargs , environment ) :
super ( ) . process_kwargs ( kwargs , environment )
if ' rust_crate_type ' in kwargs :
rust_crate_type = kwargs [ ' rust_crate_type ' ]
if isinstance ( rust_crate_type , str ) :
self . rust_crate_type = rust_crate_type
else :
raise InvalidArguments ( ' Invalid rust_crate_type " {0} " : must be a string. ' . format ( rust_crate_type ) )
def is_linkable_target ( self ) :
return True
class SharedLibrary ( BuildTarget ) :
known_kwargs = known_shlib_kwargs
def __init__ ( self , name , subdir , subproject , for_machine : MachineChoice , sources , objects , environment , kwargs ) :
self . typename = ' shared library '
self . soversion = None
self . ltversion = None
# Max length 2, first element is compatibility_version, second is current_version
self . darwin_versions = [ ]
self . vs_module_defs = None
# The import library this target will generate
self . import_filename = None
# The import library that Visual Studio would generate (and accept)
self . vs_import_filename = None
# The import library that GCC would generate (and prefer)
self . gcc_import_filename = None
# The debugging information file this target will generate
self . debug_filename = None
super ( ) . __init__ ( name , subdir , subproject , for_machine , sources , objects , environment , kwargs )
if ' rust ' in self . compilers :
# If no crate type is specified, or it's the generic lib type, use dylib
if not hasattr ( self , ' rust_crate_type ' ) or self . rust_crate_type == ' lib ' :
mlog . debug ( ' Defaulting Rust dynamic library target crate type to " dylib " ' )
self . rust_crate_type = ' dylib '
# Don't let configuration proceed with a non-dynamic crate type
elif self . rust_crate_type not in [ ' dylib ' , ' cdylib ' ] :
raise InvalidArguments ( ' Crate type " {0} " invalid for dynamic libraries; must be " dylib " or " cdylib " ' . format ( self . rust_crate_type ) )
if not hasattr ( self , ' prefix ' ) :
self . prefix = None
if not hasattr ( self , ' suffix ' ) :
self . suffix = None
self . basic_filename_tpl = ' {0.prefix} {0.name} . {0.suffix} '
self . determine_filenames ( environment )
def get_link_deps_mapping ( self , prefix , environment ) :
result = { }
mappings = self . get_transitive_link_deps_mapping ( prefix , environment )
old = get_target_macos_dylib_install_name ( self )
if old not in mappings :
fname = self . get_filename ( )
outdirs , _ = self . get_install_dir ( self . environment )
new = os . path . join ( prefix , outdirs [ 0 ] , fname )
result . update ( { old : new } )
mappings . update ( result )
return mappings
def get_default_install_dir ( self , environment ) :
return environment . get_shared_lib_dir ( )
def determine_filenames ( self , env ) :
"""
See https : / / github . com / mesonbuild / meson / pull / 417 for details .
First we determine the filename template ( self . filename_tpl ) , then we
set the output filename ( self . filename ) .
The template is needed while creating aliases ( self . get_aliases ) ,
which are needed while generating . so shared libraries for Linux .
Besides this , there ' s also the import library name, which is only used
on Windows since on that platform the linker uses a separate library
called the " import library " during linking instead of the shared
library ( DLL ) . The toolchain will output an import library in one of
two formats : GCC or Visual Studio .
When we ' re building with Visual Studio, the import library that will be
generated by the toolchain is self . vs_import_filename , and with
MinGW / GCC , it ' s self.gcc_import_filename. self.import_filename will
always contain the import library name this target will generate .
"""
prefix = ' '
suffix = ' '
create_debug_file = False
self . filename_tpl = self . basic_filename_tpl
# NOTE: manual prefix/suffix override is currently only tested for C/C++
# C# and Mono
if ' cs ' in self . compilers :
prefix = ' '
suffix = ' dll '
self . filename_tpl = ' {0.prefix} {0.name} . {0.suffix} '
create_debug_file = True
# C, C++, Swift, Vala
# Only Windows uses a separate import library for linking
# For all other targets/platforms import_filename stays None
elif env . machines [ self . for_machine ] . is_windows ( ) :
suffix = ' dll '
self . vs_import_filename = ' {0} {1} .lib ' . format ( self . prefix if self . prefix is not None else ' ' , self . name )
self . gcc_import_filename = ' {0} {1} .dll.a ' . format ( self . prefix if self . prefix is not None else ' lib ' , self . name )
if self . get_using_rustc ( ) :
# Shared library is of the form foo.dll
prefix = ' '
# Import library is called foo.dll.lib
self . import_filename = ' {0} .dll.lib ' . format ( self . name )
create_debug_file = True
elif self . get_using_msvc ( ) :
# Shared library is of the form foo.dll
prefix = ' '
# Import library is called foo.lib
self . import_filename = self . vs_import_filename
create_debug_file = True
# Assume GCC-compatible naming
else :
# Shared library is of the form libfoo.dll
prefix = ' lib '
# Import library is called libfoo.dll.a
self . import_filename = self . gcc_import_filename
# Shared library has the soversion if it is defined
if self . soversion :
self . filename_tpl = ' {0.prefix} {0.name} - {0.soversion} . {0.suffix} '
else :
self . filename_tpl = ' {0.prefix} {0.name} . {0.suffix} '
elif env . machines [ self . for_machine ] . is_cygwin ( ) :
suffix = ' dll '
self . gcc_import_filename = ' {0} {1} .dll.a ' . format ( self . prefix if self . prefix is not None else ' lib ' , self . name )
# Shared library is of the form cygfoo.dll
# (ld --dll-search-prefix=cyg is the default)
prefix = ' cyg '
# Import library is called libfoo.dll.a
self . import_filename = self . gcc_import_filename
if self . soversion :
self . filename_tpl = ' {0.prefix} {0.name} - {0.soversion} . {0.suffix} '
else :
self . filename_tpl = ' {0.prefix} {0.name} . {0.suffix} '
elif env . machines [ self . for_machine ] . is_darwin ( ) :
prefix = ' lib '
suffix = ' dylib '
# On macOS, the filename can only contain the major version
if self . soversion :
# libfoo.X.dylib
self . filename_tpl = ' {0.prefix} {0.name} . {0.soversion} . {0.suffix} '
else :
# libfoo.dylib
self . filename_tpl = ' {0.prefix} {0.name} . {0.suffix} '
elif env . machines [ self . for_machine ] . is_android ( ) :
prefix = ' lib '
suffix = ' so '
# Android doesn't support shared_library versioning
self . filename_tpl = ' {0.prefix} {0.name} . {0.suffix} '
else :
prefix = ' lib '
suffix = ' so '
if self . ltversion :
# libfoo.so.X[.Y[.Z]] (.Y and .Z are optional)
self . filename_tpl = ' {0.prefix} {0.name} . {0.suffix} . {0.ltversion} '
elif self . soversion :
# libfoo.so.X
self . filename_tpl = ' {0.prefix} {0.name} . {0.suffix} . {0.soversion} '
else :
# No versioning, libfoo.so
self . filename_tpl = ' {0.prefix} {0.name} . {0.suffix} '
if self . prefix is None :
self . prefix = prefix
if self . suffix is None :
self . suffix = suffix
self . filename = self . filename_tpl . format ( self )
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
self . outputs = [ self . filename ]
if create_debug_file :
self . debug_filename = os . path . splitext ( self . filename ) [ 0 ] + ' .pdb '
@staticmethod
def _validate_darwin_versions ( darwin_versions ) :
try :
if isinstance ( darwin_versions , int ) :
darwin_versions = str ( darwin_versions )
if isinstance ( darwin_versions , str ) :
darwin_versions = 2 * [ darwin_versions ]
if not isinstance ( darwin_versions , list ) :
raise InvalidArguments ( ' Shared library darwin_versions: must be a string, integer, '
' or a list, not {!r} ' . format ( darwin_versions ) )
if len ( darwin_versions ) > 2 :
raise InvalidArguments ( ' Shared library darwin_versions: list must contain 2 or fewer elements ' )
if len ( darwin_versions ) == 1 :
darwin_versions = 2 * darwin_versions
for i , v in enumerate ( darwin_versions [ : ] ) :
if isinstance ( v , int ) :
v = str ( v )
if not isinstance ( v , str ) :
raise InvalidArguments ( ' Shared library darwin_versions: list elements '
' must be strings or integers, not {!r} ' . format ( v ) )
if not re . fullmatch ( r ' [0-9]+( \ .[0-9]+) { 0,2} ' , v ) :
raise InvalidArguments ( ' Shared library darwin_versions: must be X.Y.Z where '
' X, Y, Z are numbers, and Y and Z are optional ' )
parts = v . split ( ' . ' )
if len ( parts ) in ( 1 , 2 , 3 ) and int ( parts [ 0 ] ) > 65535 :
raise InvalidArguments ( ' Shared library darwin_versions: must be X.Y.Z '
' where X is [0, 65535] and Y, Z are optional ' )
if len ( parts ) in ( 2 , 3 ) and int ( parts [ 1 ] ) > 255 :
raise InvalidArguments ( ' Shared library darwin_versions: must be X.Y.Z '
' where Y is [0, 255] and Y, Z are optional ' )
if len ( parts ) == 3 and int ( parts [ 2 ] ) > 255 :
raise InvalidArguments ( ' Shared library darwin_versions: must be X.Y.Z '
' where Z is [0, 255] and Y, Z are optional ' )
darwin_versions [ i ] = v
except ValueError :
raise InvalidArguments ( ' Shared library darwin_versions: value is invalid ' )
return darwin_versions
def process_kwargs ( self , kwargs , environment ) :
super ( ) . process_kwargs ( kwargs , environment )
if not self . environment . machines [ self . for_machine ] . is_android ( ) :
supports_versioning = True
else :
supports_versioning = False
if supports_versioning :
# Shared library version
if ' version ' in kwargs :
self . ltversion = kwargs [ ' version ' ]
if not isinstance ( self . ltversion , str ) :
raise InvalidArguments ( ' Shared library version needs to be a string, not ' + type ( self . ltversion ) . __name__ )
if not re . fullmatch ( r ' [0-9]+( \ .[0-9]+) { 0,2} ' , self . ltversion ) :
raise InvalidArguments ( ' Invalid Shared library version " {0} " . Must be of the form X.Y.Z where all three are numbers. Y and Z are optional. ' . format ( self . ltversion ) )
# Try to extract/deduce the soversion
if ' soversion ' in kwargs :
self . soversion = kwargs [ ' soversion ' ]
if isinstance ( self . soversion , int ) :
self . soversion = str ( self . soversion )
if not isinstance ( self . soversion , str ) :
raise InvalidArguments ( ' Shared library soversion is not a string or integer. ' )
elif self . ltversion :
# library version is defined, get the soversion from that
# We replicate what Autotools does here and take the first
# number of the version by default.
self . soversion = self . ltversion . split ( ' . ' ) [ 0 ]
# macOS, iOS and tvOS dylib compatibility_version and current_version
if ' darwin_versions ' in kwargs :
self . darwin_versions = self . _validate_darwin_versions ( kwargs [ ' darwin_versions ' ] )
elif self . soversion :
# If unspecified, pick the soversion
self . darwin_versions = 2 * [ self . soversion ]
# Visual Studio module-definitions file
if ' vs_module_defs ' in kwargs :
path = kwargs [ ' vs_module_defs ' ]
if hasattr ( path , ' held_object ' ) :
path = path . held_object
if isinstance ( path , str ) :
if os . path . isabs ( path ) :
self . vs_module_defs = File . from_absolute_file ( path )
else :
self . vs_module_defs = File . from_source_file ( environment . source_dir , self . subdir , path )
self . link_depends . append ( self . vs_module_defs )
elif isinstance ( path , File ) :
# When passing a generated file.
self . vs_module_defs = path
self . link_depends . append ( path )
elif hasattr ( path , ' get_filename ' ) :
# When passing output of a Custom Target
path = File . from_built_file ( path . subdir , path . get_filename ( ) )
self . vs_module_defs = path
self . link_depends . append ( path )
else :
raise InvalidArguments (
' Shared library vs_module_defs must be either a string, '
' a file object or a Custom Target ' )
if ' rust_crate_type ' in kwargs :
rust_crate_type = kwargs [ ' rust_crate_type ' ]
if isinstance ( rust_crate_type , str ) :
self . rust_crate_type = rust_crate_type
else :
raise InvalidArguments ( ' Invalid rust_crate_type " {0} " : must be a string. ' . format ( rust_crate_type ) )
def get_import_filename ( self ) :
"""
The name of the import library that will be outputted by the compiler
Returns None if there is no import library required for this platform
"""
return self . import_filename
def get_debug_filename ( self ) :
"""
The name of debuginfo file that will be created by the compiler
Returns None if the build won ' t create any debuginfo file
"""
return self . debug_filename
def get_import_filenameslist ( self ) :
if self . import_filename :
return [ self . vs_import_filename , self . gcc_import_filename ]
return [ ]
def get_all_link_deps ( self ) :
return [ self ] + self . get_transitive_link_deps ( )
def get_aliases ( self ) :
"""
If the versioned library name is libfoo . so .0 .100 .0 , aliases are :
* libfoo . so .0 ( soversion ) - > libfoo . so .0 .100 .0
* libfoo . so ( unversioned ; for linking ) - > libfoo . so .0
Same for dylib :
* libfoo . dylib ( unversioned ; for linking ) - > libfoo .0 . dylib
"""
aliases = { }
# Aliases are only useful with .so and .dylib libraries. Also if
# there's no self.soversion (no versioning), we don't need aliases.
if self . suffix not in ( ' so ' , ' dylib ' ) or not self . soversion :
return { }
# With .so libraries, the minor and micro versions are also in the
# filename. If ltversion != soversion we create an soversion alias:
# libfoo.so.0 -> libfoo.so.0.100.0
# Where libfoo.so.0.100.0 is the actual library
if self . suffix == ' so ' and self . ltversion and self . ltversion != self . soversion :
alias_tpl = self . filename_tpl . replace ( ' ltversion ' , ' soversion ' )
ltversion_filename = alias_tpl . format ( self )
aliases [ ltversion_filename ] = self . filename
# libfoo.so.0/libfoo.0.dylib is the actual library
else :
ltversion_filename = self . filename
# Unversioned alias:
# libfoo.so -> libfoo.so.0
# libfoo.dylib -> libfoo.0.dylib
aliases [ self . basic_filename_tpl . format ( self ) ] = ltversion_filename
return aliases
def type_suffix ( self ) :
return " @sha "
def is_linkable_target ( self ) :
return True
# A shared library that is meant to be used with dlopen rather than linking
# into something else.
class SharedModule ( SharedLibrary ) :
known_kwargs = known_shmod_kwargs
def __init__ ( self , name , subdir , subproject , for_machine : MachineChoice , sources , objects , environment , kwargs ) :
if ' version ' in kwargs :
raise MesonException ( ' Shared modules must not specify the version kwarg. ' )
if ' soversion ' in kwargs :
raise MesonException ( ' Shared modules must not specify the soversion kwarg. ' )
super ( ) . __init__ ( name , subdir , subproject , for_machine , sources , objects , environment , kwargs )
self . typename = ' shared module '
def get_default_install_dir ( self , environment ) :
return environment . get_shared_module_dir ( )
class CustomTarget ( Target ) :
known_kwargs = set ( [
' input ' ,
' output ' ,
' command ' ,
' capture ' ,
' install ' ,
' install_dir ' ,
' install_mode ' ,
' build_always ' ,
' build_always_stale ' ,
' depends ' ,
' depend_files ' ,
' depfile ' ,
' build_by_default ' ,
' override_options ' ,
' console ' ,
] )
def __init__ ( self , name , subdir , subproject , kwargs , absolute_paths = False , backend = None ) :
self . typename = ' custom '
# TODO expose keyword arg to make MachineChoice.HOST configurable
super ( ) . __init__ ( name , subdir , subproject , False , MachineChoice . HOST )
self . dependencies = [ ]
self . extra_depends = [ ]
self . depend_files = [ ] # Files that this target depends on but are not on the command line.
self . depfile = None
self . process_kwargs ( kwargs , backend )
self . extra_files = [ ]
# Whether to use absolute paths for all files on the commandline
self . absolute_paths = absolute_paths
unknowns = [ ]
for k in kwargs :
if k not in CustomTarget . known_kwargs :
unknowns . append ( k )
if len ( unknowns ) > 0 :
mlog . warning ( ' Unknown keyword arguments in target %s : %s ' %
( self . name , ' , ' . join ( unknowns ) ) )
def get_default_install_dir ( self , environment ) :
return None
def __repr__ ( self ) :
repr_str = " < {0} {1} : {2} > "
return repr_str . format ( self . __class__ . __name__ , self . get_id ( ) , self . command )
def get_target_dependencies ( self ) :
deps = self . dependencies [ : ]
deps + = self . extra_depends
for c in self . sources :
if hasattr ( c , ' held_object ' ) :
c = c . held_object
if isinstance ( c , ( BuildTarget , CustomTarget ) ) :
deps . append ( c )
return deps
def get_transitive_build_target_deps ( self ) :
'''
Recursively fetch the build targets that this custom target depends on ,
whether through ` command : ` , ` depends : ` , or ` sources : ` The recursion is
only performed on custom targets .
This is useful for setting PATH on Windows for finding required DLLs .
F . ex , if you have a python script that loads a C module that links to
other DLLs in your project .
'''
bdeps = set ( )
deps = self . get_target_dependencies ( )
for d in deps :
if isinstance ( d , BuildTarget ) :
bdeps . add ( d )
elif isinstance ( d , CustomTarget ) :
bdeps . update ( d . get_transitive_build_target_deps ( ) )
return bdeps
def flatten_command ( self , cmd ) :
cmd = listify ( cmd , unholder = True )
final_cmd = [ ]
for c in cmd :
if isinstance ( c , str ) :
final_cmd . append ( c )
elif isinstance ( c , File ) :
self . depend_files . append ( c )
final_cmd . append ( c )
elif isinstance ( c , dependencies . ExternalProgram ) :
if not c . found ( ) :
raise InvalidArguments ( ' Tried to use not-found external program in " command " ' )
path = c . get_path ( )
if os . path . isabs ( path ) :
# Can only add a dependency on an external program which we
# know the absolute path of
self . depend_files . append ( File . from_absolute_file ( path ) )
final_cmd + = c . get_command ( )
elif isinstance ( c , ( BuildTarget , CustomTarget ) ) :
self . dependencies . append ( c )
final_cmd . append ( c )
elif isinstance ( c , list ) :
final_cmd + = self . flatten_command ( c )
else :
raise InvalidArguments ( ' Argument {!r} in " command " is invalid ' . format ( c ) )
return final_cmd
def process_kwargs ( self , kwargs , backend ) :
self . process_kwargs_base ( kwargs )
self . sources = extract_as_list ( kwargs , ' input ' , unholder = True )
if ' output ' not in kwargs :
raise InvalidArguments ( ' Missing keyword argument " output " . ' )
self . outputs = listify ( kwargs [ ' output ' ] )
# This will substitute values from the input into output and return it.
inputs = get_sources_string_names ( self . sources , backend )
values = get_filenames_templates_dict ( inputs , [ ] )
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
for i in self . outputs :
if not ( isinstance ( i , str ) ) :
raise InvalidArguments ( ' Output argument not a string. ' )
if i == ' ' :
raise InvalidArguments ( ' Output must not be empty. ' )
if i . strip ( ) == ' ' :
raise InvalidArguments ( ' Output must not consist only of whitespace. ' )
if has_path_sep ( i ) :
raise InvalidArguments ( ' Output {!r} must not contain a path segment. ' . format ( i ) )
if ' @INPUT@ ' in i or ' @INPUT0@ ' in i :
m = ' Output cannot contain @INPUT@ or @INPUT0@, did you ' \
' mean @PLAINNAME@ or @BASENAME@? '
raise InvalidArguments ( m )
# We already check this during substitution, but the error message
# will be unclear/confusing, so check it here.
if len ( inputs ) != 1 and ( ' @PLAINNAME@ ' in i or ' @BASENAME@ ' in i ) :
m = " Output cannot contain @PLAINNAME@ or @BASENAME@ when " \
" there is more than one input (we can ' t know which to use) "
raise InvalidArguments ( m )
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
self . outputs = substitute_values ( self . outputs , values )
self . capture = kwargs . get ( ' capture ' , False )
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
if self . capture and len ( self . outputs ) != 1 :
raise InvalidArguments ( ' Capturing can only output to a single file. ' )
self . console = kwargs . get ( ' console ' , False )
if not isinstance ( self . console , bool ) :
raise InvalidArguments ( ' " console " kwarg only accepts booleans ' )
if self . capture and self . console :
raise InvalidArguments ( " Can ' t both capture output and output to console " )
if ' command ' not in kwargs :
raise InvalidArguments ( ' Missing keyword argument " command " . ' )
if ' depfile ' in kwargs :
depfile = kwargs [ ' depfile ' ]
if not isinstance ( depfile , str ) :
raise InvalidArguments ( ' Depfile must be a string. ' )
if os . path . basename ( depfile ) != depfile :
raise InvalidArguments ( ' Depfile must be a plain filename without a subdirectory. ' )
self . depfile = depfile
self . command = self . flatten_command ( kwargs [ ' command ' ] )
if self . capture :
for c in self . command :
if isinstance ( c , str ) and ' @OUTPUT@ ' in c :
raise InvalidArguments ( ' @OUTPUT@ is not allowed when capturing output. ' )
if ' install ' in kwargs :
self . install = kwargs [ ' install ' ]
if not isinstance ( self . install , bool ) :
raise InvalidArguments ( ' " install " must be boolean. ' )
if self . install :
if ' install_dir ' not in kwargs :
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
raise InvalidArguments ( ' " install_dir " must be specified '
' when installing a target ' )
if isinstance ( kwargs [ ' install_dir ' ] , list ) :
FeatureNew ( ' multiple install_dir for custom_target ' , ' 0.40.0 ' ) . use ( self . subproject )
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
# If an item in this list is False, the output corresponding to
# the list index of that item will not be installed
self . install_dir = typeslistify ( kwargs [ ' install_dir ' ] , ( str , bool ) )
self . install_mode = kwargs . get ( ' install_mode ' , None )
else :
self . install = False
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
self . install_dir = [ None ]
self . install_mode = None
if ' build_always ' in kwargs and ' build_always_stale ' in kwargs :
raise InvalidArguments ( ' build_always and build_always_stale are mutually exclusive. Combine build_by_default and build_always_stale. ' )
elif ' build_always ' in kwargs :
mlog . deprecation ( ' build_always is deprecated. Combine build_by_default and build_always_stale instead. ' )
if ' build_by_default ' not in kwargs :
self . build_by_default = kwargs [ ' build_always ' ]
self . build_always_stale = kwargs [ ' build_always ' ]
elif ' build_always_stale ' in kwargs :
self . build_always_stale = kwargs [ ' build_always_stale ' ]
if not isinstance ( self . build_always_stale , bool ) :
raise InvalidArguments ( ' Argument build_always_stale must be a boolean. ' )
extra_deps , depend_files = extract_as_list ( kwargs , ' depends ' , ' depend_files ' , pop = False )
for ed in extra_deps :
while hasattr ( ed , ' held_object ' ) :
ed = ed . held_object
if not isinstance ( ed , ( CustomTarget , BuildTarget ) ) :
raise InvalidArguments ( ' Can only depend on toplevel targets: custom_target or build_target (executable or a library) got: %s ( %s ) '
% ( type ( ed ) , ed ) )
self . extra_depends . append ( ed )
for i in depend_files :
if isinstance ( i , ( File , str ) ) :
self . depend_files . append ( i )
else :
mlog . debug ( i )
raise InvalidArguments ( ' Unknown type {!r} in depend_files. ' . format ( type ( i ) . __name__ ) )
def get_dependencies ( self ) :
return self . dependencies
def should_install ( self ) :
return self . install
def get_custom_install_dir ( self ) :
return self . install_dir
def get_custom_install_mode ( self ) :
return self . install_mode
def get_outputs ( self ) :
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
return self . outputs
def get_filename ( self ) :
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
return self . outputs [ 0 ]
def get_sources ( self ) :
return self . sources
def get_generated_lists ( self ) :
genlists = [ ]
for c in self . sources :
if hasattr ( c , ' held_object ' ) :
c = c . held_object
if isinstance ( c , GeneratedList ) :
genlists . append ( c )
return genlists
def get_generated_sources ( self ) :
return self . get_generated_lists ( )
def get_dep_outname ( self , infilenames ) :
if self . depfile is None :
raise InvalidArguments ( ' Tried to get depfile name for custom_target that does not have depfile defined. ' )
if len ( infilenames ) :
plainname = os . path . basename ( infilenames [ 0 ] )
basename = os . path . splitext ( plainname ) [ 0 ]
return self . depfile . replace ( ' @BASENAME@ ' , basename ) . replace ( ' @PLAINNAME@ ' , plainname )
else :
if ' @BASENAME@ ' in self . depfile or ' @PLAINNAME@ ' in self . depfile :
raise InvalidArguments ( ' Substitution in depfile for custom_target that does not have an input file. ' )
return self . depfile
def is_linkable_target ( self ) :
if len ( self . outputs ) != 1 :
return False
suf = os . path . splitext ( self . outputs [ 0 ] ) [ - 1 ]
if suf == ' .a ' or suf == ' .dll ' or suf == ' .lib ' or suf == ' .so ' :
return True
def get_link_deps_mapping ( self , prefix , environment ) :
return { }
def get_link_dep_subdirs ( self ) :
return OrderedSet ( )
def get_all_link_deps ( self ) :
return [ ]
def type_suffix ( self ) :
return " @cus "
def __getitem__ ( self , index ) :
return CustomTargetIndex ( self , self . outputs [ index ] )
def __setitem__ ( self , index , value ) :
raise NotImplementedError
def __delitem__ ( self , index ) :
raise NotImplementedError
class RunTarget ( Target ) :
def __init__ ( self , name , command , args , dependencies , subdir , subproject ) :
self . typename = ' run '
# These don't produce output artifacts
super ( ) . __init__ ( name , subdir , subproject , False , MachineChoice . BUILD )
self . command = command
self . args = args
self . dependencies = dependencies
def __repr__ ( self ) :
repr_str = " < {0} {1} : {2} > "
return repr_str . format ( self . __class__ . __name__ , self . get_id ( ) , self . command )
def process_kwargs ( self , kwargs ) :
return self . process_kwargs_base ( kwargs )
def get_dependencies ( self ) :
return self . dependencies
def get_generated_sources ( self ) :
return [ ]
def get_sources ( self ) :
return [ ]
def should_install ( self ) :
return False
def get_filename ( self ) :
return self . name
def get_outputs ( self ) :
if isinstance ( self . name , str ) :
return [ self . name ]
elif isinstance ( self . name , list ) :
return self . name
else :
raise RuntimeError ( ' RunTarget: self.name is neither a list nor a string. This is a bug ' )
def type_suffix ( self ) :
return " @run "
class AliasTarget ( RunTarget ) :
def __init__ ( self , name , dependencies , subdir , subproject ) :
super ( ) . __init__ ( name , ' ' , [ ] , dependencies , subdir , subproject )
class Jar ( BuildTarget ) :
known_kwargs = known_jar_kwargs
def __init__ ( self , name , subdir , subproject , for_machine : MachineChoice , sources , objects , environment , kwargs ) :
self . typename = ' jar '
super ( ) . __init__ ( name , subdir , subproject , for_machine , sources , objects , environment , kwargs )
for s in self . sources :
if not s . endswith ( ' .java ' ) :
raise InvalidArguments ( ' Jar source %s is not a java file. ' % s )
for t in self . link_targets :
if not isinstance ( t , Jar ) :
raise InvalidArguments ( ' Link target %s is not a jar target. ' % t )
self . filename = self . name + ' .jar '
Support multiple install dirs for built/custom targets
You can now pass a list of strings to the install_dir: kwarg to
build_target and custom_target.
Custom Targets:
===============
Allows you to specify the installation directory for each
corresponding output. For example:
custom_target('different-install-dirs',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : ['somedir', 'otherdir])
This would install first.file to somedir and second.file to otherdir.
If only one install_dir is provided, all outputs are installed there
(same behaviour as before).
To only install some outputs, pass `false` for the outputs that you
don't want installed. For example:
custom_target('only-install-second',
output : ['first.file', 'second.file'],
...
install : true,
install_dir : [false, 'otherdir])
This would install second.file to otherdir and not install first.file.
Build Targets:
==============
With build_target() (which includes executable(), library(), etc),
usually there is only one primary output. However some types of
targets have multiple outputs.
For example, while generating Vala libraries, valac also generates
a header and a .vapi file both of which often need to be installed.
This allows you to specify installation directories for those too.
# This will only install the library (same as before)
shared_library('somevalalib', 'somesource.vala',
...
install : true)
# This will install the library, the header, and the vapi into the
# respective directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : ['libdir', 'incdir', 'vapidir'])
# This will install the library into the default libdir and
# everything else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [true, 'incdir', 'vapidir'])
# This will NOT install the library, and will install everything
# else into the specified directories
shared_library('somevalalib', 'somesource.vala',
...
install : true,
install_dir : [false, 'incdir', 'vapidir'])
true/false can also be used for secondary outputs in the same way.
Valac can also generate a GIR file for libraries when the `vala_gir:`
keyword argument is passed to library(). In that case, `install_dir:`
must be given a list with four elements, one for each output.
Includes tests for all these.
Closes https://github.com/mesonbuild/meson/issues/705
Closes https://github.com/mesonbuild/meson/issues/891
Closes https://github.com/mesonbuild/meson/issues/892
Closes https://github.com/mesonbuild/meson/issues/1178
Closes https://github.com/mesonbuild/meson/issues/1193
8 years ago
self . outputs = [ self . filename ]
self . java_args = kwargs . get ( ' java_args ' , [ ] )
def get_main_class ( self ) :
return self . main_class
def type_suffix ( self ) :
return " @jar "
def get_java_args ( self ) :
return self . java_args
def validate_install ( self , environment ) :
# All jar targets are installable.
pass
def is_linkable_target ( self ) :
return True
def get_classpath_args ( self ) :
cp_paths = [ os . path . join ( l . get_subdir ( ) , l . get_filename ( ) ) for l in self . link_targets ]
cp_string = os . pathsep . join ( cp_paths )
if cp_string :
return [ ' -cp ' , os . pathsep . join ( cp_paths ) ]
return [ ]
class CustomTargetIndex :
""" A special opaque object returned by indexing a CustomTarget. This object
exists in meson , but acts as a proxy in the backends , making targets depend
on the CustomTarget it ' s derived from, but only adding one source file to
the sources .
"""
def __init__ ( self , target , output ) :
self . typename = ' custom '
self . target = target
self . output = output
self . for_machine = target . for_machine
def __repr__ ( self ) :
return ' <CustomTargetIndex: {!r} [ {} ]> ' . format (
self . target , self . target . get_outputs ( ) . index ( self . output ) )
def get_outputs ( self ) :
return [ self . output ]
def get_subdir ( self ) :
return self . target . get_subdir ( )
def get_filename ( self ) :
return self . output
def get_id ( self ) :
return self . target . get_id ( )
def get_all_link_deps ( self ) :
return self . target . get_all_link_deps ( )
def get_link_deps_mapping ( self , prefix , environment ) :
return self . target . get_link_deps_mapping ( prefix , environment )
def get_link_dep_subdirs ( self ) :
return self . target . get_link_dep_subdirs ( )
def is_linkable_target ( self ) :
suf = os . path . splitext ( self . output ) [ - 1 ]
if suf == ' .a ' or suf == ' .dll ' or suf == ' .lib ' or suf == ' .so ' :
return True
class ConfigureFile :
def __init__ ( self , subdir , sourcename , targetname , configuration_data ) :
self . subdir = subdir
self . sourcename = sourcename
self . targetname = targetname
self . configuration_data = configuration_data
def __repr__ ( self ) :
repr_str = " < {0} : {1} -> {2} > "
src = os . path . join ( self . subdir , self . sourcename )
dst = os . path . join ( self . subdir , self . targetname )
return repr_str . format ( self . __class__ . __name__ , src , dst )
def get_configuration_data ( self ) :
return self . configuration_data
def get_subdir ( self ) :
return self . subdir
def get_source_name ( self ) :
return self . sourcename
def get_target_name ( self ) :
return self . targetname
class ConfigurationData :
def __init__ ( self ) :
super ( ) . __init__ ( )
self . values = { }
def __repr__ ( self ) :
return repr ( self . values )
def __contains__ ( self , value ) :
return value in self . values
def get ( self , name ) :
return self . values [ name ] # (val, desc)
def keys ( self ) :
return self . values . keys ( )
# A bit poorly named, but this represents plain data files to copy
# during install.
class Data :
def __init__ ( self , sources , install_dir , install_mode = None , rename = None ) :
self . sources = sources
self . install_dir = install_dir
self . install_mode = install_mode
self . sources = listify ( self . sources )
for s in self . sources :
assert ( isinstance ( s , File ) )
if rename is None :
self . rename = [ os . path . basename ( f . fname ) for f in self . sources ]
else :
self . rename = stringlistify ( rename )
if len ( self . rename ) != len ( self . sources ) :
raise MesonException ( ' Size of rename argument is different from number of sources ' )
class RunScript ( dict ) :
def __init__ ( self , script , args ) :
super ( ) . __init__ ( )
assert ( isinstance ( script , list ) )
assert ( isinstance ( args , list ) )
self [ ' exe ' ] = script
self [ ' args ' ] = args
class TestSetup :
def __init__ ( self , exe_wrapper : T . Optional [ T . List [ str ] ] , gdb : bool ,
timeout_multiplier : int , env : EnvironmentVariables ) :
self . exe_wrapper = exe_wrapper
self . gdb = gdb
self . timeout_multiplier = timeout_multiplier
self . env = env
def get_sources_string_names ( sources , backend ) :
'''
For the specified list of @sources which can be strings , Files , or targets ,
get all the output basenames .
'''
names = [ ]
for s in sources :
if hasattr ( s , ' held_object ' ) :
s = s . held_object
if isinstance ( s , str ) :
names . append ( s )
elif isinstance ( s , ( BuildTarget , CustomTarget , CustomTargetIndex , GeneratedList ) ) :
names + = s . get_outputs ( )
elif isinstance ( s , ExtractedObjects ) :
names + = s . get_outputs ( backend )
elif isinstance ( s , File ) :
names . append ( s . fname )
else :
raise AssertionError ( ' Unknown source type: {!r} ' . format ( s ) )
return names
def load ( build_dir : str ) - > Build :
filename = os . path . join ( build_dir , ' meson-private ' , ' build.dat ' )
load_fail_msg = ' Build data file {!r} is corrupted. Try with a fresh build tree. ' . format ( filename )
nonexisting_fail_msg = ' No such build data file as " {!r} " . ' . format ( filename )
try :
with open ( filename , ' rb ' ) as f :
obj = pickle . load ( f )
except FileNotFoundError :
raise MesonException ( nonexisting_fail_msg )
except ( pickle . UnpicklingError , EOFError ) :
raise MesonException ( load_fail_msg )
except AttributeError :
raise MesonException (
" Build data file {!r} references functions or classes that don ' t "
" exist. This probably means that it was generated with an old "
" version of meson. Try running from the source directory "
" meson {} --wipe " . format ( filename , build_dir ) )
if not isinstance ( obj , Build ) :
raise MesonException ( load_fail_msg )
return obj
def save ( obj , filename ) :
with open ( filename , ' wb ' ) as f :
pickle . dump ( obj , f )