# Copyright 2012-2014 Jussi Pakkanen
# 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 backends
import environment
import build
import mlog
import dependencies
from meson_install import InstallData
from build import InvalidArguments
from coredata import MesonException
import os , sys , shutil , pickle , re
if environment . is_windows ( ) :
quote_char = ' " '
execute_wrapper = ' cmd /c '
else :
quote_char = " ' "
execute_wrapper = ' '
def ninja_quote ( text ) :
return text . replace ( ' ' , ' $ ' ) . replace ( ' : ' , ' $: ' )
class RawFilename ( ) :
def __init__ ( self , fname ) :
self . fname = fname
def split ( self , c ) :
return self . fname . split ( c )
def startswith ( self , s ) :
return self . fname . startswith ( s )
class NinjaBuildElement ( ) :
def __init__ ( self , outfilenames , rule , infilenames ) :
if isinstance ( outfilenames , str ) :
self . outfilenames = [ outfilenames ]
else :
self . outfilenames = outfilenames
assert ( isinstance ( rule , str ) )
self . rule = rule
if isinstance ( infilenames , str ) :
self . infilenames = [ infilenames ]
else :
self . infilenames = infilenames
self . deps = [ ]
self . orderdeps = [ ]
self . elems = [ ]
def add_dep ( self , dep ) :
if isinstance ( dep , list ) :
self . deps + = dep
else :
self . deps . append ( dep )
def add_orderdep ( self , dep ) :
if isinstance ( dep , list ) :
self . orderdeps + = dep
else :
self . orderdeps . append ( dep )
def add_item ( self , name , elems ) :
if isinstance ( elems , str ) :
elems = [ elems ]
self . elems . append ( ( name , elems ) )
def write ( self , outfile ) :
# Sort inputs so the command line does not change.
# This allows Ninja to skip unnecessary rebuilds.
line = ' build %s : %s %s ' % ( ' ' . join ( [ ninja_quote ( i ) for i in self . outfilenames ] ) , \
self . rule ,
' ' . join ( [ ninja_quote ( i ) for i in self . infilenames ] ) )
if len ( self . deps ) > 0 :
line + = ' | ' + ' ' . join ( [ ninja_quote ( x ) for x in self . deps ] )
if len ( self . orderdeps ) > 0 :
line + = ' || ' + ' ' . join ( [ ninja_quote ( x ) for x in self . orderdeps ] )
line + = ' \n '
outfile . write ( line )
for e in self . elems :
( name , elems ) = e
should_quote = True
if name == ' DEPFILE ' or name == ' DESC ' :
should_quote = False
line = ' %s = ' % name
q_templ = quote_char + " %s " + quote_char
noq_templ = " %s "
newelems = [ ]
for i in elems :
if not should_quote or i == ' && ' : # Hackety hack hack
templ = noq_templ
else :
templ = q_templ
newelems . append ( templ % ninja_quote ( i ) )
line + = ' ' . join ( newelems )
line + = ' \n '
outfile . write ( line )
outfile . write ( ' \n ' )
class NinjaBackend ( backends . Backend ) :
def __init__ ( self , build , interp ) :
super ( ) . __init__ ( build , interp )
self . source_suffix_in_objs = True
self . ninja_filename = ' build.ninja '
self . fortran_deps = { }
def generate ( self ) :
outfilename = os . path . join ( self . environment . get_build_dir ( ) , self . ninja_filename )
tempfilename = outfilename + ' ~ '
outfile = open ( tempfilename , ' w ' )
self . generate_configure_files ( )
self . generate_pkgconfig_files ( )
outfile . write ( ' # This is the build file for project " %s " \n ' % self . build . get_project ( ) )
outfile . write ( ' # It is autogenerated by the Meson build system. \n ' )
outfile . write ( ' # Do not edit by hand. \n \n ' )
outfile . write ( ' ninja_required_version = 1.3.4 \n \n ' )
self . generate_rules ( outfile )
outfile . write ( ' # Build rules for targets \n \n ' )
[ self . generate_target ( t , outfile ) for t in self . build . get_targets ( ) . values ( ) ]
if len ( self . build . pot ) > 0 :
outfile . write ( ' # Build rules for localisation. \n \n ' )
self . generate_po ( outfile )
outfile . write ( ' # Test rules \n \n ' )
self . generate_tests ( outfile )
outfile . write ( ' # Install rules \n \n ' )
self . generate_install ( outfile )
if self . environment . coredata . coverage :
outfile . write ( ' # Coverage rules \n \n ' )
self . generate_coverage_rules ( outfile )
outfile . write ( ' # Suffix \n \n ' )
self . generate_ending ( outfile )
# Only ovewrite the old build file after the new one has been
# fully created.
outfile . close ( )
os . replace ( tempfilename , outfilename )
def generate_target ( self , target , outfile ) :
if isinstance ( target , build . CustomTarget ) :
self . generate_custom_target ( target , outfile )
if isinstance ( target , build . RunTarget ) :
self . generate_run_target ( target , outfile )
name = target . get_basename ( )
gen_src_deps = [ ]
if name in self . processed_targets :
return
if isinstance ( target , build . Jar ) :
self . generate_jar_target ( target , outfile )
return
if ' rust ' in self . environment . coredata . compilers . keys ( ) and self . has_rust ( target ) :
self . generate_rust_target ( target , outfile )
return
if ' cs ' in self . environment . coredata . compilers . keys ( ) and self . has_cs ( target ) :
self . generate_cs_target ( target , outfile )
return
if ' vala ' in self . environment . coredata . compilers . keys ( ) and self . has_vala ( target ) :
gen_src_deps + = self . generate_vala_compile ( target , outfile )
self . scan_fortran_module_outputs ( target )
# The following deals with C/C++ compilation.
( gen_src , gen_other_deps ) = self . process_dep_gens ( outfile , target )
gen_src_deps + = gen_src
self . process_target_dependencies ( target , outfile )
self . generate_custom_generator_rules ( target , outfile )
outname = self . get_target_filename ( target )
obj_list = [ ]
use_pch = self . environment . coredata . use_pch
is_unity = self . environment . coredata . unity
if use_pch and target . has_pch ( ) :
pch_objects = self . generate_pch ( target , outfile )
else :
pch_objects = [ ]
header_deps = gen_other_deps
unity_src = [ ]
unity_deps = [ ] # Generated sources that must be built before compiling a Unity target.
for gensource in target . get_generated_sources ( ) :
if isinstance ( gensource , build . CustomTarget ) :
for src in gensource . output :
src = os . path . join ( gensource . subdir , src )
if self . environment . is_header ( src ) :
header_deps . append ( RawFilename ( src ) )
elif self . environment . is_source ( src ) :
if is_unity :
unity_deps . append ( os . path . join ( self . environment . get_build_dir ( ) , RawFilename ( src ) ) )
else :
obj_list . append ( self . generate_single_compile ( target , outfile , RawFilename ( src ) , True ) )
else :
pass # perhaps print warning about the unknown file?
break # just to cut down on indentation size
for src in gensource . get_outfilelist ( ) :
if self . environment . is_object ( src ) :
obj_list . append ( os . path . join ( self . get_target_dir ( target ) , target . get_basename ( ) + ' .dir ' , src ) )
elif not self . environment . is_header ( src ) :
if is_unity :
if ' / ' in src :
rel_src = src
else :
rel_src = os . path . join ( self . get_target_private_dir ( target ) , src )
unity_deps . append ( rel_src )
abs_src = os . path . join ( self . environment . get_build_dir ( ) , rel_src )
unity_src . append ( abs_src )
else :
obj_list . append ( self . generate_single_compile ( target , outfile , src , True ) )
else :
header_deps . append ( src )
src_list = [ ]
for src in gen_src_deps :
src_list . append ( src )
if is_unity :
unity_src . append ( os . path . join ( self . environment . get_build_dir ( ) , src ) )
header_deps . append ( src )
else :
# Generated targets are ordered deps because the must exist
# before the sources compiling them are used. After the first
# compile we get precise dependency info from dep files.
# This should work in all cases. If it does not, then just
# move them from orderdeps to proper deps.
obj_list . append ( self . generate_single_compile ( target , outfile , src , True , [ ] , header_deps ) )
for src in target . get_sources ( ) :
if src . endswith ( ' .vala ' ) :
continue
if not self . environment . is_header ( src ) :
src_list . append ( src )
if is_unity :
abs_src = os . path . join ( self . environment . get_source_dir ( ) ,
target . get_subdir ( ) , src )
unity_src . append ( abs_src )
else :
obj_list . append ( self . generate_single_compile ( target , outfile , src , False , [ ] , header_deps ) )
obj_list + = self . flatten_object_list ( target )
if is_unity :
for src in self . generate_unity_files ( target , unity_src ) :
obj_list . append ( self . generate_single_compile ( target , outfile , src , True , unity_deps + header_deps ) )
linker = self . determine_linker ( target , src_list )
# Sort object list to preserve command line over multiple invocations.
elem = self . generate_link ( target , outfile , outname , sorted ( obj_list ) , linker , pch_objects )
self . generate_shlib_aliases ( target , self . get_target_dir ( target ) , outfile , elem )
self . processed_targets [ name ] = True
def process_target_dependencies ( self , target , outfile ) :
for t in target . get_dependencies ( ) :
tname = t . get_basename ( )
if not tname in self . processed_targets :
self . generate_target ( t , outfile )
def hackety_hack ( self , hack ) :
if isinstance ( hack , list ) :
return hack [ 0 ]
return hack
def generate_custom_target ( self , target , outfile ) :
ofilenames = [ os . path . join ( target . subdir , i ) for i in target . output ]
# FIXME, should not grab element at zero but rather expand all.
deps = [ os . path . join ( i . get_subdir ( ) , self . hackety_hack ( i . get_filename ( ) ) ) for i in target . get_dependencies ( ) ]
srcs = [ os . path . join ( self . build_to_src , target . subdir , i ) for i in target . sources ]
deps + = srcs
elem = NinjaBuildElement ( ofilenames , ' CUSTOM_COMMAND ' , deps )
cmd = [ ]
for i in target . command :
if i == ' @INPUT@ ' :
cmd + = srcs
elif i == ' @OUTPUT@ ' :
cmd + = ofilenames
else :
cmd . append ( i )
elem . add_item ( ' COMMAND ' , cmd )
elem . add_item ( ' description ' , ' Generating %s with a custom command. ' % target . name )
elem . write ( outfile )
self . processed_targets [ target . name ] = True
def generate_run_target ( self , target , outfile ) :
runnerscript = os . path . join ( self . environment . get_script_dir ( ) , ' commandrunner.py ' )
elem = NinjaBuildElement ( target . name , ' CUSTOM_COMMAND ' , [ ] )
cmd = [ sys . executable , runnerscript , self . environment . get_source_dir ( ) , self . environment . get_build_dir ( ) ,
target . subdir , target . command ] + target . args
elem . add_item ( ' COMMAND ' , cmd )
elem . add_item ( ' description ' , ' Running external command %s . ' % target . name )
elem . write ( outfile )
self . processed_targets [ target . name ] = True
def generate_po ( self , outfile ) :
for p in self . build . pot :
( packagename , languages , subdir ) = p
input_file = os . path . join ( subdir , ' POTFILES ' )
elem = NinjaBuildElement ( ' pot ' , ' GEN_POT ' , [ ] )
elem . add_item ( ' PACKAGENAME ' , packagename )
elem . add_item ( ' OUTFILE ' , packagename + ' .pot ' )
elem . add_item ( ' FILELIST ' , os . path . join ( self . environment . get_source_dir ( ) , input_file ) )
elem . add_item ( ' OUTDIR ' , os . path . join ( self . environment . get_source_dir ( ) , subdir ) )
elem . write ( outfile )
for l in languages :
infile = os . path . join ( self . environment . get_source_dir ( ) , subdir , l + ' .po ' )
outfilename = os . path . join ( subdir , l + ' .gmo ' )
lelem = NinjaBuildElement ( outfilename , ' GEN_GMO ' , infile )
lelem . add_item ( ' INFILE ' , infile )
lelem . add_item ( ' OUTFILE ' , outfilename )
lelem . write ( outfile )
def generate_coverage_rules ( self , outfile ) :
( gcovr_exe , lcov_exe , genhtml_exe ) = environment . find_coverage_tools ( )
added_rule = False
if gcovr_exe :
added_rule = True
elem = NinjaBuildElement ( ' coverage-xml ' , ' CUSTOM_COMMAND ' , ' ' )
elem . add_item ( ' COMMAND ' , [ gcovr_exe , ' -x ' , ' -r ' , self . environment . get_build_dir ( ) , \
' -o ' , os . path . join ( self . environment . get_log_dir ( ) , ' coverage.xml ' ) ] )
elem . add_item ( ' DESC ' , ' Generating XML coverage report. ' )
elem . write ( outfile )
elem = NinjaBuildElement ( ' coverage-text ' , ' CUSTOM_COMMAND ' , ' ' )
elem . add_item ( ' COMMAND ' , [ gcovr_exe , ' -r ' , self . environment . get_build_dir ( ) , \
' -o ' , os . path . join ( self . environment . get_log_dir ( ) , ' coverage.txt ' ) ] )
elem . add_item ( ' DESC ' , ' Generating text coverage report. ' )
elem . write ( outfile )
if lcov_exe and genhtml_exe :
added_rule = True
phony_elem = NinjaBuildElement ( ' coverage-html ' , ' phony ' , ' coveragereport/index.html ' )
phony_elem . write ( outfile )
elem = NinjaBuildElement ( ' coveragereport/index.html ' , ' CUSTOM_COMMAND ' , ' ' )
command = [ lcov_exe , ' --directory ' , self . environment . get_build_dir ( ) , \
' --capture ' , ' --output-file ' , ' coverage.info ' , ' --no-checksum ' , \
' && ' , genhtml_exe , ' --prefix ' , self . environment . get_build_dir ( ) , \
' --output-directory ' , self . environment . get_log_dir ( ) , ' --title ' , ' Code coverage ' , \
' --legend ' , ' --show-details ' , ' coverage.info ' ]
elem . add_item ( ' COMMAND ' , command )
elem . add_item ( ' DESC ' , ' Generating HTML coverage report. ' )
elem . write ( outfile )
if not added_rule :
mlog . log ( mlog . red ( ' Warning: ' ) , ' coverage requested but neither gcovr nor lcov/genhtml found. ' )
def generate_install ( self , outfile ) :
script_root = self . environment . get_script_dir ( )
install_script = os . path . join ( script_root , ' meson_install.py ' )
install_data_file = os . path . join ( self . environment . get_scratch_dir ( ) , ' install.dat ' )
depfixer = os . path . join ( script_root , ' depfixer.py ' )
d = InstallData ( self . environment . get_source_dir ( ) ,
self . environment . get_build_dir ( ) ,
self . environment . get_prefix ( ) , depfixer )
elem = NinjaBuildElement ( ' install ' , ' CUSTOM_COMMAND ' , ' ' )
elem . add_dep ( ' all ' )
elem . add_item ( ' DESC ' , ' Installing files. ' )
elem . add_item ( ' COMMAND ' , [ sys . executable , install_script , install_data_file ] )
self . generate_target_install ( d )
self . generate_header_install ( d )
self . generate_man_install ( d )
self . generate_data_install ( d )
self . generate_po_install ( d , elem )
self . generate_pkgconfig_install ( d )
self . generate_custom_install_script ( d )
elem . write ( outfile )
ofile = open ( install_data_file , ' wb ' )
pickle . dump ( d , ofile )
def generate_po_install ( self , d , elem ) :
for p in self . build . pot :
( package_name , languages , subdir ) = p
# FIXME: assumes only one po package per source
d . po_package_name = package_name
for lang in languages :
rel_src = os . path . join ( subdir , lang + ' .gmo ' )
src_file = os . path . join ( self . environment . get_build_dir ( ) , rel_src )
d . po . append ( ( src_file , self . environment . coredata . localedir , lang ) )
elem . add_dep ( rel_src )
def generate_target_install ( self , d ) :
libdir = self . environment . get_libdir ( )
bindir = self . environment . get_bindir ( )
should_strip = self . environment . coredata . strip
for t in self . build . get_targets ( ) . values ( ) :
if t . should_install ( ) :
outdir = t . get_custom_install_dir ( )
if outdir is None :
if isinstance ( t , build . Executable ) :
outdir = bindir
else :
outdir = libdir
i = [ self . get_target_filename ( t ) , outdir , t . get_aliaslist ( ) , \
should_strip , t . install_rpath ]
d . targets . append ( i )
def generate_pkgconfig_install ( self , d ) :
pkgroot = os . path . join ( self . environment . coredata . prefix ,
self . environment . coredata . libdir , ' pkgconfig ' )
for p in self . build . pkgconfig_gens :
pcfile = p . filebase + ' .pc '
srcabs = os . path . join ( self . environment . get_scratch_dir ( ) ,
pcfile )
dstabs = os . path . join ( pkgroot , pcfile )
i = [ srcabs , dstabs ]
d . man . append ( i )
def generate_custom_install_script ( self , d ) :
d . install_script = self . build . install_script
def generate_header_install ( self , d ) :
incroot = self . environment . get_includedir ( )
headers = self . build . get_headers ( )
for h in headers :
outdir = h . get_custom_install_dir ( )
if outdir is None :
outdir = os . path . join ( incroot , h . get_subdir ( ) )
for f in h . get_sources ( ) :
abspath = os . path . join ( self . environment . get_source_dir ( ) , f ) # FIXME
i = [ abspath , outdir ]
d . headers . append ( i )
def generate_man_install ( self , d ) :
manroot = self . environment . get_mandir ( )
man = self . build . get_man ( )
for m in man :
for f in m . get_sources ( ) :
num = f . split ( ' . ' ) [ - 1 ]
subdir = m . get_custom_install_dir ( )
if subdir is None :
subdir = os . path . join ( manroot , ' man ' + num )
srcabs = os . path . join ( self . environment . get_source_dir ( ) , f )
dstabs = os . path . join ( subdir , f + ' .gz ' )
i = [ srcabs , dstabs ]
d . man . append ( i )
def generate_data_install ( self , d ) :
dataroot = self . environment . get_datadir ( )
data = self . build . get_data ( )
for de in data :
subdir = de . get_custom_install_dir ( )
if subdir is None :
subdir = os . path . join ( dataroot , de . get_subdir ( ) )
for f in de . get_sources ( ) :
srcabs = os . path . join ( self . environment . get_source_dir ( ) , f )
dstabs = os . path . join ( subdir , f )
i = [ srcabs , dstabs ]
d . data . append ( i )
def generate_tests ( self , outfile ) :
self . serialise_tests ( )
valgrind = environment . find_valgrind ( )
script_root = self . environment . get_script_dir ( )
test_script = os . path . join ( script_root , ' meson_test.py ' )
test_data = os . path . join ( self . environment . get_scratch_dir ( ) , ' meson_test_setup.dat ' )
cmd = [ sys . executable , test_script , test_data ]
elem = NinjaBuildElement ( ' test ' , ' CUSTOM_COMMAND ' , ' all ' )
elem . add_item ( ' COMMAND ' , cmd )
elem . add_item ( ' DESC ' , ' Running test suite. ' )
elem . write ( outfile )
if valgrind :
velem = NinjaBuildElement ( ' test-valgrind ' , ' CUSTOM_COMMAND ' , ' all ' )
velem . add_item ( ' COMMAND ' , cmd + [ ' --wrapper= ' + valgrind ] )
velem . add_item ( ' DESC ' , ' Running test suite under Valgrind. ' )
velem . write ( outfile )
def generate_dep_gen_rules ( self , outfile ) :
outfile . write ( ' # Rules for external dependency generators. \n \n ' )
processed = { }
for dep in self . environment . coredata . deps . values ( ) :
name = dep . get_name ( )
if name in processed :
continue
processed [ name ] = True
for rule in dep . get_generate_rules ( ) :
outfile . write ( ' rule %s \n ' % rule . name )
command = ' ' . join ( [ ninja_quote ( x ) for x in rule . cmd_list ] )
command = command . replace ( ' @INFILE@ ' , ' $in ' ) . replace ( ' @OUTFILE@ ' , ' $out ' )
command = command . replace ( ' @SOURCE_ROOT@ ' , self . environment . get_source_dir ( ) )
command = command . replace ( ' @BUILD_ROOT@ ' , self . environment . get_build_dir ( ) )
outfile . write ( ' command = %s \n ' % command )
desc = rule . description . replace ( ' @INFILE@ ' , ' $in ' )
outfile . write ( ' description = %s \n ' % desc )
if rule . src_keyword in self . dep_rules :
raise InvalidArguments ( ' Multiple rules for keyword %s . ' % rule . src_keyword )
self . dep_rules [ rule . src_keyword ] = rule
outfile . write ( ' \n ' )
def generate_rules ( self , outfile ) :
outfile . write ( ' # Rules for compiling. \n \n ' )
self . generate_compile_rules ( outfile )
outfile . write ( ' # Rules for linking. \n \n ' )
if self . environment . is_cross_build ( ) :
self . generate_static_link_rules ( True , outfile )
self . generate_static_link_rules ( False , outfile )
self . generate_dynamic_link_rules ( outfile )
self . generate_dep_gen_rules ( outfile )
outfile . write ( ' # Other rules \n \n ' )
outfile . write ( ' rule CUSTOM_COMMAND \n ' )
outfile . write ( ' command = $COMMAND \n ' )
outfile . write ( ' description = $DESC \n ' )
outfile . write ( ' restat = 1 \n \n ' )
outfile . write ( ' rule REGENERATE_BUILD \n ' )
c = ( quote_char + ninja_quote ( sys . executable ) + quote_char ,
quote_char + ninja_quote ( self . environment . get_build_command ( ) ) + quote_char ,
quote_char + ninja_quote ( self . environment . get_source_dir ( ) ) + quote_char ,
quote_char + ninja_quote ( self . environment . get_build_dir ( ) ) + quote_char )
outfile . write ( " command = %s %s %s %s --backend ninja secret-handshake \n " % c )
outfile . write ( ' description = Regenerating build files \n ' )
outfile . write ( ' generator = 1 \n \n ' )
if len ( self . build . pot ) > 0 :
self . generate_gettext_rules ( outfile )
outfile . write ( ' \n ' )
def generate_gettext_rules ( self , outfile ) :
rule = ' rule GEN_POT \n '
command = " command = xgettext --package-name=$PACKAGENAME -p $OUTDIR -f $FILELIST -D ' %s ' -k_ -o $OUTFILE \n " % \
self . environment . get_source_dir ( )
desc = " description = Creating pot file for package $PACKAGENAME. \n "
outfile . write ( rule )
outfile . write ( command )
outfile . write ( desc )
outfile . write ( ' \n ' )
rule = ' rule GEN_GMO \n '
command = ' command = msgfmt $INFILE -o $OUTFILE \n '
desc = ' description = Generating gmo file $OUTFILE \n '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( desc )
outfile . write ( ' \n ' )
def generate_jar_target ( self , target , outfile ) :
fname = target . get_filename ( )
subdir = target . get_subdir ( )
outname_rel = os . path . join ( subdir , fname )
src_list = target . get_sources ( )
class_list = [ ]
compiler = self . get_compiler_for_source ( src_list [ 0 ] )
assert ( compiler . get_language ( ) == ' java ' )
c = ' c '
m = ' '
e = ' '
f = ' f '
main_class = target . get_main_class ( )
if main_class != ' ' :
e = ' e '
for src in src_list :
class_list . append ( self . generate_single_java_compile ( subdir , src , target , compiler , outfile ) )
jar_rule = ' java_LINKER '
commands = [ c + m + e + f ]
if e != ' ' :
commands . append ( main_class )
commands . append ( self . get_target_filename ( target ) )
commands + = [ ' -C ' , self . get_target_private_dir ( target ) ]
commands + = class_list
elem = NinjaBuildElement ( outname_rel , jar_rule , [ ] )
elem . add_dep ( [ os . path . join ( self . get_target_private_dir ( target ) , i ) for i in class_list ] )
elem . add_item ( ' ARGS ' , commands )
elem . write ( outfile )
def generate_cs_resource_tasks ( self , target , outfile ) :
args = [ ]
deps = [ ]
for r in target . resources :
rel_sourcefile = os . path . join ( self . build_to_src , target . subdir , r )
if r . endswith ( ' .resources ' ) :
a = ' -resource: ' + rel_sourcefile
elif r . endswith ( ' .txt ' ) or r . endswith ( ' .resx ' ) :
ofilebase = os . path . splitext ( os . path . basename ( r ) ) [ 0 ] + ' .resources '
ofilename = os . path . join ( self . get_target_dir ( target ) , target . get_basename ( ) + ' .dir ' , ofilebase )
elem = NinjaBuildElement ( ofilename , " CUSTOM_COMMAND " , rel_sourcefile )
elem . add_item ( ' COMMAND ' , [ ' resgen ' , rel_sourcefile , ofilename ] )
elem . add_item ( ' DESC ' , ' Compiling resource %s . ' % rel_sourcefile )
elem . write ( outfile )
deps . append ( ofilename )
a = ' -resource: ' + ofilename
else :
raise InvalidArguments ( ' Unknown resource file %s . ' % r )
args . append ( a )
return ( args , deps )
def generate_cs_target ( self , target , outfile ) :
buildtype = self . environment . coredata . buildtype
fname = target . get_filename ( )
subdir = target . get_subdir ( )
outname_rel = os . path . join ( subdir , fname )
src_list = target . get_sources ( )
compiler = self . get_compiler_for_source ( src_list [ 0 ] )
assert ( compiler . get_language ( ) == ' cs ' )
rel_srcs = [ os . path . join ( self . build_to_src , s ) for s in src_list ]
deps = [ ]
commands = target . extra_args . get ( ' cs ' , [ ] )
commands + = compiler . get_buildtype_args ( buildtype )
if isinstance ( target , build . Executable ) :
commands . append ( ' -target:exe ' )
elif isinstance ( target , build . SharedLibrary ) :
commands . append ( ' -target:library ' )
else :
raise MesonException ( ' Unknown C# target type. ' )
( resource_args , resource_deps ) = self . generate_cs_resource_tasks ( target , outfile )
commands + = resource_args
deps + = resource_deps
commands + = compiler . get_output_args ( outname_rel )
for l in target . link_targets :
commands + = compiler . get_link_args ( l . get_filename ( ) )
deps . append ( l . get_filename ( ) )
if ' -g ' in commands :
outputs = [ outname_rel , outname_rel + ' .mdb ' ]
else :
outputs = [ outname_rel ]
elem = NinjaBuildElement ( outputs , ' cs_COMPILER ' , rel_srcs )
elem . add_dep ( deps )
elem . add_item ( ' ARGS ' , commands )
elem . write ( outfile )
def generate_single_java_compile ( self , subdir , src , target , compiler , outfile ) :
buildtype = self . environment . coredata . buildtype
args = [ ]
if buildtype == ' debug ' :
args + = compiler . get_debug_args ( )
args + = compiler . get_output_args ( self . get_target_private_dir ( target ) )
rel_src = os . path . join ( self . build_to_src , subdir , src )
plain_class_path = src [ : - 4 ] + ' class '
rel_obj = os . path . join ( self . get_target_private_dir ( target ) , plain_class_path )
element = NinjaBuildElement ( rel_obj ,
compiler . get_language ( ) + ' _COMPILER ' , rel_src )
element . add_item ( ' ARGS ' , args )
element . write ( outfile )
return plain_class_path
def generate_java_link ( self , outfile ) :
rule = ' rule java_LINKER \n '
command = ' command = jar $ARGS \n '
description = ' description = Creating jar $out. \n '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( description )
outfile . write ( ' \n ' )
def generate_fastvapi_compile ( self , target , valac , outfile ) :
fastvapis = { }
for s in target . get_sources ( ) :
if not s . endswith ( ' .vala ' ) :
continue
vapibase = os . path . basename ( s ) [ : - 4 ] + ' vapi '
rel_vapi = os . path . join ( self . get_target_dir ( target ) , target . get_basename ( ) + ' .dir ' , vapibase )
args = [ ' --fast-vapi= ' + rel_vapi ]
rel_s = os . path . join ( self . build_to_src , s )
element = NinjaBuildElement ( rel_vapi , valac . get_language ( ) + ' _COMPILER ' , rel_s )
element . add_item ( ' ARGS ' , args )
element . write ( outfile )
fastvapis [ s ] = ( vapibase , rel_vapi )
return fastvapis
def generate_vala_compile ( self , target , outfile ) :
""" Vala is compiled into C. Set up all necessary build steps here. """
valac = self . environment . coredata . compilers [ ' vala ' ]
fast_vapis = self . generate_fastvapi_compile ( target , valac , outfile )
generated_c = [ ]
for s in target . get_sources ( ) :
if not s . endswith ( ' .vala ' ) :
continue
args = [ ' -d ' , self . get_target_private_dir ( target ) ]
sc = os . path . basename ( s ) [ : - 4 ] + ' c '
args + = [ ' -C ' , ' -o ' , sc ]
vapi_order_deps = [ ]
for ( sourcefile , vapi_info ) in fast_vapis . items ( ) :
if sourcefile == s :
continue
( vapibase , rel_vapi ) = vapi_info
args + = [ ' --use-fast-vapi= ' + rel_vapi ]
vapi_order_deps . append ( rel_vapi )
relsc = os . path . join ( self . get_target_dir ( target ) , target . get_basename ( ) + ' .dir ' , sc )
rel_s = os . path . join ( self . build_to_src , s )
args + = [ ' --deps ' , relsc + ' .d ' ]
if self . environment . coredata . werror :
args + = valac . get_werror_args ( )
for d in target . external_deps :
if isinstance ( d , dependencies . PkgConfigDependency ) :
args + = [ ' --pkg ' , d . name ]
generated_c + = [ relsc ]
element = NinjaBuildElement ( relsc , valac . get_language ( ) + ' _COMPILER ' , rel_s )
element . add_item ( ' ARGS ' , args )
element . add_orderdep ( vapi_order_deps )
element . write ( outfile )
return generated_c
def generate_rust_target ( self , target , outfile ) :
rustc = self . environment . coredata . compilers [ ' rust ' ]
relsrc = [ ]
for i in target . get_sources ( ) :
if not rustc . can_compile ( i ) :
raise InvalidArguments ( ' Rust target %s contains a non-rust source file. ' % target . get_basename ( ) )
relsrc . append ( os . path . join ( self . build_to_src , i ) )
target_name = os . path . join ( target . subdir , target . get_filename ( ) )
args = [ ' --crate-type ' ]
if isinstance ( target , build . Executable ) :
cratetype = ' bin '
elif isinstance ( target , build . SharedLibrary ) :
cratetype = ' dylib '
elif isinstance ( target , build . StaticLibrary ) :
cratetype = ' lib '
else :
raise InvalidArguments ( ' Unknown target type for rustc. ' )
args . append ( cratetype )
args + = rustc . get_buildtype_args ( self . environment . coredata . buildtype )
depfile = target_name + ' .d '
args + = [ ' --out-dir ' , target . subdir ]
args + = [ ' --dep-info ' , depfile ]
orderdeps = [ os . path . join ( t . subdir , t . get_filename ( ) ) for t in target . link_targets ]
linkdirs = { }
for d in target . link_targets :
linkdirs [ d . subdir ] = True
for d in linkdirs . keys ( ) :
if d == ' ' :
d = ' . '
args + = [ ' -L ' , d ]
element = NinjaBuildElement ( target_name , ' rust_COMPILER ' , relsrc )
if len ( orderdeps ) > 0 :
element . add_orderdep ( orderdeps )
element . add_item ( ' ARGS ' , args )
element . add_item ( ' targetdep ' , depfile )
element . add_item ( ' cratetype ' , cratetype )
element . write ( outfile )
def generate_static_link_rules ( self , is_cross , outfile ) :
if self . build . has_language ( ' java ' ) :
if not is_cross :
self . generate_java_link ( outfile )
if is_cross :
static_linker = self . build . static_cross_linker
crstr = ' _CROSS '
else :
static_linker = self . build . static_linker
crstr = ' '
if static_linker is None :
return
rule = ' rule STATIC %s _LINKER \n ' % crstr
command = ' command = %s $LINK_ARGS %s $in \n ' % \
( ' ' . join ( static_linker . get_exelist ( ) ) ,
' ' . join ( static_linker . get_output_args ( ' $out ' ) ) )
description = ' description = Static linking library $out \n \n '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( description )
def generate_dynamic_link_rules ( self , outfile ) :
ctypes = [ ( self . build . compilers , False ) , ( self . build . cross_compilers , True ) ]
for ( complist , is_cross ) in ctypes :
for compiler in complist :
langname = compiler . get_language ( )
if langname == ' java ' or langname == ' vala ' or \
langname == ' rust ' or langname == ' cs ' :
continue
crstr = ' '
if is_cross :
crstr = ' _CROSS '
rule = ' rule %s %s _LINKER \n ' % ( langname , crstr )
command = ' command = %s %s $ARGS %s $in $LINK_ARGS $aliasing \n ' % \
( execute_wrapper ,
' ' . join ( compiler . get_linker_exelist ( ) ) , \
' ' . join ( compiler . get_linker_output_args ( ' $out ' ) ) )
description = ' description = Linking target $out '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( description )
outfile . write ( ' \n ' )
scriptdir = self . environment . get_script_dir ( )
outfile . write ( ' \n ' )
symrule = ' rule SHSYM \n '
symcmd = ' command = " %s " " %s " " %s " " %s " $CROSS \n ' % ( ninja_quote ( sys . executable ) ,
ninja_quote ( os . path . join ( scriptdir , ' symbolextractor.py ' ) ) ,
' $in ' , ' $out ' )
synstat = ' restat = 1 \n '
syndesc = ' description = Generating symbol file $out. \n '
outfile . write ( symrule )
outfile . write ( symcmd )
outfile . write ( synstat )
outfile . write ( syndesc )
outfile . write ( ' \n ' )
def generate_java_compile_rule ( self , compiler , outfile ) :
rule = ' rule %s _COMPILER \n ' % compiler . get_language ( )
invoc = ' ' . join ( [ ninja_quote ( i ) for i in compiler . get_exelist ( ) ] )
command = ' command = %s $ARGS $in \n ' % invoc
description = ' description = Compiling Java object $in. \n '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( description )
outfile . write ( ' \n ' )
def generate_cs_compile_rule ( self , compiler , outfile ) :
rule = ' rule %s _COMPILER \n ' % compiler . get_language ( )
invoc = ' ' . join ( [ ninja_quote ( i ) for i in compiler . get_exelist ( ) ] )
command = ' command = %s $ARGS $in \n ' % invoc
description = ' description = Compiling cs target $out. \n '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( description )
outfile . write ( ' \n ' )
def generate_vala_compile_rules ( self , compiler , outfile ) :
rule = ' rule %s _COMPILER \n ' % compiler . get_language ( )
invoc = ' ' . join ( [ ninja_quote ( i ) for i in compiler . get_exelist ( ) ] )
command = ' command = %s $ARGS $in \n ' % invoc
description = ' description = Compiling Vala source $in. \n '
restat = ' restat = 1 \n ' # ValaC does this always to take advantage of it.
depfile = ' depfile = $out.d \n '
depstyle = ' deps = gcc \n '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( description )
outfile . write ( restat )
outfile . write ( depfile )
outfile . write ( depstyle )
outfile . write ( ' \n ' )
def generate_rust_compile_rules ( self , compiler , outfile ) :
rule = ' rule %s _COMPILER \n ' % compiler . get_language ( )
invoc = ' ' . join ( [ ninja_quote ( i ) for i in compiler . get_exelist ( ) ] )
command = ' command = %s %s $out $cratetype %s $ARGS $in \n ' % \
( ninja_quote ( sys . executable ) ,
ninja_quote ( os . path . join ( os . path . split ( __file__ ) [ 0 ] , " rustrunner.py " ) ) ,
invoc )
description = ' description = Compiling Rust source $in. \n '
depfile = ' depfile = $out.d \n '
depstyle = ' deps = gcc \n '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( description )
outfile . write ( depfile )
outfile . write ( depstyle )
outfile . write ( ' \n ' )
def generate_compile_rule_for ( self , langname , compiler , qstr , is_cross , outfile ) :
if langname == ' java ' :
if not is_cross :
self . generate_java_compile_rule ( compiler , outfile )
return
if langname == ' cs ' :
if not is_cross :
self . generate_cs_compile_rule ( compiler , outfile )
return
if langname == ' vala ' :
if not is_cross :
self . generate_vala_compile_rules ( compiler , outfile )
return
if langname == ' rust ' :
if not is_cross :
self . generate_rust_compile_rules ( compiler , outfile )
return
if is_cross :
crstr = ' _CROSS '
else :
crstr = ' '
rule = ' rule %s %s _COMPILER \n ' % ( langname , crstr )
depargs = compiler . get_dependency_gen_args ( ' $out ' , ' $DEPFILE ' )
command = " command = %s $ARGS %s %s %s $in \n " % \
( ' ' . join ( compiler . get_exelist ( ) ) , \
' ' . join ( [ qstr % d for d in depargs ] ) , \
' ' . join ( compiler . get_output_args ( ' $out ' ) ) , \
' ' . join ( compiler . get_compile_only_args ( ) ) )
description = ' description = Compiling %s object $out \n ' % langname
if compiler . get_id ( ) == ' msvc ' :
deps = ' deps = msvc \n '
else :
deps = ' deps = gcc \n '
deps + = ' depfile = $DEPFILE \n '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( deps )
outfile . write ( description )
outfile . write ( ' \n ' )
def generate_pch_rule_for ( self , langname , compiler , qstr , is_cross , outfile ) :
if langname != ' c ' and langname != ' cpp ' :
return
if is_cross :
crstr = ' _CROSS '
else :
crstr = ' '
rule = ' rule %s %s _PCH \n ' % ( langname , crstr )
depargs = compiler . get_dependency_gen_args ( ' $out ' , ' $DEPFILE ' )
if compiler . get_id ( ) == ' msvc ' :
output = ' '
else :
output = ' ' . join ( compiler . get_output_args ( ' $out ' ) )
command = " command = %s $ARGS %s %s %s $in \n " % \
( ' ' . join ( compiler . get_exelist ( ) ) , \
' ' . join ( [ qstr % d for d in depargs ] ) , \
output , \
' ' . join ( compiler . get_compile_only_args ( ) ) )
description = ' description = Precompiling header %s \n ' % ' $in '
if compiler . get_id ( ) == ' msvc ' :
deps = ' deps = msvc \n '
else :
deps = ' deps = gcc \n '
deps + = ' depfile = $DEPFILE \n '
outfile . write ( rule )
outfile . write ( command )
outfile . write ( deps )
outfile . write ( description )
outfile . write ( ' \n ' )
def generate_compile_rules ( self , outfile ) :
qstr = quote_char + " %s " + quote_char
for compiler in self . build . compilers :
langname = compiler . get_language ( )
self . generate_compile_rule_for ( langname , compiler , qstr , False , outfile )
self . generate_pch_rule_for ( langname , compiler , qstr , False , outfile )
if self . environment . is_cross_build ( ) :
for compiler in self . build . cross_compilers :
langname = compiler . get_language ( )
self . generate_compile_rule_for ( langname , compiler , qstr , True , outfile )
self . generate_pch_rule_for ( langname , compiler , qstr , True , outfile )
outfile . write ( ' \n ' )
def replace_outputs ( self , args , private_dir , output_list ) :
newargs = [ ]
regex = re . compile ( ' @OUTPUT( \ d+)@ ' )
for arg in args :
m = regex . search ( arg )
while m is not None :
index = int ( m . group ( 1 ) )
src = ' @OUTPUT %d @ ' % index
arg = arg . replace ( src , os . path . join ( private_dir , output_list [ index ] ) )
m = regex . search ( arg )
newargs . append ( arg )
return newargs
def generate_custom_generator_rules ( self , target , outfile ) :
for genlist in target . get_generated_sources ( ) :
if isinstance ( genlist , build . CustomTarget ) :
continue # Customtarget has already written its output rules
generator = genlist . get_generator ( )
exe = generator . get_exe ( )
if self . environment . is_cross_build ( ) and \
isinstance ( exe , build . BuildTarget ) and exe . is_cross :
if ' exe_wrapper ' not in self . environment . cross_info :
s = ' Can not use target %s as a generator because it is cross-built \n '
s + = ' and no exe wrapper is defined. You might want to set it to native instead. '
s = s % exe . name
raise MesonException ( s )
infilelist = genlist . get_infilelist ( )
outfilelist = genlist . get_outfilelist ( )
if isinstance ( exe , build . BuildTarget ) :
exe_file = os . path . join ( self . environment . get_build_dir ( ) , self . get_target_filename ( exe ) )
else :
exe_file = exe . get_command ( )
base_args = generator . get_arglist ( )
for i in range ( len ( infilelist ) ) :
if len ( generator . outputs ) == 1 :
sole_output = os . path . join ( self . get_target_private_dir ( target ) , outfilelist [ 0 ] )
else :
sole_output = ' '
curfile = infilelist [ i ]
infilename = os . path . join ( self . environment . get_source_dir ( ) , curfile )
outfiles = genlist . get_outputs_for ( curfile )
outfiles = [ os . path . join ( self . get_target_private_dir ( target ) , of ) for of in outfiles ]
args = [ x . replace ( " @INPUT@ " , infilename ) . replace ( ' @OUTPUT@ ' , sole_output ) \
for x in base_args ]
args = self . replace_outputs ( args , self . get_target_private_dir ( target ) , outfilelist )
args = [ x . replace ( " @SOURCE_DIR@ " , self . environment . get_source_dir ( ) ) . replace ( " @BUILD_DIR@ " , self . get_target_private_dir ( target ) )
for x in args ]
cmdlist = [ exe_file ] + args
elem = NinjaBuildElement ( outfiles , ' CUSTOM_COMMAND ' , infilename )
elem . add_item ( ' DESC ' , ' Generating $out ' )
if isinstance ( exe , build . BuildTarget ) :
elem . add_dep ( self . get_target_filename ( exe ) )
elem . add_item ( ' COMMAND ' , cmdlist )
elem . write ( outfile )
def scan_fortran_module_outputs ( self , target ) :
compiler = None
for c in self . build . compilers :
if c . get_language ( ) == ' fortran ' :
compiler = c
break
if compiler is None :
self . fortran_deps [ target . get_basename ( ) ] = { }
return
modre = re . compile ( r " \ s*module \ s+( \ w+) " , re . IGNORECASE )
module_files = { }
for s in target . get_sources ( ) :
# FIXME, does not work for generated Fortran sources,
# but those are really rare. I hope.
if not compiler . can_compile ( s ) :
continue
for line in open ( os . path . join ( self . environment . get_source_dir ( ) , target . subdir , s ) ) :
modmatch = modre . match ( line )
if modmatch is not None :
modname = modmatch . group ( 1 )
if modname in module_files :
raise InvalidArguments ( ' Namespace collision: module %s defined in two files %s and %s . ' %
( modname , module_files [ modname ] , s ) )
module_files [ modname ] = s
self . fortran_deps [ target . get_basename ( ) ] = module_files
def get_fortran_deps ( self , compiler , src , target ) :
use_files = [ ]
usere = re . compile ( r " \ s*use \ s+( \ w+) " , re . IGNORECASE )
dirname = os . path . join ( self . get_target_dir ( target ) , target . get_basename ( ) + ' .dir ' )
tdeps = self . fortran_deps [ target . get_basename ( ) ]
for line in open ( src ) :
usematch = usere . match ( line )
if usematch is not None :
usename = usematch . group ( 1 )
if usename not in tdeps :
raise InvalidArguments ( ' Module %s in file %s not provided by any other source file. ' %
( usename , src ) )
mod_source_file = tdeps [ usename ]
# WORKAROUND, we should set up a file level dependency to the
# module file and mark it as an output of this target. However
# we can't do that as Ninja does not support dependency tracking
# if a rule has more than one output. Thus we add an order dep
# to the source file's object file. This works because the
# mod file and object file are created at the same time.
# fname = compiler.module_name_to_filename(usematch.group(1))
object_base = os . path . join ( os . path . split ( mod_source_file ) [ 1 ] + ' .o ' )
use_files . append ( os . path . join ( dirname , object_base ) )
return use_files
def generate_single_compile ( self , target , outfile , src , is_generated = False , header_deps = [ ] , order_deps = [ ] ) :
extra_orderdeps = [ ]
compiler = self . get_compiler_for_source ( src )
commands = self . generate_basic_compiler_args ( target , compiler )
commands . append ( compiler . get_include_arg ( self . get_target_private_dir ( target ) ) )
if isinstance ( src , RawFilename ) :
rel_src = src . fname
elif is_generated :
if ' / ' in src :
rel_src = src
else :
rel_src = os . path . join ( self . get_target_private_dir ( target ) , src )
abs_src = os . path . join ( self . environment . get_source_dir ( ) , rel_src )
else :
rel_src = os . path . join ( self . build_to_src , target . get_source_subdir ( ) , src )
abs_src = os . path . join ( self . environment . get_build_dir ( ) , rel_src )
if os . path . isabs ( src ) :
src_filename = os . path . basename ( src )
else :
src_filename = src
if isinstance ( src , RawFilename ) :
src_filename = src . fname
obj_basename = src_filename . replace ( ' / ' , ' _ ' ) . replace ( ' \\ ' , ' _ ' )
rel_obj = os . path . join ( self . get_target_private_dir ( target ) , obj_basename )
rel_obj + = ' . ' + self . environment . get_object_suffix ( )
dep_file = rel_obj + ' . ' + compiler . get_depfile_suffix ( )
if self . environment . coredata . use_pch :
pchlist = target . get_pch ( compiler . language )
else :
pchlist = [ ]
if len ( pchlist ) == 0 :
pch_dep = [ ]
else :
arr = [ ]
i = os . path . join ( self . get_target_private_dir ( target ) , compiler . get_pch_name ( pchlist [ 0 ] ) )
arr . append ( i )
pch_dep = arr
for i in target . get_include_dirs ( ) :
basedir = i . get_curdir ( )
for d in i . get_incdirs ( ) :
expdir = os . path . join ( basedir , d )
fulldir = os . path . join ( self . environment . get_source_dir ( ) , expdir )
barg = compiler . get_include_arg ( expdir )
sarg = compiler . get_include_arg ( fulldir )
commands . append ( barg )
commands . append ( sarg )
if self . environment . coredata . use_pch :
commands + = self . get_pch_include_args ( compiler , target )
crstr = ' '
if target . is_cross :
crstr = ' _CROSS '
compiler_name = ' %s %s _COMPILER ' % ( compiler . get_language ( ) , crstr )
if compiler . get_language ( ) == ' fortran ' :
extra_orderdeps = self . get_fortran_deps ( compiler , abs_src , target )
element = NinjaBuildElement ( rel_obj , compiler_name , rel_src )
for d in header_deps :
if isinstance ( d , RawFilename ) :
d = d . fname
elif not ' / ' in d :
d = os . path . join ( self . get_target_private_dir ( target ) , d )
element . add_dep ( d )
for d in order_deps :
if isinstance ( d , RawFilename ) :
d = d . fname
elif not ' / ' in d :
d = os . path . join ( self . get_target_private_dir ( target ) , d )
element . add_orderdep ( d )
element . add_orderdep ( pch_dep )
element . add_orderdep ( extra_orderdeps )
element . add_item ( ' DEPFILE ' , dep_file )
element . add_item ( ' ARGS ' , commands )
element . write ( outfile )
return rel_obj
def generate_msvc_pch_command ( self , target , compiler , pch ) :
if len ( pch ) != 2 :
raise RuntimeError ( ' MSVC requires one header and one source to produce precompiled headers. ' )
header = pch [ 0 ]
source = pch [ 1 ]
pchname = compiler . get_pch_name ( header )
dst = os . path . join ( self . get_target_private_dir ( target ) , pchname )
commands = [ ]
commands + = self . generate_basic_compiler_args ( target , compiler )
just_name = os . path . split ( header ) [ 1 ]
( objname , pch_args ) = compiler . gen_pch_args ( just_name , source , dst )
commands + = pch_args
dep = dst + ' . ' + compiler . get_depfile_suffix ( )
return ( commands , dep , dst , [ objname ] )
def generate_gcc_pch_command ( self , target , compiler , pch ) :
commands = [ ]
commands + = self . generate_basic_compiler_args ( target , compiler )
dst = os . path . join ( self . get_target_private_dir ( target ) ,
os . path . split ( pch ) [ - 1 ] + ' . ' + compiler . get_pch_suffix ( ) )
dep = dst + ' . ' + compiler . get_depfile_suffix ( )
return ( commands , dep , dst , [ ] ) # Gcc does not create an object file during pch generation.
def generate_pch ( self , target , outfile ) :
cstr = ' '
pch_objects = [ ]
if target . is_cross :
cstr = ' _CROSS '
for lang in [ ' c ' , ' cpp ' ] :
pch = target . get_pch ( lang )
if len ( pch ) == 0 :
continue
if ' / ' not in pch [ 0 ] or ' / ' not in pch [ - 1 ] :
raise build . InvalidArguments ( ' Precompiled header of " %s " must not be in the same directory as source, please put it in a subdirectory. ' % target . get_basename ( ) )
compiler = self . get_compiler_for_lang ( lang )
if compiler . id == ' msvc ' :
src = os . path . join ( self . build_to_src , target . get_source_subdir ( ) , pch [ - 1 ] )
( commands , dep , dst , objs ) = self . generate_msvc_pch_command ( target , compiler , pch )
extradep = os . path . join ( self . build_to_src , target . get_source_subdir ( ) , pch [ 0 ] )
else :
src = os . path . join ( self . build_to_src , target . get_source_subdir ( ) , pch [ 0 ] )
( commands , dep , dst , objs ) = self . generate_gcc_pch_command ( target , compiler , pch [ 0 ] )
extradep = None
pch_objects + = objs
rulename = compiler . get_language ( ) + cstr + ' _PCH '
elem = NinjaBuildElement ( dst , rulename , src )
if extradep is not None :
elem . add_dep ( extradep )
elem . add_item ( ' ARGS ' , commands )
elem . add_item ( ' DEPFILE ' , dep )
elem . write ( outfile )
return pch_objects
def generate_shsym ( self , outfile , target ) :
target_name = self . get_target_filename ( target )
targetdir = self . get_target_private_dir ( target )
symname = os . path . join ( targetdir , target_name + ' .symbols ' )
elem = NinjaBuildElement ( symname , ' SHSYM ' , target_name )
if self . environment . is_cross_build ( ) :
elem . add_item ( ' CROSS ' , ' --cross-host= ' + self . environment . cross_info [ ' name ' ] )
elem . write ( outfile )
def generate_link ( self , target , outfile , outname , obj_list , linker , extra_args = [ ] ) :
if isinstance ( target , build . StaticLibrary ) :
linker_base = ' STATIC '
else :
linker_base = linker . get_language ( ) # Fixme.
if isinstance ( target , build . SharedLibrary ) :
self . generate_shsym ( outfile , target )
crstr = ' '
if target . is_cross :
crstr = ' _CROSS '
linker_rule = linker_base + crstr + ' _LINKER '
abspath = os . path . join ( self . environment . get_build_dir ( ) , target . subdir )
commands = [ ]
commands + = linker . get_linker_always_args ( )
commands + = linker . get_buildtype_linker_args ( self . environment . coredata . buildtype )
if not ( isinstance ( target , build . StaticLibrary ) ) :
commands + = self . environment . coredata . external_link_args [ linker . get_language ( ) ]
if isinstance ( target , build . Executable ) :
commands + = linker . get_std_exe_link_args ( )
elif isinstance ( target , build . SharedLibrary ) :
commands + = linker . get_std_shared_lib_link_args ( )
commands + = linker . get_pic_args ( )
if hasattr ( target , ' soversion ' ) :
soversion = target . soversion
else :
soversion = None
commands + = linker . get_soname_args ( target . name , abspath , soversion )
elif isinstance ( target , build . StaticLibrary ) :
commands + = linker . get_std_link_args ( )
else :
raise RuntimeError ( ' Unknown build target type. ' )
dependencies = target . get_dependencies ( )
commands + = self . build_target_link_arguments ( linker , dependencies )
commands + = target . link_args
# External deps must be last because target link libraries may depend on them.
if not ( isinstance ( target , build . StaticLibrary ) ) :
for dep in target . get_external_deps ( ) :
commands + = dep . get_link_args ( )
commands + = linker . build_rpath_args ( self . environment . get_build_dir ( ) , \
target . get_rpaths ( ) , target . install_rpath )
if self . environment . coredata . coverage :
commands + = linker . get_coverage_link_args ( )
commands + = extra_args
dep_targets = [ self . get_dependency_filename ( t ) for t in dependencies ]
dep_targets + = [ os . path . join ( self . environment . source_dir ,
target . subdir , t ) for t in target . link_depends ]
elem = NinjaBuildElement ( outname , linker_rule , obj_list )
elem . add_dep ( dep_targets )
elem . add_item ( ' LINK_ARGS ' , commands )
return elem
def get_dependency_filename ( self , t ) :
if isinstance ( t , build . SharedLibrary ) :
return os . path . join ( self . get_target_private_dir ( t ) , self . get_target_filename ( t ) + ' .symbols ' )
return self . get_target_filename ( t )
def generate_shlib_aliases ( self , target , outdir , outfile , elem ) :
basename = target . get_filename ( )
aliases = target . get_aliaslist ( )
aliascmd = [ ]
if shutil . which ( ' ln ' ) :
for alias in aliases :
aliasfile = os . path . join ( outdir , alias )
cmd = [ " && " , ' ln ' , ' -s ' , ' -f ' , basename , aliasfile ]
aliascmd + = cmd
else :
mlog . log ( " Library versioning disabled because host does not support symlinks. " )
elem . add_item ( ' aliasing ' , aliascmd )
elem . write ( outfile )
def generate_gcov_clean ( self , outfile ) :
gcno_elem = NinjaBuildElement ( ' clean-gcno ' , ' CUSTOM_COMMAND ' , ' ' )
script_root = self . environment . get_script_dir ( )
clean_script = os . path . join ( script_root , ' delwithsuffix.py ' )
gcno_elem . add_item ( ' COMMAND ' , [ sys . executable , clean_script , ' . ' , ' gcno ' ] )
gcno_elem . add_item ( ' description ' , ' Deleting gcno files ' )
gcno_elem . write ( outfile )
gcda_elem = NinjaBuildElement ( ' clean-gcda ' , ' CUSTOM_COMMAND ' , ' ' )
script_root = self . environment . get_script_dir ( )
clean_script = os . path . join ( script_root , ' delwithsuffix.py ' )
gcda_elem . add_item ( ' COMMAND ' , [ sys . executable , clean_script , ' . ' , ' gcda ' ] )
gcda_elem . add_item ( ' description ' , ' Deleting gcda files ' )
gcda_elem . write ( outfile )
def is_compilable_file ( self , filename ) :
if filename . endswith ( ' .cpp ' ) or \
filename . endswith ( ' .c ' ) or \
filename . endswith ( ' .cxx ' ) or \
filename . endswith ( ' .cc ' ) or \
filename . endswith ( ' .C ' ) :
return True
return False
def process_dep_gens ( self , outfile , target ) :
src_deps = [ ]
other_deps = [ ]
for rule in self . dep_rules . values ( ) :
srcs = target . get_original_kwargs ( ) . get ( rule . src_keyword , [ ] )
if isinstance ( srcs , str ) :
srcs = [ srcs ]
for src in srcs :
plainname = os . path . split ( src ) [ 1 ]
basename = plainname . split ( ' . ' ) [ 0 ]
outname = rule . name_templ . replace ( ' @BASENAME@ ' , basename ) . replace ( ' @PLAINNAME@ ' , plainname )
outfilename = os . path . join ( self . get_target_private_dir ( target ) , outname )
infilename = os . path . join ( self . build_to_src , target . get_source_subdir ( ) , src )
elem = NinjaBuildElement ( outfilename , rule . name , infilename )
if rule . name == ' rc_compile ' :
elem . add_item ( ' rcc_args ' , [ ' --name ' , basename ] )
if rule . name == ' moc_hdr_compile ' or rule . name == ' moc_src_compile ' :
elem . add_item ( ' mocargs ' , [ ' -I ' , target . subdir ] )
elem . write ( outfile )
if self . is_compilable_file ( outfilename ) :
if rule . name == ' moc_hdr_compile ' or rule . name == ' moc_src_compile ' :
manual_mocs = target . get_original_kwargs ( ) . get ( ' manual_moc_include ' , [ ] )
if src in manual_mocs :
other_deps . append ( outfilename )
else :
src_deps . append ( outfilename )
else :
src_deps . append ( outfilename )
else :
other_deps . append ( outfilename )
if rule . name == ' moc_src_compile ' : #HACK
src_deps . append ( infilename )
return ( src_deps , other_deps )
def generate_ending ( self , outfile ) :
targetlist = [ self . get_target_filename ( t ) for t in self . build . get_targets ( ) . values ( ) \
if not isinstance ( t , build . RunTarget ) ]
elem = NinjaBuildElement ( ' all ' , ' phony ' , targetlist )
elem . write ( outfile )
default = ' default all \n \n '
outfile . write ( default )
ninja_command = environment . detect_ninja ( )
if ninja_command is None :
raise RuntimeError ( ' Could not detect ninja command ' )
elem = NinjaBuildElement ( ' clean ' , ' CUSTOM_COMMAND ' , ' ' )
elem . add_item ( ' COMMAND ' , [ ninja_command , ' -t ' , ' clean ' ] )
elem . add_item ( ' description ' , ' Cleaning ' )
if self . environment . coredata . coverage :
self . generate_gcov_clean ( outfile )
elem . add_dep ( ' clean-gcda ' )
elem . add_dep ( ' clean-gcno ' )
elem . write ( outfile )
deps = [ os . path . join ( self . build_to_src , df ) \
for df in self . interpreter . get_build_def_files ( ) ]
if self . environment . is_cross_build ( ) :
deps . append ( os . path . join ( self . build_to_src ,
self . environment . coredata . cross_file ) )
deps . append ( ' meson-private/coredata.dat ' )
if os . path . exists ( os . path . join ( self . environment . get_source_dir ( ) , ' meson_options.txt ' ) ) :
deps . append ( os . path . join ( self . build_to_src , ' meson_options.txt ' ) )
for sp in self . build . subprojects . keys ( ) :
fname = os . path . join ( self . environment . get_source_dir ( ) , sp , ' meson_options.txt ' )
if os . path . isfile ( fname ) :
deps . append ( os . path . join ( self . build_to_src , sp , ' meson_options.txt ' ) )
elem = NinjaBuildElement ( ' build.ninja ' , ' REGENERATE_BUILD ' , deps )
elem . write ( outfile )
elem = NinjaBuildElement ( deps , ' phony ' , ' ' )
elem . write ( outfile )