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mirror of https://github.com/mpv-player/mpv synced 2024-12-20 22:02:59 +00:00
mpv/waftools/checks/generic.py
kwkam d9ef1333c6 waftools/checks/generic: hacks for linking against static/shared libs
When mpv is being linked against static libraries which have shared
libraries as dependencies, linker will throw error because pkg-config
with --static flag will return shared libraries which will be placed
under the -Wl,-Bstatic section, while pkg-config without --static flag
will omit the private libraries required to link the static library.

With this function users can modify the wscript to insert the dependencies
when necessary. For example, linking FFmpeg with shared OpenSSL and zlib:
'func': check_pkg_config_mixed(['crypto','ssl','z'], 'libavcodec')
2017-01-28 14:02:36 +01:00

185 lines
6.7 KiB
Python

import os
import inflector
from waflib.ConfigSet import ConfigSet
from waflib import Utils
__all__ = [
"check_pkg_config", "check_pkg_config_mixed", "check_pkg_config_mixed_all",
"check_pkg_config_cflags", "check_cc", "check_statement", "check_libs",
"check_headers", "compose_checks", "check_true", "any_version",
"load_fragment", "check_stub", "check_ctx_vars", "check_program"]
any_version = None
def even(n):
return n % 2 == 0
def __define_options__(dependency_identifier):
return inflector.define_dict(dependency_identifier)
def __merge_options__(dependency_identifier, *args):
options_accu = inflector.storage_dict(dependency_identifier)
options_accu['mandatory'] = False
[options_accu.update(arg) for arg in args if arg]
return options_accu
def _filter_cc_arguments(ctx, opts):
if ctx.env.DEST_OS != Utils.unversioned_sys_platform():
# cross compiling, remove execute=True if present
if opts.get('execute'):
opts['execute'] = False
return opts
def check_program(name, var):
def fn(ctx, dependency_identifier):
return ctx.find_program(name, var=var, mandatory=False)
return fn
def check_libs(libs, function):
libs = [None] + libs
def fn(ctx, dependency_identifier):
for lib in libs:
kwargs = lib and {'lib': lib} or {}
if function(ctx, dependency_identifier, **kwargs):
return True
return False
return fn
def check_statement(header, statement, **kw_ext):
def fn(ctx, dependency_identifier, **kw):
headers = header
if not isinstance(headers, list):
headers = [header]
hs = "\n".join(["#include <{0}>".format(h) for h in headers])
fragment = ("{0}\n"
"int main(int argc, char **argv)\n"
"{{ {1}; return 0; }}").format(hs, statement)
opts = __merge_options__(dependency_identifier,
{'fragment':fragment},
__define_options__(dependency_identifier),
kw_ext, kw)
return ctx.check_cc(**_filter_cc_arguments(ctx, opts))
return fn
def check_cc(**kw_ext):
def fn(ctx, dependency_identifier, **kw):
options = __merge_options__(dependency_identifier,
__define_options__(dependency_identifier),
kw_ext, kw)
return ctx.check_cc(**_filter_cc_arguments(ctx, options))
return fn
def check_pkg_config(*args, **kw_ext):
return _check_pkg_config([], ["--libs", "--cflags"], *args, **kw_ext)
def check_pkg_config_mixed(_dyn_libs, *args, **kw_ext):
return _check_pkg_config([_dyn_libs], ["--libs", "--cflags"], *args, **kw_ext)
def check_pkg_config_mixed_all(*all_args, **kw_ext):
args = [all_args[i] for i in [n for n in range(0, len(all_args)) if n % 3]]
return _check_pkg_config(all_args[::3], ["--libs", "--cflags"], *args, **kw_ext)
def check_pkg_config_cflags(*args, **kw_ext):
return _check_pkg_config([], ["--cflags"], *args, **kw_ext)
def _check_pkg_config(_dyn_libs, _pkgc_args, *args, **kw_ext):
def fn(ctx, dependency_identifier, **kw):
argsl = list(args)
packages = args[::2]
verchecks = args[1::2]
sargs = []
pkgc_args = _pkgc_args
dyn_libs = {}
for i in range(0, len(packages)):
if i < len(verchecks):
sargs.append(packages[i] + ' ' + verchecks[i])
else:
sargs.append(packages[i])
if _dyn_libs and _dyn_libs[i]:
dyn_libs[packages[i]] = _dyn_libs[i]
if ctx.dependency_satisfied('static-build') and not dyn_libs:
pkgc_args += ["--static"]
defaults = {
'path': ctx.env.PKG_CONFIG,
'package': " ".join(packages),
'args': sargs + pkgc_args }
opts = __merge_options__(dependency_identifier, defaults, kw_ext, kw)
# Warning! Megahack incoming: when parsing flags in `parse_flags` waf
# uses append_unique. This appends the flags only if they aren't
# already present in the list. This causes breakage if one checks for
# multiple pkg-config packages in a single call as stuff like -lm is
# added only at its first occurrence.
original_append_unique = ConfigSet.append_unique
ConfigSet.append_unique = ConfigSet.append_value
result = bool(ctx.check_cfg(**opts))
ConfigSet.append_unique = original_append_unique
defkey = inflector.define_key(dependency_identifier)
if result:
ctx.define(defkey, 1)
for x in dyn_libs.keys():
ctx.env['LIB_'+x] += dyn_libs[x]
else:
ctx.add_optional_message(dependency_identifier,
"'{0}' not found".format(" ".join(sargs)))
ctx.undefine(defkey)
return result
return fn
def check_headers(*headers, **kw_ext):
def undef_others(ctx, headers, found):
not_found_hs = set(headers) - set([found])
for not_found_h in not_found_hs:
ctx.undefine(inflector.define_key(not_found_h))
def fn(ctx, dependency_identifier):
for header in headers:
defaults = {'header_name': header, 'features': 'c cprogram'}
options = __merge_options__(dependency_identifier, defaults, kw_ext)
if ctx.check(**options):
undef_others(ctx, headers, header)
ctx.define(inflector.define_key(dependency_identifier), 1)
return True
undef_others(ctx, headers, None)
return False
return fn
def check_true(ctx, dependency_identifier):
ctx.define(inflector.define_key(dependency_identifier), 1)
return True
def check_ctx_vars(*variables):
def fn(ctx, dependency_identifier):
missing = []
for variable in variables:
if variable not in ctx.env:
missing.append(variable)
if any(missing):
ctx.add_optional_message(dependency_identifier,
'missing {0}'.format(', '.join(missing)))
return False
else:
return True
return fn
def check_stub(ctx, dependency_identifier):
ctx.undefine(inflector.define_key(dependency_identifier))
return False
def compose_checks(*checks):
def fn(ctx, dependency_identifier):
return all([check(ctx, dependency_identifier) for check in checks])
return fn
def load_fragment(fragment):
file_path = os.path.join(os.path.dirname(__file__), '..', 'fragments',
fragment)
fp = open(file_path,"r")
fragment_code = fp.read()
fp.close()
return fragment_code