kivy-ios/toolchain.py

1482 lines
52 KiB
Python
Executable file

#!/usr/bin/env python3
"""
Tool for compiling iOS toolchain
================================
This tool intend to replace all the previous tools/ in shell script.
"""
import sys
from sys import stdout
from os.path import join, dirname, realpath, exists, isdir, basename
from os import listdir, unlink, makedirs, environ, chdir, getcwd, walk, remove
import zipfile
import tarfile
import importlib
import io
import json
import shutil
import fnmatch
import tempfile
from datetime import datetime
try:
from urllib.request import FancyURLopener, urlcleanup
except ImportError:
from urllib import FancyURLopener, urlcleanup
try:
from pbxproj import XcodeProject
from pbxproj.pbxextensions.ProjectFiles import FileOptions
except ImportError:
print("ERROR: pbxproj requirements is missing")
print("To install: pip install -r requirements.txt")
sys.exit(0)
curdir = dirname(__file__)
sys.path.insert(0, join(curdir, "tools", "external"))
import sh
IS_PY3 = sys.version_info[0] >= 3
def shprint(command, *args, **kwargs):
kwargs["_iter"] = True
kwargs["_out_bufsize"] = 1
kwargs["_err_to_out"] = True
for line in command(*args, **kwargs):
stdout.write(line.encode("ascii", "replace").decode())
def cache_execution(f):
def _cache_execution(self, *args, **kwargs):
state = self.ctx.state
key = "{}.{}".format(self.name, f.__name__)
force = kwargs.pop("force", False)
if args:
for arg in args:
key += ".{}".format(arg)
key_time = "{}.at".format(key)
if key in state and not force:
print("# (ignored) {} {}".format(f.__name__.capitalize(), self.name))
return
print("{} {}".format(f.__name__.capitalize(), self.name))
f(self, *args, **kwargs)
state[key] = True
state[key_time] = str(datetime.utcnow())
return _cache_execution
class ChromeDownloader(FancyURLopener):
version = (
'Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 '
'(KHTML, like Gecko) Chrome/28.0.1500.71 Safari/537.36')
urlretrieve = ChromeDownloader().retrieve
class JsonStore(object):
"""Replacement of shelve using json, needed for support python 2 and 3.
"""
def __init__(self, filename):
super(JsonStore, self).__init__()
self.filename = filename
self.data = {}
if exists(filename):
try:
with io.open(filename, encoding='utf-8') as fd:
self.data = json.load(fd)
except ValueError:
print("Unable to read the state.db, content will be replaced.")
def __getitem__(self, key):
return self.data[key]
def __setitem__(self, key, value):
self.data[key] = value
self.sync()
def __delitem__(self, key):
del self.data[key]
self.sync()
def __contains__(self, item):
return item in self.data
def get(self, item, default=None):
return self.data.get(item, default)
def keys(self):
return self.data.keys()
def remove_all(self, prefix):
for key in tuple(self.data.keys()):
if not key.startswith(prefix):
continue
del self.data[key]
self.sync()
def sync(self):
# http://stackoverflow.com/questions/12309269/write-json-data-to-file-in-python/14870531#14870531
if IS_PY3:
with open(self.filename, 'w') as fd:
json.dump(self.data, fd, ensure_ascii=False)
else:
with io.open(self.filename, 'w', encoding='utf-8') as fd:
fd.write(unicode(json.dumps(self.data, ensure_ascii=False)))
class Arch(object):
def __init__(self, ctx):
super(Arch, self).__init__()
self.ctx = ctx
self._ccsh = None
def __str__(self):
return self.arch
@property
def include_dirs(self):
return [
"{}/{}".format(
self.ctx.include_dir,
d.format(arch=self))
for d in self.ctx.include_dirs]
def get_env(self):
include_dirs = [
"-I{}/{}".format(
self.ctx.include_dir,
d.format(arch=self))
for d in self.ctx.include_dirs]
include_dirs += ["-I{}".format(
join(self.ctx.dist_dir, "include", self.arch))]
env = {}
cc = sh.xcrun("-find", "-sdk", self.sdk, "clang").strip()
cxx = sh.xcrun("-find", "-sdk", self.sdk, "clang++").strip()
# we put the flags in CC / CXX as sometimes the ./configure test
# with the preprocessor (aka CC -E) without CFLAGS, which fails for
# cross compiled projects
flags = " ".join([
"--sysroot", self.sysroot,
"-arch", self.arch,
"-pipe", "-no-cpp-precomp",
])
cc += " " + flags
cxx += " " + flags
use_ccache = environ.get("USE_CCACHE", "1")
ccache = None
if use_ccache == "1":
ccache = sh.which('ccache')
if ccache:
ccache = ccache.strip()
env["USE_CCACHE"] = "1"
env["CCACHE"] = ccache
env.update({k: v for k, v in environ.items() if k.startswith('CCACHE_')})
env.setdefault('CCACHE_MAXSIZE', '10G')
env.setdefault('CCACHE_HARDLINK', 'true')
env.setdefault('CCACHE_SLOPPINESS', ('file_macro,time_macros,'
'include_file_mtime,include_file_ctime,file_stat_matches'))
if not self._ccsh:
self._ccsh = tempfile.NamedTemporaryFile()
self._cxxsh = tempfile.NamedTemporaryFile()
sh.chmod("+x", self._ccsh.name)
sh.chmod("+x", self._cxxsh.name)
self._ccsh.write(b'#!/bin/sh\n')
self._cxxsh.write(b'#!/bin/sh\n')
if ccache:
print("CC and CXX will use ccache")
self._ccsh.write(
(ccache + ' ' + cc + ' "$@"\n').encode("utf8"))
self._cxxsh.write(
(ccache + ' ' + cxx + ' "$@"\n').encode("utf8"))
else:
print("CC and CXX will not use ccache")
self._ccsh.write(
(cc + ' "$@"\n').encode("utf8"))
self._cxxsh.write(
(cxx + ' "$@"\n').encode("utf8"))
self._ccsh.flush()
self._cxxsh.flush()
env["CC"] = self._ccsh.name
env["CXX"] = self._cxxsh.name
env["AR"] = sh.xcrun("-find", "-sdk", self.sdk, "ar").strip()
env["LD"] = sh.xcrun("-find", "-sdk", self.sdk, "ld").strip()
env["OTHER_CFLAGS"] = " ".join(include_dirs)
env["OTHER_LDFLAGS"] = " ".join([
"-L{}/{}".format(self.ctx.dist_dir, "lib"),
])
env["CFLAGS"] = " ".join([
"-O3",
self.version_min
] + include_dirs)
env["LDFLAGS"] = " ".join([
"-arch", self.arch,
"--sysroot", self.sysroot,
"-L{}/{}".format(self.ctx.dist_dir, "lib"),
"-lsqlite3",
self.version_min
])
return env
class ArchSimulator(Arch):
sdk = "iphonesimulator"
arch = "i386"
triple = "i386-apple-darwin11"
version_min = "-miphoneos-version-min=6.0.0"
sysroot = sh.xcrun("--sdk", "iphonesimulator", "--show-sdk-path").strip()
class Arch64Simulator(Arch):
sdk = "iphonesimulator"
arch = "x86_64"
triple = "x86_64-apple-darwin13"
version_min = "-miphoneos-version-min=7.0"
sysroot = sh.xcrun("--sdk", "iphonesimulator", "--show-sdk-path").strip()
class ArchIOS(Arch):
sdk = "iphoneos"
arch = "armv7"
triple = "arm-apple-darwin11"
version_min = "-miphoneos-version-min=6.0.0"
sysroot = sh.xcrun("--sdk", "iphoneos", "--show-sdk-path").strip()
class Arch64IOS(Arch):
sdk = "iphoneos"
arch = "arm64"
triple = "aarch64-apple-darwin13"
version_min = "-miphoneos-version-min=7.0"
sysroot = sh.xcrun("--sdk", "iphoneos", "--show-sdk-path").strip()
class Graph(object):
# Taken from python-for-android/depsort
def __init__(self):
# `graph`: dict that maps each package to a set of its dependencies.
self.graph = {}
def add(self, dependent, dependency):
"""Add a dependency relationship to the graph"""
self.graph.setdefault(dependent, set())
self.graph.setdefault(dependency, set())
if dependent != dependency:
self.graph[dependent].add(dependency)
def add_optional(self, dependent, dependency):
"""Add an optional (ordering only) dependency relationship to the graph
Only call this after all mandatory requirements are added
"""
if dependent in self.graph and dependency in self.graph:
self.add(dependent, dependency)
def find_order(self):
"""Do a topological sort on a dependency graph
:Parameters:
:Returns:
iterator, sorted items form first to last
"""
graph = dict((k, set(v)) for k, v in self.graph.items())
while graph:
# Find all items without a parent
leftmost = [l for l, s in graph.items() if not s]
if not leftmost:
raise ValueError('Dependency cycle detected! %s' % graph)
# If there is more than one, sort them for predictable order
leftmost.sort()
for result in leftmost:
# Yield and remove them from the graph
yield result
graph.pop(result)
for bset in graph.values():
bset.discard(result)
class Context(object):
env = environ.copy()
root_dir = None
cache_dir = None
build_dir = None
dist_dir = None
install_dir = None
ccache = None
cython = None
sdkver = None
sdksimver = None
so_suffix = None # set by one of the hostpython
def __init__(self):
super(Context, self).__init__()
self.include_dirs = []
ok = True
sdks = sh.xcodebuild("-showsdks").splitlines()
# get the latest iphoneos
iphoneos = [x for x in sdks if "iphoneos" in x]
if not iphoneos:
print("No iphone SDK installed")
ok = False
else:
iphoneos = iphoneos[0].split()[-1].replace("iphoneos", "")
self.sdkver = iphoneos
# get the latest iphonesimulator version
iphonesim = [x for x in sdks if "iphonesimulator" in x]
if not iphonesim:
ok = False
print("Error: No iphonesimulator SDK installed")
else:
iphonesim = iphonesim[0].split()[-1].replace("iphonesimulator", "")
self.sdksimver = iphonesim
# get the path for Developer
self.devroot = "{}/Platforms/iPhoneOS.platform/Developer".format(
sh.xcode_select("-print-path").strip())
# path to the iOS SDK
self.iossdkroot = "{}/SDKs/iPhoneOS{}.sdk".format(
self.devroot, self.sdkver)
# root of the toolchain
self.root_dir = realpath(dirname(__file__))
self.build_dir = "{}/build".format(self.root_dir)
self.cache_dir = "{}/.cache".format(self.root_dir)
self.dist_dir = "{}/dist".format(self.root_dir)
self.install_dir = "{}/dist/root".format(self.root_dir)
self.include_dir = "{}/dist/include".format(self.root_dir)
self.archs = (
# ArchSimulator(self),
Arch64Simulator(self),
ArchIOS(self),
Arch64IOS(self))
# path to some tools
self.ccache = sh.which("ccache")
if not self.ccache:
#print("ccache is missing, the build will not be optimized in the future.")
pass
for cython_fn in ("cython-2.7", "cython"):
cython = sh.which(cython_fn)
if cython:
self.cython = cython
break
if not self.cython:
ok = False
print("Missing requirement: cython is not installed")
# check the basic tools
for tool in ("pkg-config", "autoconf", "automake", "libtool"):
if not sh.which(tool):
print("Missing requirement: {} is not installed".format(
tool))
if not ok:
sys.exit(1)
self.use_pigz = sh.which('pigz')
self.use_pbzip2 = sh.which('pbzip2')
try:
num_cores = int(sh.sysctl('-n', 'hw.ncpu'))
except Exception:
num_cores = None
self.num_cores = num_cores if num_cores else 4 # default to 4 if we can't detect
ensure_dir(self.root_dir)
ensure_dir(self.build_dir)
ensure_dir(self.cache_dir)
ensure_dir(self.dist_dir)
ensure_dir(self.install_dir)
ensure_dir(self.include_dir)
ensure_dir(join(self.include_dir, "common"))
# remove the most obvious flags that can break the compilation
self.env.pop("MACOSX_DEPLOYMENT_TARGET", None)
self.env.pop("PYTHONDONTWRITEBYTECODE", None)
self.env.pop("ARCHFLAGS", None)
self.env.pop("CFLAGS", None)
self.env.pop("LDFLAGS", None)
# set the state
self.state = JsonStore(join(self.dist_dir, "state.db"))
@property
def concurrent_make(self):
return "-j{}".format(self.num_cores)
@property
def concurrent_xcodebuild(self):
return "IDEBuildOperationMaxNumberOfConcurrentCompileTasks={}".format(self.num_cores)
class Recipe(object):
props = {
"is_alias": False,
"version": None,
"url": None,
"archs": [],
"depends": [],
"optional_depends": [],
"library": None,
"libraries": [],
"include_dir": None,
"include_per_arch": False,
"include_name": None,
"frameworks": [],
"sources": [],
"pbx_frameworks": [],
"pbx_libraries": []
}
def __new__(cls):
for prop, value in cls.props.items():
if not hasattr(cls, prop):
setattr(cls, prop, value)
return super(Recipe, cls).__new__(cls)
# API available for recipes
def download_file(self, url, filename, cwd=None):
"""
Download an `url` to `outfn`
"""
if not url:
return
def report_hook(index, blksize, size):
if size <= 0:
progression = '{0} bytes'.format(index * blksize)
else:
progression = '{0:.2f}%'.format(
index * blksize * 100. / float(size))
stdout.write('- Download {}\r'.format(progression))
stdout.flush()
if cwd:
filename = join(cwd, filename)
if exists(filename):
unlink(filename)
# Clean up temporary files just in case before downloading.
urlcleanup()
print('Downloading {0}'.format(url))
urlretrieve(url, filename, report_hook)
return filename
def extract_file(self, filename, cwd):
"""
Extract the `filename` into the directory `cwd`.
"""
if not filename:
return
print("Extract {} into {}".format(filename, cwd))
if filename.endswith(".tgz") or filename.endswith(".tar.gz"):
if self.ctx.use_pigz:
comp = '--use-compress-program={}'.format(self.ctx.use_pigz)
else:
comp = '-z'
shprint(sh.tar, "-C", cwd, "-xv", comp, "-f", filename)
elif filename.endswith(".tbz2") or filename.endswith(".tar.bz2"):
if self.ctx.use_pbzip2:
comp = '--use-compress-program={}'.format(self.ctx.use_pbzip2)
else:
comp = '-j'
shprint(sh.tar, "-C", cwd, "-xv", comp, "-f", filename)
elif filename.endswith(".zip"):
shprint(sh.unzip, "-d", cwd, filename)
else:
print("Error: cannot extract, unrecognized extension for {}".format(
filename))
raise Exception()
def get_archive_rootdir(self, filename):
if filename.endswith(".tgz") or filename.endswith(".tar.gz") or \
filename.endswith(".tbz2") or filename.endswith(".tar.bz2"):
try:
archive = tarfile.open(filename)
except tarfile.ReadError:
print('Error extracting the archive {0}'.format(filename))
print('This is usually caused by a corrupt download. The file'
' will be removed and re-downloaded on the next run.')
remove(filename)
return
root = archive.next().path.split("/")
return root[0]
elif filename.endswith(".zip"):
with zipfile.ZipFile(filename) as zf:
return dirname(zf.namelist()[0])
else:
print("Error: cannot detect root directory")
print("Unrecognized extension for {}".format(filename))
raise Exception()
def apply_patch(self, filename, target_dir=''):
"""
Apply a patch from the current recipe directory into the current
build directory.
"""
target_dir = target_dir or self.build_dir
print("Apply patch {}".format(filename))
filename = join(self.recipe_dir, filename)
sh.patch("-t", "-d", target_dir, "-p1", "-i", filename)
def copy_file(self, filename, dest):
print("Copy {} to {}".format(filename, dest))
filename = join(self.recipe_dir, filename)
dest = join(self.build_dir, dest)
shutil.copy(filename, dest)
def append_file(self, filename, dest):
print("Append {} to {}".format(filename, dest))
filename = join(self.recipe_dir, filename)
dest = join(self.build_dir, dest)
with open(filename, "rb") as fd:
data = fd.read()
with open(dest, "ab") as fd:
fd.write(data)
def has_marker(self, marker):
"""
Return True if the current build directory has the marker set
"""
return exists(join(self.build_dir, ".{}".format(marker)))
def set_marker(self, marker):
"""
Set a marker info the current build directory
"""
with open(join(self.build_dir, ".{}".format(marker)), "w") as fd:
fd.write("ok")
def delete_marker(self, marker):
"""
Delete a specific marker
"""
try:
unlink(join(self.build_dir, ".{}".format(marker)))
except:
pass
def get_include_dir(self):
"""
Return the common include dir for this recipe
"""
return join(self.ctx.include_dir, "common", self.name)
def so_filename(self, name):
"""Return the filename of a library with the appropriate so suffix
(.so for Python 2.7, .cpython-37m-darwin for Python 3.7)
"""
return "{}{}".format(name, self.ctx.so_suffix)
@property
def name(self):
modname = self.__class__.__module__
return modname.split(".", 1)[-1]
@property
def archive_fn(self):
bfn = basename(self.url.format(version=self.version))
fn = "{}/{}-{}".format(
self.ctx.cache_dir,
self.name, bfn)
return fn
@property
def filtered_archs(self):
result = []
for arch in self.ctx.archs:
if not self.archs or (arch.arch in self.archs):
result.append(arch)
return result
@property
def dist_libraries(self):
libraries = []
name = self.name
if not name.startswith("lib"):
name = "lib{}".format(name)
if self.library:
static_fn = join(self.ctx.dist_dir, "lib", "{}.a".format(name))
libraries.append(static_fn)
for library in self.libraries:
static_fn = join(self.ctx.dist_dir, "lib", basename(library))
libraries.append(static_fn)
return libraries
def get_build_dir(self, arch):
return join(self.ctx.build_dir, self.name, arch, self.archive_root)
# Public Recipe API to be subclassed if needed
def init_with_ctx(self, ctx):
self.ctx = ctx
include_dir = None
if self.include_dir:
include_name = self.include_name or self.name
if self.include_per_arch:
include_dir = join("{arch.arch}", include_name)
else:
include_dir = join("common", include_name)
if include_dir:
print("Include dir added: {}".format(include_dir))
self.ctx.include_dirs.append(include_dir)
def get_recipe_env(self, arch=None):
"""Return the env specialized for the recipe
"""
if arch is None:
arch = self.filtered_archs[0]
return arch.get_env()
def set_hostpython(self, instance, version):
state = self.ctx.state
hostpython = state.get("hostpython")
if hostpython is None:
state["hostpython"] = instance.name
state.sync()
elif hostpython != instance.name:
print("ERROR: Wanted to use {}".format(instance.name))
print("ERROR: but hostpython is already provided by {}.".format(
hostpython))
print("ERROR: You can have only one hostpython version compiled")
sys.exit(1)
self.ctx.python_major = int(version)
self.ctx.hostpython_ver = version
self.ctx.hostpython_recipe = instance
def set_python(self, instance, version):
state = self.ctx.state
python = state.get("python")
if python is None:
state["python"] = instance.name
state.sync()
elif python != instance.name:
print("ERROR: Wanted to use {}".format(instance.name))
print("ERROR: but python is already provided by {}.".format(
python))
print("ERROR: You can have only one python version compiled")
sys.exit(1)
self.ctx.python_ver = version
self.ctx.python_recipe = instance
@property
def archive_root(self):
key = "{}.archive_root".format(self.name)
value = self.ctx.state.get(key)
if not value:
value = self.get_archive_rootdir(self.archive_fn)
if value is not None:
self.ctx.state[key] = value
return value
def execute(self):
if self.custom_dir:
self.ctx.state.remove_all(self.name)
self.download()
self.extract()
self.build_all()
@property
def custom_dir(self):
"""Check if there is a variable name to specify a custom version /
directory to use instead of the current url.
"""
envname = "{}_DIR".format(self.name.upper())
d = environ.get(envname)
if not d:
return
if not exists(d):
raise ValueError("Invalid path passed into {}".format(envname))
return d
def init_after_import(cls, ctx):
"""This can be used to dynamically set some variables
depending of the state
"""
pass
@cache_execution
def download(self):
key = "{}.archive_root".format(self.name)
if self.custom_dir:
self.ctx.state[key] = basename(self.custom_dir)
else:
src_dir = join(self.recipe_dir, self.url)
if exists(src_dir):
self.ctx.state[key] = basename(src_dir)
return
fn = self.archive_fn
if not exists(fn):
self.download_file(self.url.format(version=self.version), fn)
status = self.get_archive_rootdir(self.archive_fn)
if status is not None:
self.ctx.state[key] = status
@cache_execution
def extract(self):
# recipe tmp directory
for arch in self.filtered_archs:
print("Extract {} for {}".format(self.name, arch.arch))
self.extract_arch(arch.arch)
def extract_arch(self, arch):
build_dir = join(self.ctx.build_dir, self.name, arch)
dest_dir = join(build_dir, self.archive_root)
if self.custom_dir:
if exists(dest_dir):
shutil.rmtree(dest_dir)
shutil.copytree(self.custom_dir, dest_dir)
else:
if exists(dest_dir):
return
src_dir = join(self.recipe_dir, self.url)
if exists(src_dir):
shutil.copytree(src_dir, dest_dir)
return
ensure_dir(build_dir)
self.extract_file(self.archive_fn, build_dir)
@cache_execution
def build(self, arch):
self.build_dir = self.get_build_dir(arch.arch)
if self.has_marker("building"):
print("Warning: {} build for {} has been incomplete".format(
self.name, arch.arch))
print("Warning: deleting the build and restarting.")
shutil.rmtree(self.build_dir)
self.extract_arch(arch.arch)
if self.has_marker("build_done"):
print("Build python for {} already done.".format(arch.arch))
return
self.set_marker("building")
chdir(self.build_dir)
print("Prebuild {} for {}".format(self.name, arch.arch))
self.prebuild_arch(arch)
print("Build {} for {}".format(self.name, arch.arch))
self.build_arch(arch)
print("Postbuild {} for {}".format(self.name, arch.arch))
self.postbuild_arch(arch)
self.delete_marker("building")
self.set_marker("build_done")
@cache_execution
def build_all(self):
filtered_archs = self.filtered_archs
print("Build {} for {} (filtered)".format(
self.name,
", ".join([x.arch for x in filtered_archs])))
for arch in self.filtered_archs:
self.build(arch)
name = self.name
if self.library:
print("Create lipo library for {}".format(name))
if not name.startswith("lib"):
name = "lib{}".format(name)
static_fn = join(self.ctx.dist_dir, "lib", "{}.a".format(name))
ensure_dir(dirname(static_fn))
print("Lipo {} to {}".format(self.name, static_fn))
self.make_lipo(static_fn)
if self.libraries:
print("Create multiple lipo for {}".format(name))
for library in self.libraries:
static_fn = join(self.ctx.dist_dir, "lib", basename(library))
ensure_dir(dirname(static_fn))
print(" - Lipo-ize {}".format(library))
self.make_lipo(static_fn, library)
print("Install include files for {}".format(self.name))
self.install_include()
print("Install frameworks for {}".format(self.name))
self.install_frameworks()
print("Install sources for {}".format(self.name))
self.install_sources()
print("Install {}".format(self.name))
self.install()
def prebuild_arch(self, arch):
prebuild = "prebuild_{}".format(arch.arch)
if hasattr(self, prebuild):
getattr(self, prebuild)()
def build_arch(self, arch):
build = "build_{}".format(arch.arch)
if hasattr(self, build):
getattr(self, build)()
def postbuild_arch(self, arch):
postbuild = "postbuild_{}".format(arch.arch)
if hasattr(self, postbuild):
getattr(self, postbuild)()
@cache_execution
def make_lipo(self, filename, library=None):
if library is None:
library = self.library
if not library:
return
args = []
for arch in self.filtered_archs:
library_fn = library.format(arch=arch)
args += [
"-arch", arch.arch,
join(self.get_build_dir(arch.arch), library_fn)]
shprint(sh.lipo, "-create", "-output", filename, *args)
@cache_execution
def install_frameworks(self):
if not self.frameworks:
return
arch = self.filtered_archs[0]
build_dir = self.get_build_dir(arch.arch)
for framework in self.frameworks:
print(" - Install {}".format(framework))
src = join(build_dir, framework)
dest = join(self.ctx.dist_dir, "frameworks", framework)
ensure_dir(dirname(dest))
if exists(dest):
shutil.rmtree(dest)
shutil.copytree(src, dest)
@cache_execution
def install_sources(self):
if not self.sources:
return
arch = self.filtered_archs[0]
build_dir = self.get_build_dir(arch.arch)
for source in self.sources:
print(" - Install {}".format(source))
src = join(build_dir, source)
dest = join(self.ctx.dist_dir, "sources", self.name)
ensure_dir(dirname(dest))
if exists(dest):
shutil.rmtree(dest)
shutil.copytree(src, dest)
@cache_execution
def install_include(self):
if not self.include_dir:
return
if self.include_per_arch:
archs = self.ctx.archs
else:
archs = self.filtered_archs[:1]
include_dirs = self.include_dir
if not isinstance(include_dirs, (list, tuple)):
include_dirs = list([include_dirs])
for arch in archs:
arch_dir = "common"
if self.include_per_arch:
arch_dir = arch.arch
include_name = self.include_name or self.name
dest_dir = join(self.ctx.include_dir, arch_dir, include_name)
if exists(dest_dir):
shutil.rmtree(dest_dir)
build_dir = self.get_build_dir(arch.arch)
for include_dir in include_dirs:
dest_name = None
if isinstance(include_dir, (list, tuple)):
include_dir, dest_name = include_dir
include_dir = include_dir.format(arch=arch, ctx=self.ctx)
src_dir = join(build_dir, include_dir)
if dest_name is None:
dest_name = basename(src_dir)
if isdir(src_dir):
shutil.copytree(src_dir, dest_dir)
else:
dest = join(dest_dir, dest_name)
print("Copy {} to {}".format(src_dir, dest))
ensure_dir(dirname(dest))
shutil.copy(src_dir, dest)
@cache_execution
def install(self):
pass
@classmethod
def list_recipes(cls):
recipes_dir = join(dirname(__file__), "recipes")
for name in sorted(listdir(recipes_dir)):
fn = join(recipes_dir, name)
if isdir(fn):
yield name
@classmethod
def get_recipe(cls, name, ctx):
if not hasattr(cls, "recipes"):
cls.recipes = {}
if '==' in name:
name, version = name.split('==')
else:
version = None
if name in cls.recipes:
recipe = cls.recipes[name]
else:
mod = importlib.import_module("recipes.{}".format(name))
recipe = mod.recipe
recipe.recipe_dir = join(ctx.root_dir, "recipes", name)
recipe.init_after_import(ctx)
if version:
recipe.version = version
return recipe
class PythonRecipe(Recipe):
@cache_execution
def install(self):
self.install_python_package()
self.reduce_python_package()
@staticmethod
def remove_junk(d):
exts = [".pyc", ".py", ".so.lib", ".so.o", ".sh"]
for root, dirnames, filenames in walk(d):
for fn in filenames:
if any([fn.endswith(ext) for ext in exts]):
unlink(join(root, fn))
def install_python_package(self, name=None, env=None, is_dir=True):
"""Automate the installation of a Python package into the target
site-packages.
It will works with the first filtered_archs, and the name of the recipe.
"""
arch = self.filtered_archs[0]
if name is None:
name = self.name
if env is None:
env = self.get_recipe_env(arch)
print("Install {} into the site-packages".format(name))
build_dir = self.get_build_dir(arch.arch)
chdir(build_dir)
hostpython = sh.Command(self.ctx.hostpython)
iosbuild = join(build_dir, "iosbuild")
shprint(hostpython, "setup.py", "install", "-O2",
"--prefix", iosbuild,
_env=env)
dest_dir = join(self.ctx.site_packages_dir, name)
#self.remove_junk(iosbuild)
if is_dir:
if exists(dest_dir):
shutil.rmtree(dest_dir)
func = shutil.copytree
else:
func = shutil.copy
func(
join(iosbuild, "lib",
self.ctx.python_ver_dir, "site-packages", name),
dest_dir)
def reduce_python_package(self):
"""Feel free to remove things you don't want in the final
site-packages.
"""
pass
class CythonRecipe(PythonRecipe):
pre_build_ext = False
cythonize = True
def cythonize_file(self, filename):
if filename.startswith(self.build_dir):
filename = filename[len(self.build_dir) + 1:]
print("Cythonize {}".format(filename))
cmd = sh.Command(join(self.ctx.root_dir, "tools", "cythonize.py"))
hostpython = self.ctx.state.get("hostpython")
shprint(cmd, filename)
def cythonize_build(self):
if not self.cythonize:
return
root_dir = self.build_dir
for root, dirnames, filenames in walk(root_dir):
for filename in fnmatch.filter(filenames, "*.pyx"):
self.cythonize_file(join(root, filename))
def biglink(self):
dirs = []
for root, dirnames, filenames in walk(self.build_dir):
if fnmatch.filter(filenames, "*.so.libs"):
dirs.append(root)
cmd = sh.Command(join(self.ctx.root_dir, "tools", "biglink"))
shprint(cmd, join(self.build_dir, "lib{}.a".format(self.name)), *dirs)
def get_recipe_env(self, arch):
env = super(CythonRecipe, self).get_recipe_env(arch)
env["KIVYIOSROOT"] = self.ctx.root_dir
env["IOSSDKROOT"] = arch.sysroot
env["LDSHARED"] = join(self.ctx.root_dir, "tools", "liblink")
env["ARM_LD"] = env["LD"]
env["ARCH"] = arch.arch
return env
def build_arch(self, arch):
build_env = self.get_recipe_env(arch)
hostpython = sh.Command(self.ctx.hostpython)
if self.pre_build_ext:
try:
shprint(hostpython, "setup.py", "build_ext", "-g",
_env=build_env)
except:
pass
self.cythonize_build()
shprint(hostpython, "setup.py", "build_ext", "-g",
_env=build_env)
self.biglink()
def build_recipes(names, ctx):
# gather all the dependencies
print("Want to build {}".format(names))
graph = Graph()
ctx.wanted_recipes = names[:]
recipe_to_load = names
recipe_loaded = []
while names:
name = recipe_to_load.pop(0)
if name in recipe_loaded:
continue
try:
recipe = Recipe.get_recipe(name, ctx)
except ImportError:
print("ERROR: No recipe named {}".format(name))
sys.exit(1)
graph.add(name, name)
print("Loaded recipe {} (depends of {}, optional are {})".format(name,
recipe.depends, recipe.optional_depends))
for depend in recipe.depends:
graph.add(name, depend)
recipe_to_load += recipe.depends
for depend in recipe.optional_depends:
# in case of compilation after the initial one, take in account
# of the already compiled recipes
key = "{}.build_all".format(depend)
if key in ctx.state:
recipe_to_load.append(name)
graph.add(name, depend)
else:
graph.add_optional(name, depend)
recipe_loaded.append(name)
build_order = list(graph.find_order())
print("Build order is {}".format(build_order))
recipes = [Recipe.get_recipe(name, ctx) for name in build_order]
recipes = [recipe for recipe in recipes if not recipe.is_alias]
recipes_order = [recipe.name for recipe in recipes]
print("Recipe order is {}".format(recipes_order))
for recipe in recipes:
recipe.init_with_ctx(ctx)
for recipe in recipes:
recipe.execute()
def ensure_dir(filename):
if not exists(filename):
makedirs(filename)
def ensure_recipes_loaded(ctx):
for recipe in Recipe.list_recipes():
key = "{}.build_all".format(recipe)
if key not in ctx.state:
continue
recipe = Recipe.get_recipe(recipe, ctx)
recipe.init_with_ctx(ctx)
def update_pbxproj(filename):
# list all the compiled recipes
ctx = Context()
pbx_libraries = []
pbx_frameworks = []
frameworks = []
libraries = []
sources = []
for recipe in Recipe.list_recipes():
key = "{}.build_all".format(recipe)
if key not in ctx.state:
continue
recipe = Recipe.get_recipe(recipe, ctx)
recipe.init_with_ctx(ctx)
pbx_frameworks.extend(recipe.pbx_frameworks)
pbx_libraries.extend(recipe.pbx_libraries)
libraries.extend(recipe.dist_libraries)
frameworks.extend(recipe.frameworks)
if recipe.sources:
sources.append(recipe.name)
pbx_frameworks = list(set(pbx_frameworks))
pbx_libraries = list(set(pbx_libraries))
libraries = list(set(libraries))
print("-" * 70)
print("The project need to have:")
print("iOS Frameworks: {}".format(pbx_frameworks))
print("iOS Libraries: {}".format(pbx_libraries))
print("iOS local Frameworks: {}".format(frameworks))
print("Libraries: {}".format(libraries))
print("Sources to link: {}".format(sources))
print("-" * 70)
print("Analysis of {}".format(filename))
project = XcodeProject.load(filename)
sysroot = sh.xcrun("--sdk", "iphonesimulator", "--show-sdk-path").strip()
group = project.get_or_create_group("Frameworks")
g_classes = project.get_or_create_group("Classes")
file_options = FileOptions(embed_framework=False, code_sign_on_copy=True)
for framework in pbx_frameworks:
framework_name = "{}.framework".format(framework)
if framework_name in frameworks:
print("Ensure {} is in the project (pbx_frameworks, local)".format(framework))
f_path = join(ctx.dist_dir, "frameworks", framework_name)
else:
print("Ensure {} is in the project (pbx_frameworks, system)".format(framework))
f_path = join(sysroot, "System", "Library", "Frameworks",
"{}.framework".format(framework))
project.add_file(f_path, parent=group, tree="DEVELOPER_DIR",
force=False, file_options=file_options)
for library in pbx_libraries:
print("Ensure {} is in the project (pbx_libraries, dylib+tbd)".format(library))
f_path = join(sysroot, "usr", "lib",
"{}.dylib".format(library))
project.add_file(f_path, parent=group, tree="DEVELOPER_DIR", force=False)
f_path = join(sysroot, "usr", "lib",
"{}.tbd".format(library))
project.add_file(f_path, parent=group, tree="DEVELOPER_DIR", force=False)
for library in libraries:
print("Ensure {} is in the project (libraries)".format(library))
project.add_file(library, parent=group, force=False)
for name in sources:
print("Ensure {} sources are used".format(name))
fn = join(ctx.dist_dir, "sources", name)
project.add_folder(fn, parent=g_classes)
project.backup()
project.save()
if __name__ == "__main__":
import argparse
class ToolchainCL(object):
def __init__(self):
parser = argparse.ArgumentParser(
description="Tool for managing the iOS / Python toolchain",
usage="""toolchain <command> [<args>]
Available commands:
build Build a recipe (compile a library for the required target
architecture)
clean Clean the build of the specified recipe
distclean Clean the build and the result
recipes List all the available recipes
status List all the recipes and their build status
Xcode:
create Create a new xcode project
update Update an existing xcode project (frameworks, libraries..)
launchimage Create Launch images for your xcode project
icon Create Icons for your xcode project
pip Install a pip dependency into the distribution
""")
parser.add_argument("command", help="Command to run")
args = parser.parse_args(sys.argv[1:2])
if not hasattr(self, args.command):
print('Unrecognized command')
parser.print_help()
exit(1)
getattr(self, args.command)()
def build(self):
ctx = Context()
parser = argparse.ArgumentParser(
description="Build the toolchain")
parser.add_argument("recipe", nargs="+", help="Recipe to compile")
parser.add_argument("--arch", action="append",
help="Restrict compilation to this arch")
parser.add_argument("--concurrency", type=int, default=ctx.num_cores,
help="number of concurrent build processes (where supported)")
parser.add_argument("--no-pigz", action="store_true", default=not bool(ctx.use_pigz),
help="do not use pigz for gzip decompression")
parser.add_argument("--no-pbzip2", action="store_true", default=not bool(ctx.use_pbzip2),
help="do not use pbzip2 for bzip2 decompression")
args = parser.parse_args(sys.argv[2:])
if args.arch:
if len(args.arch) == 1:
archs = args.arch[0].split()
else:
archs = args.arch
available_archs = [arch.arch for arch in ctx.archs]
for arch in archs[:]:
if arch not in available_archs:
print("ERROR: Architecture {} invalid".format(arch))
archs.remove(arch)
continue
ctx.archs = [arch for arch in ctx.archs if arch.arch in archs]
print("Architectures restricted to: {}".format(archs))
ctx.num_cores = args.concurrency
if args.no_pigz:
ctx.use_pigz = False
if args.no_pbzip2:
ctx.use_pbzip2 = False
ctx.use_pigz = ctx.use_pbzip2
print("Building with {} processes, where supported".format(ctx.num_cores))
if ctx.use_pigz:
print("Using pigz to decompress gzip data")
if ctx.use_pbzip2:
print("Using pbzip2 to decompress bzip2 data")
build_recipes(args.recipe, ctx)
def recipes(self):
parser = argparse.ArgumentParser(
description="List all the available recipes")
parser.add_argument(
"--compact", action="store_true",
help="Produce a compact list suitable for scripting")
args = parser.parse_args(sys.argv[2:])
if args.compact:
print(" ".join(list(Recipe.list_recipes())))
else:
ctx = Context()
for name in Recipe.list_recipes():
try:
recipe = Recipe.get_recipe(name, ctx)
print("{recipe.name:<12} {recipe.version:<8}".format(recipe=recipe))
except:
pass
def clean(self):
parser = argparse.ArgumentParser(
description="Clean the build")
parser.add_argument("recipe", nargs="*", help="Recipe to clean")
args = parser.parse_args(sys.argv[2:])
ctx = Context()
if args.recipe:
for recipe in args.recipe:
print("Cleaning {} build".format(recipe))
ctx.state.remove_all("{}.".format(recipe))
build_dir = join(ctx.build_dir, recipe)
if exists(build_dir):
shutil.rmtree(build_dir)
else:
print("Delete build directory")
if exists(ctx.build_dir):
shutil.rmtree(ctx.build_dir)
def distclean(self):
parser = argparse.ArgumentParser(
description="Clean the build, download, and dist")
args = parser.parse_args(sys.argv[2:])
ctx = Context()
if exists(ctx.build_dir):
shutil.rmtree(ctx.build_dir)
if exists(ctx.dist_dir):
shutil.rmtree(ctx.dist_dir)
if exists(ctx.cache_dir):
shutil.rmtree(ctx.cache_dir)
def status(self):
parser = argparse.ArgumentParser(
description="Give a status of the build")
args = parser.parse_args(sys.argv[2:])
ctx = Context()
for recipe in Recipe.list_recipes():
key = "{}.build_all".format(recipe)
keytime = "{}.build_all.at".format(recipe)
if key in ctx.state:
status = "Build OK (built at {})".format(ctx.state[keytime])
else:
status = "Not built"
print("{:<12} - {}".format(
recipe, status))
def create(self):
parser = argparse.ArgumentParser(
description="Create a new xcode project")
parser.add_argument("name", help="Name of your project")
parser.add_argument("directory", help="Directory where your project lives")
args = parser.parse_args(sys.argv[2:])
from cookiecutter.main import cookiecutter
ctx = Context()
ensure_recipes_loaded(ctx)
if not hasattr(ctx, "python_ver"):
print("ERROR: No python recipes compiled!")
print("ERROR: You must have compiled at least python2 or")
print("ERROR: python3 recipes to be able to create a project.")
sys.exit(1)
template_dir = join(curdir, "tools", "templates")
context = {
"title": args.name,
"project_name": args.name.lower(),
"domain_name": "org.kivy.{}".format(args.name.lower()),
"kivy_dir": dirname(realpath(__file__)),
"project_dir": realpath(args.directory),
"version": "1.0.0",
"dist_dir": ctx.dist_dir,
"python_version": ctx.python_ver,
"python_major": ctx.python_major
}
cookiecutter(template_dir, no_input=True, extra_context=context)
filename = join(
getcwd(),
"{}-ios".format(args.name.lower()),
"{}.xcodeproj".format(args.name.lower()),
"project.pbxproj")
update_pbxproj(filename)
print("--")
print("Project directory : {}-ios".format(
args.name.lower()))
print("XCode project : {0}-ios/{0}.xcodeproj".format(
args.name.lower()))
def update(self):
parser = argparse.ArgumentParser(
description="Update an existing xcode project")
parser.add_argument("filename", help="Path to your project or xcodeproj")
args = parser.parse_args(sys.argv[2:])
filename = args.filename
if not filename.endswith(".xcodeproj"):
# try to find the xcodeproj
from glob import glob
xcodeproj = glob(join(filename, "*.xcodeproj"))
if not xcodeproj:
print("ERROR: Unable to find a xcodeproj in {}".format(filename))
sys.exit(1)
filename = xcodeproj[0]
filename = join(filename, "project.pbxproj")
if not exists(filename):
print("ERROR: {} not found".format(filename))
sys.exit(1)
update_pbxproj(filename)
print("--")
print("Project {} updated".format(filename))
def pip(self):
ctx = Context()
for recipe in Recipe.list_recipes():
key = "{}.build_all".format(recipe)
if key not in ctx.state:
continue
recipe = Recipe.get_recipe(recipe, ctx)
recipe.init_with_ctx(ctx)
if not hasattr(ctx, "site_packages_dir"):
print("ERROR: python must be compiled before using pip")
sys.exit(1)
pip_env = {
"CC": "/bin/false",
"CXX": "/bin/false",
"PYTHONPATH": ctx.site_packages_dir,
"PYTHONOPTIMIZE": "2",
# "PIP_INSTALL_TARGET": ctx.site_packages_dir
}
pip_path = sh.which("pip2")
pip_args = []
if len(sys.argv) > 2 and sys.argv[2] == "install":
pip_args = ["--isolated", "--prefix", ctx.python_prefix]
args = [pip_path] + [sys.argv[2]] + pip_args + sys.argv[3:]
else:
args = [pip_path] + pip_args + sys.argv[2:]
if not pip_path:
print("ERROR: pip not found")
sys.exit(1)
import os
print("-- execute pip with: {}".format(args))
os.execve(pip_path, args, pip_env)
def launchimage(self):
import xcassets
self._xcassets("LaunchImage", xcassets.launchimage)
def icon(self):
import xcassets
self._xcassets("Icon", xcassets.icon)
def xcode(self):
parser = argparse.ArgumentParser(description="Open the xcode project")
parser.add_argument("filename", help="Path to your project or xcodeproj")
args = parser.parse_args(sys.argv[2:])
filename = args.filename
if not filename.endswith(".xcodeproj"):
# try to find the xcodeproj
from glob import glob
xcodeproj = glob(join(filename, "*.xcodeproj"))
if not xcodeproj:
print("ERROR: Unable to find a xcodeproj in {}".format(filename))
sys.exit(1)
filename = xcodeproj[0]
sh.open(filename)
def _xcassets(self, title, command):
parser = argparse.ArgumentParser(
description="Generate {} for your project".format(title))
parser.add_argument("filename", help="Path to your project or xcodeproj")
parser.add_argument("image", help="Path to your initial {}.png".format(title.lower()))
args = parser.parse_args(sys.argv[2:])
if not exists(args.image):
print("ERROR: image path does not exists.")
return
filename = args.filename
if not filename.endswith(".xcodeproj"):
# try to find the xcodeproj
from glob import glob
xcodeproj = glob(join(filename, "*.xcodeproj"))
if not xcodeproj:
print("ERROR: Unable to find a xcodeproj in {}".format(filename))
sys.exit(1)
filename = xcodeproj[0]
project_name = filename.split("/")[-1].replace(".xcodeproj", "")
images_xcassets = realpath(join(filename, "..", project_name,
"Images.xcassets"))
if not exists(images_xcassets):
print("WARNING: Images.xcassets not found, creating it.")
makedirs(images_xcassets)
print("Images.xcassets located at {}".format(images_xcassets))
command(images_xcassets, args.image)
ToolchainCL()