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2013-09-05 16:42:27 +03:00
#!/usr/bin/env python
from __future__ import print_function
import sys, optparse, subprocess, os, os.path, errno, zipfile, string, json, platform, shutil, tarfile, tempfile, multiprocessing, re, stat, copy
if sys.version_info >= (3,):
from urllib.parse import urljoin
from urllib.request import urlopen
from urllib.error import HTTPError
else:
from urlparse import urljoin
from urllib2 import urlopen, HTTPError
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# EMSDK_DEV is a developer mode flag, which, if true, the SDK is downloaded from a 'staging' online source,
# instead of the public source. New releases are first deployed to the staging source for testing, before
# being published to the public. Don't enable this unless you develop EMSDK itself and need to access the
# staging source repository instead.
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EMSDK_DEV = bool(os.getenv('EMSDK_DEV')) if os.getenv('EMSDK_DEV') != None else False
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if EMSDK_DEV:
print('EMSDK_DEV active.')
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emsdk_master_server = 'http://clb.demon.fi/emscripten_dev/'
else:
emsdk_master_server = 'https://s3.amazonaws.com/mozilla-games/emscripten/'
emsdk_packages_url = urljoin(emsdk_master_server, 'packages/')
emscripten_git_repo = 'https://github.com/kripken/emscripten/'
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# Enable this to do very verbose printing about the different steps that are being run. Useful for debugging.
VERBOSE = bool(os.getenv('EMSDK_VERBOSE')) if os.getenv('EMSDK_VERBOSE') != None else False
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WINDOWS = False
if os.name == 'nt':
WINDOWS = True
ENVPATH_SEPARATOR = ';'
LINUX = False
if platform.system() == 'Linux':
LINUX = True
ENVPATH_SEPARATOR = ':'
OSX = False
if platform.mac_ver()[0] != '':
OSX = True
ENVPATH_SEPARATOR = ':'
CPU_CORES = max(multiprocessing.cpu_count()-1, 1) # Don't saturate all cores to not steal the whole system, but be aggressive.
CMAKE_BUILD_TYPE_OVERRIDE = None
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# If true, perform a --shallow clone of git.
GIT_CLONE_SHALLOW = False
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# If true, LLVM backend is built with tests enabled.
BUILD_LLVM_TESTS = False
# If 'auto', assertions are decided by the build type (Release&MinSizeRel=disabled, Debug&RelWithDebInfo=enabled)
# Other valid values are 'ON' and 'OFF'
ENABLE_LLVM_ASSERTIONS = 'auto'
emscripten_config_directory = os.path.expanduser("~/")
EMSDK_SET_ENV = 'emsdk_set_env.bat' if WINDOWS else 'emsdk_set_env.sh'
# Finds the given executable 'program' in PATH. Operates like the Unix tool 'which'.
def which(program):
def is_exe(fpath):
return os.path.isfile(fpath) and os.access(fpath, os.X_OK)
fpath, fname = os.path.split(program)
if fpath:
if is_exe(program):
return program
else:
for path in os.environ["PATH"].split(os.pathsep):
path = path.strip('"')
exe_file = os.path.join(path, program)
if is_exe(exe_file):
return exe_file
if WINDOWS and not '.' in fname:
if is_exe(exe_file + '.exe'):
return exe_file + '.exe'
if is_exe(exe_file + '.cmd'):
return exe_file + '.cmd'
if is_exe(exe_file + '.bat'):
return exe_file + '.bat'
return None
CMAKE_GENERATOR = 'Unix Makefiles'
if WINDOWS:
# Detect which CMake generator to use when building on Windows
if '--mingw' in sys.argv: CMAKE_GENERATOR = 'MinGW Makefiles'
elif '--vs2013' in sys.argv: CMAKE_GENERATOR = 'Visual Studio 12'
elif '--vs2015' in sys.argv: CMAKE_GENERATOR = 'Visual Studio 14'
else:
vs2015_exists = 'VS140COMNTOOLS' in os.environ or 'VSSDK140Install' in os.environ or os.path.isdir(os.path.join(os.environ['ProgramFiles'], 'Microsoft Visual Studio 14.0')) or ('ProgramFiles(x86)' in os.environ and os.path.isdir(os.path.join(os.environ['ProgramFiles(x86)'], 'Microsoft Visual Studio 14.0')))
vs2013_exists = 'VS120COMNTOOLS' in os.environ or os.path.isdir(os.path.join(os.environ['ProgramFiles'], 'Microsoft Visual Studio 12.0')) or ('ProgramFiles(x86)' in os.environ and os.path.isdir(os.path.join(os.environ['ProgramFiles(x86)'], 'Microsoft Visual Studio 12.0')))
mingw_exists = which('mingw32-make') != None and which('g++') != None
if vs2013_exists: CMAKE_GENERATOR = 'Visual Studio 12' # Favor VS2013 over VS2015, since there is no big known difference, and VS2013 CRT is more widely available (for portable installation compatibility).
elif vs2015_exists: CMAKE_GENERATOR = 'Visual Studio 14'
elif mingw_exists: CMAKE_GENERATOR = 'MinGW Makefiles'
else: CMAKE_GENERATOR = '' # No detected generator
if VERBOSE: print('CMAKE_GENERATOR: ' + CMAKE_GENERATOR)
sys.argv = filter(lambda x: x not in ['--mingw', '--vs2013', '--vs2015'], sys.argv)
# Removes a directory tree even if it was readonly, and doesn't throw exception on failure.
def remove_tree(d):
if VERBOSE: print('remove_tree(' + str(d) + ')')
try:
def remove_readonly_and_try_again(func, path, exc_info):
if not (os.stat(path).st_mode & stat.S_IWRITE):
os.chmod(path, stat.S_IWRITE)
func(path)
else:
raise
shutil.rmtree(d, onerror=remove_readonly_and_try_again)
except Exception as e:
if VERBOSE: print('remove_tree threw an exception, ignoring: ' + str(e))
pass
def win_set_environment_variable_direct(key, value, system=True):
prev_path = os.environ['PATH']
try:
py = find_used_python()
if py:
py_path = to_native_path(py.expand_vars(py.activated_path))
os.environ['PATH'] = os.environ['PATH'] + ';' + py_path
import win32api, win32con
if system: # Read globally from ALL USERS section.
folder = win32api.RegOpenKeyEx(win32con.HKEY_LOCAL_MACHINE, 'SYSTEM\\CurrentControlSet\\Control\\Session Manager\\Environment', 0, win32con.KEY_ALL_ACCESS)
else: # Register locally from CURRENT USER section.
folder = win32api.RegOpenKeyEx(win32con.HKEY_CURRENT_USER, 'Environment', 0, win32con.KEY_ALL_ACCESS)
win32api.RegSetValueEx(folder, key, 0, win32con.REG_EXPAND_SZ, value)
except Exception as e:
if e[0] == 5 or e[2] == 'Access is denied.':
print('Error! Failed to set the environment variable \'' + key + '\'! Setting environment variables permanently requires administrator access. Please rerun this command with administrative privileges. This can be done for example by holding down the Ctrl and Shift keys while opening a command prompt in start menu.')
sys.exit(1)
if e[0] != 2: # 'The system cannot find the file specified.'
print('Failed to write environment variable ' + key + ':', file=sys.stderr)
print(str(e), file=sys.stderr)
win32api.RegCloseKey(folder)
os.environ['PATH'] = prev_path
return None
win32api.RegCloseKey(folder)
os.environ['PATH'] = prev_path
win32api.SendMessage(win32con.HWND_BROADCAST, win32con.WM_SETTINGCHANGE, 0, 'Environment')
def win_get_environment_variable(key, system=True):
prev_path = os.environ['PATH']
try:
py = find_used_python()
if py:
py_path = to_native_path(py.expand_vars(py.activated_path))
os.environ['PATH'] = os.environ['PATH'] + ';' + py_path
import win32api, win32con
if system: # Read globally from ALL USERS section.
folder = win32api.RegOpenKey(win32con.HKEY_LOCAL_MACHINE, 'SYSTEM\\CurrentControlSet\\Control\\Session Manager\\Environment')
else: # Register locally from CURRENT USER section.
folder = win32api.RegOpenKey(win32con.HKEY_CURRENT_USER, 'Environment')
value = str(win32api.RegQueryValueEx(folder, key)[0])
except Exception as e:
if e[0] != 2: # 'The system cannot find the file specified.'
print('Failed to read environment variable ' + key + ':', file=sys.stderr)
print(str(e), file=sys.stderr)
win32api.RegCloseKey(folder)
os.environ['PATH'] = prev_path
return None
win32api.RegCloseKey(folder)
os.environ['PATH'] = prev_path
return value
def win_environment_variable_exists(key, system=True):
value = win_get_environment_variable(key, system)
return value != None and len(value) > 0
def win_get_active_environment_variable(key):
value = win_get_environment_variable(key, False)
if value != None:
return value
return win_get_environment_variable(key, True)
def win_set_environment_variable(key, value, system=True):
if VERBOSE: print('set ' + str(key) + '=' + str(value) + ', in system=' + str(system), file=sys.stderr)
previous_value = win_get_environment_variable(key, system)
if previous_value == value:
return # No need to elevate UAC for nothing to set the same value, skip.
if not value:
try:
if system:
value = subprocess.call(['REG', 'DELETE', 'SYSTEM\\CurrentControlSet\\Control\\Session Manager\\Environment', '/V', key, '/f'], stdout=subprocess.PIPE)
else:
value = subprocess.call(['REG', 'DELETE', 'HKCU\\Environment', '/V', key, '/f'], stdout=subprocess.PIPE)
except Exception as e:
return
return
try:
if system:
win_set_environment_variable_direct(key, value, system)
return
else:
if len(value) < 1024:
cmd = ['SETX']
else:
print('ERROR! The new environment variable ' + key + ' is more than 1024 characters long! A value this long cannot be set via command line: please add the environment variable specified above to system environment manually via Control Panel.', file=sys.stderr)
sys.exit(1)
if WINDOWS: value = value.replace('%', '^%') # Escape % signs so that we don't expand references to environment variables.
retcode = subprocess.call(cmd + [key, value], stdout=subprocess.PIPE)
if retcode is not 0:
print('ERROR! Failed to set environment variable ' + key + '=' + value + '. You may need to set it manually.', file=sys.stderr)
except Exception as e:
print('ERROR! Failed to set environment variable ' + key + '=' + value + ':', file=sys.stderr)
print(str(e), file=sys.stderr)
print('You may need to set it manually.', file=sys.stderr)
def win_delete_environment_variable(key, system=True):
if VERBOSE: print('win_delete_environment_variable(key=' + key + ', system=' + str(system) + ')')
win_set_environment_variable(key, None, system)
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# Returns the absolute pathname to the given path inside the Emscripten SDK.
def sdk_path(path):
if os.path.isabs(path):
return path
else:
return to_unix_path(os.path.join(os.path.dirname(os.path.realpath(__file__)), path))
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def emsdk_path(): return to_unix_path(os.path.dirname(os.path.realpath(__file__)))
# Modifies the given file in-place to contain '\r\n' line endings.
def file_to_crlf(filename):
text = open(filename, 'r').read()
text = text.replace('\r\n', '\n').replace('\n', '\r\n')
open(filename, 'wb').write(text)
# Modifies the given file in-place to contain '\n' line endings.
def file_to_lf(filename):
text = open(filename, 'r').read()
text = text.replace('\r\n', '\n')
open(filename, 'wb').write(text)
# Removes a single file, suppressing exceptions on failure.
def rmfile(filename):
if VERBOSE: print('rmfile(' + filename + ')')
try:
os.remove(filename)
except:
pass
def fix_lineendings(filename):
if WINDOWS:
file_to_crlf(filename)
else:
file_to_lf(filename)
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# http://stackoverflow.com/questions/600268/mkdir-p-functionality-in-python
def mkdir_p(path):
if VERBOSE: print('mkdir_p(' + path + ')')
if os.path.exists(path):
return
try:
os.makedirs(path)
except OSError as exc: # Python >2.5
if exc.errno == errno.EEXIST and os.path.isdir(path):
pass
else: raise
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def num_files_in_directory(path):
if not os.path.isdir(path):
return 0
return len([name for name in os.listdir(path) if os.path.exists(os.path.join(path, name))])
def run(cmd, cwd=None):
if VERBOSE: print('run(cmd=' + str(cmd) + ', cwd=' + str(cwd) + ')')
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process = subprocess.Popen(cmd, cwd=cwd, env=os.environ.copy())
process.communicate()
if process.returncode != 0:
print(str(cmd) + ' failed with error code ' + str(process.returncode) + '!')
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return process.returncode
# http://pythonicprose.blogspot.fi/2009/10/python-extract-targz-archive.html
def untargz(source_filename, dest_dir, unpack_even_if_exists=False):
if VERBOSE: print('untargz(source_filename=' + source_filename + ', dest_dir=' + dest_dir + ')')
if not unpack_even_if_exists and num_files_in_directory(dest_dir) > 0:
print("File '" + source_filename + "' has already been unpacked, skipping.")
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return True
print("Unpacking '" + source_filename + "' to '" + dest_dir + "'")
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mkdir_p(dest_dir)
run(['tar', '-xvf', sdk_path(source_filename), '--strip', '1'], cwd=dest_dir)
#tfile = tarfile.open(source_filename, 'r:gz')
#tfile.extractall(dest_dir)
return True
# http://stackoverflow.com/questions/12886768/simple-way-to-unzip-file-in-python-on-all-oses
def unzip(source_filename, dest_dir, unpack_even_if_exists=False):
if VERBOSE: print('unzip(source_filename=' + source_filename + ', dest_dir=' + dest_dir + ')')
if not unpack_even_if_exists and num_files_in_directory(dest_dir) > 0:
print("File '" + source_filename + "' has already been unpacked, skipping.")
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return True
print("Unpacking '" + source_filename + "' to '" + dest_dir + "'")
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mkdir_p(dest_dir)
common_subdir = None
try:
with zipfile.ZipFile(source_filename) as zf:
# Implement '--strip 1' behavior to unzipping by testing if all the files in the zip reside in a common subdirectory, and if so,
# we move the output tree at the end of uncompression step.
for member in zf.infolist():
words = member.filename.split('/')
if len(words) > 1: # If there is a directory component?
if common_subdir == None:
common_subdir = words[0]
elif common_subdir != words[0]:
common_subdir = ''
break
unzip_to_dir = dest_dir
if common_subdir:
unzip_to_dir = os.path.join('/'.join(dest_dir.split('/')[:-1]), 'unzip_temp')
# Now do the actual decompress.
for member in zf.infolist():
# Path traversal defense copied from
# http://hg.python.org/cpython/file/tip/Lib/http/server.py#l789
words = member.filename.split('/')
path = unzip_to_dir
for word in words[:-1]:
drive, word = os.path.splitdrive(word)
head, word = os.path.split(word)
if word in (os.curdir, os.pardir, ''): continue
path = os.path.join(path, word)
zf.extract(member, unzip_to_dir)
if common_subdir:
try:
if os.path.exists(dest_dir):
remove_tree(dest_dir)
except:
pass
shutil.copytree(os.path.join(unzip_to_dir, common_subdir), dest_dir)
try:
remove_tree(unzip_to_dir)
except:
pass
except zipfile.BadZipfile as e:
print("Unzipping file '" + source_filename + "' failed due to reason: " + str(e) + "! Removing the corrupted zip file.")
rmfile(source_filename)
return False
except Exception as e:
print("Unzipping file '" + source_filename + "' failed due to reason: " + str(e))
return False
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return True
# This function interprets whether the given string looks like a path to a directory instead of a file, without looking at the actual filesystem.
# 'a/b/c' points to directory, so does 'a/b/c/', but 'a/b/c.x' is parsed as a filename
def path_points_to_directory(path):
if path == '.':
return True
last_slash = max(path.rfind('/'), path.rfind('\\'))
last_dot = path.rfind('.')
no_suffix = last_dot < last_slash or last_dot == -1
if no_suffix:
return True
suffix = path[last_dot:]
if suffix == '.exe' or suffix == '.zip': # Very simple logic for the only file suffixes used by emsdk downloader. Other suffixes, like 'clang-3.2' are treated as dirs.
return False
else:
return True
# On success, returns the filename on the disk pointing to the destination file that was produced
# On failure, returns None.
def download_file(url, dstpath, download_even_if_exists=False, filename_prefix = ''):
if VERBOSE: print('download_file(url=' + url + ', dstpath=' + dstpath + ')')
file_name = filename_prefix + url.split('/')[-1]
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if path_points_to_directory(dstpath):
file_name = os.path.join(dstpath, file_name)
else:
file_name = dstpath
# Treat all relative destination paths as relative to the SDK root directory, not the current working directory.
file_name = sdk_path(file_name)
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if os.path.exists(file_name) and not download_even_if_exists:
print("File '" + file_name + "' already downloaded, skipping.")
return file_name
try:
u = urlopen(url)
mkdir_p(os.path.dirname(file_name))
with open(file_name, 'wb') as f:
meta = u.info()
if hasattr(meta.getheaders, "Content-Length"):
file_size = int(meta.getheaders("Content-Length")[0])
print("Downloading: %s from %s, %s Bytes" % (file_name, url, file_size))
else:
file_size = 0
print("Downloading: %s from %s" % (file_name, url))
file_size_dl = 0
block_sz = 8192
while True:
buffer = u.read(block_sz)
if not buffer:
break
file_size_dl += len(buffer)
f.write(buffer)
if file_size:
status = r"%10d [%3.2f%%]" % (file_size_dl, file_size_dl * 100. / file_size)
status = status + chr(8)*(len(status)+1)
print(status, end=' ')
except HTTPError as e:
print("HTTP error with URL '" + url + "': " + str(e))
rmfile(file_name)
return None
# except Exception as e:
# print("Error downloading URL '" + url + "': " + str(e))
# rmfile(file_name)
# return None
return file_name
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def download_text_file(url, dstpath, download_even_if_exists=False, filename_prefix=''):
filename = download_file(url, dstpath, download_even_if_exists, filename_prefix)
fix_lineendings(os.path.join(emsdk_path(), filename))
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def run_get_output(cmd, cwd=None):
if VERBOSE: print('run_get_output(cmd=' + str(cmd) + ', cwd=' + str(cwd) + ')')
process = subprocess.Popen(cmd, cwd=cwd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=subprocess.PIPE, env=os.environ.copy(), universal_newlines=True)
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(stdout, stderr) = process.communicate()
return (process.returncode, stdout, stderr)
# must_succeed: If false, the search is performed silently without printing out errors if not found. Empty string is returned if git is not found.
# If true, the search is required to succeed, and the execution will terminate with sys.exit(1) if not found.
def GIT(must_succeed=True):
# The order in the following is important, and specifies the preferred order of using the git tools.
# Primarily use git from emsdk if installed. If not, use system git.
gits = ['git/1.9.4/bin/git.exe', which('git')]
for git in gits:
try:
(ret, stdout, stderr) = run_get_output([git, '--version'])
if ret == 0:
return git
except:
pass
if must_succeed:
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if WINDOWS:
print("ERROR: git executable was not found. Please install it by typing 'emsdk install git-1.9.4', or alternatively by installing it manually from http://git-scm.com/downloads . If you install git manually, remember to add it to PATH")
elif OSX:
print("ERROR: git executable was not found. Please install git for this operation! This can be done from http://git-scm.com/ , or by installing XCode and then the XCode Command Line Tools (see http://stackoverflow.com/questions/9329243/xcode-4-4-command-line-tools )")
elif LINUX:
print("ERROR: git executable was not found. Please install git for this operation! This can be probably be done using your package manager, see http://git-scm.com/book/en/Getting-Started-Installing-Git")
else:
print("ERROR: git executable was not found. Please install git for this operation!")
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sys.exit(1)
return '' # Not found
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def git_repo_version(repo_path):
(returncode, stdout, stderr) = run_get_output([GIT(), 'log', '-n', '1', '--pretty="%aD %H"'], cwd=repo_path)
if returncode == 0:
return stdout.strip()
else:
return ""
def git_clone(url, dstpath):
if VERBOSE: print('git_clone(url=' + url + ', dstpath=' + dstpath + ')')
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if os.path.isdir(os.path.join(dstpath, '.git')):
print("Repository '" + url + "' already cloned to directory '" + dstpath + "', skipping.")
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return True
mkdir_p(dstpath)
git_clone_args = []
if GIT_CLONE_SHALLOW:
git_clone_args += ['--depth', '1']
return run([GIT(), 'clone'] + git_clone_args + [url, dstpath]) == 0
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def git_checkout_and_pull(repo_path, branch):
if VERBOSE: print('git_checkout_and_pull(repo_path=' + repo_path + ', branch=' + branch + ')')
ret = run([GIT(), 'fetch', 'origin'], repo_path)
if ret != 0: return False
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try:
print("Fetching latest changes to the branch '" + branch + "' for '" + repo_path + "'...")
ret = run([GIT(), 'fetch', 'origin'], repo_path)
if ret != 0: return False
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# run([GIT, 'checkout', '-b', branch, '--track', 'origin/'+branch], repo_path)
ret = run([GIT(), 'checkout', '--quiet', branch], repo_path) # this line assumes that the user has not gone and manually messed with the repo and added new remotes to ambiguate the checkout.
if ret != 0: return False
ret = run([GIT(), 'merge', '--ff-only', 'origin/'+branch], repo_path) # this line assumes that the user has not gone and made local changes to the repo
if ret != 0: return False
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except:
print('git operation failed!')
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return False
print("Successfully updated and checked out branch '" + branch + "' on repository '" + repo_path + "'")
print("Current repository version: " + git_repo_version(repo_path))
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return True
def git_clone_checkout_and_pull(url, dstpath, branch):
if VERBOSE: print('git_clone_checkout_and_pull(url=' + url + ', dstpath=' + dstpath + ', branch=' + branch + ')')
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success = git_clone(url, dstpath)
if not success:
return False
success = git_checkout_and_pull(dstpath, branch)
return success
# Each tool can have its own build type, or it can be overridden on the command line.
def decide_cmake_build_type(tool):
global CMAKE_BUILD_TYPE_OVERRIDE
if CMAKE_BUILD_TYPE_OVERRIDE:
return CMAKE_BUILD_TYPE_OVERRIDE
else:
return tool.cmake_build_type
# The root directory of the build.
def fastcomp_build_dir(tool):
generator_suffix = ''
if CMAKE_GENERATOR == 'Visual Studio 10': generator_suffix = '_vs2010'
elif CMAKE_GENERATOR == 'Visual Studio 11': generator_suffix = '_vs2012'
elif CMAKE_GENERATOR == 'Visual Studio 12': generator_suffix = '_vs2013'
elif CMAKE_GENERATOR == 'Visual Studio 14': generator_suffix = '_vs2015'
elif CMAKE_GENERATOR == 'MinGW Makefiles': generator_suffix = '_mingw'
bitness_suffix = '_32' if tool.bitness == 32 else '_64'
if hasattr(tool, 'git_branch'):
build_dir = 'build_' + tool.git_branch.replace(os.sep, '-') + generator_suffix + bitness_suffix
else:
build_dir = 'build_' + tool.version + generator_suffix + bitness_suffix
return build_dir
# The directory where the binaries are produced.
def fastcomp_build_bin_dir(tool):
build_dir = fastcomp_build_dir(tool)
if WINDOWS and 'Visual Studio' in CMAKE_GENERATOR:
old_llvm_bin_dir = os.path.join(build_dir, 'bin\\' + decide_cmake_build_type(tool))
new_llvm_bin_dir = os.path.join(build_dir, decide_cmake_build_type(tool) + '\\bin')
if os.path.exists(os.path.join(tool.installation_path(), new_llvm_bin_dir)):
return new_llvm_bin_dir
if os.path.exists(os.path.join(tool.installation_path(), old_llvm_bin_dir)): return old_llvm_bin_dir
return new_llvm_bin_dir
else:
return os.path.join(build_dir, 'bin')
make_env = os.environ.copy()
cxxflags = ''
if hasattr(make_env, 'CXXFLAGS'): cxxflags = make_env['CXXFLAGS'] + ' '
# To work around a build issue with older Mac OS X builds, add -stdlib=libc++ to all builds.
# See https://groups.google.com/forum/#!topic/emscripten-discuss/5Or6QIzkqf0
if OSX: cxxflags += '-stdlib=libc++'
make_env['CXXFLAGS'] = cxxflags
def find_msbuild(sln_file):
search_paths_vs2015 = [os.path.join(os.environ['ProgramFiles'], 'MSBuild/14.0/Bin/amd64'),
os.path.join(os.environ['ProgramFiles(x86)'], 'MSBuild/14.0/Bin/amd64'),
os.path.join(os.environ['ProgramFiles'], 'MSBuild/14.0/Bin'),
os.path.join(os.environ['ProgramFiles(x86)'], 'MSBuild/14.0/Bin')]
search_paths_vs2013 = [os.path.join(os.environ['ProgramFiles'], 'MSBuild/12.0/Bin/amd64'),
os.path.join(os.environ['ProgramFiles(x86)'], 'MSBuild/12.0/Bin/amd64'),
os.path.join(os.environ['ProgramFiles'], 'MSBuild/12.0/Bin'),
os.path.join(os.environ['ProgramFiles(x86)'], 'MSBuild/12.0/Bin')]
search_paths_old = [os.path.join(os.environ["WINDIR"], 'Microsoft.NET/Framework/v4.0.30319')]
contents = open(sln_file, 'r').read()
if '# Visual Studio Express 2015' in contents or '# Visual Studio 2015' in contents or '# Visual Studio 14' in contents:
search_paths = search_paths_vs2015
make_env['VCTargetsPath'] = os.path.join(os.environ['ProgramFiles(x86)'], 'MSBuild/Microsoft.Cpp/v4.0/V140')
if '# Visual Studio Express 2013' in contents or '# Visual Studio 2013' in contents or '# Visual Studio 12' in contents:
search_paths = search_paths_vs2013 + search_paths_old
make_env['VCTargetsPath'] = os.path.join(os.environ['ProgramFiles(x86)'], 'MSBuild/Microsoft.Cpp/v4.0/V120')
else:
search_paths = search_paths_old + search_paths_vs2013
for path in search_paths:
p = os.path.join(path, 'MSBuild.exe')
if os.path.isfile(p): return p
def make_build(build_root, build_type, build_target_platform='x64'):
if VERBOSE: print('make_build(build_root=' + build_root + ', build_type=' + build_type + ', build_target_platform=' + build_target_platform + ')')
global CPU_CORES
if CPU_CORES > 1:
print('Performing a parallel build with ' + str(CPU_CORES) + ' cores.')
else:
print('Performing a singlethreaded build.')
if WINDOWS:
if 'Visual Studio' in CMAKE_GENERATOR:
solution_name = subprocess.check_output(['dir', '/b', '*.sln'], shell=True, cwd=build_root).strip()
# Disabled for now: Don't pass /maxcpucount argument to msbuild, since it looks like when building, msbuild already automatically spawns the full amount of logical
# cores the system has, and passing the number of logical cores here has been observed to give a quadratic N*N explosion on the number of spawned processes
# (e.g. on a Core i7 5960X with 16 logical cores, it would spawn 16*16=256 cl.exe processes, which would start crashing when running out of system memory)
# make = [find_msbuild(os.path.join(build_root, solution_name)), '/maxcpucount:' + str(CPU_CORES), '/t:Build', '/p:Configuration='+build_type, '/nologo', '/verbosity:minimal', solution_name]
make = [find_msbuild(os.path.join(build_root, solution_name)), '/t:Build', '/p:Configuration='+build_type, '/p:Platform='+build_target_platform, '/nologo', '/verbosity:minimal', solution_name]
else:
make = ['mingw32-make', '-j' + str(CPU_CORES)]
else:
make = ['make', '-j' + str(CPU_CORES)]
# Build
try:
print('Running build: ' + str(make))
ret = subprocess.check_call(make, cwd=build_root, env=make_env)
if ret != 0:
print('Build failed with exit code ' + ret + '!', file=sys.stderr)
print('Working directory: ' + build_root, file=sys.stderr)
return False
except Exception as e:
print('Build failed due to exception!', file=sys.stderr)
print('Working directory: ' + build_root, file=sys.stderr)
print(str(e), file=sys.stderr)
return False
return True
def cmake_configure(generator, build_root, src_root, build_type, extra_cmake_args = []):
if VERBOSE: print('cmake_configure(generator=' + str(generator) + ', build_root=' + str(build_root) + ', src_root=' + str(src_root) + ', build_type=' + str(build_type) + ', extra_cmake_args=' + str(extra_cmake_args) + ')')
# Configure
if not os.path.isdir(build_root): os.mkdir(build_root) # Create build output directory if it doesn't yet exist.
try:
if generator: generator = ['-G', generator]
else: generator = []
cmdline = ['cmake'] + generator + ['-DCMAKE_BUILD_TYPE='+build_type, '-DPYTHON_EXECUTABLE='+sys.executable] + extra_cmake_args + [src_root]
print('Running CMake: ' + str(cmdline))
ret = subprocess.check_call(cmdline, cwd=build_root)
if ret != 0:
print('CMake invocation failed with exit code ' + ret + '!', file=sys.stderr)
print('Working directory: ' + build_root, file=sys.stderr)
return False
except OSError as e:
if e.errno == errno.ENOENT:
print(str(e), file=sys.stderr)
print('Could not run CMake, perhaps it has not been installed?', file=sys.stderr)
if WINDOWS:
print('Installing this package requires CMake. Get it from http://www.cmake.org/', file=sys.stderr)
elif LINUX:
print('Installing this package requires CMake. Get it via your system package manager (e.g. sudo apt-get install cmake), or from http://www.cmake.org/', file=sys.stderr)
elif OSX:
print('Installing this package requires CMake. Get it via a OSX package manager (Homebrew: "brew install cmake", or MacPorts: "sudo port install cmake"), or from http://www.cmake.org/', file=sys.stderr)
return False
raise
except Exception as e:
print('CMake invocation failed due to exception!', file=sys.stderr)
print('Working directory: ' + build_root, file=sys.stderr)
print(str(e), file=sys.stderr)
return False
return True
def build_fastcomp_tool(tool):
if VERBOSE: print('build_fastcomp_tool(' + str(tool) + ')')
fastcomp_root = tool.installation_path()
fastcomp_src_root = os.path.join(fastcomp_root, 'src')
if hasattr(tool, 'git_branch'): # Does this tool want to be git cloned from github?
success = git_clone_checkout_and_pull(tool.download_url(), fastcomp_src_root, tool.git_branch)
if not success: return False
clang_root = os.path.join(fastcomp_src_root, 'tools/clang')
success = git_clone_checkout_and_pull(tool.clang_url, clang_root, tool.git_branch)
if not success: return False
else: # Not a git cloned tool, so instead download from git tagged releases
success = download_and_unzip(tool.download_url(), fastcomp_src_root, filename_prefix='llvm-e')
if not success: return False
success = download_and_unzip(tool.windows_clang_url if WINDOWS else tool.unix_clang_url, os.path.join(fastcomp_src_root, 'tools/clang'), filename_prefix='clang-e')
if not success: return False
cmake_generator = CMAKE_GENERATOR
if 'Visual Studio' in CMAKE_GENERATOR and tool.bitness == 64:
cmake_generator += ' Win64'
build_dir = fastcomp_build_dir(tool)
build_root = os.path.join(fastcomp_root, build_dir)
build_type = decide_cmake_build_type(tool)
# Configure
global BUILD_LLVM_TESTS, ENABLE_LLVM_ASSERTIONS
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tests_arg = 'ON' if BUILD_LLVM_TESTS else 'OFF'
enable_assertions = ENABLE_LLVM_ASSERTIONS.lower() == 'on' or (ENABLE_LLVM_ASSERTIONS == 'auto' and build_type.lower() != 'release' and build_type.lower() != 'minsizerel')
args = ['-DLLVM_TARGETS_TO_BUILD=X86;JSBackend', '-DLLVM_INCLUDE_EXAMPLES=OFF', '-DCLANG_INCLUDE_EXAMPLES=OFF', '-DLLVM_INCLUDE_TESTS=' + tests_arg, '-DCLANG_INCLUDE_TESTS=' + tests_arg, '-DLLVM_ENABLE_ASSERTIONS=' + ('ON' if enable_assertions else 'OFF')]
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success = cmake_configure(cmake_generator, build_root, fastcomp_src_root, build_type, args)
if not success: return False
# Make
success = make_build(build_root, build_type, 'x64' if tool.bitness == 64 else 'Win32')
return success
def optimizer_build_root(tool):
build_root = tool.installation_path().strip()
if build_root.endswith('/') or build_root.endswith('\\'): build_root = build_root[:-1]
generator_prefix = '' # Unix Makefiles and Visual Studio 2013 do not specify a path prefix for backwards path compatibility
if CMAKE_GENERATOR == 'Visual Studio 14': generator_prefix = '_vs2015'
elif CMAKE_GENERATOR == 'MinGW Makefiles': generator_prefix = '_mingw'
build_root = build_root + generator_prefix + '_' + str(tool.bitness) + 'bit_optimizer'
return build_root
def uninstall_optimizer(tool):
if VERBOSE: print('uninstall_optimizer(' + str(tool) + ')')
build_root = optimizer_build_root(tool)
print("Deleting path '" + build_root + "'")
remove_tree(build_root)
os.remove(build_root)
def is_optimizer_installed(tool):
build_root = optimizer_build_root(tool)
return os.path.exists(build_root)
def build_optimizer_tool(tool):
if VERBOSE: print('build_optimizer_tool(' + str(tool) + ')')
src_root = os.path.join(tool.installation_path(), 'tools', 'optimizer')
build_root = optimizer_build_root(tool)
build_type = decide_cmake_build_type(tool)
# Configure
cmake_generator = CMAKE_GENERATOR
if 'Visual Studio' in CMAKE_GENERATOR and tool.bitness == 64:
cmake_generator += ' Win64'
success = cmake_configure(cmake_generator, build_root, src_root, build_type)
if not success: return False
# Make
success = make_build(build_root, build_type, 'x64' if tool.bitness == 64 else 'Win32')
return success
def download_and_unzip(zipfile, dest_dir, download_even_if_exists=False, filename_prefix = ''):
if VERBOSE: print('download_and_unzip(zipfile=' + zipfile + ', dest_dir=' + dest_dir + ')')
if not download_even_if_exists and num_files_in_directory(dest_dir) > 0:
print("The contents of file '" + zipfile + "' already exist in destination '" + dest_dir + "', skipping.")
return True
dst_file = download_file(urljoin(emsdk_packages_url, zipfile), 'zips/', download_even_if_exists, filename_prefix)
if not dst_file:
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return False
if zipfile.endswith('.zip'):
return unzip(dst_file, dest_dir, unpack_even_if_exists=download_even_if_exists)
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else:
return untargz(dst_file, dest_dir, unpack_even_if_exists=download_even_if_exists)
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def to_unix_path(p):
return p.replace('\\', '/')
def to_native_path(p):
if WINDOWS:
return to_unix_path(p).replace('/', '\\')
else:
return to_unix_path(p)
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# Finds and returns a list of the directories that need to be added to PATH for the given set of tools.
def get_required_path(active_tools):
path_add = [to_native_path(emsdk_path())]
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for tool in active_tools:
if hasattr(tool, 'activated_path'):
path_add += [to_native_path(tool.expand_vars(tool.activated_path))]
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return path_add
# Returns the absolute path to the file '.emscripten' for the current user on this system.
def dot_emscripten_path():
return os.path.join(emscripten_config_directory, ".emscripten")
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dot_emscripten = {}
def parse_key_value(line):
if not line:
return ('', '')
eq = line.find('=')
if eq != -1:
key = line[0:eq].strip()
value = line[eq+1:].strip()
return (key, value)
else:
return (key, '')
def load_dot_emscripten():
global dot_emscripten
dot_emscripten = {}
lines = []
try:
lines = open(dot_emscripten_path(), "r").read().split('\n')
except:
pass
for line in lines:
try:
(key, value) = parse_key_value(line)
if value != '':
dot_emscripten[key] = value
# print("Got '" + key + "' = '" + value + "'")
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except:
pass
def generate_dot_emscripten(active_tools):
global emscripten_config_directory
if emscripten_config_directory == emsdk_path():
temp_dir = sdk_path('tmp')
mkdir_p(temp_dir)
embedded = True
else:
temp_dir = tempfile.gettempdir().replace('\\', '/')
embedded = False
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has_spidermonkey = False
has_node = False
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cfg = 'import os\n'
if embedded:
cfg += "emsdk_path=os.path.dirname(os.environ.get('EM_CONFIG')).replace('\\\\', '/')\n"
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for tool in active_tools:
tool_cfg = tool.activated_config()
if tool_cfg:
tool_cfg = tool_cfg.replace(';', '\n')
if 'SPIDERMONKEY_ENGINE=' in tool_cfg: has_spidermonkey = True
if 'NODE_JS=' in tool_cfg: has_node = True
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cfg += tool_cfg + '\n'
# These two vars must always be defined, even though they might not exist.
if not has_spidermonkey: cfg += "SPIDERMONKEY_ENGINE = ''\n"
if not has_node:
node_fallback = which('nodejs')
if not node_fallback:
node_fallback = 'node'
cfg += "NODE_JS = '" + node_fallback + "'\n"
cfg += '''V8_ENGINE = ''
TEMP_DIR = ''' + "'" + temp_dir + "'" + '''
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COMPILER_ENGINE = NODE_JS
JS_ENGINES = [NODE_JS]
'''
if embedded:
cfg = cfg.replace(emscripten_config_directory, "' + emsdk_path + '")
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with open(dot_emscripten_path(), "w") as text_file: text_file.write(cfg)
# Clear old cached emscripten content.
try:
remove_tree(os.path.join(emscripten_config_directory, ".emscripten_cache"))
os.remove(os.path.join(emscripten_config_directory, ".emscripten_sanity"))
os.remove(os.path.join(emscripten_config_directory, ".emscripten_cache__last_clear"))
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except:
pass
print("The Emscripten configuration file " + os.path.normpath(dot_emscripten_path()) + " has been rewritten with the following contents:")
print('')
print(cfg.strip())
print('')
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path_add = get_required_path(active_tools)
if not WINDOWS:
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emsdk_env = os.path.relpath(sdk_path('emsdk_env.sh'))
if not '/' in emsdk_env:
emsdk_env = './emsdk_env.sh'
print("To conveniently access the selected set of tools from the command line, consider adding the following directories to PATH, or call 'source " + emsdk_env + "' to do this for you.")
print('')
print(' ' + ENVPATH_SEPARATOR.join(path_add))
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def find_msbuild_dir():
if 'ProgramFiles' in os.environ and os.environ['ProgramFiles']:
program_files = os.environ['ProgramFiles']
else:
program_files = 'C:/Program Files'
if 'ProgramFiles(x86)' in os.environ and os.environ['ProgramFiles(x86)']:
program_files_x86 = os.environ['ProgramFiles(x86)']
else:
program_files_x86 = 'C:/Program Files (x86)'
MSBUILDX86_DIR = os.path.join(program_files_x86, "MSBuild/Microsoft.Cpp/v4.0/Platforms")
MSBUILD_DIR = os.path.join(program_files, "MSBuild/Microsoft.Cpp/v4.0/Platforms")
if os.path.exists(MSBUILDX86_DIR):
return MSBUILDX86_DIR
elif os.path.exists(MSBUILD_DIR):
return MSBUILD_DIR
else:
return '' # No MSbuild installed.
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def get_installed_vstool_version(installed_path):
try:
return open(installed_path + "/version.txt", "r").read()
except:
return None
class Tool:
def __init__(self, data):
# Convert the dictionary representation of the tool in 'data' to members of this class for convenience.
for key in data:
if sys.version_info < (3,) and isinstance(data[key], unicode):
setattr(self, key, data[key].encode('Latin-1'))
else:
setattr(self, key, data[key])
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def __str__(self):
s = self.id + '-' + self.version
if hasattr(self, 'bitness'):
s += '-' + str(self.bitness) + 'bit'
return s
def expand_vars(self, str):
if WINDOWS and '%MSBuildPlatformsDir%' in str:
str = str.replace('%MSBuildPlatformsDir%', find_msbuild_dir())
if '%cmake_build_type_on_win%' in str:
str = str.replace('%cmake_build_type_on_win%', (decide_cmake_build_type(self) + '/') if WINDOWS else '')
if '%installation_dir%' in str:
str = str.replace('%installation_dir%', sdk_path(self.installation_dir()))
str = str.replace('%.exe%', '.exe' if WINDOWS else '')
if '%fastcomp_build_dir%' in str:
str = str.replace('%fastcomp_build_dir%', fastcomp_build_dir(self))
if '%fastcomp_build_bin_dir%' in str:
str = str.replace('%fastcomp_build_bin_dir%', fastcomp_build_bin_dir(self))
return str
# Return true if this tool requires building from source, and false if this is a precompiled tool.
def needs_compilation(self):
if hasattr(self, 'cmake_build_type'): return True
if hasattr(self, 'uses'):
for tool_name in self.uses:
tool = find_tool(tool_name)
if tool.needs_compilation(): return True
return False
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# Specifies the target path where this tool will be installed to. This could either be a directory or a filename (e.g. in case of node.js)
def installation_path(self):
if WINDOWS and hasattr(self, 'windows_install_path'):
pth = self.expand_vars(self.windows_install_path)
return sdk_path(pth)
if hasattr(self, 'install_path'):
pth = self.expand_vars(self.install_path)
return sdk_path(pth)
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p = self.version
if hasattr(self, 'bitness') and (not hasattr(self, 'append_bitness') or self.append_bitness):
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p += '_' + str(self.bitness) + 'bit'
return sdk_path(os.path.join(self.id, p))
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# Specifies the target directory this tool will be installed to.
def installation_dir(self):
dir = self.installation_path()
if path_points_to_directory(dir):
return dir
else:
return os.path.dirname(dir)
# Returns the configuration item that needs to be added to .emscripten to make this Tool active for the current user.
def activated_config(self):
if hasattr(self, 'activated_cfg'):
return to_unix_path(self.expand_vars(self.activated_cfg))
else:
return ''
def activated_environment(self):
if hasattr(self, 'activated_env'):
return self.expand_vars(self.activated_env)
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else:
return ''
def compatible_with_this_os(self):
if hasattr(self, 'os'):
if self.os == 'all':
return True
if (WINDOWS and 'win' in self.os) or (LINUX and ('linux' in self.os or 'unix' in self.os)) or (OSX and ('osx' in self.os or 'unix' in self.os)):
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return True
else:
return False
else:
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if not hasattr(self, 'osx_url') and not hasattr(self, 'windows_url') and not hasattr(self, 'unix_url') and not hasattr(self, 'linux_url'):
return True
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if OSX and hasattr(self, 'osx_url'):
return True
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if LINUX and hasattr(self, 'linux_url'):
return True
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if WINDOWS and (hasattr(self, 'windows_url') or hasattr(self, 'windows_install_path')):
return True
if (LINUX or OSX) and hasattr(self, 'unix_url'):
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return True
return hasattr(self, 'url')
def is_installed(self):
# If this tool/sdk depends on other tools, require that all dependencies are installed for this tool to count as being installed.
if hasattr(self, 'uses'):
for tool_name in self.uses:
tool = find_tool(tool_name)
if tool == None:
print("Manifest error: No tool by name '" + tool_name + "' found! This may indicate an internal SDK error!")
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return False
if not tool.is_installed():
return False
if self.download_url() != None:
# For e.g. fastcomp clang from git repo, the activated PATH is the directory where the compiler is built to, and installation_path is
# the directory where the source tree exists. To distinguish between multiple packages sharing the same source
# (clang-master-32bit, clang-master-64bit, clang-incoming-32bit and clang-incoming-64bit each share the same git repo), require
# that in addition to the installation directory, each item in the activated PATH must exist.
activated_path = self.expand_vars(self.activated_path).split(';') if hasattr(self, 'activated_path') else [self.installation_path()]
def each_path_exists(pathlist):
for path in pathlist:
if not os.path.exists(path): return False
return True
content_exists = os.path.exists(self.installation_path()) and each_path_exists(activated_path) and (os.path.isfile(self.installation_path()) or num_files_in_directory(self.installation_path()) > 0)
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if self.id == 'vs-tool': # vs-tool is a special tool since all versions must be installed to the same dir, so dir name will not differentiate the version.
return content_exists and get_installed_vstool_version(self.installation_path()) == self.version
elif hasattr(self, 'custom_is_installed_script') and self.custom_is_installed_script == 'is_optimizer_installed':
return is_optimizer_installed(self)
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else:
return content_exists
else:
return True # This tool does not contain downloadable elements, so it is installed by default.
def is_active(self):
if not self.is_installed():
return False
if self.id == 'vs-tool':
return True # vs-tool is a special tool since all versions must be installed to the same dir, which means that if this tool is installed, it is also active.
# All dependencies of this tool must be active as well.
deps = self.dependencies()
for tool in deps:
if not tool.is_active():
return False
activated_cfg = self.activated_config()
if activated_cfg == '':
return len(deps) > 0
activated_cfg = activated_cfg.split(';')
for cfg in activated_cfg:
cfg = cfg.strip()
(key, value) = parse_key_value(cfg)
# print('activated cfg ' + key + ', value: ' + value)
# if dot_emscripten.has_key(key):
# print('dot_emscripten ' + dot_emscripten[key])
if key in dot_emscripten and dot_emscripten[key] != value:
return False
return True
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# Returns true if the system environment variables requires by this tool are currently active.
def is_env_active(self):
if hasattr(self, 'activated_env'):
(key, value) = parse_key_value(self.activated_environment())
if not key in os.environ or to_unix_path(os.environ[key]) != to_unix_path(value):
return False
# if WINDOWS:
# env_var = win_get_active_environment_variable(key)
# if env_var != value:
# return False
if hasattr(self, 'activated_path'):
path = self.expand_vars(self.activated_path).replace('\\', '/')
path = path.split(ENVPATH_SEPARATOR)
for p in path:
path_items = os.environ['PATH'].replace('\\', '/').split(ENVPATH_SEPARATOR)
if not normalized_contains(path_items, p):
return False
return True
def win_activate_env_vars(self, permanently_activate):
if WINDOWS and hasattr(self, 'activated_env'):
(key, value) = parse_key_value(self.activated_environment())
if permanently_activate:
win_delete_environment_variable(key, False) # If there is an env var for the LOCAL USER with same name, it will hide the system var, so must remove that first.
win_set_environment_variable(key, value, permanently_activate)
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# If this tool can be installed on this system, this function returns True.
# Otherwise, this function returns a string that describes the reason why this tool is not available.
def can_be_installed(self):
if self.id == 'vs-tool':
msbuild_dir = find_msbuild_dir()
if len(msbuild_dir) > 0:
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return True
else:
return "Visual Studio 2010 was not found!"
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else:
return True
def download_url(self):
if WINDOWS and hasattr(self, 'windows_url'):
return self.windows_url
elif OSX and hasattr(self, 'osx_url'):
return self.osx_url
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elif LINUX and hasattr(self, 'linux_url'):
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return self.linux_url
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elif (OSX or LINUX) and hasattr(self, 'unix_url'):
return self.unix_url
elif hasattr(self, 'url'):
return self.url
else:
return None
def install(self):
if self.can_be_installed() != True:
print("The tool '" + str(self) + "' is not available due to the reason: " + self.can_be_installed())
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return False
if self.id == 'sdk':
print("Installing SDK '" + str(self) + "'..")
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for tool_name in self.uses:
tool = find_tool(tool_name)
if tool == None:
print("Manifest error: No tool by name '" + tool_name + "' found! This may indicate an internal SDK error!")
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success = tool.install()
if not success:
return False
print("Done installing SDK '" + str(self) + "'.")
return True
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else:
print("Installing tool '" + str(self) + "'..")
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url = self.download_url()
if hasattr(self, 'custom_install_script') and self.custom_install_script == 'build_fastcomp':
success = build_fastcomp_tool(self)
elif hasattr(self, 'git_branch'):
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success = git_clone_checkout_and_pull(url, self.installation_path(), self.git_branch)
if success:
if hasattr(self, 'custom_install_script') and self.custom_install_script == 'build_optimizer':
success = build_optimizer_tool(self)
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elif url.endswith('zip') or url.endswith('.tar') or url.endswith('.gz'):
download_even_if_exists = (self.id == 'vs-tool')
success = download_and_unzip(url, self.installation_path(), download_even_if_exists, filename_prefix=self.zipfile_prefix if hasattr(self, 'zipfile_prefix') else '')
if success:
if hasattr(self, 'custom_install_script') and self.custom_install_script == 'build_optimizer':
success = build_optimizer_tool(self)
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else:
dst_file = download_file(urljoin(emsdk_packages_url, self.download_url()), self.installation_path())
if dst_file:
success = True
else:
success = False
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if not success:
print("Installation failed!")
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return False
print("Done installing tool '" + str(self) + "'.")
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# Sanity check that the installation succeeded, and if so, remove unneeded leftover installation files.
if self.is_installed():
self.cleanup_temp_install_files()
else:
print("Warning: The installation of '" + str(self) + "' seems to have failed, but no error was detected. Either something went wrong with the installation, or this may indicate an internal emsdk error.")
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return True
def cleanup_temp_install_files(self):
url = self.download_url()
if url.endswith('zip') or url.endswith('.tar') or url.endswith('.gz'):
file_name = url.split('/')[-1]
tempzipfile = os.path.join('zips/', file_name)
rmfile(tempzipfile)
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def uninstall(self):
if not self.is_installed():
print("Tool '" + str(self) + "' was not installed. No need to uninstall.")
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return
print("Uninstalling tool '" + str(self) + "'..")
if hasattr(self, 'custom_uninstall_script') and self.custom_uninstall_script == 'uninstall_optimizer':
try:
uninstall_optimizer(self)
except:
pass
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try:
print("Deleting path '" + self.installation_path() + "'")
remove_tree(self.installation_path())
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os.remove(self.installation_path())
except:
pass
print("Done uninstalling '" + str(self) + "'.")
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def dependencies(self):
if not hasattr(self, 'uses'):
return []
deps = []
for tool_name in self.uses:
tool = find_tool(tool_name)
if tool:
deps += [tool]
return deps
def recursive_dependencies(self):
if not hasattr(self, 'uses'):
return []
deps = []
for tool_name in self.uses:
tool = find_tool(tool_name)
if tool:
deps += [tool]
deps += tool.recursive_dependencies()
return deps
# A global registry of all known Emscripten SDK tools available in the SDK manifest.
tools = []
# A global registry of all known SDK toolsets.
sdks = []
# N.B. In both tools and sdks list above, we take the convention that the newest items are at the back of the list (ascending chronological order)
def find_tool(name):
for tool in tools:
if str(tool) == name:
return tool
return None
def find_sdk(name):
for sdk in sdks:
if str(sdk) == name:
return sdk
return None
def is_os_64bit(): # http://stackoverflow.com/questions/2208828/detect-64bit-os-windows-in-python
return platform.machine().endswith('64')
def find_latest_32bit_sdk():
for sdk in reversed(sdks): # Newest SDK is always at the end of the list.
if not hasattr(sdk, 'bitness') or sdk.bitness == 32: # If no 'bitness' field, it means the SDK is universal.
return sdk
return None
def find_latest_64bit_sdk():
for sdk in reversed(sdks): # Newest SDK is always at the end of the list.
if not hasattr(sdk, 'bitness') or sdk.bitness == 64: # If no 'bitness' field, it means the SDK is universal.
return sdk
return None
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def find_latest_sdk():
if is_os_64bit():
return find_latest_64bit_sdk()
else:
return find_latest_32bit_sdk()
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# Finds the best-matching python tool for use.
def find_used_python():
for t in reversed(tools): # Find newest tool first - those are always at the end of the list.
if t.id == 'python' and t.is_installed() and t.is_active() and t.is_env_active():
return t
for t in reversed(tools):
if t.id == 'python' and t.is_installed() and t.is_active():
return t
for t in reversed(tools):
if t.id == 'python' and t.is_installed():
return t
return None
def is_version_at_least(ver, target):
ver = ver.split('.')
target = target.split('.')
while len(ver) < len(target):
ver += ['0']
for i in range(len(ver)):
if int(ver[i]) < int(target[i]):
return False
elif int(ver[i]) > int(target[i]):
return True
return True
def version_compare(x, y):
a = 1 if is_version_at_least(x, y) else 0
b = 1 if is_version_at_least(y, x) else 0
return a - b
def fetch_emscripten_tags():
git = GIT(must_succeed=False)
if not git:
print('Update complete, however skipped fetching the Emscripten tags, since git was not found.')
if WINDOWS:
print("If you want to compile one of the tagged releases from source, please install git by typing 'emsdk install git-1.9.4', or alternatively by installing it manually from http://git-scm.com/downloads . If you install git manually, remember to add it to PATH.")
elif OSX:
print("If you want to compile one of the tagged releases from source, please install git from http://git-scm.com/ , or by installing XCode and then the XCode Command Line Tools (see http://stackoverflow.com/questions/9329243/xcode-4-4-command-line-tools ).")
elif LINUX:
print("If you want to compile one of the tagged releases from source, please install git using your package manager, see http://git-scm.com/book/en/Getting-Started-Installing-Git .")
else:
print("If you want to compile one of the tagged releases from source, please install git.")
print("If you are not looking to build Emscripten from source, you can safely ignore this message.")
return
print('Fetching all tags from Emscripten Github repository...')
tags = run_get_output([GIT(), 'ls-remote', '--tags', emscripten_git_repo])
if tags[0] != 0: return False # failed to get tags?
tags = tags[1]
all_tags = []
for t in tags.split('\n'):
try:
t = t[t.index('refs/tags/') + len('refs/tags/'):].strip()
if is_version_at_least(t, '1.28.2'):
all_tags += [t]
except:
pass
all_tags = sorted(all_tags, cmp=version_compare)
open(sdk_path('emscripten-tags.txt'), 'w').write('\n'.join(all_tags))
if len(all_tags) > 0:
print('Done. ' + str(len(all_tags)) + ' tagged releases available, latest is ' + all_tags[-1] + '.')
else:
print('Done. No tagged releases available.')
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def update_emsdk():
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if WINDOWS:
download_and_unzip(urljoin(emsdk_packages_url, 'emsdk_windows_update.zip'), emsdk_path(), download_even_if_exists=True)
rmfile('zips/emsdk_windows_update.zip')
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elif OSX or LINUX:
download_and_unzip(urljoin(emsdk_packages_url, 'emsdk_unix_update.tar.gz'), emsdk_path(), download_even_if_exists=True)
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rmfile('zips/emsdk_unix_update.tar.gz')
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else:
print('Unsupported OS, cannot update!')
fetch_emscripten_tags()
def load_emscripten_tags():
try:
return open(sdk_path('emscripten-tags.txt'), 'r').read().split('\n')
except:
return []
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def load_sdk_manifest():
global tools
try:
manifest = json.loads(open(sdk_path("emsdk_manifest.json"), "r").read())
except Exception as e:
print('Error parsing emsdk_manifest.json!')
print(str(e))
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return
emscripten_tags = load_emscripten_tags()
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for tool in manifest['tools']:
t = Tool(tool)
if t.compatible_with_this_os():
if not hasattr(t, 'is_old'):
t.is_old = False
if '%tag%' in t.version:
# Expand the metapackage that refers to all tags.
for i in range(len(emscripten_tags)):
tag = emscripten_tags[i]
t2 = copy.copy(t)
for p, v in vars(t2).iteritems():
if isinstance(v, basestring) and '%tag%' in v:
t2.__dict__[p] = v.replace('%tag%', tag)
t2.is_old = i < len(emscripten_tags) - 2
tools.append(t2)
else:
tools.append(t)
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for sdk_str in manifest['sdks']:
sdk = Tool(sdk_str)
sdk.id = "sdk"
if sdk.compatible_with_this_os():
if not hasattr(sdk, 'is_old'):
sdk.is_old = False
if '%tag%' in sdk.version:
# Expand the metapackage that refers to all tags.
for i in range(len(emscripten_tags)):
tag = emscripten_tags[i]
sdk2 = copy.copy(sdk)
for p, v in vars(sdk2).iteritems():
if isinstance(v, basestring) and '%tag%' in v:
sdk2.__dict__[p] = v.replace('%tag%', tag)
sdk2.is_old = i < len(emscripten_tags) - 2
sdk2.uses = map((lambda x: x.replace('%tag%', tag)), sdk2.uses)
sdks.append(sdk2)
else:
sdks.append(sdk)
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# Tests if the two given tools can be active at the same time.
# Currently only a simple check for name for same tool with different versions,
# possibly adds more logic in the future.
def can_simultaneously_activate(tool1, tool2):
return tool1.id != tool2.id
def remove_nonexisting_tools(tool_list, log_errors=True):
i = 0
while i < len(tool_list):
tool = tool_list[i]
if not tool.is_installed():
if log_errors:
print("The SDK/tool '" + str(tool) + "' cannot be activated since it is not installed! Skipping this tool...")
tool_list.pop(i)
continue
i += 1
return tool_list
# Expands dependencies for each tool, and removes ones that don't exist.
def process_tool_list(tools_to_activate, log_errors=True):
i = 0
# Gather dependencies for each tool
while i < len(tools_to_activate):
tool = tools_to_activate[i]
deps = tool.recursive_dependencies()
tools_to_activate = tools_to_activate[:i] + deps + tools_to_activate[i:]
i += len(deps)+1
tools_to_activate = remove_nonexisting_tools(tools_to_activate, log_errors=log_errors)
# Remove conflicting tools
i = 0
while i < len(tools_to_activate):
j = 0
while j < i:
secondary_tool = tools_to_activate[j]
primary_tool = tools_to_activate[i]
if not can_simultaneously_activate(primary_tool, secondary_tool):
tools_to_activate.pop(j)
j -= 1
i -= 1
j += 1
i += 1
return tools_to_activate
# Reconfigure .emscripten to choose the currently activated toolset, set PATH and other environment variables.
# Returns the full list of deduced tools that are now active.
def set_active_tools(tools_to_activate, permanently_activate):
tools_to_activate = process_tool_list(tools_to_activate, log_errors=True)
generate_dot_emscripten(tools_to_activate)
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# Construct a .bat script that will be invoked to set env. vars and PATH
if WINDOWS:
env_string = construct_env(tools_to_activate, False)
open(EMSDK_SET_ENV, 'w').write(env_string)
# Apply environment variables to global all users section.
if WINDOWS and permanently_activate:
# Individual env. vars
for tool in tools_to_activate:
tool.win_activate_env_vars(permanently_activate=True)
# PATH variable
newpath, added_items = adjusted_path(tools_to_activate, system_path_only=True)
if newpath != os.environ['PATH']: # Are there any actual changes?
win_set_environment_variable('PATH', newpath, system=True)
return tools_to_activate
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def currently_active_sdk():
for sdk in reversed(sdks):
if sdk.is_active():
return sdk
return None
def currently_active_tools():
active_tools = []
for tool in tools:
if tool.is_active():
active_tools += [tool]
return active_tools
# http://stackoverflow.com/questions/480214/how-do-you-remove-duplicates-from-a-list-in-python-whilst-preserving-order
def unique_items(seq):
seen = set()
seen_add = seen.add
return [ x for x in seq if x not in seen and not seen_add(x)]
# Tests if a path is contained in the given list, but with separators normalized.
def normalized_contains(lst, elem):
elem = to_unix_path(elem)
for e in lst:
if elem == to_unix_path(e):
return True
return False
# Looks at the current PATH and adds and removes entries so that the PATH reflects
# the set of given active tools.
def adjusted_path(tools_to_activate, log_additions=False, system_path_only=False):
# These directories should be added to PATH
path_add = get_required_path(tools_to_activate)
# These already exist.
if WINDOWS:
existing_path = win_get_environment_variable('PATH', system=True)
if not system_path_only: existing_path += ENVPATH_SEPARATOR + win_get_environment_variable('PATH', system=False)
existing_path = existing_path.split(ENVPATH_SEPARATOR)
else:
existing_path = os.environ['PATH'].split(ENVPATH_SEPARATOR)
emsdk_root_path = to_unix_path(emsdk_path())
existing_emsdk_tools = [item for item in existing_path if to_unix_path(item).startswith(emsdk_root_path)]
new_emsdk_tools = [item for item in path_add if not normalized_contains(existing_emsdk_tools, item)]
# Existing non-emsdk tools
existing_path = [item for item in existing_path if not to_unix_path(item).startswith(emsdk_root_path)]
new_path = [item for item in path_add if not normalized_contains(existing_path, item)]
return (ENVPATH_SEPARATOR.join(unique_items(new_path + existing_path)), new_emsdk_tools)
def construct_env(tools_to_activate, permanent):
global emscripten_config_directory
env_string = ''
newpath, added_path = adjusted_path(tools_to_activate)
# Dont permanently add to PATH, since this will break the whole system if there are more than 1024 chars in PATH.
# (SETX truncates to set only 1024 chars)
# if permanent:
# print('SETX PATH "' + newpath + '"')
# else:
if os.environ['PATH'] != newpath: # Don't bother setting the path if there are no changes.
if WINDOWS: env_string += 'SET PATH=' + newpath + '\n'
else: env_string += 'export PATH="' + newpath + '"\n'
if len(added_path) > 0:
print('Adding directories to PATH:')
for item in added_path:
print('PATH += ' + item)
print('')
env_vars_to_add = []
em_config_path = os.path.normpath(os.path.join(emscripten_config_directory, '.emscripten'))
if not 'EM_CONFIG' in os.environ or to_unix_path(os.environ['EM_CONFIG']) != to_unix_path(em_config_path):
env_vars_to_add += [('EM_CONFIG', em_config_path)]
if emscripten_config_directory == emsdk_path():
em_cache_dir = sdk_path('.emscripten_cache')
if not 'EM_CACHE' in os.environ or to_unix_path(os.environ['EM_CACHE']) != to_unix_path(em_cache_dir):
env_vars_to_add += [('EM_CACHE', em_cache_dir)]
mkdir_p(em_cache_dir)
for tool in tools_to_activate:
if hasattr(tool, 'activated_env'):
(key, value) = parse_key_value(tool.activated_env)
value = to_native_path(tool.expand_vars(value))
if not key in os.environ or to_unix_path(os.environ[key]) != to_unix_path(value): # Don't set env. vars which are already set to the correct value.
env_vars_to_add += [(key, value)]
if len(env_vars_to_add) > 0:
print('Setting environment variables:')
for key, value in env_vars_to_add:
if WINDOWS:
if permanent:
env_string += 'SETX ' + key + ' "' + value + '"\n'
else:
env_string += 'SET ' + key + '=' + value + '\n'
else:
env_string += 'export ' + key + '="' + value + '"\n'
print(key + ' = ' + value)
print('')
return env_string
def silentremove(filename):
try:
os.remove(filename)
except OSError as e:
if e.errno != errno.ENOENT: raise
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def main():
global emscripten_config_directory, BUILD_LLVM_TESTS, ENABLE_LLVM_ASSERTIONS
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load_dot_emscripten()
load_sdk_manifest()
if len(sys.argv) <= 1 or sys.argv[1] == 'help' or sys.argv[1] == '--help':
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if len(sys.argv) <= 1:
print(' emsdk: No command given. Please call one of the following:')
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else:
print(' emsdk: Available commands:')
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print('''
emsdk list [--old] - Lists all available SDKs and tools and their
current installation status. With the --old
parameter, also historical versions are
shown.
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emsdk update - Fetches a list of updates from the net (but
does not install them)
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emsdk install [options] <tool 1> <tool 2> <tool 3> ...
- Downloads and installs given tools or SDKs.
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Options can contain:
-j<num>: Specifies the number of cores to use when
building the tool. Default: use one less
than the # of detected cores.
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--build=<type>: Controls what kind of build of LLVM to
perform. Pass either 'Debug', 'Release',
'MinSizeRel' or 'RelWithDebInfo'. Default:
'Release' for LLVM master branch, and
'RelWithDebInfo' for LLVM incoming branch.
--shallow: When installing tools from one of the git
development branches 'master' or 'incoming',
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this parameter can be passed to perform a
shallow git clone instead of a full one.
This reduces the amount of network transfer
that is needed. This option should only be
used when you are interested in downloading
one of the development branches, but are not
looking to develop Emscripten yourself.
Default: disabled, i.e. do a full clone.
--build-tests: If enabled, LLVM is built with internal tests
included. Pass this to enable running test
other.test_llvm_lit in the Emscripten test
suite. Default: disabled.
--enable-assertions: If specified, LLVM is built with assert()
checks enabled. Useful for development
purposes. Default: Enabled for 'incoming'
branch, disabled for 'master' branch.
--disable-assertions: Forces assertions off during the build.
--vs2013/--vs2015: If building from source, overrides to build
using the specified compiler. When installing
precompiled packages, this has no effect.
Note: The same compiler specifier must be
passed to the emsdk activate command to
activate the desired version.
emsdk uninstall <tool/sdk> - Removes the given tool or SDK from disk.''')
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if WINDOWS:
print('''
emsdk activate [--global] [--embedded] [--build=type] [--vs2013/--vs2015] <tool/sdk>
- Activates the given tool or SDK in the
environment of the current shell. If the
--global option is passed, the registration
is done globally to all users in the system
environment. If the --embedded option is
passed, all Emcripten configuration files as
well as the temp, cache and ports directories
are located inside the Emscripten SDK
directory rather than the user home
directory. If a custom compiler version was
used to override the compiler to use, pass
the same --vs2013/--vs2015 parameter here to
choose which version to activate.
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emcmdprompt.bat - Spawns a new command prompt window with the
Emscripten environment active.''')
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else:
print(''' emsdk activate [--embedded] [--build=type] <tool/sdk>
- Activates the given tool or SDK in the
environment of the current shell. If the
--embedded option is passed, all Emcripten
configuration files as well as the temp, cache
and ports directories are located inside the
Emscripten SDK directory rather than the user
home directory.''')
print('''
Both commands 'install' and 'activate' accept an optional parameter
'--build=type', which can be used to override what kind of installation
or activation to perform. Possible values for type are Debug, Release,
MinSizeRel or RelWithDebInfo. Note: When overriding a custom build type,
be sure to match the same --build= option to both 'install' and
'activate' commands and the invocation of 'emsdk_env', or otherwise
these commands will default to operating on the default build types,
which are Release for the 'master' SDK, and RelWithDebInfo for the
'incoming' SDK.''')
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return 1
cmd = sys.argv[1]
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# Process global args
for i in range(2, len(sys.argv)):
if sys.argv[i].startswith('--build='):
build_type = re.match(r'^--build=(.+)$', sys.argv[i])
if build_type:
global CMAKE_BUILD_TYPE_OVERRIDE
build_type = build_type.group(1)
build_types = ['Debug', 'MinSizeRel', 'RelWithDebInfo', 'Release']
try:
build_type_index = [x.lower() for x in build_types].index(build_type.lower())
CMAKE_BUILD_TYPE_OVERRIDE = build_types[build_type_index]
sys.argv[i] = ''
except:
print('Unknown CMake build type "' + build_type + '" specified! Please specify one of ' + str(build_types), file=sys.stderr)
return 1
else:
print("Invalid command line parameter " + sys.argv[i] + ' specified!', file=sys.stderr)
return 1
sys.argv = [x for x in sys.argv if not len(x) == 0]
# Replace meta-packages with the real package names.
if (cmd == 'update' or cmd == 'install' or cmd == 'activate'):
for i in range(2, len(sys.argv)):
if sys.argv[i] == 'latest':
sys.argv[i] = str(find_latest_sdk())
elif sys.argv[i] == 'latest-32bit':
sys.argv[i] = str(find_latest_32bit_sdk())
elif sys.argv[i] == 'latest-64bit':
sys.argv[i] = str(find_latest_64bit_sdk())
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if cmd == 'list':
print('')
show_old = len(sys.argv) >= 3 and sys.argv[2] == '--old'
has_partially_active_tools = [False] # Use array to work around the lack of being able to mutate from enclosing function.
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if len(tools) > 0:
def find_tools(needs_compilation):
t = []
for tool in tools:
if tool.is_old and not show_old:
continue
if tool.needs_compilation() != needs_compilation:
continue
t += [tool]
return t
def print_tools(t):
for tool in t:
if tool.is_old and not show_old:
continue
if tool.can_be_installed() == True:
installed = '\tINSTALLED' if tool.is_installed() else ''
else:
installed = '\tNot available: ' + tool.can_be_installed()
tool_is_active = tool.is_active()
tool_is_env_active = tool_is_active and tool.is_env_active()
if tool_is_env_active: active = ' * '
elif tool_is_active:
active = '(*)'
has_partially_active_tools[0] = has_partially_active_tools[0] or True
else: active = ' '
print(' ' + active + ' {0: <25}'.format(str(tool)) + installed)
print('')
print('The following precompiled tool packages are available for download:')
print_tools(find_tools(False))
print('The following tools can be compiled from source:')
print_tools(find_tools(True))
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else:
print("There are no tools available. Run 'emsdk update' to fetch the latest set of tools.")
print('')
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if len(sdks) > 0:
def find_sdks(needs_compilation):
s = []
for sdk in sdks:
if sdk.is_old and not show_old:
continue
if sdk.needs_compilation() == needs_compilation:
s += [sdk]
return s
def print_sdks(s):
for sdk in s:
installed = '\tINSTALLED' if sdk.is_installed() else ''
active = '*' if sdk.is_active() else ' '
print(' ' + active + ' {0: <25}'.format(str(sdk)) + installed)
print('')
print('The following precompiled SDKs are available for download:')
print_sdks(find_sdks(False))
print('The following SDKs can be compiled from source:')
print_sdks(find_sdks(True))
print('Items marked with * are activated for the current user.')
if has_partially_active_tools[0]:
env_cmd = 'emsdk_env.bat' if WINDOWS else 'source ./emsdk_env.sh'
print('Items marked with (*) are selected for use, but your current shell environment is not configured to use them. Type "' + env_cmd + '" to set up your current shell to use them' + (', or call "emsdk activate --global <name_of_sdk>" to permanently activate them.' if WINDOWS else '.'))
if not show_old:
print('')
print("To access the historical archived versions, type 'emsdk list --old'")
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return 0
elif cmd == 'construct_env':
# If .emscripten exists, we are configuring as embedded inside the emsdk directory.
if os.path.exists(os.path.join(emsdk_path(), '.emscripten')):
emscripten_config_directory = emsdk_path()
silentremove(EMSDK_SET_ENV) # Clean up old temp file up front, in case of failure later before we get to write out the new one.
tools_to_activate = currently_active_tools()
tools_to_activate = process_tool_list(tools_to_activate, log_errors=True)
env_string = construct_env(tools_to_activate, len(sys.argv) >= 3 and 'perm' in sys.argv[2])
open(EMSDK_SET_ENV, 'w').write(env_string)
if LINUX or OSX: os.chmod(EMSDK_SET_ENV, 0o755)
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return 0
elif cmd == 'update':
update_emsdk()
silentremove(sdk_path(EMSDK_SET_ENV)) # Clean up litter after old emsdk update which may have left this temp file around.
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return 0
elif cmd == 'activate':
permanently_activate = '--global' in sys.argv
if permanently_activate:
print('Registering active Emscripten environment globally for all users.')
print('')
embed_activation_to_sdk_dir = '--embedded' in sys.argv
if embed_activation_to_sdk_dir:
# Activating the emsdk tools locally relative to Emscripten SDK directory.
emscripten_config_directory = emsdk_path()
print('Writing .emscripten configuration file to Emscripten SDK directory ' + emscripten_config_directory)
else:
print('Writing .emscripten configuration file to user home directory ' + emscripten_config_directory)
# Remove .emscripten from emsdk dir, since its presence is used to detect whether emsdk is activate in embedded mode or not.
try:
os.remove(os.path.join(emsdk_path(), ".emscripten"))
except:
pass
sys.argv = [x for x in sys.argv if not x.startswith('--')]
# If called without arguments, activate latest versions of all tools
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if len(sys.argv) <= 2:
tools_to_activate = list(tools)
tools_to_activate = remove_nonexisting_tools(tools_to_activate, log_errors=False)
else:
tools_to_activate = currently_active_tools()
for i in range(2, len(sys.argv)):
tool = find_tool(sys.argv[i])
if tool == None:
tool = find_sdk(sys.argv[i])
if tool == None:
print("Error: No tool or SDK found by name '" + sys.argv[i] + "'.")
return 1
tools_to_activate += [tool]
tools_to_activate = set_active_tools(tools_to_activate, permanently_activate=permanently_activate)
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if WINDOWS and not permanently_activate:
print('To permanently register this environment globally to all users in Windows Registry, rerun the command with the option --global.')
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return 0
elif cmd == 'install':
# Process args
for i in range(2, len(sys.argv)):
if sys.argv[i].startswith('-j'):
multicore = re.match(r'^-j(\d+)$', sys.argv[i])
if multicore:
global CPU_CORES
CPU_CORES = int(multicore.group(1))
sys.argv[i] = ''
else:
print("Invalid command line parameter " + sys.argv[i] + ' specified!', file=sys.stderr)
return 1
elif sys.argv[i] == '--shallow':
global GIT_CLONE_SHALLOW
GIT_CLONE_SHALLOW = True
sys.argv[i] = ''
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elif sys.argv[i] == '--build-tests':
BUILD_LLVM_TESTS = True
sys.argv[i] = ''
elif sys.argv[i] == '--enable-assertions':
ENABLE_LLVM_ASSERTIONS = 'ON'
sys.argv[i] = ''
elif sys.argv[i] == '--disable-assertions':
ENABLE_LLVM_ASSERTIONS = 'OFF'
sys.argv[i] = ''
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sys.argv = [x for x in sys.argv if not len(x) == 0]
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if len(sys.argv) <= 2:
print("Missing parameter. Type 'emsdk install <tool name>' to install a tool or an SDK. Type 'emsdk list' to obtain a list of available tools. Type 'emsdk install latest' to automatically install the newest version of the SDK.")
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return 1
for t in sys.argv[2:]:
tool = find_tool(t)
if tool == None:
tool = find_sdk(t)
if tool == None:
print("Error: No tool or SDK found by name '" + t + "'.")
return 1
success = tool.install()
if not success:
return 1
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elif cmd == 'uninstall':
if len(sys.argv) <= 2:
print("Syntax error. Call 'emsdk uninstall <tool name>'. Call 'emsdk list' to obtain a list of available tools.")
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return 1
tool = find_tool(sys.argv[2])
if tool == None:
print("Error: Tool by name '" + sys.argv[2] + "' was not found.")
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return 1
tool.uninstall()
else:
print("Unknown command '" + cmd + "' given! Type 'emsdk help' to get a list of commands.")
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return 1
if __name__ == '__main__':
sys.exit(main())