waf/waflib/Tools/ifort.py

#! /usr/bin/env python
# encoding: utf-8
# DC 2008
# Thomas Nagy 2010 (ita)

import re
from waflib import Utils
from waflib.Tools import fc, fc_config, fc_scan, ar
from waflib.Configure import conf

@conf
def find_ifort(conf):
	fc = conf.find_program('ifort', var='FC')
	conf.get_ifort_version(fc)
	conf.env.FC_NAME = 'IFORT'

@conf
def ifort_modifier_win32(self):
	v = self.env
	v.IFORT_WIN32 = True
	v.FCSTLIB_MARKER = ''
	v.FCSHLIB_MARKER = ''

	v.FCLIB_ST = v.FCSTLIB_ST = '%s.lib'
	v.FCLIBPATH_ST = v.STLIBPATH_ST = '/LIBPATH:%s'
	v.FCINCPATH_ST = '/I%s'
	v.FCDEFINES_ST = '/D%s'

	v.fcprogram_PATTERN = v.fcprogram_test_PATTERN = '%s.exe'
	v.fcshlib_PATTERN = '%s.dll'
	v.fcstlib_PATTERN = v.implib_PATTERN = '%s.lib'

	v.FCLNK_TGT_F = '/out:'
	v.FC_TGT_F = ['/c', '/o', '']
	v.FCFLAGS_fcshlib = ''
	v.LINKFLAGS_fcshlib = '/DLL'
	v.AR_TGT_F = '/out:'
	v.IMPLIB_ST = '/IMPLIB:%s'

	v.append_value('LINKFLAGS', '/subsystem:console')
	if v.IFORT_MANIFEST:
		v.append_value('LINKFLAGS', ['/MANIFEST'])

@conf
def ifort_modifier_darwin(conf):
	fc_config.fortran_modifier_darwin(conf)

@conf
def ifort_modifier_platform(conf):
	dest_os = conf.env.DEST_OS or Utils.unversioned_sys_platform()
	ifort_modifier_func = getattr(conf, 'ifort_modifier_' + dest_os, None)
	if ifort_modifier_func:
		ifort_modifier_func()

@conf
def get_ifort_version(conf, fc):
	"""get the compiler version"""

	version_re = re.compile(r"\bIntel\b.*\bVersion\s*(?P<major>\d*)\.(?P<minor>\d*)",re.I).search
	if Utils.is_win32:
		cmd = fc
	else:
		cmd = fc + ['-logo']

	out, err = fc_config.getoutput(conf, cmd, stdin=False)
	match = version_re(out) or version_re(err)
	if not match:
		conf.fatal('cannot determine ifort version.')
	k = match.groupdict()
	conf.env['FC_VERSION'] = (k['major'], k['minor'])

def configure(conf):
	if Utils.is_win32:
		compiler, version, path, includes, libdirs, arch = conf.detect_ifort(True)
		v = conf.env
		v.DEST_CPU = arch
		v.PATH = path
		v.INCLUDES = includes
		v.LIBPATH = libdirs
		v.MSVC_COMPILER = compiler
		try:
			v.MSVC_VERSION = float(version)
		except Exception:
			raise
			v.MSVC_VERSION = float(version[:-3])

		conf.find_ifort_win32()
		conf.ifort_modifier_win32()
	else:
		conf.find_ifort()
		conf.find_program('xiar', var='AR')
		conf.find_ar()
		conf.fc_flags()
		conf.fc_add_flags()
		conf.ifort_modifier_platform()

import os, sys, re, tempfile
from waflib import Task, Logs, Options, Errors
from waflib.Logs import debug, warn
from waflib.TaskGen import after_method, feature

from waflib.Configure import conf
from waflib.Tools import ccroot, ar, winres


all_ifort_platforms = [ ('intel64', 'amd64'), ('em64t', 'amd64'), ('ia32', 'x86'), ('Itanium', 'ia64')]
"""List of icl platforms"""

@conf
def gather_ifort_versions(conf, versions):
	# some logic to try and list installed fortran compilers
	version_pattern = re.compile('^...?.?\....?.?')
	try:
		all_versions = Utils.winreg.OpenKey(Utils.winreg.HKEY_LOCAL_MACHINE, 'SOFTWARE\\Wow6432node\\Intel\\Compilers\\Fortran')
	except WindowsError:
		try:
			all_versions = Utils.winreg.OpenKey(Utils.winreg.HKEY_LOCAL_MACHINE, 'SOFTWARE\\Intel\\Compilers\\Fortran')
		except WindowsError:
			return
	index = 0
	while 1:
		try:
			version = Utils.winreg.EnumKey(all_versions, index)
		except WindowsError:
			break
		index = index + 1
		if not version_pattern.match(version):
			continue
		targets = []
		for target,arch in all_ifort_platforms:
			try:
				if target=='intel64': targetDir='EM64T_NATIVE'
				else: targetDir=target
				Utils.winreg.OpenKey(all_versions,version+'\\'+targetDir)
				icl_version=Utils.winreg.OpenKey(all_versions,version)
				path,type=Utils.winreg.QueryValueEx(icl_version,'ProductDir')
				batch_file=os.path.join(path,'bin','iclvars.bat')
				if os.path.isfile(batch_file):
					try:
						targets.append((target,(arch,get_compiler_env(conf,'intel',version,target,batch_file))))
					except conf.errors.ConfigurationError:
						pass
			except WindowsError:
				pass
		for target,arch in all_ifort_platforms:
			try:
				icl_version = Utils.winreg.OpenKey(all_versions, version+'\\'+target)
				path,type = Utils.winreg.QueryValueEx(icl_version,'ProductDir')
				batch_file=os.path.join(path,'bin','iclvars.bat')
				if os.path.isfile(batch_file):
					try:
						targets.append((target, (arch, get_compiler_env(conf, 'intel', version, target, batch_file))))
					except conf.errors.ConfigurationError:
						pass
			except WindowsError:
				continue
		major = version[0:2]
		versions.append(('intel ' + major, targets))


def setup_ifort(conf, versions, arch = False):
	"""
	Checks installed compilers and targets and returns the first combination from the user's
	options, env, or the global supported lists that checks.

	:param versions: A list of tuples of all installed compilers and available targets.
	:param arch: Whether to return the target architecture.
	:return: the compiler, revision, path, include dirs, library paths, and (optionally) target architecture
	:rtype: tuple of strings
	"""
	#platforms = getattr(Options.options, 'msvc_targets', '').split(',')
	#if platforms == ['']:
	platforms=Utils.to_list(conf.env['MSVC_TARGETS']) or [i for i,j in all_ifort_platforms]
	#desired_versions = getattr(Options.options, 'msvc_version', '').split(',')
	#if desired_versions == ['']:
	desired_versions = conf.env['MSVC_VERSIONS'] or [v for v,_ in versions][::-1]
	versiondict = dict(versions)

	for version in desired_versions:
		try:
			targets = dict(versiondict[version])
			for target in platforms:
				try:
					try:
						realtarget,(p1,p2,p3) = targets[target]
					except conf.errors.ConfigurationError:
						# lazytup target evaluation errors
						del(targets[target])
					else:
						compiler,revision = version.rsplit(' ', 1)
						if arch:
							return compiler,revision,p1,p2,p3,realtarget
						else:
							return compiler,revision,p1,p2,p3
				except KeyError:
					continue
		except KeyError:
			continue
	conf.fatal('msvc: Impossible to find a valid architecture for building (in setup_ifort)')

@conf
def get_ifort_version_win32(conf, compiler, version, target, vcvars):
	# FIXME hack
	try:
		conf.msvc_cnt += 1
	except AttributeError:
		conf.msvc_cnt = 1
	batfile = conf.bldnode.make_node('waf-print-msvc-%d.bat' % conf.msvc_cnt)
	batfile.write("""@echo off
set INCLUDE=
set LIB=
call "%s" %s
echo PATH=%%PATH%%
echo INCLUDE=%%INCLUDE%%
echo LIB=%%LIB%%;%%LIBPATH%%
""" % (vcvars,target))
	sout = conf.cmd_and_log(['cmd.exe', '/E:on', '/V:on', '/C', batfile.abspath()])
	batfile.delete()
	lines = sout.splitlines()

	if not lines[0]:
		lines.pop(0)

	MSVC_PATH = MSVC_INCDIR = MSVC_LIBDIR = None
	for line in lines:
		if line.startswith('PATH='):
			path = line[5:]
			MSVC_PATH = path.split(';')
		elif line.startswith('INCLUDE='):
			MSVC_INCDIR = [i for i in line[8:].split(';') if i]
		elif line.startswith('LIB='):
			MSVC_LIBDIR = [i for i in line[4:].split(';') if i]
	if None in (MSVC_PATH, MSVC_INCDIR, MSVC_LIBDIR):
		conf.fatal('msvc: Could not find a valid architecture for building (get_ifort_version_win32)')

	# Check if the compiler is usable at all.
	# The detection may return 64-bit versions even on 32-bit systems, and these would fail to run.
	env = dict(os.environ)
	env.update(PATH = path)
	compiler_name, linker_name, lib_name = _get_prog_names(conf, compiler)
	fc = conf.find_program(compiler_name, path_list=MSVC_PATH)

	# delete CL if exists. because it could contain parameters wich can change cl's behaviour rather catastrophically.
	if 'CL' in env:
		del(env['CL'])

	try:
		try:
			conf.cmd_and_log(fc + ['/help'], env=env)
		except UnicodeError:
			st = Utils.ex_stack()
			if conf.logger:
				conf.logger.error(st)
			conf.fatal('msvc: Unicode error - check the code page?')
		except Exception as e:
			debug('msvc: get_ifort_version: %r %r %r -> failure %s', compiler, version, target, str(e))
			conf.fatal('msvc: cannot run the compiler in get_ifort_version (run with -v to display errors)')
		else:
			debug('msvc: get_ifort_version: %r %r %r -> OK', compiler, version, target)
	finally:
		conf.env[compiler_name] = ''

	return (MSVC_PATH, MSVC_INCDIR, MSVC_LIBDIR)

def get_compiler_env(conf, compiler, version, bat_target, bat, select=None):
	"""
	Gets the compiler environment variables as a tuple. Evaluation is lazy by default,
	which means destructuring can throw :py:class:`conf.errors.ConfigurationError`
	If ``--no-msvc-lazy`` or ``env.MSVC_LAZY_AUTODETECT`` are set, then the values are
	evaluated at once.

	:param conf: configuration context to use to eventually get the version environment
	:param compiler: compiler name
	:param version: compiler version number
	:param bat: path to the batch file to run
	:param select: optional function to take the realized environment variables tup and map it (e.g. to combine other constant paths)
	"""
	lazy = getattr(Options.options, 'msvc_lazy', True)
	if conf.env.MSVC_LAZY_AUTODETECT is False:
		lazy = False

	def msvc_thunk():
		vs = conf.get_ifort_version_win32(compiler, version, bat_target, bat)
		if select:
			return select(vs)
		else:
			return vs
	return lazytup(msvc_thunk, lazy, ([], [], []))

class lazytup(object):
	"""
	A tuple that evaluates its elements from a function when iterated or destructured.

	:param fn: thunk to evaluate the tuple on demand
	:param lazy: whether to delay evaluation or evaluate in the constructor
	:param default: optional default for :py:func:`repr` if it should not evaluate
	"""
	def __init__(self, fn, lazy=True, default=None):
		self.fn = fn
		self.default = default
		if not lazy:
			self.evaluate()
	def __len__(self):
		self.evaluate()
		return len(self.value)
	def __iter__(self):
		self.evaluate()
		for i, v in enumerate(self.value):
			yield v
	def __getitem__(self, i):
		self.evaluate()
		return self.value[i]
	def __repr__(self):
		if hasattr(self, 'value'):
			return repr(self.value)
		elif self.default:
			return repr(self.default)
		else:
			self.evaluate()
			return repr(self.value)
	def evaluate(self):
		if hasattr(self, 'value'):
			return
		self.value = self.fn()

@conf
def get_ifort_versions(conf, eval_and_save=True):
	"""
	:return: list of compilers installed
	:rtype: list of string
	"""
	if conf.env['IFORT_INSTALLED_VERSIONS']:
		return conf.env['IFORT_INSTALLED_VERSIONS']

	# Gather all the compiler versions and targets. This phase can be lazy
	# per lazy detection settings.
	lst = []
	conf.gather_ifort_versions(lst)

	# Override lazy detection by evaluating after the fact.
	if eval_and_save:
		def checked_target(t):
			target,(arch,paths) = t
			try:
				paths.evaluate()
			except conf.errors.ConfigurationError:
				return None
			else:
				return t
		lst = [(version, list(filter(checked_target, targets))) for version, targets in lst]
		conf.env['IFORT_INSTALLED_VERSIONS'] = lst

	return lst

@conf
def detect_ifort(conf, arch = False):
	# Save installed versions only if lazy detection is disabled.
	versions = get_ifort_versions(conf, False)
	return setup_ifort(conf, versions, arch)

def _get_prog_names(conf, compiler):
	if compiler=='intel':
		compiler_name = 'ifort'
		linker_name = 'XILINK'
		lib_name = 'XILIB'
	else:
		# assumes CL.exe
		compiler_name = 'CL'
		linker_name = 'LINK'
		lib_name = 'LIB'
	return compiler_name, linker_name, lib_name

@conf
def find_ifort_win32(conf):
	# the autodetection is supposed to be performed before entering in this method
	v = conf.env
	path = v['PATH']
	compiler = v['MSVC_COMPILER']
	version = v['MSVC_VERSION']

	compiler_name, linker_name, lib_name = _get_prog_names(conf, compiler)
	v.IFORT_MANIFEST = (compiler == 'intel' and version >= 11)

	# compiler
	fc = conf.find_program(compiler_name, var='FC', path_list=path)

	# before setting anything, check if the compiler is really intel fortran
	env = dict(conf.environ)
	if path: env.update(PATH = ';'.join(path))
	if not conf.cmd_and_log(fc + ['/nologo', '/help'], env=env):
		conf.fatal('not intel fortran compiler could not be identified')

	v['FC_NAME'] = 'IFORT'

	# linker
	if not v['LINK_FC']:
		conf.find_program(linker_name, var='LINK_FC', path_list=path, mandatory=True)

	# staticlib linker
	if not v['AR']:
		conf.find_program(lib_name, path_list=path, var='AR', mandatory=True)
		v['ARFLAGS'] = ['/NOLOGO']

	# manifest tool. Not required for VS 2003 and below. Must have for VS 2005 and later
	if v.IFORT_MANIFEST:
		conf.find_program('MT', path_list=path, var='MT')
		v['MTFLAGS'] = ['/NOLOGO']

	try:
		conf.load('winres')
	except Errors.WafError:
		warn('Resource compiler not found. Compiling resource file is disabled')

#######################################################################################################
##### conf above, build below

@after_method('apply_link')
@feature('fc')
def apply_flags_ifort(self):
	"""
	Add additional flags implied by msvc, such as subsystems and pdb files::

		def build(bld):
			bld.stlib(source='main.c', target='bar', subsystem='gruik')
	"""
	if not self.env.IFORT_WIN32 or not getattr(self, 'link_task', None):
		return

	is_static = isinstance(self.link_task, ccroot.stlink_task)

	subsystem = getattr(self, 'subsystem', '')
	if subsystem:
		subsystem = '/subsystem:%s' % subsystem
		flags = is_static and 'ARFLAGS' or 'LINKFLAGS'
		self.env.append_value(flags, subsystem)

	if not is_static:
		for f in self.env.LINKFLAGS:
			d = f.lower()
			if d[1:] == 'debug':
				pdbnode = self.link_task.outputs[0].change_ext('.pdb')
				self.link_task.outputs.append(pdbnode)

				if getattr(self, 'install_task', None):
					self.pdb_install_task = self.add_install_files(install_to=self.install_task.dest, install_from=pdbnode)

				break

# split the manifest file processing from the link task, like for the rc processing

@feature('fcprogram', 'fcshlib', 'fcprogram_test')
@after_method('apply_link')
def apply_manifest_ifort(self):
	if self.env.IFORT_WIN32 and getattr(self, 'link_task', None):
		# it seems ifort.exe cannot be called for linking
		self.link_task.env.FC = self.env.LINK_FC

	if self.env.IFORT_WIN32 and self.env.IFORT_MANIFEST and getattr(self, 'link_task', None):
		out_node = self.link_task.outputs[0]
		man_node = out_node.parent.find_or_declare(out_node.name + '.manifest')
		self.link_task.outputs.append(man_node)
		self.link_task.do_manifest = True

def exec_mf(self):
	"""
	Create the manifest file
	"""
	env = self.env
	mtool = env['MT']
	if not mtool:
		return 0

	self.do_manifest = False

	outfile = self.outputs[0].abspath()

	manifest = None
	for out_node in self.outputs:
		if out_node.name.endswith('.manifest'):
			manifest = out_node.abspath()
			break
	if manifest is None:
		# Should never get here.  If we do, it means the manifest file was
		# never added to the outputs list, thus we don't have a manifest file
		# to embed, so we just return.
		return 0

	# embedding mode. Different for EXE's and DLL's.
	# see: http://msdn2.microsoft.com/en-us/library/ms235591(VS.80).aspx
	mode = ''
	if 'fcprogram' in self.generator.features or 'fcprogram_test' in self.generator.features:
		mode = '1'
	elif 'fcshlib' in self.generator.features:
		mode = '2'

	debug('msvc: embedding manifest in mode %r', mode)

	lst = [] + mtool
	lst.extend(Utils.to_list(env['MTFLAGS']))
	lst.extend(['-manifest', manifest])
	lst.append('-outputresource:%s;%s' % (outfile, mode))

	return self.exec_command(lst)

def quote_response_command(self, flag):
	if flag.find(' ') > -1:
		for x in ('/LIBPATH:', '/IMPLIB:', '/OUT:', '/I'):
			if flag.startswith(x):
				flag = '%s"%s"' % (x, flag[len(x):])
				break
		else:
			flag = '"%s"' % flag
	return flag

def exec_response_command(self, cmd, **kw):
	# not public yet
	try:
		tmp = None
		if sys.platform.startswith('win') and isinstance(cmd, list) and len(' '.join(cmd)) >= 8192:
			program = cmd[0] #unquoted program name, otherwise exec_command will fail
			cmd = [self.quote_response_command(x) for x in cmd]
			(fd, tmp) = tempfile.mkstemp()
			os.write(fd, '\r\n'.join(i.replace('\\', '\\\\') for i in cmd[1:]).encode())
			os.close(fd)
			cmd = [program, '@' + tmp]
		# no return here, that's on purpose
		ret = super(self.__class__, self).exec_command(cmd, **kw)
	finally:
		if tmp:
			try:
				os.remove(tmp)
			except OSError:
				pass # anti-virus and indexers can keep the files open -_-
	return ret

def exec_command_ifort(self, *k, **kw):
	"""
	Change the command-line execution for msvc programs.
	Instead of quoting all the paths and keep using the shell, we can just join the options msvc is interested in
	"""
	if isinstance(k[0], list):
		lst = []
		carry = ''
		for a in k[0]:
			if a == '/Fo' or a == '/doc' or a[-1] == ':':
				carry = a
			else:
				lst.append(carry + a)
				carry = ''
		k = [lst]

	if self.env['PATH']:
		env = dict(self.env.env or os.environ)
		env.update(PATH = ';'.join(self.env['PATH']))
		kw['env'] = env


	if not 'cwd' in kw:
		kw['cwd'] = self.get_cwd()
	ret = self.exec_response_command(k[0], **kw)
	if not ret and getattr(self, 'do_manifest', None):
		ret = self.exec_mf()
	return ret

def wrap_class(class_name):
	"""
	Manifest file processing and @response file workaround for command-line length limits on Windows systems
	The indicated task class is replaced by a subclass to prevent conflicts in case the class is wrapped more than once
	"""
	cls = Task.classes.get(class_name)

	if not cls:
		return None

	derived_class = type(class_name, (cls,), {})

	def exec_command(self, *k, **kw):
		if self.env.IFORT_WIN32:
			return self.exec_command_ifort(*k, **kw)
		else:
			return super(derived_class, self).exec_command(*k, **kw)

	# Chain-up monkeypatch needed since exec_command() is in base class API
	derived_class.exec_command = exec_command

	# No chain-up behavior needed since the following methods aren't in
	# base class API
	derived_class.exec_response_command = exec_response_command
	derived_class.quote_response_command = quote_response_command
	derived_class.exec_command_ifort = exec_command_ifort
	derived_class.exec_mf = exec_mf

	if hasattr(cls, 'hcode'):
		derived_class.hcode = cls.hcode

	return derived_class

for k in 'fc fcprogram fcprogram_test fcshlib fcstlib'.split():
	wrap_class(k)